pe-nlp/ov-kit-files-filtered-dedup-v2 · Datasets at Hugging Face

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omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/type_definitions.py	import enum from abc import ABC, abstractmethod from collections import namedtuple from typing import Callable, Dict, Iterable, NewType, Optional, Tuple import numpy as np Vector3d = NewType("Vector3d", np.ndarray) Vector3f = NewType("Vector3f", np.ndarray) Vector3h = NewType("Vector3h", np.ndarray) Float = NewType("Float", np.float) Float2 = NewType("Float2", np.ndarray) Float3 = NewType("Float3", np.ndarray) Float4 = NewType("Float4", np.ndarray) Half = NewType("Half", np.half) Half2 = NewType("Half2", np.ndarray) Half3 = NewType("Half3", np.ndarray) Half4 = NewType("Half4", np.ndarray) Double = NewType("Double", np.double) Double2 = NewType("Double2", np.ndarray) Double3 = NewType("Double3", np.ndarray) Double4 = NewType("Double4", np.ndarray) Int = NewType("Int", int) Int2 = NewType("Int2", np.ndarray) Int3 = NewType("Int3", np.ndarray) Int4 = NewType("Int4", np.ndarray) def int_to_int32(input: int) -> Int: return input & 0xFFFFFFFF Timecode = NewType("Timecode", float) Token = NewType("Token", str) UInt = NewType("UInt", np.uint) UChar = NewType("UChar", np.ubyte) def int_to_uchar(input: int) -> UChar: return input & 0xFF Matrix2d = NewType("Matrix2d", np.ndarray) Matrix3d = NewType("Matrix3d", np.ndarray) Matrix4d = NewType("Matrix4d", np.ndarray) Normal3f = NewType("Normal3f", np.ndarray) Normal3d = NewType("Normal3d", np.ndarray) Normal3h = NewType("Normal3h", np.ndarray) Point3f = NewType("Point3f", np.ndarray) Point3d = NewType("Point3d", np.ndarray) Point3h = NewType("Point3h", np.ndarray) Quatd = NewType("Quatd", np.ndarray) Quatf = NewType("Quatf", np.ndarray) Quath = NewType("Point3h", np.ndarray) TexCoord2d = NewType("TexCoord2d", np.ndarray) TexCoord2f = NewType("TexCoord2f", np.ndarray) TexCoord2h = NewType("TexCoord2h", np.ndarray) TexCoord3d = NewType("TexCoord3d", np.ndarray) TexCoord3f = NewType("TexCoord3f", np.ndarray) TexCoord3h = NewType("TexCoord3h", np.ndarray) Color3f = NewType("Color3f", np.ndarray) Color4f = NewType("Color4f", np.ndarray) Color3d = NewType("Color3d", np.ndarray) Color4d = NewType("Color4d", np.ndarray) Color3h = NewType("Color3h", np.ndarray) Color4h = NewType("Color4h", np.ndarray) all_types = [ Vector3d, Vector3f, Vector3h, Float, Float2, Float3, Float4, Half, Half2, Half3, Half4, Double, Double2, Double3, Double4, Int, Int2, Int3, Int4, Timecode, Token, UInt, UChar, Matrix2d, Matrix3d, Matrix4d, Normal3f, Normal3d, Normal3h, Point3f, Point3d, Point3h, Quatd, Quatf, Quath, TexCoord2d, TexCoord2f, TexCoord2h, TexCoord3d, TexCoord3f, TexCoord3h, Color3f, Color4f, Color3d, Color4d, Color3h, Color4h, ] TypeDesc = namedtuple( "TypeDesc", [ "type", "og_type", "type_to_og", "type_to_og_conversion_method", "og_to_type", "og_to_type_conversion_method", "default", ], ) # ================================================================================ class AutoNodeTypeConversion: """Static class for storing conversion methods between python types and Omnigraph types""" class Method(enum.Enum): ASSIGN = (0,) MODIFY = 1 # flake8: noqa: E241 types = [ TypeDesc(bool, "bool", bool, Method.ASSIGN, None, Method.ASSIGN, False), TypeDesc(Color3d, "colord[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Color3f, "colorf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Color3h, "colorh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Color4d, "colord[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Color4f, "colorf[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Color4h, "colorh[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Double, "double", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Double2, "double[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(Double3, "double[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Double4, "double[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(float, "double", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Float, "float", np.float, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Float2, "float[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(Float3, "float[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Float4, "float[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Half, "half", np.half, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Half2, "half[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(Half3, "half[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Half4, "half[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(int, "int64", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Int, "int", int_to_int32, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Int2, "int[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(Int3, "int[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Int4, "int[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Matrix2d, "matrixd[2]", None, Method.ASSIGN, None, Method.ASSIGN, ((1, 0), (0, 1))), TypeDesc(Matrix3d, "matrixd[3]", None, Method.ASSIGN, None, Method.ASSIGN, ((1, 0, 0), (0, 1, 0), (0, 0, 1))), TypeDesc( Matrix4d, "matrixd[4]", None, Method.ASSIGN, None, Method.ASSIGN, ((1, 0, 0, 0), (0, 1, 0, 0), (0, 0, 1, 0), (0, 0, 0, 1)), ), TypeDesc(Normal3d, "normald[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Normal3f, "normalf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Normal3h, "normalh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Point3d, "pointd[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Point3f, "pointf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Point3h, "pointh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Quatd, "quatd[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Quatf, "quatf[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Quath, "quath[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(str, "string", None, Method.ASSIGN, None, Method.ASSIGN, ""), TypeDesc(TexCoord2d, "texcoordd[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(TexCoord2f, "texcoordf[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(TexCoord2h, "texcoordh[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(TexCoord3d, "texcoordd[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(TexCoord3f, "texcoordf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(TexCoord3h, "texcoordh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Timecode, "timecode", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Token, "token", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(UInt, "uint", int_to_uchar, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(UChar, "uchar", int_to_uchar, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Vector3d, "vectord[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Vector3f, "vectorf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Vector3h, "vectorh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), ] user_types = [] # -------------------------------------------------------------------------------- def __init__(self): raise RuntimeError("AutoNodeTypeConversion is a static class, do not instantiate") # -------------------------------------------------------------------------------- @classmethod def from_type(cls, type_desc: type) -> Optional[TypeDesc]: """Searches the conversion registry using a python type. Args: type_desc: python type to convert Returns: TypeDesc for the found python type if it's found, None otherwise """ for tb in cls.user_types: if tb.type == type_desc: return tb for tb in cls.types: if tb.type == type_desc: return tb return None # -------------------------------------------------------------------------------- @classmethod def from_ogn_type(cls, og_type: str) -> Optional[TypeDesc]: """Searches the conversion registry using an Omnigraph type. Searches the user types first, defaults to the system types. Args: og_type: string representing the incoming ogn type Returns: TypeDesc for the found python type if it's found, None otherwise """ # TODO (OS): Solve for arrays for tb in cls.user_types: og_coded_type = tb.og_type if og_coded_type == og_type: return tb for tb in cls.types: og_coded_type = tb.og_type if og_coded_type == og_type: return tb return None # -------------------------------------------------------------------------------- @classmethod def register_type_conversion( cls, python_type: type, ogn_typename: str, python_to_ogn: Optional[Callable] = None, python_to_ogn_method: Method = Method.ASSIGN, ogn_to_python: Optional[Callable] = None, ogn_to_python_method: Method = Method.ASSIGN, default=None, ): """Registers a type conversion between a python type and an ogn type. Masks any existing system setting. If a previous user-submitted type conversion is registered, it will be overridden. Args: python_type: the type representation in python. ogn_typename: string representation of the ogn type. Node generation will fail if the type isn't recognized by ogn. python_to_ogn: [optional] function to convert a python return value to an OGN struct. Signature is Callable[[[python_type], object]. Defaults to None ogn_to_python: [optional] function to convert an OGN struct to a python return value. Signature is Callable[[[object], python_type]. Defaults to None """ desc = TypeDesc( python_type, ogn_typename, python_to_ogn, python_to_ogn_method, ogn_to_python, ogn_to_python_method, default ) unregistered = cls.unregister_type_conversion(python_type) if unregistered: carb.log_warn( "Registering an autograph type conversion for {type}->{ogn_typename} replaces anohter conversion for: {desc.type}->{og_type}" ) cls.user_types.append(desc) # -------------------------------------------------------------------------------- @classmethod def unregister_type_conversion(cls, python_type: type = None, ogn_type_name: str = None) -> Optional[TypeDesc]: """Unregisters a type conversion from python to ogn. Doesn't unregister system types. Args: python_type: the python type to be removed from support ogn_type_name: the ogn type name type to be removed from support Returns: The TypeDesc tuple just unregistered, or none. """ if python_type is not None: for desc in cls.user_types: if desc.type == python_type: cls.user_types.remove(desc) return desc if ogn_type_name is not None: for desc in cls.user_types: if desc.og_type == ogn_type_name: cls.user_types.remove(desc) return desc return None # ================================================================================ class AutoNodeDefinitionWrapper(ABC): """Container for a single node representation consumed by the Ogn code generator. Class is abstract and meant to be overridden. A sufficient implementation overrides these methods: * get_ogn(self) -> Dict * get_node_impl(self) * get_unique_name(self) -> str * get_module_name(self) -> str """ def __init__(self): super().__init__() # -------------------------------------------------------------------------------- @abstractmethod def get_ogn(self) -> Dict: """Get the Ogn dictionary representation of the node interface.""" return {} # -------------------------------------------------------------------------------- @abstractmethod def get_node_impl(self): """Returns the Ogn class implementing the node behavior. See omnigraph docuemntation on how to implement. A sufficient implementation contains a staticmethod with the function: compute(db) """ return None # -------------------------------------------------------------------------------- @abstractmethod def get_unique_name(self) -> str: """Get nodes unique name, to be saved as an accessor in the node database. Returns: the non-manlged unique name """ return "" # -------------------------------------------------------------------------------- @abstractmethod def get_module_name(self) -> str: """Get the module this autograph method was defined in. Returns: the module name """ return "" # ================================================================================ class AutoNodeDefinitionGenerator(ABC): """Defines an interface for generating a node definition""" _name = "" # -------------------------------------------------------------------------------- @classmethod def name(cls): return cls._name # -------------------------------------------------------------------------------- @classmethod @abstractmethod def generate_from_definitions(cls, new_type: type) -> Tuple[Iterable[AutoNodeDefinitionWrapper], Iterable[str]]: """This method scans the type new_type and outputs an AutoNodeDefinitionWrapper from it, representing the type, as well as a list of members it wishes to hide from the rest of the node extraction process. Args: new_type: the type to analyze by attribute Returns: a tuple of: Iterable[AutoNodeDefinitionWrapper] - an iterable of AutoNodeDefinitionWrapper - every node wrapper that is generated from this type. Iterable[str] - an iterable of all members covered by this handler that other handlers should ignore. """ pass class AutographDataWrapper: """Class to wrap around data being passed in the graph, to ensure a standard interface for passing data in the graph. Accepts both reference and value types. """ # -------------------------------------------------------------------------------- def __init__(self, value) -> None: self._value = value self._type = type(value) if isinstance(self._type, AutographDataWrapper): raise KeyError("Attempted to wrap a datawrapper") # -------------------------------------------------------------------------------- @property def value(self): """Returns the stored value without side effects""" return self._value # -------------------------------------------------------------------------------- @property def type(self) -> type: """Returns the value type stored at initialization time without side effects""" return self._type class AutographObjectStore: """Obejct store with simple put-pop interface.""" # -------------------------------------------------------------------------------- def __init__(self): self._store = {} # -------------------------------------------------------------------------------- def pop(self, obj_id: int) -> AutographDataWrapper: """Attempts to return a value from the object store, and deletes it from the store. Args: obj_id: the object ID to be retrieved Returns: an AutographDataWrapper if successful Raises: KeyError if the object isn't there. """ return self._store.pop(obj_id) # -------------------------------------------------------------------------------- def put(self, obj_id: int, value: AutographDataWrapper) -> Optional[AutographDataWrapper]: """Places an object in the object store according to an object ID. If an object already exists in the data store with the same ID, it is popped. Args: obj_id: integer object ID for input object value: the actual object ID. Does not check for types. Returns: The previous object with the same ID stored in the object store, None otherwise. """ swapped = self._store.get(obj_id, None) self._store[obj_id] = value return swapped # ================================================================================ class TypeRegistry: """Main singleton for storing graph objects and generating and registering functions.""" def __init__(self): raise RuntimeError("Singleton class, use instance() instead") # -------------------------------------------------------------------------------- def _initialize(self): self.class_to_methods: Dict[type, Dict[str, str]] = {} # Meant to make accessing functions easier self.func_name_to_func = {} # Meant to keep a pointer to an object, so it doesn't get garbage collected self.refs = AutographObjectStore() # Meant to handle types whene generating nodes self.type_handlers = set() # Stores omnigraph implementations self._impl_modules = {} # -------------------------------------------------------------------------------- @classmethod def _reset(cls): """Resets all internal data strucutres. Does not unregister nodes.""" cls.instance()._initialize() # -------------------------------------------------------------------------------- @classmethod def instance(cls): """Retrieves the class instance for this singleton. Returns: Class instance """ if not hasattr(cls, "_instance"): cls._instance = cls.__new__(cls) cls._instance._initialize() return cls._instance # -------------------------------------------------------------------------------- @classmethod def get_func(cls, unique_name: str) -> Optional[AutoNodeDefinitionWrapper]: """Retrieves a function from the object store Attributes unique_name: function's qualified name. Name mangling is handled by this class Returns: Function Wrapper. """ return cls.instance().func_name_to_func.get(unique_name, None) # -------------------------------------------------------------------------------- @classmethod def add_to_graph(cls, obj) -> int: """Adds an object `obj` to the data store without checking for uniqueness of held object. Does check uniqueness of reference object. Attributes obj: Object to add to the data store. Returns: the object id. """ wrapper = AutographDataWrapper(obj) obj_id = id(wrapper) cls.instance().refs.put(obj_id, wrapper) return obj_id # -------------------------------------------------------------------------------- @classmethod def remove_from_graph(cls, obj_id: int) -> AutographDataWrapper: """Attempts to remove an object ID from the object store. Attributes obj_id: the object ID to be removed from the data store. Returns: the object stored if it was found, None otherwise. """ return cls.instance().refs.pop(obj_id)	20,788	Python	36.867031	161	0.550125
omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/core.py	import importlib from typing import Callable import omni.graph.tools.ogn as ogn from ..settings import Settings from .type_definitions import AutoNodeDefinitionWrapper, TypeRegistry # ============================================================================================================== class AutoNode: @staticmethod def registry(): return TypeRegistry.instance() # -------------------------------------------------------------------------------- @staticmethod def generate_code_and_store( wrapper: AutoNodeDefinitionWrapper, unique_name: str, *, module_name: str = None ) -> None: """Generates the implementation for the Ogn class and stores it in the registry. Attributes func_wrapper: Positional. The function wrapper object for which code should be generated. func_name: name of function getting stored. Name is assumed to be sanitized module_name: [optional] override the name of the module as detected by the reflection system. """ if not unique_name.find(".") == -1: raise NameError(f"{unique_name} is not a valid name for a class, since it contains a '.'") AutoNode.registry().func_name_to_func[unique_name] = wrapper name_prefixed = f"Ogn_{unique_name}" module_name = module_name or wrapper.get_module_name() code = ogn.code_generation( wrapper.get_ogn(), name_prefixed, module_name, "omni.graph.tools", Settings.generator_settings(), ) ################## # Code Injection # ################## # create a virtual module v_module = importlib.util.module_from_spec(globals()["__spec__"]) AutoNode.registry()._impl_modules[name_prefixed] = v_module # noqa: PLW0212 # inject dependencies into the generated module v_module.__dict__["AutoNode"] = AutoNode # v_module.__dict__.update([(a.__name__, a) for a in all_types]) # DANGER ZONE: execute the python node database definition in the target node exec(code["python"], vars(v_module)) # noqa: PLW0122 # inject the generated implementation into the module setattr(v_module, name_prefixed, wrapper.get_node_impl()) node_class = getattr(v_module, name_prefixed) # retrieve the registration action from the node db and register the node db_class = getattr(v_module, name_prefixed + "Database") do_register = db_class.register do_register(node_class) # -------------------------------------------------------------------------------- @staticmethod def generate_custom_node(wrapper: AutoNodeDefinitionWrapper): AutoNode.generate_code_and_store( wrapper, unique_name=wrapper.get_unique_name(), module_name=wrapper.get_module_name() ) # ============================================================================================================== class AutoNodeEvaluationDelayedExecutionQueue: _queue = [] def __init__(self): raise RuntimeError("AutoNodeEvaluationDelayedExecutionQueue is a singleton") # -------------------------------------------------------------------------------- @classmethod def instance(cls): if not hasattr(cls, "_instance"): cls._instance = cls.__new__(cls) # -------------------------------------------------------------------------------- @classmethod def add_to_queue(cls, callable_fn: Callable): cls.instance()._queue.append(callable_fn) # noqa: PLW0212 # -------------------------------------------------------------------------------- @classmethod def execute_queue(cls): while len(cls.instance()._queue) > 0: # noqa: PLW0212 callable_fn = cls.instance()._queue.pop() # noqa: PLW0212 callable_fn()	3,932	Python	37.558823	112	0.524669
omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/autonode.py	""" AutoNode - module for decorating code to populate it into OmniGraph nodes. Allows generating nodes by decorating free functions, classes and modules by adding `@AutoFunc()` or `@AutoClass()` to the declaration of the class. Generating code relies on function signatures provided by python's type annotations, therefore the module only supports native python types with `__annotations__`. CPython classes need need to be wrapped for now. Exports: `AutoClass`, `AutoFunc` How an AutoNode decorator works: # TODO How an AutoNode function execution works: 1. Attribute discovery Attributes are scanned from the db at runtime 2. Attribute type resolution types.py contains type conversion facilities to decide on the outgoing type of afunction 3. Attribute value resolution If needed, values are retrieved from the object store 4. Function execution function is called. 5. Return value resolution if the return value needs to be stored outside node, it happens now. 6. Dispatch to other nodes propagation of values and execution statnode""" # standard lib imports import inspect # meta imports from typing import Callable, Dict, List # framework imports import carb from .core import AutoNode from .enum_wrappers import EnumAutoNodeDefinitionGenerator from .event import EventAutoNodeDefinitionGenerator from .function import AutoFunctionWrapper from .property import AutoPropertyWrapper # module imports from .type_definitions import AutoNodeDefinitionGenerator from .util import FUNC_INFIX, GET_SUFFIX, PROP_INFIX, SET_SUFFIX, is_private, python_name_to_ui_name, sanitize_qualname # ================================================================================ def GenerateAutoFunc( # noqa: N802 func: Callable, , qualname: str = None, ui_name: str = None, pure: bool = False, module_name: str = None, tags: List[str] = None, annotation: Dict = None, ): """Decorator for methods and function objects. Attributes func: the function object being wrapped. Should be a pure python function object or any other callable which has an `__annotations__` property. qualname: [optional] override the inferred qualified name ui_name: [optional] name that appears in the funcion's menu and node display. pure: [optional] override this function to be a pure function - a function independent of object state and without side effects, which doesn't enforce a specific execution order. module_name:[optional] override the inferred module name tags: [optional] annotation: [optional] override annotations """ qualname = qualname or func.__qualname__ unique_name = sanitize_qualname(qualname) module_name = module_name or func.__module__ ui_name = ui_name or python_name_to_ui_name(qualname) func_wrapper = AutoFunctionWrapper( func, unique_name=unique_name, ui_name=ui_name, pure=pure, tags=tags, annotation=annotation ) AutoNode.generate_code_and_store(func_wrapper, unique_name=unique_name, module_name=module_name) return func # ================================================================================ def GenerateAutoClass(target_class, , module_name: str, annotation: Dict = None): # noqa: N802 """Decorator for classes. Registers the class in the type registry, and returns the wrapped class. Attributes target_class: class being wrapped. module_name: [optional] override the inferred module name annotation: a dict containing annotations for all members in the class. Used if passed a type with no annotations. """ class_directory = {} module_name = module_name or target_class.__module__ class_shortname = target_class.__name__ class_unique_name = f"{target_class.__qualname__}" class_sanitized_name = sanitize_qualname(target_class.__qualname__) # first, extract special type functionality and ignore special type helpers members_to_ignore = set() for type_handler in AutoNode.registry().type_handlers: definitions, members = type_handler.generate_from_definitions( target_type=target_class, type_name_sanitized=class_sanitized_name, type_name_short=class_shortname, module_name=module_name, ) for definition in definitions: AutoNode.generate_custom_node(definition) members_to_ignore.update(members) def _member_filter(name): ret = True ret &= not is_private(name) ret &= name not in members_to_ignore return ret members_to_scan = [key for key in target_class.__dict__ if _member_filter(key)] # scan remaining, ordinary members for key in members_to_scan: key_unique_name = f"{class_unique_name} : {python_name_to_ui_name(key)}" value = target_class.__dict__[key] if inspect.ismethoddescriptor(value): # this method came from C++, but isn't a function if annotation is None or key not in annotation: # can't handle instance methods for now carb.log_warn( f"Can't wrap {key_unique_name}: C functions require an annotation shim and none was provided" ) continue func_sanitized_name = f"{class_sanitized_name}{FUNC_INFIX}{key}" func_ui_name = f"{class_unique_name} : {python_name_to_ui_name(key)}" GenerateAutoFunc( value, qualname=func_sanitized_name, ui_name=func_ui_name, module_name=module_name, pure=False, annotation=annotation[key], ) class_directory[key] = func_sanitized_name elif inspect.isfunction(value): # python function object func_sanitized_name = f"{class_sanitized_name}{FUNC_INFIX}{key}" func_ui_name = f"{class_unique_name} : {python_name_to_ui_name(key)}" shim = annotation.get(key, None) if annotation else None GenerateAutoFunc( value, qualname=func_sanitized_name, ui_name=func_ui_name, module_name=module_name, pure=False, annotation=shim, ) class_directory[key] = func_sanitized_name elif inspect.isdatadescriptor(value): # has a getter, a setter and a deleter prop_sanitized_name = f"{class_sanitized_name}{PROP_INFIX}{key}" getter_sanitized_name = f"{prop_sanitized_name}{GET_SUFFIX}" getter_ui_name = f"{class_unique_name} : Get {key}" setter_sanitized_name = f"{prop_sanitized_name}{SET_SUFFIX}" setter_ui_name = f"{class_unique_name} : Set {key}" type_override = annotation.get(key, None) if annotation else None if not type_override: carb.log_warn(f"{class_unique_name}.{key} has no annotation, and will be skipped") continue getter_shim = {"return": type_override} setter_shim = {"value": type_override, "return": None} GenerateAutoFunc( value.getter, qualname=getter_sanitized_name, ui_name=getter_ui_name, module_name=module_name, annotation=getter_shim, ) GenerateAutoFunc( value.setter, qualname=setter_sanitized_name, ui_name=setter_ui_name, module_name=module_name, annotation=setter_shim, ) class_directory[key] = {"get": getter_sanitized_name, "set": setter_sanitized_name} else: # it's a value and should be wrapped in a property prop_sanitized_name = f"{class_sanitized_name}{PROP_INFIX}{key}" getter_sanitized_name = f"{prop_sanitized_name}{GET_SUFFIX}" getter_ui_name = f"{class_unique_name} : Get {key}" setter_sanitized_name = f"{prop_sanitized_name}{SET_SUFFIX}" setter_ui_name = f"{class_unique_name} : Set {key}" shim = annotation.get(key, None) if annotation else None wrapper = AutoPropertyWrapper(target_class, name=key, type_override=shim) GenerateAutoFunc( wrapper.get, qualname=getter_sanitized_name, ui_name=getter_ui_name, module_name=module_name, pure=False ) GenerateAutoFunc( wrapper.set, qualname=setter_sanitized_name, ui_name=setter_ui_name, module_name=module_name, pure=False ) class_directory[key] = {"get": getter_sanitized_name, "set": setter_sanitized_name} AutoNode.registry().func_name_to_func[prop_sanitized_name] = wrapper AutoNode.registry().class_to_methods[target_class] = class_directory return target_class ################################################################################## # # # public interface # # # ################################################################################## # ================================================================================ def AutoClass(kwargs): # noqa: N802 # inject locals for linking if "module_name" not in kwargs: try: kwargs["module_name"] = inspect.currentframe().f_back.f_locals["__package__"] except (AttributeError, KeyError): kwargs["module_name"] = "default_module" carb.log_warn("No module name found in package. Assigning default name 'default_module'") def ret(cls): return GenerateAutoClass(cls, kwargs) # noqa: PLE1125 ret.__doc__ = GenerateAutoClass.__doc__ return ret # ================================================================================ def AutoFunc(kwargs): # noqa: N802 # inject locals for linking if "module_name" not in kwargs: try: kwargs["module_name"] = inspect.currentframe().f_back.f_locals["__package__"] except (AttributeError, KeyError): kwargs["module_name"] = "default_module" carb.log_warn("No module name found in package. Assigning default name 'default_module'") def ret(func): return GenerateAutoFunc(func, kwargs) ret.__doc__ = GenerateAutoFunc.__doc__ return ret # ================================================================================ def register_autonode_type_extension(handler: AutoNodeDefinitionGenerator, kwargs): # if "module_name" not in kwargs: # kwargs['module_name'] = inspect.currentframe().f_back.f_locals["__package__"] AutoNode.registry().type_handlers.add(handler) # ================================================================================ def unregister_autonode_type_extension(handler: AutoNodeDefinitionGenerator, kwargs): # if "module_name" not in kwargs: # kwargs['module_name'] = inspect.currentframe().f_back.f_locals["__package__"] AutoNode.registry().type_handlers.remove(handler) # should help clean in hot reloads AutoNode.registry()._reset() # noqa: PLW0212 # Add Enums register_autonode_type_extension(EnumAutoNodeDefinitionGenerator) # Add Events register_autonode_type_extension(EventAutoNodeDefinitionGenerator)	11,670	Python	38.296296	120	0.594173
omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/property.py	# ================================================================================ class AutoPropertyWrapper: """Wrapper to generate a getter and setter from a property in a class""" def __init__(self, target_class, name: str, *, type_override: type = None) -> None: try: self._type = type_override or target_class.__annotations__[name] except KeyError: self._type = type(target_class.__dict__[name]) self._name = name self.get.__annotations__["target"] = type(target_class) self.get.__annotations__["return"] = self._type self.set.__annotations__["target"] = type(target_class) self.set.__annotations__["value"] = self._type def get(self, target): return getattr(target, self._name) def set(self, target, value): # noqa: A003 setattr(target, self._name, value) return target	903	Python	35.159999	87	0.542636
omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/enum_wrappers.py	from typing import Dict, Iterable, OrderedDict, Tuple import carb from .type_definitions import AutoNodeDefinitionGenerator, AutoNodeDefinitionWrapper from .util import GeneratedCode # ================================================================================ class OgnEnumExecutionWrapper: def __init_subclass__(cls, target_class: type) -> None: cls.target_class = target_class cls.member_names = list(target_class.__members__) cls.generate_compute() @classmethod def generate_compute(cls): code = GeneratedCode() code.line("from .type_definitions import TypeRegistry") code.line("@classmethod") with code.indent("def compute(args):"): code.line("cls = args[0]") code.line("db = args[1]") with code.indent("if not db.inputs.exec:"): code.line("return True") code.line("input = db.inputs.enum") code.line("value = TypeRegistry.remove_from_graph(input).value") for name in cls.member_names: code.line(f"db.outputs.{name} = bool(value == cls.target_class.{name})") code.line("return True") carb.log_verbose(f"Generated code for {cls.target_class}:\n{str(code)}") exec(str(code), globals()) # noqa: PLW0122 cls.compute = compute # noqa: Defined in exec() code # ================================================================================ class OgnEnumWrapper(AutoNodeDefinitionWrapper): """Wrapper around Enums""" def __init__(self, target_class, unique_name: str, module_name: str, , ui_name: str = None): super().__init__() self.target_class = target_class self.unique_name = unique_name self.ui_name = ui_name or target_class.__name__ self.module_name = module_name self.descriptor: Dict = {} self.descriptor["uiName"] = ui_name self.descriptor["version"] = 1 self.descriptor["language"] = "Python" self.descriptor["description"] = f"Enum Wrapper for {self.ui_name}" self.descriptor["inputs"] = OrderedDict( { "enum": { "uiName": "Input", "description": "Enum input", "type": "objectId", "default": 0, "metadata": {"python_type_desc": self.unique_name}, }, "exec": {"uiName": "Exec", "description": "Execution input", "type": "execution", "default": 0}, } ) def signature(name): return {"uiName": name, "description": f"Execute on {name}", "type": "execution", "default": 0} self.descriptor["outputs"] = OrderedDict({name: signature(name) for name in self.target_class.__members__}) # -------------------------------------------------------------------------------- def get_unique_name(self) -> str: return self.unique_name # -------------------------------------------------------------------------------- def get_module_name(self) -> str: return self.module_name # -------------------------------------------------------------------------------- def get_node_impl(self): class OgnEnumReturnType(OgnEnumExecutionWrapper, target_class=self.target_class): pass return OgnEnumReturnType # -------------------------------------------------------------------------------- def get_ogn(self) -> Dict: d = {self.unique_name: self.descriptor} return d # ================================================================================ class EnumAutoNodeDefinitionGenerator(AutoNodeDefinitionGenerator): _name = "Enum" # -------------------------------------------------------------------------------- @classmethod def generate_from_definitions( # noqa: PLW0221 cls, target_type: type, type_name_sanitized: str, type_name_short: str, module_name: str ) -> Tuple[Iterable[AutoNodeDefinitionWrapper], Iterable[str]]: members_covered = set() returned_generators = set() if hasattr(target_type, "__members__"): ret = OgnEnumWrapper( target_type, unique_name=type_name_sanitized, module_name=module_name, ui_name=f"Switch on {type_name_short}", ) members_covered.update(target_type.__members__) returned_generators.add(ret) return returned_generators, members_covered	4,582	Python	38.17094	115	0.498691
omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/update_file_format.py	"""File format upgrade utilities""" from typing import Any, Dict, List, Optional, Tuple import carb import omni.graph.core as og import omni.usd from omni.kit.commands import execute from pxr import Gf, OmniGraphSchema, Usd from .utils import ALLOW_IMPLICIT_GRAPH_SETTING, USE_SCHEMA_PRIMS_SETTING EXTENDED_ATTRIBUTE_SCOPED_CUSTOM_DATA_VERSION = og.FileFormatVersion(1, 5) LAST_FILE_FORMAT_VERSION_WITHOUT_SCHEMA = og.FileFormatVersion(1, 10) """TODO: This is the last file format version where it is possible to have OmniGraph prims that do not use the schema It should be updated when the final deprecation is made. """ # ============================================================================================================== def remove_global_compute_graph(old_format_version, new_format_version, graph): """If the setting to allow a global implicit graph is not on then remove it if found and replace it with a regular graph""" settings = carb.settings.get_settings() allow_implicit_graph = settings.get(ALLOW_IMPLICIT_GRAPH_SETTING) # If the schema is enabled it will fix the global compute graphs too use_schema_prims = settings.get(og.USE_SCHEMA_PRIMS_SETTING) if not allow_implicit_graph and not use_schema_prims: stage = omni.usd.get_context().get_stage() if stage is not None: iterator = iter(stage.TraverseAll()) for prim in iterator: if prim.GetTypeName() == "GlobalComputeGraph": carb.log_info( "Converting " + prim.GetPrimPath().pathString + "from GlobalComputeGraph to ComputeGraph" ) prim.SetTypeName("ComputeGraph") iterator.PruneChildren() # ============================================================================================================== def check_for_bare_connections(stage: Usd.Stage) -> List[str]: """Check for any of the old unsupported connections from nodes to prims that cannot exist in schema-based world Return: List of strings describing the forbidden connections found """ iterator = iter(stage.TraverseAll()) bad_connections = [] for prim in iterator: if prim.GetTypeName() in ["ComputeNode", "OmniGraphNode"]: for attribute in prim.GetAttributes(): for connected_path in attribute.GetConnections(): connected_prim = stage.GetPrimAtPath(connected_path.GetPrimPath()) if not connected_prim.IsValid(): carb.log_warn( f"Invalid connection found at {attribute.GetPath()}:" f" {connected_path.GetPrimPath()} while migrating to new schema" ) elif connected_prim.GetTypeName() not in ["ComputeNode", "OmniGraphNode"]: bad_connections.append(f"{prim.GetPrimPath()} - {connected_path}") return bad_connections # ============================================================================================================== def migrate_attribute_custom_data( old_format_version: og.FileFormatVersion, new_format_version: og.FileFormatVersion, _ ): """Add scoped customData to attributes which have the old format""" if old_format_version < EXTENDED_ATTRIBUTE_SCOPED_CUSTOM_DATA_VERSION: stage = omni.usd.get_context().get_stage() if stage is None: return iterator = iter(stage.TraverseAll()) for prim in iterator: if prim.GetTypeName() in ["OmniGraphNode", "ComputeNode"]: for attribute in prim.GetAttributes(): custom_data = attribute.GetCustomData() extended_type = custom_data.get("ExtendedAttributeType", None) if extended_type: attribute.SetCustomDataByKey("omni:graph:attrType", extended_type) iterator.PruneChildren() # ============================================================================================================== class OmniGraphSchemaMigrator: """Collection of methods to manage all of the steps involved in migrating an arbitrary graph to use schema prims""" def __init__(self): """Set up initial values""" self.__command_count = 0 # -------------------------------------------------------------------------------------------------------------- @property def stage(self) -> Usd.Stage: """Returns the stage in use - set as a property so that the latest version is always used as it changes""" return omni.usd.get_context().get_stage() # -------------------------------------------------------------------------------------------------------------- def __check_for_old_prim_nodes(self) -> List[str]: """Check for any of the old unsupported prim nodes that cannot exist in schema-based world Return: List of prim paths for any unsupported prim node types """ iterator = iter(self.stage.TraverseAll()) prim_nodes = [] for prim in iterator: if prim.GetTypeName() == "ComputeNode": node_type_attr = prim.GetAttribute("node:type") if node_type_attr.IsValid() and node_type_attr.Get() == "omni.graph.core.Prim": prim_nodes.append(prim.GetPrimPath()) return prim_nodes # -------------------------------------------------------------------------------------------------------------- def __change_prim_types_to_match_schema(self) -> List[Tuple[str, str, str]]: """Modify any old prim names to match the ones used by the schema Return: List of (path, old_type, new_type) for prims whose type was changed """ iterator = iter(self.stage.TraverseAll()) retyped = [] for prim in iterator: if prim.GetTypeName() in ["GlobalComputeGraph", "ComputeGraph"]: carb.log_info(f"Converting graph {prim.GetPrimPath()} from {prim.GetTypeName()} to OmniGraph") retyped.append((str(prim.GetPrimPath()), prim.GetTypeName(), "OmniGraph")) prim.SetTypeName("OmniGraph") elif prim.GetTypeName() == "ComputeNode": carb.log_info(f"Converting node {prim.GetPrimPath()} from ComputeNode to OmniGraphNode") retyped.append((str(prim.GetPrimPath()), prim.GetTypeName(), "OmniGraphNode")) prim.SetTypeName("OmniGraphNode") # Ensure that the schema-defined attributes on the node are no longer custom node_prim = OmniGraphSchema.OmniGraphNode(prim) if node_prim: node_type_attr = node_prim.GetNodeTypeAttr() if node_type_attr.IsValid(): if not node_type_attr.SetCustom(False): carb.log_warn(f"Failed to set node:type attribute to non-custom on {prim.GetPrimPath()}") else: carb.log_warn(f"OmniGraph prim node {prim.GetPrimPath()} has no node:type attribute") node_type_version_attr = node_prim.GetNodeTypeVersionAttr() if node_type_version_attr.IsValid(): if not node_type_version_attr.SetCustom(False): carb.log_warn( f"Failed to set node:typeVersion attribute to non-custom on {prim.GetPrimPath()}" ) else: carb.log_warn(f"OmniGraph prim node {prim.GetPrimPath()} has no node:type attribute") else: # This might be an error or it might just be the fact that the USD notification to change the type # hasn't been processed yet. As this is only temporary compatibility code and we know that when # reading a file the prims are immediately valid there is no need to add the complexity here to # tie into an event loop and await the USD notification propagation. pass return retyped # -------------------------------------------------------------------------------------------------------------- def __create_top_level_graph(self) -> List[Tuple[str, str]]: """If there are any nodes or settings not in a graph then create a graph for them and move them into it. Assumes that before calling this all of the old prim type names have been replaced with the schema prim type names. Args: stage: USD stage on which to replace settings Return: List of (old_path, new_path) for prims that were moved from the root level to a new graph Raises: og.OmniGraphError if the required prim changes failed """ iterator = iter(self.stage.TraverseAll()) # Collect this map of settings prim path onto the path at which the parent graph must be created prims_to_move = [] for prim in iterator: if prim.GetTypeName() in ["ComputeGraphSettings", "OmniGraphNode"]: parent = prim.GetParent() if not parent.IsValid() or parent.GetTypeName() != "OmniGraph": prims_to_move.append(prim) elif prim.GetTypeName() in ["ComputeGraph", "OmniGraph"]: iterator.PruneChildren() prim_paths_moved = [] if prims_to_move: carb.log_info(f"Creating top level graph for global nodes {[prim.GetPrimPath() for prim in prims_to_move]}") for prim in prims_to_move: parent_path = str(prim.GetParent().GetPrimPath()) if parent_path[-1] != "/": parent_path += "/" default_global_graph_path = f"{parent_path}__graphUsingSchemas" global_graph_prim = self.stage.GetPrimAtPath(default_global_graph_path) if not global_graph_prim: (status, result) = execute("CreatePrim", prim_path=default_global_graph_path, prim_type="OmniGraph") if not status: raise og.OmniGraphError( f"Error creating OmniGraph prim at {default_global_graph_path} - {result}" ) new_prim_path = f"{default_global_graph_path}/{prim.GetName()}" prim_paths_moved.append((str(prim.GetPrimPath()), new_prim_path)) carb.log_info(f"Move {prim.GetPrimPath()} -> {new_prim_path}") (status, result) = execute("MovePrim", path_from=prim.GetPrimPath(), path_to=new_prim_path) if not status: raise og.OmniGraphError( f"Error moving OmniGraph prim from {prim.GetPrimPath()} to {new_prim_path} - {result}" ) return prim_paths_moved # -------------------------------------------------------------------------------------------------------------- def __replace_settings_with_properties(self, new_file_format_version: Tuple[int, int]) -> List[str]: """If there are any of the old settings prims move their property values into their containing graph. Args: new_file_format_version: The file format version that should be used for the graph setting Return: List of prim paths with settings that were transferred to the containing graph and then deleted """ iterator = iter(self.stage.TraverseAll()) prims_to_remove = [] for prim in iterator: # noqa: PLR1702 if prim.GetTypeName() == "ComputeGraphSettings": carb.log_info(f"Moving settings from {prim.GetPrimPath()} into the parent graph") graph_prim = prim.GetParent() # Need to check against the old types as well as the USD change notices may not have percolated if graph_prim.IsValid() and graph_prim.GetTypeName() in [ "GlobalComputeGraph", "ComputeGraph", "OmniGraph", ]: for attr in prim.GetAttributes(): setting_name = attr.GetName() setting_value = attr.Get() if setting_name == "flatCacheBacking": setting_name = "fabricCacheBacking" if setting_value == "StagedWithHistory": setting_value = "StageWithHistory" graph_attr = graph_prim.GetAttribute(setting_name) if not graph_attr.IsValid(): graph_attr = graph_prim.CreateAttribute( setting_name, attr.GetTypeName(), custom=False, variability=attr.GetVariability() ) if graph_attr.IsValid(): graph_attr.Set(setting_value) else: carb.log_warn( f"Could not create settings attribute {attr.GetName()}" f" on graph {graph_prim.GetPrimPath()}" ) prims_to_remove.append(str(prim.GetPrimPath())) schema_prim = OmniGraphSchema.OmniGraph(graph_prim) if bool(schema_prim): file_format_version_attr = schema_prim.GetFileFormatVersionAttr() file_format_version_attr.Set(Gf.Vec2i(new_file_format_version)) else: carb.log_warn(f"Could not cast graph prim {graph_prim.GetPrimPath()} to OmniGraph schema") else: carb.log_warn(f"Could not find graph above {prim.GetPrimPath()} to receive settings") elif prim.GetTypeName() == "ComputeNodeMetadata": # Take advantage of the loop to also get rid of the obsolete metadata children prims_to_remove.append(str(prim.GetPrimPath())) if prims_to_remove: (status, result) = execute("DeletePrims", paths=prims_to_remove) if not status: raise og.OmniGraphError(f"Error deleting prims {prims_to_remove} - {result}") return prims_to_remove # -------------------------------------------------------------------------------------------------------------- # Handling for old files that did not use the OmniGraph schema (earlier than 1.3) def update(self, new_file_format_version: Optional[Tuple[int, int]] = None) -> Dict[str, Any]: """Update the current file to use the new schema. This can run either before OmniGraph has attached to the stage (e.g. when reading in an old file) or when an explicit migration has been requested (e.g. when an old file exists and the user wants to migrate it). In both cases if any prim types have been migrated the useSchemaPrims setting will be forced to True so that subsequent OmniGraph additions use the schema types. (Mostly because this is easier than trying to track the state of whether a graph contains such prims already.) Conversion of old scenes entails: - Changing any ComputeGraph or GlobalComputeGraph prims to be OmniGraph types - If a ComputeGraphSettings prim exists, migrating its attribute values to the OmniGraph prim - Changing any ComputeNode prims to be OmniGraphNode types - If any ComputeNode prims appear without a parent ComputeGraph then create a default graph and move them into it Args: new_file_format_version: The file format version that should be used for the graph setting. If None then it will force the version immediately following the schema conversion (1, 4) Return: A dictionary of operations that were performed as part of the migration (key describes the operation, value is the objects to which it was applied) """ stage = omni.usd.get_context().get_stage() if stage is None: return {"message": "No stage to convert"} try: self.__command_count = 0 return_values = {} # Verify that the old prim nodes don't exist old_prim_nodes = self.__check_for_old_prim_nodes() if old_prim_nodes: raise og.OmniGraphError( f"Deprecated omni.graph.core.Prim nodes not allowed with schema - {old_prim_nodes}" ) # Verify that bare connections from OmniGraph nodes to non-OmniGraph prims do not exist bare_connections = check_for_bare_connections(self.stage) if bare_connections: raise og.OmniGraphError( "Deprecated connections from an OmniGraph node to a USD Prim not allowed with schema" f" - {bare_connections}" ) # First pass - change ComputeGraph/GlobalComputeGraph -> OmniGraph and ComputeNode -> OmniGraphNode return_values["Prim Types Changed"] = self.__change_prim_types_to_match_schema() # Second pass - if there are any OmniGraphNode or ComputeGraphSettings prims not in a graph, # create one and move them into it return_values["Root Prims Moved To Graph"] = self.__create_top_level_graph() # Third pass - move settings from their own prim to the parent graph prim if new_file_format_version is None: new_file_format_version = (1, 4) return_values["Settings Removed"] = self.__replace_settings_with_properties(new_file_format_version) # Now that the scene has been migrated the schema setting has to be enabled or bad things will happen. # Don't bother doing it if nothing changed though. if any(return_values.values()): carb.settings.get_settings().set(USE_SCHEMA_PRIMS_SETTING, True) return return_values except og.OmniGraphError as error: # If anything failed it would leave the graph in a hybrid state so try to restore it back to its original # state so that it remains stable. carb.log_error(str(error)) for _i in range(self.__command_count): omni.kit.undo() return_values = {} return return_values # ============================================================================================================== # Handling for old files that did not use the OmniGraph schema (earlier than 1.3) def update_to_include_schema(new_file_format_version: Optional[Tuple[int, int]] = None) -> Dict[str, Any]: """Update the current file to use the new schema. See OmniGraphSchemaMigrator.update() for details This can run either before OmniGraph has attached to the stage (e.g. when reading in an old file) or when an explicit migration has been requested (e.g. when an old file exists and the user wants to migrate it). In both cases if any prim types have been migrated the useSchemaPrims setting will be forced to True so that subsequent OmniGraph additions use the schema types. (Mostly because this is easier than trying to track the state of whether a graph contains such prims already.) Conversion of old scenes entails: - Changing any ComputeGraph or GlobalComputeGraph prims to be OmniGraph types - If a ComputeGraphSettings prim exists, migrating its attribute values to the OmniGraph prim - Changing any ComputeNode prims to be OmniGraphNode types - If any ComputeNode prims appear without a parent ComputeGraph create a default graph and move them into it Args: new_file_format_version: The file format version that should be used for the graph setting. If None then it will force the version immediately following the schema conversion (1, 4) Return: A dictionary of operations that were performed as part of the migration (key describes the operation, value is the objects to which it was applied) Raises: og.OmniGraphError if any of the attempted changes failed - will attempt to restore graph to original state """ return OmniGraphSchemaMigrator().update() # ============================================================================================================== # Handling for old files that did not use the OmniGraph schema (earlier than 1.3) def cb_update_to_include_schema( old_version: Optional[og.FileFormatVersion], new_version: Optional[og.FileFormatVersion], graph: Optional[og.Graph] ) -> Dict[str, Any]: """Callback invoked when a file is loaded to update old files to use the new schema. This will be called anytime a file is loaded with a non-current version. The old version and new version are checked to confirm that the values cross over the boundary when schemas were created, and if so then the schema information is applied to the file. Args: old_version: Version the file to upgrade uses new_version: Current file version expected graph: Graph to convert (only present for historical reasons - the entire stage is updated) Return: A dictionary of operations that were performed as part of the migration (key describes the operation, value is the objects to which it was applied) """ # If the setting to automatically migrate is not on then there is nothing to do here if not carb.settings.get_settings().get(USE_SCHEMA_PRIMS_SETTING): return {} # If the file format version is one of the ones that must contain schema prims no migration is needed if old_version is not None and ( old_version.majorVersion > LAST_FILE_FORMAT_VERSION_WITHOUT_SCHEMA.majorVersion or ( old_version.majorVersion == LAST_FILE_FORMAT_VERSION_WITHOUT_SCHEMA.majorVersion and old_version.minorVersion > LAST_FILE_FORMAT_VERSION_WITHOUT_SCHEMA.minorVersion ) ): return {"message": f"File format version {old_version} already uses the schema"} return update_to_include_schema((new_version.majorVersion, new_version.minorVersion)) # -------------------------------------------------------------------------------------------------------------- RESETTING_USE_SCHEMA_PRIMS = False """Global variable to avoid potential infinite recursion when restoring the useSchemaPrims setting""" RESETTING_IMPLICIT_GRAPH = False """Global variable to avoid potential infinite recursion when restoring the allowGlobalImplicitGraph setting""" # -------------------------------------------------------------------------------------------------------------- def can_set_use_schema_prims_setting(new_value: bool) -> str: """Check to see if a new value for the schema prims setting is valid - returns warning text, empty if okay""" def __prim_types_in_scene(prim_types: List[str]) -> bool: """Returns true if the scene contains prims whose types are any in the list""" found_prims = [] stage = omni.usd.get_context().get_stage() if stage is not None: iterator = iter(stage.TraverseAll()) for prim in iterator: if prim.GetTypeName() in prim_types: found_prims.append(f"{prim.GetPrimPath()} : {prim.GetTypeName()}") return found_prims if new_value: forbidden_prims = __prim_types_in_scene( ["ComputeGraphSettings", "ComputeNode", "ComputeGraph", "GlobalComputeGraph"] ) if forbidden_prims: return f"Cannot enable {USE_SCHEMA_PRIMS_SETTING} when the scene contains old style prims {forbidden_prims}" bare_connections = check_for_bare_connections(check_for_bare_connections(omni.usd.get_context().get_stage())) if bare_connections: return ( f"Cannot enable {USE_SCHEMA_PRIMS_SETTING} when the scene contains" f" direct prim connections {bare_connections}" ) else: forbidden_prims = __prim_types_in_scene(["OmniGraph", "OmniGraphNode"]) if forbidden_prims: return f"Cannot disable {USE_SCHEMA_PRIMS_SETTING} when the scene contains schema prims {forbidden_prims}" return ""	24,664	Python	53.089912	120	0.579144
omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/omnigraph_helper.py	# noqa: PLC0302 r"""Deprecated class that handles interactions with the OmniGraphs - use og.Controller instead _____ ______ _____ _____ ______ _____ _______ ______ _____ \| __ \ \| ____\|\| __ \ \| __ \ \| ____\|/ ____\| /\ \|__ __\|\| ____\|\| __ \ \| \| \| \|\| \|__ \| \|__) \|\| \|__) \|\| \|__ \| \| / \ \| \| \| \|__ \| \| \| \| \| \| \| \|\| __\| \| ___/ \| _ / \| __\| \| \| / /\ \ \| \| \| __\| \| \| \| \| \| \|__\| \|\| \|____ \| \| \| \| \ \ \| \|____\| \|____ / ____ \ \| \| \| \|____ \| \|__\| \| \|_____/ \|______\|\|_\| \|_\| \_\\|______\|\_____\|/_/ \_\\|_\| \|______\|\|_____/ """ import os from contextlib import suppress from typing import Any, Dict, List, Optional, Tuple, Union import omni.graph.core as og import omni.graph.tools as ogt import omni.kit.commands from carb import log_info, log_warn from pxr import Sdf, Tf, Usd from ..errors import OmniGraphError from ..object_lookup import ObjectLookup from ..typing import Attribute_t, Node_t from ..utils import DBG_EVAL, dbg_eval from .context_helper import ContextHelper from .utils import ( ATTRIBUTE_TYPE_HINTS, ATTRIBUTE_TYPE_OR_LIST, ATTRIBUTE_TYPE_TYPE_HINTS, ATTRIBUTE_VALUE_PAIR, ATTRIBUTE_VALUE_PAIRS, EXTENDED_ATTRIBUTE_TYPE_HINTS, NODE_TYPE_HINTS, NODE_TYPE_OR_LIST, ) # Function argument types passed to the various graph interface operations ConnectData_t = Tuple[Node_t, Attribute_t, Node_t, Attribute_t] ConnectDatas_t = Union[ConnectData_t, List[ConnectData_t]] CreateNodeData_t = Tuple[str, Node_t] CreateNodeDatas_t = Union[CreateNodeData_t, List[CreateNodeData_t]] CreatePrimData_t = Tuple[str, Dict[str, Tuple[str, Any]]] CreatePrimDatas_t = Union[CreatePrimData_t, List[CreatePrimData_t]] DeleteNodeData_t = str DeleteNodeDatas_t = Union[DeleteNodeData_t, List[DeleteNodeData_t]] DisconnectData_t = Tuple[Node_t, Attribute_t, Node_t, Attribute_t] DisconnectDatas_t = Union[DisconnectData_t, List[DisconnectData_t]] SetValueData_t = Tuple[Attribute_t, Any] SetValueDatas_t = Union[SetValueData_t, List[SetValueData_t]] # Decoded attribute bundle possibilities BundledAttribute_t = Optional[Union[Usd.Prim, Usd.Property]] # ===================================================================== @ogt.DeprecatedClass("og.OmniGraphHelper is deprecated after version 1.5.0. Use og.Controller instead.") class OmniGraphHelper: """Class to provide a simple interface to OmniGraph manipulation functions Provides functions for creating nodes, making and breaking connections, and setting values. Graph manipulation functions are undoable, value changes are not. The main benefit this class provides over direct manipulation of the graph is that it accepts a variety of types for its operations. e.g. a connection could take an OmniGraph Node, a USD Prim, or a string indicating the path to the node. Attributes: graph: The OmniGraph on which operations will be performed. Raises: OmniGraphError: If there is not enough information to perform the requested operation """ # Type of connection point PRIM_TYPE = 0 BUNDLE_TYPE = 1 REGULAR_TYPE = 2 UNKNOWN = -1 # ---------------------------------------------------------------------- def __init__(self, omnigraph: Optional[og.Graph] = None): """Initialize the graph""" if omnigraph is None: self.graph = og.get_current_graph() else: self.graph = omnigraph # ---------------------------------------------------------------------- def context(self): """Returns the evaluation context for the graph to which this helper is attached""" return self.graph.get_default_graph_context() # ---------------------------------------------------------------------- async def evaluate(self): """Wait for the next Graph evaluation cycle - await this function to ensure it is finished before returning. If the graph evaluation time is not incremented after 10 application updates, RuntimeError is raised. """ start_t = self.context().get_time_since_start() # Ensure that a graph evaluation has happened before returning for _ in range(10): await omni.kit.app.get_app().next_update_async() now_t = self.context().get_time_since_start() if now_t > start_t: return raise RuntimeError(f"Graph evaluation time {now_t} was not incremented from start time {start_t}") # ---------------------------------------------------------------------- @staticmethod def safe_node_name(node_type_name: str, abbreviated: bool = False) -> str: """Returns a USD-safe node name derived from the node_type_name (stripping namespace) Args: node_type_name: Fully namespaced name of the node type abbreviated: If True then remove the namespace, else just make the separators into underscores Returns: A safe node name that roughly corresponds to the given node type name """ if abbreviated: last_namespace = node_type_name.rfind(".") if last_namespace < 0: return node_type_name return node_type_name[last_namespace + 1 :] return node_type_name.replace(".", "_") # ---------------------------------------------------------------------- def omnigraph_node(self, node_info: NODE_TYPE_OR_LIST) -> Union[og.Node, List[og.Node]]: """Returns the OmniGraph node(s) corresponding to the variable type parameter Args: node_info: Information for the node to find. If a list then iterate over the list Returns: Node(s) corresponding to the description(s) in the current graph, None where there is no match Raises: OmniGraphError if the node description wasn't one of the recognized types """ return ObjectLookup.node(node_info) # ---------------------------------------------------------------------- def omnigraph_attribute( self, node: NODE_TYPE_HINTS, attribute_info: ATTRIBUTE_TYPE_OR_LIST ) -> Union[og.Attribute, List[og.Attribute]]: """Returns the OmniGraph attribute(s) corresponding to the variable type parameter Args: node: Node to which the attribute belongs. Ignored if attribute_info is an og.Attribute attribute_info: Information on which attribute to look for. If a list then get all of them Returns: Attribute(s) matching the description(s) - None where there is no match Raises: OmniGraphError if the attribute description wasn't one of the recognized types, or if any of the attributes could not be found """ return ObjectLookup.attribute(attribute_info, node) # ---------------------------------------------------------------------- def node_as_prim(self, node: NODE_TYPE_HINTS) -> Usd.Prim: """Returns the prim corresponding to the variable type parameter""" if isinstance(node, Sdf.Path): return omni.usd.get_context().get_stage().GetPrimAtPath(node.GetPrimPath()) if isinstance(node, og.Node): return omni.usd.get_context().get_stage().GetPrimAtPath(node.get_prim_path()) if isinstance(node, Usd.Prim): return node with suppress(Exception): if isinstance(node, str): return omni.usd.get_context().get_stage().GetPrimAtPath(self.graph.get_node(node).get_prim_path()) raise OmniGraphError(f"Failed to get prim on {node}") # ---------------------------------------------------------------------- def get_prim_path(self, node: NODE_TYPE_HINTS): """Returns the prim path corresponding to the variable type parameter""" if isinstance(node, Sdf.Path): return node.GetPrimPath() if isinstance(node, og.Node): return node.get_prim_path() if isinstance(node, Usd.Prim): return node.GetPath() with suppress(Exception): if isinstance(node, str): return self.graph.get_node(node).get_prim_path() raise OmniGraphError(f"Failed to get prim path on {node}") # ---------------------------------------------------------------------- # begin-create-attribute-function def create_attribute( self, node: NODE_TYPE_HINTS, attr_name: str, attr_type: ATTRIBUTE_TYPE_TYPE_HINTS, attr_port: Optional[og.AttributePortType] = og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT, attr_default: Optional[Any] = None, attr_extended_type: Optional[ EXTENDED_ATTRIBUTE_TYPE_HINTS ] = og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_REGULAR, ) -> Optional[og.Attribute]: """Create a new dynamic attribute on the node Args: node: Node on which to create the attribute (path or og.Node) attr_name: Name of the new attribute, either with or without the port namespace attr_type: Type of the new attribute, as an OGN type string or og.Type attr_port: Port type of the new attribute, default is og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT attr_default: The initial value to set on the attribute, default is None attr_extended_type: The extended type of the attribute, default is og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_REGULAR. If the extended type is og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_UNION then this parameter will be a 2-tuple with the second element being a list or comma-separated string of union types Returns: The newly created attribute, None if there was a problem creating it """ # end-create-attribute-function ogt.dbg(f"Create attribute '{attr_name}' on node {node} of type {attr_type}") omg_node = self.omnigraph_node(node) omg_attr_type = ObjectLookup.attribute_type(attr_type) (success, result) = og.cmds.CreateAttr( node=omg_node, attr_name=attr_name, attr_type=omg_attr_type, attr_port=attr_port, attr_default=attr_default, attr_extended_type=attr_extended_type, ) if not result or not success: return None namespace = og.get_port_type_namespace(attr_port) if not attr_name.startswith(namespace): if ( omg_attr_type.get_type_name() == "bundle" and attr_port != og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT ): separator = "_" else: separator = ":" attr_name = f"{namespace}{separator}{attr_name}" return omg_node.get_attribute(attr_name) # ---------------------------------------------------------------------- # begin-remove-attribute-function def remove_attribute(self, attribute: ATTRIBUTE_TYPE_HINTS, node: Optional[NODE_TYPE_HINTS] = None) -> bool: """Removes an existing dynamic attribute from a node. Args: attribute: Name of the attribute to be removed node: If not None and the attribute is specified as a string then this is the node on which it lives Returns: True if the attribute was successfully removed, else False """ # end-remove-attribute-function ogt.dbg(f"Remove attribute {attribute} using node {node}") omg_attribute = self.omnigraph_attribute(node, attribute) (success, result) = og.cmds.RemoveAttr(attribute=omg_attribute) return success and result # ---------------------------------------------------------------------- def create_node( self, node_path: str, node_type: str, allow_exists: bool = False, version: Optional[int] = None ) -> og.Node: """Create an OmniGraph node of the given type and version at the given path. Args: node_path: SdfPath to the node in the stage node_type: Type of node to create check_exists: If true then succeed if a node with matching path, type, and version already exists version: Version of the node type to create. By default it creates the most recent. Raises: OmniGraphError: If the node already existed Returns: OmniGraph node added to the scene, or None if it could not be created """ ogt.dbg(f"Create '{node_path}' of type '{node_type}', allow={allow_exists}, version={version}") if version is not None: raise OmniGraphError("Creating nodes with specific versions not supported") node = self.graph.get_node(node_path) if node is not None and node.is_valid(): if allow_exists: current_node_type = node.get_type_name() if node_type == current_node_type: return node error = f"already exists as type {current_node_type}" else: error = "already exists" raise OmniGraphError(f"Creation of {node_path} as type {node_type} failed - {error}") og.cmds.CreateNode(graph=self.graph, node_path=node_path, node_type=node_type, create_usd=True) return self.graph.get_node(node_path) # ---------------------------------------------------------------------- def create_prim(self, prim_path: str, attribute_info: Dict[str, Tuple[Union[str, og.Type], Any]]): """Create a prim node containing a predefined set of attribute values and a ReadPrim OmniGraph node for it Args: prim_path: Location of the prim attribute_info: Dictionary of {NAME: (TYPE, VALUE)} for all prim attributes The TYPE is in OGN format, so "float[3][]", "bundle", etc. The VALUE should be in a format suitable for passing to pxr::UsdAttribute.Set() Returns: og.Node of the created node """ stage = omni.usd.get_context().get_stage() omni.kit.commands.execute("CreatePrim", prim_path=prim_path, prim_type="BundleSource") prim = stage.GetPrimAtPath(prim_path) # Walk the list of attribute descriptions, creating them on the prim as they go for attribute_name, (attribute_type_name, attribute_value) in attribute_info.items(): if isinstance(attribute_type_name, og.Type): attribute_type = attribute_type_name attribute_type_name = attribute_type.get_ogn_type_name() else: attribute_type = og.AttributeType.type_from_ogn_type_name(attribute_type_name) manager = ogt.get_attribute_manager_type(attribute_type_name) sdf_type_name = manager.sdf_type_name() if sdf_type_name is not None: sdf_type = getattr(Sdf.ValueTypeNames, sdf_type_name) usd_value = og.attribute_value_as_usd(attribute_type, attribute_value) prim.CreateAttribute(attribute_name, sdf_type).Set(usd_value) # Add the new Prim to OmniGraph return og.cmds.CreateNode( graph=self.graph, node_path=prim_path, node_type="omni.graph.core.Prim", create_usd=False )[1] # ---------------------------------------------------------------------- def delete_node(self, node: NODE_TYPE_HINTS, allow_noexists: bool = False) -> bool: """Deletes an OmniGraph node at the given path. Args: node: node to be deleted allow_noexists: If true then succeed if no node with matching path exists Raises: OmniGraphError: If the node does not exist Returns: True if the node is gone """ ogt.dbg(f"Delete '{node}', allow_noexists={allow_noexists}") try: omnigraph_node = self.omnigraph_node(node) except Exception: if allow_noexists: return True raise return og.cmds.DeleteNode(graph=self.graph, node_path=omnigraph_node.get_prim_path(), modify_usd=True)[0] # ---------------------------------------------------------------------- def attach_to_prim(self, prim: Union[Usd.Prim, str]) -> og.Node: """Create a new compute node attached to an ordinary USD prim. Args: prim: Prim node or name of prim node to which the OmniGraph node should attach Returns: OmniGraph Prim type node associated with the passed in Prim """ ogt.dbg(f"Attach to prim {prim}") if isinstance(prim, str): prim_path = prim else: prim_path = str(prim.GetPath()) return self.create_node(prim_path, "omni.graph.core.Prim", allow_exists=True) # ---------------------------------------------------------------------- @staticmethod def get_attr_type_name(attr): """ Get the type name for the given attribute, taking in to account extended type Args: attr: Attribute whose type is to be determined Returns: The type name of the attribute """ type_name = None with suppress(AttributeError): if attr.get_extended_type() in [ og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_ANY, og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_UNION, ]: type_name = attr.get_resolved_type().get_type_name() if type_name is None: try: type_name = attr.get_type_name() except AttributeError: type_name = attr.get_type().get_type_name() return type_name # ---------------------------------------------------------------------- @staticmethod def get_attr_type(attr: Union[og.Attribute, og.AttributeData]): """ Get the type for the given attribute, taking in to account extended type Args: attr: Attribute whose type is to be determined Returns: The type of the attribute """ return attr.get_resolved_type() if isinstance(attr, og.Attribute) else attr.get_type() # ---------------------------------------------------------------------- def _decode_connection_point( self, node_info: NODE_TYPE_HINTS, attr_info: ATTRIBUTE_TYPE_HINTS ) -> Tuple[int, Optional[Usd.Prim], og.Node, Optional[og.Attribute]]: """Decode a connection point into identifying pieces Args: node_info: Identifying information for an OmniGraph node attr_info: Identifying information for an OmniGraph node's attribute Returns: (location_type, prim, node, attribute) location_type: what type of connection point this is - bundle, regular, or prim prim: Prim of the connection point, or None if it is not a prim type node: og.Node of the connection point, or None if it is a prim attribute: og.Attribute of the connection point, or None if it is a prim Raises: OmniGraphError if the configuration of the connection point is not consistent """ attr_type = self.UNKNOWN prim = None node = node_info attr = None if attr_info is None: prim = self.node_as_prim(node_info) if not prim.IsValid(): raise OmniGraphError("When attribute is None, node must be a valid Prim") attr_type = self.PRIM_TYPE else: node = self.omnigraph_node(node_info) if not node.is_valid(): raise OmniGraphError("When attribute is specified, node must be a valid OmniGraph node") attr = self.omnigraph_attribute(node, attr_info) if not attr.is_valid(): raise OmniGraphError("Attribute is not valid") if attr.get_type_name() == "bundle": attr_type = self.BUNDLE_TYPE else: attr_type = self.REGULAR_TYPE assert attr_type != self.UNKNOWN return (attr_type, prim, node, attr) # ---------------------------------------------------------------------- def _decode_connection_type( self, src_node_info: NODE_TYPE_HINTS, src_attr_info: ATTRIBUTE_TYPE_HINTS, dst_node_info: NODE_TYPE_HINTS, dst_attr_info: ATTRIBUTE_TYPE_HINTS, ) -> Tuple[Union[Usd.Prim, og.Attribute], og.Attribute]: """ Decode the node and source information into an Attribute->Attribute connection or a Prim->Bundle connection. Everything is set up to be fairly generic so that if we have more general connections in the future it can still be handled using the same framework. The source and destination comes from _decode_connection_point() with these legal cases: Prim -> bundleAttribute src_attr_info is None, src_node_info is Prim, dst_attr_info.type == bundle bundleAttribute -> bundleAttribute src_attr_info.type == dst_attr_info.type == bundle attribute -> attribute src_attr_info.type != bundle, dst_attr_info.type != bundle Args: src_node_info: Node on the source (input) end of the connection. src_attr_info: Attribute on the source (input) end of the connection - None means connect from a Prim. dst_node_info: Node on the destination (output) end of the connection. dst_attr_info: Attribute on the destination (output) end of the connection. Returns: (src_location, dst_location): If a Prim->Bundle connection: src_location: Usd.Prim where the connection originates dst_location: og.Attribute where the connection terminates If an Attribute->Attribute connection src_location: og.Attribute where the connection originates dst_location: og.Attribute where the connection terminates Raises: OmniGraphError: If the connection request doesn't fall into one of the allowed cases """ src_location = None dst_location = None src_path = f"{self.get_prim_path(src_node_info)}.{src_attr_info}" dst_path = f"{self.get_prim_path(dst_node_info)}.{dst_attr_info}" try: (src_type, src_prim, src_node, src_attr) = self._decode_connection_point(src_node_info, src_attr_info) (dst_type, _, dst_node, dst_attr) = self._decode_connection_point(dst_node_info, dst_attr_info) if src_type == self.PRIM_TYPE: if dst_type == self.PRIM_TYPE: raise OmniGraphError("Prim -> Prim connection not valid, use AddRelationship/RemoveRelationship") if dst_type == self.REGULAR_TYPE: raise OmniGraphError("Prim -> Attribute connection not allowed") if not dst_node or not dst_node.is_valid() or not dst_attr: raise OmniGraphError("Destination is invalid") # Prim -> Bundle connection if dst_type == self.BUNDLE_TYPE: src_location = src_prim dst_location = dst_attr ogt.dbg(f"Prim -> Bundle {src_path} -> {dst_path}") elif src_type == self.BUNDLE_TYPE: if dst_type == self.REGULAR_TYPE: raise OmniGraphError("Bundle -> Attribute connection not allowed") if not src_node or not src_node.is_valid() or not src_attr: raise OmniGraphError("Source is invalid") if not dst_node or not dst_node.is_valid() or not dst_attr: raise OmniGraphError("Destination is invalid") # Bundle -> Bundle connection if dst_type == self.BUNDLE_TYPE: src_location = src_attr dst_location = dst_attr ogt.dbg(f"Bundle -> Bundle {src_path} -> {dst_path}") # Bundle -> Prim connection if dst_type == self.PRIM_TYPE: raise OmniGraphError("Bundle -> Prim connection not allowed") else: if dst_type == self.PRIM_TYPE: raise OmniGraphError("Attribute -> Prim connection not allowed") if dst_type == self.BUNDLE_TYPE: raise OmniGraphError("Attribute -> Bundle connection not allowed") if not src_node or not src_node.is_valid() or not src_attr: raise OmniGraphError("Source is invalid") if not dst_node or not dst_node.is_valid() or not dst_attr: raise OmniGraphError("Destination is invalid") # Attribute -> Attribute connection src_location = src_attr dst_location = dst_attr ogt.dbg(f"Attribute -> Attribute {src_path} -> {dst_path}") except OmniGraphError as error: raise OmniGraphError(f"{src_path} -> {dst_path}") from error return (src_location, dst_location) # ---------------------------------------------------------------------- def connect( self, src_node: NODE_TYPE_HINTS, src_attr: ATTRIBUTE_TYPE_HINTS, dst_node: NODE_TYPE_HINTS, dst_attr: ATTRIBUTE_TYPE_HINTS, ): """Create a connection between two attributes Args: src_node: Node on the source (input) end of the connection. Ignored if src_attr is an og.Attribute src_attr: Attribute on the source (input) end of the connection. (If None then it's a prim connection) dst_node: Node on the destination (output) end of the connection. Ignored if dst_attr is an og.Attribute dst_attr: Attribute on the destination (output) end of the connection. Raises: OmniGraphError: If nodes or attributes could not be found, or connection fails """ ogt.dbg(f"Connect {src_node},{src_attr} -> {dst_node},{dst_attr}") (src_location, dst_location) = self._decode_connection_type(src_node, src_attr, dst_node, dst_attr) if src_location is None or dst_location is None: success = False error = "Connection locations not recognized" elif isinstance(src_location, Usd.Prim): ogt.dbg(" Connect Prim -> Bundle") (success, error) = og.cmds.ConnectPrim( attr=dst_location, prim_path=src_location.GetPath().pathString, is_bundle_connection=src_attr is not None, ) else: ogt.dbg(f" Connect Attr {src_location.get_name()} to {dst_location.get_name()}") (success, error) = og.cmds.ConnectAttrs(src_attr=src_location, dest_attr=dst_location, modify_usd=True) if not success: raise OmniGraphError( f"Failed to connect {self.get_prim_path(src_node)}.{src_attr}" f" -> {self.get_prim_path(dst_node)}.{dst_attr} ({error})" ) # ---------------------------------------------------------------------- def disconnect( self, src_node: NODE_TYPE_HINTS, src_attr: ATTRIBUTE_TYPE_HINTS, dst_node: NODE_TYPE_HINTS, dst_attr: ATTRIBUTE_TYPE_HINTS, ): """Break a connection between two attributes Args: src_node: Node on the source (input) end of the connection. Ignored if src_attr is an og.Attribute src_attr: Attribute on the source (input) end of the connection. If None then it is a prim connection. dst_node: Node on the destination (output) end of the connection. Ignored if dst_attr is an og.Attribute dst_attr: Attribute on the destination (output) end of the connection. Raises: OmniGraphError: If nodes or attributes could not be found, connection didn't exist, or disconnection fails """ ogt.dbg(f"Disconnect {src_node},{src_attr} -> {dst_node},{dst_attr}") (src_location, dst_location) = self._decode_connection_type(src_node, src_attr, dst_node, dst_attr) if src_location is None or dst_location is None: success = False error = "Connection locations not recognized" elif isinstance(src_location, Usd.Prim): (success, error) = og.cmds.DisconnectPrim( attr=dst_location, prim_path=src_location.GetPath().pathString, is_bundle_connection=src_attr is not None, ) else: ogt.dbg(f" Disconnect Attr {src_location.get_name()} from {dst_location.get_name()}") (success, error) = og.cmds.DisconnectAttrs(src_attr=src_location, dest_attr=dst_location, modify_usd=True) if not success: raise OmniGraphError( f"Failed to disconnect {self.get_prim_path(src_node)}.{src_attr}" f" -> {self.get_prim_path(dst_node)}.{dst_attr} ({error})" ) # ---------------------------------------------------------------------- def disconnect_all( self, attr: ATTRIBUTE_TYPE_HINTS, node: Optional[NODE_TYPE_HINTS] = None, ): """Break all connections to and from an attribute Args: attr: Attribute on the source (input) end of the connection. If None then it is a prim connection. node: Node on the source (input) end of the connection. Ignored if attr is an og.Attribute Raises: OmniGraphError: If nodes or attributes could not be found, connection didn't exist, or disconnection fails """ ogt.dbg(f"Disconnect all on {node},{attr}") attribute = self.omnigraph_attribute(node, attr) if attribute is None: success = False error = "Disconnection attribute not recognized" else: ogt.dbg(f" Disconnect All from {attribute.get_name()}") (success, error) = og.cmds.DisconnectAllAttrs(attr=attribute, modify_usd=True) if not success: raise OmniGraphError(f"Failed to break connections on {self.get_prim_path(node)}.{attr} ({error})") # ---------------------------------------------------------------------- def set_attribute_data_values( self, values_to_set: List[Tuple[og.AttributeData, Any]], graph: Optional[og.Graph] = None ): """Set a bunch of attribute data values Args: values_to_set: List of (AttributeData, Value) pairs which are the values to be set Raises: OmniGraphError: If values could not be set """ if not values_to_set: return for (attribute_data, value) in values_to_set: try: (success, error) = og.cmds.SetAttrData(attribute_data=attribute_data, value=value, graph=graph) if not success: raise TypeError(error) except TypeError as error: raise OmniGraphError(f"Could not set value on attribute data '{attribute_data.get_name()}'") from error # ---------------------------------------------------------------------- def set_attribute_values(self, values_to_set: List[Tuple[og.Attribute, Any]], ignore_usd: bool = False): """Set a bunch of attribute values Dict values can be used to specify a type in additional to a value. If the attribute is unresolved, it will be resolved to that type before setting the value. For example: set_attribute_values([(attrib, {"type": "float2", "value": (1.0, 2.0)})]) Args: values_to_set: List of (Attribute, Value) pairs which are the values to be set. ignore_usd: If False then report any problems updating the USD attributes Raises: OmniGraphError: If values could not be set """ if not values_to_set: return for (attribute, value) in values_to_set: set_type = None if isinstance(value, dict): # special case - we may need to resolve the attribute to this particular type before setting set_type = value["type"] value = value["value"] try: (success, error) = og.cmds.SetAttr(attr=attribute, value=value, set_type=set_type) if not success: raise TypeError(error) except TypeError as error: raise OmniGraphError(f"Could not set value on attribute '{attribute.get_name()}'") from error # ---------------------------------------------------------------------------------------------------- # TODO: This is necessary to update USD at the moment. Updating flatcache and USD should be handled # directly in SetAttrCommand. Once that has been done this can be deleted. # { stage = omni.usd.get_context().get_stage() prim = stage.GetPrimAtPath(attribute.get_node().get_prim_path()) if prim.IsValid() and attribute.get_extended_type() == og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_REGULAR: try: # The Set method wants USD types for some attribute types so do the translation first value = og.attribute_value_as_usd(OmniGraphHelper.get_attr_type(attribute), value) prim.GetAttribute(attribute.get_name()).Set(value) except Tf.ErrorException as error: if not ignore_usd: log_warn(f"Could not sync USD on attribute {attribute.get_name()} - {error}") except TypeError as error: # TODO: This occurs when the parameters to Set() don't match what USD expects. It could be fixed # by special-casing every known mismatch but this section should be going away so it won't # be done at this time. The current known failures are the quaternion types and arrays of the # tuple-arrays (e.g. "quatd[4]", "double[3][]", "float[2][]", ...) if not ignore_usd: log_info(f"Could not set value on attribute {attribute.get_name()} - {error}") except Exception as error: # noqa: PLW0703 log_warn(f"Unknown problem setting values - {error}") # } # ---------------------------------------------------------------------------------------------------- # ---------------------------------------------------------------------- def set_values(self, node: NODE_TYPE_HINTS, values_to_set: ATTRIBUTE_VALUE_PAIRS, ignore_usd: bool = False): """Set a bunch of attribute values on a single node This is general purpose for handling all types of node and attribute descriptions. If you already have the og.Attributes whose values you wish to set then call set_attribute_values() instead. Args: node: Node on which the values are to be set values_to_set: List or single element of (Attribute, Value) pairs which are the values to be set ignore_usd: If False then report any problems updating the USD attributes Raises: OmniGraphError: If nodes or attributes could not be found, or values could not be set """ if not values_to_set: log_warn("Tried to set values from an empty list") return omnigraph_node = self.omnigraph_node(node) def set_a_value(attribute_and_value: ATTRIBUTE_VALUE_PAIR): """Try to set a single value, raising an OmniGraphError exception if anything went wrong""" if len(attribute_and_value) != 2: raise OmniGraphError(f"Values to set should be (attribute, value) pairs, not '{attribute_and_value}'") attribute = self.omnigraph_attribute(omnigraph_node, attribute_and_value[0]) self.set_attribute_values([(attribute, attribute_and_value[1])], ignore_usd=ignore_usd) if isinstance(values_to_set, list): if values_to_set and not isinstance(values_to_set[0], tuple) and not isinstance(values_to_set[0], list): log_warn(f"Call set_values() with a tuple or array of tuples as attribute values, not {values_to_set}") set_a_value(values_to_set) else: for attribute_and_value in values_to_set: set_a_value(attribute_and_value) else: set_a_value(values_to_set) # ---------------------------------------------------------------------- def get_attribute_values(self, attributes_to_get: List[og.Attribute]) -> List[Any]: """Get the values from a list of defined attributes Args: attributes_to_get: List of attributes whose values are to be retrieved Returns: List of values corresponding to the list of attributes passed in """ results = [] context_helper = ContextHelper() for attribute in attributes_to_get: try: results.append(context_helper.get_attr_value(attribute)) except TypeError as error: raise OmniGraphError(f"Could not get value on attribute '{attribute.get_name()}'") from error return results # ---------------------------------------------------------------------- def get_values(self, node: NODE_TYPE_HINTS, attributes_to_get: ATTRIBUTE_TYPE_OR_LIST) -> List[Any]: """Get the values from attributes on a node This is general purpose for handling all types of node and attribute descriptions. If you already have the og.Attributes whose values you wish to retrieve then call get_attribute_values() instead. Args: node: Description of node whose values are to be read attributes_to_get: One or a list of descriptions of attributes whose values are to be retrieved Raises: OmniGraphError: If nodes or attributes could not be found, or values could not be read Returns: One or a list of values corresponding to the attributes passed in """ omnigraph_node = self.omnigraph_node(node) if not isinstance(attributes_to_get, List): return self.get_attribute_values([self.omnigraph_attribute(omnigraph_node, attributes_to_get)])[0] return self.get_attribute_values( [self.omnigraph_attribute(omnigraph_node, attribute) for attribute in attributes_to_get] ) # ---------------------------------------------------------------------- def _edit_delete_nodes(self, root_prim: str, nodes_to_delete: DeleteNodeData_t): """Delete the set of nodes passed, using the format required by edit_graph""" delete_list = nodes_to_delete if isinstance(nodes_to_delete, list) else [nodes_to_delete] for node_name in delete_list: dbg_eval(f"Deleting node {node_name}") node_path = os.path.join(root_prim, node_name).replace("\\", "/") self.delete_node(node_path, False) dbg_eval(f"... deleted {node_path}") # ---------------------------------------------------------------------- def _edit_create_nodes(self, root_prim: str, nodes_to_create: CreateNodeData_t): """Create the set of nodes passed, using the format required by edit_graph Returns a tuple of the map from node path to the created node, and the list of constructed nodes""" node_path_map = {} nodes_constructed = [] create_list = nodes_to_create if isinstance(nodes_to_create, list) else [nodes_to_create] for node_type, node_name in create_list: dbg_eval(f"Creating node {node_name} of type {node_type}") node_path = os.path.join(root_prim, node_name).replace("\\", "/") node_path_map[node_name] = self.create_node(node_path, node_type, False) nodes_constructed.append(node_path_map[node_name]) dbg_eval(f"... created {node_path_map[node_name]}") return (node_path_map, nodes_constructed) # ---------------------------------------------------------------------- def _edit_create_prims( self, root_prim: str, node_path_map: Dict[str, og.Node], nodes_constructed: List[og.Node], prims_to_create: CreatePrimData_t, ): """Create the set of prims passed, using the format required by edit_graph""" create_list = prims_to_create if isinstance(prims_to_create, list) else [prims_to_create] for prim_path, attribute_info in create_list: dbg_eval(f"Creating prim at {prim_path}") node_path = os.path.join(root_prim, prim_path).replace("\\", "/") node_path_map[prim_path] = self.create_prim(node_path, attribute_info) nodes_constructed.append(node_path_map[prim_path]) dbg_eval(f"... created {node_path_map[prim_path]}") return (node_path_map, nodes_constructed) # ---------------------------------------------------------------------- def _edit_connect(self, node_path_map: Dict[str, og.Node], connections_to_make: ConnectData_t): """Make a set of attribute connections, using the format required by edit_graph""" connection_list = connections_to_make if isinstance(connections_to_make, list) else [connections_to_make] try: for (src_node_name, src_attr_name, dst_node_name, dst_attr_name) in connection_list: dbg_eval(f"Connecting {src_node_name}.{src_attr_name} -> {dst_node_name}.{dst_attr_name}") try: src_node = node_path_map[src_node_name] except KeyError: src_node = src_node_name try: dst_node = node_path_map[dst_node_name] except KeyError: dst_node = dst_node_name dbg_eval(f"...nodes resolved to {src_node} and {dst_node}") self.connect(src_node, src_attr_name, dst_node, dst_attr_name) dbg_eval("...connection succeeded") except ValueError as error: raise OmniGraphError( f"Connect requires src_node, src_attr, dst_node, dst_attr - got {connection_list}" ) from error # ---------------------------------------------------------------------- def _edit_disconnect(self, node_path_map: Dict[str, og.Node], connections_to_break: DisconnectData_t): """Make a set of attribute disconnections, using the format required by edit_graph""" connection_list = connections_to_break if isinstance(connections_to_break, list) else [connections_to_break] try: for (src_node_name, src_attr_name, dst_node_name, dst_attr_name) in connection_list: dbg_eval(f"Disconnecting {src_node_name}.{src_attr_name} -> {dst_node_name}.{dst_attr_name}") try: src_node = node_path_map[src_node_name] except KeyError: src_node = src_node_name try: dst_node = node_path_map[dst_node_name] except KeyError: dst_node = dst_node_name dbg_eval(f"...nodes resolved to {src_node} and {dst_node}") self.disconnect(src_node, src_attr_name, dst_node, dst_attr_name) dbg_eval("...disconnection succeeded") except ValueError as error: raise OmniGraphError( f"Connect requires src_node, src_attr, dst_node, dst_attr - got {connection_list}" ) from error # ---------------------------------------------------------------------- def _edit_set_values(self, node_path_map: Dict[str, og.Node], values_to_set: SetValueData_t): """Set a bunch of attribute values, using the format required by edit_graph""" value_descriptions = values_to_set if isinstance(values_to_set, list) else [values_to_set] # value_list data can either include a node or not. If the node is not included then # the list members must be og.Attributes, not just names. try: for value_list in value_descriptions: if not isinstance(value_list, tuple) and not isinstance(value_list, list): raise ValueError if len(value_list) == 3: node_name, attr_name, value = value_list _ = DBG_EVAL and dbg_eval(f"Setting value '{value} on {node_name}.{attr_name}") try: node = node_path_map[node_name] except KeyError: node = node_name self.set_values(node, [(attr_name, value)]) else: attr_name, value = value_list if not isinstance(attr_name, og.Attribute): raise OmniGraphError(f"Must set values with og.Attribute, got '{attr_name}'") _ = DBG_EVAL and dbg_eval(f"Setting value '{value} on {attr_name}") self.set_attribute_values([(attr_name, value)]) _ = DBG_EVAL and dbg_eval("...setting value succeeded") except ValueError as ex: raise OmniGraphError(f"Setting value requires ({{node_name, }}attr_name, value) - got {value_list}") from ex # ---------------------------------------------------------------------- def edit(self, graph_description: Dict[str, Any]) -> List[og.Node]: """Modify an OmniGraph relative to the top level of the scene ("/") Convenience function for accessing edit_graph without a root prim when it's not relevant """ return self.edit_graph("/", graph_description) # ---------------------------------------------------------------------- def edit_graph(self, root_prim: str, graph_description: Dict[str, Any]) -> List[og.Node]: """Create an OmniGraph node graph from a dictionary description of the contents. Here's a simple call that first deletes an existing node "oldnode", then creates two nodes of type "omni.graph.tutorials.SimpleData", connects their "a_int" attributes, disconnects their "a_float" attributes and sets the input "a_int" of the source node to the value 5. It also creates two unused USD Prim nodes, one with a float attribute named "attrFloat" with value 2.0, and the other with a boolean attribute named "attrBool" with the value true. .. code-block:: python helper = OmniGraphHelper() (src_node, dst_node) = helper.edit_graph("/", { "deletions" [ "oldnode" ], "nodes": [ ("omni.graph.tutorials.SimpleData", "src"), ("omni.graph.tutorials.SimpleData", "dst") ], "prims": [ ("Prim1", {"attrFloat": ("float", 2.0)), ("Prim2", {"attrBool": ("bool", true)), ], "connections": [ ("src", "outputs:a_int", "dst", "inputs:a_int") ], "disconnections": [ ("src", "outputs:a_float", "dst", "inputs:a_float") ], "values": [ ("src", "inputs:a_int", 5) ] } ) Args: root_prim: Top level prim for the graph nodes (e.g. "/") graph_description: Dictionary of graph construction definitions. A strict set of keys is accepted. Each of the values in the dictionary can be either a single value or a list of values of the proscribed type. - "deletions": [NODE_NAME] Deletes a node at the given path - "nodes": [(NODE_TYPE, NODE_NAME)] Constructs a node of type "NODE_TYPE" and name "NODE_NAME". - "prims": [(PRIM_PATH, {ATTR_NAME: (ATTR_TYPE, ATTR_VALUE)})] Constructs a prim with path "PRIM_PATH containing a set of attributes with specified types and values. - "connections": [(SRC_NODE_NAME, SRC_ATTR_NAME, DST_NODE_NAME, DST_ATTR_NAME)] Makes a connection between the given source and destination attributes - "disconnections": [(SRC_NODE_NAME, SRC_ATTR_NAME, DST_NODE_NAME, DST_ATTR_NAME)] Breaks a connection between the given source and destination attributes - "values": [(NODE_NAME, ATTR_NAME, VALUE)] Sets the value of the given list of attributes. Note that when constructing nodes the "NODE_NAME" may be in use, so a map is constructed when the nodes are created between the requested node name and the actual node created, which will contain the prim path reference. Operations happen in that order (all deletions, all nodes, all connections, all values) to minimize the possibility of errors. As a shortform any of the keys can accept a single tuple as well as a list of tuples. Returns: The list of og.Nodes created for all constructed nodes Raises: OmniGraphError if any of the graph creation instructions could not be fulfilled The graph will be left in the partially constructed state it reached at the time of the error """ # The graph could be in an illegal state when halfway through editing operations. This will disable it # until all operations are completed. It's up to the caller to ensure that the state is legal after all # operations are completed. graph_was_disabled = self.graph.is_disabled() self.graph.set_disabled(True) try: # Syntax check first for instruction, data in graph_description.items(): if instruction not in ["nodes", "connections", "disconnections", "values", "deletions", "prims"]: raise OmniGraphError(f"Unknown graph construction operation - {instruction}: {data}") # Delete first because we may be creating nodes with the same names with suppress(KeyError): self._edit_delete_nodes(root_prim, graph_description["deletions"]) # Create nodes next since connect and set may need them node_path_map = {} nodes_constructed = [] with suppress(KeyError): (node_path_map, nodes_constructed) = self._edit_create_nodes(root_prim, graph_description["nodes"]) # Prims next as they may be used in connections with suppress(KeyError): self._edit_create_prims(root_prim, node_path_map, nodes_constructed, graph_description["prims"]) # Connections next as setting values may override their data with suppress(KeyError): self._edit_connect(node_path_map, graph_description["connections"]) # Disconnections may have been created by the connections list so they're next, though that's unlikely with suppress(KeyError): self._edit_disconnect(node_path_map, graph_description["disconnections"]) # Now set the values with suppress(KeyError): self._edit_set_values(node_path_map, graph_description["values"]) finally: # Really important that this always gets reset self.graph.set_disabled(graph_was_disabled) return nodes_constructed	52,187	Python	47.956848	120	0.569414
omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/context_helper.py	r"""Deprecated accessor of attribute values within a graph context. Use og.DataView or og.Controller instead. _____ ______ _____ _____ ______ _____ _______ ______ _____ \| __ \ \| ____\|\| __ \ \| __ \ \| ____\|/ ____\| /\ \|__ __\|\| ____\|\| __ \ \| \| \| \|\| \|__ \| \|__) \|\| \|__) \|\| \|__ \| \| / \ \| \| \| \|__ \| \| \| \| \| \| \| \|\| __\| \| ___/ \| _ / \| __\| \| \| / /\ \ \| \| \| __\| \| \| \| \| \| \|__\| \|\| \|____ \| \| \| \| \ \ \| \|____\| \|____ / ____ \ \| \| \| \|____ \| \|__\| \| \|_____/ \|______\|\|_\| \|_\| \_\\|______\|\_____\|/_/ \_\\|_\| \|______\|\|_____/ """ from contextlib import suppress from typing import Any, Optional, Union import omni.graph.core as og import omni.graph.tools as ogt from ..attribute_values import AttributeDataValueHelper, AttributeValueHelper, WrappedArrayType from ..lookup_tables import ( IDX_ARRAY_GET, IDX_ARRAY_GET_TENSOR, IDX_ARRAY_SET, IDX_GET, IDX_GET_TENSOR, IDX_SET, UNSUPPORTED_METHODS, type_access_methods, ) from ..utils import DBG_EVAL, dbg_eval, list_dimensions # ============================================================================================================== # Try to import torch for tensor APIs. If not available the non-tensor APIs will still work. try: import torch_wrap except ImportError: torch_wrap = None # ================================================================================ @ogt.DeprecatedClass("og.ContextHelper is deprecated after version 1.5.0. Use og.Controller instead.") class ContextHelper: """Helper class for managing compute graph contexts Attributes: _py_context: Context on which to apply the operations """ def __init__(self, py_context=None): """Remember the context for future operations. Args: py_context: Context for the operations - if None then get the current one """ if py_context is None: for context in og.get_compute_graph_contexts(): self._py_context = context else: self._py_context = py_context # ---------------------------------------------------------------------- @property def context(self): """Returns the context being used for evaluation""" return self._py_context # ---------------------------------------------------------------------- def get_attribute_configuration(self, attr: Union[og.Attribute, og.AttributeData]): """Get the array configuration information from the attribute. Attributes can be simple, tuples, or arrays of either. The information on what this is will be encoded in the attribute type name. This method decodes that type name to find out what type of attribute data the attribute will use. The method also gives the right answers for both Attribute and AttributeData with some suitable AttributeError catches to special case on unimplemented methods. Args: attr: Attribute whose configuration is being determined Returns: Tuple of: str: Name of the full/resolved data type used by the attribute (e.g. "float[3][]") str: Name of the simple data type used by the attribute (e.g. "float") bool: True if the data type is a tuple or array (e.g. "float3" or "float[]") bool: True if the data type is a matrix and should be flattened (e.g. "matrixd[3]" or "framed[4][]") List: List of lookup methods for this type Raises: TypeError: If the attribute type is not yet supported """ # The actual data in extended types is the resolved type name; the attribute type is always token ogn_type = attr.get_resolved_type() if isinstance(attr, og.Attribute) else attr.get_type() type_name = ogn_type.get_ogn_type_name() # The root name is important for lookup root_type_name = ogn_type.get_base_type_name() if ogn_type.base_type == og.BaseDataType.UNKNOWN and ( attr.get_extended_type() in (og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_ANY, og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_UNION) ): raise TypeError(f"Attribute '{attr.get_name()}' is not resolved, and so has no concrete type") is_array_type = ogn_type.array_depth > 0 and ogn_type.role not in [og.AttributeRole.TEXT, og.AttributeRole.PATH] is_matrix_type = ( type_name.startswith("matrix") or type_name.startswith("frame") or type_name.startswith("transform") ) lookup_methods = UNSUPPORTED_METHODS # Gather nodes automatically add one level of array to their attributes is_gather_node = False with suppress(AttributeError): is_gather_node = attr.get_node().get_type_name() == "Gather" if is_gather_node: if is_array_type: raise TypeError("Array types on Gather nodes are not yet supported in Python") is_array_type = True # Arrays of arrays are not yet supported in flatcache so they cannot be supported in Python if ogn_type.array_depth > 1: raise TypeError("Nested array types are not yet supported in Python") try: lookup_methods = type_access_methods(ogn_type)[0] except (KeyError, TypeError) as error: raise TypeError(f"Root type {ogn_type.get_ogn_type_name()} is not yet supported in Python") from error return (type_name, root_type_name, is_array_type, is_matrix_type, lookup_methods) # ---------------------------------------------------------------------- def get( self, attr_object: Union[og.Attribute, og.AttributeData], on_gpu: bool = False, update_immediately: bool = False ): """ Get the value of an attribute or attribute data. Can be used for either type. This method is intended for simple value retrievals. For array values use get_array(). Args: attr_object: attribute data whose value is to be retrieved on_gpu: Is the value stored on the GPU? update_immediately: Should the stage update before getting the value or wait for the next regular update? Returns: Value of the attribute or attribute data Raises: TypeError: If an unsupported object type was passed in """ if isinstance(attr_object, og.AttributeData): helper = AttributeDataValueHelper(attr_object) return helper.get(on_gpu) if isinstance(attr_object, og.Attribute): helper = AttributeValueHelper(attr_object) return helper.get(on_gpu) raise TypeError(f"Object type {type(attr_object)} cannot be set with this method") # ---------------------------------------------------------------------- def get_array( self, attr_object: Union[og.Attribute, og.AttributeData], on_gpu: bool = False, update_immediately: bool = False, get_for_write: bool = False, reserved_element_count: int = 0, return_type: Optional[WrappedArrayType] = None, ) -> Any: """ Get the value of an attribute or attribute data. Can be used for either type. Args: attr_object: attribute whose value is to be retrieved on_gpu: Is the value stored on the GPU? update_immediately: Should the stage update before getting the value or wait for the next regular update? get_for_write: If True then get the data in writable form (which may do other things under the covers) reserved_element_count: For writable array types set the element count to this before retrieving the data. This guarantees a buffer of this many elements is available in the returned data. Returns: Array value of the attribute or attribute data Raises: TypeError: If an unsupported object type was passed in """ # Ask the attribute update its value. If we are using a push graph, this # won't do anything, but in a dirty and pull graph, this generates the "pull" that causes the graph # to evaluate the dirtied attribute. with suppress(AttributeError): attr_object.update_object_value(update_immediately) helper = AttributeValueHelper(attr_object) if get_for_write is not None: if reserved_element_count is None: raise ValueError("Tried to get an array for write without setting the element count") return helper.get_array(get_for_write, reserved_element_count, on_gpu, return_type) return helper.get(on_gpu) # ---------------------------------------------------------------------- def get_attr_value( self, attr: og.Attribute, isGPU: bool = False, # noqa: N803 isTensor: bool = False, # noqa: N803 getDefault: bool = False, # noqa: N803 updateImmediately=False, # noqa: N803 getForWrite=False, # noqa: N803 writeElemCount=0, # noqa: N803 ): """ Get the value of a node attribute in the context managed by this class. Args: attr: attribute whose value is to be retrieved isGPU: Is the attribute stored on the GPU? isTensor: Is the attribute value a tensor type? For some types of data this doesn't mean anything but is silently accepted anyway. isDefault: Whether or not we want to retrieve the default value updateImmediately: Should the stage update immediately or wait for the next regular update? getForWrite: Is the value going to be written to after calling? writeElemCount: If the value to get is a writable array then set it at this size Returns: Value of the attribute Raises: AttributeError: If you try to access array data with "isTensor=True" and torch was not imported TypeError: Raised if the data type of the attribute is not yet supported """ (type_name, root_type_name, is_array_type, _, lookup_methods) = self.get_attribute_configuration(attr) # Verify that getting arrays for write has a valid element count. 0 is okay, None indicates uninitialized if is_array_type and getForWrite and (writeElemCount is None): raise ValueError(f"Attribute {attr.get_name()} requires a size to be set before getting values") # Ask the attribute update its value. If we are using a push graph, this # won't do anything, but in a dirty and pull graph, this generates the "pull" that causes the graph # to evaluate the dirtied attribute. with suppress(AttributeError): attr.update_attribute_value(updateImmediately) can_be_tensor = (isTensor or isGPU) and is_array_type and torch_wrap is not None _ = DBG_EVAL and dbg_eval( f"Getting value of type {type_name} on {attr.get_name()}. GPU = {isGPU}, Tensor = {isTensor}" ) try: _ = DBG_EVAL and dbg_eval(" --> Has Get/Set methods") if is_array_type: if lookup_methods[IDX_ARRAY_GET] is not None: if can_be_tensor and (lookup_methods[IDX_ARRAY_GET_TENSOR] is not None): _ = DBG_EVAL and dbg_eval( f" --> Returning array tensor data with {lookup_methods[IDX_ARRAY_GET_TENSOR]}" ) tensor = lookup_methods[IDX_ARRAY_GET_TENSOR]( self._py_context, attr, isGPU, getForWrite, writeElemCount ) return torch_wrap.wrap_tensor(tensor) if tensor is not None else None _ = DBG_EVAL and dbg_eval(f" --> Returning array data with {lookup_methods[IDX_ARRAY_GET]}") return lookup_methods[IDX_ARRAY_GET]( self._py_context, attr, getDefault, getForWrite, writeElemCount ) raise TypeError(f"Getting array data of type {root_type_name} is not yet supported") if can_be_tensor and lookup_methods[IDX_GET_TENSOR] is not None: _ = DBG_EVAL and dbg_eval(f" --> Returning tensor data with {lookup_methods[IDX_GET_TENSOR]}") tensor = lookup_methods[IDX_GET_TENSOR](self._py_context, attr, isGPU, getForWrite, writeElemCount) return torch_wrap.wrap_tensor(tensor) if tensor is not None else None _ = DBG_EVAL and dbg_eval(f" --> Returning normal data with {lookup_methods[IDX_GET]}") return lookup_methods[IDX_GET](self._py_context, attr, getDefault, getForWrite, writeElemCount) except TypeError as error: raise TypeError(f"Trying to get unsupported attribute type {type_name}") from error except KeyError as error: raise TypeError(f"Trying to get unknown attribute type {type_name}") from error # ---------------------------------------------------------------------- def set_attr_value(self, new_value, attr: og.Attribute): """ Set the value of a attribute in the context managed by this class new_value: New value to be set on the attribute attr: Attribute whose value is to be set Raises: TypeError: Raised if the data type of the attribute is not yet supported or if the parameters were passed in the wrong order. """ if isinstance(new_value, og.Attribute): raise TypeError("set_attr_value is called with value first, attribute second") (type_name, root_type_name, is_array_type, is_matrix_type, lookup_methods) = self.get_attribute_configuration( attr ) # Flatten the matrix data out, if it wasn't already flattened # 2x2 matrix can come in as [[a, b], [c, d]] or [a, b, c, d] but will always go to the ABI as the latter if is_matrix_type: value_dimensions = list_dimensions(new_value) if is_array_type: if value_dimensions == 3: value_to_set = [[item for sublist in matrix for item in sublist] for matrix in new_value] else: value_to_set = new_value else: if value_dimensions == 2: value_to_set = [item for sublist in new_value for item in sublist] else: value_to_set = new_value else: value_to_set = new_value try: _ = DBG_EVAL and dbg_eval(f"Set attribute {attr.get_name()} of type {type_name} to {new_value}") _ = DBG_EVAL and dbg_eval(f" as {root_type_name}, array={is_array_type}, matrix={is_matrix_type}") if is_array_type: if lookup_methods[IDX_ARRAY_GET] and lookup_methods[IDX_ARRAY_SET]: _ = DBG_EVAL and dbg_eval(f" --> Setting array node data using {lookup_methods[IDX_ARRAY_SET]}") # When setting an entire array all at once you need to first ensure the memory is allocated # by calling the get method. lookup_methods[IDX_ARRAY_GET](self._py_context, attr, False, True, len(value_to_set)) lookup_methods[IDX_ARRAY_SET](self._py_context, value_to_set, attr) else: raise TypeError(f"Setting array data of type {type_name} is not yet supported") else: _ = DBG_EVAL and dbg_eval(f" --> Setting simple data with {lookup_methods[IDX_SET]}") lookup_methods[IDX_SET](self._py_context, value_to_set, attr) except KeyError as error: raise TypeError(f"Trying to set unsupported attribute type {type_name}") from error # ---------------------------------------------------------------------- def get_elem_count(self, attr): """ Get the number of elements on the attribute in the context managed by this class attr: Attribute whose element values are to be counted Returns: Number of elements currently on the attribute """ return self._py_context.get_elem_count(attr)	16,501	Python	47.678466	120	0.576389
omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/utils.py	r"""Deprecated utilities _____ ______ _____ _____ ______ _____ _______ ______ _____ \| __ \ \| ____\|\| __ \ \| __ \ \| ____\|/ ____\| /\ \|__ __\|\| ____\|\| __ \ \| \| \| \|\| \|__ \| \|__) \|\| \|__) \|\| \|__ \| \| / \ \| \| \| \|__ \| \| \| \| \| \| \| \|\| __\| \| ___/ \| _ / \| __\| \| \| / /\ \ \| \| \| __\| \| \| \| \| \| \|__\| \|\| \|____ \| \| \| \| \ \ \| \|____\| \|____ / ____ \ \| \| \| \|____ \| \|__\| \| \|_____/ \|______\|\|_\| \|_\| \_\\|______\|\_____\|/_/ \_\\|_\| \|______\|\|_____/ """ from typing import Any, List, Tuple, Union import carb import omni.graph.core as og from pxr import Sdf, Usd ALLOW_IMPLICIT_GRAPH_SETTING = "/persistent/omnigraph/allowGlobalImplicitGraph" """Constant for the setting to selectively disable the global implicit graph""" USE_SCHEMA_PRIMS_SETTING = "/persistent/omnigraph/useSchemaPrims" """Constant for the setting to force OmniGraph prims to follow the schema""" ENABLE_LEGACY_PRIM_CONNECTIONS = "/persistent/omnigraph/enableLegacyPrimConnections" """Constant for the setting to enable connections between legacy Prims and OG Nodes""" DISABLE_PRIM_NODES_SETTING = "/persistent/omnigraph/disablePrimNodes" """Constant for the setting to enable legacy Prim nodes to exist in the scene""" # Object type hints are now available in typing.py NODE_TYPE_HINTS = Union[str, og.Node, Usd.Prim, None] # type: ignore NODE_TYPE_OR_LIST = Union[NODE_TYPE_HINTS, List[NODE_TYPE_HINTS]] ATTRIBUTE_TYPE_HINTS = Union[str, og.Attribute, Usd.Attribute] # type: ignore ATTRIBUTE_TYPE_OR_LIST = Union[ATTRIBUTE_TYPE_HINTS, List[ATTRIBUTE_TYPE_HINTS]] ATTRIBUTE_TYPE_TYPE_HINTS = Union[str, og.Type] ATTRIBUTE_VALUE_PAIR = Tuple[ATTRIBUTE_TYPE_HINTS, Any] ATTRIBUTE_VALUE_PAIRS = Union[ATTRIBUTE_VALUE_PAIR, List[ATTRIBUTE_VALUE_PAIR]] EXTENDED_ATTRIBUTE_TYPE_HINTS = Union[og.AttributePortType, Tuple[og.AttributePortType, Union[str, List[str]]]] GRAPH_TYPE_HINTS = Union[str, Sdf.Path, og.Graph, None] # type: ignore GRAPH_TYPE_OR_LIST = Union[GRAPH_TYPE_HINTS, List[GRAPH_TYPE_HINTS]] # ================================================================================ def get_omnigraph(): """Returns the current OmniGraph. Deprecated as there is no longer the notion of a 'current' graph """ carb.log_warn("get_omnigraph() is deprecated and will be removed - use og.ObjectLookup.graph() instead") for context in og.get_compute_graph_contexts(): return context.get_graph() raise ValueError("OmniGraph is not currently available") # ==================================================================================================== def l10n(msg): """Wrapper for l10n for when it gets implemented. Deprecated - implementation is not on the plan and usage is spotty. """ return msg	2,789	Python	43.285714	111	0.570814
omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/replaced_functions.py	r"""Deprecation support for functions that have been replaced by equivalents _____ ______ _____ _____ ______ _____ _______ ______ _____ \| __ \ \| ____\|\| __ \ \| __ \ \| ____\|/ ____\| /\ \|__ __\|\| ____\|\| __ \ \| \| \| \|\| \|__ \| \|__) \|\| \|__) \|\| \|__ \| \| / \ \| \| \| \|__ \| \| \| \| \| \| \| \|\| __\| \| ___/ \| _ / \| __\| \| \| / /\ \ \| \| \| __\| \| \| \| \| \| \|__\| \|\| \|____ \| \| \| \| \ \ \| \|____\| \|____ / ____ \ \| \| \| \|____ \| \|__\| \| \|_____/ \|______\|\|_\| \|_\| \_\\|______\|\_____\|/_/ \_\\|_\| \|______\|\|_____/ """ import re import omni.graph.core as og import omni.graph.tools as ogt from ..lookup_tables import OGN_NAMES_TO_TYPES, USD_NAMES_TO_TYPES # Pattern match for OGN style type names # MATCH: BaseType, [TupleCount]\|None, []\|None - e.g. int[3][] = "int",[3],[] RE_OGN_ATTRIBUTE_TYPE_PATTERN = re.compile(r"(^[^\[]+)(\[[0-9]+\]){0,1}(\[\]){0,1}") # Pattern matches for USD style type names. The rules for USD names are a little more complex so they require # multiple patterns to fully grok. (e.g. an int[4] is "int4" but a colord[4] is "color4d") # MATCH: BaseType64, TupleCount\|None, []\|None - e.g. int64 = "int64",None,None RE_USD_ATTRIBUTE_64_TYPE_PATTERN = re.compile(r"^([a-zA-Z]+64)([0-9]+){0,1}(\[\]){0,1}") # MATCH: BaseType, TupleCount\|None, h\|d\|f\|None, []\|None - e.g. quat3d[] = "quat",3,d,[] RE_USD_ATTRIBUTE_TYPE_PATTERN = re.compile(r"^([a-zA-Z]+)([0-9]+){0,1}([hdf]){0,1}(\[\]){0,1}") # Mapping of the .ogn base data types to the corresponding og.BaseDataType values BASE_DATA_TYPE_MAP = { "bool": og.BaseDataType.BOOL, "bundle": og.BaseDataType.RELATIONSHIP, "double": og.BaseDataType.DOUBLE, "execution": og.BaseDataType.UINT, "float": og.BaseDataType.FLOAT, "half": og.BaseDataType.HALF, "int": og.BaseDataType.INT, "int64": og.BaseDataType.INT64, "objectId": og.BaseDataType.UINT64, "path": og.BaseDataType.UCHAR, "string": og.BaseDataType.UCHAR, "token": og.BaseDataType.TOKEN, "uchar": og.BaseDataType.UCHAR, "uint": og.BaseDataType.UINT, "uint64": og.BaseDataType.UINT64, } # Mapping of the .ogn role names to the corresponding og.AttributeRole values ROLE_MAP = { "color": og.AttributeRole.COLOR, "execution": og.AttributeRole.EXECUTION, "frame": og.AttributeRole.FRAME, "matrix": og.AttributeRole.MATRIX, "none": og.AttributeRole.NONE, "normal": og.AttributeRole.NORMAL, "objectId": og.AttributeRole.OBJECT_ID, "path": og.AttributeRole.PATH, "point": og.AttributeRole.POSITION, "quat": og.AttributeRole.QUATERNION, "string": og.AttributeRole.TEXT, "texcoord": og.AttributeRole.TEXCOORD, "timecode": og.AttributeRole.TIMECODE, "transform": og.AttributeRole.TRANSFORM, "vector": og.AttributeRole.VECTOR, } # ============================================================================================================== @ogt.deprecated_function("Use og.AttributeType.type_from_ogn_type_name instead") def attribute_type_from_ogn_type_name(ogn_type_name: str) -> og.Type: """Construct an attribute type object from an OGN style type name""" type_match = RE_OGN_ATTRIBUTE_TYPE_PATTERN.match(ogn_type_name) if not type_match: raise AttributeError(f"Attribute type '{ogn_type_name}' does not match known OGN type names") try: (base_type, role) = OGN_NAMES_TO_TYPES[type_match.group(1)] except KeyError as error: raise AttributeError(f"Base type '{type_match.group(1)}' is not a supported OGN type") from error tuple_count = 1 if type_match.group(2) is None else int(type_match.group(2)[1]) array_depth = 0 if type_match.group(3) is None and role in [og.AttributeRole.TEXT, og.AttributeRole.PATH] else 1 is_matrix_type = role in [og.AttributeRole.MATRIX, og.AttributeRole.TRANSFORM, og.AttributeRole.FRAME] if is_matrix_type: tuple_count = tuple_count return og.Type(base_type, tuple_count, array_depth, role) # ============================================================================================================== @ogt.deprecated_function("Use og.AttributeType.type_from_sdf_type_name instead") def attribute_type_from_usd_type_name(usd_type_name: str) -> og.Type: """Construct an attribute type object from a USD style type name""" # The 64 type pattern (int64, uint64) has to be applied first so that the base type includes it type_match = RE_USD_ATTRIBUTE_64_TYPE_PATTERN.match(usd_type_name) if type_match: (full_type, tuple_count, array_pattern) = type_match.groups() flavour = None else: type_match = RE_USD_ATTRIBUTE_TYPE_PATTERN.match(usd_type_name) if not type_match: raise AttributeError(f"Attribute type '{usd_type_name}' does not match known USD type names") (full_type, tuple_count, flavour, array_pattern) = type_match.groups() # Reassemble the role names (quat3d extracts as "quat",3,"d",None - need "quatd" to grok the types) full_type = f"{full_type}{flavour}" if flavour is not None else full_type tuple_count = 1 if tuple_count is None else int(tuple_count) array_depth = 0 if array_pattern is None else 1 try: (base_type, role, override_tuple_count) = USD_NAMES_TO_TYPES[full_type] if override_tuple_count is not None: tuple_count = override_tuple_count except KeyError as error: raise AttributeError(f"Base type '{full_type}' is not a supported USD type") from error is_matrix_type = usd_type_name.startswith("matrix") if is_matrix_type: tuple_count = tuple_count return og.Type(base_type, tuple_count, array_depth, role)	5,695	Python	46.865546	116	0.597366
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_changes.py	import omni.graph.core as og import omni.graph.core.tests as ogt class BundleTestSetup(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.bundle_changes = og.IBundleChanges.create(self.context) self.assertTrue(self.bundle_changes is not None) class TestBundleTopologyChanges(BundleTestSetup): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() async def test_bundle_changes_interface(self): bundle_changes = og.IBundleChanges.create(self.context) self.assertTrue(bundle_changes is not None) async def test_create_bundle(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_create_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # check for changes with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) async def test_create_attribute_like(self): bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.bundle_changes.activate_change_tracking(bundle1) self.bundle_changes.activate_change_tracking(bundle2) attrib1 = bundle1.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle1) self.bundle_changes.get_change(bundle2) self.bundle_changes.get_change(attrib1) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib1), og.BundleChangeType.NONE) # command: create attrib based on attrib1 attrib2 = bundle2.create_attribute_like(attrib1) # check for changes with og.BundleChanges(self.bundle_changes, bundle2) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib1), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(bundle2), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib2), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib2), og.BundleChangeType.NONE) async def test_create_child_bundle(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify bundle.create_child_bundle("child") # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_remove_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify bundle.remove_attribute("attrib") # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_remove_child_bundles(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) child = bundle.create_child_bundle("child") # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify bundle.remove_child_bundle(child) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_clear_contents(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify bundle.clear_contents() # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_copy_attribute(self): bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.bundle_changes.activate_change_tracking(bundle1) self.bundle_changes.activate_change_tracking(bundle2) attrib1 = bundle1.create_attribute("attrib1", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle1) self.bundle_changes.get_change(bundle2) self.bundle_changes.get_change(attrib1) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib1), og.BundleChangeType.NONE) # modify # only bundle2 is affected, but source bundle1 and attrib1 not bundle2.copy_attribute(attrib1) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle2) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(bundle2), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib1), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib1), og.BundleChangeType.NONE) async def test_copy_child_bundle(self): """Test if CoW reference is resolved.""" bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.bundle_changes.activate_change_tracking(bundle1) self.bundle_changes.activate_change_tracking(bundle2) # setup tracking self.bundle_changes.get_change(bundle1) self.bundle_changes.get_change(bundle2) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) # modify # only bundle1 is dirty, but bundle2 stays intact bundle1.copy_child_bundle(bundle2) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle1) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle1), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) async def test_copy_bundle(self): """Copying bundle creates a shallow copy - a reference. To obtain the dirty id the reference needs to be resolved""" bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.bundle_changes.activate_change_tracking(bundle1) self.bundle_changes.activate_change_tracking(bundle2) # setup tracking self.bundle_changes.get_change(bundle1) self.bundle_changes.get_change(bundle2) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) # modify # bundle2 is modified, but bundle1 stays intact bundle2.copy_bundle(bundle1) self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle2) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle2), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) async def test_get_attribute_by_name(self): """Getting writable attribute data handle does not change dirty id. Only writing to an attribute triggers id to be changed.""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(attrib) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # getting attribute doesn't mark any changes attrib = bundle.get_attribute_by_name("attrib") # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) async def test_get_child_bundle_by_name(self): """Getting writable bundle handle does not change dirty id. Only creating/removing attributes and children triggers id to be changed.""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) child = bundle.create_child_bundle("child") # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(child) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child), og.BundleChangeType.NONE) # bundle and child must be clean child = bundle.get_child_bundle_by_name("child") # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(child), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child), og.BundleChangeType.NONE) async def test_change_child_and_propagate_changes_to_parent(self): r""" bundle1 \_ child0 \_ child1 \_ child2 <-- create attribute Will propagate dirty id changes up to `bundle1` (child2 -> child1 -> child0 -> bundle1) """ bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) child0 = bundle.create_child_bundle("child0") child1 = child0.create_child_bundle("child1") child2 = child1.create_child_bundle("child2") # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(child0) self.bundle_changes.get_change(child1) self.bundle_changes.get_change(child2) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(child2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child0), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # creating attribute automatically make all hierarchy dirty child2.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(child2), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(child1), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(child0), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(child2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child0), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) class TestBundleAttributeDataChanges(BundleTestSetup): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() async def test_set_get_simple_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(attrib) self.bundle_changes.clear_changes() self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # command: set modifies attribute and bundle attrib.set(42) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # query: get does not modify attribute and bundle self.assertEqual(attrib.as_read_only().get(), 42) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) async def test_set_get_array_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT, 1, 1)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(attrib) self.bundle_changes.clear_changes() self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # command: set modifies attribute and bundle attrib.set([42]) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # query: get does not modify attribute and bundle self.assertEqual(attrib.as_read_only().get()[0], 42) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) async def test_set_get_tuple_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT, 2, 0)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(attrib) self.bundle_changes.clear_changes() self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # command: set modifies attribute and bundle attrib.set([42, 24]) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # query: get does not modify attribute and bundle self.assertEqual(attrib.as_read_only().get()[0], 42) self.assertEqual(attrib.as_read_only().get()[1], 24) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE)	24,227	Python	45.325048	91	0.692987
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_cow.py	import omni.graph.core as og import omni.graph.core.tests as ogt class TestBundleCow(ogt.OmniGraphTestCase): async def setUp(self): await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" self.attr1Name = "attr1" self.attr1Type = og.Type(og.BaseDataType.BOOL, 1, 1) self.bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.bundle1.valid) self.bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) self.assertTrue(self.bundle2.valid) async def test_copy_and_remove_attribute_with_metadata(self): meta_name = "meta1" meta_type = og.Type(og.BaseDataType.INT, 1, 1) attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) attr1.set([False, True]) meta1 = self.bundle1.create_attribute_metadata(self.attr1Name, meta_name, meta_type) meta1.set([1, 2, 3, 4]) # copy attribute with metadata self.bundle2.copy_attribute(attr1) # confirm data is accurate after setting it cpy_meta1 = self.bundle2.get_attribute_metadata_by_name(self.attr1Name, meta_name) cpy_meta1.set([4, 3, 2, 1]) self.assertTrue((meta1.get() == [1, 2, 3, 4]).all()) self.assertTrue((cpy_meta1.get() == [4, 3, 2, 1]).all()) # remove copied attribute should leave original attribute intact self.bundle2.remove_attributes_by_name([self.attr1Name]) # confirm source data is intact attr1 = self.bundle1.get_attribute_by_name(self.attr1Name) self.assertTrue(attr1.is_valid()) self.assertTrue((attr1.get() == [False, True]).all()) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 1) meta1 = self.bundle1.get_attribute_metadata_by_name(self.attr1Name, meta_name) self.assertTrue(meta1.is_valid()) self.assertTrue((meta1.get() == [1, 2, 3, 4]).all()) # confirm removed metadata is gone self.assertEqual(self.bundle2.get_attribute_metadata_count(self.attr1Name), 0) attr1 = self.bundle2.get_attribute_metadata_by_name(self.attr1Name, meta_name) self.assertFalse(attr1.is_valid()) async def test_copy_bundle_and_remove_attribute_with_metadata(self): meta_name = "meta1" meta_type = og.Type(og.BaseDataType.INT, 1, 1) attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) attr1.set([False, True]) meta1 = self.bundle1.create_attribute_metadata(self.attr1Name, meta_name, meta_type) meta1.set([1, 2, 3, 4]) # copy attribute with metadata self.bundle2.copy_bundle(self.bundle1) # # Do NOT materialize attribute - keep shallow copy of entire bundle # # remove copied attribute should leave original attribute intact self.bundle2.remove_attributes_by_name([self.attr1Name]) # confirm source data is intact attr1 = self.bundle1.get_attribute_by_name(self.attr1Name) self.assertTrue(attr1.is_valid()) self.assertTrue((attr1.get() == [False, True]).all()) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 1) meta1 = self.bundle1.get_attribute_metadata_by_name(self.attr1Name, meta_name) self.assertTrue(meta1.is_valid()) self.assertTrue((meta1.get() == [1, 2, 3, 4]).all()) # confirm copied metadata is gone self.assertEqual(self.bundle2.get_attribute_metadata_count(self.attr1Name), 0) attr1 = self.bundle2.get_attribute_metadata_by_name(self.attr1Name, meta_name) self.assertFalse(attr1.is_valid()) async def test_remove_attribute_metadata(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) attr1.set([False, True]) meta_name1 = "meta1" meta_type1 = og.Type(og.BaseDataType.INT, 1, 1) meta1 = self.bundle1.create_attribute_metadata(self.attr1Name, meta_name1, meta_type1) meta1.set([1, 2, 3, 4]) meta_name2 = "meta2" meta_type2 = og.Type(og.BaseDataType.BOOL, 1, 1) meta1 = self.bundle1.create_attribute_metadata(self.attr1Name, meta_name2, meta_type2) meta1.set([False, True]) # copy attribute with metadata self.bundle2.copy_bundle(self.bundle1) # # Materialize metadata for bundle2! # self.bundle2.remove_attribute_metadata(self.attr1Name, (meta_name1)) # check if source is intact self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) names = self.bundle1.get_attribute_metadata_names(self.attr1Name) self.assertEqual(len(names), 2) self.assertTrue(meta_name1 in names) self.assertTrue(meta_name2 in names) # check if shallow copied metadata bundle has been materialized self.assertEqual(self.bundle2.get_attribute_metadata_count(self.attr1Name), 1) names = self.bundle2.get_attribute_metadata_names(self.attr1Name) self.assertEqual(len(names), 1) self.assertFalse(meta_name1 in names) self.assertTrue(meta_name2 in names) async def test_copy_child_bundle(self): org_child = self.bundle1.create_child_bundle("org_child") # create bundle for modifications mod_bundle = self.factory.create_bundle(self.context, "mod_bundle") mod_child = mod_bundle.copy_child_bundle(org_child) mod_child.create_attribute("attr", og.Type(og.BaseDataType.BOOL, 1, 1)) # original child can not change, but modified change must self.assertEqual(org_child.get_attribute_count(), 0) self.assertEqual(mod_child.get_attribute_count(), 1) async def test_attribute_resize(self): src_bundle = self.factory.create_bundle(self.context, "src_bundle") src_attrib = src_bundle.create_attribute( "attrib", og.Type( og.BaseDataType.FLOAT, tuple_count=1, array_depth=1, ), element_count=100, ) dst_bundle = self.factory.create_bundle(self.context, "dst_bundle") dst_bundle.copy_bundle(src_bundle) self.assertEqual(dst_bundle.get_attribute_count(), 1) dst_attrib = dst_bundle.create_attribute( "attrib", og.Type( og.BaseDataType.FLOAT, tuple_count=1, array_depth=1, ), element_count=200, ) self.assertEqual(src_attrib.size(), 100) self.assertEqual(dst_attrib.size(), 200)	6,926	Python	38.135593	94	0.641207
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_omnigraph_utils.py	""" Suite of tests to exercise small pieces of the OmniGraph utility scripts. These tests are like unit tests in that they all only focus on one piece of functionality, not the integration of many pieces, as these tests usually do. """ import json from contextlib import suppress from pathlib import Path import carb import carb.settings import omni.graph.core as og import omni.graph.core.tests as ogt import omni.kit.app import omni.kit.commands import omni.kit.test import omni.usd class TestOmniGraphUtilities(ogt.OmniGraphTestCase): """Wrapper for unit tests on basic OmniGraph support script functionality""" # ---------------------------------------------------------------------- async def test_ogn_type_conversion(self): """Test operation of the AttributeType.type_from_ogn_type_name() function""" # Test data is tuples of string input and expected Type output simple_data_no_tuples = [ ("any", og.Type(og.BaseDataType.TOKEN)), ("bool", og.Type(og.BaseDataType.BOOL)), ("int64", og.Type(og.BaseDataType.INT64)), ("token", og.Type(og.BaseDataType.TOKEN)), ("uchar", og.Type(og.BaseDataType.UCHAR)), ("uint", og.Type(og.BaseDataType.UINT)), ("uint64", og.Type(og.BaseDataType.UINT64)), ] simple_data = [ ("double", og.Type(og.BaseDataType.DOUBLE)), ("float", og.Type(og.BaseDataType.FLOAT)), ("half", og.Type(og.BaseDataType.HALF)), ("int", og.Type(og.BaseDataType.INT)), ] tuple_data = [(f"{type_name}[2]", og.Type(og_type.base_type, 2, 0)) for (type_name, og_type) in simple_data] array_data = [ (f"{type_name}[]", og.Type(og_type.base_type, 1, 1)) for (type_name, og_type) in simple_data + simple_data_no_tuples ] array_tuple_data = [ (f"{type_name}[3][]", og.Type(og_type.base_type, 3, 1)) for (type_name, og_type) in simple_data ] role_data = [ ("bundle", og.Type(og.BaseDataType.RELATIONSHIP, 1, 0, og.AttributeRole.BUNDLE)), ("colord[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.COLOR)), ("colorf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.COLOR)), ("colorh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.COLOR)), ("frame[4]", og.Type(og.BaseDataType.DOUBLE, 16, 0, og.AttributeRole.FRAME)), ("matrixd[2]", og.Type(og.BaseDataType.DOUBLE, 4, 0, og.AttributeRole.MATRIX)), ("matrixd[3]", og.Type(og.BaseDataType.DOUBLE, 9, 0, og.AttributeRole.MATRIX)), ("matrixd[4]", og.Type(og.BaseDataType.DOUBLE, 16, 0, og.AttributeRole.MATRIX)), ("normald[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.NORMAL)), ("normalf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.NORMAL)), ("normalh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.NORMAL)), ("path", og.Type(og.BaseDataType.UCHAR, 1, 1, og.AttributeRole.PATH)), ("pointd[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.POSITION)), ("pointf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.POSITION)), ("pointh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.POSITION)), ("quatd[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.QUATERNION)), ("quatf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.QUATERNION)), ("quath[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.QUATERNION)), ("target", og.Type(og.BaseDataType.RELATIONSHIP, 1, 0, og.AttributeRole.TARGET)), ("texcoordd[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.TEXCOORD)), ("texcoordf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.TEXCOORD)), ("texcoordh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.TEXCOORD)), ("timecode[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.TIMECODE)), ("transform[3]", og.Type(og.BaseDataType.DOUBLE, 9, 0, og.AttributeRole.TRANSFORM)), ("vectord[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.VECTOR)), ("vectorf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.VECTOR)), ("vectorh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.VECTOR)), ] test_data = simple_data + simple_data_no_tuples + tuple_data + array_data + array_tuple_data + role_data for (attribute_type_spec, attribute_type_expected) in test_data: actual = og.AttributeType.type_from_ogn_type_name(attribute_type_spec) self.assertEqual(attribute_type_expected, actual, f"Failed to convert {attribute_type_spec}") # ---------------------------------------------------------------------- async def test_sdf_type_conversion(self): """Test operation of the AttributeType.type_from_sdf_type_name() function""" # Test data is tuples of string input and expected Type output simple_data_no_tuples = [ ("bool", og.Type(og.BaseDataType.BOOL)), ("int64", og.Type(og.BaseDataType.INT64)), ("token", og.Type(og.BaseDataType.TOKEN)), ("uchar", og.Type(og.BaseDataType.UCHAR)), ("uint", og.Type(og.BaseDataType.UINT)), ("uint64", og.Type(og.BaseDataType.UINT64)), ] simple_data = [ ("double", og.Type(og.BaseDataType.DOUBLE)), ("float", og.Type(og.BaseDataType.FLOAT)), ("half", og.Type(og.BaseDataType.HALF)), ("int", og.Type(og.BaseDataType.INT)), ] tuple_data = [(f"{type_name}2", og.Type(og_type.base_type, 2, 0)) for (type_name, og_type) in simple_data] array_data = [ (f"{type_name}[]", og.Type(og_type.base_type, 1, 1)) for (type_name, og_type) in simple_data + simple_data_no_tuples ] array_tuple_data = [ (f"{type_name}3[]", og.Type(og_type.base_type, 3, 1)) for (type_name, og_type) in simple_data ] role_data = [ ("color3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.COLOR)), ("color3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.COLOR)), ("color3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.COLOR)), ("frame4d", og.Type(og.BaseDataType.DOUBLE, 16, 0, og.AttributeRole.FRAME)), ("matrix2d", og.Type(og.BaseDataType.DOUBLE, 4, 0, og.AttributeRole.MATRIX)), ("matrix3d", og.Type(og.BaseDataType.DOUBLE, 9, 0, og.AttributeRole.MATRIX)), ("matrix4d", og.Type(og.BaseDataType.DOUBLE, 16, 0, og.AttributeRole.MATRIX)), ("normal3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.NORMAL)), ("normal3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.NORMAL)), ("normal3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.NORMAL)), ("point3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.POSITION)), ("point3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.POSITION)), ("point3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.POSITION)), ("quatd", og.Type(og.BaseDataType.DOUBLE, 4, 0, og.AttributeRole.QUATERNION)), ("quatf", og.Type(og.BaseDataType.FLOAT, 4, 0, og.AttributeRole.QUATERNION)), ("quath", og.Type(og.BaseDataType.HALF, 4, 0, og.AttributeRole.QUATERNION)), ("texCoord3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.TEXCOORD)), ("texCoord3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.TEXCOORD)), ("texCoord3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.TEXCOORD)), ("timecode", og.Type(og.BaseDataType.DOUBLE, 1, 0, og.AttributeRole.TIMECODE)), ("vector3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.VECTOR)), ("vector3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.VECTOR)), ("vector3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.VECTOR)), ] test_data = simple_data + simple_data_no_tuples + tuple_data + array_data + array_tuple_data + role_data for (attribute_type_spec, attribute_type_expected) in test_data: actual = og.AttributeType.type_from_sdf_type_name(attribute_type_spec) self.assertEqual( attribute_type_expected, actual, f"Failed to convert '{attribute_type_spec}' - '{attribute_type_expected.get_type_name()}'" f" != '{actual.get_type_name()}'", ) # ---------------------------------------------------------------------- async def test_extension_information(self): """Test operation of the utilities to examine extension and OmniGraph node type information""" extension_information = og.ExtensionInformation() manager = omni.kit.app.get_app_interface().get_extension_manager() examples_cpp_extension = "omni.graph.examples.cpp" nodes_extension = "omni.graph.nodes" # If the two known extensions are somehow not found then the test cannot run examples_cpp_extension_id = None nodes_extension_id = None with suppress(Exception): examples_cpp_extension_id = manager.get_extension_id_by_module(examples_cpp_extension) nodes_extension_id = manager.get_extension_id_by_module(nodes_extension) if not examples_cpp_extension_id: carb.log_warn("test_extension_information cannot run since omni.graph.examples.cpp was not found") return if not nodes_extension_id: carb.log_warn("test_extension_information cannot run since omni.graph.nodes was not found") return # Remember the enabled state so that we can gracefully recover after the test run examples_cpp_enabled = manager.is_extension_enabled(examples_cpp_extension) nodes_enabled = manager.is_extension_enabled(nodes_extension) try: # The test proceeds by creating five nodes, two OmniGraph nodes from each of the known extensions # and one Prim that is given attribute information to make it look like an OmniGraph node. Then the # extension mapping information is read in with all of the extension enabled/disabled combinations to # ensure the correct information is retrieved. # Set up the scene with both extensions enabled to begin with manager.set_extension_enabled_immediate(examples_cpp_extension_id, True) manager.set_extension_enabled_immediate(nodes_extension_id, True) examples_cpp_node_types = ["omni.graph.examples.cpp.Smooth", "omni.graph.examples.cpp.VersionedDeformer"] examples_cpp_nodes = ["/TestGraph/Smooth", "/TestGraph/VersionedDeformer"] nodes_node_types = ["omni.graph.nodes.ArrayLength", "omni.graph.nodes.Noop"] nodes_nodes = ["/TestGraph/ArrayLength", "/TestGraph/Noop"] og.Controller.edit( "/TestGraph", { og.Controller.Keys.CREATE_NODES: [ (examples_cpp_nodes[0][11:], examples_cpp_node_types[0]), (examples_cpp_nodes[1][11:], examples_cpp_node_types[1]), (nodes_nodes[0][11:], nodes_node_types[0]), (nodes_nodes[1][11:], nodes_node_types[1]), ] }, ) # test_data is a list of test configurations where the contents are: # Enable omni.graph.examples.cpp? # Enable omni.graph.nodes? test_data = [ [True, True], [True, False], [False, False], [False, True], ] for enable_examples_cpp, enable_nodes in test_data: manager.set_extension_enabled_immediate(examples_cpp_extension_id, enable_examples_cpp) manager.set_extension_enabled_immediate(nodes_extension_id, enable_nodes) # The first test reads the entire set of extension node types. As this is always in flux only a few # that are unlikely to move are checked. (enabled_extensions, disabled_extensions) = extension_information.get_node_types_by_extension() # Make sure the extensions are partitioned correctly by enabled state if enable_examples_cpp: self.assertTrue(examples_cpp_extension in enabled_extensions) self.assertTrue(examples_cpp_extension not in disabled_extensions) for node_type in examples_cpp_node_types: self.assertIn(node_type, enabled_extensions[examples_cpp_extension]) else: self.assertTrue(examples_cpp_extension not in enabled_extensions) self.assertTrue(examples_cpp_extension in disabled_extensions) for node_type in examples_cpp_node_types: self.assertIn(node_type, disabled_extensions[examples_cpp_extension]) if enable_nodes: self.assertTrue(nodes_extension in enabled_extensions) self.assertTrue(nodes_extension not in disabled_extensions) for node_type in nodes_node_types: self.assertIn(node_type, enabled_extensions[nodes_extension]) else: self.assertTrue(nodes_extension not in enabled_extensions) self.assertTrue(nodes_extension in disabled_extensions) for node_type in nodes_node_types: self.assertIn(node_type, disabled_extensions[nodes_extension]) # Check that the node configuration is also returning the correct data (enabled_nodes, disabled_nodes) = extension_information.get_nodes_by_extension() if enable_examples_cpp: self.assertTrue(examples_cpp_extension in enabled_nodes) self.assertTrue(examples_cpp_extension not in disabled_nodes) for node_path in examples_cpp_nodes: self.assertIn(node_path, enabled_nodes[examples_cpp_extension]) else: self.assertTrue(examples_cpp_extension not in enabled_nodes) self.assertTrue(examples_cpp_extension in disabled_nodes) for node_path in examples_cpp_nodes: self.assertIn(node_path, disabled_nodes[examples_cpp_extension]) if enable_nodes: self.assertTrue(nodes_extension in enabled_nodes) self.assertTrue(nodes_extension not in disabled_nodes) for node_path in nodes_nodes: self.assertIn(node_path, enabled_nodes[nodes_extension]) else: self.assertTrue(nodes_extension not in enabled_nodes) self.assertTrue(nodes_extension in disabled_nodes) for node_path in nodes_nodes: self.assertIn(node_path, disabled_nodes[nodes_extension]) finally: manager.set_extension_enabled_immediate(examples_cpp_extension, examples_cpp_enabled) manager.set_extension_enabled_immediate(nodes_extension, nodes_enabled) # ---------------------------------------------------------------------- async def test_graphregistry_event_stream(self): """ Tests the graph registry event stream notifies when extensions with node types are loaded and unloaded """ examples_python_extension = "omni.graph.examples.python" manager = omni.kit.app.get_app_interface().get_extension_manager() examples_python_extension_id = None with suppress(Exception): examples_python_extension_id = manager.get_extension_id_by_module(examples_python_extension) if not examples_python_extension_id: carb.log_warn(f"test_graphregistry_event_stream cannot run since {examples_python_extension} was not found") return examples_enabled = manager.is_extension_enabled(examples_python_extension) # tests the registration count = 0 event_type = None def on_changed(event): nonlocal count nonlocal event_type if event.type in (int(og.GraphRegistryEvent.NODE_TYPE_ADDED), int(og.GraphRegistryEvent.NODE_TYPE_REMOVED)): event_type = event.type count = count + 1 sub = og.GraphRegistry().get_event_stream().create_subscription_to_pop(on_changed) self.assertIsNotNone(sub) try: enabled = examples_enabled # each load/unload should trigger the callback for each node loaded/unloaded last_count = count for i in range(1, 4): enabled = not enabled manager.set_extension_enabled_immediate(examples_python_extension, enabled) await omni.kit.app.get_app().next_update_async() self.assertGreater(count, last_count) if enabled: self.assertEqual(event_type, int(og.GraphRegistryEvent.NODE_TYPE_ADDED)) else: self.assertEquals(event_type, int(og.GraphRegistryEvent.NODE_TYPE_REMOVED)) last_count = count # wait more frames to validate the callback didn't get called without an extension change for _j in range(1, i): await omni.kit.app.get_app().next_update_async() self.assertEqual(count, last_count) finally: manager.set_extension_enabled_immediate(examples_python_extension, examples_enabled) # ---------------------------------------------------------------------- async def test_typed_value(self): """Test operation of the TypedValue class""" # Test data consists of args + kwargs values to pass to the set() method, a boolean indicating whether setting # should succeed or not, and the expected value and type after setting. When there are two args or two kwargs # the __init__ method is used as well as those are the cases in which it is valid. unknown_t = og.Type(og.BaseDataType.UNKNOWN) float_t = og.Type(og.BaseDataType.FLOAT) test_data = [ # Legal args configurations [[], {}, True, None, unknown_t], [[1.0], {}, True, 1.0, unknown_t], [[1.0, "float"], {}, True, 1.0, float_t], [[1.0, float_t], {}, True, 1.0, float_t], # Legal kwargs configurations [[], {"value": 1.0}, True, 1.0, unknown_t], [[], {"value": 1.0, "type": "float"}, True, 1.0, float_t], [[], {"value": 1.0, "type": float_t}, True, 1.0, float_t], [[], {"type": float_t, "value": 1.0}, True, 1.0, float_t], # Illegal args combinations [[1.0, "float", 2], {}, False, None, None], [[1.0, "sink"], {}, False, None, None], [["float", 1.0], {}, False, None, None], # Illegal kwargs combinations [[], {"valley": 1.0}, False, None, None], [[], {"type": "float"}, False, None, None], [[], {"value": 1.0, "type": "flat"}, False, None, None], [[], {"value": 1.0, "type": "float", "scissors": "run_with"}, False, None, None], # Illegal args+kwargs combinations [[1.0], {"type": "float"}, False, None, None], [[1.0, "float"], {"value": 1.0}, False, None, None], ] for args, kwargs, should_succeed, expected_value, expected_type in test_data: test_info = ( f"args={args}, kwargs={kwargs}, success={should_succeed}, value={expected_value}, type={expected_type}" ) if should_succeed: if len(args) == 2: init_test = og.TypedValue(args) self.assertEqual(init_test.value, expected_value, test_info) self.assertEqual(init_test.type, expected_type, test_info) elif len(kwargs) == 2: init_test = og.TypedValue(kwargs) self.assertEqual(init_test.value, expected_value, test_info) self.assertEqual(init_test.type, expected_type, test_info) set_test = og.TypedValue() set_test.set(args, *kwargs) self.assertEqual(set_test.value, expected_value, test_info) self.assertEqual(set_test.type, expected_type, test_info) else: with self.assertRaises(og.OmniGraphError): set_test = og.TypedValue() set_test.set(args, *kwargs) if len(args) == 2 and not kwargs: with self.assertRaises(og.OmniGraphError): init_test = og.TypedValue(args) elif len(kwargs) == 2 and not args: with self.assertRaises(og.OmniGraphError): init_test = og.TypedValue(**kwargs) # ---------------------------------------------------------------------- async def test_category_setup(self): """Test that the default category list is something sensible""" # Read the exact set of default categories, which should be the minimum available category list category_path = Path(carb.tokens.get_tokens_interface().resolve("${kit}")) / "dev" / "ogn" / "config" with open(category_path / "CategoryConfiguration.json", "r", encoding="utf-8") as cat_fd: default_categories = dict(json.load(cat_fd)["categoryDefinitions"].items()) actual_categories = og.get_node_categories_interface().get_all_categories() # compounds is a special case that gets added at runtime, not in ogn, and is not intended # for use by .ogn compiled nodes. self.assertTrue("Compounds" in actual_categories) for category_name, category_description in actual_categories.items(): if category_name == "Compounds": continue self.assertTrue(category_name in default_categories) self.assertEqual(category_description, default_categories[category_name]) # ---------------------------------------------------------------------- async def test_app_information(self): """Test the functions which return information about the running application.""" # Make sure that we get back a tuple containing two non-negative ints. kit_version = og.get_kit_version() self.assertTrue( isinstance(kit_version, tuple), f"get_kit_version() returned type {type(kit_version)}, not tuple" ) self.assertEqual( len(kit_version), 2, f"get_kit_version() returned tuple with {len(kit_version)} elements, expected 2" ) self.assertTrue( isinstance(kit_version[0], int) and isinstance(kit_version[1], int), f"get_kit_version() returned types ({type(kit_version[0])}, {type(kit_version[1])}, expected (int, int)", ) self.assertTrue( kit_version[0] >= 0 and kit_version[1] >= 0, f"get_kit_version() returned invalid value '{kit_version}'" ) # ---------------------------------------------------------------------- async def test_temp_settings(self): """Test the Settings.temporary context manager.""" setting_names = ("/omnigraph/test/boolval", "/omnigraph/test/intval", "/omnigraph/test/sub/strval") # Initialize the settings. settings = carb.settings.get_settings() initial_values = (True, None, "first") initial_settings = list(zip(setting_names, initial_values)) for name, value in initial_settings: settings.destroy_item(name) if value is not None: settings.set(name, value) # Test the single setting version of the context. with og.Settings.temporary(setting_names[2], "second"): self.assertEqual(settings.get(setting_names[2]), "second", "Single setting, in context.") self.assertEqual(settings.get(setting_names[2]), initial_values[2], "Single setting, after context.") # Test the list version. temp_settings = list(zip(setting_names, (False, 6, "third"))) with og.Settings.temporary(temp_settings): for name, value in temp_settings: self.assertEqual(settings.get(name), value, f"Multiple settings, in context: '{name}'") for name, value in initial_settings: self.assertEqual(settings.get(name), value, f"Multiple settings, after context: '{name}'") # Clean up. for name in setting_names: settings.destroy_item(name)	25,391	Python	54.806593	120	0.586074
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_register_ogn_nodes.py	""" Contains support for testing methods in ../scripts/register_ogn_nodes """ import os from pathlib import Path from tempfile import TemporaryDirectory import omni.graph.core.tests as ogts import omni.graph.tools.ogn as ogn from .._impl.register_ogn_nodes import find_import_locations class TestRegisterOgnNodes(ogts.OmniGraphTestCase): """Unit test class""" # -------------------------------------------------------------------------------------------------------------- def test_find_import_locations(self): """Test for the utility function find_import_locations Test data consists of list of (inputs, outputs, failure): inputs (2-tuple): Path to file calling the scripts Python import path for the extension outputs (2-tuple): Expected location of the import path's root directory Expected location of the calling file's directory failure (bool): Should the test raise an exception? """ no_exception = False exception = True drive = "C:" if os.name == "nt" else "/drive" test_data = [ [(f"{drive}/a/b/c/d.py", "b.c"), (f"{drive}/a", f"{drive}/a/b/c"), no_exception], [(f"{drive}/a/b/c/d.py", "b.c.d"), (), exception], ] for (index, test_run) in enumerate(test_data): if test_run[2]: with self.assertRaises(ValueError, msg=f"Expected failure in test {index} - {test_run}"): _ = find_import_locations(test_run[0][0], test_run[0][1]) else: results = find_import_locations(test_run[0][0], test_run[0][1]) self.assertEqual(results[0], test_run[1][0], f"Import root for {test_run}") self.assertEqual(results[1], test_run[1][1], f"Generated directory for {test_run}") # -------------------------------------------------------------------------------------------------------------- def test_generate_automatic_test_imports(self): """Test for the utility function generate_automatic_test_imports Test data consists of list of (test_files, output, should_modify): inputs (List[str]): List of test file names to create output (str): Expected contents of __init__.py should_modify (bool): Should the test have modified __init__.py """ full_test_file = ogn.import_file_contents() test_data = [ [], # Generate an empty init file if no tests are available ["TestOgnTest1.py"], # Add a new test case ["TestOgnTest1.py"], # No new testcases so no changes should be made ["TestOgnTest1.py", "TestOgnTest2.py"], # Add a new test case [], # No testcases leaves the file in place ] # Set up temporary test directory with TemporaryDirectory() as test_directory_fd: test_directory = Path(test_directory_fd) import_filepath = test_directory / "__init__.py" for test_run, test_files in enumerate(test_data): # Create empty test files for file in test_files: with open(test_directory / file, "a", encoding="utf-8"): pass ogn.generate_test_imports(test_directory, write_file=True) # Verify __init__.py contents with open(import_filepath, "r", encoding="utf-8") as import_fd: self.assertCountEqual( [line.rstrip() for line in import_fd.readlines()], full_test_file, f"Generated incorrect test import file for run {test_run}", ) # Delete generated test files to prepare for the next test for file in test_directory.glob("TestOgn*.py"): file.unlink()	3,964	Python	42.571428	116	0.53557
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/omnigraph_test_utils.py	# noqa: PLC0302 """A set of utilities useful for testing OmniGraph. Note that this file should not be imported directly, the API is in omni.graph.core.tests. Available in this module are: - omni.graph.core.tests.DataTypeHelper - a utility class to help iterate over all available data types - omni.graph.core.tests.find_build_directory_above - find the root directory of the build - omni.graph.core.tests.load_test_file - load a test file and wait for it to be ready - omni.graph.core.tests.insert_sublayer - load a test file as a sublayer - omni.graph.core.tests.dump_graph - conditionally call omni.graph.core.tests.print_current_graph - omni.graph.core.tests.print_current_graph - print out the contents of the existing OmniGraphs - omni.graph.core.tests.compare_lists - do an unordered comparison of two lists - omni.graph.core.tests.verify_connections - confirm that a set of expected connections exists - omni.graph.core.tests.verify_node_existence - confirm that a set of expected nodes exists - omni.graph.core.tests.verify_values - confirm that a set of expected attribute values are correct - omni.graph.core.tests.create_scope_node - create a Scope prim - omni.graph.core.tests.create_cube - create a Cube prim - omni.graph.core.tests.create_sphere - create a Sphere prim - omni.graph.core.tests.create_cone - create a Cube prim - omni.graph.core.tests.create_grid_mesh - Create a simple mesh consisting of a grid - omni.graph.core.tests.create_input_and_output_grid_meshes - Create two meshes consisting of grids """ import inspect import os import unittest from abc import ABC, abstractmethod from contextlib import suppress from dataclasses import dataclass from math import isclose, isnan from typing import Any, Dict, List, Optional, Tuple, Union import carb import numpy as np import omni.graph.core as og import omni.graph.tools as ogt import omni.graph.tools.ogn as ogn import omni.kit import omni.usd from pxr import OmniGraphSchemaTools, Sdf, Usd, UsdGeom # If a node type version is unspecified then this is the value it gets. # Keep in sync with kDefaultNodeTypeVersion in include/omni/graph/core/NodeTypeRegistrar.h NODE_TYPE_VERSION_DEFAULT = 1 # ============================================================================================================== class TestContextManager(ABC): """Definition of the context classes that can be temporarily enabled during tests. These can be passed in to the test_case_class() factory method to extend the capabilities it has that are hardcoded in this file by instantiating one of these classes and passing it through the extra_contexts= parameter. The __init__ gets called to instantiate the base class information required by the test case. The setUp() method gets called when the test case's setUp method is called (once for every test). The tearDown() method gets called when the test case's tearDown method is called (once for every test) """ @abstractmethod def __init__(self): """Remember the setting name.""" @abstractmethod async def setUp(self): """Called when the test case setUp() is called""" @abstractmethod async def tearDown(self): """Called when the test case tearDown() is called""" # ============================================================================================================== class SettingContext(TestContextManager): """Helper class with an setUp and tearDown for modifying and restoring a carb setting""" def __init__(self, setting_name: str, temporary_value: any): """Remember the setting name.""" super().__init__() self.__setting_name = setting_name self.__temporary_value = temporary_value self.__original_value = None async def setUp(self): """Save the current value of the setting and set it to the desired temporary value""" settings = carb.settings.get_settings() self.__original_value = settings.get(self.__setting_name) ogt.dbg(f"SETUP Setting: Change {self.__setting_name} from {self.__original_value} to {self.__temporary_value}") settings.set(self.__setting_name, self.__temporary_value) async def tearDown(self): """Restore the original value of the setting""" ogt.dbg( f"TEARDOWN Setting: Restore {self.__setting_name} to {self.__original_value} from {self.__temporary_value}" ) carb.settings.get_settings().set(self.__setting_name, self.__original_value) # ============================================================================================================== class __ClearSceneContext(TestContextManager): """Helper class with an setUp and tearDown for potentially clearing the scene when a test is complete""" def __init__(self): # noqa: PLW0246 """Empty init is required since the parent is abstract""" super().__init__() async def setUp(self): """Nothing to do when setting up the test but the method is required""" ogt.dbg("SETUP ClearScene") async def tearDown(self): """If a clear was requested on tearDown do it now""" ogt.dbg("TEARDOWN ClearScene") await omni.usd.get_context().new_stage_async() # ============================================================================================================== def test_case_class(*kwargs) -> object: """ "Factory to return a base class to use for a test case configured with certain transient settings. The argument list is intentionally generic so that future changes can happen without impacting existing cases. The contexts will be invoked in the order specified below, with the extra_contexts being invoked in the order of the list passed in. Args: no_clear_on_finish (bool): If True then the scene will not be cleared after the test is complete extra_contexts (List[TestContextManager]): List of user-defined context managers to pass in deprecated (Tuple[str, DeprecationLevel]): Used to indicate this instantiation of the class has been deprecated base_class (object): Alternative base class for the test case, defaults to omni.kit.test.AsyncTestCase Return: Class object representing the base class for a test case with the given properties """ # Check to see if an alternative base class was passed in base_class = omni.kit.test.AsyncTestCase with suppress(KeyError): base_class = kwargs["base_class"] # Issue the deprecation message if specified, but continue on deprecation = None with suppress(KeyError): deprecation = kwargs["deprecated"] # Create a container for classes that will manage the temporary setting changes custom_actions = [] with suppress(KeyError): extra_contexts = kwargs["extra_contexts"] if not isinstance(extra_contexts, list): extra_contexts = [extra_contexts] for extra_context in extra_contexts: if not isinstance(extra_context, TestContextManager): raise ValueError(f"extra_contexts {extra_context} is not a TestContextManager") custom_actions.append(extra_context) if "no_clear_on_finish" not in kwargs or not kwargs["no_clear_on_finish"]: custom_actions.append(__ClearSceneContext()) # -------------------------------------------------------------------------------------------------------------- # Construct the customized test case base class object using the temporary setting and base class information class OmniGraphCustomTestCase(base_class): """A custom constructed test case base class that performs the prescribed setUp and tearDown actions. Members: __actions: List of actions to perform on setUp (calls action.setUp()) and tearDown (calls action.tearDown()) """ async def setUp(self): """Set up the test by saving and then setting up all of the action contexts""" super().setUp() if deprecation is not None: ogt.DeprecateMessage.deprecated(deprecation[0], deprecation[1]) # Start with no test failures registered og.set_test_failure(False) # Always start with a clean slate as the settings may conflict with something in the scene await omni.usd.get_context().new_stage_async() await omni.kit.app.get_app().next_update_async() # Perform the custom action entries self.__action_contexts = custom_actions for action in self.__action_contexts: await action.setUp() async def tearDown(self): """Complete the test by tearing down all of the action contexts""" # Perform the custom action tearDowns for action in reversed(self.__action_contexts): await action.tearDown() super().tearDown() # Return the constructed class definition return OmniGraphCustomTestCase OmniGraphTestCase = test_case_class() """Default test case base class used for most OmniGraph tests""" OmniGraphTestCaseNoClear = test_case_class(no_clear_on_finish=True) """Test case class that leaves the stage as it was when the test completed""" # ============================================================================================================== class DataTypeHelper: """ Class providing utility methods to assist with the comprehensive data type tests. Example of how to walk all of the valid input attribute values: for attribute_type in DataTypeHelper.all_attribute_types(): try: input_value = DataTypeHelper.test_input_value(attribute_type) process(input_value) except TypeError: pass # Cannot process this type yet """ _ATTR_TEST_DATA = None # -------------------------------------------------------------------------------------------------------------- @staticmethod def all_test_data() -> Dict[str, List[Any]]: """Returns a dict mapping all available Sdf attribute type names and a pair of sample values of those types""" if DataTypeHelper._ATTR_TEST_DATA is None: # Lazily initialize since this data is not needed until tests request it test_data = {} for type_name in ogn.supported_attribute_type_names(): attribute_type = og.AttributeType.type_from_ogn_type_name(type_name) sdf_type_name = og.AttributeType.sdf_type_name_from_type(attribute_type) if sdf_type_name is not None: test_data[sdf_type_name] = ogn.get_attribute_manager_type(type_name).sample_values() DataTypeHelper._ATTR_TEST_DATA = test_data return DataTypeHelper._ATTR_TEST_DATA # -------------------------------------------------------------------------------------------------------------- @staticmethod def all_attribute_types() -> List[str]: """Return the list of all supported attribute Sdf type names, including array versions""" return list(DataTypeHelper.all_test_data().keys()) # -------------------------------------------------------------------------------------------------------------- @staticmethod def test_input_value(attribute_type_name: str) -> Any: """ :return: Test value on the input side of a node for the given attribute type :raise TypeError: If the attribute type is not yet supported """ try: return DataTypeHelper.all_test_data()[attribute_type_name][0] # noqa: PLE1136 except KeyError as error: raise TypeError(f"Not yet supporting attribute type {attribute_type_name}") from error # -------------------------------------------------------------------------------------------------------------- @staticmethod def test_output_value(attribute_type_name: str) -> any: """ :return: Test value on the output side of a node for the given attribute type :raise TypeError: If the attribute type is not yet supported """ try: return DataTypeHelper.all_test_data()[attribute_type_name][1] # noqa: PLE1136 except KeyError as error: raise TypeError(f"Not yet supporting attribute type {attribute_type_name}") from error # -------------------------------------------------------------------------------------------------------------- @staticmethod def attribute_names(attribute_type_name: str, is_downstream_node: bool): """ :param attribute_type_name: One of the available attribute types, including arrays of them (e.g. int and int[]) :param is_downstream_node: True means it is one of the nodes accepting inputs, not computing anything itself :return: Pair of (INPUT_ATTRIBUTE_NAME, OUTPUT_ATTRIBUTE_NAME) used for the data test nodes """ suffixes = ["from_input", "from_output"] if is_downstream_node else ["original", "computed"] return [f"a_{attribute_type_name.replace('[]','_array')}_{suffixes[i]}" for i in range(2)] # -------------------------------------------------------------------------------------------------------------- def dump_graph(force_dump: bool = False): """Utility to conditionally print the current contents of the scene and graph""" if ogt.OGN_DEBUG or force_dump: print_current_graph() print(omni.usd.get_context().get_stage().GetRootLayer().ExportToString()) # -------------------------------------------------------------------------------------------------------------- def find_build_directory_above(start_at: Optional[str] = None) -> str: """Find the absolute path to the _build/ directory above the current one. If any of the folder up that path contains `dev/ogn` subfolder that is prioritized over `_build/` for shallow package support which don't have _build folder packaged at all. Using this method avoids the problems associated with following symlinks up a tree. :param start_at: Location at which to start looking; if None start at this script's location :raises ValueError: if there is no build directory above this file's directory :return: Path in which the _build/ directory was found """ starting_file = __file__ if start_at is None else start_at build_directory = os.path.abspath(starting_file) (parent_directory, leaf_directory) = os.path.split(build_directory) while leaf_directory != "_build": if os.path.exists(f"{parent_directory}/dev/ogn"): return f"{parent_directory}/dev" build_directory = parent_directory (parent_directory, leaf_directory) = os.path.split(build_directory) if parent_directory == build_directory: raise ValueError(f"No _build/ directory above {starting_file}") return build_directory # -------------------------------------------------------------------------------------------------------------- async def load_test_file(test_file_name: str, use_caller_subdirectory: bool = False) -> Tuple[bool, str]: """ Load the contents of the USD test file onto the stage, synchronously, when called as "await load_test_file(X)". In a testing environment we need to run one test at a time since there is no guarantee that tests can run concurrently, especially when loading files. This method encapsulates the logic necessary to load a test file using the omni.kit.asyncapi method and then wait for it to complete before returning. Args: test_file_name: Name of the test file to load - if an absolute path use it as-is use_caller_subdirectory: If True, look in the data/ subdirectory of the caller's directory for the file otherwise it will look in the data/ subdirectory below this directory Returns: (LOAD_SUCCEEDED[bool], LOAD_ERROR[str]) Raises: ValueError if the test file is not a valid USD file """ if not Usd.Stage.IsSupportedFile(test_file_name): raise ValueError("Only USD files can be loaded with this method") if os.path.isabs(test_file_name): path_to_file = test_file_name elif use_caller_subdirectory: path_to_file = os.path.join(os.path.dirname(inspect.stack()[1][1]), "data", test_file_name) else: path_to_file = os.path.join(os.path.dirname(__file__), "data", test_file_name) # Unicode error might happen if the file is a .usd rather than .usda and it was already pulled so that case is okay with suppress(UnicodeDecodeError): with open(path_to_file, "r", encoding="utf-8") as test_fd: first_line = test_fd.readline() if first_line.startswith("version"): raise ValueError(f"Do a 'git lfs pull' to update the contents of {path_to_file}") usd_context = omni.usd.get_context() usd_context.disable_save_to_recent_files() (result, error) = await usd_context.open_stage_async(path_to_file) usd_context.enable_save_to_recent_files() dump_graph() await omni.kit.app.get_app().next_update_async() return (result, str(error)) # -------------------------------------------------------------------------------------------------------------- async def insert_sublayer(test_file_name: str, use_caller_subdirectory: bool = False) -> bool: """ Inserts a sublayer from the given usd file into the current stage Args: test_file_name: Name of the test file to load - if an absolute path use it as-is use_caller_subdirectory: If True, look in the data/ subdirectory of the caller's directory for the file otherwise it will look in the data/ subdirectory below this directory Returns: True if the layer was loaded successfully, false otherwise """ if os.path.isabs(test_file_name): path_to_file = test_file_name elif use_caller_subdirectory: path_to_file = os.path.join(os.path.dirname(inspect.stack()[1][1]), "data", test_file_name) else: path_to_file = os.path.join(os.path.dirname(__file__), "data", test_file_name) root_layer = omni.usd.get_context().get_stage().GetRootLayer() sublayer_position = len(root_layer.subLayerPaths) new_layer = Sdf.Layer.FindOrOpen(path_to_file) if new_layer: relative_path = omni.client.make_relative_url(root_layer.identifier, new_layer.identifier).replace("\\", "/") root_layer.subLayerPaths.insert(sublayer_position, relative_path) else: return False await omni.kit.app.get_app().next_update_async() return True # -------------------------------------------------------------------------------------------------------------- def print_current_graph(show_attributes: bool = True, show_connections: bool = True, show_evaluation: bool = True): """ Finds the current compute graph and prints out the nodes and attributes in it. Args: show_attributes: If True then include the attributes on the nodes show_connections: If True then include the connections between the nodes show_evaluation: If True then include the evaluation info for the graph """ flags = [] if show_attributes: flags.append("attributes") if show_connections: flags.append("connections") if show_evaluation: flags.append("evaluation") print(og.OmniGraphInspector().as_json(og.get_all_graphs()[0], flags=flags), flush=True) # -------------------------------------------------------------------------------------------------------------- def compare_lists(expected_values: list, actual_values: list, comparing_what: str): """Compare the values in two lists, returning a relevant message if they are different, None if not""" extra_values = set(actual_values) - set(expected_values) missing_values = set(expected_values) - set(actual_values) if extra_values: return f"Unexpected {comparing_what} found - {extra_values}" if missing_values: return f"Expected {comparing_what} missing - {missing_values}" return None # -------------------------------------------------------------------------------------------------------------- def verify_connections(connections_expected: list): """ Confirm that the list of connections passed in exists in the compute graph, and are the only connections present. The argument is a list of pairs (SRC, DST) corresponding to the connection SRC -> DST """ graph = og.get_all_graphs()[0] if not graph.is_valid(): return "Compute graph has no valid contexts" ogt.dbg(f"Expecting {connections_expected}") # Collect connection information in both directions to verify they are the same upstream_connections_found = [] downstream_connections_found = [] comparison_errors = [] nodes = graph.get_nodes() # Ignore the default nodes since they may change and this test doesn't care nodes_of_interest = [ node for node in nodes if node.get_prim_path().find("/default") != 0 and node.get_prim_path().find("/Omniverse") < 0 and node.get_prim_path() != "/World" and node.get_prim_path() != "/" ] for node in nodes_of_interest: attributes_on_node = node.get_attributes() for attribute in attributes_on_node: this_attr = node.get_attribute(attribute.get_name()) this_attr_name = f"{node.get_prim_path()}.{attribute.get_name()}" upstream_connections = this_attr.get_upstream_connections() if len(upstream_connections) > 0: for connection in upstream_connections: upstream_attr_name = f"{connection.get_node().get_prim_path()}.{connection.get_name()}" upstream_connections_found.append((upstream_attr_name, this_attr_name)) downstream_connections = this_attr.get_downstream_connections() if len(downstream_connections) > 0: for connection in downstream_connections: downstream_attr_name = f"{connection.get_node().get_prim_path()}.{connection.get_name()}" downstream_connections_found.append((this_attr_name, downstream_attr_name)) ogt.dbg(f"Upstream = {upstream_connections_found}") ogt.dbg(f"Downstream = {downstream_connections_found}") comparison_error = compare_lists( upstream_connections_found, downstream_connections_found, "upstream/downstream pair" ) if comparison_error is not None: comparison_errors.append(comparison_error) comparison_error = compare_lists(connections_expected, downstream_connections_found, "connection") if comparison_error is not None: comparison_errors.append(comparison_error) return comparison_errors # -------------------------------------------------------------------------------------------------------------- def verify_node_existence(primitives_expected: list): """ Confirm that the list of nodes passed in exists in the compute graph. Args: primitives_expected: List of node names expected in the graph. Returns: A list of errors found, empty list if none """ graph = og.get_all_graphs()[0] if not graph.is_valid(): return ["Compute graph has no valid contexts"] comparison_errors = [] nodes = graph.get_nodes() # Get the current nodes in the world, ignoring the defaults since they may change and this test doesn't care primitives_found = [node.get_prim_path() for node in nodes if node.get_prim_path() in primitives_expected] comparison_error = compare_lists(primitives_expected, primitives_found, "compute graph primitives") if comparison_error is not None: comparison_errors.append(comparison_error) return comparison_errors # -------------------------------------------------------------------------------------------------------------- def verify_values(expected_value, actual_value, error_message: str): """Generic assert comparison which uses introspection to choose the correct method to compare the data values Args: expected_value: Value that was expected to be seen actual_value: Actual value that was seen error_message: Message describing the error if they do not match Raises: ValueError: With error message if the values do not match """ ogt.dbg(f"Comparing {actual_value} with expected {expected_value} - error = '{error_message}'") def to_np_array(from_value: Union[List, Tuple, np.ndarray]) -> np.ndarray: """Returns the list of values as a flattened numpy array""" # TODO: The only reason this is flattened at the moment is because Python matrix values are incorrectly # extracted as a flat array. They should maintain their data shape. return np.array(from_value).flatten() def is_close(first_value: float, second_value: float): """Raise a ValueError iff the single float values are not equal or floating-point close""" # Handle the NaN values first, which don't equal each other but should compare to equal for testing purposes if isnan(first_value) and isnan(second_value): return if isnan(first_value) or isnan(second_value): raise ValueError("NaN is only equal to other NaN values") # Default tolerance is 1e-9, which is a little tight for most simple uses if not isclose(first_value, second_value, rel_tol=1e-9): if not isclose(first_value, second_value, rel_tol=1e-5): raise ValueError ogt.dbg("The tolerance had to be loosened to make this pass") try: if isinstance(expected_value, (list, tuple, np.ndarray)): # Empty arrays are okay but only if both are empty. Using len() to handle both lists and numpy arrays if not len(expected_value) or not len(actual_value): # noqa: PLC1802 if not len(expected_value) and not len(actual_value): # noqa: PLC1802 return raise ValueError # Lists of strings must be compared elementwise, numeric arrays can use numpy if isinstance(expected_value[0], str): if set(actual_value) != set(expected_value): raise ValueError else: expected_array = to_np_array(expected_value) actual_array = to_np_array(actual_value) # If there are any NaN values then the array has to be checked element-by-element if any(np.isnan(expected_array)) and any(np.isnan(actual_array)): for expected, actual in zip(expected_array, actual_array): is_close(expected, actual) elif not np.allclose(expected_array, actual_array): raise ValueError elif isinstance(actual_value, (float, np.float32, np.float64, np.half)): is_close(actual_value, expected_value) else: if actual_value != expected_value: raise ValueError except ValueError as error: raise ValueError( f"{error_message}: Expected '{expected_value}' ({type(expected_value)}), " f"saw '{actual_value}' ({type(actual_value)})" ) from error # -------------------------------------------------------------------------------------------------------------- def create_scope_node(prim_name: str, attribute_data: Optional[Dict[str, Any]] = None) -> str: """Create a Scope prim at the given path, populated with the attribute data. This prim is a good source for a bundle attribute connection for testing. Args: prim_name: Name to give the prim within the current stage attribute_data: Dictionary of attribute names and the value the attribute should have in the prim The key is the name of the attribute in the prim. The value is the attribute information as a tuple of (TYPE, ATTRIBUTE_VALUE) TYPE: OGN name of the base data type ATTRIBUTE_VALUE: Data stored in the attribute within the prim Returns: Full path to the prim within the current stage (usually the path passed in) """ if attribute_data is None: attribute_data = {} stage = omni.usd.get_context().get_stage() prim_path = omni.usd.get_stage_next_free_path(stage, "/" + prim_name, True) prim = stage.DefinePrim(prim_path, "Scope") prim.CreateAttribute("node:type", Sdf.ValueTypeNames.Token).Set("Scope") return prim # -------------------------------------------------------------------------------------------------------------- def create_cube(stage, prim_name: str, displayColor: tuple) -> Usd.Prim: # noqa: N803 path = omni.usd.get_stage_next_free_path(stage, "/" + prim_name, True) prim = stage.DefinePrim(path, "Cube") prim.CreateAttribute("primvars:displayColor", Sdf.ValueTypeNames.Color3fArray).Set([displayColor]) prim.CreateAttribute("size", Sdf.ValueTypeNames.Double).Set(1.0) return prim # -------------------------------------------------------------------------------------------------------------- def create_sphere(stage, prim_name: str, displayColor: tuple) -> Usd.Prim: # noqa: N803 path = omni.usd.get_stage_next_free_path(stage, "/" + prim_name, True) prim = stage.DefinePrim(path, "Sphere") prim.CreateAttribute("primvars:displayColor", Sdf.ValueTypeNames.Color3fArray).Set([displayColor]) prim.CreateAttribute("radius", Sdf.ValueTypeNames.Double).Set(1.0) return prim # -------------------------------------------------------------------------------------------------------------- def create_cone(stage, prim_name: str, displayColor: tuple) -> Usd.Prim: # noqa: N803 path = omni.usd.get_stage_next_free_path(stage, "/" + prim_name, True) prim = stage.DefinePrim(path, "Cone") prim.CreateAttribute("primvars:displayColor", Sdf.ValueTypeNames.Color3fArray).Set([displayColor]) prim.CreateAttribute("radius", Sdf.ValueTypeNames.Double).Set(1.0) prim.CreateAttribute("height", Sdf.ValueTypeNames.Double).Set(1.0) return prim # -------------------------------------------------------------------------------------------------------------- def create_grid_mesh(stage, path, counts=(32, 32), domain=(620, 620, 20), display_color=(1, 1, 1)): mesh = UsdGeom.Mesh.Define(stage, path) mesh.CreateDoubleSidedAttr().Set(True) num_vertices = counts[0] counts[1] num_triangles = (counts[0] - 1) * (counts[1] - 1) mesh.CreateFaceVertexCountsAttr().Set([3] * num_triangles * 2) face_vertex_indices = [0] * num_triangles * 6 for i in range(counts[0] - 1): for j in range(counts[1] - 1): a = i * counts[0] + j b = a + 1 c = a + counts[0] d = c + 1 k = (i * (counts[0] - 1) + j) * 6 face_vertex_indices[k : k + 6] = [a, b, d, a, d, c] mesh.CreateFaceVertexIndicesAttr().Set(face_vertex_indices) points = [(0, 0, 0)] * num_vertices for i in range(counts[0]): for j in range(counts[1]): points[i * counts[0] + j] = (i * domain[0] / (counts[0] - 1), j * domain[1] / (counts[1] - 1), domain[2]) mesh.CreatePointsAttr().Set(points) mesh.CreateDisplayColorPrimvar().Set([display_color]) return mesh # -------------------------------------------------------------------------------------------------------------- def create_input_and_output_grid_meshes(stage): input_grid = create_grid_mesh(stage, "/defaultPrim/inputGrid", display_color=(0.2784314, 0.64705884, 1)) output_grid = create_grid_mesh(stage, "/defaultPrim/outputGrid", display_color=(0.784314, 0.64705884, 0.1)) return (input_grid, output_grid) # ============================================================================================================== # Below here is support for generated tests # @dataclass class _TestGraphAndNode: """Helper class to pass graph and node around in test utility methods below""" graph: og.Graph = None node: og.Node = None # -------------------------------------------------------------------------------------------------------------- async def _test_clear_scene(tc: unittest.TestCase, test_run: Dict[str, Any]): """Clear the scene if test run requires it Args: tc: Unit test case executing this method. Used to raise errors test_run: Dictionary of consist of four sub-lists and a dictionary: - values for input attributes, set before the test starts - values for output attributes, checked after the test finishes - initial values for state attributes, set before the test starts - final values for state attributes, checked after the test finishes - setup to be used for populating the scene via controller For complete implementation see generate_user_test_data. """ setup = test_run.get("setup", None) if setup is None or setup: await omni.usd.get_context().new_stage_async() # -------------------------------------------------------------------------------------------------------------- async def _test_setup_scene( tc: unittest.TestCase, controller: og.Controller, test_graph_name: str, test_node_name: str, test_node_type: str, test_run: Dict[str, Any], last_test_info: _TestGraphAndNode, instance_count=0, ) -> _TestGraphAndNode: """Setup the scene based on given test run dictionary Args: tc: Unit test case executing this method. Used to raise errors controller: Controller object to use when constructing the scene (e.g. may have undo support disabled) test_graph_name: Graph name to use when constructing the scene test_node_name: Node name to use when constructing the scene without "setup" explicitly provided in test_run test_node_type: Node type to use when constructing the scene without "setup" explicitly provided in test_run test_run: Dictionary of consist of four sub-lists and a dictionary: - values for input attributes, set before the test starts - values for output attributes, checked after the test finishes - initial values for state attributes, set before the test starts - final values for state attributes, checked after the test finishes - setup to be used for populating the scene via controller For complete implementation see generate_user_test_data. last_test_info: When executing multiple tests cases for the same node, this represents graph and node used in previous run instance_count: number of instances to create assotiated to this graph, in order to test vectorized compute Returns: Graph and node to use in current execution of the test """ test_info = last_test_info setup = test_run.get("setup", None) if setup: (test_info.graph, test_nodes, _, _) = controller.edit(test_graph_name, setup) tc.assertTrue(test_nodes) test_info.node = test_nodes[0] elif setup is None: test_info.graph = controller.create_graph(test_graph_name) test_info.node = controller.create_node((test_node_name, test_info.graph), test_node_type) else: tc.assertTrue( test_info.graph is not None and test_info.graph.is_valid(), "Test is misconfigured - empty setup cannot be in the first test", ) tc.assertTrue(test_info.graph is not None and test_info.graph.is_valid(), "Test graph invalid") tc.assertTrue(test_info.node is not None and test_info.node.is_valid(), "Test node invalid") test_info.graph.set_auto_instancing_allowed(False) await controller.evaluate(test_info.graph) inputs = test_run.get("inputs", []) state_set = test_run.get("state_set", []) values_to_set = inputs + state_set if values_to_set: for attribute_name, attribute_value, _ in values_to_set: controller.set(attribute=(attribute_name, test_info.node), value=attribute_value) # create some instance prims, and apply the graph on it if instance_count != 0: stage = omni.usd.get_context().get_stage() for i in range(instance_count): prim_name = f"/World/Test_Instance_Prim_{i}" stage.DefinePrim(prim_name) OmniGraphSchemaTools.applyOmniGraphAPI(stage, prim_name, test_graph_name) return test_info # -------------------------------------------------------------------------------------------------------------- def _test_verify_scene( tc: unittest.TestCase, controller: og.Controller, test_run: Dict[str, Any], test_info: _TestGraphAndNode, error_msg: str, instance_count=0, ): """Verify the scene state based on given test run dictionary Args: tc: Unit test case executing this method. Used to raise errors controller: Controller object to use when constructing the scene (e.g. may have undo support disabled) test_run: Dictionary of consist of four sub-lists and a dictionary: - values for input attributes, set before the test starts - values for output attributes, checked after the test finishes - initial values for state attributes, set before the test starts - final values for state attributes, checked after the test finishes - setup to be used for populating the scene via controller For complete implementation see generate_user_test_data. error_msg: Customized error message to use as a prefix for all unit test errors detected within this method instance_count: number of instances assotiated to this graph that needs to be verified """ outputs = test_run.get("outputs", []) state_get = test_run.get("state_get", []) for attribute_name, expected_value, _ in outputs + state_get: test_attribute = controller.attribute(attribute_name, test_info.node) expected_type = None if isinstance(expected_value, dict): expected_type = expected_value["type"] expected_value = expected_value["value"] if instance_count != 0: for i in range(instance_count): actual_output = controller.get(attribute=test_attribute, instance=i) verify_values( expected_value, actual_output, f"{error_msg}: {attribute_name} attribute value error on instance {i}", ) else: actual_output = controller.get(attribute=test_attribute) verify_values(expected_value, actual_output, f"{error_msg}: {attribute_name} attribute value error") if expected_type: tp = og.AttributeType.type_from_ogn_type_name(expected_type) actual_type = test_attribute.get_resolved_type() if tp != actual_type: raise ValueError( f"{error_msg} - {attribute_name}: Expected {expected_type}, saw {actual_type.get_ogn_type_name()}" ) # ============================================================================================================== # _____ ______ _____ _____ ______ _____ _______ ______ _____ # \| __ \ \| ____\|\| __ \ \| __ \ \| ____\|/ ____\| /\ \|__ __\|\| ____\|\| __ \ # \| \| \| \|\| \|__ \| \|__) \|\| \|__) \|\| \|__ \| \| / \ \| \| \| \|__ \| \| \| \| # \| \| \| \|\| __\| \| ___/ \| _ / \| __\| \| \| / /\ \ \| \| \| __\| \| \| \| \| # \| \|__\| \|\| \|____ \| \| \| \| \ \ \| \|____\| \|____ / ____ \ \| \| \| \|____ \| \|__\| \| # \|_____/ \|______\|\|_\| \|_\| \_\\|______\|\_____\|/_/ \_\\|_\| \|______\|\|_____/ #	39,995	Python	47.538835	130	0.60185
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_internal_registration.py	# pylint: disable=too-many-lines """Tests the correct generation of node type definitions into the cache""" from __future__ import annotations import sys from contextlib import ExitStack from pathlib import Path from tempfile import TemporaryDirectory import omni.graph.core as og import omni.graph.core.tests as ogts import omni.graph.tools._internal as ogi import omni.kit.test from omni.graph.core._impl._registration.extension_management import extension_management_factory from omni.graph.tools.tests.internal_utils import TemporaryPathAddition from ._internal_utils import _TestExtensionManager # Helper constants shared by many tests _CURRENT_VERSIONS = ogi.GenerationVersions(ogi.Compatibility.FullyCompatible) _EXT_INDEX = 0 # ============================================================================================================== class ModuleContexts: def __init__(self, stack: ExitStack): """Set up a stack of contexts to use for tests running in individual temporary directory""" global _EXT_INDEX _EXT_INDEX += 1 self.ext_name = f"omni.test.internal.registration{_EXT_INDEX}" # Default extension version is 0.1.0 so create an ID with that self.ext_id = f"{self.ext_name}-0.1.0" # Put all temporary files in a temporary directory for easy disposal self.test_directory = Path(stack.enter_context(TemporaryDirectory())) # pylint: disable=consider-using-with self.python_root = Path(self.test_directory) / "exts" self.module_name = self.ext_name self.module_path = self.python_root / self.ext_name / self.ext_name.replace(".", "/") # Redirect the usual node cache to the temporary directory self.cache_root = stack.enter_context(ogi.TemporaryCacheLocation(self.test_directory / "cache")) # Add the import path of the new extension to the system path self.path_addition = stack.enter_context(TemporaryPathAddition(self.python_root / self.ext_name)) # Uncomment this to dump debugging information while the tests are running # self.log = stack.enter_context(ogi.TemporaryLogLocation("stdout")) # ============================================================================================================== def _expected_cache_contents( cache_root: Path, node_type_name: str, exclusions: list[ogi.FileType] = None ) -> list[Path]: """Returns a list of the files that should be in the generated cache at the given root for the given node type""" file_list = [cache_root / "__init__.py", cache_root / f"{node_type_name}Database.py"] if ogi.FileType.DOCS not in (exclusions or []): file_list.append(cache_root / "docs" / f"{node_type_name}.rst") if ogi.FileType.TEST not in (exclusions or []): file_list.append(cache_root / "tests" / "__init__.py") file_list.append(cache_root / "tests" / f"Test{node_type_name}.py") if ogi.FileType.USD not in (exclusions or []): file_list.append(cache_root / "tests" / "usd" / f"{node_type_name}Template.usda") return file_list # ============================================================================================================== def _expected_1_18_module_files( module_root: Path, node_type_name: str, exclusions: list[ogi.FileType] = None ) -> list[Path]: """Returns a list of the files that should be in a standard V1.18 generated module directory for one node type""" file_list = [ module_root / "__init__.py", module_root / "ogn" / "nodes" / f"{node_type_name}.ogn", module_root / "ogn" / "nodes" / f"{node_type_name}.py", module_root / "ogn" / f"{node_type_name}Database.py", ] if ogi.FileType.TEST not in (exclusions or []): file_list.append(module_root / "ogn" / "tests" / "__init__.py") file_list.append(module_root / "ogn" / "tests" / f"Test{node_type_name}.py") if ogi.FileType.USD not in (exclusions or []): file_list.append(module_root / "ogn" / "tests" / "usd" / f"{node_type_name}Template.usda") return file_list # ============================================================================================================== def _expected_standalone_module_files(module_root: Path, node_type_name: str) -> list[Path]: """Returns a list of the files that should be in a non-generated module directory for one node type""" return [ module_root / "__init__.py", module_root / "nodes" / f"{node_type_name}.ogn", module_root / "nodes" / f"{node_type_name}.py", ] # ============================================================================================================== class TestInternalRegistration(ogts.OmniGraphTestCase): def __init__(self, args, kwargs): super().__init__(args, **kwargs) self.maxDiff = None # Diffs of file path lists can be large so let the full details be seen # -------------------------------------------------------------------------------------------------------------- async def _test_extension_modules(self, import_ogn: bool, import_ogn_tests: bool, generate_tests: bool): """Metatest that the utility to create a test extension creates the proper imports for a single configuration Args: import_ogn: Add the ogn submodule to the extension.toml python module list import_ogn: Add the ogn.tests submodule to the extension.toml python module list generate_tests: Generate/initialize test files for the node type generated code """ with ExitStack() as stack: ctx = ModuleContexts(stack) self.assertTrue(str(ctx.python_root / ctx.ext_name) in sys.path) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, ) exclusions = [] if generate_tests else [ogi.FileType.TEST] exclusions += [ogi.FileType.USD, ogi.FileType.DOCS] ext_contents.add_v1_18_node("OgnTestNode", exclusions) expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode", exclusions) actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Created extension contents") ext_ogn_mgr = extension_management_factory(ctx.ext_id, ctx.ext_name, ctx.python_root / ctx.ext_name) self.assertIsNotNone(ext_ogn_mgr) ext_ogn_mgr.scan_for_nodes() ext_ogn_mgr.ensure_files_up_to_date() (ogn_module, ogn_test_module) = ext_ogn_mgr.ensure_required_modules_exist() self.assertIsNotNone(ogn_module) if generate_tests: self.assertIsNotNone(ogn_test_module) else: self.assertIsNone(ogn_test_module) # -------------------------------------------------------------------------------------------------------------- async def test_extension_modules(self): """Metatest that the utility to create a test extension creates the proper modules for all configurations""" for test_configuration in [0b000, 0b100, 0b110, 0b001, 0b101, 0b111]: import_ogn = test_configuration & 0b100 != 0 import_ogn_tests = test_configuration & 0b010 != 0 generate_tests = test_configuration & 0b001 != 0 with self.subTest(import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, generate_tests=generate_tests): await self._test_extension_modules( import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, generate_tests=generate_tests ) # -------------------------------------------------------------------------------------------------------------- async def _test_extension_imports(self, import_ogn: bool, import_ogn_tests: bool, generate_tests: bool): """Metatest that the utility to create a test extension creates the proper imports for a single configuration Args: import_ogn: Add the ogn submodule to the extension.toml python module list import_ogn: Add the ogn.tests submodule to the extension.toml python module list generate_tests: Generate/initialize test files for the node type generated code """ test_config = f"import_ogn={import_ogn}, import_ogn_tests={import_ogn_tests}" with ExitStack() as stack: ctx = ModuleContexts(stack) self.assertTrue(str(ctx.python_root / ctx.ext_name) in sys.path) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, ) exclusions = [] if generate_tests else [ogi.FileType.TEST] exclusions += [ogi.FileType.USD, ogi.FileType.DOCS] ext_contents.add_v1_18_node("OgnTestNode", exclusions) expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode", exclusions) actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, f"Created extension contents using {test_config}") ext_ogn_mgr = extension_management_factory(ctx.ext_id, ctx.ext_name, ctx.python_root / ctx.ext_name) self.assertIsNotNone(ext_ogn_mgr, test_config) ext_ogn_mgr.scan_for_nodes() ext_ogn_mgr.ensure_files_up_to_date() # Ensure that the OGN submodules could be found in the newly created extension (ogn_module, ogn_test_module) = ext_ogn_mgr.ensure_required_modules_exist() self.assertIsNotNone(ogn_module, test_config) self.assertTrue(not generate_tests or ogn_test_module is not None, test_config) (ogn_module, ogn_test_module) = ext_ogn_mgr.do_python_imports() # Do it twice because the second time it should just pick it up from sys.modules (ogn_module_2, ogn_test_module_2) = ext_ogn_mgr.do_python_imports() self.assertEqual(ogn_module, ogn_module_2, test_config) self.assertEqual(ogn_test_module, ogn_test_module_2, test_config) # Check the contents of the ogn submodule to make sure the node class and database were imported self.assertIsNotNone(ogn_module, test_config) self.assertTrue(hasattr(ogn_module, ext_ogn_mgr.NODE_STORAGE_OBJECT), test_config) self.assertTrue(getattr(ogn_module, ext_ogn_mgr.NODE_STORAGE_OBJECT), test_config) self.assertTrue(hasattr(ogn_module, "OgnTestNodeDatabase"), test_config) ogn_module_file_path = ogi.get_module_path(ogn_module) self.assertIsNotNone(ogn_module_file_path, test_config) self.assertTrue(ctx.module_path in ogn_module_file_path.parents, test_config) # If tests were requested then confirm the generated tests was imported into the ogn.tests submodule if generate_tests: self.assertIsNotNone(ogn_test_module, test_config) self.assertTrue(hasattr(ogn_test_module, "TestOgnTestNode"), test_config) ogn_test_module_file_path = ogi.get_module_path(ogn_test_module) self.assertIsNotNone(ogn_test_module_file_path, test_config) self.assertTrue(ctx.module_path in ogn_test_module_file_path.parents, test_config) else: self.assertIsNone(ogn_test_module, test_config) # -------------------------------------------------------------------------------------------------------------- async def test_extension_imports(self): """Metatest that the utility to create a test extension imports the proper modules for all configurations""" for test_configuration in [0b000, 0b100, 0b110, 0b001, 0b101, 0b111]: import_ogn = test_configuration & 0b100 != 0 import_ogn_tests = test_configuration & 0b010 != 0 generate_tests = test_configuration & 0b001 != 0 with self.subTest(import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, generate_tests=generate_tests): await self._test_extension_imports( import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, generate_tests=generate_tests ) # -------------------------------------------------------------------------------------------------------------- async def _test_extension_cached_imports( self, import_ogn: bool, import_ogn_tests: bool, generate_tests: bool, use_prebuilt_cache: bool, ): """Metatest that the utility to create a test extension creates the proper imports for a single configuration Args: import_ogn: Add the ogn submodule to the extension.toml python module list import_ogn: Add the ogn.tests submodule to the extension.toml python module list generate_tests: Generate/initialize test files for the node type generated code use_prebuilt_cache: If True then prebuild the up-to-date cache files, otherwise generate old ones to ignore """ # ogi.set_registration_logging("stdout") # Uncomment for test debugging information test_config = ( f"import_ogn={import_ogn}, import_ogn_tests={import_ogn_tests}, " f"tests={generate_tests}, prebuilt={use_prebuilt_cache}" ) with ExitStack() as stack: ctx = ModuleContexts(stack) self.assertTrue(str(ctx.python_root / ctx.ext_name) in sys.path, test_config) # Create an old cache to make sure it gets ignored as well exclusions = [] if generate_tests else [ogi.FileType.TEST] exclusions += [ogi.FileType.USD, ogi.FileType.DOCS] ext_contents_incompatible = _TestExtensionManager( ctx.python_root, ctx.ext_name, ogi.GenerationVersions(ogi.Compatibility.Incompatible), import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, ) ext_contents_incompatible.add_v1_18_node("OgnTestNode", exclusions) compatibility = ogi.Compatibility.FullyCompatible if use_prebuilt_cache else ogi.Compatibility.Incompatible cache_versions = ogi.GenerationVersions(compatibility) current_cache_directory = ogi.full_cache_path(cache_versions, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, cache_versions, import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, ) ext_contents.add_cache_for_node("OgnTestNode", exclusions) cached_files = _expected_cache_contents(current_cache_directory, "OgnTestNode", exclusions) # If using the obsolete cache then add in the ones that will be built when the generator runs if not use_prebuilt_cache: current_cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) cached_files += _expected_cache_contents(current_cache_directory, "OgnTestNode", exclusions) expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", # Not in the cache ] expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode", exclusions) expected_files += cached_files ext_ogn_mgr = extension_management_factory(ctx.ext_id, ctx.ext_name, ctx.python_root / ctx.ext_name) self.assertIsNotNone(ext_ogn_mgr, test_config) ext_ogn_mgr.scan_for_nodes() ext_ogn_mgr.ensure_files_up_to_date() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, f"Created extension contents with {test_config}") # Ensure that the OGN submodules could be found in the newly created extension (ogn_module, ogn_test_module) = ext_ogn_mgr.do_python_imports() # Do it twice because the second time it should just pick it up from sys.modules (ogn_module_2, ogn_test_module_2) = ext_ogn_mgr.do_python_imports() self.assertEqual(ogn_module, ogn_module_2, test_config) self.assertEqual(ogn_test_module, ogn_test_module_2, test_config) # Check the contents of the ogn submodule to make sure the node class and database were imported self.assertIsNotNone(ogn_module, test_config) self.assertTrue(hasattr(ogn_module, ext_ogn_mgr.NODE_STORAGE_OBJECT), test_config) self.assertTrue(getattr(ogn_module, ext_ogn_mgr.NODE_STORAGE_OBJECT), test_config) self.assertTrue(hasattr(ogn_module, "OgnTestNodeDatabase"), test_config) ogn_module_file_path = ogi.get_module_path(ogn_module.OgnTestNodeDatabase) self.assertIsNotNone(ogn_module_file_path, test_config) self.assertTrue( current_cache_directory in ogn_module_file_path.parents, f"Cache {current_cache_directory} not in {ogn_module_file_path} - {test_config}", ) # If tests were requested then confirm the generated tests was imported into the ogn.tests submodule if generate_tests: self.assertIsNotNone(ogn_test_module, test_config) self.assertTrue(hasattr(ogn_test_module, "TestOgnTestNode"), test_config) ogn_test_module_file_path = ogi.get_module_path(ogn_test_module) self.assertIsNotNone(ogn_test_module_file_path, test_config) self.assertTrue( current_cache_directory in ogn_module_file_path.parents, f"Cache {current_cache_directory} not in {ogn_module_file_path} - {test_config}", ) else: self.assertIsNone(ogn_test_module, test_config) # -------------------------------------------------------------------------------------------------------------- async def test_extension_cached_imports_ffff(self): """Metatest that the utility to create a test extension that requires building a cache imports the proper modules for all configurations from that cache. These all have to run as separate tests in order to avoid stomping on each other's import spaces and cache directories. """ await self._test_extension_cached_imports(False, False, False, False) async def test_extension_cached_imports_tfff(self): await self._test_extension_cached_imports(True, False, False, False) async def test_extension_cached_imports_ttff(self): await self._test_extension_cached_imports(True, True, False, False) async def test_extension_cached_imports_fftf(self): await self._test_extension_cached_imports(False, False, True, False) async def test_extension_cached_imports_tftf(self): await self._test_extension_cached_imports(True, False, True, False) async def test_extension_cached_imports_tttf(self): await self._test_extension_cached_imports(True, True, True, False) async def test_extension_cached_imports_ffft(self): await self._test_extension_cached_imports(False, False, False, True) async def test_extension_cached_imports_tfft(self): await self._test_extension_cached_imports(True, False, False, True) async def test_extension_cached_imports_ttft(self): await self._test_extension_cached_imports(True, True, False, True) async def test_extension_cached_imports_fftt(self): await self._test_extension_cached_imports(False, False, True, True) async def test_extension_cached_imports_tftt(self): await self._test_extension_cached_imports(True, False, True, True) async def test_extension_cached_imports_tttt(self): await self._test_extension_cached_imports(True, True, True, True) # -------------------------------------------------------------------------------------------------------------- def __confirm_module_contents(self, expected_modules_and_contents: list[tuple[str, str]]): """Asserts if the module does not contain at least all of the expected symbols. Args: expected_modules_and_contents: List of (MODULE_NAME, EXPECTED_SYMBOLS) to verify """ for expected_name, symbols in expected_modules_and_contents: self.assertTrue(expected_name in sys.modules, f"Looking for module {expected_name}") actual_contents = dir(sys.modules[expected_name]) for expected_symbol in symbols: self.assertTrue( expected_symbol in actual_contents, f"Looking for symbol {expected_symbol} in {expected_name}" ) # -------------------------------------------------------------------------------------------------------------- async def test_raw_extension_creation(self): """Metatest that the utility to create a test extension using the generated files and successfully load a file of the generated type into a scene. """ with ExitStack() as stack: ctx = ModuleContexts(stack) self.assertTrue(str(ctx.python_root / ctx.ext_name) in sys.path) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") ext_ogn_mgr = extension_management_factory(ctx.ext_id, ctx.ext_name, ctx.python_root / ctx.ext_name) self.assertIsNotNone(ext_ogn_mgr) ext_ogn_mgr.scan_for_nodes() ext_ogn_mgr.ensure_files_up_to_date() (ogn_module, ogn_test_module) = ext_ogn_mgr.do_python_imports() self.assertIsNotNone(ogn_module) self.assertIsNotNone(ogn_test_module) ext_ogn_mgr.do_registration() # Enable the extension inside Kit await ext_contents.enable() # Confirm that the test node type now exists and can be instantiated (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {og.Controller.Keys.CREATE_NODES: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {og.Controller.Keys.CREATE_NODES: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_cache_generation(self): """Test that an extension with no prebuilt files registers and is seen correctly. This entails enabling the test extension and then looking at the modules to ensure that: - the database exists and can be imported - the node type was correctly registered - the generated test was correctly registered - the database, node type, and generated test are removed when the extension is disabled """ with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, ogi.GenerationVersions(), import_ogn=False, import_ogn_tests=False, ) ext_contents.add_standalone_node("OgnTestNode") expected_cache_files = _expected_cache_contents(cache_directory, "OgnTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_standalone_module_files(ctx.module_path, "OgnTestNode") expected_files += expected_cache_files # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the imported database file to make sure it is using the cached one db_object = getattr(sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"], "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) ogn_module_file_path = ogi.get_module_path(sys.modules[f"{ctx.ext_name}.ogn"]) self.assertIsNotNone(ogn_module_file_path) self.assertTrue(cache_directory in ogn_module_file_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_cache_generation_from_old_build(self): """Test that an extension with prebuilt files that are out of date registers and is seen correctly. This entails enabling the test extension and then looking at the modules to ensure that: - the database exists and can be imported - the node type was correctly registered - the generated test was correctly registered - the database, node type, and generated test are removed when the extension is disabled """ with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, ogi.GenerationVersions(ogi.Compatibility.Incompatible), import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_cache_contents(cache_directory, "OgnTestNode") expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode") # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the version number in the imported database file to make sure it is using the cached one db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"] db_object = getattr(db_module, "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(cache_directory in db_module_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_cache_update(self): """Test that an extension with prebuilt files that are from a compatible version but whose .ogn files are out of date correctly notices and rebuilds cached files and registers them correctly. This entails enabling the test extension and then looking at the modules to ensure that: - the database exists and can be imported - the node type was correctly registered - the generated test was correctly registered - the database, node type, and generated test are removed when the extension is disabled """ with ExitStack() as stack: ctx = ModuleContexts(stack) incompatible = ogi.GenerationVersions(ogi.Compatibility.Incompatible) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) old_cache_directory = ogi.full_cache_path(incompatible, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") ext_contents_incompatible = _TestExtensionManager( ctx.python_root, ctx.ext_name, incompatible, import_ogn=False, import_ogn_tests=False, ) ext_contents_incompatible.add_cache_for_node("OgnTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_cache_contents(old_cache_directory, "OgnTestNode") expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode") actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") ogn_file = ctx.module_path / "ogn" / "nodes" / "OgnTestNode.ogn" ogn_file.touch() # Files that will be built when the cache updates after registration expected_cache_files = _expected_cache_contents(cache_directory, "OgnTestNode") # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files + expected_cache_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the version number in the imported database file to make sure it is using the cached one db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"] db_object = getattr(db_module, "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(cache_directory in db_module_path.parents) # Double check the path to the registered test to make sure it is using the newly generated cache test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnTestNode"] test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(cache_directory in test_module_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_hot_reload(self): """Test that an extension cache is correctly generated when loading, then regenerated after a .ogn change. The .ogn change is such that it can be checked at runtime (adding an attribute). """ with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, ogi.GenerationVersions(ogi.Compatibility.Incompatible), import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_cache_contents(cache_directory, "OgnTestNode") expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode") # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) await og.Controller.evaluate() self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Modify the .ogn to add in a new attribute, then wait for the scene to reattach await ext_contents.add_hot_attribute_to_ogn() # This syncs are to wait for the hot reload to happen await omni.kit.app.get_app().next_update_async() await omni.kit.app.get_app().next_update_async() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "After hot reload") # Rebuild the scene. This is necessary because the scene reattach process does not currently update any # modified nodes with their new attributes so the only way to test this is to create a new node and # check that it picks up the new definition. await omni.usd.get_context().new_stage_async() (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) await og.Controller.evaluate() self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the hot-reloading attribute now exists hot_attribute = og.Controller.attribute("inputs:hot", test_node) self.assertIsNotNone(hot_attribute) self.assertTrue(hot_attribute.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the imported database file to make sure it is using the cached one db_object = getattr(sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"], "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_file_path = ogi.get_module_path(sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"]) self.assertIsNotNone(db_file_path) self.assertTrue( cache_directory in db_file_path.parents, f"Expected {cache_directory} to be a parent of {db_file_path}", ) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_multiple_nodes(self): """Test that a built extension with more than one node correctly imports all of them""" with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") ext_contents.add_v1_18_node("OgnGoodTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode") expected_files += _expected_1_18_module_files(ctx.module_path, "OgnGoodTestNode") expected_files += _expected_cache_contents(cache_directory, "OgnTestNode") expected_files = list(set(expected_files)) # Touch the .ogn file to make it out of date outdated_ogn = ctx.module_path / "ogn" / "nodes" / "OgnTestNode.ogn" outdated_ogn.touch() # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node, test_good_node), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("TestNode", f"{ctx.ext_name}.OgnTestNode"), ("GoodTestNode", f"{ctx.ext_name}.OgnGoodTestNode"), ] }, ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) self.assertIsNotNone(test_good_node) self.assertTrue(test_good_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), (f"{ctx.ext_name}.ogn.OgnGoodTestNodeDatabase", ["OgnGoodTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnGoodTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnGoodTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the version number in the imported database file to make sure it is using the cached one db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"] db_object = getattr(db_module, "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the cached database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(cache_directory in db_module_path.parents) test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnTestNode"] test_object = getattr(test_module, "TestOgn", None) self.assertIsNotNone(test_object, "Could not get the cached test from the extension imports") test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(cache_directory in test_module_path.parents) # Check that the node that did not have to be rebuilt imports from the build directory, not the cache db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnGoodTestNodeDatabase"] db_object = getattr(db_module, "OgnGoodTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the built database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(ctx.module_path in db_module_path.parents) test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnGoodTestNode"] test_object = getattr(test_module, "TestOgn", None) self.assertIsNotNone(test_object, "Could not get the built test from the extension imports") test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(ctx.module_path in test_module_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("TestNode", f"{ctx.ext_name}.OgnTestNode"), ] }, ) with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("GoodTestNode", f"{ctx.ext_name}.OgnGoodTestNode"), ] }, ) # -------------------------------------------------------------------------------------------------------------- async def test_multiple_standalone_nodes(self): """Test that a built extension with more than one node without generation correctly imports all of them""" with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=False, import_ogn_tests=False, ) ext_contents.add_standalone_node("OgnTestNode") ext_contents.add_standalone_node("OgnGoodTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ctx.module_path / "__init__.py", ] expected_files += _expected_standalone_module_files(ctx.module_path, "OgnTestNode") expected_files += _expected_standalone_module_files(ctx.module_path, "OgnGoodTestNode") expected_files += _expected_cache_contents(cache_directory, "OgnTestNode") expected_files += _expected_cache_contents(cache_directory, "OgnGoodTestNode") expected_files = list(set(expected_files)) # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node, test_good_node), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("TestNode", f"{ctx.ext_name}.OgnTestNode"), ("GoodTestNode", f"{ctx.ext_name}.OgnGoodTestNode"), ] }, ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) self.assertIsNotNone(test_good_node) self.assertTrue(test_good_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), (f"{ctx.ext_name}.nodes.OgnGoodTestNode", ["OgnGoodTestNode"]), (f"{ctx.ext_name}.ogn", ["OgnGoodTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.OgnGoodTestNodeDatabase", ["OgnGoodTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnGoodTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnGoodTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the version number in the imported database file to make sure it is using the cached one db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"] db_object = getattr(db_module, "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the cached database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(cache_directory in db_module_path.parents) test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnTestNode"] test_object = getattr(test_module, "TestOgn", None) self.assertIsNotNone(test_object, "Could not get the cached test from the extension imports") test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(cache_directory in test_module_path.parents) # Check that the node that did not have to be rebuilt imports from the build directory, not the cache db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnGoodTestNodeDatabase"] db_object = getattr(db_module, "OgnGoodTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the built database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue( cache_directory in db_module_path.parents, f"{db_module_path} must be a child of {cache_directory}" ) test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnGoodTestNode"] test_object = getattr(test_module, "TestOgn", None) self.assertIsNotNone(test_object, "Could not get the built test from the extension imports") test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(cache_directory in test_module_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("TestNode", f"{ctx.ext_name}.OgnTestNode"), ] }, ) with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("GoodTestNode", f"{ctx.ext_name}.OgnGoodTestNode"), ] }, )	60,394	Python	54.561178	120	0.572375
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/_internal_utils.py	"""Helpers for configuring and running local tests, not meant for general use""" from __future__ import annotations import json from collections import defaultdict from pathlib import Path import omni.ext import omni.graph.tools._internal as ogi import omni.graph.tools.ogn as ogn import omni.kit from omni.graph.tools.tests.internal_utils import CreateHelper # ============================================================================================================== class _TestExtensionManager: """Object that lets you create and control a dynamically generated extension Attributes: __root: Path to the directory in which the extension will be created __ext_path: Path to the created extension directory __ext_name: Name of the created extension __ogn_files: Dictionary of class name to .ogn file implementing the class __module_path: Path to the Python module directory inside the extension __exclusions: List of file types to exclude from any generated code __creator: Helper that creates files of various types """ # Dictionary of Path:count that tracks how many test extensions are using a given path, tracked so that the # extension manager's path information can be properly managed. PATHS_ADDED = defaultdict(lambda: 0) def __init__( self, root: Path, ext_name: str, versions: ogi.GenerationVersions, import_ogn: bool, import_ogn_tests: bool, ): """Initialize the temporary extension object, creating the required files. The files will not be deleted by this class, their lifespan must be managed by the caller, e.g. through using a TempDirectory for their location. Args: root: Directory that contains all extensions ext_name: Name of the extension to create (e.g. 'omni.my.extension') versions: Versions to use in any generated code import_ogn: Add a python module spec for the .ogn submodule in the extension.toml import_ogn_tests: Add a python module spec for the .ogn.tests submodule in the extension.toml Raises: AttributeError if there was a problem creating the extension configuration """ ogi.LOG.info("Creating extension %s at %s", ext_name, root) self.__root: Path = root self.__ext_path: Path = root / ext_name self.__ext_name: str = ext_name self.__ogn_files: dict[str, Path] = {} # Class name to .ogn file implementing it self.__module_path: Path = self.__ext_path / ext_name.replace(".", "/") self.__module_path.mkdir(parents=True, exist_ok=True) self.__exclusions: list[ogi.FileType] = [] self.__creator: CreateHelper = CreateHelper(ext_name, self.__root, versions) self.__creator.add_extension_module(self.__root, ext_name, self.__module_path, import_ogn, import_ogn_tests) # -------------------------------------------------------------------------------------------------------------- def add_standalone_node( self, node_type_name: str, exclusions: list[ogi.FileType] = None, ): """Add a node definition for a node with no generated code. See CreateHelper.add_standalone_node for details""" created_files = self.__creator.add_standalone_node(node_type_name, exclusions) self.__exclusions = exclusions for created_file in created_files: if created_file.suffix == ".ogn": self.__ogn_files[node_type_name] = created_file return raise ValueError(f"No .ogn file found in standalone created files {created_files}") # -------------------------------------------------------------------------------------------------------------- def add_v1_18_node( self, node_type_name: str, exclusions: list[ogi.FileType] = None, ): """Add a node definition using the V1.18 and earlier pattern. See CreateHelper.add_v1_18_node for details""" created_files = self.__creator.add_v1_18_node(node_type_name, exclusions) self.__exclusions = exclusions for created_file in created_files: if created_file.suffix == ".ogn": self.__ogn_files[node_type_name] = created_file return raise ValueError(f"No .ogn file found in V1.18 created files {created_files}") # -------------------------------------------------------------------------------------------------------------- def add_v1_19_node( self, node_type_name: str, exclusions: list[ogi.FileType] = None, ): """Add a node definition using the V1.19 pattern. See CreateHelper.add_v1_19_node for details""" created_files = self.__creator.add_v1_19_node(node_type_name, exclusions) self.__exclusions = exclusions for created_file in created_files: if created_file.suffix == ".ogn": self.__ogn_files[node_type_name] = created_file return raise ValueError(f"No .ogn file found in V1.19 created files {created_files}") # -------------------------------------------------------------------------------------------------------------- def add_cache_for_node( self, node_type_name: str, exclusions: list[ogi.FileType] = None, ): """Add a node definition to the cache. See CreateHelper.add_cache_for_node for details""" self.__creator.add_cache_for_node(node_type_name, exclusions) self.__exclusions = exclusions # -------------------------------------------------------------------------------------------------------------- async def add_hot_attribute_to_ogn(self): """Rewrite the .ogn file with a new input attribute "hot_attribute" for hot reload testing""" ogi.LOG.info("!!! Adding hot reload attribute to %s", str(self.__ogn_files)) # Remember the .ogn definitions for use in the generation of sample code ogn_definitions = { class_name: { ogn.NodeTypeKeys.DESCRIPTION: "None", ogn.NodeTypeKeys.VERSION: 1, ogn.NodeTypeKeys.EXCLUDE: self.__exclusions or [], ogn.NodeTypeKeys.LANGUAGE: ogn.LanguageTypeValues.PYTHON, ogn.NodeTypeKeys.INPUTS: { "hot": {"type": "bool", "description": "Additional attribute added for hot reload"} }, } for class_name in self.__ogn_files } ogi.LOG.info("Updated ogn definition(s) in %s", self.__ogn_files) for class_name, ogn_path in self.__ogn_files.items(): ogn_path = CreateHelper.safe_create( self.__module_path / "ogn" / "nodes", class_name, ogi.FileType.OGN, json.dumps({class_name: ogn_definitions[class_name]}), ) self.__ogn_files[class_name] = ogn_path ogi.LOG.info("!!! Attribute added from hot reload") # -------------------------------------------------------------------------------------------------------------- def add_extra_import(self, directory_name: str, file_name: str, object_to_define: str) -> Path: """Add a new file under the ogn/ directory that acts as a proxy for an import that results from the links that the LUA function add_ogn_subdirectory() adds. Returns the path to the newly created file. """ return CreateHelper.safe_create( # self.__module_path / "ogn" / directory_name / file_name, self.__module_path / "ogn" / file_name, None, None, f"{object_to_define} = True\n", ) # -------------------------------------------------------------------------------------------------------------- async def enable(self): """Make the constructed extension visible to the extension manager, if it hasn't yet been, and enable it""" ogi.LOG.info("Enabling extension %s at %s", self.__ext_name, self.__ext_path) manager = omni.kit.app.get_app().get_extension_manager() # Remove and add back to ensure that the path is scanned for the new content manager.remove_path(str(self.__root)) manager.add_path(str(self.__root), omni.ext.ExtensionPathType.COLLECTION_USER) # This sync is to get the manager to refresh its paths await omni.kit.app.get_app().next_update_async() manager.set_extension_enabled(self.__ext_name, True) self.PATHS_ADDED[self.__root] += 1 # This sync is to allow time for executing the extension enabled hooks await omni.kit.app.get_app().next_update_async() # -------------------------------------------------------------------------------------------------------------- async def disable(self): """Disable the constructed extension, if enabled and decrement the accesses to its path""" ogi.LOG.info("Disabling extension %s", self.__ext_name) manager = omni.kit.app.get_app().get_extension_manager() # If this was the last extension to need the path then remove it from the manager's path. Either way the # path is removed first to force the path to be scanned for the remaining content. manager.set_extension_enabled(self.__ext_name, False) # This sync is to ensure the extension is disabled before removing its path await omni.kit.app.get_app().next_update_async() manager.remove_path(str(self.__root)) self.PATHS_ADDED[self.__root] -= 1 # If some other creator exists in the same path then bring the path back for continued use if self.PATHS_ADDED[self.__root] > 0: manager.add_path(str(self.__root), omni.ext.ExtensionPathType.COLLECTION_USER) # This sync is to get the manager to executing the extension disabled hooks and refresh the paths await omni.kit.app.get_app().next_update_async()	10,058	Python	49.044776	119	0.568304
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_api.py	"""Testing the stability of the API in this module""" import omni.graph.core as og import omni.graph.core._impl.commands as ogc import omni.graph.core.autonode as autonode import omni.graph.core.typing as ogty import omni.kit from omni.graph.tools.tests.internal_utils import _check_module_api_consistency, _check_public_api_contents # ====================================================================== class _TestOmniGraphApi(omni.kit.test.AsyncTestCase): _UNPUBLISHED = ["bindings", "tests", "omni", "commands"] async def test_api(self): _check_module_api_consistency(og.tests, [], is_test_module=True) # noqa: PLW0212 _check_module_api_consistency(autonode) # noqa: PLW0212 _check_module_api_consistency(ogty) # noqa: PLW0212 _check_module_api_consistency(ogc, ogc._HIDDEN) # noqa: PLW0212 # Since the og module also contains all of the previously exposed objects for backward compatibility, they # have to be added to the list of unpublished elements here as they, rightly, do not appear in __all__ all_unpublished = ( self._UNPUBLISHED + og._HIDDEN # noqa: PLW0212 + ogc._HIDDEN # noqa: PLW0212 + [module_object for module_object in dir(autonode) if not module_object.startswith("_")] + [module_object for module_object in dir(ogty) if not module_object.startswith("_")] ) _check_module_api_consistency(og, all_unpublished) # noqa: PLW0212 async def test_api_features(self): """Test that the known public API features continue to exist""" _check_public_api_contents( og, [ # noqa: PLW0212 "attribute_value_as_usd", "AttributeDataValueHelper", "AttributeValueHelper", "autonode", "Bundle", "BundleContainer", "BundleContents", "cmds", "Controller", "data_shape_from_type", "Database", "DataView", "DataWrapper", "Device", "Dtype", "DynamicAttributeAccess", "DynamicAttributeInterface", "ExtensionInformation", "get_global_orchestration_graphs", "get_graph_settings", "get_port_type_namespace", "GraphController", "GraphSettings", "in_compute", "is_attribute_plain_data", "is_in_compute", "MetadataKeys", "NodeController", "ObjectLookup", "OmniGraphError", "OmniGraphInspector", "OmniGraphValueError", "PerNodeKeys", "python_value_as_usd", "ReadOnlyError", "resolve_base_coupled", "resolve_fully_coupled", "RuntimeAttribute", "Settings", "ThreadsafetyTestUtils", "TypedValue", "typing", "WrappedArrayType", ], self._UNPUBLISHED, only_expected_allowed=False, )	3,295	Python	39.195121	114	0.527769
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/__init__.py	""" Imports from the test module are only recommended for use in OmniGraph tests. To get documentation on this module and methods import this file into a Python interpreter and run dir/help, like this: .. code-block:: python import omni.graph.core.tests as ogts dir(ogts) help(ogts.load_test_file) """ # fmt: off # isort: off # Exported interface for testing utilities that are of general use. # (Others exist but are legacy or specific to one use only and imported directly) from ._unittest_support import construct_test_class from ._unittest_support import OmniGraphTestConfiguration from .omnigraph_test_utils import OmniGraphTestCase from .omnigraph_test_utils import OmniGraphTestCaseNoClear from .omnigraph_test_utils import SettingContext from .omnigraph_test_utils import TestContextManager from .expected_error import ExpectedError from .omnigraph_test_utils import create_cone from .omnigraph_test_utils import create_cube from .omnigraph_test_utils import create_grid_mesh from .omnigraph_test_utils import create_input_and_output_grid_meshes from .omnigraph_test_utils import create_sphere from .omnigraph_test_utils import DataTypeHelper from .omnigraph_test_utils import dump_graph from .omnigraph_test_utils import insert_sublayer from .omnigraph_test_utils import load_test_file from .omnigraph_test_utils import test_case_class from .omnigraph_test_utils import verify_connections from .omnigraph_test_utils import verify_node_existence from .omnigraph_test_utils import verify_values from .validation import validate_abi_interface scan_for_test_modules = True """The presence of this object causes the test runner to automatically scan the directory for unit test cases""" # ============================================================================================================== # _____ ______ _____ _____ ______ _____ _______ ______ _____ # \| __ \ \| ____\|\| __ \ \| __ \ \| ____\|/ ____\| /\ \|__ __\|\| ____\|\| __ \ # \| \| \| \|\| \|__ \| \|__) \|\| \|__) \|\| \|__ \| \| / \ \| \| \| \|__ \| \| \| \| # \| \| \| \|\| __\| \| ___/ \| _ / \| __\| \| \| / /\ \ \| \| \| __\| \| \| \| \| # \| \|__\| \|\| \|____ \| \| \| \| \ \ \| \|____\| \|____ / ____ \ \| \| \| \|____ \| \|__\| \| # \|_____/ \|______\|\|_\| \|_\| \_\\|______\|\_____\|/_/ \_\\|_\| \|______\|\|_____/ # # isort: on # fmt: on	2,342	Python	42.388888	119	0.595218
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_dirty_id.py	import omni.graph.core as og import omni.graph.core.tests as ogt class BundleTestSetup(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.dirty = og._og_unstable.IDirtyID2.create(self.context) # noqa: PLW0212 self.assertTrue(self.dirty is not None) # bundle paths self.bundle2Name = "bundle2" self.bundle3Name = "bundle3" self.attr1Name = "attr1" self.attr1Type = og.Type(og.BaseDataType.INT) self.attr2Name = "attr2" self.attr2Type = og.Type(og.BaseDataType.FLOAT) self.attr3Name = "attr3" self.attr3Type = og.Type(og.BaseDataType.INT, 1, 1) self.attr4Name = "attr4" self.attr4Type = og.Type(og.BaseDataType.INT, 2, 0) class TestBundleDirtyID(BundleTestSetup): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() async def test_create_bundle(self): bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.dirty.setup(bundle1, True) self.dirty.setup(bundle2, True) ids = self.dirty.get([bundle1, bundle2]) self.assertTrue(self.dirty.is_valid(ids[0])) self.assertTrue(self.dirty.is_valid(ids[1])) self.assertNotEqual(ids[0], ids[1]) async def test_create_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) ids0 = self.dirty.get([bundle]) bundle.create_attribute(self.attr1Name, self.attr1Type) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_create_child_bundle(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.create_child_bundle(self.bundle2Name) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_remove_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.remove_attribute(self.attr1Name) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_remove_child_bundles(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) bundle2 = bundle.create_child_bundle("child") ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.remove_child_bundle(bundle2) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_clear_contents(self): """Test if clearing bundle results with new dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.clear_contents() ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_copy_attribute(self): bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.dirty.setup(bundle1, True) self.dirty.setup(bundle2, True) attr1 = bundle1.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([bundle2]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle2.copy_attribute(attr1) ids1 = self.dirty.get([bundle2]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_copy_child_bundle(self): """Test if CoW reference is resolved.""" bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.dirty.setup(bundle1, True) self.dirty.setup(bundle2, True) ids0 = self.dirty.get([bundle1]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle1.copy_child_bundle(self.bundle2Name, bundle2) ids1 = self.dirty.get([bundle1]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_copy_bundle(self): """Copying bundle creates a shallow copy - a reference. To obtain the dirty id the reference needs to be resolved""" bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.dirty.setup(bundle1, True) self.dirty.setup(bundle2, True) ids0 = self.dirty.get([bundle1, bundle2]) self.assertNotEqual(ids0[0], ids0[1]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) bundle2.copy_bundle(bundle1) ids1 = self.dirty.get([bundle1, bundle2]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertEqual(ids1[0], ids1[1]) async def test_get_attribute_by_name(self): """Getting writable attribute data handle does not change dirty id. Only writing to an attribute triggers id to be changed.""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.get_attribute_by_name(self.attr1Name) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_child_bundle_by_name(self): """Getting writable bundle handle does not change dirty id. Only creating/removing attributes and children triggers id to be changed.""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) bundle.create_child_bundle(self.bundle2Name) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.get_child_bundle_by_name(self.bundle2Name) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_simple_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr1Name, self.attr1Type) attr.set(42) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get(), 42) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_array_attribute_data(self): """Getting array attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) attr.set([42]) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get()[0], 42) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def _get_array_rw_attribute_data(self, on_gpu): """Getting array attribute data for read-write""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) attr.set([42]) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) # no bump attr.as_read_only().get_array(on_gpu=on_gpu, get_for_write=False, reserved_element_count=1) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) # bump attr.get_array(on_gpu=on_gpu, get_for_write=True, reserved_element_count=1) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_get_array_attribute_data_cpu(self): await self._get_array_rw_attribute_data(False) async def test_get_array_attribute_data_gpu(self): await self._get_array_rw_attribute_data(True) async def test_resize_array_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) # no bump attr.size() ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) # bump attr.resize(10) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_get_tuple_attribute_data(self): """Getting array attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr4Name, self.attr4Type) attr.set([42, 24]) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get()[0], 42) self.assertEqual(attr.as_read_only().get()[1], 24) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_change_child_and_propagate_changes_to_parent(self): r""" bundle1 \_ child0 \_ child1 \_ child2 <-- create attribute Will propagate dirty id changes up to `bundle1` (child2 -> child1 -> child0 -> bundle1) """ bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) child0 = bundle.create_child_bundle("child0") child1 = child0.create_child_bundle("child1") child2 = child1.create_child_bundle("child2") ids0 = self.dirty.get([bundle, child0, child1]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) self.assertTrue(self.dirty.is_valid(ids0[2])) # creating attribute automatically bumps parent ids child2.create_attribute(self.attr1Name, self.attr1Type) ids1 = self.dirty.get([bundle, child0, child1]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertTrue(self.dirty.is_valid(ids1[2])) self.assertNotEqual(ids0[0], ids1[0]) self.assertNotEqual(ids0[1], ids1[1]) self.assertNotEqual(ids0[2], ids1[2]) class TestAttributeDirtyID(BundleTestSetup): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() async def test_create_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr1 = bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([attr1]) self.assertTrue(self.dirty.is_valid(ids0[0])) attr2 = bundle.create_attribute(self.attr2Name, self.attr2Type) ids1 = self.dirty.get([attr2]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_create_same_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr1 = bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([attr1]) self.assertTrue(self.dirty.is_valid(ids0[0])) attr2 = bundle.create_attribute(self.attr1Name, self.attr1Type) ids1 = self.dirty.get([attr2]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_create_same_attribute_new_size(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) n = "attr" t = og.Type(og.BaseDataType.INT, 1, 1) attr = bundle.create_attribute(n, t, 100) ids0 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids0[0])) # same size does not bump dirty ids attr = bundle.create_attribute(n, t, 100) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) # new size bumps dirty ids attr = bundle.create_attribute(n, t, 10) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_get_simple_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr1Name, self.attr1Type) attr.set(42) ids0 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get(), 42) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_array_attribute_data(self): """Getting array attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) attr.set([42]) ids0 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get()[0], 42) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_tuple_attribute_data(self): """Getting tuple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr4Name, self.attr4Type) attr.set([42, 24]) ids0 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get()[0], 42) self.assertEqual(attr.as_read_only().get()[1], 24) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_set_simple_attribute_data(self): """Setting simple attribute data changes dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) attr.set(42) ids1 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertNotEqual(ids0[0], ids1[0]) self.assertNotEqual(ids0[1], ids1[1]) async def test_set_array_attribute_data(self): """Setting array attribute data changes dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) ids0 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) attr.set([42]) ids1 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertNotEqual(ids0[0], ids1[0]) self.assertNotEqual(ids0[1], ids1[1]) async def test_set_tuple_attribute_data(self): """Setting tuple attribute data changes dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr4Name, self.attr4Type) ids0 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) attr.set([42, 24]) ids1 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertNotEqual(ids0[0], ids1[0]) self.assertNotEqual(ids0[1], ids1[1])	18,506	Python	38.62955	99	0.635199
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_unittest_support.py	"""Tests that exercise the capabilities provided for OmniGraph unit testing""" from contextlib import asynccontextmanager, contextmanager import carb import omni.graph.core.tests as ogts import omni.graph.tools as ogt import omni.kit.test import omni.usd # Name of a fake setting that will be used for testing TEST_SETTING = "/not/a/setting" # ============================================================================================================== class TestOmniGraphTestFeatures(omni.kit.test.AsyncTestCase): """Run targeted tests on the test helper functions and classes directly, not as part of the test definition""" async def test_configuration_class(self): """Tests the functionality of customized OmniGraphTestConfiguration objects""" settings = carb.settings.get_settings() with ogts.OmniGraphTestConfiguration(settings={TEST_SETTING: True}): self.assertEqual(settings.get(TEST_SETTING), True) self.assertEqual(settings.get(TEST_SETTING), None) # -------------------------------------------------------------------------------------------------------------- CONTEXT_FLAG = 0 async def test_custom_contexts(self): """Tests the functionality of providing my own custom contexts via the contextmanager decorator""" @contextmanager def context_add_1(): TestOmniGraphTestFeatures.CONTEXT_FLAG = TestOmniGraphTestFeatures.CONTEXT_FLAG + 1 try: yield True finally: TestOmniGraphTestFeatures.CONTEXT_FLAG = TestOmniGraphTestFeatures.CONTEXT_FLAG - 1 @asynccontextmanager async def async_context_add_10(): TestOmniGraphTestFeatures.CONTEXT_FLAG = TestOmniGraphTestFeatures.CONTEXT_FLAG + 10 try: yield True finally: TestOmniGraphTestFeatures.CONTEXT_FLAG = TestOmniGraphTestFeatures.CONTEXT_FLAG - 10 my_configuration = ogts.OmniGraphTestConfiguration( contexts=[context_add_1], async_contexts=[async_context_add_10] ) self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 0) with my_configuration: self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 1) self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 0) async with my_configuration: self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 11) self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 0) # -------------------------------------------------------------------------------------------------------------- async def test_construct_test_class(self): """Tests the ability to create a base class using the construct_test_class() function""" # Test the deprecated keyword message = "I am deprecated" deprecated_class = ogts.construct_test_class(deprecated=message) self.assertTrue(omni.kit.test.AsyncTestCase in deprecated_class.__bases__) with ogt.DeprecateMessage.NoLogging(): instance = deprecated_class() await instance.setUp() messages_logged = ogt.DeprecateMessage.messages_logged() self.assertTrue(message in messages_logged, f"'{message}' not in {messages_logged}") # Test the base_class keyword class BaseTestClass(omni.kit.test.AsyncTestCase): def __init__(self, args, kwargs): super().__init__(args, **kwargs) self.i_exist = True derived_class = ogts.construct_test_class(base_class=BaseTestClass) instance = derived_class() self.assertTrue(hasattr(instance, "i_exist") and instance.i_exist, f"No 'i_exist' in {dir(instance)}") self.assertTrue(isinstance(instance, BaseTestClass)) # Test the configure keyword configuration = ogts.OmniGraphTestConfiguration(settings={TEST_SETTING: True}) configured_class = ogts.construct_test_class(configuration=configuration) instance = configured_class() self.assertEqual(type(configuration), type(instance._OmniGraphCustomTestCase__configuration)) # noqa PLW0212 with self.assertRaises(TypeError): _ = ogts.construct_test_class(configuration=3) # Test the extensions_enabled keyword test_extension = "omni.graph.scriptnode" manager = omni.kit.app.get_app().get_extension_manager() was_enabled = manager.is_extension_enabled(test_extension) manager.set_extension_enabled_immediate(test_extension, False) configuration = ogts.OmniGraphTestConfiguration(extensions_enabled=[test_extension]) with configuration: self.assertTrue(manager.is_extension_enabled(test_extension)) manager.set_extension_enabled_immediate(test_extension, was_enabled) # Test the extensions_disabled keyword manager.set_extension_enabled_immediate(test_extension, True) configuration = ogts.OmniGraphTestConfiguration(extensions_disabled=[test_extension]) with configuration: self.assertFalse(manager.is_extension_enabled(test_extension)) manager.set_extension_enabled_immediate(test_extension, was_enabled) # ============================================================================================================== class TestStandardConfiguration(ogts.OmniGraphTestCase): """Run tests using the standard OmniGraph test configuration""" async def setUp(self): await super().setUp() async def tearDown(self): await super().tearDown() async def test_settings(self): """Test that the standard settings are applied by the test case""" # ============================================================================================================== class TestCustomSetUp(omni.kit.test.AsyncTestCase): """Run tests using an OmniGraphTestConfiguration customization using the Kit base class""" async def test_configuration(self): with ogts.OmniGraphTestConfiguration(settings={TEST_SETTING: True}): self.assertTrue(carb.settings.get_settings().get(TEST_SETTING)) # ============================================================================================================== MyTestClass = ogts.construct_test_class(settings={TEST_SETTING: True}) class TestManualConfiguration(MyTestClass): """Run tests using a custom created base test class""" async def test_constructed_base_class(self): self.assertTrue(carb.settings.get_settings().get(TEST_SETTING)) # ============================================================================================================== class TestCustomBaseClass(MyTestClass): """Run tests using a custom created base test class derived from another custom base class""" async def test_constructed_derived_class(self): with self.assertRaises(TypeError): MyDerivedTestClass = ogts.construct_test_class(base_class=MyTestClass) # noqa F841 # ============================================================================================================== class TestOverrideSetUp(ogts.OmniGraphTestCase): """Run tests using a customization that is based on the standard configuration""" async def test_configuration(self): with ogts.OmniGraphTestConfiguration(settings={TEST_SETTING: True}): self.assertTrue(carb.settings.get_settings().get(TEST_SETTING))	7,480	Python	45.465838	117	0.61484
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/_unittest_support.py	"""Support for creating unittest style test cases that use OmniGraph components. Note the leading underscore in the file name, indicating that it should not be imported directly. Instead use this: .. code-block:: python import omni.graph.core.tests as ogts There are three primary workflows for setting up unit test case classes that manage OmniGraph state. If your test case uses OmniGraph and just wants a standard configuration while running then you can use the predefined test case base class :py:class:`omni.graph.core.tests.OmniGraphTestCase`. .. code-block:: python import omni.graph.core.tests as ogts class TestMyStuff(ogts.OmniGraphTestCase): async def test_my_stuff(self): pass # My stuff always works If instead you wish to make use of only a subset of the various OmniGraph configuration values or use your own test base class then you can use :py:class:`omni.graph.core.tests.OmniGraphTestConfiguration` to build up a set of temporary conditions in force while the test runs, such as using an empty scene, defining settings, etc. .. code-block:: python import omni.graph.core.tests as ogts class TestMyStuff(omni.kit.test.AsyncTestCase): async def test_my_stuff(self): with ogts.OmniGraphTestConfiguration(clear_on_start=False): pass # My stuff always works You can also use the test case class constructor to define your own base class that can be used in multiple locations: .. code-block:: python import omni.graph.core.tests as ogts MyDebugTestClass = ogts.test_case_class(clear_on_finish=False, clear_on_start=False) class TestMyStuff(MyDebugTestClass): async def test_my_stuff(self): pass # My stuff always works """ from __future__ import annotations import asyncio import inspect from contextlib import AsyncExitStack, ExitStack, asynccontextmanager, contextmanager import omni.graph.core as og import omni.graph.tools as ogt import omni.kit import omni.usd # ============================================================================================================== class OmniGraphTestConfiguration: """Class to manage testing configuration parameters as a context manager that brackets a test run. You can either use it around a single test to modify configuration for just that test: .. code-block:: python import omni.graph.core.tests as ogts class TestRun(ogts.OmniGraphTestCase): '''By default the tests in this class will clear the scene on start and finish of the test''' async def test_without_clearing(self): async with ogts.OmniGraphTestConfiguration(clear_on_start=False): run_my_test() # Before this particular test the scene will not be cleared before starting See :py:func:`construct_test_class` for a way of applying it to every test in the test case. .. code-block:: python class TestRun(ogts.construct_test_class(clear_on_start=True)): async def test_without_clearing(self): run_my_test() If you can't change your base class you can still use it by adding it to the test case setUp/tearDown .. code-block:: python class TestRun(omni.kit.test.AsyncTestCase): async def setUp(self): self.configuration = ogts.OmniGraphTestConfiguration(clear_on_start=True) await self.configuration.__enter__() async def tearDown(self): await self.configuration.__exit__() async def test_without_clearing(self): run_my_test() It also has the ability to include user-defined contexts as part of the test configuration, which will be unwound in the order added using the standard contextlib.{A}ExitStack() functionality. .. code-block:: python @contextmanager def my_context(): resource = acquire_my_resource() try: yield 1 finally: release_my_resource(resource) @asynccontextmanager async def my_async_context(): resource = await acquire_my_async_resource() try: yield 1 finally: await release_my_async_resource(resource) my_configuration = OmniGraphTestConfiguration(contexts=[my_context], async_contexts=[my_async_context]) MyCustomClass = ogts.construct_test_class(configuration=my_configuration) class TestRun(MyCustomClass): async def test_without_clearing(self): run_my_test() """ def __init__(self, kwargs): """Construct the stack objects that will hold the test contexts Args: clear_on_start (bool=False): Clear the scene before the test starts clear_on_finish (bool=False): Clear the scene after the test ends settings (dict=None): Dictionary of settingName:value to set while the test runs and restore after contexts (list=None): List of contextmanager functions or decorated classes to wrap the test runs async_contexts (list=None): List of asynccontextmanager functions or decorated classes to wrap the test runs extensions_enabled (list=None): List of the names of extensions to temporarily enable for the test extensions_disabled (list=None): List of the names of extensions to temporarily disable for the test Note: Be careful when using the extensions_{en,dis}abled options to ensure that you do not inadvertently force a hot reload of the extension containing the test. """ self.stack = ExitStack() self.async_stack = AsyncExitStack() self.__kwargs = dict(kwargs) # -------------------------------------------------------------------------------------------------------------- def __set_up_stack(self): """Define the parts of the ExitStack requested by the current keyword args""" @contextmanager def __enable_extensions(extensions: list[str]): manager = omni.kit.app.get_app().get_extension_manager() try: for name in extensions: manager.set_extension_enabled_immediate(name, True) yield True finally: pass @contextmanager def __disable_extensions(extensions: list[str]): manager = omni.kit.app.get_app().get_extension_manager() try: for name in extensions: manager.set_extension_enabled_immediate(name, False) yield True finally: pass for key, value in self.__kwargs.items(): if key == "settings": for setting, temporary_value in value.items(): self.stack.enter_context(og.Settings.temporary(setting, temporary_value)) elif key == "extensions_enabled": self.stack.enter_context(__enable_extensions(value)) elif key == "extensions_disabled": self.stack.enter_context(__disable_extensions(value)) elif key == "contexts": if not isinstance(value, list): value = [value] for context in value: self.stack.enter_context(context()) # -------------------------------------------------------------------------------------------------------------- async def __set_up_async_stack(self): """Define the parts of the AsyncExitStack requested by the current keyword args""" @asynccontextmanager async def __clear_scene_on_enter(): try: yield await omni.usd.get_context().new_stage_async() finally: pass @asynccontextmanager async def __clear_scene_on_exit(): try: yield None finally: await omni.usd.get_context().new_stage_async() for key, value in self.__kwargs.items(): if key == "clear_on_start" and value: await self.async_stack.enter_async_context(__clear_scene_on_enter()) if key == "clear_on_finish" and value: await self.async_stack.enter_async_context(__clear_scene_on_exit()) if key == "async_contexts": if not isinstance(value, list): value = [value] for context in value: await self.async_stack.enter_async_context(context()) # -------------------------------------------------------------------------------------------------------------- def __enter__(self): """When used as a context manager this class calls this at the start of a 'with' clause""" self.__set_up_stack() asyncio.ensure_future(self.__set_up_async_stack()) self.stack.__enter__() asyncio.ensure_future(self.async_stack.__aenter__()) def __exit__(self, exc_type=None, exc_value=None, exc_tb=None): """When used as a context manager this class calls this at the end of a 'with' clause""" self.stack.__exit__(exc_type, exc_value, exc_tb) asyncio.ensure_future(self.async_stack.__aexit__(exc_type, exc_value, exc_tb)) # -------------------------------------------------------------------------------------------------------------- async def __aenter__(self): """When used as an async context manager this class calls this at the start of a 'with' clause""" self.__set_up_stack() await self.__set_up_async_stack() self.stack.__enter__() await self.async_stack.__aenter__() async def __aexit__(self, exc_type=None, exc_value=None, exc_tb=None): """When used as an async context manager this class calls this at the end of a 'with' clause""" self.stack.__exit__(exc_type, exc_value, exc_tb) await self.async_stack.__aexit__(exc_type, exc_value, exc_tb) # ============================================================================================================== def construct_test_class(kwargs): """Construct a new test case base class that configures the test in a predictable way. You can use the same parameters as :py:class:`OmniGraphTestConfiguration` to configure your test class, or you can construct one and pass it in as an argument Args: configuration (OmniGraphTestConfiguration): Full configuration definition deprecated (str \| tuple[str, DeprecationLevel]): Used when this instantiation of the class has been deprecated base_class (object): Alternative base class for the test case, defaults to omni.kit.test.AsyncTestCase Other arguments can be seen in the parameters to :py:func:`OmniGraphTestConfiguration.setUp` Raises: TypeError if a base class was specified that is also a constructed class """ # Check to see if an alternative base class was passed in base_class = kwargs.get("base_class", omni.kit.test.AsyncTestCase) # Issue the deprecation message if specified, but continue on deprecation = kwargs.get("deprecated", None) try: configuration = kwargs["configuration"] if not isinstance(configuration, OmniGraphTestConfiguration): raise TypeError(f"configuration only accepts type OmniGraphTestConfiguration, not {type(configuration)}") except KeyError: configuration = OmniGraphTestConfiguration(*kwargs) # -------------------------------------------------------------------------------------------------------------- # Construct the customized test case base class object using the temporary setting and base class information class OmniGraphCustomTestCase(base_class): """A custom constructed test case base class that performs the prescribed setUp and tearDown actions.""" def __init__(self, args, *kwargs): super().__init__(args, **kwargs) self.__configuration = configuration self.__deprecation = deprecation async def setUp(self): """Set up the test by saving and then setting up all of the action contexts""" # Start with no test failures registered og.set_test_failure(False) if inspect.iscoroutinefunction(super().setUp): await super().setUp() else: super().setUp() if self.__deprecation is not None: if isinstance(self.__deprecation, tuple): if len(self.__deprecation) != 2: raise ValueError( "deprecation argument can only be a message or (message, level) pair" f" - saw {self.__deprecation}" ) ogt.DeprecateMessage.deprecated(self.__deprecation[0], self.__deprecation[1]) else: ogt.DeprecateMessage.deprecated(self.__deprecation) await self.__configuration.__aenter__() # noqa PLC2801 async def tearDown(self): """Complete the test by tearing down all of the action contexts""" await self.__configuration.__aexit__() if inspect.iscoroutinefunction(super().setUp): await super().tearDown() else: super().tearDown() # Recursive class definition is more complicated and can be done other ways if base_class.__name__ == "OmniGraphCustomTestCase": raise TypeError( "Recursive class definition is not supported (construct_test_class(base_class=construct_test_class(...)))" ) # Return the constructed class definition return OmniGraphCustomTestCase	13,880	Python	43.777419	120	0.596974
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_node_type_forwarding.py	"""Tests that exercise the INodeTypeForwarding interface""" import omni.graph.core._unstable as ogu import omni.graph.core.tests as ogts import omni.kit.test import omni.usd # ============================================================================================================== class TestNodeTypeForwarding(omni.kit.test.AsyncTestCase): async def test_bindings(self): """Tests that the bindings for the ABI operate as expected""" interface_class = ogu.INodeTypeForwarding ogts.validate_abi_interface( interface_class, instance_methods=[ "define_forward", "remove_forward", "remove_forwarded_type", ], static_methods=[ "find_forward", "get_forwarding", ], properties=["forward_count"], ) get_interface = ogu.get_node_type_forwarding_interface self.assertIsNotNone(get_interface) interface = get_interface() self.assertIsNotNone(interface) self.assertTrue(isinstance(interface, ogu.INodeTypeForwarding)) try: # Try defining a simple forward original_forwarding = interface.forward_count replacement = ("ReplacementNodeType", 1, "omni.test.extension") original = ("ForwardedNodeType", 2) self.assertTrue(interface.define_forward(original, replacement)) self.assertEqual(original_forwarding + 1, interface.forward_count) all_forwarding = interface.get_forwarding() self.assertEqual(all_forwarding[original], replacement) found_forward = interface.find_forward(original) self.assertEqual(found_forward, replacement) # Define a second forward secondary_replacement = ("SecondNodeType", 4, "omni.test.extension") secondary = ("SomeOtherNodeType", 2) self.assertTrue(interface.define_forward(secondary, secondary_replacement)) self.assertEqual(original_forwarding + 2, interface.forward_count) all_forwarding = interface.get_forwarding() self.assertEqual(all_forwarding[original], replacement) self.assertEqual(all_forwarding[secondary], secondary_replacement) # Define a chained forward ("ChainedNodeType", 1) -> ("ReplacementNodeType", 1) -> ("ForwardedNodeType", 2) chained_replacement = ("ChainedNodeType", 1, "omni.test.extension") chained = (replacement[0], replacement[1]) self.assertTrue(interface.define_forward(chained, chained_replacement)) found_forward = interface.find_forward(chained) self.assertEqual(found_forward, chained_replacement) found_forward = interface.find_forward(original) self.assertEqual(found_forward, chained_replacement) # Define a few forwarding for the same node type at different versions # ("ReplacementNodeType", 1) -> ("ForwardedNodeType", 2, "omni.test.extension") # ("ReplacementNodeType", 3) -> ("BetterNodeType", 1, "omni.borg.extension") # ("ReplacementNodeType", 7) -> ("SecondaryNodeType", 4, "omni.test.extension") better_replacement = ("BetterNodeType", 4, "omni.borg.extension") latest_forward = (replacement[0], replacement[1] + 2) self.assertTrue(interface.define_forward(latest_forward, better_replacement)) prototype_forward = (replacement[0], replacement[1] + 6) self.assertTrue(interface.define_forward(prototype_forward, secondary_replacement)) # What the "replacement" forward is expected to map to for the version equal to the index of the list... expected_versions = [ chained_replacement, chained_replacement, better_replacement, better_replacement, better_replacement, better_replacement, secondary_replacement, secondary_replacement, secondary_replacement, ] for index, version_to_test in enumerate(expected_versions): self.assertEqual( version_to_test, interface.find_forward(replacement[0], index + 1), f"Checking {replacement[0]}-{index + 1} maps to {version_to_test}", ) # Ensure that attempting to look up a version earlier than the first forward returns nothing early_version = (replacement[0], 0) with self.assertRaises(ValueError): interface.find_forward(early_version) # Attempt to define a circular forward, which should not be allowed circular = (chained_replacement[0], chained_replacement[1]) with ogts.ExpectedError(): self.assertFalse(interface.define_forward(circular, chained_replacement)) # Attempt to define a multiple-step circular forward, which should not be allowed # ("ChainedNodeType", 1) -> ("ReplacementNodeType", 1) -> ("ForwardedNodeType", 2) -> ("ChainedNodeType", 1) with ogts.ExpectedError(): self.assertFalse(interface.define_forward(chained, original[0], original[1], "omni.test.extension")) # Attempt to redefine the same forward, which should not be allowed with ogts.ExpectedError(): self.assertFalse(interface.define_forward(chained, chained_replacement)) finally: # Remove all of the forwarding, in reverse order so that earlier failures clean up after themselves self.assertTrue(interface.remove_forward(prototype_forward)) self.assertTrue(interface.remove_forward(latest_forward)) self.assertTrue(interface.remove_forward(chained)) self.assertTrue(interface.remove_forward(secondary)) self.assertTrue(interface.remove_forward(original)) self.assertEqual(original_forwarding, interface.forward_count)	6,172	Python	50.016529	120	0.613901
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_extension_unloads.py	""" Tests related to omnigraph state/api when extensions get unloaded. """ from contextlib import suppress import carb import omni.graph.core as og import omni.graph.core.tests as ogt import omni.kit.app import omni.kit.commands import omni.kit.test import omni.usd # ====================================================================== class TestExtensionUnloads(ogt.OmniGraphTestCase): # ----------------------------------------------------------------------- async def test_nodetype_when_extension_unloads(self): """Tests that nodes lose their node type when their extension unloads""" node_type = "omni.graph.examples.cpp.Simple" examples_cpp_extension = "omni.graph.examples.cpp" manager = omni.kit.app.get_app_interface().get_extension_manager() # If the extension is not found then the test cannot run examples_cpp_extension_id = None with suppress(Exception): examples_cpp_extension_id = manager.get_extension_id_by_module(examples_cpp_extension) if not examples_cpp_extension_id: carb.log_warn( f"test_nodetype_when_extension_unloads cannot run since {examples_cpp_extension} was not found" ) return examples_cpp_enabled = manager.is_extension_enabled(examples_cpp_extension) try: manager.set_extension_enabled_immediate(examples_cpp_extension, True) # create a graph with a node from the extension keys = og.Controller.Keys controller1 = og.Controller() (_, nodes, _, _) = controller1.edit( "/World/Graph", { keys.CREATE_NODES: [ ("Node", node_type), ], }, ) self.assertTrue(nodes[0].get_node_type().is_valid()) self.assertEquals(nodes[0].get_node_type().get_node_type(), node_type) # disable the extension, and validate the node type changes to a default type # the type is still valid, but is a default type manager.set_extension_enabled_immediate(examples_cpp_extension, False) self.assertTrue(nodes[0].get_node_type().is_valid()) self.assertEquals(nodes[0].get_node_type().get_node_type(), None) # re-enable the extension and validate the node type is restored manager.set_extension_enabled_immediate(examples_cpp_extension, True) self.assertTrue(nodes[0].get_node_type().is_valid()) self.assertEquals(nodes[0].get_node_type().get_node_type(), node_type) finally: manager.set_extension_enabled_immediate(examples_cpp_extension, examples_cpp_enabled)	2,765	Python	40.283581	111	0.594575
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/expected_error.py	# -------------------------------------------------------------------------------------------------------------- class ExpectedError: """ Helper class used to prefix any pending error messages with [Expected Error] stdoutFailPatterns.exclude (defined in extension.toml) will cause these errors to be ignored when running tests. Note that it will prepend only the first error. Usage: with ExpectedError(): function_that_produced_error_output() """ def __enter__(self): # Preflush any output, otherwise it may be appended to the next statement. print("", flush=True) # Output the prefix string without a newline so that the error to be ignored will appear on # the same line. We do NOT want to flush this because that could allow output from another thread # to appear between the prefix and the error message. print("[Ignore this error/warning] ", end="", flush=False) def __exit__(self, exit_type, value, traceback): # Print a newline, to avoid actual errors being ignored. print("", flush=True)	1,122	Python	39.107141	112	0.600713
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_hierarchy.py	import omni.graph.core as og import omni.graph.core.tests as ogt class BundleTestSetup(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) # bundle paths self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" self.bundle3Name = "bundle3" self.bundle4Name = "bundle4" # attribute names self.attr1Name = "attr1" self.attr2Name = "attr2" # attribute types self.attr1Type = og.Type(og.BaseDataType.INT) self.attr2Type = og.Type(og.BaseDataType.FLOAT) self.bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.bundle1.valid) # ------------------------------------------------------------------ # # FOLLOWING TESTS ARE IMPLEMENTATION DETAILS AND MUST NOT BE USED! # # ------------------------------------------------------------------ # class TestBundleHierarchyCleanup(BundleTestSetup): """This tests exercises cleanup of internals of the bundles.""" async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() def test_recursive_child_bundle_removal(self): # create hierarchy of bundles b0 = self.bundle1 b1 = b0.create_child_bundle(self.bundle2Name) b2 = b1.create_child_bundle(self.bundle3Name) self.assertTrue(b0) self.assertTrue(b1) self.assertTrue(b2) p0 = f"{self.bundle1Name}" p1 = f"{self.bundle1Name}/{self.bundle2Name}" p2 = f"{self.bundle1Name}/{self.bundle2Name}/{self.bundle3Name}" self.assertTrue(self.factory.get_const_bundle_from_path(self.context, p0)) self.assertTrue(self.factory.get_const_bundle_from_path(self.context, p1)) self.assertTrue(self.factory.get_const_bundle_from_path(self.context, p2)) b0.clear_contents() # p0 is not removed, only the descendants will be gone self.assertTrue(self.factory.get_const_bundle_from_path(self.context, p0)) self.assertFalse(self.factory.get_const_bundle_from_path(self.context, p1)) self.assertFalse(self.factory.get_const_bundle_from_path(self.context, p2)) def test_recursive_child_bundle_metadata_removal(self): b0 = self.bundle1 b1 = b0.create_child_bundle(self.bundle2Name) # create bundle metadata b0.create_bundle_metadata(self.attr1Name, self.attr1Type) b1.create_bundle_metadata(self.attr1Name, self.attr1Type) # create bundle attributes b0.create_attribute(self.attr1Name, self.attr1Type) b1.create_attribute(self.attr1Name, self.attr1Type) # create attribute metadata b0.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) b1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) # TODO: Investigate why passing c-string does not work. The conversion from c-string to PathC produces different ids. p0 = f"{self.bundle1Name}/__metadata__bundle__" p1 = f"{self.bundle1Name}/__metadata__bundle__/{self.attr1Name}" p2 = f"{self.bundle1Name}/{self.bundle2Name}/__metadata__bundle__" p3 = f"{self.bundle1Name}/{self.bundle2Name}/__metadata__bundle__/{self.attr1Name}" get = self.factory.get_const_bundle_from_path self.assertTrue(get(self.context, p0)) self.assertTrue(get(self.context, p1)) self.assertTrue(get(self.context, p2)) self.assertTrue(get(self.context, p3)) b0.clear_contents() self.assertFalse(get(self.context, p0)) self.assertFalse(get(self.context, p1)) self.assertFalse(get(self.context, p2)) self.assertFalse(get(self.context, p3)) def test_recursive_child_remove_with_cow(self): child_names = [self.bundle2Name, self.bundle3Name] b0 = self.bundle1 children = b0.create_child_bundles(child_names) # Copy-on-Write child bundles b1 = self.factory.create_bundle(self.context, self.bundle4Name) b1.copy_child_bundles(child_names, children) # check content get = self.factory.get_const_bundle_from_path # original bundle p0 = f"{self.bundle1Name}" p1 = f"{self.bundle1Name}/{self.bundle2Name}" p2 = f"{self.bundle1Name}/{self.bundle3Name}" self.assertTrue(get(self.context, p0)) self.assertTrue(get(self.context, p1)) self.assertTrue(get(self.context, p2)) # copied children p0 = f"{self.bundle4Name}" p1 = f"{self.bundle4Name}/{self.bundle2Name}" p2 = f"{self.bundle4Name}/{self.bundle3Name}" self.assertTrue(get(self.context, p0)) self.assertTrue(get(self.context, p1)) self.assertTrue(get(self.context, p2)) # remove shallow copies, but not the original location b1.clear_contents() # shallow children are gone self.assertTrue(get(self.context, p0)) self.assertFalse(get(self.context, p1)) self.assertFalse(get(self.context, p2)) # but original location stays intact p0 = f"{self.bundle1Name}" p1 = f"{self.bundle1Name}/{self.bundle2Name}" p2 = f"{self.bundle1Name}/{self.bundle3Name}" self.assertTrue(get(self.context, p0)) self.assertTrue(get(self.context, p1)) self.assertTrue(get(self.context, p2))	5,734	Python	36.980132	125	0.637077
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/validation.py	"""Support for validation of content""" import inspect from enum import Enum # ============================================================================================================== class _FunctionType(Enum): """Enumeration to make an easy tag type for function type definitions""" FUNCTION = "function" """Type is an untethered function""" STATIC = "staticmethod" """Type is a static method of a class""" CLASS = "classmethod" """Type is a class method (with cls) of a class""" INSTANCE = "instancemethod" """Type is an instance method (with self) of a class""" NOT_A_FUNCTION = "unknown" """Type is not a recognized function type""" # ============================================================================================================== def _get_pybind_function_type(func: any) -> _FunctionType: """Check to see if the object is a function type of some kind. The way to check if a function from a pybind interface is static or not is quite different from how you would check regular functions. The regular methods are instancemethod types, as expected, but the static methods are classified as builtin methods. The parent class is always PyCapsule so the assumption has to be made that anything passed in here already belongs to the interface being tested. Args: func (any): The object to inspect Returns: _FunctionType\|None: The type of function @p func is or None if it is not a function """ if not inspect.isroutine(func): return None function_type = type(func) if func.__name__ == func.__qualname__ or ".<locals>" in func.__qualname__: return _FunctionType.FUNCTION if function_type.__name__ == "builtin_function_or_method": return _FunctionType.STATIC if function_type.__name__ == "instancemethod": return _FunctionType.INSTANCE return _FunctionType.CLASS # ============================================================================================================== def validate_abi_interface( interface: any, instance_methods: list[str] = None, static_methods: list[str] = None, class_methods: list[str] = None, properties: list[str] = None, constants: list[tuple[str, any]] = None, ): """Validate an ABI interface's expected contents Args: interface (any): The interface object to validate instance_methods (list[str]): Names of interface members expected to be regular object functions static_methods (list[str]): Names of interface members expected to be static object functions class_methods (list[str]): Names of interface members expected to be class level functions properties (list[str]): Names of interface members expected to be object properties constants (list[str]): Names and types of interface members expected to be constant object values Raises: ValueError: if the interface was not consistent with the expected contents """ # Convert members to forms easier to compare actual_members = {function_name for function_name in dir(interface) if not function_name.startswith("_")} expected_instance_method_names = set(instance_methods or []) expected_static_method_names = set(static_methods or []) expected_class_method_names = set(class_methods or []) expected_property_names = set(properties or []) expected_constant_definitions = set(constants or []) expected_members = ( expected_instance_method_names.union(expected_property_names) .union(expected_static_method_names) .union(expected_class_method_names) .union(name for (name, _) in expected_constant_definitions) ) unexpected = actual_members - expected_members not_found = expected_members - actual_members errors = [] if unexpected: errors.append(f"Unexpected interface members found - {unexpected}") if not_found: errors.append(f"Expected interface members not found - {not_found}") def _validate_function_type(function_names: list[str], expected_type: _FunctionType): """Check that a list of function names have the given type, adding to 'errors' if not""" for function_name in function_names: function = getattr(interface, function_name, None) if not callable(function): errors.append(f"Expected function {function_name} was not a callable function, it was {type(function)}") return function_type = _get_pybind_function_type(function) if function_type != expected_type: errors.append(f"Expected function {function_name} to be {expected_type.value}, it was {function_type}") # Validate the expected functions _validate_function_type(expected_instance_method_names, _FunctionType.INSTANCE) _validate_function_type(expected_class_method_names, _FunctionType.CLASS) _validate_function_type(expected_static_method_names, _FunctionType.STATIC) # Validate the expected properties for property_name in expected_property_names: property_member = getattr(interface, property_name, None) if not isinstance(property_member, property): errors.append(f"Expected property {property_name} was not a property, it was {type(property_member)}") # The constants are already known to be present, now their types must be checked for constant_name, constant_type in expected_constant_definitions: constant_member = getattr(interface, constant_name, None) if not isinstance(constant_member, constant_type): errors.append( f"Expected constant {constant_name} to be type {constant_type}, it was {type(constant_member)}" ) # Raise an exception if any errors were found if errors: formatted_errors = "\n ".join(errors) raise ValueError(f"Errors with interface {interface}\n {formatted_errors}")	5,999	Python	45.875	120	0.647441
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundles.py	import omni.core as oc import omni.graph.core as og import omni.graph.core.tests as ogt class BundleTestCase(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) # bundle paths self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" self.bundle3Name = "bundle3" self.bundle4Name = "bundle4" self.bundle5Name = "bundle5" # attribute names self.attr1Name = "attr1" self.attr2Name = "attr2" self.attr3Name = "attr3" self.attr4Name = "attr4" # attribute types self.attr1Type = og.Type(og.BaseDataType.INT) self.attr2Type = og.Type(og.BaseDataType.FLOAT) self.attr3Type = og.Type(og.BaseDataType.DOUBLE, 1, 1) self.attr4Type = og.Type(og.BaseDataType.BOOL, 1, 1) self.bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.bundle1.valid) async def test_create_bundle(self): # Check bundle1 does not have a parent bundle. parent1 = self.bundle1.get_parent_bundle() self.assertFalse(parent1.valid) # Check bundle path. self.assertEqual(self.bundle1.get_path(), self.bundle1Name) # Test state of attributes. self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(len(self.bundle1.get_attribute_names()), 0) self.assertEqual(len(self.bundle1.get_attribute_types()), 0) self.assertEqual(len(self.bundle1.get_attributes()), 0) # Test state of child bundles. self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(len(self.bundle1.get_child_bundles()), 0) async def test_create_child_bundle(self): # Create bundle hierarchy: bundle1/bundle2/bundle3. bundle2 = self.bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) self.assertEqual(bundle2.get_name(), self.bundle2Name) # Check number of children. self.assertEqual(self.bundle1.get_child_bundle_count(), 1) self.assertEqual(bundle2.get_child_bundle_count(), 0) # leaf, no children self.assertEqual(len(self.bundle1.get_child_bundles()), 1) self.assertEqual(len(bundle2.get_child_bundles()), 0) async def test_create_child_bundles(self): # Create bundle hierarchy: bundle1/bundle2/bundle3. bundle_paths = [self.bundle2Name, self.bundle3Name] self.bundle1.create_child_bundles(bundle_paths) self.assertEqual(self.bundle1.get_child_bundle_count(), 2) async def test_bundle_parent(self): # Create hierarchy: bundle1/bundle2/bundle3. bundle2 = self.bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) # Check children paths. self.assertEqual(bundle2.get_path(), "/".join([self.bundle1Name, self.bundle2Name])) # Check parents paths. bundle2_parent = bundle2.get_parent_bundle() self.assertTrue(bundle2_parent.valid) self.assertEqual(bundle2_parent.get_path(), self.bundle1.get_path()) async def test_remove_child_bundle(self): # Create hierarchy: bundle1/bundle2/bundle3. bundle2 = self.bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) bundle3 = bundle2.create_child_bundle(self.bundle3Name) self.assertTrue(bundle3.valid) # We can only remove intermediate children, remove children from bundle1 must fail. # Disabled because of: OM-48629. Re-enable after OM-48828 is solved. # with ExpectedError(): # self.assertEqual(self.bundle1.remove_all_child_bundles(), 0) # remove bundle2 from bundle1 # bundle3 is not an intermediate child of bundle1. self.assertFalse(self.bundle1.remove_child_bundle(bundle3)) self.assertEqual(bundle2.remove_child_bundle(bundle3), oc.Result.SUCCESS) self.assertEqual(self.bundle1.remove_child_bundle(bundle2), oc.Result.SUCCESS) async def test_remove_child_bundles(self): # Create bundle hierarchy. bundle2 = self.bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) bundle3 = self.bundle1.create_child_bundle(self.bundle3Name) self.assertTrue(bundle3.valid) # Get child bundles. bundles = self.bundle1.get_child_bundles() self.assertEqual(len(bundles), 2) # Remove all child bundles that are in the array. self.bundle1.remove_child_bundles(bundles) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) async def test_remove_child_bundles_by_name(self): _ = self.bundle1.create_child_bundle(self.bundle2Name) _ = self.bundle1.create_child_bundle(self.bundle3Name) _ = self.bundle1.create_child_bundle(self.bundle4Name) self.bundle1.remove_child_bundles_by_name([self.bundle2Name, self.bundle4Name]) self.assertEqual(self.bundle1.get_child_bundle_count(), 1) children = self.bundle1.get_child_bundles() self.assertEqual(len(children), 1) self.assertEqual(children[0].get_path(), "{}/{}".format(self.bundle1Name, self.bundle3Name)) async def test_copy_child_bundle(self): child = self.bundle1.create_child_bundle("child") new_bundle = self.factory.create_bundle(self.context, "new_bundle") new_bundle.copy_child_bundle(child) self.assertEqual(new_bundle.get_child_bundle_count(), 1) new_child = new_bundle.get_child_bundle_by_name("child") self.assertTrue(new_child.valid) async def test_copy_child_bundle_with_name(self): child = self.bundle1.create_child_bundle("child") new_bundle = self.factory.create_bundle(self.context, "new_bundle") new_bundle.copy_child_bundle(child, name="foo") self.assertEqual(new_bundle.get_child_bundle_count(), 1) new_child = new_bundle.get_child_bundle_by_name("child") self.assertFalse(new_child.valid) new_child = new_bundle.get_child_bundle_by_name("foo") self.assertTrue(new_child.valid) async def test_copy_child_bundles(self): children = self.bundle1.create_child_bundles(["childA", "childB"]) new_bundle = self.factory.create_bundle(self.context, "new_bundle") new_bundle.copy_child_bundles(children) self.assertEqual(new_bundle.get_child_bundle_count(), 2) new_children = new_bundle.get_child_bundles_by_name(["childA", "childB"]) self.assertEqual(len(new_children), 2) self.assertTrue(new_children[0].valid) self.assertTrue(new_children[1].valid) async def test_copy_child_bundles_with_names(self): children = self.bundle1.create_child_bundles(["childA", "childB"]) new_bundle = self.factory.create_bundle(self.context, "new_bundle") new_bundle.copy_child_bundles(children, names=["foo", "bar"]) self.assertEqual(new_bundle.get_child_bundle_count(), 2) new_children = new_bundle.get_child_bundles_by_name(["foo", "bar"]) self.assertEqual(len(new_children), 2) self.assertTrue(new_children[0].valid) self.assertTrue(new_children[1].valid) async def test_get_child_bundles_by_name(self): _ = self.bundle1.create_child_bundle(self.bundle2Name) _ = self.bundle1.create_child_bundle(self.bundle3Name) search = [self.bundle2Name, self.bundle3Name, self.bundle4Name] bundles = self.bundle1.get_child_bundles_by_name(search) self.assertTrue(bundles[0].valid) self.assertTrue(bundles[1].valid) self.assertFalse(bundles[2].valid) async def test_get_child_bundle_by_name(self): _ = self.bundle1.create_child_bundle(self.bundle2Name) _ = self.bundle1.create_child_bundle(self.bundle3Name) b2 = self.bundle1.get_child_bundle_by_name(self.bundle2Name) self.assertTrue(b2.valid) b3 = self.bundle1.get_child_bundle_by_name(self.bundle3Name) self.assertTrue(b3.valid) b4 = self.bundle1.get_child_bundle_by_name(self.bundle4Name) self.assertFalse(b4.valid) async def test_create_and_get_attribute(self): # Create each attribute individually. _ = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.assertEqual(self.bundle1.get_attribute_count(), 1) attr = self.bundle1.get_attribute_by_name(self.attr1Name) self.assertFalse(attr is None) self.assertEqual(attr.get_name(), self.attr1Name) async def test_create_and_get_attributes(self): # Create attributes by providing array of names and types. names = [self.attr1Name, self.attr2Name, self.attr3Name] types = [self.attr1Type, self.attr2Type, self.attr3Type] self.bundle1.create_attributes(names, types) self.assertEqual(self.bundle1.get_attribute_count(), 3) # Get all attributes. attrs = self.bundle1.get_attributes() self.assertEqual(len(attrs), 3) attrs = {x.get_name(): x for x in attrs if x.is_valid()} self.assertEqual(len(attrs), 3) self.assertTrue(self.attr1Name in attrs) self.assertTrue(self.attr2Name in attrs) self.assertTrue(self.attr3Name in attrs) # Find existing attributes. attrs_query = [self.attr1Name, self.attr3Name] attrs = self.bundle1.get_attributes_by_name(attrs_query) self.assertEqual(len(attrs), 2) attrs = {x.get_name(): x for x in attrs if x} self.assertEqual(len(attrs), 2) self.assertTrue(self.attr1Name in attrs) self.assertTrue(self.attr3Name in attrs) self.assertTrue(attrs[self.attr1Name]) self.assertTrue(attrs[self.attr3Name]) # Attempt to find not existing attributes. attrs_query = [self.attr4Name] attrs = self.bundle1.get_attributes_by_name(attrs_query) self.assertEqual(len(attrs), 1) attrs = {x.get_name(): x for x in attrs if x} self.assertEqual(len(attrs), 0) async def test_create_array_attribute(self): # Create array attribute. attr3 = self.bundle1.create_attribute(self.attr3Name, self.attr3Type, 1000) self.assertTrue(attr3) self.assertEqual(attr3.size(), 1000) attr3 = self.bundle1.create_attribute(self.attr3Name, self.attr3Type, 0) self.assertEqual(attr3.size(), 0) async def test_create_attribute_like(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) # Create new bundle and create attribute like. bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) like_attr1 = bundle2.create_attribute_like(attr1) self.assertTrue(like_attr1) self.assertEqual(like_attr1.get_name(), self.attr1Name) self.assertEqual(like_attr1.get_type(), self.attr1Type) async def test_create_attributes_like(self): # Create attributes in bundle1. names = [self.attr1Name, self.attr2Name] types = [self.attr1Type, self.attr2Type] attrs = self.bundle1.create_attributes(names, types) # Create bundle2 and create attributes like those from bundle1. bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) like_attrs = bundle2.create_attributes_like(attrs) like_attrs = {x.get_name(): x for x in like_attrs if x} self.assertEqual(len(like_attrs), 2) self.assertTrue(self.attr1Name in like_attrs) self.assertTrue(self.attr2Name in like_attrs) async def test_remove_attributes(self): # Create attributes in bundle1. attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) attr2 = self.bundle1.create_attribute(self.attr2Name, self.attr2Type) # Remove one attribute from bundle. self.assertEqual(self.bundle1.remove_attribute(attr2), oc.Result.SUCCESS) self.assertEqual(self.bundle1.get_attribute_count(), 1) # Try to remove non existing attributes. bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) self.assertEqual(bundle2.remove_attributes([attr1, attr2]), 0) async def test_remove_attributes_by_name(self): _ = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) _ = self.bundle1.create_attribute(self.attr2Name, self.attr2Type) _ = self.bundle1.create_attribute(self.attr3Name, self.attr3Type) self.bundle1.remove_attributes_by_name([self.attr1Name, self.attr3Name]) self.assertEqual(self.bundle1.get_attribute_count(), 1) names = self.bundle1.get_attribute_names() self.assertEqual(len(names), 1) self.assertEqual(names[0], self.attr2Name) async def test_copy_attribute(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.assertTrue(attr1) # Create bundle2 and copy attr1 from bundle1. bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) cpy_attr1 = bundle2.copy_attribute(attr1) self.assertTrue(cpy_attr1) self.assertEqual(cpy_attr1.get_type(), self.attr1Type) async def test_copy_attributes(self): # Create attributes. names = [self.attr1Name, self.attr2Name] types = [self.attr1Type, self.attr2Type] src_attrs1 = self.bundle1.create_attributes(names, types) names = [self.attr3Name, self.attr4Name] types = [self.attr3Type, self.attr4Type] bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) src_attrs2 = bundle2.create_attributes(names, types) # Create bundle3 and copy attributes from bundle1 and bundle2. bundle3 = self.factory.create_bundle(self.context, self.bundle3Name) src_attrs = src_attrs2 + src_attrs1 # reversed elements cpy_attrs = bundle3.copy_attributes(src_attrs) self.assertEqual(len(cpy_attrs), 4) # Check if attributes are valid. cpy_attrs = {x.get_name(): x for x in cpy_attrs if x} self.assertEqual(len(cpy_attrs), 4) # Get copied attributes by name. cpy_attr1 = bundle3.get_attribute_by_name(self.attr1Name) cpy_attr2 = bundle3.get_attribute_by_name(self.attr2Name) cpy_attr3 = bundle3.get_attribute_by_name(self.attr3Name) cpy_attr4 = bundle3.get_attribute_by_name(self.attr4Name) # Copied attributes must be valid. self.assertTrue(cpy_attr1.is_valid()) self.assertTrue(cpy_attr2.is_valid()) self.assertTrue(cpy_attr3.is_valid()) self.assertTrue(cpy_attr4.is_valid()) # Check copied attributes types. self.assertEqual(cpy_attr1.get_type(), self.attr1Type) self.assertEqual(cpy_attr2.get_type(), self.attr2Type) self.assertEqual(cpy_attr3.get_type(), self.attr3Type) self.assertEqual(cpy_attr4.get_type(), self.attr4Type) async def test_copy_attributes_override(self): # create double on bundle1 d_attr = self.bundle1.create_attribute(self.attr1Name, og.Type(og.BaseDataType.DOUBLE, 1, 1), 1000) self.assertEqual(d_attr.size(), 1000) # create bool on bundle2 bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) b_attr = bundle2.create_attribute(self.attr1Name, og.Type(og.BaseDataType.BOOL, 1, 1), 10) self.assertEqual(b_attr.size(), 10) # try copy double attr = bundle2.copy_attribute(d_attr, overwrite=False) self.assertFalse(attr.is_valid()) # try copy double attr = bundle2.copy_attribute(d_attr, overwrite=True) self.assertTrue(attr.is_valid()) self.assertEqual(attr.size(), 1000) self.assertEqual(attr.get_type().base_type, self.attr3Type.base_type) async def test_get_path(self): # Create hierarchy: bundle1/bundle2/bundle3. bundle1 = self.bundle1 bundle2 = bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) async def test_create_private_attribute(self): # This functionality is an implementation detail and should not be abused bundle = self.factory.create_bundle(self.context, "bundle") attrib = bundle.create_attribute("__bundle__private__attrib", og.Type(og.BaseDataType.INT)) self.assertTrue(attrib.is_valid()) self.assertEqual(bundle.get_attribute_count(), 0) async def test_target_attribute_type(self): target_type = og.Type(og.BaseDataType.RELATIONSHIP, 1, 0, og.AttributeRole.TARGET) bundle = self.bundle1 bundle.create_attribute("targets", target_type) self.assertEqual(bundle.get_attribute_count(), 1) attrib = bundle.get_attributes()[0] self.assertTrue(attrib.is_valid()) self.assertEqual(attrib.get_type().base_type, og.BaseDataType.RELATIONSHIP) self.assertEqual(attrib.get_type().role, og.AttributeRole.TARGET) class TestBundleMetadata(ogt.OmniGraphTestCase): """Test bundle metadata management""" async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) # bundle paths self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" self.bundle3Name = "bundle3" self.bundle4Name = "bundle4" self.bundle5Name = "bundle5" # attribute names self.attr1Name = "attr1" self.attr2Name = "attr2" self.attr3Name = "attr3" self.attr4Name = "attr4" # attribute types self.attr1Type = og.Type(og.BaseDataType.INT) self.attr2Type = og.Type(og.BaseDataType.FLOAT) self.attr3Type = og.Type(og.BaseDataType.DOUBLE, 1, 1) self.attr4Type = og.Type(og.BaseDataType.BOOL, 1, 1) self.bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.bundle1.valid) async def test_bundle_metadata_create(self): # check content self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) # create bundle metadata field1 = self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) field2 = self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) # check content self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) self.assertTrue(field1.is_valid()) self.assertTrue(field2.is_valid()) # create attributes self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_attribute(self.attr2Name, self.attr2Type) # check content self.assertEqual(self.bundle1.get_attribute_count(), 2) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) # create children self.bundle1.create_child_bundle(self.bundle2Name) self.bundle1.create_child_bundle(self.bundle3Name) self.assertEqual(self.bundle1.get_attribute_count(), 2) self.assertEqual(self.bundle1.get_child_bundle_count(), 2) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) async def test_bundle_metadata_remove_bulk(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata([self.attr1Name, self.attr2Name], [self.attr1Type, self.attr2Type]) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) self.bundle1.remove_bundle_metadata([self.attr1Name, self.attr2Name]) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) async def test_bundle_metadata_remove_single(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) self.bundle1.remove_bundle_metadata(self.attr1Name) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 1) self.bundle1.remove_bundle_metadata(self.attr2Name) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) async def test_bundle_metadata_remove_none(self): self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) self.bundle1.remove_bundle_metadata(self.attr1Name) self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) async def test_bundle_metadata_info(self): """ Counting number of attributes in metadata bundle. """ self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) self.assertEqual(len(self.bundle1.get_bundle_metadata_names()), 0) self.assertEqual(len(self.bundle1.get_bundle_metadata_types()), 0) # create two metadata attributes _ = self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) _ = self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) # check bundle metadata self.assertEqual(len(set(self.bundle1.get_bundle_metadata_names())), 2) self.assertEqual(len(set(self.bundle1.get_bundle_metadata_types())), 2) self.assertTrue(self.attr1Name in self.bundle1.get_bundle_metadata_names()) self.assertTrue(self.attr2Name in self.bundle1.get_bundle_metadata_names()) async def test_bundle_metadata_child_by_index(self): """ Metadata bundle can not be returned in a list of children. This test confirms that get_child_bundle does not return metadata bundle. """ # create two attributes _ = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) _ = self.bundle1.create_attribute(self.attr2Name, self.attr2Type) # create children ref_paths = [self.bundle2Name, self.bundle3Name, self.bundle4Name, self.bundle5Name] for i, ref_path in enumerate(ref_paths): self.bundle1.create_child_bundle(ref_path) ref_paths[i] = "{}/{}".format(self.bundle1Name, ref_path) # get child by index unique_paths = set() for index in range(len(ref_paths)): child = self.bundle1.get_child_bundle(index) unique_paths.add(child.get_path()) self.assertTrue(child.get_path()) self.assertTrue(child.get_path() in ref_paths) self.assertEqual(len(unique_paths), 4) async def test_bundle_metadata_by_name(self): """ Get bundle metadata by name. """ # create two metadata attributes self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.assertTrue(self.bundle1.get_bundle_metadata_count(), 2) attrs = self.bundle1.get_bundle_metadata_by_name([self.attr1Name, self.attr2Name]) self.assertEqual(len(attrs), 2) self.assertEqual(attrs[0].get_name(), self.attr1Name) self.assertEqual(attrs[1].get_name(), self.attr2Name) async def test_metadata_bundle_create_many_fields(self): self.bundle1.create_bundle_metadata([self.attr1Name, self.attr2Name], [self.attr1Type, self.attr2Type]) self.assertTrue(self.bundle1.get_bundle_metadata_count(), 2) attrs = self.bundle1.get_bundle_metadata_by_name([self.attr1Name, self.attr2Name]) self.assertEqual(len(attrs), 2) self.assertEqual(attrs[0].get_name(), self.attr1Name) self.assertEqual(attrs[1].get_name(), self.attr2Name) async def test_metadata_bundle_create_single_field(self): self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.assertTrue(self.bundle1.get_bundle_metadata_count(), 2) attrs = self.bundle1.get_bundle_metadata_by_name([self.attr1Name, self.attr2Name]) self.assertEqual(len(attrs), 2) self.assertEqual(attrs[0].get_name(), self.attr1Name) self.assertEqual(attrs[1].get_name(), self.attr2Name) async def test_attribute_metadata_create(self): # check content self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) # Create attribute metadata for not existing attribute should fail # Disabled because of: OM-48629. Re-enable after OM-48828 is solved. # field2 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) # field3 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) # self.assertFalse(field2.is_valid()) # self.assertFalse(field3.is_valid()) # check content self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) # create attribute and metadata for existing attribute self.bundle1.create_attribute(self.attr1Name, self.attr1Type) field2 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) field3 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) # check content self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr2Name), 0) self.assertTrue(field2.is_valid()) self.assertTrue(field3.is_valid()) async def test_attribute_metadata_create_with_ns(self): # create attribute self.bundle1.create_attribute(self.attr1Name, self.attr1Type) # create metadata for attribute that contains namespace in it name = "node:type" _ = self.bundle1.create_attribute_metadata(self.attr1Name, name, self.attr2Type) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 1) names = self.bundle1.get_attribute_metadata_names(self.attr1Name) self.assertTrue(name in names) async def test_attribute_metadata_names_and_types(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) _ = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) _ = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) names = self.bundle1.get_attribute_metadata_names(self.attr1Name) types = self.bundle1.get_attribute_metadata_types(self.attr1Name) self.assertEqual(len(names), 2) self.assertEqual(len(types), 2) self.assertTrue(self.attr2Name in names) self.assertTrue(self.attr3Name in names) async def test_attribute_metadata_by_name(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) # not existing field1 = self.bundle1.get_attribute_metadata_by_name(self.attr1Name, self.attr2Name) self.assertFalse(field1.is_valid()) # create and query field1 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.assertTrue(field1.is_valid()) field1 = self.bundle1.get_attribute_metadata_by_name(self.attr1Name, self.attr2Name) self.assertTrue(field1.is_valid()) async def test_attribute_metadata_remove(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) # create self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) # remove single self.bundle1.remove_attribute_metadata(self.attr1Name, self.attr2Name) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 1) self.bundle1.remove_attribute_metadata(self.attr1Name, self.attr3Name) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) # create self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) # remove bulk self.bundle1.remove_attribute_metadata(self.attr1Name, (self.attr2Name, self.attr3Name)) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) async def test_attribute_remove_with_metadata(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) # remove attribute should remove metadata self.bundle1.remove_attribute(attr1) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) async def test_bundle_array_metadata(self): met1 = self.bundle1.create_bundle_metadata(self.attr3Name, self.attr3Type, 1000) self.assertTrue(met1) self.assertEqual(met1.size(), 1000) async def test_attribute_array_metadata(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) met1 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type, 1000) self.assertTrue(met1) self.assertEqual(met1.size(), 1000) async def test_copy_attributes_with_metadata(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.assertTrue(attr1) # Create bundle2 and copy attr1 from bundle1 bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) cpy_attr1 = bundle2.copy_attribute(attr1) self.assertTrue(cpy_attr1) self.assertEqual(cpy_attr1.get_type(), self.attr1Type) # metadata check self.assertEqual(bundle2.get_attribute_metadata_count(self.attr1Name), 2) names = bundle2.get_attribute_metadata_names(self.attr1Name) types = bundle2.get_attribute_metadata_types(self.attr1Name) self.assertEqual(len(names), 2) self.assertEqual(len(types), 2) self.assertTrue(self.attr2Name in names) self.assertTrue(self.attr3Name in names) async def test_copy_bundle(self): # create bundle metadata self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.bundle1.create_bundle_metadata(self.attr3Name, self.attr3Type) self.bundle1.create_bundle_metadata(self.attr4Name, self.attr4Type) # create attribute metadata self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) # Create bundle2 and copy attr1 from bundle1 bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) bundle2.copy_bundle(self.bundle1) # bundle metadata check self.assertEqual(bundle2.get_bundle_metadata_count(), 3) names = bundle2.get_bundle_metadata_names() types = bundle2.get_bundle_metadata_names() self.assertTrue(self.attr2Name in names) self.assertTrue(self.attr3Name in names) self.assertTrue(self.attr4Name in names) self.assertEqual(len(types), 3) # attribute metadata check self.assertEqual(bundle2.get_attribute_metadata_count(self.attr1Name), 2) names = bundle2.get_attribute_metadata_names(self.attr1Name) types = bundle2.get_attribute_metadata_types(self.attr1Name) self.assertTrue(self.attr2Name in names) self.assertTrue(self.attr3Name in names) self.assertEqual(len(types), 2) async def init_for_clear_contents(self): # attributes 3 _ = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) _ = self.bundle1.create_attribute(self.attr2Name, self.attr2Type) _ = self.bundle1.create_attribute(self.attr3Name, self.attr3Type) # children 2 _ = self.bundle1.create_child_bundle(self.bundle2Name) _ = self.bundle1.create_child_bundle(self.bundle3Name) # bundle metadata 4 self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.bundle1.create_bundle_metadata(self.attr3Name, self.attr3Type) self.bundle1.create_bundle_metadata(self.attr4Name, self.attr4Type) # attr1 metadata 2 self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr4Name, self.attr4Type) # attr2 metadata 1 self.bundle1.create_attribute_metadata(self.attr2Name, self.attr4Name, self.attr4Type) async def test_clear_contents(self): await self.init_for_clear_contents() self.assertEqual(self.bundle1.get_bundle_metadata_count(), 4) # metadata is not destroyed by default self.bundle1.clear_contents() # confirm bundle is clear self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) # metadata IS destroyed by default self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr2Name), 0) self.assertTrue(self.bundle1.valid) async def test_clear_contents_bundle_metadata(self): await self.init_for_clear_contents() self.assertEqual(self.bundle1.get_bundle_metadata_count(), 4) self.bundle1.clear_contents(bundle_metadata=True) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) async def test_clear_contents_attributes(self): await self.init_for_clear_contents() self.assertEqual(self.bundle1.get_attribute_count(), 3) self.bundle1.clear_contents(attributes=False) self.assertEqual(self.bundle1.get_attribute_count(), 3) async def test_clear_contents_child_bundles(self): await self.init_for_clear_contents() self.assertEqual(self.bundle1.get_child_bundle_count(), 2) self.bundle1.clear_contents(child_bundles=False) self.assertEqual(self.bundle1.get_child_bundle_count(), 2) class TestBundleFactoryInterface(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" def test_bundle_conversion_method(self): """The factory used to allow the conversion from old Py_Bundle to new I(Const)Bundle interface. Depending on writability of Py_Bundle, IConstBundle2 or IBundle2 was returned. When Py_Bundle was removed backwards compatibility conversion methods were kept. As reported in OM-84762 factory fails to pass through IBundle2, and converts IBundle2 to IConstBundle2. Eventually this test should be removed in next release when get_bundle conversion method is hard deprecated. """ bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) bundle2 = self.factory.get_bundle(bundle1.get_context(), bundle1) self.assertTrue(isinstance(bundle2, og.IBundle2))	38,021	Python	44.426523	116	0.683122
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_attribute_data_access.py	import omni.graph.core as og import omni.graph.core.tests as ogt class TestBundleAttributeAccess(ogt.OmniGraphTestCase): async def setUp(self): await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.bundle1Name = "bundle1" self.rwBundle = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.rwBundle.valid) self.attr1Name = "attr1" self.tupleType = og.Type(og.BaseDataType.INT, 2, 0) self.arrayType = og.Type(og.BaseDataType.INT, 1, 1) self.arrayTupleType = og.Type(og.BaseDataType.INT, 2, 1) async def test_tuple_write_permissions(self): attr = self.rwBundle.create_attribute(self.attr1Name, self.tupleType) with self.assertRaises(ValueError): data = attr.as_read_only().get() data[0] = 42 # writing to data will throw data = attr.get() data[0] = 42 # writing to data will not throw async def test_array_type_write_permissions(self): attr = self.rwBundle.create_attribute(self.attr1Name, self.arrayType) # GPU = False, Write = True # calling get_array will throw with self.assertRaises(ValueError): attr.as_read_only().get_array(False, True, 10) # GPU = False, Write = False # calling get_array will not throw attr.as_read_only().get_array(False, False, 10) async def test_array_of_tuple_write_permissions(self): attr = self.rwBundle.create_attribute(self.attr1Name, self.arrayTupleType) # GPU = False, Write = True # calling get_array will throw with self.assertRaises(ValueError): attr.as_read_only().get_array(False, True, 10) # GPU = False, Write = False # calling get_array will not throw attr.get_array(False, False, 10)	2,035	Python	36.018181	82	0.642752
omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_data_wrapper.py	"""Suite of tests to exercise the DataWrapper class as a unit.""" import omni.graph.core as og import omni.kit.test # The test needs some non-standard imports to do its thing from omni.graph.core._impl.dtypes import ( Bool, BundleOutput, Double, Double2, Double3, Double4, Float, Float2, Float3, Float4, Half, Half2, Half3, Half4, Int, Int2, Int3, Int4, Int64, Matrix2d, Matrix3d, Matrix4d, Token, UChar, UInt, UInt64, ) class TestDataWrapper(omni.kit.test.AsyncTestCase): """Wrapper for unit tests for the og.DataWrapper class""" # ---------------------------------------------------------------------- async def test_data_wrapper_creation(self): """Test creation of the DataWrapper from the raw og.Type""" # Test data that enumerates all of the OGN types. Values of the list entries are: # OGN type name # Expected dtype # Expected shape for non-gathered attributes # Expected shape for gathered attributes test_data = [ ("any", Token, None, (2,)), ("bool", Bool, None, (2,)), ("bool[]", Bool, (0,), ((2, 2))), ("bundle", BundleOutput, None, (2,)), ("colord[3]", Double3, (3,), ((2,), 3)), ("colord[3][]", Double3, (0, 3), (((2, 2)), 3)), ("colord[4]", Double4, (4,), ((2,), 4)), ("colord[4][]", Double4, (0, 4), ((2, 2), 4)), ("colorf[3]", Float3, (3,), ((2,), 3)), ("colorf[3][]", Float3, (0, 3), ((2, 2), 3)), ("colorf[4]", Float4, (4,), ((2,), 4)), ("colorf[4][]", Float4, (0, 4), ((2, 2), 4)), ("colorh[3]", Half3, (3,), ((2,), 3)), ("colorh[3][]", Half3, (0, 3), ((2, 2), 3)), ("colorh[4]", Half4, (4,), ((2,), 4)), ("colorh[4][]", Half4, (0, 4), ((2, 2), 4)), ("double", Double, None, (2,)), ("double[]", Double, (0,), ((2, 2))), ("double[2]", Double2, (2,), ((2,), 2)), ("double[2][]", Double2, (0, 2), ((2, 2), 2)), ("double[3]", Double3, (3,), ((2,), 3)), ("double[3][]", Double3, (0, 3), ((2, 2), 3)), ("double[4]", Double4, (4,), ((2,), 4)), ("double[4][]", Double4, (0, 4), ((2, 2), 4)), ("execution", UInt, None, (2,)), ("float", Float, None, (2,)), ("float[]", Float, (0,), ((2, 2))), ("float[2]", Float2, (2,), ((2,), 2)), ("float[2][]", Float2, (0, 2), ((2, 2), 2)), ("float[3]", Float3, (3,), ((2,), 3)), ("float[3][]", Float3, (0, 3), ((2, 2), 3)), ("float[4]", Float4, (4,), ((2,), 4)), ("float[4][]", Float4, (0, 4), ((2, 2), 4)), ("frame[4]", Matrix4d, (4, 4), ((2,), 4, 4)), ("frame[4][]", Matrix4d, (0, 4, 4), ((2, 2), 4, 4)), ("half", Half, None, (2,)), ("half[]", Half, (0,), ((2, 2))), ("half[2]", Half2, (2,), ((2,), 2)), ("half[2][]", Half2, (0, 2), ((2, 2), 2)), ("half[3]", Half3, (3,), ((2,), 3)), ("half[3][]", Half3, (0, 3), ((2, 2), 3)), ("half[4]", Half4, (4,), ((2,), 4)), ("half[4][]", Half4, (0, 4), ((2, 2), 4)), ("int", Int, None, (2,)), ("int[]", Int, (0,), ((2, 2))), ("int[2]", Int2, (2,), ((2,), 2)), ("int[2][]", Int2, (0, 2), ((2, 2), 2)), ("int[3]", Int3, (3,), ((2,), 3)), ("int[3][]", Int3, (0, 3), ((2, 2), 3)), ("int[4]", Int4, (4,), ((2,), 4)), ("int[4][]", Int4, (0, 4), ((2, 2), 4)), ("int64", Int64, None, (2,)), ("int64[]", Int64, (0,), ((2, 2))), ("matrixd[2]", Matrix2d, (2, 2), ((2,), 2, 2)), ("matrixd[2][]", Matrix2d, (0, 2, 2), ((2, 2), 2, 2)), ("matrixd[3]", Matrix3d, (3, 3), ((2,), 3, 3)), ("matrixd[3][]", Matrix3d, (0, 3, 3), ((2, 2), 3, 3)), ("matrixd[4]", Matrix4d, (4, 4), ((2,), 4, 4)), ("matrixd[4][]", Matrix4d, (0, 4, 4), ((2, 2), 4, 4)), ("normald[3]", Double3, (3,), ((2,), 3)), ("normald[3][]", Double3, (0, 3), (((2, 2)), 3)), ("normalf[3]", Float3, (3,), ((2,), 3)), ("normalf[3][]", Float3, (0, 3), ((2, 2), 3)), ("normalh[3]", Half3, (3,), ((2,), 3)), ("normalh[3][]", Half3, (0, 3), ((2, 2), 3)), ("objectId", UInt64, None, (2,)), ("objectId[]", UInt64, (0,), ((2, 2))), ("pointd[3]", Double3, (3,), ((2,), 3)), ("pointd[3][]", Double3, (0, 3), (((2, 2)), 3)), ("pointf[3]", Float3, (3,), ((2,), 3)), ("pointf[3][]", Float3, (0, 3), ((2, 2), 3)), ("pointh[3]", Half3, (3,), ((2,), 3)), ("pointh[3][]", Half3, (0, 3), ((2, 2), 3)), ("quatd[4]", Double4, (4,), ((2,), 4)), ("quatd[4][]", Double4, (0, 4), (((2, 2)), 4)), ("quatf[4]", Float4, (4,), ((2,), 4)), ("quatf[4][]", Float4, (0, 4), ((2, 2), 4)), ("quath[4]", Half4, (4,), ((2,), 4)), ("quath[4][]", Half4, (0, 4), ((2, 2), 4)), ("string", UChar, (0,), ((2, 2))), ("target", BundleOutput, None, (2,)), ("texcoordd[2]", Double2, (2,), ((2,), 2)), ("texcoordd[2][]", Double2, (0, 2), (((2, 2)), 2)), ("texcoordd[3]", Double3, (3,), ((2,), 3)), ("texcoordd[3][]", Double3, (0, 3), ((2, 2), 3)), ("texcoordf[2]", Float2, (2,), ((2,), 2)), ("texcoordf[2][]", Float2, (0, 2), ((2, 2), 2)), ("texcoordf[3]", Float3, (3,), ((2,), 3)), ("texcoordf[3][]", Float3, (0, 3), ((2, 2), 3)), ("texcoordh[2]", Half2, (2,), ((2,), 2)), ("texcoordh[2][]", Half2, (0, 2), ((2, 2), 2)), ("texcoordh[3]", Half3, (3,), ((2,), 3)), ("texcoordh[3][]", Half3, (0, 3), ((2, 2), 3)), ("timecode", Double, None, (2,)), ("timecode[]", Double, (0,), ((2, 2))), ("token", Token, None, (2,)), ("token[]", Token, (0,), ((2, 2))), ("uchar", UChar, None, (2,)), ("uchar[]", UChar, (0,), ((2, 2))), ("uint", UInt, None, (2,)), ("uint[]", UInt, (0,), ((2, 2))), ("uint64", UInt64, None, (2,)), ("uint64[]", UInt64, (0,), ((2, 2))), ("vectord[3]", Double3, (3,), ((2,), 3)), ("vectord[3][]", Double3, (0, 3), (((2, 2)), 3)), ("vectorf[3]", Float3, (3,), ((2,), 3)), ("vectorf[3][]", Float3, (0, 3), ((2, 2), 3)), ("vectorh[3]", Half3, (3,), ((2,), 3)), ("vectorh[3][]", Half3, (0, 3), ((2, 2), 3)), ] for name, expected_dtype, expected_ungathered_shape, expected_gathered_shape in test_data: attribute_type = og.AttributeType.type_from_ogn_type_name(name) ungathered_dtype, ungathered_shape = og.data_shape_from_type(attribute_type, is_gathered=False) gathered_dtype, gathered_shape = og.data_shape_from_type(attribute_type, is_gathered=True) self.assertEqual(ungathered_dtype.__class__, expected_dtype, f"Mismatched type for {name}") self.assertEqual(ungathered_shape, expected_ungathered_shape, f"Mismatched shape for {name}") self.assertEqual(ungathered_dtype, gathered_dtype, f"Mismatched gathered type for {name}") self.assertEqual(gathered_shape, expected_gathered_shape, f"Mismatched gathered shape for {name}") # ---------------------------------------------------------------------- async def test_data_wrapper_indexing(self): """Test indexing of the DataWrapper for all of the documented supported types""" # Test data drives all of the test cases for expected index results. The data is a list of test # configurations consisting of: # Dtype of the parent wrapper # Shape of the parent wrapper # Index to be be taken to get the child # Expected Dtype of the child wrapper (None means to expect an exception raised) # Expected shape of the child wrapper # Expected memory location offset of the child at index 1 from the parent test_data = [ [Float, None, 1, None, None, 0], # Single value [Float, (3,), 1, Float, None, Float.size], # Array of 3 simple values [Float3, (3,), 1, Float, None, Float.size], # Tuple of 3 simple values [Float3, (2, 3), 1, Float3, (3,), Float3.size], # Array of 2 triple values [Matrix2d, (2, 2), 1, Double2, (2,), Double2.size], # A 2x2 matrix [Matrix2d, (3, 2, 2), 1, Matrix2d, (2, 2), Matrix2d.size], # An array of 3 2x2 matrixes [Float3, (3,), -1, None, None, 0], # Index too low [Float3, (3, 3), -1, None, None, 0], [Float3, ((3,), 3), -1, None, None, 0], [Float3, ((3, 4), 3), -1, None, None, 0], [Float, (3,), -1, None, None, 0], [Float, ((3,), 3), -1, None, None, 0], [Float, ((3, 4), 3), -1, None, None, 0], [Matrix2d, (2, 2), -1, None, None, 0], [Matrix2d, (3, 2, 2), -1, None, None, 0], [Matrix2d, ((3,), 2, 2), -1, None, None, 0], [Matrix2d, ((3, 4), 2, 2), -1, None, None, 0], [Float3, (3,), 4, None, None, 0], # Index too high [Float3, (3, 3), 4, None, None, 0], [Float3, ((3,), 3), 4, None, None, 0], [Float3, ((3, 4), 3), 4, None, None, 0], [Float, (3,), 4, None, None, 0], [Float, ((3,), 3), 4, None, None, 0], [Float, ((3, 4), 3), 4, None, None, 0], [Matrix2d, (2, 2), 4, None, None, 0], [Matrix2d, (3, 2, 2), 4, None, None, 0], [Matrix2d, ((3,), 2, 2), 4, None, None, 0], [Matrix2d, ((3, 4), 2, 2), 4, None, None, 0], [Float, (3, 3), 1, None, None, 0], # Too many levels of array [Float4, (3,), 1, None, None, 0], # Mismatched shape size for tuple [Float4, (3, 3), 1, None, None, 0], # Mismatched shape size for tuple array [Matrix2d, (3, 3), 1, None, None, 0], # Mismatched shape size for matrix [Matrix2d, (2, 3, 3), 1, None, None, 0], # Mismatched shape size for matrix array ] for parent_dtype, parent_shape, child_index, child_dtype, child_shape, child_offset in test_data: if child_dtype is None: with self.assertRaises(ValueError): parent_wrapper = og.DataWrapper(0, parent_dtype, parent_shape, og.Device.cuda) _ = parent_wrapper[child_index] else: parent_wrapper = og.DataWrapper(0, parent_dtype, parent_shape, og.Device.cuda) child_wrapper = parent_wrapper[child_index] self.assertEqual(child_wrapper.dtype.tuple_count, child_dtype.tuple_count) self.assertEqual(child_wrapper.dtype.base_type, child_dtype.base_type) self.assertEqual(child_wrapper.shape, child_shape) self.assertEqual(child_wrapper.memory, child_offset)	11,393	Python	48.53913	110	0.43202
omniverse-code/kit/exts/omni.graph/docs/testing.rst	.. _set_up_omnigraph_tests: Set Up OmniGraph Tests ====================== Much of the testing for a node can be set up through the .ogn file's :ref:`test section<ogn_defining_automatic_tests>`, however there are a number of situations that require more detailed setup or more flexible checking than the automatically generated tests can provide. For such tests you will want to hook into Kit's testing system. Some examples of these situations are when you need to check for attributes that are one-of a set of allowed results rather than a fixed value, where you need to check node or attribute information that is more than just the current value, where you need to call utility scripts to set up desired configurations, or when your results depend on some external condition such as the graph state. Described here are some best practices for writing such tests. This is only meant to describe setting up Python regression tests that use the Kit extensions to the Python `unittest` modeule. It is not meant to describe setting up C++ unit tests. .. note:: For clarity a lot of recommended coding practices, like adding docstrings to all classes, functions, and modules, or checking for unexpected exceptions in order to provide better error messages, are not followed. Please do use them when you write your actual tests though. Locating The Tests ------------------ The Kit extension system uses an automatic module recognition algorithm to detect directories in which test cases may be found. In particular it looks for .tests submodules. So if your Python module is named `omni.graph.foo` it will check the contents of the module `omni.graph.foo.tests`, if it exists, and attempt to find files containing classes derived from `unittest.TestCase`, or the Kit version `omni.kit.test.AsyncTestCase`. The usual way of structuring extensions provides a directory structure that looks like this: .. code-block:: text omni.graph.foo/ python/ tests/ test_some_stuff.py The tests/ subdirectory would be linked into the build using these lines in your premake5.lua file inside the python project definition: .. code-block:: lua add_files("python/tests", "python/tests/.py") repo_build.prebuild_link { { "python/tests", ogn.python_tests_target_path }, } This creates a link that creates a .tests* submodule for your extension. The files containing tests should all begin with the prefix test_. Creating A Test Class --------------------- OmniGraph tests have some shared setUp and tearDown operations so the easiest way to set up your test class is to have it derive from the derived test case class that implements them: .. code-block:: python import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCase): pass This will ensure your tests are part of the Kit regression test system. The parent class will define some temporary settings as required by OmniGraph, and will clear the scene when the test is done so as not to influence the results of the test after it (barring any other side effects the test itself causes of course). .. tip:: Although the name of the class is not significant it's helpful to prefix it with Tests to make it easy to identify. Specialized SetUp And TearDown ++++++++++++++++++++++++++++++ If you have some other setUp or tearDown functions you wish to perform you do it in the usual Pythonic manner: .. code:: python import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCase): async def setUp(self): await super().setUp() do_my_setup() async def tearDown(self): do_my_teardown() await super().tearDown() .. note:: The tests are async so both they and the setUp/tearDown will be "awaited" when running. This was done to facilitate easier access to some of the Kit async functions, though normally you want to ensure your test steps run sequentially. Adding Tests ++++++++++++ Tests are added in the usual way for the Python `unittest` framework, by creating a function with the prefix test_. As the tests are all awaited your functions should be async. .. code:: python import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCase): async def setUp(self): await super().setUp() do_my_setup() async def tearDown(self): do_my_teardown() await super().tearDown() async def test1(self): self.assertTrue(run_first_test()) async def test2(self): self.assertTrue(run_second_test()) How you divide your test bodies is up to you. You'll want to balance the slower performance of repetitive setup against the isolation of specific test conditions. Your best friend in setting up test conditions is the :ref:`og.Controller<howto_omnigraph_controller>` class. It provides a lot of what you will need for setting up and inspecting your graph, nodes, and attributes. Here is a simple example that will create an add node with one constant input, and one input supplied from another node that will test to make sure that results are correct over a set of inputs. It uses several concepts from the controller to illustrate its use. .. code-block:: python import omni.graph.core as og import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCase): async def test_add(self): keys = og.Controller.Keys (graph, nodes, _, _) = og.Controller.edit("/TestGraph", { keys.CREATE_NODES: [ ("Add", "omni.graph.nodes.Add"), ("ConstInt", "omni.graph.nodes.ConstantInt"), ], keys.CONNECT: ("ConstInt.inputs:value", "Add.inputs:a"), keys.SET_VALUES: [("ConstInt.inputs:value", 3), ("Add.inputs:b", {"type": "int", "value": 1})] }) # Get controllers attached to the attributes since they will be accessed in a loop b_view = og.Controller(attribute=og.Controller.attribute("inputs:b", nodes[0])) sum_view = og.Controller(attribute=og.Controller.attribute("outputs:sum", nodes[0])) # Test configurations are pairs of (input_b_value, output_sum_expected) test_configurations = [ ({"type": "int", "value": 1}, 4), ({"type": "int", "value": -3}, 0), ({"type": "int", "value": 1000000}, 1000003), ] for b_value, sum_expected in test_configurations: b_view.set(b_value) # Before checking computed values you must ensure the graph has evaluated await og.Controller.evaluate(graph) self.assertAlmostEqual(sum_expected, sum_view.get()) Expected Errors +++++++++++++++ When writing tests, it can be desirable to test error conditions. However, this may cause errors to be displayed to the console, which can cause tests to fail when running in batch mode. One way to have the testing system ignore these errors is to prepend a additional text to the error line. .. code-block:: python # write to the console, skipping the newline to prepend the expected error message print("[Ignore this error/warning] ", end ="") self.assertFalse(self.function_that_causes_error()) Then, in your packages extensions.toml file, tell the test system to ignore error output when the prepended output occurs. .. code-block:: rst [[test]] stdoutFailPatterns.exclude = [ # Exclude messages which say they should be ignored "Ignore this error/warning", ] This allows for the test to specify which errors should be ignored without ignoring all errors with the same output in the entire package, or by disabling all error checking from your test class. Executing Your Tests -------------------- Now that your tests are visible to Kit they will be automatically run by TeamCity. To run them yourself locally you have two options. Batch Running Tests +++++++++++++++++++ All tests registered in the manner described above will be added to a batch file that runs all tests in your extension. You can find this file at $BUILD/tests-omni.graph.foo.{bat\|sh}. Executing this file will run your tests in a minimal Kit configuration. (It basically loads your extension and all dependent extensions, including the test manager.) Look up the documentation on ``omni.kit.test`` for more information on how the tests can be configured. Test Runner +++++++++++ Kit's Test Runner window is a handy way to interactively run one or more of your tests at a finer granularity through a UI. By default none of the tests are added to the window, however, so you must add a line like this to your user configuration file, usually in ~/Documents/Kit/shared/user.toml, to specify which tests it should load: .. code-block:: toml exts."omni.kit.test".includeTests = ["omni.graph.foo.*"] Debugging Your Tests -------------------- Whether you're tracking down a bug or engaging in test-driven-development eventually you will end up in a situation where you need to debug your tests. One of the best tools is to use the script editor and the UI in Kit to inspect and manipulate your test scene. While the normal OmniGraph test case class deletes the scene at the end of the test you can make a temporary change to instead use a variation of the test case that does not do that, so that you can examine the failing scene. .. code-block:: python :emphasize-lines: 3 import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCaseNoClear): pass Running Test Batch Files With Attached Debuggers ++++++++++++++++++++++++++++++++++++++++++++++++ You're probably familiar with the debugging extensions ``omni.kit.debug.python`` and ``omni.kit.debug.vscode``, with which you can attach debuggers to running versions of Kit. If you are running the test batch file, however, you have to ensure that these extensions are running as part of the test environment. To do so you just need to add these flags to your invocation of the test ``.bat`` file: .. code-block:: bash $BUILD/tests-omni.graph.foo.bat --enable omni.kit.debug.vscode --enable omni.kit.debug.python This will enable the extra extensions required to attach the debuggers while the test scripts are running. Of course you still have to manually attach them from your IDE in the same way you usually do. .. note:: As of this writing you might see two ``kit.exe`` processes when attaching a C++ debugger to a test script. The safest thing to do is attach to both of them. The .bat files also support the flag ``-d`` flag to wait for the debugger to attach before executing. If you're running a debug cut this probably won't be necessary as the startup time is ample for attaching a debugger.	10,992	reStructuredText	40.018657	121	0.702966
omniverse-code/kit/exts/omni.graph/docs/runtimeInitialize.rst	.. _runtime_attribute_value_initialization_in_omnigraph_nodes: Runtime Attribute Value Initialization In OmniGraph Nodes ========================================================= Normally you will specify attribute default values in your .ogn files and the attributes will be given those values when the node is created. Occasionally, you may wish to provide different default values for your attributes based on some condition that can only be ascertained at runtime. This document describes the current best-practice for achieving that goal, in both C++ and Python nodes. As of this writing the database cannot be accessed during the node's initialize() method, so providing new values in there will not work. (If in the future that changes this document will be updated to explain how to use it instead.) In fact, the only time the data is guaranteed to be available to use or set is in the node's compute() method, so that will be used to set up a delayed initialization of attribute values. The general approach to this initialization will be to use a boolean state value in the node to determine whether the attribute or attributes have been given their initial values or not when the compute() method is called. It's also possible that the attribute would have been given a value directly so that also must be considered when managing the boolean state value. For these examples this node definition will be used: .. code-block:: json { "RandomInt": { "version": 1, "description": "Holds an integer with a random integer number.", "outputs": { "number": { "description": "The random integer", "type": "int" } }, "state": { "$comment": "This section exists solely to inform the scheduler that there is internal state information." } } } .. note:: For the Python node assume the addition of the line `"language": "python"`. Initializing Values In C++ Nodes -------------------------------- In the :ref:`internal state tutorial<ogn_tutorial_state>` you can see that the way to add state information to a C++ node is to make some class members. We'll add a boolean class member to tell us if the node is initialized or not, and check it in the compute() method. .. code-block:: cpp #include <OgnRandomIntDatabase.h> #include <cstdlib> class OgnRandomInt { bool m_initialized{ false }; // State information the tells if the attribute value has been initialized yet public: static bool compute(OgnRandomIntDatabase& db) { auto& state = db.internalState<OgnRandomInt>(); if (! state.m_initialized) { db.outputs.number() = std::rand(); state.m_initialized = true; } // Normally you would have other things to do as part of the compute as well... return true; } }; REGISTER_OGN_NODE() If you know your attribute will never be set from the outside then that is sufficient, however usually there is no guarantee that some script or UI has not set the attribute value. Fortunately the node can monitor that using the registerValueChangedCallback() ABI function on the attribute. It can be set up in the node's initialize() method. Putting this in with the above code you get this: .. code-block:: cpp #include <OgnRandomIntDatabase.h> #include <cstdlib> class OgnRandomInt { bool m_initialized{ false }; // State information the tells if the attribute value has been initialized yet static void attributeChanged(const AttributeObj& attr, const void) { auto& state = OgnRandomIntDatabase::sInternalState<OgnRandomInt>(attr.iAttribute->getNode(attr)); state.m_initialized = true; } public: static bool compute(OgnRandomIntDatabase& db) { auto& state = db.internalState<OgnRandomInt>(); if (! state.m_initialized) { db.outputs.number() = std::rand(); state.m_initialized = true; } // Normally you would have other things to do as part of the compute as well... return true; } static void initialize(const GraphContextObj&, const NodeObj& nodeObj) { AttributeObj attrObj = nodeObj.iNode->getAttributeByToken(nodeObj, outputs::number.m_token); attrObj.iAttribute->registerValueChangedCallback(attrObj, attributeChanged, true); } }; REGISTER_OGN_NODE() Initializing Values In Python Nodes ----------------------------------- In the :ref:`internal state tutorial<ogn_tutorial_state_py>` you can see that the way to add state information to a Python node is to create a static internal_state* method. We'll create a simple class with a boolean class member to tell us if the node is initialized or not, and check it in the compute() method. .. code-block:: python from dataclasses import dataclass from random import randint class OgnRandomInt: @dataclass class State: initialized: bool = False @staticmethod def internal_state() -> State: return OgnRandomInt.State() @staticmethod def compute(db) -> bool: if not db.internal_state.initialized: db.outputs.number = randint(-0x7fffffff, 0x7fffffff) db.internal_state.initialized = True # Normally you would have other things to do as part of the compute as well... return True If you know your attribute will never be set from the outside then that is sufficient. Unfortunately the Python API does not yet have a method of getting a callback when an attribute value has changed so for now this is all you can do.	5,974	reStructuredText	37.798701	122	0.652996
omniverse-code/kit/exts/omni.graph/docs/autonode.rst	.. _autonode_ref: AutoNode - Autogenerating Nodes From Code ================================================================================ This is a description of the automated node generator for python code in OmniGraph. It turns this: .. code-block:: python import omni.graph.core as og @og.AutoFunc(pure=True) def dot(vec1: og.Float3, vec2: og.Float3) -> float: return vec1[0] * vec2[0] + vec1[1] * vec2[1] + vec1[2] * vec2[2] Into this: .. image:: images/dot.png What it Does -------------------------------------------------------------------------------- AutoNode allows developers to create OmniGraph nodes from any of the following: * Free functions (see `AutoFunc`_) * Python classes and class instances - AutoNode also scans classes and generates getters and setters (see `AutoClass`_ and `Passing Python Types in AutoNode`_ ). * CPython and Pybind types - see `Annotations: Overriding CPython Types`_. * OmniGraph types (see `Supported Types`_ ) * Container types (see `Bundles`_) * Events, Enums and other special types. This process will generate both the OGN description of the node and its attributes, and the implementation of the node compute function in Python. How it Works -------------------------------------------------------------------------------- AutoNode generates node signatures by extracting type annotations stored in functions and variables. In order for nodes to be generated, type annotations must be available to the decorator at initialization time. For most developers, this means using `type annotations <https://docs.python.org/3/library/typing.html>`_ for python 3, like in the example above. Under the hood, annotation extraction is done with the python ``__annotations__`` ( `PEP 3107 <https://www.python.org/dev/peps/pep-3107/>`_ ) dictionary in every class. .. note:: While the API will remain relatively stable, there is no current guarantee that the backend will not be changed. Some implementation details are captured in `Implementation Details`_, purely for reference. API Details -------------------------------------------------------------------------------- Decorators ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ``omni.graph.core`` currently exposes these autogeneration functions: ``AutoFunc()``, ``AutoClass()``. Both these functions can be used as decorators or as free function calls: .. code-block:: python import omni.graph.core as og #this is convenient @og.AutoFunc() def say_hi() -> str: return "hi, everybody!" def say_hello() -> str: return "Hello, World!" # but this does virtually the same thing og.AutoFunc()(say_hello) ``AutoFunc`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Here's an example of wrapping a free function: .. code-block:: python import omni.graph.core as og @og.AutoFunc() def one_up(input : int = 0) -> str: """this documentation will appear in the node's help""" return f"one up! {input + 1}" Note: The type annotations really matter. Without them, AutoNode can't define node inputs and outputs. You can create multiple returns by making your return type a `typing.Tuple`: .. code-block:: python import omni.graph.core as og from typing import Tuple @og.AutoFunc() def break_vector(input : og.Float3) -> Tuple[og.Float, og.Float, og.Float] return (input[0], input[1], input[2]) ``AutoClass`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ This exposes entire classes to OGN. Here are the rules of evaluation: * Private properties and methods (starting with ``_``) will not be exposed * Public properties exposed will attempt to find a type annotation using ``__annotations__`` and will default to the inferred type. ``None`` types will be ignored. * Public methods will be associated with the class type, and will not attempt to find a type for ``self``. * Bound methods in classes (methods with an immutable ``__self__`` reference) will be stored for representation, but the actual method to be called will come from the specific instance that's being applied for this. For instance - if class ``A`` was decorated with ``AutoClass``, and it contained a method ``A.Method(self, arg: int)->str``, with ``__self__`` stored in the method ("bound method"), then when a class ``B`` with an overriding method gets called on this node, the node will search for inside ``B.Method`` and call it instead. Here is a simple case of wrapping a class: .. code-block:: python import omni.graph.core as og @og.AutoClass(module_name="AutoNodeDemo") class TestClass: #this will not generate getters and setters _private_var = 42 #this will generate getters and setters, and will make them of type ``float`` public_var: float = 3.141 # initializers are private methods and will not be exposed by the decorator def __init__(self): pass def public_method(self, exponent: float) -> float: """this method will be exposed into OmniGraph, along with its' documentation here. The function signature is necessary on every argument except for ``self``, which is implied.""" return self.public_var ** exponent This results in the following menu and implementation: .. image:: images/Autoclass01.png .. image:: images/Autoclass02.png Note that getters and setters take in a ``target`` variable. This allows users to pass in a reference to an existing class. See `Passing Python Types in AutoNode`_ for more details. Decorator Parameters ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ``pure`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Boolean. Setting ``@og.AutoFunc(pure=True)`` will generate a method that can be used in a push or execute context, without an execution input or output. ``AutoFunc`` only. For example, these two functions: .. code-block:: python import omni.graph.core as og @og.AutoFunc(pure=True) def dot(vec1: og.Float3, vec2: og.Float3) -> float: return vec1[0] * vec2[0] + vec1[1] * vec2[1] + vec1[2] * vec2[2] @og.AutoFunc() def exec_dot(vec1: og.Float3, vec2: og.Float3) -> float: return vec1[0] * vec2[0] + vec1[1] * vec2[1] + vec1[2] * vec2[2] Will generate these nodes: .. image:: images/pure.png ``module_name`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Specifies where the node will be registered. This affects UI menus and node spawning by name. For example, setting .. code-block:: python import omni.graph.core as og import MyModule @og.AutoFunc(module_name="test_module") def add_one(input: int) -> int: return input + 1 og.AutoClass(module_name="test_module")(MyModule.TestClass) Will result in a UI displaying access to this node from ``test_module`` ``ui_name`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Specifies the onscreen name of the function. ``AutoFunc`` only. ``annotation`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ See `Annotations: Overriding CPython Types`_. ``tags`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Array of text tags to be added to the node. ``metadata`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Other metadata to pass through AutoNode, such as icon information. Supported Types -------------------------------------------------------------------------------- Currently, this is the list of types supported by AutoNode: .. code-block:: python import omni.graph.core as og # Generic Vectors [og.Vector3d, og.Vector3h, og.Vector3f] # Scalar and Vector types [og.Float, og.Float2, og.Float3, og.Float4] [og.Half, og.Half2, og.Half3, og.Half4] [og.Double, og.Double2, og.Double3, og.Double4] [og.Int, og.Int2, og.Int3, og.Int4] # Matrix Types [og.Matrix2d, og.Matrix3d, og.Matrix4d] # Vector Types with roles [og.Normal3d, og.Normal3f, og.Normal3h] [og.Point3d, og.Point3f, og.Point3h] [og.Quatd, og.Quatf, og.Quath] [og.TexCoord2d, og.TexCoord2f, og.TexCoord2h] [og.TexCoord3d, og.TexCoord3f, og.TexCoord3h] [og.Color3d, og.Color3f, og.Color3h, og.Color4d, og.Color4f, og.Color4h] # Specialty Types [og.Timecode, og.Uint, og.Uchar, og.Token] # Underspecified, but accepted types # str, int, float .. note:: Not all `python typing <https://docs.python.org/3/library/typing.html>`_ types are supported. .. _Bundles: ``Bundle`` Types : The Omniverse struct +++++++++++++++++++++++++++++++++++++++ Since most of Omniverse's computations require concrete numerical types - matrices, vectors, numbers with known precision - it makes sense to have a data structure to pass them in together - and to make that data structure GPU-friendly. ``Bundle`` serves that purpose - it's a lightweight data structure which contains information about the types it holds. ``Bundle`` can be passed around between nodes in OmniGraph without special handling. Here is one example: .. code-block:: python import omni.graph.core as og @og.AutoFunc(pure=True) def pack(v: og.Float3, c: og.Color3f) -> og.Bundle: bundle = og.Bundle("return", False) bundle.create_attribute("vec", og.Float3).value = v bundle.create_attribute("col", og.Color3f).value = c return bundle @og.AutoFunc(pure=True) def unpack_vector(bundle: og.Bundle) -> og.Float3: vec = bundle.attribute_by_name("vec") if vec: return vec.value return [0,0,0] Will yield this: .. image:: images/Bundle01.png Bundles aren't just useful as ways to easily pass data structures into the graph - they're also useful within python. Passing bundles between python methods is relatively cheap, and allows all users of the data to know the exact type and size it was used in. Furthermore, usage of bundles allows OmniGraph to move data to the GPU at will. Passing Python Types in AutoNode ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ While OmniGraph can only understand and manipulated the types listed above, any python type can be passed through OmniGraph by AutoNode. This is done by using a special type called ``objectId``, which is used by AutoNode to keep a reference (usually a hash, but that can change, see `Implementation Details`_) to the object being passed through OmniGraph. Any type in a method I/O that isn't recognized by AutoNode as supported by OmniGraph is automatically handled by AutoNode like this: 1. When a method signature has a type not recognized by AutoNode, AutoNode generates an ``objectId`` signature for that type in the node's ``ogn`` descriptor. 2. When a method outputs a object whose type is represented by an ``objectId`` in the output, AutoNode stores the object in a Temporary Object Store, a special runtime collection of python objects resident in OmniGraph memory. 3. When an input ``objectId`` is received by a method, the method requests the object from the Temporary Object Store. The object store is "read once" - after a single read, the object is deleted from the store. Every subsequent call will result in an error. Special Types ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ AutoNode adds special type handlers (see `Adding Type Handlers`_) to deal with how certain types are used in practice. Enums ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Type handlers which specialize enums are built for how enums are typically used: Switching on an Enum, like an event type. The switch class has one exec input and one enum input, and exec outputs to match the number of enum members: .. code-block:: python from enum import Enum @AutoClass() class DogType(Enum): SHIBA = 1 HUSKY = 2 SALUKI = 4 Results in: .. image:: images/Enum.png Events ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ TODO Annotations: Overriding CPython Types ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Sometimes, importing modules created in CPython is essential. Those modules may not have a ``__annotations__`` property, so we can create it for them. Suppose the codeblocks above were defined in CPython and didn't contain annotations. Here we create a shim for them: .. code-block:: python import omni.graph.core as og import MyModule # Note that we don't need a decorator call, since the function is being passed as an argument og.AutoFunc(annotation={ "input": int, "return": str })(MyModule.one_up) Similarly, for classes: .. code-block:: python import omni.graph.core as og import MyModule # Note that members only get a type annotation, but functions get the entire annotation. og.AutoClass( annotation={ "public_var" : float, "public_method": { "self": MyModule.TestClass, "exponent": float, "return": float} })(MyModule.TestClass) Customizing AutoNode -------------------------------------------------------------------------------- Adding Type Handlers ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Types going through ``AutoClass`` are highly customizable. By default, when a class is scanned, it is run through a series of custom handlers, each of type ``AutoNodeDefinitionGenerator``. This class implements this interface: .. code-block:: python import omni.graph.core as og # ================================================================================ class MyDefinitionGenerator(og.AutoNodeDefinitionGenerator): """Defines a property handler""" # Fill this with the type you wish to scan _name = "MyDefinition" # -------------------------------------------------------------------------------- @classmethod def generate_from_definitions(cls, new_type: type) -> Tuple[Iterable[og.AutoNodeDefinitionWrapper], Iterable[str]]: '''This method scans the type new_type and outputs an AutoNodeDefinitionWrapper from it, representing the type, as well as a list of members it wishes to hide from the rest of the node extraction process. Args: new_type: the type to analyze by attribute Returns: a tuple of: Iterable[AutoNodeDefinitionWrapper] - an iterable of AutoNodeDefinitionWrapper - every node wrapper that is generated from this type. Iterable[str] - an iterable of all members covered by this handler that other handlers should ignore. ''' pass The emitted ``AutoNodeDefinitionGenerator`` class has the following signature: .. code-block:: python import omni.graph.core as og class MyNodeDefinitionWrapper(og.AutoNodeDefinitionWrapper): """Container for a single node representation consumed by the Ogn code generator. Class is abstract and meant to be overridden. A sufficient implementation overrides these methods: * get_ogn(self) -> Dict * get_node_impl(self) * get_unique_name(self) -> str * get_module_name(self) -> str """ def __init__(self): super().__init__() # -------------------------------------------------------------------------------- def get_ogn(self) -> Dict: """Get the Ogn dictionary representation of the node interface. Overrides the AutoNodeDefinitionWrapper function of the same name. """ return {} # -------------------------------------------------------------------------------- def get_node_impl(self): """Returns the Ogn class implementing the node behavior. See the OmniGraph documentation on how to implement. A sufficient implementation contains a staticmethod with the function: compute(db) Overrides the AutoNodeDefinitionWrapper function of the same name. """ return None # -------------------------------------------------------------------------------- def get_unique_name(self) -> str: """Get nodes unique name, to be saved as an accessor in the node database. Overrides the AutoNodeDefinitionWrapper function of the same name. Returns: the nongled unique name """ return "" # -------------------------------------------------------------------------------- def get_module_name(self) -> str: """Get the module this AutoNode method was defined in. Overrides the AutoNodeDefinitionWrapper function of the same name. Returns: the module name """ return "" For more information on node implementations requires for ``get_node_impl``, read :ref:`ogn_tutorial_complexData_py`. Here is an example of creating an extension for ``enum`` types: .. code-block:: python from typing import Dict, OrderedDict, Tuple, Iterable import omni.graph.core as og # ================================================================================ class OgnEnumExecutionWrapper: # We use the __init_subclass__ mechanism to execute operations on a type def __init_subclass__(cls, target_class: type) -> None: # __members__ are the property required for identifying an enum cls.member_names = [name for name in target_class.__members__] cls.value_to_name = { getattr(target_class, name): name for name in target_class.__members__} # -------------------------------------------------------------------------------- @classmethod def compute(args): cls = args[0] db = args[1] # don't execute if there's no need if not db.inputs.exec: return True input = db.inputs.enum input_value = og.TypeRegistry.instance().refs.pop(input) name = cls.value_to_name.get(input_value.value, None) if name is not None: out = getattr(db.outputs.attributes, name) db.outputs.context_helper.set_attr_value(True, out) return True return False # ================================================================================ class OgnEnumWrapper(og.AutoNodeDefinitionWrapper): """Wrapper around Enums""" def __init__( self, target_class, unique_name: str, module_name: str, , ui_name: str = None): """Generate a definition from a parsed enum """ self.target_class = target_class self.unique_name = unique_name self.ui_name = ui_name or target_class.__name__ self.module_name = module_name # begin building the ogn descriptor self.descriptor: Dict = {} self.descriptor["uiName"] = ui_name self.descriptor["version"] = 1 self.descriptor["language"] = "Python" self.descriptor["description"] = f"Enum Wrapper for {self.ui_name}" self.descriptor["inputs"] = OrderedDict({ "enum": { "uiName": "Input", "description": "Enum input", "type": "uint64", "default": 0, "metadata": { "python_type_desc" : self.unique_name }}, "exec": { "uiName": "Exec", "description": "Execution input", "type": "execution", "default": 0 }}) def signature(name): return { "description": f"Execute on {name}", "type": "execution", "default": 0 } self.descriptor["outputs"] = OrderedDict({ name: signature(name) for name in self.target_class.__members__ }) # -------------------------------------------------------------------------------- def get_unique_name(self) -> str: """overloaded from AutoNodeDefinitionWrapper""" return self.unique_name # -------------------------------------------------------------------------------- def get_module_name(self) -> str: """overloaded from AutoNodeDefinitionWrapper""" return self.module_name # -------------------------------------------------------------------------------- def get_node_impl(self): """overloaded from AutoNodeDefinitionWrapper""" class OgnEnumReturnType( OgnEnumExecutionWrapper, target_class=self.target_class): pass return OgnEnumReturnType # -------------------------------------------------------------------------------- def get_ogn(self) -> Dict: """overloaded from AutoNodeDefinitionWrapper""" d = {self.unique_name: self.descriptor} return d # ================================================================================ class EnumAutoNodeDefinitionGenerator(og.AutoNodeDefinitionGenerator): _name = "Enum" # -------------------------------------------------------------------------------- @classmethod def generate_from_definitions( cls, target_type: type, type_name_sanitized: str, type_name_short: str, module_name: str) -> Tuple[Iterable[og.AutoNodeDefinitionWrapper], Iterable[str]]: members_covered = set() returned_generators = set() if hasattr(target_type, "__members__"): ret = OgnEnumWrapper( target_type, unique_name=type_name_sanitized, module_name=module_name, ui_name=f"Switch on {type_name_short}") members_covered.update(target_type.__members__) returned_generators.add(ret) return returned_generators, members_covered # ================================================================================ # submit this to AutoNode og.register_autonode_type_extension(og.EnumAutoNodeDefinitionGenerator) Implementation Details ------------------------------ This information is presented for debugging purposes. Do not rely on this information for your API. Name Mangling ++++++++++++++++++++++++++++++ To avoid name collisions between two nodes from different origins, OGN mangles names of functions. If you are only using the UI to access your nodes, this shouldn't interest you, but when accessing autogenerated nodes from code, the full node name is used. Mangling is done according to these rules: * Function specifiers have their ``.`` s replaced with ``__FUNC__`` as an infix, like: ``MyClass.Function -> MyClass__FUNC__Function`` * Property specifiers have their ``.`` s replaced with ``__PROP__`` as an infix, like: ``MyClass.Property -> MyClass__PROP__Property`` * Property getters and setters are suffixed as ``__GET`` and ``__SET``, like so: ``MyClass__PROP__Property__GET`` and ``MyClass__PROP__Property__SET`` * If any of those are nested inside another namespace will replace their separating dots with ``__NSP__`` Here is an example with conversions: .. code-block:: python import omni.graph.core as og @og.AutoClass(module_name="test_module") class TestClass: class TestSubclass: # TestClass__NSP__TestSubclass__PROP__public_var__GET # TestClass__NSP__TestSubclass__PROP__public_var__SET public_var: float = 3.141 # TestClass__FUNC__public_method def public_method(self, exponent: float) -> float: return self.public_var ** exponent This is done in order to spawn the node with code, like so: .. code-block:: python import omni.graph.core as og # This brings up `add_one` from the example above. path_01 = '/Test/MyNodes/AddOne' add_one = og.Controller.create_node(path_01, 'test_module.add_one') # This brings up `TestClass.public_method` from the example above. path_02 = '/Test/MyNodes/TestClassGetPublicMethod' public_method = og.Controller.create_node(path_02, 'test_module.TestClass__FUNC__public_method') path_03 = '/Test/MyNodes/TestClassGetPublicMethod' public_var_getter = og.Controller.create_node(path_03, 'test_module.TestClass__NSP__TestSubclass__PROP__public_var__GET')	25,343	reStructuredText	37.516717	539	0.568402
omniverse-code/kit/exts/omni.graph/docs/running_one_script.rst	.. _run_omnigraph_python_script: Running Minimal Kit With OmniGraph ================================== The Kit application at its core is a basic framework from plugging in extensions with a common communication method. We can take advantage of this to run a script that works with OmniGraph without pulling in the entire Kit overhead. Running With Python Support --------------------------- The most user-friendly approach to running a minimal version of Kit with OmniGraph is to make use of the `omni.graph` extension, which adds Python bindings and scripts to the OmniGraph core. Your extension must have a dependency on `omni.graph` using these lines in your `extension.toml` file: .. code-block:: toml [dependencies] "omni.graph" = {} Let's say your extension, `omni.my.extension`, has a single node type `MyNodeType` that when executed will take a directory path name as input and will print out the number of files and total file size of every file in that directory. This is a script that will set up and execute an OmniGraph that creates a node that will display that information for the Omniverse Cache directory. .. code-block:: Python import carb import omni.graph.core as og import omni.usd # This is needed to initialize the OmniGraph backing omni.usd.get_context().new_stage() # Get the cache directory to be examined cache_directory = carb.tokens.get_tokens_interface().resolve("${omni_cache}") # Create a graph with the node that will print out the cache directory contents _ = og.Controller.edit("/CacheGraph", { og.Controller.Keys.CREATE_NODES: ("MyNode", "omni.my.extension.MyNodeType"), og.Controller.Keys.SET_VALUES: ("MyNode.inputs:directory", cache_directory) }) # Evaluate the node to complete the operation og.Controller.evaluate_sync() If this script is saved in the file `showCache.py` then you run this from your Kit executable directory: .. code-block:: sh $ ./kit.exe --enable omni.my.extension --exec showCache.py C:/Kit/cache contained 123 files with a total size of 456,789 bytes .. note:: Running with only `omni.graph` enabled will work, but it is just a framework and has no nodes of its own to execute. That is why you must enable your own extension. You might also want to enable other extensions such as `omni.graph.nodes` or `omni.graph.action` if you want to access the standard set of OmniGraph nodes. Running With Just The Core -------------------------- If you have an extension that uses the C++ ABI to create and manipulate an OmniGraph you can run Kit with only your extension enabled, executing a script that will trigger the code you wish to execute. Your extension must have a dependency on `omni.graph.core` using these lines in your `extension.toml` file: .. code-block:: toml [dependencies] "omni.graph.core" = {} You can then run your own script `setUpOmniGraphAndEvaluate.py` that executes your C++ code to create and evaluate the graph in a way similar to the above, but using the C++ ABI, with the same command line: .. code-block:: sh $ ./kit.exe --enable omni.my.extension --exec setUpOmniGraphAndEvaluate.py	3,199	reStructuredText	39.506329	118	0.723038
omniverse-code/kit/exts/omni.graph/docs/controller.rst	.. _omnigraph_controller_class: OmniGraph Controller Class ========================== .. _howto_omnigraph_controller: The primary interface you can use for interacting with OmniGraph is the `Controller` class. It is in the main module so you can access it like this: .. code-block:: python import omni.graph.core as og keys = og.Controller.Keys controller = og.Controller() .. note:: For future examples these two lines will be assumed to be present. Structure --------- The `Controller` class is an amalgam of several other classes with specific subsets of functionality. It derives from each of them, so that all of their functionality can be accessed through the one `Controller` class. - GraphController handles operations that affect the structure of the graph - NodeController handles operations that affect individual nodes - ObjectLookup provides a generic set of interfaces for finding OmniGraph objects with a flexible set of inputs - DataView lets you get and set attribute values For the most part the controller functions can be accessed as static class members: .. code-block:: python og.Controller.edit("/World/MyGraph", {keys.CREATE_NODES: ("MyNode", "omni.graph.tutorials.SimpleData")}) og.Controller.edit("/World/MyGraph", {keys.SET_VALUES: ("/World/MyGraph/MyNode.inputs:a_bool", False)}) A second way to do it is to instantiate the controller so that the relative paths are all remembered: .. code-block:: python controller.edit("/World/MyGraph", {keys.CREATE_NODES: ("MyNode", "omni.graph.tutorials.SimpleData")}) controller.edit("/World/MyGraph", {keys.SET_VALUES: ("MyNode.inputs:a_bool", False)}) Or you can remember the return values of the first call yourself and reuse them: .. code-block:: python (graph, nodes, _, _) = og.Controller.edit("/World/MyGraph", {keys.CREATE_NODES: ("MyNode", "omni.graph.tutorials.SimpleData")}) og.Controller.edit(graph, {keys.SET_VALUES: (("inputs:a_bool", nodes[0]), False)) The exceptions are when using the :py:class:`omni.graph.core.DataView` functions, as that class requires an attribute in order to perform its operations. For those you can pass an `Attribute` or `AttributeValue` identifier to construct a controller that can handle those operations: .. code-block:: python controller = og.Controller(og.Controller.attribute("/World/MyGraph/MyNode.inputs:myInput")) print(f"My attribute value is {controller.get()}") .. literalinclude:: ../../../../source/extensions/omni.graph/python/_impl/controller.py :language: python :start-after: begin-controller-docs :end-before: end-controller-docs Controller Functions -------------------- In addition to the functions inherited from the other classes the `Controller` has a couple of key functions itself. There is a coroutine to evaluate one or more graphs: .. code-block:: python async def my_function(): await og.Controller.evaluate() The :py:meth:`evaluate()<omni.graph.core.Controller.evaluate>` method takes an optional parameter with a graph or list of graphs to be evaluated. By default it evaluates all graphs in the scene. If you want to evaluate but are not in a coroutine then you can use the synchronous version `evaluate_sync()` .. code-block:: python def my_normal_function(): og.Controller.evaluate_sync() The :py:meth:`evaluate_sync()<omni.graph.core.Controller.evaluate_sync>` method also takes an optional parameter with a graph or list of graphs to be evaluated. By default it evaluates all graphs in the scene. The workhorse of the controller class is the :py:meth:`edit()<omni.graph.core.Controller.edit>` method. It provides simple access to a lot of the underlying functionality for manipulating the contents of OmniGraph. It should be noted here that this method can be accessed as both a class method and an object method. The reason you would create an instance of a `Controller` object is if you wish to preserve the internal mapping of node names to instantiated node paths for future use. For example, this code sequence could be used to create a node and then set a value on one of its attributes: .. code-block:: python og.Controller.edit("/World/PushGraph", { og.Controller.Keys.CREATE_NODES: ("NewNode", "omni.graph.nodes.Add"), og.Controller.Keys.SET_VALUES: ("NewNode.inputs:a", {"type": "float", "value": 1.0}) } ) In this example the extended version of value setting is used, where both the type and value are provided so that the extended attribute type in `omni.graph.nodes.Add` can resolve its type. ObjectLookup ------------ This class contains the functions you will probably use the most. It provides an extremely flexible method for looking up OmniGraph objects from the information you have on hand. The specs it accepts as arguments can be seen in the :py:class:`class documentation<omni.graph.core.ObjectLookup>`. Here's a quick summary of the most useful methods on this class: - :py:meth:`graph()<omni.graph.core.ObjectLookup.graph>` gets an og.Graph object - :py:meth:`node()<omni.graph.core.ObjectLookup.node>` gets an og.Node object - :py:meth:`attribute()<omni.graph.core.ObjectLookup.attribute>` gets an og.Attribute object - :py:meth:`attribute_type()<omni.graph.core.ObjectLookup.attribute_type>` gets an og.Type object - :py:meth:`node_type()<omni.graph.core.ObjectLookup.node_type>` gets an og.NodeType object - :py:meth:`prim()<omni.graph.core.ObjectLookup.prim>` gets a Usd.Prim object - :py:meth:`usd_attribute()<omni.graph.core.ObjectLookup.usd_attribute>` gets a Usd.Attribute object - :py:meth:`variable()<omni.graph.core.ObjectLookup.variable>` gets a og.IVariable object Other methods will be added as they become useful. GraphController --------------- This class contains the functions that manipulate the structure of the graph, including creating a graph. The :py:class:`class documentation<omni.graph.core.GraphController>` describe the details of what it can do. Here's a quick summary of the most useful methods in the class. All but the last of them can be accessed through different keywords in the dictionary passed to :py:meth:`og.Controller.edit()<omni.graph.core.Controller.edit>`. - :py:meth:`create_graph()<omni.graph.core.GraphController.create_graph>` creates a new og.Graph - :py:meth:`create_node()<omni.graph.core.GraphController.create_node>` creates a new og.Node - :py:meth:`create_prim()<omni.graph.core.GraphController.create_prim>` creates a new Usd.Prim - :py:meth:`create_variable()<omni.graph.core.GraphController.create_variable>` creates a new og.IVariable - :py:meth:`delete_node()<omni.graph.core.GraphController.delete_node>` deletes an existing og.Node - :py:meth:`expose_prim()<omni.graph.core.GraphController.expose_prim>` makes a Usd.Prim visible to OmniGraph through a read node - :py:meth:`connect()<omni.graph.core.GraphController.connect>` connects two og.Attributes together - :py:meth:`disconnect()<omni.graph.core.GraphController.disconnect>` breaks an existing connection between two og.Attributes - :py:meth:`disconnect_all()<omni.graph.core.GraphController.disconnect_all>` disconnects everything from an existing og.Attribute - :py:meth:`set_variable_default_value()<omni.graph.core.GraphController.set_variable_default_value>` sets the default value of an og.IVariable - :py:meth:`get_variable_default_value()<omni.graph.core.GraphController.get_variable_default_value>` gets the default value of an og.IVariable NodeController -------------- This class contains the functions that manipulate the contents of a node. It only has a few functions. The :py:class:`class documentation<omni.graph.core.NodeController>` outlines its areas of control. Here's a quick summary of the most useful methods in the class: - :py:meth:`create_attribute()<omni.graph.core.NodeController.create_attribute>` creates a new dynamic og.Attribute - :py:meth:`remove_attribute()<omni.graph.core.NodeController.remove_attribute>` removes an existing dynamic og.Attribute - :py:meth:`safe_node_name()<omni.graph.core.NodeController.safe_node_name>` returns a node name based on an og.NodeType that is USD-safe .. note:: A dynamic attribute in this context means an attribute that can be added to the node that does not exist in the node's .ogn file. DataView -------- This class contains the functions to get and set attribute values. It has a flexible __init__ function that can optionally take an "attribute" parameter to specify either an og.Attribute or og.AttributeData to which the data operations will apply. The :py:class:`class documentation<omni.graph.core.DataView>` shows the available functionality. Here's a quick summary of the most useful methods in the class: - :py:meth:`get()<omni.graph.core.DataView.get>` gets the current value of the attribute - :py:meth:`get_array_size()<omni.graph.core.DataView.get_array_size>` gets the number of elements in an array attribute - :py:meth:`set()<omni.graph.core.DataView.set>` sets a new value on the attribute All of these methods are set up to work either as class methods or as object methods. The difference is that when called as a class method you have add an extra parameter at the beginning that is the attribute whose value is being processed. These two calls, for example, are equivalent: .. code-block:: python attribute = og.Controller.attribute("/World/PushGraph/Add:inputs:a") # As a class method value = og.DataView.get(attribute) # or value = og.Controller.get(attribute) # As an object method value = og.DataView(attribute=attribute).get() # or value = og.Controller(attribute=attribute).get()	9,827	reStructuredText	47.653465	147	0.741935
omniverse-code/kit/exts/omni.graph/docs/omni.graph.core.bindings.rst	omni.graph.core.bindings ======================== All of the OmniGraph ABI interfaces have Python bindings on top of them, as well as additional bindings that provide convenient Pythonic access to some of the data. See the full description in the :ref:`Python API<omnigraph_python_api>`	289	reStructuredText	35.249996	116	0.733564
omniverse-code/kit/exts/omni.graph/docs/commands.rst	OmniGraph Commands ================== Like other extensions, the OmniGraph extensions expose undoable functionality through some basic commands. A lot of the functionality of the commands can be accessed from the og.Controller object, described above. OmniGraph has created a shortcut to allow more natural expression of command execution. The raw method of executing a command is something like this: .. code-block:: python import omni.graph.core as og graph = og.get_graph_by_path("/World/PushGraph") omni.kit.commands.execute("CreateNode", graph=graph, node_path="/World/PushGraph/TestSingleton", node_type="omni.graph.examples.python.TestSingleton", create_usd=True) The abbreviated method, using the constructed cmds object looks like this: .. code-block:: python import omni.graph.core as og graph = og.get_graph_by_path("/World/PushGraph") cmds.CreateNode(graph=graph, node_path="/World/PushGraph/TestSingleton", node_type="omni.graph.examples.python.TestSingleton", create_usd=True) However for most operations you would use the controller class, which is a single line: .. code-block:: python import omni.graph.core as og og.Controller.edit("/World/PushGraph", { og.Controller.Keys.CREATE_NODES: ("TestSingleton", "omni.graph.examples.python.TestSingleton") }) .. tip:: Running the Python command help(omni.graph.core.cmds) in the script editor will give you a description of all available commands.	1,479	reStructuredText	38.999999	171	0.745098
omniverse-code/kit/exts/omni.graph/docs/CHANGELOG.md	# Changelog All notable changes to this project will be documented in this file. The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/), and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html). ## [Unreleased] ## [1.50.2] - 2023-02-14 ### Fixed - Made test file pattern account for node files not beginning with Ogn ## [1.50.1] - 2022-11-22 ### Added - Documentation for running a minimal Kit with OmniGraph ## [1.50.0] - 2022-11-15 ### Changed - Default simple dynamic attribute values to the CPU ## [1.49.0] - 2022-11-14 ### Added - instance_path argument added to IVariable.get, get_array and set methods to specify the instance of the variable - node_type.get_path(), which returns the path to the prim associated with a node type ## [1.48.0] - 2022-11-09 ### Added - Support for redirecting dynamic attributes to the GPU ## [1.47.1] - 2022-10-18 ### Fixed - Corrected the path to the default category files ## [1.47.0] - 2022-09-28 ### Changed - Refactored controller classes to accept variable arguments in all methods and constructor ### Removed - References to obsolete set of unsupported types - Last remaining references to the obsolete ContextHelper ### Added - Argument flattening utility ## [1.46.0] - 2022-09-27 ### Added - Collection of registration and deregistration timing for Python node types ## [1.45.2] - 2022-09-01 ### Fixed - Fixed the type name access in the node controller to handle bundles properly ## [1.45.1] - 2022-08-31 ### Fixed - Refactored out use of a deprecated class ## [1.45.0] - 2022-08-30 ### Added - Handling for allocation of memory and transfer of values for Python default values ## [1.44.0] - 2022-08-25 ### Added - Access to new setting that turns deprecations into errors ## [1.43.0] - 2022-08-17 ### Added - Cross-handling of array and non-array types when compatible ## [1.42.0] - 2022-08-12 ### Changed - og.AttributeData now raise exceptions for errors instead of printing ## [1.41.1] - 2022-08-09 ### Fixed - All of the lint errors reported on the Python files in this extension ## [1.41.0] - 2022-08-02 ### Added - Optimize attribute setting from python nodes - during runtime computation we skip commands (no need for undo) ## [1.40.0] - 2022-07-27 ### Added - IBundle2 remove_attributes_by_name, remove_child_bundles_by_name ## [1.39.0] - 2022-07-27 ### Changed - Added better __repr__ to Attribute and Node ## [1.38.1] - 2022-07-26 ### Fixed - Adjusted config to avoid obsolete commands module - Added firewall protection to AutoFunc and AutoClass initialization so that they work in the script editor ## [1.38.0] - 2022-07-19 ### Added - IBundle2 interface API review ## [1.37.0] - 2022-07-12 ### Added - Python performance: database caching, prefetch and commit for batching of simple attribute reads/writes ## [1.36.0] - 2022-07-12 ### Fixed - Backward compatibility of the generated attribute descriptions. ## [1.35.0] - 2022-07-08 ### Added - omni.graph.core.Attribute.is_deprecated() - omni.graph.core.Attribute.deprecation_message() - omni.graph.core.Internal sub-module - omni.graph.core.Internal._deprecateAttribute() ## [1.34.0] - 2022-07-07 ### Changed - Refactored imports from omni.graph.tools to get the new locations - Moved node_generator/ into the _impl/ subdirectory - Made dunder attribute names in AttributeDataValueHelper into single-underscore to avoid Python compatibility problem ### Added - Test for public API consistency ## [1.33.0] - 2022-07-06 ### Added - Metadata support for IBundle2 interface ## [1.32.3] - 2022-07-04 ### Fixed - Py_GraphContext's __eq__ and __hash__ now use the underlying GraphContext object rather than the Python wrapper ## [1.32.2] - 2022-06-28 ### Changed - Made node type failure a more actionable error - Bootstrap the nodeContextHandle to allow independent database creation ### Added - Linked docs in the build area ## [1.32.1] - 2022-06-26 ### Changed - Made node type failure a more actionable error ## [1.32.0] - 2022-06-26 ### Added - Added test for clearing bundle contents ## [1.31.1] - 2022-06-21 ### Changed - Fixed error in graph_settings when loading non-schema prims ## [1.31.0] - 2022-06-17 ### Added - omni.graph.core.graph.get_evaluator_name() ## [1.30.1] - 2022-06-17 ### Added - Added ApplyOmniGraph and RemoveOmniGraph api commands ## [1.30.0] - 2022-06-13 ### Added - omni.graph.core.GraphEvaluationMode enum - evaluation_mode argument added to omni.graph.core.Graph.create_graph_as_node - evaluation_mode property added to omni.graph.core.Graph - SetEvaluationModeCommand - evaluation_mode parameter added to CreateGraphAsNodeCommand - evaluation_mode option added to GraphController ## [1.29.0] - 2022-06-13 ### Added - Temporary binding function to prevent Python node initialization from overwriting values already set ## [1.28.0] - 2022-06-07 ### Added - Added CPU-GPU pointer support in data_view class and propagation of the state through python wrapper classes ## [1.27.0] - 2022-06-07 ### Added - Support for the generator settings to complement runtime settings ## [1.26.1] - 2022-06-04 ### Fixed - Nodes with invalid connections no longer break upgrades to OmniGraph schema ## [1.26.0] - 2022-05-06 ### Fixed - Handling of runtime attributes whose bundle uses CPU to GPU pointers ### Added - Support for CPU to GPU data in the DataWrapper ## [1.25.0] - 2022-05-05 ### Removed - Python subscriptions to changes in settings, now handled in C++ ## [1.24.1] - 2022-05-05 ### Deprecated - Deprecated OmniGraphHelper and ContextHelper for og.Controller ## [1.24.0] - 2022-04-29 ### Fixed - Fixed override method for IPythonNode type ### Removed - Obsolete example files ### Added - Explicit settings handler ### Changed - Used explicit OmniGraph test handler base classes ## [1.24.0] - 2022-04-27 ### Added - GraphController.set_variable_default_value - GraphController.get_variable_default_value - ObjectLookup.variable - GraphContext.get_graph_target ## [1.23.0] - 2022-04-25 ### Added - Added a test to confirm that all version references in omni.graph.* match ## [1.22.2] - 2022-04-20 ### Fixed - Undoing the deletion of a connection's src prim will now restore the connection on undo. ## [1.22.1] - 2022-04-18 ### Changed - og.Attribute will now raise an exception when methods are called when in an invalid state. ## [1.22.0] - 2022-04-11 ### Fixed - Moved Py_Node and Py_Graph callback lists to static storage where they won't be destroyed prematurely. - Callback objects now get destroyed when the extension is unloaded. ## [1.21.1] - 2022-04-05 ### Fixed - Added hash check to avoid overwriting ogn/tests/__init__.py when it hasn't changed - Fix deprecated generator of ogn/tests/__init__.py to generate a safer, non-changing version ## [1.21.0] - 2022-03-31 ### Added - `IConstBundle2`, `IBundle2` and `IBundleFactory` interface python bindings. - Unit tests for bundle interfaces ## [1.20.1] - 2022-03-24 ### Fixed - Fixed location of live-generation of USD files from .ogn - Fixed contents of the generated tests/__init__.py file ### [1.20.0] - 2022-03-23 ### Added - GraphEvent.CREATE_VARIABLE and GraphEvent.REMOVE_VARIABLE event types - Graph.get_event_stream() ## [1.19.0] - 2022-03-18 ### Added - Added command to set variable tooltip ## [1.18.0] - 2022-03-16 ### Added - support for enableLegacyPrimConnection setting to test utils ## [1.17.1] - 2022-03-14 ### Fixed - Corrected creation of implicit graphs that were not at the root path - Added tests for such graphs and a graph in a layer ## [1.17.0] - 2022-03-11 ### Added - Node.get_backing_bucket_id() - GraphContext.write_bucket_to_backing() ## [1.16.0] - 2022-03-01 ### Added - expected_error.ExpectedError (moved from omni.graph.test) ### Changed - Updated OmniGraphTestCase and derived classes to use test_case_class ## [1.15.0] - 2022-02-16 ### Added - Added commands to create and remove variables ## [1.14.0] - 2022-02-11 ### Added - Attribute.register_value_changed_callback - Database.get_variable - Database.set_variable - Controller.keys.CREATE_VARIABLES - GraphController.create_variable ## [1.13.0] - 2022-02-10 ### Added - Added support for migration of old graphs to use schema prims ## [1.12.2] - 2022-02-07 ### Changed - Moved carb logging out of database.py and into Node::logComputeMessage. - Fall back to old localized logging for Python nodes which don't yet support the compute message logging ABI. ## [1.12.1] - 2022-02-04 ### Fixed - Compute counts weren't working for Python nodes - Compute messages from Python nodes weren't visible in the graph editors ## [1.12.0] - 2022-01-28 ### Added - Support for WritePrim creation in GraphController.expose_prims ## [1.11.0] - 2022-01-29 ### Changed - Reflecting change of omni.graph.core from 2.11 -> 2.12 ## [1.10.0] - 2022-01-27 ### Added - ObjectLookup.usd_attribute ## [1.9.0] - 2022-01-21 ### Added - Node.log_compute_message - Node.get_compute_messages - Node.clear_old_compute_messages - Graph.register_error_status_change_callback - Graph.deregister_error_status_change_callback - Severity enum ## [1.8.0] - 2021-12-17 ### Added - Added NodeType.get_all_categories_ - Added get_node_categories_interface - Created binding class NodeCategories ## [1.7.0] - 2021-12-15 ### Added - Added _NodeType::isValid_ and cast to bool - Added _Controller_ class - Added _GraphController_ class ## [1.6.0] - 2021-12-06 ### Added - og.NodeEvent.ATTRIBUTE_TYPE_RESOLVE ## [1.5.2] - 2021-12-03 ### Added - Node, Attribute, AttributeData, Graph, and Type objects are now hashable in Python, meaning that they can be used in sets, as keys in dicts, etc. ### Fixed - Comparing Node and Graph objects for equality in Python now compare the actual objects referenced rather than the wrappers which hold the references - Comparing Attribute and AttributeData objects to None in Python no longer generates an exception. ## [1.5.0] - 2021-12-01 - Added functions to get extension versions for core and tools - Added cascading Python node registration process, that auto-generates when out of date - Added user cache location for live regeneration of nodes ## [1.4.0] - 2021-11-26 ### Added - Python Api `Graph.get_parent_graph` ### Fixed - Fix failure when disconnecting a connection from a subgraph node to the parent graph node ## [1.3.2] - 2021-11-24 ### Changed - Generated python nodes will emit info instead of warning when inputs are unresolved ## [1.3.1] - 2021-11-22 ### Changed - Improved error messages from wrapped functions ## [1.3.0] - 2021-11-19 ### Added - __bool__ operators added to all returned OG Objects. So `if node:` is equivalent to `if node.is_valid():` ### Changed - Bug fix in Graph getter methods ## [1.2.0] - 2021-11-10 ### Added - `og.get_node_by_path` - `get_graph_by_path`, `get_node_by_path` now return None on failure ## [1.1.0] - 2021-10-17 ### Added - og.get_graph_by_path ## [1.0.0] - 2021-10-17 ### Initial Version - Started changelog with current version of omni.graph	11,068	Markdown	28.128947	118	0.714583
omniverse-code/kit/exts/omni.graph/docs/python_api.rst	.. _omnigraph_python_api: OmniGraph Python API Documentation ********************************** .. automodule:: omni.graph.core :platform: Windows-x86_64, Linux-x86_64, Linux-aarch64 :members: :undoc-members: :imported-members:	246	reStructuredText	21.454544	58	0.601626
omniverse-code/kit/exts/omni.graph/docs/README.md	# OmniGraph [omni.graph] This extension provides the Python bindings, script support, data files, and other non-core support for the OmniGraph implementation extension `omni.graph.core`. It behaves as an addition to that extension, so you will still use the Python import path `omni.graph.core` for scripts in this directory.	328	Markdown	40.124995	117	0.795732
omniverse-code/kit/exts/omni.graph/docs/index.rst	.. _omnigraph_python_scripting: OmniGraph Python Scripting ########################## .. tabularcolumns:: \|L\|R\| .. csv-table:: :width: 100% Extension: omni.graph,Documentation Generated: \|today\| While the core part of OmniGraph is built in C++ there are Python bindings and scripts built on top of it to make it easier to work with. Importing --------- The Python interface is exposed in a consistent way so that you can easily find any of the OmniGraph scripting information. Any script can start with this simple import, in the spirit of how popular packages such as `numpy` and `pandas` work: .. code-block:: python import omni.graph.core as og Using this module you can access internal documentation through the usual Python mechanisms: .. code-block:: python help(og) Bindings -------- The first level of support is the :doc:`Python Bindings<omni.graph.core.bindings>` which provide a wrapper on top of the C++ ABI of the OmniGraph core. These have been made available from the same import to make user of all OmniGraph functionality consistent. When you are programming in Python you really don't need to be aware of the C++ underpinnings. The bound functions have all of the same documentation available at runtime so they can be inspected in the same way you would work with any regular Pythyon scripts. For the most part the bindings follow the C++ ABI closely, with the minor exception of using the standard PEP8 naming conventions rather than the established C++ naming conventions. For example a C++ ABI function `getAttributeType` will be named `get_attribute_type` in the Python binding. This was primarily done to deemphasize the boundary between Python and C++ so that Python writers can stick with Python conventions and C++ writers can stick with C++ conventions. As the Python world doesn't have the C++ concept of an interface definition there is no separation between the objects providing the functionality and the objects storing the implementation and data. For example in C++ you would have an `AttributeObj` which contains a handle to the internal data and a reference to the `IAttribute` interface definition. In Python you only have the `og.Attribute` object which encapsulates both. You can see the online version of the Python documentation at :ref:`omnigraph_python_api`. The One Thing You Need ---------------------- A lot of the imported submodules and functions available are used internally by generated code and you won't have much occasion to use them. You can explore the internal documentation to see if any look useful to you. The naming was intentionally made verbose so that it's easier to discover functionality. .. _ogn_omnigraph_controller: One class deserves special attention though, as it is quite useful for interacting with the OmniGraph. .. code-block:: python import omni.graph.core as og controller = og.Controller() The `Controller` class provides functionality for you to change the graph topology, or modify and inspect values within the graph. .. literalinclude:: ../python/_impl/controller.py :language: python :start-after: begin-controller-docs :end-before: end-controller-docs See the internal documentation at :py:class:`omni.graph.core.Controller` for details, or take a tour of how to use the controller with :ref:`this how-to documentation<howto_omnigraph_controller>` .. toctree:: :maxdepth: 1 :caption: Contents OmniGraph Commands <commands> How-To Guides<../../omni.graph.core/docs/how_to.rst> running_one_script Python API <python_api> omni.graph.core.bindings autonode How versions are updated <../../omni.graph.core/docs/versioning> controller runtimeInitialize testing CHANGELOG	3,775	reStructuredText	37.141414	120	0.753113
omniverse-code/kit/exts/omni.kit.actions.core/omni/kit/actions/core/_kit_actions_core.pyi	"""pybind11 omni.kit.actions.core bindings""" from __future__ import annotations import omni.kit.actions.core._kit_actions_core import typing __all__ = [ "Action", "IActionRegistry", "acquire_action_registry", "release_action_registry" ] class Action(): """ Abstract action base class. """ def __init__(self, extension_id: str, action_id: str, python_object: object, display_name: str = '', description: str = '', icon_url: str = '', tag: str = '') -> None: """ Create an action. Args: extension_id: The id of the source extension registering the action. action_id: Id of the action, unique to the extension registering it. python_object: The Python object called when the action is executed. display_name: The name of the action for display purposes. description: A brief description of what the action does. icon_url: The URL of an image which represents the action. tag: Arbitrary tag used to group sets of related actions. Return: The action that was created. """ def execute(self, args, kwargs) -> object: """ Execute the action. Args: args: Variable length argument list which will be forwarded to execute. *kwargs: Arbitrary keyword arguments that will be forwarded to execute. Return: The result of executing the action, converted to a Python object (could be None). """ def invalidate(self) -> None: """ Invalidate this action so that executing it will not do anything. This can be called if it is no longer safe to execute the action, and by default is called when deregistering an action (optional). """ @property def description(self) -> str: """ Get the description of this action. Return: str: The description of this action. :type: str """ @property def display_name(self) -> str: """ Get the display name of this action. Return: str: The display name of this action. :type: str """ @property def extension_id(self) -> str: """ Get the id of the source extension which registered this action. Return: str: The id of the source extension which registered this action. :type: str """ @property def icon_url(self) -> str: """ Get the URL of the icon used to represent this action. Return: str: The URL of the icon used to represent this action. :type: str """ @property def id(self) -> str: """ Get the id of this action, unique to the extension that registered it. Return: str: The id of this action, unique to the extension that registered it. :type: str """ @property def parameters(self) -> dict: """ Get the parameters accepted by this action's execute function. Return: dict: The parameters accepted by this action's execute function. :type: dict """ @property def requires_parameters(self) -> bool: """ Query whether this action requires any parameters to be passed when executed? Return: bool: True if this action requires any parameters to be passed when executed, false otherwise. :type: bool """ @property def tag(self) -> str: """ Get the tag that this action is grouped with. Return: str: The tag that this action is grouped with. :type: str """ pass class IActionRegistry(): """ Maintains a collection of all registered actions and allows any extension to discover them. """ @staticmethod def deregister_action(args, *kwargs) -> typing.Any: """ Deregister an action. Args: action: The action to deregister. invalidate: Should the action be invalidated so executing does nothing? Find and deregister an action. Args: extension_id: The id of the source extension that registered the action. action_id: Id of the action, unique to the extension that registered it. invalidate: Should the action be invalidated so executing does nothing? Return: The action if it exists and was deregistered, an empty object otherwise. """ def deregister_all_actions_for_extension(self, extension_id: str, invalidate: bool = True) -> None: """ "Deregister all actions that were registered by the specified extension. Args: extension_id: The id of the source extension that registered the actions. iinvalidate: Should the actions be invalidated so executing does nothing? """ def execute_action(self, extension_id: str, action_id: str, args, *kwargs) -> object: """ Find and execute an action. Args: extension_id: The id of the source extension that registered the action. action_id: Id of the action, unique to the extension that registered it. args: Variable length argument list which will be forwarded to execute. *kwargs: Arbitrary keyword arguments that will be forwarded to execute. Return: The result of executing the action, which is an arbitrary Python object that could be None (will also return None if the action was not found). """ @staticmethod def get_action(args, *kwargs) -> typing.Any: """ Get an action. Args: extension_id: The id of the source extension that registered the action. action_id: Id of the action, unique to the extension that registered it. Return: The action if it exists, an empty object otherwise. """ @staticmethod def get_all_actions(args, *kwargs) -> typing.Any: """ Get all registered actions. Return: All registered actions. """ @staticmethod def get_all_actions_for_extension(args, *kwargs) -> typing.Any: """ Get all actions that were registered by the specified extension. Args: extension_id: The id of the source extension that registered the actions. Return: All actions that were registered by the specified extension. """ @staticmethod def register_action(args, **kwargs) -> typing.Any: """ Register an action. Args: action: The action to register. Create and register an action. Args: extension_id: The id of the source extension registering the action. action_id: Id of the action, unique to the extension registering it. python_object: The Python object called when the action is executed. display_name: The name of the action for display purposes. description: A brief description of what the action does. icon_url: The URL of an image which represents the action. tag: Arbitrary tag used to group sets of related actions. Return: The action if it was created and registered, an empty object otherwise. """ pass def acquire_action_registry(plugin_name: str = None, library_path: str = None) -> IActionRegistry: pass def release_action_registry(arg0: IActionRegistry) -> None: pass	8,190	unknown	32.161943	172	0.567521
omniverse-code/kit/exts/omni.kit.actions.core/omni/kit/actions/core/__init__.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. # """ Omni Kit Actions Core --------------------- Omni Kit Actions Core is a framework for creating, registering, and discovering actions. Here is an example of registering an action that creates a new file when it is executed: .. code-block:: action_registry = omni.kit.actions.core.get_action_registry() actions_tag = "File Actions" action_registry.register_action( extension_id, "new", omni.kit.window.file.new, display_name="File->New", description="Create a new USD stage.", tag=actions_tag, ) For more examples, please consult the Python and C++ Usage Example pages. For Python API documentation, please consult the following subpages. For C++ API documentation, please consult the API(C++) page. """ __all__ = ["Action", "IActionRegistry", "get_action_registry", "execute_action"] from .actions import *	1,310	Python	31.774999	88	0.717557
omniverse-code/kit/exts/omni.kit.actions.core/omni/kit/actions/core/actions.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.ext from ._kit_actions_core import * # Put interface object publicly to use in our API. _action_registry = None # public API def get_action_registry() -> IActionRegistry: """ Get the action registry. Return: ActionRegistry object which implements the IActionRegistry interface. """ return _action_registry def execute_action(extension_id: str, action_id: str, args, kwargs): """ Find and execute an action. Args: extension_id: The id of the source extension that registered the action. action_id: Id of the action, unique to the extension that registered it. args: Variable length argument list which will be forwarded to execute. *kwargs: Arbitrary keyword arguments that will be forwarded to execute. Return: The result of executing the action, which is an arbitrary Python object that could be None (will also return None if the action was not found). """ return get_action_registry().execute_action(extension_id, action_id, args, **kwargs) # Use extension entry points to acquire and release the interface. class ActionsExtension(omni.ext.IExt): def __init__(self): super().__init__() global _action_registry _action_registry = acquire_action_registry() def on_shutdown(self): global _action_registry release_action_registry(_action_registry) _action_registry = None	1,884	Python	33.272727	89	0.710722
omniverse-code/kit/exts/omni.kit.actions.core/omni/kit/actions/core/tests/test_actions.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 inspect import omni.kit.test import omni.kit.app import omni.kit.actions.core from ._kit_actions_core_tests import * _last_args = None _last_kwargs = None _was_called = False _action_tests = None _print_execution_info = False def setUpModule(): global _action_tests _action_tests = acquire_action_tests() _action_tests.print_test_action_execution_info = _print_execution_info def tearDownModule(): global _action_tests release_action_tests(_action_tests) _action_tests = None def test_callable_function(args, kwargs): global _last_args, _last_kwargs, _was_called, _print_execution_info _last_args = args _last_kwargs = kwargs _was_called = True if _print_execution_info: print(f"Executed test callable function with args: {args} and kwargs: {kwargs}") return list(_last_args) def test_execute_callable_function_action_with_args(test_context, args, *kwargs): global _last_args, _last_kwargs, _was_called _last_args = None _last_kwargs = None _was_called = False result = test_context.test_callable_function_action.execute(args, *kwargs) test_context.assertTrue(_was_called) test_context.assertListEqual(result, list(args)) test_context.assertListEqual(list(_last_args), list(args)) test_context.assertDictEqual(_last_kwargs, kwargs) class TestCallableClass: def __call__(self, args, *kwargs): global _print_execution_info self.last_args = args self.last_kwargs = kwargs self.was_called = True if _print_execution_info: print(f"Executed test callable object with args: {args} and kwargs: {kwargs}") return list(self.last_args) def test_execute_callable_object_action_with_args(test_context, args, *kwargs): test_context.test_callable_object.last_args = None test_context.test_callable_object.last_kwargs = None test_context.test_callable_object.was_called = False result = test_context.test_callable_object_action.execute(args, *kwargs) test_context.assertTrue(test_context.test_callable_object.was_called) test_context.assertListEqual(result, list(args)) test_context.assertListEqual(list(test_context.test_callable_object.last_args), list(args)) test_context.assertDictEqual(test_context.test_callable_object.last_kwargs, kwargs) def test_execute_lambda_action_with_args(test_context, args, *kwargs): result = test_context.test_lambda_action.execute(args, *kwargs) test_context.assertTrue(result) def test_execute_cpp_action_with_args(test_context, args, *kwargs): test_context.test_cpp_action.reset_execution_count() test_context.assertEqual(test_context.test_cpp_action.execution_count, 0) result = test_context.test_cpp_action.execute(args, *kwargs) test_context.assertTrue(result) test_context.assertEqual(test_context.test_cpp_action.execution_count, 1) test_context.assertTrue(test_context.test_cpp_action.was_executed_with_args(args, *kwargs)) test_context.test_cpp_action.reset_execution_count() test_context.assertEqual(test_context.test_cpp_action.execution_count, 0) class TestActions(omni.kit.test.AsyncTestCase): async def setUp(self): global _action_tests # Cache the action tests and action registry interfaces. self.extension_id = "omni.kit.actions.core_tests" self.action_tests = _action_tests self.action_registry = omni.kit.actions.core.get_action_registry() # Register a test action that invokes a Python function. self.test_callable_function_action = self.action_registry.register_action( self.extension_id, "test_callable_function", test_callable_function, display_name="Test Callable Function Action", description="An action which invokes a callable Python function.", tag="TestTag", ) # Register a test action that invokes a Python object. self.test_callable_object = TestCallableClass() self.test_callable_object_action = self.action_registry.register_action( self.extension_id, "test_callable_object", self.test_callable_object, display_name="Test Callable Object Action", description="An action which invokes a callable Python object.", ) # Create and register a test action that invokes a C++ lambda. self.test_lambda_action = self.action_tests.create_test_lambda_action( self.extension_id, "test_lambda_action", "Test Lambda Action", "A lambda action which was created in C++." ) self.action_registry.register_action(self.test_lambda_action) # Create a test action in C++. self.test_cpp_action = self.action_tests.create_test_cpp_action( self.extension_id, "test_cpp_action", "Test Cpp Action", "An action which was created in C++." ) self.action_registry.register_action(self.test_cpp_action) async def tearDown(self): # Deregister all the test actions. self.action_registry.deregister_action(self.test_cpp_action) self.action_registry.deregister_action(self.test_lambda_action) self.action_registry.deregister_action(self.extension_id, "test_callable_object") self.action_registry.deregister_action(self.extension_id, "test_callable_function") # Destroy all the test actions. self.test_cpp_action = None self.test_lambda_action = None self.test_callable_object = None self.test_callable_object_action = None self.test_callable_function_action = None # Clear the action tests and action registry interfaces. self.action_registry = None self.action_tests = None self.extension_id = None async def test_find_registered_action(self): action = self.action_registry.get_action(self.extension_id, "test_callable_function") self.assertIsNotNone(action) action = self.action_registry.get_action(self.extension_id, "test_callable_object") self.assertIsNotNone(action) action = self.action_registry.get_action(self.extension_id, "test_lambda_action") self.assertIsNotNone(action) action = self.action_registry.get_action(self.extension_id, "test_cpp_action") self.assertIsNotNone(action) async def test_find_unregistered_action(self): action = self.action_registry.get_action(self.extension_id, "some_unregistered_action") self.assertIsNone(action) async def test_access_action_fields(self): action = self.action_registry.get_action(self.extension_id, "test_callable_function") self.assertEqual(action.id, "test_callable_function") self.assertEqual(action.extension_id, self.extension_id) self.assertEqual(action.display_name, "Test Callable Function Action") self.assertEqual(action.description, "An action which invokes a callable Python function.") self.assertEqual(action.icon_url, "") self.assertEqual(action.tag, "TestTag") async def test_get_all_actions(self): # If any of the asserts below fail, the 'actions' list object doesn't seem to get cleaned up properly, # resulting in a crash instead of a failed test. To protect against this we'll cache all the things we # need to assert are valid and clear the 'actions' list object before performing any of the asserts. actions = self.action_registry.get_all_actions() found_registered_action_0 = ( not (next((action for action in actions if action.id == "test_callable_function"), None)) is None ) found_registered_action_1 = ( not (next((action for action in actions if action.id == "test_callable_object"), None)) is None ) found_registered_action_2 = ( not (next((action for action in actions if action.id == "test_lambda_action"), None)) is None ) found_registered_action_3 = ( not (next((action for action in actions if action.id == "test_cpp_action"), None)) is None ) found_unregistered_action = ( not (next((action for action in actions if action.id == "some_unregistered_action"), None)) is None ) actions_length = len(actions) actions.clear() self.assertTrue(found_registered_action_0) self.assertTrue(found_registered_action_1) self.assertTrue(found_registered_action_2) self.assertTrue(found_registered_action_3) self.assertFalse(found_unregistered_action) # Ideally we would assert that the number of actions found is what we expect, # but the kit app itself registers some actions and we don't want to have to # keep updating this test to account for those, so we won't assert for this. # self.assertEqual(actions_length, 4) async def test_get_all_actions_registered_by_extension(self): # If any of the asserts below fail, the 'actions' list object doesn't seem to get cleaned up properly, # resulting in a crash instead of a failed test. To protect against this we'll cache all the things we # need to assert are valid and clear the 'actions' list object before performing any of the asserts. self.action_registry.register_action("some_other_extension_id", "test_action_registered_by_another_extension", test_callable_function) actions = self.action_registry.get_all_actions_for_extension(self.extension_id) found_registered_action_0 = ( not (next((action for action in actions if action.id == "test_callable_function"), None)) is None ) found_registered_action_1 = ( not (next((action for action in actions if action.id == "test_callable_object"), None)) is None ) found_registered_action_2 = ( not (next((action for action in actions if action.id == "test_lambda_action"), None)) is None ) found_registered_action_3 = ( not (next((action for action in actions if action.id == "test_cpp_action"), None)) is None ) found_unregistered_action = ( not (next((action for action in actions if action.id == "some_unregistered_action"), None)) is None ) found_action_registered_by_another_extension = ( not (next((action for action in actions if action.id == "test_action_registered_by_another_extension"), None)) is None ) actions.clear() self.assertTrue(found_registered_action_0) self.assertTrue(found_registered_action_1) self.assertTrue(found_registered_action_2) self.assertTrue(found_registered_action_3) self.assertFalse(found_unregistered_action) self.assertFalse(found_action_registered_by_another_extension) actions = self.action_registry.get_all_actions_for_extension("some_other_extension_id") found_registered_action_0 = ( not (next((action for action in actions if action.id == "test_callable_function"), None)) is None ) found_registered_action_1 = ( not (next((action for action in actions if action.id == "test_callable_object"), None)) is None ) found_registered_action_2 = ( not (next((action for action in actions if action.id == "test_lambda_action"), None)) is None ) found_registered_action_3 = ( not (next((action for action in actions if action.id == "test_cpp_action"), None)) is None ) found_unregistered_action = ( not (next((action for action in actions if action.id == "some_unregistered_action"), None)) is None ) found_action_registered_by_another_extension = ( not (next((action for action in actions if action.id == "test_action_registered_by_another_extension"), None)) is None ) actions.clear() self.assertFalse(found_registered_action_0) self.assertFalse(found_registered_action_1) self.assertFalse(found_registered_action_2) self.assertFalse(found_registered_action_3) self.assertFalse(found_unregistered_action) self.assertTrue(found_action_registered_by_another_extension) self.action_registry.deregister_action("some_other_extension_id", "test_action_registered_by_another_extension") async def test_create_actions_on_registeration(self): self.action_registry.register_action(self.extension_id, "test_python_action_created_on_registration", test_callable_function) action = self.action_registry.get_action(self.extension_id, "test_python_action_created_on_registration") self.assertIsNotNone(action) self.action_tests.create_test_action_on_registrartion(self.extension_id, "test_cpp_action_created_on_registration") action = self.action_registry.get_action(self.extension_id, "test_cpp_action_created_on_registration") self.assertIsNotNone(action) self.action_registry.deregister_action(self.extension_id, "test_cpp_action_created_on_registration") action = self.action_registry.get_action(self.extension_id, "test_cpp_action_created_on_registration") self.assertIsNone(action) self.action_registry.deregister_action(self.extension_id, "test_python_action_created_on_registration") action = self.action_registry.get_action(self.extension_id, "test_python_action_created_on_registration") self.assertIsNone(action) async def test_get_parameters(self): def test_function(): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(arg0): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(arg0, arg1): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(arg0, arg1, arg2): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(args, *kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(arg0, args, *kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) async def test_requires_parameters(self): def test_function(): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(arg0): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertTrue(test_action.requires_parameters) def test_function(arg0=False): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(arg0, arg1=False): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertTrue(test_action.requires_parameters) def test_function(arg0=True, arg1=False): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(arg0="Nine", arg1=-9, arg2=False): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(args, *kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(arg0, args, *kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertTrue(test_action.requires_parameters) def test_function(arg0="Nine", args, *kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) async def test_execute_callable_function_action(self): global _last_args, _last_kwargs, _was_called _last_args = None _last_kwargs = None _was_called = False result = self.test_callable_function_action.execute() self.assertTrue(_was_called) self.assertFalse(result) self.assertFalse(_last_args) self.assertFalse(_last_kwargs) async def test_execute_callable_object_action(self): self.test_callable_object.last_args = None self.test_callable_object.last_kwargs = None self.test_callable_object.was_called = False result = self.test_callable_object_action.execute() self.assertTrue(self.test_callable_object.was_called) self.assertFalse(result) self.assertFalse(self.test_callable_object.last_args) self.assertFalse(self.test_callable_object.last_kwargs) async def test_execute_lambda_action(self): result = self.test_lambda_action.execute() self.assertTrue(result) async def test_execute_cpp_action(self): self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) result = self.test_cpp_action.execute() self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 1) result = self.test_cpp_action.execute() self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 2) result = self.test_cpp_action.execute() self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 3) self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) async def test_execute_action_using_id(self): global _last_args, _last_kwargs, _was_called _last_args = None _last_kwargs = None _was_called = False result = omni.kit.actions.core.execute_action(self.extension_id, "test_callable_function") self.assertTrue(_was_called) self.assertFalse(result) self.assertFalse(_last_args) self.assertFalse(_last_kwargs) self.test_callable_object.last_args = None self.test_callable_object.last_kwargs = None self.test_callable_object.was_called = False result = omni.kit.actions.core.execute_action(self.extension_id, "test_callable_object", True, 9, "Nine") self.assertTrue(self.test_callable_object.was_called) self.assertListEqual(result, [True, 9, "Nine"]) self.assertListEqual(list(self.test_callable_object.last_args), [True, 9, "Nine"]) self.assertFalse(self.test_callable_object.last_kwargs) async def test_find_and_execute_python_action_from_cpp(self): self.test_callable_object.last_args = None self.test_callable_object.last_kwargs = None self.test_callable_object.was_called = False result = self.action_tests.find_and_execute_test_action_from_cpp(self.extension_id, "test_callable_object") self.assertTrue(self.test_callable_object.was_called) self.assertFalse(result) self.assertFalse(self.test_callable_object.last_args) self.assertFalse(self.test_callable_object.last_kwargs) async def test_find_and_execute_cpp_action_from_cpp(self): self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) result = self.action_tests.find_and_execute_test_action_from_cpp(self.extension_id, "test_cpp_action") self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 1) self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) async def test_find_and_execute_cpp_action_from_python(self): self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) action = self.action_registry.get_action(self.extension_id, "test_cpp_action") self.assertIsNotNone(action) result = action.execute() self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 1) self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) async def test_execute_action_with_return_value(self): test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", lambda x: x x) result = test_action.execute(9) self.assertEqual(result, 81) result = self.action_tests.execute_square_value_action_from_cpp(8) self.assertEqual(result, 64) async def test_invalidate_python_action(self): test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", lambda x: x * x) result = test_action.execute(9) self.assertEqual(result, 81) test_action.invalidate() result = test_action.execute(9) self.assertIsNone(result) async def test_invalidate_lambda_action(self): test_action = self.action_tests.create_test_lambda_action(self.extension_id, "test_action", "", "") result = test_action.execute() self.assertTrue(result) test_action.invalidate() result = test_action.execute() self.assertIsNone(result) async def test_execute_actions_with_bool(self): test_execute_callable_function_action_with_args(self, True) test_execute_callable_object_action_with_args(self, True) test_execute_lambda_action_with_args(self, True) test_execute_cpp_action_with_args(self, True) def test_function(arg): self.assertTrue(arg) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute(True) self.action_tests.execute_test_action_from_cpp_with_bool(test_action, True) async def test_execute_actions_with_int(self): test_execute_callable_function_action_with_args(self, 9) test_execute_callable_object_action_with_args(self, 9) test_execute_lambda_action_with_args(self, 9) test_execute_cpp_action_with_args(self, 9) def test_function(arg): self.assertEqual(arg, 9) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute(9) self.action_tests.execute_test_action_from_cpp_with_int(test_action, 9) async def test_execute_actions_with_string(self): test_execute_callable_function_action_with_args(self, "Nine") test_execute_callable_object_action_with_args(self, "Nine") test_execute_lambda_action_with_args(self, "Nine") test_execute_cpp_action_with_args(self, "Nine") def test_function(arg): self.assertEqual(arg, "Nine") test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute("Nine") self.action_tests.execute_test_action_from_cpp_with_string(test_action, "Nine") async def test_execute_actions_with_multiple_args(self): test_execute_callable_function_action_with_args(self, "Nine", 9, True) test_execute_callable_object_action_with_args(self, "Nine", 9, True) test_execute_lambda_action_with_args(self, "Nine", 9, True) test_execute_cpp_action_with_args(self, "Nine", 9, True) def test_function(arg0, arg1, arg2): self.assertEqual(arg0, "Nine") self.assertEqual(arg1, 9) self.assertTrue(arg2) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute("Nine", 9, True) self.action_tests.execute_test_action_from_cpp_with_multiple_args(test_action, "Nine", 9, True) async def test_execute_actions_with_nested_args(self): test_nested_args = (False, 99, "Ninety-Nine") test_execute_callable_function_action_with_args(self, "Nine", test_nested_args, 9, True) test_execute_callable_object_action_with_args(self, "Nine", test_nested_args, 9, True) test_execute_lambda_action_with_args(self, "Nine", test_nested_args, 9, True) test_execute_cpp_action_with_args(self, "Nine", test_nested_args, 9, True) def test_function(arg0, arg1, arg2, arg3): self.assertEqual(arg0, "Nine") self.assertListEqual(list(arg1), list(test_nested_args)) self.assertEqual(arg2, 9) self.assertTrue(arg3) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute("Nine", test_nested_args, 9, True) async def test_execute_actions_with_keyword_args(self): test_execute_callable_function_action_with_args(self, kwarg0="Nine", kwarg1=9, kwarg2=True) test_execute_callable_object_action_with_args(self, kwarg0="Nine", kwarg1=9, kwarg2=True) test_execute_lambda_action_with_args(self, kwarg0="Nine", kwarg1=9, kwarg2=True) test_execute_cpp_action_with_args(self, kwarg0="Nine", kwarg1=9, kwarg2=True) def test_function(kwarg0="", kwarg1=0, kwarg2=False): self.assertEqual(kwarg0, "Nine") self.assertEqual(kwarg1, 9) self.assertTrue(kwarg2) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute(kwarg0="Nine", kwarg1=9, kwarg2=True) test_action.execute(kwarg2=True, kwarg1=9, kwarg0="Nine") self.action_tests.execute_test_action_from_cpp_with_variable_args( test_action, kwarg0="Nine", kwarg1=9, kwarg2=True ) async def test_execute_actions_with_mixed_args(self): test_execute_callable_function_action_with_args( self, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine" ) test_execute_callable_object_action_with_args( self, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine" ) test_execute_lambda_action_with_args(self, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine") test_execute_cpp_action_with_args(self, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine") def test_function(arg0, arg1, arg2, kwarg0=True, kwarg1=0, kwarg2=""): self.assertEqual(arg0, "Nine") self.assertEqual(arg1, 9) self.assertTrue(arg2) self.assertFalse(kwarg0) self.assertEqual(kwarg1, 99) self.assertEqual(kwarg2, "Ninety-Nine") test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute("Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine") test_action.execute("Nine", 9, True, kwarg2="Ninety-Nine", kwarg1=99, kwarg0=False) self.action_tests.execute_test_action_from_cpp_with_variable_args( test_action, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine" )	29,503	Python	46.055821	142	0.67644
omniverse-code/kit/exts/omni.kit.actions.core/docs/index.rst	omni.kit.actions.core ################################### .. toctree:: :maxdepth: 1 CHANGELOG User Guide =================================== .. toctree:: :maxdepth: 1 USAGE_PYTHON USAGE_CPP API Reference =================================== .. automodule:: omni.kit.actions.core :platform: Windows-x86_64, Linux-x86_64 :members: :undoc-members: :imported-members: :show-inheritance:	424	reStructuredText	14.74074	43	0.485849
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/__init__.py	from .scripts import *	23	Python	10.999995	22	0.73913
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/debug_window.py	import asyncio import functools import carb import carb.settings import omni.ext import json from omni import ui from omni.ui import color as cl class MenuUtilsDebugExtension(omni.ext.IExt): def on_startup(self): manager = omni.kit.app.get_app().get_extension_manager() self._extension_name = omni.ext.get_extension_name(manager.get_extension_id_by_module(__name__)) self._hooks = [] self._debug_window = None self._hooks.append( manager.subscribe_to_extension_enable( on_enable_fn=lambda _: self._register_actions(), ext_name="omni.kit.actions.core", hook_name="omni.kit.menu.utils debug omni.kit.actions.core listener", ) ) self._hooks.append( manager.subscribe_to_extension_enable( on_enable_fn=lambda _: self._register_hotkeys(), ext_name="omni.kit.hotkeys.core", hook_name="omni.kit.menu.utils debug omni.kit.hotkeys.core listener", ) ) def on_shutdown(self): omni.kit.actions.core.get_action_registry().deregister_action(self._extension_name, "show_menu_debug_debug_window") if self._debug_window: del self._debug_window self._debug_window = None try: from omni.kit.hotkeys.core import get_hotkey_registry hotkey_registry = get_hotkey_registry() hotkey_registry.deregister_hotkey(self._registered_hotkey) except (ModuleNotFoundError, AttributeError): pass def _register_actions(self): import omni.kit.actions.core omni.kit.actions.core.get_action_registry().register_action( self._extension_name, "show_menu_debug_debug_window", lambda: self.show_menu_debug_debug_window(), display_name="Show Menu Debug Window", description="Show Menu Debug Window", tag = "Menu Debug Actions" ) def _register_hotkeys(self): import omni.kit.hotkeys.core from omni.kit.hotkeys.core import KeyCombination, get_hotkey_registry hotkey_combo = KeyCombination(carb.input.KeyboardInput.M, modifiers=carb.input.KEYBOARD_MODIFIER_FLAG_CONTROL + carb.input.KEYBOARD_MODIFIER_FLAG_ALT + carb.input.KEYBOARD_MODIFIER_FLAG_SHIFT) hotkey_registry = get_hotkey_registry() self._registered_hotkey = hotkey_registry.register_hotkey(self._extension_name, hotkey_combo, self._extension_name, "show_menu_debug_debug_window") def show_menu_debug_debug_window(self): CollapsableFrame_style = { "CollapsableFrame": { "background_color": 0xFF343432, "secondary_color": 0xFF343432, "color": 0xFFAAAAAA, "border_radius": 4.0, "border_color": 0x0, "border_width": 0, "font_size": 14, "padding": 0, }, "HStack::header": {"margin": 5}, "CollapsableFrame:hovered": {"secondary_color": 0xFF3A3A3A}, "CollapsableFrame:pressed": {"secondary_color": 0xFF343432}, } def show_dict_data(legend, value): if value: ui.Button(f"Save {legend}", clicked_fn=lambda b=None: save_dict(legend, value), height=24) else: ui.Button(f"Save {legend}", clicked_fn=lambda b=None: save_dict(legend, value), height=24, enabled=False) async def refresh_debug_window(rebuild_menus): await omni.kit.app.get_app().next_update_async() self._debug_window.frame.clear() await omni.kit.app.get_app().next_update_async() await omni.kit.app.get_app().next_update_async() del self._debug_window self._debug_window = None if rebuild_menus: omni.kit.menu.utils.rebuild_menus() await omni.kit.app.get_app().next_update_async() await omni.kit.app.get_app().next_update_async() self.show_menu_debug_debug_window() def save_dict(legend, value): from omni.kit.window.filepicker import FilePickerDialog def on_click_save(dialog: FilePickerDialog, filename: str, dirname: str, value: dict): dialog.hide() dirname = dirname.strip() if dirname and not dirname.endswith("/"): dirname += "/" fullpath = f"{dirname}{filename}" def serialize(obj): if hasattr(obj, "json_enc"): return obj.json_enc() elif hasattr(obj, "__dict__"): return obj.__dict__ return {"unknown": f"{obj}"} with open(fullpath, 'w') as file: file.write(json.dumps(value, default=lambda obj: serialize(obj))) dialog = FilePickerDialog( f"Save {legend} as json", apply_button_label="Save", click_apply_handler=lambda filename, dirname: on_click_save(dialog, filename, dirname, value), ) dialog.show() self._debug_window = ui.Window("omni.kit.menu.utils debug", width=600) with self._debug_window.frame: with ui.VStack(): menu_instance = omni.kit.menu.utils.get_instance() menu_creator = None if menu_instance: ui.Label(f"omni.kit.menu.utils - Alive", height=20) menu_creator = menu_instance._menu_creator else: ui.Label(f"omni.kit.menu.utils - Shut Down", height=20) legacy_mode = omni.kit.ui.using_legacy_mode() ui.Label(f"omni.kit.ui.get_editor_menu() -> omni.kit.menu.utils: {not legacy_mode}", height=20) if menu_creator: ui.Label(f"omni.kit.menu.utils - Creator: {menu_creator.__class__.__name__}", height=20) else: ui.Label(f"omni.kit.menu.utils - Creator: Not Found", height=20) ui.Spacer(height=8) open_stat_frame = False stat_frame = ui.CollapsableFrame(title="Debug Stats", collapsed=True, style=CollapsableFrame_style, height=12) with stat_frame: with ui.VStack(): debug_stats = omni.kit.menu.utils.get_debug_stats() for stat in debug_stats.keys(): name = stat.replace("_", " ").title() if stat == "extension_loaded_count": if debug_stats[stat] != 1: open_stat_frame = True ui.Label(f" {name}: {debug_stats[stat]}", height=18, style={"color": cl.red if open_stat_frame else cl.white}) else: ui.Label(f" {name}: {debug_stats[stat]}", height=18, style={"color": cl.white}) open_menu_frame = False if menu_creator: ui.Spacer(height=8) if menu_creator.__class__.__name__ == "AppMenu": menu_frame = ui.CollapsableFrame(title="ui.Menu", collapsed=True, style=CollapsableFrame_style, height=12) with menu_frame: with ui.VStack(): menu_chain = menu_creator._main_menus if not menu_chain or not all(k in menu_chain for k in ["File", "Edit", "Window", "Help"]): ui.Label(f" ERROR MISSING MENUS", height=20, style={"color": cl.red}) open_menu_frame = True for key in menu_chain.keys(): if menu_chain[key].visible == False: open_menu_frame = True ui.Label(f" {key} visible:{menu_chain[key].visible}", height=20, style={"color": cl.white if menu_chain[key].visible else cl.red}) ui.Spacer(height=8) menu_layout = omni.kit.menu.utils.get_menu_layout() merged_menus = omni.kit.menu.utils.get_merged_menus() show_dict_data("Menu Layout", menu_layout) show_dict_data("Menus", merged_menus) ui.Button("Refresh Window", clicked_fn=lambda: asyncio.ensure_future(refresh_debug_window(False)), height=24) ui.Button("Rebuild Menus", clicked_fn=lambda: asyncio.ensure_future(refresh_debug_window(True)), height=24) ui.Spacer(height=30) if open_stat_frame: stat_frame.collapsed = False if open_menu_frame: menu_frame.collapsed = False	9,026	Python	42.820388	200	0.536339
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/builder_utils.py	import carb import omni.kit.ui from typing import Callable, Tuple, Union, List from omni import ui def get_menu_name(menu_entry): if menu_entry.name_fn: try: return f"{menu_entry.name_fn()}" except Exception as exc: carb.log_warn(f"get_menu_name error:{str(exc)}") return f"{menu_entry.name}" def get_action_path(action_prefix: str, menu_entry_name: str): if not menu_entry_name: return action_prefix.replace(" ", "_").replace("/", "_").replace(".", "") return f"{action_prefix}/{menu_entry_name}".replace(" ", "_").replace("/", "_").replace(".", "") def has_delegate_func(delegate, func_name): return bool(delegate and hasattr(delegate, func_name) and callable(getattr(delegate, func_name))) def create_prebuild_entry(prebuilt_menus: dict, prefix_name: str, action_prefix: str): if not action_prefix in prebuilt_menus: # prefix_name cannot be "" as creating submenus with "" causes problems prebuilt_menus[action_prefix] = {} prebuilt_menus[action_prefix]["items"] = [] prebuilt_menus[action_prefix]["prefix_name"] = prefix_name if prefix_name else "Empty" prebuilt_menus[action_prefix]["remapped"] = [] prebuilt_menus[action_prefix]["action_prefix"] = action_prefix class PrebuiltItemOrder: UNORDERED = 0x7FFFFFFF LAYOUT_ORDERED = 0x00000000 LAYOUT_SUBMENU_SORTED = 0x00001000 LAYOUT_ITEM_SORTED = 0x00002000 class MenuAlignment: DEFAULT = 0 RIGHT = 1 class LayoutSourceSearch: EVERYWHERE = 0 LOCAL_ONLY = 1 class MenuItemDescription: """ name is name shown on menu. (if name is "" then a menu spacer is added. Can be combined with show_fn) glyph is icon shown on menu header is True/False to show seperator above item hotkey hotkey for menu item enabled enabled True/False is item enabled ticked menu item is ticked when True sub_menu is sub menu to this menu name_fn is function to get menu name show_fn funcion or list of functions used to decide if menu item is shown. All functions must return True to show enable_fn funcion or list of functions used to decide if menu item is enabled. All functions must return True to be enabled onclick_action action called when user clicks menu item unclick_action action called when user releases click on menu item onclick_fn function called when user clicks menu item (deprecated) unclick_fn function called when user releases click on menu item (deprecated) onclick_right_fn function called when user right clicks menu item (deprecated) ticked_fn funcion or list of functions used to decide if menu item is ticked appear_after is name of menu item to insert after. Used for appending menus, can be a list or string user is user dictonary that is passed to menu """ MAX_DEPTH = 16 def __init__( self, name: str = "", glyph: str = "", header: str = None, appear_after: Union[list, str] = "", enabled: bool = True, ticked: bool = False, ticked_value: Union[bool, None] = None, sub_menu=None, hotkey: Tuple[int, int] = None, name_fn: Callable = None, show_fn: Callable = None, enable_fn: Callable = None, ticked_fn: Callable = None, onclick_action: Tuple = None, unclick_action: Tuple = None, onclick_fn: Callable = None, # deprecated unclick_fn: Callable = None, # deprecated onclick_right_fn: Callable = None, # deprecated original_svg_color: bool = False, # deprecated - only used for editor_menu original_menu_item = None, # private for hotkey processing user = {} ): self._on_delete_funcs = [] self._on_hotkey_update_funcs = [] # don't allow unnamed submenus as causes Menu problems if name == "" and sub_menu: self.name = "SubMenu" else: self.name = name self.glyph = glyph self.header = header self.appear_after = appear_after self.ticked = True if ticked or ticked_value is not None or ticked_fn is not None else False self.ticked_value = ticked_value self.enabled = enabled self.sub_menu = sub_menu self.name_fn = name_fn self.show_fn = show_fn self.enable_fn = enable_fn self.ticked_fn = ticked_fn self.onclick_action = onclick_action self.unclick_action = unclick_action self.set_hotkey(hotkey) self.original_menu_item = original_menu_item self.user = user.copy() # Deprecated self.original_svg_color = original_svg_color self.onclick_fn = onclick_fn self.unclick_fn = unclick_fn self.onclick_right_fn = onclick_right_fn log_deprecated = bool((carb.settings.get_settings().get_as_string("/exts/omni.kit.menu.utils/logDeprecated") or "true") == "true") if log_deprecated and not "shown_deprecated_warning" in self.user: def deprecated_msg(fn_name, func): carb.log_warn(f"Menu item \"{name}\" from {func.__module__} uses {fn_name}") self.user["shown_deprecated_warning"] = True if onclick_fn or unclick_fn or onclick_right_fn or original_svg_color: carb.log_warn(f"******************* MenuItemDescription {name} *******************") if onclick_fn: deprecated_msg("onclick_fn", onclick_fn) if unclick_fn: deprecated_msg("unclick_fn", unclick_fn) if onclick_right_fn: deprecated_msg("onclick_right_fn", onclick_right_fn) if original_svg_color: deprecated_msg("original_svg_color", original_svg_color) def add_on_delete_func(self, on_delete_fn: callable): self._on_delete_funcs.append(on_delete_fn) def remove_on_delete_func(self, on_delete_fn: callable): try: self._on_delete_funcs.remove(on_delete_fn) except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_on_delete_func failed {str(exc)}") def add_on_hotkey_update_func(self, hotkey_update_fn: callable): self._on_hotkey_update_funcs.append(hotkey_update_fn) def remove_on_hotkey_update_func(self, hotkey_update_fn: callable): try: self._on_hotkey_update_funcs.remove(hotkey_update_fn) except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_on_hotkey_update_func failed {str(exc)}") def set_hotkey(self, hotkey): self.hotkey = None self.hotkey_text = "" if hotkey: self.hotkey = hotkey self.hotkey_text = self.get_action_mapping_desc().replace("Keyboard::", "") for on_hotkey_update_fn in self._on_hotkey_update_funcs: on_hotkey_update_fn(self) def get_action_mapping_desc(self): if isinstance(self.hotkey, carb.input.GamepadInput): return carb.input.get_string_from_action_mapping_desc(self.hotkey) return carb.input.get_string_from_action_mapping_desc(self.hotkey[1], self.hotkey[0]) def has_action(self): return bool(self.onclick_fn or self.onclick_action or self.unclick_fn or self.unclick_action) def __del__(self): self.original_menu_item = None for on_delete_fn in self._on_delete_funcs: on_delete_fn(self) del self._on_delete_funcs del self._on_hotkey_update_funcs def __repr__(self): return f"<{self.__class__} name:{self.name} user:{self.user}>" def __copy__(self): # as hotkeys are removed on copyed item delete, hotkeys are accessed via original_menu_item as these are not deleted until the menu is removed def get_original(item): original = item.original_menu_item if original: while(original.original_menu_item and original.original_menu_item.original_menu_item): original = original.original_menu_item return original return item sub_menu = self.sub_menu if sub_menu: def copy_sub_menu(sub_menu, new_sub_menu, max_depth=MenuItemDescription.MAX_DEPTH): if max_depth == 0: carb.log_warn(f"Recursive sub_menu {sub_menu} aborting copy") return for sub_item in sub_menu: item = MenuItemDescription(name=sub_item.name, glyph=sub_item.glyph, header=sub_item.header, appear_after=sub_item.appear_after, enabled=sub_item.enabled, ticked=sub_item.ticked, ticked_value=sub_item.ticked_value, sub_menu=None, hotkey=None, name_fn=sub_item.name_fn, show_fn=sub_item.show_fn, enable_fn=sub_item.enable_fn, ticked_fn=sub_item.ticked_fn, onclick_action=sub_item.onclick_action, unclick_action=sub_item.unclick_action, onclick_fn=sub_item.onclick_fn, unclick_fn=sub_item.unclick_fn, onclick_right_fn=sub_item.onclick_right_fn, original_svg_color=sub_item.original_svg_color, original_menu_item=get_original(sub_item), user=sub_item.user) new_sub_menu.append(item) if sub_item.sub_menu: item.sub_menu = [] copy_sub_menu(sub_item.sub_menu, item.sub_menu, max_depth-1) new_sub_menu = [] copy_sub_menu(sub_menu, new_sub_menu) sub_menu = new_sub_menu return MenuItemDescription(name=self.name, glyph=self.glyph, header=self.header, appear_after=self.appear_after, enabled=self.enabled, ticked=self.ticked, ticked_value=self.ticked_value, sub_menu=sub_menu, hotkey=None, name_fn=self.name_fn, show_fn=self.show_fn, enable_fn=self.enable_fn, ticked_fn=self.ticked_fn, onclick_action=self.onclick_action, unclick_action=self.unclick_action, onclick_fn=self.onclick_fn, unclick_fn=self.unclick_fn, onclick_right_fn=self.onclick_right_fn, original_svg_color=self.original_svg_color, original_menu_item=get_original(self), user=self.user) def json_enc(self): values = { "name": self.name, "glyph": self.glyph, "header": self.header, "enabled": self.enabled, "sub_menu": self.sub_menu, "hotkey": self.hotkey, "name_fn": self.name_fn, "show_fn": self.show_fn, "enable_fn": self.enable_fn, "onclick_action": self.onclick_action, "unclick_action": self.unclick_action, "onclick_fn": self.onclick_fn, "unclick_fn": self.unclick_fn, "onclick_right_fn": self.onclick_right_fn, "original_svg_color": self.original_svg_color, "user": self.user} if self.ticked: values["ticked"] = self.ticked values["ticked_value"] = self.ticked_value values["ticked_fn"] = self.ticked_fn if self.appear_after: values["appear_after"] = self.appear_after return {k: v for k, v in values.items() if v is not None} # Make a dict like interface for MenuItemDescription so it can be used as an entry for omni.kit.context_menu # overrides [] and get for read-only access def __getitem__(self, key, default_value=None): return getattr(self, key, default_value) def __contains__(self, key): return self.__getitem__(key) is not None def get(self, key, default_value=None): return self.__getitem__(key, default_value)	13,333	Python	43.744966	150	0.545489
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/app_menu.py	import asyncio import functools import weakref import carb import omni.kit.ui import omni.kit.app from functools import partial from enum import IntFlag, Enum from omni import ui from typing import Callable, Tuple, Any from pathlib import Path from .builder_utils import get_menu_name, get_action_path, create_prebuild_entry, has_delegate_func from .builder_utils import MenuItemDescription, PrebuiltItemOrder, MenuAlignment class MenuItemOrder: FIRST = "@first" LAST = "@last" class MenuState(IntFlag): Invalid = 0 Created = 1 class MenuActionControl(Enum): NONE = "@MenuActionControl.NONE" NODELAY = "@MenuActionControl.NODELAY" class uiMenu(ui.Menu): def __init__(self, args, kwargs): self.glyph = None self.submenu = False self.menu_hotkey_text = None self.menu_checkable = False if "glyph" in kwargs: self.glyph = kwargs["glyph"] del kwargs["glyph"] if "menu_checkable" in kwargs: self.menu_checkable = kwargs["menu_checkable"] del kwargs["menu_checkable"] if "menu_hotkey_text" in kwargs: self.menu_hotkey_text = kwargs["menu_hotkey_text"] del kwargs["menu_hotkey_text"] if "submenu" in kwargs: self.submenu = kwargs["submenu"] del kwargs["submenu"] super().__init__(args, *kwargs, spacing=2, menu_compatibility=False) class uiMenuItem(ui.MenuItem): def __init__(self, args, *kwargs): self.glyph = None self.submenu = False self.menu_hotkey_text = None self.menu_checkable = False if "glyph" in kwargs: self.glyph = kwargs["glyph"] del kwargs["glyph"] if "menu_checkable" in kwargs: self.menu_checkable = kwargs["menu_checkable"] del kwargs["menu_checkable"] if "menu_hotkey_text" in kwargs: self.menu_hotkey_text = kwargs["menu_hotkey_text"] del kwargs["menu_hotkey_text"] super().__init__(args, *kwargs, menu_compatibility=False) class IconMenuDelegate(ui.MenuDelegate): EXTENSION_FOLDER_PATH = Path() ICON_PATH = EXTENSION_FOLDER_PATH.joinpath("data/icons") ICON_SIZE = 14 TICK_SIZE = 14 TICK_SPACING = [3, 6] MARGIN_SIZE = [4, 4] ROOT_SPACING = 1 SUBMENU_PRE_SPACING = 5 SUBMENU_SPACING = 4 SUBMENU_ICON_SIZE = 10 ITEM_SPACING = 4 ICON_SPACING = 4 HOTKEY_SPACING = [8, 108] COLOR_LABEL_ENABLED = 0xFFCCCCCC COLOR_LABEL_DISABLED = 0xFF6F6F6F COLOR_TICK_ENABLED = 0xFFCCCCCC COLOR_TICK_DISABLED = 0xFF4F4F4F COLOR_SEPARATOR = 0xFF6F6F6F # doc compiler breaks if `omni.kit.app.get_app()` or `carb.settings.get_settings()` is called try: EXTENSION_FOLDER_PATH = Path(omni.kit.app.get_app().get_extension_manager().get_extension_path_by_module(__name__)) ICON_PATH = EXTENSION_FOLDER_PATH.joinpath("data/icons") ICON_SIZE = carb.settings.get_settings().get("exts/omni.kit.menu.utils/icon_size") TICK_SIZE = carb.settings.get_settings().get("exts/omni.kit.menu.utils/tick_size") TICK_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/tick_spacing") MARGIN_SIZE = carb.settings.get_settings().get("exts/omni.kit.menu.utils/margin_size") ROOT_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/root_spacing") SUBMENU_PRE_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/submenu_pre_spacing") SUBMENU_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/submenu_spacing") SUBMENU_ICON_SIZE = carb.settings.get_settings().get("exts/omni.kit.menu.utils/submenu_icon_size") ITEM_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/item_spacing") ICON_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/icon_spacing") HOTKEY_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/hotkey_spacing") COLOR_LABEL_ENABLED = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_label_enabled") COLOR_LABEL_DISABLED = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_label_disabled") COLOR_TICK_ENABLED = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_tick_enabled") COLOR_TICK_DISABLED = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_tick_disabled") COLOR_SEPARATOR = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_separator") except Exception as exc: carb.log_warn(f"IconMenuDelegate: failed to get EXTENSION_FOLDER_PATH and defaults {exc}") MENU_STYLE = {"Label::Enabled": {"margin_width": MARGIN_SIZE[0], "margin_height": MARGIN_SIZE[1], "color": COLOR_LABEL_ENABLED}, "Label::Disabled": {"margin_width": MARGIN_SIZE[0], "margin_height": MARGIN_SIZE[1], "color": COLOR_LABEL_DISABLED}, "Image::Icon": {"margin_width": 0, "margin_height": 0, "color": COLOR_LABEL_ENABLED}, "Image::SubMenu": {"image_url": f"{ICON_PATH}/subdir.svg", "margin_width": 0, "margin_height": 0, "color": COLOR_LABEL_ENABLED}, "Image::TickEnabled": {"image_url": f"{ICON_PATH}/checked.svg", "margin_width": 0, "margin_height": 0, "color": COLOR_TICK_ENABLED}, "Image::TickDisabled": {"image_url": f"{ICON_PATH}/checked.svg", "margin_width": 0, "margin_height": 0, "color": COLOR_TICK_DISABLED}, "Menu.Separator": { "color": COLOR_SEPARATOR }, } def build_item(self, item: ui.Menu): if isinstance(item, ui.Separator): with ui.HStack(height=0, style=IconMenuDelegate.MENU_STYLE): return super().build_item(item) with ui.HStack(height=0, style=IconMenuDelegate.MENU_STYLE): if not (isinstance(item, uiMenu) and not item.submenu): ui.Spacer(width=IconMenuDelegate.ITEM_SPACING) else: ui.Spacer(width=IconMenuDelegate.ROOT_SPACING) # build tick if item.menu_checkable: ui.Spacer(width=IconMenuDelegate.TICK_SPACING[0]) if item.checkable: ui.Image("", width=IconMenuDelegate.TICK_SIZE, name="TickEnabled" if item.checked else "TickDisabled") else: ui.Spacer(width=IconMenuDelegate.TICK_SIZE) ui.Spacer(width=IconMenuDelegate.TICK_SPACING[1]) # build glyph if item.glyph: glyph_path = item.glyph if "/" in item.glyph.replace("\\", "/") else carb.tokens.get_tokens_interface().resolve("${glyphs}/"+ item.glyph) ui.Spacer(width=IconMenuDelegate.ICON_SPACING) ui.Image(glyph_path, width=IconMenuDelegate.ICON_SIZE, name="Icon") ui.Spacer(width=IconMenuDelegate.ICON_SPACING) # build label if isinstance(item, uiMenu): ui.Label(f"{item.text}", height=IconMenuDelegate.ICON_SIZE, name="Enabled" if item.enabled else "Disabled") ui.Spacer(width=IconMenuDelegate.ROOT_SPACING) else: ui.Label(f"{item.text} ", height=IconMenuDelegate.ICON_SIZE, name="Enabled" if item.enabled else "Disabled") # build hotkey text if item.hotkey_text: ui.Spacer(width=IconMenuDelegate.HOTKEY_SPACING[0]) ui.Label(item.hotkey_text.title(), height=IconMenuDelegate.ICON_SIZE, name="Disabled", width=100) elif item.menu_hotkey_text: ui.Spacer(width=IconMenuDelegate.HOTKEY_SPACING[1]) # build subdir marker if item.submenu: ui.Spacer(width=IconMenuDelegate.SUBMENU_PRE_SPACING) ui.Image("", width=IconMenuDelegate.SUBMENU_ICON_SIZE, name="SubMenu") ui.Spacer(width=IconMenuDelegate.SUBMENU_SPACING) class AppMenu(): def __init__(self, get_instance: callable): from omni.kit.mainwindow import get_main_window self._get_instance = get_instance self._menu_hooks = [] self._active_menus = {} self._main_menus = {} self.set_right_padding(0) self._dirty_menus = set() self._stats = omni.kit.menu.utils.get_debug_stats() if not "triggered_refresh" in self._stats: self._stats["triggered_refresh"] = 0 # setup window self._menu_bar = get_main_window().get_main_menu_bar() self._menu_bar.visible = True def destroy(self): for action_path in self._active_menus: self._active_menus[action_path] = None del self._active_menus self._active_menus = {} self._main_menus = {} self._menu_bar.clear() self._menu_bar = None def add_hook(self, callback: Callable): self._menu_hooks.append(callback) def remove_hook(self, callback: Callable): try: self._menu_hooks.remove(callback) except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_hook failed {exc}") def merge_menus(self, menu_keys: list, menu_defs: list, menu_order: list, delegates: dict={}): merged_menu = {} def order_sort(name): if name in menu_order: return menu_order[name] return 0 def get_item_menu_index(menu: list, name: str): for index, item in enumerate(menu): if item.name == name: return index return -1 def process_part(name, part): used = False if isinstance(part.appear_after, list): for after in part.appear_after: if after == MenuItemOrder.FIRST: merged_menu[name].insert(0, part) used = True break elif after == MenuItemOrder.LAST: merged_menu[name].append(part) used = True break index = get_item_menu_index(merged_menu[name], after) if index != -1: merged_menu[name].insert(index + 1, part) used = True break else: index = get_item_menu_index(merged_menu[name], part.appear_after) if index != -1: merged_menu[name].insert(index + 1, part) used = True return used def get_items(sorted_keys, use_appear_after): appear_after_retries = [] for name in sorted_keys: if not name in merged_menu: merged_menu[name] = [] for parts in menu_defs[name]: for part in parts: if part.appear_after: if use_appear_after: used = process_part(name, part) if not used: appear_after_retries.append((name, part)) elif not use_appear_after: merged_menu[name].append(part) for name, part in appear_after_retries: used = process_part(name, part) if not used: carb.log_verbose(f"Warning: menu item failed to find appear_after index {part.appear_after}") merged_menu[name].append(part) # order using menu_order sorted_keys = list(menu_keys) if menu_order: sorted_keys.sort(key=order_sort) # get menu non-appear_after items & appear_after items get_items(sorted_keys, False) get_items(sorted_keys, True) for hook_fn in self._menu_hooks: hook_fn(merged_menu) # prebuild menus so layout can be applied before building self._prebuilt_menus = {} for name in merged_menu.keys(): self.prebuild_menu(merged_menu[name], name, get_action_path(name, None), delegates[name][0] if name in delegates else None) prebuilt_menus = self._prebuilt_menus self._prebuilt_menus = None self.get_menu_layout().apply_layout(prebuilt_menus) return prebuilt_menus def prebuild_menu(self, menus, prefix_name, action_prefix, delegate): try: import copy def prebuild_menu(entry, prefix_name, action_prefix): item = copy.copy(entry) item.user["prebuilt_order"] = PrebuiltItemOrder.UNORDERED # add submenu items to list create_prebuild_entry(self._prebuilt_menus, prefix_name, action_prefix) # check if item already on list, to avoid duplicates duplicate = False if item.name != "": for old_item in self._prebuilt_menus[action_prefix]["items"]: if item.name == old_item.name: duplicate = True break if not duplicate: # prefix_name cannot be "" as creating submenus with "" causes problems self._prebuilt_menus[action_prefix]["items"].append(item) self._prebuilt_menus[action_prefix]["prefix_name"] = prefix_name if prefix_name else "Empty" self._prebuilt_menus[action_prefix]["remapped"] = [] self._prebuilt_menus[action_prefix]["action_prefix"] = action_prefix self._prebuilt_menus[action_prefix]["menu_alignment"] = MenuAlignment.DEFAULT self._prebuilt_menus[action_prefix]["delegate"] = delegate if has_delegate_func(delegate, "get_menu_alignment"): self._prebuilt_menus[action_prefix]["menu_alignment"] = delegate.get_menu_alignment() if item.sub_menu and entry.name: sub_prefix = get_menu_name(entry) sub_action = get_action_path(action_prefix, entry.name) for sub_item in item.sub_menu: prebuild_menu(sub_item, sub_prefix, sub_action) self._prebuilt_menus[sub_action]["sub_menu"] = True item.sub_menu = sub_action for menu_entry in menus: prebuild_menu(menu_entry, prefix_name, action_prefix) except Exception as e: carb.log_error(f"Error {e} creating menu {menu_entry}") import traceback, sys traceback.print_exc(file=sys.stdout) def get_menu_layout(self): instance = self._get_instance() if instance: return instance.get_menu_layout() return None def get_fn_result(self, menu_entry: MenuItemDescription, name: str, default: bool=True): fn = getattr(menu_entry, name) if not fn: return default if isinstance(fn, list): for fn_item in fn: if fn_item and not fn_item(): return False else: if fn and not fn(): return False return default def get_menu_data(self): instance = self._get_instance() if instance: return instance.get_menu_data() return None, None, None def set_right_padding(self, padding): self._right_padding = padding def create_menu(self): menu_defs, menu_order, delegates = self.get_menu_data() self._menu_bar.clear() self._active_menus = {} self._main_menus = {} self._visible_menus = {} self._last_item = {} menus = self.merge_menus(menu_defs.keys(), menu_defs, menu_order, delegates) right_menus = [] with self._menu_bar: for name in menus.keys(): if not "sub_menu" in menus[name]: if menus[name]["menu_alignment"] == MenuAlignment.RIGHT: right_menus.append(name) else: self._build_menu(menus[name], menus, True) if right_menus: ui.Spacer().identifier = "right_aligned_menus" for name in right_menus: self._build_menu(menus[name], menus, True) ui.Spacer(width=self._right_padding).identifier = "right_padding" for key in self._main_menus.keys(): if key not in self._visible_menus: self._main_menus[key].visible = False if key in self._last_item: if isinstance(self._last_item[key], ui.Separator): self._last_item[key].visible = False self._last_item = None self._visible_menus = None return menus def refresh_menu_items(self, name: str): self._dirty_menus.add(name) def _submenu_is_shown(self, action_prefix: str, visible: bool, delegate: Any, refresh :bool): if action_prefix in self._main_menus: self._main_menus[action_prefix].visible = visible if has_delegate_func(delegate, "update_menu_item"): delegate.update_menu_item(self._main_menus[action_prefix], refresh) # update to use new prebuild/layouts def _refresh_menu(self, prebuilt_menus, prebuilt_menus_root, visible_override=None): menus = prebuilt_menus["items"] prefix_name = prebuilt_menus["prefix_name"] action_prefix = prebuilt_menus["action_prefix"] delegate = prebuilt_menus["delegate"] if "delegate" in prebuilt_menus else None visible_count = 0 for menu_entry in sorted(menus, key=lambda a: a.user["prebuilt_order"]): try: menu_name = get_menu_name(menu_entry) action_path = (get_action_path(action_prefix, menu_entry.name)) enabled = menu_entry.enabled value = menu_entry.ticked_value visible = True if menu_entry.enable_fn: enabled = self.get_fn_result(menu_entry, "enable_fn") if menu_entry.ticked_fn: value = self.get_fn_result(menu_entry, "ticked_fn") if menu_entry.show_fn: visible = self.get_fn_result(menu_entry, "show_fn") # handle sub_menu before action_path/active_menus can skip it if menu_entry.sub_menu and menu_entry.sub_menu in prebuilt_menus_root: visible = self._refresh_menu(prebuilt_menus_root[menu_entry.sub_menu], prebuilt_menus_root, self.get_fn_result(menu_entry, "show_fn", None)) # update visibility if visible_override is not None: visible = visible_override visible_count += 1 if visible else 0 self._submenu_is_shown(menu_entry.sub_menu, visible, delegate, True) continue if not action_path in self._active_menus: continue item = self._active_menus[action_path] item.enabled = enabled item.checked = value item.visible = visible if has_delegate_func(delegate, "update_menu_item"): delegate.update_menu_item(item, True) visible_count += 1 if item.visible else 0 except Exception as e: carb.log_error(f"Error {e} refreshing menu {menu_entry}") import traceback, sys traceback.print_exc(file=sys.stdout) return bool(visible_count > 0) def _build_menu(self, prebuilt_menus, prebuilt_menus_root, is_root_menu, visible_override=None, menu_checkable=False, menu_hotkey_text=False, glyph=None) -> int: def on_triggered(): if self._dirty_menus: self._stats["triggered_refresh"] += 1 menu_defs, menu_order, menu_delegates = self.get_menu_data() menus = self.merge_menus(menu_defs.keys(), menu_defs, menu_order) for name in self._dirty_menus: action_path = get_action_path(name, None) if action_path in menus: self._refresh_menu(menus[action_path], menus) for remapped in menus[action_path]["remapped"]: self._refresh_menu(menus[remapped], menus) self._dirty_menus.clear() def prep_menu(main_menu, prefix_name: str, action_prefix: str, visible: bool, delegate: callable, glyph: str, menu_checkable: bool, menu_hotkey_text: bool): if not action_prefix in main_menu: main_menu[action_prefix] = uiMenu(prefix_name, visible=visible, delegate=delegate, glyph=glyph, menu_checkable=menu_checkable, menu_hotkey_text=menu_hotkey_text, submenu=not is_root_menu) if is_root_menu: main_menu[action_prefix].set_triggered_fn(on_triggered) menus = prebuilt_menus["items"] prefix_name = prebuilt_menus["prefix_name"] action_prefix = prebuilt_menus["action_prefix"] delegate = prebuilt_menus["delegate"] if "delegate" in prebuilt_menus else None visible_count = 0 icon_delegate = IconMenuDelegate() # this menu item is built with menu_checkable passed via caller prep_menu(self._main_menus, prefix_name, action_prefix, True if visible_override is None else visible_override, delegate if delegate else icon_delegate, glyph, menu_checkable, menu_hotkey_text) # get delegate for icons menu_hotkey_text = False menu_checkable = False for menu_entry in sorted(menus, key=lambda a: a.user["prebuilt_order"]): if menu_entry.ticked: menu_checkable = True if menu_entry.original_menu_item and menu_entry.original_menu_item.hotkey: menu_hotkey_text = True with self._main_menus[action_prefix]: for menu_entry in sorted(menus, key=lambda a: a.user["prebuilt_order"]): try: item = None menu_name = get_menu_name(menu_entry) action_path = (get_action_path(action_prefix, menu_entry.name)) on_lmb_click = None if menu_entry.onclick_action and menu_entry.unclick_action: def on_hotkey_action(onclick_action, unclick_action): self._execute_action(onclick_action) self._execute_action(unclick_action) on_lmb_click = lambda oca=menu_entry.onclick_action, uca=menu_entry.unclick_action: on_hotkey_action(oca, uca) elif menu_entry.onclick_action: on_lmb_click = lambda oca=menu_entry.onclick_action: self._execute_action(oca) elif menu_entry.onclick_fn and menu_entry.unclick_fn: def on_hotkey_click(): menu_entry.onclick_fn() menu_entry.unclick_fn() on_lmb_click = on_hotkey_click else: on_lmb_click = menu_entry.onclick_fn hotkey = None if menu_entry.original_menu_item: hotkey = menu_entry.original_menu_item.hotkey enabled = menu_entry.enabled ticked = menu_entry.ticked value = menu_entry.ticked_value visible = True if menu_entry.enable_fn: enabled = self.get_fn_result(menu_entry, "enable_fn") if menu_entry.ticked_fn: value = self.get_fn_result(menu_entry, "ticked_fn") if menu_entry.show_fn: visible = self.get_fn_result(menu_entry, "show_fn") if menu_entry.name and menu_entry.sub_menu: if menu_entry.sub_menu in prebuilt_menus_root: self._visible_menus[action_prefix] = visible visible = self._build_menu(prebuilt_menus_root[menu_entry.sub_menu], prebuilt_menus_root, False, self.get_fn_result(menu_entry, "show_fn", None), menu_checkable, menu_hotkey_text, menu_entry.glyph) if visible_override is not None: visible = visible_override visible_count += 1 if visible else 0 self._submenu_is_shown(menu_entry.sub_menu, visible, delegate, False) continue elif menu_entry.header != None: if action_prefix in self._last_item: if isinstance(self._last_item[action_prefix], ui.Separator): # last thing was a Separator, change the text to new value self._last_item[action_prefix].text = menu_entry.header else: item = ui.Separator(menu_entry.header) else: item = ui.Separator(menu_entry.header) elif menu_entry.name == "": if action_prefix in self._last_item: if action_prefix in self._last_item and not isinstance(self._last_item[action_prefix], ui.Separator): item = ui.Separator() else: item = ui.Separator() else: item = uiMenuItem(menu_name, triggered_fn=on_lmb_click if on_lmb_click else None, checkable=ticked, checked=value, enabled=enabled, visible=visible, style=menu_entry.user.get("user_style", {}), delegate=icon_delegate, glyph=menu_entry.glyph, menu_checkable=menu_checkable, menu_hotkey_text=menu_hotkey_text) if has_delegate_func(delegate, "update_menu_item"): delegate.update_menu_item(item, False) self._active_menus[action_path] = item if hotkey: item.hotkey_text = " " + menu_entry.original_menu_item.hotkey_text setup_hotkey = True try: import omni.kit.hotkeys.core # Always setup hotkey because hotkey may changed setup_hotkey = True except ImportError: if hasattr(menu_entry.original_menu_item, "_action_setting_sub_id"): setup_hotkey = False if setup_hotkey: hotkey_text = self._setup_hotkey(menu_entry.original_menu_item, action_path) if hotkey_text is not None: item.hotkey_text = hotkey_text if item: self._last_item[action_prefix] = item self._visible_menus[action_prefix] = visible visible_count += 1 if visible else 0 except Exception as e: carb.log_error(f"Error {e} creating menu {menu_entry}") import traceback, sys traceback.print_exc(file=sys.stdout) return bool(visible_count > 0) def _execute_action(self, action: Tuple): if not action: return async_delay = True # check for MenuActionControl in action & remove actioncontrol_list = [e for e in MenuActionControl] if any(a in action for a in actioncontrol_list): if MenuActionControl.NODELAY in action: async_delay = False action = tuple([item for item in action if item not in actioncontrol_list]) try: import omni.kit.actions.core import omni.kit.app if async_delay: async def execute_action(action): await omni.kit.app.get_app().next_update_async() omni.kit.actions.core.execute_action(action) # omni.ui can sometimes crash is menu callback does ui calls. # To avoid this, use async function with frame delay asyncio.ensure_future(execute_action(action)) else: omni.kit.actions.core.execute_action(action) except ModuleNotFoundError: carb.log_warn(f"menu_action: error omni.kit.actions.core not loaded") except Exception as exc: carb.log_warn(f"menu_action: error {exc}") def _setup_hotkey(self, menu_entry: MenuItemDescription, action_path: str) -> str: def action_trigger(on_action_pressed_fn, on_action_release_fn, evt, _): if evt.flags & carb.input.BUTTON_FLAG_PRESSED: if on_action_pressed_fn: on_action_pressed_fn() elif on_action_release_fn: on_action_release_fn() if not menu_entry.hotkey: return None self._clear_hotkey(menu_entry) self._unregister_hotkey(menu_entry) import omni.appwindow appwindow = omni.appwindow.get_default_app_window() input = carb.input.acquire_input_interface() settings = carb.settings.get_settings() action_mapping_set_path = appwindow.get_action_mapping_set_path() action_mapping_set = input.get_action_mapping_set_by_path(action_mapping_set_path) input_string = menu_entry.get_action_mapping_desc() menu_entry._action_setting_input_path = action_mapping_set_path + "/" + action_path + "/0" settings.set_default_string(menu_entry._action_setting_input_path, input_string) if menu_entry.onclick_action: try: from omni.kit.hotkeys.core import get_hotkey_registry if not get_hotkey_registry(): raise ImportError current_action_triggger = None self._register_hotkey(menu_entry) menu_entry.add_on_hotkey_update_func(lambda me, a=action_path: self._setup_hotkey(me, a)) if hasattr(menu_entry, "_pressed_hotkey"): return menu_entry._pressed_hotkey.key_text if menu_entry._pressed_hotkey else "" elif hasattr(menu_entry, "_released_hotkey"): return menu_entry._released_hotkey.key_text if menu_entry._released_hotkey else "" else: return None except ImportError: current_action_triggger = functools.partial(action_trigger, lambda oca=menu_entry.onclick_action: self._execute_action(oca), lambda uca=menu_entry.unclick_action: self._execute_action(uca)) else: current_action_triggger = functools.partial(action_trigger, menu_entry.onclick_fn, menu_entry.unclick_fn) if current_action_triggger: menu_entry._action_setting_sub_id = input.subscribe_to_action_events(action_mapping_set, action_path, current_action_triggger) menu_entry.add_on_delete_func(self._clear_hotkey) menu_entry.add_on_hotkey_update_func(lambda me, a=action_path: self._setup_hotkey(me, a)) # menu needs to refresh when self._action_setting_input_path changes def hotkey_changed(changed_item: carb.dictionary.Item, change_event_type: carb.settings.ChangeEventType, weak_entry: weakref, action_path: str): import carb.input def set_hotkey_text(action_path, hotkey_text, active_menu_text): menu_entry.hotkey_text = hotkey_text if action_path in self._active_menus: self._active_menus[action_path].hotkey_text = active_menu_text menu_entry = weak_entry() if not menu_entry: return # "changed_item" was DESTROYED, so remove hotkey if change_event_type == carb.settings.ChangeEventType.DESTROYED: set_hotkey_text(action_path, "", "") return hotkey_mapping = changed_item.get_dict() if isinstance(hotkey_mapping, str): set_hotkey_text(action_path, hotkey_mapping.replace("Keyboard::", ""), " " + menu_entry.hotkey_text) else: set_hotkey_text(action_path, "", "") menu_entry._action_setting_changed_sub = settings.subscribe_to_node_change_events(menu_entry._action_setting_input_path, lambda ci, ev, m=weakref.ref(menu_entry), a=action_path: hotkey_changed(ci, ev, m, a)) return None def _clear_hotkey(self, menu_entry): if hasattr(menu_entry, "_action_setting_sub_id"): try: input = carb.input.acquire_input_interface() input.unsubscribe_to_action_events(menu_entry._action_setting_sub_id) del menu_entry._action_setting_sub_id settings = carb.settings.get_settings() settings.unsubscribe_to_change_events(menu_entry._action_setting_changed_sub) del menu_entry._action_setting_changed_sub del menu_entry._action_setting_input_path except: pass def _register_hotkey(self, menu_entry: MenuItemDescription): try: from omni.kit.hotkeys.core import get_hotkey_registry, KeyCombination hotkey_registry = get_hotkey_registry() if not hotkey_registry: raise ImportError HOTKEY_EXT_ID = "omni.kit.menu.utils" if menu_entry.onclick_action: key = KeyCombination(menu_entry.hotkey[1], modifiers=menu_entry.hotkey[0]) menu_entry._pressed_hotkey = hotkey_registry.register_hotkey(HOTKEY_EXT_ID, key, menu_entry.onclick_action[0], menu_entry.onclick_action[1]) if menu_entry.unclick_action: key = KeyCombination(menu_entry.hotkey[1], modifiers=menu_entry.hotkey[0], trigger_press=False) menu_entry._released_hotkey = hotkey_registry.register_hotkey(HOTKEY_EXT_ID, key, menu_entry.unclick_action[0], menu_entry.unclick_action[1]) menu_entry.add_on_delete_func(self._unregister_hotkey) except ImportError: pass def _unregister_hotkey(self, menu_entry: MenuItemDescription): try: from omni.kit.hotkeys.core import get_hotkey_registry hotkey_registry = get_hotkey_registry() if hotkey_registry: if hasattr(menu_entry, "_pressed_hotkey"): if menu_entry._pressed_hotkey: hotkey_registry.deregister_hotkey(menu_entry._pressed_hotkey) if hasattr(menu_entry, "_released_hotkey"): if menu_entry._released_hotkey: hotkey_registry.deregister_hotkey(menu_entry._released_hotkey) if hasattr(menu_entry, "__hotkey_changed_event_sub"): menu_entry.__hotkey_changed_event_sub = None except ImportError: pass	35,928	Python	46.399736	331	0.563933
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/__init__.py	from .utils import * from .debug_window import *	49	Python	15.666661	27	0.734694
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/utils.py	import asyncio import functools import carb import carb.settings import omni.ext import omni.kit.app from functools import partial from typing import Callable, Tuple, Union, List from .actions import add_action_to_menu, ActionMenuSubscription from .layout import MenuLayout from .builder_utils import MenuItemDescription, PrebuiltItemOrder, MenuAlignment, LayoutSourceSearch from .app_menu import MenuItemOrder, MenuState, MenuActionControl, IconMenuDelegate _extension_instance = None class MenuUtilsExtension(omni.ext.IExt): def __init__(self): super().__init__() self._menu_defs = {} self._menu_delegates = {} self._menu_order = {} self._master_menu = {} self._ready_state = MenuState.Invalid self._menus_to_refresh = set() self._refresh_task = None # debug stats self._stats = {} self._stats["add_menu_items"] = 0 self._stats["remove_menu_items"] = 0 self._stats["add_hook"] = 0 self._stats["remove_hook"] = 0 self._stats["add_layout"] = 0 self._stats["remove_layout"] = 0 self._stats["refresh_menu_items"] = 0 self._stats["refresh_menu_items_skipped"] = 0 self._stats["rebuild_menus"] = 0 self._stats["rebuild_menus_skipped"] = 0 def on_startup(self, ext_id): global _extension_instance _extension_instance = self LOADED_EXTENSION_COUNT_MENU = "/exts/omni.kit.menu.utils/loaded_extension_count" settings = carb.settings.get_settings() settings.set_default_int(LOADED_EXTENSION_COUNT_MENU, 0) loaded_extension_count = settings.get(LOADED_EXTENSION_COUNT_MENU) + 1 settings.set(LOADED_EXTENSION_COUNT_MENU, loaded_extension_count) self._menu_creator = None self._menu_layout = MenuLayout() self._hooks = [] self._stats["extension_loaded_count"] = loaded_extension_count ext_manager = omni.kit.app.get_app_interface().get_extension_manager() # Hook to extension enable/disable # to setup hotkey with different ways with omni.kit.hotkeys.core enabled/disabled hooks = ext_manager.get_hooks() self.__extension_enabled_hook = hooks.create_extension_state_change_hook( self.__on_ext_changed, omni.ext.ExtensionStateChangeType.AFTER_EXTENSION_ENABLE ) self.__extension_disabled_hook = hooks.create_extension_state_change_hook( self.__on_ext_changed, omni.ext.ExtensionStateChangeType.AFTER_EXTENSION_DISABLE ) mainwindow_loaded = next( ( ext for ext in ext_manager.get_extensions() if ext["id"].startswith("omni.kit.mainwindow") and ext["enabled"] ), None, ) settings = carb.settings.get_settings() if settings.get("/exts/omni.kit.menu.utils/forceEditorMenu") is not None: carb.log_error(f"omni.kit.menu.utils forceEditorMenu is no longer supported") if mainwindow_loaded: from .app_menu import AppMenu self._menu_creator = AppMenu(lambda: _extension_instance) else: carb.log_info(f"omni.kit.mainwindow is not loaded. Menus are disabled") # if mainwindow loads later, need to refresh menu_creator manager = omni.kit.app.get_app().get_extension_manager() self._hooks.append( manager.subscribe_to_extension_enable( on_enable_fn=lambda _: self._mainwindow_loaded(), on_disable_fn=None, ext_name="omni.kit.mainwindow", hook_name="omni.kit.menu.utils omni.kit.mainwindow listener", ) ) # set app started trigger. refresh_menu_items & rebuild_menus won't do anything until self._ready_state is MenuState.Created self._app_ready_sub = ( omni.kit.app.get_app() .get_startup_event_stream() .create_subscription_to_pop_by_type( omni.kit.app.EVENT_APP_READY, self._build_menus_after_loading, name="omni.kit.menu.utils app started trigger" ) ) def __on_ext_changed(self, ext_id: str, *_): if ext_id.startswith("omni.kit.hotkeys.core"): self.rebuild_menus() def _mainwindow_loaded(self): from .app_menu import AppMenu self._menu_creator = AppMenu(lambda: _extension_instance) self.rebuild_menus() carb.log_info(f"omni.kit.mainwindow is now loaded. Menus are enabled") def _build_menus_after_loading(self, event): self._ready_state = MenuState.Created self._menu_layout.menus_created() self.rebuild_menus() def on_shutdown(self): global _extension_instance _extension_instance = None self.__extension_enabled_hook = None self.__extension_disabled_hook = None if self._menu_creator: self._menu_creator.destroy() del self._menu_creator self._menu_creator = None if self._menu_layout: self._menu_layout.destroy() del self._menu_layout self._menu_layout = None self._menus_to_refresh = None self._refresh_task = None self._menu_defs = None self._menu_delegates = None self._menu_order = None self._hooks = None def add_menu_items(self, menu: list, name: str, menu_index: int, rebuild_menus: bool, delegate = None) -> list: if not menu and delegate: menu = [MenuItemDescription(name="placeholder", show_fn=lambda: False)] if menu and not isinstance(menu[0], MenuItemDescription): carb.log_error(f"add_menu_items: menu {menu} is not a MenuItemDescription") return None self._stats["add_menu_items"] += 1 if not name in self._menu_defs: self._menu_defs[name] = [] self._menu_defs[name].append(menu) if name in self._menu_delegates: _delegate, count = self._menu_delegates[name] if delegate != _delegate: carb.log_warn(f"add_menu_items: menu {menu} cannot change delegate") self._menu_delegates[name] = (_delegate, count + 1) elif delegate: self._menu_delegates[name] = (delegate, 1) if menu_index != 0 and name not in self._menu_order: self._menu_order[name] = menu_index if rebuild_menus: self.rebuild_menus() return menu def set_default_menu_proirity(self, name: str, menu_index: int): if menu_index == 0: return for index in self._menu_order: if self._menu_order[index] == menu_index: return self._menu_order[name] = menu_index def remove_menu_items(self, menu: list, name: str, rebuild_menus: bool): self._stats["remove_menu_items"] += 1 try: if name in self._menu_defs: self._menu_defs[name].remove(menu) if name in self._menu_delegates: delegate, count = self._menu_delegates[name] if count == 1: del self._menu_delegates[name] else: self._menu_delegates[name] = (delegate, count - 1) if rebuild_menus: self.rebuild_menus() except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_menu_items \"{name}\" failed {exc}") def add_hook(self, callback: Callable): self._stats["add_hook"] += 1 if self._menu_creator: self._menu_creator.add_hook(callback) def remove_hook(self, callback: Callable): self._stats["remove_hook"] += 1 try: if self._menu_creator: self._menu_creator.remove_hook(callback) except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_hook failed {exc}") def add_layout(self, layout: List[Union[MenuLayout.Menu, MenuLayout.SubMenu, MenuLayout.Item, MenuLayout.Seperator, MenuLayout.Group]]): self._stats["add_layout"] += 1 self._menu_layout.add_layout(layout) self.rebuild_menus() def remove_layout(self, layout: List[Union[MenuLayout.Menu, MenuLayout.SubMenu, MenuLayout.Item, MenuLayout.Seperator, MenuLayout.Group]]): self._stats["remove_layout"] += 1 self._menu_layout.remove_layout(layout) self.rebuild_menus() def get_merged_menus(self): return self._menu_creator.merge_menus(self._menu_defs.keys(), self._menu_defs, self._menu_order) def refresh_menu_items(self, name: str, immediately: bool = False): if not self._ready_state & MenuState.Created: self._stats["refresh_menu_items_skipped"] += 1 return self._stats["refresh_menu_items"] += 1 if self._menu_creator: self._menu_creator.refresh_menu_items(name) def rebuild_menus(self): if not self._ready_state & MenuState.Created: self._stats["rebuild_menus_skipped"] += 1 return self._stats["rebuild_menus"] += 1 if self._menu_creator: self._menu_creator.create_menu() def get_menu_layout(self): return self._menu_layout def get_menu_data(self): return self._menu_defs, self._menu_order, self._menu_delegates def get_instance(): return _extension_instance def add_menu_items(menu: list, name: str, menu_index: int = 0, rebuild_menus: bool = True, delegate = None): """ add a list of menus items to menu. menu is list of MenuItemDescription() name is name to appear when menu is collapsed menu_index is horizontal positioning rebuild_menus is flag to call rebuild_menus when True delegate ui.MenuDelegate delegate """ instance = get_instance() if instance: return get_instance().add_menu_items(menu, name, menu_index, rebuild_menus, delegate) def remove_menu_items(menu: list, name: str, rebuild_menus: bool = True): """ remove a list of menus items to menu. menu is list of MenuItemDescription() name is name to appear when menu is collapsed rebuild_menus is flag to call rebuild_menus when True """ instance = get_instance() if instance: instance.remove_menu_items(menu, name, rebuild_menus) def refresh_menu_items(name: str, immediately = None): """ update menus enabled state menu is list of MenuItemDescription() name is name to appear when menu is collapsed immediately is deprecated and not used """ instance = get_instance() if instance: carb.log_info(f"omni.kit.menu.utils.refresh_menu_items {name}") if immediately != None: carb.log_warn(f"refresh_menu_items immediately parameter is deprecated and not used") instance.refresh_menu_items(name) def add_hook(callback: Callable): """ add a menu modification callback hook callback is function to be called when menus are re-generated """ instance = get_instance() if instance: instance.add_hook(callback) def remove_hook(callback: Callable): """ remove a menu modification callback hook callback is function to be called when menus are re-generated """ instance = get_instance() if instance: instance.remove_hook(callback) def rebuild_menus(): """ force menus to rebuild, triggering hooks """ instance = get_instance() if instance: carb.log_info(f"omni.kit.menu.utils.rebuild_menus") instance.rebuild_menus() def set_default_menu_proirity(name, menu_index): """ set default menu priority """ instance = get_instance() if instance: instance.set_default_menu_proirity(name, menu_index) def add_layout(layout: List[Union[MenuLayout.Menu, MenuLayout.SubMenu, MenuLayout.Item, MenuLayout.Seperator, MenuLayout.Group]]): """ add a menu layout. """ instance = get_instance() if instance: instance.add_layout(layout) def remove_layout(layout: List[Union[MenuLayout.Menu, MenuLayout.SubMenu, MenuLayout.Item, MenuLayout.Seperator, MenuLayout.Group]]): """ remove a menu layout. """ instance = get_instance() if instance: instance.remove_layout(layout) def get_menu_layout(): """ get menu layouts. """ instance = get_instance() if instance: return instance.get_menu_layout().get_layout() def get_merged_menus() -> dict: """ get combined menus as dictionary """ instance = get_instance() if instance: return instance.get_merged_menus() return None def get_debug_stats() -> dict: instance = get_instance() if instance: return instance._stats return None	12,910	Python	32.710183	143	0.617041
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/actions.py	"""Actions Omniverse Kit API Module to work with Actions in the Kit. It is built on top of ``carb.input`` system that features action mapping logic. """ import omni.kit.ui import omni.appwindow import carb.input import carb.settings from typing import Callable, Tuple import functools class ActionMenuSubscription: """ Action menu subscription wrapper to make it scoped (auto unsubscribe on del) """ def __init__(self, _on_del: Callable): self._on_del = _on_del self._mapped = True def unsubscribe(self): if self._mapped: self._mapped = False self._on_del() def __del__(self): self.unsubscribe() def add_action_to_menu( menu_path: str, on_action: Callable, action_name: str = None, default_hotkey: Tuple[int, int] = None, on_rmb_click: Callable = None, ) -> ActionMenuSubscription: """ Add action to menu path. This function binds passed callable `on_action` function with :mod:`carb.input` action and a menu path together. If `default_hotkey` is provided it is set into settings and appears on the menu. Args: menu_path: menu path. E.g. "File/Open". on_action: function to be called as an action. on_rmb_click: function to be called when right mouse button clicked. action_name: action name. If not provided menu path is used as action, where all '/' are replaced with '-'. default_hotkey(tuple(int, :class:`carb.input.KeyboardInput`)): modifier and key tuple to associate with given action. Returns: Subscription holder object. Action is removed when this object is destroyed. """ return omni.kit.ui.get_editor_menu().add_action_to_menu(menu_path, on_action, action_name, default_hotkey, on_rmb_click) def unsubsribe(): input.unsubscribe_to_action_events(sub_id) menu = omni.kit.ui.get_editor_menu() if menu: menu.set_action(menu_path, action_mapping_set_path, "") return ActionMenuSubscription(unsubsribe)	2,051	Python	31.0625	125	0.665529
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/layout.py	import os import carb import carb.settings from typing import List, Union, Dict from enum import Enum from .builder_utils import get_action_path, create_prebuild_entry from .builder_utils import MenuItemDescription, PrebuiltItemOrder, LayoutSourceSearch class MenuLayout: class MenuLayoutItem: def __init__(self, name=None, source=None, source_search=LayoutSourceSearch.EVERYWHERE): self.name = name self.source = source self.source_search = source_search def __repr__(self): if self.source: return f"<{self.__class__} name:{self.name} source:{self.source}>" return f"<{self.__class__} name:{self.name}>" def json_enc(self): sub_items = {} values = {f"MenuLayout.{self.__class__.__name__}": sub_items} for index in dir(self): if not index.startswith("_"): item = getattr(self, index) if item is not None and not callable(item): sub_items[index] = item return values class Menu(MenuLayoutItem): def __init__(self, name, items=[], source=None, source_search=LayoutSourceSearch.EVERYWHERE, remove=False): super().__init__(name, source, source_search) self.items = items self.remove = remove class SubMenu(MenuLayoutItem): def __init__(self, name, items=[], source=None, source_search=LayoutSourceSearch.EVERYWHERE, remove=False): super().__init__(name, source, source_search) self.items = items self.remove = remove class Item(MenuLayoutItem): def __init__(self, name, source=None, source_search=LayoutSourceSearch.EVERYWHERE, remove=False): super().__init__(name, source, source_search) self.remove = remove class Seperator(MenuLayoutItem): def __init__(self, name=None, source=None, source_search=LayoutSourceSearch.EVERYWHERE): super().__init__(name, source, source_search) class Group(MenuLayoutItem): def __init__(self, name, items=[], source=None, source_search=LayoutSourceSearch.EVERYWHERE): super().__init__(name, source, source_search) self.items = items class Sort(MenuLayoutItem): def __init__(self, name=None, source=None, source_search=LayoutSourceSearch.EVERYWHERE, exclude_items=[], sort_submenus=False): super().__init__(name, source) self.items = exclude_items self.sort_submenus = sort_submenus def __repr__(self): return f"<{self.__class__} items:{self.items}>" def __init__(self, debuglog = False): self._layout_template = [] self._menus_created = False self._debuglog = debuglog def __del__(self): self.destroy() def destroy(self): self._layout_template = None def menus_created(self): self._menus_created = True def add_layout(self, layout: List[MenuLayoutItem]): self._layout_template.append(layout.copy()) def remove_layout(self, layout: List[MenuLayoutItem]): self._layout_template.remove(layout) def get_layout(self): return self._layout_template def apply_layout(self, prebuilt_menus: dict): if not self._menus_created: return menu_layout_lists = self.get_layout() for menu_layout in menu_layout_lists: MenuLayout.process_layout(prebuilt_menus, menu_layout, menu_name=None, submenu_name=None, parent_layout_offset=0, parent_layout_index=PrebuiltItemOrder.UNORDERED, debuglog=self._debuglog) # static functions to prevent self leaks @staticmethod def find_menu_item(menu_items: List, menu_items_root: List, layout_item: MenuLayoutItem): if layout_item.source: if "/" in layout_item.source.replace("\\", "/"): sub_name = get_action_path(os.path.dirname(layout_item.source), "") sub_prefix = os.path.basename(layout_item.source) if sub_name in menu_items_root: menu_subitems = menu_items_root[sub_name]["items"] for item in menu_subitems: if item.name == sub_prefix: return item, menu_subitems, sub_name return None, None, None for item in menu_items: if item.name == layout_item.source: return item, None, None else: for item in menu_items: if item.name == layout_item.name: return item, None, None if layout_item.source_search == LayoutSourceSearch.EVERYWHERE: # not in current menu, search them all.... for sub_name in menu_items_root.keys(): menu_subitems = menu_items_root[sub_name]["items"] for item in menu_subitems: if item.name == layout_item.name: layout_item.source = f"{sub_name}/{layout_item.name}" return item, menu_subitems, sub_name return None, None, None @staticmethod def process_layout(prebuilt_menus: dict, menu_layout:List, menu_name: str, submenu_name: str, parent_layout_offset: int, parent_layout_index: int, debuglog: bool): def item_in_menu(menus, menu_name): for sub_item in menus: if sub_item.name == menu_name: return True return False def create_menu_entry(menu_name, submenu_name): action_prefix = get_action_path(menu_name, submenu_name) if not action_prefix in prebuilt_menus: if menu_name in prebuilt_menus: menu_subitems = prebuilt_menus[menu_name]["items"] # if item not already in submenu, add it if not item_in_menu(menu_subitems, submenu_name): item = MenuItemDescription(submenu_name, sub_menu=action_prefix) item.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + parent_layout_index menu_subitems.append(item) create_prebuild_entry(prebuilt_menus, submenu_name, action_prefix) prebuilt_menus[action_prefix]["sub_menu"] = True for layout_index, layout_item in enumerate(menu_layout): # MenuLayout.Menu if isinstance(layout_item, MenuLayout.Menu): action_prefix = get_action_path(layout_item.name, None) if layout_item.remove: if action_prefix in prebuilt_menus: del prebuilt_menus[action_prefix] elif debuglog: carb.log_warn(f"Warning: Layout item {layout_item} not found in prebuilt_menus") else: # menu doesn't exist, create one if not action_prefix in prebuilt_menus: carb.log_warn(f"Menu {layout_item.name} not found. Create with; (\"menu_index\" controls menu order)") carb.log_warn(f" self._menu_placeholder = omni.kit.menu.utils.add_menu_items([MenuItemDescription(name=\"placeholder\", show_fn=lambda: False)], name=\"{layout_item.name}\", menu_index=90)") continue MenuLayout.process_layout(prebuilt_menus, layout_item.items, layout_item.name, submenu_name, 0, layout_index, debuglog) # MenuLayout.SubMenu elif isinstance(layout_item, MenuLayout.SubMenu): if not menu_name: carb.log_warn(f"Warning: Bad Layout item {layout_item}. Cannot have SubMenu without Menu as parent") if layout_item.remove: action_prefix = get_action_path(menu_name, layout_item.name) if action_prefix in prebuilt_menus: del prebuilt_menus[action_prefix] menu_subitems = prebuilt_menus[menu_name]["items"] for item in menu_subitems: if item.sub_menu == layout_item.name: menu_subitems.remove(item) break elif debuglog: carb.log_warn(f"Warning: Layout item {layout_item} not found in prebuilt_menus") else: action_prefix = get_action_path(menu_name, None) if action_prefix in prebuilt_menus: menu_subitems = prebuilt_menus[action_prefix]["items"] menu_subitem, source_menu, _ = MenuLayout.find_menu_item(menu_subitems, prebuilt_menus, layout_item) if menu_subitem: menu_subitem.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index else: # add submenu item menu_subitem = MenuItemDescription(name=layout_item.name, sub_menu=get_action_path(menu_name, layout_item.name)) menu_subitems.append(menu_subitem) menu_subitem.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index if submenu_name: action_prefix = get_action_path(menu_name, submenu_name) MenuLayout.process_layout(prebuilt_menus, layout_item.items, action_prefix, layout_item.name, parent_layout_offset, layout_index + 1, debuglog) else: MenuLayout.process_layout(prebuilt_menus, layout_item.items, menu_name, layout_item.name, parent_layout_offset, layout_index, debuglog) parent_layout_offset += len(layout_item.items) + 1 # MenuLayout.Item elif isinstance(layout_item, MenuLayout.Item): action_prefix = get_action_path(menu_name, submenu_name) create_menu_entry(menu_name, submenu_name) menu_subitems = prebuilt_menus[action_prefix]["items"] menu_subitem, source_menu, orig_root_menu = MenuLayout.find_menu_item(menu_subitems, prebuilt_menus, layout_item) if not submenu_name and orig_root_menu: prebuilt_menus[orig_root_menu]["remapped"].append(action_prefix) if menu_subitem: menu_subitem.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index if source_menu and source_menu != menu_subitems: menu_subitems.append(menu_subitem) source_menu.remove(menu_subitem) if layout_item.source: menu_subitem.name = layout_item.name else: if layout_item.remove: menu_subitems.remove(menu_subitem) elif layout_item.source: menu_subitem.name = layout_item.name elif debuglog: carb.log_warn(f"Warning: Layout not found {layout_item}") # MenuLayout.Seperator elif isinstance(layout_item, MenuLayout.Seperator): action_prefix = get_action_path(menu_name, submenu_name) if action_prefix in prebuilt_menus: menu_subitems = prebuilt_menus[action_prefix]["items"] item = MenuItemDescription() if layout_item.name: item.header = layout_item.name item.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index menu_subitems.append(item) # MenuLayout.Group elif isinstance(layout_item, MenuLayout.Group): action_prefix = get_action_path(menu_name, submenu_name) create_menu_entry(menu_name, submenu_name) menu_subitems = prebuilt_menus[action_prefix]["items"] item = MenuItemDescription(header=layout_item.name) item.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index menu_subitems.append(item) MenuLayout.process_layout(prebuilt_menus, layout_item.items, menu_name, submenu_name, parent_layout_offset + layout_index + 1, parent_layout_index, debuglog) parent_layout_offset += len(layout_item.items) + 1 if layout_item.source: menu_subitem, source_menu, _ = MenuLayout.find_menu_item(menu_subitems, prebuilt_menus, layout_item) if source_menu and source_menu != menu_subitems: if menu_subitem.sub_menu: for item in prebuilt_menus[menu_subitem.sub_menu]["items"]: item.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index menu_subitems.append(item) parent_layout_offset += 1 else: menu_subitems.append(menu_subitem) source_menu.remove(menu_subitem) # MenuLayout.Sort elif isinstance(layout_item, MenuLayout.Sort): action_prefix = get_action_path(menu_name, submenu_name) create_menu_entry(menu_name, submenu_name) menu_subitems = prebuilt_menus[action_prefix]["items"] sort_submenus = [] items = [i for i in menu_subitems if i.name != "" and not i.name in layout_item.items] for index, item in enumerate(sorted(items, key=lambda a: a.name)): item_offset = PrebuiltItemOrder.LAYOUT_SUBMENU_SORTED if item.sub_menu else PrebuiltItemOrder.LAYOUT_ITEM_SORTED item.user["prebuilt_order"] = item_offset + parent_layout_offset + index if layout_item.sort_submenus and item.sub_menu and not item.sub_menu in layout_item.items: sort_submenus.append(item.sub_menu) for sub_menu in sort_submenus: item_list = prebuilt_menus[sub_menu]["items"] # seperators must not move, just sort items inbetween groups = [] last_seperator = 0 for index, item in enumerate(item_list): if item.name == "": if last_seperator != index: groups.append((last_seperator, index)) last_seperator = index if last_seperator: groups.append((last_seperator, len(item_list))) for gstart, gend in groups: items = [i for i in item_list[gstart : gend] if not i.name in layout_item.items] item_offset = items[0].user["prebuilt_order"] items = items[1:] for index, item in enumerate(sorted(items, key=lambda a: a.name)): item.user["prebuilt_order"] = item_offset + index if item.sub_menu and not item.sub_menu in layout_item.items: sort_submenus.append(item.sub_menu) else: items = [i for i in item_list if not i.name in layout_item.items] for index, item in enumerate(sorted(items, key=lambda a: a.name)): item_offset = PrebuiltItemOrder.LAYOUT_SUBMENU_SORTED if item.sub_menu else PrebuiltItemOrder.LAYOUT_ITEM_SORTED item.user["prebuilt_order"] = item_offset + parent_layout_offset + index if item.sub_menu and not item.sub_menu in layout_item.items: sort_submenus.append(item.sub_menu) elif debuglog: carb.log_warn(f"Warning: Unknown layout type {layout_item}")	16,446	Python	52.748366	215	0.557522
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_debug_menu.py	import os import unittest import pathlib import carb import carb.input import omni.kit.test import omni.ui as ui from pathlib import Path from omni.kit import ui_test from omni.ui.tests.test_base import OmniUiTest from omni.kit.test_suite.helpers import get_test_data_path class TestDebugMenu(OmniUiTest): async def setUp(self): pass async def tearDown(self): pass async def test_debug_menu(self): DebugWindowName = "omni.kit.menu.utils debug" # hotkey - show_menu_debug_window await ui_test.emulate_keyboard_press(carb.input.KeyboardInput.M, carb.input.KEYBOARD_MODIFIER_FLAG_CONTROL + carb.input.KEYBOARD_MODIFIER_FLAG_ALT + carb.input.KEYBOARD_MODIFIER_FLAG_SHIFT) await ui_test.human_delay(50) golden_img_dir = pathlib.Path(get_test_data_path(__name__, "golden_img")) await self.docked_test_window( window=ui.Workspace.get_window(DebugWindowName), width=450, height=300) await self.finalize_test(golden_img_dir=golden_img_dir, golden_img_name="test_debug_window.png") await ui_test.human_delay(50) ui.Workspace.show_window(DebugWindowName, False)	1,195	Python	30.473683	197	0.699582
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_menu_layouts.py	import os import unittest import carb import omni.kit.test import omni.ui as ui from omni.kit import ui_test from omni.kit.menu.utils import MenuItemDescription, MenuLayout, LayoutSourceSearch from .utils import verify_menu_items, verify_menu_checked_items class TestMenuLayoutUtils(omni.kit.test.AsyncTestCase): async def setUp(self): pass async def tearDown(self): pass async def test_nested_submenu_layout(self): menu_placeholder = [MenuItemDescription(name="placeholder", show_fn=lambda: False)] menu_physics = [ MenuItemDescription(name="Physics", sub_menu=[ MenuItemDescription(name="Debug"), MenuItemDescription(name="Settings"), MenuItemDescription(name="Demo Scenes"), MenuItemDescription(name="Test Runner"), MenuItemDescription(name="Character Controller")]) ] menu_blast = [ MenuItemDescription(name="Blast", sub_menu=[ MenuItemDescription(name="Settings"), MenuItemDescription(name="Documentation", sub_menu=[ MenuItemDescription(name="Kit UI"), MenuItemDescription(name="Programming"), MenuItemDescription(name="USD Schemas")]) ])] menu_flow = [ MenuItemDescription(name="Flow", sub_menu=[ MenuItemDescription(name="Presets"), MenuItemDescription(name="Monitor")]) ] # add menu omni.kit.menu.utils.add_menu_items(menu_placeholder, "Window", 90) omni.kit.menu.utils.add_menu_items(menu_physics, "Window") omni.kit.menu.utils.add_menu_items(menu_blast, "Window") omni.kit.menu.utils.add_menu_items(menu_flow, "Window") await ui_test.human_delay() # ---------------------------------------------------- # nested layout test # ---------------------------------------------------- menu_layout = [ MenuLayout.Menu("Window", [ MenuLayout.SubMenu("Simulation", [ MenuLayout.Group("Flow", [ MenuLayout.Item("Presets", source="Window/Flow/Presets"), MenuLayout.Item("Monitor", source="Window/Flow/Monitor"), ]), MenuLayout.Group("Blast", [ MenuLayout.Item("Settings", source="Window/Blast/Settings"), MenuLayout.SubMenu("Documentation", [ MenuLayout.Item("Kit UI", source="Window/Blast/Documentation/Kit UI"), MenuLayout.Item("Programming", source="Window/Blast/Documentation/Programming"), MenuLayout.Item("USD Schemas", source="Window/Blast/Documentation/USD Schemas"), ]), ]), MenuLayout.Group("Physics", [ MenuLayout.Item("Demo Scenes"), MenuLayout.Item("Settings", source="Window/Physics/Settings"), MenuLayout.Item("Debug"), MenuLayout.Item("Test Runner"), MenuLayout.Item("Character Controller") ]), ]), ]) ] omni.kit.menu.utils.add_layout(menu_layout) # verify layout verify_menu_items(self, [(ui.Menu, "Window", True), (ui.Menu, "Simulation", True), (ui.MenuItem, "placeholder", False), (ui.Menu, "Physics", False), (ui.Menu, "Blast", False), (ui.Menu, "Flow", False), (ui.Separator, "Flow", True), (ui.MenuItem, "Presets", True), (ui.MenuItem, "Monitor", True), (ui.Separator, "Blast", True), (ui.MenuItem, "Settings", True), (ui.Menu, "Documentation", True), (ui.Separator, "Physics", True), (ui.MenuItem, "Demo Scenes", True), (ui.MenuItem, "Settings", True), (ui.MenuItem, "Debug", True), (ui.MenuItem, "Test Runner", True), (ui.MenuItem, "Character Controller", True), (ui.MenuItem, "Kit UI", True), (ui.MenuItem, "Programming", True), (ui.MenuItem, "USD Schemas", True), (ui.Menu, "Documentation", False)]) # remove layout omni.kit.menu.utils.remove_layout(menu_layout) self.assertTrue(omni.kit.menu.utils.get_menu_layout() == []) # remove menu omni.kit.menu.utils.remove_menu_items(menu_physics, "Window") omni.kit.menu.utils.remove_menu_items(menu_blast, "Window") omni.kit.menu.utils.remove_menu_items(menu_flow, "Window") omni.kit.menu.utils.remove_menu_items(menu_placeholder, "Window") self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {}) async def test_remapped_layout_checkbox(self): menu_placeholder = [MenuItemDescription(name="placeholder", show_fn=lambda: False)] async def refresh_menus(): await ui_test.menu_click("Tools", human_delay_speed=4, show=True) await ui_test.menu_click("More Tools", human_delay_speed=4, show=True) await ui_test.menu_click("More Tools", human_delay_speed=4, show=False) example_window_is_ticked = False def get_example_window_is_ticked(): nonlocal example_window_is_ticked return example_window_is_ticked def toggle_example_window_is_ticked(): nonlocal example_window_is_ticked example_window_is_ticked = not example_window_is_ticked menu_entry1 = [ MenuItemDescription(name="Example Window", ticked=True, ticked_fn=get_example_window_is_ticked, onclick_fn=toggle_example_window_is_ticked) ] menu_entry2 = [ MenuItemDescription(name="Best Window Ever", ticked=True, ticked_fn=get_example_window_is_ticked, onclick_fn=toggle_example_window_is_ticked) ] # add menu omni.kit.menu.utils.add_menu_items(menu_placeholder, "Tools") omni.kit.menu.utils.add_menu_items(menu_placeholder, "More Tools") omni.kit.menu.utils.add_menu_items(menu_entry1, "Window") omni.kit.menu.utils.add_menu_items(menu_entry2, "Window") await ui_test.human_delay() # more the "Example Window" and "Best Window Ever" to differrent menus menu_layout = [ MenuLayout.Menu("Tools", [ MenuLayout.Item("Stage Window", source="Window/Example Window") ]), MenuLayout.Menu("More Tools", [ MenuLayout.Item("Another Stage Window", source="Window/Best Window Ever") ]), MenuLayout.Menu("More Cheese", [ MenuLayout.Item("Not A Menu Item", source="No Menu/Worst Window Ever") ]) ] omni.kit.menu.utils.add_layout(menu_layout) await ui_test.human_delay() # update checked status (checked) - refreshing window should refresh "Tools" and "More Tools" example_window_is_ticked = True omni.kit.menu.utils.refresh_menu_items("Window") # open menu as items are not refreshed on refresh_menu_items await refresh_menus() # verify verify_menu_checked_items(self, [(ui.Menu, "Tools", True, False, False), (ui.Menu, "More Tools", True, False, False), (ui.Menu, "Window", False, False, False), (ui.MenuItem, "Stage Window", True, True, True), (ui.MenuItem, "Another Stage Window", True, True, True)]) # update checked status (unchecked) - refreshing window should refresh "Tools" and "More Tools" example_window_is_ticked = False omni.kit.menu.utils.refresh_menu_items("Window") # open menu as items are not refreshed on refresh_menu_items await refresh_menus() # verify verify_menu_checked_items(self, [(ui.Menu, "Tools", True, False, False), (ui.Menu, "More Tools", True, False, False), (ui.Menu, "Window", False, False, False), (ui.MenuItem, "Stage Window", True, True, False), (ui.MenuItem, "Another Stage Window", True, True, False)]) # remove layout omni.kit.menu.utils.remove_layout(menu_layout) self.assertTrue(omni.kit.menu.utils.get_menu_layout() == []) # remove menu omni.kit.menu.utils.remove_menu_items(menu_entry2, "Window") omni.kit.menu.utils.remove_menu_items(menu_entry1, "Window") omni.kit.menu.utils.remove_menu_items(menu_placeholder, "Tools") omni.kit.menu.utils.remove_menu_items(menu_placeholder, "More Tools") self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {}) async def test_layout_local_source(self): menu_placeholder = [MenuItemDescription(name="placeholder", show_fn=lambda: False)] menu_physics = [ MenuItemDescription(name="Physics", sub_menu=[ MenuItemDescription(name="Debug"), MenuItemDescription(name="Settings"), MenuItemDescription(name="Demo Scenes"), MenuItemDescription(name="Test Runner"), MenuItemDescription(name="Character Controller")]) ] menu_blast = [ MenuItemDescription(name="Blast", sub_menu=[ MenuItemDescription(name="Settings"), MenuItemDescription(name="Documentation", sub_menu=[ MenuItemDescription(name="Kit UI"), MenuItemDescription(name="Programming"), MenuItemDescription(name="USD Schemas")]) ])] menu_flow = [ MenuItemDescription(name="Flow", sub_menu=[ MenuItemDescription(name="Presets"), MenuItemDescription(name="Monitor")]) ] # add menu omni.kit.menu.utils.add_menu_items(menu_placeholder, "Window", 90) omni.kit.menu.utils.add_menu_items(menu_physics, "Window") omni.kit.menu.utils.add_menu_items(menu_blast, "Window") omni.kit.menu.utils.add_menu_items(menu_flow, "Window") await ui_test.human_delay() # ---------------------------------------------------- # nested layout test # ---------------------------------------------------- menu_layout = [ MenuLayout.Menu("Window", [ MenuLayout.SubMenu("Simulation", [ MenuLayout.Group("Flow", [ MenuLayout.Item("Presets", source="Window/Flow/Presets"), MenuLayout.Item("Monitor", source="Window/Flow/Monitor"), ]), MenuLayout.Group("Blast", [ MenuLayout.Item("Settings", source="Window/Blast/Settings"), MenuLayout.SubMenu("Documentation", [ MenuLayout.Item("Kit UI", source="Window/Blast/Documentation/Kit UI"), MenuLayout.Item("Programming", source="Window/Blast/Documentation/Programming"), MenuLayout.Item("USD Schemas", source="Window/Blast/Documentation/USD Schemas"), ]), ]), MenuLayout.Group("Physics", [ MenuLayout.Item("Demo Scenes"), MenuLayout.Item("Settings", source="Window/Physics/Settings"), MenuLayout.Item("Debug"), MenuLayout.Item("Test Runner"), MenuLayout.Item("Character Controller") ]), ]), # these should not be moved as they are local only MenuLayout.Item("Demo Scenes", source_search=LayoutSourceSearch.LOCAL_ONLY), MenuLayout.Item("Settings", source_search=LayoutSourceSearch.LOCAL_ONLY), MenuLayout.Item("Debug", source_search=LayoutSourceSearch.LOCAL_ONLY), MenuLayout.Item("Test Runner", source_search=LayoutSourceSearch.LOCAL_ONLY), MenuLayout.Item("Character Controller", source_search=LayoutSourceSearch.LOCAL_ONLY), ]) ] omni.kit.menu.utils.add_layout(menu_layout) # verify layout verify_menu_items(self, [(ui.Menu, "Window", True), (ui.Menu, "Simulation", True), (ui.MenuItem, "placeholder", False), (ui.Menu, "Physics", False), (ui.Menu, "Blast", False), (ui.Menu, "Flow", False), (ui.Separator, "Flow", True), (ui.MenuItem, "Presets", True), (ui.MenuItem, "Monitor", True), (ui.Separator, "Blast", True), (ui.MenuItem, "Settings", True), (ui.Menu, "Documentation", True), (ui.Separator, "Physics", True), (ui.MenuItem, "Demo Scenes", True), (ui.MenuItem, "Settings", True), (ui.MenuItem, "Debug", True), (ui.MenuItem, "Test Runner", True), (ui.MenuItem, "Character Controller", True), (ui.MenuItem, "Kit UI", True), (ui.MenuItem, "Programming", True), (ui.MenuItem, "USD Schemas", True), (ui.Menu, "Documentation", False)]) # remove layout omni.kit.menu.utils.remove_layout(menu_layout) self.assertTrue(omni.kit.menu.utils.get_menu_layout() == []) # remove menu omni.kit.menu.utils.remove_menu_items(menu_physics, "Window") omni.kit.menu.utils.remove_menu_items(menu_blast, "Window") omni.kit.menu.utils.remove_menu_items(menu_flow, "Window") omni.kit.menu.utils.remove_menu_items(menu_placeholder, "Window") self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {})	13,396	Python	55.766949	753	0.581293
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_right_menus.py	import os import unittest import carb import omni.kit.test import omni.ui as ui from typing import Callable, Union from omni.kit import ui_test from omni.kit.menu.utils import MenuItemDescription, MenuAlignment from .utils import verify_menu_items class TestMenuRightAlignedUtils(omni.kit.test.AsyncTestCase): async def setUp(self): pass async def tearDown(self): pass async def test_right_menu(self): class MenuDelegate(ui.MenuDelegate): def __init__(self, kwargs): super().__init__(kwargs) def build_item(self, item: ui.MenuHelper): super().build_item(item) def build_status(self, item: ui.MenuHelper): super().build_status(item) def build_title(self, item: ui.MenuHelper): super().build_title(item) def get_menu_alignment(self): return MenuAlignment.RIGHT class MenuDelegateHidden(MenuDelegate): def update_menu_item(self, menu_item: Union[ui.Menu, ui.MenuItem], menu_refresh: bool): if isinstance(menu_item, ui.MenuItem): menu_item.visible = False elif isinstance(menu_item, ui.Menu): menu_item.visible = True class MenuDelegateButton(MenuDelegate): def build_item(self, item: ui.MenuHelper): with ui.HStack(width=0): with ui.VStack(content_clipping=1, width=0): ui.Button("Button", style={"margin": 0}, clicked_fn=lambda: print("clicked")) # ---------------------------------------------------- # left aligned menu # ---------------------------------------------------- submenu_list3 = [ MenuItemDescription(name="SubMenu Item") ] submenu_list2 = [ MenuItemDescription(name="SubMenu 2", sub_menu=submenu_list3) ] submenu_list1 = [ MenuItemDescription(name="SubMenu 1", sub_menu=submenu_list2) ] left_menu_list = [ MenuItemDescription(name="Root Item", sub_menu=submenu_list1) ] # add menu omni.kit.menu.utils.add_menu_items(left_menu_list, "SubMenu Test", 99) verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True)]) # refresh and verify omni.kit.menu.utils.refresh_menu_items("SubMenu Test") verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True)]) # ---------------------------------------------------- # right aligned menu # ---------------------------------------------------- right_menu_list = [ MenuItemDescription(name="SubMenu Item 1"), MenuItemDescription(name="SubMenu Item 2") ] right_menu1 = omni.kit.menu.utils.add_menu_items(right_menu_list, "Right Menu Test 1", delegate=MenuDelegate()) right_menu2 = omni.kit.menu.utils.add_menu_items(right_menu_list, "Right Menu Test 2", delegate=MenuDelegate()) right_menu3 = omni.kit.menu.utils.add_menu_items([], name="Empty Menu", delegate=MenuDelegateHidden()) right_menu4 = omni.kit.menu.utils.add_menu_items([], name="Button Menu", delegate=MenuDelegateButton()) # verify verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Spacer, True), (ui.Menu, "Right Menu Test 1", True), (ui.Menu, "Right Menu Test 2", True), (ui.Menu, "Empty Menu", True), (ui.Menu, "Button Menu", True), (ui.Spacer, True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "placeholder", False), (ui.MenuItem, "placeholder", False)], True) # refresh and verify omni.kit.menu.utils.refresh_menu_items("Right Menu Test 1") verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Spacer, True), (ui.Menu, "Right Menu Test 1", True), (ui.Menu, "Right Menu Test 2", True), (ui.Menu, "Empty Menu", True), (ui.Menu, "Button Menu", True), (ui.Spacer, True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "placeholder", False), (ui.MenuItem, "placeholder", False)], True) # remove menus omni.kit.menu.utils.remove_menu_items(left_menu_list, "SubMenu Test") omni.kit.menu.utils.remove_menu_items(right_menu1, "Right Menu Test 1") omni.kit.menu.utils.remove_menu_items(right_menu2, "Right Menu Test 2") omni.kit.menu.utils.remove_menu_items(right_menu3, "Empty Menu") omni.kit.menu.utils.remove_menu_items(right_menu4, "Button Menu") # verify menus removed self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {}) async def test_multi_delegate_menu(self): class MenuDelegate(ui.MenuDelegate): def __init__(self, kwargs): super().__init__(kwargs) def build_item(self, item: ui.MenuHelper): super().build_item(item) def build_status(self, item: ui.MenuHelper): super().build_status(item) def build_title(self, item: ui.MenuHelper): super().build_title(item) def get_menu_alignment(self): return MenuAlignment.RIGHT class MenuDelegateHidden(MenuDelegate): def update_menu_item(self, menu_item: Union[ui.Menu, ui.MenuItem], menu_refresh: bool): if isinstance(menu_item, ui.MenuItem): menu_item.visible = False elif isinstance(menu_item, ui.Menu): menu_item.visible = True class MenuDelegateButton(MenuDelegate): def build_item(self, item: ui.MenuHelper): with ui.HStack(width=0): with ui.VStack(content_clipping=1, width=0): ui.Button("Button", style={"margin": 0}, clicked_fn=lambda: print("clicked")) # ---------------------------------------------------- # left aligned menu # ---------------------------------------------------- submenu_list3 = [ MenuItemDescription(name="SubMenu Item") ] submenu_list2 = [ MenuItemDescription(name="SubMenu 2", sub_menu=submenu_list3) ] submenu_list1 = [ MenuItemDescription(name="SubMenu 1", sub_menu=submenu_list2) ] left_menu_list = [ MenuItemDescription(name="Root Item", sub_menu=submenu_list1) ] # add menu omni.kit.menu.utils.add_menu_items(left_menu_list, "SubMenu Test", 99) verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True)]) # refresh and verify omni.kit.menu.utils.refresh_menu_items("SubMenu Test") verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True)]) # ---------------------------------------------------- # right aligned menu # ---------------------------------------------------- md = MenuDelegate() right_menu_list = [ MenuItemDescription(name="SubMenu Item 1"), MenuItemDescription(name="SubMenu Item 2") ] right_menu1 = omni.kit.menu.utils.add_menu_items(right_menu_list, "Right Menu Test", delegate=md) right_menu2 = omni.kit.menu.utils.add_menu_items(right_menu_list, "Right Menu Test", delegate=md) right_menu3 = omni.kit.menu.utils.add_menu_items([], name="Right Menu Test", delegate=MenuDelegateHidden()) right_menu4 = omni.kit.menu.utils.add_menu_items([], name="Right Menu Test", delegate=MenuDelegateButton()) # verify verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Spacer, True), (ui.Menu, "Right Menu Test", True), (ui.Spacer, True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "placeholder", False)], True) # refresh and verify omni.kit.menu.utils.refresh_menu_items("Right Menu Test") verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Spacer, True), (ui.Menu, "Right Menu Test", True), (ui.Spacer, True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "placeholder", False)], True) # remove menus omni.kit.menu.utils.remove_menu_items(left_menu_list, "SubMenu Test") omni.kit.menu.utils.remove_menu_items(right_menu1, "Right Menu Test") omni.kit.menu.utils.remove_menu_items(right_menu2, "Right Menu Test") omni.kit.menu.utils.remove_menu_items(right_menu3, "Right Menu Test") omni.kit.menu.utils.remove_menu_items(right_menu4, "Right Menu Test") # verify menus removed self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {})	9,703	Python	61.606451	606	0.595589
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/__init__.py	from .test_menus import * from .test_menu_layouts import * from .test_action_mapping import * from .test_right_menus import * from .test_debug_menu import * from .test_menu_icons import *	188	Python	25.999996	34	0.75
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_action_mapping.py	import os import unittest import carb import omni.kit.test from omni.kit import ui_test from omni.kit.menu.utils import MenuItemDescription class TestActionMappingMenuUtils(omni.kit.test.AsyncTestCase): async def setUp(self): self._menus = [ MenuItemDescription( name="Test Hotkey Mapping", glyph="none.svg", hotkey=( carb.input.KEYBOARD_MODIFIER_FLAG_CONTROL \| carb.input.KEYBOARD_MODIFIER_FLAG_SHIFT, carb.input.KeyboardInput.EQUAL, ), ) ] omni.kit.menu.utils.add_menu_items( self._menus, "Test", 99) async def tearDown(self): omni.kit.menu.utils.remove_menu_items( self._menus, "Test") pass async def wait_for_update(self, usd_context=omni.usd.get_context(), wait_frames=10): max_loops = 0 while max_loops < wait_frames: _, files_loaded, total_files = usd_context.get_stage_loading_status() await omni.kit.app.get_app().next_update_async() if files_loaded or total_files: continue max_loops = max_loops + 1 async def test_action_mapping(self): import re mapping_path = "/app/inputBindings/global/Test_Test_Hotkey_Mapping" menu_widget = ui_test.get_menubar() widget = menu_widget.find_menu("Test Hotkey Mapping") settings = carb.settings.get_settings() await self.wait_for_update(wait_frames=10) # verify initial value menu_text = re.sub(r'[^\x00-\x7F]+','', widget.widget.text).replace(" ", "") self.assertTrue(menu_text == "TestHotkeyMapping") key_mapping = settings.get(mapping_path) self.assertTrue(key_mapping == ['Shift + Ctrl + Keyboard::=']) hotkey_text = widget.widget.hotkey_text.replace(" ", "") self.assertTrue(hotkey_text == "Shift+Ctrl+=") # set to bad value.. settings.set(mapping_path, "Nothingness") await self.wait_for_update(wait_frames=10) hotkey_text = widget.widget.hotkey_text.replace(" ", "") self.assertTrue(hotkey_text == "") # set to bad value.. (this crashes kit) # settings.set(mapping_path, ["Nothingness"]) # await self.wait_for_update(wait_frames=10) # hotkey_text = widget.widget.hotkey_text.replace(" ", "") # self.assertTrue(hotkey_text == "") # set to good value.. settings.set(mapping_path, ["Shift + Ctrl + Keyboard::O"]) await self.wait_for_update(wait_frames=10) hotkey_text = widget.widget.hotkey_text.replace(" ", "") self.assertTrue(hotkey_text == "Shift+Ctrl+O") # set to good value.. settings.set(mapping_path, ["Shift + Ctrl + Keyboard::="]) await self.wait_for_update(wait_frames=10) hotkey_text = widget.widget.hotkey_text.replace(" ", "") self.assertTrue(hotkey_text == "Shift+Ctrl+=")	3,006	Python	37.551282	104	0.594145
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/utils.py	import carb import omni.ui as ui from omni.kit import ui_test def verify_menu_items(cls, verify_list, use_menu_spacers: bool=False): menu_widget = ui_test.get_menubar() menu_widgets = [] def show_debug(): debug_info = "" for w in menu_widgets: if isinstance(w.widget, (ui.Menu, ui.MenuItem, ui.Separator)): debug_info += f"(ui.{w.widget.__class__.__name__}, \"{w.widget.text.strip()}\", {w.widget.visible}), " elif isinstance(w.widget, ui.Spacer) and use_menu_spacers: debug_info += f"(ui.{w.widget.__class__.__name__}, {w.widget.visible}), " carb.log_warn(f"verify_menu_items [{debug_info[:-2]}] vs {verify_list}") for w in menu_widget.find_all("/"): if isinstance(w.widget, (ui.Menu, ui.MenuItem, ui.Separator)): menu_widgets.append(w) elif isinstance(w.widget, ui.Spacer) and use_menu_spacers and w.widget.identifier in ["right_aligned_menus", "right_padding"]: menu_widgets.append(w) try: cls.assertEqual(len(menu_widgets), len(verify_list)) for index, item in enumerate(verify_list): widget = menu_widgets[index] cls.assertTrue(isinstance(widget.widget, item[0]), f"menu type error {widget.widget} vs {item[0]}") if isinstance(widget.widget, (ui.Menu, ui.MenuItem, ui.Separator)): cls.assertEqual(widget.widget.text.strip(), item[1]) cls.assertEqual(widget.widget.visible, item[2]) elif isinstance(widget.widget, ui.Spacer) and use_menu_spacers and widget.widget.identifier in ["right_aligned_menus", "right_padding"]: cls.assertEqual(widget.widget.visible, item[1]) except Exception as exc: show_debug() raise Exception(exc) def verify_menu_checked_items(cls, verify_list): menu_widget = ui_test.get_menubar() menu_widgets = [] def show_debug(): debug_info = "" for w in menu_widgets: if isinstance(w.widget, (ui.Menu, ui.MenuItem)) and w.widget.text.strip() != "placeholder": debug_info += f"(ui.{w.widget.__class__.__name__}, \"{w.widget.text.strip()}\", {w.widget.visible}, {w.widget.checkable}, {w.widget.checked}), " carb.log_warn(f"verify_menu_items [{debug_info[:-2]}] vs {verify_list}") for w in menu_widget.find_all("/"): if isinstance(w.widget, (ui.Menu, ui.MenuItem)) and w.widget.text.strip() != "placeholder": menu_widgets.append(w) try: cls.assertEqual(len(menu_widgets), len(verify_list)) for index, item in enumerate(verify_list): widget = menu_widgets[index] cls.assertTrue(isinstance(widget.widget, item[0]), f"menu type error {widget.widget} vs {item[0]}") cls.assertEqual(widget.widget.text.strip(), item[1]) cls.assertEqual(widget.widget.visible, item[2]) cls.assertEqual(widget.widget.checkable, item[3]) cls.assertEqual(widget.widget.checked, item[4]) except Exception as exc: show_debug() raise Exception(exc)	3,127	Python	44.999999	160	0.610169
omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_menu_icons.py	from pathlib import Path import unittest import carb import omni.kit.test import omni.ui as ui from omni.kit import ui_test from omni.kit.menu.utils import MenuItemDescription, MenuLayout from omni.ui.tests.test_base import OmniUiTest from omni.kit.test_suite.helpers import get_test_data_path class TestMenuIcon(OmniUiTest): async def setUp(self): pass async def tearDown(self): pass async def test_menu_icon(self): icon_path = Path(omni.kit.app.get_app().get_extension_manager().get_extension_path_by_module(__name__)).joinpath("data/tests/icons/audio_record.svg") golden_img_dir = Path(get_test_data_path(__name__, "golden_img")) submenu_list = [ MenuItemDescription(name="Menu Item", glyph=str(icon_path)) ] menu_list = [ MenuItemDescription(name="Icon Menu Test", glyph=str(icon_path), sub_menu=submenu_list) ] omni.kit.menu.utils.add_menu_items(menu_list, "Icon Test", 99) omni.kit.menu.utils.rebuild_menus() await ui_test.human_delay(50) await ui_test.menu_click("Icon Test/Icon Menu Test", human_delay_speed=4) await ui_test.human_delay(10) await self.finalize_test(golden_img_dir=golden_img_dir, golden_img_name="test_menu_icon.png", hide_menu_bar=False) await ui_test.human_delay(50) omni.kit.menu.utils.remove_menu_items(menu_list, "Icon Test") self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {})	1,461	Python	38.513512	157	0.689938
omniverse-code/kit/exts/omni.kit.menu.utils/docs/index.rst	omni.kit.menu.utils ########################### Menu Utils .. toctree:: :maxdepth: 1 CHANGELOG	109	reStructuredText	6.333333	27	0.458716
omniverse-code/kit/exts/omni.kit.search_core/config/extension.toml	[package] # Semantic Versioning is used: https://semver.org/ version = "1.0.2" # 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 = "Search Core Classes" description="The extension provides the base classes for search and registering search engines." # Path (relative to the root) or content of readme markdown file for UI. readme = "docs/README.md" # URL of the extension source repository. repository = "" # Keywords for the extension keywords = ["search", "filepicker", "content"] # 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. Folder named "data" automatically goes in git lfs (see .gitattributes file). preview_image = "data/preview.png" # Main python module this extension provides, it will be publicly available as "import omni.example.hello". [[python.module]] name = "omni.kit.search_core"	1,112	TOML	34.903225	107	0.754496
omniverse-code/kit/exts/omni.kit.search_core/omni/kit/search_core/search_engine_registry.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 .singleton import Singleton from omni.kit.widget.nucleus_info import get_instance as get_nucleus @Singleton class SearchEngineRegistry: """ Singleton that keeps all the search engines. It's used to put custom search engine to the content browser. """ class _Event(set): """ A list of callable objects. Calling an instance of this will cause a call to each item in the list in ascending order by index. """ def __call__(self, args, kwargs): """Called when the instance is “called” as a function""" # Call all the saved functions for f in self: f(args, **kwargs) def __repr__(self): """ Called by the repr() built-in function to compute the “official” string representation of an object. """ return f"Event({set.__repr__(self)})" class _EventSubscription: """ Event subscription. _Event has callback while this object exists. """ def __init__(self, event, fn): """ Save the function, the event, and add the function to the event. """ self._fn = fn self._event = event event.add(self._fn) def __del__(self): """Called by GC.""" self._event.remove(self._fn) class _EngineSubscription: """ Event subscription. _Event has callback while this object exists. """ def __init__(self, name, model_type): """ Save name and type to the list. """ self._name = name SearchEngineRegistry()._engines[self._name] = model_type SearchEngineRegistry()._on_engines_changed() def __del__(self): """Called by GC.""" del SearchEngineRegistry()._engines[self._name] SearchEngineRegistry()._on_engines_changed() def __init__(self): self._engines = {} self._on_engines_changed = self._Event() def register_search_model(self, name, model_type): """ Add a new engine to the registry. name: the name of the engine as it appears in the menu. model_type: the type derived from AbstractSearchModel. Content browser will create an object of this type when it needs a new search. """ if name in self._engines: # TODO: Warning return return self._EngineSubscription(name, model_type) def get_search_names(self): """Returns all the search names""" return list(sorted(self._engines.keys())) def get_available_search_names(self, server: str): """Returns available search names in given server""" search_names = list(sorted(self._engines.keys())) available_search_names = [] for name in search_names: if "Service" not in name or get_nucleus().is_service_available(name, server): available_search_names.append(name) return available_search_names def get_search_model(self, name): """Returns the type of derived from AbstractSearchModel for the given name""" return self._engines.get(name, None) def subscribe_engines_changed(self, fn): """ Add the provided function to engines changed event subscription callbacks. Return the object that will automatically unsubscribe when destroyed. """ return self._EventSubscription(self._on_engines_changed, fn)	4,059	Python	32.833333	89	0.598423
omniverse-code/kit/exts/omni.kit.search_core/omni/kit/search_core/abstract_search_model.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 abc class AbstractSearchItem: """AbstractSearchItem represents a single file in the file browser.""" @property def path(self): """The full path that goes to usd when Drag and Drop""" return "" @property def name(self): """The name as it appears in the widget""" return "" @property def date(self): # TODO: Grid View needs datatime, but Tree View needs a string. We need to make them the same. return datetime.now() @property def size(self): # TODO: Grid View needs int, but Tree View needs a string. We need to make them the same. return 0 @property def icon(self): pass @property def is_folder(self): pass def __getitem__(self, key): """Access to methods by text for _RedirectModel""" return getattr(self, key) class SearchLifetimeObject(metaclass=abc.ABCMeta): """ SearchLifetimeObject encapsulates a callback to be called when a search is finished. It is the responsibility of the implementers of AbstractSearchModel to get the object argument and keep it alive until the search is completed if the search runs long. """ def __init__(self, callback): self._callback = callback def __del__(self): self.destroy() def destroy(self): if self._callback: self._callback() self._callback = None class AbstractSearchModel(metaclass=abc.ABCMeta): """ AbstractSearchModel represents the search results. It supports async mode. If the search engine needs some time to process the request, it can return an empty list and do a search in async mode. As soon as a result is ready, the model should call `self._item_changed()`. It will make the view reload the model. It's also possible to return the search result with portions. __init__ is usually called with the named arguments search_text and current_dir, and optionally a search_lifetime object. """ class _Event(set): """ A list of callable objects. Calling an instance of this will cause a call to each item in the list in ascending order by index. """ def __call__(self, args, kwargs): """Called when the instance is “called” as a function""" # Call all the saved functions for f in self: f(args, **kwargs) def __repr__(self): """ Called by the repr() built-in function to compute the “official” string representation of an object. """ return f"Event({set.__repr__(self)})" class _EventSubscription: """ Event subscription. _Event has callback while this object exists. """ def __init__(self, event, fn): """ Save the function, the event, and add the function to the event. """ self._fn = fn self._event = event event.add(self._fn) def __del__(self): """Called by GC.""" self._event.remove(self._fn) def __init__(self): # TODO: begin_edit/end_edit self.__on_item_changed = self._Event() @property @abc.abstractmethod def items(self): """Should be implemented""" pass def destroy(self): """Called to cancel current search""" pass def _item_changed(self, item=None): """Call the event object that has the list of functions""" self.__on_item_changed(item) def subscribe_item_changed(self, fn): """ Return the object that will automatically unsubscribe when destroyed. """ return self._EventSubscription(self.__on_item_changed, fn)	4,281	Python	29.368794	102	0.619248
omniverse-code/kit/exts/omni.kit.search_core/omni/kit/search_core/tests/search_core_test.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. ## from ..search_engine_registry import SearchEngineRegistry from ..abstract_search_model import AbstractSearchItem from ..abstract_search_model import AbstractSearchModel import omni.kit.test from unittest.mock import Mock class TestSearchItem(AbstractSearchItem): pass class TestSearchModel(AbstractSearchModel): running_search = None def __init__(self, **kwargs): super().__init__() self.__items = [TestSearchItem()] def destroy(self): self.__items = [] @property def items(self): return self.__items class TestSearchCore(omni.kit.test.AsyncTestCase): async def test_registry(self): test_name = "TEST_SEARCH" self._subscription = SearchEngineRegistry().register_search_model(test_name, TestSearchModel) self.assertIn(test_name, SearchEngineRegistry().get_search_names()) self.assertIn(test_name, SearchEngineRegistry().get_available_search_names("DummyServer")) self.assertIs(TestSearchModel, SearchEngineRegistry().get_search_model(test_name)) self._subscription = None self.assertNotIn(test_name, SearchEngineRegistry().get_search_names()) async def test_event_subscription(self): mock_callback = Mock() self._sub = SearchEngineRegistry().subscribe_engines_changed(mock_callback) self._added_model = SearchEngineRegistry().register_search_model("dummy", TestSearchModel) mock_callback.assert_called_once() mock_callback.reset_mock() self._added_model = None mock_callback.assert_called_once() async def test_item_changed_subscription(self): mock_callback = Mock() model = TestSearchModel() self._sub = model.subscribe_item_changed(mock_callback) model._item_changed() mock_callback.assert_called_once()	2,280	Python	32.544117	101	0.709211
omniverse-code/kit/exts/omni.kit.search_core/docs/CHANGELOG.md	# Changelog This document records all notable changes to ``omni.kit.search_core`` extension. ## [1.0.2] - 2022-11-10 ### Removed - Removed dependency on omni.kit.test ## [1.0.1] - 2022-03-07 ### Added - Added a search lifetime object that can be used for callbacks after search is done to indicate progress. ## [1.0.0] - 2020-10-05 ### Added - Initial model and registry	375	Markdown	22.499999	106	0.698667
omniverse-code/kit/exts/omni.kit.search_core/docs/README.md	# omni.kit.search_example ## Python Search Core The example provides search model AbstractSearchModel and search registry SearchEngineRegistry. `AbstractSearchModel` represents the search results. It supports async mode. If the search engine needs some time to process the request, it can return an empty list and do a search in async mode. As soon as a result is ready, the model should call `self._item_changed()`. It will make the view reload the model. It's also possible to return the search result with portions. `AbstractSearchModel.__init__` is usually called with the named arguments search_text and current_dir. `SearchEngineRegistry` keeps all the search engines. It's used to put custom search engine to the content browser. It provides fast access to search engines. Any extension that can use the objects derived from `AbstractSearchModel` can use the search.	879	Markdown	40.90476	79	0.798635
omniverse-code/kit/exts/omni.graph.bundle.action/config/extension.toml	[package] # Semantic Versioning is used: https://semver.org/ version = "1.3.0" # Lists people or organizations that are considered the "authors" of the package. authors = ["NVIDIA"] # The title description fields are primarly for displaying extension info in UI title = "Action Graph Bundle" description="Load all extensions necessary for using OmniGraph action graphs" category = "Graph" feature = true # URL of the extension source repository. repository = "" # Keywords for the extension keywords = ["kit", "omnigraph", "action"] # Preview image. Folder named "data" automatically goes in git lfs (see .gitattributes file). preview_image = "data/preview.png" # Icon is shown in Extensions window, it is recommended to be square, of size 256x256. icon = "data/icon.svg" # Location of change log file in target (final) folder of extension, relative to the root. changelog="docs/CHANGELOG.md" # Path (relative to the root) of the main documentation file. readme = "docs/index.rst" [dependencies] "omni.graph" = {} "omni.graph.action" = {} "omni.graph.nodes" = {} "omni.graph.ui" = {} [[test]] unreliable = true # OM-51994 waiver = "Empty extension that bundles other extensions" args = [ "--/app/extensions/registryEnabled=1" # needs to be fixed and removed: OM-49578 ] [documentation] pages = [ "docs/Overview.md", "docs/CHANGELOG.md", ]	1,365	TOML	25.26923	93	0.721612
omniverse-code/kit/exts/omni.graph.bundle.action/docs/CHANGELOG.md	# Changelog The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/). ## [1.3.0] - 2022-08-11 ### Removed - omni.graph.window.action dependency ## [1.2.0] - 2022-08-04 ### Removed - omni.graph.instancing dependency ## [1.1.1] - 2022-06-21 ### Fixed - Put docs in the README for the extension manager ## [1.1.0] - 2022-05-05 ### Removed - omni.graph.tutorials dependency ## [1.0.0] - 2021-11-18 ### Changes - Created with initial required set of extensions	486	Markdown	19.291666	80	0.668724
omniverse-code/kit/exts/omni.graph.bundle.action/docs/README.md	# OmniGraph Action Bundle [omni.graph.bundle.action] Action Graphs are a subset of OmniGraph that control execution flow through event triggers. Loading this bundled extension is a convenient way to load all of the extensions required for OmniGraph action graphs to run. For visual editing of Action graphs, see `omni.graph.window.action`.	342	Markdown	47.999993	125	0.809942
omniverse-code/kit/exts/omni.graph.bundle.action/docs/index.rst	OmniGraph Action Graph Bundle ############################# .. tabularcolumns:: \|L\|R\| .. csv-table:: :width: 100% Extension: omni.graph.bundle.action,Documentation Generated: \|today\| Action Graphs are a subset of OmniGraph that control execution flow through event triggers. Loading this bundled extension is a convenient way to load all of the extensions required to use the OmniGraph action graphs. Extensions Loaded ================= - omni.graph - omni.graph.action - omni.graph.nodes - omni.graph.ui - omni.graph.window.action .. toctree:: :maxdepth: 1 CHANGELOG	596	reStructuredText	20.321428	110	0.682886
omniverse-code/kit/exts/omni.graph.bundle.action/docs/Overview.md	# OmniGraph Action Graph Bundle ```{csv-table} Extension: omni.graph.bundle.action,Documentation Generated: {sub-ref}`today` ``` Action Graphs are a subset of OmniGraph that control execution flow through event triggers. Loading this bundled extension is a convenient way to load all of the extensions required to use the OmniGraph action graphs. ## Extensions Loaded - omni.graph - omni.graph.action - omni.graph.nodes - omni.graph.ui - omni.graph.window.action	474	Markdown	26.941175	110	0.767932
omniverse-code/kit/exts/omni.graph.test/config/extension.toml	[package] version = "0.18.0" title = "OmniGraph Regression Testing" category = "Graph" readme = "docs/README.md" changelog = "docs/CHANGELOG.md" description = "Contains test scripts and files used to test the OmniGraph extensions where the tests cannot live in a single extension." repository = "" keywords = ["kit", "omnigraph", "tests"] # Main module for the Python interface [[python.module]] name = "omni.graph.test" [[native.plugin]] path = "bin/.plugin" recursive = false # Watch the .ogn files for hot reloading (only works for Python files) [fswatcher.patterns] include = [".ogn", ".py"] exclude = ["OgnDatabase.py"] # Python array data uses numpy as its format [python.pipapi] requirements = ["numpy"] # Other extensions that need to load in order for this one to work [dependencies] "omni.graph" = {} "omni.graph.tools" = {} "omni.kit.pipapi" = {} "omni.graph.examples.cpp" = {} "omni.graph.examples.python" = {} "omni.graph.nodes" = {} "omni.graph.tutorials" = {} "omni.graph.action" = {} "omni.graph.scriptnode" = {} "omni.inspect" = {} "omni.usd" = {} [[test]] timeout = 600 stdoutFailPatterns.exclude = [ # Exclude carb.events leak that only shows up locally "[Error] [carb.events.plugin]PooledAllocator", # Exclude messages which say they should be ignored "Ignore this error/warning", ] pythonTests.unreliable = [ # "test_graph_load", # OM-53608 # "test_hashability", # OM-53608 # "test_rename_deformer", # OM-53608 "test_import_time_sampled_data", # OM-58596 # "test_import_time_samples", # OM-61324 "test_reparent_graph", # OM-58852 "test_simple_rename", # OM-58852 "test_copy_on_write", # OM-58586 "test_reparent_fabric", # OM-63175 ] [documentation] pages = [ "docs/Overview.md", "docs/CHANGELOG.md", ]	1,809	TOML	25.617647	136	0.671089
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/__init__.py	"""There is no public API to this module.""" __all__ = [] from ._impl.extension import _PublicExtension # noqa: F401	119	Python	22.999995	59	0.663866
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestDataModelDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TestDataModel Helper node that allows to test that core features of datamodel are working as expected (CoW, DataStealing, ...) """ import carb import numpy import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestDataModelDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestDataModel Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.arrayShouldMatch inputs.attrib inputs.bundleArraysThatShouldDiffer inputs.bundleShouldMatch inputs.mutArray inputs.mutBundle inputs.mutateArray inputs.refArray inputs.refBundle Outputs: outputs.array outputs.bundle """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:arrayShouldMatch', 'bool', 0, 'Array should match', 'Whether or not the input arrays should be the same one one', {ogn.MetadataKeys.DEFAULT: 'true'}, True, True, False, ''), ('inputs:attrib', 'token', 0, 'Attrib to mutate', 'Attribute to mutate in the bundle', {}, True, "", False, ''), ('inputs:bundleArraysThatShouldDiffer', 'int', 0, 'Number of != arrays in bundles', 'The number of arrays attribute in the input bundles that should differs', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''), ('inputs:bundleShouldMatch', 'bool', 0, 'Bundles should match', 'Whether or not the input bundles should be the same one', {ogn.MetadataKeys.DEFAULT: 'true'}, True, True, False, ''), ('inputs:mutArray', 'point3f[]', 0, 'In array', 'Array meant to be mutated', {}, True, [], False, ''), ('inputs:mutBundle', 'bundle', 0, 'In bundle', 'Bundle meant to be mutated (or not)', {}, True, None, False, ''), ('inputs:mutateArray', 'bool', 0, 'Mutate array', 'Whether or not to mutate the array or just passthrough', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''), ('inputs:refArray', 'point3f[]', 0, 'Ref array', 'A reference array used as a point of comparaison', {}, True, [], False, ''), ('inputs:refBundle', 'bundle', 0, 'Ref bundle', 'Reference Bundle used as a point of comparaison', {}, True, None, False, ''), ('outputs:array', 'point3f[]', 0, 'Output array', 'The outputed array', {}, True, None, False, ''), ('outputs:bundle', 'bundle', 0, 'Output bundle', 'The outputed bundle', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.mutArray = og.AttributeRole.POSITION role_data.inputs.mutBundle = og.AttributeRole.BUNDLE role_data.inputs.refArray = og.AttributeRole.POSITION role_data.inputs.refBundle = og.AttributeRole.BUNDLE role_data.outputs.array = og.AttributeRole.POSITION role_data.outputs.bundle = og.AttributeRole.BUNDLE return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=True, gpu_ptr_kinds={}) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def arrayShouldMatch(self): data_view = og.AttributeValueHelper(self._attributes.arrayShouldMatch) return data_view.get() @arrayShouldMatch.setter def arrayShouldMatch(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.arrayShouldMatch) data_view = og.AttributeValueHelper(self._attributes.arrayShouldMatch) data_view.set(value) @property def attrib(self): data_view = og.AttributeValueHelper(self._attributes.attrib) return data_view.get() @attrib.setter def attrib(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.attrib) data_view = og.AttributeValueHelper(self._attributes.attrib) data_view.set(value) @property def bundleArraysThatShouldDiffer(self): data_view = og.AttributeValueHelper(self._attributes.bundleArraysThatShouldDiffer) return data_view.get() @bundleArraysThatShouldDiffer.setter def bundleArraysThatShouldDiffer(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.bundleArraysThatShouldDiffer) data_view = og.AttributeValueHelper(self._attributes.bundleArraysThatShouldDiffer) data_view.set(value) @property def bundleShouldMatch(self): data_view = og.AttributeValueHelper(self._attributes.bundleShouldMatch) return data_view.get() @bundleShouldMatch.setter def bundleShouldMatch(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.bundleShouldMatch) data_view = og.AttributeValueHelper(self._attributes.bundleShouldMatch) data_view.set(value) @property def mutArray(self): data_view = og.AttributeValueHelper(self._attributes.mutArray) return data_view.get() @mutArray.setter def mutArray(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.mutArray) data_view = og.AttributeValueHelper(self._attributes.mutArray) data_view.set(value) self.mutArray_size = data_view.get_array_size() @property def mutBundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute inputs.mutBundle""" return self.__bundles.mutBundle @property def mutateArray(self): data_view = og.AttributeValueHelper(self._attributes.mutateArray) return data_view.get() @mutateArray.setter def mutateArray(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.mutateArray) data_view = og.AttributeValueHelper(self._attributes.mutateArray) data_view.set(value) @property def refArray(self): data_view = og.AttributeValueHelper(self._attributes.refArray) return data_view.get() @refArray.setter def refArray(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.refArray) data_view = og.AttributeValueHelper(self._attributes.refArray) data_view.set(value) self.refArray_size = data_view.get_array_size() @property def refBundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute inputs.refBundle""" return self.__bundles.refBundle def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self.array_size = None self._batchedWriteValues = { } @property def array(self): data_view = og.AttributeValueHelper(self._attributes.array) return data_view.get(reserved_element_count=self.array_size) @array.setter def array(self, value): data_view = og.AttributeValueHelper(self._attributes.array) data_view.set(value) self.array_size = data_view.get_array_size() @property def bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute outputs.bundle""" return self.__bundles.bundle @bundle.setter def bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute outputs.bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.bundle.bundle = bundle def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestDataModelDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestDataModelDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestDataModelDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	11,607	Python	46.966942	220	0.649091
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestGatherDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TestGather Test node to test out the effects of vectorization. """ import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn import carb import numpy class OgnTestGatherDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestGather Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.base_name inputs.num_instances Outputs: outputs.gathered_paths outputs.rotations """ # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:base_name', 'token', 0, None, 'The base name of the pattern to match', {ogn.MetadataKeys.DEFAULT: '""'}, True, '', False, ''), ('inputs:num_instances', 'int', 0, None, 'How many instances are involved', {ogn.MetadataKeys.DEFAULT: '1'}, True, 1, False, ''), ('outputs:gathered_paths', 'token[]', 0, None, 'The paths of the gathered objects', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('outputs:rotations', 'double3[]', 0, None, 'The rotations of the gathered points', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = {"base_name", "num_instances", "_setting_locked", "_batchedReadAttributes", "_batchedReadValues"} """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [self._attributes.base_name, self._attributes.num_instances] self._batchedReadValues = ["", 1] @property def base_name(self): return self._batchedReadValues[0] @base_name.setter def base_name(self, value): self._batchedReadValues[0] = value @property def num_instances(self): return self._batchedReadValues[1] @num_instances.setter def num_instances(self, value): self._batchedReadValues[1] = value def __getattr__(self, item: str): if item in self.LOCAL_PROPERTY_NAMES: return object.__getattribute__(self, item) else: return super().__getattr__(item) def __setattr__(self, item: str, new_value): if item in self.LOCAL_PROPERTY_NAMES: object.__setattr__(self, item, new_value) else: super().__setattr__(item, new_value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.gathered_paths_size = 0 self.rotations_size = 0 self._batchedWriteValues = { } @property def gathered_paths(self): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) return data_view.get(reserved_element_count=self.gathered_paths_size) @gathered_paths.setter def gathered_paths(self, value): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) data_view.set(value) self.gathered_paths_size = data_view.get_array_size() @property def rotations(self): data_view = og.AttributeValueHelper(self._attributes.rotations) return data_view.get(reserved_element_count=self.rotations_size) @rotations.setter def rotations(self, value): data_view = og.AttributeValueHelper(self._attributes.rotations) data_view.set(value) self.rotations_size = data_view.get_array_size() def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestGatherDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestGatherDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestGatherDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	6,560	Python	49.083969	147	0.653506
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnDecomposeDouble3CDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.DecomposeDouble3C Example node that takes in a double[3] and outputs scalars that are its components """ import carb import numpy import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnDecomposeDouble3CDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.DecomposeDouble3C Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.double3 Outputs: outputs.x outputs.y outputs.z """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:double3', 'double3', 0, None, 'Input to decompose', {ogn.MetadataKeys.DEFAULT: '[0, 0, 0]'}, True, [0, 0, 0], False, ''), ('outputs:x', 'double', 0, None, 'The x component of the input', {}, True, None, False, ''), ('outputs:y', 'double', 0, None, 'The y component of the input', {}, True, None, False, ''), ('outputs:z', 'double', 0, None, 'The z component of the input', {}, True, None, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def double3(self): data_view = og.AttributeValueHelper(self._attributes.double3) return data_view.get() @double3.setter def double3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.double3) data_view = og.AttributeValueHelper(self._attributes.double3) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def x(self): data_view = og.AttributeValueHelper(self._attributes.x) return data_view.get() @x.setter def x(self, value): data_view = og.AttributeValueHelper(self._attributes.x) data_view.set(value) @property def y(self): data_view = og.AttributeValueHelper(self._attributes.y) return data_view.get() @y.setter def y(self, value): data_view = og.AttributeValueHelper(self._attributes.y) data_view.set(value) @property def z(self): data_view = og.AttributeValueHelper(self._attributes.z) return data_view.get() @z.setter def z(self, value): data_view = og.AttributeValueHelper(self._attributes.z) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnDecomposeDouble3CDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnDecomposeDouble3CDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnDecomposeDouble3CDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	5,913	Python	42.807407	138	0.651108
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnComputeErrorCppDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.ComputeErrorCpp Generates a customizable error during its compute(), for testing purposes. C++ version. """ import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnComputeErrorCppDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.ComputeErrorCpp Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.deprecatedInInit inputs.deprecatedInOgn inputs.dummyIn inputs.failCompute inputs.message inputs.severity Outputs: outputs.dummyOut Predefined Tokens: tokens.none tokens.warning tokens.error """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:deprecatedInInit', 'float', 0, None, "Attribute which has been deprecated in the node's initialization code.", {}, True, 0.0, False, ''), ('inputs:deprecatedInOgn', 'float', 0, None, 'Attribute which has been deprecated here in the .ogn file.', {}, True, 0.0, True, "Use 'dummyIn' instead."), ('inputs:dummyIn', 'int', 0, None, 'Dummy value to be copied to the output.', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''), ('inputs:failCompute', 'bool', 0, None, 'If true, the compute() call will return failure to the evaluator.', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''), ('inputs:message', 'string', 0, None, 'Text of the error message.', {}, True, "", False, ''), ('inputs:severity', 'token', 0, None, "Severity of the error. 'none' disables the error.", {ogn.MetadataKeys.ALLOWED_TOKENS: 'none,warning,error', ogn.MetadataKeys.ALLOWED_TOKENS_RAW: '["none", "warning", "error"]', ogn.MetadataKeys.DEFAULT: '"none"'}, True, "none", False, ''), ('outputs:dummyOut', 'int', 0, None, "Value copied from 'dummyIn'", {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''), ]) class tokens: none = "none" warning = "warning" error = "error" @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.message = og.AttributeRole.TEXT return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def deprecatedInInit(self): data_view = og.AttributeValueHelper(self._attributes.deprecatedInInit) return data_view.get() @deprecatedInInit.setter def deprecatedInInit(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.deprecatedInInit) data_view = og.AttributeValueHelper(self._attributes.deprecatedInInit) data_view.set(value) @property def deprecatedInOgn(self): data_view = og.AttributeValueHelper(self._attributes.deprecatedInOgn) return data_view.get() @deprecatedInOgn.setter def deprecatedInOgn(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.deprecatedInOgn) data_view = og.AttributeValueHelper(self._attributes.deprecatedInOgn) data_view.set(value) @property def dummyIn(self): data_view = og.AttributeValueHelper(self._attributes.dummyIn) return data_view.get() @dummyIn.setter def dummyIn(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.dummyIn) data_view = og.AttributeValueHelper(self._attributes.dummyIn) data_view.set(value) @property def failCompute(self): data_view = og.AttributeValueHelper(self._attributes.failCompute) return data_view.get() @failCompute.setter def failCompute(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.failCompute) data_view = og.AttributeValueHelper(self._attributes.failCompute) data_view.set(value) @property def message(self): data_view = og.AttributeValueHelper(self._attributes.message) return data_view.get() @message.setter def message(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.message) data_view = og.AttributeValueHelper(self._attributes.message) data_view.set(value) self.message_size = data_view.get_array_size() @property def severity(self): data_view = og.AttributeValueHelper(self._attributes.severity) return data_view.get() @severity.setter def severity(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.severity) data_view = og.AttributeValueHelper(self._attributes.severity) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def dummyOut(self): data_view = og.AttributeValueHelper(self._attributes.dummyOut) return data_view.get() @dummyOut.setter def dummyOut(self, value): data_view = og.AttributeValueHelper(self._attributes.dummyOut) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnComputeErrorCppDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnComputeErrorCppDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnComputeErrorCppDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	8,936	Python	44.136363	286	0.648389
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestGatherRandomRotationsDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TestGatherRandomRotations A sample node that gathers (vectorizes) a bunch of translations and rotations for OmniHydra. It lays out the objects in a grid and assigns a random value for the rotation """ import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn import carb class OgnTestGatherRandomRotationsDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestGatherRandomRotations Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.bucketIds """ # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:bucketIds', 'uint64', 0, None, 'bucketIds of the buckets involved in the gather', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = {"bucketIds", "_setting_locked", "_batchedReadAttributes", "_batchedReadValues"} """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [self._attributes.bucketIds] self._batchedReadValues = [0] @property def bucketIds(self): return self._batchedReadValues[0] @bucketIds.setter def bucketIds(self, value): self._batchedReadValues[0] = value def __getattr__(self, item: str): if item in self.LOCAL_PROPERTY_NAMES: return object.__getattribute__(self, item) else: return super().__getattr__(item) def __setattr__(self, item: str, new_value): if item in self.LOCAL_PROPERTY_NAMES: object.__setattr__(self, item, new_value) else: super().__setattr__(item, new_value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestGatherRandomRotationsDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestGatherRandomRotationsDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestGatherRandomRotationsDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	4,969	Python	53.021739	152	0.680217
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestAllDataTypesDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TestAllDataTypes This node is meant to exercise data access for all available data types, including all legal combinations of tuples, arrays, and bundle members. This node definition is a duplicate of OgnTestAllDataTypesPy.ogn, except the implementation language is C++. """ import carb import numpy import usdrt import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestAllDataTypesDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestAllDataTypes Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.a_bool inputs.a_bool_array inputs.a_bundle inputs.a_colord_3 inputs.a_colord_3_array inputs.a_colord_4 inputs.a_colord_4_array inputs.a_colorf_3 inputs.a_colorf_3_array inputs.a_colorf_4 inputs.a_colorf_4_array inputs.a_colorh_3 inputs.a_colorh_3_array inputs.a_colorh_4 inputs.a_colorh_4_array inputs.a_double inputs.a_double_2 inputs.a_double_2_array inputs.a_double_3 inputs.a_double_3_array inputs.a_double_4 inputs.a_double_4_array inputs.a_double_array inputs.a_execution inputs.a_float inputs.a_float_2 inputs.a_float_2_array inputs.a_float_3 inputs.a_float_3_array inputs.a_float_4 inputs.a_float_4_array inputs.a_float_array inputs.a_frame_4 inputs.a_frame_4_array inputs.a_half inputs.a_half_2 inputs.a_half_2_array inputs.a_half_3 inputs.a_half_3_array inputs.a_half_4 inputs.a_half_4_array inputs.a_half_array inputs.a_int inputs.a_int64 inputs.a_int64_array inputs.a_int_2 inputs.a_int_2_array inputs.a_int_3 inputs.a_int_3_array inputs.a_int_4 inputs.a_int_4_array inputs.a_int_array inputs.a_matrixd_2 inputs.a_matrixd_2_array inputs.a_matrixd_3 inputs.a_matrixd_3_array inputs.a_matrixd_4 inputs.a_matrixd_4_array inputs.a_normald_3 inputs.a_normald_3_array inputs.a_normalf_3 inputs.a_normalf_3_array inputs.a_normalh_3 inputs.a_normalh_3_array inputs.a_objectId inputs.a_objectId_array inputs.a_path inputs.a_pointd_3 inputs.a_pointd_3_array inputs.a_pointf_3 inputs.a_pointf_3_array inputs.a_pointh_3 inputs.a_pointh_3_array inputs.a_quatd_4 inputs.a_quatd_4_array inputs.a_quatf_4 inputs.a_quatf_4_array inputs.a_quath_4 inputs.a_quath_4_array inputs.a_string inputs.a_target inputs.a_texcoordd_2 inputs.a_texcoordd_2_array inputs.a_texcoordd_3 inputs.a_texcoordd_3_array inputs.a_texcoordf_2 inputs.a_texcoordf_2_array inputs.a_texcoordf_3 inputs.a_texcoordf_3_array inputs.a_texcoordh_2 inputs.a_texcoordh_2_array inputs.a_texcoordh_3 inputs.a_texcoordh_3_array inputs.a_timecode inputs.a_timecode_array inputs.a_token inputs.a_token_array inputs.a_uchar inputs.a_uchar_array inputs.a_uint inputs.a_uint64 inputs.a_uint64_array inputs.a_uint_array inputs.a_vectord_3 inputs.a_vectord_3_array inputs.a_vectorf_3 inputs.a_vectorf_3_array inputs.a_vectorh_3 inputs.a_vectorh_3_array inputs.doNotCompute Outputs: outputs.a_bool outputs.a_bool_array outputs.a_bundle outputs.a_colord_3 outputs.a_colord_3_array outputs.a_colord_4 outputs.a_colord_4_array outputs.a_colorf_3 outputs.a_colorf_3_array outputs.a_colorf_4 outputs.a_colorf_4_array outputs.a_colorh_3 outputs.a_colorh_3_array outputs.a_colorh_4 outputs.a_colorh_4_array outputs.a_double outputs.a_double_2 outputs.a_double_2_array outputs.a_double_3 outputs.a_double_3_array outputs.a_double_4 outputs.a_double_4_array outputs.a_double_array outputs.a_execution outputs.a_float outputs.a_float_2 outputs.a_float_2_array outputs.a_float_3 outputs.a_float_3_array outputs.a_float_4 outputs.a_float_4_array outputs.a_float_array outputs.a_frame_4 outputs.a_frame_4_array outputs.a_half outputs.a_half_2 outputs.a_half_2_array outputs.a_half_3 outputs.a_half_3_array outputs.a_half_4 outputs.a_half_4_array outputs.a_half_array outputs.a_int outputs.a_int64 outputs.a_int64_array outputs.a_int_2 outputs.a_int_2_array outputs.a_int_3 outputs.a_int_3_array outputs.a_int_4 outputs.a_int_4_array outputs.a_int_array outputs.a_matrixd_2 outputs.a_matrixd_2_array outputs.a_matrixd_3 outputs.a_matrixd_3_array outputs.a_matrixd_4 outputs.a_matrixd_4_array outputs.a_normald_3 outputs.a_normald_3_array outputs.a_normalf_3 outputs.a_normalf_3_array outputs.a_normalh_3 outputs.a_normalh_3_array outputs.a_objectId outputs.a_objectId_array outputs.a_path outputs.a_pointd_3 outputs.a_pointd_3_array outputs.a_pointf_3 outputs.a_pointf_3_array outputs.a_pointh_3 outputs.a_pointh_3_array outputs.a_quatd_4 outputs.a_quatd_4_array outputs.a_quatf_4 outputs.a_quatf_4_array outputs.a_quath_4 outputs.a_quath_4_array outputs.a_string outputs.a_target outputs.a_texcoordd_2 outputs.a_texcoordd_2_array outputs.a_texcoordd_3 outputs.a_texcoordd_3_array outputs.a_texcoordf_2 outputs.a_texcoordf_2_array outputs.a_texcoordf_3 outputs.a_texcoordf_3_array outputs.a_texcoordh_2 outputs.a_texcoordh_2_array outputs.a_texcoordh_3 outputs.a_texcoordh_3_array outputs.a_timecode outputs.a_timecode_array outputs.a_token outputs.a_token_array outputs.a_uchar outputs.a_uchar_array outputs.a_uint outputs.a_uint64 outputs.a_uint64_array outputs.a_uint_array outputs.a_vectord_3 outputs.a_vectord_3_array outputs.a_vectorf_3 outputs.a_vectorf_3_array outputs.a_vectorh_3 outputs.a_vectorh_3_array State: state.a_bool state.a_bool_array state.a_bundle state.a_colord_3 state.a_colord_3_array state.a_colord_4 state.a_colord_4_array state.a_colorf_3 state.a_colorf_3_array state.a_colorf_4 state.a_colorf_4_array state.a_colorh_3 state.a_colorh_3_array state.a_colorh_4 state.a_colorh_4_array state.a_double state.a_double_2 state.a_double_2_array state.a_double_3 state.a_double_3_array state.a_double_4 state.a_double_4_array state.a_double_array state.a_execution state.a_firstEvaluation state.a_float state.a_float_2 state.a_float_2_array state.a_float_3 state.a_float_3_array state.a_float_4 state.a_float_4_array state.a_float_array state.a_frame_4 state.a_frame_4_array state.a_half state.a_half_2 state.a_half_2_array state.a_half_3 state.a_half_3_array state.a_half_4 state.a_half_4_array state.a_half_array state.a_int state.a_int64 state.a_int64_array state.a_int_2 state.a_int_2_array state.a_int_3 state.a_int_3_array state.a_int_4 state.a_int_4_array state.a_int_array state.a_matrixd_2 state.a_matrixd_2_array state.a_matrixd_3 state.a_matrixd_3_array state.a_matrixd_4 state.a_matrixd_4_array state.a_normald_3 state.a_normald_3_array state.a_normalf_3 state.a_normalf_3_array state.a_normalh_3 state.a_normalh_3_array state.a_objectId state.a_objectId_array state.a_path state.a_pointd_3 state.a_pointd_3_array state.a_pointf_3 state.a_pointf_3_array state.a_pointh_3 state.a_pointh_3_array state.a_quatd_4 state.a_quatd_4_array state.a_quatf_4 state.a_quatf_4_array state.a_quath_4 state.a_quath_4_array state.a_string state.a_stringEmpty state.a_target state.a_texcoordd_2 state.a_texcoordd_2_array state.a_texcoordd_3 state.a_texcoordd_3_array state.a_texcoordf_2 state.a_texcoordf_2_array state.a_texcoordf_3 state.a_texcoordf_3_array state.a_texcoordh_2 state.a_texcoordh_2_array state.a_texcoordh_3 state.a_texcoordh_3_array state.a_timecode state.a_timecode_array state.a_token state.a_token_array state.a_uchar state.a_uchar_array state.a_uint state.a_uint64 state.a_uint64_array state.a_uint_array state.a_vectord_3 state.a_vectord_3_array state.a_vectorf_3 state.a_vectorf_3_array state.a_vectorh_3 state.a_vectorh_3_array """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:a_bool', 'bool', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''), ('inputs:a_bool_array', 'bool[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[false, true]'}, True, [False, True], False, ''), ('inputs:a_bundle', 'bundle', 0, None, 'Input Attribute', {}, False, None, False, ''), ('inputs:a_colord_3', 'color3d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_colord_3_array', 'color3d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_colord_4', 'color4d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_colord_4_array', 'color4d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_colorf_3', 'color3f', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_colorf_3_array', 'color3f[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_colorf_4', 'color4f', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_colorf_4_array', 'color4f[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_colorh_3', 'color3h', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_colorh_3_array', 'color3h[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_colorh_4', 'color4h', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_colorh_4_array', 'color4h[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_double', 'double', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1.0'}, True, 1.0, False, ''), ('inputs:a_double_2', 'double2', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_double_2_array', 'double2[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0], [11.0, 12.0]]'}, True, [[1.0, 2.0], [11.0, 12.0]], False, ''), ('inputs:a_double_3', 'double3', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_double_3_array', 'double3[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_double_4', 'double4', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_double_4_array', 'double4[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_double_array', 'double[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_execution', 'execution', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1'}, True, 1, False, ''), ('inputs:a_float', 'float', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1.0'}, True, 1.0, False, ''), ('inputs:a_float_2', 'float2', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_float_2_array', 'float2[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0], [11.0, 12.0]]'}, True, [[1.0, 2.0], [11.0, 12.0]], False, ''), ('inputs:a_float_3', 'float3', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_float_3_array', 'float3[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_float_4', 'float4', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_float_4_array', 'float4[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_float_array', 'float[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_frame_4', 'frame4d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], False, ''), ('inputs:a_frame_4_array', 'frame4d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], [[11.0, 12.0, 13.0, 14.0], [15.0, 16.0, 17.0, 18.0], [19.0, 20.0, 21.0, 22.0], [23.0, 24.0, 25.0, 26.0]]]'}, True, [[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], [[11.0, 12.0, 13.0, 14.0], [15.0, 16.0, 17.0, 18.0], [19.0, 20.0, 21.0, 22.0], [23.0, 24.0, 25.0, 26.0]]], False, ''), ('inputs:a_half', 'half', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1.0'}, True, 1.0, False, ''), ('inputs:a_half_2', 'half2', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_half_2_array', 'half2[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0], [11.0, 12.0]]'}, True, [[1.0, 2.0], [11.0, 12.0]], False, ''), ('inputs:a_half_3', 'half3', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_half_3_array', 'half3[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_half_4', 'half4', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_half_4_array', 'half4[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_half_array', 'half[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_int', 'int', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1'}, True, 1, False, ''), ('inputs:a_int64', 'int64', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '12345'}, True, 12345, False, ''), ('inputs:a_int64_array', 'int64[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[12345, 23456]'}, True, [12345, 23456], False, ''), ('inputs:a_int_2', 'int2', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2]'}, True, [1, 2], False, ''), ('inputs:a_int_2_array', 'int2[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1, 2], [3, 4]]'}, True, [[1, 2], [3, 4]], False, ''), ('inputs:a_int_3', 'int3', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2, 3]'}, True, [1, 2, 3], False, ''), ('inputs:a_int_3_array', 'int3[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1, 2, 3], [4, 5, 6]]'}, True, [[1, 2, 3], [4, 5, 6]], False, ''), ('inputs:a_int_4', 'int4', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2, 3, 4]'}, True, [1, 2, 3, 4], False, ''), ('inputs:a_int_4_array', 'int4[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1, 2, 3, 4], [5, 6, 7, 8]]'}, True, [[1, 2, 3, 4], [5, 6, 7, 8]], False, ''), ('inputs:a_int_array', 'int[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2]'}, True, [1, 2], False, ''), ('inputs:a_matrixd_2', 'matrix2d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0], [3.0, 4.0]]'}, True, [[1.0, 2.0], [3.0, 4.0]], False, ''), ('inputs:a_matrixd_2_array', 'matrix2d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.0, 2.0], [3.0, 4.0]], [[11.0, 12.0], [13.0, 14.0]]]'}, True, [[[1.0, 2.0], [3.0, 4.0]], [[11.0, 12.0], [13.0, 14.0]]], False, ''), ('inputs:a_matrixd_3', 'matrix3d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]]'}, True, [[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]], False, ''), ('inputs:a_matrixd_3_array', 'matrix3d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]], [[11.0, 12.0, 13.0], [14.0, 15.0, 16.0], [17.0, 18.0, 19.0]]]'}, True, [[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]], [[11.0, 12.0, 13.0], [14.0, 15.0, 16.0], [17.0, 18.0, 19.0]]], False, ''), ('inputs:a_matrixd_4', 'matrix4d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], False, ''), ('inputs:a_matrixd_4_array', 'matrix4d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], [[11.0, 12.0, 13.0, 14.0], [15.0, 16.0, 17.0, 18.0], [19.0, 20.0, 21.0, 22.0], [23.0, 24.0, 25.0, 26.0]]]'}, True, [[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], [[11.0, 12.0, 13.0, 14.0], [15.0, 16.0, 17.0, 18.0], [19.0, 20.0, 21.0, 22.0], [23.0, 24.0, 25.0, 26.0]]], False, ''), ('inputs:a_normald_3', 'normal3d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_normald_3_array', 'normal3d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_normalf_3', 'normal3f', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_normalf_3_array', 'normal3f[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_normalh_3', 'normal3h', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 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{ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_half_3_array', 'half3[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_half_4', 'half4', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5, 4.5]'}, True, [1.5, 2.5, 3.5, 4.5], False, ''), ('state:a_half_4_array', 'half4[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5, 4.5], [11.5, 12.5, 13.5, 14.5]]'}, True, [[1.5, 2.5, 3.5, 4.5], [11.5, 12.5, 13.5, 14.5]], False, ''), ('state:a_half_array', 'half[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5]'}, True, [1.5, 2.5], False, ''), ('state:a_int', 'int', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '1'}, True, 1, False, ''), ('state:a_int64', 'int64', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '12345'}, True, 12345, False, ''), ('state:a_int64_array', 'int64[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[12345, 23456]'}, True, [12345, 23456], False, ''), ('state:a_int_2', 'int2', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2]'}, True, [1, 2], False, ''), ('state:a_int_2_array', 'int2[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1, 2], [3, 4]]'}, True, [[1, 2], [3, 4]], False, ''), ('state:a_int_3', 'int3', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2, 3]'}, True, [1, 2, 3], False, ''), ('state:a_int_3_array', 'int3[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1, 2, 3], [4, 5, 6]]'}, True, [[1, 2, 3], [4, 5, 6]], False, ''), ('state:a_int_4', 'int4', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2, 3, 4]'}, True, [1, 2, 3, 4], False, ''), ('state:a_int_4_array', 'int4[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1, 2, 3, 4], [5, 6, 7, 8]]'}, True, [[1, 2, 3, 4], [5, 6, 7, 8]], False, ''), ('state:a_int_array', 'int[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2]'}, True, [1, 2], False, ''), ('state:a_matrixd_2', 'matrix2d', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5], [3.5, 4.5]]'}, True, [[1.5, 2.5], [3.5, 4.5]], False, ''), ('state:a_matrixd_2_array', 'matrix2d[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.5, 2.5], [3.5, 4.5]], [[11.5, 12.5], [13.5, 14.5]]]'}, True, [[[1.5, 2.5], [3.5, 4.5]], [[11.5, 12.5], [13.5, 14.5]]], False, ''), ('state:a_matrixd_3', 'matrix3d', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [4.5, 5.5, 6.5], [7.5, 8.5, 9.5]]'}, True, [[1.5, 2.5, 3.5], [4.5, 5.5, 6.5], [7.5, 8.5, 9.5]], False, ''), ('state:a_matrixd_3_array', 'matrix3d[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.5, 2.5, 3.5], [4.5, 5.5, 6.5], [7.5, 8.5, 9.5]], [[11.5, 12.5, 13.5], [14.5, 15.5, 16.5], [17.5, 18.5, 19.5]]]'}, True, [[[1.5, 2.5, 3.5], [4.5, 5.5, 6.5], [7.5, 8.5, 9.5]], [[11.5, 12.5, 13.5], [14.5, 15.5, 16.5], [17.5, 18.5, 19.5]]], False, ''), ('state:a_matrixd_4', 'matrix4d', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5, 4.5], [5.5, 6.5, 7.5, 8.5], [9.5, 10.5, 11.5, 12.5], [13.5, 14.5, 15.5, 16.5]]'}, True, [[1.5, 2.5, 3.5, 4.5], [5.5, 6.5, 7.5, 8.5], [9.5, 10.5, 11.5, 12.5], [13.5, 14.5, 15.5, 16.5]], False, ''), ('state:a_matrixd_4_array', 'matrix4d[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.5, 2.5, 3.5, 4.5], [5.5, 6.5, 7.5, 8.5], [9.5, 10.5, 11.5, 12.5], [13.5, 14.5, 15.5, 16.5]], [[11.5, 12.5, 13.5, 14.5], [15.5, 16.5, 17.5, 18.5], [19.5, 20.5, 21.5, 22.5], [23.5, 24.5, 25.5, 26.5]]]'}, True, [[[1.5, 2.5, 3.5, 4.5], [5.5, 6.5, 7.5, 8.5], [9.5, 10.5, 11.5, 12.5], [13.5, 14.5, 15.5, 16.5]], [[11.5, 12.5, 13.5, 14.5], [15.5, 16.5, 17.5, 18.5], [19.5, 20.5, 21.5, 22.5], [23.5, 24.5, 25.5, 26.5]]], False, ''), ('state:a_normald_3', 'normal3d', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_normald_3_array', 'normal3d[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_normalf_3', 'normal3f', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_normalf_3_array', 'normal3f[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_normalh_3', 'normal3h', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_normalh_3_array', 'normal3h[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_objectId', 'objectId', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2'}, True, 2, False, ''), ('state:a_objectId_array', 'objectId[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[2, 3]'}, True, [2, 3], False, ''), ('state:a_path', 'path', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '"/State"'}, True, "/State", False, ''), ('state:a_pointd_3', 'point3d', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_pointd_3_array', 'point3d[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_pointf_3', 'point3f', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_pointf_3_array', 'point3f[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_pointh_3', 'point3h', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_pointh_3_array', 'point3h[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_quatd_4', 'quatd', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5, 4.5]'}, True, [1.5, 2.5, 3.5, 4.5], False, ''), ('state:a_quatd_4_array', 'quatd[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5, 4.5], [11.5, 12.5, 13.5, 14.5]]'}, True, [[1.5, 2.5, 3.5, 4.5], [11.5, 12.5, 13.5, 14.5]], False, ''), ('state:a_quatf_4', 'quatf', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5, 4.5]'}, True, [1.5, 2.5, 3.5, 4.5], False, ''), ('state:a_quatf_4_array', 'quatf[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5, 4.5], [11.5, 12.5, 13.5, 14.5]]'}, True, [[1.5, 2.5, 3.5, 4.5], [11.5, 12.5, 13.5, 14.5]], False, ''), ('state:a_quath_4', 'quath', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5, 4.5]'}, True, [1.5, 2.5, 3.5, 4.5], False, ''), ('state:a_quath_4_array', 'quath[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5, 4.5], [11.5, 12.5, 13.5, 14.5]]'}, True, [[1.5, 2.5, 3.5, 4.5], [11.5, 12.5, 13.5, 14.5]], False, ''), ('state:a_string', 'string', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '"Emperor\\n\\"Half\\" Snoke"'}, True, "Emperor\n\"Half\" Snoke", False, ''), ('state:a_stringEmpty', 'string', 0, None, 'State Attribute', {}, True, None, False, ''), ('state:a_target', 'target', 0, None, 'State Attribute', {}, True, [], False, ''), ('state:a_texcoordd_2', 'texCoord2d', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5]'}, True, [1.5, 2.5], False, ''), ('state:a_texcoordd_2_array', 'texCoord2d[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5], [11.5, 12.5]]'}, True, [[1.5, 2.5], [11.5, 12.5]], False, ''), ('state:a_texcoordd_3', 'texCoord3d', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_texcoordd_3_array', 'texCoord3d[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_texcoordf_2', 'texCoord2f', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5]'}, True, [1.5, 2.5], False, ''), ('state:a_texcoordf_2_array', 'texCoord2f[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5], [11.5, 12.5]]'}, True, [[1.5, 2.5], [11.5, 12.5]], False, ''), ('state:a_texcoordf_3', 'texCoord3f', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_texcoordf_3_array', 'texCoord3f[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_texcoordh_2', 'texCoord2h', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5]'}, True, [1.5, 2.5], False, ''), ('state:a_texcoordh_2_array', 'texCoord2h[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5], [11.5, 12.5]]'}, True, [[1.5, 2.5], [11.5, 12.5]], False, ''), ('state:a_texcoordh_3', 'texCoord3h', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_texcoordh_3_array', 'texCoord3h[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_timecode', 'timecode', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2.5'}, True, 2.5, False, ''), ('state:a_timecode_array', 'timecode[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[2.5, 3.5]'}, True, [2.5, 3.5], False, ''), ('state:a_token', 'token', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '"Jedi\\nMaster"'}, True, "Jedi\nMaster", False, ''), ('state:a_token_array', 'token[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '["Luke\\n\\"Whiner\\"", "Skywalker"]'}, True, ['Luke\n"Whiner"', 'Skywalker'], False, ''), ('state:a_uchar', 'uchar', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2'}, True, 2, False, ''), ('state:a_uchar_array', 'uchar[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[2, 3]'}, True, [2, 3], False, ''), ('state:a_uint', 'uint', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2'}, True, 2, False, ''), ('state:a_uint64', 'uint64', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2'}, True, 2, False, ''), ('state:a_uint64_array', 'uint64[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[2, 3]'}, True, [2, 3], False, ''), ('state:a_uint_array', 'uint[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[2, 3]'}, True, [2, 3], False, ''), ('state:a_vectord_3', 'vector3d', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_vectord_3_array', 'vector3d[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_vectorf_3', 'vector3f', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_vectorf_3_array', 'vector3f[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_vectorh_3', 'vector3h', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_vectorh_3_array', 'vector3h[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.a_bundle = og.AttributeRole.BUNDLE role_data.inputs.a_colord_3 = og.AttributeRole.COLOR role_data.inputs.a_colord_3_array = og.AttributeRole.COLOR role_data.inputs.a_colord_4 = og.AttributeRole.COLOR role_data.inputs.a_colord_4_array = og.AttributeRole.COLOR role_data.inputs.a_colorf_3 = og.AttributeRole.COLOR role_data.inputs.a_colorf_3_array = og.AttributeRole.COLOR role_data.inputs.a_colorf_4 = og.AttributeRole.COLOR role_data.inputs.a_colorf_4_array = og.AttributeRole.COLOR role_data.inputs.a_colorh_3 = og.AttributeRole.COLOR role_data.inputs.a_colorh_3_array = og.AttributeRole.COLOR role_data.inputs.a_colorh_4 = og.AttributeRole.COLOR role_data.inputs.a_colorh_4_array = og.AttributeRole.COLOR role_data.inputs.a_execution = og.AttributeRole.EXECUTION role_data.inputs.a_frame_4 = og.AttributeRole.FRAME role_data.inputs.a_frame_4_array = og.AttributeRole.FRAME role_data.inputs.a_matrixd_2 = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_2_array = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_3 = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_3_array = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_4 = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_4_array = og.AttributeRole.MATRIX role_data.inputs.a_normald_3 = og.AttributeRole.NORMAL role_data.inputs.a_normald_3_array = og.AttributeRole.NORMAL role_data.inputs.a_normalf_3 = og.AttributeRole.NORMAL role_data.inputs.a_normalf_3_array = og.AttributeRole.NORMAL role_data.inputs.a_normalh_3 = og.AttributeRole.NORMAL role_data.inputs.a_normalh_3_array = og.AttributeRole.NORMAL role_data.inputs.a_objectId = og.AttributeRole.OBJECT_ID role_data.inputs.a_objectId_array = og.AttributeRole.OBJECT_ID role_data.inputs.a_path = og.AttributeRole.PATH role_data.inputs.a_pointd_3 = og.AttributeRole.POSITION role_data.inputs.a_pointd_3_array = og.AttributeRole.POSITION role_data.inputs.a_pointf_3 = og.AttributeRole.POSITION role_data.inputs.a_pointf_3_array = og.AttributeRole.POSITION role_data.inputs.a_pointh_3 = og.AttributeRole.POSITION role_data.inputs.a_pointh_3_array = og.AttributeRole.POSITION role_data.inputs.a_quatd_4 = og.AttributeRole.QUATERNION role_data.inputs.a_quatd_4_array = og.AttributeRole.QUATERNION role_data.inputs.a_quatf_4 = og.AttributeRole.QUATERNION role_data.inputs.a_quatf_4_array = og.AttributeRole.QUATERNION role_data.inputs.a_quath_4 = og.AttributeRole.QUATERNION role_data.inputs.a_quath_4_array = og.AttributeRole.QUATERNION role_data.inputs.a_string = og.AttributeRole.TEXT role_data.inputs.a_target = og.AttributeRole.TARGET role_data.inputs.a_texcoordd_2 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd_2_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd_3 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd_3_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf_2 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf_2_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf_3 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf_3_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh_2 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh_2_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh_3 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh_3_array = og.AttributeRole.TEXCOORD role_data.inputs.a_timecode = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_array = og.AttributeRole.TIMECODE role_data.inputs.a_vectord_3 = og.AttributeRole.VECTOR role_data.inputs.a_vectord_3_array = og.AttributeRole.VECTOR role_data.inputs.a_vectorf_3 = og.AttributeRole.VECTOR role_data.inputs.a_vectorf_3_array = og.AttributeRole.VECTOR role_data.inputs.a_vectorh_3 = og.AttributeRole.VECTOR role_data.inputs.a_vectorh_3_array = og.AttributeRole.VECTOR role_data.outputs.a_bundle = og.AttributeRole.BUNDLE role_data.outputs.a_colord_3 = og.AttributeRole.COLOR role_data.outputs.a_colord_3_array = og.AttributeRole.COLOR role_data.outputs.a_colord_4 = og.AttributeRole.COLOR role_data.outputs.a_colord_4_array = og.AttributeRole.COLOR role_data.outputs.a_colorf_3 = og.AttributeRole.COLOR role_data.outputs.a_colorf_3_array = og.AttributeRole.COLOR role_data.outputs.a_colorf_4 = og.AttributeRole.COLOR role_data.outputs.a_colorf_4_array = og.AttributeRole.COLOR role_data.outputs.a_colorh_3 = og.AttributeRole.COLOR role_data.outputs.a_colorh_3_array = og.AttributeRole.COLOR role_data.outputs.a_colorh_4 = og.AttributeRole.COLOR role_data.outputs.a_colorh_4_array = og.AttributeRole.COLOR role_data.outputs.a_execution = og.AttributeRole.EXECUTION role_data.outputs.a_frame_4 = og.AttributeRole.FRAME role_data.outputs.a_frame_4_array = og.AttributeRole.FRAME role_data.outputs.a_matrixd_2 = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_2_array = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_3 = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_3_array = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_4 = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_4_array = og.AttributeRole.MATRIX role_data.outputs.a_normald_3 = og.AttributeRole.NORMAL role_data.outputs.a_normald_3_array = og.AttributeRole.NORMAL role_data.outputs.a_normalf_3 = og.AttributeRole.NORMAL role_data.outputs.a_normalf_3_array = og.AttributeRole.NORMAL role_data.outputs.a_normalh_3 = og.AttributeRole.NORMAL role_data.outputs.a_normalh_3_array = og.AttributeRole.NORMAL role_data.outputs.a_objectId = og.AttributeRole.OBJECT_ID role_data.outputs.a_objectId_array = og.AttributeRole.OBJECT_ID role_data.outputs.a_path = og.AttributeRole.PATH role_data.outputs.a_pointd_3 = og.AttributeRole.POSITION role_data.outputs.a_pointd_3_array = og.AttributeRole.POSITION role_data.outputs.a_pointf_3 = og.AttributeRole.POSITION role_data.outputs.a_pointf_3_array = og.AttributeRole.POSITION role_data.outputs.a_pointh_3 = og.AttributeRole.POSITION role_data.outputs.a_pointh_3_array = og.AttributeRole.POSITION role_data.outputs.a_quatd_4 = og.AttributeRole.QUATERNION role_data.outputs.a_quatd_4_array = og.AttributeRole.QUATERNION role_data.outputs.a_quatf_4 = og.AttributeRole.QUATERNION role_data.outputs.a_quatf_4_array = og.AttributeRole.QUATERNION role_data.outputs.a_quath_4 = og.AttributeRole.QUATERNION role_data.outputs.a_quath_4_array = og.AttributeRole.QUATERNION role_data.outputs.a_string = og.AttributeRole.TEXT role_data.outputs.a_target = og.AttributeRole.TARGET role_data.outputs.a_texcoordd_2 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd_2_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd_3 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd_3_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf_2 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf_2_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf_3 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf_3_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh_2 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh_2_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh_3 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh_3_array = og.AttributeRole.TEXCOORD role_data.outputs.a_timecode = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_array = og.AttributeRole.TIMECODE role_data.outputs.a_vectord_3 = og.AttributeRole.VECTOR role_data.outputs.a_vectord_3_array = og.AttributeRole.VECTOR role_data.outputs.a_vectorf_3 = og.AttributeRole.VECTOR role_data.outputs.a_vectorf_3_array = og.AttributeRole.VECTOR role_data.outputs.a_vectorh_3 = og.AttributeRole.VECTOR role_data.outputs.a_vectorh_3_array = og.AttributeRole.VECTOR role_data.state.a_bundle = og.AttributeRole.BUNDLE role_data.state.a_colord_3 = og.AttributeRole.COLOR role_data.state.a_colord_3_array = og.AttributeRole.COLOR role_data.state.a_colord_4 = og.AttributeRole.COLOR role_data.state.a_colord_4_array = og.AttributeRole.COLOR role_data.state.a_colorf_3 = og.AttributeRole.COLOR role_data.state.a_colorf_3_array = og.AttributeRole.COLOR role_data.state.a_colorf_4 = og.AttributeRole.COLOR role_data.state.a_colorf_4_array = og.AttributeRole.COLOR role_data.state.a_colorh_3 = og.AttributeRole.COLOR role_data.state.a_colorh_3_array = og.AttributeRole.COLOR role_data.state.a_colorh_4 = og.AttributeRole.COLOR role_data.state.a_colorh_4_array = og.AttributeRole.COLOR role_data.state.a_execution = og.AttributeRole.EXECUTION role_data.state.a_frame_4 = og.AttributeRole.FRAME role_data.state.a_frame_4_array = og.AttributeRole.FRAME role_data.state.a_matrixd_2 = og.AttributeRole.MATRIX role_data.state.a_matrixd_2_array = og.AttributeRole.MATRIX role_data.state.a_matrixd_3 = og.AttributeRole.MATRIX role_data.state.a_matrixd_3_array = og.AttributeRole.MATRIX role_data.state.a_matrixd_4 = og.AttributeRole.MATRIX role_data.state.a_matrixd_4_array = og.AttributeRole.MATRIX role_data.state.a_normald_3 = og.AttributeRole.NORMAL role_data.state.a_normald_3_array = og.AttributeRole.NORMAL role_data.state.a_normalf_3 = og.AttributeRole.NORMAL role_data.state.a_normalf_3_array = og.AttributeRole.NORMAL role_data.state.a_normalh_3 = og.AttributeRole.NORMAL role_data.state.a_normalh_3_array = og.AttributeRole.NORMAL role_data.state.a_objectId = og.AttributeRole.OBJECT_ID role_data.state.a_objectId_array = og.AttributeRole.OBJECT_ID role_data.state.a_path = og.AttributeRole.PATH role_data.state.a_pointd_3 = og.AttributeRole.POSITION role_data.state.a_pointd_3_array = og.AttributeRole.POSITION role_data.state.a_pointf_3 = og.AttributeRole.POSITION role_data.state.a_pointf_3_array = og.AttributeRole.POSITION role_data.state.a_pointh_3 = og.AttributeRole.POSITION role_data.state.a_pointh_3_array = og.AttributeRole.POSITION role_data.state.a_quatd_4 = og.AttributeRole.QUATERNION role_data.state.a_quatd_4_array = og.AttributeRole.QUATERNION role_data.state.a_quatf_4 = og.AttributeRole.QUATERNION role_data.state.a_quatf_4_array = og.AttributeRole.QUATERNION role_data.state.a_quath_4 = og.AttributeRole.QUATERNION role_data.state.a_quath_4_array = og.AttributeRole.QUATERNION role_data.state.a_string = og.AttributeRole.TEXT role_data.state.a_stringEmpty = og.AttributeRole.TEXT role_data.state.a_target = og.AttributeRole.TARGET role_data.state.a_texcoordd_2 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordd_2_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordd_3 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordd_3_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordf_2 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordf_2_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordf_3 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordf_3_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordh_2 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordh_2_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordh_3 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordh_3_array = og.AttributeRole.TEXCOORD role_data.state.a_timecode = og.AttributeRole.TIMECODE role_data.state.a_timecode_array = og.AttributeRole.TIMECODE role_data.state.a_vectord_3 = og.AttributeRole.VECTOR role_data.state.a_vectord_3_array = og.AttributeRole.VECTOR role_data.state.a_vectorf_3 = og.AttributeRole.VECTOR role_data.state.a_vectorf_3_array = og.AttributeRole.VECTOR role_data.state.a_vectorh_3 = og.AttributeRole.VECTOR role_data.state.a_vectorh_3_array = og.AttributeRole.VECTOR return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=True, gpu_ptr_kinds={}) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def a_bool(self): data_view = og.AttributeValueHelper(self._attributes.a_bool) return data_view.get() @a_bool.setter def a_bool(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_bool) data_view = og.AttributeValueHelper(self._attributes.a_bool) data_view.set(value) @property def a_bool_array(self): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) return data_view.get() @a_bool_array.setter def a_bool_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_bool_array) data_view = og.AttributeValueHelper(self._attributes.a_bool_array) data_view.set(value) self.a_bool_array_size = data_view.get_array_size() @property def a_bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute inputs.a_bundle""" return self.__bundles.a_bundle @property def a_colord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) return data_view.get() @a_colord_3.setter def a_colord_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord_3) data_view = og.AttributeValueHelper(self._attributes.a_colord_3) data_view.set(value) @property def a_colord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) return data_view.get() @a_colord_3_array.setter def a_colord_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord_3_array) data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) data_view.set(value) self.a_colord_3_array_size = data_view.get_array_size() @property def a_colord_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) return data_view.get() @a_colord_4.setter def a_colord_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord_4) data_view = og.AttributeValueHelper(self._attributes.a_colord_4) data_view.set(value) @property def a_colord_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) return data_view.get() @a_colord_4_array.setter def a_colord_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord_4_array) data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) data_view.set(value) self.a_colord_4_array_size = data_view.get_array_size() @property def a_colorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) return data_view.get() @a_colorf_3.setter def a_colorf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf_3) data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) data_view.set(value) @property def a_colorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) return data_view.get() @a_colorf_3_array.setter def a_colorf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) data_view.set(value) self.a_colorf_3_array_size = data_view.get_array_size() @property def a_colorf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) return data_view.get() @a_colorf_4.setter def a_colorf_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf_4) data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) data_view.set(value) @property def a_colorf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) return data_view.get() @a_colorf_4_array.setter def a_colorf_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf_4_array) data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) data_view.set(value) self.a_colorf_4_array_size = data_view.get_array_size() @property def a_colorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) return data_view.get() @a_colorh_3.setter def a_colorh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh_3) data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) data_view.set(value) @property def a_colorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) return data_view.get() @a_colorh_3_array.setter def a_colorh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) data_view.set(value) self.a_colorh_3_array_size = data_view.get_array_size() @property def a_colorh_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) return data_view.get() @a_colorh_4.setter def a_colorh_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh_4) data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) data_view.set(value) @property def a_colorh_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) return data_view.get() @a_colorh_4_array.setter def a_colorh_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh_4_array) data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) data_view.set(value) self.a_colorh_4_array_size = data_view.get_array_size() @property def a_double(self): data_view = og.AttributeValueHelper(self._attributes.a_double) return data_view.get() @a_double.setter def a_double(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double) data_view = og.AttributeValueHelper(self._attributes.a_double) data_view.set(value) @property def a_double_2(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2) return data_view.get() @a_double_2.setter def a_double_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_2) data_view = og.AttributeValueHelper(self._attributes.a_double_2) data_view.set(value) @property def a_double_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) return data_view.get() @a_double_2_array.setter def a_double_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_2_array) data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) data_view.set(value) self.a_double_2_array_size = data_view.get_array_size() @property def a_double_3(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3) return data_view.get() @a_double_3.setter def a_double_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_3) data_view = og.AttributeValueHelper(self._attributes.a_double_3) data_view.set(value) @property def a_double_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) return data_view.get() @a_double_3_array.setter def a_double_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_3_array) data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) data_view.set(value) self.a_double_3_array_size = data_view.get_array_size() @property def a_double_4(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4) return data_view.get() @a_double_4.setter def a_double_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_4) data_view = og.AttributeValueHelper(self._attributes.a_double_4) data_view.set(value) @property def a_double_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) return data_view.get() @a_double_4_array.setter def a_double_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_4_array) data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) data_view.set(value) self.a_double_4_array_size = data_view.get_array_size() @property def a_double_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array) return data_view.get() @a_double_array.setter def a_double_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array) data_view = og.AttributeValueHelper(self._attributes.a_double_array) data_view.set(value) self.a_double_array_size = data_view.get_array_size() @property def a_execution(self): data_view = og.AttributeValueHelper(self._attributes.a_execution) return data_view.get() @a_execution.setter def a_execution(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_execution) data_view = og.AttributeValueHelper(self._attributes.a_execution) data_view.set(value) @property def a_float(self): data_view = og.AttributeValueHelper(self._attributes.a_float) return data_view.get() @a_float.setter def a_float(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float) data_view = og.AttributeValueHelper(self._attributes.a_float) data_view.set(value) @property def a_float_2(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2) return data_view.get() @a_float_2.setter def a_float_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_2) data_view = og.AttributeValueHelper(self._attributes.a_float_2) data_view.set(value) @property def a_float_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) return data_view.get() @a_float_2_array.setter def a_float_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_2_array) data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) data_view.set(value) self.a_float_2_array_size = data_view.get_array_size() @property def a_float_3(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3) return data_view.get() @a_float_3.setter def a_float_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_3) data_view = og.AttributeValueHelper(self._attributes.a_float_3) data_view.set(value) @property def a_float_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) return data_view.get() @a_float_3_array.setter def a_float_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_3_array) data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) data_view.set(value) self.a_float_3_array_size = data_view.get_array_size() @property def a_float_4(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4) return data_view.get() @a_float_4.setter def a_float_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_4) data_view = og.AttributeValueHelper(self._attributes.a_float_4) data_view.set(value) @property def a_float_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) return data_view.get() @a_float_4_array.setter def a_float_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_4_array) data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) data_view.set(value) self.a_float_4_array_size = data_view.get_array_size() @property def a_float_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array) return data_view.get() @a_float_array.setter def a_float_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array) data_view = og.AttributeValueHelper(self._attributes.a_float_array) data_view.set(value) self.a_float_array_size = data_view.get_array_size() @property def a_frame_4(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) return data_view.get() @a_frame_4.setter def a_frame_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame_4) data_view = og.AttributeValueHelper(self._attributes.a_frame_4) data_view.set(value) @property def a_frame_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) return data_view.get() @a_frame_4_array.setter def a_frame_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame_4_array) data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) data_view.set(value) self.a_frame_4_array_size = data_view.get_array_size() @property def a_half(self): data_view = og.AttributeValueHelper(self._attributes.a_half) return data_view.get() @a_half.setter def a_half(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half) data_view = og.AttributeValueHelper(self._attributes.a_half) data_view.set(value) @property def a_half_2(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2) return data_view.get() @a_half_2.setter def a_half_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_2) data_view = og.AttributeValueHelper(self._attributes.a_half_2) data_view.set(value) @property def a_half_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) return data_view.get() @a_half_2_array.setter def a_half_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_2_array) data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) data_view.set(value) self.a_half_2_array_size = data_view.get_array_size() @property def a_half_3(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3) return data_view.get() @a_half_3.setter def a_half_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_3) data_view = og.AttributeValueHelper(self._attributes.a_half_3) data_view.set(value) @property def a_half_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) return data_view.get() @a_half_3_array.setter def a_half_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_3_array) data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) data_view.set(value) self.a_half_3_array_size = data_view.get_array_size() @property def a_half_4(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4) return data_view.get() @a_half_4.setter def a_half_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_4) data_view = og.AttributeValueHelper(self._attributes.a_half_4) data_view.set(value) @property def a_half_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) return data_view.get() @a_half_4_array.setter def a_half_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_4_array) data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) data_view.set(value) self.a_half_4_array_size = data_view.get_array_size() @property def a_half_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array) return data_view.get() @a_half_array.setter def a_half_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array) data_view = og.AttributeValueHelper(self._attributes.a_half_array) data_view.set(value) self.a_half_array_size = data_view.get_array_size() @property def a_int(self): data_view = og.AttributeValueHelper(self._attributes.a_int) return data_view.get() @a_int.setter def a_int(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int) data_view = og.AttributeValueHelper(self._attributes.a_int) data_view.set(value) @property def a_int64(self): data_view = og.AttributeValueHelper(self._attributes.a_int64) return data_view.get() @a_int64.setter def a_int64(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int64) data_view = og.AttributeValueHelper(self._attributes.a_int64) data_view.set(value) @property def a_int64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) return data_view.get() @a_int64_array.setter def a_int64_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int64_array) data_view = og.AttributeValueHelper(self._attributes.a_int64_array) data_view.set(value) self.a_int64_array_size = data_view.get_array_size() @property def a_int_2(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2) return data_view.get() @a_int_2.setter def a_int_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_2) data_view = og.AttributeValueHelper(self._attributes.a_int_2) data_view.set(value) @property def a_int_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) return data_view.get() @a_int_2_array.setter def a_int_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_2_array) data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) data_view.set(value) self.a_int_2_array_size = data_view.get_array_size() @property def a_int_3(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3) return data_view.get() @a_int_3.setter def a_int_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_3) data_view = og.AttributeValueHelper(self._attributes.a_int_3) data_view.set(value) @property def a_int_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) return data_view.get() @a_int_3_array.setter def a_int_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_3_array) data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) data_view.set(value) self.a_int_3_array_size = data_view.get_array_size() @property def a_int_4(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4) return data_view.get() @a_int_4.setter def a_int_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_4) data_view = og.AttributeValueHelper(self._attributes.a_int_4) data_view.set(value) @property def a_int_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) return data_view.get() @a_int_4_array.setter def a_int_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_4_array) data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) data_view.set(value) self.a_int_4_array_size = data_view.get_array_size() @property def a_int_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_array) return data_view.get() @a_int_array.setter def a_int_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_array) data_view = og.AttributeValueHelper(self._attributes.a_int_array) data_view.set(value) self.a_int_array_size = data_view.get_array_size() @property def a_matrixd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) return data_view.get() @a_matrixd_2.setter def a_matrixd_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_2) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) data_view.set(value) @property def a_matrixd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) return data_view.get() @a_matrixd_2_array.setter def a_matrixd_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_2_array) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) data_view.set(value) self.a_matrixd_2_array_size = data_view.get_array_size() @property def a_matrixd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) return data_view.get() @a_matrixd_3.setter def a_matrixd_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_3) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) data_view.set(value) @property def a_matrixd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) return data_view.get() @a_matrixd_3_array.setter def a_matrixd_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_3_array) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) data_view.set(value) self.a_matrixd_3_array_size = data_view.get_array_size() @property def a_matrixd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) return data_view.get() @a_matrixd_4.setter def a_matrixd_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_4) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) data_view.set(value) @property def a_matrixd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) return data_view.get() @a_matrixd_4_array.setter def a_matrixd_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_4_array) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) data_view.set(value) self.a_matrixd_4_array_size = data_view.get_array_size() @property def a_normald_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) return data_view.get() @a_normald_3.setter def a_normald_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald_3) data_view = og.AttributeValueHelper(self._attributes.a_normald_3) data_view.set(value) @property def a_normald_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) return data_view.get() @a_normald_3_array.setter def a_normald_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald_3_array) data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) data_view.set(value) self.a_normald_3_array_size = data_view.get_array_size() @property def a_normalf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) return data_view.get() @a_normalf_3.setter def a_normalf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf_3) data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) data_view.set(value) @property def a_normalf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) return data_view.get() @a_normalf_3_array.setter def a_normalf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) data_view.set(value) self.a_normalf_3_array_size = data_view.get_array_size() @property def a_normalh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) return data_view.get() @a_normalh_3.setter def a_normalh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh_3) data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) data_view.set(value) @property def a_normalh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) return data_view.get() @a_normalh_3_array.setter def a_normalh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) data_view.set(value) self.a_normalh_3_array_size = data_view.get_array_size() @property def a_objectId(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId) return data_view.get() @a_objectId.setter def a_objectId(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_objectId) data_view = og.AttributeValueHelper(self._attributes.a_objectId) data_view.set(value) @property def a_objectId_array(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) return data_view.get() @a_objectId_array.setter def a_objectId_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_objectId_array) data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) data_view.set(value) self.a_objectId_array_size = data_view.get_array_size() @property def a_path(self): data_view = og.AttributeValueHelper(self._attributes.a_path) return data_view.get() @a_path.setter def a_path(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_path) data_view = og.AttributeValueHelper(self._attributes.a_path) data_view.set(value) self.a_path_size = data_view.get_array_size() @property def a_pointd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) return data_view.get() @a_pointd_3.setter def a_pointd_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd_3) data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) data_view.set(value) @property def a_pointd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) return data_view.get() @a_pointd_3_array.setter def a_pointd_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd_3_array) data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) data_view.set(value) self.a_pointd_3_array_size = data_view.get_array_size() @property def a_pointf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) return data_view.get() @a_pointf_3.setter def a_pointf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf_3) data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) data_view.set(value) @property def a_pointf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) return data_view.get() @a_pointf_3_array.setter def a_pointf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) data_view.set(value) self.a_pointf_3_array_size = data_view.get_array_size() @property def a_pointh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) return data_view.get() @a_pointh_3.setter def a_pointh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh_3) data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) data_view.set(value) @property def a_pointh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) return data_view.get() @a_pointh_3_array.setter def a_pointh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) data_view.set(value) self.a_pointh_3_array_size = data_view.get_array_size() @property def a_quatd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) return data_view.get() @a_quatd_4.setter def a_quatd_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd_4) data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) data_view.set(value) @property def a_quatd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) return data_view.get() @a_quatd_4_array.setter def a_quatd_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd_4_array) data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) data_view.set(value) self.a_quatd_4_array_size = data_view.get_array_size() @property def a_quatf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) return data_view.get() @a_quatf_4.setter def a_quatf_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf_4) data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) data_view.set(value) @property def a_quatf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) return data_view.get() @a_quatf_4_array.setter def a_quatf_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf_4_array) data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) data_view.set(value) self.a_quatf_4_array_size = data_view.get_array_size() @property def a_quath_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) return data_view.get() @a_quath_4.setter def a_quath_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath_4) data_view = og.AttributeValueHelper(self._attributes.a_quath_4) data_view.set(value) @property def a_quath_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) return data_view.get() @a_quath_4_array.setter def a_quath_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath_4_array) data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) data_view.set(value) self.a_quath_4_array_size = data_view.get_array_size() @property def a_string(self): data_view = og.AttributeValueHelper(self._attributes.a_string) return data_view.get() @a_string.setter def a_string(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_string) data_view = og.AttributeValueHelper(self._attributes.a_string) data_view.set(value) self.a_string_size = data_view.get_array_size() @property def a_target(self): data_view = og.AttributeValueHelper(self._attributes.a_target) return data_view.get() @a_target.setter def a_target(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_target) data_view = og.AttributeValueHelper(self._attributes.a_target) data_view.set(value) self.a_target_size = data_view.get_array_size() @property def a_texcoordd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) return data_view.get() @a_texcoordd_2.setter def a_texcoordd_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd_2) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) data_view.set(value) @property def a_texcoordd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) return data_view.get() @a_texcoordd_2_array.setter def a_texcoordd_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd_2_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) data_view.set(value) self.a_texcoordd_2_array_size = data_view.get_array_size() @property def a_texcoordd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) return data_view.get() @a_texcoordd_3.setter def a_texcoordd_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd_3) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) data_view.set(value) @property def a_texcoordd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) return data_view.get() @a_texcoordd_3_array.setter def a_texcoordd_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd_3_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) data_view.set(value) self.a_texcoordd_3_array_size = data_view.get_array_size() @property def a_texcoordf_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) return data_view.get() @a_texcoordf_2.setter def a_texcoordf_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf_2) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) data_view.set(value) @property def a_texcoordf_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) return data_view.get() @a_texcoordf_2_array.setter def a_texcoordf_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf_2_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) data_view.set(value) self.a_texcoordf_2_array_size = data_view.get_array_size() @property def a_texcoordf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) return data_view.get() @a_texcoordf_3.setter def a_texcoordf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf_3) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) data_view.set(value) @property def a_texcoordf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) return data_view.get() @a_texcoordf_3_array.setter def a_texcoordf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) data_view.set(value) self.a_texcoordf_3_array_size = data_view.get_array_size() @property def a_texcoordh_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) return data_view.get() @a_texcoordh_2.setter def a_texcoordh_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh_2) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) data_view.set(value) @property def a_texcoordh_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) return data_view.get() @a_texcoordh_2_array.setter def a_texcoordh_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh_2_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) data_view.set(value) self.a_texcoordh_2_array_size = data_view.get_array_size() @property def a_texcoordh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) return data_view.get() @a_texcoordh_3.setter def a_texcoordh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh_3) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) data_view.set(value) @property def a_texcoordh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) return data_view.get() @a_texcoordh_3_array.setter def a_texcoordh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) data_view.set(value) self.a_texcoordh_3_array_size = data_view.get_array_size() @property def a_timecode(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode) return data_view.get() @a_timecode.setter def a_timecode(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode) data_view = og.AttributeValueHelper(self._attributes.a_timecode) data_view.set(value) @property def a_timecode_array(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) return data_view.get() @a_timecode_array.setter def a_timecode_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) data_view.set(value) self.a_timecode_array_size = data_view.get_array_size() @property def a_token(self): data_view = og.AttributeValueHelper(self._attributes.a_token) return data_view.get() @a_token.setter def a_token(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_token) data_view = og.AttributeValueHelper(self._attributes.a_token) data_view.set(value) @property def a_token_array(self): data_view = og.AttributeValueHelper(self._attributes.a_token_array) return data_view.get() @a_token_array.setter def a_token_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_token_array) data_view = og.AttributeValueHelper(self._attributes.a_token_array) data_view.set(value) self.a_token_array_size = data_view.get_array_size() @property def a_uchar(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar) return data_view.get() @a_uchar.setter def a_uchar(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uchar) data_view = og.AttributeValueHelper(self._attributes.a_uchar) data_view.set(value) @property def a_uchar_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) return data_view.get() @a_uchar_array.setter def a_uchar_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uchar_array) data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) data_view.set(value) self.a_uchar_array_size = data_view.get_array_size() @property def a_uint(self): data_view = og.AttributeValueHelper(self._attributes.a_uint) return data_view.get() @a_uint.setter def a_uint(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uint) data_view = og.AttributeValueHelper(self._attributes.a_uint) data_view.set(value) @property def a_uint64(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64) return data_view.get() @a_uint64.setter def a_uint64(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uint64) data_view = og.AttributeValueHelper(self._attributes.a_uint64) data_view.set(value) @property def a_uint64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) return data_view.get() @a_uint64_array.setter def a_uint64_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uint64_array) data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) data_view.set(value) self.a_uint64_array_size = data_view.get_array_size() @property def a_uint_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) return data_view.get() @a_uint_array.setter def a_uint_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uint_array) data_view = og.AttributeValueHelper(self._attributes.a_uint_array) data_view.set(value) self.a_uint_array_size = data_view.get_array_size() @property def a_vectord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) return data_view.get() @a_vectord_3.setter def a_vectord_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord_3) data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) data_view.set(value) @property def a_vectord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) return data_view.get() @a_vectord_3_array.setter def a_vectord_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord_3_array) data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) data_view.set(value) self.a_vectord_3_array_size = data_view.get_array_size() @property def a_vectorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) return data_view.get() @a_vectorf_3.setter def a_vectorf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf_3) data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) data_view.set(value) @property def a_vectorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) return data_view.get() @a_vectorf_3_array.setter def a_vectorf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) data_view.set(value) self.a_vectorf_3_array_size = data_view.get_array_size() @property def a_vectorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) return data_view.get() @a_vectorh_3.setter def a_vectorh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh_3) data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) data_view.set(value) @property def a_vectorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) return data_view.get() @a_vectorh_3_array.setter def a_vectorh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) data_view.set(value) self.a_vectorh_3_array_size = data_view.get_array_size() @property def doNotCompute(self): data_view = og.AttributeValueHelper(self._attributes.doNotCompute) return data_view.get() @doNotCompute.setter def doNotCompute(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.doNotCompute) data_view = og.AttributeValueHelper(self._attributes.doNotCompute) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self.a_bool_array_size = 2 self.a_colord_3_array_size = 2 self.a_colord_4_array_size = 2 self.a_colorf_3_array_size = 2 self.a_colorf_4_array_size = 2 self.a_colorh_3_array_size = 2 self.a_colorh_4_array_size = 2 self.a_double_2_array_size = 2 self.a_double_3_array_size = 2 self.a_double_4_array_size = 2 self.a_double_array_size = 2 self.a_float_2_array_size = 2 self.a_float_3_array_size = 2 self.a_float_4_array_size = 2 self.a_float_array_size = 2 self.a_frame_4_array_size = 2 self.a_half_2_array_size = 2 self.a_half_3_array_size = 2 self.a_half_4_array_size = 2 self.a_half_array_size = 2 self.a_int64_array_size = 2 self.a_int_2_array_size = 2 self.a_int_3_array_size = 2 self.a_int_4_array_size = 2 self.a_int_array_size = 2 self.a_matrixd_2_array_size = 2 self.a_matrixd_3_array_size = 2 self.a_matrixd_4_array_size = 2 self.a_normald_3_array_size = 2 self.a_normalf_3_array_size = 2 self.a_normalh_3_array_size = 2 self.a_objectId_array_size = 2 self.a_path_size = 7 self.a_pointd_3_array_size = 2 self.a_pointf_3_array_size = 2 self.a_pointh_3_array_size = 2 self.a_quatd_4_array_size = 2 self.a_quatf_4_array_size = 2 self.a_quath_4_array_size = 2 self.a_string_size = 20 self.a_target_size = None self.a_texcoordd_2_array_size = 2 self.a_texcoordd_3_array_size = 2 self.a_texcoordf_2_array_size = 2 self.a_texcoordf_3_array_size = 2 self.a_texcoordh_2_array_size = 2 self.a_texcoordh_3_array_size = 2 self.a_timecode_array_size = 2 self.a_token_array_size = 2 self.a_uchar_array_size = 2 self.a_uint64_array_size = 2 self.a_uint_array_size = 2 self.a_vectord_3_array_size = 2 self.a_vectorf_3_array_size = 2 self.a_vectorh_3_array_size = 2 self._batchedWriteValues = { } @property def a_bool(self): data_view = og.AttributeValueHelper(self._attributes.a_bool) return data_view.get() @a_bool.setter def a_bool(self, value): data_view = og.AttributeValueHelper(self._attributes.a_bool) data_view.set(value) @property def a_bool_array(self): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) return data_view.get(reserved_element_count=self.a_bool_array_size) @a_bool_array.setter def a_bool_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) data_view.set(value) self.a_bool_array_size = data_view.get_array_size() @property def a_bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute outputs.a_bundle""" return self.__bundles.a_bundle @a_bundle.setter def a_bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute outputs.a_bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.a_bundle.bundle = bundle @property def a_colord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) return data_view.get() @a_colord_3.setter def a_colord_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) data_view.set(value) @property def a_colord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) return data_view.get(reserved_element_count=self.a_colord_3_array_size) @a_colord_3_array.setter def a_colord_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) data_view.set(value) self.a_colord_3_array_size = data_view.get_array_size() @property def a_colord_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) return data_view.get() @a_colord_4.setter def a_colord_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) data_view.set(value) @property def a_colord_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) return data_view.get(reserved_element_count=self.a_colord_4_array_size) @a_colord_4_array.setter def a_colord_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) data_view.set(value) self.a_colord_4_array_size = data_view.get_array_size() @property def a_colorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) return data_view.get() @a_colorf_3.setter def a_colorf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) data_view.set(value) @property def a_colorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) return data_view.get(reserved_element_count=self.a_colorf_3_array_size) @a_colorf_3_array.setter def a_colorf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) data_view.set(value) self.a_colorf_3_array_size = data_view.get_array_size() @property def a_colorf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) return data_view.get() @a_colorf_4.setter def a_colorf_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) data_view.set(value) @property def a_colorf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) return data_view.get(reserved_element_count=self.a_colorf_4_array_size) @a_colorf_4_array.setter def a_colorf_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) data_view.set(value) self.a_colorf_4_array_size = data_view.get_array_size() @property def a_colorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) return data_view.get() @a_colorh_3.setter def a_colorh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) data_view.set(value) @property def a_colorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) return data_view.get(reserved_element_count=self.a_colorh_3_array_size) @a_colorh_3_array.setter def a_colorh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) data_view.set(value) self.a_colorh_3_array_size = data_view.get_array_size() @property def a_colorh_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) return data_view.get() @a_colorh_4.setter def a_colorh_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) data_view.set(value) @property def a_colorh_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) return data_view.get(reserved_element_count=self.a_colorh_4_array_size) @a_colorh_4_array.setter def a_colorh_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) data_view.set(value) self.a_colorh_4_array_size = data_view.get_array_size() @property def a_double(self): data_view = og.AttributeValueHelper(self._attributes.a_double) return data_view.get() @a_double.setter def a_double(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double) data_view.set(value) @property def a_double_2(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2) return data_view.get() @a_double_2.setter def a_double_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_2) data_view.set(value) @property def a_double_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) return data_view.get(reserved_element_count=self.a_double_2_array_size) @a_double_2_array.setter def a_double_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) data_view.set(value) self.a_double_2_array_size = data_view.get_array_size() @property def a_double_3(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3) return data_view.get() @a_double_3.setter def a_double_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_3) data_view.set(value) @property def a_double_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) return data_view.get(reserved_element_count=self.a_double_3_array_size) @a_double_3_array.setter def a_double_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) data_view.set(value) self.a_double_3_array_size = data_view.get_array_size() @property def a_double_4(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4) return data_view.get() @a_double_4.setter def a_double_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_4) data_view.set(value) @property def a_double_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) return data_view.get(reserved_element_count=self.a_double_4_array_size) @a_double_4_array.setter def a_double_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) data_view.set(value) self.a_double_4_array_size = data_view.get_array_size() @property def a_double_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array) return data_view.get(reserved_element_count=self.a_double_array_size) @a_double_array.setter def a_double_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array) data_view.set(value) self.a_double_array_size = data_view.get_array_size() @property def a_execution(self): data_view = og.AttributeValueHelper(self._attributes.a_execution) return data_view.get() @a_execution.setter def a_execution(self, value): data_view = og.AttributeValueHelper(self._attributes.a_execution) data_view.set(value) @property def a_float(self): data_view = og.AttributeValueHelper(self._attributes.a_float) return data_view.get() @a_float.setter def a_float(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float) data_view.set(value) @property def a_float_2(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2) return data_view.get() @a_float_2.setter def a_float_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_2) data_view.set(value) @property def a_float_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) return data_view.get(reserved_element_count=self.a_float_2_array_size) @a_float_2_array.setter def a_float_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) data_view.set(value) self.a_float_2_array_size = data_view.get_array_size() @property def a_float_3(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3) return data_view.get() @a_float_3.setter def a_float_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_3) data_view.set(value) @property def a_float_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) return data_view.get(reserved_element_count=self.a_float_3_array_size) @a_float_3_array.setter def a_float_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) data_view.set(value) self.a_float_3_array_size = data_view.get_array_size() @property def a_float_4(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4) return data_view.get() @a_float_4.setter def a_float_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_4) data_view.set(value) @property def a_float_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) return data_view.get(reserved_element_count=self.a_float_4_array_size) @a_float_4_array.setter def a_float_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) data_view.set(value) self.a_float_4_array_size = data_view.get_array_size() @property def a_float_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array) return data_view.get(reserved_element_count=self.a_float_array_size) @a_float_array.setter def a_float_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array) data_view.set(value) self.a_float_array_size = data_view.get_array_size() @property def a_frame_4(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) return data_view.get() @a_frame_4.setter def a_frame_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) data_view.set(value) @property def a_frame_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) return data_view.get(reserved_element_count=self.a_frame_4_array_size) @a_frame_4_array.setter def a_frame_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) data_view.set(value) self.a_frame_4_array_size = data_view.get_array_size() @property def a_half(self): data_view = og.AttributeValueHelper(self._attributes.a_half) return data_view.get() @a_half.setter def a_half(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half) data_view.set(value) @property def a_half_2(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2) return data_view.get() @a_half_2.setter def a_half_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_2) data_view.set(value) @property def a_half_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) return data_view.get(reserved_element_count=self.a_half_2_array_size) @a_half_2_array.setter def a_half_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) data_view.set(value) self.a_half_2_array_size = data_view.get_array_size() @property def a_half_3(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3) return data_view.get() @a_half_3.setter def a_half_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_3) data_view.set(value) @property def a_half_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) return data_view.get(reserved_element_count=self.a_half_3_array_size) @a_half_3_array.setter def a_half_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) data_view.set(value) self.a_half_3_array_size = data_view.get_array_size() @property def a_half_4(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4) return data_view.get() @a_half_4.setter def a_half_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_4) data_view.set(value) @property def a_half_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) return data_view.get(reserved_element_count=self.a_half_4_array_size) @a_half_4_array.setter def a_half_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) data_view.set(value) self.a_half_4_array_size = data_view.get_array_size() @property def a_half_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array) return data_view.get(reserved_element_count=self.a_half_array_size) @a_half_array.setter def a_half_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array) data_view.set(value) self.a_half_array_size = data_view.get_array_size() @property def a_int(self): data_view = og.AttributeValueHelper(self._attributes.a_int) return data_view.get() @a_int.setter def a_int(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int) data_view.set(value) @property def a_int64(self): data_view = og.AttributeValueHelper(self._attributes.a_int64) return data_view.get() @a_int64.setter def a_int64(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int64) data_view.set(value) @property def a_int64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) return data_view.get(reserved_element_count=self.a_int64_array_size) @a_int64_array.setter def a_int64_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) data_view.set(value) self.a_int64_array_size = data_view.get_array_size() @property def a_int_2(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2) return data_view.get() @a_int_2.setter def a_int_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_2) data_view.set(value) @property def a_int_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) return data_view.get(reserved_element_count=self.a_int_2_array_size) @a_int_2_array.setter def a_int_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) data_view.set(value) self.a_int_2_array_size = data_view.get_array_size() @property def a_int_3(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3) return data_view.get() @a_int_3.setter def a_int_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_3) data_view.set(value) @property def a_int_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) return data_view.get(reserved_element_count=self.a_int_3_array_size) @a_int_3_array.setter def a_int_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) data_view.set(value) self.a_int_3_array_size = data_view.get_array_size() @property def a_int_4(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4) return data_view.get() @a_int_4.setter def a_int_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_4) data_view.set(value) @property def a_int_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) return data_view.get(reserved_element_count=self.a_int_4_array_size) @a_int_4_array.setter def a_int_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) data_view.set(value) self.a_int_4_array_size = data_view.get_array_size() @property def a_int_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_array) return data_view.get(reserved_element_count=self.a_int_array_size) @a_int_array.setter def a_int_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_array) data_view.set(value) self.a_int_array_size = data_view.get_array_size() @property def a_matrixd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) return data_view.get() @a_matrixd_2.setter def a_matrixd_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) data_view.set(value) @property def a_matrixd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) return data_view.get(reserved_element_count=self.a_matrixd_2_array_size) @a_matrixd_2_array.setter def a_matrixd_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) data_view.set(value) self.a_matrixd_2_array_size = data_view.get_array_size() @property def a_matrixd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) return data_view.get() @a_matrixd_3.setter def a_matrixd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) data_view.set(value) @property def a_matrixd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) return data_view.get(reserved_element_count=self.a_matrixd_3_array_size) @a_matrixd_3_array.setter def a_matrixd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) data_view.set(value) self.a_matrixd_3_array_size = data_view.get_array_size() @property def a_matrixd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) return data_view.get() @a_matrixd_4.setter def a_matrixd_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) data_view.set(value) @property def a_matrixd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) return data_view.get(reserved_element_count=self.a_matrixd_4_array_size) @a_matrixd_4_array.setter def a_matrixd_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) data_view.set(value) self.a_matrixd_4_array_size = data_view.get_array_size() @property def a_normald_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) return data_view.get() @a_normald_3.setter def a_normald_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) data_view.set(value) @property def a_normald_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) return data_view.get(reserved_element_count=self.a_normald_3_array_size) @a_normald_3_array.setter def a_normald_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) data_view.set(value) self.a_normald_3_array_size = data_view.get_array_size() @property def a_normalf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) return data_view.get() @a_normalf_3.setter def a_normalf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) data_view.set(value) @property def a_normalf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) return data_view.get(reserved_element_count=self.a_normalf_3_array_size) @a_normalf_3_array.setter def a_normalf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) data_view.set(value) self.a_normalf_3_array_size = data_view.get_array_size() @property def a_normalh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) return data_view.get() @a_normalh_3.setter def a_normalh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) data_view.set(value) @property def a_normalh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) return data_view.get(reserved_element_count=self.a_normalh_3_array_size) @a_normalh_3_array.setter def a_normalh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) data_view.set(value) self.a_normalh_3_array_size = data_view.get_array_size() @property def a_objectId(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId) return data_view.get() @a_objectId.setter def a_objectId(self, value): data_view = og.AttributeValueHelper(self._attributes.a_objectId) data_view.set(value) @property def a_objectId_array(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) return data_view.get(reserved_element_count=self.a_objectId_array_size) @a_objectId_array.setter def a_objectId_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) data_view.set(value) self.a_objectId_array_size = data_view.get_array_size() @property def a_path(self): data_view = og.AttributeValueHelper(self._attributes.a_path) return data_view.get(reserved_element_count=self.a_path_size) @a_path.setter def a_path(self, value): data_view = og.AttributeValueHelper(self._attributes.a_path) data_view.set(value) self.a_path_size = data_view.get_array_size() @property def a_pointd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) return data_view.get() @a_pointd_3.setter def a_pointd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) data_view.set(value) @property def a_pointd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) return data_view.get(reserved_element_count=self.a_pointd_3_array_size) @a_pointd_3_array.setter def a_pointd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) data_view.set(value) self.a_pointd_3_array_size = data_view.get_array_size() @property def a_pointf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) return data_view.get() @a_pointf_3.setter def a_pointf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) data_view.set(value) @property def a_pointf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) return data_view.get(reserved_element_count=self.a_pointf_3_array_size) @a_pointf_3_array.setter def a_pointf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) data_view.set(value) self.a_pointf_3_array_size = data_view.get_array_size() @property def a_pointh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) return data_view.get() @a_pointh_3.setter def a_pointh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) data_view.set(value) @property def a_pointh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) return data_view.get(reserved_element_count=self.a_pointh_3_array_size) @a_pointh_3_array.setter def a_pointh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) data_view.set(value) self.a_pointh_3_array_size = data_view.get_array_size() @property def a_quatd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) return data_view.get() @a_quatd_4.setter def a_quatd_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) data_view.set(value) @property def a_quatd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) return data_view.get(reserved_element_count=self.a_quatd_4_array_size) @a_quatd_4_array.setter def a_quatd_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) data_view.set(value) self.a_quatd_4_array_size = data_view.get_array_size() @property def a_quatf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) return data_view.get() @a_quatf_4.setter def a_quatf_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) data_view.set(value) @property def a_quatf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) return data_view.get(reserved_element_count=self.a_quatf_4_array_size) @a_quatf_4_array.setter def a_quatf_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) data_view.set(value) self.a_quatf_4_array_size = data_view.get_array_size() @property def a_quath_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) return data_view.get() @a_quath_4.setter def a_quath_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) data_view.set(value) @property def a_quath_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) return data_view.get(reserved_element_count=self.a_quath_4_array_size) @a_quath_4_array.setter def a_quath_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) data_view.set(value) self.a_quath_4_array_size = data_view.get_array_size() @property def a_string(self): data_view = og.AttributeValueHelper(self._attributes.a_string) return data_view.get(reserved_element_count=self.a_string_size) @a_string.setter def a_string(self, value): data_view = og.AttributeValueHelper(self._attributes.a_string) data_view.set(value) self.a_string_size = data_view.get_array_size() @property def a_target(self): data_view = og.AttributeValueHelper(self._attributes.a_target) return data_view.get(reserved_element_count=self.a_target_size) @a_target.setter def a_target(self, value): data_view = og.AttributeValueHelper(self._attributes.a_target) data_view.set(value) self.a_target_size = data_view.get_array_size() @property def a_texcoordd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) return data_view.get() @a_texcoordd_2.setter def a_texcoordd_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) data_view.set(value) @property def a_texcoordd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) return data_view.get(reserved_element_count=self.a_texcoordd_2_array_size) @a_texcoordd_2_array.setter def a_texcoordd_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) data_view.set(value) self.a_texcoordd_2_array_size = data_view.get_array_size() @property def a_texcoordd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) return data_view.get() @a_texcoordd_3.setter def a_texcoordd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) data_view.set(value) @property def a_texcoordd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) return data_view.get(reserved_element_count=self.a_texcoordd_3_array_size) @a_texcoordd_3_array.setter def a_texcoordd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) data_view.set(value) self.a_texcoordd_3_array_size = data_view.get_array_size() @property def a_texcoordf_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) return data_view.get() @a_texcoordf_2.setter def a_texcoordf_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) data_view.set(value) @property def a_texcoordf_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) return data_view.get(reserved_element_count=self.a_texcoordf_2_array_size) @a_texcoordf_2_array.setter def a_texcoordf_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) data_view.set(value) self.a_texcoordf_2_array_size = data_view.get_array_size() @property def a_texcoordf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) return data_view.get() @a_texcoordf_3.setter def a_texcoordf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) data_view.set(value) @property def a_texcoordf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) return data_view.get(reserved_element_count=self.a_texcoordf_3_array_size) @a_texcoordf_3_array.setter def a_texcoordf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) data_view.set(value) self.a_texcoordf_3_array_size = data_view.get_array_size() @property def a_texcoordh_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) return data_view.get() @a_texcoordh_2.setter def a_texcoordh_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) data_view.set(value) @property def a_texcoordh_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) return data_view.get(reserved_element_count=self.a_texcoordh_2_array_size) @a_texcoordh_2_array.setter def a_texcoordh_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) data_view.set(value) self.a_texcoordh_2_array_size = data_view.get_array_size() @property def a_texcoordh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) return data_view.get() @a_texcoordh_3.setter def a_texcoordh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) data_view.set(value) @property def a_texcoordh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) return data_view.get(reserved_element_count=self.a_texcoordh_3_array_size) @a_texcoordh_3_array.setter def a_texcoordh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) data_view.set(value) self.a_texcoordh_3_array_size = data_view.get_array_size() @property def a_timecode(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode) return data_view.get() @a_timecode.setter def a_timecode(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode) data_view.set(value) @property def a_timecode_array(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) return data_view.get(reserved_element_count=self.a_timecode_array_size) @a_timecode_array.setter def a_timecode_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) data_view.set(value) self.a_timecode_array_size = data_view.get_array_size() @property def a_token(self): data_view = og.AttributeValueHelper(self._attributes.a_token) return data_view.get() @a_token.setter def a_token(self, value): data_view = og.AttributeValueHelper(self._attributes.a_token) data_view.set(value) @property def a_token_array(self): data_view = og.AttributeValueHelper(self._attributes.a_token_array) return data_view.get(reserved_element_count=self.a_token_array_size) @a_token_array.setter def a_token_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_token_array) data_view.set(value) self.a_token_array_size = data_view.get_array_size() @property def a_uchar(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar) return data_view.get() @a_uchar.setter def a_uchar(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uchar) data_view.set(value) @property def a_uchar_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) return data_view.get(reserved_element_count=self.a_uchar_array_size) @a_uchar_array.setter def a_uchar_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) data_view.set(value) self.a_uchar_array_size = data_view.get_array_size() @property def a_uint(self): data_view = og.AttributeValueHelper(self._attributes.a_uint) return data_view.get() @a_uint.setter def a_uint(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint) data_view.set(value) @property def a_uint64(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64) return data_view.get() @a_uint64.setter def a_uint64(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint64) data_view.set(value) @property def a_uint64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) return data_view.get(reserved_element_count=self.a_uint64_array_size) @a_uint64_array.setter def a_uint64_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) data_view.set(value) self.a_uint64_array_size = data_view.get_array_size() @property def a_uint_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) return data_view.get(reserved_element_count=self.a_uint_array_size) @a_uint_array.setter def a_uint_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) data_view.set(value) self.a_uint_array_size = data_view.get_array_size() @property def a_vectord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) return data_view.get() @a_vectord_3.setter def a_vectord_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) data_view.set(value) @property def a_vectord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) return data_view.get(reserved_element_count=self.a_vectord_3_array_size) @a_vectord_3_array.setter def a_vectord_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) data_view.set(value) self.a_vectord_3_array_size = data_view.get_array_size() @property def a_vectorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) return data_view.get() @a_vectorf_3.setter def a_vectorf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) data_view.set(value) @property def a_vectorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) return data_view.get(reserved_element_count=self.a_vectorf_3_array_size) @a_vectorf_3_array.setter def a_vectorf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) data_view.set(value) self.a_vectorf_3_array_size = data_view.get_array_size() @property def a_vectorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) return data_view.get() @a_vectorh_3.setter def a_vectorh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) data_view.set(value) @property def a_vectorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) return data_view.get(reserved_element_count=self.a_vectorh_3_array_size) @a_vectorh_3_array.setter def a_vectorh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) data_view.set(value) self.a_vectorh_3_array_size = data_view.get_array_size() def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self.a_bool_array_size = 2 self.a_colord_3_array_size = 2 self.a_colord_4_array_size = 2 self.a_colorf_3_array_size = 2 self.a_colorf_4_array_size = 2 self.a_colorh_3_array_size = 2 self.a_colorh_4_array_size = 2 self.a_double_2_array_size = 2 self.a_double_3_array_size = 2 self.a_double_4_array_size = 2 self.a_double_array_size = 2 self.a_float_2_array_size = 2 self.a_float_3_array_size = 2 self.a_float_4_array_size = 2 self.a_float_array_size = 2 self.a_frame_4_array_size = 2 self.a_half_2_array_size = 2 self.a_half_3_array_size = 2 self.a_half_4_array_size = 2 self.a_half_array_size = 2 self.a_int64_array_size = 2 self.a_int_2_array_size = 2 self.a_int_3_array_size = 2 self.a_int_4_array_size = 2 self.a_int_array_size = 2 self.a_matrixd_2_array_size = 2 self.a_matrixd_3_array_size = 2 self.a_matrixd_4_array_size = 2 self.a_normald_3_array_size = 2 self.a_normalf_3_array_size = 2 self.a_normalh_3_array_size = 2 self.a_objectId_array_size = 2 self.a_path_size = 6 self.a_pointd_3_array_size = 2 self.a_pointf_3_array_size = 2 self.a_pointh_3_array_size = 2 self.a_quatd_4_array_size = 2 self.a_quatf_4_array_size = 2 self.a_quath_4_array_size = 2 self.a_string_size = 20 self.a_stringEmpty_size = None self.a_target_size = None self.a_texcoordd_2_array_size = 2 self.a_texcoordd_3_array_size = 2 self.a_texcoordf_2_array_size = 2 self.a_texcoordf_3_array_size = 2 self.a_texcoordh_2_array_size = 2 self.a_texcoordh_3_array_size = 2 self.a_timecode_array_size = 2 self.a_token_array_size = 2 self.a_uchar_array_size = 2 self.a_uint64_array_size = 2 self.a_uint_array_size = 2 self.a_vectord_3_array_size = 2 self.a_vectorf_3_array_size = 2 self.a_vectorh_3_array_size = 2 @property def a_bool(self): data_view = og.AttributeValueHelper(self._attributes.a_bool) return data_view.get() @a_bool.setter def a_bool(self, value): data_view = og.AttributeValueHelper(self._attributes.a_bool) data_view.set(value) @property def a_bool_array(self): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) self.a_bool_array_size = data_view.get_array_size() return data_view.get() @a_bool_array.setter def a_bool_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) data_view.set(value) self.a_bool_array_size = data_view.get_array_size() @property def a_bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute state.a_bundle""" return self.__bundles.a_bundle @a_bundle.setter def a_bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute state.a_bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.a_bundle.bundle = bundle @property def a_colord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) return data_view.get() @a_colord_3.setter def a_colord_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) data_view.set(value) @property def a_colord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) self.a_colord_3_array_size = data_view.get_array_size() return data_view.get() @a_colord_3_array.setter def a_colord_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) data_view.set(value) self.a_colord_3_array_size = data_view.get_array_size() @property def a_colord_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) return data_view.get() @a_colord_4.setter def a_colord_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) data_view.set(value) @property def a_colord_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) self.a_colord_4_array_size = data_view.get_array_size() return data_view.get() @a_colord_4_array.setter def a_colord_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) data_view.set(value) self.a_colord_4_array_size = data_view.get_array_size() @property def a_colorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) return data_view.get() @a_colorf_3.setter def a_colorf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) data_view.set(value) @property def a_colorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) self.a_colorf_3_array_size = data_view.get_array_size() return data_view.get() @a_colorf_3_array.setter def a_colorf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) data_view.set(value) self.a_colorf_3_array_size = data_view.get_array_size() @property def a_colorf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) return data_view.get() @a_colorf_4.setter def a_colorf_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) data_view.set(value) @property def a_colorf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) self.a_colorf_4_array_size = data_view.get_array_size() return data_view.get() @a_colorf_4_array.setter def a_colorf_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) data_view.set(value) self.a_colorf_4_array_size = data_view.get_array_size() @property def a_colorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) return data_view.get() @a_colorh_3.setter def a_colorh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) data_view.set(value) @property def a_colorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) self.a_colorh_3_array_size = data_view.get_array_size() return data_view.get() @a_colorh_3_array.setter def a_colorh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) data_view.set(value) self.a_colorh_3_array_size = data_view.get_array_size() @property def a_colorh_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) return data_view.get() @a_colorh_4.setter def a_colorh_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) data_view.set(value) @property def a_colorh_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) self.a_colorh_4_array_size = data_view.get_array_size() return data_view.get() @a_colorh_4_array.setter def a_colorh_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) data_view.set(value) self.a_colorh_4_array_size = data_view.get_array_size() @property def a_double(self): data_view = og.AttributeValueHelper(self._attributes.a_double) return data_view.get() @a_double.setter def a_double(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double) data_view.set(value) @property def a_double_2(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2) return data_view.get() @a_double_2.setter def a_double_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_2) data_view.set(value) @property def a_double_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) self.a_double_2_array_size = data_view.get_array_size() return data_view.get() @a_double_2_array.setter def a_double_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) data_view.set(value) self.a_double_2_array_size = data_view.get_array_size() @property def a_double_3(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3) return data_view.get() @a_double_3.setter def a_double_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_3) data_view.set(value) @property def a_double_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) self.a_double_3_array_size = data_view.get_array_size() return data_view.get() @a_double_3_array.setter def a_double_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) data_view.set(value) self.a_double_3_array_size = data_view.get_array_size() @property def a_double_4(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4) return data_view.get() @a_double_4.setter def a_double_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_4) data_view.set(value) @property def a_double_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) self.a_double_4_array_size = data_view.get_array_size() return data_view.get() @a_double_4_array.setter def a_double_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) data_view.set(value) self.a_double_4_array_size = data_view.get_array_size() @property def a_double_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array) self.a_double_array_size = data_view.get_array_size() return data_view.get() @a_double_array.setter def a_double_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array) data_view.set(value) self.a_double_array_size = data_view.get_array_size() @property def a_execution(self): data_view = og.AttributeValueHelper(self._attributes.a_execution) return data_view.get() @a_execution.setter def a_execution(self, value): data_view = og.AttributeValueHelper(self._attributes.a_execution) data_view.set(value) @property def a_firstEvaluation(self): data_view = og.AttributeValueHelper(self._attributes.a_firstEvaluation) return data_view.get() @a_firstEvaluation.setter def a_firstEvaluation(self, value): data_view = og.AttributeValueHelper(self._attributes.a_firstEvaluation) data_view.set(value) @property def a_float(self): data_view = og.AttributeValueHelper(self._attributes.a_float) return data_view.get() @a_float.setter def a_float(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float) data_view.set(value) @property def a_float_2(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2) return data_view.get() @a_float_2.setter def a_float_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_2) data_view.set(value) @property def a_float_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) self.a_float_2_array_size = data_view.get_array_size() return data_view.get() @a_float_2_array.setter def a_float_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) data_view.set(value) self.a_float_2_array_size = data_view.get_array_size() @property def a_float_3(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3) return data_view.get() @a_float_3.setter def a_float_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_3) data_view.set(value) @property def a_float_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) self.a_float_3_array_size = data_view.get_array_size() return data_view.get() @a_float_3_array.setter def a_float_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) data_view.set(value) self.a_float_3_array_size = data_view.get_array_size() @property def a_float_4(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4) return data_view.get() @a_float_4.setter def a_float_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_4) data_view.set(value) @property def a_float_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) self.a_float_4_array_size = data_view.get_array_size() return data_view.get() @a_float_4_array.setter def a_float_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) data_view.set(value) self.a_float_4_array_size = data_view.get_array_size() @property def a_float_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array) self.a_float_array_size = data_view.get_array_size() return data_view.get() @a_float_array.setter def a_float_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array) data_view.set(value) self.a_float_array_size = data_view.get_array_size() @property def a_frame_4(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) return data_view.get() @a_frame_4.setter def a_frame_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) data_view.set(value) @property def a_frame_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) self.a_frame_4_array_size = data_view.get_array_size() return data_view.get() @a_frame_4_array.setter def a_frame_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) data_view.set(value) self.a_frame_4_array_size = data_view.get_array_size() @property def a_half(self): data_view = og.AttributeValueHelper(self._attributes.a_half) return data_view.get() @a_half.setter def a_half(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half) data_view.set(value) @property def a_half_2(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2) return data_view.get() @a_half_2.setter def a_half_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_2) data_view.set(value) @property def a_half_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) self.a_half_2_array_size = data_view.get_array_size() return data_view.get() @a_half_2_array.setter def a_half_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) data_view.set(value) self.a_half_2_array_size = data_view.get_array_size() @property def a_half_3(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3) return data_view.get() @a_half_3.setter def a_half_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_3) data_view.set(value) @property def a_half_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) self.a_half_3_array_size = data_view.get_array_size() return data_view.get() @a_half_3_array.setter def a_half_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) data_view.set(value) self.a_half_3_array_size = data_view.get_array_size() @property def a_half_4(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4) return data_view.get() @a_half_4.setter def a_half_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_4) data_view.set(value) @property def a_half_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) self.a_half_4_array_size = data_view.get_array_size() return data_view.get() @a_half_4_array.setter def a_half_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) data_view.set(value) self.a_half_4_array_size = data_view.get_array_size() @property def a_half_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array) self.a_half_array_size = data_view.get_array_size() return data_view.get() @a_half_array.setter def a_half_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array) data_view.set(value) self.a_half_array_size = data_view.get_array_size() @property def a_int(self): data_view = og.AttributeValueHelper(self._attributes.a_int) return data_view.get() @a_int.setter def a_int(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int) data_view.set(value) @property def a_int64(self): data_view = og.AttributeValueHelper(self._attributes.a_int64) return data_view.get() @a_int64.setter def a_int64(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int64) data_view.set(value) @property def a_int64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) self.a_int64_array_size = data_view.get_array_size() return data_view.get() @a_int64_array.setter def a_int64_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) data_view.set(value) self.a_int64_array_size = data_view.get_array_size() @property def a_int_2(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2) return data_view.get() @a_int_2.setter def a_int_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_2) data_view.set(value) @property def a_int_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) self.a_int_2_array_size = data_view.get_array_size() return data_view.get() @a_int_2_array.setter def a_int_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) data_view.set(value) self.a_int_2_array_size = data_view.get_array_size() @property def a_int_3(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3) return data_view.get() @a_int_3.setter def a_int_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_3) data_view.set(value) @property def a_int_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) self.a_int_3_array_size = data_view.get_array_size() return data_view.get() @a_int_3_array.setter def a_int_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) data_view.set(value) self.a_int_3_array_size = data_view.get_array_size() @property def a_int_4(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4) return data_view.get() @a_int_4.setter def a_int_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_4) data_view.set(value) @property def a_int_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) self.a_int_4_array_size = data_view.get_array_size() return data_view.get() @a_int_4_array.setter def a_int_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) data_view.set(value) self.a_int_4_array_size = data_view.get_array_size() @property def a_int_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_array) self.a_int_array_size = data_view.get_array_size() return data_view.get() @a_int_array.setter def a_int_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_array) data_view.set(value) self.a_int_array_size = data_view.get_array_size() @property def a_matrixd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) return data_view.get() @a_matrixd_2.setter def a_matrixd_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) data_view.set(value) @property def a_matrixd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) self.a_matrixd_2_array_size = data_view.get_array_size() return data_view.get() @a_matrixd_2_array.setter def a_matrixd_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) data_view.set(value) self.a_matrixd_2_array_size = data_view.get_array_size() @property def a_matrixd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) return data_view.get() @a_matrixd_3.setter def a_matrixd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) data_view.set(value) @property def a_matrixd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) self.a_matrixd_3_array_size = data_view.get_array_size() return data_view.get() @a_matrixd_3_array.setter def a_matrixd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) data_view.set(value) self.a_matrixd_3_array_size = data_view.get_array_size() @property def a_matrixd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) return data_view.get() @a_matrixd_4.setter def a_matrixd_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) data_view.set(value) @property def a_matrixd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) self.a_matrixd_4_array_size = data_view.get_array_size() return data_view.get() @a_matrixd_4_array.setter def a_matrixd_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) data_view.set(value) self.a_matrixd_4_array_size = data_view.get_array_size() @property def a_normald_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) return data_view.get() @a_normald_3.setter def a_normald_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) data_view.set(value) @property def a_normald_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) self.a_normald_3_array_size = data_view.get_array_size() return data_view.get() @a_normald_3_array.setter def a_normald_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) data_view.set(value) self.a_normald_3_array_size = data_view.get_array_size() @property def a_normalf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) return data_view.get() @a_normalf_3.setter def a_normalf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) data_view.set(value) @property def a_normalf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) self.a_normalf_3_array_size = data_view.get_array_size() return data_view.get() @a_normalf_3_array.setter def a_normalf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) data_view.set(value) self.a_normalf_3_array_size = data_view.get_array_size() @property def a_normalh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) return data_view.get() @a_normalh_3.setter def a_normalh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) data_view.set(value) @property def a_normalh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) self.a_normalh_3_array_size = data_view.get_array_size() return data_view.get() @a_normalh_3_array.setter def a_normalh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) data_view.set(value) self.a_normalh_3_array_size = data_view.get_array_size() @property def a_objectId(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId) return data_view.get() @a_objectId.setter def a_objectId(self, value): data_view = og.AttributeValueHelper(self._attributes.a_objectId) data_view.set(value) @property def a_objectId_array(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) self.a_objectId_array_size = data_view.get_array_size() return data_view.get() @a_objectId_array.setter def a_objectId_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) data_view.set(value) self.a_objectId_array_size = data_view.get_array_size() @property def a_path(self): data_view = og.AttributeValueHelper(self._attributes.a_path) self.a_path_size = data_view.get_array_size() return data_view.get() @a_path.setter def a_path(self, value): data_view = og.AttributeValueHelper(self._attributes.a_path) data_view.set(value) self.a_path_size = data_view.get_array_size() @property def a_pointd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) return data_view.get() @a_pointd_3.setter def a_pointd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) data_view.set(value) @property def a_pointd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) self.a_pointd_3_array_size = data_view.get_array_size() return data_view.get() @a_pointd_3_array.setter def a_pointd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) data_view.set(value) self.a_pointd_3_array_size = data_view.get_array_size() @property def a_pointf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) return data_view.get() @a_pointf_3.setter def a_pointf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) data_view.set(value) @property def a_pointf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) self.a_pointf_3_array_size = data_view.get_array_size() return data_view.get() @a_pointf_3_array.setter def a_pointf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) data_view.set(value) self.a_pointf_3_array_size = data_view.get_array_size() @property def a_pointh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) return data_view.get() @a_pointh_3.setter def a_pointh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) data_view.set(value) @property def a_pointh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) self.a_pointh_3_array_size = data_view.get_array_size() return data_view.get() @a_pointh_3_array.setter def a_pointh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) data_view.set(value) self.a_pointh_3_array_size = data_view.get_array_size() @property def a_quatd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) return data_view.get() @a_quatd_4.setter def a_quatd_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) data_view.set(value) @property def a_quatd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) self.a_quatd_4_array_size = data_view.get_array_size() return data_view.get() @a_quatd_4_array.setter def a_quatd_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) data_view.set(value) self.a_quatd_4_array_size = data_view.get_array_size() @property def a_quatf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) return data_view.get() @a_quatf_4.setter def a_quatf_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) data_view.set(value) @property def a_quatf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) self.a_quatf_4_array_size = data_view.get_array_size() return data_view.get() @a_quatf_4_array.setter def a_quatf_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) data_view.set(value) self.a_quatf_4_array_size = data_view.get_array_size() @property def a_quath_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) return data_view.get() @a_quath_4.setter def a_quath_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) data_view.set(value) @property def a_quath_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) self.a_quath_4_array_size = data_view.get_array_size() return data_view.get() @a_quath_4_array.setter def a_quath_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) data_view.set(value) self.a_quath_4_array_size = data_view.get_array_size() @property def a_string(self): data_view = og.AttributeValueHelper(self._attributes.a_string) self.a_string_size = data_view.get_array_size() return data_view.get() @a_string.setter def a_string(self, value): data_view = og.AttributeValueHelper(self._attributes.a_string) data_view.set(value) self.a_string_size = data_view.get_array_size() @property def a_stringEmpty(self): data_view = og.AttributeValueHelper(self._attributes.a_stringEmpty) self.a_stringEmpty_size = data_view.get_array_size() return data_view.get() @a_stringEmpty.setter def a_stringEmpty(self, value): data_view = og.AttributeValueHelper(self._attributes.a_stringEmpty) data_view.set(value) self.a_stringEmpty_size = data_view.get_array_size() @property def a_target(self): data_view = og.AttributeValueHelper(self._attributes.a_target) self.a_target_size = data_view.get_array_size() return data_view.get() @a_target.setter def a_target(self, value): data_view = og.AttributeValueHelper(self._attributes.a_target) data_view.set(value) self.a_target_size = data_view.get_array_size() @property def a_texcoordd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) return data_view.get() @a_texcoordd_2.setter def a_texcoordd_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) data_view.set(value) @property def a_texcoordd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) self.a_texcoordd_2_array_size = data_view.get_array_size() return data_view.get() @a_texcoordd_2_array.setter def a_texcoordd_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) data_view.set(value) self.a_texcoordd_2_array_size = data_view.get_array_size() @property def a_texcoordd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) return data_view.get() @a_texcoordd_3.setter def a_texcoordd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) data_view.set(value) @property def a_texcoordd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) self.a_texcoordd_3_array_size = data_view.get_array_size() return data_view.get() @a_texcoordd_3_array.setter def a_texcoordd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) data_view.set(value) self.a_texcoordd_3_array_size = data_view.get_array_size() @property def a_texcoordf_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) return data_view.get() @a_texcoordf_2.setter def a_texcoordf_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) data_view.set(value) @property def a_texcoordf_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) self.a_texcoordf_2_array_size = data_view.get_array_size() return data_view.get() @a_texcoordf_2_array.setter def a_texcoordf_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) data_view.set(value) self.a_texcoordf_2_array_size = data_view.get_array_size() @property def a_texcoordf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) return data_view.get() @a_texcoordf_3.setter def a_texcoordf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) data_view.set(value) @property def a_texcoordf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) self.a_texcoordf_3_array_size = data_view.get_array_size() return data_view.get() @a_texcoordf_3_array.setter def a_texcoordf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) data_view.set(value) self.a_texcoordf_3_array_size = data_view.get_array_size() @property def a_texcoordh_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) return data_view.get() @a_texcoordh_2.setter def a_texcoordh_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) data_view.set(value) @property def a_texcoordh_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) self.a_texcoordh_2_array_size = data_view.get_array_size() return data_view.get() @a_texcoordh_2_array.setter def a_texcoordh_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) data_view.set(value) self.a_texcoordh_2_array_size = data_view.get_array_size() @property def a_texcoordh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) return data_view.get() @a_texcoordh_3.setter def a_texcoordh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) data_view.set(value) @property def a_texcoordh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) self.a_texcoordh_3_array_size = data_view.get_array_size() return data_view.get() @a_texcoordh_3_array.setter def a_texcoordh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) data_view.set(value) self.a_texcoordh_3_array_size = data_view.get_array_size() @property def a_timecode(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode) return data_view.get() @a_timecode.setter def a_timecode(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode) data_view.set(value) @property def a_timecode_array(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) self.a_timecode_array_size = data_view.get_array_size() return data_view.get() @a_timecode_array.setter def a_timecode_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) data_view.set(value) self.a_timecode_array_size = data_view.get_array_size() @property def a_token(self): data_view = og.AttributeValueHelper(self._attributes.a_token) return data_view.get() @a_token.setter def a_token(self, value): data_view = og.AttributeValueHelper(self._attributes.a_token) data_view.set(value) @property def a_token_array(self): data_view = og.AttributeValueHelper(self._attributes.a_token_array) self.a_token_array_size = data_view.get_array_size() return data_view.get() @a_token_array.setter def a_token_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_token_array) data_view.set(value) self.a_token_array_size = data_view.get_array_size() @property def a_uchar(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar) return data_view.get() @a_uchar.setter def a_uchar(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uchar) data_view.set(value) @property def a_uchar_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) self.a_uchar_array_size = data_view.get_array_size() return data_view.get() @a_uchar_array.setter def a_uchar_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) data_view.set(value) self.a_uchar_array_size = data_view.get_array_size() @property def a_uint(self): data_view = og.AttributeValueHelper(self._attributes.a_uint) return data_view.get() @a_uint.setter def a_uint(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint) data_view.set(value) @property def a_uint64(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64) return data_view.get() @a_uint64.setter def a_uint64(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint64) data_view.set(value) @property def a_uint64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) self.a_uint64_array_size = data_view.get_array_size() return data_view.get() @a_uint64_array.setter def a_uint64_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) data_view.set(value) self.a_uint64_array_size = data_view.get_array_size() @property def a_uint_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) self.a_uint_array_size = data_view.get_array_size() return data_view.get() @a_uint_array.setter def a_uint_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) data_view.set(value) self.a_uint_array_size = data_view.get_array_size() @property def a_vectord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) return data_view.get() @a_vectord_3.setter def a_vectord_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) data_view.set(value) @property def a_vectord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) self.a_vectord_3_array_size = data_view.get_array_size() return data_view.get() @a_vectord_3_array.setter def a_vectord_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) data_view.set(value) self.a_vectord_3_array_size = data_view.get_array_size() @property def a_vectorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) return data_view.get() @a_vectorf_3.setter def a_vectorf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) data_view.set(value) @property def a_vectorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) self.a_vectorf_3_array_size = data_view.get_array_size() return data_view.get() @a_vectorf_3_array.setter def a_vectorf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) data_view.set(value) self.a_vectorf_3_array_size = data_view.get_array_size() @property def a_vectorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) return data_view.get() @a_vectorh_3.setter def a_vectorh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) data_view.set(value) @property def a_vectorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) self.a_vectorh_3_array_size = data_view.get_array_size() return data_view.get() @a_vectorh_3_array.setter def a_vectorh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) data_view.set(value) self.a_vectorh_3_array_size = data_view.get_array_size() def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestAllDataTypesDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestAllDataTypesDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestAllDataTypesDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	235,864	Python	48.087409	540	0.582777
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestNanInfDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TestNanInf Test node that exercises specification of NaN and Inf numbers, tuples, and arrays """ import carb import numpy import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestNanInfDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestNanInf Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.a_colord3_array_inf inputs.a_colord3_array_nan inputs.a_colord3_array_ninf inputs.a_colord3_array_snan inputs.a_colord3_inf inputs.a_colord3_nan inputs.a_colord3_ninf inputs.a_colord3_snan inputs.a_colord4_array_inf inputs.a_colord4_array_nan inputs.a_colord4_array_ninf inputs.a_colord4_array_snan inputs.a_colord4_inf inputs.a_colord4_nan inputs.a_colord4_ninf inputs.a_colord4_snan inputs.a_colorf3_array_inf inputs.a_colorf3_array_nan inputs.a_colorf3_array_ninf inputs.a_colorf3_array_snan inputs.a_colorf3_inf inputs.a_colorf3_nan inputs.a_colorf3_ninf inputs.a_colorf3_snan inputs.a_colorf4_array_inf inputs.a_colorf4_array_nan inputs.a_colorf4_array_ninf inputs.a_colorf4_array_snan inputs.a_colorf4_inf inputs.a_colorf4_nan inputs.a_colorf4_ninf inputs.a_colorf4_snan inputs.a_colorh3_array_inf inputs.a_colorh3_array_nan inputs.a_colorh3_array_ninf inputs.a_colorh3_array_snan inputs.a_colorh3_inf inputs.a_colorh3_nan inputs.a_colorh3_ninf inputs.a_colorh3_snan inputs.a_colorh4_array_inf inputs.a_colorh4_array_nan inputs.a_colorh4_array_ninf inputs.a_colorh4_array_snan inputs.a_colorh4_inf inputs.a_colorh4_nan inputs.a_colorh4_ninf inputs.a_colorh4_snan inputs.a_double2_array_inf inputs.a_double2_array_nan inputs.a_double2_array_ninf inputs.a_double2_array_snan inputs.a_double2_inf inputs.a_double2_nan inputs.a_double2_ninf inputs.a_double2_snan inputs.a_double3_array_inf inputs.a_double3_array_nan inputs.a_double3_array_ninf inputs.a_double3_array_snan inputs.a_double3_inf inputs.a_double3_nan inputs.a_double3_ninf inputs.a_double3_snan inputs.a_double4_array_inf inputs.a_double4_array_nan inputs.a_double4_array_ninf inputs.a_double4_array_snan inputs.a_double4_inf inputs.a_double4_nan inputs.a_double4_ninf inputs.a_double4_snan inputs.a_double_array_inf inputs.a_double_array_nan inputs.a_double_array_ninf inputs.a_double_array_snan inputs.a_double_inf inputs.a_double_nan inputs.a_double_ninf inputs.a_double_snan inputs.a_float2_array_inf inputs.a_float2_array_nan inputs.a_float2_array_ninf inputs.a_float2_array_snan inputs.a_float2_inf inputs.a_float2_nan inputs.a_float2_ninf inputs.a_float2_snan inputs.a_float3_array_inf inputs.a_float3_array_nan inputs.a_float3_array_ninf inputs.a_float3_array_snan inputs.a_float3_inf inputs.a_float3_nan inputs.a_float3_ninf inputs.a_float3_snan inputs.a_float4_array_inf inputs.a_float4_array_nan inputs.a_float4_array_ninf inputs.a_float4_array_snan inputs.a_float4_inf inputs.a_float4_nan inputs.a_float4_ninf inputs.a_float4_snan inputs.a_float_array_inf inputs.a_float_array_nan inputs.a_float_array_ninf inputs.a_float_array_snan inputs.a_float_inf inputs.a_float_nan inputs.a_float_ninf inputs.a_float_snan inputs.a_frame4_array_inf inputs.a_frame4_array_nan inputs.a_frame4_array_ninf inputs.a_frame4_array_snan inputs.a_frame4_inf inputs.a_frame4_nan inputs.a_frame4_ninf inputs.a_frame4_snan inputs.a_half2_array_inf inputs.a_half2_array_nan inputs.a_half2_array_ninf inputs.a_half2_array_snan inputs.a_half2_inf inputs.a_half2_nan inputs.a_half2_ninf inputs.a_half2_snan inputs.a_half3_array_inf inputs.a_half3_array_nan inputs.a_half3_array_ninf inputs.a_half3_array_snan inputs.a_half3_inf inputs.a_half3_nan inputs.a_half3_ninf inputs.a_half3_snan inputs.a_half4_array_inf inputs.a_half4_array_nan inputs.a_half4_array_ninf inputs.a_half4_array_snan inputs.a_half4_inf inputs.a_half4_nan inputs.a_half4_ninf inputs.a_half4_snan inputs.a_half_array_inf inputs.a_half_array_nan inputs.a_half_array_ninf inputs.a_half_array_snan inputs.a_half_inf inputs.a_half_nan inputs.a_half_ninf inputs.a_half_snan inputs.a_matrixd2_array_inf inputs.a_matrixd2_array_nan inputs.a_matrixd2_array_ninf inputs.a_matrixd2_array_snan inputs.a_matrixd2_inf inputs.a_matrixd2_nan inputs.a_matrixd2_ninf inputs.a_matrixd2_snan inputs.a_matrixd3_array_inf inputs.a_matrixd3_array_nan inputs.a_matrixd3_array_ninf inputs.a_matrixd3_array_snan inputs.a_matrixd3_inf inputs.a_matrixd3_nan inputs.a_matrixd3_ninf inputs.a_matrixd3_snan inputs.a_matrixd4_array_inf inputs.a_matrixd4_array_nan inputs.a_matrixd4_array_ninf inputs.a_matrixd4_array_snan inputs.a_matrixd4_inf inputs.a_matrixd4_nan inputs.a_matrixd4_ninf inputs.a_matrixd4_snan inputs.a_normald3_array_inf inputs.a_normald3_array_nan inputs.a_normald3_array_ninf inputs.a_normald3_array_snan inputs.a_normald3_inf inputs.a_normald3_nan inputs.a_normald3_ninf inputs.a_normald3_snan inputs.a_normalf3_array_inf inputs.a_normalf3_array_nan inputs.a_normalf3_array_ninf inputs.a_normalf3_array_snan inputs.a_normalf3_inf inputs.a_normalf3_nan inputs.a_normalf3_ninf inputs.a_normalf3_snan inputs.a_normalh3_array_inf inputs.a_normalh3_array_nan inputs.a_normalh3_array_ninf inputs.a_normalh3_array_snan inputs.a_normalh3_inf inputs.a_normalh3_nan inputs.a_normalh3_ninf inputs.a_normalh3_snan inputs.a_pointd3_array_inf inputs.a_pointd3_array_nan inputs.a_pointd3_array_ninf inputs.a_pointd3_array_snan inputs.a_pointd3_inf inputs.a_pointd3_nan inputs.a_pointd3_ninf inputs.a_pointd3_snan inputs.a_pointf3_array_inf inputs.a_pointf3_array_nan inputs.a_pointf3_array_ninf inputs.a_pointf3_array_snan inputs.a_pointf3_inf inputs.a_pointf3_nan inputs.a_pointf3_ninf inputs.a_pointf3_snan inputs.a_pointh3_array_inf inputs.a_pointh3_array_nan inputs.a_pointh3_array_ninf inputs.a_pointh3_array_snan inputs.a_pointh3_inf inputs.a_pointh3_nan inputs.a_pointh3_ninf inputs.a_pointh3_snan inputs.a_quatd4_array_inf inputs.a_quatd4_array_nan inputs.a_quatd4_array_ninf inputs.a_quatd4_array_snan inputs.a_quatd4_inf inputs.a_quatd4_nan inputs.a_quatd4_ninf inputs.a_quatd4_snan inputs.a_quatf4_array_inf inputs.a_quatf4_array_nan inputs.a_quatf4_array_ninf inputs.a_quatf4_array_snan inputs.a_quatf4_inf inputs.a_quatf4_nan inputs.a_quatf4_ninf inputs.a_quatf4_snan inputs.a_quath4_array_inf inputs.a_quath4_array_nan inputs.a_quath4_array_ninf inputs.a_quath4_array_snan inputs.a_quath4_inf inputs.a_quath4_nan inputs.a_quath4_ninf inputs.a_quath4_snan inputs.a_texcoordd2_array_inf inputs.a_texcoordd2_array_nan inputs.a_texcoordd2_array_ninf inputs.a_texcoordd2_array_snan inputs.a_texcoordd2_inf inputs.a_texcoordd2_nan inputs.a_texcoordd2_ninf inputs.a_texcoordd2_snan inputs.a_texcoordd3_array_inf inputs.a_texcoordd3_array_nan inputs.a_texcoordd3_array_ninf inputs.a_texcoordd3_array_snan inputs.a_texcoordd3_inf inputs.a_texcoordd3_nan inputs.a_texcoordd3_ninf inputs.a_texcoordd3_snan inputs.a_texcoordf2_array_inf inputs.a_texcoordf2_array_nan inputs.a_texcoordf2_array_ninf inputs.a_texcoordf2_array_snan inputs.a_texcoordf2_inf inputs.a_texcoordf2_nan inputs.a_texcoordf2_ninf inputs.a_texcoordf2_snan inputs.a_texcoordf3_array_inf inputs.a_texcoordf3_array_nan inputs.a_texcoordf3_array_ninf inputs.a_texcoordf3_array_snan inputs.a_texcoordf3_inf inputs.a_texcoordf3_nan inputs.a_texcoordf3_ninf inputs.a_texcoordf3_snan inputs.a_texcoordh2_array_inf inputs.a_texcoordh2_array_nan inputs.a_texcoordh2_array_ninf inputs.a_texcoordh2_array_snan inputs.a_texcoordh2_inf inputs.a_texcoordh2_nan inputs.a_texcoordh2_ninf inputs.a_texcoordh2_snan inputs.a_texcoordh3_array_inf inputs.a_texcoordh3_array_nan inputs.a_texcoordh3_array_ninf inputs.a_texcoordh3_array_snan inputs.a_texcoordh3_inf inputs.a_texcoordh3_nan inputs.a_texcoordh3_ninf inputs.a_texcoordh3_snan inputs.a_timecode_array_inf inputs.a_timecode_array_nan inputs.a_timecode_array_ninf inputs.a_timecode_array_snan inputs.a_timecode_inf inputs.a_timecode_nan inputs.a_timecode_ninf inputs.a_timecode_snan inputs.a_vectord3_array_inf inputs.a_vectord3_array_nan inputs.a_vectord3_array_ninf inputs.a_vectord3_array_snan inputs.a_vectord3_inf inputs.a_vectord3_nan inputs.a_vectord3_ninf inputs.a_vectord3_snan inputs.a_vectorf3_array_inf inputs.a_vectorf3_array_nan inputs.a_vectorf3_array_ninf inputs.a_vectorf3_array_snan inputs.a_vectorf3_inf inputs.a_vectorf3_nan inputs.a_vectorf3_ninf inputs.a_vectorf3_snan inputs.a_vectorh3_array_inf inputs.a_vectorh3_array_nan inputs.a_vectorh3_array_ninf inputs.a_vectorh3_array_snan inputs.a_vectorh3_inf inputs.a_vectorh3_nan inputs.a_vectorh3_ninf inputs.a_vectorh3_snan Outputs: outputs.a_colord3_array_inf outputs.a_colord3_array_nan outputs.a_colord3_array_ninf outputs.a_colord3_array_snan outputs.a_colord3_inf outputs.a_colord3_nan outputs.a_colord3_ninf outputs.a_colord3_snan outputs.a_colord4_array_inf outputs.a_colord4_array_nan outputs.a_colord4_array_ninf outputs.a_colord4_array_snan outputs.a_colord4_inf outputs.a_colord4_nan outputs.a_colord4_ninf outputs.a_colord4_snan outputs.a_colorf3_array_inf outputs.a_colorf3_array_nan outputs.a_colorf3_array_ninf outputs.a_colorf3_array_snan outputs.a_colorf3_inf outputs.a_colorf3_nan outputs.a_colorf3_ninf outputs.a_colorf3_snan outputs.a_colorf4_array_inf outputs.a_colorf4_array_nan outputs.a_colorf4_array_ninf outputs.a_colorf4_array_snan outputs.a_colorf4_inf outputs.a_colorf4_nan outputs.a_colorf4_ninf outputs.a_colorf4_snan outputs.a_colorh3_array_inf outputs.a_colorh3_array_nan outputs.a_colorh3_array_ninf outputs.a_colorh3_array_snan outputs.a_colorh3_inf outputs.a_colorh3_nan outputs.a_colorh3_ninf outputs.a_colorh3_snan outputs.a_colorh4_array_inf outputs.a_colorh4_array_nan outputs.a_colorh4_array_ninf outputs.a_colorh4_array_snan outputs.a_colorh4_inf outputs.a_colorh4_nan outputs.a_colorh4_ninf outputs.a_colorh4_snan outputs.a_double2_array_inf outputs.a_double2_array_nan outputs.a_double2_array_ninf outputs.a_double2_array_snan outputs.a_double2_inf outputs.a_double2_nan outputs.a_double2_ninf outputs.a_double2_snan outputs.a_double3_array_inf outputs.a_double3_array_nan outputs.a_double3_array_ninf outputs.a_double3_array_snan outputs.a_double3_inf outputs.a_double3_nan outputs.a_double3_ninf outputs.a_double3_snan outputs.a_double4_array_inf outputs.a_double4_array_nan outputs.a_double4_array_ninf outputs.a_double4_array_snan outputs.a_double4_inf outputs.a_double4_nan outputs.a_double4_ninf outputs.a_double4_snan outputs.a_double_array_inf outputs.a_double_array_nan outputs.a_double_array_ninf outputs.a_double_array_snan outputs.a_double_inf outputs.a_double_nan outputs.a_double_ninf outputs.a_double_snan outputs.a_float2_array_inf outputs.a_float2_array_nan outputs.a_float2_array_ninf outputs.a_float2_array_snan outputs.a_float2_inf outputs.a_float2_nan outputs.a_float2_ninf outputs.a_float2_snan outputs.a_float3_array_inf outputs.a_float3_array_nan outputs.a_float3_array_ninf outputs.a_float3_array_snan outputs.a_float3_inf outputs.a_float3_nan outputs.a_float3_ninf outputs.a_float3_snan outputs.a_float4_array_inf outputs.a_float4_array_nan outputs.a_float4_array_ninf outputs.a_float4_array_snan outputs.a_float4_inf outputs.a_float4_nan outputs.a_float4_ninf outputs.a_float4_snan outputs.a_float_array_inf outputs.a_float_array_nan outputs.a_float_array_ninf outputs.a_float_array_snan outputs.a_float_inf outputs.a_float_nan outputs.a_float_ninf outputs.a_float_snan outputs.a_frame4_array_inf outputs.a_frame4_array_nan outputs.a_frame4_array_ninf outputs.a_frame4_array_snan outputs.a_frame4_inf outputs.a_frame4_nan outputs.a_frame4_ninf outputs.a_frame4_snan outputs.a_half2_array_inf outputs.a_half2_array_nan outputs.a_half2_array_ninf outputs.a_half2_array_snan outputs.a_half2_inf outputs.a_half2_nan outputs.a_half2_ninf outputs.a_half2_snan outputs.a_half3_array_inf outputs.a_half3_array_nan outputs.a_half3_array_ninf outputs.a_half3_array_snan outputs.a_half3_inf outputs.a_half3_nan outputs.a_half3_ninf outputs.a_half3_snan outputs.a_half4_array_inf outputs.a_half4_array_nan outputs.a_half4_array_ninf outputs.a_half4_array_snan outputs.a_half4_inf outputs.a_half4_nan outputs.a_half4_ninf outputs.a_half4_snan outputs.a_half_array_inf outputs.a_half_array_nan outputs.a_half_array_ninf outputs.a_half_array_snan outputs.a_half_inf outputs.a_half_nan outputs.a_half_ninf outputs.a_half_snan outputs.a_matrixd2_array_inf outputs.a_matrixd2_array_nan outputs.a_matrixd2_array_ninf outputs.a_matrixd2_array_snan outputs.a_matrixd2_inf outputs.a_matrixd2_nan outputs.a_matrixd2_ninf outputs.a_matrixd2_snan outputs.a_matrixd3_array_inf outputs.a_matrixd3_array_nan outputs.a_matrixd3_array_ninf outputs.a_matrixd3_array_snan outputs.a_matrixd3_inf outputs.a_matrixd3_nan outputs.a_matrixd3_ninf outputs.a_matrixd3_snan outputs.a_matrixd4_array_inf outputs.a_matrixd4_array_nan outputs.a_matrixd4_array_ninf outputs.a_matrixd4_array_snan outputs.a_matrixd4_inf outputs.a_matrixd4_nan outputs.a_matrixd4_ninf outputs.a_matrixd4_snan outputs.a_normald3_array_inf outputs.a_normald3_array_nan outputs.a_normald3_array_ninf outputs.a_normald3_array_snan outputs.a_normald3_inf outputs.a_normald3_nan outputs.a_normald3_ninf outputs.a_normald3_snan outputs.a_normalf3_array_inf outputs.a_normalf3_array_nan outputs.a_normalf3_array_ninf outputs.a_normalf3_array_snan outputs.a_normalf3_inf outputs.a_normalf3_nan outputs.a_normalf3_ninf outputs.a_normalf3_snan outputs.a_normalh3_array_inf outputs.a_normalh3_array_nan outputs.a_normalh3_array_ninf outputs.a_normalh3_array_snan outputs.a_normalh3_inf outputs.a_normalh3_nan outputs.a_normalh3_ninf outputs.a_normalh3_snan outputs.a_pointd3_array_inf outputs.a_pointd3_array_nan outputs.a_pointd3_array_ninf outputs.a_pointd3_array_snan outputs.a_pointd3_inf outputs.a_pointd3_nan outputs.a_pointd3_ninf outputs.a_pointd3_snan outputs.a_pointf3_array_inf outputs.a_pointf3_array_nan outputs.a_pointf3_array_ninf outputs.a_pointf3_array_snan outputs.a_pointf3_inf outputs.a_pointf3_nan outputs.a_pointf3_ninf outputs.a_pointf3_snan outputs.a_pointh3_array_inf outputs.a_pointh3_array_nan outputs.a_pointh3_array_ninf outputs.a_pointh3_array_snan outputs.a_pointh3_inf outputs.a_pointh3_nan outputs.a_pointh3_ninf outputs.a_pointh3_snan outputs.a_quatd4_array_inf outputs.a_quatd4_array_nan outputs.a_quatd4_array_ninf outputs.a_quatd4_array_snan outputs.a_quatd4_inf outputs.a_quatd4_nan outputs.a_quatd4_ninf outputs.a_quatd4_snan outputs.a_quatf4_array_inf outputs.a_quatf4_array_nan outputs.a_quatf4_array_ninf outputs.a_quatf4_array_snan outputs.a_quatf4_inf outputs.a_quatf4_nan outputs.a_quatf4_ninf outputs.a_quatf4_snan outputs.a_quath4_array_inf outputs.a_quath4_array_nan outputs.a_quath4_array_ninf outputs.a_quath4_array_snan outputs.a_quath4_inf outputs.a_quath4_nan outputs.a_quath4_ninf outputs.a_quath4_snan outputs.a_texcoordd2_array_inf outputs.a_texcoordd2_array_nan outputs.a_texcoordd2_array_ninf outputs.a_texcoordd2_array_snan outputs.a_texcoordd2_inf outputs.a_texcoordd2_nan outputs.a_texcoordd2_ninf outputs.a_texcoordd2_snan outputs.a_texcoordd3_array_inf outputs.a_texcoordd3_array_nan outputs.a_texcoordd3_array_ninf outputs.a_texcoordd3_array_snan outputs.a_texcoordd3_inf outputs.a_texcoordd3_nan outputs.a_texcoordd3_ninf outputs.a_texcoordd3_snan outputs.a_texcoordf2_array_inf outputs.a_texcoordf2_array_nan outputs.a_texcoordf2_array_ninf outputs.a_texcoordf2_array_snan outputs.a_texcoordf2_inf outputs.a_texcoordf2_nan outputs.a_texcoordf2_ninf outputs.a_texcoordf2_snan outputs.a_texcoordf3_array_inf outputs.a_texcoordf3_array_nan outputs.a_texcoordf3_array_ninf outputs.a_texcoordf3_array_snan outputs.a_texcoordf3_inf outputs.a_texcoordf3_nan outputs.a_texcoordf3_ninf outputs.a_texcoordf3_snan outputs.a_texcoordh2_array_inf outputs.a_texcoordh2_array_nan outputs.a_texcoordh2_array_ninf outputs.a_texcoordh2_array_snan outputs.a_texcoordh2_inf outputs.a_texcoordh2_nan outputs.a_texcoordh2_ninf outputs.a_texcoordh2_snan outputs.a_texcoordh3_array_inf outputs.a_texcoordh3_array_nan outputs.a_texcoordh3_array_ninf outputs.a_texcoordh3_array_snan outputs.a_texcoordh3_inf outputs.a_texcoordh3_nan outputs.a_texcoordh3_ninf outputs.a_texcoordh3_snan outputs.a_timecode_array_inf outputs.a_timecode_array_nan outputs.a_timecode_array_ninf outputs.a_timecode_array_snan outputs.a_timecode_inf outputs.a_timecode_nan outputs.a_timecode_ninf outputs.a_timecode_snan outputs.a_vectord3_array_inf outputs.a_vectord3_array_nan outputs.a_vectord3_array_ninf outputs.a_vectord3_array_snan outputs.a_vectord3_inf outputs.a_vectord3_nan outputs.a_vectord3_ninf outputs.a_vectord3_snan outputs.a_vectorf3_array_inf outputs.a_vectorf3_array_nan outputs.a_vectorf3_array_ninf outputs.a_vectorf3_array_snan outputs.a_vectorf3_inf outputs.a_vectorf3_nan outputs.a_vectorf3_ninf outputs.a_vectorf3_snan outputs.a_vectorh3_array_inf outputs.a_vectorh3_array_nan outputs.a_vectorh3_array_ninf outputs.a_vectorh3_array_snan outputs.a_vectorh3_inf outputs.a_vectorh3_nan outputs.a_vectorh3_ninf outputs.a_vectorh3_snan """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ 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('outputs:a_matrixd4_nan', 'matrix4d', 0, None, 'matrixd4 NaN', {}, True, None, False, ''), ('outputs:a_matrixd4_ninf', 'matrix4d', 0, None, 'matrixd4 -Infinity', {}, True, None, False, ''), ('outputs:a_matrixd4_snan', 'matrix4d', 0, None, 'matrixd4 sNaN', {}, True, None, False, ''), ('outputs:a_normald3_array_inf', 'normal3d[]', 0, None, 'normald3_array Infinity', {}, True, None, False, ''), ('outputs:a_normald3_array_nan', 'normal3d[]', 0, None, 'normald3_array NaN', {}, True, None, False, ''), ('outputs:a_normald3_array_ninf', 'normal3d[]', 0, None, 'normald3_array -Infinity', {}, True, None, False, ''), ('outputs:a_normald3_array_snan', 'normal3d[]', 0, None, 'normald3_array sNaN', {}, True, None, False, ''), ('outputs:a_normald3_inf', 'normal3d', 0, None, 'normald3 Infinity', {}, True, None, False, ''), ('outputs:a_normald3_nan', 'normal3d', 0, None, 'normald3 NaN', {}, True, None, False, ''), ('outputs:a_normald3_ninf', 'normal3d', 0, None, 'normald3 -Infinity', {}, True, None, 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Infinity', {}, True, None, False, ''), ('outputs:a_normalh3_array_nan', 'normal3h[]', 0, None, 'normalh3_array NaN', {}, True, None, False, ''), ('outputs:a_normalh3_array_ninf', 'normal3h[]', 0, None, 'normalh3_array -Infinity', {}, True, None, False, ''), ('outputs:a_normalh3_array_snan', 'normal3h[]', 0, None, 'normalh3_array sNaN', {}, True, None, False, ''), ('outputs:a_normalh3_inf', 'normal3h', 0, None, 'normalh3 Infinity', {}, True, None, False, ''), ('outputs:a_normalh3_nan', 'normal3h', 0, None, 'normalh3 NaN', {}, True, None, False, ''), ('outputs:a_normalh3_ninf', 'normal3h', 0, None, 'normalh3 -Infinity', {}, True, None, False, ''), ('outputs:a_normalh3_snan', 'normal3h', 0, None, 'normalh3 sNaN', {}, True, None, False, ''), ('outputs:a_pointd3_array_inf', 'point3d[]', 0, None, 'pointd3_array Infinity', {}, True, None, False, ''), ('outputs:a_pointd3_array_nan', 'point3d[]', 0, None, 'pointd3_array NaN', {}, True, None, False, ''), ('outputs:a_pointd3_array_ninf', 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('outputs:a_pointh3_ninf', 'point3h', 0, None, 'pointh3 -Infinity', {}, True, None, False, ''), ('outputs:a_pointh3_snan', 'point3h', 0, None, 'pointh3 sNaN', {}, True, None, False, ''), ('outputs:a_quatd4_array_inf', 'quatd[]', 0, None, 'quatd4_array Infinity', {}, True, None, False, ''), ('outputs:a_quatd4_array_nan', 'quatd[]', 0, None, 'quatd4_array NaN', {}, True, None, False, ''), ('outputs:a_quatd4_array_ninf', 'quatd[]', 0, None, 'quatd4_array -Infinity', {}, True, None, False, ''), ('outputs:a_quatd4_array_snan', 'quatd[]', 0, None, 'quatd4_array sNaN', {}, True, None, False, ''), ('outputs:a_quatd4_inf', 'quatd', 0, None, 'quatd4 Infinity', {}, True, None, False, ''), ('outputs:a_quatd4_nan', 'quatd', 0, None, 'quatd4 NaN', {}, True, None, False, ''), ('outputs:a_quatd4_ninf', 'quatd', 0, None, 'quatd4 -Infinity', {}, True, None, False, ''), ('outputs:a_quatd4_snan', 'quatd', 0, None, 'quatd4 sNaN', {}, True, None, False, ''), ('outputs:a_quatf4_array_inf', 'quatf[]', 0, 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('outputs:a_vectorh3_snan', 'vector3h', 0, None, 'vectorh3 sNaN', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.a_colord3_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colord3_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colord3_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colord3_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colord3_inf = og.AttributeRole.COLOR role_data.inputs.a_colord3_nan = og.AttributeRole.COLOR role_data.inputs.a_colord3_ninf = og.AttributeRole.COLOR role_data.inputs.a_colord3_snan = og.AttributeRole.COLOR role_data.inputs.a_colord4_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colord4_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colord4_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colord4_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colord4_inf = og.AttributeRole.COLOR role_data.inputs.a_colord4_nan = og.AttributeRole.COLOR role_data.inputs.a_colord4_ninf = og.AttributeRole.COLOR role_data.inputs.a_colord4_snan = og.AttributeRole.COLOR role_data.inputs.a_colorf3_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colorf3_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colorf3_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorf3_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colorf3_inf = og.AttributeRole.COLOR role_data.inputs.a_colorf3_nan = og.AttributeRole.COLOR role_data.inputs.a_colorf3_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorf3_snan = og.AttributeRole.COLOR role_data.inputs.a_colorf4_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colorf4_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colorf4_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorf4_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colorf4_inf = og.AttributeRole.COLOR role_data.inputs.a_colorf4_nan = og.AttributeRole.COLOR role_data.inputs.a_colorf4_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorf4_snan = og.AttributeRole.COLOR role_data.inputs.a_colorh3_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colorh3_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colorh3_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorh3_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colorh3_inf = og.AttributeRole.COLOR role_data.inputs.a_colorh3_nan = og.AttributeRole.COLOR role_data.inputs.a_colorh3_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorh3_snan = og.AttributeRole.COLOR role_data.inputs.a_colorh4_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colorh4_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colorh4_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorh4_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colorh4_inf = og.AttributeRole.COLOR role_data.inputs.a_colorh4_nan = og.AttributeRole.COLOR role_data.inputs.a_colorh4_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorh4_snan = og.AttributeRole.COLOR role_data.inputs.a_frame4_array_inf = og.AttributeRole.FRAME role_data.inputs.a_frame4_array_nan = og.AttributeRole.FRAME role_data.inputs.a_frame4_array_ninf = og.AttributeRole.FRAME role_data.inputs.a_frame4_array_snan = og.AttributeRole.FRAME role_data.inputs.a_frame4_inf = og.AttributeRole.FRAME role_data.inputs.a_frame4_nan = og.AttributeRole.FRAME role_data.inputs.a_frame4_ninf = og.AttributeRole.FRAME role_data.inputs.a_frame4_snan = og.AttributeRole.FRAME role_data.inputs.a_matrixd2_array_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_array_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_array_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_array_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_array_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_array_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_array_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_array_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_array_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_array_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_array_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_array_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_snan = og.AttributeRole.MATRIX role_data.inputs.a_normald3_array_inf = og.AttributeRole.NORMAL role_data.inputs.a_normald3_array_nan = og.AttributeRole.NORMAL role_data.inputs.a_normald3_array_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normald3_array_snan = og.AttributeRole.NORMAL role_data.inputs.a_normald3_inf = og.AttributeRole.NORMAL role_data.inputs.a_normald3_nan = og.AttributeRole.NORMAL role_data.inputs.a_normald3_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normald3_snan = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_array_inf = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_array_nan = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_array_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_array_snan = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_inf = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_nan = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_snan = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_array_inf = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_array_nan = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_array_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_array_snan = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_inf = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_nan = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_snan = og.AttributeRole.NORMAL role_data.inputs.a_pointd3_array_inf = og.AttributeRole.POSITION role_data.inputs.a_pointd3_array_nan = og.AttributeRole.POSITION role_data.inputs.a_pointd3_array_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointd3_array_snan = og.AttributeRole.POSITION role_data.inputs.a_pointd3_inf = og.AttributeRole.POSITION role_data.inputs.a_pointd3_nan = og.AttributeRole.POSITION role_data.inputs.a_pointd3_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointd3_snan = og.AttributeRole.POSITION role_data.inputs.a_pointf3_array_inf = og.AttributeRole.POSITION role_data.inputs.a_pointf3_array_nan = og.AttributeRole.POSITION role_data.inputs.a_pointf3_array_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointf3_array_snan = og.AttributeRole.POSITION role_data.inputs.a_pointf3_inf = og.AttributeRole.POSITION role_data.inputs.a_pointf3_nan = og.AttributeRole.POSITION role_data.inputs.a_pointf3_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointf3_snan = og.AttributeRole.POSITION role_data.inputs.a_pointh3_array_inf = og.AttributeRole.POSITION role_data.inputs.a_pointh3_array_nan = og.AttributeRole.POSITION role_data.inputs.a_pointh3_array_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointh3_array_snan = og.AttributeRole.POSITION role_data.inputs.a_pointh3_inf = og.AttributeRole.POSITION role_data.inputs.a_pointh3_nan = og.AttributeRole.POSITION role_data.inputs.a_pointh3_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointh3_snan = og.AttributeRole.POSITION role_data.inputs.a_quatd4_array_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_array_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_array_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_array_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_array_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_array_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_array_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_array_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_array_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_array_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_array_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_array_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_snan = og.AttributeRole.QUATERNION role_data.inputs.a_texcoordd2_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_timecode_array_inf = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_array_nan = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_array_ninf = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_array_snan = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_inf = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_nan = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_ninf = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_snan = og.AttributeRole.TIMECODE role_data.inputs.a_vectord3_array_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_array_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_array_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_array_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_array_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_array_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_array_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_array_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_array_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_array_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_array_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_array_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_snan = og.AttributeRole.VECTOR role_data.outputs.a_colord3_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colord3_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colord3_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colord3_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colord3_inf = og.AttributeRole.COLOR role_data.outputs.a_colord3_nan = og.AttributeRole.COLOR role_data.outputs.a_colord3_ninf = og.AttributeRole.COLOR role_data.outputs.a_colord3_snan = og.AttributeRole.COLOR role_data.outputs.a_colord4_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colord4_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colord4_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colord4_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colord4_inf = og.AttributeRole.COLOR role_data.outputs.a_colord4_nan = og.AttributeRole.COLOR role_data.outputs.a_colord4_ninf = og.AttributeRole.COLOR role_data.outputs.a_colord4_snan = og.AttributeRole.COLOR role_data.outputs.a_colorf3_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colorf3_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colorf3_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorf3_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colorf3_inf = og.AttributeRole.COLOR role_data.outputs.a_colorf3_nan = og.AttributeRole.COLOR role_data.outputs.a_colorf3_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorf3_snan = og.AttributeRole.COLOR role_data.outputs.a_colorf4_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colorf4_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colorf4_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorf4_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colorf4_inf = og.AttributeRole.COLOR role_data.outputs.a_colorf4_nan = og.AttributeRole.COLOR role_data.outputs.a_colorf4_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorf4_snan = og.AttributeRole.COLOR role_data.outputs.a_colorh3_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colorh3_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colorh3_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorh3_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colorh3_inf = og.AttributeRole.COLOR role_data.outputs.a_colorh3_nan = og.AttributeRole.COLOR role_data.outputs.a_colorh3_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorh3_snan = og.AttributeRole.COLOR role_data.outputs.a_colorh4_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colorh4_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colorh4_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorh4_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colorh4_inf = og.AttributeRole.COLOR role_data.outputs.a_colorh4_nan = og.AttributeRole.COLOR role_data.outputs.a_colorh4_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorh4_snan = og.AttributeRole.COLOR role_data.outputs.a_frame4_array_inf = og.AttributeRole.FRAME role_data.outputs.a_frame4_array_nan = og.AttributeRole.FRAME role_data.outputs.a_frame4_array_ninf = og.AttributeRole.FRAME role_data.outputs.a_frame4_array_snan = og.AttributeRole.FRAME role_data.outputs.a_frame4_inf = og.AttributeRole.FRAME role_data.outputs.a_frame4_nan = og.AttributeRole.FRAME role_data.outputs.a_frame4_ninf = og.AttributeRole.FRAME role_data.outputs.a_frame4_snan = og.AttributeRole.FRAME role_data.outputs.a_matrixd2_array_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_array_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_array_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_array_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_array_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_array_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_array_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_array_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_array_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_array_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_array_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_array_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_snan = og.AttributeRole.MATRIX role_data.outputs.a_normald3_array_inf = og.AttributeRole.NORMAL role_data.outputs.a_normald3_array_nan = og.AttributeRole.NORMAL role_data.outputs.a_normald3_array_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normald3_array_snan = og.AttributeRole.NORMAL role_data.outputs.a_normald3_inf = og.AttributeRole.NORMAL role_data.outputs.a_normald3_nan = og.AttributeRole.NORMAL role_data.outputs.a_normald3_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normald3_snan = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_array_inf = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_array_nan = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_array_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_array_snan = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_inf = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_nan = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_snan = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_array_inf = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_array_nan = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_array_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_array_snan = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_inf = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_nan = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_snan = og.AttributeRole.NORMAL role_data.outputs.a_pointd3_array_inf = og.AttributeRole.POSITION role_data.outputs.a_pointd3_array_nan = og.AttributeRole.POSITION role_data.outputs.a_pointd3_array_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointd3_array_snan = og.AttributeRole.POSITION role_data.outputs.a_pointd3_inf = og.AttributeRole.POSITION role_data.outputs.a_pointd3_nan = og.AttributeRole.POSITION role_data.outputs.a_pointd3_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointd3_snan = og.AttributeRole.POSITION role_data.outputs.a_pointf3_array_inf = og.AttributeRole.POSITION role_data.outputs.a_pointf3_array_nan = og.AttributeRole.POSITION role_data.outputs.a_pointf3_array_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointf3_array_snan = og.AttributeRole.POSITION role_data.outputs.a_pointf3_inf = og.AttributeRole.POSITION role_data.outputs.a_pointf3_nan = og.AttributeRole.POSITION role_data.outputs.a_pointf3_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointf3_snan = og.AttributeRole.POSITION role_data.outputs.a_pointh3_array_inf = og.AttributeRole.POSITION role_data.outputs.a_pointh3_array_nan = og.AttributeRole.POSITION role_data.outputs.a_pointh3_array_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointh3_array_snan = og.AttributeRole.POSITION role_data.outputs.a_pointh3_inf = og.AttributeRole.POSITION role_data.outputs.a_pointh3_nan = og.AttributeRole.POSITION role_data.outputs.a_pointh3_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointh3_snan = og.AttributeRole.POSITION role_data.outputs.a_quatd4_array_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_array_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_array_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_array_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_array_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_array_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_array_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_array_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_array_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_array_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_array_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_array_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_snan = og.AttributeRole.QUATERNION role_data.outputs.a_texcoordd2_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_timecode_array_inf = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_array_nan = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_array_ninf = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_array_snan = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_inf = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_nan = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_ninf = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_snan = og.AttributeRole.TIMECODE role_data.outputs.a_vectord3_array_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_array_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_array_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_array_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_array_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_array_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_array_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_array_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_array_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_array_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_array_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_array_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_snan = og.AttributeRole.VECTOR return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def a_colord3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_inf) return data_view.get() @a_colord3_array_inf.setter def a_colord3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_inf) data_view.set(value) self.a_colord3_array_inf_size = data_view.get_array_size() @property def a_colord3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_nan) return data_view.get() @a_colord3_array_nan.setter def a_colord3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_nan) data_view.set(value) self.a_colord3_array_nan_size = data_view.get_array_size() @property def a_colord3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_ninf) return data_view.get() @a_colord3_array_ninf.setter def a_colord3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_ninf) data_view.set(value) self.a_colord3_array_ninf_size = data_view.get_array_size() @property def a_colord3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_snan) return data_view.get() @a_colord3_array_snan.setter def a_colord3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_snan) data_view.set(value) self.a_colord3_array_snan_size = data_view.get_array_size() @property def a_colord3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_inf) return data_view.get() @a_colord3_inf.setter def a_colord3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_inf) data_view = og.AttributeValueHelper(self._attributes.a_colord3_inf) data_view.set(value) @property def a_colord3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_nan) return data_view.get() @a_colord3_nan.setter def a_colord3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_nan) data_view = og.AttributeValueHelper(self._attributes.a_colord3_nan) data_view.set(value) @property def a_colord3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_ninf) return data_view.get() @a_colord3_ninf.setter def a_colord3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colord3_ninf) data_view.set(value) @property def a_colord3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_snan) return data_view.get() @a_colord3_snan.setter def a_colord3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_snan) data_view = og.AttributeValueHelper(self._attributes.a_colord3_snan) data_view.set(value) @property def a_colord4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_inf) return data_view.get() @a_colord4_array_inf.setter def a_colord4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_inf) data_view.set(value) self.a_colord4_array_inf_size = data_view.get_array_size() @property def a_colord4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_nan) return data_view.get() @a_colord4_array_nan.setter def a_colord4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_nan) data_view.set(value) self.a_colord4_array_nan_size = data_view.get_array_size() @property def a_colord4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_ninf) return data_view.get() @a_colord4_array_ninf.setter def a_colord4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_ninf) data_view.set(value) self.a_colord4_array_ninf_size = data_view.get_array_size() @property def a_colord4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_snan) return data_view.get() @a_colord4_array_snan.setter def a_colord4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_snan) data_view.set(value) self.a_colord4_array_snan_size = data_view.get_array_size() @property def a_colord4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_inf) return data_view.get() @a_colord4_inf.setter def a_colord4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_inf) data_view = og.AttributeValueHelper(self._attributes.a_colord4_inf) data_view.set(value) @property def a_colord4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_nan) return data_view.get() @a_colord4_nan.setter def a_colord4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_nan) data_view = og.AttributeValueHelper(self._attributes.a_colord4_nan) data_view.set(value) @property def a_colord4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_ninf) return data_view.get() @a_colord4_ninf.setter def a_colord4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colord4_ninf) data_view.set(value) @property def a_colord4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_snan) return data_view.get() @a_colord4_snan.setter def a_colord4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_snan) data_view = og.AttributeValueHelper(self._attributes.a_colord4_snan) data_view.set(value) @property def a_colorf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_inf) return data_view.get() @a_colorf3_array_inf.setter def a_colorf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_inf) data_view.set(value) self.a_colorf3_array_inf_size = data_view.get_array_size() @property def a_colorf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_nan) return data_view.get() @a_colorf3_array_nan.setter def a_colorf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_nan) data_view.set(value) self.a_colorf3_array_nan_size = data_view.get_array_size() @property def a_colorf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_ninf) return data_view.get() @a_colorf3_array_ninf.setter def a_colorf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_ninf) data_view.set(value) self.a_colorf3_array_ninf_size = data_view.get_array_size() @property def a_colorf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_snan) return data_view.get() @a_colorf3_array_snan.setter def a_colorf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_snan) data_view.set(value) self.a_colorf3_array_snan_size = data_view.get_array_size() @property def a_colorf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_inf) return data_view.get() @a_colorf3_inf.setter def a_colorf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_inf) data_view.set(value) @property def a_colorf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_nan) return data_view.get() @a_colorf3_nan.setter def a_colorf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_nan) data_view.set(value) @property def a_colorf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_ninf) return data_view.get() @a_colorf3_ninf.setter def a_colorf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_ninf) data_view.set(value) @property def a_colorf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_snan) return data_view.get() @a_colorf3_snan.setter def a_colorf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_snan) data_view.set(value) @property def a_colorf4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_inf) return data_view.get() @a_colorf4_array_inf.setter def a_colorf4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_inf) data_view.set(value) self.a_colorf4_array_inf_size = data_view.get_array_size() @property def a_colorf4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_nan) return data_view.get() @a_colorf4_array_nan.setter def a_colorf4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_nan) data_view.set(value) self.a_colorf4_array_nan_size = data_view.get_array_size() @property def a_colorf4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_ninf) return data_view.get() @a_colorf4_array_ninf.setter def a_colorf4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_ninf) data_view.set(value) self.a_colorf4_array_ninf_size = data_view.get_array_size() @property def a_colorf4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_snan) return data_view.get() @a_colorf4_array_snan.setter def a_colorf4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_snan) data_view.set(value) self.a_colorf4_array_snan_size = data_view.get_array_size() @property def a_colorf4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_inf) return data_view.get() @a_colorf4_inf.setter def a_colorf4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_inf) data_view.set(value) @property def a_colorf4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_nan) return data_view.get() @a_colorf4_nan.setter def a_colorf4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_nan) data_view.set(value) @property def a_colorf4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_ninf) return data_view.get() @a_colorf4_ninf.setter def a_colorf4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_ninf) data_view.set(value) @property def a_colorf4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_snan) return data_view.get() @a_colorf4_snan.setter def a_colorf4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_snan) data_view.set(value) @property def a_colorh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_inf) return data_view.get() @a_colorh3_array_inf.setter def a_colorh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_inf) data_view.set(value) self.a_colorh3_array_inf_size = data_view.get_array_size() @property def a_colorh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_nan) return data_view.get() @a_colorh3_array_nan.setter def a_colorh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_nan) data_view.set(value) self.a_colorh3_array_nan_size = data_view.get_array_size() @property def a_colorh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_ninf) return data_view.get() @a_colorh3_array_ninf.setter def a_colorh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_ninf) data_view.set(value) self.a_colorh3_array_ninf_size = data_view.get_array_size() @property def a_colorh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_snan) return data_view.get() @a_colorh3_array_snan.setter def a_colorh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_snan) data_view.set(value) self.a_colorh3_array_snan_size = data_view.get_array_size() @property def a_colorh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_inf) return data_view.get() @a_colorh3_inf.setter def a_colorh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_inf) data_view.set(value) @property def a_colorh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_nan) return data_view.get() @a_colorh3_nan.setter def a_colorh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_nan) data_view.set(value) @property def a_colorh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_ninf) return data_view.get() @a_colorh3_ninf.setter def a_colorh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_ninf) data_view.set(value) @property def a_colorh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_snan) return data_view.get() @a_colorh3_snan.setter def a_colorh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_snan) data_view.set(value) @property def a_colorh4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_inf) return data_view.get() @a_colorh4_array_inf.setter def a_colorh4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_inf) data_view.set(value) self.a_colorh4_array_inf_size = data_view.get_array_size() @property def a_colorh4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_nan) return data_view.get() @a_colorh4_array_nan.setter def a_colorh4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_nan) data_view.set(value) self.a_colorh4_array_nan_size = data_view.get_array_size() @property def a_colorh4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_ninf) return data_view.get() @a_colorh4_array_ninf.setter def a_colorh4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_ninf) data_view.set(value) self.a_colorh4_array_ninf_size = data_view.get_array_size() @property def a_colorh4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_snan) return data_view.get() @a_colorh4_array_snan.setter def a_colorh4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_snan) data_view.set(value) self.a_colorh4_array_snan_size = data_view.get_array_size() @property def a_colorh4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_inf) return data_view.get() @a_colorh4_inf.setter def a_colorh4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_inf) data_view.set(value) @property def a_colorh4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_nan) return data_view.get() @a_colorh4_nan.setter def a_colorh4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_nan) data_view.set(value) @property def a_colorh4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_ninf) return data_view.get() @a_colorh4_ninf.setter def a_colorh4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_ninf) data_view.set(value) @property def a_colorh4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_snan) return data_view.get() @a_colorh4_snan.setter def a_colorh4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_snan) data_view.set(value) @property def a_double2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_inf) return data_view.get() @a_double2_array_inf.setter def a_double2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_double2_array_inf) data_view.set(value) self.a_double2_array_inf_size = data_view.get_array_size() @property def a_double2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_nan) return data_view.get() @a_double2_array_nan.setter def a_double2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_double2_array_nan) data_view.set(value) self.a_double2_array_nan_size = data_view.get_array_size() @property def a_double2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_ninf) return data_view.get() @a_double2_array_ninf.setter def a_double2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double2_array_ninf) data_view.set(value) self.a_double2_array_ninf_size = data_view.get_array_size() @property def a_double2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_snan) return data_view.get() @a_double2_array_snan.setter def a_double2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_double2_array_snan) data_view.set(value) self.a_double2_array_snan_size = data_view.get_array_size() @property def a_double2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_inf) return data_view.get() @a_double2_inf.setter def a_double2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_inf) data_view = og.AttributeValueHelper(self._attributes.a_double2_inf) data_view.set(value) @property def a_double2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_nan) return data_view.get() @a_double2_nan.setter def a_double2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_nan) data_view = og.AttributeValueHelper(self._attributes.a_double2_nan) data_view.set(value) @property def a_double2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_ninf) return data_view.get() @a_double2_ninf.setter def a_double2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double2_ninf) data_view.set(value) @property def a_double2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_snan) return data_view.get() @a_double2_snan.setter def a_double2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_snan) data_view = og.AttributeValueHelper(self._attributes.a_double2_snan) data_view.set(value) @property def a_double3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_inf) return data_view.get() @a_double3_array_inf.setter def a_double3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_double3_array_inf) data_view.set(value) self.a_double3_array_inf_size = data_view.get_array_size() @property def a_double3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_nan) return data_view.get() @a_double3_array_nan.setter def a_double3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_double3_array_nan) data_view.set(value) self.a_double3_array_nan_size = data_view.get_array_size() @property def a_double3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_ninf) return data_view.get() @a_double3_array_ninf.setter def a_double3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double3_array_ninf) data_view.set(value) self.a_double3_array_ninf_size = data_view.get_array_size() @property def a_double3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_snan) return data_view.get() @a_double3_array_snan.setter def a_double3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_double3_array_snan) data_view.set(value) self.a_double3_array_snan_size = data_view.get_array_size() @property def a_double3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_inf) return data_view.get() @a_double3_inf.setter def a_double3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_inf) data_view = og.AttributeValueHelper(self._attributes.a_double3_inf) data_view.set(value) @property def a_double3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_nan) return data_view.get() @a_double3_nan.setter def a_double3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_nan) data_view = og.AttributeValueHelper(self._attributes.a_double3_nan) data_view.set(value) @property def a_double3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_ninf) return data_view.get() @a_double3_ninf.setter def a_double3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double3_ninf) data_view.set(value) @property def a_double3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_snan) return data_view.get() @a_double3_snan.setter def a_double3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_snan) data_view = og.AttributeValueHelper(self._attributes.a_double3_snan) data_view.set(value) @property def a_double4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_inf) return data_view.get() @a_double4_array_inf.setter def a_double4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_double4_array_inf) data_view.set(value) self.a_double4_array_inf_size = data_view.get_array_size() @property def a_double4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_nan) return data_view.get() @a_double4_array_nan.setter def a_double4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_double4_array_nan) data_view.set(value) self.a_double4_array_nan_size = data_view.get_array_size() @property def a_double4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_ninf) return data_view.get() @a_double4_array_ninf.setter def a_double4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double4_array_ninf) data_view.set(value) self.a_double4_array_ninf_size = data_view.get_array_size() @property def a_double4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_snan) return data_view.get() @a_double4_array_snan.setter def a_double4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_double4_array_snan) data_view.set(value) self.a_double4_array_snan_size = data_view.get_array_size() @property def a_double4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_inf) return data_view.get() @a_double4_inf.setter def a_double4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_inf) data_view = og.AttributeValueHelper(self._attributes.a_double4_inf) data_view.set(value) @property def a_double4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_nan) return data_view.get() @a_double4_nan.setter def a_double4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_nan) data_view = og.AttributeValueHelper(self._attributes.a_double4_nan) data_view.set(value) @property def a_double4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_ninf) return data_view.get() @a_double4_ninf.setter def a_double4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double4_ninf) data_view.set(value) @property def a_double4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_snan) return data_view.get() @a_double4_snan.setter def a_double4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_snan) data_view = og.AttributeValueHelper(self._attributes.a_double4_snan) data_view.set(value) @property def a_double_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_inf) return data_view.get() @a_double_array_inf.setter def a_double_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_double_array_inf) data_view.set(value) self.a_double_array_inf_size = data_view.get_array_size() @property def a_double_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_nan) return data_view.get() @a_double_array_nan.setter def a_double_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_double_array_nan) data_view.set(value) self.a_double_array_nan_size = data_view.get_array_size() @property def a_double_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_ninf) return data_view.get() @a_double_array_ninf.setter def a_double_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double_array_ninf) data_view.set(value) self.a_double_array_ninf_size = data_view.get_array_size() @property def a_double_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_snan) return data_view.get() @a_double_array_snan.setter def a_double_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_double_array_snan) data_view.set(value) self.a_double_array_snan_size = data_view.get_array_size() @property def a_double_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_inf) return data_view.get() @a_double_inf.setter def a_double_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_inf) data_view = og.AttributeValueHelper(self._attributes.a_double_inf) data_view.set(value) @property def a_double_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_nan) return data_view.get() @a_double_nan.setter def a_double_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_nan) data_view = og.AttributeValueHelper(self._attributes.a_double_nan) data_view.set(value) @property def a_double_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_ninf) return data_view.get() @a_double_ninf.setter def a_double_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double_ninf) data_view.set(value) @property def a_double_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_snan) return data_view.get() @a_double_snan.setter def a_double_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_snan) data_view = og.AttributeValueHelper(self._attributes.a_double_snan) data_view.set(value) @property def a_float2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_inf) return data_view.get() @a_float2_array_inf.setter def a_float2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_float2_array_inf) data_view.set(value) self.a_float2_array_inf_size = data_view.get_array_size() @property def a_float2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_nan) return data_view.get() @a_float2_array_nan.setter def a_float2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_float2_array_nan) data_view.set(value) self.a_float2_array_nan_size = data_view.get_array_size() @property def a_float2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_ninf) return data_view.get() @a_float2_array_ninf.setter def a_float2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float2_array_ninf) data_view.set(value) self.a_float2_array_ninf_size = data_view.get_array_size() @property def a_float2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_snan) return data_view.get() @a_float2_array_snan.setter def a_float2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_float2_array_snan) data_view.set(value) self.a_float2_array_snan_size = data_view.get_array_size() @property def a_float2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_inf) return data_view.get() @a_float2_inf.setter def a_float2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_inf) data_view = og.AttributeValueHelper(self._attributes.a_float2_inf) data_view.set(value) @property def a_float2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_nan) return data_view.get() @a_float2_nan.setter def a_float2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_nan) data_view = og.AttributeValueHelper(self._attributes.a_float2_nan) data_view.set(value) @property def a_float2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_ninf) return data_view.get() @a_float2_ninf.setter def a_float2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float2_ninf) data_view.set(value) @property def a_float2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_snan) return data_view.get() @a_float2_snan.setter def a_float2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_snan) data_view = og.AttributeValueHelper(self._attributes.a_float2_snan) data_view.set(value) @property def a_float3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_inf) return data_view.get() @a_float3_array_inf.setter def a_float3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_float3_array_inf) data_view.set(value) self.a_float3_array_inf_size = data_view.get_array_size() @property def a_float3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_nan) return data_view.get() @a_float3_array_nan.setter def a_float3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_float3_array_nan) data_view.set(value) self.a_float3_array_nan_size = data_view.get_array_size() @property def a_float3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_ninf) return data_view.get() @a_float3_array_ninf.setter def a_float3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float3_array_ninf) data_view.set(value) self.a_float3_array_ninf_size = data_view.get_array_size() @property def a_float3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_snan) return data_view.get() @a_float3_array_snan.setter def a_float3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_float3_array_snan) data_view.set(value) self.a_float3_array_snan_size = data_view.get_array_size() @property def a_float3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_inf) return data_view.get() @a_float3_inf.setter def a_float3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_inf) data_view = og.AttributeValueHelper(self._attributes.a_float3_inf) data_view.set(value) @property def a_float3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_nan) return data_view.get() @a_float3_nan.setter def a_float3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_nan) data_view = og.AttributeValueHelper(self._attributes.a_float3_nan) data_view.set(value) @property def a_float3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_ninf) return data_view.get() @a_float3_ninf.setter def a_float3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float3_ninf) data_view.set(value) @property def a_float3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_snan) return data_view.get() @a_float3_snan.setter def a_float3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_snan) data_view = og.AttributeValueHelper(self._attributes.a_float3_snan) data_view.set(value) @property def a_float4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_inf) return data_view.get() @a_float4_array_inf.setter def a_float4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_float4_array_inf) data_view.set(value) self.a_float4_array_inf_size = data_view.get_array_size() @property def a_float4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_nan) return data_view.get() @a_float4_array_nan.setter def a_float4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_float4_array_nan) data_view.set(value) self.a_float4_array_nan_size = data_view.get_array_size() @property def a_float4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_ninf) return data_view.get() @a_float4_array_ninf.setter def a_float4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float4_array_ninf) data_view.set(value) self.a_float4_array_ninf_size = data_view.get_array_size() @property def a_float4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_snan) return data_view.get() @a_float4_array_snan.setter def a_float4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_float4_array_snan) data_view.set(value) self.a_float4_array_snan_size = data_view.get_array_size() @property def a_float4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_inf) return data_view.get() @a_float4_inf.setter def a_float4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_inf) data_view = og.AttributeValueHelper(self._attributes.a_float4_inf) data_view.set(value) @property def a_float4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_nan) return data_view.get() @a_float4_nan.setter def a_float4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_nan) data_view = og.AttributeValueHelper(self._attributes.a_float4_nan) data_view.set(value) @property def a_float4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_ninf) return data_view.get() @a_float4_ninf.setter def a_float4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float4_ninf) data_view.set(value) @property def a_float4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_snan) return data_view.get() @a_float4_snan.setter def a_float4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_snan) data_view = og.AttributeValueHelper(self._attributes.a_float4_snan) data_view.set(value) @property def a_float_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_inf) return data_view.get() @a_float_array_inf.setter def a_float_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_float_array_inf) data_view.set(value) self.a_float_array_inf_size = data_view.get_array_size() @property def a_float_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_nan) return data_view.get() @a_float_array_nan.setter def a_float_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_float_array_nan) data_view.set(value) self.a_float_array_nan_size = data_view.get_array_size() @property def a_float_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_ninf) return data_view.get() @a_float_array_ninf.setter def a_float_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float_array_ninf) data_view.set(value) self.a_float_array_ninf_size = data_view.get_array_size() @property def a_float_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_snan) return data_view.get() @a_float_array_snan.setter def a_float_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_float_array_snan) data_view.set(value) self.a_float_array_snan_size = data_view.get_array_size() @property def a_float_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_inf) return data_view.get() @a_float_inf.setter def a_float_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_inf) data_view = og.AttributeValueHelper(self._attributes.a_float_inf) data_view.set(value) @property def a_float_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_nan) return data_view.get() @a_float_nan.setter def a_float_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_nan) data_view = og.AttributeValueHelper(self._attributes.a_float_nan) data_view.set(value) @property def a_float_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_ninf) return data_view.get() @a_float_ninf.setter def a_float_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float_ninf) data_view.set(value) @property def a_float_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_snan) return data_view.get() @a_float_snan.setter def a_float_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_snan) data_view = og.AttributeValueHelper(self._attributes.a_float_snan) data_view.set(value) @property def a_frame4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_inf) return data_view.get() @a_frame4_array_inf.setter def a_frame4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_inf) data_view.set(value) self.a_frame4_array_inf_size = data_view.get_array_size() @property def a_frame4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_nan) return data_view.get() @a_frame4_array_nan.setter def a_frame4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_nan) data_view.set(value) self.a_frame4_array_nan_size = data_view.get_array_size() @property def a_frame4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_ninf) return data_view.get() @a_frame4_array_ninf.setter def a_frame4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_ninf) data_view.set(value) self.a_frame4_array_ninf_size = data_view.get_array_size() @property def a_frame4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_snan) return data_view.get() @a_frame4_array_snan.setter def a_frame4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_snan) data_view.set(value) self.a_frame4_array_snan_size = data_view.get_array_size() @property def a_frame4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_inf) return data_view.get() @a_frame4_inf.setter def a_frame4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_inf) data_view = og.AttributeValueHelper(self._attributes.a_frame4_inf) data_view.set(value) @property def a_frame4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_nan) return data_view.get() @a_frame4_nan.setter def a_frame4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_nan) data_view = og.AttributeValueHelper(self._attributes.a_frame4_nan) data_view.set(value) @property def a_frame4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_ninf) return data_view.get() @a_frame4_ninf.setter def a_frame4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_frame4_ninf) data_view.set(value) @property def a_frame4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_snan) return data_view.get() @a_frame4_snan.setter def a_frame4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_snan) data_view = og.AttributeValueHelper(self._attributes.a_frame4_snan) data_view.set(value) @property def a_half2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_inf) return data_view.get() @a_half2_array_inf.setter def a_half2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_half2_array_inf) data_view.set(value) self.a_half2_array_inf_size = data_view.get_array_size() @property def a_half2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_nan) return data_view.get() @a_half2_array_nan.setter def a_half2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_half2_array_nan) data_view.set(value) self.a_half2_array_nan_size = data_view.get_array_size() @property def a_half2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_ninf) return data_view.get() @a_half2_array_ninf.setter def a_half2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half2_array_ninf) data_view.set(value) self.a_half2_array_ninf_size = data_view.get_array_size() @property def a_half2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_snan) return data_view.get() @a_half2_array_snan.setter def a_half2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_half2_array_snan) data_view.set(value) self.a_half2_array_snan_size = data_view.get_array_size() @property def a_half2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_inf) return data_view.get() @a_half2_inf.setter def a_half2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_inf) data_view = og.AttributeValueHelper(self._attributes.a_half2_inf) data_view.set(value) @property def a_half2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_nan) return data_view.get() @a_half2_nan.setter def a_half2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_nan) data_view = og.AttributeValueHelper(self._attributes.a_half2_nan) data_view.set(value) @property def a_half2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_ninf) return data_view.get() @a_half2_ninf.setter def a_half2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half2_ninf) data_view.set(value) @property def a_half2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_snan) return data_view.get() @a_half2_snan.setter def a_half2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_snan) data_view = og.AttributeValueHelper(self._attributes.a_half2_snan) data_view.set(value) @property def a_half3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_inf) return data_view.get() @a_half3_array_inf.setter def a_half3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_half3_array_inf) data_view.set(value) self.a_half3_array_inf_size = data_view.get_array_size() @property def a_half3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_nan) return data_view.get() @a_half3_array_nan.setter def a_half3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_half3_array_nan) data_view.set(value) self.a_half3_array_nan_size = data_view.get_array_size() @property def a_half3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_ninf) return data_view.get() @a_half3_array_ninf.setter def a_half3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half3_array_ninf) data_view.set(value) self.a_half3_array_ninf_size = data_view.get_array_size() @property def a_half3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_snan) return data_view.get() @a_half3_array_snan.setter def a_half3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_half3_array_snan) data_view.set(value) self.a_half3_array_snan_size = data_view.get_array_size() @property def a_half3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_inf) return data_view.get() @a_half3_inf.setter def a_half3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_inf) data_view = og.AttributeValueHelper(self._attributes.a_half3_inf) data_view.set(value) @property def a_half3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_nan) return data_view.get() @a_half3_nan.setter def a_half3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_nan) data_view = og.AttributeValueHelper(self._attributes.a_half3_nan) data_view.set(value) @property def a_half3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_ninf) return data_view.get() @a_half3_ninf.setter def a_half3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half3_ninf) data_view.set(value) @property def a_half3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_snan) return data_view.get() @a_half3_snan.setter def a_half3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_snan) data_view = og.AttributeValueHelper(self._attributes.a_half3_snan) data_view.set(value) @property def a_half4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_inf) return data_view.get() @a_half4_array_inf.setter def a_half4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_half4_array_inf) data_view.set(value) self.a_half4_array_inf_size = data_view.get_array_size() @property def a_half4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_nan) return data_view.get() @a_half4_array_nan.setter def a_half4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_half4_array_nan) data_view.set(value) self.a_half4_array_nan_size = data_view.get_array_size() @property def a_half4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_ninf) return data_view.get() @a_half4_array_ninf.setter def a_half4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half4_array_ninf) data_view.set(value) self.a_half4_array_ninf_size = data_view.get_array_size() @property def a_half4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_snan) return data_view.get() @a_half4_array_snan.setter def a_half4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_half4_array_snan) data_view.set(value) self.a_half4_array_snan_size = data_view.get_array_size() @property def a_half4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_inf) return data_view.get() @a_half4_inf.setter def a_half4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_inf) data_view = og.AttributeValueHelper(self._attributes.a_half4_inf) data_view.set(value) @property def a_half4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_nan) return data_view.get() @a_half4_nan.setter def a_half4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_nan) data_view = og.AttributeValueHelper(self._attributes.a_half4_nan) data_view.set(value) @property def a_half4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_ninf) return data_view.get() @a_half4_ninf.setter def a_half4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half4_ninf) data_view.set(value) @property def a_half4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_snan) return data_view.get() @a_half4_snan.setter def a_half4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_snan) data_view = og.AttributeValueHelper(self._attributes.a_half4_snan) data_view.set(value) @property def a_half_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_inf) return data_view.get() @a_half_array_inf.setter def a_half_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_half_array_inf) data_view.set(value) self.a_half_array_inf_size = data_view.get_array_size() @property def a_half_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_nan) return data_view.get() @a_half_array_nan.setter def a_half_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_half_array_nan) data_view.set(value) self.a_half_array_nan_size = data_view.get_array_size() @property def a_half_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_ninf) return data_view.get() @a_half_array_ninf.setter def a_half_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half_array_ninf) data_view.set(value) self.a_half_array_ninf_size = data_view.get_array_size() @property def a_half_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_snan) return data_view.get() @a_half_array_snan.setter def a_half_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_half_array_snan) data_view.set(value) self.a_half_array_snan_size = data_view.get_array_size() @property def a_half_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_inf) return data_view.get() @a_half_inf.setter def a_half_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_inf) data_view = og.AttributeValueHelper(self._attributes.a_half_inf) data_view.set(value) @property def a_half_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_nan) return data_view.get() @a_half_nan.setter def a_half_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_nan) data_view = og.AttributeValueHelper(self._attributes.a_half_nan) data_view.set(value) @property def a_half_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_ninf) return data_view.get() @a_half_ninf.setter def a_half_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half_ninf) data_view.set(value) @property def a_half_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_snan) return data_view.get() @a_half_snan.setter def a_half_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_snan) data_view = og.AttributeValueHelper(self._attributes.a_half_snan) data_view.set(value) @property def a_matrixd2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_inf) return data_view.get() @a_matrixd2_array_inf.setter def a_matrixd2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_inf) data_view.set(value) self.a_matrixd2_array_inf_size = data_view.get_array_size() @property def a_matrixd2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_nan) return data_view.get() @a_matrixd2_array_nan.setter def a_matrixd2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_nan) data_view.set(value) self.a_matrixd2_array_nan_size = data_view.get_array_size() @property def a_matrixd2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_ninf) return data_view.get() @a_matrixd2_array_ninf.setter def a_matrixd2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_ninf) data_view.set(value) self.a_matrixd2_array_ninf_size = data_view.get_array_size() @property def a_matrixd2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_snan) return data_view.get() @a_matrixd2_array_snan.setter def a_matrixd2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_snan) data_view.set(value) self.a_matrixd2_array_snan_size = data_view.get_array_size() @property def a_matrixd2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_inf) return data_view.get() @a_matrixd2_inf.setter def a_matrixd2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_inf) data_view.set(value) @property def a_matrixd2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_nan) return data_view.get() @a_matrixd2_nan.setter def a_matrixd2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_nan) data_view.set(value) @property def a_matrixd2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_ninf) return data_view.get() @a_matrixd2_ninf.setter def a_matrixd2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_ninf) data_view.set(value) @property def a_matrixd2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_snan) return data_view.get() @a_matrixd2_snan.setter def a_matrixd2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_snan) data_view.set(value) @property def a_matrixd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_inf) return data_view.get() @a_matrixd3_array_inf.setter def a_matrixd3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_inf) data_view.set(value) self.a_matrixd3_array_inf_size = data_view.get_array_size() @property def a_matrixd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_nan) return data_view.get() @a_matrixd3_array_nan.setter def a_matrixd3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_nan) data_view.set(value) self.a_matrixd3_array_nan_size = data_view.get_array_size() @property def a_matrixd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_ninf) return data_view.get() @a_matrixd3_array_ninf.setter def a_matrixd3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_ninf) data_view.set(value) self.a_matrixd3_array_ninf_size = data_view.get_array_size() @property def a_matrixd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_snan) return data_view.get() @a_matrixd3_array_snan.setter def a_matrixd3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_snan) data_view.set(value) self.a_matrixd3_array_snan_size = data_view.get_array_size() @property def a_matrixd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_inf) return data_view.get() @a_matrixd3_inf.setter def a_matrixd3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_inf) data_view.set(value) @property def a_matrixd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_nan) return data_view.get() @a_matrixd3_nan.setter def a_matrixd3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_nan) data_view.set(value) @property def a_matrixd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_ninf) return data_view.get() @a_matrixd3_ninf.setter def a_matrixd3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_ninf) data_view.set(value) @property def a_matrixd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_snan) return data_view.get() @a_matrixd3_snan.setter def a_matrixd3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_snan) data_view.set(value) @property def a_matrixd4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_inf) return data_view.get() @a_matrixd4_array_inf.setter def a_matrixd4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_inf) data_view.set(value) self.a_matrixd4_array_inf_size = data_view.get_array_size() @property def a_matrixd4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_nan) return data_view.get() @a_matrixd4_array_nan.setter def a_matrixd4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_nan) data_view.set(value) self.a_matrixd4_array_nan_size = data_view.get_array_size() @property def a_matrixd4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_ninf) return data_view.get() @a_matrixd4_array_ninf.setter def a_matrixd4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_ninf) data_view.set(value) self.a_matrixd4_array_ninf_size = data_view.get_array_size() @property def a_matrixd4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_snan) return data_view.get() @a_matrixd4_array_snan.setter def a_matrixd4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_snan) data_view.set(value) self.a_matrixd4_array_snan_size = data_view.get_array_size() @property def a_matrixd4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_inf) return data_view.get() @a_matrixd4_inf.setter def a_matrixd4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_inf) data_view.set(value) @property def a_matrixd4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_nan) return data_view.get() @a_matrixd4_nan.setter def a_matrixd4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_nan) data_view.set(value) @property def a_matrixd4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_ninf) return data_view.get() @a_matrixd4_ninf.setter def a_matrixd4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_ninf) data_view.set(value) @property def a_matrixd4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_snan) return data_view.get() @a_matrixd4_snan.setter def a_matrixd4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_snan) data_view.set(value) @property def a_normald3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_inf) return data_view.get() @a_normald3_array_inf.setter def a_normald3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_inf) data_view.set(value) self.a_normald3_array_inf_size = data_view.get_array_size() @property def a_normald3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_nan) return data_view.get() @a_normald3_array_nan.setter def a_normald3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_nan) data_view.set(value) self.a_normald3_array_nan_size = data_view.get_array_size() @property def a_normald3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_ninf) return data_view.get() @a_normald3_array_ninf.setter def a_normald3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_ninf) data_view.set(value) self.a_normald3_array_ninf_size = data_view.get_array_size() @property def a_normald3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_snan) return data_view.get() @a_normald3_array_snan.setter def a_normald3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_snan) data_view.set(value) self.a_normald3_array_snan_size = data_view.get_array_size() @property def a_normald3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_inf) return data_view.get() @a_normald3_inf.setter def a_normald3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_inf) data_view = og.AttributeValueHelper(self._attributes.a_normald3_inf) data_view.set(value) @property def a_normald3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_nan) return data_view.get() @a_normald3_nan.setter def a_normald3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_nan) data_view = og.AttributeValueHelper(self._attributes.a_normald3_nan) data_view.set(value) @property def a_normald3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_ninf) return data_view.get() @a_normald3_ninf.setter def a_normald3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normald3_ninf) data_view.set(value) @property def a_normald3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_snan) return data_view.get() @a_normald3_snan.setter def a_normald3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_snan) data_view = og.AttributeValueHelper(self._attributes.a_normald3_snan) data_view.set(value) @property def a_normalf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_inf) return data_view.get() @a_normalf3_array_inf.setter def a_normalf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_inf) data_view.set(value) self.a_normalf3_array_inf_size = data_view.get_array_size() @property def a_normalf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_nan) return data_view.get() @a_normalf3_array_nan.setter def a_normalf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_nan) data_view.set(value) self.a_normalf3_array_nan_size = data_view.get_array_size() @property def a_normalf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_ninf) return data_view.get() @a_normalf3_array_ninf.setter def a_normalf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_ninf) data_view.set(value) self.a_normalf3_array_ninf_size = data_view.get_array_size() @property def a_normalf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_snan) return data_view.get() @a_normalf3_array_snan.setter def a_normalf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_snan) data_view.set(value) self.a_normalf3_array_snan_size = data_view.get_array_size() @property def a_normalf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_inf) return data_view.get() @a_normalf3_inf.setter def a_normalf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_inf) data_view.set(value) @property def a_normalf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_nan) return data_view.get() @a_normalf3_nan.setter def a_normalf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_nan) data_view.set(value) @property def a_normalf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_ninf) return data_view.get() @a_normalf3_ninf.setter def a_normalf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_ninf) data_view.set(value) @property def a_normalf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_snan) return data_view.get() @a_normalf3_snan.setter def a_normalf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_snan) data_view.set(value) @property def a_normalh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_inf) return data_view.get() @a_normalh3_array_inf.setter def a_normalh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_inf) data_view.set(value) self.a_normalh3_array_inf_size = data_view.get_array_size() @property def a_normalh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_nan) return data_view.get() @a_normalh3_array_nan.setter def a_normalh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_nan) data_view.set(value) self.a_normalh3_array_nan_size = data_view.get_array_size() @property def a_normalh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_ninf) return data_view.get() @a_normalh3_array_ninf.setter def a_normalh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_ninf) data_view.set(value) self.a_normalh3_array_ninf_size = data_view.get_array_size() @property def a_normalh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_snan) return data_view.get() @a_normalh3_array_snan.setter def a_normalh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_snan) data_view.set(value) self.a_normalh3_array_snan_size = data_view.get_array_size() @property def a_normalh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_inf) return data_view.get() @a_normalh3_inf.setter def a_normalh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_inf) data_view.set(value) @property def a_normalh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_nan) return data_view.get() @a_normalh3_nan.setter def a_normalh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_nan) data_view.set(value) @property def a_normalh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_ninf) return data_view.get() @a_normalh3_ninf.setter def a_normalh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_ninf) data_view.set(value) @property def a_normalh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_snan) return data_view.get() @a_normalh3_snan.setter def a_normalh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_snan) data_view.set(value) @property def a_pointd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_inf) return data_view.get() @a_pointd3_array_inf.setter def a_pointd3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_inf) data_view.set(value) self.a_pointd3_array_inf_size = data_view.get_array_size() @property def a_pointd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_nan) return data_view.get() @a_pointd3_array_nan.setter def a_pointd3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_nan) data_view.set(value) self.a_pointd3_array_nan_size = data_view.get_array_size() @property def a_pointd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_ninf) return data_view.get() @a_pointd3_array_ninf.setter def a_pointd3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_ninf) data_view.set(value) self.a_pointd3_array_ninf_size = data_view.get_array_size() @property def a_pointd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_snan) return data_view.get() @a_pointd3_array_snan.setter def a_pointd3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_snan) data_view.set(value) self.a_pointd3_array_snan_size = data_view.get_array_size() @property def a_pointd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_inf) return data_view.get() @a_pointd3_inf.setter def a_pointd3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_inf) data_view.set(value) @property def a_pointd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_nan) return data_view.get() @a_pointd3_nan.setter def a_pointd3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_nan) data_view.set(value) @property def a_pointd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_ninf) return data_view.get() @a_pointd3_ninf.setter def a_pointd3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_ninf) data_view.set(value) @property def a_pointd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_snan) return data_view.get() @a_pointd3_snan.setter def a_pointd3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_snan) data_view.set(value) @property def a_pointf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_inf) return data_view.get() @a_pointf3_array_inf.setter def a_pointf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_inf) data_view.set(value) self.a_pointf3_array_inf_size = data_view.get_array_size() @property def a_pointf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_nan) return data_view.get() @a_pointf3_array_nan.setter def a_pointf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_nan) data_view.set(value) self.a_pointf3_array_nan_size = data_view.get_array_size() @property def a_pointf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_ninf) return data_view.get() @a_pointf3_array_ninf.setter def a_pointf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_ninf) data_view.set(value) self.a_pointf3_array_ninf_size = data_view.get_array_size() @property def a_pointf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_snan) return data_view.get() @a_pointf3_array_snan.setter def a_pointf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_snan) data_view.set(value) self.a_pointf3_array_snan_size = data_view.get_array_size() @property def a_pointf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_inf) return data_view.get() @a_pointf3_inf.setter def a_pointf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_inf) data_view.set(value) @property def a_pointf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_nan) return data_view.get() @a_pointf3_nan.setter def a_pointf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_nan) data_view.set(value) @property def a_pointf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_ninf) return data_view.get() @a_pointf3_ninf.setter def a_pointf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_ninf) data_view.set(value) @property def a_pointf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_snan) return data_view.get() @a_pointf3_snan.setter def a_pointf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_snan) data_view.set(value) @property def a_pointh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_inf) return data_view.get() @a_pointh3_array_inf.setter def a_pointh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_inf) data_view.set(value) self.a_pointh3_array_inf_size = data_view.get_array_size() @property def a_pointh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_nan) return data_view.get() @a_pointh3_array_nan.setter def a_pointh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_nan) data_view.set(value) self.a_pointh3_array_nan_size = data_view.get_array_size() @property def a_pointh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_ninf) return data_view.get() @a_pointh3_array_ninf.setter def a_pointh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_ninf) data_view.set(value) self.a_pointh3_array_ninf_size = data_view.get_array_size() @property def a_pointh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_snan) return data_view.get() @a_pointh3_array_snan.setter def a_pointh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_snan) data_view.set(value) self.a_pointh3_array_snan_size = data_view.get_array_size() @property def a_pointh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_inf) return data_view.get() @a_pointh3_inf.setter def a_pointh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_inf) data_view.set(value) @property def a_pointh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_nan) return data_view.get() @a_pointh3_nan.setter def a_pointh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_nan) data_view.set(value) @property def a_pointh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_ninf) return data_view.get() @a_pointh3_ninf.setter def a_pointh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_ninf) data_view.set(value) @property def a_pointh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_snan) return data_view.get() @a_pointh3_snan.setter def a_pointh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_snan) data_view.set(value) @property def a_quatd4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_inf) return data_view.get() @a_quatd4_array_inf.setter def a_quatd4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_inf) data_view.set(value) self.a_quatd4_array_inf_size = data_view.get_array_size() @property def a_quatd4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_nan) return data_view.get() @a_quatd4_array_nan.setter def a_quatd4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_nan) data_view.set(value) self.a_quatd4_array_nan_size = data_view.get_array_size() @property def a_quatd4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_ninf) return data_view.get() @a_quatd4_array_ninf.setter def a_quatd4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_ninf) data_view.set(value) self.a_quatd4_array_ninf_size = data_view.get_array_size() @property def a_quatd4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_snan) return data_view.get() @a_quatd4_array_snan.setter def a_quatd4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_snan) data_view.set(value) self.a_quatd4_array_snan_size = data_view.get_array_size() @property def a_quatd4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_inf) return data_view.get() @a_quatd4_inf.setter def a_quatd4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_inf) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_inf) data_view.set(value) @property def a_quatd4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_nan) return data_view.get() @a_quatd4_nan.setter def a_quatd4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_nan) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_nan) data_view.set(value) @property def a_quatd4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_ninf) return data_view.get() @a_quatd4_ninf.setter def a_quatd4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_ninf) data_view.set(value) @property def a_quatd4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_snan) return data_view.get() @a_quatd4_snan.setter def a_quatd4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_snan) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_snan) data_view.set(value) @property def a_quatf4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_inf) return data_view.get() @a_quatf4_array_inf.setter def a_quatf4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_inf) data_view.set(value) self.a_quatf4_array_inf_size = data_view.get_array_size() @property def a_quatf4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_nan) return data_view.get() @a_quatf4_array_nan.setter def a_quatf4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_nan) data_view.set(value) self.a_quatf4_array_nan_size = data_view.get_array_size() @property def a_quatf4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_ninf) return data_view.get() @a_quatf4_array_ninf.setter def a_quatf4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_ninf) data_view.set(value) self.a_quatf4_array_ninf_size = data_view.get_array_size() @property def a_quatf4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_snan) return data_view.get() @a_quatf4_array_snan.setter def a_quatf4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_snan) data_view.set(value) self.a_quatf4_array_snan_size = data_view.get_array_size() @property def a_quatf4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_inf) return data_view.get() @a_quatf4_inf.setter def a_quatf4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_inf) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_inf) data_view.set(value) @property def a_quatf4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_nan) return data_view.get() @a_quatf4_nan.setter def a_quatf4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_nan) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_nan) data_view.set(value) @property def a_quatf4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_ninf) return data_view.get() @a_quatf4_ninf.setter def a_quatf4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_ninf) data_view.set(value) @property def a_quatf4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_snan) return data_view.get() @a_quatf4_snan.setter def a_quatf4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_snan) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_snan) data_view.set(value) @property def a_quath4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_inf) return data_view.get() @a_quath4_array_inf.setter def a_quath4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_inf) data_view.set(value) self.a_quath4_array_inf_size = data_view.get_array_size() @property def a_quath4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_nan) return data_view.get() @a_quath4_array_nan.setter def a_quath4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_nan) data_view.set(value) self.a_quath4_array_nan_size = data_view.get_array_size() @property def a_quath4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_ninf) return data_view.get() @a_quath4_array_ninf.setter def a_quath4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_ninf) data_view.set(value) self.a_quath4_array_ninf_size = data_view.get_array_size() @property def a_quath4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_snan) return data_view.get() @a_quath4_array_snan.setter def a_quath4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_snan) data_view.set(value) self.a_quath4_array_snan_size = data_view.get_array_size() @property def a_quath4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_inf) return data_view.get() @a_quath4_inf.setter def a_quath4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_inf) data_view = og.AttributeValueHelper(self._attributes.a_quath4_inf) data_view.set(value) @property def a_quath4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_nan) return data_view.get() @a_quath4_nan.setter def a_quath4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_nan) data_view = og.AttributeValueHelper(self._attributes.a_quath4_nan) data_view.set(value) @property def a_quath4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_ninf) return data_view.get() @a_quath4_ninf.setter def a_quath4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quath4_ninf) data_view.set(value) @property def a_quath4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_snan) return data_view.get() @a_quath4_snan.setter def a_quath4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_snan) data_view = og.AttributeValueHelper(self._attributes.a_quath4_snan) data_view.set(value) @property def a_texcoordd2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_inf) return data_view.get() @a_texcoordd2_array_inf.setter def a_texcoordd2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_inf) data_view.set(value) self.a_texcoordd2_array_inf_size = data_view.get_array_size() @property def a_texcoordd2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_nan) return data_view.get() @a_texcoordd2_array_nan.setter def a_texcoordd2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_nan) data_view.set(value) self.a_texcoordd2_array_nan_size = data_view.get_array_size() @property def a_texcoordd2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_ninf) return data_view.get() @a_texcoordd2_array_ninf.setter def a_texcoordd2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_ninf) data_view.set(value) self.a_texcoordd2_array_ninf_size = data_view.get_array_size() @property def a_texcoordd2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_snan) return data_view.get() @a_texcoordd2_array_snan.setter def a_texcoordd2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_snan) data_view.set(value) self.a_texcoordd2_array_snan_size = data_view.get_array_size() @property def a_texcoordd2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_inf) return data_view.get() @a_texcoordd2_inf.setter def a_texcoordd2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_inf) data_view.set(value) @property def a_texcoordd2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_nan) return data_view.get() @a_texcoordd2_nan.setter def a_texcoordd2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_nan) data_view.set(value) @property def a_texcoordd2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_ninf) return data_view.get() @a_texcoordd2_ninf.setter def a_texcoordd2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_ninf) data_view.set(value) @property def a_texcoordd2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_snan) return data_view.get() @a_texcoordd2_snan.setter def a_texcoordd2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_snan) data_view.set(value) @property def a_texcoordd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_inf) return data_view.get() @a_texcoordd3_array_inf.setter def a_texcoordd3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_inf) data_view.set(value) self.a_texcoordd3_array_inf_size = data_view.get_array_size() @property def a_texcoordd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_nan) return data_view.get() @a_texcoordd3_array_nan.setter def a_texcoordd3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_nan) data_view.set(value) self.a_texcoordd3_array_nan_size = data_view.get_array_size() @property def a_texcoordd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_ninf) return data_view.get() @a_texcoordd3_array_ninf.setter def a_texcoordd3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_ninf) data_view.set(value) self.a_texcoordd3_array_ninf_size = data_view.get_array_size() @property def a_texcoordd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_snan) return data_view.get() @a_texcoordd3_array_snan.setter def a_texcoordd3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_snan) data_view.set(value) self.a_texcoordd3_array_snan_size = data_view.get_array_size() @property def a_texcoordd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_inf) return data_view.get() @a_texcoordd3_inf.setter def a_texcoordd3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_inf) data_view.set(value) @property def a_texcoordd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_nan) return data_view.get() @a_texcoordd3_nan.setter def a_texcoordd3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_nan) data_view.set(value) @property def a_texcoordd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_ninf) return data_view.get() @a_texcoordd3_ninf.setter def a_texcoordd3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_ninf) data_view.set(value) @property def a_texcoordd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_snan) return data_view.get() @a_texcoordd3_snan.setter def a_texcoordd3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_snan) data_view.set(value) @property def a_texcoordf2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_inf) return data_view.get() @a_texcoordf2_array_inf.setter def a_texcoordf2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_inf) data_view.set(value) self.a_texcoordf2_array_inf_size = data_view.get_array_size() @property def a_texcoordf2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_nan) return data_view.get() @a_texcoordf2_array_nan.setter def a_texcoordf2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_nan) data_view.set(value) self.a_texcoordf2_array_nan_size = data_view.get_array_size() @property def a_texcoordf2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_ninf) return data_view.get() @a_texcoordf2_array_ninf.setter def a_texcoordf2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_ninf) data_view.set(value) self.a_texcoordf2_array_ninf_size = data_view.get_array_size() @property def a_texcoordf2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_snan) return data_view.get() @a_texcoordf2_array_snan.setter def a_texcoordf2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_snan) data_view.set(value) self.a_texcoordf2_array_snan_size = data_view.get_array_size() @property def a_texcoordf2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_inf) return data_view.get() @a_texcoordf2_inf.setter def a_texcoordf2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_inf) data_view.set(value) @property def a_texcoordf2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_nan) return data_view.get() @a_texcoordf2_nan.setter def a_texcoordf2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_nan) data_view.set(value) @property def a_texcoordf2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_ninf) return data_view.get() @a_texcoordf2_ninf.setter def a_texcoordf2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_ninf) data_view.set(value) @property def a_texcoordf2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_snan) return data_view.get() @a_texcoordf2_snan.setter def a_texcoordf2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_snan) data_view.set(value) @property def a_texcoordf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_inf) return data_view.get() @a_texcoordf3_array_inf.setter def a_texcoordf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_inf) data_view.set(value) self.a_texcoordf3_array_inf_size = data_view.get_array_size() @property def a_texcoordf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_nan) return data_view.get() @a_texcoordf3_array_nan.setter def a_texcoordf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_nan) data_view.set(value) self.a_texcoordf3_array_nan_size = data_view.get_array_size() @property def a_texcoordf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_ninf) return data_view.get() @a_texcoordf3_array_ninf.setter def a_texcoordf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_ninf) data_view.set(value) self.a_texcoordf3_array_ninf_size = data_view.get_array_size() @property def a_texcoordf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_snan) return data_view.get() @a_texcoordf3_array_snan.setter def a_texcoordf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_snan) data_view.set(value) self.a_texcoordf3_array_snan_size = data_view.get_array_size() @property def a_texcoordf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_inf) return data_view.get() @a_texcoordf3_inf.setter def a_texcoordf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_inf) data_view.set(value) @property def a_texcoordf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_nan) return data_view.get() @a_texcoordf3_nan.setter def a_texcoordf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_nan) data_view.set(value) @property def a_texcoordf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_ninf) return data_view.get() @a_texcoordf3_ninf.setter def a_texcoordf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_ninf) data_view.set(value) @property def a_texcoordf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_snan) return data_view.get() @a_texcoordf3_snan.setter def a_texcoordf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_snan) data_view.set(value) @property def a_texcoordh2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_inf) return data_view.get() @a_texcoordh2_array_inf.setter def a_texcoordh2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_inf) data_view.set(value) self.a_texcoordh2_array_inf_size = data_view.get_array_size() @property def a_texcoordh2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_nan) return data_view.get() @a_texcoordh2_array_nan.setter def a_texcoordh2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_nan) data_view.set(value) self.a_texcoordh2_array_nan_size = data_view.get_array_size() @property def a_texcoordh2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_ninf) return data_view.get() @a_texcoordh2_array_ninf.setter def a_texcoordh2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_ninf) data_view.set(value) self.a_texcoordh2_array_ninf_size = data_view.get_array_size() @property def a_texcoordh2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_snan) return data_view.get() @a_texcoordh2_array_snan.setter def a_texcoordh2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_snan) data_view.set(value) self.a_texcoordh2_array_snan_size = data_view.get_array_size() @property def a_texcoordh2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_inf) return data_view.get() @a_texcoordh2_inf.setter def a_texcoordh2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_inf) data_view.set(value) @property def a_texcoordh2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_nan) return data_view.get() @a_texcoordh2_nan.setter def a_texcoordh2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_nan) data_view.set(value) @property def a_texcoordh2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_ninf) return data_view.get() @a_texcoordh2_ninf.setter def a_texcoordh2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_ninf) data_view.set(value) @property def a_texcoordh2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_snan) return data_view.get() @a_texcoordh2_snan.setter def a_texcoordh2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_snan) data_view.set(value) @property def a_texcoordh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_inf) return data_view.get() @a_texcoordh3_array_inf.setter def a_texcoordh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_inf) data_view.set(value) self.a_texcoordh3_array_inf_size = data_view.get_array_size() @property def a_texcoordh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_nan) return data_view.get() @a_texcoordh3_array_nan.setter def a_texcoordh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_nan) data_view.set(value) self.a_texcoordh3_array_nan_size = data_view.get_array_size() @property def a_texcoordh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_ninf) return data_view.get() @a_texcoordh3_array_ninf.setter def a_texcoordh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_ninf) data_view.set(value) self.a_texcoordh3_array_ninf_size = data_view.get_array_size() @property def a_texcoordh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_snan) return data_view.get() @a_texcoordh3_array_snan.setter def a_texcoordh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_snan) data_view.set(value) self.a_texcoordh3_array_snan_size = data_view.get_array_size() @property def a_texcoordh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_inf) return data_view.get() @a_texcoordh3_inf.setter def a_texcoordh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_inf) data_view.set(value) @property def a_texcoordh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_nan) return data_view.get() @a_texcoordh3_nan.setter def a_texcoordh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_nan) data_view.set(value) @property def a_texcoordh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_ninf) return data_view.get() @a_texcoordh3_ninf.setter def a_texcoordh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_ninf) data_view.set(value) @property def a_texcoordh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_snan) return data_view.get() @a_texcoordh3_snan.setter def a_texcoordh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_snan) data_view.set(value) @property def a_timecode_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_inf) return data_view.get() @a_timecode_array_inf.setter def a_timecode_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_inf) data_view.set(value) self.a_timecode_array_inf_size = data_view.get_array_size() @property def a_timecode_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_nan) return data_view.get() @a_timecode_array_nan.setter def a_timecode_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_nan) data_view.set(value) self.a_timecode_array_nan_size = data_view.get_array_size() @property def a_timecode_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_ninf) return data_view.get() @a_timecode_array_ninf.setter def a_timecode_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_ninf) data_view.set(value) self.a_timecode_array_ninf_size = data_view.get_array_size() @property def a_timecode_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_snan) return data_view.get() @a_timecode_array_snan.setter def a_timecode_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_snan) data_view.set(value) self.a_timecode_array_snan_size = data_view.get_array_size() @property def a_timecode_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_inf) return data_view.get() @a_timecode_inf.setter def a_timecode_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_inf) data_view = og.AttributeValueHelper(self._attributes.a_timecode_inf) data_view.set(value) @property def a_timecode_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_nan) return data_view.get() @a_timecode_nan.setter def a_timecode_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_nan) data_view = og.AttributeValueHelper(self._attributes.a_timecode_nan) data_view.set(value) @property def a_timecode_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_ninf) return data_view.get() @a_timecode_ninf.setter def a_timecode_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_ninf) data_view = og.AttributeValueHelper(self._attributes.a_timecode_ninf) data_view.set(value) @property def a_timecode_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_snan) return data_view.get() @a_timecode_snan.setter def a_timecode_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_snan) data_view = og.AttributeValueHelper(self._attributes.a_timecode_snan) data_view.set(value) @property def a_vectord3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_inf) return data_view.get() @a_vectord3_array_inf.setter def a_vectord3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_inf) data_view.set(value) self.a_vectord3_array_inf_size = data_view.get_array_size() @property def a_vectord3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_nan) return data_view.get() @a_vectord3_array_nan.setter def a_vectord3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_nan) data_view.set(value) self.a_vectord3_array_nan_size = data_view.get_array_size() @property def a_vectord3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_ninf) return data_view.get() @a_vectord3_array_ninf.setter def a_vectord3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_ninf) data_view.set(value) self.a_vectord3_array_ninf_size = data_view.get_array_size() @property def a_vectord3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_snan) return data_view.get() @a_vectord3_array_snan.setter def a_vectord3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_snan) data_view.set(value) self.a_vectord3_array_snan_size = data_view.get_array_size() @property def a_vectord3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_inf) return data_view.get() @a_vectord3_inf.setter def a_vectord3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_inf) data_view.set(value) @property def a_vectord3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_nan) return data_view.get() @a_vectord3_nan.setter def a_vectord3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_nan) data_view.set(value) @property def a_vectord3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_ninf) return data_view.get() @a_vectord3_ninf.setter def a_vectord3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_ninf) data_view.set(value) @property def a_vectord3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_snan) return data_view.get() @a_vectord3_snan.setter def a_vectord3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_snan) data_view.set(value) @property def a_vectorf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_inf) return data_view.get() @a_vectorf3_array_inf.setter def a_vectorf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_inf) data_view.set(value) self.a_vectorf3_array_inf_size = data_view.get_array_size() @property def a_vectorf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_nan) return data_view.get() @a_vectorf3_array_nan.setter def a_vectorf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_nan) data_view.set(value) self.a_vectorf3_array_nan_size = data_view.get_array_size() @property def a_vectorf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_ninf) return data_view.get() @a_vectorf3_array_ninf.setter def a_vectorf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_ninf) data_view.set(value) self.a_vectorf3_array_ninf_size = data_view.get_array_size() @property def a_vectorf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_snan) return data_view.get() @a_vectorf3_array_snan.setter def a_vectorf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_snan) data_view.set(value) self.a_vectorf3_array_snan_size = data_view.get_array_size() @property def a_vectorf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_inf) return data_view.get() @a_vectorf3_inf.setter def a_vectorf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_inf) data_view.set(value) @property def a_vectorf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_nan) return data_view.get() @a_vectorf3_nan.setter def a_vectorf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_nan) data_view.set(value) @property def a_vectorf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_ninf) return data_view.get() @a_vectorf3_ninf.setter def a_vectorf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_ninf) data_view.set(value) @property def a_vectorf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_snan) return data_view.get() @a_vectorf3_snan.setter def a_vectorf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_snan) data_view.set(value) @property def a_vectorh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_inf) return data_view.get() @a_vectorh3_array_inf.setter def a_vectorh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_inf) data_view.set(value) self.a_vectorh3_array_inf_size = data_view.get_array_size() @property def a_vectorh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_nan) return data_view.get() @a_vectorh3_array_nan.setter def a_vectorh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_nan) data_view.set(value) self.a_vectorh3_array_nan_size = data_view.get_array_size() @property def a_vectorh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_ninf) return data_view.get() @a_vectorh3_array_ninf.setter def a_vectorh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_ninf) data_view.set(value) self.a_vectorh3_array_ninf_size = data_view.get_array_size() @property def a_vectorh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_snan) return data_view.get() @a_vectorh3_array_snan.setter def a_vectorh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_snan) data_view.set(value) self.a_vectorh3_array_snan_size = data_view.get_array_size() @property def a_vectorh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_inf) return data_view.get() @a_vectorh3_inf.setter def a_vectorh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_inf) data_view.set(value) @property def a_vectorh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_nan) return data_view.get() @a_vectorh3_nan.setter def a_vectorh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_nan) data_view.set(value) @property def a_vectorh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_ninf) return data_view.get() @a_vectorh3_ninf.setter def a_vectorh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_ninf) data_view.set(value) @property def a_vectorh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_snan) return data_view.get() @a_vectorh3_snan.setter def a_vectorh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_snan) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.a_colord3_array_inf_size = None self.a_colord3_array_nan_size = None self.a_colord3_array_ninf_size = None self.a_colord3_array_snan_size = None self.a_colord4_array_inf_size = None self.a_colord4_array_nan_size = None self.a_colord4_array_ninf_size = None self.a_colord4_array_snan_size = None self.a_colorf3_array_inf_size = None self.a_colorf3_array_nan_size = None self.a_colorf3_array_ninf_size = None self.a_colorf3_array_snan_size = None self.a_colorf4_array_inf_size = None self.a_colorf4_array_nan_size = None self.a_colorf4_array_ninf_size = None self.a_colorf4_array_snan_size = None self.a_colorh3_array_inf_size = None self.a_colorh3_array_nan_size = None self.a_colorh3_array_ninf_size = None self.a_colorh3_array_snan_size = None self.a_colorh4_array_inf_size = None self.a_colorh4_array_nan_size = None self.a_colorh4_array_ninf_size = None self.a_colorh4_array_snan_size = None self.a_double2_array_inf_size = None self.a_double2_array_nan_size = None self.a_double2_array_ninf_size = None self.a_double2_array_snan_size = None self.a_double3_array_inf_size = None self.a_double3_array_nan_size = None self.a_double3_array_ninf_size = None self.a_double3_array_snan_size = None self.a_double4_array_inf_size = None self.a_double4_array_nan_size = None self.a_double4_array_ninf_size = None self.a_double4_array_snan_size = None self.a_double_array_inf_size = None self.a_double_array_nan_size = None self.a_double_array_ninf_size = None self.a_double_array_snan_size = None self.a_float2_array_inf_size = None self.a_float2_array_nan_size = None self.a_float2_array_ninf_size = None self.a_float2_array_snan_size = None self.a_float3_array_inf_size = None self.a_float3_array_nan_size = None self.a_float3_array_ninf_size = None self.a_float3_array_snan_size = None self.a_float4_array_inf_size = None self.a_float4_array_nan_size = None self.a_float4_array_ninf_size = None self.a_float4_array_snan_size = None self.a_float_array_inf_size = None self.a_float_array_nan_size = None self.a_float_array_ninf_size = None self.a_float_array_snan_size = None self.a_frame4_array_inf_size = None self.a_frame4_array_nan_size = None self.a_frame4_array_ninf_size = None self.a_frame4_array_snan_size = None self.a_half2_array_inf_size = None self.a_half2_array_nan_size = None self.a_half2_array_ninf_size = None self.a_half2_array_snan_size = None self.a_half3_array_inf_size = None self.a_half3_array_nan_size = None self.a_half3_array_ninf_size = None self.a_half3_array_snan_size = None self.a_half4_array_inf_size = None self.a_half4_array_nan_size = None self.a_half4_array_ninf_size = None self.a_half4_array_snan_size = None self.a_half_array_inf_size = None self.a_half_array_nan_size = None self.a_half_array_ninf_size = None self.a_half_array_snan_size = None self.a_matrixd2_array_inf_size = None self.a_matrixd2_array_nan_size = None self.a_matrixd2_array_ninf_size = None self.a_matrixd2_array_snan_size = None self.a_matrixd3_array_inf_size = None self.a_matrixd3_array_nan_size = None self.a_matrixd3_array_ninf_size = None self.a_matrixd3_array_snan_size = None self.a_matrixd4_array_inf_size = None self.a_matrixd4_array_nan_size = None self.a_matrixd4_array_ninf_size = None self.a_matrixd4_array_snan_size = None self.a_normald3_array_inf_size = None self.a_normald3_array_nan_size = None self.a_normald3_array_ninf_size = None self.a_normald3_array_snan_size = None self.a_normalf3_array_inf_size = None self.a_normalf3_array_nan_size = None self.a_normalf3_array_ninf_size = None self.a_normalf3_array_snan_size = None self.a_normalh3_array_inf_size = None self.a_normalh3_array_nan_size = None self.a_normalh3_array_ninf_size = None self.a_normalh3_array_snan_size = None self.a_pointd3_array_inf_size = None self.a_pointd3_array_nan_size = None self.a_pointd3_array_ninf_size = None self.a_pointd3_array_snan_size = None self.a_pointf3_array_inf_size = None self.a_pointf3_array_nan_size = None self.a_pointf3_array_ninf_size = None self.a_pointf3_array_snan_size = None self.a_pointh3_array_inf_size = None self.a_pointh3_array_nan_size = None self.a_pointh3_array_ninf_size = None self.a_pointh3_array_snan_size = None self.a_quatd4_array_inf_size = None self.a_quatd4_array_nan_size = None self.a_quatd4_array_ninf_size = None self.a_quatd4_array_snan_size = None self.a_quatf4_array_inf_size = None self.a_quatf4_array_nan_size = None self.a_quatf4_array_ninf_size = None self.a_quatf4_array_snan_size = None self.a_quath4_array_inf_size = None self.a_quath4_array_nan_size = None self.a_quath4_array_ninf_size = None self.a_quath4_array_snan_size = None self.a_texcoordd2_array_inf_size = None self.a_texcoordd2_array_nan_size = None self.a_texcoordd2_array_ninf_size = None self.a_texcoordd2_array_snan_size = None self.a_texcoordd3_array_inf_size = None self.a_texcoordd3_array_nan_size = None self.a_texcoordd3_array_ninf_size = None self.a_texcoordd3_array_snan_size = None self.a_texcoordf2_array_inf_size = None self.a_texcoordf2_array_nan_size = None self.a_texcoordf2_array_ninf_size = None self.a_texcoordf2_array_snan_size = None self.a_texcoordf3_array_inf_size = None self.a_texcoordf3_array_nan_size = None self.a_texcoordf3_array_ninf_size = None self.a_texcoordf3_array_snan_size = None self.a_texcoordh2_array_inf_size = None self.a_texcoordh2_array_nan_size = None self.a_texcoordh2_array_ninf_size = None self.a_texcoordh2_array_snan_size = None self.a_texcoordh3_array_inf_size = None self.a_texcoordh3_array_nan_size = None self.a_texcoordh3_array_ninf_size = None self.a_texcoordh3_array_snan_size = None self.a_timecode_array_inf_size = None self.a_timecode_array_nan_size = None self.a_timecode_array_ninf_size = None self.a_timecode_array_snan_size = None self.a_vectord3_array_inf_size = None self.a_vectord3_array_nan_size = None self.a_vectord3_array_ninf_size = None self.a_vectord3_array_snan_size = None self.a_vectorf3_array_inf_size = None self.a_vectorf3_array_nan_size = None self.a_vectorf3_array_ninf_size = None self.a_vectorf3_array_snan_size = None self.a_vectorh3_array_inf_size = None self.a_vectorh3_array_nan_size = None self.a_vectorh3_array_ninf_size = None self.a_vectorh3_array_snan_size = None self._batchedWriteValues = { } @property def a_colord3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_inf) return data_view.get(reserved_element_count=self.a_colord3_array_inf_size) @a_colord3_array_inf.setter def a_colord3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_inf) data_view.set(value) self.a_colord3_array_inf_size = data_view.get_array_size() @property def a_colord3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_nan) return data_view.get(reserved_element_count=self.a_colord3_array_nan_size) @a_colord3_array_nan.setter def a_colord3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_nan) data_view.set(value) self.a_colord3_array_nan_size = data_view.get_array_size() @property def a_colord3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_ninf) return data_view.get(reserved_element_count=self.a_colord3_array_ninf_size) @a_colord3_array_ninf.setter def a_colord3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_ninf) data_view.set(value) self.a_colord3_array_ninf_size = data_view.get_array_size() @property def a_colord3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_snan) return data_view.get(reserved_element_count=self.a_colord3_array_snan_size) @a_colord3_array_snan.setter def a_colord3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_snan) data_view.set(value) self.a_colord3_array_snan_size = data_view.get_array_size() @property def a_colord3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_inf) return data_view.get() @a_colord3_inf.setter def a_colord3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_inf) data_view.set(value) @property def a_colord3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_nan) return data_view.get() @a_colord3_nan.setter def a_colord3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_nan) data_view.set(value) @property def a_colord3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_ninf) return data_view.get() @a_colord3_ninf.setter def a_colord3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_ninf) data_view.set(value) @property def a_colord3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_snan) return data_view.get() @a_colord3_snan.setter def a_colord3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_snan) data_view.set(value) @property def a_colord4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_inf) return data_view.get(reserved_element_count=self.a_colord4_array_inf_size) @a_colord4_array_inf.setter def a_colord4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_inf) data_view.set(value) self.a_colord4_array_inf_size = data_view.get_array_size() @property def a_colord4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_nan) return data_view.get(reserved_element_count=self.a_colord4_array_nan_size) @a_colord4_array_nan.setter def a_colord4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_nan) data_view.set(value) self.a_colord4_array_nan_size = data_view.get_array_size() @property def a_colord4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_ninf) return data_view.get(reserved_element_count=self.a_colord4_array_ninf_size) @a_colord4_array_ninf.setter def a_colord4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_ninf) data_view.set(value) self.a_colord4_array_ninf_size = data_view.get_array_size() @property def a_colord4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_snan) return data_view.get(reserved_element_count=self.a_colord4_array_snan_size) @a_colord4_array_snan.setter def a_colord4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_snan) data_view.set(value) self.a_colord4_array_snan_size = data_view.get_array_size() @property def a_colord4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_inf) return data_view.get() @a_colord4_inf.setter def a_colord4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_inf) data_view.set(value) @property def a_colord4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_nan) return data_view.get() @a_colord4_nan.setter def a_colord4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_nan) data_view.set(value) @property def a_colord4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_ninf) return data_view.get() @a_colord4_ninf.setter def a_colord4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_ninf) data_view.set(value) @property def a_colord4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_snan) return data_view.get() @a_colord4_snan.setter def a_colord4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_snan) data_view.set(value) @property def a_colorf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_inf) return data_view.get(reserved_element_count=self.a_colorf3_array_inf_size) @a_colorf3_array_inf.setter def a_colorf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_inf) data_view.set(value) self.a_colorf3_array_inf_size = data_view.get_array_size() @property def a_colorf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_nan) return data_view.get(reserved_element_count=self.a_colorf3_array_nan_size) @a_colorf3_array_nan.setter def a_colorf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_nan) data_view.set(value) self.a_colorf3_array_nan_size = data_view.get_array_size() @property def a_colorf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_ninf) return data_view.get(reserved_element_count=self.a_colorf3_array_ninf_size) @a_colorf3_array_ninf.setter def a_colorf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_ninf) data_view.set(value) self.a_colorf3_array_ninf_size = data_view.get_array_size() @property def a_colorf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_snan) return data_view.get(reserved_element_count=self.a_colorf3_array_snan_size) @a_colorf3_array_snan.setter def a_colorf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_snan) data_view.set(value) self.a_colorf3_array_snan_size = data_view.get_array_size() @property def a_colorf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_inf) return data_view.get() @a_colorf3_inf.setter def a_colorf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_inf) data_view.set(value) @property def a_colorf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_nan) return data_view.get() @a_colorf3_nan.setter def a_colorf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_nan) data_view.set(value) @property def a_colorf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_ninf) return data_view.get() @a_colorf3_ninf.setter def a_colorf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_ninf) data_view.set(value) @property def a_colorf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_snan) return data_view.get() @a_colorf3_snan.setter def a_colorf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_snan) data_view.set(value) @property def a_colorf4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_inf) return data_view.get(reserved_element_count=self.a_colorf4_array_inf_size) @a_colorf4_array_inf.setter def a_colorf4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_inf) data_view.set(value) self.a_colorf4_array_inf_size = data_view.get_array_size() @property def a_colorf4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_nan) return data_view.get(reserved_element_count=self.a_colorf4_array_nan_size) @a_colorf4_array_nan.setter def a_colorf4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_nan) data_view.set(value) self.a_colorf4_array_nan_size = data_view.get_array_size() @property def a_colorf4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_ninf) return data_view.get(reserved_element_count=self.a_colorf4_array_ninf_size) @a_colorf4_array_ninf.setter def a_colorf4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_ninf) data_view.set(value) self.a_colorf4_array_ninf_size = data_view.get_array_size() @property def a_colorf4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_snan) return data_view.get(reserved_element_count=self.a_colorf4_array_snan_size) @a_colorf4_array_snan.setter def a_colorf4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_snan) data_view.set(value) self.a_colorf4_array_snan_size = data_view.get_array_size() @property def a_colorf4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_inf) return data_view.get() @a_colorf4_inf.setter def a_colorf4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_inf) data_view.set(value) @property def a_colorf4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_nan) return data_view.get() @a_colorf4_nan.setter def a_colorf4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_nan) data_view.set(value) @property def a_colorf4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_ninf) return data_view.get() @a_colorf4_ninf.setter def a_colorf4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_ninf) data_view.set(value) @property def a_colorf4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_snan) return data_view.get() @a_colorf4_snan.setter def a_colorf4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_snan) data_view.set(value) @property def a_colorh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_inf) return data_view.get(reserved_element_count=self.a_colorh3_array_inf_size) @a_colorh3_array_inf.setter def a_colorh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_inf) data_view.set(value) self.a_colorh3_array_inf_size = data_view.get_array_size() @property def a_colorh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_nan) return data_view.get(reserved_element_count=self.a_colorh3_array_nan_size) @a_colorh3_array_nan.setter def a_colorh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_nan) data_view.set(value) self.a_colorh3_array_nan_size = data_view.get_array_size() @property def a_colorh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_ninf) return data_view.get(reserved_element_count=self.a_colorh3_array_ninf_size) @a_colorh3_array_ninf.setter def a_colorh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_ninf) data_view.set(value) self.a_colorh3_array_ninf_size = data_view.get_array_size() @property def a_colorh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_snan) return data_view.get(reserved_element_count=self.a_colorh3_array_snan_size) @a_colorh3_array_snan.setter def a_colorh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_snan) data_view.set(value) self.a_colorh3_array_snan_size = data_view.get_array_size() @property def a_colorh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_inf) return data_view.get() @a_colorh3_inf.setter def a_colorh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_inf) data_view.set(value) @property def a_colorh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_nan) return data_view.get() @a_colorh3_nan.setter def a_colorh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_nan) data_view.set(value) @property def a_colorh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_ninf) return data_view.get() @a_colorh3_ninf.setter def a_colorh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_ninf) data_view.set(value) @property def a_colorh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_snan) return data_view.get() @a_colorh3_snan.setter def a_colorh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_snan) data_view.set(value) @property def a_colorh4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_inf) return data_view.get(reserved_element_count=self.a_colorh4_array_inf_size) @a_colorh4_array_inf.setter def a_colorh4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_inf) data_view.set(value) self.a_colorh4_array_inf_size = data_view.get_array_size() @property def a_colorh4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_nan) return data_view.get(reserved_element_count=self.a_colorh4_array_nan_size) @a_colorh4_array_nan.setter def a_colorh4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_nan) data_view.set(value) self.a_colorh4_array_nan_size = data_view.get_array_size() @property def a_colorh4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_ninf) return data_view.get(reserved_element_count=self.a_colorh4_array_ninf_size) @a_colorh4_array_ninf.setter def a_colorh4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_ninf) data_view.set(value) self.a_colorh4_array_ninf_size = data_view.get_array_size() @property def a_colorh4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_snan) return data_view.get(reserved_element_count=self.a_colorh4_array_snan_size) @a_colorh4_array_snan.setter def a_colorh4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_snan) data_view.set(value) self.a_colorh4_array_snan_size = data_view.get_array_size() @property def a_colorh4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_inf) return data_view.get() @a_colorh4_inf.setter def a_colorh4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_inf) data_view.set(value) @property def a_colorh4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_nan) return data_view.get() @a_colorh4_nan.setter def a_colorh4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_nan) data_view.set(value) @property def a_colorh4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_ninf) return data_view.get() @a_colorh4_ninf.setter def a_colorh4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_ninf) data_view.set(value) @property def a_colorh4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_snan) return data_view.get() @a_colorh4_snan.setter def a_colorh4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_snan) data_view.set(value) @property def a_double2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_inf) return data_view.get(reserved_element_count=self.a_double2_array_inf_size) @a_double2_array_inf.setter def a_double2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_inf) data_view.set(value) self.a_double2_array_inf_size = data_view.get_array_size() @property def a_double2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_nan) return data_view.get(reserved_element_count=self.a_double2_array_nan_size) @a_double2_array_nan.setter def a_double2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_nan) data_view.set(value) self.a_double2_array_nan_size = data_view.get_array_size() @property def a_double2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_ninf) return data_view.get(reserved_element_count=self.a_double2_array_ninf_size) @a_double2_array_ninf.setter def a_double2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_ninf) data_view.set(value) self.a_double2_array_ninf_size = data_view.get_array_size() @property def a_double2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_snan) return data_view.get(reserved_element_count=self.a_double2_array_snan_size) @a_double2_array_snan.setter def a_double2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_snan) data_view.set(value) self.a_double2_array_snan_size = data_view.get_array_size() @property def a_double2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_inf) return data_view.get() @a_double2_inf.setter def a_double2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_inf) data_view.set(value) @property def a_double2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_nan) return data_view.get() @a_double2_nan.setter def a_double2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_nan) data_view.set(value) @property def a_double2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_ninf) return data_view.get() @a_double2_ninf.setter def a_double2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_ninf) data_view.set(value) @property def a_double2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_snan) return data_view.get() @a_double2_snan.setter def a_double2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_snan) data_view.set(value) @property def a_double3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_inf) return data_view.get(reserved_element_count=self.a_double3_array_inf_size) @a_double3_array_inf.setter def a_double3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_inf) data_view.set(value) self.a_double3_array_inf_size = data_view.get_array_size() @property def a_double3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_nan) return data_view.get(reserved_element_count=self.a_double3_array_nan_size) @a_double3_array_nan.setter def a_double3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_nan) data_view.set(value) self.a_double3_array_nan_size = data_view.get_array_size() @property def a_double3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_ninf) return data_view.get(reserved_element_count=self.a_double3_array_ninf_size) @a_double3_array_ninf.setter def a_double3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_ninf) data_view.set(value) self.a_double3_array_ninf_size = data_view.get_array_size() @property def a_double3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_snan) return data_view.get(reserved_element_count=self.a_double3_array_snan_size) @a_double3_array_snan.setter def a_double3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_snan) data_view.set(value) self.a_double3_array_snan_size = data_view.get_array_size() @property def a_double3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_inf) return data_view.get() @a_double3_inf.setter def a_double3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_inf) data_view.set(value) @property def a_double3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_nan) return data_view.get() @a_double3_nan.setter def a_double3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_nan) data_view.set(value) @property def a_double3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_ninf) return data_view.get() @a_double3_ninf.setter def a_double3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_ninf) data_view.set(value) @property def a_double3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_snan) return data_view.get() @a_double3_snan.setter def a_double3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_snan) data_view.set(value) @property def a_double4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_inf) return data_view.get(reserved_element_count=self.a_double4_array_inf_size) @a_double4_array_inf.setter def a_double4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_inf) data_view.set(value) self.a_double4_array_inf_size = data_view.get_array_size() @property def a_double4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_nan) return data_view.get(reserved_element_count=self.a_double4_array_nan_size) @a_double4_array_nan.setter def a_double4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_nan) data_view.set(value) self.a_double4_array_nan_size = data_view.get_array_size() @property def a_double4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_ninf) return data_view.get(reserved_element_count=self.a_double4_array_ninf_size) @a_double4_array_ninf.setter def a_double4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_ninf) data_view.set(value) self.a_double4_array_ninf_size = data_view.get_array_size() @property def a_double4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_snan) return data_view.get(reserved_element_count=self.a_double4_array_snan_size) @a_double4_array_snan.setter def a_double4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_snan) data_view.set(value) self.a_double4_array_snan_size = data_view.get_array_size() @property def a_double4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_inf) return data_view.get() @a_double4_inf.setter def a_double4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_inf) data_view.set(value) @property def a_double4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_nan) return data_view.get() @a_double4_nan.setter def a_double4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_nan) data_view.set(value) @property def a_double4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_ninf) return data_view.get() @a_double4_ninf.setter def a_double4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_ninf) data_view.set(value) @property def a_double4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_snan) return data_view.get() @a_double4_snan.setter def a_double4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_snan) data_view.set(value) @property def a_double_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_inf) return data_view.get(reserved_element_count=self.a_double_array_inf_size) @a_double_array_inf.setter def a_double_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array_inf) data_view.set(value) self.a_double_array_inf_size = data_view.get_array_size() @property def a_double_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_nan) return data_view.get(reserved_element_count=self.a_double_array_nan_size) @a_double_array_nan.setter def a_double_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array_nan) data_view.set(value) self.a_double_array_nan_size = data_view.get_array_size() @property def a_double_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_ninf) return data_view.get(reserved_element_count=self.a_double_array_ninf_size) @a_double_array_ninf.setter def a_double_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array_ninf) data_view.set(value) self.a_double_array_ninf_size = data_view.get_array_size() @property def a_double_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_snan) return data_view.get(reserved_element_count=self.a_double_array_snan_size) @a_double_array_snan.setter def a_double_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array_snan) data_view.set(value) self.a_double_array_snan_size = data_view.get_array_size() @property def a_double_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_inf) return data_view.get() @a_double_inf.setter def a_double_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_inf) data_view.set(value) @property def a_double_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_nan) return data_view.get() @a_double_nan.setter def a_double_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_nan) data_view.set(value) @property def a_double_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_ninf) return data_view.get() @a_double_ninf.setter def a_double_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_ninf) data_view.set(value) @property def a_double_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_snan) return data_view.get() @a_double_snan.setter def a_double_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_snan) data_view.set(value) @property def a_float2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_inf) return data_view.get(reserved_element_count=self.a_float2_array_inf_size) @a_float2_array_inf.setter def a_float2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_inf) data_view.set(value) self.a_float2_array_inf_size = data_view.get_array_size() @property def a_float2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_nan) return data_view.get(reserved_element_count=self.a_float2_array_nan_size) @a_float2_array_nan.setter def a_float2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_nan) data_view.set(value) self.a_float2_array_nan_size = data_view.get_array_size() @property def a_float2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_ninf) return data_view.get(reserved_element_count=self.a_float2_array_ninf_size) @a_float2_array_ninf.setter def a_float2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_ninf) data_view.set(value) self.a_float2_array_ninf_size = data_view.get_array_size() @property def a_float2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_snan) return data_view.get(reserved_element_count=self.a_float2_array_snan_size) @a_float2_array_snan.setter def a_float2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_snan) data_view.set(value) self.a_float2_array_snan_size = data_view.get_array_size() @property def a_float2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_inf) return data_view.get() @a_float2_inf.setter def a_float2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_inf) data_view.set(value) @property def a_float2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_nan) return data_view.get() @a_float2_nan.setter def a_float2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_nan) data_view.set(value) @property def a_float2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_ninf) return data_view.get() @a_float2_ninf.setter def a_float2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_ninf) data_view.set(value) @property def a_float2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_snan) return data_view.get() @a_float2_snan.setter def a_float2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_snan) data_view.set(value) @property def a_float3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_inf) return data_view.get(reserved_element_count=self.a_float3_array_inf_size) @a_float3_array_inf.setter def a_float3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_inf) data_view.set(value) self.a_float3_array_inf_size = data_view.get_array_size() @property def a_float3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_nan) return data_view.get(reserved_element_count=self.a_float3_array_nan_size) @a_float3_array_nan.setter def a_float3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_nan) data_view.set(value) self.a_float3_array_nan_size = data_view.get_array_size() @property def a_float3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_ninf) return data_view.get(reserved_element_count=self.a_float3_array_ninf_size) @a_float3_array_ninf.setter def a_float3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_ninf) data_view.set(value) self.a_float3_array_ninf_size = data_view.get_array_size() @property def a_float3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_snan) return data_view.get(reserved_element_count=self.a_float3_array_snan_size) @a_float3_array_snan.setter def a_float3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_snan) data_view.set(value) self.a_float3_array_snan_size = data_view.get_array_size() @property def a_float3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_inf) return data_view.get() @a_float3_inf.setter def a_float3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_inf) data_view.set(value) @property def a_float3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_nan) return data_view.get() @a_float3_nan.setter def a_float3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_nan) data_view.set(value) @property def a_float3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_ninf) return data_view.get() @a_float3_ninf.setter def a_float3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_ninf) data_view.set(value) @property def a_float3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_snan) return data_view.get() @a_float3_snan.setter def a_float3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_snan) data_view.set(value) @property def a_float4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_inf) return data_view.get(reserved_element_count=self.a_float4_array_inf_size) @a_float4_array_inf.setter def a_float4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_inf) data_view.set(value) self.a_float4_array_inf_size = data_view.get_array_size() @property def a_float4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_nan) return data_view.get(reserved_element_count=self.a_float4_array_nan_size) @a_float4_array_nan.setter def a_float4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_nan) data_view.set(value) self.a_float4_array_nan_size = data_view.get_array_size() @property def a_float4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_ninf) return data_view.get(reserved_element_count=self.a_float4_array_ninf_size) @a_float4_array_ninf.setter def a_float4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_ninf) data_view.set(value) self.a_float4_array_ninf_size = data_view.get_array_size() @property def a_float4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_snan) return data_view.get(reserved_element_count=self.a_float4_array_snan_size) @a_float4_array_snan.setter def a_float4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_snan) data_view.set(value) self.a_float4_array_snan_size = data_view.get_array_size() @property def a_float4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_inf) return data_view.get() @a_float4_inf.setter def a_float4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_inf) data_view.set(value) @property def a_float4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_nan) return data_view.get() @a_float4_nan.setter def a_float4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_nan) data_view.set(value) @property def a_float4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_ninf) return data_view.get() @a_float4_ninf.setter def a_float4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_ninf) data_view.set(value) @property def a_float4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_snan) return data_view.get() @a_float4_snan.setter def a_float4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_snan) data_view.set(value) @property def a_float_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_inf) return data_view.get(reserved_element_count=self.a_float_array_inf_size) @a_float_array_inf.setter def a_float_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array_inf) data_view.set(value) self.a_float_array_inf_size = data_view.get_array_size() @property def a_float_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_nan) return data_view.get(reserved_element_count=self.a_float_array_nan_size) @a_float_array_nan.setter def a_float_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array_nan) data_view.set(value) self.a_float_array_nan_size = data_view.get_array_size() @property def a_float_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_ninf) return data_view.get(reserved_element_count=self.a_float_array_ninf_size) @a_float_array_ninf.setter def a_float_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array_ninf) data_view.set(value) self.a_float_array_ninf_size = data_view.get_array_size() @property def a_float_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_snan) return data_view.get(reserved_element_count=self.a_float_array_snan_size) @a_float_array_snan.setter def a_float_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array_snan) data_view.set(value) self.a_float_array_snan_size = data_view.get_array_size() @property def a_float_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_inf) return data_view.get() @a_float_inf.setter def a_float_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_inf) data_view.set(value) @property def a_float_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_nan) return data_view.get() @a_float_nan.setter def a_float_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_nan) data_view.set(value) @property def a_float_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_ninf) return data_view.get() @a_float_ninf.setter def a_float_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_ninf) data_view.set(value) @property def a_float_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_snan) return data_view.get() @a_float_snan.setter def a_float_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_snan) data_view.set(value) @property def a_frame4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_inf) return data_view.get(reserved_element_count=self.a_frame4_array_inf_size) @a_frame4_array_inf.setter def a_frame4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_inf) data_view.set(value) self.a_frame4_array_inf_size = data_view.get_array_size() @property def a_frame4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_nan) return data_view.get(reserved_element_count=self.a_frame4_array_nan_size) @a_frame4_array_nan.setter def a_frame4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_nan) data_view.set(value) self.a_frame4_array_nan_size = data_view.get_array_size() @property def a_frame4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_ninf) return data_view.get(reserved_element_count=self.a_frame4_array_ninf_size) @a_frame4_array_ninf.setter def a_frame4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_ninf) data_view.set(value) self.a_frame4_array_ninf_size = data_view.get_array_size() @property def a_frame4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_snan) return data_view.get(reserved_element_count=self.a_frame4_array_snan_size) @a_frame4_array_snan.setter def a_frame4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_snan) data_view.set(value) self.a_frame4_array_snan_size = data_view.get_array_size() @property def a_frame4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_inf) return data_view.get() @a_frame4_inf.setter def a_frame4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_inf) data_view.set(value) @property def a_frame4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_nan) return data_view.get() @a_frame4_nan.setter def a_frame4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_nan) data_view.set(value) @property def a_frame4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_ninf) return data_view.get() @a_frame4_ninf.setter def a_frame4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_ninf) data_view.set(value) @property def a_frame4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_snan) return data_view.get() @a_frame4_snan.setter def a_frame4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_snan) data_view.set(value) @property def a_half2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_inf) return data_view.get(reserved_element_count=self.a_half2_array_inf_size) @a_half2_array_inf.setter def a_half2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_inf) data_view.set(value) self.a_half2_array_inf_size = data_view.get_array_size() @property def a_half2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_nan) return data_view.get(reserved_element_count=self.a_half2_array_nan_size) @a_half2_array_nan.setter def a_half2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_nan) data_view.set(value) self.a_half2_array_nan_size = data_view.get_array_size() @property def a_half2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_ninf) return data_view.get(reserved_element_count=self.a_half2_array_ninf_size) @a_half2_array_ninf.setter def a_half2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_ninf) data_view.set(value) self.a_half2_array_ninf_size = data_view.get_array_size() @property def a_half2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_snan) return data_view.get(reserved_element_count=self.a_half2_array_snan_size) @a_half2_array_snan.setter def a_half2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_snan) data_view.set(value) self.a_half2_array_snan_size = data_view.get_array_size() @property def a_half2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_inf) return data_view.get() @a_half2_inf.setter def a_half2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_inf) data_view.set(value) @property def a_half2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_nan) return data_view.get() @a_half2_nan.setter def a_half2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_nan) data_view.set(value) @property def a_half2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_ninf) return data_view.get() @a_half2_ninf.setter def a_half2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_ninf) data_view.set(value) @property def a_half2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_snan) return data_view.get() @a_half2_snan.setter def a_half2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_snan) data_view.set(value) @property def a_half3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_inf) return data_view.get(reserved_element_count=self.a_half3_array_inf_size) @a_half3_array_inf.setter def a_half3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_inf) data_view.set(value) self.a_half3_array_inf_size = data_view.get_array_size() @property def a_half3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_nan) return data_view.get(reserved_element_count=self.a_half3_array_nan_size) @a_half3_array_nan.setter def a_half3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_nan) data_view.set(value) self.a_half3_array_nan_size = data_view.get_array_size() @property def a_half3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_ninf) return data_view.get(reserved_element_count=self.a_half3_array_ninf_size) @a_half3_array_ninf.setter def a_half3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_ninf) data_view.set(value) self.a_half3_array_ninf_size = data_view.get_array_size() @property def a_half3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_snan) return data_view.get(reserved_element_count=self.a_half3_array_snan_size) @a_half3_array_snan.setter def a_half3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_snan) data_view.set(value) self.a_half3_array_snan_size = data_view.get_array_size() @property def a_half3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_inf) return data_view.get() @a_half3_inf.setter def a_half3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_inf) data_view.set(value) @property def a_half3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_nan) return data_view.get() @a_half3_nan.setter def a_half3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_nan) data_view.set(value) @property def a_half3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_ninf) return data_view.get() @a_half3_ninf.setter def a_half3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_ninf) data_view.set(value) @property def a_half3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_snan) return data_view.get() @a_half3_snan.setter def a_half3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_snan) data_view.set(value) @property def a_half4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_inf) return data_view.get(reserved_element_count=self.a_half4_array_inf_size) @a_half4_array_inf.setter def a_half4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_inf) data_view.set(value) self.a_half4_array_inf_size = data_view.get_array_size() @property def a_half4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_nan) return data_view.get(reserved_element_count=self.a_half4_array_nan_size) @a_half4_array_nan.setter def a_half4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_nan) data_view.set(value) self.a_half4_array_nan_size = data_view.get_array_size() @property def a_half4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_ninf) return data_view.get(reserved_element_count=self.a_half4_array_ninf_size) @a_half4_array_ninf.setter def a_half4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_ninf) data_view.set(value) self.a_half4_array_ninf_size = data_view.get_array_size() @property def a_half4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_snan) return data_view.get(reserved_element_count=self.a_half4_array_snan_size) @a_half4_array_snan.setter def a_half4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_snan) data_view.set(value) self.a_half4_array_snan_size = data_view.get_array_size() @property def a_half4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_inf) return data_view.get() @a_half4_inf.setter def a_half4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_inf) data_view.set(value) @property def a_half4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_nan) return data_view.get() @a_half4_nan.setter def a_half4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_nan) data_view.set(value) @property def a_half4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_ninf) return data_view.get() @a_half4_ninf.setter def a_half4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_ninf) data_view.set(value) @property def a_half4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_snan) return data_view.get() @a_half4_snan.setter def a_half4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_snan) data_view.set(value) @property def a_half_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_inf) return data_view.get(reserved_element_count=self.a_half_array_inf_size) @a_half_array_inf.setter def a_half_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array_inf) data_view.set(value) self.a_half_array_inf_size = data_view.get_array_size() @property def a_half_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_nan) return data_view.get(reserved_element_count=self.a_half_array_nan_size) @a_half_array_nan.setter def a_half_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array_nan) data_view.set(value) self.a_half_array_nan_size = data_view.get_array_size() @property def a_half_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_ninf) return data_view.get(reserved_element_count=self.a_half_array_ninf_size) @a_half_array_ninf.setter def a_half_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array_ninf) data_view.set(value) self.a_half_array_ninf_size = data_view.get_array_size() @property def a_half_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_snan) return data_view.get(reserved_element_count=self.a_half_array_snan_size) @a_half_array_snan.setter def a_half_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array_snan) data_view.set(value) self.a_half_array_snan_size = data_view.get_array_size() @property def a_half_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_inf) return data_view.get() @a_half_inf.setter def a_half_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_inf) data_view.set(value) @property def a_half_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_nan) return data_view.get() @a_half_nan.setter def a_half_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_nan) data_view.set(value) @property def a_half_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_ninf) return data_view.get() @a_half_ninf.setter def a_half_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_ninf) data_view.set(value) @property def a_half_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_snan) return data_view.get() @a_half_snan.setter def a_half_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_snan) data_view.set(value) @property def a_matrixd2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_inf) return data_view.get(reserved_element_count=self.a_matrixd2_array_inf_size) @a_matrixd2_array_inf.setter def a_matrixd2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_inf) data_view.set(value) self.a_matrixd2_array_inf_size = data_view.get_array_size() @property def a_matrixd2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_nan) return data_view.get(reserved_element_count=self.a_matrixd2_array_nan_size) @a_matrixd2_array_nan.setter def a_matrixd2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_nan) data_view.set(value) self.a_matrixd2_array_nan_size = data_view.get_array_size() @property def a_matrixd2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_ninf) return data_view.get(reserved_element_count=self.a_matrixd2_array_ninf_size) @a_matrixd2_array_ninf.setter def a_matrixd2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_ninf) data_view.set(value) self.a_matrixd2_array_ninf_size = data_view.get_array_size() @property def a_matrixd2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_snan) return data_view.get(reserved_element_count=self.a_matrixd2_array_snan_size) @a_matrixd2_array_snan.setter def a_matrixd2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_snan) data_view.set(value) self.a_matrixd2_array_snan_size = data_view.get_array_size() @property def a_matrixd2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_inf) return data_view.get() @a_matrixd2_inf.setter def a_matrixd2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_inf) data_view.set(value) @property def a_matrixd2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_nan) return data_view.get() @a_matrixd2_nan.setter def a_matrixd2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_nan) data_view.set(value) @property def a_matrixd2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_ninf) return data_view.get() @a_matrixd2_ninf.setter def a_matrixd2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_ninf) data_view.set(value) @property def a_matrixd2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_snan) return data_view.get() @a_matrixd2_snan.setter def a_matrixd2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_snan) data_view.set(value) @property def a_matrixd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_inf) return data_view.get(reserved_element_count=self.a_matrixd3_array_inf_size) @a_matrixd3_array_inf.setter def a_matrixd3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_inf) data_view.set(value) self.a_matrixd3_array_inf_size = data_view.get_array_size() @property def a_matrixd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_nan) return data_view.get(reserved_element_count=self.a_matrixd3_array_nan_size) @a_matrixd3_array_nan.setter def a_matrixd3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_nan) data_view.set(value) self.a_matrixd3_array_nan_size = data_view.get_array_size() @property def a_matrixd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_ninf) return data_view.get(reserved_element_count=self.a_matrixd3_array_ninf_size) @a_matrixd3_array_ninf.setter def a_matrixd3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_ninf) data_view.set(value) self.a_matrixd3_array_ninf_size = data_view.get_array_size() @property def a_matrixd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_snan) return data_view.get(reserved_element_count=self.a_matrixd3_array_snan_size) @a_matrixd3_array_snan.setter def a_matrixd3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_snan) data_view.set(value) self.a_matrixd3_array_snan_size = data_view.get_array_size() @property def a_matrixd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_inf) return data_view.get() @a_matrixd3_inf.setter def a_matrixd3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_inf) data_view.set(value) @property def a_matrixd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_nan) return data_view.get() @a_matrixd3_nan.setter def a_matrixd3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_nan) data_view.set(value) @property def a_matrixd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_ninf) return data_view.get() @a_matrixd3_ninf.setter def a_matrixd3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_ninf) data_view.set(value) @property def a_matrixd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_snan) return data_view.get() @a_matrixd3_snan.setter def a_matrixd3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_snan) data_view.set(value) @property def a_matrixd4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_inf) return data_view.get(reserved_element_count=self.a_matrixd4_array_inf_size) @a_matrixd4_array_inf.setter def a_matrixd4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_inf) data_view.set(value) self.a_matrixd4_array_inf_size = data_view.get_array_size() @property def a_matrixd4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_nan) return data_view.get(reserved_element_count=self.a_matrixd4_array_nan_size) @a_matrixd4_array_nan.setter def a_matrixd4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_nan) data_view.set(value) self.a_matrixd4_array_nan_size = data_view.get_array_size() @property def a_matrixd4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_ninf) return data_view.get(reserved_element_count=self.a_matrixd4_array_ninf_size) @a_matrixd4_array_ninf.setter def a_matrixd4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_ninf) data_view.set(value) self.a_matrixd4_array_ninf_size = data_view.get_array_size() @property def a_matrixd4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_snan) return data_view.get(reserved_element_count=self.a_matrixd4_array_snan_size) @a_matrixd4_array_snan.setter def a_matrixd4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_snan) data_view.set(value) self.a_matrixd4_array_snan_size = data_view.get_array_size() @property def a_matrixd4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_inf) return data_view.get() @a_matrixd4_inf.setter def a_matrixd4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_inf) data_view.set(value) @property def a_matrixd4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_nan) return data_view.get() @a_matrixd4_nan.setter def a_matrixd4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_nan) data_view.set(value) @property def a_matrixd4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_ninf) return data_view.get() @a_matrixd4_ninf.setter def a_matrixd4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_ninf) data_view.set(value) @property def a_matrixd4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_snan) return data_view.get() @a_matrixd4_snan.setter def a_matrixd4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_snan) data_view.set(value) @property def a_normald3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_inf) return data_view.get(reserved_element_count=self.a_normald3_array_inf_size) @a_normald3_array_inf.setter def a_normald3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_inf) data_view.set(value) self.a_normald3_array_inf_size = data_view.get_array_size() @property def a_normald3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_nan) return data_view.get(reserved_element_count=self.a_normald3_array_nan_size) @a_normald3_array_nan.setter def a_normald3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_nan) data_view.set(value) self.a_normald3_array_nan_size = data_view.get_array_size() @property def a_normald3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_ninf) return data_view.get(reserved_element_count=self.a_normald3_array_ninf_size) @a_normald3_array_ninf.setter def a_normald3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_ninf) data_view.set(value) self.a_normald3_array_ninf_size = data_view.get_array_size() @property def a_normald3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_snan) return data_view.get(reserved_element_count=self.a_normald3_array_snan_size) @a_normald3_array_snan.setter def a_normald3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_snan) data_view.set(value) self.a_normald3_array_snan_size = data_view.get_array_size() @property def a_normald3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_inf) return data_view.get() @a_normald3_inf.setter def a_normald3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_inf) data_view.set(value) @property def a_normald3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_nan) return data_view.get() @a_normald3_nan.setter def a_normald3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_nan) data_view.set(value) @property def a_normald3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_ninf) return data_view.get() @a_normald3_ninf.setter def a_normald3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_ninf) data_view.set(value) @property def a_normald3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_snan) return data_view.get() @a_normald3_snan.setter def a_normald3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_snan) data_view.set(value) @property def a_normalf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_inf) return data_view.get(reserved_element_count=self.a_normalf3_array_inf_size) @a_normalf3_array_inf.setter def a_normalf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_inf) data_view.set(value) self.a_normalf3_array_inf_size = data_view.get_array_size() @property def a_normalf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_nan) return data_view.get(reserved_element_count=self.a_normalf3_array_nan_size) @a_normalf3_array_nan.setter def a_normalf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_nan) data_view.set(value) self.a_normalf3_array_nan_size = data_view.get_array_size() @property def a_normalf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_ninf) return data_view.get(reserved_element_count=self.a_normalf3_array_ninf_size) @a_normalf3_array_ninf.setter def a_normalf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_ninf) data_view.set(value) self.a_normalf3_array_ninf_size = data_view.get_array_size() @property def a_normalf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_snan) return data_view.get(reserved_element_count=self.a_normalf3_array_snan_size) @a_normalf3_array_snan.setter def a_normalf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_snan) data_view.set(value) self.a_normalf3_array_snan_size = data_view.get_array_size() @property def a_normalf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_inf) return data_view.get() @a_normalf3_inf.setter def a_normalf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_inf) data_view.set(value) @property def a_normalf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_nan) return data_view.get() @a_normalf3_nan.setter def a_normalf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_nan) data_view.set(value) @property def a_normalf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_ninf) return data_view.get() @a_normalf3_ninf.setter def a_normalf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_ninf) data_view.set(value) @property def a_normalf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_snan) return data_view.get() @a_normalf3_snan.setter def a_normalf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_snan) data_view.set(value) @property def a_normalh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_inf) return data_view.get(reserved_element_count=self.a_normalh3_array_inf_size) @a_normalh3_array_inf.setter def a_normalh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_inf) data_view.set(value) self.a_normalh3_array_inf_size = data_view.get_array_size() @property def a_normalh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_nan) return data_view.get(reserved_element_count=self.a_normalh3_array_nan_size) @a_normalh3_array_nan.setter def a_normalh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_nan) data_view.set(value) self.a_normalh3_array_nan_size = data_view.get_array_size() @property def a_normalh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_ninf) return data_view.get(reserved_element_count=self.a_normalh3_array_ninf_size) @a_normalh3_array_ninf.setter def a_normalh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_ninf) data_view.set(value) self.a_normalh3_array_ninf_size = data_view.get_array_size() @property def a_normalh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_snan) return data_view.get(reserved_element_count=self.a_normalh3_array_snan_size) @a_normalh3_array_snan.setter def a_normalh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_snan) data_view.set(value) self.a_normalh3_array_snan_size = data_view.get_array_size() @property def a_normalh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_inf) return data_view.get() @a_normalh3_inf.setter def a_normalh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_inf) data_view.set(value) @property def a_normalh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_nan) return data_view.get() @a_normalh3_nan.setter def a_normalh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_nan) data_view.set(value) @property def a_normalh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_ninf) return data_view.get() @a_normalh3_ninf.setter def a_normalh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_ninf) data_view.set(value) @property def a_normalh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_snan) return data_view.get() @a_normalh3_snan.setter def a_normalh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_snan) data_view.set(value) @property def a_pointd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_inf) return data_view.get(reserved_element_count=self.a_pointd3_array_inf_size) @a_pointd3_array_inf.setter def a_pointd3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_inf) data_view.set(value) self.a_pointd3_array_inf_size = data_view.get_array_size() @property def a_pointd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_nan) return data_view.get(reserved_element_count=self.a_pointd3_array_nan_size) @a_pointd3_array_nan.setter def a_pointd3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_nan) data_view.set(value) self.a_pointd3_array_nan_size = data_view.get_array_size() @property def a_pointd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_ninf) return data_view.get(reserved_element_count=self.a_pointd3_array_ninf_size) @a_pointd3_array_ninf.setter def a_pointd3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_ninf) data_view.set(value) self.a_pointd3_array_ninf_size = data_view.get_array_size() @property def a_pointd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_snan) return data_view.get(reserved_element_count=self.a_pointd3_array_snan_size) @a_pointd3_array_snan.setter def a_pointd3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_snan) data_view.set(value) self.a_pointd3_array_snan_size = data_view.get_array_size() @property def a_pointd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_inf) return data_view.get() @a_pointd3_inf.setter def a_pointd3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_inf) data_view.set(value) @property def a_pointd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_nan) return data_view.get() @a_pointd3_nan.setter def a_pointd3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_nan) data_view.set(value) @property def a_pointd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_ninf) return data_view.get() @a_pointd3_ninf.setter def a_pointd3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_ninf) data_view.set(value) @property def a_pointd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_snan) return data_view.get() @a_pointd3_snan.setter def a_pointd3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_snan) data_view.set(value) @property def a_pointf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_inf) return data_view.get(reserved_element_count=self.a_pointf3_array_inf_size) @a_pointf3_array_inf.setter def a_pointf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_inf) data_view.set(value) self.a_pointf3_array_inf_size = data_view.get_array_size() @property def a_pointf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_nan) return data_view.get(reserved_element_count=self.a_pointf3_array_nan_size) @a_pointf3_array_nan.setter def a_pointf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_nan) data_view.set(value) self.a_pointf3_array_nan_size = data_view.get_array_size() @property def a_pointf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_ninf) return data_view.get(reserved_element_count=self.a_pointf3_array_ninf_size) @a_pointf3_array_ninf.setter def a_pointf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_ninf) data_view.set(value) self.a_pointf3_array_ninf_size = data_view.get_array_size() @property def a_pointf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_snan) return data_view.get(reserved_element_count=self.a_pointf3_array_snan_size) @a_pointf3_array_snan.setter def a_pointf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_snan) data_view.set(value) self.a_pointf3_array_snan_size = data_view.get_array_size() @property def a_pointf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_inf) return data_view.get() @a_pointf3_inf.setter def a_pointf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_inf) data_view.set(value) @property def a_pointf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_nan) return data_view.get() @a_pointf3_nan.setter def a_pointf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_nan) data_view.set(value) @property def a_pointf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_ninf) return data_view.get() @a_pointf3_ninf.setter def a_pointf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_ninf) data_view.set(value) @property def a_pointf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_snan) return data_view.get() @a_pointf3_snan.setter def a_pointf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_snan) data_view.set(value) @property def a_pointh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_inf) return data_view.get(reserved_element_count=self.a_pointh3_array_inf_size) @a_pointh3_array_inf.setter def a_pointh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_inf) data_view.set(value) self.a_pointh3_array_inf_size = data_view.get_array_size() @property def a_pointh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_nan) return data_view.get(reserved_element_count=self.a_pointh3_array_nan_size) @a_pointh3_array_nan.setter def a_pointh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_nan) data_view.set(value) self.a_pointh3_array_nan_size = data_view.get_array_size() @property def a_pointh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_ninf) return data_view.get(reserved_element_count=self.a_pointh3_array_ninf_size) @a_pointh3_array_ninf.setter def a_pointh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_ninf) data_view.set(value) self.a_pointh3_array_ninf_size = data_view.get_array_size() @property def a_pointh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_snan) return data_view.get(reserved_element_count=self.a_pointh3_array_snan_size) @a_pointh3_array_snan.setter def a_pointh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_snan) data_view.set(value) self.a_pointh3_array_snan_size = data_view.get_array_size() @property def a_pointh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_inf) return data_view.get() @a_pointh3_inf.setter def a_pointh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_inf) data_view.set(value) @property def a_pointh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_nan) return data_view.get() @a_pointh3_nan.setter def a_pointh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_nan) data_view.set(value) @property def a_pointh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_ninf) return data_view.get() @a_pointh3_ninf.setter def a_pointh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_ninf) data_view.set(value) @property def a_pointh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_snan) return data_view.get() @a_pointh3_snan.setter def a_pointh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_snan) data_view.set(value) @property def a_quatd4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_inf) return data_view.get(reserved_element_count=self.a_quatd4_array_inf_size) @a_quatd4_array_inf.setter def a_quatd4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_inf) data_view.set(value) self.a_quatd4_array_inf_size = data_view.get_array_size() @property def a_quatd4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_nan) return data_view.get(reserved_element_count=self.a_quatd4_array_nan_size) @a_quatd4_array_nan.setter def a_quatd4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_nan) data_view.set(value) self.a_quatd4_array_nan_size = data_view.get_array_size() @property def a_quatd4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_ninf) return data_view.get(reserved_element_count=self.a_quatd4_array_ninf_size) @a_quatd4_array_ninf.setter def a_quatd4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_ninf) data_view.set(value) self.a_quatd4_array_ninf_size = data_view.get_array_size() @property def a_quatd4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_snan) return data_view.get(reserved_element_count=self.a_quatd4_array_snan_size) @a_quatd4_array_snan.setter def a_quatd4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_snan) data_view.set(value) self.a_quatd4_array_snan_size = data_view.get_array_size() @property def a_quatd4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_inf) return data_view.get() @a_quatd4_inf.setter def a_quatd4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_inf) data_view.set(value) @property def a_quatd4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_nan) return data_view.get() @a_quatd4_nan.setter def a_quatd4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_nan) data_view.set(value) @property def a_quatd4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_ninf) return data_view.get() @a_quatd4_ninf.setter def a_quatd4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_ninf) data_view.set(value) @property def a_quatd4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_snan) return data_view.get() @a_quatd4_snan.setter def a_quatd4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_snan) data_view.set(value) @property def a_quatf4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_inf) return data_view.get(reserved_element_count=self.a_quatf4_array_inf_size) @a_quatf4_array_inf.setter def a_quatf4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_inf) data_view.set(value) self.a_quatf4_array_inf_size = data_view.get_array_size() @property def a_quatf4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_nan) return data_view.get(reserved_element_count=self.a_quatf4_array_nan_size) @a_quatf4_array_nan.setter def a_quatf4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_nan) data_view.set(value) self.a_quatf4_array_nan_size = data_view.get_array_size() @property def a_quatf4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_ninf) return data_view.get(reserved_element_count=self.a_quatf4_array_ninf_size) @a_quatf4_array_ninf.setter def a_quatf4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_ninf) data_view.set(value) self.a_quatf4_array_ninf_size = data_view.get_array_size() @property def a_quatf4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_snan) return data_view.get(reserved_element_count=self.a_quatf4_array_snan_size) @a_quatf4_array_snan.setter def a_quatf4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_snan) data_view.set(value) self.a_quatf4_array_snan_size = data_view.get_array_size() @property def a_quatf4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_inf) return data_view.get() @a_quatf4_inf.setter def a_quatf4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_inf) data_view.set(value) @property def a_quatf4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_nan) return data_view.get() @a_quatf4_nan.setter def a_quatf4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_nan) data_view.set(value) @property def a_quatf4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_ninf) return data_view.get() @a_quatf4_ninf.setter def a_quatf4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_ninf) data_view.set(value) @property def a_quatf4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_snan) return data_view.get() @a_quatf4_snan.setter def a_quatf4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_snan) data_view.set(value) @property def a_quath4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_inf) return data_view.get(reserved_element_count=self.a_quath4_array_inf_size) @a_quath4_array_inf.setter def a_quath4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_inf) data_view.set(value) self.a_quath4_array_inf_size = data_view.get_array_size() @property def a_quath4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_nan) return data_view.get(reserved_element_count=self.a_quath4_array_nan_size) @a_quath4_array_nan.setter def a_quath4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_nan) data_view.set(value) self.a_quath4_array_nan_size = data_view.get_array_size() @property def a_quath4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_ninf) return data_view.get(reserved_element_count=self.a_quath4_array_ninf_size) @a_quath4_array_ninf.setter def a_quath4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_ninf) data_view.set(value) self.a_quath4_array_ninf_size = data_view.get_array_size() @property def a_quath4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_snan) return data_view.get(reserved_element_count=self.a_quath4_array_snan_size) @a_quath4_array_snan.setter def a_quath4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_snan) data_view.set(value) self.a_quath4_array_snan_size = data_view.get_array_size() @property def a_quath4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_inf) return data_view.get() @a_quath4_inf.setter def a_quath4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_inf) data_view.set(value) @property def a_quath4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_nan) return data_view.get() @a_quath4_nan.setter def a_quath4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_nan) data_view.set(value) @property def a_quath4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_ninf) return data_view.get() @a_quath4_ninf.setter def a_quath4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_ninf) data_view.set(value) @property def a_quath4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_snan) return data_view.get() @a_quath4_snan.setter def a_quath4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_snan) data_view.set(value) @property def a_texcoordd2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_inf) return data_view.get(reserved_element_count=self.a_texcoordd2_array_inf_size) @a_texcoordd2_array_inf.setter def a_texcoordd2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_inf) data_view.set(value) self.a_texcoordd2_array_inf_size = data_view.get_array_size() @property def a_texcoordd2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_nan) return data_view.get(reserved_element_count=self.a_texcoordd2_array_nan_size) @a_texcoordd2_array_nan.setter def a_texcoordd2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_nan) data_view.set(value) self.a_texcoordd2_array_nan_size = data_view.get_array_size() @property def a_texcoordd2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordd2_array_ninf_size) @a_texcoordd2_array_ninf.setter def a_texcoordd2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_ninf) data_view.set(value) self.a_texcoordd2_array_ninf_size = data_view.get_array_size() @property def a_texcoordd2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_snan) return data_view.get(reserved_element_count=self.a_texcoordd2_array_snan_size) @a_texcoordd2_array_snan.setter def a_texcoordd2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_snan) data_view.set(value) self.a_texcoordd2_array_snan_size = data_view.get_array_size() @property def a_texcoordd2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_inf) return data_view.get() @a_texcoordd2_inf.setter def a_texcoordd2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_inf) data_view.set(value) @property def a_texcoordd2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_nan) return data_view.get() @a_texcoordd2_nan.setter def a_texcoordd2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_nan) data_view.set(value) @property def a_texcoordd2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_ninf) return data_view.get() @a_texcoordd2_ninf.setter def a_texcoordd2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_ninf) data_view.set(value) @property def a_texcoordd2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_snan) return data_view.get() @a_texcoordd2_snan.setter def a_texcoordd2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_snan) data_view.set(value) @property def a_texcoordd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_inf) return data_view.get(reserved_element_count=self.a_texcoordd3_array_inf_size) @a_texcoordd3_array_inf.setter def a_texcoordd3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_inf) data_view.set(value) self.a_texcoordd3_array_inf_size = data_view.get_array_size() @property def a_texcoordd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_nan) return data_view.get(reserved_element_count=self.a_texcoordd3_array_nan_size) @a_texcoordd3_array_nan.setter def a_texcoordd3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_nan) data_view.set(value) self.a_texcoordd3_array_nan_size = data_view.get_array_size() @property def a_texcoordd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordd3_array_ninf_size) @a_texcoordd3_array_ninf.setter def a_texcoordd3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_ninf) data_view.set(value) self.a_texcoordd3_array_ninf_size = data_view.get_array_size() @property def a_texcoordd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_snan) return data_view.get(reserved_element_count=self.a_texcoordd3_array_snan_size) @a_texcoordd3_array_snan.setter def a_texcoordd3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_snan) data_view.set(value) self.a_texcoordd3_array_snan_size = data_view.get_array_size() @property def a_texcoordd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_inf) return data_view.get() @a_texcoordd3_inf.setter def a_texcoordd3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_inf) data_view.set(value) @property def a_texcoordd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_nan) return data_view.get() @a_texcoordd3_nan.setter def a_texcoordd3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_nan) data_view.set(value) @property def a_texcoordd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_ninf) return data_view.get() @a_texcoordd3_ninf.setter def a_texcoordd3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_ninf) data_view.set(value) @property def a_texcoordd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_snan) return data_view.get() @a_texcoordd3_snan.setter def a_texcoordd3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_snan) data_view.set(value) @property def a_texcoordf2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_inf) return data_view.get(reserved_element_count=self.a_texcoordf2_array_inf_size) @a_texcoordf2_array_inf.setter def a_texcoordf2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_inf) data_view.set(value) self.a_texcoordf2_array_inf_size = data_view.get_array_size() @property def a_texcoordf2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_nan) return data_view.get(reserved_element_count=self.a_texcoordf2_array_nan_size) @a_texcoordf2_array_nan.setter def a_texcoordf2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_nan) data_view.set(value) self.a_texcoordf2_array_nan_size = data_view.get_array_size() @property def a_texcoordf2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordf2_array_ninf_size) @a_texcoordf2_array_ninf.setter def a_texcoordf2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_ninf) data_view.set(value) self.a_texcoordf2_array_ninf_size = data_view.get_array_size() @property def a_texcoordf2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_snan) return data_view.get(reserved_element_count=self.a_texcoordf2_array_snan_size) @a_texcoordf2_array_snan.setter def a_texcoordf2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_snan) data_view.set(value) self.a_texcoordf2_array_snan_size = data_view.get_array_size() @property def a_texcoordf2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_inf) return data_view.get() @a_texcoordf2_inf.setter def a_texcoordf2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_inf) data_view.set(value) @property def a_texcoordf2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_nan) return data_view.get() @a_texcoordf2_nan.setter def a_texcoordf2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_nan) data_view.set(value) @property def a_texcoordf2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_ninf) return data_view.get() @a_texcoordf2_ninf.setter def a_texcoordf2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_ninf) data_view.set(value) @property def a_texcoordf2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_snan) return data_view.get() @a_texcoordf2_snan.setter def a_texcoordf2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_snan) data_view.set(value) @property def a_texcoordf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_inf) return data_view.get(reserved_element_count=self.a_texcoordf3_array_inf_size) @a_texcoordf3_array_inf.setter def a_texcoordf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_inf) data_view.set(value) self.a_texcoordf3_array_inf_size = data_view.get_array_size() @property def a_texcoordf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_nan) return data_view.get(reserved_element_count=self.a_texcoordf3_array_nan_size) @a_texcoordf3_array_nan.setter def a_texcoordf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_nan) data_view.set(value) self.a_texcoordf3_array_nan_size = data_view.get_array_size() @property def a_texcoordf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordf3_array_ninf_size) @a_texcoordf3_array_ninf.setter def a_texcoordf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_ninf) data_view.set(value) self.a_texcoordf3_array_ninf_size = data_view.get_array_size() @property def a_texcoordf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_snan) return data_view.get(reserved_element_count=self.a_texcoordf3_array_snan_size) @a_texcoordf3_array_snan.setter def a_texcoordf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_snan) data_view.set(value) self.a_texcoordf3_array_snan_size = data_view.get_array_size() @property def a_texcoordf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_inf) return data_view.get() @a_texcoordf3_inf.setter def a_texcoordf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_inf) data_view.set(value) @property def a_texcoordf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_nan) return data_view.get() @a_texcoordf3_nan.setter def a_texcoordf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_nan) data_view.set(value) @property def a_texcoordf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_ninf) return data_view.get() @a_texcoordf3_ninf.setter def a_texcoordf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_ninf) data_view.set(value) @property def a_texcoordf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_snan) return data_view.get() @a_texcoordf3_snan.setter def a_texcoordf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_snan) data_view.set(value) @property def a_texcoordh2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_inf) return data_view.get(reserved_element_count=self.a_texcoordh2_array_inf_size) @a_texcoordh2_array_inf.setter def a_texcoordh2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_inf) data_view.set(value) self.a_texcoordh2_array_inf_size = data_view.get_array_size() @property def a_texcoordh2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_nan) return data_view.get(reserved_element_count=self.a_texcoordh2_array_nan_size) @a_texcoordh2_array_nan.setter def a_texcoordh2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_nan) data_view.set(value) self.a_texcoordh2_array_nan_size = data_view.get_array_size() @property def a_texcoordh2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordh2_array_ninf_size) @a_texcoordh2_array_ninf.setter def a_texcoordh2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_ninf) data_view.set(value) self.a_texcoordh2_array_ninf_size = data_view.get_array_size() @property def a_texcoordh2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_snan) return data_view.get(reserved_element_count=self.a_texcoordh2_array_snan_size) @a_texcoordh2_array_snan.setter def a_texcoordh2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_snan) data_view.set(value) self.a_texcoordh2_array_snan_size = data_view.get_array_size() @property def a_texcoordh2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_inf) return data_view.get() @a_texcoordh2_inf.setter def a_texcoordh2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_inf) data_view.set(value) @property def a_texcoordh2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_nan) return data_view.get() @a_texcoordh2_nan.setter def a_texcoordh2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_nan) data_view.set(value) @property def a_texcoordh2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_ninf) return data_view.get() @a_texcoordh2_ninf.setter def a_texcoordh2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_ninf) data_view.set(value) @property def a_texcoordh2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_snan) return data_view.get() @a_texcoordh2_snan.setter def a_texcoordh2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_snan) data_view.set(value) @property def a_texcoordh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_inf) return data_view.get(reserved_element_count=self.a_texcoordh3_array_inf_size) @a_texcoordh3_array_inf.setter def a_texcoordh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_inf) data_view.set(value) self.a_texcoordh3_array_inf_size = data_view.get_array_size() @property def a_texcoordh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_nan) return data_view.get(reserved_element_count=self.a_texcoordh3_array_nan_size) @a_texcoordh3_array_nan.setter def a_texcoordh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_nan) data_view.set(value) self.a_texcoordh3_array_nan_size = data_view.get_array_size() @property def a_texcoordh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordh3_array_ninf_size) @a_texcoordh3_array_ninf.setter def a_texcoordh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_ninf) data_view.set(value) self.a_texcoordh3_array_ninf_size = data_view.get_array_size() @property def a_texcoordh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_snan) return data_view.get(reserved_element_count=self.a_texcoordh3_array_snan_size) @a_texcoordh3_array_snan.setter def a_texcoordh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_snan) data_view.set(value) self.a_texcoordh3_array_snan_size = data_view.get_array_size() @property def a_texcoordh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_inf) return data_view.get() @a_texcoordh3_inf.setter def a_texcoordh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_inf) data_view.set(value) @property def a_texcoordh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_nan) return data_view.get() @a_texcoordh3_nan.setter def a_texcoordh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_nan) data_view.set(value) @property def a_texcoordh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_ninf) return data_view.get() @a_texcoordh3_ninf.setter def a_texcoordh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_ninf) data_view.set(value) @property def a_texcoordh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_snan) return data_view.get() @a_texcoordh3_snan.setter def a_texcoordh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_snan) data_view.set(value) @property def a_timecode_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_inf) return data_view.get(reserved_element_count=self.a_timecode_array_inf_size) @a_timecode_array_inf.setter def a_timecode_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_inf) data_view.set(value) self.a_timecode_array_inf_size = data_view.get_array_size() @property def a_timecode_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_nan) return data_view.get(reserved_element_count=self.a_timecode_array_nan_size) @a_timecode_array_nan.setter def a_timecode_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_nan) data_view.set(value) self.a_timecode_array_nan_size = data_view.get_array_size() @property def a_timecode_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_ninf) return data_view.get(reserved_element_count=self.a_timecode_array_ninf_size) @a_timecode_array_ninf.setter def a_timecode_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_ninf) data_view.set(value) self.a_timecode_array_ninf_size = data_view.get_array_size() @property def a_timecode_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_snan) return data_view.get(reserved_element_count=self.a_timecode_array_snan_size) @a_timecode_array_snan.setter def a_timecode_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_snan) data_view.set(value) self.a_timecode_array_snan_size = data_view.get_array_size() @property def a_timecode_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_inf) return data_view.get() @a_timecode_inf.setter def a_timecode_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_inf) data_view.set(value) @property def a_timecode_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_nan) return data_view.get() @a_timecode_nan.setter def a_timecode_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_nan) data_view.set(value) @property def a_timecode_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_ninf) return data_view.get() @a_timecode_ninf.setter def a_timecode_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_ninf) data_view.set(value) @property def a_timecode_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_snan) return data_view.get() @a_timecode_snan.setter def a_timecode_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_snan) data_view.set(value) @property def a_vectord3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_inf) return data_view.get(reserved_element_count=self.a_vectord3_array_inf_size) @a_vectord3_array_inf.setter def a_vectord3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_inf) data_view.set(value) self.a_vectord3_array_inf_size = data_view.get_array_size() @property def a_vectord3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_nan) return data_view.get(reserved_element_count=self.a_vectord3_array_nan_size) @a_vectord3_array_nan.setter def a_vectord3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_nan) data_view.set(value) self.a_vectord3_array_nan_size = data_view.get_array_size() @property def a_vectord3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_ninf) return data_view.get(reserved_element_count=self.a_vectord3_array_ninf_size) @a_vectord3_array_ninf.setter def a_vectord3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_ninf) data_view.set(value) self.a_vectord3_array_ninf_size = data_view.get_array_size() @property def a_vectord3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_snan) return data_view.get(reserved_element_count=self.a_vectord3_array_snan_size) @a_vectord3_array_snan.setter def a_vectord3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_snan) data_view.set(value) self.a_vectord3_array_snan_size = data_view.get_array_size() @property def a_vectord3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_inf) return data_view.get() @a_vectord3_inf.setter def a_vectord3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_inf) data_view.set(value) @property def a_vectord3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_nan) return data_view.get() @a_vectord3_nan.setter def a_vectord3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_nan) data_view.set(value) @property def a_vectord3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_ninf) return data_view.get() @a_vectord3_ninf.setter def a_vectord3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_ninf) data_view.set(value) @property def a_vectord3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_snan) return data_view.get() @a_vectord3_snan.setter def a_vectord3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_snan) data_view.set(value) @property def a_vectorf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_inf) return data_view.get(reserved_element_count=self.a_vectorf3_array_inf_size) @a_vectorf3_array_inf.setter def a_vectorf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_inf) data_view.set(value) self.a_vectorf3_array_inf_size = data_view.get_array_size() @property def a_vectorf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_nan) return data_view.get(reserved_element_count=self.a_vectorf3_array_nan_size) @a_vectorf3_array_nan.setter def a_vectorf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_nan) data_view.set(value) self.a_vectorf3_array_nan_size = data_view.get_array_size() @property def a_vectorf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_ninf) return data_view.get(reserved_element_count=self.a_vectorf3_array_ninf_size) @a_vectorf3_array_ninf.setter def a_vectorf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_ninf) data_view.set(value) self.a_vectorf3_array_ninf_size = data_view.get_array_size() @property def a_vectorf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_snan) return data_view.get(reserved_element_count=self.a_vectorf3_array_snan_size) @a_vectorf3_array_snan.setter def a_vectorf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_snan) data_view.set(value) self.a_vectorf3_array_snan_size = data_view.get_array_size() @property def a_vectorf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_inf) return data_view.get() @a_vectorf3_inf.setter def a_vectorf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_inf) data_view.set(value) @property def a_vectorf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_nan) return data_view.get() @a_vectorf3_nan.setter def a_vectorf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_nan) data_view.set(value) @property def a_vectorf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_ninf) return data_view.get() @a_vectorf3_ninf.setter def a_vectorf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_ninf) data_view.set(value) @property def a_vectorf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_snan) return data_view.get() @a_vectorf3_snan.setter def a_vectorf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_snan) data_view.set(value) @property def a_vectorh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_inf) return data_view.get(reserved_element_count=self.a_vectorh3_array_inf_size) @a_vectorh3_array_inf.setter def a_vectorh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_inf) data_view.set(value) self.a_vectorh3_array_inf_size = data_view.get_array_size() @property def a_vectorh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_nan) return data_view.get(reserved_element_count=self.a_vectorh3_array_nan_size) @a_vectorh3_array_nan.setter def a_vectorh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_nan) data_view.set(value) self.a_vectorh3_array_nan_size = data_view.get_array_size() @property def a_vectorh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_ninf) return data_view.get(reserved_element_count=self.a_vectorh3_array_ninf_size) @a_vectorh3_array_ninf.setter def a_vectorh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_ninf) data_view.set(value) self.a_vectorh3_array_ninf_size = data_view.get_array_size() @property def a_vectorh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_snan) return data_view.get(reserved_element_count=self.a_vectorh3_array_snan_size) @a_vectorh3_array_snan.setter def a_vectorh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_snan) data_view.set(value) self.a_vectorh3_array_snan_size = data_view.get_array_size() @property def a_vectorh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_inf) return data_view.get() @a_vectorh3_inf.setter def a_vectorh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_inf) data_view.set(value) @property def a_vectorh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_nan) return data_view.get() @a_vectorh3_nan.setter def a_vectorh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_nan) data_view.set(value) @property def a_vectorh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_ninf) return data_view.get() @a_vectorh3_ninf.setter def a_vectorh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_ninf) data_view.set(value) @property def a_vectorh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_snan) return data_view.get() @a_vectorh3_snan.setter def a_vectorh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_snan) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestNanInfDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestNanInfDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestNanInfDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	500,510	Python	51.272689	919	0.605872
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnRandomBundlePointsDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.RandomBundlePoints Generate a bundle of 'bundleSize' arrays of 'pointCount' points at random locations within the bounding cube delineated by the corner points 'minimum' and 'maximum'. """ import carb import numpy import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnRandomBundlePointsDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.RandomBundlePoints Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.bundleSize inputs.maximum inputs.minimum inputs.pointCount Outputs: outputs.bundle """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:bundleSize', 'int', 0, 'Bundle Size', 'Number of point attributes to generate in the bundle', {}, True, 0, False, ''), ('inputs:maximum', 'point3f', 0, 'Bounding Cube Maximum', 'Highest X, Y, Z values for the bounding volume', {ogn.MetadataKeys.DEFAULT: '[1.0, 1.0, 1.0]'}, True, [1.0, 1.0, 1.0], False, ''), ('inputs:minimum', 'point3f', 0, 'Bounding Cube Minimum', 'Lowest X, Y, Z values for the bounding volume', {ogn.MetadataKeys.DEFAULT: '[0.0, 0.0, 0.0]'}, True, [0.0, 0.0, 0.0], False, ''), ('inputs:pointCount', 'uint64', 0, 'Point Count', 'Number of points to generate', {}, True, 0, False, ''), ('outputs:bundle', 'bundle', 0, 'Random Bundle', 'Randomly generated bundle of attributes containing random points', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.maximum = og.AttributeRole.POSITION role_data.inputs.minimum = og.AttributeRole.POSITION role_data.outputs.bundle = og.AttributeRole.BUNDLE return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def bundleSize(self): data_view = og.AttributeValueHelper(self._attributes.bundleSize) return data_view.get() @bundleSize.setter def bundleSize(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.bundleSize) data_view = og.AttributeValueHelper(self._attributes.bundleSize) data_view.set(value) @property def maximum(self): data_view = og.AttributeValueHelper(self._attributes.maximum) return data_view.get() @maximum.setter def maximum(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.maximum) data_view = og.AttributeValueHelper(self._attributes.maximum) data_view.set(value) @property def minimum(self): data_view = og.AttributeValueHelper(self._attributes.minimum) return data_view.get() @minimum.setter def minimum(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.minimum) data_view = og.AttributeValueHelper(self._attributes.minimum) data_view.set(value) @property def pointCount(self): data_view = og.AttributeValueHelper(self._attributes.pointCount) return data_view.get() @pointCount.setter def pointCount(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.pointCount) data_view = og.AttributeValueHelper(self._attributes.pointCount) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self._batchedWriteValues = { } @property def bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute outputs.bundle""" return self.__bundles.bundle @bundle.setter def bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute outputs.bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.bundle.bundle = bundle def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnRandomBundlePointsDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnRandomBundlePointsDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnRandomBundlePointsDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	7,913	Python	46.389221	197	0.657652
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestScatterDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TestScatter Test node to test out the effects of vectorization. Scatters the results of gathered compute back to FC """ import carb import numpy import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestScatterDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestScatter Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.gathered_paths inputs.rotations Outputs: outputs.gathered_paths outputs.rotations outputs.single_rotation """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:gathered_paths', 'token[]', 0, None, 'The paths of the gathered objects', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('inputs:rotations', 'double3[]', 0, None, 'The rotations of the gathered points', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('outputs:gathered_paths', 'token[]', 0, None, 'The paths of the gathered objects', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('outputs:rotations', 'double3[]', 0, None, 'The rotations of the gathered points', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('outputs:single_rotation', 'double3', 0, None, 'Placeholder single rotation until we get the scatter working properly', {ogn.MetadataKeys.DEFAULT: '[0, 0, 0]'}, True, [0, 0, 0], False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def gathered_paths(self): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) return data_view.get() @gathered_paths.setter def gathered_paths(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.gathered_paths) data_view = og.AttributeValueHelper(self._attributes.gathered_paths) data_view.set(value) self.gathered_paths_size = data_view.get_array_size() @property def rotations(self): data_view = og.AttributeValueHelper(self._attributes.rotations) return data_view.get() @rotations.setter def rotations(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.rotations) data_view = og.AttributeValueHelper(self._attributes.rotations) data_view.set(value) self.rotations_size = data_view.get_array_size() def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.gathered_paths_size = 0 self.rotations_size = 0 self._batchedWriteValues = { } @property def gathered_paths(self): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) return data_view.get(reserved_element_count=self.gathered_paths_size) @gathered_paths.setter def gathered_paths(self, value): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) data_view.set(value) self.gathered_paths_size = data_view.get_array_size() @property def rotations(self): data_view = og.AttributeValueHelper(self._attributes.rotations) return data_view.get(reserved_element_count=self.rotations_size) @rotations.setter def rotations(self, value): data_view = og.AttributeValueHelper(self._attributes.rotations) data_view.set(value) self.rotations_size = data_view.get_array_size() @property def single_rotation(self): data_view = og.AttributeValueHelper(self._attributes.single_rotation) return data_view.get() @single_rotation.setter def single_rotation(self, value): data_view = og.AttributeValueHelper(self._attributes.single_rotation) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestScatterDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestScatterDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestScatterDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	7,389	Python	46.677419	198	0.658411
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestWriteVariablePyDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TestWriteVariablePy Node that test writes a value to a variable in python """ from typing import Any import carb import sys import traceback import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestWriteVariablePyDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestWriteVariablePy Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.execIn inputs.value inputs.variableName Outputs: outputs.execOut outputs.value """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:execIn', 'execution', 0, None, 'Input execution state', {}, True, None, False, ''), ('inputs:value', 'any', 2, None, 'The new value to be written', {}, True, None, False, ''), ('inputs:variableName', 'token', 0, None, 'The name of the graph variable to use.', {}, True, "", False, ''), ('outputs:execOut', 'execution', 0, None, 'Output execution', {}, True, None, False, ''), ('outputs:value', 'any', 2, None, 'The newly written value', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.execIn = og.AttributeRole.EXECUTION role_data.outputs.execOut = og.AttributeRole.EXECUTION return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = {"execIn", "variableName", "_setting_locked", "_batchedReadAttributes", "_batchedReadValues"} """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [self._attributes.execIn, self._attributes.variableName] self._batchedReadValues = [None, ""] @property def value(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute inputs.value""" return og.RuntimeAttribute(self._attributes.value.get_attribute_data(), self._context, True) @value.setter def value(self, value_to_set: Any): """Assign another attribute's value to outputs.value""" if isinstance(value_to_set, og.RuntimeAttribute): self.value.value = value_to_set.value else: self.value.value = value_to_set @property def execIn(self): return self._batchedReadValues[0] @execIn.setter def execIn(self, value): self._batchedReadValues[0] = value @property def variableName(self): return self._batchedReadValues[1] @variableName.setter def variableName(self, value): self._batchedReadValues[1] = value def __getattr__(self, item: str): if item in self.LOCAL_PROPERTY_NAMES: return object.__getattribute__(self, item) else: return super().__getattr__(item) def __setattr__(self, item: str, new_value): if item in self.LOCAL_PROPERTY_NAMES: object.__setattr__(self, item, new_value) else: super().__setattr__(item, new_value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = {"execOut", "_batchedWriteValues"} """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def value(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.value""" return og.RuntimeAttribute(self._attributes.value.get_attribute_data(), self._context, False) @value.setter def value(self, value_to_set: Any): """Assign another attribute's value to outputs.value""" if isinstance(value_to_set, og.RuntimeAttribute): self.value.value = value_to_set.value else: self.value.value = value_to_set @property def execOut(self): value = self._batchedWriteValues.get(self._attributes.execOut) if value: return value else: data_view = og.AttributeValueHelper(self._attributes.execOut) return data_view.get() @execOut.setter def execOut(self, value): self._batchedWriteValues[self._attributes.execOut] = value def __getattr__(self, item: str): if item in self.LOCAL_PROPERTY_NAMES: return object.__getattribute__(self, item) else: return super().__getattr__(item) def __setattr__(self, item: str, new_value): if item in self.LOCAL_PROPERTY_NAMES: object.__setattr__(self, item, new_value) else: super().__setattr__(item, new_value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestWriteVariablePyDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestWriteVariablePyDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestWriteVariablePyDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes) class abi: """Class defining the ABI interface for the node type""" @staticmethod def get_node_type(): get_node_type_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'get_node_type', None) if callable(get_node_type_function): return get_node_type_function() return 'omni.graph.test.TestWriteVariablePy' @staticmethod def compute(context, node): def database_valid(): if db.inputs.value.type.base_type == og.BaseDataType.UNKNOWN: db.log_warning('Required extended attribute inputs:value is not resolved, compute skipped') return False if db.outputs.value.type.base_type == og.BaseDataType.UNKNOWN: db.log_warning('Required extended attribute outputs:value is not resolved, compute skipped') return False return True try: per_node_data = OgnTestWriteVariablePyDatabase.PER_NODE_DATA[node.node_id()] db = per_node_data.get('_db') if db is None: db = OgnTestWriteVariablePyDatabase(node) per_node_data['_db'] = db if not database_valid(): per_node_data['_db'] = None return False except: db = OgnTestWriteVariablePyDatabase(node) try: compute_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'compute', None) if callable(compute_function) and compute_function.__code__.co_argcount > 1: return compute_function(context, node) db.inputs._prefetch() db.inputs._setting_locked = True with og.in_compute(): return OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS.compute(db) except Exception as error: stack_trace = "".join(traceback.format_tb(sys.exc_info()[2].tb_next)) db.log_error(f'Assertion raised in compute - {error}\n{stack_trace}', add_context=False) finally: db.inputs._setting_locked = False db.outputs._commit() return False @staticmethod def initialize(context, node): OgnTestWriteVariablePyDatabase._initialize_per_node_data(node) initialize_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'initialize', None) if callable(initialize_function): initialize_function(context, node) per_node_data = OgnTestWriteVariablePyDatabase.PER_NODE_DATA[node.node_id()] def on_connection_or_disconnection(*args): per_node_data['_db'] = None node.register_on_connected_callback(on_connection_or_disconnection) node.register_on_disconnected_callback(on_connection_or_disconnection) @staticmethod def release(node): release_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'release', None) if callable(release_function): release_function(node) OgnTestWriteVariablePyDatabase._release_per_node_data(node) @staticmethod def release_instance(node, target): OgnTestWriteVariablePyDatabase._release_per_node_instance_data(node, target) @staticmethod def update_node_version(context, node, old_version, new_version): update_node_version_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'update_node_version', None) if callable(update_node_version_function): return update_node_version_function(context, node, old_version, new_version) return False @staticmethod def initialize_type(node_type): initialize_type_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'initialize_type', None) needs_initializing = True if callable(initialize_type_function): needs_initializing = initialize_type_function(node_type) if needs_initializing: node_type.set_metadata(ogn.MetadataKeys.EXTENSION, "omni.graph.test") node_type.set_metadata(ogn.MetadataKeys.UI_NAME, "Write Variable") node_type.set_metadata(ogn.MetadataKeys.CATEGORIES, "internal:test") node_type.set_metadata(ogn.MetadataKeys.DESCRIPTION, "Node that test writes a value to a variable in python") node_type.set_metadata(ogn.MetadataKeys.EXCLUSIONS, "tests,usd,docs") node_type.set_metadata(ogn.MetadataKeys.LANGUAGE, "Python") icon_path = carb.tokens.get_tokens_interface().resolve("${omni.graph.test}") icon_path = icon_path + '/' + "ogn/icons/omni.graph.test.TestWriteVariablePy.svg" node_type.set_metadata(ogn.MetadataKeys.ICON_PATH, icon_path) OgnTestWriteVariablePyDatabase.INTERFACE.add_to_node_type(node_type) @staticmethod def on_connection_type_resolve(node): on_connection_type_resolve_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'on_connection_type_resolve', None) if callable(on_connection_type_resolve_function): on_connection_type_resolve_function(node) NODE_TYPE_CLASS = None @staticmethod def register(node_type_class): OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS = node_type_class og.register_node_type(OgnTestWriteVariablePyDatabase.abi, 1) @staticmethod def deregister(): og.deregister_node_type("omni.graph.test.TestWriteVariablePy")	13,982	Python	45.61	141	0.629667
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestTypeResolutionDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TypeResolution Test node, explicitly constructed to make the attribute type resolution mechanism testable. It has output attributes with union and any types whose type will be resolved at runtime when they are connected to inputs with a fixed type. The extra string output provides the resolution information to the test script for verification """ from typing import Any import carb import numpy import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestTypeResolutionDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TypeResolution Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.anyValueIn Outputs: outputs.anyValue outputs.arrayValue outputs.mixedValue outputs.resolvedType outputs.tupleArrayValue outputs.tupleValue outputs.value """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:anyValueIn', 'any', 2, None, 'Input that can resolve to any type. Internally the node couples \nthe types of inputs:anyValueIn -> outputs:anyValue. Meaning if one is resolved it will\nautomatically resolve the other', {}, True, None, False, ''), ('outputs:anyValue', 'any', 2, None, 'Output that can resolve to any type at all', {}, True, None, False, ''), ('outputs:arrayValue', 'double[],float[],int64[],int[],uint64[],uint[]', 1, None, 'Output that only resolves to one of the numeric array types.', {}, True, None, False, ''), ('outputs:mixedValue', 'float,float[3],float[3][],float[]', 1, None, 'Output that can resolve to data of different shapes.', {}, True, None, False, ''), ('outputs:resolvedType', 'token[]', 0, None, "Array of strings representing the output attribute's type resolutions.\nThe array items consist of comma-separated pairs of strings representing\nthe output attribute name and the type to which it is currently resolved.\ne.g. if the attribute 'foo' is an integer there would be one entry in the array\nwith the string 'foo,int'", {}, True, None, False, ''), ('outputs:tupleArrayValue', 'double[3][],float[3][],int[3][]', 1, None, 'Output that only resolves to one of the numeric tuple array types.', {}, True, None, False, ''), ('outputs:tupleValue', 'double[3],float[3],int[3]', 1, None, 'Output that only resolves to one of the numeric tuple types.', {}, True, None, False, ''), ('outputs:value', 'double,float,int,int64,uint,uint64', 1, None, 'Output that only resolves to one of the numeric types.', {}, True, None, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def anyValueIn(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute inputs.anyValueIn""" return og.RuntimeAttribute(self._attributes.anyValueIn.get_attribute_data(), self._context, True) @anyValueIn.setter def anyValueIn(self, value_to_set: Any): """Assign another attribute's value to outputs.anyValueIn""" if isinstance(value_to_set, og.RuntimeAttribute): self.anyValueIn.value = value_to_set.value else: self.anyValueIn.value = value_to_set def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.resolvedType_size = None self._batchedWriteValues = { } @property def anyValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.anyValue""" return og.RuntimeAttribute(self._attributes.anyValue.get_attribute_data(), self._context, False) @anyValue.setter def anyValue(self, value_to_set: Any): """Assign another attribute's value to outputs.anyValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.anyValue.value = value_to_set.value else: self.anyValue.value = value_to_set @property def arrayValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.arrayValue""" return og.RuntimeAttribute(self._attributes.arrayValue.get_attribute_data(), self._context, False) @arrayValue.setter def arrayValue(self, value_to_set: Any): """Assign another attribute's value to outputs.arrayValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.arrayValue.value = value_to_set.value else: self.arrayValue.value = value_to_set @property def mixedValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.mixedValue""" return og.RuntimeAttribute(self._attributes.mixedValue.get_attribute_data(), self._context, False) @mixedValue.setter def mixedValue(self, value_to_set: Any): """Assign another attribute's value to outputs.mixedValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.mixedValue.value = value_to_set.value else: self.mixedValue.value = value_to_set @property def resolvedType(self): data_view = og.AttributeValueHelper(self._attributes.resolvedType) return data_view.get(reserved_element_count=self.resolvedType_size) @resolvedType.setter def resolvedType(self, value): data_view = og.AttributeValueHelper(self._attributes.resolvedType) data_view.set(value) self.resolvedType_size = data_view.get_array_size() @property def tupleArrayValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.tupleArrayValue""" return og.RuntimeAttribute(self._attributes.tupleArrayValue.get_attribute_data(), self._context, False) @tupleArrayValue.setter def tupleArrayValue(self, value_to_set: Any): """Assign another attribute's value to outputs.tupleArrayValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.tupleArrayValue.value = value_to_set.value else: self.tupleArrayValue.value = value_to_set @property def tupleValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.tupleValue""" return og.RuntimeAttribute(self._attributes.tupleValue.get_attribute_data(), self._context, False) @tupleValue.setter def tupleValue(self, value_to_set: Any): """Assign another attribute's value to outputs.tupleValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.tupleValue.value = value_to_set.value else: self.tupleValue.value = value_to_set @property def value(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.value""" return og.RuntimeAttribute(self._attributes.value.get_attribute_data(), self._context, False) @value.setter def value(self, value_to_set: Any): """Assign another attribute's value to outputs.value""" if isinstance(value_to_set, og.RuntimeAttribute): self.value.value = value_to_set.value else: self.value.value = value_to_set def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestTypeResolutionDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestTypeResolutionDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestTypeResolutionDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	10,983	Python	52.062802	411	0.660748
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestCppKeywordsDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TestCppKeywords Test that attributes named for C++ keywords produce valid code """ import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestCppKeywordsDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestCppKeywords Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.atomic_cancel inputs.atomic_commit inputs.atomic_noexcept inputs.consteval inputs.constinit inputs.reflexpr inputs.requires Outputs: outputs.verify """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:atomic_cancel', 'float', 0, None, 'KW Test for atomic_cancel', {}, True, 0.0, False, ''), ('inputs:atomic_commit', 'float', 0, None, 'KW Test for atomic_commit', {}, True, 0.0, False, ''), ('inputs:atomic_noexcept', 'float', 0, None, 'KW Test for atomic_noexcept', {}, True, 0.0, False, ''), ('inputs:consteval', 'float', 0, None, 'KW Test for consteval', {}, True, 0.0, False, ''), ('inputs:constinit', 'float', 0, None, 'KW Test for constinit', {}, True, 0.0, False, ''), ('inputs:reflexpr', 'float', 0, None, 'KW Test for reflexpr', {}, True, 0.0, False, ''), ('inputs:requires', 'float', 0, None, 'KW Test for requires', {}, True, 0.0, False, ''), ('outputs:verify', 'bool', 0, None, 'Flag to indicate that a node was created and executed', {}, True, None, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def atomic_cancel(self): data_view = og.AttributeValueHelper(self._attributes.atomic_cancel) return data_view.get() @atomic_cancel.setter def atomic_cancel(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.atomic_cancel) data_view = og.AttributeValueHelper(self._attributes.atomic_cancel) data_view.set(value) @property def atomic_commit(self): data_view = og.AttributeValueHelper(self._attributes.atomic_commit) return data_view.get() @atomic_commit.setter def atomic_commit(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.atomic_commit) data_view = og.AttributeValueHelper(self._attributes.atomic_commit) data_view.set(value) @property def atomic_noexcept(self): data_view = og.AttributeValueHelper(self._attributes.atomic_noexcept) return data_view.get() @atomic_noexcept.setter def atomic_noexcept(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.atomic_noexcept) data_view = og.AttributeValueHelper(self._attributes.atomic_noexcept) data_view.set(value) @property def consteval(self): data_view = og.AttributeValueHelper(self._attributes.consteval) return data_view.get() @consteval.setter def consteval(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.consteval) data_view = og.AttributeValueHelper(self._attributes.consteval) data_view.set(value) @property def constinit(self): data_view = og.AttributeValueHelper(self._attributes.constinit) return data_view.get() @constinit.setter def constinit(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.constinit) data_view = og.AttributeValueHelper(self._attributes.constinit) data_view.set(value) @property def reflexpr(self): data_view = og.AttributeValueHelper(self._attributes.reflexpr) return data_view.get() @reflexpr.setter def reflexpr(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.reflexpr) data_view = og.AttributeValueHelper(self._attributes.reflexpr) data_view.set(value) @property def requires(self): data_view = og.AttributeValueHelper(self._attributes.requires) return data_view.get() @requires.setter def requires(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.requires) data_view = og.AttributeValueHelper(self._attributes.requires) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def verify(self): data_view = og.AttributeValueHelper(self._attributes.verify) return data_view.get() @verify.setter def verify(self, value): data_view = og.AttributeValueHelper(self._attributes.verify) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestCppKeywordsDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestCppKeywordsDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestCppKeywordsDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	8,546	Python	43.284974	128	0.639129
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestAddAnyTypeAnyMemoryDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.TestAddAnyTypeAnyMemory Test node that sum 2 runtime attributes that live either on the cpu or the gpu """ from typing import Any import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestAddAnyTypeAnyMemoryDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestAddAnyTypeAnyMemory Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.scalar inputs.vec Outputs: outputs.outCpu outputs.outGpu """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:scalar', 'double,float', 1, None, 'A scalar to add to each vector component', {ogn.MetadataKeys.MEMORY_TYPE: 'any'}, True, None, False, ''), ('inputs:vec', 'double[3],float[3]', 1, None, 'vector[3] Input ', {ogn.MetadataKeys.MEMORY_TYPE: 'any'}, True, None, False, ''), ('outputs:outCpu', 'double[3],float[3]', 1, None, 'The result of the scalar added to each component of the vector on the CPU', {ogn.MetadataKeys.MEMORY_TYPE: 'cpu'}, True, None, False, ''), ('outputs:outGpu', 'double[3],float[3]', 1, None, 'The result of the scalar added to each component of the vector on the GPU', {ogn.MetadataKeys.MEMORY_TYPE: 'cuda'}, True, None, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def scalar(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute inputs.scalar""" return og.RuntimeAttribute(self._attributes.scalar.get_attribute_data(), self._context, True) @scalar.setter def scalar(self, value_to_set: Any): """Assign another attribute's value to outputs.scalar""" if isinstance(value_to_set, og.RuntimeAttribute): self.scalar.value = value_to_set.value else: self.scalar.value = value_to_set @property def vec(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute inputs.vec""" return og.RuntimeAttribute(self._attributes.vec.get_attribute_data(), self._context, True) @vec.setter def vec(self, value_to_set: Any): """Assign another attribute's value to outputs.vec""" if isinstance(value_to_set, og.RuntimeAttribute): self.vec.value = value_to_set.value else: self.vec.value = value_to_set def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def outCpu(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.outCpu""" return og.RuntimeAttribute(self._attributes.outCpu.get_attribute_data(), self._context, False) @outCpu.setter def outCpu(self, value_to_set: Any): """Assign another attribute's value to outputs.outCpu""" if isinstance(value_to_set, og.RuntimeAttribute): self.outCpu.value = value_to_set.value else: self.outCpu.value = value_to_set @property def outGpu(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.outGpu""" return og.RuntimeAttribute(self._attributes.outGpu.get_attribute_data(), self._context, False) @outGpu.setter def outGpu(self, value_to_set: Any): """Assign another attribute's value to outputs.outGpu""" if isinstance(value_to_set, og.RuntimeAttribute): self.outGpu.value = value_to_set.value else: self.outGpu.value = value_to_set def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestAddAnyTypeAnyMemoryDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestAddAnyTypeAnyMemoryDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestAddAnyTypeAnyMemoryDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	7,203	Python	48.682758	198	0.658059
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnPerturbBundlePointsDatabase.py	"""Support for simplified access to data on nodes of type omni.graph.test.PerturbBundlePoints Randomly modify positions on all points attributes within a bundle """ import carb import numpy import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnPerturbBundlePointsDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.PerturbBundlePoints Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.bundle inputs.maximum inputs.minimum inputs.percentModified Outputs: outputs.bundle """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:bundle', 'bundle', 0, 'Original Bundle', 'Bundle containing arrays of points to be perturbed', {}, True, None, False, ''), ('inputs:maximum', 'point3f', 0, 'Perturb Maximum', 'Maximum values of the perturbation', {ogn.MetadataKeys.DEFAULT: '[1.0, 1.0, 1.0]'}, True, [1.0, 1.0, 1.0], False, ''), ('inputs:minimum', 'point3f', 0, 'Perturb Minimum', 'Minimum values of the perturbation', {ogn.MetadataKeys.DEFAULT: '[0.0, 0.0, 0.0]'}, True, [0.0, 0.0, 0.0], False, ''), ('inputs:percentModified', 'float', 0, 'Percentage Modified', 'Percentage of points to modify, decided by striding across point set', {ogn.MetadataKeys.DEFAULT: '100.0'}, True, 100.0, False, ''), ('outputs:bundle', 'bundle', 0, 'Perturbed Bundle', 'Bundle containing arrays of points that were perturbed', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.bundle = og.AttributeRole.BUNDLE role_data.inputs.maximum = og.AttributeRole.POSITION role_data.inputs.minimum = og.AttributeRole.POSITION role_data.outputs.bundle = og.AttributeRole.BUNDLE return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=True, gpu_ptr_kinds={}) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute inputs.bundle""" return self.__bundles.bundle @property def maximum(self): data_view = og.AttributeValueHelper(self._attributes.maximum) return data_view.get() @maximum.setter def maximum(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.maximum) data_view = og.AttributeValueHelper(self._attributes.maximum) data_view.set(value) @property def minimum(self): data_view = og.AttributeValueHelper(self._attributes.minimum) return data_view.get() @minimum.setter def minimum(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.minimum) data_view = og.AttributeValueHelper(self._attributes.minimum) data_view.set(value) @property def percentModified(self): data_view = og.AttributeValueHelper(self._attributes.percentModified) return data_view.get() @percentModified.setter def percentModified(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.percentModified) data_view = og.AttributeValueHelper(self._attributes.percentModified) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self._batchedWriteValues = { } @property def bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute outputs.bundle""" return self.__bundles.bundle @bundle.setter def bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute outputs.bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.bundle.bundle = bundle def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnPerturbBundlePointsDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnPerturbBundlePointsDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnPerturbBundlePointsDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)	7,818	Python	47.565217	203	0.661678
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestOptionalExtended.py	"""Test node exercising the 'optional' flag on extended attributes""" import omni.graph.core as og class OgnTestOptionalExtended: @staticmethod def compute(db) -> bool: """Moves the 'other' input to the 'other' output if both of the optional attributes are not resolved, sets the 'other' output to the default value if only one of them is resolved, and copies the 'optional' input to the 'optional' output if both are resolved. (Since this is a test node we can count on the resolution types being compatible.) """ if db.attributes.inputs.optional.get_resolved_type().base_type == og.BaseDataType.UNKNOWN: if db.attributes.outputs.optional.get_resolved_type().base_type == og.BaseDataType.UNKNOWN: db.outputs.other = db.inputs.other else: db.outputs.other = 10 elif db.attributes.outputs.optional.get_resolved_type().base_type != og.BaseDataType.UNKNOWN: db.outputs.optional = db.inputs.optional else: db.outputs.other = 10	1,078	Python	48.045452	118	0.663265
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestIsolate.cpp	// 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. // #include <OgnTestIsolateDatabase.h> #include "../include/omni/graph/test/ConcurrencyState.h" // This is the implementation of the OGN node defined in OgnTestIsolate.ogn // This node is used as part of a unit test in ../python/tests/test_execution.py namespace omni { namespace graph { namespace test { class OgnTestIsolate { public: static bool compute(OgnTestIsolateDatabase& db) { db.outputs.result() = false; // Use a race condition finder to confirm that there is no collision between serial and/or isolated // tasks. If we crash in here, that means ParallelScheduler is not respecting scheduling constraints. omni::graph::exec::unstable::RaceConditionFinder::Scope detectIssues(getConcurrencyState().raceConditionFinder); // In addition to ensuring that no other threads try to access the resources held by // this node/the thread this node gets evaluated in, Isolate scheduling implies that only // a SINGLE thread processing the current Isolate node can be computing (until said node // is done being evaluated). To validate that this is the case, try to grab an exclusive // lock over the global shared mutex. If this node is unable to do that (because concurrently- // running nodes have ownership over it at the moment), we'll return false. Also, if another // node/thread tries to access said shared mutex while this node is evaluating, the test will // end up failing as well. // Return early if TestIsolate can't exclusively own the shared mutex. outputs:result was already // set to false at the start, so no need to do anything else. if (!getConcurrencyState().sharedMutex.try_lock()) { return true; } // Sleep for a while (simulate expensive compute/allows for potential race conditions to occur). std::this_thread::sleep_for(std::chrono::milliseconds(100)); // Unlock the shared mutex, set output:result to true. db.outputs.result() = true; getConcurrencyState().sharedMutex.unlock(); return true; } }; REGISTER_OGN_NODE() } // test } // namespace graph } // namespace omni	2,644	C++	41.66129	120	0.711422
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestSerial.cpp	// 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. // #include "../include/omni/graph/test/ConcurrencyState.h" #include <OgnTestSerialDatabase.h> // This is the implementation of the OGN node defined in OgnTestSerial.ogn namespace omni { namespace graph { namespace test { class OgnTestSerial { public: static bool compute(OgnTestSerialDatabase& db) { db.outputs.result() = false; // Use a race condition finder to confirm that there is no collision between serial and/or isolated // tasks. If we crash in here, that means ParallelScheduler is not respecting scheduling constraints. omni::graph::exec::unstable::RaceConditionFinder::Scope detectIssues(getConcurrencyState().raceConditionFinder); // Sleep for a while (simulate expensive compute and give time for potential race conditions // to arise). std::this_thread::sleep_for(std::chrono::milliseconds(100)); db.outputs.result() = true; return true; } }; REGISTER_OGN_NODE() } // test } // namespace graph } // namespace omni	1,455	C++	29.333333	120	0.729897
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestConcurrency.cpp	// Copyright (c) 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. // #include <OgnTestConcurrencyDatabase.h> #include <omni/graph/exec/unstable/IExecutionContext.h> #include <omni/graph/exec/unstable/IExecutionCurrentThread.h> #include <omni/graph/exec/unstable/Stamp.h> #include "../include/omni/graph/test/ConcurrencyState.h" #include <atomic> #include <chrono> #include <cstdlib> #include <mutex> // This is the implementation of the OGN node defined in OgnTestConcurrency.ogn namespace omni { namespace graph { namespace test { namespace { std::mutex g_resetMutex; exec::unstable::SyncStamp g_currentSyncStamp; std::atomic<uint64_t> g_currentConcurrency{0}; } class OgnTestConcurrency { public: static bool compute(OgnTestConcurrencyDatabase& db) { auto& result = db.outputs.result(); result = false; // Try to access the shared mutex via a shared lock. If the node is unable to do // that (i.e. because TestIsolate currently holds exclusive ownership), we'll // return early with result set to false. if (!getConcurrencyState().sharedMutex.try_lock_shared()) { return true; } if (auto task = exec::unstable::getCurrentTask()) { auto currentStamp = task->getContext()->getExecutionStamp(); if(!g_currentSyncStamp.inSync(currentStamp)) { std::unique_lock<std::mutex> lock(g_resetMutex); if(g_currentSyncStamp.makeSync(currentStamp)) { g_currentConcurrency = 0; } } g_currentConcurrency++; uint64_t expectedConcurrency = db.inputs.expected(); std::chrono::milliseconds timeOut(db.inputs.timeOut()); auto start = std::chrono::high_resolution_clock::now(); std::chrono::milliseconds currentDuration; do { currentDuration = std::chrono::duration_cast<std::chrono::milliseconds>(std::chrono::high_resolution_clock::now()-start); if(g_currentConcurrency.load() == expectedConcurrency) { result = true; break; } std::this_thread::yield(); } while(currentDuration < timeOut); } // Release the shared mutex. getConcurrencyState().sharedMutex.unlock_shared(); return true; } }; REGISTER_OGN_NODE() } // test } // namespace graph } // namespace omni	2,907	C++	30.268817	137	0.634331
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestDynamicAttributeRawData.cpp	// 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. // #include <OgnTestDynamicAttributeRawDataDatabase.h> namespace omni { namespace graph { namespace test { namespace { template<typename TAttribute, typename TValue> void writeRawData(TAttribute& runtimeAttribute, TValue value) { uint8_t* dstData{ nullptr }; size_t size{ 0 }; runtimeAttribute.rawData(dstData, size); memcpy(dstData, &value, size); } } // This node validates the APIs for accessing and mutating the dynamic node attributes (inputs, outputs and state) class OgnTestDynamicAttributeRawData { public: static bool compute(OgnTestDynamicAttributeRawDataDatabase& db) { auto dynamicInputs = db.getDynamicInputs(); auto dynamicOutputs = db.getDynamicOutputs(); auto dynamicStates = db.getDynamicStates(); if (dynamicInputs.empty() \|\| dynamicOutputs.empty() \|\| dynamicStates.empty()) { return false; } int sum = 0; for (auto const& input : dynamicInputs) { ConstRawPtr dataPtr{ nullptr }; size_t size{ 0 }; input().rawData(dataPtr, size); sum += reinterpret_cast<int const>(dataPtr); } // ensure that dynamic output and state attributes can be written to using the raw data pointer writeRawData(dynamicOutputs[0](), sum); writeRawData(dynamicStates[0](), sum); return true; } }; REGISTER_OGN_NODE() } // test } // namespace graph } // namespace omni	1,936	C++	28.348484	114	0.67407
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestDynamicAttributeMemory.py	"""Test node exercising retrieval of dynamic attribute array values from various memory locations. Add an input attribute named "array" of type "int[]", another named "simple" of type "double", and output attributes with matching names and types to pass data through using the dynamic attribute get() and set() methods. """ import numpy as np import omni.graph.core as og from omni.graph.core._impl.dtypes import Int class OgnTestDynamicAttributeMemory: @staticmethod def compute(db) -> bool: gpu_ptr_kind = og.PtrToPtrKind.NA on_gpu = db.inputs.onGpu if on_gpu: gpu_ptr_kind = og.PtrToPtrKind.GPU if db.inputs.gpuPtrsOnGpu else og.PtrToPtrKind.CPU db.set_dynamic_attribute_memory_location(on_gpu=on_gpu, gpu_ptr_kind=gpu_ptr_kind) try: array_value = db.inputs.array simple_value = db.inputs.simple except AttributeError: # Only verify when the input dynamic attribute was present db.outputs.inputMemoryVerified = False db.outputs.outputMemoryVerified = False return True # CPU inputs are returned as np.ndarrays, GPU inputs are og.DataWrapper if not on_gpu: db.outputs.inputMemoryVerified = isinstance(array_value, np.ndarray) and isinstance(simple_value, float) else: _, new_shape = array_value.shape new_shape = tuple(new_shape) db.outputs.inputMemoryVerified = ( array_value.gpu_ptr_kind == gpu_ptr_kind and array_value.device.cuda and array_value.is_array() and array_value.dtype == Int() and isinstance(simple_value, float) ) try: db.outputs.array = array_value db.outputs.simple = simple_value except AttributeError: # Only verify when the output dynamic attribute was present db.outputs.outputMemoryVerified = False return True # CPU inputs are returned as np.ndarrays, GPU inputs are og.DataWrapper new_output_arr = db.outputs.array new_output = db.outputs.simple if not on_gpu: db.outputs.outputMemoryVerified = isinstance(new_output_arr, np.ndarray) and isinstance(new_output, float) else: _, new_shape = new_output_arr.shape new_shape = tuple(new_shape) db.outputs.outputMemoryVerified = ( new_output_arr.gpu_ptr_kind == gpu_ptr_kind and new_output_arr.device.cuda and new_output_arr.is_array() and new_output_arr.dtype == Int() and isinstance(new_output, float) ) return True	2,767	Python	39.705882	118	0.617636
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnExecInputEnabledTest.py	""" This node's compute checks that its input attrib is properly enabled. """ import omni.graph.core as og class OgnExecInputEnabledTest: @staticmethod def compute(db) -> bool: if ( db.inputs.execInA == og.ExecutionAttributeState.ENABLED and db.inputs.execInB == og.ExecutionAttributeState.ENABLED ): db.log_warning("Unexpected execution with both execution inputs enabled") return False if db.inputs.execInA == og.ExecutionAttributeState.ENABLED: db.outputs.execOutA = og.ExecutionAttributeState.ENABLED return True if db.inputs.execInB == og.ExecutionAttributeState.ENABLED: db.outputs.execOutB = og.ExecutionAttributeState.ENABLED return True db.log_warning("Unexpected execution with no execution input enabled") db.outputs.execOut = og.ExecutionAttributeState.DISABLED return False	951	Python	34.259258	85	0.674027
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestCategoryDefinitions.py	"""Node that tests custom category assignment through extraction of the current category""" import omni.graph.tools.ogn as ogn class OgnTestCategoryDefinitions: """Extract the assigned category definition of a node type""" @staticmethod def compute(db) -> bool: """Compute only extracts the category name and puts it into the output""" db.outputs.category = db.abi_node.get_node_type().get_metadata(ogn.MetadataKeys.CATEGORIES) return True	480	Python	33.35714	99	0.722917
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestWriteVariablePy.py	""" Test node for writing variables """ import omni.graph.core as og class OgnTestWriteVariablePy: """Python version of OgnWriteVariable""" @staticmethod def compute(db) -> bool: """Write the given variable""" try: db.set_variable(db.inputs.variableName, db.inputs.value.value) except og.OmniGraphError: return False # Output the value value = db.inputs.value.value if value is not None: db.outputs.value = value return True @staticmethod def initialize(graph_context, node): function_callback = OgnTestWriteVariablePy.on_value_changed_callback node.get_attribute("inputs:variableName").register_value_changed_callback(function_callback) @staticmethod def on_value_changed_callback(attr): node = attr.get_node() name = attr.get_attribute_data().get(False) var = node.get_graph().find_variable(name) value_attr = node.get_attribute("inputs:value") old_type = value_attr.get_resolved_type() # resolve the input variable if not var: value_attr.set_resolved_type(og.Type(og.BaseDataType.UNKNOWN)) elif var.type != old_type: value_attr.set_resolved_type(og.Type(og.BaseDataType.UNKNOWN)) value_attr.set_resolved_type(var.type) # resolve the output variable value_attr = node.get_attribute("outputs:value") old_type = value_attr.get_resolved_type() if not var: value_attr.set_resolved_type(og.Type(og.BaseDataType.UNKNOWN)) elif var.type != old_type: value_attr.set_resolved_type(og.Type(og.BaseDataType.UNKNOWN)) value_attr.set_resolved_type(var.type)	1,768	Python	32.377358	100	0.635747
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestSchedulingHintsList.py	"""Empty test node used for checking scheduling hints""" class OgnTestSchedulingHintsList: @staticmethod def compute(db) -> bool: return True	160	Python	19.124998	56	0.7
omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestScatter.cpp	// Copyright (c) 2019-2021, 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. // #include <OgnTestScatterDatabase.h> #include <cmath> #include <vector> using carb::Double3; namespace omni { namespace graph { namespace examples { class OgnTestScatter { public: static bool compute(OgnTestScatterDatabase& db) { /* const auto& gatheredPaths = db.inputs.gathered_paths(); for (const auto& gatheredPath : gatheredPaths) { std::string gatheredPathStr = db.tokenToString(gatheredPath); printf("gather path = %s\n", gatheredPathStr.c_str()); }*/ const auto& inputRotations = db.inputs.rotations(); int count = 0; for (const auto& inputRotation : inputRotations) { // Pretend scan the inputs. The real scatter node would be writing to the Fabric here with the updated // transforms. count++; } // Because we don't have the real scatter node yet, we'll just pluck one element of the calculated rotations // and output there in a temporary single output. auto& singleRot = db.outputs.single_rotation(); if (inputRotations.size() > 0) { singleRot[0] = -90; singleRot[1] = inputRotations[0][1]; singleRot[2] = 0; } return true; } }; REGISTER_OGN_NODE() } } }	1,774	C++	25.102941	116	0.640924

omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/type_definitions.py

import enum from abc import ABC, abstractmethod from collections import namedtuple from typing import Callable, Dict, Iterable, NewType, Optional, Tuple import numpy as np Vector3d = NewType("Vector3d", np.ndarray) Vector3f = NewType("Vector3f", np.ndarray) Vector3h = NewType("Vector3h", np.ndarray) Float = NewType("Float", np.float) Float2 = NewType("Float2", np.ndarray) Float3 = NewType("Float3", np.ndarray) Float4 = NewType("Float4", np.ndarray) Half = NewType("Half", np.half) Half2 = NewType("Half2", np.ndarray) Half3 = NewType("Half3", np.ndarray) Half4 = NewType("Half4", np.ndarray) Double = NewType("Double", np.double) Double2 = NewType("Double2", np.ndarray) Double3 = NewType("Double3", np.ndarray) Double4 = NewType("Double4", np.ndarray) Int = NewType("Int", int) Int2 = NewType("Int2", np.ndarray) Int3 = NewType("Int3", np.ndarray) Int4 = NewType("Int4", np.ndarray) def int_to_int32(input: int) -> Int: return input & 0xFFFFFFFF Timecode = NewType("Timecode", float) Token = NewType("Token", str) UInt = NewType("UInt", np.uint) UChar = NewType("UChar", np.ubyte) def int_to_uchar(input: int) -> UChar: return input & 0xFF Matrix2d = NewType("Matrix2d", np.ndarray) Matrix3d = NewType("Matrix3d", np.ndarray) Matrix4d = NewType("Matrix4d", np.ndarray) Normal3f = NewType("Normal3f", np.ndarray) Normal3d = NewType("Normal3d", np.ndarray) Normal3h = NewType("Normal3h", np.ndarray) Point3f = NewType("Point3f", np.ndarray) Point3d = NewType("Point3d", np.ndarray) Point3h = NewType("Point3h", np.ndarray) Quatd = NewType("Quatd", np.ndarray) Quatf = NewType("Quatf", np.ndarray) Quath = NewType("Point3h", np.ndarray) TexCoord2d = NewType("TexCoord2d", np.ndarray) TexCoord2f = NewType("TexCoord2f", np.ndarray) TexCoord2h = NewType("TexCoord2h", np.ndarray) TexCoord3d = NewType("TexCoord3d", np.ndarray) TexCoord3f = NewType("TexCoord3f", np.ndarray) TexCoord3h = NewType("TexCoord3h", np.ndarray) Color3f = NewType("Color3f", np.ndarray) Color4f = NewType("Color4f", np.ndarray) Color3d = NewType("Color3d", np.ndarray) Color4d = NewType("Color4d", np.ndarray) Color3h = NewType("Color3h", np.ndarray) Color4h = NewType("Color4h", np.ndarray) all_types = [ Vector3d, Vector3f, Vector3h, Float, Float2, Float3, Float4, Half, Half2, Half3, Half4, Double, Double2, Double3, Double4, Int, Int2, Int3, Int4, Timecode, Token, UInt, UChar, Matrix2d, Matrix3d, Matrix4d, Normal3f, Normal3d, Normal3h, Point3f, Point3d, Point3h, Quatd, Quatf, Quath, TexCoord2d, TexCoord2f, TexCoord2h, TexCoord3d, TexCoord3f, TexCoord3h, Color3f, Color4f, Color3d, Color4d, Color3h, Color4h, ] TypeDesc = namedtuple( "TypeDesc", [ "type", "og_type", "type_to_og", "type_to_og_conversion_method", "og_to_type", "og_to_type_conversion_method", "default", ], ) # ================================================================================ class AutoNodeTypeConversion: """Static class for storing conversion methods between python types and Omnigraph types""" class Method(enum.Enum): ASSIGN = (0,) MODIFY = 1 # flake8: noqa: E241 types = [ TypeDesc(bool, "bool", bool, Method.ASSIGN, None, Method.ASSIGN, False), TypeDesc(Color3d, "colord[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Color3f, "colorf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Color3h, "colorh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Color4d, "colord[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Color4f, "colorf[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Color4h, "colorh[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Double, "double", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Double2, "double[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(Double3, "double[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Double4, "double[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(float, "double", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Float, "float", np.float, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Float2, "float[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(Float3, "float[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Float4, "float[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Half, "half", np.half, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Half2, "half[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(Half3, "half[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Half4, "half[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(int, "int64", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Int, "int", int_to_int32, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Int2, "int[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(Int3, "int[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Int4, "int[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Matrix2d, "matrixd[2]", None, Method.ASSIGN, None, Method.ASSIGN, ((1, 0), (0, 1))), TypeDesc(Matrix3d, "matrixd[3]", None, Method.ASSIGN, None, Method.ASSIGN, ((1, 0, 0), (0, 1, 0), (0, 0, 1))), TypeDesc( Matrix4d, "matrixd[4]", None, Method.ASSIGN, None, Method.ASSIGN, ((1, 0, 0, 0), (0, 1, 0, 0), (0, 0, 1, 0), (0, 0, 0, 1)), ), TypeDesc(Normal3d, "normald[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Normal3f, "normalf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Normal3h, "normalh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Point3d, "pointd[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Point3f, "pointf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Point3h, "pointh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Quatd, "quatd[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Quatf, "quatf[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(Quath, "quath[4]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0, 0)), TypeDesc(str, "string", None, Method.ASSIGN, None, Method.ASSIGN, ""), TypeDesc(TexCoord2d, "texcoordd[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(TexCoord2f, "texcoordf[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(TexCoord2h, "texcoordh[2]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0)), TypeDesc(TexCoord3d, "texcoordd[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(TexCoord3f, "texcoordf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(TexCoord3h, "texcoordh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Timecode, "timecode", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Token, "token", None, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(UInt, "uint", int_to_uchar, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(UChar, "uchar", int_to_uchar, Method.ASSIGN, None, Method.ASSIGN, 0), TypeDesc(Vector3d, "vectord[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Vector3f, "vectorf[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), TypeDesc(Vector3h, "vectorh[3]", None, Method.ASSIGN, None, Method.ASSIGN, (0, 0, 0)), ] user_types = [] # -------------------------------------------------------------------------------- def __init__(self): raise RuntimeError("AutoNodeTypeConversion is a static class, do not instantiate") # -------------------------------------------------------------------------------- @classmethod def from_type(cls, type_desc: type) -> Optional[TypeDesc]: """Searches the conversion registry using a python type. Args: type_desc: python type to convert Returns: TypeDesc for the found python type if it's found, None otherwise """ for tb in cls.user_types: if tb.type == type_desc: return tb for tb in cls.types: if tb.type == type_desc: return tb return None # -------------------------------------------------------------------------------- @classmethod def from_ogn_type(cls, og_type: str) -> Optional[TypeDesc]: """Searches the conversion registry using an Omnigraph type. Searches the user types first, defaults to the system types. Args: og_type: string representing the incoming ogn type Returns: TypeDesc for the found python type if it's found, None otherwise """ # TODO (OS): Solve for arrays for tb in cls.user_types: og_coded_type = tb.og_type if og_coded_type == og_type: return tb for tb in cls.types: og_coded_type = tb.og_type if og_coded_type == og_type: return tb return None # -------------------------------------------------------------------------------- @classmethod def register_type_conversion( cls, python_type: type, ogn_typename: str, python_to_ogn: Optional[Callable] = None, python_to_ogn_method: Method = Method.ASSIGN, ogn_to_python: Optional[Callable] = None, ogn_to_python_method: Method = Method.ASSIGN, default=None, ): """Registers a type conversion between a python type and an ogn type. Masks any existing system setting. If a previous user-submitted type conversion is registered, it will be overridden. Args: python_type: the type representation in python. ogn_typename: string representation of the ogn type. Node generation will fail if the type isn't recognized by ogn. python_to_ogn: [optional] function to convert a python return value to an OGN struct. Signature is Callable[[[python_type], object]. Defaults to None ogn_to_python: [optional] function to convert an OGN struct to a python return value. Signature is Callable[[[object], python_type]. Defaults to None """ desc = TypeDesc( python_type, ogn_typename, python_to_ogn, python_to_ogn_method, ogn_to_python, ogn_to_python_method, default ) unregistered = cls.unregister_type_conversion(python_type) if unregistered: carb.log_warn( "Registering an autograph type conversion for {type}->{ogn_typename} replaces anohter conversion for: {desc.type}->{og_type}" ) cls.user_types.append(desc) # -------------------------------------------------------------------------------- @classmethod def unregister_type_conversion(cls, python_type: type = None, ogn_type_name: str = None) -> Optional[TypeDesc]: """Unregisters a type conversion from python to ogn. Doesn't unregister system types. Args: python_type: the python type to be removed from support ogn_type_name: the ogn type name type to be removed from support Returns: The TypeDesc tuple just unregistered, or none. """ if python_type is not None: for desc in cls.user_types: if desc.type == python_type: cls.user_types.remove(desc) return desc if ogn_type_name is not None: for desc in cls.user_types: if desc.og_type == ogn_type_name: cls.user_types.remove(desc) return desc return None # ================================================================================ class AutoNodeDefinitionWrapper(ABC): """Container for a single node representation consumed by the Ogn code generator. Class is abstract and meant to be overridden. A sufficient implementation overrides these methods: * get_ogn(self) -> Dict * get_node_impl(self) * get_unique_name(self) -> str * get_module_name(self) -> str """ def __init__(self): super().__init__() # -------------------------------------------------------------------------------- @abstractmethod def get_ogn(self) -> Dict: """Get the Ogn dictionary representation of the node interface.""" return {} # -------------------------------------------------------------------------------- @abstractmethod def get_node_impl(self): """Returns the Ogn class implementing the node behavior. See omnigraph docuemntation on how to implement. A sufficient implementation contains a staticmethod with the function: compute(db) """ return None # -------------------------------------------------------------------------------- @abstractmethod def get_unique_name(self) -> str: """Get nodes unique name, to be saved as an accessor in the node database. Returns: the non-manlged unique name """ return "" # -------------------------------------------------------------------------------- @abstractmethod def get_module_name(self) -> str: """Get the module this autograph method was defined in. Returns: the module name """ return "" # ================================================================================ class AutoNodeDefinitionGenerator(ABC): """Defines an interface for generating a node definition""" _name = "" # -------------------------------------------------------------------------------- @classmethod def name(cls): return cls._name # -------------------------------------------------------------------------------- @classmethod @abstractmethod def generate_from_definitions(cls, new_type: type) -> Tuple[Iterable[AutoNodeDefinitionWrapper], Iterable[str]]: """This method scans the type new_type and outputs an AutoNodeDefinitionWrapper from it, representing the type, as well as a list of members it wishes to hide from the rest of the node extraction process. Args: new_type: the type to analyze by attribute Returns: a tuple of: Iterable[AutoNodeDefinitionWrapper] - an iterable of AutoNodeDefinitionWrapper - every node wrapper that is generated from this type. Iterable[str] - an iterable of all members covered by this handler that other handlers should ignore. """ pass class AutographDataWrapper: """Class to wrap around data being passed in the graph, to ensure a standard interface for passing data in the graph. Accepts both reference and value types. """ # -------------------------------------------------------------------------------- def __init__(self, value) -> None: self._value = value self._type = type(value) if isinstance(self._type, AutographDataWrapper): raise KeyError("Attempted to wrap a datawrapper") # -------------------------------------------------------------------------------- @property def value(self): """Returns the stored value without side effects""" return self._value # -------------------------------------------------------------------------------- @property def type(self) -> type: """Returns the value type stored at initialization time without side effects""" return self._type class AutographObjectStore: """Obejct store with simple put-pop interface.""" # -------------------------------------------------------------------------------- def __init__(self): self._store = {} # -------------------------------------------------------------------------------- def pop(self, obj_id: int) -> AutographDataWrapper: """Attempts to return a value from the object store, and deletes it from the store. Args: obj_id: the object ID to be retrieved Returns: an AutographDataWrapper if successful Raises: KeyError if the object isn't there. """ return self._store.pop(obj_id) # -------------------------------------------------------------------------------- def put(self, obj_id: int, value: AutographDataWrapper) -> Optional[AutographDataWrapper]: """Places an object in the object store according to an object ID. If an object already exists in the data store with the same ID, it is popped. Args: obj_id: integer object ID for input object value: the actual object ID. Does not check for types. Returns: The previous object with the same ID stored in the object store, None otherwise. """ swapped = self._store.get(obj_id, None) self._store[obj_id] = value return swapped # ================================================================================ class TypeRegistry: """Main singleton for storing graph objects and generating and registering functions.""" def __init__(self): raise RuntimeError("Singleton class, use instance() instead") # -------------------------------------------------------------------------------- def _initialize(self): self.class_to_methods: Dict[type, Dict[str, str]] = {} # Meant to make accessing functions easier self.func_name_to_func = {} # Meant to keep a pointer to an object, so it doesn't get garbage collected self.refs = AutographObjectStore() # Meant to handle types whene generating nodes self.type_handlers = set() # Stores omnigraph implementations self._impl_modules = {} # -------------------------------------------------------------------------------- @classmethod def _reset(cls): """Resets all internal data strucutres. Does not unregister nodes.""" cls.instance()._initialize() # -------------------------------------------------------------------------------- @classmethod def instance(cls): """Retrieves the class instance for this singleton. Returns: Class instance """ if not hasattr(cls, "_instance"): cls._instance = cls.__new__(cls) cls._instance._initialize() return cls._instance # -------------------------------------------------------------------------------- @classmethod def get_func(cls, unique_name: str) -> Optional[AutoNodeDefinitionWrapper]: """Retrieves a function from the object store Attributes unique_name: function's qualified name. Name mangling is handled by this class Returns: Function Wrapper. """ return cls.instance().func_name_to_func.get(unique_name, None) # -------------------------------------------------------------------------------- @classmethod def add_to_graph(cls, obj) -> int: """Adds an object `obj` to the data store without checking for uniqueness of held object. Does check uniqueness of reference object. Attributes obj: Object to add to the data store. Returns: the object id. """ wrapper = AutographDataWrapper(obj) obj_id = id(wrapper) cls.instance().refs.put(obj_id, wrapper) return obj_id # -------------------------------------------------------------------------------- @classmethod def remove_from_graph(cls, obj_id: int) -> AutographDataWrapper: """Attempts to remove an object ID from the object store. Attributes obj_id: the object ID to be removed from the data store. Returns: the object stored if it was found, None otherwise. """ return cls.instance().refs.pop(obj_id)

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omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/core.py

import importlib from typing import Callable import omni.graph.tools.ogn as ogn from ..settings import Settings from .type_definitions import AutoNodeDefinitionWrapper, TypeRegistry # ============================================================================================================== class AutoNode: @staticmethod def registry(): return TypeRegistry.instance() # -------------------------------------------------------------------------------- @staticmethod def generate_code_and_store( wrapper: AutoNodeDefinitionWrapper, unique_name: str, *, module_name: str = None ) -> None: """Generates the implementation for the Ogn class and stores it in the registry. Attributes func_wrapper: Positional. The function wrapper object for which code should be generated. func_name: name of function getting stored. Name is assumed to be sanitized module_name: [optional] override the name of the module as detected by the reflection system. """ if not unique_name.find(".") == -1: raise NameError(f"{unique_name} is not a valid name for a class, since it contains a '.'") AutoNode.registry().func_name_to_func[unique_name] = wrapper name_prefixed = f"Ogn_{unique_name}" module_name = module_name or wrapper.get_module_name() code = ogn.code_generation( wrapper.get_ogn(), name_prefixed, module_name, "omni.graph.tools", Settings.generator_settings(), ) ################## # Code Injection # ################## # create a virtual module v_module = importlib.util.module_from_spec(globals()["__spec__"]) AutoNode.registry()._impl_modules[name_prefixed] = v_module # noqa: PLW0212 # inject dependencies into the generated module v_module.__dict__["AutoNode"] = AutoNode # v_module.__dict__.update([(a.__name__, a) for a in all_types]) # DANGER ZONE: execute the python node database definition in the target node exec(code["python"], vars(v_module)) # noqa: PLW0122 # inject the generated implementation into the module setattr(v_module, name_prefixed, wrapper.get_node_impl()) node_class = getattr(v_module, name_prefixed) # retrieve the registration action from the node db and register the node db_class = getattr(v_module, name_prefixed + "Database") do_register = db_class.register do_register(node_class) # -------------------------------------------------------------------------------- @staticmethod def generate_custom_node(wrapper: AutoNodeDefinitionWrapper): AutoNode.generate_code_and_store( wrapper, unique_name=wrapper.get_unique_name(), module_name=wrapper.get_module_name() ) # ============================================================================================================== class AutoNodeEvaluationDelayedExecutionQueue: _queue = [] def __init__(self): raise RuntimeError("AutoNodeEvaluationDelayedExecutionQueue is a singleton") # -------------------------------------------------------------------------------- @classmethod def instance(cls): if not hasattr(cls, "_instance"): cls._instance = cls.__new__(cls) # -------------------------------------------------------------------------------- @classmethod def add_to_queue(cls, callable_fn: Callable): cls.instance()._queue.append(callable_fn) # noqa: PLW0212 # -------------------------------------------------------------------------------- @classmethod def execute_queue(cls): while len(cls.instance()._queue) > 0: # noqa: PLW0212 callable_fn = cls.instance()._queue.pop() # noqa: PLW0212 callable_fn()

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omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/autonode.py

""" AutoNode - module for decorating code to populate it into OmniGraph nodes. Allows generating nodes by decorating free functions, classes and modules by adding `@AutoFunc()` or `@AutoClass()` to the declaration of the class. Generating code relies on function signatures provided by python's type annotations, therefore the module only supports native python types with `__annotations__`. CPython classes need need to be wrapped for now. Exports: `AutoClass`, `AutoFunc` How an AutoNode decorator works: # TODO How an AutoNode function execution works: 1. Attribute discovery Attributes are scanned from the db at runtime 2. Attribute type resolution types.py contains type conversion facilities to decide on the outgoing type of afunction 3. Attribute value resolution If needed, values are retrieved from the object store 4. Function execution function is called. 5. Return value resolution if the return value needs to be stored outside node, it happens now. 6. Dispatch to other nodes propagation of values and execution statnode""" # standard lib imports import inspect # meta imports from typing import Callable, Dict, List # framework imports import carb from .core import AutoNode from .enum_wrappers import EnumAutoNodeDefinitionGenerator from .event import EventAutoNodeDefinitionGenerator from .function import AutoFunctionWrapper from .property import AutoPropertyWrapper # module imports from .type_definitions import AutoNodeDefinitionGenerator from .util import FUNC_INFIX, GET_SUFFIX, PROP_INFIX, SET_SUFFIX, is_private, python_name_to_ui_name, sanitize_qualname # ================================================================================ def GenerateAutoFunc( # noqa: N802 func: Callable, *, qualname: str = None, ui_name: str = None, pure: bool = False, module_name: str = None, tags: List[str] = None, annotation: Dict = None, ): """Decorator for methods and function objects. Attributes func: the function object being wrapped. Should be a pure python function object or any other callable which has an `__annotations__` property. qualname: [optional] override the inferred qualified name ui_name: [optional] name that appears in the funcion's menu and node display. pure: [optional] override this function to be a pure function - a function independent of object state and without side effects, which doesn't enforce a specific execution order. module_name:[optional] override the inferred module name tags: [optional] annotation: [optional] override annotations """ qualname = qualname or func.__qualname__ unique_name = sanitize_qualname(qualname) module_name = module_name or func.__module__ ui_name = ui_name or python_name_to_ui_name(qualname) func_wrapper = AutoFunctionWrapper( func, unique_name=unique_name, ui_name=ui_name, pure=pure, tags=tags, annotation=annotation ) AutoNode.generate_code_and_store(func_wrapper, unique_name=unique_name, module_name=module_name) return func # ================================================================================ def GenerateAutoClass(target_class, *, module_name: str, annotation: Dict = None): # noqa: N802 """Decorator for classes. Registers the class in the type registry, and returns the wrapped class. Attributes target_class: class being wrapped. module_name: [optional] override the inferred module name annotation: a dict containing annotations for all members in the class. Used if passed a type with no annotations. """ class_directory = {} module_name = module_name or target_class.__module__ class_shortname = target_class.__name__ class_unique_name = f"{target_class.__qualname__}" class_sanitized_name = sanitize_qualname(target_class.__qualname__) # first, extract special type functionality and ignore special type helpers members_to_ignore = set() for type_handler in AutoNode.registry().type_handlers: definitions, members = type_handler.generate_from_definitions( target_type=target_class, type_name_sanitized=class_sanitized_name, type_name_short=class_shortname, module_name=module_name, ) for definition in definitions: AutoNode.generate_custom_node(definition) members_to_ignore.update(members) def _member_filter(name): ret = True ret &= not is_private(name) ret &= name not in members_to_ignore return ret members_to_scan = [key for key in target_class.__dict__ if _member_filter(key)] # scan remaining, ordinary members for key in members_to_scan: key_unique_name = f"{class_unique_name} : {python_name_to_ui_name(key)}" value = target_class.__dict__[key] if inspect.ismethoddescriptor(value): # this method came from C++, but isn't a function if annotation is None or key not in annotation: # can't handle instance methods for now carb.log_warn( f"Can't wrap {key_unique_name}: C functions require an annotation shim and none was provided" ) continue func_sanitized_name = f"{class_sanitized_name}{FUNC_INFIX}{key}" func_ui_name = f"{class_unique_name} : {python_name_to_ui_name(key)}" GenerateAutoFunc( value, qualname=func_sanitized_name, ui_name=func_ui_name, module_name=module_name, pure=False, annotation=annotation[key], ) class_directory[key] = func_sanitized_name elif inspect.isfunction(value): # python function object func_sanitized_name = f"{class_sanitized_name}{FUNC_INFIX}{key}" func_ui_name = f"{class_unique_name} : {python_name_to_ui_name(key)}" shim = annotation.get(key, None) if annotation else None GenerateAutoFunc( value, qualname=func_sanitized_name, ui_name=func_ui_name, module_name=module_name, pure=False, annotation=shim, ) class_directory[key] = func_sanitized_name elif inspect.isdatadescriptor(value): # has a getter, a setter and a deleter prop_sanitized_name = f"{class_sanitized_name}{PROP_INFIX}{key}" getter_sanitized_name = f"{prop_sanitized_name}{GET_SUFFIX}" getter_ui_name = f"{class_unique_name} : Get {key}" setter_sanitized_name = f"{prop_sanitized_name}{SET_SUFFIX}" setter_ui_name = f"{class_unique_name} : Set {key}" type_override = annotation.get(key, None) if annotation else None if not type_override: carb.log_warn(f"{class_unique_name}.{key} has no annotation, and will be skipped") continue getter_shim = {"return": type_override} setter_shim = {"value": type_override, "return": None} GenerateAutoFunc( value.getter, qualname=getter_sanitized_name, ui_name=getter_ui_name, module_name=module_name, annotation=getter_shim, ) GenerateAutoFunc( value.setter, qualname=setter_sanitized_name, ui_name=setter_ui_name, module_name=module_name, annotation=setter_shim, ) class_directory[key] = {"get": getter_sanitized_name, "set": setter_sanitized_name} else: # it's a value and should be wrapped in a property prop_sanitized_name = f"{class_sanitized_name}{PROP_INFIX}{key}" getter_sanitized_name = f"{prop_sanitized_name}{GET_SUFFIX}" getter_ui_name = f"{class_unique_name} : Get {key}" setter_sanitized_name = f"{prop_sanitized_name}{SET_SUFFIX}" setter_ui_name = f"{class_unique_name} : Set {key}" shim = annotation.get(key, None) if annotation else None wrapper = AutoPropertyWrapper(target_class, name=key, type_override=shim) GenerateAutoFunc( wrapper.get, qualname=getter_sanitized_name, ui_name=getter_ui_name, module_name=module_name, pure=False ) GenerateAutoFunc( wrapper.set, qualname=setter_sanitized_name, ui_name=setter_ui_name, module_name=module_name, pure=False ) class_directory[key] = {"get": getter_sanitized_name, "set": setter_sanitized_name} AutoNode.registry().func_name_to_func[prop_sanitized_name] = wrapper AutoNode.registry().class_to_methods[target_class] = class_directory return target_class ################################################################################## # # # public interface # # # ################################################################################## # ================================================================================ def AutoClass(**kwargs): # noqa: N802 # inject locals for linking if "module_name" not in kwargs: try: kwargs["module_name"] = inspect.currentframe().f_back.f_locals["__package__"] except (AttributeError, KeyError): kwargs["module_name"] = "default_module" carb.log_warn("No module name found in package. Assigning default name 'default_module'") def ret(cls): return GenerateAutoClass(cls, **kwargs) # noqa: PLE1125 ret.__doc__ = GenerateAutoClass.__doc__ return ret # ================================================================================ def AutoFunc(**kwargs): # noqa: N802 # inject locals for linking if "module_name" not in kwargs: try: kwargs["module_name"] = inspect.currentframe().f_back.f_locals["__package__"] except (AttributeError, KeyError): kwargs["module_name"] = "default_module" carb.log_warn("No module name found in package. Assigning default name 'default_module'") def ret(func): return GenerateAutoFunc(func, **kwargs) ret.__doc__ = GenerateAutoFunc.__doc__ return ret # ================================================================================ def register_autonode_type_extension(handler: AutoNodeDefinitionGenerator, **kwargs): # if "module_name" not in kwargs: # kwargs['module_name'] = inspect.currentframe().f_back.f_locals["__package__"] AutoNode.registry().type_handlers.add(handler) # ================================================================================ def unregister_autonode_type_extension(handler: AutoNodeDefinitionGenerator, **kwargs): # if "module_name" not in kwargs: # kwargs['module_name'] = inspect.currentframe().f_back.f_locals["__package__"] AutoNode.registry().type_handlers.remove(handler) # should help clean in hot reloads AutoNode.registry()._reset() # noqa: PLW0212 # Add Enums register_autonode_type_extension(EnumAutoNodeDefinitionGenerator) # Add Events register_autonode_type_extension(EventAutoNodeDefinitionGenerator)

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omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/property.py

# ================================================================================ class AutoPropertyWrapper: """Wrapper to generate a getter and setter from a property in a class""" def __init__(self, target_class, name: str, *, type_override: type = None) -> None: try: self._type = type_override or target_class.__annotations__[name] except KeyError: self._type = type(target_class.__dict__[name]) self._name = name self.get.__annotations__["target"] = type(target_class) self.get.__annotations__["return"] = self._type self.set.__annotations__["target"] = type(target_class) self.set.__annotations__["value"] = self._type def get(self, target): return getattr(target, self._name) def set(self, target, value): # noqa: A003 setattr(target, self._name, value) return target

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omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/autonode/enum_wrappers.py

from typing import Dict, Iterable, OrderedDict, Tuple import carb from .type_definitions import AutoNodeDefinitionGenerator, AutoNodeDefinitionWrapper from .util import GeneratedCode # ================================================================================ class OgnEnumExecutionWrapper: def __init_subclass__(cls, target_class: type) -> None: cls.target_class = target_class cls.member_names = list(target_class.__members__) cls.generate_compute() @classmethod def generate_compute(cls): code = GeneratedCode() code.line("from .type_definitions import TypeRegistry") code.line("@classmethod") with code.indent("def compute(*args):"): code.line("cls = args[0]") code.line("db = args[1]") with code.indent("if not db.inputs.exec:"): code.line("return True") code.line("input = db.inputs.enum") code.line("value = TypeRegistry.remove_from_graph(input).value") for name in cls.member_names: code.line(f"db.outputs.{name} = bool(value == cls.target_class.{name})") code.line("return True") carb.log_verbose(f"Generated code for {cls.target_class}:\n{str(code)}") exec(str(code), globals()) # noqa: PLW0122 cls.compute = compute # noqa: Defined in exec() code # ================================================================================ class OgnEnumWrapper(AutoNodeDefinitionWrapper): """Wrapper around Enums""" def __init__(self, target_class, unique_name: str, module_name: str, *, ui_name: str = None): super().__init__() self.target_class = target_class self.unique_name = unique_name self.ui_name = ui_name or target_class.__name__ self.module_name = module_name self.descriptor: Dict = {} self.descriptor["uiName"] = ui_name self.descriptor["version"] = 1 self.descriptor["language"] = "Python" self.descriptor["description"] = f"Enum Wrapper for {self.ui_name}" self.descriptor["inputs"] = OrderedDict( { "enum": { "uiName": "Input", "description": "Enum input", "type": "objectId", "default": 0, "metadata": {"python_type_desc": self.unique_name}, }, "exec": {"uiName": "Exec", "description": "Execution input", "type": "execution", "default": 0}, } ) def signature(name): return {"uiName": name, "description": f"Execute on {name}", "type": "execution", "default": 0} self.descriptor["outputs"] = OrderedDict({name: signature(name) for name in self.target_class.__members__}) # -------------------------------------------------------------------------------- def get_unique_name(self) -> str: return self.unique_name # -------------------------------------------------------------------------------- def get_module_name(self) -> str: return self.module_name # -------------------------------------------------------------------------------- def get_node_impl(self): class OgnEnumReturnType(OgnEnumExecutionWrapper, target_class=self.target_class): pass return OgnEnumReturnType # -------------------------------------------------------------------------------- def get_ogn(self) -> Dict: d = {self.unique_name: self.descriptor} return d # ================================================================================ class EnumAutoNodeDefinitionGenerator(AutoNodeDefinitionGenerator): _name = "Enum" # -------------------------------------------------------------------------------- @classmethod def generate_from_definitions( # noqa: PLW0221 cls, target_type: type, type_name_sanitized: str, type_name_short: str, module_name: str ) -> Tuple[Iterable[AutoNodeDefinitionWrapper], Iterable[str]]: members_covered = set() returned_generators = set() if hasattr(target_type, "__members__"): ret = OgnEnumWrapper( target_type, unique_name=type_name_sanitized, module_name=module_name, ui_name=f"Switch on {type_name_short}", ) members_covered.update(target_type.__members__) returned_generators.add(ret) return returned_generators, members_covered

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omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/update_file_format.py

"""File format upgrade utilities""" from typing import Any, Dict, List, Optional, Tuple import carb import omni.graph.core as og import omni.usd from omni.kit.commands import execute from pxr import Gf, OmniGraphSchema, Usd from .utils import ALLOW_IMPLICIT_GRAPH_SETTING, USE_SCHEMA_PRIMS_SETTING EXTENDED_ATTRIBUTE_SCOPED_CUSTOM_DATA_VERSION = og.FileFormatVersion(1, 5) LAST_FILE_FORMAT_VERSION_WITHOUT_SCHEMA = og.FileFormatVersion(1, 10) """TODO: This is the last file format version where it is possible to have OmniGraph prims that do not use the schema It should be updated when the final deprecation is made. """ # ============================================================================================================== def remove_global_compute_graph(old_format_version, new_format_version, graph): """If the setting to allow a global implicit graph is not on then remove it if found and replace it with a regular graph""" settings = carb.settings.get_settings() allow_implicit_graph = settings.get(ALLOW_IMPLICIT_GRAPH_SETTING) # If the schema is enabled it will fix the global compute graphs too use_schema_prims = settings.get(og.USE_SCHEMA_PRIMS_SETTING) if not allow_implicit_graph and not use_schema_prims: stage = omni.usd.get_context().get_stage() if stage is not None: iterator = iter(stage.TraverseAll()) for prim in iterator: if prim.GetTypeName() == "GlobalComputeGraph": carb.log_info( "Converting " + prim.GetPrimPath().pathString + "from GlobalComputeGraph to ComputeGraph" ) prim.SetTypeName("ComputeGraph") iterator.PruneChildren() # ============================================================================================================== def check_for_bare_connections(stage: Usd.Stage) -> List[str]: """Check for any of the old unsupported connections from nodes to prims that cannot exist in schema-based world Return: List of strings describing the forbidden connections found """ iterator = iter(stage.TraverseAll()) bad_connections = [] for prim in iterator: if prim.GetTypeName() in ["ComputeNode", "OmniGraphNode"]: for attribute in prim.GetAttributes(): for connected_path in attribute.GetConnections(): connected_prim = stage.GetPrimAtPath(connected_path.GetPrimPath()) if not connected_prim.IsValid(): carb.log_warn( f"Invalid connection found at {attribute.GetPath()}:" f" {connected_path.GetPrimPath()} while migrating to new schema" ) elif connected_prim.GetTypeName() not in ["ComputeNode", "OmniGraphNode"]: bad_connections.append(f"{prim.GetPrimPath()} - {connected_path}") return bad_connections # ============================================================================================================== def migrate_attribute_custom_data( old_format_version: og.FileFormatVersion, new_format_version: og.FileFormatVersion, _ ): """Add scoped customData to attributes which have the old format""" if old_format_version < EXTENDED_ATTRIBUTE_SCOPED_CUSTOM_DATA_VERSION: stage = omni.usd.get_context().get_stage() if stage is None: return iterator = iter(stage.TraverseAll()) for prim in iterator: if prim.GetTypeName() in ["OmniGraphNode", "ComputeNode"]: for attribute in prim.GetAttributes(): custom_data = attribute.GetCustomData() extended_type = custom_data.get("ExtendedAttributeType", None) if extended_type: attribute.SetCustomDataByKey("omni:graph:attrType", extended_type) iterator.PruneChildren() # ============================================================================================================== class OmniGraphSchemaMigrator: """Collection of methods to manage all of the steps involved in migrating an arbitrary graph to use schema prims""" def __init__(self): """Set up initial values""" self.__command_count = 0 # -------------------------------------------------------------------------------------------------------------- @property def stage(self) -> Usd.Stage: """Returns the stage in use - set as a property so that the latest version is always used as it changes""" return omni.usd.get_context().get_stage() # -------------------------------------------------------------------------------------------------------------- def __check_for_old_prim_nodes(self) -> List[str]: """Check for any of the old unsupported prim nodes that cannot exist in schema-based world Return: List of prim paths for any unsupported prim node types """ iterator = iter(self.stage.TraverseAll()) prim_nodes = [] for prim in iterator: if prim.GetTypeName() == "ComputeNode": node_type_attr = prim.GetAttribute("node:type") if node_type_attr.IsValid() and node_type_attr.Get() == "omni.graph.core.Prim": prim_nodes.append(prim.GetPrimPath()) return prim_nodes # -------------------------------------------------------------------------------------------------------------- def __change_prim_types_to_match_schema(self) -> List[Tuple[str, str, str]]: """Modify any old prim names to match the ones used by the schema Return: List of (path, old_type, new_type) for prims whose type was changed """ iterator = iter(self.stage.TraverseAll()) retyped = [] for prim in iterator: if prim.GetTypeName() in ["GlobalComputeGraph", "ComputeGraph"]: carb.log_info(f"Converting graph {prim.GetPrimPath()} from {prim.GetTypeName()} to OmniGraph") retyped.append((str(prim.GetPrimPath()), prim.GetTypeName(), "OmniGraph")) prim.SetTypeName("OmniGraph") elif prim.GetTypeName() == "ComputeNode": carb.log_info(f"Converting node {prim.GetPrimPath()} from ComputeNode to OmniGraphNode") retyped.append((str(prim.GetPrimPath()), prim.GetTypeName(), "OmniGraphNode")) prim.SetTypeName("OmniGraphNode") # Ensure that the schema-defined attributes on the node are no longer custom node_prim = OmniGraphSchema.OmniGraphNode(prim) if node_prim: node_type_attr = node_prim.GetNodeTypeAttr() if node_type_attr.IsValid(): if not node_type_attr.SetCustom(False): carb.log_warn(f"Failed to set node:type attribute to non-custom on {prim.GetPrimPath()}") else: carb.log_warn(f"OmniGraph prim node {prim.GetPrimPath()} has no node:type attribute") node_type_version_attr = node_prim.GetNodeTypeVersionAttr() if node_type_version_attr.IsValid(): if not node_type_version_attr.SetCustom(False): carb.log_warn( f"Failed to set node:typeVersion attribute to non-custom on {prim.GetPrimPath()}" ) else: carb.log_warn(f"OmniGraph prim node {prim.GetPrimPath()} has no node:type attribute") else: # This might be an error or it might just be the fact that the USD notification to change the type # hasn't been processed yet. As this is only temporary compatibility code and we know that when # reading a file the prims are immediately valid there is no need to add the complexity here to # tie into an event loop and await the USD notification propagation. pass return retyped # -------------------------------------------------------------------------------------------------------------- def __create_top_level_graph(self) -> List[Tuple[str, str]]: """If there are any nodes or settings not in a graph then create a graph for them and move them into it. Assumes that before calling this all of the old prim type names have been replaced with the schema prim type names. Args: stage: USD stage on which to replace settings Return: List of (old_path, new_path) for prims that were moved from the root level to a new graph Raises: og.OmniGraphError if the required prim changes failed """ iterator = iter(self.stage.TraverseAll()) # Collect this map of settings prim path onto the path at which the parent graph must be created prims_to_move = [] for prim in iterator: if prim.GetTypeName() in ["ComputeGraphSettings", "OmniGraphNode"]: parent = prim.GetParent() if not parent.IsValid() or parent.GetTypeName() != "OmniGraph": prims_to_move.append(prim) elif prim.GetTypeName() in ["ComputeGraph", "OmniGraph"]: iterator.PruneChildren() prim_paths_moved = [] if prims_to_move: carb.log_info(f"Creating top level graph for global nodes {[prim.GetPrimPath() for prim in prims_to_move]}") for prim in prims_to_move: parent_path = str(prim.GetParent().GetPrimPath()) if parent_path[-1] != "/": parent_path += "/" default_global_graph_path = f"{parent_path}__graphUsingSchemas" global_graph_prim = self.stage.GetPrimAtPath(default_global_graph_path) if not global_graph_prim: (status, result) = execute("CreatePrim", prim_path=default_global_graph_path, prim_type="OmniGraph") if not status: raise og.OmniGraphError( f"Error creating OmniGraph prim at {default_global_graph_path} - {result}" ) new_prim_path = f"{default_global_graph_path}/{prim.GetName()}" prim_paths_moved.append((str(prim.GetPrimPath()), new_prim_path)) carb.log_info(f"Move {prim.GetPrimPath()} -> {new_prim_path}") (status, result) = execute("MovePrim", path_from=prim.GetPrimPath(), path_to=new_prim_path) if not status: raise og.OmniGraphError( f"Error moving OmniGraph prim from {prim.GetPrimPath()} to {new_prim_path} - {result}" ) return prim_paths_moved # -------------------------------------------------------------------------------------------------------------- def __replace_settings_with_properties(self, new_file_format_version: Tuple[int, int]) -> List[str]: """If there are any of the old settings prims move their property values into their containing graph. Args: new_file_format_version: The file format version that should be used for the graph setting Return: List of prim paths with settings that were transferred to the containing graph and then deleted """ iterator = iter(self.stage.TraverseAll()) prims_to_remove = [] for prim in iterator: # noqa: PLR1702 if prim.GetTypeName() == "ComputeGraphSettings": carb.log_info(f"Moving settings from {prim.GetPrimPath()} into the parent graph") graph_prim = prim.GetParent() # Need to check against the old types as well as the USD change notices may not have percolated if graph_prim.IsValid() and graph_prim.GetTypeName() in [ "GlobalComputeGraph", "ComputeGraph", "OmniGraph", ]: for attr in prim.GetAttributes(): setting_name = attr.GetName() setting_value = attr.Get() if setting_name == "flatCacheBacking": setting_name = "fabricCacheBacking" if setting_value == "StagedWithHistory": setting_value = "StageWithHistory" graph_attr = graph_prim.GetAttribute(setting_name) if not graph_attr.IsValid(): graph_attr = graph_prim.CreateAttribute( setting_name, attr.GetTypeName(), custom=False, variability=attr.GetVariability() ) if graph_attr.IsValid(): graph_attr.Set(setting_value) else: carb.log_warn( f"Could not create settings attribute {attr.GetName()}" f" on graph {graph_prim.GetPrimPath()}" ) prims_to_remove.append(str(prim.GetPrimPath())) schema_prim = OmniGraphSchema.OmniGraph(graph_prim) if bool(schema_prim): file_format_version_attr = schema_prim.GetFileFormatVersionAttr() file_format_version_attr.Set(Gf.Vec2i(new_file_format_version)) else: carb.log_warn(f"Could not cast graph prim {graph_prim.GetPrimPath()} to OmniGraph schema") else: carb.log_warn(f"Could not find graph above {prim.GetPrimPath()} to receive settings") elif prim.GetTypeName() == "ComputeNodeMetadata": # Take advantage of the loop to also get rid of the obsolete metadata children prims_to_remove.append(str(prim.GetPrimPath())) if prims_to_remove: (status, result) = execute("DeletePrims", paths=prims_to_remove) if not status: raise og.OmniGraphError(f"Error deleting prims {prims_to_remove} - {result}") return prims_to_remove # -------------------------------------------------------------------------------------------------------------- # Handling for old files that did not use the OmniGraph schema (earlier than 1.3) def update(self, new_file_format_version: Optional[Tuple[int, int]] = None) -> Dict[str, Any]: """Update the current file to use the new schema. This can run either before OmniGraph has attached to the stage (e.g. when reading in an old file) or when an explicit migration has been requested (e.g. when an old file exists and the user wants to migrate it). In both cases if any prim types have been migrated the useSchemaPrims setting will be forced to True so that subsequent OmniGraph additions use the schema types. (Mostly because this is easier than trying to track the state of whether a graph contains such prims already.) Conversion of old scenes entails: - Changing any ComputeGraph or GlobalComputeGraph prims to be OmniGraph types - If a ComputeGraphSettings prim exists, migrating its attribute values to the OmniGraph prim - Changing any ComputeNode prims to be OmniGraphNode types - If any ComputeNode prims appear without a parent ComputeGraph then create a default graph and move them into it Args: new_file_format_version: The file format version that should be used for the graph setting. If None then it will force the version immediately following the schema conversion (1, 4) Return: A dictionary of operations that were performed as part of the migration (key describes the operation, value is the objects to which it was applied) """ stage = omni.usd.get_context().get_stage() if stage is None: return {"message": "No stage to convert"} try: self.__command_count = 0 return_values = {} # Verify that the old prim nodes don't exist old_prim_nodes = self.__check_for_old_prim_nodes() if old_prim_nodes: raise og.OmniGraphError( f"Deprecated omni.graph.core.Prim nodes not allowed with schema - {old_prim_nodes}" ) # Verify that bare connections from OmniGraph nodes to non-OmniGraph prims do not exist bare_connections = check_for_bare_connections(self.stage) if bare_connections: raise og.OmniGraphError( "Deprecated connections from an OmniGraph node to a USD Prim not allowed with schema" f" - {bare_connections}" ) # First pass - change ComputeGraph/GlobalComputeGraph -> OmniGraph and ComputeNode -> OmniGraphNode return_values["Prim Types Changed"] = self.__change_prim_types_to_match_schema() # Second pass - if there are any OmniGraphNode or ComputeGraphSettings prims not in a graph, # create one and move them into it return_values["Root Prims Moved To Graph"] = self.__create_top_level_graph() # Third pass - move settings from their own prim to the parent graph prim if new_file_format_version is None: new_file_format_version = (1, 4) return_values["Settings Removed"] = self.__replace_settings_with_properties(new_file_format_version) # Now that the scene has been migrated the schema setting has to be enabled or bad things will happen. # Don't bother doing it if nothing changed though. if any(return_values.values()): carb.settings.get_settings().set(USE_SCHEMA_PRIMS_SETTING, True) return return_values except og.OmniGraphError as error: # If anything failed it would leave the graph in a hybrid state so try to restore it back to its original # state so that it remains stable. carb.log_error(str(error)) for _i in range(self.__command_count): omni.kit.undo() return_values = {} return return_values # ============================================================================================================== # Handling for old files that did not use the OmniGraph schema (earlier than 1.3) def update_to_include_schema(new_file_format_version: Optional[Tuple[int, int]] = None) -> Dict[str, Any]: """Update the current file to use the new schema. See OmniGraphSchemaMigrator.update() for details This can run either before OmniGraph has attached to the stage (e.g. when reading in an old file) or when an explicit migration has been requested (e.g. when an old file exists and the user wants to migrate it). In both cases if any prim types have been migrated the useSchemaPrims setting will be forced to True so that subsequent OmniGraph additions use the schema types. (Mostly because this is easier than trying to track the state of whether a graph contains such prims already.) Conversion of old scenes entails: - Changing any ComputeGraph or GlobalComputeGraph prims to be OmniGraph types - If a ComputeGraphSettings prim exists, migrating its attribute values to the OmniGraph prim - Changing any ComputeNode prims to be OmniGraphNode types - If any ComputeNode prims appear without a parent ComputeGraph create a default graph and move them into it Args: new_file_format_version: The file format version that should be used for the graph setting. If None then it will force the version immediately following the schema conversion (1, 4) Return: A dictionary of operations that were performed as part of the migration (key describes the operation, value is the objects to which it was applied) Raises: og.OmniGraphError if any of the attempted changes failed - will attempt to restore graph to original state """ return OmniGraphSchemaMigrator().update() # ============================================================================================================== # Handling for old files that did not use the OmniGraph schema (earlier than 1.3) def cb_update_to_include_schema( old_version: Optional[og.FileFormatVersion], new_version: Optional[og.FileFormatVersion], graph: Optional[og.Graph] ) -> Dict[str, Any]: """Callback invoked when a file is loaded to update old files to use the new schema. This will be called anytime a file is loaded with a non-current version. The old version and new version are checked to confirm that the values cross over the boundary when schemas were created, and if so then the schema information is applied to the file. Args: old_version: Version the file to upgrade uses new_version: Current file version expected graph: Graph to convert (only present for historical reasons - the entire stage is updated) Return: A dictionary of operations that were performed as part of the migration (key describes the operation, value is the objects to which it was applied) """ # If the setting to automatically migrate is not on then there is nothing to do here if not carb.settings.get_settings().get(USE_SCHEMA_PRIMS_SETTING): return {} # If the file format version is one of the ones that must contain schema prims no migration is needed if old_version is not None and ( old_version.majorVersion > LAST_FILE_FORMAT_VERSION_WITHOUT_SCHEMA.majorVersion or ( old_version.majorVersion == LAST_FILE_FORMAT_VERSION_WITHOUT_SCHEMA.majorVersion and old_version.minorVersion > LAST_FILE_FORMAT_VERSION_WITHOUT_SCHEMA.minorVersion ) ): return {"message": f"File format version {old_version} already uses the schema"} return update_to_include_schema((new_version.majorVersion, new_version.minorVersion)) # -------------------------------------------------------------------------------------------------------------- RESETTING_USE_SCHEMA_PRIMS = False """Global variable to avoid potential infinite recursion when restoring the useSchemaPrims setting""" RESETTING_IMPLICIT_GRAPH = False """Global variable to avoid potential infinite recursion when restoring the allowGlobalImplicitGraph setting""" # -------------------------------------------------------------------------------------------------------------- def can_set_use_schema_prims_setting(new_value: bool) -> str: """Check to see if a new value for the schema prims setting is valid - returns warning text, empty if okay""" def __prim_types_in_scene(prim_types: List[str]) -> bool: """Returns true if the scene contains prims whose types are any in the list""" found_prims = [] stage = omni.usd.get_context().get_stage() if stage is not None: iterator = iter(stage.TraverseAll()) for prim in iterator: if prim.GetTypeName() in prim_types: found_prims.append(f"{prim.GetPrimPath()} : {prim.GetTypeName()}") return found_prims if new_value: forbidden_prims = __prim_types_in_scene( ["ComputeGraphSettings", "ComputeNode", "ComputeGraph", "GlobalComputeGraph"] ) if forbidden_prims: return f"Cannot enable {USE_SCHEMA_PRIMS_SETTING} when the scene contains old style prims {forbidden_prims}" bare_connections = check_for_bare_connections(check_for_bare_connections(omni.usd.get_context().get_stage())) if bare_connections: return ( f"Cannot enable {USE_SCHEMA_PRIMS_SETTING} when the scene contains" f" direct prim connections {bare_connections}" ) else: forbidden_prims = __prim_types_in_scene(["OmniGraph", "OmniGraphNode"]) if forbidden_prims: return f"Cannot disable {USE_SCHEMA_PRIMS_SETTING} when the scene contains schema prims {forbidden_prims}" return ""

24,664

Python

53.089912

120

0.579144

omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/omnigraph_helper.py

# noqa: PLC0302 r"""Deprecated class that handles interactions with the OmniGraphs - use og.Controller instead _____ ______ _____ _____ ______ _____ _______ ______ _____ | __ \ | ____|| __ \ | __ \ | ____|/ ____| /\ |__ __|| ____|| __ \ | | | || |__ | |__) || |__) || |__ | | / \ | | | |__ | | | | | | | || __| | ___/ | _ / | __| | | / /\ \ | | | __| | | | | | |__| || |____ | | | | \ \ | |____| |____ / ____ \ | | | |____ | |__| | |_____/ |______||_| |_| \_\|______|\_____|/_/ \_\|_| |______||_____/ """ import os from contextlib import suppress from typing import Any, Dict, List, Optional, Tuple, Union import omni.graph.core as og import omni.graph.tools as ogt import omni.kit.commands from carb import log_info, log_warn from pxr import Sdf, Tf, Usd from ..errors import OmniGraphError from ..object_lookup import ObjectLookup from ..typing import Attribute_t, Node_t from ..utils import DBG_EVAL, dbg_eval from .context_helper import ContextHelper from .utils import ( ATTRIBUTE_TYPE_HINTS, ATTRIBUTE_TYPE_OR_LIST, ATTRIBUTE_TYPE_TYPE_HINTS, ATTRIBUTE_VALUE_PAIR, ATTRIBUTE_VALUE_PAIRS, EXTENDED_ATTRIBUTE_TYPE_HINTS, NODE_TYPE_HINTS, NODE_TYPE_OR_LIST, ) # Function argument types passed to the various graph interface operations ConnectData_t = Tuple[Node_t, Attribute_t, Node_t, Attribute_t] ConnectDatas_t = Union[ConnectData_t, List[ConnectData_t]] CreateNodeData_t = Tuple[str, Node_t] CreateNodeDatas_t = Union[CreateNodeData_t, List[CreateNodeData_t]] CreatePrimData_t = Tuple[str, Dict[str, Tuple[str, Any]]] CreatePrimDatas_t = Union[CreatePrimData_t, List[CreatePrimData_t]] DeleteNodeData_t = str DeleteNodeDatas_t = Union[DeleteNodeData_t, List[DeleteNodeData_t]] DisconnectData_t = Tuple[Node_t, Attribute_t, Node_t, Attribute_t] DisconnectDatas_t = Union[DisconnectData_t, List[DisconnectData_t]] SetValueData_t = Tuple[Attribute_t, Any] SetValueDatas_t = Union[SetValueData_t, List[SetValueData_t]] # Decoded attribute bundle possibilities BundledAttribute_t = Optional[Union[Usd.Prim, Usd.Property]] # ===================================================================== @ogt.DeprecatedClass("og.OmniGraphHelper is deprecated after version 1.5.0. Use og.Controller instead.") class OmniGraphHelper: """Class to provide a simple interface to OmniGraph manipulation functions Provides functions for creating nodes, making and breaking connections, and setting values. Graph manipulation functions are undoable, value changes are not. The main benefit this class provides over direct manipulation of the graph is that it accepts a variety of types for its operations. e.g. a connection could take an OmniGraph Node, a USD Prim, or a string indicating the path to the node. Attributes: graph: The OmniGraph on which operations will be performed. Raises: OmniGraphError: If there is not enough information to perform the requested operation """ # Type of connection point PRIM_TYPE = 0 BUNDLE_TYPE = 1 REGULAR_TYPE = 2 UNKNOWN = -1 # ---------------------------------------------------------------------- def __init__(self, omnigraph: Optional[og.Graph] = None): """Initialize the graph""" if omnigraph is None: self.graph = og.get_current_graph() else: self.graph = omnigraph # ---------------------------------------------------------------------- def context(self): """Returns the evaluation context for the graph to which this helper is attached""" return self.graph.get_default_graph_context() # ---------------------------------------------------------------------- async def evaluate(self): """Wait for the next Graph evaluation cycle - await this function to ensure it is finished before returning. If the graph evaluation time is not incremented after 10 application updates, RuntimeError is raised. """ start_t = self.context().get_time_since_start() # Ensure that a graph evaluation has happened before returning for _ in range(10): await omni.kit.app.get_app().next_update_async() now_t = self.context().get_time_since_start() if now_t > start_t: return raise RuntimeError(f"Graph evaluation time {now_t} was not incremented from start time {start_t}") # ---------------------------------------------------------------------- @staticmethod def safe_node_name(node_type_name: str, abbreviated: bool = False) -> str: """Returns a USD-safe node name derived from the node_type_name (stripping namespace) Args: node_type_name: Fully namespaced name of the node type abbreviated: If True then remove the namespace, else just make the separators into underscores Returns: A safe node name that roughly corresponds to the given node type name """ if abbreviated: last_namespace = node_type_name.rfind(".") if last_namespace < 0: return node_type_name return node_type_name[last_namespace + 1 :] return node_type_name.replace(".", "_") # ---------------------------------------------------------------------- def omnigraph_node(self, node_info: NODE_TYPE_OR_LIST) -> Union[og.Node, List[og.Node]]: """Returns the OmniGraph node(s) corresponding to the variable type parameter Args: node_info: Information for the node to find. If a list then iterate over the list Returns: Node(s) corresponding to the description(s) in the current graph, None where there is no match Raises: OmniGraphError if the node description wasn't one of the recognized types """ return ObjectLookup.node(node_info) # ---------------------------------------------------------------------- def omnigraph_attribute( self, node: NODE_TYPE_HINTS, attribute_info: ATTRIBUTE_TYPE_OR_LIST ) -> Union[og.Attribute, List[og.Attribute]]: """Returns the OmniGraph attribute(s) corresponding to the variable type parameter Args: node: Node to which the attribute belongs. Ignored if attribute_info is an og.Attribute attribute_info: Information on which attribute to look for. If a list then get all of them Returns: Attribute(s) matching the description(s) - None where there is no match Raises: OmniGraphError if the attribute description wasn't one of the recognized types, or if any of the attributes could not be found """ return ObjectLookup.attribute(attribute_info, node) # ---------------------------------------------------------------------- def node_as_prim(self, node: NODE_TYPE_HINTS) -> Usd.Prim: """Returns the prim corresponding to the variable type parameter""" if isinstance(node, Sdf.Path): return omni.usd.get_context().get_stage().GetPrimAtPath(node.GetPrimPath()) if isinstance(node, og.Node): return omni.usd.get_context().get_stage().GetPrimAtPath(node.get_prim_path()) if isinstance(node, Usd.Prim): return node with suppress(Exception): if isinstance(node, str): return omni.usd.get_context().get_stage().GetPrimAtPath(self.graph.get_node(node).get_prim_path()) raise OmniGraphError(f"Failed to get prim on {node}") # ---------------------------------------------------------------------- def get_prim_path(self, node: NODE_TYPE_HINTS): """Returns the prim path corresponding to the variable type parameter""" if isinstance(node, Sdf.Path): return node.GetPrimPath() if isinstance(node, og.Node): return node.get_prim_path() if isinstance(node, Usd.Prim): return node.GetPath() with suppress(Exception): if isinstance(node, str): return self.graph.get_node(node).get_prim_path() raise OmniGraphError(f"Failed to get prim path on {node}") # ---------------------------------------------------------------------- # begin-create-attribute-function def create_attribute( self, node: NODE_TYPE_HINTS, attr_name: str, attr_type: ATTRIBUTE_TYPE_TYPE_HINTS, attr_port: Optional[og.AttributePortType] = og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT, attr_default: Optional[Any] = None, attr_extended_type: Optional[ EXTENDED_ATTRIBUTE_TYPE_HINTS ] = og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_REGULAR, ) -> Optional[og.Attribute]: """Create a new dynamic attribute on the node Args: node: Node on which to create the attribute (path or og.Node) attr_name: Name of the new attribute, either with or without the port namespace attr_type: Type of the new attribute, as an OGN type string or og.Type attr_port: Port type of the new attribute, default is og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT attr_default: The initial value to set on the attribute, default is None attr_extended_type: The extended type of the attribute, default is og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_REGULAR. If the extended type is og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_UNION then this parameter will be a 2-tuple with the second element being a list or comma-separated string of union types Returns: The newly created attribute, None if there was a problem creating it """ # end-create-attribute-function ogt.dbg(f"Create attribute '{attr_name}' on node {node} of type {attr_type}") omg_node = self.omnigraph_node(node) omg_attr_type = ObjectLookup.attribute_type(attr_type) (success, result) = og.cmds.CreateAttr( node=omg_node, attr_name=attr_name, attr_type=omg_attr_type, attr_port=attr_port, attr_default=attr_default, attr_extended_type=attr_extended_type, ) if not result or not success: return None namespace = og.get_port_type_namespace(attr_port) if not attr_name.startswith(namespace): if ( omg_attr_type.get_type_name() == "bundle" and attr_port != og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT ): separator = "_" else: separator = ":" attr_name = f"{namespace}{separator}{attr_name}" return omg_node.get_attribute(attr_name) # ---------------------------------------------------------------------- # begin-remove-attribute-function def remove_attribute(self, attribute: ATTRIBUTE_TYPE_HINTS, node: Optional[NODE_TYPE_HINTS] = None) -> bool: """Removes an existing dynamic attribute from a node. Args: attribute: Name of the attribute to be removed node: If not None and the attribute is specified as a string then this is the node on which it lives Returns: True if the attribute was successfully removed, else False """ # end-remove-attribute-function ogt.dbg(f"Remove attribute {attribute} using node {node}") omg_attribute = self.omnigraph_attribute(node, attribute) (success, result) = og.cmds.RemoveAttr(attribute=omg_attribute) return success and result # ---------------------------------------------------------------------- def create_node( self, node_path: str, node_type: str, allow_exists: bool = False, version: Optional[int] = None ) -> og.Node: """Create an OmniGraph node of the given type and version at the given path. Args: node_path: SdfPath to the node in the stage node_type: Type of node to create check_exists: If true then succeed if a node with matching path, type, and version already exists version: Version of the node type to create. By default it creates the most recent. Raises: OmniGraphError: If the node already existed Returns: OmniGraph node added to the scene, or None if it could not be created """ ogt.dbg(f"Create '{node_path}' of type '{node_type}', allow={allow_exists}, version={version}") if version is not None: raise OmniGraphError("Creating nodes with specific versions not supported") node = self.graph.get_node(node_path) if node is not None and node.is_valid(): if allow_exists: current_node_type = node.get_type_name() if node_type == current_node_type: return node error = f"already exists as type {current_node_type}" else: error = "already exists" raise OmniGraphError(f"Creation of {node_path} as type {node_type} failed - {error}") og.cmds.CreateNode(graph=self.graph, node_path=node_path, node_type=node_type, create_usd=True) return self.graph.get_node(node_path) # ---------------------------------------------------------------------- def create_prim(self, prim_path: str, attribute_info: Dict[str, Tuple[Union[str, og.Type], Any]]): """Create a prim node containing a predefined set of attribute values and a ReadPrim OmniGraph node for it Args: prim_path: Location of the prim attribute_info: Dictionary of {NAME: (TYPE, VALUE)} for all prim attributes The TYPE is in OGN format, so "float[3][]", "bundle", etc. The VALUE should be in a format suitable for passing to pxr::UsdAttribute.Set() Returns: og.Node of the created node """ stage = omni.usd.get_context().get_stage() omni.kit.commands.execute("CreatePrim", prim_path=prim_path, prim_type="BundleSource") prim = stage.GetPrimAtPath(prim_path) # Walk the list of attribute descriptions, creating them on the prim as they go for attribute_name, (attribute_type_name, attribute_value) in attribute_info.items(): if isinstance(attribute_type_name, og.Type): attribute_type = attribute_type_name attribute_type_name = attribute_type.get_ogn_type_name() else: attribute_type = og.AttributeType.type_from_ogn_type_name(attribute_type_name) manager = ogt.get_attribute_manager_type(attribute_type_name) sdf_type_name = manager.sdf_type_name() if sdf_type_name is not None: sdf_type = getattr(Sdf.ValueTypeNames, sdf_type_name) usd_value = og.attribute_value_as_usd(attribute_type, attribute_value) prim.CreateAttribute(attribute_name, sdf_type).Set(usd_value) # Add the new Prim to OmniGraph return og.cmds.CreateNode( graph=self.graph, node_path=prim_path, node_type="omni.graph.core.Prim", create_usd=False )[1] # ---------------------------------------------------------------------- def delete_node(self, node: NODE_TYPE_HINTS, allow_noexists: bool = False) -> bool: """Deletes an OmniGraph node at the given path. Args: node: node to be deleted allow_noexists: If true then succeed if no node with matching path exists Raises: OmniGraphError: If the node does not exist Returns: True if the node is gone """ ogt.dbg(f"Delete '{node}', allow_noexists={allow_noexists}") try: omnigraph_node = self.omnigraph_node(node) except Exception: if allow_noexists: return True raise return og.cmds.DeleteNode(graph=self.graph, node_path=omnigraph_node.get_prim_path(), modify_usd=True)[0] # ---------------------------------------------------------------------- def attach_to_prim(self, prim: Union[Usd.Prim, str]) -> og.Node: """Create a new compute node attached to an ordinary USD prim. Args: prim: Prim node or name of prim node to which the OmniGraph node should attach Returns: OmniGraph Prim type node associated with the passed in Prim """ ogt.dbg(f"Attach to prim {prim}") if isinstance(prim, str): prim_path = prim else: prim_path = str(prim.GetPath()) return self.create_node(prim_path, "omni.graph.core.Prim", allow_exists=True) # ---------------------------------------------------------------------- @staticmethod def get_attr_type_name(attr): """ Get the type name for the given attribute, taking in to account extended type Args: attr: Attribute whose type is to be determined Returns: The type name of the attribute """ type_name = None with suppress(AttributeError): if attr.get_extended_type() in [ og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_ANY, og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_UNION, ]: type_name = attr.get_resolved_type().get_type_name() if type_name is None: try: type_name = attr.get_type_name() except AttributeError: type_name = attr.get_type().get_type_name() return type_name # ---------------------------------------------------------------------- @staticmethod def get_attr_type(attr: Union[og.Attribute, og.AttributeData]): """ Get the type for the given attribute, taking in to account extended type Args: attr: Attribute whose type is to be determined Returns: The type of the attribute """ return attr.get_resolved_type() if isinstance(attr, og.Attribute) else attr.get_type() # ---------------------------------------------------------------------- def _decode_connection_point( self, node_info: NODE_TYPE_HINTS, attr_info: ATTRIBUTE_TYPE_HINTS ) -> Tuple[int, Optional[Usd.Prim], og.Node, Optional[og.Attribute]]: """Decode a connection point into identifying pieces Args: node_info: Identifying information for an OmniGraph node attr_info: Identifying information for an OmniGraph node's attribute Returns: (location_type, prim, node, attribute) location_type: what type of connection point this is - bundle, regular, or prim prim: Prim of the connection point, or None if it is not a prim type node: og.Node of the connection point, or None if it is a prim attribute: og.Attribute of the connection point, or None if it is a prim Raises: OmniGraphError if the configuration of the connection point is not consistent """ attr_type = self.UNKNOWN prim = None node = node_info attr = None if attr_info is None: prim = self.node_as_prim(node_info) if not prim.IsValid(): raise OmniGraphError("When attribute is None, node must be a valid Prim") attr_type = self.PRIM_TYPE else: node = self.omnigraph_node(node_info) if not node.is_valid(): raise OmniGraphError("When attribute is specified, node must be a valid OmniGraph node") attr = self.omnigraph_attribute(node, attr_info) if not attr.is_valid(): raise OmniGraphError("Attribute is not valid") if attr.get_type_name() == "bundle": attr_type = self.BUNDLE_TYPE else: attr_type = self.REGULAR_TYPE assert attr_type != self.UNKNOWN return (attr_type, prim, node, attr) # ---------------------------------------------------------------------- def _decode_connection_type( self, src_node_info: NODE_TYPE_HINTS, src_attr_info: ATTRIBUTE_TYPE_HINTS, dst_node_info: NODE_TYPE_HINTS, dst_attr_info: ATTRIBUTE_TYPE_HINTS, ) -> Tuple[Union[Usd.Prim, og.Attribute], og.Attribute]: """ Decode the node and source information into an Attribute->Attribute connection or a Prim->Bundle connection. Everything is set up to be fairly generic so that if we have more general connections in the future it can still be handled using the same framework. The source and destination comes from _decode_connection_point() with these legal cases: Prim -> bundleAttribute src_attr_info is None, src_node_info is Prim, dst_attr_info.type == bundle bundleAttribute -> bundleAttribute src_attr_info.type == dst_attr_info.type == bundle attribute -> attribute src_attr_info.type != bundle, dst_attr_info.type != bundle Args: src_node_info: Node on the source (input) end of the connection. src_attr_info: Attribute on the source (input) end of the connection - None means connect from a Prim. dst_node_info: Node on the destination (output) end of the connection. dst_attr_info: Attribute on the destination (output) end of the connection. Returns: (src_location, dst_location): If a Prim->Bundle connection: src_location: Usd.Prim where the connection originates dst_location: og.Attribute where the connection terminates If an Attribute->Attribute connection src_location: og.Attribute where the connection originates dst_location: og.Attribute where the connection terminates Raises: OmniGraphError: If the connection request doesn't fall into one of the allowed cases """ src_location = None dst_location = None src_path = f"{self.get_prim_path(src_node_info)}.{src_attr_info}" dst_path = f"{self.get_prim_path(dst_node_info)}.{dst_attr_info}" try: (src_type, src_prim, src_node, src_attr) = self._decode_connection_point(src_node_info, src_attr_info) (dst_type, _, dst_node, dst_attr) = self._decode_connection_point(dst_node_info, dst_attr_info) if src_type == self.PRIM_TYPE: if dst_type == self.PRIM_TYPE: raise OmniGraphError("Prim -> Prim connection not valid, use AddRelationship/RemoveRelationship") if dst_type == self.REGULAR_TYPE: raise OmniGraphError("Prim -> Attribute connection not allowed") if not dst_node or not dst_node.is_valid() or not dst_attr: raise OmniGraphError("Destination is invalid") # Prim -> Bundle connection if dst_type == self.BUNDLE_TYPE: src_location = src_prim dst_location = dst_attr ogt.dbg(f"Prim -> Bundle {src_path} -> {dst_path}") elif src_type == self.BUNDLE_TYPE: if dst_type == self.REGULAR_TYPE: raise OmniGraphError("Bundle -> Attribute connection not allowed") if not src_node or not src_node.is_valid() or not src_attr: raise OmniGraphError("Source is invalid") if not dst_node or not dst_node.is_valid() or not dst_attr: raise OmniGraphError("Destination is invalid") # Bundle -> Bundle connection if dst_type == self.BUNDLE_TYPE: src_location = src_attr dst_location = dst_attr ogt.dbg(f"Bundle -> Bundle {src_path} -> {dst_path}") # Bundle -> Prim connection if dst_type == self.PRIM_TYPE: raise OmniGraphError("Bundle -> Prim connection not allowed") else: if dst_type == self.PRIM_TYPE: raise OmniGraphError("Attribute -> Prim connection not allowed") if dst_type == self.BUNDLE_TYPE: raise OmniGraphError("Attribute -> Bundle connection not allowed") if not src_node or not src_node.is_valid() or not src_attr: raise OmniGraphError("Source is invalid") if not dst_node or not dst_node.is_valid() or not dst_attr: raise OmniGraphError("Destination is invalid") # Attribute -> Attribute connection src_location = src_attr dst_location = dst_attr ogt.dbg(f"Attribute -> Attribute {src_path} -> {dst_path}") except OmniGraphError as error: raise OmniGraphError(f"{src_path} -> {dst_path}") from error return (src_location, dst_location) # ---------------------------------------------------------------------- def connect( self, src_node: NODE_TYPE_HINTS, src_attr: ATTRIBUTE_TYPE_HINTS, dst_node: NODE_TYPE_HINTS, dst_attr: ATTRIBUTE_TYPE_HINTS, ): """Create a connection between two attributes Args: src_node: Node on the source (input) end of the connection. Ignored if src_attr is an og.Attribute src_attr: Attribute on the source (input) end of the connection. (If None then it's a prim connection) dst_node: Node on the destination (output) end of the connection. Ignored if dst_attr is an og.Attribute dst_attr: Attribute on the destination (output) end of the connection. Raises: OmniGraphError: If nodes or attributes could not be found, or connection fails """ ogt.dbg(f"Connect {src_node},{src_attr} -> {dst_node},{dst_attr}") (src_location, dst_location) = self._decode_connection_type(src_node, src_attr, dst_node, dst_attr) if src_location is None or dst_location is None: success = False error = "Connection locations not recognized" elif isinstance(src_location, Usd.Prim): ogt.dbg(" Connect Prim -> Bundle") (success, error) = og.cmds.ConnectPrim( attr=dst_location, prim_path=src_location.GetPath().pathString, is_bundle_connection=src_attr is not None, ) else: ogt.dbg(f" Connect Attr {src_location.get_name()} to {dst_location.get_name()}") (success, error) = og.cmds.ConnectAttrs(src_attr=src_location, dest_attr=dst_location, modify_usd=True) if not success: raise OmniGraphError( f"Failed to connect {self.get_prim_path(src_node)}.{src_attr}" f" -> {self.get_prim_path(dst_node)}.{dst_attr} ({error})" ) # ---------------------------------------------------------------------- def disconnect( self, src_node: NODE_TYPE_HINTS, src_attr: ATTRIBUTE_TYPE_HINTS, dst_node: NODE_TYPE_HINTS, dst_attr: ATTRIBUTE_TYPE_HINTS, ): """Break a connection between two attributes Args: src_node: Node on the source (input) end of the connection. Ignored if src_attr is an og.Attribute src_attr: Attribute on the source (input) end of the connection. If None then it is a prim connection. dst_node: Node on the destination (output) end of the connection. Ignored if dst_attr is an og.Attribute dst_attr: Attribute on the destination (output) end of the connection. Raises: OmniGraphError: If nodes or attributes could not be found, connection didn't exist, or disconnection fails """ ogt.dbg(f"Disconnect {src_node},{src_attr} -> {dst_node},{dst_attr}") (src_location, dst_location) = self._decode_connection_type(src_node, src_attr, dst_node, dst_attr) if src_location is None or dst_location is None: success = False error = "Connection locations not recognized" elif isinstance(src_location, Usd.Prim): (success, error) = og.cmds.DisconnectPrim( attr=dst_location, prim_path=src_location.GetPath().pathString, is_bundle_connection=src_attr is not None, ) else: ogt.dbg(f" Disconnect Attr {src_location.get_name()} from {dst_location.get_name()}") (success, error) = og.cmds.DisconnectAttrs(src_attr=src_location, dest_attr=dst_location, modify_usd=True) if not success: raise OmniGraphError( f"Failed to disconnect {self.get_prim_path(src_node)}.{src_attr}" f" -> {self.get_prim_path(dst_node)}.{dst_attr} ({error})" ) # ---------------------------------------------------------------------- def disconnect_all( self, attr: ATTRIBUTE_TYPE_HINTS, node: Optional[NODE_TYPE_HINTS] = None, ): """Break all connections to and from an attribute Args: attr: Attribute on the source (input) end of the connection. If None then it is a prim connection. node: Node on the source (input) end of the connection. Ignored if attr is an og.Attribute Raises: OmniGraphError: If nodes or attributes could not be found, connection didn't exist, or disconnection fails """ ogt.dbg(f"Disconnect all on {node},{attr}") attribute = self.omnigraph_attribute(node, attr) if attribute is None: success = False error = "Disconnection attribute not recognized" else: ogt.dbg(f" Disconnect All from {attribute.get_name()}") (success, error) = og.cmds.DisconnectAllAttrs(attr=attribute, modify_usd=True) if not success: raise OmniGraphError(f"Failed to break connections on {self.get_prim_path(node)}.{attr} ({error})") # ---------------------------------------------------------------------- def set_attribute_data_values( self, values_to_set: List[Tuple[og.AttributeData, Any]], graph: Optional[og.Graph] = None ): """Set a bunch of attribute data values Args: values_to_set: List of (AttributeData, Value) pairs which are the values to be set Raises: OmniGraphError: If values could not be set """ if not values_to_set: return for (attribute_data, value) in values_to_set: try: (success, error) = og.cmds.SetAttrData(attribute_data=attribute_data, value=value, graph=graph) if not success: raise TypeError(error) except TypeError as error: raise OmniGraphError(f"Could not set value on attribute data '{attribute_data.get_name()}'") from error # ---------------------------------------------------------------------- def set_attribute_values(self, values_to_set: List[Tuple[og.Attribute, Any]], ignore_usd: bool = False): """Set a bunch of attribute values Dict values can be used to specify a type in additional to a value. If the attribute is unresolved, it will be resolved to that type before setting the value. For example: set_attribute_values([(attrib, {"type": "float2", "value": (1.0, 2.0)})]) Args: values_to_set: List of (Attribute, Value) pairs which are the values to be set. ignore_usd: If False then report any problems updating the USD attributes Raises: OmniGraphError: If values could not be set """ if not values_to_set: return for (attribute, value) in values_to_set: set_type = None if isinstance(value, dict): # special case - we may need to resolve the attribute to this particular type before setting set_type = value["type"] value = value["value"] try: (success, error) = og.cmds.SetAttr(attr=attribute, value=value, set_type=set_type) if not success: raise TypeError(error) except TypeError as error: raise OmniGraphError(f"Could not set value on attribute '{attribute.get_name()}'") from error # ---------------------------------------------------------------------------------------------------- # TODO: This is necessary to update USD at the moment. Updating flatcache and USD should be handled # directly in SetAttrCommand. Once that has been done this can be deleted. # { stage = omni.usd.get_context().get_stage() prim = stage.GetPrimAtPath(attribute.get_node().get_prim_path()) if prim.IsValid() and attribute.get_extended_type() == og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_REGULAR: try: # The Set method wants USD types for some attribute types so do the translation first value = og.attribute_value_as_usd(OmniGraphHelper.get_attr_type(attribute), value) prim.GetAttribute(attribute.get_name()).Set(value) except Tf.ErrorException as error: if not ignore_usd: log_warn(f"Could not sync USD on attribute {attribute.get_name()} - {error}") except TypeError as error: # TODO: This occurs when the parameters to Set() don't match what USD expects. It could be fixed # by special-casing every known mismatch but this section should be going away so it won't # be done at this time. The current known failures are the quaternion types and arrays of the # tuple-arrays (e.g. "quatd[4]", "double[3][]", "float[2][]", ...) if not ignore_usd: log_info(f"Could not set value on attribute {attribute.get_name()} - {error}") except Exception as error: # noqa: PLW0703 log_warn(f"Unknown problem setting values - {error}") # } # ---------------------------------------------------------------------------------------------------- # ---------------------------------------------------------------------- def set_values(self, node: NODE_TYPE_HINTS, values_to_set: ATTRIBUTE_VALUE_PAIRS, ignore_usd: bool = False): """Set a bunch of attribute values on a single node This is general purpose for handling all types of node and attribute descriptions. If you already have the og.Attributes whose values you wish to set then call set_attribute_values() instead. Args: node: Node on which the values are to be set values_to_set: List or single element of (Attribute, Value) pairs which are the values to be set ignore_usd: If False then report any problems updating the USD attributes Raises: OmniGraphError: If nodes or attributes could not be found, or values could not be set """ if not values_to_set: log_warn("Tried to set values from an empty list") return omnigraph_node = self.omnigraph_node(node) def set_a_value(attribute_and_value: ATTRIBUTE_VALUE_PAIR): """Try to set a single value, raising an OmniGraphError exception if anything went wrong""" if len(attribute_and_value) != 2: raise OmniGraphError(f"Values to set should be (attribute, value) pairs, not '{attribute_and_value}'") attribute = self.omnigraph_attribute(omnigraph_node, attribute_and_value[0]) self.set_attribute_values([(attribute, attribute_and_value[1])], ignore_usd=ignore_usd) if isinstance(values_to_set, list): if values_to_set and not isinstance(values_to_set[0], tuple) and not isinstance(values_to_set[0], list): log_warn(f"Call set_values() with a tuple or array of tuples as attribute values, not {values_to_set}") set_a_value(values_to_set) else: for attribute_and_value in values_to_set: set_a_value(attribute_and_value) else: set_a_value(values_to_set) # ---------------------------------------------------------------------- def get_attribute_values(self, attributes_to_get: List[og.Attribute]) -> List[Any]: """Get the values from a list of defined attributes Args: attributes_to_get: List of attributes whose values are to be retrieved Returns: List of values corresponding to the list of attributes passed in """ results = [] context_helper = ContextHelper() for attribute in attributes_to_get: try: results.append(context_helper.get_attr_value(attribute)) except TypeError as error: raise OmniGraphError(f"Could not get value on attribute '{attribute.get_name()}'") from error return results # ---------------------------------------------------------------------- def get_values(self, node: NODE_TYPE_HINTS, attributes_to_get: ATTRIBUTE_TYPE_OR_LIST) -> List[Any]: """Get the values from attributes on a node This is general purpose for handling all types of node and attribute descriptions. If you already have the og.Attributes whose values you wish to retrieve then call get_attribute_values() instead. Args: node: Description of node whose values are to be read attributes_to_get: One or a list of descriptions of attributes whose values are to be retrieved Raises: OmniGraphError: If nodes or attributes could not be found, or values could not be read Returns: One or a list of values corresponding to the attributes passed in """ omnigraph_node = self.omnigraph_node(node) if not isinstance(attributes_to_get, List): return self.get_attribute_values([self.omnigraph_attribute(omnigraph_node, attributes_to_get)])[0] return self.get_attribute_values( [self.omnigraph_attribute(omnigraph_node, attribute) for attribute in attributes_to_get] ) # ---------------------------------------------------------------------- def _edit_delete_nodes(self, root_prim: str, nodes_to_delete: DeleteNodeData_t): """Delete the set of nodes passed, using the format required by edit_graph""" delete_list = nodes_to_delete if isinstance(nodes_to_delete, list) else [nodes_to_delete] for node_name in delete_list: dbg_eval(f"Deleting node {node_name}") node_path = os.path.join(root_prim, node_name).replace("\\", "/") self.delete_node(node_path, False) dbg_eval(f"... deleted {node_path}") # ---------------------------------------------------------------------- def _edit_create_nodes(self, root_prim: str, nodes_to_create: CreateNodeData_t): """Create the set of nodes passed, using the format required by edit_graph Returns a tuple of the map from node path to the created node, and the list of constructed nodes""" node_path_map = {} nodes_constructed = [] create_list = nodes_to_create if isinstance(nodes_to_create, list) else [nodes_to_create] for node_type, node_name in create_list: dbg_eval(f"Creating node {node_name} of type {node_type}") node_path = os.path.join(root_prim, node_name).replace("\\", "/") node_path_map[node_name] = self.create_node(node_path, node_type, False) nodes_constructed.append(node_path_map[node_name]) dbg_eval(f"... created {node_path_map[node_name]}") return (node_path_map, nodes_constructed) # ---------------------------------------------------------------------- def _edit_create_prims( self, root_prim: str, node_path_map: Dict[str, og.Node], nodes_constructed: List[og.Node], prims_to_create: CreatePrimData_t, ): """Create the set of prims passed, using the format required by edit_graph""" create_list = prims_to_create if isinstance(prims_to_create, list) else [prims_to_create] for prim_path, attribute_info in create_list: dbg_eval(f"Creating prim at {prim_path}") node_path = os.path.join(root_prim, prim_path).replace("\\", "/") node_path_map[prim_path] = self.create_prim(node_path, attribute_info) nodes_constructed.append(node_path_map[prim_path]) dbg_eval(f"... created {node_path_map[prim_path]}") return (node_path_map, nodes_constructed) # ---------------------------------------------------------------------- def _edit_connect(self, node_path_map: Dict[str, og.Node], connections_to_make: ConnectData_t): """Make a set of attribute connections, using the format required by edit_graph""" connection_list = connections_to_make if isinstance(connections_to_make, list) else [connections_to_make] try: for (src_node_name, src_attr_name, dst_node_name, dst_attr_name) in connection_list: dbg_eval(f"Connecting {src_node_name}.{src_attr_name} -> {dst_node_name}.{dst_attr_name}") try: src_node = node_path_map[src_node_name] except KeyError: src_node = src_node_name try: dst_node = node_path_map[dst_node_name] except KeyError: dst_node = dst_node_name dbg_eval(f"...nodes resolved to {src_node} and {dst_node}") self.connect(src_node, src_attr_name, dst_node, dst_attr_name) dbg_eval("...connection succeeded") except ValueError as error: raise OmniGraphError( f"Connect requires src_node, src_attr, dst_node, dst_attr - got {connection_list}" ) from error # ---------------------------------------------------------------------- def _edit_disconnect(self, node_path_map: Dict[str, og.Node], connections_to_break: DisconnectData_t): """Make a set of attribute disconnections, using the format required by edit_graph""" connection_list = connections_to_break if isinstance(connections_to_break, list) else [connections_to_break] try: for (src_node_name, src_attr_name, dst_node_name, dst_attr_name) in connection_list: dbg_eval(f"Disconnecting {src_node_name}.{src_attr_name} -> {dst_node_name}.{dst_attr_name}") try: src_node = node_path_map[src_node_name] except KeyError: src_node = src_node_name try: dst_node = node_path_map[dst_node_name] except KeyError: dst_node = dst_node_name dbg_eval(f"...nodes resolved to {src_node} and {dst_node}") self.disconnect(src_node, src_attr_name, dst_node, dst_attr_name) dbg_eval("...disconnection succeeded") except ValueError as error: raise OmniGraphError( f"Connect requires src_node, src_attr, dst_node, dst_attr - got {connection_list}" ) from error # ---------------------------------------------------------------------- def _edit_set_values(self, node_path_map: Dict[str, og.Node], values_to_set: SetValueData_t): """Set a bunch of attribute values, using the format required by edit_graph""" value_descriptions = values_to_set if isinstance(values_to_set, list) else [values_to_set] # value_list data can either include a node or not. If the node is not included then # the list members must be og.Attributes, not just names. try: for value_list in value_descriptions: if not isinstance(value_list, tuple) and not isinstance(value_list, list): raise ValueError if len(value_list) == 3: node_name, attr_name, value = value_list _ = DBG_EVAL and dbg_eval(f"Setting value '{value} on {node_name}.{attr_name}") try: node = node_path_map[node_name] except KeyError: node = node_name self.set_values(node, [(attr_name, value)]) else: attr_name, value = value_list if not isinstance(attr_name, og.Attribute): raise OmniGraphError(f"Must set values with og.Attribute, got '{attr_name}'") _ = DBG_EVAL and dbg_eval(f"Setting value '{value} on {attr_name}") self.set_attribute_values([(attr_name, value)]) _ = DBG_EVAL and dbg_eval("...setting value succeeded") except ValueError as ex: raise OmniGraphError(f"Setting value requires ({{node_name, }}attr_name, value) - got {value_list}") from ex # ---------------------------------------------------------------------- def edit(self, graph_description: Dict[str, Any]) -> List[og.Node]: """Modify an OmniGraph relative to the top level of the scene ("/") Convenience function for accessing edit_graph without a root prim when it's not relevant """ return self.edit_graph("/", graph_description) # ---------------------------------------------------------------------- def edit_graph(self, root_prim: str, graph_description: Dict[str, Any]) -> List[og.Node]: """Create an OmniGraph node graph from a dictionary description of the contents. Here's a simple call that first deletes an existing node "oldnode", then creates two nodes of type "omni.graph.tutorials.SimpleData", connects their "a_int" attributes, disconnects their "a_float" attributes and sets the input "a_int" of the source node to the value 5. It also creates two unused USD Prim nodes, one with a float attribute named "attrFloat" with value 2.0, and the other with a boolean attribute named "attrBool" with the value true. .. code-block:: python helper = OmniGraphHelper() (src_node, dst_node) = helper.edit_graph("/", { "deletions" [ "oldnode" ], "nodes": [ ("omni.graph.tutorials.SimpleData", "src"), ("omni.graph.tutorials.SimpleData", "dst") ], "prims": [ ("Prim1", {"attrFloat": ("float", 2.0)), ("Prim2", {"attrBool": ("bool", true)), ], "connections": [ ("src", "outputs:a_int", "dst", "inputs:a_int") ], "disconnections": [ ("src", "outputs:a_float", "dst", "inputs:a_float") ], "values": [ ("src", "inputs:a_int", 5) ] } ) Args: root_prim: Top level prim for the graph nodes (e.g. "/") graph_description: Dictionary of graph construction definitions. A strict set of keys is accepted. Each of the values in the dictionary can be either a single value or a list of values of the proscribed type. - "deletions": [NODE_NAME] Deletes a node at the given path - "nodes": [(NODE_TYPE, NODE_NAME)] Constructs a node of type "NODE_TYPE" and name "NODE_NAME". - "prims": [(PRIM_PATH, {ATTR_NAME: (ATTR_TYPE, ATTR_VALUE)})] Constructs a prim with path "PRIM_PATH containing a set of attributes with specified types and values. - "connections": [(SRC_NODE_NAME, SRC_ATTR_NAME, DST_NODE_NAME, DST_ATTR_NAME)] Makes a connection between the given source and destination attributes - "disconnections": [(SRC_NODE_NAME, SRC_ATTR_NAME, DST_NODE_NAME, DST_ATTR_NAME)] Breaks a connection between the given source and destination attributes - "values": [(NODE_NAME, ATTR_NAME, VALUE)] Sets the value of the given list of attributes. Note that when constructing nodes the "NODE_NAME" may be in use, so a map is constructed when the nodes are created between the requested node name and the actual node created, which will contain the prim path reference. Operations happen in that order (all deletions, all nodes, all connections, all values) to minimize the possibility of errors. As a shortform any of the keys can accept a single tuple as well as a list of tuples. Returns: The list of og.Nodes created for all constructed nodes Raises: OmniGraphError if any of the graph creation instructions could not be fulfilled The graph will be left in the partially constructed state it reached at the time of the error """ # The graph could be in an illegal state when halfway through editing operations. This will disable it # until all operations are completed. It's up to the caller to ensure that the state is legal after all # operations are completed. graph_was_disabled = self.graph.is_disabled() self.graph.set_disabled(True) try: # Syntax check first for instruction, data in graph_description.items(): if instruction not in ["nodes", "connections", "disconnections", "values", "deletions", "prims"]: raise OmniGraphError(f"Unknown graph construction operation - {instruction}: {data}") # Delete first because we may be creating nodes with the same names with suppress(KeyError): self._edit_delete_nodes(root_prim, graph_description["deletions"]) # Create nodes next since connect and set may need them node_path_map = {} nodes_constructed = [] with suppress(KeyError): (node_path_map, nodes_constructed) = self._edit_create_nodes(root_prim, graph_description["nodes"]) # Prims next as they may be used in connections with suppress(KeyError): self._edit_create_prims(root_prim, node_path_map, nodes_constructed, graph_description["prims"]) # Connections next as setting values may override their data with suppress(KeyError): self._edit_connect(node_path_map, graph_description["connections"]) # Disconnections may have been created by the connections list so they're next, though that's unlikely with suppress(KeyError): self._edit_disconnect(node_path_map, graph_description["disconnections"]) # Now set the values with suppress(KeyError): self._edit_set_values(node_path_map, graph_description["values"]) finally: # Really important that this always gets reset self.graph.set_disabled(graph_was_disabled) return nodes_constructed

52,187

Python

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120

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omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/context_helper.py

r"""Deprecated accessor of attribute values within a graph context. Use og.DataView or og.Controller instead. _____ ______ _____ _____ ______ _____ _______ ______ _____ | __ \ | ____|| __ \ | __ \ | ____|/ ____| /\ |__ __|| ____|| __ \ | | | || |__ | |__) || |__) || |__ | | / \ | | | |__ | | | | | | | || __| | ___/ | _ / | __| | | / /\ \ | | | __| | | | | | |__| || |____ | | | | \ \ | |____| |____ / ____ \ | | | |____ | |__| | |_____/ |______||_| |_| \_\|______|\_____|/_/ \_\|_| |______||_____/ """ from contextlib import suppress from typing import Any, Optional, Union import omni.graph.core as og import omni.graph.tools as ogt from ..attribute_values import AttributeDataValueHelper, AttributeValueHelper, WrappedArrayType from ..lookup_tables import ( IDX_ARRAY_GET, IDX_ARRAY_GET_TENSOR, IDX_ARRAY_SET, IDX_GET, IDX_GET_TENSOR, IDX_SET, UNSUPPORTED_METHODS, type_access_methods, ) from ..utils import DBG_EVAL, dbg_eval, list_dimensions # ============================================================================================================== # Try to import torch for tensor APIs. If not available the non-tensor APIs will still work. try: import torch_wrap except ImportError: torch_wrap = None # ================================================================================ @ogt.DeprecatedClass("og.ContextHelper is deprecated after version 1.5.0. Use og.Controller instead.") class ContextHelper: """Helper class for managing compute graph contexts Attributes: _py_context: Context on which to apply the operations """ def __init__(self, py_context=None): """Remember the context for future operations. Args: py_context: Context for the operations - if None then get the current one """ if py_context is None: for context in og.get_compute_graph_contexts(): self._py_context = context else: self._py_context = py_context # ---------------------------------------------------------------------- @property def context(self): """Returns the context being used for evaluation""" return self._py_context # ---------------------------------------------------------------------- def get_attribute_configuration(self, attr: Union[og.Attribute, og.AttributeData]): """Get the array configuration information from the attribute. Attributes can be simple, tuples, or arrays of either. The information on what this is will be encoded in the attribute type name. This method decodes that type name to find out what type of attribute data the attribute will use. The method also gives the right answers for both Attribute and AttributeData with some suitable AttributeError catches to special case on unimplemented methods. Args: attr: Attribute whose configuration is being determined Returns: Tuple of: str: Name of the full/resolved data type used by the attribute (e.g. "float[3][]") str: Name of the simple data type used by the attribute (e.g. "float") bool: True if the data type is a tuple or array (e.g. "float3" or "float[]") bool: True if the data type is a matrix and should be flattened (e.g. "matrixd[3]" or "framed[4][]") List: List of lookup methods for this type Raises: TypeError: If the attribute type is not yet supported """ # The actual data in extended types is the resolved type name; the attribute type is always token ogn_type = attr.get_resolved_type() if isinstance(attr, og.Attribute) else attr.get_type() type_name = ogn_type.get_ogn_type_name() # The root name is important for lookup root_type_name = ogn_type.get_base_type_name() if ogn_type.base_type == og.BaseDataType.UNKNOWN and ( attr.get_extended_type() in (og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_ANY, og.ExtendedAttributeType.EXTENDED_ATTR_TYPE_UNION) ): raise TypeError(f"Attribute '{attr.get_name()}' is not resolved, and so has no concrete type") is_array_type = ogn_type.array_depth > 0 and ogn_type.role not in [og.AttributeRole.TEXT, og.AttributeRole.PATH] is_matrix_type = ( type_name.startswith("matrix") or type_name.startswith("frame") or type_name.startswith("transform") ) lookup_methods = UNSUPPORTED_METHODS # Gather nodes automatically add one level of array to their attributes is_gather_node = False with suppress(AttributeError): is_gather_node = attr.get_node().get_type_name() == "Gather" if is_gather_node: if is_array_type: raise TypeError("Array types on Gather nodes are not yet supported in Python") is_array_type = True # Arrays of arrays are not yet supported in flatcache so they cannot be supported in Python if ogn_type.array_depth > 1: raise TypeError("Nested array types are not yet supported in Python") try: lookup_methods = type_access_methods(ogn_type)[0] except (KeyError, TypeError) as error: raise TypeError(f"Root type {ogn_type.get_ogn_type_name()} is not yet supported in Python") from error return (type_name, root_type_name, is_array_type, is_matrix_type, lookup_methods) # ---------------------------------------------------------------------- def get( self, attr_object: Union[og.Attribute, og.AttributeData], on_gpu: bool = False, update_immediately: bool = False ): """ Get the value of an attribute or attribute data. Can be used for either type. This method is intended for simple value retrievals. For array values use get_array(). Args: attr_object: attribute data whose value is to be retrieved on_gpu: Is the value stored on the GPU? update_immediately: Should the stage update before getting the value or wait for the next regular update? Returns: Value of the attribute or attribute data Raises: TypeError: If an unsupported object type was passed in """ if isinstance(attr_object, og.AttributeData): helper = AttributeDataValueHelper(attr_object) return helper.get(on_gpu) if isinstance(attr_object, og.Attribute): helper = AttributeValueHelper(attr_object) return helper.get(on_gpu) raise TypeError(f"Object type {type(attr_object)} cannot be set with this method") # ---------------------------------------------------------------------- def get_array( self, attr_object: Union[og.Attribute, og.AttributeData], on_gpu: bool = False, update_immediately: bool = False, get_for_write: bool = False, reserved_element_count: int = 0, return_type: Optional[WrappedArrayType] = None, ) -> Any: """ Get the value of an attribute or attribute data. Can be used for either type. Args: attr_object: attribute whose value is to be retrieved on_gpu: Is the value stored on the GPU? update_immediately: Should the stage update before getting the value or wait for the next regular update? get_for_write: If True then get the data in writable form (which may do other things under the covers) reserved_element_count: For writable array types set the element count to this before retrieving the data. This guarantees a buffer of this many elements is available in the returned data. Returns: Array value of the attribute or attribute data Raises: TypeError: If an unsupported object type was passed in """ # Ask the attribute update its value. If we are using a push graph, this # won't do anything, but in a dirty and pull graph, this generates the "pull" that causes the graph # to evaluate the dirtied attribute. with suppress(AttributeError): attr_object.update_object_value(update_immediately) helper = AttributeValueHelper(attr_object) if get_for_write is not None: if reserved_element_count is None: raise ValueError("Tried to get an array for write without setting the element count") return helper.get_array(get_for_write, reserved_element_count, on_gpu, return_type) return helper.get(on_gpu) # ---------------------------------------------------------------------- def get_attr_value( self, attr: og.Attribute, isGPU: bool = False, # noqa: N803 isTensor: bool = False, # noqa: N803 getDefault: bool = False, # noqa: N803 updateImmediately=False, # noqa: N803 getForWrite=False, # noqa: N803 writeElemCount=0, # noqa: N803 ): """ Get the value of a node attribute in the context managed by this class. Args: attr: attribute whose value is to be retrieved isGPU: Is the attribute stored on the GPU? isTensor: Is the attribute value a tensor type? For some types of data this doesn't mean anything but is silently accepted anyway. isDefault: Whether or not we want to retrieve the default value updateImmediately: Should the stage update immediately or wait for the next regular update? getForWrite: Is the value going to be written to after calling? writeElemCount: If the value to get is a writable array then set it at this size Returns: Value of the attribute Raises: AttributeError: If you try to access array data with "isTensor=True" and torch was not imported TypeError: Raised if the data type of the attribute is not yet supported """ (type_name, root_type_name, is_array_type, _, lookup_methods) = self.get_attribute_configuration(attr) # Verify that getting arrays for write has a valid element count. 0 is okay, None indicates uninitialized if is_array_type and getForWrite and (writeElemCount is None): raise ValueError(f"Attribute {attr.get_name()} requires a size to be set before getting values") # Ask the attribute update its value. If we are using a push graph, this # won't do anything, but in a dirty and pull graph, this generates the "pull" that causes the graph # to evaluate the dirtied attribute. with suppress(AttributeError): attr.update_attribute_value(updateImmediately) can_be_tensor = (isTensor or isGPU) and is_array_type and torch_wrap is not None _ = DBG_EVAL and dbg_eval( f"Getting value of type {type_name} on {attr.get_name()}. GPU = {isGPU}, Tensor = {isTensor}" ) try: _ = DBG_EVAL and dbg_eval(" --> Has Get/Set methods") if is_array_type: if lookup_methods[IDX_ARRAY_GET] is not None: if can_be_tensor and (lookup_methods[IDX_ARRAY_GET_TENSOR] is not None): _ = DBG_EVAL and dbg_eval( f" --> Returning array tensor data with {lookup_methods[IDX_ARRAY_GET_TENSOR]}" ) tensor = lookup_methods[IDX_ARRAY_GET_TENSOR]( self._py_context, attr, isGPU, getForWrite, writeElemCount ) return torch_wrap.wrap_tensor(tensor) if tensor is not None else None _ = DBG_EVAL and dbg_eval(f" --> Returning array data with {lookup_methods[IDX_ARRAY_GET]}") return lookup_methods[IDX_ARRAY_GET]( self._py_context, attr, getDefault, getForWrite, writeElemCount ) raise TypeError(f"Getting array data of type {root_type_name} is not yet supported") if can_be_tensor and lookup_methods[IDX_GET_TENSOR] is not None: _ = DBG_EVAL and dbg_eval(f" --> Returning tensor data with {lookup_methods[IDX_GET_TENSOR]}") tensor = lookup_methods[IDX_GET_TENSOR](self._py_context, attr, isGPU, getForWrite, writeElemCount) return torch_wrap.wrap_tensor(tensor) if tensor is not None else None _ = DBG_EVAL and dbg_eval(f" --> Returning normal data with {lookup_methods[IDX_GET]}") return lookup_methods[IDX_GET](self._py_context, attr, getDefault, getForWrite, writeElemCount) except TypeError as error: raise TypeError(f"Trying to get unsupported attribute type {type_name}") from error except KeyError as error: raise TypeError(f"Trying to get unknown attribute type {type_name}") from error # ---------------------------------------------------------------------- def set_attr_value(self, new_value, attr: og.Attribute): """ Set the value of a attribute in the context managed by this class new_value: New value to be set on the attribute attr: Attribute whose value is to be set Raises: TypeError: Raised if the data type of the attribute is not yet supported or if the parameters were passed in the wrong order. """ if isinstance(new_value, og.Attribute): raise TypeError("set_attr_value is called with value first, attribute second") (type_name, root_type_name, is_array_type, is_matrix_type, lookup_methods) = self.get_attribute_configuration( attr ) # Flatten the matrix data out, if it wasn't already flattened # 2x2 matrix can come in as [[a, b], [c, d]] or [a, b, c, d] but will always go to the ABI as the latter if is_matrix_type: value_dimensions = list_dimensions(new_value) if is_array_type: if value_dimensions == 3: value_to_set = [[item for sublist in matrix for item in sublist] for matrix in new_value] else: value_to_set = new_value else: if value_dimensions == 2: value_to_set = [item for sublist in new_value for item in sublist] else: value_to_set = new_value else: value_to_set = new_value try: _ = DBG_EVAL and dbg_eval(f"Set attribute {attr.get_name()} of type {type_name} to {new_value}") _ = DBG_EVAL and dbg_eval(f" as {root_type_name}, array={is_array_type}, matrix={is_matrix_type}") if is_array_type: if lookup_methods[IDX_ARRAY_GET] and lookup_methods[IDX_ARRAY_SET]: _ = DBG_EVAL and dbg_eval(f" --> Setting array node data using {lookup_methods[IDX_ARRAY_SET]}") # When setting an entire array all at once you need to first ensure the memory is allocated # by calling the get method. lookup_methods[IDX_ARRAY_GET](self._py_context, attr, False, True, len(value_to_set)) lookup_methods[IDX_ARRAY_SET](self._py_context, value_to_set, attr) else: raise TypeError(f"Setting array data of type {type_name} is not yet supported") else: _ = DBG_EVAL and dbg_eval(f" --> Setting simple data with {lookup_methods[IDX_SET]}") lookup_methods[IDX_SET](self._py_context, value_to_set, attr) except KeyError as error: raise TypeError(f"Trying to set unsupported attribute type {type_name}") from error # ---------------------------------------------------------------------- def get_elem_count(self, attr): """ Get the number of elements on the attribute in the context managed by this class attr: Attribute whose element values are to be counted Returns: Number of elements currently on the attribute """ return self._py_context.get_elem_count(attr)

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omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/utils.py

r"""Deprecated utilities _____ ______ _____ _____ ______ _____ _______ ______ _____ | __ \ | ____|| __ \ | __ \ | ____|/ ____| /\ |__ __|| ____|| __ \ | | | || |__ | |__) || |__) || |__ | | / \ | | | |__ | | | | | | | || __| | ___/ | _ / | __| | | / /\ \ | | | __| | | | | | |__| || |____ | | | | \ \ | |____| |____ / ____ \ | | | |____ | |__| | |_____/ |______||_| |_| \_\|______|\_____|/_/ \_\|_| |______||_____/ """ from typing import Any, List, Tuple, Union import carb import omni.graph.core as og from pxr import Sdf, Usd ALLOW_IMPLICIT_GRAPH_SETTING = "/persistent/omnigraph/allowGlobalImplicitGraph" """Constant for the setting to selectively disable the global implicit graph""" USE_SCHEMA_PRIMS_SETTING = "/persistent/omnigraph/useSchemaPrims" """Constant for the setting to force OmniGraph prims to follow the schema""" ENABLE_LEGACY_PRIM_CONNECTIONS = "/persistent/omnigraph/enableLegacyPrimConnections" """Constant for the setting to enable connections between legacy Prims and OG Nodes""" DISABLE_PRIM_NODES_SETTING = "/persistent/omnigraph/disablePrimNodes" """Constant for the setting to enable legacy Prim nodes to exist in the scene""" # Object type hints are now available in typing.py NODE_TYPE_HINTS = Union[str, og.Node, Usd.Prim, None] # type: ignore NODE_TYPE_OR_LIST = Union[NODE_TYPE_HINTS, List[NODE_TYPE_HINTS]] ATTRIBUTE_TYPE_HINTS = Union[str, og.Attribute, Usd.Attribute] # type: ignore ATTRIBUTE_TYPE_OR_LIST = Union[ATTRIBUTE_TYPE_HINTS, List[ATTRIBUTE_TYPE_HINTS]] ATTRIBUTE_TYPE_TYPE_HINTS = Union[str, og.Type] ATTRIBUTE_VALUE_PAIR = Tuple[ATTRIBUTE_TYPE_HINTS, Any] ATTRIBUTE_VALUE_PAIRS = Union[ATTRIBUTE_VALUE_PAIR, List[ATTRIBUTE_VALUE_PAIR]] EXTENDED_ATTRIBUTE_TYPE_HINTS = Union[og.AttributePortType, Tuple[og.AttributePortType, Union[str, List[str]]]] GRAPH_TYPE_HINTS = Union[str, Sdf.Path, og.Graph, None] # type: ignore GRAPH_TYPE_OR_LIST = Union[GRAPH_TYPE_HINTS, List[GRAPH_TYPE_HINTS]] # ================================================================================ def get_omnigraph(): """Returns the current OmniGraph. Deprecated as there is no longer the notion of a 'current' graph """ carb.log_warn("get_omnigraph() is deprecated and will be removed - use og.ObjectLookup.graph() instead") for context in og.get_compute_graph_contexts(): return context.get_graph() raise ValueError("OmniGraph is not currently available") # ==================================================================================================== def l10n(msg): """Wrapper for l10n for when it gets implemented. Deprecated - implementation is not on the plan and usage is spotty. """ return msg

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omniverse-code/kit/exts/omni.graph/omni/graph/core/_impl/v1_5_0/replaced_functions.py

r"""Deprecation support for functions that have been replaced by equivalents _____ ______ _____ _____ ______ _____ _______ ______ _____ | __ \ | ____|| __ \ | __ \ | ____|/ ____| /\ |__ __|| ____|| __ \ | | | || |__ | |__) || |__) || |__ | | / \ | | | |__ | | | | | | | || __| | ___/ | _ / | __| | | / /\ \ | | | __| | | | | | |__| || |____ | | | | \ \ | |____| |____ / ____ \ | | | |____ | |__| | |_____/ |______||_| |_| \_\|______|\_____|/_/ \_\|_| |______||_____/ """ import re import omni.graph.core as og import omni.graph.tools as ogt from ..lookup_tables import OGN_NAMES_TO_TYPES, USD_NAMES_TO_TYPES # Pattern match for OGN style type names # MATCH: BaseType, [TupleCount]|None, []|None - e.g. int[3][] = "int",[3],[] RE_OGN_ATTRIBUTE_TYPE_PATTERN = re.compile(r"(^[^\[]+)(\[[0-9]+\]){0,1}(\[\]){0,1}") # Pattern matches for USD style type names. The rules for USD names are a little more complex so they require # multiple patterns to fully grok. (e.g. an int[4] is "int4" but a colord[4] is "color4d") # MATCH: BaseType64, TupleCount|None, []|None - e.g. int64 = "int64",None,None RE_USD_ATTRIBUTE_64_TYPE_PATTERN = re.compile(r"^([a-zA-Z]+64)([0-9]+){0,1}(\[\]){0,1}") # MATCH: BaseType, TupleCount|None, h|d|f|None, []|None - e.g. quat3d[] = "quat",3,d,[] RE_USD_ATTRIBUTE_TYPE_PATTERN = re.compile(r"^([a-zA-Z]+)([0-9]+){0,1}([hdf]){0,1}(\[\]){0,1}") # Mapping of the .ogn base data types to the corresponding og.BaseDataType values BASE_DATA_TYPE_MAP = { "bool": og.BaseDataType.BOOL, "bundle": og.BaseDataType.RELATIONSHIP, "double": og.BaseDataType.DOUBLE, "execution": og.BaseDataType.UINT, "float": og.BaseDataType.FLOAT, "half": og.BaseDataType.HALF, "int": og.BaseDataType.INT, "int64": og.BaseDataType.INT64, "objectId": og.BaseDataType.UINT64, "path": og.BaseDataType.UCHAR, "string": og.BaseDataType.UCHAR, "token": og.BaseDataType.TOKEN, "uchar": og.BaseDataType.UCHAR, "uint": og.BaseDataType.UINT, "uint64": og.BaseDataType.UINT64, } # Mapping of the .ogn role names to the corresponding og.AttributeRole values ROLE_MAP = { "color": og.AttributeRole.COLOR, "execution": og.AttributeRole.EXECUTION, "frame": og.AttributeRole.FRAME, "matrix": og.AttributeRole.MATRIX, "none": og.AttributeRole.NONE, "normal": og.AttributeRole.NORMAL, "objectId": og.AttributeRole.OBJECT_ID, "path": og.AttributeRole.PATH, "point": og.AttributeRole.POSITION, "quat": og.AttributeRole.QUATERNION, "string": og.AttributeRole.TEXT, "texcoord": og.AttributeRole.TEXCOORD, "timecode": og.AttributeRole.TIMECODE, "transform": og.AttributeRole.TRANSFORM, "vector": og.AttributeRole.VECTOR, } # ============================================================================================================== @ogt.deprecated_function("Use og.AttributeType.type_from_ogn_type_name instead") def attribute_type_from_ogn_type_name(ogn_type_name: str) -> og.Type: """Construct an attribute type object from an OGN style type name""" type_match = RE_OGN_ATTRIBUTE_TYPE_PATTERN.match(ogn_type_name) if not type_match: raise AttributeError(f"Attribute type '{ogn_type_name}' does not match known OGN type names") try: (base_type, role) = OGN_NAMES_TO_TYPES[type_match.group(1)] except KeyError as error: raise AttributeError(f"Base type '{type_match.group(1)}' is not a supported OGN type") from error tuple_count = 1 if type_match.group(2) is None else int(type_match.group(2)[1]) array_depth = 0 if type_match.group(3) is None and role in [og.AttributeRole.TEXT, og.AttributeRole.PATH] else 1 is_matrix_type = role in [og.AttributeRole.MATRIX, og.AttributeRole.TRANSFORM, og.AttributeRole.FRAME] if is_matrix_type: tuple_count *= tuple_count return og.Type(base_type, tuple_count, array_depth, role) # ============================================================================================================== @ogt.deprecated_function("Use og.AttributeType.type_from_sdf_type_name instead") def attribute_type_from_usd_type_name(usd_type_name: str) -> og.Type: """Construct an attribute type object from a USD style type name""" # The 64 type pattern (int64, uint64) has to be applied first so that the base type includes it type_match = RE_USD_ATTRIBUTE_64_TYPE_PATTERN.match(usd_type_name) if type_match: (full_type, tuple_count, array_pattern) = type_match.groups() flavour = None else: type_match = RE_USD_ATTRIBUTE_TYPE_PATTERN.match(usd_type_name) if not type_match: raise AttributeError(f"Attribute type '{usd_type_name}' does not match known USD type names") (full_type, tuple_count, flavour, array_pattern) = type_match.groups() # Reassemble the role names (quat3d extracts as "quat",3,"d",None - need "quatd" to grok the types) full_type = f"{full_type}{flavour}" if flavour is not None else full_type tuple_count = 1 if tuple_count is None else int(tuple_count) array_depth = 0 if array_pattern is None else 1 try: (base_type, role, override_tuple_count) = USD_NAMES_TO_TYPES[full_type] if override_tuple_count is not None: tuple_count = override_tuple_count except KeyError as error: raise AttributeError(f"Base type '{full_type}' is not a supported USD type") from error is_matrix_type = usd_type_name.startswith("matrix") if is_matrix_type: tuple_count *= tuple_count return og.Type(base_type, tuple_count, array_depth, role)

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0.597366

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_changes.py

import omni.graph.core as og import omni.graph.core.tests as ogt class BundleTestSetup(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.bundle_changes = og.IBundleChanges.create(self.context) self.assertTrue(self.bundle_changes is not None) class TestBundleTopologyChanges(BundleTestSetup): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() async def test_bundle_changes_interface(self): bundle_changes = og.IBundleChanges.create(self.context) self.assertTrue(bundle_changes is not None) async def test_create_bundle(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_create_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # check for changes with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) async def test_create_attribute_like(self): bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.bundle_changes.activate_change_tracking(bundle1) self.bundle_changes.activate_change_tracking(bundle2) attrib1 = bundle1.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle1) self.bundle_changes.get_change(bundle2) self.bundle_changes.get_change(attrib1) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib1), og.BundleChangeType.NONE) # command: create attrib based on attrib1 attrib2 = bundle2.create_attribute_like(attrib1) # check for changes with og.BundleChanges(self.bundle_changes, bundle2) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib1), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(bundle2), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib2), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib2), og.BundleChangeType.NONE) async def test_create_child_bundle(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify bundle.create_child_bundle("child") # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_remove_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify bundle.remove_attribute("attrib") # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_remove_child_bundles(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) child = bundle.create_child_bundle("child") # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify bundle.remove_child_bundle(child) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_clear_contents(self): bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # modify bundle.clear_contents() # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) async def test_copy_attribute(self): bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.bundle_changes.activate_change_tracking(bundle1) self.bundle_changes.activate_change_tracking(bundle2) attrib1 = bundle1.create_attribute("attrib1", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle1) self.bundle_changes.get_change(bundle2) self.bundle_changes.get_change(attrib1) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib1), og.BundleChangeType.NONE) # modify # only bundle2 is affected, but source bundle1 and attrib1 not bundle2.copy_attribute(attrib1) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle2) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(bundle2), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib1), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib1), og.BundleChangeType.NONE) async def test_copy_child_bundle(self): """Test if CoW reference is resolved.""" bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.bundle_changes.activate_change_tracking(bundle1) self.bundle_changes.activate_change_tracking(bundle2) # setup tracking self.bundle_changes.get_change(bundle1) self.bundle_changes.get_change(bundle2) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) # modify # only bundle1 is dirty, but bundle2 stays intact bundle1.copy_child_bundle(bundle2) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle1) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle1), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) async def test_copy_bundle(self): """Copying bundle creates a shallow copy - a reference. To obtain the dirty id the reference needs to be resolved""" bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.bundle_changes.activate_change_tracking(bundle1) self.bundle_changes.activate_change_tracking(bundle2) # setup tracking self.bundle_changes.get_change(bundle1) self.bundle_changes.get_change(bundle2) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) # modify # bundle2 is modified, but bundle1 stays intact bundle2.copy_bundle(bundle1) self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle2) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle2), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle2), og.BundleChangeType.NONE) async def test_get_attribute_by_name(self): """Getting writable attribute data handle does not change dirty id. Only writing to an attribute triggers id to be changed.""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(attrib) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # getting attribute doesn't mark any changes attrib = bundle.get_attribute_by_name("attrib") # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) async def test_get_child_bundle_by_name(self): """Getting writable bundle handle does not change dirty id. Only creating/removing attributes and children triggers id to be changed.""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) child = bundle.create_child_bundle("child") # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(child) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child), og.BundleChangeType.NONE) # bundle and child must be clean child = bundle.get_child_bundle_by_name("child") # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(child), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child), og.BundleChangeType.NONE) async def test_change_child_and_propagate_changes_to_parent(self): r""" bundle1 \_ child0 \_ child1 \_ child2 <-- create attribute Will propagate dirty id changes up to `bundle1` (child2 -> child1 -> child0 -> bundle1) """ bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) child0 = bundle.create_child_bundle("child0") child1 = child0.create_child_bundle("child1") child2 = child1.create_child_bundle("child2") # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(child0) self.bundle_changes.get_change(child1) self.bundle_changes.get_change(child2) self.bundle_changes.clear_changes() # check if everything is clean self.assertEqual(self.bundle_changes.get_change(child2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child0), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) # creating attribute automatically make all hierarchy dirty child2.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(child2), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(child1), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(child0), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(child2), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child1), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(child0), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) class TestBundleAttributeDataChanges(BundleTestSetup): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() async def test_set_get_simple_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(attrib) self.bundle_changes.clear_changes() self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # command: set modifies attribute and bundle attrib.set(42) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # query: get does not modify attribute and bundle self.assertEqual(attrib.as_read_only().get(), 42) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) async def test_set_get_array_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT, 1, 1)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(attrib) self.bundle_changes.clear_changes() self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # command: set modifies attribute and bundle attrib.set([42]) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # query: get does not modify attribute and bundle self.assertEqual(attrib.as_read_only().get()[0], 42) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) async def test_set_get_tuple_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.bundle_changes.activate_change_tracking(bundle) attrib = bundle.create_attribute("attrib", og.Type(og.BaseDataType.INT, 2, 0)) # setup tracking self.bundle_changes.get_change(bundle) self.bundle_changes.get_change(attrib) self.bundle_changes.clear_changes() self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # command: set modifies attribute and bundle attrib.set([42, 24]) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertTrue(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.MODIFIED) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.MODIFIED) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE) # query: get does not modify attribute and bundle self.assertEqual(attrib.as_read_only().get()[0], 42) self.assertEqual(attrib.as_read_only().get()[1], 24) # check for changes and clear them with og.BundleChanges(self.bundle_changes, bundle) as changes: self.assertFalse(changes.has_changed()) self.assertEqual(changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(changes.get_change(attrib), og.BundleChangeType.NONE) # cleaned after leaving the scope self.assertEqual(self.bundle_changes.get_change(bundle), og.BundleChangeType.NONE) self.assertEqual(self.bundle_changes.get_change(attrib), og.BundleChangeType.NONE)

24,227

Python

45.325048

91

0.692987

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_cow.py

import omni.graph.core as og import omni.graph.core.tests as ogt class TestBundleCow(ogt.OmniGraphTestCase): async def setUp(self): await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" self.attr1Name = "attr1" self.attr1Type = og.Type(og.BaseDataType.BOOL, 1, 1) self.bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.bundle1.valid) self.bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) self.assertTrue(self.bundle2.valid) async def test_copy_and_remove_attribute_with_metadata(self): meta_name = "meta1" meta_type = og.Type(og.BaseDataType.INT, 1, 1) attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) attr1.set([False, True]) meta1 = self.bundle1.create_attribute_metadata(self.attr1Name, meta_name, meta_type) meta1.set([1, 2, 3, 4]) # copy attribute with metadata self.bundle2.copy_attribute(attr1) # confirm data is accurate after setting it cpy_meta1 = self.bundle2.get_attribute_metadata_by_name(self.attr1Name, meta_name) cpy_meta1.set([4, 3, 2, 1]) self.assertTrue((meta1.get() == [1, 2, 3, 4]).all()) self.assertTrue((cpy_meta1.get() == [4, 3, 2, 1]).all()) # remove copied attribute should leave original attribute intact self.bundle2.remove_attributes_by_name([self.attr1Name]) # confirm source data is intact attr1 = self.bundle1.get_attribute_by_name(self.attr1Name) self.assertTrue(attr1.is_valid()) self.assertTrue((attr1.get() == [False, True]).all()) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 1) meta1 = self.bundle1.get_attribute_metadata_by_name(self.attr1Name, meta_name) self.assertTrue(meta1.is_valid()) self.assertTrue((meta1.get() == [1, 2, 3, 4]).all()) # confirm removed metadata is gone self.assertEqual(self.bundle2.get_attribute_metadata_count(self.attr1Name), 0) attr1 = self.bundle2.get_attribute_metadata_by_name(self.attr1Name, meta_name) self.assertFalse(attr1.is_valid()) async def test_copy_bundle_and_remove_attribute_with_metadata(self): meta_name = "meta1" meta_type = og.Type(og.BaseDataType.INT, 1, 1) attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) attr1.set([False, True]) meta1 = self.bundle1.create_attribute_metadata(self.attr1Name, meta_name, meta_type) meta1.set([1, 2, 3, 4]) # copy attribute with metadata self.bundle2.copy_bundle(self.bundle1) # # Do NOT materialize attribute - keep shallow copy of entire bundle # # remove copied attribute should leave original attribute intact self.bundle2.remove_attributes_by_name([self.attr1Name]) # confirm source data is intact attr1 = self.bundle1.get_attribute_by_name(self.attr1Name) self.assertTrue(attr1.is_valid()) self.assertTrue((attr1.get() == [False, True]).all()) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 1) meta1 = self.bundle1.get_attribute_metadata_by_name(self.attr1Name, meta_name) self.assertTrue(meta1.is_valid()) self.assertTrue((meta1.get() == [1, 2, 3, 4]).all()) # confirm copied metadata is gone self.assertEqual(self.bundle2.get_attribute_metadata_count(self.attr1Name), 0) attr1 = self.bundle2.get_attribute_metadata_by_name(self.attr1Name, meta_name) self.assertFalse(attr1.is_valid()) async def test_remove_attribute_metadata(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) attr1.set([False, True]) meta_name1 = "meta1" meta_type1 = og.Type(og.BaseDataType.INT, 1, 1) meta1 = self.bundle1.create_attribute_metadata(self.attr1Name, meta_name1, meta_type1) meta1.set([1, 2, 3, 4]) meta_name2 = "meta2" meta_type2 = og.Type(og.BaseDataType.BOOL, 1, 1) meta1 = self.bundle1.create_attribute_metadata(self.attr1Name, meta_name2, meta_type2) meta1.set([False, True]) # copy attribute with metadata self.bundle2.copy_bundle(self.bundle1) # # Materialize metadata for bundle2! # self.bundle2.remove_attribute_metadata(self.attr1Name, (meta_name1)) # check if source is intact self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) names = self.bundle1.get_attribute_metadata_names(self.attr1Name) self.assertEqual(len(names), 2) self.assertTrue(meta_name1 in names) self.assertTrue(meta_name2 in names) # check if shallow copied metadata bundle has been materialized self.assertEqual(self.bundle2.get_attribute_metadata_count(self.attr1Name), 1) names = self.bundle2.get_attribute_metadata_names(self.attr1Name) self.assertEqual(len(names), 1) self.assertFalse(meta_name1 in names) self.assertTrue(meta_name2 in names) async def test_copy_child_bundle(self): org_child = self.bundle1.create_child_bundle("org_child") # create bundle for modifications mod_bundle = self.factory.create_bundle(self.context, "mod_bundle") mod_child = mod_bundle.copy_child_bundle(org_child) mod_child.create_attribute("attr", og.Type(og.BaseDataType.BOOL, 1, 1)) # original child can not change, but modified change must self.assertEqual(org_child.get_attribute_count(), 0) self.assertEqual(mod_child.get_attribute_count(), 1) async def test_attribute_resize(self): src_bundle = self.factory.create_bundle(self.context, "src_bundle") src_attrib = src_bundle.create_attribute( "attrib", og.Type( og.BaseDataType.FLOAT, tuple_count=1, array_depth=1, ), element_count=100, ) dst_bundle = self.factory.create_bundle(self.context, "dst_bundle") dst_bundle.copy_bundle(src_bundle) self.assertEqual(dst_bundle.get_attribute_count(), 1) dst_attrib = dst_bundle.create_attribute( "attrib", og.Type( og.BaseDataType.FLOAT, tuple_count=1, array_depth=1, ), element_count=200, ) self.assertEqual(src_attrib.size(), 100) self.assertEqual(dst_attrib.size(), 200)

6,926

Python

38.135593

94

0.641207

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_omnigraph_utils.py

""" Suite of tests to exercise small pieces of the OmniGraph utility scripts. These tests are like unit tests in that they all only focus on one piece of functionality, not the integration of many pieces, as these tests usually do. """ import json from contextlib import suppress from pathlib import Path import carb import carb.settings import omni.graph.core as og import omni.graph.core.tests as ogt import omni.kit.app import omni.kit.commands import omni.kit.test import omni.usd class TestOmniGraphUtilities(ogt.OmniGraphTestCase): """Wrapper for unit tests on basic OmniGraph support script functionality""" # ---------------------------------------------------------------------- async def test_ogn_type_conversion(self): """Test operation of the AttributeType.type_from_ogn_type_name() function""" # Test data is tuples of string input and expected Type output simple_data_no_tuples = [ ("any", og.Type(og.BaseDataType.TOKEN)), ("bool", og.Type(og.BaseDataType.BOOL)), ("int64", og.Type(og.BaseDataType.INT64)), ("token", og.Type(og.BaseDataType.TOKEN)), ("uchar", og.Type(og.BaseDataType.UCHAR)), ("uint", og.Type(og.BaseDataType.UINT)), ("uint64", og.Type(og.BaseDataType.UINT64)), ] simple_data = [ ("double", og.Type(og.BaseDataType.DOUBLE)), ("float", og.Type(og.BaseDataType.FLOAT)), ("half", og.Type(og.BaseDataType.HALF)), ("int", og.Type(og.BaseDataType.INT)), ] tuple_data = [(f"{type_name}[2]", og.Type(og_type.base_type, 2, 0)) for (type_name, og_type) in simple_data] array_data = [ (f"{type_name}[]", og.Type(og_type.base_type, 1, 1)) for (type_name, og_type) in simple_data + simple_data_no_tuples ] array_tuple_data = [ (f"{type_name}[3][]", og.Type(og_type.base_type, 3, 1)) for (type_name, og_type) in simple_data ] role_data = [ ("bundle", og.Type(og.BaseDataType.RELATIONSHIP, 1, 0, og.AttributeRole.BUNDLE)), ("colord[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.COLOR)), ("colorf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.COLOR)), ("colorh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.COLOR)), ("frame[4]", og.Type(og.BaseDataType.DOUBLE, 16, 0, og.AttributeRole.FRAME)), ("matrixd[2]", og.Type(og.BaseDataType.DOUBLE, 4, 0, og.AttributeRole.MATRIX)), ("matrixd[3]", og.Type(og.BaseDataType.DOUBLE, 9, 0, og.AttributeRole.MATRIX)), ("matrixd[4]", og.Type(og.BaseDataType.DOUBLE, 16, 0, og.AttributeRole.MATRIX)), ("normald[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.NORMAL)), ("normalf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.NORMAL)), ("normalh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.NORMAL)), ("path", og.Type(og.BaseDataType.UCHAR, 1, 1, og.AttributeRole.PATH)), ("pointd[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.POSITION)), ("pointf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.POSITION)), ("pointh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.POSITION)), ("quatd[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.QUATERNION)), ("quatf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.QUATERNION)), ("quath[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.QUATERNION)), ("target", og.Type(og.BaseDataType.RELATIONSHIP, 1, 0, og.AttributeRole.TARGET)), ("texcoordd[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.TEXCOORD)), ("texcoordf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.TEXCOORD)), ("texcoordh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.TEXCOORD)), ("timecode[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.TIMECODE)), ("transform[3]", og.Type(og.BaseDataType.DOUBLE, 9, 0, og.AttributeRole.TRANSFORM)), ("vectord[3]", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.VECTOR)), ("vectorf[3]", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.VECTOR)), ("vectorh[3]", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.VECTOR)), ] test_data = simple_data + simple_data_no_tuples + tuple_data + array_data + array_tuple_data + role_data for (attribute_type_spec, attribute_type_expected) in test_data: actual = og.AttributeType.type_from_ogn_type_name(attribute_type_spec) self.assertEqual(attribute_type_expected, actual, f"Failed to convert {attribute_type_spec}") # ---------------------------------------------------------------------- async def test_sdf_type_conversion(self): """Test operation of the AttributeType.type_from_sdf_type_name() function""" # Test data is tuples of string input and expected Type output simple_data_no_tuples = [ ("bool", og.Type(og.BaseDataType.BOOL)), ("int64", og.Type(og.BaseDataType.INT64)), ("token", og.Type(og.BaseDataType.TOKEN)), ("uchar", og.Type(og.BaseDataType.UCHAR)), ("uint", og.Type(og.BaseDataType.UINT)), ("uint64", og.Type(og.BaseDataType.UINT64)), ] simple_data = [ ("double", og.Type(og.BaseDataType.DOUBLE)), ("float", og.Type(og.BaseDataType.FLOAT)), ("half", og.Type(og.BaseDataType.HALF)), ("int", og.Type(og.BaseDataType.INT)), ] tuple_data = [(f"{type_name}2", og.Type(og_type.base_type, 2, 0)) for (type_name, og_type) in simple_data] array_data = [ (f"{type_name}[]", og.Type(og_type.base_type, 1, 1)) for (type_name, og_type) in simple_data + simple_data_no_tuples ] array_tuple_data = [ (f"{type_name}3[]", og.Type(og_type.base_type, 3, 1)) for (type_name, og_type) in simple_data ] role_data = [ ("color3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.COLOR)), ("color3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.COLOR)), ("color3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.COLOR)), ("frame4d", og.Type(og.BaseDataType.DOUBLE, 16, 0, og.AttributeRole.FRAME)), ("matrix2d", og.Type(og.BaseDataType.DOUBLE, 4, 0, og.AttributeRole.MATRIX)), ("matrix3d", og.Type(og.BaseDataType.DOUBLE, 9, 0, og.AttributeRole.MATRIX)), ("matrix4d", og.Type(og.BaseDataType.DOUBLE, 16, 0, og.AttributeRole.MATRIX)), ("normal3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.NORMAL)), ("normal3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.NORMAL)), ("normal3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.NORMAL)), ("point3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.POSITION)), ("point3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.POSITION)), ("point3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.POSITION)), ("quatd", og.Type(og.BaseDataType.DOUBLE, 4, 0, og.AttributeRole.QUATERNION)), ("quatf", og.Type(og.BaseDataType.FLOAT, 4, 0, og.AttributeRole.QUATERNION)), ("quath", og.Type(og.BaseDataType.HALF, 4, 0, og.AttributeRole.QUATERNION)), ("texCoord3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.TEXCOORD)), ("texCoord3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.TEXCOORD)), ("texCoord3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.TEXCOORD)), ("timecode", og.Type(og.BaseDataType.DOUBLE, 1, 0, og.AttributeRole.TIMECODE)), ("vector3d", og.Type(og.BaseDataType.DOUBLE, 3, 0, og.AttributeRole.VECTOR)), ("vector3f", og.Type(og.BaseDataType.FLOAT, 3, 0, og.AttributeRole.VECTOR)), ("vector3h", og.Type(og.BaseDataType.HALF, 3, 0, og.AttributeRole.VECTOR)), ] test_data = simple_data + simple_data_no_tuples + tuple_data + array_data + array_tuple_data + role_data for (attribute_type_spec, attribute_type_expected) in test_data: actual = og.AttributeType.type_from_sdf_type_name(attribute_type_spec) self.assertEqual( attribute_type_expected, actual, f"Failed to convert '{attribute_type_spec}' - '{attribute_type_expected.get_type_name()}'" f" != '{actual.get_type_name()}'", ) # ---------------------------------------------------------------------- async def test_extension_information(self): """Test operation of the utilities to examine extension and OmniGraph node type information""" extension_information = og.ExtensionInformation() manager = omni.kit.app.get_app_interface().get_extension_manager() examples_cpp_extension = "omni.graph.examples.cpp" nodes_extension = "omni.graph.nodes" # If the two known extensions are somehow not found then the test cannot run examples_cpp_extension_id = None nodes_extension_id = None with suppress(Exception): examples_cpp_extension_id = manager.get_extension_id_by_module(examples_cpp_extension) nodes_extension_id = manager.get_extension_id_by_module(nodes_extension) if not examples_cpp_extension_id: carb.log_warn("test_extension_information cannot run since omni.graph.examples.cpp was not found") return if not nodes_extension_id: carb.log_warn("test_extension_information cannot run since omni.graph.nodes was not found") return # Remember the enabled state so that we can gracefully recover after the test run examples_cpp_enabled = manager.is_extension_enabled(examples_cpp_extension) nodes_enabled = manager.is_extension_enabled(nodes_extension) try: # The test proceeds by creating five nodes, two OmniGraph nodes from each of the known extensions # and one Prim that is given attribute information to make it look like an OmniGraph node. Then the # extension mapping information is read in with all of the extension enabled/disabled combinations to # ensure the correct information is retrieved. # Set up the scene with both extensions enabled to begin with manager.set_extension_enabled_immediate(examples_cpp_extension_id, True) manager.set_extension_enabled_immediate(nodes_extension_id, True) examples_cpp_node_types = ["omni.graph.examples.cpp.Smooth", "omni.graph.examples.cpp.VersionedDeformer"] examples_cpp_nodes = ["/TestGraph/Smooth", "/TestGraph/VersionedDeformer"] nodes_node_types = ["omni.graph.nodes.ArrayLength", "omni.graph.nodes.Noop"] nodes_nodes = ["/TestGraph/ArrayLength", "/TestGraph/Noop"] og.Controller.edit( "/TestGraph", { og.Controller.Keys.CREATE_NODES: [ (examples_cpp_nodes[0][11:], examples_cpp_node_types[0]), (examples_cpp_nodes[1][11:], examples_cpp_node_types[1]), (nodes_nodes[0][11:], nodes_node_types[0]), (nodes_nodes[1][11:], nodes_node_types[1]), ] }, ) # test_data is a list of test configurations where the contents are: # Enable omni.graph.examples.cpp? # Enable omni.graph.nodes? test_data = [ [True, True], [True, False], [False, False], [False, True], ] for enable_examples_cpp, enable_nodes in test_data: manager.set_extension_enabled_immediate(examples_cpp_extension_id, enable_examples_cpp) manager.set_extension_enabled_immediate(nodes_extension_id, enable_nodes) # The first test reads the entire set of extension node types. As this is always in flux only a few # that are unlikely to move are checked. (enabled_extensions, disabled_extensions) = extension_information.get_node_types_by_extension() # Make sure the extensions are partitioned correctly by enabled state if enable_examples_cpp: self.assertTrue(examples_cpp_extension in enabled_extensions) self.assertTrue(examples_cpp_extension not in disabled_extensions) for node_type in examples_cpp_node_types: self.assertIn(node_type, enabled_extensions[examples_cpp_extension]) else: self.assertTrue(examples_cpp_extension not in enabled_extensions) self.assertTrue(examples_cpp_extension in disabled_extensions) for node_type in examples_cpp_node_types: self.assertIn(node_type, disabled_extensions[examples_cpp_extension]) if enable_nodes: self.assertTrue(nodes_extension in enabled_extensions) self.assertTrue(nodes_extension not in disabled_extensions) for node_type in nodes_node_types: self.assertIn(node_type, enabled_extensions[nodes_extension]) else: self.assertTrue(nodes_extension not in enabled_extensions) self.assertTrue(nodes_extension in disabled_extensions) for node_type in nodes_node_types: self.assertIn(node_type, disabled_extensions[nodes_extension]) # Check that the node configuration is also returning the correct data (enabled_nodes, disabled_nodes) = extension_information.get_nodes_by_extension() if enable_examples_cpp: self.assertTrue(examples_cpp_extension in enabled_nodes) self.assertTrue(examples_cpp_extension not in disabled_nodes) for node_path in examples_cpp_nodes: self.assertIn(node_path, enabled_nodes[examples_cpp_extension]) else: self.assertTrue(examples_cpp_extension not in enabled_nodes) self.assertTrue(examples_cpp_extension in disabled_nodes) for node_path in examples_cpp_nodes: self.assertIn(node_path, disabled_nodes[examples_cpp_extension]) if enable_nodes: self.assertTrue(nodes_extension in enabled_nodes) self.assertTrue(nodes_extension not in disabled_nodes) for node_path in nodes_nodes: self.assertIn(node_path, enabled_nodes[nodes_extension]) else: self.assertTrue(nodes_extension not in enabled_nodes) self.assertTrue(nodes_extension in disabled_nodes) for node_path in nodes_nodes: self.assertIn(node_path, disabled_nodes[nodes_extension]) finally: manager.set_extension_enabled_immediate(examples_cpp_extension, examples_cpp_enabled) manager.set_extension_enabled_immediate(nodes_extension, nodes_enabled) # ---------------------------------------------------------------------- async def test_graphregistry_event_stream(self): """ Tests the graph registry event stream notifies when extensions with node types are loaded and unloaded """ examples_python_extension = "omni.graph.examples.python" manager = omni.kit.app.get_app_interface().get_extension_manager() examples_python_extension_id = None with suppress(Exception): examples_python_extension_id = manager.get_extension_id_by_module(examples_python_extension) if not examples_python_extension_id: carb.log_warn(f"test_graphregistry_event_stream cannot run since {examples_python_extension} was not found") return examples_enabled = manager.is_extension_enabled(examples_python_extension) # tests the registration count = 0 event_type = None def on_changed(event): nonlocal count nonlocal event_type if event.type in (int(og.GraphRegistryEvent.NODE_TYPE_ADDED), int(og.GraphRegistryEvent.NODE_TYPE_REMOVED)): event_type = event.type count = count + 1 sub = og.GraphRegistry().get_event_stream().create_subscription_to_pop(on_changed) self.assertIsNotNone(sub) try: enabled = examples_enabled # each load/unload should trigger the callback for each node loaded/unloaded last_count = count for i in range(1, 4): enabled = not enabled manager.set_extension_enabled_immediate(examples_python_extension, enabled) await omni.kit.app.get_app().next_update_async() self.assertGreater(count, last_count) if enabled: self.assertEqual(event_type, int(og.GraphRegistryEvent.NODE_TYPE_ADDED)) else: self.assertEquals(event_type, int(og.GraphRegistryEvent.NODE_TYPE_REMOVED)) last_count = count # wait more frames to validate the callback didn't get called without an extension change for _j in range(1, i): await omni.kit.app.get_app().next_update_async() self.assertEqual(count, last_count) finally: manager.set_extension_enabled_immediate(examples_python_extension, examples_enabled) # ---------------------------------------------------------------------- async def test_typed_value(self): """Test operation of the TypedValue class""" # Test data consists of args + kwargs values to pass to the set() method, a boolean indicating whether setting # should succeed or not, and the expected value and type after setting. When there are two args or two kwargs # the __init__ method is used as well as those are the cases in which it is valid. unknown_t = og.Type(og.BaseDataType.UNKNOWN) float_t = og.Type(og.BaseDataType.FLOAT) test_data = [ # Legal args configurations [[], {}, True, None, unknown_t], [[1.0], {}, True, 1.0, unknown_t], [[1.0, "float"], {}, True, 1.0, float_t], [[1.0, float_t], {}, True, 1.0, float_t], # Legal kwargs configurations [[], {"value": 1.0}, True, 1.0, unknown_t], [[], {"value": 1.0, "type": "float"}, True, 1.0, float_t], [[], {"value": 1.0, "type": float_t}, True, 1.0, float_t], [[], {"type": float_t, "value": 1.0}, True, 1.0, float_t], # Illegal args combinations [[1.0, "float", 2], {}, False, None, None], [[1.0, "sink"], {}, False, None, None], [["float", 1.0], {}, False, None, None], # Illegal kwargs combinations [[], {"valley": 1.0}, False, None, None], [[], {"type": "float"}, False, None, None], [[], {"value": 1.0, "type": "flat"}, False, None, None], [[], {"value": 1.0, "type": "float", "scissors": "run_with"}, False, None, None], # Illegal args+kwargs combinations [[1.0], {"type": "float"}, False, None, None], [[1.0, "float"], {"value": 1.0}, False, None, None], ] for args, kwargs, should_succeed, expected_value, expected_type in test_data: test_info = ( f"args={args}, kwargs={kwargs}, success={should_succeed}, value={expected_value}, type={expected_type}" ) if should_succeed: if len(args) == 2: init_test = og.TypedValue(*args) self.assertEqual(init_test.value, expected_value, test_info) self.assertEqual(init_test.type, expected_type, test_info) elif len(kwargs) == 2: init_test = og.TypedValue(**kwargs) self.assertEqual(init_test.value, expected_value, test_info) self.assertEqual(init_test.type, expected_type, test_info) set_test = og.TypedValue() set_test.set(*args, **kwargs) self.assertEqual(set_test.value, expected_value, test_info) self.assertEqual(set_test.type, expected_type, test_info) else: with self.assertRaises(og.OmniGraphError): set_test = og.TypedValue() set_test.set(*args, **kwargs) if len(args) == 2 and not kwargs: with self.assertRaises(og.OmniGraphError): init_test = og.TypedValue(*args) elif len(kwargs) == 2 and not args: with self.assertRaises(og.OmniGraphError): init_test = og.TypedValue(**kwargs) # ---------------------------------------------------------------------- async def test_category_setup(self): """Test that the default category list is something sensible""" # Read the exact set of default categories, which should be the minimum available category list category_path = Path(carb.tokens.get_tokens_interface().resolve("${kit}")) / "dev" / "ogn" / "config" with open(category_path / "CategoryConfiguration.json", "r", encoding="utf-8") as cat_fd: default_categories = dict(json.load(cat_fd)["categoryDefinitions"].items()) actual_categories = og.get_node_categories_interface().get_all_categories() # compounds is a special case that gets added at runtime, not in ogn, and is not intended # for use by .ogn compiled nodes. self.assertTrue("Compounds" in actual_categories) for category_name, category_description in actual_categories.items(): if category_name == "Compounds": continue self.assertTrue(category_name in default_categories) self.assertEqual(category_description, default_categories[category_name]) # ---------------------------------------------------------------------- async def test_app_information(self): """Test the functions which return information about the running application.""" # Make sure that we get back a tuple containing two non-negative ints. kit_version = og.get_kit_version() self.assertTrue( isinstance(kit_version, tuple), f"get_kit_version() returned type {type(kit_version)}, not tuple" ) self.assertEqual( len(kit_version), 2, f"get_kit_version() returned tuple with {len(kit_version)} elements, expected 2" ) self.assertTrue( isinstance(kit_version[0], int) and isinstance(kit_version[1], int), f"get_kit_version() returned types ({type(kit_version[0])}, {type(kit_version[1])}, expected (int, int)", ) self.assertTrue( kit_version[0] >= 0 and kit_version[1] >= 0, f"get_kit_version() returned invalid value '{kit_version}'" ) # ---------------------------------------------------------------------- async def test_temp_settings(self): """Test the Settings.temporary context manager.""" setting_names = ("/omnigraph/test/boolval", "/omnigraph/test/intval", "/omnigraph/test/sub/strval") # Initialize the settings. settings = carb.settings.get_settings() initial_values = (True, None, "first") initial_settings = list(zip(setting_names, initial_values)) for name, value in initial_settings: settings.destroy_item(name) if value is not None: settings.set(name, value) # Test the single setting version of the context. with og.Settings.temporary(setting_names[2], "second"): self.assertEqual(settings.get(setting_names[2]), "second", "Single setting, in context.") self.assertEqual(settings.get(setting_names[2]), initial_values[2], "Single setting, after context.") # Test the list version. temp_settings = list(zip(setting_names, (False, 6, "third"))) with og.Settings.temporary(temp_settings): for name, value in temp_settings: self.assertEqual(settings.get(name), value, f"Multiple settings, in context: '{name}'") for name, value in initial_settings: self.assertEqual(settings.get(name), value, f"Multiple settings, after context: '{name}'") # Clean up. for name in setting_names: settings.destroy_item(name)

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_register_ogn_nodes.py

""" Contains support for testing methods in ../scripts/register_ogn_nodes """ import os from pathlib import Path from tempfile import TemporaryDirectory import omni.graph.core.tests as ogts import omni.graph.tools.ogn as ogn from .._impl.register_ogn_nodes import find_import_locations class TestRegisterOgnNodes(ogts.OmniGraphTestCase): """Unit test class""" # -------------------------------------------------------------------------------------------------------------- def test_find_import_locations(self): """Test for the utility function find_import_locations Test data consists of list of (inputs, outputs, failure): inputs (2-tuple): Path to file calling the scripts Python import path for the extension outputs (2-tuple): Expected location of the import path's root directory Expected location of the calling file's directory failure (bool): Should the test raise an exception? """ no_exception = False exception = True drive = "C:" if os.name == "nt" else "/drive" test_data = [ [(f"{drive}/a/b/c/d.py", "b.c"), (f"{drive}/a", f"{drive}/a/b/c"), no_exception], [(f"{drive}/a/b/c/d.py", "b.c.d"), (), exception], ] for (index, test_run) in enumerate(test_data): if test_run[2]: with self.assertRaises(ValueError, msg=f"Expected failure in test {index} - {test_run}"): _ = find_import_locations(test_run[0][0], test_run[0][1]) else: results = find_import_locations(test_run[0][0], test_run[0][1]) self.assertEqual(results[0], test_run[1][0], f"Import root for {test_run}") self.assertEqual(results[1], test_run[1][1], f"Generated directory for {test_run}") # -------------------------------------------------------------------------------------------------------------- def test_generate_automatic_test_imports(self): """Test for the utility function generate_automatic_test_imports Test data consists of list of (test_files, output, should_modify): inputs (List[str]): List of test file names to create output (str): Expected contents of __init__.py should_modify (bool): Should the test have modified __init__.py """ full_test_file = ogn.import_file_contents() test_data = [ [], # Generate an empty init file if no tests are available ["TestOgnTest1.py"], # Add a new test case ["TestOgnTest1.py"], # No new testcases so no changes should be made ["TestOgnTest1.py", "TestOgnTest2.py"], # Add a new test case [], # No testcases leaves the file in place ] # Set up temporary test directory with TemporaryDirectory() as test_directory_fd: test_directory = Path(test_directory_fd) import_filepath = test_directory / "__init__.py" for test_run, test_files in enumerate(test_data): # Create empty test files for file in test_files: with open(test_directory / file, "a", encoding="utf-8"): pass ogn.generate_test_imports(test_directory, write_file=True) # Verify __init__.py contents with open(import_filepath, "r", encoding="utf-8") as import_fd: self.assertCountEqual( [line.rstrip() for line in import_fd.readlines()], full_test_file, f"Generated incorrect test import file for run {test_run}", ) # Delete generated test files to prepare for the next test for file in test_directory.glob("TestOgn*.py"): file.unlink()

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/omnigraph_test_utils.py

# noqa: PLC0302 """A set of utilities useful for testing OmniGraph. Note that this file should not be imported directly, the API is in omni.graph.core.tests. Available in this module are: - omni.graph.core.tests.DataTypeHelper - a utility class to help iterate over all available data types - omni.graph.core.tests.find_build_directory_above - find the root directory of the build - omni.graph.core.tests.load_test_file - load a test file and wait for it to be ready - omni.graph.core.tests.insert_sublayer - load a test file as a sublayer - omni.graph.core.tests.dump_graph - conditionally call omni.graph.core.tests.print_current_graph - omni.graph.core.tests.print_current_graph - print out the contents of the existing OmniGraphs - omni.graph.core.tests.compare_lists - do an unordered comparison of two lists - omni.graph.core.tests.verify_connections - confirm that a set of expected connections exists - omni.graph.core.tests.verify_node_existence - confirm that a set of expected nodes exists - omni.graph.core.tests.verify_values - confirm that a set of expected attribute values are correct - omni.graph.core.tests.create_scope_node - create a Scope prim - omni.graph.core.tests.create_cube - create a Cube prim - omni.graph.core.tests.create_sphere - create a Sphere prim - omni.graph.core.tests.create_cone - create a Cube prim - omni.graph.core.tests.create_grid_mesh - Create a simple mesh consisting of a grid - omni.graph.core.tests.create_input_and_output_grid_meshes - Create two meshes consisting of grids """ import inspect import os import unittest from abc import ABC, abstractmethod from contextlib import suppress from dataclasses import dataclass from math import isclose, isnan from typing import Any, Dict, List, Optional, Tuple, Union import carb import numpy as np import omni.graph.core as og import omni.graph.tools as ogt import omni.graph.tools.ogn as ogn import omni.kit import omni.usd from pxr import OmniGraphSchemaTools, Sdf, Usd, UsdGeom # If a node type version is unspecified then this is the value it gets. # Keep in sync with kDefaultNodeTypeVersion in include/omni/graph/core/NodeTypeRegistrar.h NODE_TYPE_VERSION_DEFAULT = 1 # ============================================================================================================== class TestContextManager(ABC): """Definition of the context classes that can be temporarily enabled during tests. These can be passed in to the test_case_class() factory method to extend the capabilities it has that are hardcoded in this file by instantiating one of these classes and passing it through the extra_contexts= parameter. The __init__ gets called to instantiate the base class information required by the test case. The setUp() method gets called when the test case's setUp method is called (once for every test). The tearDown() method gets called when the test case's tearDown method is called (once for every test) """ @abstractmethod def __init__(self): """Remember the setting name.""" @abstractmethod async def setUp(self): """Called when the test case setUp() is called""" @abstractmethod async def tearDown(self): """Called when the test case tearDown() is called""" # ============================================================================================================== class SettingContext(TestContextManager): """Helper class with an setUp and tearDown for modifying and restoring a carb setting""" def __init__(self, setting_name: str, temporary_value: any): """Remember the setting name.""" super().__init__() self.__setting_name = setting_name self.__temporary_value = temporary_value self.__original_value = None async def setUp(self): """Save the current value of the setting and set it to the desired temporary value""" settings = carb.settings.get_settings() self.__original_value = settings.get(self.__setting_name) ogt.dbg(f"SETUP Setting: Change {self.__setting_name} from {self.__original_value} to {self.__temporary_value}") settings.set(self.__setting_name, self.__temporary_value) async def tearDown(self): """Restore the original value of the setting""" ogt.dbg( f"TEARDOWN Setting: Restore {self.__setting_name} to {self.__original_value} from {self.__temporary_value}" ) carb.settings.get_settings().set(self.__setting_name, self.__original_value) # ============================================================================================================== class __ClearSceneContext(TestContextManager): """Helper class with an setUp and tearDown for potentially clearing the scene when a test is complete""" def __init__(self): # noqa: PLW0246 """Empty init is required since the parent is abstract""" super().__init__() async def setUp(self): """Nothing to do when setting up the test but the method is required""" ogt.dbg("SETUP ClearScene") async def tearDown(self): """If a clear was requested on tearDown do it now""" ogt.dbg("TEARDOWN ClearScene") await omni.usd.get_context().new_stage_async() # ============================================================================================================== def test_case_class(**kwargs) -> object: """ "Factory to return a base class to use for a test case configured with certain transient settings. The argument list is intentionally generic so that future changes can happen without impacting existing cases. The contexts will be invoked in the order specified below, with the extra_contexts being invoked in the order of the list passed in. Args: no_clear_on_finish (bool): If True then the scene will not be cleared after the test is complete extra_contexts (List[TestContextManager]): List of user-defined context managers to pass in deprecated (Tuple[str, DeprecationLevel]): Used to indicate this instantiation of the class has been deprecated base_class (object): Alternative base class for the test case, defaults to omni.kit.test.AsyncTestCase Return: Class object representing the base class for a test case with the given properties """ # Check to see if an alternative base class was passed in base_class = omni.kit.test.AsyncTestCase with suppress(KeyError): base_class = kwargs["base_class"] # Issue the deprecation message if specified, but continue on deprecation = None with suppress(KeyError): deprecation = kwargs["deprecated"] # Create a container for classes that will manage the temporary setting changes custom_actions = [] with suppress(KeyError): extra_contexts = kwargs["extra_contexts"] if not isinstance(extra_contexts, list): extra_contexts = [extra_contexts] for extra_context in extra_contexts: if not isinstance(extra_context, TestContextManager): raise ValueError(f"extra_contexts {extra_context} is not a TestContextManager") custom_actions.append(extra_context) if "no_clear_on_finish" not in kwargs or not kwargs["no_clear_on_finish"]: custom_actions.append(__ClearSceneContext()) # -------------------------------------------------------------------------------------------------------------- # Construct the customized test case base class object using the temporary setting and base class information class OmniGraphCustomTestCase(base_class): """A custom constructed test case base class that performs the prescribed setUp and tearDown actions. Members: __actions: List of actions to perform on setUp (calls action.setUp()) and tearDown (calls action.tearDown()) """ async def setUp(self): """Set up the test by saving and then setting up all of the action contexts""" super().setUp() if deprecation is not None: ogt.DeprecateMessage.deprecated(deprecation[0], deprecation[1]) # Start with no test failures registered og.set_test_failure(False) # Always start with a clean slate as the settings may conflict with something in the scene await omni.usd.get_context().new_stage_async() await omni.kit.app.get_app().next_update_async() # Perform the custom action entries self.__action_contexts = custom_actions for action in self.__action_contexts: await action.setUp() async def tearDown(self): """Complete the test by tearing down all of the action contexts""" # Perform the custom action tearDowns for action in reversed(self.__action_contexts): await action.tearDown() super().tearDown() # Return the constructed class definition return OmniGraphCustomTestCase OmniGraphTestCase = test_case_class() """Default test case base class used for most OmniGraph tests""" OmniGraphTestCaseNoClear = test_case_class(no_clear_on_finish=True) """Test case class that leaves the stage as it was when the test completed""" # ============================================================================================================== class DataTypeHelper: """ Class providing utility methods to assist with the comprehensive data type tests. Example of how to walk all of the valid input attribute values: for attribute_type in DataTypeHelper.all_attribute_types(): try: input_value = DataTypeHelper.test_input_value(attribute_type) process(input_value) except TypeError: pass # Cannot process this type yet """ _ATTR_TEST_DATA = None # -------------------------------------------------------------------------------------------------------------- @staticmethod def all_test_data() -> Dict[str, List[Any]]: """Returns a dict mapping all available Sdf attribute type names and a pair of sample values of those types""" if DataTypeHelper._ATTR_TEST_DATA is None: # Lazily initialize since this data is not needed until tests request it test_data = {} for type_name in ogn.supported_attribute_type_names(): attribute_type = og.AttributeType.type_from_ogn_type_name(type_name) sdf_type_name = og.AttributeType.sdf_type_name_from_type(attribute_type) if sdf_type_name is not None: test_data[sdf_type_name] = ogn.get_attribute_manager_type(type_name).sample_values() DataTypeHelper._ATTR_TEST_DATA = test_data return DataTypeHelper._ATTR_TEST_DATA # -------------------------------------------------------------------------------------------------------------- @staticmethod def all_attribute_types() -> List[str]: """Return the list of all supported attribute Sdf type names, including array versions""" return list(DataTypeHelper.all_test_data().keys()) # -------------------------------------------------------------------------------------------------------------- @staticmethod def test_input_value(attribute_type_name: str) -> Any: """ :return: Test value on the input side of a node for the given attribute type :raise TypeError: If the attribute type is not yet supported """ try: return DataTypeHelper.all_test_data()[attribute_type_name][0] # noqa: PLE1136 except KeyError as error: raise TypeError(f"Not yet supporting attribute type {attribute_type_name}") from error # -------------------------------------------------------------------------------------------------------------- @staticmethod def test_output_value(attribute_type_name: str) -> any: """ :return: Test value on the output side of a node for the given attribute type :raise TypeError: If the attribute type is not yet supported """ try: return DataTypeHelper.all_test_data()[attribute_type_name][1] # noqa: PLE1136 except KeyError as error: raise TypeError(f"Not yet supporting attribute type {attribute_type_name}") from error # -------------------------------------------------------------------------------------------------------------- @staticmethod def attribute_names(attribute_type_name: str, is_downstream_node: bool): """ :param attribute_type_name: One of the available attribute types, including arrays of them (e.g. int and int[]) :param is_downstream_node: True means it is one of the nodes accepting inputs, not computing anything itself :return: Pair of (INPUT_ATTRIBUTE_NAME, OUTPUT_ATTRIBUTE_NAME) used for the data test nodes """ suffixes = ["from_input", "from_output"] if is_downstream_node else ["original", "computed"] return [f"a_{attribute_type_name.replace('[]','_array')}_{suffixes[i]}" for i in range(2)] # -------------------------------------------------------------------------------------------------------------- def dump_graph(force_dump: bool = False): """Utility to conditionally print the current contents of the scene and graph""" if ogt.OGN_DEBUG or force_dump: print_current_graph() print(omni.usd.get_context().get_stage().GetRootLayer().ExportToString()) # -------------------------------------------------------------------------------------------------------------- def find_build_directory_above(start_at: Optional[str] = None) -> str: """Find the absolute path to the _build/ directory above the current one. If any of the folder up that path contains `dev/ogn` subfolder that is prioritized over `_build/` for shallow package support which don't have _build folder packaged at all. Using this method avoids the problems associated with following symlinks up a tree. :param start_at: Location at which to start looking; if None start at this script's location :raises ValueError: if there is no build directory above this file's directory :return: Path in which the _build/ directory was found """ starting_file = __file__ if start_at is None else start_at build_directory = os.path.abspath(starting_file) (parent_directory, leaf_directory) = os.path.split(build_directory) while leaf_directory != "_build": if os.path.exists(f"{parent_directory}/dev/ogn"): return f"{parent_directory}/dev" build_directory = parent_directory (parent_directory, leaf_directory) = os.path.split(build_directory) if parent_directory == build_directory: raise ValueError(f"No _build/ directory above {starting_file}") return build_directory # -------------------------------------------------------------------------------------------------------------- async def load_test_file(test_file_name: str, use_caller_subdirectory: bool = False) -> Tuple[bool, str]: """ Load the contents of the USD test file onto the stage, synchronously, when called as "await load_test_file(X)". In a testing environment we need to run one test at a time since there is no guarantee that tests can run concurrently, especially when loading files. This method encapsulates the logic necessary to load a test file using the omni.kit.asyncapi method and then wait for it to complete before returning. Args: test_file_name: Name of the test file to load - if an absolute path use it as-is use_caller_subdirectory: If True, look in the data/ subdirectory of the caller's directory for the file otherwise it will look in the data/ subdirectory below this directory Returns: (LOAD_SUCCEEDED[bool], LOAD_ERROR[str]) Raises: ValueError if the test file is not a valid USD file """ if not Usd.Stage.IsSupportedFile(test_file_name): raise ValueError("Only USD files can be loaded with this method") if os.path.isabs(test_file_name): path_to_file = test_file_name elif use_caller_subdirectory: path_to_file = os.path.join(os.path.dirname(inspect.stack()[1][1]), "data", test_file_name) else: path_to_file = os.path.join(os.path.dirname(__file__), "data", test_file_name) # Unicode error might happen if the file is a .usd rather than .usda and it was already pulled so that case is okay with suppress(UnicodeDecodeError): with open(path_to_file, "r", encoding="utf-8") as test_fd: first_line = test_fd.readline() if first_line.startswith("version"): raise ValueError(f"Do a 'git lfs pull' to update the contents of {path_to_file}") usd_context = omni.usd.get_context() usd_context.disable_save_to_recent_files() (result, error) = await usd_context.open_stage_async(path_to_file) usd_context.enable_save_to_recent_files() dump_graph() await omni.kit.app.get_app().next_update_async() return (result, str(error)) # -------------------------------------------------------------------------------------------------------------- async def insert_sublayer(test_file_name: str, use_caller_subdirectory: bool = False) -> bool: """ Inserts a sublayer from the given usd file into the current stage Args: test_file_name: Name of the test file to load - if an absolute path use it as-is use_caller_subdirectory: If True, look in the data/ subdirectory of the caller's directory for the file otherwise it will look in the data/ subdirectory below this directory Returns: True if the layer was loaded successfully, false otherwise """ if os.path.isabs(test_file_name): path_to_file = test_file_name elif use_caller_subdirectory: path_to_file = os.path.join(os.path.dirname(inspect.stack()[1][1]), "data", test_file_name) else: path_to_file = os.path.join(os.path.dirname(__file__), "data", test_file_name) root_layer = omni.usd.get_context().get_stage().GetRootLayer() sublayer_position = len(root_layer.subLayerPaths) new_layer = Sdf.Layer.FindOrOpen(path_to_file) if new_layer: relative_path = omni.client.make_relative_url(root_layer.identifier, new_layer.identifier).replace("\\", "/") root_layer.subLayerPaths.insert(sublayer_position, relative_path) else: return False await omni.kit.app.get_app().next_update_async() return True # -------------------------------------------------------------------------------------------------------------- def print_current_graph(show_attributes: bool = True, show_connections: bool = True, show_evaluation: bool = True): """ Finds the current compute graph and prints out the nodes and attributes in it. Args: show_attributes: If True then include the attributes on the nodes show_connections: If True then include the connections between the nodes show_evaluation: If True then include the evaluation info for the graph """ flags = [] if show_attributes: flags.append("attributes") if show_connections: flags.append("connections") if show_evaluation: flags.append("evaluation") print(og.OmniGraphInspector().as_json(og.get_all_graphs()[0], flags=flags), flush=True) # -------------------------------------------------------------------------------------------------------------- def compare_lists(expected_values: list, actual_values: list, comparing_what: str): """Compare the values in two lists, returning a relevant message if they are different, None if not""" extra_values = set(actual_values) - set(expected_values) missing_values = set(expected_values) - set(actual_values) if extra_values: return f"Unexpected {comparing_what} found - {extra_values}" if missing_values: return f"Expected {comparing_what} missing - {missing_values}" return None # -------------------------------------------------------------------------------------------------------------- def verify_connections(connections_expected: list): """ Confirm that the list of connections passed in exists in the compute graph, and are the only connections present. The argument is a list of pairs (SRC, DST) corresponding to the connection SRC -> DST """ graph = og.get_all_graphs()[0] if not graph.is_valid(): return "Compute graph has no valid contexts" ogt.dbg(f"Expecting {connections_expected}") # Collect connection information in both directions to verify they are the same upstream_connections_found = [] downstream_connections_found = [] comparison_errors = [] nodes = graph.get_nodes() # Ignore the default nodes since they may change and this test doesn't care nodes_of_interest = [ node for node in nodes if node.get_prim_path().find("/default") != 0 and node.get_prim_path().find("/Omniverse") < 0 and node.get_prim_path() != "/World" and node.get_prim_path() != "/" ] for node in nodes_of_interest: attributes_on_node = node.get_attributes() for attribute in attributes_on_node: this_attr = node.get_attribute(attribute.get_name()) this_attr_name = f"{node.get_prim_path()}.{attribute.get_name()}" upstream_connections = this_attr.get_upstream_connections() if len(upstream_connections) > 0: for connection in upstream_connections: upstream_attr_name = f"{connection.get_node().get_prim_path()}.{connection.get_name()}" upstream_connections_found.append((upstream_attr_name, this_attr_name)) downstream_connections = this_attr.get_downstream_connections() if len(downstream_connections) > 0: for connection in downstream_connections: downstream_attr_name = f"{connection.get_node().get_prim_path()}.{connection.get_name()}" downstream_connections_found.append((this_attr_name, downstream_attr_name)) ogt.dbg(f"Upstream = {upstream_connections_found}") ogt.dbg(f"Downstream = {downstream_connections_found}") comparison_error = compare_lists( upstream_connections_found, downstream_connections_found, "upstream/downstream pair" ) if comparison_error is not None: comparison_errors.append(comparison_error) comparison_error = compare_lists(connections_expected, downstream_connections_found, "connection") if comparison_error is not None: comparison_errors.append(comparison_error) return comparison_errors # -------------------------------------------------------------------------------------------------------------- def verify_node_existence(primitives_expected: list): """ Confirm that the list of nodes passed in exists in the compute graph. Args: primitives_expected: List of node names expected in the graph. Returns: A list of errors found, empty list if none """ graph = og.get_all_graphs()[0] if not graph.is_valid(): return ["Compute graph has no valid contexts"] comparison_errors = [] nodes = graph.get_nodes() # Get the current nodes in the world, ignoring the defaults since they may change and this test doesn't care primitives_found = [node.get_prim_path() for node in nodes if node.get_prim_path() in primitives_expected] comparison_error = compare_lists(primitives_expected, primitives_found, "compute graph primitives") if comparison_error is not None: comparison_errors.append(comparison_error) return comparison_errors # -------------------------------------------------------------------------------------------------------------- def verify_values(expected_value, actual_value, error_message: str): """Generic assert comparison which uses introspection to choose the correct method to compare the data values Args: expected_value: Value that was expected to be seen actual_value: Actual value that was seen error_message: Message describing the error if they do not match Raises: ValueError: With error message if the values do not match """ ogt.dbg(f"Comparing {actual_value} with expected {expected_value} - error = '{error_message}'") def to_np_array(from_value: Union[List, Tuple, np.ndarray]) -> np.ndarray: """Returns the list of values as a flattened numpy array""" # TODO: The only reason this is flattened at the moment is because Python matrix values are incorrectly # extracted as a flat array. They should maintain their data shape. return np.array(from_value).flatten() def is_close(first_value: float, second_value: float): """Raise a ValueError iff the single float values are not equal or floating-point close""" # Handle the NaN values first, which don't equal each other but should compare to equal for testing purposes if isnan(first_value) and isnan(second_value): return if isnan(first_value) or isnan(second_value): raise ValueError("NaN is only equal to other NaN values") # Default tolerance is 1e-9, which is a little tight for most simple uses if not isclose(first_value, second_value, rel_tol=1e-9): if not isclose(first_value, second_value, rel_tol=1e-5): raise ValueError ogt.dbg("The tolerance had to be loosened to make this pass") try: if isinstance(expected_value, (list, tuple, np.ndarray)): # Empty arrays are okay but only if both are empty. Using len() to handle both lists and numpy arrays if not len(expected_value) or not len(actual_value): # noqa: PLC1802 if not len(expected_value) and not len(actual_value): # noqa: PLC1802 return raise ValueError # Lists of strings must be compared elementwise, numeric arrays can use numpy if isinstance(expected_value[0], str): if set(actual_value) != set(expected_value): raise ValueError else: expected_array = to_np_array(expected_value) actual_array = to_np_array(actual_value) # If there are any NaN values then the array has to be checked element-by-element if any(np.isnan(expected_array)) and any(np.isnan(actual_array)): for expected, actual in zip(expected_array, actual_array): is_close(expected, actual) elif not np.allclose(expected_array, actual_array): raise ValueError elif isinstance(actual_value, (float, np.float32, np.float64, np.half)): is_close(actual_value, expected_value) else: if actual_value != expected_value: raise ValueError except ValueError as error: raise ValueError( f"{error_message}: Expected '{expected_value}' ({type(expected_value)}), " f"saw '{actual_value}' ({type(actual_value)})" ) from error # -------------------------------------------------------------------------------------------------------------- def create_scope_node(prim_name: str, attribute_data: Optional[Dict[str, Any]] = None) -> str: """Create a Scope prim at the given path, populated with the attribute data. This prim is a good source for a bundle attribute connection for testing. Args: prim_name: Name to give the prim within the current stage attribute_data: Dictionary of attribute names and the value the attribute should have in the prim The key is the name of the attribute in the prim. The value is the attribute information as a tuple of (TYPE, ATTRIBUTE_VALUE) TYPE: OGN name of the base data type ATTRIBUTE_VALUE: Data stored in the attribute within the prim Returns: Full path to the prim within the current stage (usually the path passed in) """ if attribute_data is None: attribute_data = {} stage = omni.usd.get_context().get_stage() prim_path = omni.usd.get_stage_next_free_path(stage, "/" + prim_name, True) prim = stage.DefinePrim(prim_path, "Scope") prim.CreateAttribute("node:type", Sdf.ValueTypeNames.Token).Set("Scope") return prim # -------------------------------------------------------------------------------------------------------------- def create_cube(stage, prim_name: str, displayColor: tuple) -> Usd.Prim: # noqa: N803 path = omni.usd.get_stage_next_free_path(stage, "/" + prim_name, True) prim = stage.DefinePrim(path, "Cube") prim.CreateAttribute("primvars:displayColor", Sdf.ValueTypeNames.Color3fArray).Set([displayColor]) prim.CreateAttribute("size", Sdf.ValueTypeNames.Double).Set(1.0) return prim # -------------------------------------------------------------------------------------------------------------- def create_sphere(stage, prim_name: str, displayColor: tuple) -> Usd.Prim: # noqa: N803 path = omni.usd.get_stage_next_free_path(stage, "/" + prim_name, True) prim = stage.DefinePrim(path, "Sphere") prim.CreateAttribute("primvars:displayColor", Sdf.ValueTypeNames.Color3fArray).Set([displayColor]) prim.CreateAttribute("radius", Sdf.ValueTypeNames.Double).Set(1.0) return prim # -------------------------------------------------------------------------------------------------------------- def create_cone(stage, prim_name: str, displayColor: tuple) -> Usd.Prim: # noqa: N803 path = omni.usd.get_stage_next_free_path(stage, "/" + prim_name, True) prim = stage.DefinePrim(path, "Cone") prim.CreateAttribute("primvars:displayColor", Sdf.ValueTypeNames.Color3fArray).Set([displayColor]) prim.CreateAttribute("radius", Sdf.ValueTypeNames.Double).Set(1.0) prim.CreateAttribute("height", Sdf.ValueTypeNames.Double).Set(1.0) return prim # -------------------------------------------------------------------------------------------------------------- def create_grid_mesh(stage, path, counts=(32, 32), domain=(620, 620, 20), display_color=(1, 1, 1)): mesh = UsdGeom.Mesh.Define(stage, path) mesh.CreateDoubleSidedAttr().Set(True) num_vertices = counts[0] * counts[1] num_triangles = (counts[0] - 1) * (counts[1] - 1) mesh.CreateFaceVertexCountsAttr().Set([3] * num_triangles * 2) face_vertex_indices = [0] * num_triangles * 6 for i in range(counts[0] - 1): for j in range(counts[1] - 1): a = i * counts[0] + j b = a + 1 c = a + counts[0] d = c + 1 k = (i * (counts[0] - 1) + j) * 6 face_vertex_indices[k : k + 6] = [a, b, d, a, d, c] mesh.CreateFaceVertexIndicesAttr().Set(face_vertex_indices) points = [(0, 0, 0)] * num_vertices for i in range(counts[0]): for j in range(counts[1]): points[i * counts[0] + j] = (i * domain[0] / (counts[0] - 1), j * domain[1] / (counts[1] - 1), domain[2]) mesh.CreatePointsAttr().Set(points) mesh.CreateDisplayColorPrimvar().Set([display_color]) return mesh # -------------------------------------------------------------------------------------------------------------- def create_input_and_output_grid_meshes(stage): input_grid = create_grid_mesh(stage, "/defaultPrim/inputGrid", display_color=(0.2784314, 0.64705884, 1)) output_grid = create_grid_mesh(stage, "/defaultPrim/outputGrid", display_color=(0.784314, 0.64705884, 0.1)) return (input_grid, output_grid) # ============================================================================================================== # Below here is support for generated tests # @dataclass class _TestGraphAndNode: """Helper class to pass graph and node around in test utility methods below""" graph: og.Graph = None node: og.Node = None # -------------------------------------------------------------------------------------------------------------- async def _test_clear_scene(tc: unittest.TestCase, test_run: Dict[str, Any]): """Clear the scene if test run requires it Args: tc: Unit test case executing this method. Used to raise errors test_run: Dictionary of consist of four sub-lists and a dictionary: - values for input attributes, set before the test starts - values for output attributes, checked after the test finishes - initial values for state attributes, set before the test starts - final values for state attributes, checked after the test finishes - setup to be used for populating the scene via controller For complete implementation see generate_user_test_data. """ setup = test_run.get("setup", None) if setup is None or setup: await omni.usd.get_context().new_stage_async() # -------------------------------------------------------------------------------------------------------------- async def _test_setup_scene( tc: unittest.TestCase, controller: og.Controller, test_graph_name: str, test_node_name: str, test_node_type: str, test_run: Dict[str, Any], last_test_info: _TestGraphAndNode, instance_count=0, ) -> _TestGraphAndNode: """Setup the scene based on given test run dictionary Args: tc: Unit test case executing this method. Used to raise errors controller: Controller object to use when constructing the scene (e.g. may have undo support disabled) test_graph_name: Graph name to use when constructing the scene test_node_name: Node name to use when constructing the scene without "setup" explicitly provided in test_run test_node_type: Node type to use when constructing the scene without "setup" explicitly provided in test_run test_run: Dictionary of consist of four sub-lists and a dictionary: - values for input attributes, set before the test starts - values for output attributes, checked after the test finishes - initial values for state attributes, set before the test starts - final values for state attributes, checked after the test finishes - setup to be used for populating the scene via controller For complete implementation see generate_user_test_data. last_test_info: When executing multiple tests cases for the same node, this represents graph and node used in previous run instance_count: number of instances to create assotiated to this graph, in order to test vectorized compute Returns: Graph and node to use in current execution of the test """ test_info = last_test_info setup = test_run.get("setup", None) if setup: (test_info.graph, test_nodes, _, _) = controller.edit(test_graph_name, setup) tc.assertTrue(test_nodes) test_info.node = test_nodes[0] elif setup is None: test_info.graph = controller.create_graph(test_graph_name) test_info.node = controller.create_node((test_node_name, test_info.graph), test_node_type) else: tc.assertTrue( test_info.graph is not None and test_info.graph.is_valid(), "Test is misconfigured - empty setup cannot be in the first test", ) tc.assertTrue(test_info.graph is not None and test_info.graph.is_valid(), "Test graph invalid") tc.assertTrue(test_info.node is not None and test_info.node.is_valid(), "Test node invalid") test_info.graph.set_auto_instancing_allowed(False) await controller.evaluate(test_info.graph) inputs = test_run.get("inputs", []) state_set = test_run.get("state_set", []) values_to_set = inputs + state_set if values_to_set: for attribute_name, attribute_value, _ in values_to_set: controller.set(attribute=(attribute_name, test_info.node), value=attribute_value) # create some instance prims, and apply the graph on it if instance_count != 0: stage = omni.usd.get_context().get_stage() for i in range(instance_count): prim_name = f"/World/Test_Instance_Prim_{i}" stage.DefinePrim(prim_name) OmniGraphSchemaTools.applyOmniGraphAPI(stage, prim_name, test_graph_name) return test_info # -------------------------------------------------------------------------------------------------------------- def _test_verify_scene( tc: unittest.TestCase, controller: og.Controller, test_run: Dict[str, Any], test_info: _TestGraphAndNode, error_msg: str, instance_count=0, ): """Verify the scene state based on given test run dictionary Args: tc: Unit test case executing this method. Used to raise errors controller: Controller object to use when constructing the scene (e.g. may have undo support disabled) test_run: Dictionary of consist of four sub-lists and a dictionary: - values for input attributes, set before the test starts - values for output attributes, checked after the test finishes - initial values for state attributes, set before the test starts - final values for state attributes, checked after the test finishes - setup to be used for populating the scene via controller For complete implementation see generate_user_test_data. error_msg: Customized error message to use as a prefix for all unit test errors detected within this method instance_count: number of instances assotiated to this graph that needs to be verified """ outputs = test_run.get("outputs", []) state_get = test_run.get("state_get", []) for attribute_name, expected_value, _ in outputs + state_get: test_attribute = controller.attribute(attribute_name, test_info.node) expected_type = None if isinstance(expected_value, dict): expected_type = expected_value["type"] expected_value = expected_value["value"] if instance_count != 0: for i in range(instance_count): actual_output = controller.get(attribute=test_attribute, instance=i) verify_values( expected_value, actual_output, f"{error_msg}: {attribute_name} attribute value error on instance {i}", ) else: actual_output = controller.get(attribute=test_attribute) verify_values(expected_value, actual_output, f"{error_msg}: {attribute_name} attribute value error") if expected_type: tp = og.AttributeType.type_from_ogn_type_name(expected_type) actual_type = test_attribute.get_resolved_type() if tp != actual_type: raise ValueError( f"{error_msg} - {attribute_name}: Expected {expected_type}, saw {actual_type.get_ogn_type_name()}" ) # ============================================================================================================== # _____ ______ _____ _____ ______ _____ _______ ______ _____ # | __ \ | ____|| __ \ | __ \ | ____|/ ____| /\ |__ __|| ____|| __ \ # | | | || |__ | |__) || |__) || |__ | | / \ | | | |__ | | | | # | | | || __| | ___/ | _ / | __| | | / /\ \ | | | __| | | | | # | |__| || |____ | | | | \ \ | |____| |____ / ____ \ | | | |____ | |__| | # |_____/ |______||_| |_| \_\|______|\_____|/_/ \_\|_| |______||_____/ #

39,995

Python

47.538835

130

0.60185

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_internal_registration.py

# pylint: disable=too-many-lines """Tests the correct generation of node type definitions into the cache""" from __future__ import annotations import sys from contextlib import ExitStack from pathlib import Path from tempfile import TemporaryDirectory import omni.graph.core as og import omni.graph.core.tests as ogts import omni.graph.tools._internal as ogi import omni.kit.test from omni.graph.core._impl._registration.extension_management import extension_management_factory from omni.graph.tools.tests.internal_utils import TemporaryPathAddition from ._internal_utils import _TestExtensionManager # Helper constants shared by many tests _CURRENT_VERSIONS = ogi.GenerationVersions(ogi.Compatibility.FullyCompatible) _EXT_INDEX = 0 # ============================================================================================================== class ModuleContexts: def __init__(self, stack: ExitStack): """Set up a stack of contexts to use for tests running in individual temporary directory""" global _EXT_INDEX _EXT_INDEX += 1 self.ext_name = f"omni.test.internal.registration{_EXT_INDEX}" # Default extension version is 0.1.0 so create an ID with that self.ext_id = f"{self.ext_name}-0.1.0" # Put all temporary files in a temporary directory for easy disposal self.test_directory = Path(stack.enter_context(TemporaryDirectory())) # pylint: disable=consider-using-with self.python_root = Path(self.test_directory) / "exts" self.module_name = self.ext_name self.module_path = self.python_root / self.ext_name / self.ext_name.replace(".", "/") # Redirect the usual node cache to the temporary directory self.cache_root = stack.enter_context(ogi.TemporaryCacheLocation(self.test_directory / "cache")) # Add the import path of the new extension to the system path self.path_addition = stack.enter_context(TemporaryPathAddition(self.python_root / self.ext_name)) # Uncomment this to dump debugging information while the tests are running # self.log = stack.enter_context(ogi.TemporaryLogLocation("stdout")) # ============================================================================================================== def _expected_cache_contents( cache_root: Path, node_type_name: str, exclusions: list[ogi.FileType] = None ) -> list[Path]: """Returns a list of the files that should be in the generated cache at the given root for the given node type""" file_list = [cache_root / "__init__.py", cache_root / f"{node_type_name}Database.py"] if ogi.FileType.DOCS not in (exclusions or []): file_list.append(cache_root / "docs" / f"{node_type_name}.rst") if ogi.FileType.TEST not in (exclusions or []): file_list.append(cache_root / "tests" / "__init__.py") file_list.append(cache_root / "tests" / f"Test{node_type_name}.py") if ogi.FileType.USD not in (exclusions or []): file_list.append(cache_root / "tests" / "usd" / f"{node_type_name}Template.usda") return file_list # ============================================================================================================== def _expected_1_18_module_files( module_root: Path, node_type_name: str, exclusions: list[ogi.FileType] = None ) -> list[Path]: """Returns a list of the files that should be in a standard V1.18 generated module directory for one node type""" file_list = [ module_root / "__init__.py", module_root / "ogn" / "nodes" / f"{node_type_name}.ogn", module_root / "ogn" / "nodes" / f"{node_type_name}.py", module_root / "ogn" / f"{node_type_name}Database.py", ] if ogi.FileType.TEST not in (exclusions or []): file_list.append(module_root / "ogn" / "tests" / "__init__.py") file_list.append(module_root / "ogn" / "tests" / f"Test{node_type_name}.py") if ogi.FileType.USD not in (exclusions or []): file_list.append(module_root / "ogn" / "tests" / "usd" / f"{node_type_name}Template.usda") return file_list # ============================================================================================================== def _expected_standalone_module_files(module_root: Path, node_type_name: str) -> list[Path]: """Returns a list of the files that should be in a non-generated module directory for one node type""" return [ module_root / "__init__.py", module_root / "nodes" / f"{node_type_name}.ogn", module_root / "nodes" / f"{node_type_name}.py", ] # ============================================================================================================== class TestInternalRegistration(ogts.OmniGraphTestCase): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.maxDiff = None # Diffs of file path lists can be large so let the full details be seen # -------------------------------------------------------------------------------------------------------------- async def _test_extension_modules(self, import_ogn: bool, import_ogn_tests: bool, generate_tests: bool): """Metatest that the utility to create a test extension creates the proper imports for a single configuration Args: import_ogn: Add the ogn submodule to the extension.toml python module list import_ogn: Add the ogn.tests submodule to the extension.toml python module list generate_tests: Generate/initialize test files for the node type generated code """ with ExitStack() as stack: ctx = ModuleContexts(stack) self.assertTrue(str(ctx.python_root / ctx.ext_name) in sys.path) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, ) exclusions = [] if generate_tests else [ogi.FileType.TEST] exclusions += [ogi.FileType.USD, ogi.FileType.DOCS] ext_contents.add_v1_18_node("OgnTestNode", exclusions) expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode", exclusions) actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Created extension contents") ext_ogn_mgr = extension_management_factory(ctx.ext_id, ctx.ext_name, ctx.python_root / ctx.ext_name) self.assertIsNotNone(ext_ogn_mgr) ext_ogn_mgr.scan_for_nodes() ext_ogn_mgr.ensure_files_up_to_date() (ogn_module, ogn_test_module) = ext_ogn_mgr.ensure_required_modules_exist() self.assertIsNotNone(ogn_module) if generate_tests: self.assertIsNotNone(ogn_test_module) else: self.assertIsNone(ogn_test_module) # -------------------------------------------------------------------------------------------------------------- async def test_extension_modules(self): """Metatest that the utility to create a test extension creates the proper modules for all configurations""" for test_configuration in [0b000, 0b100, 0b110, 0b001, 0b101, 0b111]: import_ogn = test_configuration & 0b100 != 0 import_ogn_tests = test_configuration & 0b010 != 0 generate_tests = test_configuration & 0b001 != 0 with self.subTest(import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, generate_tests=generate_tests): await self._test_extension_modules( import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, generate_tests=generate_tests ) # -------------------------------------------------------------------------------------------------------------- async def _test_extension_imports(self, import_ogn: bool, import_ogn_tests: bool, generate_tests: bool): """Metatest that the utility to create a test extension creates the proper imports for a single configuration Args: import_ogn: Add the ogn submodule to the extension.toml python module list import_ogn: Add the ogn.tests submodule to the extension.toml python module list generate_tests: Generate/initialize test files for the node type generated code """ test_config = f"import_ogn={import_ogn}, import_ogn_tests={import_ogn_tests}" with ExitStack() as stack: ctx = ModuleContexts(stack) self.assertTrue(str(ctx.python_root / ctx.ext_name) in sys.path) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, ) exclusions = [] if generate_tests else [ogi.FileType.TEST] exclusions += [ogi.FileType.USD, ogi.FileType.DOCS] ext_contents.add_v1_18_node("OgnTestNode", exclusions) expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode", exclusions) actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, f"Created extension contents using {test_config}") ext_ogn_mgr = extension_management_factory(ctx.ext_id, ctx.ext_name, ctx.python_root / ctx.ext_name) self.assertIsNotNone(ext_ogn_mgr, test_config) ext_ogn_mgr.scan_for_nodes() ext_ogn_mgr.ensure_files_up_to_date() # Ensure that the OGN submodules could be found in the newly created extension (ogn_module, ogn_test_module) = ext_ogn_mgr.ensure_required_modules_exist() self.assertIsNotNone(ogn_module, test_config) self.assertTrue(not generate_tests or ogn_test_module is not None, test_config) (ogn_module, ogn_test_module) = ext_ogn_mgr.do_python_imports() # Do it twice because the second time it should just pick it up from sys.modules (ogn_module_2, ogn_test_module_2) = ext_ogn_mgr.do_python_imports() self.assertEqual(ogn_module, ogn_module_2, test_config) self.assertEqual(ogn_test_module, ogn_test_module_2, test_config) # Check the contents of the ogn submodule to make sure the node class and database were imported self.assertIsNotNone(ogn_module, test_config) self.assertTrue(hasattr(ogn_module, ext_ogn_mgr.NODE_STORAGE_OBJECT), test_config) self.assertTrue(getattr(ogn_module, ext_ogn_mgr.NODE_STORAGE_OBJECT), test_config) self.assertTrue(hasattr(ogn_module, "OgnTestNodeDatabase"), test_config) ogn_module_file_path = ogi.get_module_path(ogn_module) self.assertIsNotNone(ogn_module_file_path, test_config) self.assertTrue(ctx.module_path in ogn_module_file_path.parents, test_config) # If tests were requested then confirm the generated tests was imported into the ogn.tests submodule if generate_tests: self.assertIsNotNone(ogn_test_module, test_config) self.assertTrue(hasattr(ogn_test_module, "TestOgnTestNode"), test_config) ogn_test_module_file_path = ogi.get_module_path(ogn_test_module) self.assertIsNotNone(ogn_test_module_file_path, test_config) self.assertTrue(ctx.module_path in ogn_test_module_file_path.parents, test_config) else: self.assertIsNone(ogn_test_module, test_config) # -------------------------------------------------------------------------------------------------------------- async def test_extension_imports(self): """Metatest that the utility to create a test extension imports the proper modules for all configurations""" for test_configuration in [0b000, 0b100, 0b110, 0b001, 0b101, 0b111]: import_ogn = test_configuration & 0b100 != 0 import_ogn_tests = test_configuration & 0b010 != 0 generate_tests = test_configuration & 0b001 != 0 with self.subTest(import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, generate_tests=generate_tests): await self._test_extension_imports( import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, generate_tests=generate_tests ) # -------------------------------------------------------------------------------------------------------------- async def _test_extension_cached_imports( self, import_ogn: bool, import_ogn_tests: bool, generate_tests: bool, use_prebuilt_cache: bool, ): """Metatest that the utility to create a test extension creates the proper imports for a single configuration Args: import_ogn: Add the ogn submodule to the extension.toml python module list import_ogn: Add the ogn.tests submodule to the extension.toml python module list generate_tests: Generate/initialize test files for the node type generated code use_prebuilt_cache: If True then prebuild the up-to-date cache files, otherwise generate old ones to ignore """ # ogi.set_registration_logging("stdout") # Uncomment for test debugging information test_config = ( f"import_ogn={import_ogn}, import_ogn_tests={import_ogn_tests}, " f"tests={generate_tests}, prebuilt={use_prebuilt_cache}" ) with ExitStack() as stack: ctx = ModuleContexts(stack) self.assertTrue(str(ctx.python_root / ctx.ext_name) in sys.path, test_config) # Create an old cache to make sure it gets ignored as well exclusions = [] if generate_tests else [ogi.FileType.TEST] exclusions += [ogi.FileType.USD, ogi.FileType.DOCS] ext_contents_incompatible = _TestExtensionManager( ctx.python_root, ctx.ext_name, ogi.GenerationVersions(ogi.Compatibility.Incompatible), import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, ) ext_contents_incompatible.add_v1_18_node("OgnTestNode", exclusions) compatibility = ogi.Compatibility.FullyCompatible if use_prebuilt_cache else ogi.Compatibility.Incompatible cache_versions = ogi.GenerationVersions(compatibility) current_cache_directory = ogi.full_cache_path(cache_versions, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, cache_versions, import_ogn=import_ogn, import_ogn_tests=import_ogn_tests, ) ext_contents.add_cache_for_node("OgnTestNode", exclusions) cached_files = _expected_cache_contents(current_cache_directory, "OgnTestNode", exclusions) # If using the obsolete cache then add in the ones that will be built when the generator runs if not use_prebuilt_cache: current_cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) cached_files += _expected_cache_contents(current_cache_directory, "OgnTestNode", exclusions) expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", # Not in the cache ] expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode", exclusions) expected_files += cached_files ext_ogn_mgr = extension_management_factory(ctx.ext_id, ctx.ext_name, ctx.python_root / ctx.ext_name) self.assertIsNotNone(ext_ogn_mgr, test_config) ext_ogn_mgr.scan_for_nodes() ext_ogn_mgr.ensure_files_up_to_date() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, f"Created extension contents with {test_config}") # Ensure that the OGN submodules could be found in the newly created extension (ogn_module, ogn_test_module) = ext_ogn_mgr.do_python_imports() # Do it twice because the second time it should just pick it up from sys.modules (ogn_module_2, ogn_test_module_2) = ext_ogn_mgr.do_python_imports() self.assertEqual(ogn_module, ogn_module_2, test_config) self.assertEqual(ogn_test_module, ogn_test_module_2, test_config) # Check the contents of the ogn submodule to make sure the node class and database were imported self.assertIsNotNone(ogn_module, test_config) self.assertTrue(hasattr(ogn_module, ext_ogn_mgr.NODE_STORAGE_OBJECT), test_config) self.assertTrue(getattr(ogn_module, ext_ogn_mgr.NODE_STORAGE_OBJECT), test_config) self.assertTrue(hasattr(ogn_module, "OgnTestNodeDatabase"), test_config) ogn_module_file_path = ogi.get_module_path(ogn_module.OgnTestNodeDatabase) self.assertIsNotNone(ogn_module_file_path, test_config) self.assertTrue( current_cache_directory in ogn_module_file_path.parents, f"Cache {current_cache_directory} not in {ogn_module_file_path} - {test_config}", ) # If tests were requested then confirm the generated tests was imported into the ogn.tests submodule if generate_tests: self.assertIsNotNone(ogn_test_module, test_config) self.assertTrue(hasattr(ogn_test_module, "TestOgnTestNode"), test_config) ogn_test_module_file_path = ogi.get_module_path(ogn_test_module) self.assertIsNotNone(ogn_test_module_file_path, test_config) self.assertTrue( current_cache_directory in ogn_module_file_path.parents, f"Cache {current_cache_directory} not in {ogn_module_file_path} - {test_config}", ) else: self.assertIsNone(ogn_test_module, test_config) # -------------------------------------------------------------------------------------------------------------- async def test_extension_cached_imports_ffff(self): """Metatest that the utility to create a test extension that requires building a cache imports the proper modules for all configurations from that cache. These all have to run as separate tests in order to avoid stomping on each other's import spaces and cache directories. """ await self._test_extension_cached_imports(False, False, False, False) async def test_extension_cached_imports_tfff(self): await self._test_extension_cached_imports(True, False, False, False) async def test_extension_cached_imports_ttff(self): await self._test_extension_cached_imports(True, True, False, False) async def test_extension_cached_imports_fftf(self): await self._test_extension_cached_imports(False, False, True, False) async def test_extension_cached_imports_tftf(self): await self._test_extension_cached_imports(True, False, True, False) async def test_extension_cached_imports_tttf(self): await self._test_extension_cached_imports(True, True, True, False) async def test_extension_cached_imports_ffft(self): await self._test_extension_cached_imports(False, False, False, True) async def test_extension_cached_imports_tfft(self): await self._test_extension_cached_imports(True, False, False, True) async def test_extension_cached_imports_ttft(self): await self._test_extension_cached_imports(True, True, False, True) async def test_extension_cached_imports_fftt(self): await self._test_extension_cached_imports(False, False, True, True) async def test_extension_cached_imports_tftt(self): await self._test_extension_cached_imports(True, False, True, True) async def test_extension_cached_imports_tttt(self): await self._test_extension_cached_imports(True, True, True, True) # -------------------------------------------------------------------------------------------------------------- def __confirm_module_contents(self, expected_modules_and_contents: list[tuple[str, str]]): """Asserts if the module does not contain at least all of the expected symbols. Args: expected_modules_and_contents: List of (MODULE_NAME, EXPECTED_SYMBOLS) to verify """ for expected_name, symbols in expected_modules_and_contents: self.assertTrue(expected_name in sys.modules, f"Looking for module {expected_name}") actual_contents = dir(sys.modules[expected_name]) for expected_symbol in symbols: self.assertTrue( expected_symbol in actual_contents, f"Looking for symbol {expected_symbol} in {expected_name}" ) # -------------------------------------------------------------------------------------------------------------- async def test_raw_extension_creation(self): """Metatest that the utility to create a test extension using the generated files and successfully load a file of the generated type into a scene. """ with ExitStack() as stack: ctx = ModuleContexts(stack) self.assertTrue(str(ctx.python_root / ctx.ext_name) in sys.path) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") ext_ogn_mgr = extension_management_factory(ctx.ext_id, ctx.ext_name, ctx.python_root / ctx.ext_name) self.assertIsNotNone(ext_ogn_mgr) ext_ogn_mgr.scan_for_nodes() ext_ogn_mgr.ensure_files_up_to_date() (ogn_module, ogn_test_module) = ext_ogn_mgr.do_python_imports() self.assertIsNotNone(ogn_module) self.assertIsNotNone(ogn_test_module) ext_ogn_mgr.do_registration() # Enable the extension inside Kit await ext_contents.enable() # Confirm that the test node type now exists and can be instantiated (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {og.Controller.Keys.CREATE_NODES: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {og.Controller.Keys.CREATE_NODES: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_cache_generation(self): """Test that an extension with no prebuilt files registers and is seen correctly. This entails enabling the test extension and then looking at the modules to ensure that: - the database exists and can be imported - the node type was correctly registered - the generated test was correctly registered - the database, node type, and generated test are removed when the extension is disabled """ with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, ogi.GenerationVersions(), import_ogn=False, import_ogn_tests=False, ) ext_contents.add_standalone_node("OgnTestNode") expected_cache_files = _expected_cache_contents(cache_directory, "OgnTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_standalone_module_files(ctx.module_path, "OgnTestNode") expected_files += expected_cache_files # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the imported database file to make sure it is using the cached one db_object = getattr(sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"], "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) ogn_module_file_path = ogi.get_module_path(sys.modules[f"{ctx.ext_name}.ogn"]) self.assertIsNotNone(ogn_module_file_path) self.assertTrue(cache_directory in ogn_module_file_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_cache_generation_from_old_build(self): """Test that an extension with prebuilt files that are out of date registers and is seen correctly. This entails enabling the test extension and then looking at the modules to ensure that: - the database exists and can be imported - the node type was correctly registered - the generated test was correctly registered - the database, node type, and generated test are removed when the extension is disabled """ with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, ogi.GenerationVersions(ogi.Compatibility.Incompatible), import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_cache_contents(cache_directory, "OgnTestNode") expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode") # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the version number in the imported database file to make sure it is using the cached one db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"] db_object = getattr(db_module, "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(cache_directory in db_module_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_cache_update(self): """Test that an extension with prebuilt files that are from a compatible version but whose .ogn files are out of date correctly notices and rebuilds cached files and registers them correctly. This entails enabling the test extension and then looking at the modules to ensure that: - the database exists and can be imported - the node type was correctly registered - the generated test was correctly registered - the database, node type, and generated test are removed when the extension is disabled """ with ExitStack() as stack: ctx = ModuleContexts(stack) incompatible = ogi.GenerationVersions(ogi.Compatibility.Incompatible) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) old_cache_directory = ogi.full_cache_path(incompatible, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") ext_contents_incompatible = _TestExtensionManager( ctx.python_root, ctx.ext_name, incompatible, import_ogn=False, import_ogn_tests=False, ) ext_contents_incompatible.add_cache_for_node("OgnTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_cache_contents(old_cache_directory, "OgnTestNode") expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode") actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") ogn_file = ctx.module_path / "ogn" / "nodes" / "OgnTestNode.ogn" ogn_file.touch() # Files that will be built when the cache updates after registration expected_cache_files = _expected_cache_contents(cache_directory, "OgnTestNode") # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files + expected_cache_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the version number in the imported database file to make sure it is using the cached one db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"] db_object = getattr(db_module, "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(cache_directory in db_module_path.parents) # Double check the path to the registered test to make sure it is using the newly generated cache test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnTestNode"] test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(cache_directory in test_module_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_hot_reload(self): """Test that an extension cache is correctly generated when loading, then regenerated after a .ogn change. The .ogn change is such that it can be checked at runtime (adding an attribute). """ with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, ogi.GenerationVersions(ogi.Compatibility.Incompatible), import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_cache_contents(cache_directory, "OgnTestNode") expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode") # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) await og.Controller.evaluate() self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Modify the .ogn to add in a new attribute, then wait for the scene to reattach await ext_contents.add_hot_attribute_to_ogn() # This syncs are to wait for the hot reload to happen await omni.kit.app.get_app().next_update_async() await omni.kit.app.get_app().next_update_async() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "After hot reload") # Rebuild the scene. This is necessary because the scene reattach process does not currently update any # modified nodes with their new attributes so the only way to test this is to create a new node and # check that it picks up the new definition. await omni.usd.get_context().new_stage_async() (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) await og.Controller.evaluate() self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) # Confirm that the hot-reloading attribute now exists hot_attribute = og.Controller.attribute("inputs:hot", test_node) self.assertIsNotNone(hot_attribute) self.assertTrue(hot_attribute.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the imported database file to make sure it is using the cached one db_object = getattr(sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"], "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_file_path = ogi.get_module_path(sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"]) self.assertIsNotNone(db_file_path) self.assertTrue( cache_directory in db_file_path.parents, f"Expected {cache_directory} to be a parent of {db_file_path}", ) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", {key_create: [("TestNode", f"{ctx.ext_name}.OgnTestNode")]} ) # -------------------------------------------------------------------------------------------------------------- async def test_multiple_nodes(self): """Test that a built extension with more than one node correctly imports all of them""" with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=False, import_ogn_tests=False, ) ext_contents.add_v1_18_node("OgnTestNode") ext_contents.add_v1_18_node("OgnGoodTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ] expected_files += _expected_1_18_module_files(ctx.module_path, "OgnTestNode") expected_files += _expected_1_18_module_files(ctx.module_path, "OgnGoodTestNode") expected_files += _expected_cache_contents(cache_directory, "OgnTestNode") expected_files = list(set(expected_files)) # Touch the .ogn file to make it out of date outdated_ogn = ctx.module_path / "ogn" / "nodes" / "OgnTestNode.ogn" outdated_ogn.touch() # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node, test_good_node), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("TestNode", f"{ctx.ext_name}.OgnTestNode"), ("GoodTestNode", f"{ctx.ext_name}.OgnGoodTestNode"), ] }, ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) self.assertIsNotNone(test_good_node) self.assertTrue(test_good_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), (f"{ctx.ext_name}.ogn.OgnGoodTestNodeDatabase", ["OgnGoodTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnGoodTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnGoodTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the version number in the imported database file to make sure it is using the cached one db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"] db_object = getattr(db_module, "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the cached database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(cache_directory in db_module_path.parents) test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnTestNode"] test_object = getattr(test_module, "TestOgn", None) self.assertIsNotNone(test_object, "Could not get the cached test from the extension imports") test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(cache_directory in test_module_path.parents) # Check that the node that did not have to be rebuilt imports from the build directory, not the cache db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnGoodTestNodeDatabase"] db_object = getattr(db_module, "OgnGoodTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the built database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(ctx.module_path in db_module_path.parents) test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnGoodTestNode"] test_object = getattr(test_module, "TestOgn", None) self.assertIsNotNone(test_object, "Could not get the built test from the extension imports") test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(ctx.module_path in test_module_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("TestNode", f"{ctx.ext_name}.OgnTestNode"), ] }, ) with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("GoodTestNode", f"{ctx.ext_name}.OgnGoodTestNode"), ] }, ) # -------------------------------------------------------------------------------------------------------------- async def test_multiple_standalone_nodes(self): """Test that a built extension with more than one node without generation correctly imports all of them""" with ExitStack() as stack: ctx = ModuleContexts(stack) cache_directory = ogi.full_cache_path(_CURRENT_VERSIONS, ctx.ext_id, ctx.module_name) ext_contents = _TestExtensionManager( ctx.python_root, ctx.ext_name, _CURRENT_VERSIONS, import_ogn=False, import_ogn_tests=False, ) ext_contents.add_standalone_node("OgnTestNode") ext_contents.add_standalone_node("OgnGoodTestNode") expected_files = [ ctx.python_root / ctx.ext_name / "config" / "extension.toml", ctx.module_path / "__init__.py", ] expected_files += _expected_standalone_module_files(ctx.module_path, "OgnTestNode") expected_files += _expected_standalone_module_files(ctx.module_path, "OgnGoodTestNode") expected_files += _expected_cache_contents(cache_directory, "OgnTestNode") expected_files += _expected_cache_contents(cache_directory, "OgnGoodTestNode") expected_files = list(set(expected_files)) # Register the extension and enable it try: await ext_contents.enable() actual_files = [] for root, _dirs, files in ogi.walk_with_excludes(ctx.test_directory, ["__pycache__"]): for file in files: actual_files.append(Path(root) / file) self.assertCountEqual(expected_files, actual_files, "Rebuilt cached extension") # Confirm that the test node type now exists and can be instantiated key_create = og.Controller.Keys.CREATE_NODES (_, (test_node, test_good_node), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("TestNode", f"{ctx.ext_name}.OgnTestNode"), ("GoodTestNode", f"{ctx.ext_name}.OgnGoodTestNode"), ] }, ) self.assertIsNotNone(test_node) self.assertTrue(test_node.is_valid()) self.assertIsNotNone(test_good_node) self.assertTrue(test_good_node.is_valid()) # Confirm that the modules were correctly created expected_modules_and_contents = [ (ctx.ext_name, ["_PublicExtension"]), (f"{ctx.ext_name}.nodes.OgnTestNode", ["OgnTestNode"]), (f"{ctx.ext_name}.ogn", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.OgnTestNodeDatabase", ["OgnTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnTestNode", ["TestOgn"]), (f"{ctx.ext_name}.nodes.OgnGoodTestNode", ["OgnGoodTestNode"]), (f"{ctx.ext_name}.ogn", ["OgnGoodTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.OgnGoodTestNodeDatabase", ["OgnGoodTestNodeDatabase"]), (f"{ctx.ext_name}.ogn.tests", ["TestOgnGoodTestNode"]), (f"{ctx.ext_name}.ogn.tests.TestOgnGoodTestNode", ["TestOgn"]), ] self.__confirm_module_contents(expected_modules_and_contents) # Double check the version number in the imported database file to make sure it is using the cached one db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnTestNodeDatabase"] db_object = getattr(db_module, "OgnTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the cached database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue(cache_directory in db_module_path.parents) test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnTestNode"] test_object = getattr(test_module, "TestOgn", None) self.assertIsNotNone(test_object, "Could not get the cached test from the extension imports") test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(cache_directory in test_module_path.parents) # Check that the node that did not have to be rebuilt imports from the build directory, not the cache db_module = sys.modules[f"{ctx.ext_name}.ogn.OgnGoodTestNodeDatabase"] db_object = getattr(db_module, "OgnGoodTestNodeDatabase", None) self.assertIsNotNone(db_object, "Could not get the built database from the extension imports") generator_version = getattr(db_object, ogi.VersionProperties.GENERATOR.value, None) self.assertEqual(generator_version, ogi.get_generator_extension_version()) target_version = getattr(db_object, ogi.VersionProperties.TARGET.value, None) self.assertEqual(target_version, ogi.get_target_extension_version()) db_module_path = ogi.get_module_path(db_module) self.assertIsNotNone(db_module_path) self.assertTrue( cache_directory in db_module_path.parents, f"{db_module_path} must be a child of {cache_directory}" ) test_module = sys.modules[f"{ctx.ext_name}.ogn.tests.TestOgnGoodTestNode"] test_object = getattr(test_module, "TestOgn", None) self.assertIsNotNone(test_object, "Could not get the built test from the extension imports") test_module_path = ogi.get_module_path(test_module) self.assertIsNotNone(test_module_path) self.assertTrue(cache_directory in test_module_path.parents) # Clear the scene and disable the extension await omni.usd.get_context().new_stage_async() finally: await ext_contents.disable() # Confirm that the test node type no longer exists with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("TestNode", f"{ctx.ext_name}.OgnTestNode"), ] }, ) with self.assertRaises(og.OmniGraphError): (_, (test_node,), _, _) = og.Controller.edit( "/TestGraph", { key_create: [ ("GoodTestNode", f"{ctx.ext_name}.OgnGoodTestNode"), ] }, )

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54.561178

120

0.572375

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/_internal_utils.py

"""Helpers for configuring and running local tests, not meant for general use""" from __future__ import annotations import json from collections import defaultdict from pathlib import Path import omni.ext import omni.graph.tools._internal as ogi import omni.graph.tools.ogn as ogn import omni.kit from omni.graph.tools.tests.internal_utils import CreateHelper # ============================================================================================================== class _TestExtensionManager: """Object that lets you create and control a dynamically generated extension Attributes: __root: Path to the directory in which the extension will be created __ext_path: Path to the created extension directory __ext_name: Name of the created extension __ogn_files: Dictionary of class name to .ogn file implementing the class __module_path: Path to the Python module directory inside the extension __exclusions: List of file types to exclude from any generated code __creator: Helper that creates files of various types """ # Dictionary of Path:count that tracks how many test extensions are using a given path, tracked so that the # extension manager's path information can be properly managed. PATHS_ADDED = defaultdict(lambda: 0) def __init__( self, root: Path, ext_name: str, versions: ogi.GenerationVersions, import_ogn: bool, import_ogn_tests: bool, ): """Initialize the temporary extension object, creating the required files. The files will not be deleted by this class, their lifespan must be managed by the caller, e.g. through using a TempDirectory for their location. Args: root: Directory that contains all extensions ext_name: Name of the extension to create (e.g. 'omni.my.extension') versions: Versions to use in any generated code import_ogn: Add a python module spec for the .ogn submodule in the extension.toml import_ogn_tests: Add a python module spec for the .ogn.tests submodule in the extension.toml Raises: AttributeError if there was a problem creating the extension configuration """ ogi.LOG.info("Creating extension %s at %s", ext_name, root) self.__root: Path = root self.__ext_path: Path = root / ext_name self.__ext_name: str = ext_name self.__ogn_files: dict[str, Path] = {} # Class name to .ogn file implementing it self.__module_path: Path = self.__ext_path / ext_name.replace(".", "/") self.__module_path.mkdir(parents=True, exist_ok=True) self.__exclusions: list[ogi.FileType] = [] self.__creator: CreateHelper = CreateHelper(ext_name, self.__root, versions) self.__creator.add_extension_module(self.__root, ext_name, self.__module_path, import_ogn, import_ogn_tests) # -------------------------------------------------------------------------------------------------------------- def add_standalone_node( self, node_type_name: str, exclusions: list[ogi.FileType] = None, ): """Add a node definition for a node with no generated code. See CreateHelper.add_standalone_node for details""" created_files = self.__creator.add_standalone_node(node_type_name, exclusions) self.__exclusions = exclusions for created_file in created_files: if created_file.suffix == ".ogn": self.__ogn_files[node_type_name] = created_file return raise ValueError(f"No .ogn file found in standalone created files {created_files}") # -------------------------------------------------------------------------------------------------------------- def add_v1_18_node( self, node_type_name: str, exclusions: list[ogi.FileType] = None, ): """Add a node definition using the V1.18 and earlier pattern. See CreateHelper.add_v1_18_node for details""" created_files = self.__creator.add_v1_18_node(node_type_name, exclusions) self.__exclusions = exclusions for created_file in created_files: if created_file.suffix == ".ogn": self.__ogn_files[node_type_name] = created_file return raise ValueError(f"No .ogn file found in V1.18 created files {created_files}") # -------------------------------------------------------------------------------------------------------------- def add_v1_19_node( self, node_type_name: str, exclusions: list[ogi.FileType] = None, ): """Add a node definition using the V1.19 pattern. See CreateHelper.add_v1_19_node for details""" created_files = self.__creator.add_v1_19_node(node_type_name, exclusions) self.__exclusions = exclusions for created_file in created_files: if created_file.suffix == ".ogn": self.__ogn_files[node_type_name] = created_file return raise ValueError(f"No .ogn file found in V1.19 created files {created_files}") # -------------------------------------------------------------------------------------------------------------- def add_cache_for_node( self, node_type_name: str, exclusions: list[ogi.FileType] = None, ): """Add a node definition to the cache. See CreateHelper.add_cache_for_node for details""" self.__creator.add_cache_for_node(node_type_name, exclusions) self.__exclusions = exclusions # -------------------------------------------------------------------------------------------------------------- async def add_hot_attribute_to_ogn(self): """Rewrite the .ogn file with a new input attribute "hot_attribute" for hot reload testing""" ogi.LOG.info("!!! Adding hot reload attribute to %s", str(self.__ogn_files)) # Remember the .ogn definitions for use in the generation of sample code ogn_definitions = { class_name: { ogn.NodeTypeKeys.DESCRIPTION: "None", ogn.NodeTypeKeys.VERSION: 1, ogn.NodeTypeKeys.EXCLUDE: self.__exclusions or [], ogn.NodeTypeKeys.LANGUAGE: ogn.LanguageTypeValues.PYTHON, ogn.NodeTypeKeys.INPUTS: { "hot": {"type": "bool", "description": "Additional attribute added for hot reload"} }, } for class_name in self.__ogn_files } ogi.LOG.info("Updated ogn definition(s) in %s", self.__ogn_files) for class_name, ogn_path in self.__ogn_files.items(): ogn_path = CreateHelper.safe_create( self.__module_path / "ogn" / "nodes", class_name, ogi.FileType.OGN, json.dumps({class_name: ogn_definitions[class_name]}), ) self.__ogn_files[class_name] = ogn_path ogi.LOG.info("!!! Attribute added from hot reload") # -------------------------------------------------------------------------------------------------------------- def add_extra_import(self, directory_name: str, file_name: str, object_to_define: str) -> Path: """Add a new file under the ogn/ directory that acts as a proxy for an import that results from the links that the LUA function add_ogn_subdirectory() adds. Returns the path to the newly created file. """ return CreateHelper.safe_create( # self.__module_path / "ogn" / directory_name / file_name, self.__module_path / "ogn" / file_name, None, None, f"{object_to_define} = True\n", ) # -------------------------------------------------------------------------------------------------------------- async def enable(self): """Make the constructed extension visible to the extension manager, if it hasn't yet been, and enable it""" ogi.LOG.info("Enabling extension %s at %s", self.__ext_name, self.__ext_path) manager = omni.kit.app.get_app().get_extension_manager() # Remove and add back to ensure that the path is scanned for the new content manager.remove_path(str(self.__root)) manager.add_path(str(self.__root), omni.ext.ExtensionPathType.COLLECTION_USER) # This sync is to get the manager to refresh its paths await omni.kit.app.get_app().next_update_async() manager.set_extension_enabled(self.__ext_name, True) self.PATHS_ADDED[self.__root] += 1 # This sync is to allow time for executing the extension enabled hooks await omni.kit.app.get_app().next_update_async() # -------------------------------------------------------------------------------------------------------------- async def disable(self): """Disable the constructed extension, if enabled and decrement the accesses to its path""" ogi.LOG.info("Disabling extension %s", self.__ext_name) manager = omni.kit.app.get_app().get_extension_manager() # If this was the last extension to need the path then remove it from the manager's path. Either way the # path is removed first to force the path to be scanned for the remaining content. manager.set_extension_enabled(self.__ext_name, False) # This sync is to ensure the extension is disabled before removing its path await omni.kit.app.get_app().next_update_async() manager.remove_path(str(self.__root)) self.PATHS_ADDED[self.__root] -= 1 # If some other creator exists in the same path then bring the path back for continued use if self.PATHS_ADDED[self.__root] > 0: manager.add_path(str(self.__root), omni.ext.ExtensionPathType.COLLECTION_USER) # This sync is to get the manager to executing the extension disabled hooks and refresh the paths await omni.kit.app.get_app().next_update_async()

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_api.py

"""Testing the stability of the API in this module""" import omni.graph.core as og import omni.graph.core._impl.commands as ogc import omni.graph.core.autonode as autonode import omni.graph.core.typing as ogty import omni.kit from omni.graph.tools.tests.internal_utils import _check_module_api_consistency, _check_public_api_contents # ====================================================================== class _TestOmniGraphApi(omni.kit.test.AsyncTestCase): _UNPUBLISHED = ["bindings", "tests", "omni", "commands"] async def test_api(self): _check_module_api_consistency(og.tests, [], is_test_module=True) # noqa: PLW0212 _check_module_api_consistency(autonode) # noqa: PLW0212 _check_module_api_consistency(ogty) # noqa: PLW0212 _check_module_api_consistency(ogc, ogc._HIDDEN) # noqa: PLW0212 # Since the og module also contains all of the previously exposed objects for backward compatibility, they # have to be added to the list of unpublished elements here as they, rightly, do not appear in __all__ all_unpublished = ( self._UNPUBLISHED + og._HIDDEN # noqa: PLW0212 + ogc._HIDDEN # noqa: PLW0212 + [module_object for module_object in dir(autonode) if not module_object.startswith("_")] + [module_object for module_object in dir(ogty) if not module_object.startswith("_")] ) _check_module_api_consistency(og, all_unpublished) # noqa: PLW0212 async def test_api_features(self): """Test that the known public API features continue to exist""" _check_public_api_contents( og, [ # noqa: PLW0212 "attribute_value_as_usd", "AttributeDataValueHelper", "AttributeValueHelper", "autonode", "Bundle", "BundleContainer", "BundleContents", "cmds", "Controller", "data_shape_from_type", "Database", "DataView", "DataWrapper", "Device", "Dtype", "DynamicAttributeAccess", "DynamicAttributeInterface", "ExtensionInformation", "get_global_orchestration_graphs", "get_graph_settings", "get_port_type_namespace", "GraphController", "GraphSettings", "in_compute", "is_attribute_plain_data", "is_in_compute", "MetadataKeys", "NodeController", "ObjectLookup", "OmniGraphError", "OmniGraphInspector", "OmniGraphValueError", "PerNodeKeys", "python_value_as_usd", "ReadOnlyError", "resolve_base_coupled", "resolve_fully_coupled", "RuntimeAttribute", "Settings", "ThreadsafetyTestUtils", "TypedValue", "typing", "WrappedArrayType", ], self._UNPUBLISHED, only_expected_allowed=False, )

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114

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/__init__.py

""" Imports from the test module are only recommended for use in OmniGraph tests. To get documentation on this module and methods import this file into a Python interpreter and run dir/help, like this: .. code-block:: python import omni.graph.core.tests as ogts dir(ogts) help(ogts.load_test_file) """ # fmt: off # isort: off # Exported interface for testing utilities that are of general use. # (Others exist but are legacy or specific to one use only and imported directly) from ._unittest_support import construct_test_class from ._unittest_support import OmniGraphTestConfiguration from .omnigraph_test_utils import OmniGraphTestCase from .omnigraph_test_utils import OmniGraphTestCaseNoClear from .omnigraph_test_utils import SettingContext from .omnigraph_test_utils import TestContextManager from .expected_error import ExpectedError from .omnigraph_test_utils import create_cone from .omnigraph_test_utils import create_cube from .omnigraph_test_utils import create_grid_mesh from .omnigraph_test_utils import create_input_and_output_grid_meshes from .omnigraph_test_utils import create_sphere from .omnigraph_test_utils import DataTypeHelper from .omnigraph_test_utils import dump_graph from .omnigraph_test_utils import insert_sublayer from .omnigraph_test_utils import load_test_file from .omnigraph_test_utils import test_case_class from .omnigraph_test_utils import verify_connections from .omnigraph_test_utils import verify_node_existence from .omnigraph_test_utils import verify_values from .validation import validate_abi_interface scan_for_test_modules = True """The presence of this object causes the test runner to automatically scan the directory for unit test cases""" # ============================================================================================================== # _____ ______ _____ _____ ______ _____ _______ ______ _____ # | __ \ | ____|| __ \ | __ \ | ____|/ ____| /\ |__ __|| ____|| __ \ # | | | || |__ | |__) || |__) || |__ | | / \ | | | |__ | | | | # | | | || __| | ___/ | _ / | __| | | / /\ \ | | | __| | | | | # | |__| || |____ | | | | \ \ | |____| |____ / ____ \ | | | |____ | |__| | # |_____/ |______||_| |_| \_\|______|\_____|/_/ \_\|_| |______||_____/ # # isort: on # fmt: on

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_dirty_id.py

import omni.graph.core as og import omni.graph.core.tests as ogt class BundleTestSetup(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.dirty = og._og_unstable.IDirtyID2.create(self.context) # noqa: PLW0212 self.assertTrue(self.dirty is not None) # bundle paths self.bundle2Name = "bundle2" self.bundle3Name = "bundle3" self.attr1Name = "attr1" self.attr1Type = og.Type(og.BaseDataType.INT) self.attr2Name = "attr2" self.attr2Type = og.Type(og.BaseDataType.FLOAT) self.attr3Name = "attr3" self.attr3Type = og.Type(og.BaseDataType.INT, 1, 1) self.attr4Name = "attr4" self.attr4Type = og.Type(og.BaseDataType.INT, 2, 0) class TestBundleDirtyID(BundleTestSetup): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() async def test_create_bundle(self): bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.dirty.setup(bundle1, True) self.dirty.setup(bundle2, True) ids = self.dirty.get([bundle1, bundle2]) self.assertTrue(self.dirty.is_valid(ids[0])) self.assertTrue(self.dirty.is_valid(ids[1])) self.assertNotEqual(ids[0], ids[1]) async def test_create_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) ids0 = self.dirty.get([bundle]) bundle.create_attribute(self.attr1Name, self.attr1Type) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_create_child_bundle(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.create_child_bundle(self.bundle2Name) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_remove_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.remove_attribute(self.attr1Name) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_remove_child_bundles(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) bundle2 = bundle.create_child_bundle("child") ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.remove_child_bundle(bundle2) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_clear_contents(self): """Test if clearing bundle results with new dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.clear_contents() ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_copy_attribute(self): bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.dirty.setup(bundle1, True) self.dirty.setup(bundle2, True) attr1 = bundle1.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([bundle2]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle2.copy_attribute(attr1) ids1 = self.dirty.get([bundle2]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_copy_child_bundle(self): """Test if CoW reference is resolved.""" bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.dirty.setup(bundle1, True) self.dirty.setup(bundle2, True) ids0 = self.dirty.get([bundle1]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle1.copy_child_bundle(self.bundle2Name, bundle2) ids1 = self.dirty.get([bundle1]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_copy_bundle(self): """Copying bundle creates a shallow copy - a reference. To obtain the dirty id the reference needs to be resolved""" bundle1 = self.factory.create_bundle(self.context, "bundle1") bundle2 = self.factory.create_bundle(self.context, "bundle2") self.dirty.setup(bundle1, True) self.dirty.setup(bundle2, True) ids0 = self.dirty.get([bundle1, bundle2]) self.assertNotEqual(ids0[0], ids0[1]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) bundle2.copy_bundle(bundle1) ids1 = self.dirty.get([bundle1, bundle2]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertEqual(ids1[0], ids1[1]) async def test_get_attribute_by_name(self): """Getting writable attribute data handle does not change dirty id. Only writing to an attribute triggers id to be changed.""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.get_attribute_by_name(self.attr1Name) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_child_bundle_by_name(self): """Getting writable bundle handle does not change dirty id. Only creating/removing attributes and children triggers id to be changed.""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) bundle.create_child_bundle(self.bundle2Name) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) bundle.get_child_bundle_by_name(self.bundle2Name) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_simple_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr1Name, self.attr1Type) attr.set(42) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get(), 42) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_array_attribute_data(self): """Getting array attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) attr.set([42]) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get()[0], 42) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def _get_array_rw_attribute_data(self, on_gpu): """Getting array attribute data for read-write""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) attr.set([42]) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) # no bump attr.as_read_only().get_array(on_gpu=on_gpu, get_for_write=False, reserved_element_count=1) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) # bump attr.get_array(on_gpu=on_gpu, get_for_write=True, reserved_element_count=1) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_get_array_attribute_data_cpu(self): await self._get_array_rw_attribute_data(False) async def test_get_array_attribute_data_gpu(self): await self._get_array_rw_attribute_data(True) async def test_resize_array_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) # no bump attr.size() ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) # bump attr.resize(10) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_get_tuple_attribute_data(self): """Getting array attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr4Name, self.attr4Type) attr.set([42, 24]) ids0 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get()[0], 42) self.assertEqual(attr.as_read_only().get()[1], 24) ids1 = self.dirty.get([bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_change_child_and_propagate_changes_to_parent(self): r""" bundle1 \_ child0 \_ child1 \_ child2 <-- create attribute Will propagate dirty id changes up to `bundle1` (child2 -> child1 -> child0 -> bundle1) """ bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) child0 = bundle.create_child_bundle("child0") child1 = child0.create_child_bundle("child1") child2 = child1.create_child_bundle("child2") ids0 = self.dirty.get([bundle, child0, child1]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) self.assertTrue(self.dirty.is_valid(ids0[2])) # creating attribute automatically bumps parent ids child2.create_attribute(self.attr1Name, self.attr1Type) ids1 = self.dirty.get([bundle, child0, child1]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertTrue(self.dirty.is_valid(ids1[2])) self.assertNotEqual(ids0[0], ids1[0]) self.assertNotEqual(ids0[1], ids1[1]) self.assertNotEqual(ids0[2], ids1[2]) class TestAttributeDirtyID(BundleTestSetup): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() async def test_create_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr1 = bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([attr1]) self.assertTrue(self.dirty.is_valid(ids0[0])) attr2 = bundle.create_attribute(self.attr2Name, self.attr2Type) ids1 = self.dirty.get([attr2]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_create_same_attribute(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr1 = bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([attr1]) self.assertTrue(self.dirty.is_valid(ids0[0])) attr2 = bundle.create_attribute(self.attr1Name, self.attr1Type) ids1 = self.dirty.get([attr2]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_create_same_attribute_new_size(self): bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) n = "attr" t = og.Type(og.BaseDataType.INT, 1, 1) attr = bundle.create_attribute(n, t, 100) ids0 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids0[0])) # same size does not bump dirty ids attr = bundle.create_attribute(n, t, 100) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) # new size bumps dirty ids attr = bundle.create_attribute(n, t, 10) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertNotEqual(ids0[0], ids1[0]) async def test_get_simple_attribute_data(self): """Getting simple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr1Name, self.attr1Type) attr.set(42) ids0 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get(), 42) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_array_attribute_data(self): """Getting array attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) attr.set([42]) ids0 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get()[0], 42) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_get_tuple_attribute_data(self): """Getting tuple attribute data should not change dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr4Name, self.attr4Type) attr.set([42, 24]) ids0 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertEqual(attr.as_read_only().get()[0], 42) self.assertEqual(attr.as_read_only().get()[1], 24) ids1 = self.dirty.get([attr]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertEqual(ids0[0], ids1[0]) async def test_set_simple_attribute_data(self): """Setting simple attribute data changes dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr1Name, self.attr1Type) ids0 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) attr.set(42) ids1 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertNotEqual(ids0[0], ids1[0]) self.assertNotEqual(ids0[1], ids1[1]) async def test_set_array_attribute_data(self): """Setting array attribute data changes dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr3Name, self.attr3Type) ids0 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) attr.set([42]) ids1 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertNotEqual(ids0[0], ids1[0]) self.assertNotEqual(ids0[1], ids1[1]) async def test_set_tuple_attribute_data(self): """Setting tuple attribute data changes dirty id""" bundle = self.factory.create_bundle(self.context, "bundle") self.dirty.setup(bundle, True) attr = bundle.create_attribute(self.attr4Name, self.attr4Type) ids0 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids0[0])) self.assertTrue(self.dirty.is_valid(ids0[1])) attr.set([42, 24]) ids1 = self.dirty.get([attr, bundle]) self.assertTrue(self.dirty.is_valid(ids1[0])) self.assertTrue(self.dirty.is_valid(ids1[1])) self.assertNotEqual(ids0[0], ids1[0]) self.assertNotEqual(ids0[1], ids1[1])

18,506

Python

38.62955

99

0.635199

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_unittest_support.py

"""Tests that exercise the capabilities provided for OmniGraph unit testing""" from contextlib import asynccontextmanager, contextmanager import carb import omni.graph.core.tests as ogts import omni.graph.tools as ogt import omni.kit.test import omni.usd # Name of a fake setting that will be used for testing TEST_SETTING = "/not/a/setting" # ============================================================================================================== class TestOmniGraphTestFeatures(omni.kit.test.AsyncTestCase): """Run targeted tests on the test helper functions and classes directly, not as part of the test definition""" async def test_configuration_class(self): """Tests the functionality of customized OmniGraphTestConfiguration objects""" settings = carb.settings.get_settings() with ogts.OmniGraphTestConfiguration(settings={TEST_SETTING: True}): self.assertEqual(settings.get(TEST_SETTING), True) self.assertEqual(settings.get(TEST_SETTING), None) # -------------------------------------------------------------------------------------------------------------- CONTEXT_FLAG = 0 async def test_custom_contexts(self): """Tests the functionality of providing my own custom contexts via the contextmanager decorator""" @contextmanager def context_add_1(): TestOmniGraphTestFeatures.CONTEXT_FLAG = TestOmniGraphTestFeatures.CONTEXT_FLAG + 1 try: yield True finally: TestOmniGraphTestFeatures.CONTEXT_FLAG = TestOmniGraphTestFeatures.CONTEXT_FLAG - 1 @asynccontextmanager async def async_context_add_10(): TestOmniGraphTestFeatures.CONTEXT_FLAG = TestOmniGraphTestFeatures.CONTEXT_FLAG + 10 try: yield True finally: TestOmniGraphTestFeatures.CONTEXT_FLAG = TestOmniGraphTestFeatures.CONTEXT_FLAG - 10 my_configuration = ogts.OmniGraphTestConfiguration( contexts=[context_add_1], async_contexts=[async_context_add_10] ) self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 0) with my_configuration: self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 1) self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 0) async with my_configuration: self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 11) self.assertEqual(TestOmniGraphTestFeatures.CONTEXT_FLAG, 0) # -------------------------------------------------------------------------------------------------------------- async def test_construct_test_class(self): """Tests the ability to create a base class using the construct_test_class() function""" # Test the deprecated keyword message = "I am deprecated" deprecated_class = ogts.construct_test_class(deprecated=message) self.assertTrue(omni.kit.test.AsyncTestCase in deprecated_class.__bases__) with ogt.DeprecateMessage.NoLogging(): instance = deprecated_class() await instance.setUp() messages_logged = ogt.DeprecateMessage.messages_logged() self.assertTrue(message in messages_logged, f"'{message}' not in {messages_logged}") # Test the base_class keyword class BaseTestClass(omni.kit.test.AsyncTestCase): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.i_exist = True derived_class = ogts.construct_test_class(base_class=BaseTestClass) instance = derived_class() self.assertTrue(hasattr(instance, "i_exist") and instance.i_exist, f"No 'i_exist' in {dir(instance)}") self.assertTrue(isinstance(instance, BaseTestClass)) # Test the configure keyword configuration = ogts.OmniGraphTestConfiguration(settings={TEST_SETTING: True}) configured_class = ogts.construct_test_class(configuration=configuration) instance = configured_class() self.assertEqual(type(configuration), type(instance._OmniGraphCustomTestCase__configuration)) # noqa PLW0212 with self.assertRaises(TypeError): _ = ogts.construct_test_class(configuration=3) # Test the extensions_enabled keyword test_extension = "omni.graph.scriptnode" manager = omni.kit.app.get_app().get_extension_manager() was_enabled = manager.is_extension_enabled(test_extension) manager.set_extension_enabled_immediate(test_extension, False) configuration = ogts.OmniGraphTestConfiguration(extensions_enabled=[test_extension]) with configuration: self.assertTrue(manager.is_extension_enabled(test_extension)) manager.set_extension_enabled_immediate(test_extension, was_enabled) # Test the extensions_disabled keyword manager.set_extension_enabled_immediate(test_extension, True) configuration = ogts.OmniGraphTestConfiguration(extensions_disabled=[test_extension]) with configuration: self.assertFalse(manager.is_extension_enabled(test_extension)) manager.set_extension_enabled_immediate(test_extension, was_enabled) # ============================================================================================================== class TestStandardConfiguration(ogts.OmniGraphTestCase): """Run tests using the standard OmniGraph test configuration""" async def setUp(self): await super().setUp() async def tearDown(self): await super().tearDown() async def test_settings(self): """Test that the standard settings are applied by the test case""" # ============================================================================================================== class TestCustomSetUp(omni.kit.test.AsyncTestCase): """Run tests using an OmniGraphTestConfiguration customization using the Kit base class""" async def test_configuration(self): with ogts.OmniGraphTestConfiguration(settings={TEST_SETTING: True}): self.assertTrue(carb.settings.get_settings().get(TEST_SETTING)) # ============================================================================================================== MyTestClass = ogts.construct_test_class(settings={TEST_SETTING: True}) class TestManualConfiguration(MyTestClass): """Run tests using a custom created base test class""" async def test_constructed_base_class(self): self.assertTrue(carb.settings.get_settings().get(TEST_SETTING)) # ============================================================================================================== class TestCustomBaseClass(MyTestClass): """Run tests using a custom created base test class derived from another custom base class""" async def test_constructed_derived_class(self): with self.assertRaises(TypeError): MyDerivedTestClass = ogts.construct_test_class(base_class=MyTestClass) # noqa F841 # ============================================================================================================== class TestOverrideSetUp(ogts.OmniGraphTestCase): """Run tests using a customization that is based on the standard configuration""" async def test_configuration(self): with ogts.OmniGraphTestConfiguration(settings={TEST_SETTING: True}): self.assertTrue(carb.settings.get_settings().get(TEST_SETTING))

7,480

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45.465838

117

0.61484

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/_unittest_support.py

"""Support for creating unittest style test cases that use OmniGraph components. Note the leading underscore in the file name, indicating that it should not be imported directly. Instead use this: .. code-block:: python import omni.graph.core.tests as ogts There are three primary workflows for setting up unit test case classes that manage OmniGraph state. If your test case uses OmniGraph and just wants a standard configuration while running then you can use the predefined test case base class :py:class:`omni.graph.core.tests.OmniGraphTestCase`. .. code-block:: python import omni.graph.core.tests as ogts class TestMyStuff(ogts.OmniGraphTestCase): async def test_my_stuff(self): pass # My stuff always works If instead you wish to make use of only a subset of the various OmniGraph configuration values or use your own test base class then you can use :py:class:`omni.graph.core.tests.OmniGraphTestConfiguration` to build up a set of temporary conditions in force while the test runs, such as using an empty scene, defining settings, etc. .. code-block:: python import omni.graph.core.tests as ogts class TestMyStuff(omni.kit.test.AsyncTestCase): async def test_my_stuff(self): with ogts.OmniGraphTestConfiguration(clear_on_start=False): pass # My stuff always works You can also use the test case class constructor to define your own base class that can be used in multiple locations: .. code-block:: python import omni.graph.core.tests as ogts MyDebugTestClass = ogts.test_case_class(clear_on_finish=False, clear_on_start=False) class TestMyStuff(MyDebugTestClass): async def test_my_stuff(self): pass # My stuff always works """ from __future__ import annotations import asyncio import inspect from contextlib import AsyncExitStack, ExitStack, asynccontextmanager, contextmanager import omni.graph.core as og import omni.graph.tools as ogt import omni.kit import omni.usd # ============================================================================================================== class OmniGraphTestConfiguration: """Class to manage testing configuration parameters as a context manager that brackets a test run. You can either use it around a single test to modify configuration for just that test: .. code-block:: python import omni.graph.core.tests as ogts class TestRun(ogts.OmniGraphTestCase): '''By default the tests in this class will clear the scene on start and finish of the test''' async def test_without_clearing(self): async with ogts.OmniGraphTestConfiguration(clear_on_start=False): run_my_test() # Before this particular test the scene will not be cleared before starting See :py:func:`construct_test_class` for a way of applying it to every test in the test case. .. code-block:: python class TestRun(ogts.construct_test_class(clear_on_start=True)): async def test_without_clearing(self): run_my_test() If you can't change your base class you can still use it by adding it to the test case setUp/tearDown .. code-block:: python class TestRun(omni.kit.test.AsyncTestCase): async def setUp(self): self.configuration = ogts.OmniGraphTestConfiguration(clear_on_start=True) await self.configuration.__enter__() async def tearDown(self): await self.configuration.__exit__() async def test_without_clearing(self): run_my_test() It also has the ability to include user-defined contexts as part of the test configuration, which will be unwound in the order added using the standard *contextlib.{A}ExitStack()* functionality. .. code-block:: python @contextmanager def my_context(): resource = acquire_my_resource() try: yield 1 finally: release_my_resource(resource) @asynccontextmanager async def my_async_context(): resource = await acquire_my_async_resource() try: yield 1 finally: await release_my_async_resource(resource) my_configuration = OmniGraphTestConfiguration(contexts=[my_context], async_contexts=[my_async_context]) MyCustomClass = ogts.construct_test_class(configuration=my_configuration) class TestRun(MyCustomClass): async def test_without_clearing(self): run_my_test() """ def __init__(self, **kwargs): """Construct the stack objects that will hold the test contexts Args: clear_on_start (bool=False): Clear the scene before the test starts clear_on_finish (bool=False): Clear the scene after the test ends settings (dict=None): Dictionary of settingName:value to set while the test runs and restore after contexts (list=None): List of contextmanager functions or decorated classes to wrap the test runs async_contexts (list=None): List of asynccontextmanager functions or decorated classes to wrap the test runs extensions_enabled (list=None): List of the names of extensions to temporarily enable for the test extensions_disabled (list=None): List of the names of extensions to temporarily disable for the test Note: Be careful when using the extensions_{en,dis}abled options to ensure that you do not inadvertently force a hot reload of the extension containing the test. """ self.stack = ExitStack() self.async_stack = AsyncExitStack() self.__kwargs = dict(kwargs) # -------------------------------------------------------------------------------------------------------------- def __set_up_stack(self): """Define the parts of the ExitStack requested by the current keyword args""" @contextmanager def __enable_extensions(extensions: list[str]): manager = omni.kit.app.get_app().get_extension_manager() try: for name in extensions: manager.set_extension_enabled_immediate(name, True) yield True finally: pass @contextmanager def __disable_extensions(extensions: list[str]): manager = omni.kit.app.get_app().get_extension_manager() try: for name in extensions: manager.set_extension_enabled_immediate(name, False) yield True finally: pass for key, value in self.__kwargs.items(): if key == "settings": for setting, temporary_value in value.items(): self.stack.enter_context(og.Settings.temporary(setting, temporary_value)) elif key == "extensions_enabled": self.stack.enter_context(__enable_extensions(value)) elif key == "extensions_disabled": self.stack.enter_context(__disable_extensions(value)) elif key == "contexts": if not isinstance(value, list): value = [value] for context in value: self.stack.enter_context(context()) # -------------------------------------------------------------------------------------------------------------- async def __set_up_async_stack(self): """Define the parts of the AsyncExitStack requested by the current keyword args""" @asynccontextmanager async def __clear_scene_on_enter(): try: yield await omni.usd.get_context().new_stage_async() finally: pass @asynccontextmanager async def __clear_scene_on_exit(): try: yield None finally: await omni.usd.get_context().new_stage_async() for key, value in self.__kwargs.items(): if key == "clear_on_start" and value: await self.async_stack.enter_async_context(__clear_scene_on_enter()) if key == "clear_on_finish" and value: await self.async_stack.enter_async_context(__clear_scene_on_exit()) if key == "async_contexts": if not isinstance(value, list): value = [value] for context in value: await self.async_stack.enter_async_context(context()) # -------------------------------------------------------------------------------------------------------------- def __enter__(self): """When used as a context manager this class calls this at the start of a 'with' clause""" self.__set_up_stack() asyncio.ensure_future(self.__set_up_async_stack()) self.stack.__enter__() asyncio.ensure_future(self.async_stack.__aenter__()) def __exit__(self, exc_type=None, exc_value=None, exc_tb=None): """When used as a context manager this class calls this at the end of a 'with' clause""" self.stack.__exit__(exc_type, exc_value, exc_tb) asyncio.ensure_future(self.async_stack.__aexit__(exc_type, exc_value, exc_tb)) # -------------------------------------------------------------------------------------------------------------- async def __aenter__(self): """When used as an async context manager this class calls this at the start of a 'with' clause""" self.__set_up_stack() await self.__set_up_async_stack() self.stack.__enter__() await self.async_stack.__aenter__() async def __aexit__(self, exc_type=None, exc_value=None, exc_tb=None): """When used as an async context manager this class calls this at the end of a 'with' clause""" self.stack.__exit__(exc_type, exc_value, exc_tb) await self.async_stack.__aexit__(exc_type, exc_value, exc_tb) # ============================================================================================================== def construct_test_class(**kwargs): """Construct a new test case base class that configures the test in a predictable way. You can use the same parameters as :py:class:`OmniGraphTestConfiguration` to configure your test class, or you can construct one and pass it in as an argument Args: configuration (OmniGraphTestConfiguration): Full configuration definition deprecated (str | tuple[str, DeprecationLevel]): Used when this instantiation of the class has been deprecated base_class (object): Alternative base class for the test case, defaults to omni.kit.test.AsyncTestCase Other arguments can be seen in the parameters to :py:func:`OmniGraphTestConfiguration.setUp` Raises: TypeError if a base class was specified that is also a constructed class """ # Check to see if an alternative base class was passed in base_class = kwargs.get("base_class", omni.kit.test.AsyncTestCase) # Issue the deprecation message if specified, but continue on deprecation = kwargs.get("deprecated", None) try: configuration = kwargs["configuration"] if not isinstance(configuration, OmniGraphTestConfiguration): raise TypeError(f"configuration only accepts type OmniGraphTestConfiguration, not {type(configuration)}") except KeyError: configuration = OmniGraphTestConfiguration(**kwargs) # -------------------------------------------------------------------------------------------------------------- # Construct the customized test case base class object using the temporary setting and base class information class OmniGraphCustomTestCase(base_class): """A custom constructed test case base class that performs the prescribed setUp and tearDown actions.""" def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.__configuration = configuration self.__deprecation = deprecation async def setUp(self): """Set up the test by saving and then setting up all of the action contexts""" # Start with no test failures registered og.set_test_failure(False) if inspect.iscoroutinefunction(super().setUp): await super().setUp() else: super().setUp() if self.__deprecation is not None: if isinstance(self.__deprecation, tuple): if len(self.__deprecation) != 2: raise ValueError( "deprecation argument can only be a message or (message, level) pair" f" - saw {self.__deprecation}" ) ogt.DeprecateMessage.deprecated(self.__deprecation[0], self.__deprecation[1]) else: ogt.DeprecateMessage.deprecated(self.__deprecation) await self.__configuration.__aenter__() # noqa PLC2801 async def tearDown(self): """Complete the test by tearing down all of the action contexts""" await self.__configuration.__aexit__() if inspect.iscoroutinefunction(super().setUp): await super().tearDown() else: super().tearDown() # Recursive class definition is more complicated and can be done other ways if base_class.__name__ == "OmniGraphCustomTestCase": raise TypeError( "Recursive class definition is not supported (construct_test_class(base_class=construct_test_class(...)))" ) # Return the constructed class definition return OmniGraphCustomTestCase

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Python

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120

0.596974

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_node_type_forwarding.py

"""Tests that exercise the INodeTypeForwarding interface""" import omni.graph.core._unstable as ogu import omni.graph.core.tests as ogts import omni.kit.test import omni.usd # ============================================================================================================== class TestNodeTypeForwarding(omni.kit.test.AsyncTestCase): async def test_bindings(self): """Tests that the bindings for the ABI operate as expected""" interface_class = ogu.INodeTypeForwarding ogts.validate_abi_interface( interface_class, instance_methods=[ "define_forward", "remove_forward", "remove_forwarded_type", ], static_methods=[ "find_forward", "get_forwarding", ], properties=["forward_count"], ) get_interface = ogu.get_node_type_forwarding_interface self.assertIsNotNone(get_interface) interface = get_interface() self.assertIsNotNone(interface) self.assertTrue(isinstance(interface, ogu.INodeTypeForwarding)) try: # Try defining a simple forward original_forwarding = interface.forward_count replacement = ("ReplacementNodeType", 1, "omni.test.extension") original = ("ForwardedNodeType", 2) self.assertTrue(interface.define_forward(*original, *replacement)) self.assertEqual(original_forwarding + 1, interface.forward_count) all_forwarding = interface.get_forwarding() self.assertEqual(all_forwarding[original], replacement) found_forward = interface.find_forward(*original) self.assertEqual(found_forward, replacement) # Define a second forward secondary_replacement = ("SecondNodeType", 4, "omni.test.extension") secondary = ("SomeOtherNodeType", 2) self.assertTrue(interface.define_forward(*secondary, *secondary_replacement)) self.assertEqual(original_forwarding + 2, interface.forward_count) all_forwarding = interface.get_forwarding() self.assertEqual(all_forwarding[original], replacement) self.assertEqual(all_forwarding[secondary], secondary_replacement) # Define a chained forward ("ChainedNodeType", 1) -> ("ReplacementNodeType", 1) -> ("ForwardedNodeType", 2) chained_replacement = ("ChainedNodeType", 1, "omni.test.extension") chained = (replacement[0], replacement[1]) self.assertTrue(interface.define_forward(*chained, *chained_replacement)) found_forward = interface.find_forward(*chained) self.assertEqual(found_forward, chained_replacement) found_forward = interface.find_forward(*original) self.assertEqual(found_forward, chained_replacement) # Define a few forwarding for the same node type at different versions # ("ReplacementNodeType", 1) -> ("ForwardedNodeType", 2, "omni.test.extension") # ("ReplacementNodeType", 3) -> ("BetterNodeType", 1, "omni.borg.extension") # ("ReplacementNodeType", 7) -> ("SecondaryNodeType", 4, "omni.test.extension") better_replacement = ("BetterNodeType", 4, "omni.borg.extension") latest_forward = (replacement[0], replacement[1] + 2) self.assertTrue(interface.define_forward(*latest_forward, *better_replacement)) prototype_forward = (replacement[0], replacement[1] + 6) self.assertTrue(interface.define_forward(*prototype_forward, *secondary_replacement)) # What the "replacement" forward is expected to map to for the version equal to the index of the list... expected_versions = [ chained_replacement, chained_replacement, better_replacement, better_replacement, better_replacement, better_replacement, secondary_replacement, secondary_replacement, secondary_replacement, ] for index, version_to_test in enumerate(expected_versions): self.assertEqual( version_to_test, interface.find_forward(replacement[0], index + 1), f"Checking {replacement[0]}-{index + 1} maps to {version_to_test}", ) # Ensure that attempting to look up a version earlier than the first forward returns nothing early_version = (replacement[0], 0) with self.assertRaises(ValueError): interface.find_forward(*early_version) # Attempt to define a circular forward, which should not be allowed circular = (chained_replacement[0], chained_replacement[1]) with ogts.ExpectedError(): self.assertFalse(interface.define_forward(*circular, *chained_replacement)) # Attempt to define a multiple-step circular forward, which should not be allowed # ("ChainedNodeType", 1) -> ("ReplacementNodeType", 1) -> ("ForwardedNodeType", 2) -> ("ChainedNodeType", 1) with ogts.ExpectedError(): self.assertFalse(interface.define_forward(*chained, original[0], original[1], "omni.test.extension")) # Attempt to redefine the same forward, which should not be allowed with ogts.ExpectedError(): self.assertFalse(interface.define_forward(*chained, *chained_replacement)) finally: # Remove all of the forwarding, in reverse order so that earlier failures clean up after themselves self.assertTrue(interface.remove_forward(*prototype_forward)) self.assertTrue(interface.remove_forward(*latest_forward)) self.assertTrue(interface.remove_forward(*chained)) self.assertTrue(interface.remove_forward(*secondary)) self.assertTrue(interface.remove_forward(*original)) self.assertEqual(original_forwarding, interface.forward_count)

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120

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_extension_unloads.py

""" Tests related to omnigraph state/api when extensions get unloaded. """ from contextlib import suppress import carb import omni.graph.core as og import omni.graph.core.tests as ogt import omni.kit.app import omni.kit.commands import omni.kit.test import omni.usd # ====================================================================== class TestExtensionUnloads(ogt.OmniGraphTestCase): # ----------------------------------------------------------------------- async def test_nodetype_when_extension_unloads(self): """Tests that nodes lose their node type when their extension unloads""" node_type = "omni.graph.examples.cpp.Simple" examples_cpp_extension = "omni.graph.examples.cpp" manager = omni.kit.app.get_app_interface().get_extension_manager() # If the extension is not found then the test cannot run examples_cpp_extension_id = None with suppress(Exception): examples_cpp_extension_id = manager.get_extension_id_by_module(examples_cpp_extension) if not examples_cpp_extension_id: carb.log_warn( f"test_nodetype_when_extension_unloads cannot run since {examples_cpp_extension} was not found" ) return examples_cpp_enabled = manager.is_extension_enabled(examples_cpp_extension) try: manager.set_extension_enabled_immediate(examples_cpp_extension, True) # create a graph with a node from the extension keys = og.Controller.Keys controller1 = og.Controller() (_, nodes, _, _) = controller1.edit( "/World/Graph", { keys.CREATE_NODES: [ ("Node", node_type), ], }, ) self.assertTrue(nodes[0].get_node_type().is_valid()) self.assertEquals(nodes[0].get_node_type().get_node_type(), node_type) # disable the extension, and validate the node type changes to a default type # the type is still valid, but is a default type manager.set_extension_enabled_immediate(examples_cpp_extension, False) self.assertTrue(nodes[0].get_node_type().is_valid()) self.assertEquals(nodes[0].get_node_type().get_node_type(), None) # re-enable the extension and validate the node type is restored manager.set_extension_enabled_immediate(examples_cpp_extension, True) self.assertTrue(nodes[0].get_node_type().is_valid()) self.assertEquals(nodes[0].get_node_type().get_node_type(), node_type) finally: manager.set_extension_enabled_immediate(examples_cpp_extension, examples_cpp_enabled)

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/expected_error.py

# -------------------------------------------------------------------------------------------------------------- class ExpectedError: """ Helper class used to prefix any pending error messages with [Expected Error] stdoutFailPatterns.exclude (defined in extension.toml) will cause these errors to be ignored when running tests. Note that it will prepend only the first error. Usage: with ExpectedError(): function_that_produced_error_output() """ def __enter__(self): # Preflush any output, otherwise it may be appended to the next statement. print("", flush=True) # Output the prefix string without a newline so that the error to be ignored will appear on # the same line. We do NOT want to flush this because that could allow output from another thread # to appear between the prefix and the error message. print("[Ignore this error/warning] ", end="", flush=False) def __exit__(self, exit_type, value, traceback): # Print a newline, to avoid actual errors being ignored. print("", flush=True)

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_hierarchy.py

import omni.graph.core as og import omni.graph.core.tests as ogt class BundleTestSetup(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) # bundle paths self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" self.bundle3Name = "bundle3" self.bundle4Name = "bundle4" # attribute names self.attr1Name = "attr1" self.attr2Name = "attr2" # attribute types self.attr1Type = og.Type(og.BaseDataType.INT) self.attr2Type = og.Type(og.BaseDataType.FLOAT) self.bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.bundle1.valid) # ------------------------------------------------------------------ # # FOLLOWING TESTS ARE IMPLEMENTATION DETAILS AND MUST NOT BE USED! # # ------------------------------------------------------------------ # class TestBundleHierarchyCleanup(BundleTestSetup): """This tests exercises cleanup of internals of the bundles.""" async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() def test_recursive_child_bundle_removal(self): # create hierarchy of bundles b0 = self.bundle1 b1 = b0.create_child_bundle(self.bundle2Name) b2 = b1.create_child_bundle(self.bundle3Name) self.assertTrue(b0) self.assertTrue(b1) self.assertTrue(b2) p0 = f"{self.bundle1Name}" p1 = f"{self.bundle1Name}/{self.bundle2Name}" p2 = f"{self.bundle1Name}/{self.bundle2Name}/{self.bundle3Name}" self.assertTrue(self.factory.get_const_bundle_from_path(self.context, p0)) self.assertTrue(self.factory.get_const_bundle_from_path(self.context, p1)) self.assertTrue(self.factory.get_const_bundle_from_path(self.context, p2)) b0.clear_contents() # p0 is not removed, only the descendants will be gone self.assertTrue(self.factory.get_const_bundle_from_path(self.context, p0)) self.assertFalse(self.factory.get_const_bundle_from_path(self.context, p1)) self.assertFalse(self.factory.get_const_bundle_from_path(self.context, p2)) def test_recursive_child_bundle_metadata_removal(self): b0 = self.bundle1 b1 = b0.create_child_bundle(self.bundle2Name) # create bundle metadata b0.create_bundle_metadata(self.attr1Name, self.attr1Type) b1.create_bundle_metadata(self.attr1Name, self.attr1Type) # create bundle attributes b0.create_attribute(self.attr1Name, self.attr1Type) b1.create_attribute(self.attr1Name, self.attr1Type) # create attribute metadata b0.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) b1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) # TODO: Investigate why passing c-string does not work. The conversion from c-string to PathC produces different ids. p0 = f"{self.bundle1Name}/__metadata__bundle__" p1 = f"{self.bundle1Name}/__metadata__bundle__/{self.attr1Name}" p2 = f"{self.bundle1Name}/{self.bundle2Name}/__metadata__bundle__" p3 = f"{self.bundle1Name}/{self.bundle2Name}/__metadata__bundle__/{self.attr1Name}" get = self.factory.get_const_bundle_from_path self.assertTrue(get(self.context, p0)) self.assertTrue(get(self.context, p1)) self.assertTrue(get(self.context, p2)) self.assertTrue(get(self.context, p3)) b0.clear_contents() self.assertFalse(get(self.context, p0)) self.assertFalse(get(self.context, p1)) self.assertFalse(get(self.context, p2)) self.assertFalse(get(self.context, p3)) def test_recursive_child_remove_with_cow(self): child_names = [self.bundle2Name, self.bundle3Name] b0 = self.bundle1 children = b0.create_child_bundles(child_names) # Copy-on-Write child bundles b1 = self.factory.create_bundle(self.context, self.bundle4Name) b1.copy_child_bundles(child_names, children) # check content get = self.factory.get_const_bundle_from_path # original bundle p0 = f"{self.bundle1Name}" p1 = f"{self.bundle1Name}/{self.bundle2Name}" p2 = f"{self.bundle1Name}/{self.bundle3Name}" self.assertTrue(get(self.context, p0)) self.assertTrue(get(self.context, p1)) self.assertTrue(get(self.context, p2)) # copied children p0 = f"{self.bundle4Name}" p1 = f"{self.bundle4Name}/{self.bundle2Name}" p2 = f"{self.bundle4Name}/{self.bundle3Name}" self.assertTrue(get(self.context, p0)) self.assertTrue(get(self.context, p1)) self.assertTrue(get(self.context, p2)) # remove shallow copies, but not the original location b1.clear_contents() # shallow children are gone self.assertTrue(get(self.context, p0)) self.assertFalse(get(self.context, p1)) self.assertFalse(get(self.context, p2)) # but original location stays intact p0 = f"{self.bundle1Name}" p1 = f"{self.bundle1Name}/{self.bundle2Name}" p2 = f"{self.bundle1Name}/{self.bundle3Name}" self.assertTrue(get(self.context, p0)) self.assertTrue(get(self.context, p1)) self.assertTrue(get(self.context, p2))

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Python

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/validation.py

"""Support for validation of content""" import inspect from enum import Enum # ============================================================================================================== class _FunctionType(Enum): """Enumeration to make an easy tag type for function type definitions""" FUNCTION = "function" """Type is an untethered function""" STATIC = "staticmethod" """Type is a static method of a class""" CLASS = "classmethod" """Type is a class method (with cls) of a class""" INSTANCE = "instancemethod" """Type is an instance method (with self) of a class""" NOT_A_FUNCTION = "unknown" """Type is not a recognized function type""" # ============================================================================================================== def _get_pybind_function_type(func: any) -> _FunctionType: """Check to see if the object is a function type of some kind. The way to check if a function from a pybind interface is static or not is quite different from how you would check regular functions. The regular methods are instancemethod types, as expected, but the static methods are classified as builtin methods. The parent class is always PyCapsule so the assumption has to be made that anything passed in here already belongs to the interface being tested. Args: func (any): The object to inspect Returns: _FunctionType|None: The type of function @p func is or None if it is not a function """ if not inspect.isroutine(func): return None function_type = type(func) if func.__name__ == func.__qualname__ or ".<locals>" in func.__qualname__: return _FunctionType.FUNCTION if function_type.__name__ == "builtin_function_or_method": return _FunctionType.STATIC if function_type.__name__ == "instancemethod": return _FunctionType.INSTANCE return _FunctionType.CLASS # ============================================================================================================== def validate_abi_interface( interface: any, instance_methods: list[str] = None, static_methods: list[str] = None, class_methods: list[str] = None, properties: list[str] = None, constants: list[tuple[str, any]] = None, ): """Validate an ABI interface's expected contents Args: interface (any): The interface object to validate instance_methods (list[str]): Names of interface members expected to be regular object functions static_methods (list[str]): Names of interface members expected to be static object functions class_methods (list[str]): Names of interface members expected to be class level functions properties (list[str]): Names of interface members expected to be object properties constants (list[str]): Names and types of interface members expected to be constant object values Raises: ValueError: if the interface was not consistent with the expected contents """ # Convert members to forms easier to compare actual_members = {function_name for function_name in dir(interface) if not function_name.startswith("_")} expected_instance_method_names = set(instance_methods or []) expected_static_method_names = set(static_methods or []) expected_class_method_names = set(class_methods or []) expected_property_names = set(properties or []) expected_constant_definitions = set(constants or []) expected_members = ( expected_instance_method_names.union(expected_property_names) .union(expected_static_method_names) .union(expected_class_method_names) .union(name for (name, _) in expected_constant_definitions) ) unexpected = actual_members - expected_members not_found = expected_members - actual_members errors = [] if unexpected: errors.append(f"Unexpected interface members found - {unexpected}") if not_found: errors.append(f"Expected interface members not found - {not_found}") def _validate_function_type(function_names: list[str], expected_type: _FunctionType): """Check that a list of function names have the given type, adding to 'errors' if not""" for function_name in function_names: function = getattr(interface, function_name, None) if not callable(function): errors.append(f"Expected function {function_name} was not a callable function, it was {type(function)}") return function_type = _get_pybind_function_type(function) if function_type != expected_type: errors.append(f"Expected function {function_name} to be {expected_type.value}, it was {function_type}") # Validate the expected functions _validate_function_type(expected_instance_method_names, _FunctionType.INSTANCE) _validate_function_type(expected_class_method_names, _FunctionType.CLASS) _validate_function_type(expected_static_method_names, _FunctionType.STATIC) # Validate the expected properties for property_name in expected_property_names: property_member = getattr(interface, property_name, None) if not isinstance(property_member, property): errors.append(f"Expected property {property_name} was not a property, it was {type(property_member)}") # The constants are already known to be present, now their types must be checked for constant_name, constant_type in expected_constant_definitions: constant_member = getattr(interface, constant_name, None) if not isinstance(constant_member, constant_type): errors.append( f"Expected constant {constant_name} to be type {constant_type}, it was {type(constant_member)}" ) # Raise an exception if any errors were found if errors: formatted_errors = "\n ".join(errors) raise ValueError(f"Errors with interface {interface}\n {formatted_errors}")

5,999

Python

45.875

120

0.647441

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundles.py

import omni.core as oc import omni.graph.core as og import omni.graph.core.tests as ogt class BundleTestCase(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) # bundle paths self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" self.bundle3Name = "bundle3" self.bundle4Name = "bundle4" self.bundle5Name = "bundle5" # attribute names self.attr1Name = "attr1" self.attr2Name = "attr2" self.attr3Name = "attr3" self.attr4Name = "attr4" # attribute types self.attr1Type = og.Type(og.BaseDataType.INT) self.attr2Type = og.Type(og.BaseDataType.FLOAT) self.attr3Type = og.Type(og.BaseDataType.DOUBLE, 1, 1) self.attr4Type = og.Type(og.BaseDataType.BOOL, 1, 1) self.bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.bundle1.valid) async def test_create_bundle(self): # Check bundle1 does not have a parent bundle. parent1 = self.bundle1.get_parent_bundle() self.assertFalse(parent1.valid) # Check bundle path. self.assertEqual(self.bundle1.get_path(), self.bundle1Name) # Test state of attributes. self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(len(self.bundle1.get_attribute_names()), 0) self.assertEqual(len(self.bundle1.get_attribute_types()), 0) self.assertEqual(len(self.bundle1.get_attributes()), 0) # Test state of child bundles. self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(len(self.bundle1.get_child_bundles()), 0) async def test_create_child_bundle(self): # Create bundle hierarchy: bundle1/bundle2/bundle3. bundle2 = self.bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) self.assertEqual(bundle2.get_name(), self.bundle2Name) # Check number of children. self.assertEqual(self.bundle1.get_child_bundle_count(), 1) self.assertEqual(bundle2.get_child_bundle_count(), 0) # leaf, no children self.assertEqual(len(self.bundle1.get_child_bundles()), 1) self.assertEqual(len(bundle2.get_child_bundles()), 0) async def test_create_child_bundles(self): # Create bundle hierarchy: bundle1/bundle2/bundle3. bundle_paths = [self.bundle2Name, self.bundle3Name] self.bundle1.create_child_bundles(bundle_paths) self.assertEqual(self.bundle1.get_child_bundle_count(), 2) async def test_bundle_parent(self): # Create hierarchy: bundle1/bundle2/bundle3. bundle2 = self.bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) # Check children paths. self.assertEqual(bundle2.get_path(), "/".join([self.bundle1Name, self.bundle2Name])) # Check parents paths. bundle2_parent = bundle2.get_parent_bundle() self.assertTrue(bundle2_parent.valid) self.assertEqual(bundle2_parent.get_path(), self.bundle1.get_path()) async def test_remove_child_bundle(self): # Create hierarchy: bundle1/bundle2/bundle3. bundle2 = self.bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) bundle3 = bundle2.create_child_bundle(self.bundle3Name) self.assertTrue(bundle3.valid) # We can only remove intermediate children, remove children from bundle1 must fail. # Disabled because of: OM-48629. Re-enable after OM-48828 is solved. # with ExpectedError(): # self.assertEqual(self.bundle1.remove_all_child_bundles(), 0) # remove bundle2 from bundle1 # bundle3 is not an intermediate child of bundle1. self.assertFalse(self.bundle1.remove_child_bundle(bundle3)) self.assertEqual(bundle2.remove_child_bundle(bundle3), oc.Result.SUCCESS) self.assertEqual(self.bundle1.remove_child_bundle(bundle2), oc.Result.SUCCESS) async def test_remove_child_bundles(self): # Create bundle hierarchy. bundle2 = self.bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) bundle3 = self.bundle1.create_child_bundle(self.bundle3Name) self.assertTrue(bundle3.valid) # Get child bundles. bundles = self.bundle1.get_child_bundles() self.assertEqual(len(bundles), 2) # Remove all child bundles that are in the array. self.bundle1.remove_child_bundles(bundles) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) async def test_remove_child_bundles_by_name(self): _ = self.bundle1.create_child_bundle(self.bundle2Name) _ = self.bundle1.create_child_bundle(self.bundle3Name) _ = self.bundle1.create_child_bundle(self.bundle4Name) self.bundle1.remove_child_bundles_by_name([self.bundle2Name, self.bundle4Name]) self.assertEqual(self.bundle1.get_child_bundle_count(), 1) children = self.bundle1.get_child_bundles() self.assertEqual(len(children), 1) self.assertEqual(children[0].get_path(), "{}/{}".format(self.bundle1Name, self.bundle3Name)) async def test_copy_child_bundle(self): child = self.bundle1.create_child_bundle("child") new_bundle = self.factory.create_bundle(self.context, "new_bundle") new_bundle.copy_child_bundle(child) self.assertEqual(new_bundle.get_child_bundle_count(), 1) new_child = new_bundle.get_child_bundle_by_name("child") self.assertTrue(new_child.valid) async def test_copy_child_bundle_with_name(self): child = self.bundle1.create_child_bundle("child") new_bundle = self.factory.create_bundle(self.context, "new_bundle") new_bundle.copy_child_bundle(child, name="foo") self.assertEqual(new_bundle.get_child_bundle_count(), 1) new_child = new_bundle.get_child_bundle_by_name("child") self.assertFalse(new_child.valid) new_child = new_bundle.get_child_bundle_by_name("foo") self.assertTrue(new_child.valid) async def test_copy_child_bundles(self): children = self.bundle1.create_child_bundles(["childA", "childB"]) new_bundle = self.factory.create_bundle(self.context, "new_bundle") new_bundle.copy_child_bundles(children) self.assertEqual(new_bundle.get_child_bundle_count(), 2) new_children = new_bundle.get_child_bundles_by_name(["childA", "childB"]) self.assertEqual(len(new_children), 2) self.assertTrue(new_children[0].valid) self.assertTrue(new_children[1].valid) async def test_copy_child_bundles_with_names(self): children = self.bundle1.create_child_bundles(["childA", "childB"]) new_bundle = self.factory.create_bundle(self.context, "new_bundle") new_bundle.copy_child_bundles(children, names=["foo", "bar"]) self.assertEqual(new_bundle.get_child_bundle_count(), 2) new_children = new_bundle.get_child_bundles_by_name(["foo", "bar"]) self.assertEqual(len(new_children), 2) self.assertTrue(new_children[0].valid) self.assertTrue(new_children[1].valid) async def test_get_child_bundles_by_name(self): _ = self.bundle1.create_child_bundle(self.bundle2Name) _ = self.bundle1.create_child_bundle(self.bundle3Name) search = [self.bundle2Name, self.bundle3Name, self.bundle4Name] bundles = self.bundle1.get_child_bundles_by_name(search) self.assertTrue(bundles[0].valid) self.assertTrue(bundles[1].valid) self.assertFalse(bundles[2].valid) async def test_get_child_bundle_by_name(self): _ = self.bundle1.create_child_bundle(self.bundle2Name) _ = self.bundle1.create_child_bundle(self.bundle3Name) b2 = self.bundle1.get_child_bundle_by_name(self.bundle2Name) self.assertTrue(b2.valid) b3 = self.bundle1.get_child_bundle_by_name(self.bundle3Name) self.assertTrue(b3.valid) b4 = self.bundle1.get_child_bundle_by_name(self.bundle4Name) self.assertFalse(b4.valid) async def test_create_and_get_attribute(self): # Create each attribute individually. _ = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.assertEqual(self.bundle1.get_attribute_count(), 1) attr = self.bundle1.get_attribute_by_name(self.attr1Name) self.assertFalse(attr is None) self.assertEqual(attr.get_name(), self.attr1Name) async def test_create_and_get_attributes(self): # Create attributes by providing array of names and types. names = [self.attr1Name, self.attr2Name, self.attr3Name] types = [self.attr1Type, self.attr2Type, self.attr3Type] self.bundle1.create_attributes(names, types) self.assertEqual(self.bundle1.get_attribute_count(), 3) # Get all attributes. attrs = self.bundle1.get_attributes() self.assertEqual(len(attrs), 3) attrs = {x.get_name(): x for x in attrs if x.is_valid()} self.assertEqual(len(attrs), 3) self.assertTrue(self.attr1Name in attrs) self.assertTrue(self.attr2Name in attrs) self.assertTrue(self.attr3Name in attrs) # Find existing attributes. attrs_query = [self.attr1Name, self.attr3Name] attrs = self.bundle1.get_attributes_by_name(attrs_query) self.assertEqual(len(attrs), 2) attrs = {x.get_name(): x for x in attrs if x} self.assertEqual(len(attrs), 2) self.assertTrue(self.attr1Name in attrs) self.assertTrue(self.attr3Name in attrs) self.assertTrue(attrs[self.attr1Name]) self.assertTrue(attrs[self.attr3Name]) # Attempt to find not existing attributes. attrs_query = [self.attr4Name] attrs = self.bundle1.get_attributes_by_name(attrs_query) self.assertEqual(len(attrs), 1) attrs = {x.get_name(): x for x in attrs if x} self.assertEqual(len(attrs), 0) async def test_create_array_attribute(self): # Create array attribute. attr3 = self.bundle1.create_attribute(self.attr3Name, self.attr3Type, 1000) self.assertTrue(attr3) self.assertEqual(attr3.size(), 1000) attr3 = self.bundle1.create_attribute(self.attr3Name, self.attr3Type, 0) self.assertEqual(attr3.size(), 0) async def test_create_attribute_like(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) # Create new bundle and create attribute like. bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) like_attr1 = bundle2.create_attribute_like(attr1) self.assertTrue(like_attr1) self.assertEqual(like_attr1.get_name(), self.attr1Name) self.assertEqual(like_attr1.get_type(), self.attr1Type) async def test_create_attributes_like(self): # Create attributes in bundle1. names = [self.attr1Name, self.attr2Name] types = [self.attr1Type, self.attr2Type] attrs = self.bundle1.create_attributes(names, types) # Create bundle2 and create attributes like those from bundle1. bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) like_attrs = bundle2.create_attributes_like(attrs) like_attrs = {x.get_name(): x for x in like_attrs if x} self.assertEqual(len(like_attrs), 2) self.assertTrue(self.attr1Name in like_attrs) self.assertTrue(self.attr2Name in like_attrs) async def test_remove_attributes(self): # Create attributes in bundle1. attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) attr2 = self.bundle1.create_attribute(self.attr2Name, self.attr2Type) # Remove one attribute from bundle. self.assertEqual(self.bundle1.remove_attribute(attr2), oc.Result.SUCCESS) self.assertEqual(self.bundle1.get_attribute_count(), 1) # Try to remove non existing attributes. bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) self.assertEqual(bundle2.remove_attributes([attr1, attr2]), 0) async def test_remove_attributes_by_name(self): _ = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) _ = self.bundle1.create_attribute(self.attr2Name, self.attr2Type) _ = self.bundle1.create_attribute(self.attr3Name, self.attr3Type) self.bundle1.remove_attributes_by_name([self.attr1Name, self.attr3Name]) self.assertEqual(self.bundle1.get_attribute_count(), 1) names = self.bundle1.get_attribute_names() self.assertEqual(len(names), 1) self.assertEqual(names[0], self.attr2Name) async def test_copy_attribute(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.assertTrue(attr1) # Create bundle2 and copy attr1 from bundle1. bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) cpy_attr1 = bundle2.copy_attribute(attr1) self.assertTrue(cpy_attr1) self.assertEqual(cpy_attr1.get_type(), self.attr1Type) async def test_copy_attributes(self): # Create attributes. names = [self.attr1Name, self.attr2Name] types = [self.attr1Type, self.attr2Type] src_attrs1 = self.bundle1.create_attributes(names, types) names = [self.attr3Name, self.attr4Name] types = [self.attr3Type, self.attr4Type] bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) src_attrs2 = bundle2.create_attributes(names, types) # Create bundle3 and copy attributes from bundle1 and bundle2. bundle3 = self.factory.create_bundle(self.context, self.bundle3Name) src_attrs = src_attrs2 + src_attrs1 # reversed elements cpy_attrs = bundle3.copy_attributes(src_attrs) self.assertEqual(len(cpy_attrs), 4) # Check if attributes are valid. cpy_attrs = {x.get_name(): x for x in cpy_attrs if x} self.assertEqual(len(cpy_attrs), 4) # Get copied attributes by name. cpy_attr1 = bundle3.get_attribute_by_name(self.attr1Name) cpy_attr2 = bundle3.get_attribute_by_name(self.attr2Name) cpy_attr3 = bundle3.get_attribute_by_name(self.attr3Name) cpy_attr4 = bundle3.get_attribute_by_name(self.attr4Name) # Copied attributes must be valid. self.assertTrue(cpy_attr1.is_valid()) self.assertTrue(cpy_attr2.is_valid()) self.assertTrue(cpy_attr3.is_valid()) self.assertTrue(cpy_attr4.is_valid()) # Check copied attributes types. self.assertEqual(cpy_attr1.get_type(), self.attr1Type) self.assertEqual(cpy_attr2.get_type(), self.attr2Type) self.assertEqual(cpy_attr3.get_type(), self.attr3Type) self.assertEqual(cpy_attr4.get_type(), self.attr4Type) async def test_copy_attributes_override(self): # create double on bundle1 d_attr = self.bundle1.create_attribute(self.attr1Name, og.Type(og.BaseDataType.DOUBLE, 1, 1), 1000) self.assertEqual(d_attr.size(), 1000) # create bool on bundle2 bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) b_attr = bundle2.create_attribute(self.attr1Name, og.Type(og.BaseDataType.BOOL, 1, 1), 10) self.assertEqual(b_attr.size(), 10) # try copy double attr = bundle2.copy_attribute(d_attr, overwrite=False) self.assertFalse(attr.is_valid()) # try copy double attr = bundle2.copy_attribute(d_attr, overwrite=True) self.assertTrue(attr.is_valid()) self.assertEqual(attr.size(), 1000) self.assertEqual(attr.get_type().base_type, self.attr3Type.base_type) async def test_get_path(self): # Create hierarchy: bundle1/bundle2/bundle3. bundle1 = self.bundle1 bundle2 = bundle1.create_child_bundle(self.bundle2Name) self.assertTrue(bundle2.valid) async def test_create_private_attribute(self): # This functionality is an implementation detail and should not be abused bundle = self.factory.create_bundle(self.context, "bundle") attrib = bundle.create_attribute("__bundle__private__attrib", og.Type(og.BaseDataType.INT)) self.assertTrue(attrib.is_valid()) self.assertEqual(bundle.get_attribute_count(), 0) async def test_target_attribute_type(self): target_type = og.Type(og.BaseDataType.RELATIONSHIP, 1, 0, og.AttributeRole.TARGET) bundle = self.bundle1 bundle.create_attribute("targets", target_type) self.assertEqual(bundle.get_attribute_count(), 1) attrib = bundle.get_attributes()[0] self.assertTrue(attrib.is_valid()) self.assertEqual(attrib.get_type().base_type, og.BaseDataType.RELATIONSHIP) self.assertEqual(attrib.get_type().role, og.AttributeRole.TARGET) class TestBundleMetadata(ogt.OmniGraphTestCase): """Test bundle metadata management""" async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) # bundle paths self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" self.bundle3Name = "bundle3" self.bundle4Name = "bundle4" self.bundle5Name = "bundle5" # attribute names self.attr1Name = "attr1" self.attr2Name = "attr2" self.attr3Name = "attr3" self.attr4Name = "attr4" # attribute types self.attr1Type = og.Type(og.BaseDataType.INT) self.attr2Type = og.Type(og.BaseDataType.FLOAT) self.attr3Type = og.Type(og.BaseDataType.DOUBLE, 1, 1) self.attr4Type = og.Type(og.BaseDataType.BOOL, 1, 1) self.bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.bundle1.valid) async def test_bundle_metadata_create(self): # check content self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) # create bundle metadata field1 = self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) field2 = self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) # check content self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) self.assertTrue(field1.is_valid()) self.assertTrue(field2.is_valid()) # create attributes self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_attribute(self.attr2Name, self.attr2Type) # check content self.assertEqual(self.bundle1.get_attribute_count(), 2) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) # create children self.bundle1.create_child_bundle(self.bundle2Name) self.bundle1.create_child_bundle(self.bundle3Name) self.assertEqual(self.bundle1.get_attribute_count(), 2) self.assertEqual(self.bundle1.get_child_bundle_count(), 2) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) async def test_bundle_metadata_remove_bulk(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata([self.attr1Name, self.attr2Name], [self.attr1Type, self.attr2Type]) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) self.bundle1.remove_bundle_metadata([self.attr1Name, self.attr2Name]) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) async def test_bundle_metadata_remove_single(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 2) self.bundle1.remove_bundle_metadata(self.attr1Name) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 1) self.bundle1.remove_bundle_metadata(self.attr2Name) self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) async def test_bundle_metadata_remove_none(self): self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) self.bundle1.remove_bundle_metadata(self.attr1Name) self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) async def test_bundle_metadata_info(self): """ Counting number of attributes in metadata bundle. """ self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) self.assertEqual(len(self.bundle1.get_bundle_metadata_names()), 0) self.assertEqual(len(self.bundle1.get_bundle_metadata_types()), 0) # create two metadata attributes _ = self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) _ = self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) # check bundle metadata self.assertEqual(len(set(self.bundle1.get_bundle_metadata_names())), 2) self.assertEqual(len(set(self.bundle1.get_bundle_metadata_types())), 2) self.assertTrue(self.attr1Name in self.bundle1.get_bundle_metadata_names()) self.assertTrue(self.attr2Name in self.bundle1.get_bundle_metadata_names()) async def test_bundle_metadata_child_by_index(self): """ Metadata bundle can not be returned in a list of children. This test confirms that get_child_bundle does not return metadata bundle. """ # create two attributes _ = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) _ = self.bundle1.create_attribute(self.attr2Name, self.attr2Type) # create children ref_paths = [self.bundle2Name, self.bundle3Name, self.bundle4Name, self.bundle5Name] for i, ref_path in enumerate(ref_paths): self.bundle1.create_child_bundle(ref_path) ref_paths[i] = "{}/{}".format(self.bundle1Name, ref_path) # get child by index unique_paths = set() for index in range(len(ref_paths)): child = self.bundle1.get_child_bundle(index) unique_paths.add(child.get_path()) self.assertTrue(child.get_path()) self.assertTrue(child.get_path() in ref_paths) self.assertEqual(len(unique_paths), 4) async def test_bundle_metadata_by_name(self): """ Get bundle metadata by name. """ # create two metadata attributes self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.assertTrue(self.bundle1.get_bundle_metadata_count(), 2) attrs = self.bundle1.get_bundle_metadata_by_name([self.attr1Name, self.attr2Name]) self.assertEqual(len(attrs), 2) self.assertEqual(attrs[0].get_name(), self.attr1Name) self.assertEqual(attrs[1].get_name(), self.attr2Name) async def test_metadata_bundle_create_many_fields(self): self.bundle1.create_bundle_metadata([self.attr1Name, self.attr2Name], [self.attr1Type, self.attr2Type]) self.assertTrue(self.bundle1.get_bundle_metadata_count(), 2) attrs = self.bundle1.get_bundle_metadata_by_name([self.attr1Name, self.attr2Name]) self.assertEqual(len(attrs), 2) self.assertEqual(attrs[0].get_name(), self.attr1Name) self.assertEqual(attrs[1].get_name(), self.attr2Name) async def test_metadata_bundle_create_single_field(self): self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.assertTrue(self.bundle1.get_bundle_metadata_count(), 2) attrs = self.bundle1.get_bundle_metadata_by_name([self.attr1Name, self.attr2Name]) self.assertEqual(len(attrs), 2) self.assertEqual(attrs[0].get_name(), self.attr1Name) self.assertEqual(attrs[1].get_name(), self.attr2Name) async def test_attribute_metadata_create(self): # check content self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) # Create attribute metadata for not existing attribute should fail # Disabled because of: OM-48629. Re-enable after OM-48828 is solved. # field2 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) # field3 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) # self.assertFalse(field2.is_valid()) # self.assertFalse(field3.is_valid()) # check content self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) # create attribute and metadata for existing attribute self.bundle1.create_attribute(self.attr1Name, self.attr1Type) field2 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) field3 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) # check content self.assertEqual(self.bundle1.get_attribute_count(), 1) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr2Name), 0) self.assertTrue(field2.is_valid()) self.assertTrue(field3.is_valid()) async def test_attribute_metadata_create_with_ns(self): # create attribute self.bundle1.create_attribute(self.attr1Name, self.attr1Type) # create metadata for attribute that contains namespace in it name = "node:type" _ = self.bundle1.create_attribute_metadata(self.attr1Name, name, self.attr2Type) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 1) names = self.bundle1.get_attribute_metadata_names(self.attr1Name) self.assertTrue(name in names) async def test_attribute_metadata_names_and_types(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) _ = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) _ = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) names = self.bundle1.get_attribute_metadata_names(self.attr1Name) types = self.bundle1.get_attribute_metadata_types(self.attr1Name) self.assertEqual(len(names), 2) self.assertEqual(len(types), 2) self.assertTrue(self.attr2Name in names) self.assertTrue(self.attr3Name in names) async def test_attribute_metadata_by_name(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) # not existing field1 = self.bundle1.get_attribute_metadata_by_name(self.attr1Name, self.attr2Name) self.assertFalse(field1.is_valid()) # create and query field1 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.assertTrue(field1.is_valid()) field1 = self.bundle1.get_attribute_metadata_by_name(self.attr1Name, self.attr2Name) self.assertTrue(field1.is_valid()) async def test_attribute_metadata_remove(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) # create self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) # remove single self.bundle1.remove_attribute_metadata(self.attr1Name, self.attr2Name) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 1) self.bundle1.remove_attribute_metadata(self.attr1Name, self.attr3Name) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) # create self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) # remove bulk self.bundle1.remove_attribute_metadata(self.attr1Name, (self.attr2Name, self.attr3Name)) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) async def test_attribute_remove_with_metadata(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 2) # remove attribute should remove metadata self.bundle1.remove_attribute(attr1) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) async def test_bundle_array_metadata(self): met1 = self.bundle1.create_bundle_metadata(self.attr3Name, self.attr3Type, 1000) self.assertTrue(met1) self.assertEqual(met1.size(), 1000) async def test_attribute_array_metadata(self): self.bundle1.create_attribute(self.attr1Name, self.attr1Type) met1 = self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type, 1000) self.assertTrue(met1) self.assertEqual(met1.size(), 1000) async def test_copy_attributes_with_metadata(self): attr1 = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.assertTrue(attr1) # Create bundle2 and copy attr1 from bundle1 bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) cpy_attr1 = bundle2.copy_attribute(attr1) self.assertTrue(cpy_attr1) self.assertEqual(cpy_attr1.get_type(), self.attr1Type) # metadata check self.assertEqual(bundle2.get_attribute_metadata_count(self.attr1Name), 2) names = bundle2.get_attribute_metadata_names(self.attr1Name) types = bundle2.get_attribute_metadata_types(self.attr1Name) self.assertEqual(len(names), 2) self.assertEqual(len(types), 2) self.assertTrue(self.attr2Name in names) self.assertTrue(self.attr3Name in names) async def test_copy_bundle(self): # create bundle metadata self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.bundle1.create_bundle_metadata(self.attr3Name, self.attr3Type) self.bundle1.create_bundle_metadata(self.attr4Name, self.attr4Type) # create attribute metadata self.bundle1.create_attribute(self.attr1Name, self.attr1Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr2Name, self.attr2Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) # Create bundle2 and copy attr1 from bundle1 bundle2 = self.factory.create_bundle(self.context, self.bundle2Name) bundle2.copy_bundle(self.bundle1) # bundle metadata check self.assertEqual(bundle2.get_bundle_metadata_count(), 3) names = bundle2.get_bundle_metadata_names() types = bundle2.get_bundle_metadata_names() self.assertTrue(self.attr2Name in names) self.assertTrue(self.attr3Name in names) self.assertTrue(self.attr4Name in names) self.assertEqual(len(types), 3) # attribute metadata check self.assertEqual(bundle2.get_attribute_metadata_count(self.attr1Name), 2) names = bundle2.get_attribute_metadata_names(self.attr1Name) types = bundle2.get_attribute_metadata_types(self.attr1Name) self.assertTrue(self.attr2Name in names) self.assertTrue(self.attr3Name in names) self.assertEqual(len(types), 2) async def init_for_clear_contents(self): # attributes 3 _ = self.bundle1.create_attribute(self.attr1Name, self.attr1Type) _ = self.bundle1.create_attribute(self.attr2Name, self.attr2Type) _ = self.bundle1.create_attribute(self.attr3Name, self.attr3Type) # children 2 _ = self.bundle1.create_child_bundle(self.bundle2Name) _ = self.bundle1.create_child_bundle(self.bundle3Name) # bundle metadata 4 self.bundle1.create_bundle_metadata(self.attr1Name, self.attr1Type) self.bundle1.create_bundle_metadata(self.attr2Name, self.attr2Type) self.bundle1.create_bundle_metadata(self.attr3Name, self.attr3Type) self.bundle1.create_bundle_metadata(self.attr4Name, self.attr4Type) # attr1 metadata 2 self.bundle1.create_attribute_metadata(self.attr1Name, self.attr3Name, self.attr3Type) self.bundle1.create_attribute_metadata(self.attr1Name, self.attr4Name, self.attr4Type) # attr2 metadata 1 self.bundle1.create_attribute_metadata(self.attr2Name, self.attr4Name, self.attr4Type) async def test_clear_contents(self): await self.init_for_clear_contents() self.assertEqual(self.bundle1.get_bundle_metadata_count(), 4) # metadata is not destroyed by default self.bundle1.clear_contents() # confirm bundle is clear self.assertEqual(self.bundle1.get_attribute_count(), 0) self.assertEqual(self.bundle1.get_child_bundle_count(), 0) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) # metadata IS destroyed by default self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr1Name), 0) self.assertEqual(self.bundle1.get_attribute_metadata_count(self.attr2Name), 0) self.assertTrue(self.bundle1.valid) async def test_clear_contents_bundle_metadata(self): await self.init_for_clear_contents() self.assertEqual(self.bundle1.get_bundle_metadata_count(), 4) self.bundle1.clear_contents(bundle_metadata=True) self.assertEqual(self.bundle1.get_bundle_metadata_count(), 0) async def test_clear_contents_attributes(self): await self.init_for_clear_contents() self.assertEqual(self.bundle1.get_attribute_count(), 3) self.bundle1.clear_contents(attributes=False) self.assertEqual(self.bundle1.get_attribute_count(), 3) async def test_clear_contents_child_bundles(self): await self.init_for_clear_contents() self.assertEqual(self.bundle1.get_child_bundle_count(), 2) self.bundle1.clear_contents(child_bundles=False) self.assertEqual(self.bundle1.get_child_bundle_count(), 2) class TestBundleFactoryInterface(ogt.OmniGraphTestCase): async def setUp(self): """Set up test environment, to be torn down when done""" await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.bundle1Name = "bundle1" self.bundle2Name = "bundle2" def test_bundle_conversion_method(self): """The factory used to allow the conversion from old Py_Bundle to new I(Const)Bundle interface. Depending on writability of Py_Bundle, IConstBundle2 or IBundle2 was returned. When Py_Bundle was removed backwards compatibility conversion methods were kept. As reported in OM-84762 factory fails to pass through IBundle2, and converts IBundle2 to IConstBundle2. Eventually this test should be removed in next release when get_bundle conversion method is hard deprecated. """ bundle1 = self.factory.create_bundle(self.context, self.bundle1Name) bundle2 = self.factory.get_bundle(bundle1.get_context(), bundle1) self.assertTrue(isinstance(bundle2, og.IBundle2))

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0.683122

omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_bundle_attribute_data_access.py

import omni.graph.core as og import omni.graph.core.tests as ogt class TestBundleAttributeAccess(ogt.OmniGraphTestCase): async def setUp(self): await super().setUp() self.graph = og.Controller.create_graph("/graph") self.context = self.graph.get_default_graph_context() self.factory = og.IBundleFactory.create() self.assertTrue(self.factory is not None) self.bundle1Name = "bundle1" self.rwBundle = self.factory.create_bundle(self.context, self.bundle1Name) self.assertTrue(self.rwBundle.valid) self.attr1Name = "attr1" self.tupleType = og.Type(og.BaseDataType.INT, 2, 0) self.arrayType = og.Type(og.BaseDataType.INT, 1, 1) self.arrayTupleType = og.Type(og.BaseDataType.INT, 2, 1) async def test_tuple_write_permissions(self): attr = self.rwBundle.create_attribute(self.attr1Name, self.tupleType) with self.assertRaises(ValueError): data = attr.as_read_only().get() data[0] = 42 # writing to data will throw data = attr.get() data[0] = 42 # writing to data will not throw async def test_array_type_write_permissions(self): attr = self.rwBundle.create_attribute(self.attr1Name, self.arrayType) # GPU = False, Write = True # calling get_array will throw with self.assertRaises(ValueError): attr.as_read_only().get_array(False, True, 10) # GPU = False, Write = False # calling get_array will not throw attr.as_read_only().get_array(False, False, 10) async def test_array_of_tuple_write_permissions(self): attr = self.rwBundle.create_attribute(self.attr1Name, self.arrayTupleType) # GPU = False, Write = True # calling get_array will throw with self.assertRaises(ValueError): attr.as_read_only().get_array(False, True, 10) # GPU = False, Write = False # calling get_array will not throw attr.get_array(False, False, 10)

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82

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omniverse-code/kit/exts/omni.graph/omni/graph/core/tests/test_data_wrapper.py

"""Suite of tests to exercise the DataWrapper class as a unit.""" import omni.graph.core as og import omni.kit.test # The test needs some non-standard imports to do its thing from omni.graph.core._impl.dtypes import ( Bool, BundleOutput, Double, Double2, Double3, Double4, Float, Float2, Float3, Float4, Half, Half2, Half3, Half4, Int, Int2, Int3, Int4, Int64, Matrix2d, Matrix3d, Matrix4d, Token, UChar, UInt, UInt64, ) class TestDataWrapper(omni.kit.test.AsyncTestCase): """Wrapper for unit tests for the og.DataWrapper class""" # ---------------------------------------------------------------------- async def test_data_wrapper_creation(self): """Test creation of the DataWrapper from the raw og.Type""" # Test data that enumerates all of the OGN types. Values of the list entries are: # OGN type name # Expected dtype # Expected shape for non-gathered attributes # Expected shape for gathered attributes test_data = [ ("any", Token, None, (2,)), ("bool", Bool, None, (2,)), ("bool[]", Bool, (0,), ((2, 2))), ("bundle", BundleOutput, None, (2,)), ("colord[3]", Double3, (3,), ((2,), 3)), ("colord[3][]", Double3, (0, 3), (((2, 2)), 3)), ("colord[4]", Double4, (4,), ((2,), 4)), ("colord[4][]", Double4, (0, 4), ((2, 2), 4)), ("colorf[3]", Float3, (3,), ((2,), 3)), ("colorf[3][]", Float3, (0, 3), ((2, 2), 3)), ("colorf[4]", Float4, (4,), ((2,), 4)), ("colorf[4][]", Float4, (0, 4), ((2, 2), 4)), ("colorh[3]", Half3, (3,), ((2,), 3)), ("colorh[3][]", Half3, (0, 3), ((2, 2), 3)), ("colorh[4]", Half4, (4,), ((2,), 4)), ("colorh[4][]", Half4, (0, 4), ((2, 2), 4)), ("double", Double, None, (2,)), ("double[]", Double, (0,), ((2, 2))), ("double[2]", Double2, (2,), ((2,), 2)), ("double[2][]", Double2, (0, 2), ((2, 2), 2)), ("double[3]", Double3, (3,), ((2,), 3)), ("double[3][]", Double3, (0, 3), ((2, 2), 3)), ("double[4]", Double4, (4,), ((2,), 4)), ("double[4][]", Double4, (0, 4), ((2, 2), 4)), ("execution", UInt, None, (2,)), ("float", Float, None, (2,)), ("float[]", Float, (0,), ((2, 2))), ("float[2]", Float2, (2,), ((2,), 2)), ("float[2][]", Float2, (0, 2), ((2, 2), 2)), ("float[3]", Float3, (3,), ((2,), 3)), ("float[3][]", Float3, (0, 3), ((2, 2), 3)), ("float[4]", Float4, (4,), ((2,), 4)), ("float[4][]", Float4, (0, 4), ((2, 2), 4)), ("frame[4]", Matrix4d, (4, 4), ((2,), 4, 4)), ("frame[4][]", Matrix4d, (0, 4, 4), ((2, 2), 4, 4)), ("half", Half, None, (2,)), ("half[]", Half, (0,), ((2, 2))), ("half[2]", Half2, (2,), ((2,), 2)), ("half[2][]", Half2, (0, 2), ((2, 2), 2)), ("half[3]", Half3, (3,), ((2,), 3)), ("half[3][]", Half3, (0, 3), ((2, 2), 3)), ("half[4]", Half4, (4,), ((2,), 4)), ("half[4][]", Half4, (0, 4), ((2, 2), 4)), ("int", Int, None, (2,)), ("int[]", Int, (0,), ((2, 2))), ("int[2]", Int2, (2,), ((2,), 2)), ("int[2][]", Int2, (0, 2), ((2, 2), 2)), ("int[3]", Int3, (3,), ((2,), 3)), ("int[3][]", Int3, (0, 3), ((2, 2), 3)), ("int[4]", Int4, (4,), ((2,), 4)), ("int[4][]", Int4, (0, 4), ((2, 2), 4)), ("int64", Int64, None, (2,)), ("int64[]", Int64, (0,), ((2, 2))), ("matrixd[2]", Matrix2d, (2, 2), ((2,), 2, 2)), ("matrixd[2][]", Matrix2d, (0, 2, 2), ((2, 2), 2, 2)), ("matrixd[3]", Matrix3d, (3, 3), ((2,), 3, 3)), ("matrixd[3][]", Matrix3d, (0, 3, 3), ((2, 2), 3, 3)), ("matrixd[4]", Matrix4d, (4, 4), ((2,), 4, 4)), ("matrixd[4][]", Matrix4d, (0, 4, 4), ((2, 2), 4, 4)), ("normald[3]", Double3, (3,), ((2,), 3)), ("normald[3][]", Double3, (0, 3), (((2, 2)), 3)), ("normalf[3]", Float3, (3,), ((2,), 3)), ("normalf[3][]", Float3, (0, 3), ((2, 2), 3)), ("normalh[3]", Half3, (3,), ((2,), 3)), ("normalh[3][]", Half3, (0, 3), ((2, 2), 3)), ("objectId", UInt64, None, (2,)), ("objectId[]", UInt64, (0,), ((2, 2))), ("pointd[3]", Double3, (3,), ((2,), 3)), ("pointd[3][]", Double3, (0, 3), (((2, 2)), 3)), ("pointf[3]", Float3, (3,), ((2,), 3)), ("pointf[3][]", Float3, (0, 3), ((2, 2), 3)), ("pointh[3]", Half3, (3,), ((2,), 3)), ("pointh[3][]", Half3, (0, 3), ((2, 2), 3)), ("quatd[4]", Double4, (4,), ((2,), 4)), ("quatd[4][]", Double4, (0, 4), (((2, 2)), 4)), ("quatf[4]", Float4, (4,), ((2,), 4)), ("quatf[4][]", Float4, (0, 4), ((2, 2), 4)), ("quath[4]", Half4, (4,), ((2,), 4)), ("quath[4][]", Half4, (0, 4), ((2, 2), 4)), ("string", UChar, (0,), ((2, 2))), ("target", BundleOutput, None, (2,)), ("texcoordd[2]", Double2, (2,), ((2,), 2)), ("texcoordd[2][]", Double2, (0, 2), (((2, 2)), 2)), ("texcoordd[3]", Double3, (3,), ((2,), 3)), ("texcoordd[3][]", Double3, (0, 3), ((2, 2), 3)), ("texcoordf[2]", Float2, (2,), ((2,), 2)), ("texcoordf[2][]", Float2, (0, 2), ((2, 2), 2)), ("texcoordf[3]", Float3, (3,), ((2,), 3)), ("texcoordf[3][]", Float3, (0, 3), ((2, 2), 3)), ("texcoordh[2]", Half2, (2,), ((2,), 2)), ("texcoordh[2][]", Half2, (0, 2), ((2, 2), 2)), ("texcoordh[3]", Half3, (3,), ((2,), 3)), ("texcoordh[3][]", Half3, (0, 3), ((2, 2), 3)), ("timecode", Double, None, (2,)), ("timecode[]", Double, (0,), ((2, 2))), ("token", Token, None, (2,)), ("token[]", Token, (0,), ((2, 2))), ("uchar", UChar, None, (2,)), ("uchar[]", UChar, (0,), ((2, 2))), ("uint", UInt, None, (2,)), ("uint[]", UInt, (0,), ((2, 2))), ("uint64", UInt64, None, (2,)), ("uint64[]", UInt64, (0,), ((2, 2))), ("vectord[3]", Double3, (3,), ((2,), 3)), ("vectord[3][]", Double3, (0, 3), (((2, 2)), 3)), ("vectorf[3]", Float3, (3,), ((2,), 3)), ("vectorf[3][]", Float3, (0, 3), ((2, 2), 3)), ("vectorh[3]", Half3, (3,), ((2,), 3)), ("vectorh[3][]", Half3, (0, 3), ((2, 2), 3)), ] for name, expected_dtype, expected_ungathered_shape, expected_gathered_shape in test_data: attribute_type = og.AttributeType.type_from_ogn_type_name(name) ungathered_dtype, ungathered_shape = og.data_shape_from_type(attribute_type, is_gathered=False) gathered_dtype, gathered_shape = og.data_shape_from_type(attribute_type, is_gathered=True) self.assertEqual(ungathered_dtype.__class__, expected_dtype, f"Mismatched type for {name}") self.assertEqual(ungathered_shape, expected_ungathered_shape, f"Mismatched shape for {name}") self.assertEqual(ungathered_dtype, gathered_dtype, f"Mismatched gathered type for {name}") self.assertEqual(gathered_shape, expected_gathered_shape, f"Mismatched gathered shape for {name}") # ---------------------------------------------------------------------- async def test_data_wrapper_indexing(self): """Test indexing of the DataWrapper for all of the documented supported types""" # Test data drives all of the test cases for expected index results. The data is a list of test # configurations consisting of: # Dtype of the parent wrapper # Shape of the parent wrapper # Index to be be taken to get the child # Expected Dtype of the child wrapper (None means to expect an exception raised) # Expected shape of the child wrapper # Expected memory location offset of the child at index 1 from the parent test_data = [ [Float, None, 1, None, None, 0], # Single value [Float, (3,), 1, Float, None, Float.size], # Array of 3 simple values [Float3, (3,), 1, Float, None, Float.size], # Tuple of 3 simple values [Float3, (2, 3), 1, Float3, (3,), Float3.size], # Array of 2 triple values [Matrix2d, (2, 2), 1, Double2, (2,), Double2.size], # A 2x2 matrix [Matrix2d, (3, 2, 2), 1, Matrix2d, (2, 2), Matrix2d.size], # An array of 3 2x2 matrixes [Float3, (3,), -1, None, None, 0], # Index too low [Float3, (3, 3), -1, None, None, 0], [Float3, ((3,), 3), -1, None, None, 0], [Float3, ((3, 4), 3), -1, None, None, 0], [Float, (3,), -1, None, None, 0], [Float, ((3,), 3), -1, None, None, 0], [Float, ((3, 4), 3), -1, None, None, 0], [Matrix2d, (2, 2), -1, None, None, 0], [Matrix2d, (3, 2, 2), -1, None, None, 0], [Matrix2d, ((3,), 2, 2), -1, None, None, 0], [Matrix2d, ((3, 4), 2, 2), -1, None, None, 0], [Float3, (3,), 4, None, None, 0], # Index too high [Float3, (3, 3), 4, None, None, 0], [Float3, ((3,), 3), 4, None, None, 0], [Float3, ((3, 4), 3), 4, None, None, 0], [Float, (3,), 4, None, None, 0], [Float, ((3,), 3), 4, None, None, 0], [Float, ((3, 4), 3), 4, None, None, 0], [Matrix2d, (2, 2), 4, None, None, 0], [Matrix2d, (3, 2, 2), 4, None, None, 0], [Matrix2d, ((3,), 2, 2), 4, None, None, 0], [Matrix2d, ((3, 4), 2, 2), 4, None, None, 0], [Float, (3, 3), 1, None, None, 0], # Too many levels of array [Float4, (3,), 1, None, None, 0], # Mismatched shape size for tuple [Float4, (3, 3), 1, None, None, 0], # Mismatched shape size for tuple array [Matrix2d, (3, 3), 1, None, None, 0], # Mismatched shape size for matrix [Matrix2d, (2, 3, 3), 1, None, None, 0], # Mismatched shape size for matrix array ] for parent_dtype, parent_shape, child_index, child_dtype, child_shape, child_offset in test_data: if child_dtype is None: with self.assertRaises(ValueError): parent_wrapper = og.DataWrapper(0, parent_dtype, parent_shape, og.Device.cuda) _ = parent_wrapper[child_index] else: parent_wrapper = og.DataWrapper(0, parent_dtype, parent_shape, og.Device.cuda) child_wrapper = parent_wrapper[child_index] self.assertEqual(child_wrapper.dtype.tuple_count, child_dtype.tuple_count) self.assertEqual(child_wrapper.dtype.base_type, child_dtype.base_type) self.assertEqual(child_wrapper.shape, child_shape) self.assertEqual(child_wrapper.memory, child_offset)

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omniverse-code/kit/exts/omni.graph/docs/testing.rst

.. _set_up_omnigraph_tests: Set Up OmniGraph Tests ====================== Much of the testing for a node can be set up through the .ogn file's :ref:`test section<ogn_defining_automatic_tests>`, however there are a number of situations that require more detailed setup or more flexible checking than the automatically generated tests can provide. For such tests you will want to hook into Kit's testing system. Some examples of these situations are when you need to check for attributes that are one-of a set of allowed results rather than a fixed value, where you need to check node or attribute information that is more than just the current value, where you need to call utility scripts to set up desired configurations, or when your results depend on some external condition such as the graph state. Described here are some best practices for writing such tests. This is only meant to describe setting up Python regression tests that use the Kit extensions to the Python `unittest` modeule. It is not meant to describe setting up C++ unit tests. .. note:: For clarity a lot of recommended coding practices, like adding docstrings to all classes, functions, and modules, or checking for unexpected exceptions in order to provide better error messages, are not followed. Please do use them when you write your actual tests though. Locating The Tests ------------------ The Kit extension system uses an automatic module recognition algorithm to detect directories in which test cases may be found. In particular it looks for **.tests** submodules. So if your Python module is named `omni.graph.foo` it will check the contents of the module `omni.graph.foo.tests`, if it exists, and attempt to find files containing classes derived from `unittest.TestCase`, or the Kit version `omni.kit.test.AsyncTestCase`. The usual way of structuring extensions provides a directory structure that looks like this: .. code-block:: text omni.graph.foo/ python/ tests/ test_some_stuff.py The *tests/* subdirectory would be linked into the build using these lines in your *premake5.lua* file inside the python project definition: .. code-block:: lua add_files("python/tests", "python/tests/*.py") repo_build.prebuild_link { { "python/tests", ogn.python_tests_target_path }, } This creates a link that creates a **.tests** submodule for your extension. The files containing tests should all begin with the prefix *test_*. Creating A Test Class --------------------- OmniGraph tests have some shared setUp and tearDown operations so the easiest way to set up your test class is to have it derive from the derived test case class that implements them: .. code-block:: python import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCase): pass This will ensure your tests are part of the Kit regression test system. The parent class will define some temporary settings as required by OmniGraph, and will clear the scene when the test is done so as not to influence the results of the test after it (barring any other side effects the test itself causes of course). .. tip:: Although the name of the class is not significant it's helpful to prefix it with *Tests* to make it easy to identify. Specialized SetUp And TearDown ++++++++++++++++++++++++++++++ If you have some other setUp or tearDown functions you wish to perform you do it in the usual Pythonic manner: .. code:: python import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCase): async def setUp(self): await super().setUp() do_my_setup() async def tearDown(self): do_my_teardown() await super().tearDown() .. note:: The tests are async so both they and the setUp/tearDown will be "awaited" when running. This was done to facilitate easier access to some of the Kit async functions, though normally you want to ensure your test steps run sequentially. Adding Tests ++++++++++++ Tests are added in the usual way for the Python `unittest` framework, by creating a function with the prefix *test_*. As the tests are all awaited your functions should be async. .. code:: python import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCase): async def setUp(self): await super().setUp() do_my_setup() async def tearDown(self): do_my_teardown() await super().tearDown() async def test1(self): self.assertTrue(run_first_test()) async def test2(self): self.assertTrue(run_second_test()) How you divide your test bodies is up to you. You'll want to balance the slower performance of repetitive setup against the isolation of specific test conditions. Your best friend in setting up test conditions is the :ref:`og.Controller<howto_omnigraph_controller>` class. It provides a lot of what you will need for setting up and inspecting your graph, nodes, and attributes. Here is a simple example that will create an add node with one constant input, and one input supplied from another node that will test to make sure that results are correct over a set of inputs. It uses several concepts from the controller to illustrate its use. .. code-block:: python import omni.graph.core as og import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCase): async def test_add(self): keys = og.Controller.Keys (graph, nodes, _, _) = og.Controller.edit("/TestGraph", { keys.CREATE_NODES: [ ("Add", "omni.graph.nodes.Add"), ("ConstInt", "omni.graph.nodes.ConstantInt"), ], keys.CONNECT: ("ConstInt.inputs:value", "Add.inputs:a"), keys.SET_VALUES: [("ConstInt.inputs:value", 3), ("Add.inputs:b", {"type": "int", "value": 1})] }) # Get controllers attached to the attributes since they will be accessed in a loop b_view = og.Controller(attribute=og.Controller.attribute("inputs:b", nodes[0])) sum_view = og.Controller(attribute=og.Controller.attribute("outputs:sum", nodes[0])) # Test configurations are pairs of (input_b_value, output_sum_expected) test_configurations = [ ({"type": "int", "value": 1}, 4), ({"type": "int", "value": -3}, 0), ({"type": "int", "value": 1000000}, 1000003), ] for b_value, sum_expected in test_configurations: b_view.set(b_value) # Before checking computed values you must ensure the graph has evaluated await og.Controller.evaluate(graph) self.assertAlmostEqual(sum_expected, sum_view.get()) Expected Errors +++++++++++++++ When writing tests, it can be desirable to test error conditions. However, this may cause errors to be displayed to the console, which can cause tests to fail when running in batch mode. One way to have the testing system ignore these errors is to prepend a additional text to the error line. .. code-block:: python # write to the console, skipping the newline to prepend the expected error message print("[Ignore this error/warning] ", end ="") self.assertFalse(self.function_that_causes_error()) Then, in your packages extensions.toml file, tell the test system to ignore error output when the prepended output occurs. .. code-block:: rst [[test]] stdoutFailPatterns.exclude = [ # Exclude messages which say they should be ignored "*Ignore this error/warning*", ] This allows for the test to specify which errors should be ignored without ignoring all errors with the same output in the entire package, or by disabling all error checking from your test class. Executing Your Tests -------------------- Now that your tests are visible to Kit they will be automatically run by TeamCity. To run them yourself locally you have two options. Batch Running Tests +++++++++++++++++++ All tests registered in the manner described above will be added to a batch file that runs all tests in your extension. You can find this file at *$BUILD/tests-omni.graph.foo.{bat|sh}*. Executing this file will run your tests in a minimal Kit configuration. (It basically loads your extension and all dependent extensions, including the test manager.) Look up the documentation on ``omni.kit.test`` for more information on how the tests can be configured. Test Runner +++++++++++ Kit's *Test Runner* window is a handy way to interactively run one or more of your tests at a finer granularity through a UI. By default none of the tests are added to the window, however, so you must add a line like this to your user configuration file, usually in **~/Documents/Kit/shared/user.toml**, to specify which tests it should load: .. code-block:: toml exts."omni.kit.test".includeTests = ["omni.graph.foo.*"] Debugging Your Tests -------------------- Whether you're tracking down a bug or engaging in test-driven-development eventually you will end up in a situation where you need to debug your tests. One of the best tools is to use the script editor and the UI in Kit to inspect and manipulate your test scene. While the normal OmniGraph test case class deletes the scene at the end of the test you can make a temporary change to instead use a variation of the test case that does not do that, so that you can examine the failing scene. .. code-block:: python :emphasize-lines: 3 import omni.graph.core.tests as ogts class TestsForMe(ogts.OmniGraphTestCaseNoClear): pass Running Test Batch Files With Attached Debuggers ++++++++++++++++++++++++++++++++++++++++++++++++ You're probably familiar with the debugging extensions ``omni.kit.debug.python`` and ``omni.kit.debug.vscode``, with which you can attach debuggers to running versions of Kit. If you are running the test batch file, however, you have to ensure that these extensions are running as part of the test environment. To do so you just need to add these flags to your invocation of the test ``.bat`` file: .. code-block:: bash $BUILD/tests-omni.graph.foo.bat --enable omni.kit.debug.vscode --enable omni.kit.debug.python This will enable the extra extensions required to attach the debuggers while the test scripts are running. Of course you still have to manually attach them from your IDE in the same way you usually do. .. note:: As of this writing you might see two ``kit.exe`` processes when attaching a C++ debugger to a test script. The safest thing to do is attach to both of them. The .bat files also support the flag ``-d`` flag to wait for the debugger to attach before executing. If you're running a debug cut this probably won't be necessary as the startup time is ample for attaching a debugger.

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omniverse-code/kit/exts/omni.graph/docs/runtimeInitialize.rst

.. _runtime_attribute_value_initialization_in_omnigraph_nodes: Runtime Attribute Value Initialization In OmniGraph Nodes ========================================================= Normally you will specify attribute default values in your .ogn files and the attributes will be given those values when the node is created. Occasionally, you may wish to provide different default values for your attributes based on some condition that can only be ascertained at runtime. This document describes the current best-practice for achieving that goal, in both C++ and Python nodes. As of this writing the database cannot be accessed during the node's *initialize()* method, so providing new values in there will not work. (If in the future that changes this document will be updated to explain how to use it instead.) In fact, the only time the data is guaranteed to be available to use or set is in the node's *compute()* method, so that will be used to set up a delayed initialization of attribute values. The general approach to this initialization will be to use a boolean state value in the node to determine whether the attribute or attributes have been given their initial values or not when the *compute()* method is called. It's also possible that the attribute would have been given a value directly so that also must be considered when managing the boolean state value. For these examples this node definition will be used: .. code-block:: json { "RandomInt": { "version": 1, "description": "Holds an integer with a random integer number.", "outputs": { "number": { "description": "The random integer", "type": "int" } }, "state": { "$comment": "This section exists solely to inform the scheduler that there is internal state information." } } } .. note:: For the Python node assume the addition of the line `"language": "python"`. Initializing Values In C++ Nodes -------------------------------- In the :ref:`internal state tutorial<ogn_tutorial_state>` you can see that the way to add state information to a C++ node is to make some class members. We'll add a boolean class member to tell us if the node is initialized or not, and check it in the **compute()** method. .. code-block:: cpp #include <OgnRandomIntDatabase.h> #include <cstdlib> class OgnRandomInt { bool m_initialized{ false }; // State information the tells if the attribute value has been initialized yet public: static bool compute(OgnRandomIntDatabase& db) { auto& state = db.internalState<OgnRandomInt>(); if (! state.m_initialized) { db.outputs.number() = std::rand(); state.m_initialized = true; } // Normally you would have other things to do as part of the compute as well... return true; } }; REGISTER_OGN_NODE() If you know your attribute will never be set from the outside then that is sufficient, however usually there is no guarantee that some script or UI has not set the attribute value. Fortunately the node can monitor that using the **registerValueChangedCallback()** ABI function on the attribute. It can be set up in the node's **initialize()** method. Putting this in with the above code you get this: .. code-block:: cpp #include <OgnRandomIntDatabase.h> #include <cstdlib> class OgnRandomInt { bool m_initialized{ false }; // State information the tells if the attribute value has been initialized yet static void attributeChanged(const AttributeObj& attr, const void*) { auto& state = OgnRandomIntDatabase::sInternalState<OgnRandomInt>(attr.iAttribute->getNode(attr)); state.m_initialized = true; } public: static bool compute(OgnRandomIntDatabase& db) { auto& state = db.internalState<OgnRandomInt>(); if (! state.m_initialized) { db.outputs.number() = std::rand(); state.m_initialized = true; } // Normally you would have other things to do as part of the compute as well... return true; } static void initialize(const GraphContextObj&, const NodeObj& nodeObj) { AttributeObj attrObj = nodeObj.iNode->getAttributeByToken(nodeObj, outputs::number.m_token); attrObj.iAttribute->registerValueChangedCallback(attrObj, attributeChanged, true); } }; REGISTER_OGN_NODE() Initializing Values In Python Nodes ----------------------------------- In the :ref:`internal state tutorial<ogn_tutorial_state_py>` you can see that the way to add state information to a Python node is to create a static **internal_state** method. We'll create a simple class with a boolean class member to tell us if the node is initialized or not, and check it in the **compute()** method. .. code-block:: python from dataclasses import dataclass from random import randint class OgnRandomInt: @dataclass class State: initialized: bool = False @staticmethod def internal_state() -> State: return OgnRandomInt.State() @staticmethod def compute(db) -> bool: if not db.internal_state.initialized: db.outputs.number = randint(-0x7fffffff, 0x7fffffff) db.internal_state.initialized = True # Normally you would have other things to do as part of the compute as well... return True If you know your attribute will never be set from the outside then that is sufficient. Unfortunately the Python API does not yet have a method of getting a callback when an attribute value has changed so for now this is all you can do.

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omniverse-code/kit/exts/omni.graph/docs/autonode.rst

.. _autonode_ref: AutoNode - Autogenerating Nodes From Code ================================================================================ This is a description of the automated node generator for python code in OmniGraph. It turns this: .. code-block:: python import omni.graph.core as og @og.AutoFunc(pure=True) def dot(vec1: og.Float3, vec2: og.Float3) -> float: return vec1[0] * vec2[0] + vec1[1] * vec2[1] + vec1[2] * vec2[2] Into this: .. image:: images/dot.png What it Does -------------------------------------------------------------------------------- AutoNode allows developers to create OmniGraph nodes from any of the following: * **Free functions** (see `AutoFunc`_) * **Python classes and class instances** - AutoNode also scans classes and generates getters and setters (see `AutoClass`_ and `Passing Python Types in AutoNode`_ ). * **CPython and Pybind types** - see `Annotations: Overriding CPython Types`_. * **OmniGraph types** (see `Supported Types`_ ) * **Container types** (see `Bundles`_) * **Events, Enums and other special types**. This process will generate both the OGN description of the node and its attributes, and the implementation of the node compute function in Python. How it Works -------------------------------------------------------------------------------- AutoNode generates node signatures by extracting type annotations stored in functions and variables. In order for nodes to be generated, type annotations must be available to the decorator at initialization time. For most developers, this means using `type annotations <https://docs.python.org/3/library/typing.html>`_ for python 3, like in the example above. Under the hood, annotation extraction is done with the python ``__annotations__`` ( `PEP 3107 <https://www.python.org/dev/peps/pep-3107/>`_ ) dictionary in every class. .. note:: While the API will remain relatively stable, there is no current guarantee that the backend will not be changed. Some implementation details are captured in `Implementation Details`_, purely for reference. API Details -------------------------------------------------------------------------------- Decorators ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ``omni.graph.core`` currently exposes these autogeneration functions: ``AutoFunc()``, ``AutoClass()``. Both these functions can be used as decorators or as free function calls: .. code-block:: python import omni.graph.core as og #this is convenient @og.AutoFunc() def say_hi() -> str: return "hi, everybody!" def say_hello() -> str: return "Hello, World!" # but this does virtually the same thing og.AutoFunc()(say_hello) ``AutoFunc`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Here's an example of wrapping a free function: .. code-block:: python import omni.graph.core as og @og.AutoFunc() def one_up(input : int = 0) -> str: """this documentation will appear in the node's help""" return f"one up! {input + 1}" **Note:** The type annotations really matter. Without them, AutoNode can't define node inputs and outputs. You can create multiple returns by making your return type a `typing.Tuple`: .. code-block:: python import omni.graph.core as og from typing import Tuple @og.AutoFunc() def break_vector(input : og.Float3) -> Tuple[og.Float, og.Float, og.Float] return (input[0], input[1], input[2]) ``AutoClass`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ This exposes entire classes to OGN. Here are the rules of evaluation: * Private properties and methods (starting with ``_``) will not be exposed * Public properties exposed will attempt to find a type annotation using ``__annotations__`` and will default to the inferred type. ``None`` types will be ignored. * Public methods will be associated with the class type, and will not attempt to find a type for ``self``. * Bound methods in classes (methods with an immutable ``__self__`` reference) will be stored for representation, but the actual method to be called will come from the specific instance that's being applied for this. For instance - if class ``A`` was decorated with ``AutoClass``, and it contained a method ``A.Method(self, arg: int)->str``, with ``__self__`` stored in the method ("bound method"), then when a class ``B`` with an overriding method gets called on this node, the node will search for inside ``B.Method`` and call it instead. Here is a simple case of wrapping a class: .. code-block:: python import omni.graph.core as og @og.AutoClass(module_name="AutoNodeDemo") class TestClass: #this will not generate getters and setters _private_var = 42 #this will generate getters and setters, and will make them of type ``float`` public_var: float = 3.141 # initializers are private methods and will not be exposed by the decorator def __init__(self): pass def public_method(self, exponent: float) -> float: """this method will be exposed into OmniGraph, along with its' documentation here. The function signature is necessary on every argument except for ``self``, which is implied.""" return self.public_var ** exponent This results in the following menu and implementation: .. image:: images/Autoclass01.png .. image:: images/Autoclass02.png Note that getters and setters take in a ``target`` variable. This allows users to pass in a reference to an existing class. See `Passing Python Types in AutoNode`_ for more details. Decorator Parameters ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ``pure`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Boolean. Setting ``@og.AutoFunc(pure=True)`` will generate a method that can be used in a push or execute context, without an execution input or output. ``AutoFunc`` only. For example, these two functions: .. code-block:: python import omni.graph.core as og @og.AutoFunc(pure=True) def dot(vec1: og.Float3, vec2: og.Float3) -> float: return vec1[0] * vec2[0] + vec1[1] * vec2[1] + vec1[2] * vec2[2] @og.AutoFunc() def exec_dot(vec1: og.Float3, vec2: og.Float3) -> float: return vec1[0] * vec2[0] + vec1[1] * vec2[1] + vec1[2] * vec2[2] Will generate these nodes: .. image:: images/pure.png ``module_name`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Specifies where the node will be registered. This affects UI menus and node spawning by name. For example, setting .. code-block:: python import omni.graph.core as og import MyModule @og.AutoFunc(module_name="test_module") def add_one(input: int) -> int: return input + 1 og.AutoClass(module_name="test_module")(MyModule.TestClass) Will result in a UI displaying access to this node from ``test_module`` ``ui_name`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Specifies the onscreen name of the function. ``AutoFunc`` only. ``annotation`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ See `Annotations: Overriding CPython Types`_. ``tags`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Array of text tags to be added to the node. ``metadata`` ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Other metadata to pass through AutoNode, such as icon information. Supported Types -------------------------------------------------------------------------------- Currently, this is the list of types supported by AutoNode: .. code-block:: python import omni.graph.core as og # Generic Vectors [og.Vector3d, og.Vector3h, og.Vector3f] # Scalar and Vector types [og.Float, og.Float2, og.Float3, og.Float4] [og.Half, og.Half2, og.Half3, og.Half4] [og.Double, og.Double2, og.Double3, og.Double4] [og.Int, og.Int2, og.Int3, og.Int4] # Matrix Types [og.Matrix2d, og.Matrix3d, og.Matrix4d] # Vector Types with roles [og.Normal3d, og.Normal3f, og.Normal3h] [og.Point3d, og.Point3f, og.Point3h] [og.Quatd, og.Quatf, og.Quath] [og.TexCoord2d, og.TexCoord2f, og.TexCoord2h] [og.TexCoord3d, og.TexCoord3f, og.TexCoord3h] [og.Color3d, og.Color3f, og.Color3h, og.Color4d, og.Color4f, og.Color4h] # Specialty Types [og.Timecode, og.Uint, og.Uchar, og.Token] # Underspecified, but accepted types # str, int, float .. note:: Not all `python typing <https://docs.python.org/3/library/typing.html>`_ types are supported. .. _Bundles: ``Bundle`` Types : The Omniverse struct +++++++++++++++++++++++++++++++++++++++ Since most of Omniverse's computations require concrete numerical types - matrices, vectors, numbers with known precision - it makes sense to have a data structure to pass them in together - and to make that data structure GPU-friendly. ``Bundle`` serves that purpose - it's a lightweight data structure which contains information about the types it holds. ``Bundle`` can be passed around between nodes in OmniGraph without special handling. Here is one example: .. code-block:: python import omni.graph.core as og @og.AutoFunc(pure=True) def pack(v: og.Float3, c: og.Color3f) -> og.Bundle: bundle = og.Bundle("return", False) bundle.create_attribute("vec", og.Float3).value = v bundle.create_attribute("col", og.Color3f).value = c return bundle @og.AutoFunc(pure=True) def unpack_vector(bundle: og.Bundle) -> og.Float3: vec = bundle.attribute_by_name("vec") if vec: return vec.value return [0,0,0] Will yield this: .. image:: images/Bundle01.png Bundles aren't just useful as ways to easily pass data structures into the graph - they're also useful within python. Passing bundles between python methods is relatively cheap, and allows all users of the data to know the exact type and size it was used in. Furthermore, usage of bundles allows OmniGraph to move data to the GPU at will. Passing Python Types in AutoNode ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ While OmniGraph can only understand and manipulated the types listed above, any python type can be passed through OmniGraph by AutoNode. This is done by using a special type called ``objectId``, which is used by AutoNode to keep a reference (usually a hash, but that can change, see `Implementation Details`_) to the object being passed through OmniGraph. Any type in a method I/O that isn't recognized by AutoNode as supported by OmniGraph is automatically handled by AutoNode like this: 1. When a method signature has a type not recognized by AutoNode, AutoNode generates an ``objectId`` signature for that type in the node's ``ogn`` descriptor. 2. When a method outputs a object whose type is represented by an ``objectId`` in the output, AutoNode stores the object in a *Temporary Object Store*, a special runtime collection of python objects resident in OmniGraph memory. 3. When an input ``objectId`` is received by a method, the method requests the object from the *Temporary Object Store*. The object store is "read once" - after a single read, the object is deleted from the store. Every subsequent call will result in an error. Special Types ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ AutoNode adds special type handlers (see `Adding Type Handlers`_) to deal with how certain types are used in practice. Enums ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Type handlers which specialize enums are built for how enums are typically used: Switching on an Enum, like an event type. The switch class has one exec input and one enum input, and exec outputs to match the number of enum members: .. code-block:: python from enum import Enum @AutoClass() class DogType(Enum): SHIBA = 1 HUSKY = 2 SALUKI = 4 Results in: .. image:: images/Enum.png Events ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ TODO Annotations: Overriding CPython Types ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Sometimes, importing modules created in CPython is essential. Those modules may not have a ``__annotations__`` property, so we can create it for them. Suppose the codeblocks above were defined in CPython and didn't contain annotations. Here we create a shim for them: .. code-block:: python import omni.graph.core as og import MyModule # Note that we don't need a decorator call, since the function is being passed as an argument og.AutoFunc(annotation={ "input": int, "return": str })(MyModule.one_up) Similarly, for classes: .. code-block:: python import omni.graph.core as og import MyModule # Note that members only get a type annotation, but functions get the entire annotation. og.AutoClass( annotation={ "public_var" : float, "public_method": { "self": MyModule.TestClass, "exponent": float, "return": float} })(MyModule.TestClass) Customizing AutoNode -------------------------------------------------------------------------------- Adding Type Handlers ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Types going through ``AutoClass`` are highly customizable. By default, when a class is scanned, it is run through a series of custom handlers, each of type ``AutoNodeDefinitionGenerator``. This class implements this interface: .. code-block:: python import omni.graph.core as og # ================================================================================ class MyDefinitionGenerator(og.AutoNodeDefinitionGenerator): """Defines a property handler""" # Fill this with the type you wish to scan _name = "MyDefinition" # -------------------------------------------------------------------------------- @classmethod def generate_from_definitions(cls, new_type: type) -> Tuple[Iterable[og.AutoNodeDefinitionWrapper], Iterable[str]]: '''This method scans the type new_type and outputs an AutoNodeDefinitionWrapper from it, representing the type, as well as a list of members it wishes to hide from the rest of the node extraction process. Args: new_type: the type to analyze by attribute Returns: a tuple of: Iterable[AutoNodeDefinitionWrapper] - an iterable of AutoNodeDefinitionWrapper - every node wrapper that is generated from this type. Iterable[str] - an iterable of all members covered by this handler that other handlers should ignore. ''' pass The emitted ``AutoNodeDefinitionGenerator`` class has the following signature: .. code-block:: python import omni.graph.core as og class MyNodeDefinitionWrapper(og.AutoNodeDefinitionWrapper): """Container for a single node representation consumed by the Ogn code generator. Class is abstract and meant to be overridden. A sufficient implementation overrides these methods: * get_ogn(self) -> Dict * get_node_impl(self) * get_unique_name(self) -> str * get_module_name(self) -> str """ def __init__(self): super().__init__() # -------------------------------------------------------------------------------- def get_ogn(self) -> Dict: """Get the Ogn dictionary representation of the node interface. Overrides the AutoNodeDefinitionWrapper function of the same name. """ return {} # -------------------------------------------------------------------------------- def get_node_impl(self): """Returns the Ogn class implementing the node behavior. See the OmniGraph documentation on how to implement. A sufficient implementation contains a staticmethod with the function: compute(db) Overrides the AutoNodeDefinitionWrapper function of the same name. """ return None # -------------------------------------------------------------------------------- def get_unique_name(self) -> str: """Get nodes unique name, to be saved as an accessor in the node database. Overrides the AutoNodeDefinitionWrapper function of the same name. Returns: the nongled unique name """ return "" # -------------------------------------------------------------------------------- def get_module_name(self) -> str: """Get the module this AutoNode method was defined in. Overrides the AutoNodeDefinitionWrapper function of the same name. Returns: the module name """ return "" For more information on node implementations requires for ``get_node_impl``, read :ref:`ogn_tutorial_complexData_py`. Here is an example of creating an extension for ``enum`` types: .. code-block:: python from typing import Dict, OrderedDict, Tuple, Iterable import omni.graph.core as og # ================================================================================ class OgnEnumExecutionWrapper: # We use the __init_subclass__ mechanism to execute operations on a type def __init_subclass__(cls, target_class: type) -> None: # __members__ are the property required for identifying an enum cls.member_names = [name for name in target_class.__members__] cls.value_to_name = { getattr(target_class, name): name for name in target_class.__members__} # -------------------------------------------------------------------------------- @classmethod def compute(*args): cls = args[0] db = args[1] # don't execute if there's no need if not db.inputs.exec: return True input = db.inputs.enum input_value = og.TypeRegistry.instance().refs.pop(input) name = cls.value_to_name.get(input_value.value, None) if name is not None: out = getattr(db.outputs.attributes, name) db.outputs.context_helper.set_attr_value(True, out) return True return False # ================================================================================ class OgnEnumWrapper(og.AutoNodeDefinitionWrapper): """Wrapper around Enums""" def __init__( self, target_class, unique_name: str, module_name: str, *, ui_name: str = None): """Generate a definition from a parsed enum """ self.target_class = target_class self.unique_name = unique_name self.ui_name = ui_name or target_class.__name__ self.module_name = module_name # begin building the ogn descriptor self.descriptor: Dict = {} self.descriptor["uiName"] = ui_name self.descriptor["version"] = 1 self.descriptor["language"] = "Python" self.descriptor["description"] = f"Enum Wrapper for {self.ui_name}" self.descriptor["inputs"] = OrderedDict({ "enum": { "uiName": "Input", "description": "Enum input", "type": "uint64", "default": 0, "metadata": { "python_type_desc" : self.unique_name }}, "exec": { "uiName": "Exec", "description": "Execution input", "type": "execution", "default": 0 }}) def signature(name): return { "description": f"Execute on {name}", "type": "execution", "default": 0 } self.descriptor["outputs"] = OrderedDict({ name: signature(name) for name in self.target_class.__members__ }) # -------------------------------------------------------------------------------- def get_unique_name(self) -> str: """overloaded from AutoNodeDefinitionWrapper""" return self.unique_name # -------------------------------------------------------------------------------- def get_module_name(self) -> str: """overloaded from AutoNodeDefinitionWrapper""" return self.module_name # -------------------------------------------------------------------------------- def get_node_impl(self): """overloaded from AutoNodeDefinitionWrapper""" class OgnEnumReturnType( OgnEnumExecutionWrapper, target_class=self.target_class): pass return OgnEnumReturnType # -------------------------------------------------------------------------------- def get_ogn(self) -> Dict: """overloaded from AutoNodeDefinitionWrapper""" d = {self.unique_name: self.descriptor} return d # ================================================================================ class EnumAutoNodeDefinitionGenerator(og.AutoNodeDefinitionGenerator): _name = "Enum" # -------------------------------------------------------------------------------- @classmethod def generate_from_definitions( cls, target_type: type, type_name_sanitized: str, type_name_short: str, module_name: str) -> Tuple[Iterable[og.AutoNodeDefinitionWrapper], Iterable[str]]: members_covered = set() returned_generators = set() if hasattr(target_type, "__members__"): ret = OgnEnumWrapper( target_type, unique_name=type_name_sanitized, module_name=module_name, ui_name=f"Switch on {type_name_short}") members_covered.update(target_type.__members__) returned_generators.add(ret) return returned_generators, members_covered # ================================================================================ # submit this to AutoNode og.register_autonode_type_extension(og.EnumAutoNodeDefinitionGenerator) Implementation Details ------------------------------ This information is presented for debugging purposes. *Do not rely on this information for your API*. Name Mangling ++++++++++++++++++++++++++++++ To avoid name collisions between two nodes from different origins, OGN mangles names of functions. *If you are only using the UI to access your nodes, this shouldn't interest you*, but when accessing autogenerated nodes from code, the full node name is used. Mangling is done according to these rules: * Function specifiers have their ``.`` s replaced with ``__FUNC__`` as an infix, like: ``MyClass.Function -> MyClass__FUNC__Function`` * Property specifiers have their ``.`` s replaced with ``__PROP__`` as an infix, like: ``MyClass.Property -> MyClass__PROP__Property`` * Property getters and setters are suffixed as ``__GET`` and ``__SET``, like so: ``MyClass__PROP__Property__GET`` and ``MyClass__PROP__Property__SET`` * If any of those are nested inside another namespace will replace their separating dots with ``__NSP__`` Here is an example with conversions: .. code-block:: python import omni.graph.core as og @og.AutoClass(module_name="test_module") class TestClass: class TestSubclass: # TestClass__NSP__TestSubclass__PROP__public_var__GET # TestClass__NSP__TestSubclass__PROP__public_var__SET public_var: float = 3.141 # TestClass__FUNC__public_method def public_method(self, exponent: float) -> float: return self.public_var ** exponent This is done in order to spawn the node with code, like so: .. code-block:: python import omni.graph.core as og # This brings up `add_one` from the example above. path_01 = '/Test/MyNodes/AddOne' add_one = og.Controller.create_node(path_01, 'test_module.add_one') # This brings up `TestClass.public_method` from the example above. path_02 = '/Test/MyNodes/TestClassGetPublicMethod' public_method = og.Controller.create_node(path_02, 'test_module.TestClass__FUNC__public_method') path_03 = '/Test/MyNodes/TestClassGetPublicMethod' public_var_getter = og.Controller.create_node(path_03, 'test_module.TestClass__NSP__TestSubclass__PROP__public_var__GET')

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omniverse-code/kit/exts/omni.graph/docs/running_one_script.rst

.. _run_omnigraph_python_script: Running Minimal Kit With OmniGraph ================================== The Kit application at its core is a basic framework from plugging in extensions with a common communication method. We can take advantage of this to run a script that works with OmniGraph without pulling in the entire Kit overhead. Running With Python Support --------------------------- The most user-friendly approach to running a minimal version of Kit with OmniGraph is to make use of the `omni.graph` extension, which adds Python bindings and scripts to the OmniGraph core. Your extension must have a dependency on `omni.graph` using these lines in your `extension.toml` file: .. code-block:: toml [dependencies] "omni.graph" = {} Let's say your extension, `omni.my.extension`, has a single node type `MyNodeType` that when executed will take a directory path name as input and will print out the number of files and total file size of every file in that directory. This is a script that will set up and execute an OmniGraph that creates a node that will display that information for the Omniverse Cache directory. .. code-block:: Python import carb import omni.graph.core as og import omni.usd # This is needed to initialize the OmniGraph backing omni.usd.get_context().new_stage() # Get the cache directory to be examined cache_directory = carb.tokens.get_tokens_interface().resolve("${omni_cache}") # Create a graph with the node that will print out the cache directory contents _ = og.Controller.edit("/CacheGraph", { og.Controller.Keys.CREATE_NODES: ("MyNode", "omni.my.extension.MyNodeType"), og.Controller.Keys.SET_VALUES: ("MyNode.inputs:directory", cache_directory) }) # Evaluate the node to complete the operation og.Controller.evaluate_sync() If this script is saved in the file `showCache.py` then you run this from your Kit executable directory: .. code-block:: sh $ ./kit.exe --enable omni.my.extension --exec showCache.py C:/Kit/cache contained 123 files with a total size of 456,789 bytes .. note:: Running with only `omni.graph` enabled will work, but it is just a framework and has no nodes of its own to execute. That is why you must enable your own extension. You might also want to enable other extensions such as `omni.graph.nodes` or `omni.graph.action` if you want to access the standard set of OmniGraph nodes. Running With Just The Core -------------------------- If you have an extension that uses the C++ ABI to create and manipulate an OmniGraph you can run Kit with only your extension enabled, executing a script that will trigger the code you wish to execute. Your extension must have a dependency on `omni.graph.core` using these lines in your `extension.toml` file: .. code-block:: toml [dependencies] "omni.graph.core" = {} You can then run your own script `setUpOmniGraphAndEvaluate.py` that executes your C++ code to create and evaluate the graph in a way similar to the above, but using the C++ ABI, with the same command line: .. code-block:: sh $ ./kit.exe --enable omni.my.extension --exec setUpOmniGraphAndEvaluate.py

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omniverse-code/kit/exts/omni.graph/docs/controller.rst

.. _omnigraph_controller_class: OmniGraph Controller Class ========================== .. _howto_omnigraph_controller: The primary interface you can use for interacting with OmniGraph is the `Controller` class. It is in the main module so you can access it like this: .. code-block:: python import omni.graph.core as og keys = og.Controller.Keys controller = og.Controller() .. note:: For future examples these two lines will be assumed to be present. Structure --------- The `Controller` class is an amalgam of several other classes with specific subsets of functionality. It derives from each of them, so that all of their functionality can be accessed through the one `Controller` class. - **GraphController** handles operations that affect the structure of the graph - **NodeController** handles operations that affect individual nodes - **ObjectLookup** provides a generic set of interfaces for finding OmniGraph objects with a flexible set of inputs - **DataView** lets you get and set attribute values For the most part the controller functions can be accessed as static class members: .. code-block:: python og.Controller.edit("/World/MyGraph", {keys.CREATE_NODES: ("MyNode", "omni.graph.tutorials.SimpleData")}) og.Controller.edit("/World/MyGraph", {keys.SET_VALUES: ("/World/MyGraph/MyNode.inputs:a_bool", False)}) A second way to do it is to instantiate the controller so that the relative paths are all remembered: .. code-block:: python controller.edit("/World/MyGraph", {keys.CREATE_NODES: ("MyNode", "omni.graph.tutorials.SimpleData")}) controller.edit("/World/MyGraph", {keys.SET_VALUES: ("MyNode.inputs:a_bool", False)}) Or you can remember the return values of the first call yourself and reuse them: .. code-block:: python (graph, nodes, _, _) = og.Controller.edit("/World/MyGraph", {keys.CREATE_NODES: ("MyNode", "omni.graph.tutorials.SimpleData")}) og.Controller.edit(graph, {keys.SET_VALUES: (("inputs:a_bool", nodes[0]), False)) The exceptions are when using the :py:class:`omni.graph.core.DataView` functions, as that class requires an attribute in order to perform its operations. For those you can pass an `Attribute` or `AttributeValue` identifier to construct a controller that can handle those operations: .. code-block:: python controller = og.Controller(og.Controller.attribute("/World/MyGraph/MyNode.inputs:myInput")) print(f"My attribute value is {controller.get()}") .. literalinclude:: ../../../../source/extensions/omni.graph/python/_impl/controller.py :language: python :start-after: begin-controller-docs :end-before: end-controller-docs Controller Functions -------------------- In addition to the functions inherited from the other classes the `Controller` has a couple of key functions itself. There is a coroutine to evaluate one or more graphs: .. code-block:: python async def my_function(): await og.Controller.evaluate() The :py:meth:`evaluate()<omni.graph.core.Controller.evaluate>` method takes an optional parameter with a graph or list of graphs to be evaluated. By default it evaluates all graphs in the scene. If you want to evaluate but are not in a coroutine then you can use the synchronous version `evaluate_sync()` .. code-block:: python def my_normal_function(): og.Controller.evaluate_sync() The :py:meth:`evaluate_sync()<omni.graph.core.Controller.evaluate_sync>` method also takes an optional parameter with a graph or list of graphs to be evaluated. By default it evaluates all graphs in the scene. The workhorse of the controller class is the :py:meth:`edit()<omni.graph.core.Controller.edit>` method. It provides simple access to a lot of the underlying functionality for manipulating the contents of OmniGraph. It should be noted here that this method can be accessed as both a class method and an object method. The reason you would create an instance of a `Controller` object is if you wish to preserve the internal mapping of node names to instantiated node paths for future use. For example, this code sequence could be used to create a node and then set a value on one of its attributes: .. code-block:: python og.Controller.edit("/World/PushGraph", { og.Controller.Keys.CREATE_NODES: ("NewNode", "omni.graph.nodes.Add"), og.Controller.Keys.SET_VALUES: ("NewNode.inputs:a", {"type": "float", "value": 1.0}) } ) In this example the extended version of value setting is used, where both the type and value are provided so that the extended attribute type in `omni.graph.nodes.Add` can resolve its type. ObjectLookup ------------ This class contains the functions you will probably use the most. It provides an extremely flexible method for looking up OmniGraph objects from the information you have on hand. The specs it accepts as arguments can be seen in the :py:class:`class documentation<omni.graph.core.ObjectLookup>`. Here's a quick summary of the most useful methods on this class: - :py:meth:`graph()<omni.graph.core.ObjectLookup.graph>` gets an **og.Graph** object - :py:meth:`node()<omni.graph.core.ObjectLookup.node>` gets an **og.Node** object - :py:meth:`attribute()<omni.graph.core.ObjectLookup.attribute>` gets an **og.Attribute** object - :py:meth:`attribute_type()<omni.graph.core.ObjectLookup.attribute_type>` gets an **og.Type** object - :py:meth:`node_type()<omni.graph.core.ObjectLookup.node_type>` gets an **og.NodeType** object - :py:meth:`prim()<omni.graph.core.ObjectLookup.prim>` gets a **Usd.Prim** object - :py:meth:`usd_attribute()<omni.graph.core.ObjectLookup.usd_attribute>` gets a **Usd.Attribute** object - :py:meth:`variable()<omni.graph.core.ObjectLookup.variable>` gets a **og.IVariable** object Other methods will be added as they become useful. GraphController --------------- This class contains the functions that manipulate the structure of the graph, including creating a graph. The :py:class:`class documentation<omni.graph.core.GraphController>` describe the details of what it can do. Here's a quick summary of the most useful methods in the class. All but the last of them can be accessed through different keywords in the dictionary passed to :py:meth:`og.Controller.edit()<omni.graph.core.Controller.edit>`. - :py:meth:`create_graph()<omni.graph.core.GraphController.create_graph>` creates a new **og.Graph** - :py:meth:`create_node()<omni.graph.core.GraphController.create_node>` creates a new **og.Node** - :py:meth:`create_prim()<omni.graph.core.GraphController.create_prim>` creates a new **Usd.Prim** - :py:meth:`create_variable()<omni.graph.core.GraphController.create_variable>` creates a new **og.IVariable** - :py:meth:`delete_node()<omni.graph.core.GraphController.delete_node>` deletes an existing **og.Node** - :py:meth:`expose_prim()<omni.graph.core.GraphController.expose_prim>` makes a **Usd.Prim** visible to OmniGraph through a read node - :py:meth:`connect()<omni.graph.core.GraphController.connect>` connects two **og.Attributes** together - :py:meth:`disconnect()<omni.graph.core.GraphController.disconnect>` breaks an existing connection between two **og.Attributes** - :py:meth:`disconnect_all()<omni.graph.core.GraphController.disconnect_all>` disconnects everything from an existing **og.Attribute** - :py:meth:`set_variable_default_value()<omni.graph.core.GraphController.set_variable_default_value>` sets the default value of an **og.IVariable** - :py:meth:`get_variable_default_value()<omni.graph.core.GraphController.get_variable_default_value>` gets the default value of an **og.IVariable** NodeController -------------- This class contains the functions that manipulate the contents of a node. It only has a few functions. The :py:class:`class documentation<omni.graph.core.NodeController>` outlines its areas of control. Here's a quick summary of the most useful methods in the class: - :py:meth:`create_attribute()<omni.graph.core.NodeController.create_attribute>` creates a new dynamic **og.Attribute** - :py:meth:`remove_attribute()<omni.graph.core.NodeController.remove_attribute>` removes an existing dynamic **og.Attribute** - :py:meth:`safe_node_name()<omni.graph.core.NodeController.safe_node_name>` returns a node name based on an **og.NodeType** that is USD-safe .. note:: A **dynamic** attribute in this context means an attribute that can be added to the node that does not exist in the node's .ogn file. DataView -------- This class contains the functions to get and set attribute values. It has a flexible **__init__** function that can optionally take an "attribute" parameter to specify either an **og.Attribute** or **og.AttributeData** to which the data operations will apply. The :py:class:`class documentation<omni.graph.core.DataView>` shows the available functionality. Here's a quick summary of the most useful methods in the class: - :py:meth:`get()<omni.graph.core.DataView.get>` gets the current value of the attribute - :py:meth:`get_array_size()<omni.graph.core.DataView.get_array_size>` gets the number of elements in an array attribute - :py:meth:`set()<omni.graph.core.DataView.set>` sets a new value on the attribute All of these methods are set up to work either as class methods or as object methods. The difference is that when called as a class method you have add an extra parameter at the beginning that is the attribute whose value is being processed. These two calls, for example, are equivalent: .. code-block:: python attribute = og.Controller.attribute("/World/PushGraph/Add:inputs:a") # As a class method value = og.DataView.get(attribute) # or value = og.Controller.get(attribute) # As an object method value = og.DataView(attribute=attribute).get() # or value = og.Controller(attribute=attribute).get()

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omniverse-code/kit/exts/omni.graph/docs/omni.graph.core.bindings.rst

omni.graph.core.bindings ======================== All of the OmniGraph ABI interfaces have Python bindings on top of them, as well as additional bindings that provide convenient Pythonic access to some of the data. See the full description in the :ref:`Python API<omnigraph_python_api>`

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omniverse-code/kit/exts/omni.graph/docs/commands.rst

OmniGraph Commands ================== Like other extensions, the OmniGraph extensions expose undoable functionality through some basic commands. A lot of the functionality of the commands can be accessed from the *og.Controller* object, described above. OmniGraph has created a shortcut to allow more natural expression of command execution. The raw method of executing a command is something like this: .. code-block:: python import omni.graph.core as og graph = og.get_graph_by_path("/World/PushGraph") omni.kit.commands.execute("CreateNode", graph=graph, node_path="/World/PushGraph/TestSingleton", node_type="omni.graph.examples.python.TestSingleton", create_usd=True) The abbreviated method, using the constructed *cmds* object looks like this: .. code-block:: python import omni.graph.core as og graph = og.get_graph_by_path("/World/PushGraph") cmds.CreateNode(graph=graph, node_path="/World/PushGraph/TestSingleton", node_type="omni.graph.examples.python.TestSingleton", create_usd=True) However for most operations you would use the controller class, which is a single line: .. code-block:: python import omni.graph.core as og og.Controller.edit("/World/PushGraph", { og.Controller.Keys.CREATE_NODES: ("TestSingleton", "omni.graph.examples.python.TestSingleton") }) .. tip:: Running the Python command *help(omni.graph.core.cmds)* in the script editor will give you a description of all available commands.

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omniverse-code/kit/exts/omni.graph/docs/CHANGELOG.md

# Changelog All notable changes to this project will be documented in this file. The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/), and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html). ## [Unreleased] ## [1.50.2] - 2023-02-14 ### Fixed - Made test file pattern account for node files not beginning with Ogn ## [1.50.1] - 2022-11-22 ### Added - Documentation for running a minimal Kit with OmniGraph ## [1.50.0] - 2022-11-15 ### Changed - Default simple dynamic attribute values to the CPU ## [1.49.0] - 2022-11-14 ### Added - instance_path argument added to IVariable.get, get_array and set methods to specify the instance of the variable - node_type.get_path(), which returns the path to the prim associated with a node type ## [1.48.0] - 2022-11-09 ### Added - Support for redirecting dynamic attributes to the GPU ## [1.47.1] - 2022-10-18 ### Fixed - Corrected the path to the default category files ## [1.47.0] - 2022-09-28 ### Changed - Refactored controller classes to accept variable arguments in all methods and constructor ### Removed - References to obsolete set of unsupported types - Last remaining references to the obsolete ContextHelper ### Added - Argument flattening utility ## [1.46.0] - 2022-09-27 ### Added - Collection of registration and deregistration timing for Python node types ## [1.45.2] - 2022-09-01 ### Fixed - Fixed the type name access in the node controller to handle bundles properly ## [1.45.1] - 2022-08-31 ### Fixed - Refactored out use of a deprecated class ## [1.45.0] - 2022-08-30 ### Added - Handling for allocation of memory and transfer of values for Python default values ## [1.44.0] - 2022-08-25 ### Added - Access to new setting that turns deprecations into errors ## [1.43.0] - 2022-08-17 ### Added - Cross-handling of array and non-array types when compatible ## [1.42.0] - 2022-08-12 ### Changed - og.AttributeData now raise exceptions for errors instead of printing ## [1.41.1] - 2022-08-09 ### Fixed - All of the lint errors reported on the Python files in this extension ## [1.41.0] - 2022-08-02 ### Added - Optimize attribute setting from python nodes - during runtime computation we skip commands (no need for undo) ## [1.40.0] - 2022-07-27 ### Added - IBundle2 remove_attributes_by_name, remove_child_bundles_by_name ## [1.39.0] - 2022-07-27 ### Changed - Added better __repr__ to Attribute and Node ## [1.38.1] - 2022-07-26 ### Fixed - Adjusted config to avoid obsolete commands module - Added firewall protection to AutoFunc and AutoClass initialization so that they work in the script editor ## [1.38.0] - 2022-07-19 ### Added - IBundle2 interface API review ## [1.37.0] - 2022-07-12 ### Added - Python performance: database caching, prefetch and commit for batching of simple attribute reads/writes ## [1.36.0] - 2022-07-12 ### Fixed - Backward compatibility of the generated attribute descriptions. ## [1.35.0] - 2022-07-08 ### Added - omni.graph.core.Attribute.is_deprecated() - omni.graph.core.Attribute.deprecation_message() - omni.graph.core.Internal sub-module - omni.graph.core.Internal._deprecateAttribute() ## [1.34.0] - 2022-07-07 ### Changed - Refactored imports from omni.graph.tools to get the new locations - Moved node_generator/ into the _impl/ subdirectory - Made dunder attribute names in AttributeDataValueHelper into single-underscore to avoid Python compatibility problem ### Added - Test for public API consistency ## [1.33.0] - 2022-07-06 ### Added - Metadata support for IBundle2 interface ## [1.32.3] - 2022-07-04 ### Fixed - Py_GraphContext's __eq__ and __hash__ now use the underlying GraphContext object rather than the Python wrapper ## [1.32.2] - 2022-06-28 ### Changed - Made node type failure a more actionable error - Bootstrap the nodeContextHandle to allow independent database creation ### Added - Linked docs in the build area ## [1.32.1] - 2022-06-26 ### Changed - Made node type failure a more actionable error ## [1.32.0] - 2022-06-26 ### Added - Added test for clearing bundle contents ## [1.31.1] - 2022-06-21 ### Changed - Fixed error in graph_settings when loading non-schema prims ## [1.31.0] - 2022-06-17 ### Added - omni.graph.core.graph.get_evaluator_name() ## [1.30.1] - 2022-06-17 ### Added - Added ApplyOmniGraph and RemoveOmniGraph api commands ## [1.30.0] - 2022-06-13 ### Added - omni.graph.core.GraphEvaluationMode enum - evaluation_mode argument added to omni.graph.core.Graph.create_graph_as_node - evaluation_mode property added to omni.graph.core.Graph - SetEvaluationModeCommand - evaluation_mode parameter added to CreateGraphAsNodeCommand - evaluation_mode option added to GraphController ## [1.29.0] - 2022-06-13 ### Added - Temporary binding function to prevent Python node initialization from overwriting values already set ## [1.28.0] - 2022-06-07 ### Added - Added CPU-GPU pointer support in data_view class and propagation of the state through python wrapper classes ## [1.27.0] - 2022-06-07 ### Added - Support for the generator settings to complement runtime settings ## [1.26.1] - 2022-06-04 ### Fixed - Nodes with invalid connections no longer break upgrades to OmniGraph schema ## [1.26.0] - 2022-05-06 ### Fixed - Handling of runtime attributes whose bundle uses CPU to GPU pointers ### Added - Support for CPU to GPU data in the DataWrapper ## [1.25.0] - 2022-05-05 ### Removed - Python subscriptions to changes in settings, now handled in C++ ## [1.24.1] - 2022-05-05 ### Deprecated - Deprecated OmniGraphHelper and ContextHelper for og.Controller ## [1.24.0] - 2022-04-29 ### Fixed - Fixed override method for IPythonNode type ### Removed - Obsolete example files ### Added - Explicit settings handler ### Changed - Used explicit OmniGraph test handler base classes ## [1.24.0] - 2022-04-27 ### Added - *GraphController.set_variable_default_value* - *GraphController.get_variable_default_value* - *ObjectLookup.variable* - *GraphContext.get_graph_target* ## [1.23.0] - 2022-04-25 ### Added - Added a test to confirm that all version references in omni.graph.* match ## [1.22.2] - 2022-04-20 ### Fixed - Undoing the deletion of a connection's src prim will now restore the connection on undo. ## [1.22.1] - 2022-04-18 ### Changed - og.Attribute will now raise an exception when methods are called when in an invalid state. ## [1.22.0] - 2022-04-11 ### Fixed - Moved Py_Node and Py_Graph callback lists to static storage where they won't be destroyed prematurely. - Callback objects now get destroyed when the extension is unloaded. ## [1.21.1] - 2022-04-05 ### Fixed - Added hash check to avoid overwriting ogn/tests/__init__.py when it hasn't changed - Fix deprecated generator of ogn/tests/__init__.py to generate a safer, non-changing version ## [1.21.0] - 2022-03-31 ### Added - `IConstBundle2`, `IBundle2` and `IBundleFactory` interface python bindings. - Unit tests for bundle interfaces ## [1.20.1] - 2022-03-24 ### Fixed - Fixed location of live-generation of USD files from .ogn - Fixed contents of the generated tests/__init__.py file ### [1.20.0] - 2022-03-23 ### Added - *GraphEvent.CREATE_VARIABLE* and *GraphEvent.REMOVE_VARIABLE* event types - *Graph.get_event_stream()* ## [1.19.0] - 2022-03-18 ### Added - Added command to set variable tooltip ## [1.18.0] - 2022-03-16 ### Added - support for *enableLegacyPrimConnection* setting to test utils ## [1.17.1] - 2022-03-14 ### Fixed - Corrected creation of implicit graphs that were not at the root path - Added tests for such graphs and a graph in a layer ## [1.17.0] - 2022-03-11 ### Added - *Node.get_backing_bucket_id()* - *GraphContext.write_bucket_to_backing()* ## [1.16.0] - 2022-03-01 ### Added - *expected_error.ExpectedError* (moved from omni.graph.test) ### Changed - Updated OmniGraphTestCase and derived classes to use *test_case_class* ## [1.15.0] - 2022-02-16 ### Added - Added commands to create and remove variables ## [1.14.0] - 2022-02-11 ### Added - *Attribute.register_value_changed_callback* - *Database.get_variable* - *Database.set_variable* - *Controller.keys.CREATE_VARIABLES* - *GraphController.create_variable* ## [1.13.0] - 2022-02-10 ### Added - Added support for migration of old graphs to use schema prims ## [1.12.2] - 2022-02-07 ### Changed - Moved carb logging out of database.py and into Node::logComputeMessage. - Fall back to old localized logging for Python nodes which don't yet support the compute message logging ABI. ## [1.12.1] - 2022-02-04 ### Fixed - Compute counts weren't working for Python nodes - Compute messages from Python nodes weren't visible in the graph editors ## [1.12.0] - 2022-01-28 ### Added - Support for WritePrim creation in *GraphController.expose_prims* ## [1.11.0] - 2022-01-29 ### Changed - Reflecting change of omni.graph.core from 2.11 -> 2.12 ## [1.10.0] - 2022-01-27 ### Added - *ObjectLookup.usd_attribute* ## [1.9.0] - 2022-01-21 ### Added - *Node.log_compute_message* - *Node.get_compute_messages* - *Node.clear_old_compute_messages* - *Graph.register_error_status_change_callback* - *Graph.deregister_error_status_change_callback* - *Severity* enum ## [1.8.0] - 2021-12-17 ### Added - Added *NodeType.get_all_categories_* - Added *get_node_categories_interface* - Created binding class *NodeCategories* ## [1.7.0] - 2021-12-15 ### Added - Added _NodeType::isValid_ and cast to bool - Added _Controller_ class - Added _GraphController_ class ## [1.6.0] - 2021-12-06 ### Added - og.NodeEvent.ATTRIBUTE_TYPE_RESOLVE ## [1.5.2] - 2021-12-03 ### Added - Node, Attribute, AttributeData, Graph, and Type objects are now hashable in Python, meaning that they can be used in sets, as keys in dicts, etc. ### Fixed - Comparing Node and Graph objects for equality in Python now compare the actual objects referenced rather than the wrappers which hold the references - Comparing Attribute and AttributeData objects to None in Python no longer generates an exception. ## [1.5.0] - 2021-12-01 - Added functions to get extension versions for core and tools - Added cascading Python node registration process, that auto-generates when out of date - Added user cache location for live regeneration of nodes ## [1.4.0] - 2021-11-26 ### Added - Python Api `Graph.get_parent_graph` ### Fixed - Fix failure when disconnecting a connection from a subgraph node to the parent graph node ## [1.3.2] - 2021-11-24 ### Changed - Generated python nodes will emit info instead of warning when inputs are unresolved ## [1.3.1] - 2021-11-22 ### Changed - Improved error messages from wrapped functions ## [1.3.0] - 2021-11-19 ### Added - __bool__ operators added to all returned OG Objects. So `if node:` is equivalent to `if node.is_valid():` ### Changed - Bug fix in Graph getter methods ## [1.2.0] - 2021-11-10 ### Added - `og.get_node_by_path` - `get_graph_by_path`, `get_node_by_path` now return None on failure ## [1.1.0] - 2021-10-17 ### Added - og.get_graph_by_path ## [1.0.0] - 2021-10-17 ### Initial Version - Started changelog with current version of omni.graph

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omniverse-code/kit/exts/omni.graph/docs/python_api.rst

.. _omnigraph_python_api: OmniGraph Python API Documentation ********************************** .. automodule:: omni.graph.core :platform: Windows-x86_64, Linux-x86_64, Linux-aarch64 :members: :undoc-members: :imported-members:

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omniverse-code/kit/exts/omni.graph/docs/README.md

# OmniGraph [omni.graph] This extension provides the Python bindings, script support, data files, and other non-core support for the OmniGraph implementation extension `omni.graph.core`. It behaves as an addition to that extension, so you will still use the Python import path `omni.graph.core` for scripts in this directory.

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omniverse-code/kit/exts/omni.graph/docs/index.rst

.. _omnigraph_python_scripting: OmniGraph Python Scripting ########################## .. tabularcolumns:: |L|R| .. csv-table:: :width: 100% **Extension**: omni.graph,**Documentation Generated**: |today| While the core part of OmniGraph is built in C++ there are Python bindings and scripts built on top of it to make it easier to work with. Importing --------- The Python interface is exposed in a consistent way so that you can easily find any of the OmniGraph scripting information. Any script can start with this simple import, in the spirit of how popular packages such as `numpy` and `pandas` work: .. code-block:: python import omni.graph.core as og Using this module you can access internal documentation through the usual Python mechanisms: .. code-block:: python help(og) Bindings -------- The first level of support is the :doc:`Python Bindings<omni.graph.core.bindings>` which provide a wrapper on top of the C++ ABI of the OmniGraph core. These have been made available from the same import to make user of all OmniGraph functionality consistent. When you are programming in Python you really don't need to be aware of the C++ underpinnings. The bound functions have all of the same documentation available at runtime so they can be inspected in the same way you would work with any regular Pythyon scripts. For the most part the bindings follow the C++ ABI closely, with the minor exception of using the standard PEP8 naming conventions rather than the established C++ naming conventions. For example a C++ ABI function `getAttributeType` will be named `get_attribute_type` in the Python binding. This was primarily done to deemphasize the boundary between Python and C++ so that Python writers can stick with Python conventions and C++ writers can stick with C++ conventions. As the Python world doesn't have the C++ concept of an interface definition there is no separation between the objects providing the functionality and the objects storing the implementation and data. For example in C++ you would have an `AttributeObj` which contains a handle to the internal data and a reference to the `IAttribute` interface definition. In Python you only have the `og.Attribute` object which encapsulates both. You can see the online version of the Python documentation at :ref:`omnigraph_python_api`. The One Thing You Need ---------------------- A lot of the imported submodules and functions available are used internally by generated code and you won't have much occasion to use them. You can explore the internal documentation to see if any look useful to you. The naming was intentionally made verbose so that it's easier to discover functionality. .. _ogn_omnigraph_controller: One class deserves special attention though, as it is quite useful for interacting with the OmniGraph. .. code-block:: python import omni.graph.core as og controller = og.Controller() The `Controller` class provides functionality for you to change the graph topology, or modify and inspect values within the graph. .. literalinclude:: ../python/_impl/controller.py :language: python :start-after: begin-controller-docs :end-before: end-controller-docs See the internal documentation at :py:class:`omni.graph.core.Controller` for details, or take a tour of how to use the controller with :ref:`this how-to documentation<howto_omnigraph_controller>` .. toctree:: :maxdepth: 1 :caption: Contents OmniGraph Commands <commands> How-To Guides<../../omni.graph.core/docs/how_to.rst> running_one_script Python API <python_api> omni.graph.core.bindings autonode How versions are updated <../../omni.graph.core/docs/versioning> controller runtimeInitialize testing CHANGELOG

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omniverse-code/kit/exts/omni.kit.actions.core/omni/kit/actions/core/_kit_actions_core.pyi

"""pybind11 omni.kit.actions.core bindings""" from __future__ import annotations import omni.kit.actions.core._kit_actions_core import typing __all__ = [ "Action", "IActionRegistry", "acquire_action_registry", "release_action_registry" ] class Action(): """ Abstract action base class. """ def __init__(self, extension_id: str, action_id: str, python_object: object, display_name: str = '', description: str = '', icon_url: str = '', tag: str = '') -> None: """ Create an action. Args: extension_id: The id of the source extension registering the action. action_id: Id of the action, unique to the extension registering it. python_object: The Python object called when the action is executed. display_name: The name of the action for display purposes. description: A brief description of what the action does. icon_url: The URL of an image which represents the action. tag: Arbitrary tag used to group sets of related actions. Return: The action that was created. """ def execute(self, *args, **kwargs) -> object: """ Execute the action. Args: *args: Variable length argument list which will be forwarded to execute. **kwargs: Arbitrary keyword arguments that will be forwarded to execute. Return: The result of executing the action, converted to a Python object (could be None). """ def invalidate(self) -> None: """ Invalidate this action so that executing it will not do anything. This can be called if it is no longer safe to execute the action, and by default is called when deregistering an action (optional). """ @property def description(self) -> str: """ Get the description of this action. Return: str: The description of this action. :type: str """ @property def display_name(self) -> str: """ Get the display name of this action. Return: str: The display name of this action. :type: str """ @property def extension_id(self) -> str: """ Get the id of the source extension which registered this action. Return: str: The id of the source extension which registered this action. :type: str """ @property def icon_url(self) -> str: """ Get the URL of the icon used to represent this action. Return: str: The URL of the icon used to represent this action. :type: str """ @property def id(self) -> str: """ Get the id of this action, unique to the extension that registered it. Return: str: The id of this action, unique to the extension that registered it. :type: str """ @property def parameters(self) -> dict: """ Get the parameters accepted by this action's execute function. Return: dict: The parameters accepted by this action's execute function. :type: dict """ @property def requires_parameters(self) -> bool: """ Query whether this action requires any parameters to be passed when executed? Return: bool: True if this action requires any parameters to be passed when executed, false otherwise. :type: bool """ @property def tag(self) -> str: """ Get the tag that this action is grouped with. Return: str: The tag that this action is grouped with. :type: str """ pass class IActionRegistry(): """ Maintains a collection of all registered actions and allows any extension to discover them. """ @staticmethod def deregister_action(*args, **kwargs) -> typing.Any: """ Deregister an action. Args: action: The action to deregister. invalidate: Should the action be invalidated so executing does nothing? Find and deregister an action. Args: extension_id: The id of the source extension that registered the action. action_id: Id of the action, unique to the extension that registered it. invalidate: Should the action be invalidated so executing does nothing? Return: The action if it exists and was deregistered, an empty object otherwise. """ def deregister_all_actions_for_extension(self, extension_id: str, invalidate: bool = True) -> None: """ "Deregister all actions that were registered by the specified extension. Args: extension_id: The id of the source extension that registered the actions. iinvalidate: Should the actions be invalidated so executing does nothing? """ def execute_action(self, extension_id: str, action_id: str, *args, **kwargs) -> object: """ Find and execute an action. Args: extension_id: The id of the source extension that registered the action. action_id: Id of the action, unique to the extension that registered it. *args: Variable length argument list which will be forwarded to execute. **kwargs: Arbitrary keyword arguments that will be forwarded to execute. Return: The result of executing the action, which is an arbitrary Python object that could be None (will also return None if the action was not found). """ @staticmethod def get_action(*args, **kwargs) -> typing.Any: """ Get an action. Args: extension_id: The id of the source extension that registered the action. action_id: Id of the action, unique to the extension that registered it. Return: The action if it exists, an empty object otherwise. """ @staticmethod def get_all_actions(*args, **kwargs) -> typing.Any: """ Get all registered actions. Return: All registered actions. """ @staticmethod def get_all_actions_for_extension(*args, **kwargs) -> typing.Any: """ Get all actions that were registered by the specified extension. Args: extension_id: The id of the source extension that registered the actions. Return: All actions that were registered by the specified extension. """ @staticmethod def register_action(*args, **kwargs) -> typing.Any: """ Register an action. Args: action: The action to register. Create and register an action. Args: extension_id: The id of the source extension registering the action. action_id: Id of the action, unique to the extension registering it. python_object: The Python object called when the action is executed. display_name: The name of the action for display purposes. description: A brief description of what the action does. icon_url: The URL of an image which represents the action. tag: Arbitrary tag used to group sets of related actions. Return: The action if it was created and registered, an empty object otherwise. """ pass def acquire_action_registry(plugin_name: str = None, library_path: str = None) -> IActionRegistry: pass def release_action_registry(arg0: IActionRegistry) -> None: pass

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omniverse-code/kit/exts/omni.kit.actions.core/omni/kit/actions/core/__init__.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. # """ Omni Kit Actions Core --------------------- Omni Kit Actions Core is a framework for creating, registering, and discovering actions. Here is an example of registering an action that creates a new file when it is executed: .. code-block:: action_registry = omni.kit.actions.core.get_action_registry() actions_tag = "File Actions" action_registry.register_action( extension_id, "new", omni.kit.window.file.new, display_name="File->New", description="Create a new USD stage.", tag=actions_tag, ) For more examples, please consult the Python and C++ Usage Example pages. For Python API documentation, please consult the following subpages. For C++ API documentation, please consult the API(C++) page. """ __all__ = ["Action", "IActionRegistry", "get_action_registry", "execute_action"] from .actions import *

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omniverse-code/kit/exts/omni.kit.actions.core/omni/kit/actions/core/actions.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.ext from ._kit_actions_core import * # Put interface object publicly to use in our API. _action_registry = None # public API def get_action_registry() -> IActionRegistry: """ Get the action registry. Return: ActionRegistry object which implements the IActionRegistry interface. """ return _action_registry def execute_action(extension_id: str, action_id: str, *args, **kwargs): """ Find and execute an action. Args: extension_id: The id of the source extension that registered the action. action_id: Id of the action, unique to the extension that registered it. *args: Variable length argument list which will be forwarded to execute. **kwargs: Arbitrary keyword arguments that will be forwarded to execute. Return: The result of executing the action, which is an arbitrary Python object that could be None (will also return None if the action was not found). """ return get_action_registry().execute_action(extension_id, action_id, *args, **kwargs) # Use extension entry points to acquire and release the interface. class ActionsExtension(omni.ext.IExt): def __init__(self): super().__init__() global _action_registry _action_registry = acquire_action_registry() def on_shutdown(self): global _action_registry release_action_registry(_action_registry) _action_registry = None

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omniverse-code/kit/exts/omni.kit.actions.core/omni/kit/actions/core/tests/test_actions.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 inspect import omni.kit.test import omni.kit.app import omni.kit.actions.core from ._kit_actions_core_tests import * _last_args = None _last_kwargs = None _was_called = False _action_tests = None _print_execution_info = False def setUpModule(): global _action_tests _action_tests = acquire_action_tests() _action_tests.print_test_action_execution_info = _print_execution_info def tearDownModule(): global _action_tests release_action_tests(_action_tests) _action_tests = None def test_callable_function(*args, **kwargs): global _last_args, _last_kwargs, _was_called, _print_execution_info _last_args = args _last_kwargs = kwargs _was_called = True if _print_execution_info: print(f"Executed test callable function with args: {args} and kwargs: {kwargs}") return list(_last_args) def test_execute_callable_function_action_with_args(test_context, *args, **kwargs): global _last_args, _last_kwargs, _was_called _last_args = None _last_kwargs = None _was_called = False result = test_context.test_callable_function_action.execute(*args, **kwargs) test_context.assertTrue(_was_called) test_context.assertListEqual(result, list(args)) test_context.assertListEqual(list(_last_args), list(args)) test_context.assertDictEqual(_last_kwargs, kwargs) class TestCallableClass: def __call__(self, *args, **kwargs): global _print_execution_info self.last_args = args self.last_kwargs = kwargs self.was_called = True if _print_execution_info: print(f"Executed test callable object with args: {args} and kwargs: {kwargs}") return list(self.last_args) def test_execute_callable_object_action_with_args(test_context, *args, **kwargs): test_context.test_callable_object.last_args = None test_context.test_callable_object.last_kwargs = None test_context.test_callable_object.was_called = False result = test_context.test_callable_object_action.execute(*args, **kwargs) test_context.assertTrue(test_context.test_callable_object.was_called) test_context.assertListEqual(result, list(args)) test_context.assertListEqual(list(test_context.test_callable_object.last_args), list(args)) test_context.assertDictEqual(test_context.test_callable_object.last_kwargs, kwargs) def test_execute_lambda_action_with_args(test_context, *args, **kwargs): result = test_context.test_lambda_action.execute(*args, **kwargs) test_context.assertTrue(result) def test_execute_cpp_action_with_args(test_context, *args, **kwargs): test_context.test_cpp_action.reset_execution_count() test_context.assertEqual(test_context.test_cpp_action.execution_count, 0) result = test_context.test_cpp_action.execute(*args, **kwargs) test_context.assertTrue(result) test_context.assertEqual(test_context.test_cpp_action.execution_count, 1) test_context.assertTrue(test_context.test_cpp_action.was_executed_with_args(*args, **kwargs)) test_context.test_cpp_action.reset_execution_count() test_context.assertEqual(test_context.test_cpp_action.execution_count, 0) class TestActions(omni.kit.test.AsyncTestCase): async def setUp(self): global _action_tests # Cache the action tests and action registry interfaces. self.extension_id = "omni.kit.actions.core_tests" self.action_tests = _action_tests self.action_registry = omni.kit.actions.core.get_action_registry() # Register a test action that invokes a Python function. self.test_callable_function_action = self.action_registry.register_action( self.extension_id, "test_callable_function", test_callable_function, display_name="Test Callable Function Action", description="An action which invokes a callable Python function.", tag="TestTag", ) # Register a test action that invokes a Python object. self.test_callable_object = TestCallableClass() self.test_callable_object_action = self.action_registry.register_action( self.extension_id, "test_callable_object", self.test_callable_object, display_name="Test Callable Object Action", description="An action which invokes a callable Python object.", ) # Create and register a test action that invokes a C++ lambda. self.test_lambda_action = self.action_tests.create_test_lambda_action( self.extension_id, "test_lambda_action", "Test Lambda Action", "A lambda action which was created in C++." ) self.action_registry.register_action(self.test_lambda_action) # Create a test action in C++. self.test_cpp_action = self.action_tests.create_test_cpp_action( self.extension_id, "test_cpp_action", "Test Cpp Action", "An action which was created in C++." ) self.action_registry.register_action(self.test_cpp_action) async def tearDown(self): # Deregister all the test actions. self.action_registry.deregister_action(self.test_cpp_action) self.action_registry.deregister_action(self.test_lambda_action) self.action_registry.deregister_action(self.extension_id, "test_callable_object") self.action_registry.deregister_action(self.extension_id, "test_callable_function") # Destroy all the test actions. self.test_cpp_action = None self.test_lambda_action = None self.test_callable_object = None self.test_callable_object_action = None self.test_callable_function_action = None # Clear the action tests and action registry interfaces. self.action_registry = None self.action_tests = None self.extension_id = None async def test_find_registered_action(self): action = self.action_registry.get_action(self.extension_id, "test_callable_function") self.assertIsNotNone(action) action = self.action_registry.get_action(self.extension_id, "test_callable_object") self.assertIsNotNone(action) action = self.action_registry.get_action(self.extension_id, "test_lambda_action") self.assertIsNotNone(action) action = self.action_registry.get_action(self.extension_id, "test_cpp_action") self.assertIsNotNone(action) async def test_find_unregistered_action(self): action = self.action_registry.get_action(self.extension_id, "some_unregistered_action") self.assertIsNone(action) async def test_access_action_fields(self): action = self.action_registry.get_action(self.extension_id, "test_callable_function") self.assertEqual(action.id, "test_callable_function") self.assertEqual(action.extension_id, self.extension_id) self.assertEqual(action.display_name, "Test Callable Function Action") self.assertEqual(action.description, "An action which invokes a callable Python function.") self.assertEqual(action.icon_url, "") self.assertEqual(action.tag, "TestTag") async def test_get_all_actions(self): # If any of the asserts below fail, the 'actions' list object doesn't seem to get cleaned up properly, # resulting in a crash instead of a failed test. To protect against this we'll cache all the things we # need to assert are valid and clear the 'actions' list object before performing any of the asserts. actions = self.action_registry.get_all_actions() found_registered_action_0 = ( not (next((action for action in actions if action.id == "test_callable_function"), None)) is None ) found_registered_action_1 = ( not (next((action for action in actions if action.id == "test_callable_object"), None)) is None ) found_registered_action_2 = ( not (next((action for action in actions if action.id == "test_lambda_action"), None)) is None ) found_registered_action_3 = ( not (next((action for action in actions if action.id == "test_cpp_action"), None)) is None ) found_unregistered_action = ( not (next((action for action in actions if action.id == "some_unregistered_action"), None)) is None ) actions_length = len(actions) actions.clear() self.assertTrue(found_registered_action_0) self.assertTrue(found_registered_action_1) self.assertTrue(found_registered_action_2) self.assertTrue(found_registered_action_3) self.assertFalse(found_unregistered_action) # Ideally we would assert that the number of actions found is what we expect, # but the kit app itself registers some actions and we don't want to have to # keep updating this test to account for those, so we won't assert for this. # self.assertEqual(actions_length, 4) async def test_get_all_actions_registered_by_extension(self): # If any of the asserts below fail, the 'actions' list object doesn't seem to get cleaned up properly, # resulting in a crash instead of a failed test. To protect against this we'll cache all the things we # need to assert are valid and clear the 'actions' list object before performing any of the asserts. self.action_registry.register_action("some_other_extension_id", "test_action_registered_by_another_extension", test_callable_function) actions = self.action_registry.get_all_actions_for_extension(self.extension_id) found_registered_action_0 = ( not (next((action for action in actions if action.id == "test_callable_function"), None)) is None ) found_registered_action_1 = ( not (next((action for action in actions if action.id == "test_callable_object"), None)) is None ) found_registered_action_2 = ( not (next((action for action in actions if action.id == "test_lambda_action"), None)) is None ) found_registered_action_3 = ( not (next((action for action in actions if action.id == "test_cpp_action"), None)) is None ) found_unregistered_action = ( not (next((action for action in actions if action.id == "some_unregistered_action"), None)) is None ) found_action_registered_by_another_extension = ( not (next((action for action in actions if action.id == "test_action_registered_by_another_extension"), None)) is None ) actions.clear() self.assertTrue(found_registered_action_0) self.assertTrue(found_registered_action_1) self.assertTrue(found_registered_action_2) self.assertTrue(found_registered_action_3) self.assertFalse(found_unregistered_action) self.assertFalse(found_action_registered_by_another_extension) actions = self.action_registry.get_all_actions_for_extension("some_other_extension_id") found_registered_action_0 = ( not (next((action for action in actions if action.id == "test_callable_function"), None)) is None ) found_registered_action_1 = ( not (next((action for action in actions if action.id == "test_callable_object"), None)) is None ) found_registered_action_2 = ( not (next((action for action in actions if action.id == "test_lambda_action"), None)) is None ) found_registered_action_3 = ( not (next((action for action in actions if action.id == "test_cpp_action"), None)) is None ) found_unregistered_action = ( not (next((action for action in actions if action.id == "some_unregistered_action"), None)) is None ) found_action_registered_by_another_extension = ( not (next((action for action in actions if action.id == "test_action_registered_by_another_extension"), None)) is None ) actions.clear() self.assertFalse(found_registered_action_0) self.assertFalse(found_registered_action_1) self.assertFalse(found_registered_action_2) self.assertFalse(found_registered_action_3) self.assertFalse(found_unregistered_action) self.assertTrue(found_action_registered_by_another_extension) self.action_registry.deregister_action("some_other_extension_id", "test_action_registered_by_another_extension") async def test_create_actions_on_registeration(self): self.action_registry.register_action(self.extension_id, "test_python_action_created_on_registration", test_callable_function) action = self.action_registry.get_action(self.extension_id, "test_python_action_created_on_registration") self.assertIsNotNone(action) self.action_tests.create_test_action_on_registrartion(self.extension_id, "test_cpp_action_created_on_registration") action = self.action_registry.get_action(self.extension_id, "test_cpp_action_created_on_registration") self.assertIsNotNone(action) self.action_registry.deregister_action(self.extension_id, "test_cpp_action_created_on_registration") action = self.action_registry.get_action(self.extension_id, "test_cpp_action_created_on_registration") self.assertIsNone(action) self.action_registry.deregister_action(self.extension_id, "test_python_action_created_on_registration") action = self.action_registry.get_action(self.extension_id, "test_python_action_created_on_registration") self.assertIsNone(action) async def test_get_parameters(self): def test_function(): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(arg0): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(arg0, arg1): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(arg0, arg1, arg2): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(*args, **kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) def test_function(arg0, *args, **kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertDictEqual(test_action.parameters, dict(inspect.signature(test_function).parameters)) async def test_requires_parameters(self): def test_function(): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(arg0): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertTrue(test_action.requires_parameters) def test_function(arg0=False): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(arg0, arg1=False): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertTrue(test_action.requires_parameters) def test_function(arg0=True, arg1=False): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(arg0="Nine", arg1=-9, arg2=False): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(*args, **kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) def test_function(arg0, *args, **kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertTrue(test_action.requires_parameters) def test_function(arg0="Nine", *args, **kwargs): self.assertFalse(True) # Should never be called test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) self.assertFalse(test_action.requires_parameters) async def test_execute_callable_function_action(self): global _last_args, _last_kwargs, _was_called _last_args = None _last_kwargs = None _was_called = False result = self.test_callable_function_action.execute() self.assertTrue(_was_called) self.assertFalse(result) self.assertFalse(_last_args) self.assertFalse(_last_kwargs) async def test_execute_callable_object_action(self): self.test_callable_object.last_args = None self.test_callable_object.last_kwargs = None self.test_callable_object.was_called = False result = self.test_callable_object_action.execute() self.assertTrue(self.test_callable_object.was_called) self.assertFalse(result) self.assertFalse(self.test_callable_object.last_args) self.assertFalse(self.test_callable_object.last_kwargs) async def test_execute_lambda_action(self): result = self.test_lambda_action.execute() self.assertTrue(result) async def test_execute_cpp_action(self): self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) result = self.test_cpp_action.execute() self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 1) result = self.test_cpp_action.execute() self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 2) result = self.test_cpp_action.execute() self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 3) self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) async def test_execute_action_using_id(self): global _last_args, _last_kwargs, _was_called _last_args = None _last_kwargs = None _was_called = False result = omni.kit.actions.core.execute_action(self.extension_id, "test_callable_function") self.assertTrue(_was_called) self.assertFalse(result) self.assertFalse(_last_args) self.assertFalse(_last_kwargs) self.test_callable_object.last_args = None self.test_callable_object.last_kwargs = None self.test_callable_object.was_called = False result = omni.kit.actions.core.execute_action(self.extension_id, "test_callable_object", True, 9, "Nine") self.assertTrue(self.test_callable_object.was_called) self.assertListEqual(result, [True, 9, "Nine"]) self.assertListEqual(list(self.test_callable_object.last_args), [True, 9, "Nine"]) self.assertFalse(self.test_callable_object.last_kwargs) async def test_find_and_execute_python_action_from_cpp(self): self.test_callable_object.last_args = None self.test_callable_object.last_kwargs = None self.test_callable_object.was_called = False result = self.action_tests.find_and_execute_test_action_from_cpp(self.extension_id, "test_callable_object") self.assertTrue(self.test_callable_object.was_called) self.assertFalse(result) self.assertFalse(self.test_callable_object.last_args) self.assertFalse(self.test_callable_object.last_kwargs) async def test_find_and_execute_cpp_action_from_cpp(self): self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) result = self.action_tests.find_and_execute_test_action_from_cpp(self.extension_id, "test_cpp_action") self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 1) self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) async def test_find_and_execute_cpp_action_from_python(self): self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) action = self.action_registry.get_action(self.extension_id, "test_cpp_action") self.assertIsNotNone(action) result = action.execute() self.assertTrue(result) self.assertEqual(self.test_cpp_action.execution_count, 1) self.test_cpp_action.reset_execution_count() self.assertEqual(self.test_cpp_action.execution_count, 0) async def test_execute_action_with_return_value(self): test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", lambda x: x * x) result = test_action.execute(9) self.assertEqual(result, 81) result = self.action_tests.execute_square_value_action_from_cpp(8) self.assertEqual(result, 64) async def test_invalidate_python_action(self): test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", lambda x: x * x) result = test_action.execute(9) self.assertEqual(result, 81) test_action.invalidate() result = test_action.execute(9) self.assertIsNone(result) async def test_invalidate_lambda_action(self): test_action = self.action_tests.create_test_lambda_action(self.extension_id, "test_action", "", "") result = test_action.execute() self.assertTrue(result) test_action.invalidate() result = test_action.execute() self.assertIsNone(result) async def test_execute_actions_with_bool(self): test_execute_callable_function_action_with_args(self, True) test_execute_callable_object_action_with_args(self, True) test_execute_lambda_action_with_args(self, True) test_execute_cpp_action_with_args(self, True) def test_function(arg): self.assertTrue(arg) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute(True) self.action_tests.execute_test_action_from_cpp_with_bool(test_action, True) async def test_execute_actions_with_int(self): test_execute_callable_function_action_with_args(self, 9) test_execute_callable_object_action_with_args(self, 9) test_execute_lambda_action_with_args(self, 9) test_execute_cpp_action_with_args(self, 9) def test_function(arg): self.assertEqual(arg, 9) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute(9) self.action_tests.execute_test_action_from_cpp_with_int(test_action, 9) async def test_execute_actions_with_string(self): test_execute_callable_function_action_with_args(self, "Nine") test_execute_callable_object_action_with_args(self, "Nine") test_execute_lambda_action_with_args(self, "Nine") test_execute_cpp_action_with_args(self, "Nine") def test_function(arg): self.assertEqual(arg, "Nine") test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute("Nine") self.action_tests.execute_test_action_from_cpp_with_string(test_action, "Nine") async def test_execute_actions_with_multiple_args(self): test_execute_callable_function_action_with_args(self, "Nine", 9, True) test_execute_callable_object_action_with_args(self, "Nine", 9, True) test_execute_lambda_action_with_args(self, "Nine", 9, True) test_execute_cpp_action_with_args(self, "Nine", 9, True) def test_function(arg0, arg1, arg2): self.assertEqual(arg0, "Nine") self.assertEqual(arg1, 9) self.assertTrue(arg2) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute("Nine", 9, True) self.action_tests.execute_test_action_from_cpp_with_multiple_args(test_action, "Nine", 9, True) async def test_execute_actions_with_nested_args(self): test_nested_args = (False, 99, "Ninety-Nine") test_execute_callable_function_action_with_args(self, "Nine", test_nested_args, 9, True) test_execute_callable_object_action_with_args(self, "Nine", test_nested_args, 9, True) test_execute_lambda_action_with_args(self, "Nine", test_nested_args, 9, True) test_execute_cpp_action_with_args(self, "Nine", test_nested_args, 9, True) def test_function(arg0, arg1, arg2, arg3): self.assertEqual(arg0, "Nine") self.assertListEqual(list(arg1), list(test_nested_args)) self.assertEqual(arg2, 9) self.assertTrue(arg3) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute("Nine", test_nested_args, 9, True) async def test_execute_actions_with_keyword_args(self): test_execute_callable_function_action_with_args(self, kwarg0="Nine", kwarg1=9, kwarg2=True) test_execute_callable_object_action_with_args(self, kwarg0="Nine", kwarg1=9, kwarg2=True) test_execute_lambda_action_with_args(self, kwarg0="Nine", kwarg1=9, kwarg2=True) test_execute_cpp_action_with_args(self, kwarg0="Nine", kwarg1=9, kwarg2=True) def test_function(kwarg0="", kwarg1=0, kwarg2=False): self.assertEqual(kwarg0, "Nine") self.assertEqual(kwarg1, 9) self.assertTrue(kwarg2) test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute(kwarg0="Nine", kwarg1=9, kwarg2=True) test_action.execute(kwarg2=True, kwarg1=9, kwarg0="Nine") self.action_tests.execute_test_action_from_cpp_with_variable_args( test_action, kwarg0="Nine", kwarg1=9, kwarg2=True ) async def test_execute_actions_with_mixed_args(self): test_execute_callable_function_action_with_args( self, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine" ) test_execute_callable_object_action_with_args( self, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine" ) test_execute_lambda_action_with_args(self, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine") test_execute_cpp_action_with_args(self, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine") def test_function(arg0, arg1, arg2, kwarg0=True, kwarg1=0, kwarg2=""): self.assertEqual(arg0, "Nine") self.assertEqual(arg1, 9) self.assertTrue(arg2) self.assertFalse(kwarg0) self.assertEqual(kwarg1, 99) self.assertEqual(kwarg2, "Ninety-Nine") test_action = omni.kit.actions.core.Action(self.extension_id, "test_action", test_function) test_action.execute("Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine") test_action.execute("Nine", 9, True, kwarg2="Ninety-Nine", kwarg1=99, kwarg0=False) self.action_tests.execute_test_action_from_cpp_with_variable_args( test_action, "Nine", 9, True, kwarg0=False, kwarg1=99, kwarg2="Ninety-Nine" )

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omniverse-code/kit/exts/omni.kit.actions.core/docs/index.rst

omni.kit.actions.core ################################### .. toctree:: :maxdepth: 1 CHANGELOG User Guide =================================== .. toctree:: :maxdepth: 1 USAGE_PYTHON USAGE_CPP API Reference =================================== .. automodule:: omni.kit.actions.core :platform: Windows-x86_64, Linux-x86_64 :members: :undoc-members: :imported-members: :show-inheritance:

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omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/__init__.py

from .scripts import *

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omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/debug_window.py

import asyncio import functools import carb import carb.settings import omni.ext import json from omni import ui from omni.ui import color as cl class MenuUtilsDebugExtension(omni.ext.IExt): def on_startup(self): manager = omni.kit.app.get_app().get_extension_manager() self._extension_name = omni.ext.get_extension_name(manager.get_extension_id_by_module(__name__)) self._hooks = [] self._debug_window = None self._hooks.append( manager.subscribe_to_extension_enable( on_enable_fn=lambda _: self._register_actions(), ext_name="omni.kit.actions.core", hook_name="omni.kit.menu.utils debug omni.kit.actions.core listener", ) ) self._hooks.append( manager.subscribe_to_extension_enable( on_enable_fn=lambda _: self._register_hotkeys(), ext_name="omni.kit.hotkeys.core", hook_name="omni.kit.menu.utils debug omni.kit.hotkeys.core listener", ) ) def on_shutdown(self): omni.kit.actions.core.get_action_registry().deregister_action(self._extension_name, "show_menu_debug_debug_window") if self._debug_window: del self._debug_window self._debug_window = None try: from omni.kit.hotkeys.core import get_hotkey_registry hotkey_registry = get_hotkey_registry() hotkey_registry.deregister_hotkey(self._registered_hotkey) except (ModuleNotFoundError, AttributeError): pass def _register_actions(self): import omni.kit.actions.core omni.kit.actions.core.get_action_registry().register_action( self._extension_name, "show_menu_debug_debug_window", lambda: self.show_menu_debug_debug_window(), display_name="Show Menu Debug Window", description="Show Menu Debug Window", tag = "Menu Debug Actions" ) def _register_hotkeys(self): import omni.kit.hotkeys.core from omni.kit.hotkeys.core import KeyCombination, get_hotkey_registry hotkey_combo = KeyCombination(carb.input.KeyboardInput.M, modifiers=carb.input.KEYBOARD_MODIFIER_FLAG_CONTROL + carb.input.KEYBOARD_MODIFIER_FLAG_ALT + carb.input.KEYBOARD_MODIFIER_FLAG_SHIFT) hotkey_registry = get_hotkey_registry() self._registered_hotkey = hotkey_registry.register_hotkey(self._extension_name, hotkey_combo, self._extension_name, "show_menu_debug_debug_window") def show_menu_debug_debug_window(self): CollapsableFrame_style = { "CollapsableFrame": { "background_color": 0xFF343432, "secondary_color": 0xFF343432, "color": 0xFFAAAAAA, "border_radius": 4.0, "border_color": 0x0, "border_width": 0, "font_size": 14, "padding": 0, }, "HStack::header": {"margin": 5}, "CollapsableFrame:hovered": {"secondary_color": 0xFF3A3A3A}, "CollapsableFrame:pressed": {"secondary_color": 0xFF343432}, } def show_dict_data(legend, value): if value: ui.Button(f"Save {legend}", clicked_fn=lambda b=None: save_dict(legend, value), height=24) else: ui.Button(f"Save {legend}", clicked_fn=lambda b=None: save_dict(legend, value), height=24, enabled=False) async def refresh_debug_window(rebuild_menus): await omni.kit.app.get_app().next_update_async() self._debug_window.frame.clear() await omni.kit.app.get_app().next_update_async() await omni.kit.app.get_app().next_update_async() del self._debug_window self._debug_window = None if rebuild_menus: omni.kit.menu.utils.rebuild_menus() await omni.kit.app.get_app().next_update_async() await omni.kit.app.get_app().next_update_async() self.show_menu_debug_debug_window() def save_dict(legend, value): from omni.kit.window.filepicker import FilePickerDialog def on_click_save(dialog: FilePickerDialog, filename: str, dirname: str, value: dict): dialog.hide() dirname = dirname.strip() if dirname and not dirname.endswith("/"): dirname += "/" fullpath = f"{dirname}{filename}" def serialize(obj): if hasattr(obj, "json_enc"): return obj.json_enc() elif hasattr(obj, "__dict__"): return obj.__dict__ return {"unknown": f"{obj}"} with open(fullpath, 'w') as file: file.write(json.dumps(value, default=lambda obj: serialize(obj))) dialog = FilePickerDialog( f"Save {legend} as json", apply_button_label="Save", click_apply_handler=lambda filename, dirname: on_click_save(dialog, filename, dirname, value), ) dialog.show() self._debug_window = ui.Window("omni.kit.menu.utils debug", width=600) with self._debug_window.frame: with ui.VStack(): menu_instance = omni.kit.menu.utils.get_instance() menu_creator = None if menu_instance: ui.Label(f"omni.kit.menu.utils - Alive", height=20) menu_creator = menu_instance._menu_creator else: ui.Label(f"omni.kit.menu.utils - Shut Down", height=20) legacy_mode = omni.kit.ui.using_legacy_mode() ui.Label(f"omni.kit.ui.get_editor_menu() -> omni.kit.menu.utils: {not legacy_mode}", height=20) if menu_creator: ui.Label(f"omni.kit.menu.utils - Creator: {menu_creator.__class__.__name__}", height=20) else: ui.Label(f"omni.kit.menu.utils - Creator: Not Found", height=20) ui.Spacer(height=8) open_stat_frame = False stat_frame = ui.CollapsableFrame(title="Debug Stats", collapsed=True, style=CollapsableFrame_style, height=12) with stat_frame: with ui.VStack(): debug_stats = omni.kit.menu.utils.get_debug_stats() for stat in debug_stats.keys(): name = stat.replace("_", " ").title() if stat == "extension_loaded_count": if debug_stats[stat] != 1: open_stat_frame = True ui.Label(f" {name}: {debug_stats[stat]}", height=18, style={"color": cl.red if open_stat_frame else cl.white}) else: ui.Label(f" {name}: {debug_stats[stat]}", height=18, style={"color": cl.white}) open_menu_frame = False if menu_creator: ui.Spacer(height=8) if menu_creator.__class__.__name__ == "AppMenu": menu_frame = ui.CollapsableFrame(title="ui.Menu", collapsed=True, style=CollapsableFrame_style, height=12) with menu_frame: with ui.VStack(): menu_chain = menu_creator._main_menus if not menu_chain or not all(k in menu_chain for k in ["File", "Edit", "Window", "Help"]): ui.Label(f" ERROR MISSING MENUS", height=20, style={"color": cl.red}) open_menu_frame = True for key in menu_chain.keys(): if menu_chain[key].visible == False: open_menu_frame = True ui.Label(f" {key} visible:{menu_chain[key].visible}", height=20, style={"color": cl.white if menu_chain[key].visible else cl.red}) ui.Spacer(height=8) menu_layout = omni.kit.menu.utils.get_menu_layout() merged_menus = omni.kit.menu.utils.get_merged_menus() show_dict_data("Menu Layout", menu_layout) show_dict_data("Menus", merged_menus) ui.Button("Refresh Window", clicked_fn=lambda: asyncio.ensure_future(refresh_debug_window(False)), height=24) ui.Button("Rebuild Menus", clicked_fn=lambda: asyncio.ensure_future(refresh_debug_window(True)), height=24) ui.Spacer(height=30) if open_stat_frame: stat_frame.collapsed = False if open_menu_frame: menu_frame.collapsed = False

9,026

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omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/builder_utils.py

import carb import omni.kit.ui from typing import Callable, Tuple, Union, List from omni import ui def get_menu_name(menu_entry): if menu_entry.name_fn: try: return f"{menu_entry.name_fn()}" except Exception as exc: carb.log_warn(f"get_menu_name error:{str(exc)}") return f"{menu_entry.name}" def get_action_path(action_prefix: str, menu_entry_name: str): if not menu_entry_name: return action_prefix.replace(" ", "_").replace("/", "_").replace(".", "") return f"{action_prefix}/{menu_entry_name}".replace(" ", "_").replace("/", "_").replace(".", "") def has_delegate_func(delegate, func_name): return bool(delegate and hasattr(delegate, func_name) and callable(getattr(delegate, func_name))) def create_prebuild_entry(prebuilt_menus: dict, prefix_name: str, action_prefix: str): if not action_prefix in prebuilt_menus: # prefix_name cannot be "" as creating submenus with "" causes problems prebuilt_menus[action_prefix] = {} prebuilt_menus[action_prefix]["items"] = [] prebuilt_menus[action_prefix]["prefix_name"] = prefix_name if prefix_name else "Empty" prebuilt_menus[action_prefix]["remapped"] = [] prebuilt_menus[action_prefix]["action_prefix"] = action_prefix class PrebuiltItemOrder: UNORDERED = 0x7FFFFFFF LAYOUT_ORDERED = 0x00000000 LAYOUT_SUBMENU_SORTED = 0x00001000 LAYOUT_ITEM_SORTED = 0x00002000 class MenuAlignment: DEFAULT = 0 RIGHT = 1 class LayoutSourceSearch: EVERYWHERE = 0 LOCAL_ONLY = 1 class MenuItemDescription: """ name is name shown on menu. (if name is "" then a menu spacer is added. Can be combined with show_fn) glyph is icon shown on menu header is True/False to show seperator above item hotkey hotkey for menu item enabled enabled True/False is item enabled ticked menu item is ticked when True sub_menu is sub menu to this menu name_fn is function to get menu name show_fn funcion or list of functions used to decide if menu item is shown. All functions must return True to show enable_fn funcion or list of functions used to decide if menu item is enabled. All functions must return True to be enabled onclick_action action called when user clicks menu item unclick_action action called when user releases click on menu item onclick_fn function called when user clicks menu item (deprecated) unclick_fn function called when user releases click on menu item (deprecated) onclick_right_fn function called when user right clicks menu item (deprecated) ticked_fn funcion or list of functions used to decide if menu item is ticked appear_after is name of menu item to insert after. Used for appending menus, can be a list or string user is user dictonary that is passed to menu """ MAX_DEPTH = 16 def __init__( self, name: str = "", glyph: str = "", header: str = None, appear_after: Union[list, str] = "", enabled: bool = True, ticked: bool = False, ticked_value: Union[bool, None] = None, sub_menu=None, hotkey: Tuple[int, int] = None, name_fn: Callable = None, show_fn: Callable = None, enable_fn: Callable = None, ticked_fn: Callable = None, onclick_action: Tuple = None, unclick_action: Tuple = None, onclick_fn: Callable = None, # deprecated unclick_fn: Callable = None, # deprecated onclick_right_fn: Callable = None, # deprecated original_svg_color: bool = False, # deprecated - only used for editor_menu original_menu_item = None, # private for hotkey processing user = {} ): self._on_delete_funcs = [] self._on_hotkey_update_funcs = [] # don't allow unnamed submenus as causes Menu problems if name == "" and sub_menu: self.name = "SubMenu" else: self.name = name self.glyph = glyph self.header = header self.appear_after = appear_after self.ticked = True if ticked or ticked_value is not None or ticked_fn is not None else False self.ticked_value = ticked_value self.enabled = enabled self.sub_menu = sub_menu self.name_fn = name_fn self.show_fn = show_fn self.enable_fn = enable_fn self.ticked_fn = ticked_fn self.onclick_action = onclick_action self.unclick_action = unclick_action self.set_hotkey(hotkey) self.original_menu_item = original_menu_item self.user = user.copy() # Deprecated self.original_svg_color = original_svg_color self.onclick_fn = onclick_fn self.unclick_fn = unclick_fn self.onclick_right_fn = onclick_right_fn log_deprecated = bool((carb.settings.get_settings().get_as_string("/exts/omni.kit.menu.utils/logDeprecated") or "true") == "true") if log_deprecated and not "shown_deprecated_warning" in self.user: def deprecated_msg(fn_name, func): carb.log_warn(f"Menu item \"{name}\" from {func.__module__} uses {fn_name}") self.user["shown_deprecated_warning"] = True if onclick_fn or unclick_fn or onclick_right_fn or original_svg_color: carb.log_warn(f"********************* MenuItemDescription {name} *********************") if onclick_fn: deprecated_msg("onclick_fn", onclick_fn) if unclick_fn: deprecated_msg("unclick_fn", unclick_fn) if onclick_right_fn: deprecated_msg("onclick_right_fn", onclick_right_fn) if original_svg_color: deprecated_msg("original_svg_color", original_svg_color) def add_on_delete_func(self, on_delete_fn: callable): self._on_delete_funcs.append(on_delete_fn) def remove_on_delete_func(self, on_delete_fn: callable): try: self._on_delete_funcs.remove(on_delete_fn) except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_on_delete_func failed {str(exc)}") def add_on_hotkey_update_func(self, hotkey_update_fn: callable): self._on_hotkey_update_funcs.append(hotkey_update_fn) def remove_on_hotkey_update_func(self, hotkey_update_fn: callable): try: self._on_hotkey_update_funcs.remove(hotkey_update_fn) except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_on_hotkey_update_func failed {str(exc)}") def set_hotkey(self, hotkey): self.hotkey = None self.hotkey_text = "" if hotkey: self.hotkey = hotkey self.hotkey_text = self.get_action_mapping_desc().replace("Keyboard::", "") for on_hotkey_update_fn in self._on_hotkey_update_funcs: on_hotkey_update_fn(self) def get_action_mapping_desc(self): if isinstance(self.hotkey, carb.input.GamepadInput): return carb.input.get_string_from_action_mapping_desc(self.hotkey) return carb.input.get_string_from_action_mapping_desc(self.hotkey[1], self.hotkey[0]) def has_action(self): return bool(self.onclick_fn or self.onclick_action or self.unclick_fn or self.unclick_action) def __del__(self): self.original_menu_item = None for on_delete_fn in self._on_delete_funcs: on_delete_fn(self) del self._on_delete_funcs del self._on_hotkey_update_funcs def __repr__(self): return f"<{self.__class__} name:{self.name} user:{self.user}>" def __copy__(self): # as hotkeys are removed on copyed item delete, hotkeys are accessed via original_menu_item as these are not deleted until the menu is removed def get_original(item): original = item.original_menu_item if original: while(original.original_menu_item and original.original_menu_item.original_menu_item): original = original.original_menu_item return original return item sub_menu = self.sub_menu if sub_menu: def copy_sub_menu(sub_menu, new_sub_menu, max_depth=MenuItemDescription.MAX_DEPTH): if max_depth == 0: carb.log_warn(f"Recursive sub_menu {sub_menu} aborting copy") return for sub_item in sub_menu: item = MenuItemDescription(name=sub_item.name, glyph=sub_item.glyph, header=sub_item.header, appear_after=sub_item.appear_after, enabled=sub_item.enabled, ticked=sub_item.ticked, ticked_value=sub_item.ticked_value, sub_menu=None, hotkey=None, name_fn=sub_item.name_fn, show_fn=sub_item.show_fn, enable_fn=sub_item.enable_fn, ticked_fn=sub_item.ticked_fn, onclick_action=sub_item.onclick_action, unclick_action=sub_item.unclick_action, onclick_fn=sub_item.onclick_fn, unclick_fn=sub_item.unclick_fn, onclick_right_fn=sub_item.onclick_right_fn, original_svg_color=sub_item.original_svg_color, original_menu_item=get_original(sub_item), user=sub_item.user) new_sub_menu.append(item) if sub_item.sub_menu: item.sub_menu = [] copy_sub_menu(sub_item.sub_menu, item.sub_menu, max_depth-1) new_sub_menu = [] copy_sub_menu(sub_menu, new_sub_menu) sub_menu = new_sub_menu return MenuItemDescription(name=self.name, glyph=self.glyph, header=self.header, appear_after=self.appear_after, enabled=self.enabled, ticked=self.ticked, ticked_value=self.ticked_value, sub_menu=sub_menu, hotkey=None, name_fn=self.name_fn, show_fn=self.show_fn, enable_fn=self.enable_fn, ticked_fn=self.ticked_fn, onclick_action=self.onclick_action, unclick_action=self.unclick_action, onclick_fn=self.onclick_fn, unclick_fn=self.unclick_fn, onclick_right_fn=self.onclick_right_fn, original_svg_color=self.original_svg_color, original_menu_item=get_original(self), user=self.user) def json_enc(self): values = { "name": self.name, "glyph": self.glyph, "header": self.header, "enabled": self.enabled, "sub_menu": self.sub_menu, "hotkey": self.hotkey, "name_fn": self.name_fn, "show_fn": self.show_fn, "enable_fn": self.enable_fn, "onclick_action": self.onclick_action, "unclick_action": self.unclick_action, "onclick_fn": self.onclick_fn, "unclick_fn": self.unclick_fn, "onclick_right_fn": self.onclick_right_fn, "original_svg_color": self.original_svg_color, "user": self.user} if self.ticked: values["ticked"] = self.ticked values["ticked_value"] = self.ticked_value values["ticked_fn"] = self.ticked_fn if self.appear_after: values["appear_after"] = self.appear_after return {k: v for k, v in values.items() if v is not None} # Make a dict like interface for MenuItemDescription so it can be used as an entry for omni.kit.context_menu # overrides [] and get for read-only access def __getitem__(self, key, default_value=None): return getattr(self, key, default_value) def __contains__(self, key): return self.__getitem__(key) is not None def get(self, key, default_value=None): return self.__getitem__(key, default_value)

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omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/app_menu.py

import asyncio import functools import weakref import carb import omni.kit.ui import omni.kit.app from functools import partial from enum import IntFlag, Enum from omni import ui from typing import Callable, Tuple, Any from pathlib import Path from .builder_utils import get_menu_name, get_action_path, create_prebuild_entry, has_delegate_func from .builder_utils import MenuItemDescription, PrebuiltItemOrder, MenuAlignment class MenuItemOrder: FIRST = "@first" LAST = "@last" class MenuState(IntFlag): Invalid = 0 Created = 1 class MenuActionControl(Enum): NONE = "@MenuActionControl.NONE" NODELAY = "@MenuActionControl.NODELAY" class uiMenu(ui.Menu): def __init__(self, *args, **kwargs): self.glyph = None self.submenu = False self.menu_hotkey_text = None self.menu_checkable = False if "glyph" in kwargs: self.glyph = kwargs["glyph"] del kwargs["glyph"] if "menu_checkable" in kwargs: self.menu_checkable = kwargs["menu_checkable"] del kwargs["menu_checkable"] if "menu_hotkey_text" in kwargs: self.menu_hotkey_text = kwargs["menu_hotkey_text"] del kwargs["menu_hotkey_text"] if "submenu" in kwargs: self.submenu = kwargs["submenu"] del kwargs["submenu"] super().__init__(*args, **kwargs, spacing=2, menu_compatibility=False) class uiMenuItem(ui.MenuItem): def __init__(self, *args, **kwargs): self.glyph = None self.submenu = False self.menu_hotkey_text = None self.menu_checkable = False if "glyph" in kwargs: self.glyph = kwargs["glyph"] del kwargs["glyph"] if "menu_checkable" in kwargs: self.menu_checkable = kwargs["menu_checkable"] del kwargs["menu_checkable"] if "menu_hotkey_text" in kwargs: self.menu_hotkey_text = kwargs["menu_hotkey_text"] del kwargs["menu_hotkey_text"] super().__init__(*args, **kwargs, menu_compatibility=False) class IconMenuDelegate(ui.MenuDelegate): EXTENSION_FOLDER_PATH = Path() ICON_PATH = EXTENSION_FOLDER_PATH.joinpath("data/icons") ICON_SIZE = 14 TICK_SIZE = 14 TICK_SPACING = [3, 6] MARGIN_SIZE = [4, 4] ROOT_SPACING = 1 SUBMENU_PRE_SPACING = 5 SUBMENU_SPACING = 4 SUBMENU_ICON_SIZE = 10 ITEM_SPACING = 4 ICON_SPACING = 4 HOTKEY_SPACING = [8, 108] COLOR_LABEL_ENABLED = 0xFFCCCCCC COLOR_LABEL_DISABLED = 0xFF6F6F6F COLOR_TICK_ENABLED = 0xFFCCCCCC COLOR_TICK_DISABLED = 0xFF4F4F4F COLOR_SEPARATOR = 0xFF6F6F6F # doc compiler breaks if `omni.kit.app.get_app()` or `carb.settings.get_settings()` is called try: EXTENSION_FOLDER_PATH = Path(omni.kit.app.get_app().get_extension_manager().get_extension_path_by_module(__name__)) ICON_PATH = EXTENSION_FOLDER_PATH.joinpath("data/icons") ICON_SIZE = carb.settings.get_settings().get("exts/omni.kit.menu.utils/icon_size") TICK_SIZE = carb.settings.get_settings().get("exts/omni.kit.menu.utils/tick_size") TICK_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/tick_spacing") MARGIN_SIZE = carb.settings.get_settings().get("exts/omni.kit.menu.utils/margin_size") ROOT_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/root_spacing") SUBMENU_PRE_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/submenu_pre_spacing") SUBMENU_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/submenu_spacing") SUBMENU_ICON_SIZE = carb.settings.get_settings().get("exts/omni.kit.menu.utils/submenu_icon_size") ITEM_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/item_spacing") ICON_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/icon_spacing") HOTKEY_SPACING = carb.settings.get_settings().get("exts/omni.kit.menu.utils/hotkey_spacing") COLOR_LABEL_ENABLED = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_label_enabled") COLOR_LABEL_DISABLED = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_label_disabled") COLOR_TICK_ENABLED = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_tick_enabled") COLOR_TICK_DISABLED = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_tick_disabled") COLOR_SEPARATOR = carb.settings.get_settings().get("exts/omni.kit.menu.utils/color_separator") except Exception as exc: carb.log_warn(f"IconMenuDelegate: failed to get EXTENSION_FOLDER_PATH and defaults {exc}") MENU_STYLE = {"Label::Enabled": {"margin_width": MARGIN_SIZE[0], "margin_height": MARGIN_SIZE[1], "color": COLOR_LABEL_ENABLED}, "Label::Disabled": {"margin_width": MARGIN_SIZE[0], "margin_height": MARGIN_SIZE[1], "color": COLOR_LABEL_DISABLED}, "Image::Icon": {"margin_width": 0, "margin_height": 0, "color": COLOR_LABEL_ENABLED}, "Image::SubMenu": {"image_url": f"{ICON_PATH}/subdir.svg", "margin_width": 0, "margin_height": 0, "color": COLOR_LABEL_ENABLED}, "Image::TickEnabled": {"image_url": f"{ICON_PATH}/checked.svg", "margin_width": 0, "margin_height": 0, "color": COLOR_TICK_ENABLED}, "Image::TickDisabled": {"image_url": f"{ICON_PATH}/checked.svg", "margin_width": 0, "margin_height": 0, "color": COLOR_TICK_DISABLED}, "Menu.Separator": { "color": COLOR_SEPARATOR }, } def build_item(self, item: ui.Menu): if isinstance(item, ui.Separator): with ui.HStack(height=0, style=IconMenuDelegate.MENU_STYLE): return super().build_item(item) with ui.HStack(height=0, style=IconMenuDelegate.MENU_STYLE): if not (isinstance(item, uiMenu) and not item.submenu): ui.Spacer(width=IconMenuDelegate.ITEM_SPACING) else: ui.Spacer(width=IconMenuDelegate.ROOT_SPACING) # build tick if item.menu_checkable: ui.Spacer(width=IconMenuDelegate.TICK_SPACING[0]) if item.checkable: ui.Image("", width=IconMenuDelegate.TICK_SIZE, name="TickEnabled" if item.checked else "TickDisabled") else: ui.Spacer(width=IconMenuDelegate.TICK_SIZE) ui.Spacer(width=IconMenuDelegate.TICK_SPACING[1]) # build glyph if item.glyph: glyph_path = item.glyph if "/" in item.glyph.replace("\\", "/") else carb.tokens.get_tokens_interface().resolve("${glyphs}/"+ item.glyph) ui.Spacer(width=IconMenuDelegate.ICON_SPACING) ui.Image(glyph_path, width=IconMenuDelegate.ICON_SIZE, name="Icon") ui.Spacer(width=IconMenuDelegate.ICON_SPACING) # build label if isinstance(item, uiMenu): ui.Label(f"{item.text}", height=IconMenuDelegate.ICON_SIZE, name="Enabled" if item.enabled else "Disabled") ui.Spacer(width=IconMenuDelegate.ROOT_SPACING) else: ui.Label(f"{item.text} ", height=IconMenuDelegate.ICON_SIZE, name="Enabled" if item.enabled else "Disabled") # build hotkey text if item.hotkey_text: ui.Spacer(width=IconMenuDelegate.HOTKEY_SPACING[0]) ui.Label(item.hotkey_text.title(), height=IconMenuDelegate.ICON_SIZE, name="Disabled", width=100) elif item.menu_hotkey_text: ui.Spacer(width=IconMenuDelegate.HOTKEY_SPACING[1]) # build subdir marker if item.submenu: ui.Spacer(width=IconMenuDelegate.SUBMENU_PRE_SPACING) ui.Image("", width=IconMenuDelegate.SUBMENU_ICON_SIZE, name="SubMenu") ui.Spacer(width=IconMenuDelegate.SUBMENU_SPACING) class AppMenu(): def __init__(self, get_instance: callable): from omni.kit.mainwindow import get_main_window self._get_instance = get_instance self._menu_hooks = [] self._active_menus = {} self._main_menus = {} self.set_right_padding(0) self._dirty_menus = set() self._stats = omni.kit.menu.utils.get_debug_stats() if not "triggered_refresh" in self._stats: self._stats["triggered_refresh"] = 0 # setup window self._menu_bar = get_main_window().get_main_menu_bar() self._menu_bar.visible = True def destroy(self): for action_path in self._active_menus: self._active_menus[action_path] = None del self._active_menus self._active_menus = {} self._main_menus = {} self._menu_bar.clear() self._menu_bar = None def add_hook(self, callback: Callable): self._menu_hooks.append(callback) def remove_hook(self, callback: Callable): try: self._menu_hooks.remove(callback) except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_hook failed {exc}") def merge_menus(self, menu_keys: list, menu_defs: list, menu_order: list, delegates: dict={}): merged_menu = {} def order_sort(name): if name in menu_order: return menu_order[name] return 0 def get_item_menu_index(menu: list, name: str): for index, item in enumerate(menu): if item.name == name: return index return -1 def process_part(name, part): used = False if isinstance(part.appear_after, list): for after in part.appear_after: if after == MenuItemOrder.FIRST: merged_menu[name].insert(0, part) used = True break elif after == MenuItemOrder.LAST: merged_menu[name].append(part) used = True break index = get_item_menu_index(merged_menu[name], after) if index != -1: merged_menu[name].insert(index + 1, part) used = True break else: index = get_item_menu_index(merged_menu[name], part.appear_after) if index != -1: merged_menu[name].insert(index + 1, part) used = True return used def get_items(sorted_keys, use_appear_after): appear_after_retries = [] for name in sorted_keys: if not name in merged_menu: merged_menu[name] = [] for parts in menu_defs[name]: for part in parts: if part.appear_after: if use_appear_after: used = process_part(name, part) if not used: appear_after_retries.append((name, part)) elif not use_appear_after: merged_menu[name].append(part) for name, part in appear_after_retries: used = process_part(name, part) if not used: carb.log_verbose(f"Warning: menu item failed to find appear_after index {part.appear_after}") merged_menu[name].append(part) # order using menu_order sorted_keys = list(menu_keys) if menu_order: sorted_keys.sort(key=order_sort) # get menu non-appear_after items & appear_after items get_items(sorted_keys, False) get_items(sorted_keys, True) for hook_fn in self._menu_hooks: hook_fn(merged_menu) # prebuild menus so layout can be applied before building self._prebuilt_menus = {} for name in merged_menu.keys(): self.prebuild_menu(merged_menu[name], name, get_action_path(name, None), delegates[name][0] if name in delegates else None) prebuilt_menus = self._prebuilt_menus self._prebuilt_menus = None self.get_menu_layout().apply_layout(prebuilt_menus) return prebuilt_menus def prebuild_menu(self, menus, prefix_name, action_prefix, delegate): try: import copy def prebuild_menu(entry, prefix_name, action_prefix): item = copy.copy(entry) item.user["prebuilt_order"] = PrebuiltItemOrder.UNORDERED # add submenu items to list create_prebuild_entry(self._prebuilt_menus, prefix_name, action_prefix) # check if item already on list, to avoid duplicates duplicate = False if item.name != "": for old_item in self._prebuilt_menus[action_prefix]["items"]: if item.name == old_item.name: duplicate = True break if not duplicate: # prefix_name cannot be "" as creating submenus with "" causes problems self._prebuilt_menus[action_prefix]["items"].append(item) self._prebuilt_menus[action_prefix]["prefix_name"] = prefix_name if prefix_name else "Empty" self._prebuilt_menus[action_prefix]["remapped"] = [] self._prebuilt_menus[action_prefix]["action_prefix"] = action_prefix self._prebuilt_menus[action_prefix]["menu_alignment"] = MenuAlignment.DEFAULT self._prebuilt_menus[action_prefix]["delegate"] = delegate if has_delegate_func(delegate, "get_menu_alignment"): self._prebuilt_menus[action_prefix]["menu_alignment"] = delegate.get_menu_alignment() if item.sub_menu and entry.name: sub_prefix = get_menu_name(entry) sub_action = get_action_path(action_prefix, entry.name) for sub_item in item.sub_menu: prebuild_menu(sub_item, sub_prefix, sub_action) self._prebuilt_menus[sub_action]["sub_menu"] = True item.sub_menu = sub_action for menu_entry in menus: prebuild_menu(menu_entry, prefix_name, action_prefix) except Exception as e: carb.log_error(f"Error {e} creating menu {menu_entry}") import traceback, sys traceback.print_exc(file=sys.stdout) def get_menu_layout(self): instance = self._get_instance() if instance: return instance.get_menu_layout() return None def get_fn_result(self, menu_entry: MenuItemDescription, name: str, default: bool=True): fn = getattr(menu_entry, name) if not fn: return default if isinstance(fn, list): for fn_item in fn: if fn_item and not fn_item(): return False else: if fn and not fn(): return False return default def get_menu_data(self): instance = self._get_instance() if instance: return instance.get_menu_data() return None, None, None def set_right_padding(self, padding): self._right_padding = padding def create_menu(self): menu_defs, menu_order, delegates = self.get_menu_data() self._menu_bar.clear() self._active_menus = {} self._main_menus = {} self._visible_menus = {} self._last_item = {} menus = self.merge_menus(menu_defs.keys(), menu_defs, menu_order, delegates) right_menus = [] with self._menu_bar: for name in menus.keys(): if not "sub_menu" in menus[name]: if menus[name]["menu_alignment"] == MenuAlignment.RIGHT: right_menus.append(name) else: self._build_menu(menus[name], menus, True) if right_menus: ui.Spacer().identifier = "right_aligned_menus" for name in right_menus: self._build_menu(menus[name], menus, True) ui.Spacer(width=self._right_padding).identifier = "right_padding" for key in self._main_menus.keys(): if key not in self._visible_menus: self._main_menus[key].visible = False if key in self._last_item: if isinstance(self._last_item[key], ui.Separator): self._last_item[key].visible = False self._last_item = None self._visible_menus = None return menus def refresh_menu_items(self, name: str): self._dirty_menus.add(name) def _submenu_is_shown(self, action_prefix: str, visible: bool, delegate: Any, refresh :bool): if action_prefix in self._main_menus: self._main_menus[action_prefix].visible = visible if has_delegate_func(delegate, "update_menu_item"): delegate.update_menu_item(self._main_menus[action_prefix], refresh) # update to use new prebuild/layouts def _refresh_menu(self, prebuilt_menus, prebuilt_menus_root, visible_override=None): menus = prebuilt_menus["items"] prefix_name = prebuilt_menus["prefix_name"] action_prefix = prebuilt_menus["action_prefix"] delegate = prebuilt_menus["delegate"] if "delegate" in prebuilt_menus else None visible_count = 0 for menu_entry in sorted(menus, key=lambda a: a.user["prebuilt_order"]): try: menu_name = get_menu_name(menu_entry) action_path = (get_action_path(action_prefix, menu_entry.name)) enabled = menu_entry.enabled value = menu_entry.ticked_value visible = True if menu_entry.enable_fn: enabled = self.get_fn_result(menu_entry, "enable_fn") if menu_entry.ticked_fn: value = self.get_fn_result(menu_entry, "ticked_fn") if menu_entry.show_fn: visible = self.get_fn_result(menu_entry, "show_fn") # handle sub_menu before action_path/active_menus can skip it if menu_entry.sub_menu and menu_entry.sub_menu in prebuilt_menus_root: visible = self._refresh_menu(prebuilt_menus_root[menu_entry.sub_menu], prebuilt_menus_root, self.get_fn_result(menu_entry, "show_fn", None)) # update visibility if visible_override is not None: visible = visible_override visible_count += 1 if visible else 0 self._submenu_is_shown(menu_entry.sub_menu, visible, delegate, True) continue if not action_path in self._active_menus: continue item = self._active_menus[action_path] item.enabled = enabled item.checked = value item.visible = visible if has_delegate_func(delegate, "update_menu_item"): delegate.update_menu_item(item, True) visible_count += 1 if item.visible else 0 except Exception as e: carb.log_error(f"Error {e} refreshing menu {menu_entry}") import traceback, sys traceback.print_exc(file=sys.stdout) return bool(visible_count > 0) def _build_menu(self, prebuilt_menus, prebuilt_menus_root, is_root_menu, visible_override=None, menu_checkable=False, menu_hotkey_text=False, glyph=None) -> int: def on_triggered(): if self._dirty_menus: self._stats["triggered_refresh"] += 1 menu_defs, menu_order, menu_delegates = self.get_menu_data() menus = self.merge_menus(menu_defs.keys(), menu_defs, menu_order) for name in self._dirty_menus: action_path = get_action_path(name, None) if action_path in menus: self._refresh_menu(menus[action_path], menus) for remapped in menus[action_path]["remapped"]: self._refresh_menu(menus[remapped], menus) self._dirty_menus.clear() def prep_menu(main_menu, prefix_name: str, action_prefix: str, visible: bool, delegate: callable, glyph: str, menu_checkable: bool, menu_hotkey_text: bool): if not action_prefix in main_menu: main_menu[action_prefix] = uiMenu(prefix_name, visible=visible, delegate=delegate, glyph=glyph, menu_checkable=menu_checkable, menu_hotkey_text=menu_hotkey_text, submenu=not is_root_menu) if is_root_menu: main_menu[action_prefix].set_triggered_fn(on_triggered) menus = prebuilt_menus["items"] prefix_name = prebuilt_menus["prefix_name"] action_prefix = prebuilt_menus["action_prefix"] delegate = prebuilt_menus["delegate"] if "delegate" in prebuilt_menus else None visible_count = 0 icon_delegate = IconMenuDelegate() # this menu item is built with menu_checkable passed via caller prep_menu(self._main_menus, prefix_name, action_prefix, True if visible_override is None else visible_override, delegate if delegate else icon_delegate, glyph, menu_checkable, menu_hotkey_text) # get delegate for icons menu_hotkey_text = False menu_checkable = False for menu_entry in sorted(menus, key=lambda a: a.user["prebuilt_order"]): if menu_entry.ticked: menu_checkable = True if menu_entry.original_menu_item and menu_entry.original_menu_item.hotkey: menu_hotkey_text = True with self._main_menus[action_prefix]: for menu_entry in sorted(menus, key=lambda a: a.user["prebuilt_order"]): try: item = None menu_name = get_menu_name(menu_entry) action_path = (get_action_path(action_prefix, menu_entry.name)) on_lmb_click = None if menu_entry.onclick_action and menu_entry.unclick_action: def on_hotkey_action(onclick_action, unclick_action): self._execute_action(onclick_action) self._execute_action(unclick_action) on_lmb_click = lambda oca=menu_entry.onclick_action, uca=menu_entry.unclick_action: on_hotkey_action(oca, uca) elif menu_entry.onclick_action: on_lmb_click = lambda oca=menu_entry.onclick_action: self._execute_action(oca) elif menu_entry.onclick_fn and menu_entry.unclick_fn: def on_hotkey_click(): menu_entry.onclick_fn() menu_entry.unclick_fn() on_lmb_click = on_hotkey_click else: on_lmb_click = menu_entry.onclick_fn hotkey = None if menu_entry.original_menu_item: hotkey = menu_entry.original_menu_item.hotkey enabled = menu_entry.enabled ticked = menu_entry.ticked value = menu_entry.ticked_value visible = True if menu_entry.enable_fn: enabled = self.get_fn_result(menu_entry, "enable_fn") if menu_entry.ticked_fn: value = self.get_fn_result(menu_entry, "ticked_fn") if menu_entry.show_fn: visible = self.get_fn_result(menu_entry, "show_fn") if menu_entry.name and menu_entry.sub_menu: if menu_entry.sub_menu in prebuilt_menus_root: self._visible_menus[action_prefix] = visible visible = self._build_menu(prebuilt_menus_root[menu_entry.sub_menu], prebuilt_menus_root, False, self.get_fn_result(menu_entry, "show_fn", None), menu_checkable, menu_hotkey_text, menu_entry.glyph) if visible_override is not None: visible = visible_override visible_count += 1 if visible else 0 self._submenu_is_shown(menu_entry.sub_menu, visible, delegate, False) continue elif menu_entry.header != None: if action_prefix in self._last_item: if isinstance(self._last_item[action_prefix], ui.Separator): # last thing was a Separator, change the text to new value self._last_item[action_prefix].text = menu_entry.header else: item = ui.Separator(menu_entry.header) else: item = ui.Separator(menu_entry.header) elif menu_entry.name == "": if action_prefix in self._last_item: if action_prefix in self._last_item and not isinstance(self._last_item[action_prefix], ui.Separator): item = ui.Separator() else: item = ui.Separator() else: item = uiMenuItem(menu_name, triggered_fn=on_lmb_click if on_lmb_click else None, checkable=ticked, checked=value, enabled=enabled, visible=visible, style=menu_entry.user.get("user_style", {}), delegate=icon_delegate, glyph=menu_entry.glyph, menu_checkable=menu_checkable, menu_hotkey_text=menu_hotkey_text) if has_delegate_func(delegate, "update_menu_item"): delegate.update_menu_item(item, False) self._active_menus[action_path] = item if hotkey: item.hotkey_text = " " + menu_entry.original_menu_item.hotkey_text setup_hotkey = True try: import omni.kit.hotkeys.core # Always setup hotkey because hotkey may changed setup_hotkey = True except ImportError: if hasattr(menu_entry.original_menu_item, "_action_setting_sub_id"): setup_hotkey = False if setup_hotkey: hotkey_text = self._setup_hotkey(menu_entry.original_menu_item, action_path) if hotkey_text is not None: item.hotkey_text = hotkey_text if item: self._last_item[action_prefix] = item self._visible_menus[action_prefix] = visible visible_count += 1 if visible else 0 except Exception as e: carb.log_error(f"Error {e} creating menu {menu_entry}") import traceback, sys traceback.print_exc(file=sys.stdout) return bool(visible_count > 0) def _execute_action(self, action: Tuple): if not action: return async_delay = True # check for MenuActionControl in action & remove actioncontrol_list = [e for e in MenuActionControl] if any(a in action for a in actioncontrol_list): if MenuActionControl.NODELAY in action: async_delay = False action = tuple([item for item in action if item not in actioncontrol_list]) try: import omni.kit.actions.core import omni.kit.app if async_delay: async def execute_action(action): await omni.kit.app.get_app().next_update_async() omni.kit.actions.core.execute_action(*action) # omni.ui can sometimes crash is menu callback does ui calls. # To avoid this, use async function with frame delay asyncio.ensure_future(execute_action(action)) else: omni.kit.actions.core.execute_action(*action) except ModuleNotFoundError: carb.log_warn(f"menu_action: error omni.kit.actions.core not loaded") except Exception as exc: carb.log_warn(f"menu_action: error {exc}") def _setup_hotkey(self, menu_entry: MenuItemDescription, action_path: str) -> str: def action_trigger(on_action_pressed_fn, on_action_release_fn, evt, *_): if evt.flags & carb.input.BUTTON_FLAG_PRESSED: if on_action_pressed_fn: on_action_pressed_fn() elif on_action_release_fn: on_action_release_fn() if not menu_entry.hotkey: return None self._clear_hotkey(menu_entry) self._unregister_hotkey(menu_entry) import omni.appwindow appwindow = omni.appwindow.get_default_app_window() input = carb.input.acquire_input_interface() settings = carb.settings.get_settings() action_mapping_set_path = appwindow.get_action_mapping_set_path() action_mapping_set = input.get_action_mapping_set_by_path(action_mapping_set_path) input_string = menu_entry.get_action_mapping_desc() menu_entry._action_setting_input_path = action_mapping_set_path + "/" + action_path + "/0" settings.set_default_string(menu_entry._action_setting_input_path, input_string) if menu_entry.onclick_action: try: from omni.kit.hotkeys.core import get_hotkey_registry if not get_hotkey_registry(): raise ImportError current_action_triggger = None self._register_hotkey(menu_entry) menu_entry.add_on_hotkey_update_func(lambda me, a=action_path: self._setup_hotkey(me, a)) if hasattr(menu_entry, "_pressed_hotkey"): return menu_entry._pressed_hotkey.key_text if menu_entry._pressed_hotkey else "" elif hasattr(menu_entry, "_released_hotkey"): return menu_entry._released_hotkey.key_text if menu_entry._released_hotkey else "" else: return None except ImportError: current_action_triggger = functools.partial(action_trigger, lambda oca=menu_entry.onclick_action: self._execute_action(oca), lambda uca=menu_entry.unclick_action: self._execute_action(uca)) else: current_action_triggger = functools.partial(action_trigger, menu_entry.onclick_fn, menu_entry.unclick_fn) if current_action_triggger: menu_entry._action_setting_sub_id = input.subscribe_to_action_events(action_mapping_set, action_path, current_action_triggger) menu_entry.add_on_delete_func(self._clear_hotkey) menu_entry.add_on_hotkey_update_func(lambda me, a=action_path: self._setup_hotkey(me, a)) # menu needs to refresh when self._action_setting_input_path changes def hotkey_changed(changed_item: carb.dictionary.Item, change_event_type: carb.settings.ChangeEventType, weak_entry: weakref, action_path: str): import carb.input def set_hotkey_text(action_path, hotkey_text, active_menu_text): menu_entry.hotkey_text = hotkey_text if action_path in self._active_menus: self._active_menus[action_path].hotkey_text = active_menu_text menu_entry = weak_entry() if not menu_entry: return # "changed_item" was DESTROYED, so remove hotkey if change_event_type == carb.settings.ChangeEventType.DESTROYED: set_hotkey_text(action_path, "", "") return hotkey_mapping = changed_item.get_dict() if isinstance(hotkey_mapping, str): set_hotkey_text(action_path, hotkey_mapping.replace("Keyboard::", ""), " " + menu_entry.hotkey_text) else: set_hotkey_text(action_path, "", "") menu_entry._action_setting_changed_sub = settings.subscribe_to_node_change_events(menu_entry._action_setting_input_path, lambda ci, ev, m=weakref.ref(menu_entry), a=action_path: hotkey_changed(ci, ev, m, a)) return None def _clear_hotkey(self, menu_entry): if hasattr(menu_entry, "_action_setting_sub_id"): try: input = carb.input.acquire_input_interface() input.unsubscribe_to_action_events(menu_entry._action_setting_sub_id) del menu_entry._action_setting_sub_id settings = carb.settings.get_settings() settings.unsubscribe_to_change_events(menu_entry._action_setting_changed_sub) del menu_entry._action_setting_changed_sub del menu_entry._action_setting_input_path except: pass def _register_hotkey(self, menu_entry: MenuItemDescription): try: from omni.kit.hotkeys.core import get_hotkey_registry, KeyCombination hotkey_registry = get_hotkey_registry() if not hotkey_registry: raise ImportError HOTKEY_EXT_ID = "omni.kit.menu.utils" if menu_entry.onclick_action: key = KeyCombination(menu_entry.hotkey[1], modifiers=menu_entry.hotkey[0]) menu_entry._pressed_hotkey = hotkey_registry.register_hotkey(HOTKEY_EXT_ID, key, menu_entry.onclick_action[0], menu_entry.onclick_action[1]) if menu_entry.unclick_action: key = KeyCombination(menu_entry.hotkey[1], modifiers=menu_entry.hotkey[0], trigger_press=False) menu_entry._released_hotkey = hotkey_registry.register_hotkey(HOTKEY_EXT_ID, key, menu_entry.unclick_action[0], menu_entry.unclick_action[1]) menu_entry.add_on_delete_func(self._unregister_hotkey) except ImportError: pass def _unregister_hotkey(self, menu_entry: MenuItemDescription): try: from omni.kit.hotkeys.core import get_hotkey_registry hotkey_registry = get_hotkey_registry() if hotkey_registry: if hasattr(menu_entry, "_pressed_hotkey"): if menu_entry._pressed_hotkey: hotkey_registry.deregister_hotkey(menu_entry._pressed_hotkey) if hasattr(menu_entry, "_released_hotkey"): if menu_entry._released_hotkey: hotkey_registry.deregister_hotkey(menu_entry._released_hotkey) if hasattr(menu_entry, "__hotkey_changed_event_sub"): menu_entry.__hotkey_changed_event_sub = None except ImportError: pass

35,928

Python

46.399736

331

0.563933

omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/__init__.py

from .utils import * from .debug_window import *

49

Python

15.666661

27

0.734694

omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/utils.py

import asyncio import functools import carb import carb.settings import omni.ext import omni.kit.app from functools import partial from typing import Callable, Tuple, Union, List from .actions import add_action_to_menu, ActionMenuSubscription from .layout import MenuLayout from .builder_utils import MenuItemDescription, PrebuiltItemOrder, MenuAlignment, LayoutSourceSearch from .app_menu import MenuItemOrder, MenuState, MenuActionControl, IconMenuDelegate _extension_instance = None class MenuUtilsExtension(omni.ext.IExt): def __init__(self): super().__init__() self._menu_defs = {} self._menu_delegates = {} self._menu_order = {} self._master_menu = {} self._ready_state = MenuState.Invalid self._menus_to_refresh = set() self._refresh_task = None # debug stats self._stats = {} self._stats["add_menu_items"] = 0 self._stats["remove_menu_items"] = 0 self._stats["add_hook"] = 0 self._stats["remove_hook"] = 0 self._stats["add_layout"] = 0 self._stats["remove_layout"] = 0 self._stats["refresh_menu_items"] = 0 self._stats["refresh_menu_items_skipped"] = 0 self._stats["rebuild_menus"] = 0 self._stats["rebuild_menus_skipped"] = 0 def on_startup(self, ext_id): global _extension_instance _extension_instance = self LOADED_EXTENSION_COUNT_MENU = "/exts/omni.kit.menu.utils/loaded_extension_count" settings = carb.settings.get_settings() settings.set_default_int(LOADED_EXTENSION_COUNT_MENU, 0) loaded_extension_count = settings.get(LOADED_EXTENSION_COUNT_MENU) + 1 settings.set(LOADED_EXTENSION_COUNT_MENU, loaded_extension_count) self._menu_creator = None self._menu_layout = MenuLayout() self._hooks = [] self._stats["extension_loaded_count"] = loaded_extension_count ext_manager = omni.kit.app.get_app_interface().get_extension_manager() # Hook to extension enable/disable # to setup hotkey with different ways with omni.kit.hotkeys.core enabled/disabled hooks = ext_manager.get_hooks() self.__extension_enabled_hook = hooks.create_extension_state_change_hook( self.__on_ext_changed, omni.ext.ExtensionStateChangeType.AFTER_EXTENSION_ENABLE ) self.__extension_disabled_hook = hooks.create_extension_state_change_hook( self.__on_ext_changed, omni.ext.ExtensionStateChangeType.AFTER_EXTENSION_DISABLE ) mainwindow_loaded = next( ( ext for ext in ext_manager.get_extensions() if ext["id"].startswith("omni.kit.mainwindow") and ext["enabled"] ), None, ) settings = carb.settings.get_settings() if settings.get("/exts/omni.kit.menu.utils/forceEditorMenu") is not None: carb.log_error(f"omni.kit.menu.utils forceEditorMenu is no longer supported") if mainwindow_loaded: from .app_menu import AppMenu self._menu_creator = AppMenu(lambda: _extension_instance) else: carb.log_info(f"omni.kit.mainwindow is not loaded. Menus are disabled") # if mainwindow loads later, need to refresh menu_creator manager = omni.kit.app.get_app().get_extension_manager() self._hooks.append( manager.subscribe_to_extension_enable( on_enable_fn=lambda _: self._mainwindow_loaded(), on_disable_fn=None, ext_name="omni.kit.mainwindow", hook_name="omni.kit.menu.utils omni.kit.mainwindow listener", ) ) # set app started trigger. refresh_menu_items & rebuild_menus won't do anything until self._ready_state is MenuState.Created self._app_ready_sub = ( omni.kit.app.get_app() .get_startup_event_stream() .create_subscription_to_pop_by_type( omni.kit.app.EVENT_APP_READY, self._build_menus_after_loading, name="omni.kit.menu.utils app started trigger" ) ) def __on_ext_changed(self, ext_id: str, *_): if ext_id.startswith("omni.kit.hotkeys.core"): self.rebuild_menus() def _mainwindow_loaded(self): from .app_menu import AppMenu self._menu_creator = AppMenu(lambda: _extension_instance) self.rebuild_menus() carb.log_info(f"omni.kit.mainwindow is now loaded. Menus are enabled") def _build_menus_after_loading(self, event): self._ready_state = MenuState.Created self._menu_layout.menus_created() self.rebuild_menus() def on_shutdown(self): global _extension_instance _extension_instance = None self.__extension_enabled_hook = None self.__extension_disabled_hook = None if self._menu_creator: self._menu_creator.destroy() del self._menu_creator self._menu_creator = None if self._menu_layout: self._menu_layout.destroy() del self._menu_layout self._menu_layout = None self._menus_to_refresh = None self._refresh_task = None self._menu_defs = None self._menu_delegates = None self._menu_order = None self._hooks = None def add_menu_items(self, menu: list, name: str, menu_index: int, rebuild_menus: bool, delegate = None) -> list: if not menu and delegate: menu = [MenuItemDescription(name="placeholder", show_fn=lambda: False)] if menu and not isinstance(menu[0], MenuItemDescription): carb.log_error(f"add_menu_items: menu {menu} is not a MenuItemDescription") return None self._stats["add_menu_items"] += 1 if not name in self._menu_defs: self._menu_defs[name] = [] self._menu_defs[name].append(menu) if name in self._menu_delegates: _delegate, count = self._menu_delegates[name] if delegate != _delegate: carb.log_warn(f"add_menu_items: menu {menu} cannot change delegate") self._menu_delegates[name] = (_delegate, count + 1) elif delegate: self._menu_delegates[name] = (delegate, 1) if menu_index != 0 and name not in self._menu_order: self._menu_order[name] = menu_index if rebuild_menus: self.rebuild_menus() return menu def set_default_menu_proirity(self, name: str, menu_index: int): if menu_index == 0: return for index in self._menu_order: if self._menu_order[index] == menu_index: return self._menu_order[name] = menu_index def remove_menu_items(self, menu: list, name: str, rebuild_menus: bool): self._stats["remove_menu_items"] += 1 try: if name in self._menu_defs: self._menu_defs[name].remove(menu) if name in self._menu_delegates: delegate, count = self._menu_delegates[name] if count == 1: del self._menu_delegates[name] else: self._menu_delegates[name] = (delegate, count - 1) if rebuild_menus: self.rebuild_menus() except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_menu_items \"{name}\" failed {exc}") def add_hook(self, callback: Callable): self._stats["add_hook"] += 1 if self._menu_creator: self._menu_creator.add_hook(callback) def remove_hook(self, callback: Callable): self._stats["remove_hook"] += 1 try: if self._menu_creator: self._menu_creator.remove_hook(callback) except Exception as exc: carb.log_warn(f"omni.kit.menu.utils remove_hook failed {exc}") def add_layout(self, layout: List[Union[MenuLayout.Menu, MenuLayout.SubMenu, MenuLayout.Item, MenuLayout.Seperator, MenuLayout.Group]]): self._stats["add_layout"] += 1 self._menu_layout.add_layout(layout) self.rebuild_menus() def remove_layout(self, layout: List[Union[MenuLayout.Menu, MenuLayout.SubMenu, MenuLayout.Item, MenuLayout.Seperator, MenuLayout.Group]]): self._stats["remove_layout"] += 1 self._menu_layout.remove_layout(layout) self.rebuild_menus() def get_merged_menus(self): return self._menu_creator.merge_menus(self._menu_defs.keys(), self._menu_defs, self._menu_order) def refresh_menu_items(self, name: str, immediately: bool = False): if not self._ready_state & MenuState.Created: self._stats["refresh_menu_items_skipped"] += 1 return self._stats["refresh_menu_items"] += 1 if self._menu_creator: self._menu_creator.refresh_menu_items(name) def rebuild_menus(self): if not self._ready_state & MenuState.Created: self._stats["rebuild_menus_skipped"] += 1 return self._stats["rebuild_menus"] += 1 if self._menu_creator: self._menu_creator.create_menu() def get_menu_layout(self): return self._menu_layout def get_menu_data(self): return self._menu_defs, self._menu_order, self._menu_delegates def get_instance(): return _extension_instance def add_menu_items(menu: list, name: str, menu_index: int = 0, rebuild_menus: bool = True, delegate = None): """ add a list of menus items to menu. menu is list of MenuItemDescription() name is name to appear when menu is collapsed menu_index is horizontal positioning rebuild_menus is flag to call rebuild_menus when True delegate ui.MenuDelegate delegate """ instance = get_instance() if instance: return get_instance().add_menu_items(menu, name, menu_index, rebuild_menus, delegate) def remove_menu_items(menu: list, name: str, rebuild_menus: bool = True): """ remove a list of menus items to menu. menu is list of MenuItemDescription() name is name to appear when menu is collapsed rebuild_menus is flag to call rebuild_menus when True """ instance = get_instance() if instance: instance.remove_menu_items(menu, name, rebuild_menus) def refresh_menu_items(name: str, immediately = None): """ update menus enabled state menu is list of MenuItemDescription() name is name to appear when menu is collapsed immediately is deprecated and not used """ instance = get_instance() if instance: carb.log_info(f"omni.kit.menu.utils.refresh_menu_items {name}") if immediately != None: carb.log_warn(f"refresh_menu_items immediately parameter is deprecated and not used") instance.refresh_menu_items(name) def add_hook(callback: Callable): """ add a menu modification callback hook callback is function to be called when menus are re-generated """ instance = get_instance() if instance: instance.add_hook(callback) def remove_hook(callback: Callable): """ remove a menu modification callback hook callback is function to be called when menus are re-generated """ instance = get_instance() if instance: instance.remove_hook(callback) def rebuild_menus(): """ force menus to rebuild, triggering hooks """ instance = get_instance() if instance: carb.log_info(f"omni.kit.menu.utils.rebuild_menus") instance.rebuild_menus() def set_default_menu_proirity(name, menu_index): """ set default menu priority """ instance = get_instance() if instance: instance.set_default_menu_proirity(name, menu_index) def add_layout(layout: List[Union[MenuLayout.Menu, MenuLayout.SubMenu, MenuLayout.Item, MenuLayout.Seperator, MenuLayout.Group]]): """ add a menu layout. """ instance = get_instance() if instance: instance.add_layout(layout) def remove_layout(layout: List[Union[MenuLayout.Menu, MenuLayout.SubMenu, MenuLayout.Item, MenuLayout.Seperator, MenuLayout.Group]]): """ remove a menu layout. """ instance = get_instance() if instance: instance.remove_layout(layout) def get_menu_layout(): """ get menu layouts. """ instance = get_instance() if instance: return instance.get_menu_layout().get_layout() def get_merged_menus() -> dict: """ get combined menus as dictionary """ instance = get_instance() if instance: return instance.get_merged_menus() return None def get_debug_stats() -> dict: instance = get_instance() if instance: return instance._stats return None

12,910

Python

32.710183

143

0.617041

omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/actions.py

"""Actions Omniverse Kit API Module to work with **Actions** in the Kit. It is built on top of ``carb.input`` system that features action mapping logic. """ import omni.kit.ui import omni.appwindow import carb.input import carb.settings from typing import Callable, Tuple import functools class ActionMenuSubscription: """ Action menu subscription wrapper to make it scoped (auto unsubscribe on del) """ def __init__(self, _on_del: Callable): self._on_del = _on_del self._mapped = True def unsubscribe(self): if self._mapped: self._mapped = False self._on_del() def __del__(self): self.unsubscribe() def add_action_to_menu( menu_path: str, on_action: Callable, action_name: str = None, default_hotkey: Tuple[int, int] = None, on_rmb_click: Callable = None, ) -> ActionMenuSubscription: """ Add action to menu path. This function binds passed callable `on_action` function with :mod:`carb.input` action and a menu path together. If `default_hotkey` is provided it is set into settings and appears on the menu. Args: menu_path: menu path. E.g. "File/Open". on_action: function to be called as an action. on_rmb_click: function to be called when right mouse button clicked. action_name: action name. If not provided menu path is used as action, where all '/' are replaced with '-'. default_hotkey(tuple(int, :class:`carb.input.KeyboardInput`)): modifier and key tuple to associate with given action. Returns: Subscription holder object. Action is removed when this object is destroyed. """ return omni.kit.ui.get_editor_menu().add_action_to_menu(menu_path, on_action, action_name, default_hotkey, on_rmb_click) def unsubsribe(): input.unsubscribe_to_action_events(sub_id) menu = omni.kit.ui.get_editor_menu() if menu: menu.set_action(menu_path, action_mapping_set_path, "") return ActionMenuSubscription(unsubsribe)

2,051

Python

31.0625

125

0.665529

omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/scripts/layout.py

import os import carb import carb.settings from typing import List, Union, Dict from enum import Enum from .builder_utils import get_action_path, create_prebuild_entry from .builder_utils import MenuItemDescription, PrebuiltItemOrder, LayoutSourceSearch class MenuLayout: class MenuLayoutItem: def __init__(self, name=None, source=None, source_search=LayoutSourceSearch.EVERYWHERE): self.name = name self.source = source self.source_search = source_search def __repr__(self): if self.source: return f"<{self.__class__} name:{self.name} source:{self.source}>" return f"<{self.__class__} name:{self.name}>" def json_enc(self): sub_items = {} values = {f"MenuLayout.{self.__class__.__name__}": sub_items} for index in dir(self): if not index.startswith("_"): item = getattr(self, index) if item is not None and not callable(item): sub_items[index] = item return values class Menu(MenuLayoutItem): def __init__(self, name, items=[], source=None, source_search=LayoutSourceSearch.EVERYWHERE, remove=False): super().__init__(name, source, source_search) self.items = items self.remove = remove class SubMenu(MenuLayoutItem): def __init__(self, name, items=[], source=None, source_search=LayoutSourceSearch.EVERYWHERE, remove=False): super().__init__(name, source, source_search) self.items = items self.remove = remove class Item(MenuLayoutItem): def __init__(self, name, source=None, source_search=LayoutSourceSearch.EVERYWHERE, remove=False): super().__init__(name, source, source_search) self.remove = remove class Seperator(MenuLayoutItem): def __init__(self, name=None, source=None, source_search=LayoutSourceSearch.EVERYWHERE): super().__init__(name, source, source_search) class Group(MenuLayoutItem): def __init__(self, name, items=[], source=None, source_search=LayoutSourceSearch.EVERYWHERE): super().__init__(name, source, source_search) self.items = items class Sort(MenuLayoutItem): def __init__(self, name=None, source=None, source_search=LayoutSourceSearch.EVERYWHERE, exclude_items=[], sort_submenus=False): super().__init__(name, source) self.items = exclude_items self.sort_submenus = sort_submenus def __repr__(self): return f"<{self.__class__} items:{self.items}>" def __init__(self, debuglog = False): self._layout_template = [] self._menus_created = False self._debuglog = debuglog def __del__(self): self.destroy() def destroy(self): self._layout_template = None def menus_created(self): self._menus_created = True def add_layout(self, layout: List[MenuLayoutItem]): self._layout_template.append(layout.copy()) def remove_layout(self, layout: List[MenuLayoutItem]): self._layout_template.remove(layout) def get_layout(self): return self._layout_template def apply_layout(self, prebuilt_menus: dict): if not self._menus_created: return menu_layout_lists = self.get_layout() for menu_layout in menu_layout_lists: MenuLayout.process_layout(prebuilt_menus, menu_layout, menu_name=None, submenu_name=None, parent_layout_offset=0, parent_layout_index=PrebuiltItemOrder.UNORDERED, debuglog=self._debuglog) # static functions to prevent self leaks @staticmethod def find_menu_item(menu_items: List, menu_items_root: List, layout_item: MenuLayoutItem): if layout_item.source: if "/" in layout_item.source.replace("\\", "/"): sub_name = get_action_path(os.path.dirname(layout_item.source), "") sub_prefix = os.path.basename(layout_item.source) if sub_name in menu_items_root: menu_subitems = menu_items_root[sub_name]["items"] for item in menu_subitems: if item.name == sub_prefix: return item, menu_subitems, sub_name return None, None, None for item in menu_items: if item.name == layout_item.source: return item, None, None else: for item in menu_items: if item.name == layout_item.name: return item, None, None if layout_item.source_search == LayoutSourceSearch.EVERYWHERE: # not in current menu, search them all.... for sub_name in menu_items_root.keys(): menu_subitems = menu_items_root[sub_name]["items"] for item in menu_subitems: if item.name == layout_item.name: layout_item.source = f"{sub_name}/{layout_item.name}" return item, menu_subitems, sub_name return None, None, None @staticmethod def process_layout(prebuilt_menus: dict, menu_layout:List, menu_name: str, submenu_name: str, parent_layout_offset: int, parent_layout_index: int, debuglog: bool): def item_in_menu(menus, menu_name): for sub_item in menus: if sub_item.name == menu_name: return True return False def create_menu_entry(menu_name, submenu_name): action_prefix = get_action_path(menu_name, submenu_name) if not action_prefix in prebuilt_menus: if menu_name in prebuilt_menus: menu_subitems = prebuilt_menus[menu_name]["items"] # if item not already in submenu, add it if not item_in_menu(menu_subitems, submenu_name): item = MenuItemDescription(submenu_name, sub_menu=action_prefix) item.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + parent_layout_index menu_subitems.append(item) create_prebuild_entry(prebuilt_menus, submenu_name, action_prefix) prebuilt_menus[action_prefix]["sub_menu"] = True for layout_index, layout_item in enumerate(menu_layout): # MenuLayout.Menu if isinstance(layout_item, MenuLayout.Menu): action_prefix = get_action_path(layout_item.name, None) if layout_item.remove: if action_prefix in prebuilt_menus: del prebuilt_menus[action_prefix] elif debuglog: carb.log_warn(f"Warning: Layout item {layout_item} not found in prebuilt_menus") else: # menu doesn't exist, create one if not action_prefix in prebuilt_menus: carb.log_warn(f"Menu {layout_item.name} not found. Create with; (\"menu_index\" controls menu order)") carb.log_warn(f" self._menu_placeholder = omni.kit.menu.utils.add_menu_items([MenuItemDescription(name=\"placeholder\", show_fn=lambda: False)], name=\"{layout_item.name}\", menu_index=90)") continue MenuLayout.process_layout(prebuilt_menus, layout_item.items, layout_item.name, submenu_name, 0, layout_index, debuglog) # MenuLayout.SubMenu elif isinstance(layout_item, MenuLayout.SubMenu): if not menu_name: carb.log_warn(f"Warning: Bad Layout item {layout_item}. Cannot have SubMenu without Menu as parent") if layout_item.remove: action_prefix = get_action_path(menu_name, layout_item.name) if action_prefix in prebuilt_menus: del prebuilt_menus[action_prefix] menu_subitems = prebuilt_menus[menu_name]["items"] for item in menu_subitems: if item.sub_menu == layout_item.name: menu_subitems.remove(item) break elif debuglog: carb.log_warn(f"Warning: Layout item {layout_item} not found in prebuilt_menus") else: action_prefix = get_action_path(menu_name, None) if action_prefix in prebuilt_menus: menu_subitems = prebuilt_menus[action_prefix]["items"] menu_subitem, source_menu, _ = MenuLayout.find_menu_item(menu_subitems, prebuilt_menus, layout_item) if menu_subitem: menu_subitem.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index else: # add submenu item menu_subitem = MenuItemDescription(name=layout_item.name, sub_menu=get_action_path(menu_name, layout_item.name)) menu_subitems.append(menu_subitem) menu_subitem.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index if submenu_name: action_prefix = get_action_path(menu_name, submenu_name) MenuLayout.process_layout(prebuilt_menus, layout_item.items, action_prefix, layout_item.name, parent_layout_offset, layout_index + 1, debuglog) else: MenuLayout.process_layout(prebuilt_menus, layout_item.items, menu_name, layout_item.name, parent_layout_offset, layout_index, debuglog) parent_layout_offset += len(layout_item.items) + 1 # MenuLayout.Item elif isinstance(layout_item, MenuLayout.Item): action_prefix = get_action_path(menu_name, submenu_name) create_menu_entry(menu_name, submenu_name) menu_subitems = prebuilt_menus[action_prefix]["items"] menu_subitem, source_menu, orig_root_menu = MenuLayout.find_menu_item(menu_subitems, prebuilt_menus, layout_item) if not submenu_name and orig_root_menu: prebuilt_menus[orig_root_menu]["remapped"].append(action_prefix) if menu_subitem: menu_subitem.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index if source_menu and source_menu != menu_subitems: menu_subitems.append(menu_subitem) source_menu.remove(menu_subitem) if layout_item.source: menu_subitem.name = layout_item.name else: if layout_item.remove: menu_subitems.remove(menu_subitem) elif layout_item.source: menu_subitem.name = layout_item.name elif debuglog: carb.log_warn(f"Warning: Layout not found {layout_item}") # MenuLayout.Seperator elif isinstance(layout_item, MenuLayout.Seperator): action_prefix = get_action_path(menu_name, submenu_name) if action_prefix in prebuilt_menus: menu_subitems = prebuilt_menus[action_prefix]["items"] item = MenuItemDescription() if layout_item.name: item.header = layout_item.name item.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index menu_subitems.append(item) # MenuLayout.Group elif isinstance(layout_item, MenuLayout.Group): action_prefix = get_action_path(menu_name, submenu_name) create_menu_entry(menu_name, submenu_name) menu_subitems = prebuilt_menus[action_prefix]["items"] item = MenuItemDescription(header=layout_item.name) item.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index menu_subitems.append(item) MenuLayout.process_layout(prebuilt_menus, layout_item.items, menu_name, submenu_name, parent_layout_offset + layout_index + 1, parent_layout_index, debuglog) parent_layout_offset += len(layout_item.items) + 1 if layout_item.source: menu_subitem, source_menu, _ = MenuLayout.find_menu_item(menu_subitems, prebuilt_menus, layout_item) if source_menu and source_menu != menu_subitems: if menu_subitem.sub_menu: for item in prebuilt_menus[menu_subitem.sub_menu]["items"]: item.user["prebuilt_order"] = PrebuiltItemOrder.LAYOUT_ORDERED + parent_layout_offset + layout_index menu_subitems.append(item) parent_layout_offset += 1 else: menu_subitems.append(menu_subitem) source_menu.remove(menu_subitem) # MenuLayout.Sort elif isinstance(layout_item, MenuLayout.Sort): action_prefix = get_action_path(menu_name, submenu_name) create_menu_entry(menu_name, submenu_name) menu_subitems = prebuilt_menus[action_prefix]["items"] sort_submenus = [] items = [i for i in menu_subitems if i.name != "" and not i.name in layout_item.items] for index, item in enumerate(sorted(items, key=lambda a: a.name)): item_offset = PrebuiltItemOrder.LAYOUT_SUBMENU_SORTED if item.sub_menu else PrebuiltItemOrder.LAYOUT_ITEM_SORTED item.user["prebuilt_order"] = item_offset + parent_layout_offset + index if layout_item.sort_submenus and item.sub_menu and not item.sub_menu in layout_item.items: sort_submenus.append(item.sub_menu) for sub_menu in sort_submenus: item_list = prebuilt_menus[sub_menu]["items"] # seperators must not move, just sort items inbetween groups = [] last_seperator = 0 for index, item in enumerate(item_list): if item.name == "": if last_seperator != index: groups.append((last_seperator, index)) last_seperator = index if last_seperator: groups.append((last_seperator, len(item_list))) for gstart, gend in groups: items = [i for i in item_list[gstart : gend] if not i.name in layout_item.items] item_offset = items[0].user["prebuilt_order"] items = items[1:] for index, item in enumerate(sorted(items, key=lambda a: a.name)): item.user["prebuilt_order"] = item_offset + index if item.sub_menu and not item.sub_menu in layout_item.items: sort_submenus.append(item.sub_menu) else: items = [i for i in item_list if not i.name in layout_item.items] for index, item in enumerate(sorted(items, key=lambda a: a.name)): item_offset = PrebuiltItemOrder.LAYOUT_SUBMENU_SORTED if item.sub_menu else PrebuiltItemOrder.LAYOUT_ITEM_SORTED item.user["prebuilt_order"] = item_offset + parent_layout_offset + index if item.sub_menu and not item.sub_menu in layout_item.items: sort_submenus.append(item.sub_menu) elif debuglog: carb.log_warn(f"Warning: Unknown layout type {layout_item}")

16,446

Python

52.748366

215

0.557522

omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_debug_menu.py

import os import unittest import pathlib import carb import carb.input import omni.kit.test import omni.ui as ui from pathlib import Path from omni.kit import ui_test from omni.ui.tests.test_base import OmniUiTest from omni.kit.test_suite.helpers import get_test_data_path class TestDebugMenu(OmniUiTest): async def setUp(self): pass async def tearDown(self): pass async def test_debug_menu(self): DebugWindowName = "omni.kit.menu.utils debug" # hotkey - show_menu_debug_window await ui_test.emulate_keyboard_press(carb.input.KeyboardInput.M, carb.input.KEYBOARD_MODIFIER_FLAG_CONTROL + carb.input.KEYBOARD_MODIFIER_FLAG_ALT + carb.input.KEYBOARD_MODIFIER_FLAG_SHIFT) await ui_test.human_delay(50) golden_img_dir = pathlib.Path(get_test_data_path(__name__, "golden_img")) await self.docked_test_window( window=ui.Workspace.get_window(DebugWindowName), width=450, height=300) await self.finalize_test(golden_img_dir=golden_img_dir, golden_img_name="test_debug_window.png") await ui_test.human_delay(50) ui.Workspace.show_window(DebugWindowName, False)

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Python

30.473683

197

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omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_menu_layouts.py

import os import unittest import carb import omni.kit.test import omni.ui as ui from omni.kit import ui_test from omni.kit.menu.utils import MenuItemDescription, MenuLayout, LayoutSourceSearch from .utils import verify_menu_items, verify_menu_checked_items class TestMenuLayoutUtils(omni.kit.test.AsyncTestCase): async def setUp(self): pass async def tearDown(self): pass async def test_nested_submenu_layout(self): menu_placeholder = [MenuItemDescription(name="placeholder", show_fn=lambda: False)] menu_physics = [ MenuItemDescription(name="Physics", sub_menu=[ MenuItemDescription(name="Debug"), MenuItemDescription(name="Settings"), MenuItemDescription(name="Demo Scenes"), MenuItemDescription(name="Test Runner"), MenuItemDescription(name="Character Controller")]) ] menu_blast = [ MenuItemDescription(name="Blast", sub_menu=[ MenuItemDescription(name="Settings"), MenuItemDescription(name="Documentation", sub_menu=[ MenuItemDescription(name="Kit UI"), MenuItemDescription(name="Programming"), MenuItemDescription(name="USD Schemas")]) ])] menu_flow = [ MenuItemDescription(name="Flow", sub_menu=[ MenuItemDescription(name="Presets"), MenuItemDescription(name="Monitor")]) ] # add menu omni.kit.menu.utils.add_menu_items(menu_placeholder, "Window", 90) omni.kit.menu.utils.add_menu_items(menu_physics, "Window") omni.kit.menu.utils.add_menu_items(menu_blast, "Window") omni.kit.menu.utils.add_menu_items(menu_flow, "Window") await ui_test.human_delay() # ---------------------------------------------------- # nested layout test # ---------------------------------------------------- menu_layout = [ MenuLayout.Menu("Window", [ MenuLayout.SubMenu("Simulation", [ MenuLayout.Group("Flow", [ MenuLayout.Item("Presets", source="Window/Flow/Presets"), MenuLayout.Item("Monitor", source="Window/Flow/Monitor"), ]), MenuLayout.Group("Blast", [ MenuLayout.Item("Settings", source="Window/Blast/Settings"), MenuLayout.SubMenu("Documentation", [ MenuLayout.Item("Kit UI", source="Window/Blast/Documentation/Kit UI"), MenuLayout.Item("Programming", source="Window/Blast/Documentation/Programming"), MenuLayout.Item("USD Schemas", source="Window/Blast/Documentation/USD Schemas"), ]), ]), MenuLayout.Group("Physics", [ MenuLayout.Item("Demo Scenes"), MenuLayout.Item("Settings", source="Window/Physics/Settings"), MenuLayout.Item("Debug"), MenuLayout.Item("Test Runner"), MenuLayout.Item("Character Controller") ]), ]), ]) ] omni.kit.menu.utils.add_layout(menu_layout) # verify layout verify_menu_items(self, [(ui.Menu, "Window", True), (ui.Menu, "Simulation", True), (ui.MenuItem, "placeholder", False), (ui.Menu, "Physics", False), (ui.Menu, "Blast", False), (ui.Menu, "Flow", False), (ui.Separator, "Flow", True), (ui.MenuItem, "Presets", True), (ui.MenuItem, "Monitor", True), (ui.Separator, "Blast", True), (ui.MenuItem, "Settings", True), (ui.Menu, "Documentation", True), (ui.Separator, "Physics", True), (ui.MenuItem, "Demo Scenes", True), (ui.MenuItem, "Settings", True), (ui.MenuItem, "Debug", True), (ui.MenuItem, "Test Runner", True), (ui.MenuItem, "Character Controller", True), (ui.MenuItem, "Kit UI", True), (ui.MenuItem, "Programming", True), (ui.MenuItem, "USD Schemas", True), (ui.Menu, "Documentation", False)]) # remove layout omni.kit.menu.utils.remove_layout(menu_layout) self.assertTrue(omni.kit.menu.utils.get_menu_layout() == []) # remove menu omni.kit.menu.utils.remove_menu_items(menu_physics, "Window") omni.kit.menu.utils.remove_menu_items(menu_blast, "Window") omni.kit.menu.utils.remove_menu_items(menu_flow, "Window") omni.kit.menu.utils.remove_menu_items(menu_placeholder, "Window") self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {}) async def test_remapped_layout_checkbox(self): menu_placeholder = [MenuItemDescription(name="placeholder", show_fn=lambda: False)] async def refresh_menus(): await ui_test.menu_click("Tools", human_delay_speed=4, show=True) await ui_test.menu_click("More Tools", human_delay_speed=4, show=True) await ui_test.menu_click("More Tools", human_delay_speed=4, show=False) example_window_is_ticked = False def get_example_window_is_ticked(): nonlocal example_window_is_ticked return example_window_is_ticked def toggle_example_window_is_ticked(): nonlocal example_window_is_ticked example_window_is_ticked = not example_window_is_ticked menu_entry1 = [ MenuItemDescription(name="Example Window", ticked=True, ticked_fn=get_example_window_is_ticked, onclick_fn=toggle_example_window_is_ticked) ] menu_entry2 = [ MenuItemDescription(name="Best Window Ever", ticked=True, ticked_fn=get_example_window_is_ticked, onclick_fn=toggle_example_window_is_ticked) ] # add menu omni.kit.menu.utils.add_menu_items(menu_placeholder, "Tools") omni.kit.menu.utils.add_menu_items(menu_placeholder, "More Tools") omni.kit.menu.utils.add_menu_items(menu_entry1, "Window") omni.kit.menu.utils.add_menu_items(menu_entry2, "Window") await ui_test.human_delay() # more the "Example Window" and "Best Window Ever" to differrent menus menu_layout = [ MenuLayout.Menu("Tools", [ MenuLayout.Item("Stage Window", source="Window/Example Window") ]), MenuLayout.Menu("More Tools", [ MenuLayout.Item("Another Stage Window", source="Window/Best Window Ever") ]), MenuLayout.Menu("More Cheese", [ MenuLayout.Item("Not A Menu Item", source="No Menu/Worst Window Ever") ]) ] omni.kit.menu.utils.add_layout(menu_layout) await ui_test.human_delay() # update checked status (checked) - refreshing window should refresh "Tools" and "More Tools" example_window_is_ticked = True omni.kit.menu.utils.refresh_menu_items("Window") # open menu as items are not refreshed on refresh_menu_items await refresh_menus() # verify verify_menu_checked_items(self, [(ui.Menu, "Tools", True, False, False), (ui.Menu, "More Tools", True, False, False), (ui.Menu, "Window", False, False, False), (ui.MenuItem, "Stage Window", True, True, True), (ui.MenuItem, "Another Stage Window", True, True, True)]) # update checked status (unchecked) - refreshing window should refresh "Tools" and "More Tools" example_window_is_ticked = False omni.kit.menu.utils.refresh_menu_items("Window") # open menu as items are not refreshed on refresh_menu_items await refresh_menus() # verify verify_menu_checked_items(self, [(ui.Menu, "Tools", True, False, False), (ui.Menu, "More Tools", True, False, False), (ui.Menu, "Window", False, False, False), (ui.MenuItem, "Stage Window", True, True, False), (ui.MenuItem, "Another Stage Window", True, True, False)]) # remove layout omni.kit.menu.utils.remove_layout(menu_layout) self.assertTrue(omni.kit.menu.utils.get_menu_layout() == []) # remove menu omni.kit.menu.utils.remove_menu_items(menu_entry2, "Window") omni.kit.menu.utils.remove_menu_items(menu_entry1, "Window") omni.kit.menu.utils.remove_menu_items(menu_placeholder, "Tools") omni.kit.menu.utils.remove_menu_items(menu_placeholder, "More Tools") self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {}) async def test_layout_local_source(self): menu_placeholder = [MenuItemDescription(name="placeholder", show_fn=lambda: False)] menu_physics = [ MenuItemDescription(name="Physics", sub_menu=[ MenuItemDescription(name="Debug"), MenuItemDescription(name="Settings"), MenuItemDescription(name="Demo Scenes"), MenuItemDescription(name="Test Runner"), MenuItemDescription(name="Character Controller")]) ] menu_blast = [ MenuItemDescription(name="Blast", sub_menu=[ MenuItemDescription(name="Settings"), MenuItemDescription(name="Documentation", sub_menu=[ MenuItemDescription(name="Kit UI"), MenuItemDescription(name="Programming"), MenuItemDescription(name="USD Schemas")]) ])] menu_flow = [ MenuItemDescription(name="Flow", sub_menu=[ MenuItemDescription(name="Presets"), MenuItemDescription(name="Monitor")]) ] # add menu omni.kit.menu.utils.add_menu_items(menu_placeholder, "Window", 90) omni.kit.menu.utils.add_menu_items(menu_physics, "Window") omni.kit.menu.utils.add_menu_items(menu_blast, "Window") omni.kit.menu.utils.add_menu_items(menu_flow, "Window") await ui_test.human_delay() # ---------------------------------------------------- # nested layout test # ---------------------------------------------------- menu_layout = [ MenuLayout.Menu("Window", [ MenuLayout.SubMenu("Simulation", [ MenuLayout.Group("Flow", [ MenuLayout.Item("Presets", source="Window/Flow/Presets"), MenuLayout.Item("Monitor", source="Window/Flow/Monitor"), ]), MenuLayout.Group("Blast", [ MenuLayout.Item("Settings", source="Window/Blast/Settings"), MenuLayout.SubMenu("Documentation", [ MenuLayout.Item("Kit UI", source="Window/Blast/Documentation/Kit UI"), MenuLayout.Item("Programming", source="Window/Blast/Documentation/Programming"), MenuLayout.Item("USD Schemas", source="Window/Blast/Documentation/USD Schemas"), ]), ]), MenuLayout.Group("Physics", [ MenuLayout.Item("Demo Scenes"), MenuLayout.Item("Settings", source="Window/Physics/Settings"), MenuLayout.Item("Debug"), MenuLayout.Item("Test Runner"), MenuLayout.Item("Character Controller") ]), ]), # these should not be moved as they are local only MenuLayout.Item("Demo Scenes", source_search=LayoutSourceSearch.LOCAL_ONLY), MenuLayout.Item("Settings", source_search=LayoutSourceSearch.LOCAL_ONLY), MenuLayout.Item("Debug", source_search=LayoutSourceSearch.LOCAL_ONLY), MenuLayout.Item("Test Runner", source_search=LayoutSourceSearch.LOCAL_ONLY), MenuLayout.Item("Character Controller", source_search=LayoutSourceSearch.LOCAL_ONLY), ]) ] omni.kit.menu.utils.add_layout(menu_layout) # verify layout verify_menu_items(self, [(ui.Menu, "Window", True), (ui.Menu, "Simulation", True), (ui.MenuItem, "placeholder", False), (ui.Menu, "Physics", False), (ui.Menu, "Blast", False), (ui.Menu, "Flow", False), (ui.Separator, "Flow", True), (ui.MenuItem, "Presets", True), (ui.MenuItem, "Monitor", True), (ui.Separator, "Blast", True), (ui.MenuItem, "Settings", True), (ui.Menu, "Documentation", True), (ui.Separator, "Physics", True), (ui.MenuItem, "Demo Scenes", True), (ui.MenuItem, "Settings", True), (ui.MenuItem, "Debug", True), (ui.MenuItem, "Test Runner", True), (ui.MenuItem, "Character Controller", True), (ui.MenuItem, "Kit UI", True), (ui.MenuItem, "Programming", True), (ui.MenuItem, "USD Schemas", True), (ui.Menu, "Documentation", False)]) # remove layout omni.kit.menu.utils.remove_layout(menu_layout) self.assertTrue(omni.kit.menu.utils.get_menu_layout() == []) # remove menu omni.kit.menu.utils.remove_menu_items(menu_physics, "Window") omni.kit.menu.utils.remove_menu_items(menu_blast, "Window") omni.kit.menu.utils.remove_menu_items(menu_flow, "Window") omni.kit.menu.utils.remove_menu_items(menu_placeholder, "Window") self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {})

13,396

Python

55.766949

753

0.581293

omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_right_menus.py

import os import unittest import carb import omni.kit.test import omni.ui as ui from typing import Callable, Union from omni.kit import ui_test from omni.kit.menu.utils import MenuItemDescription, MenuAlignment from .utils import verify_menu_items class TestMenuRightAlignedUtils(omni.kit.test.AsyncTestCase): async def setUp(self): pass async def tearDown(self): pass async def test_right_menu(self): class MenuDelegate(ui.MenuDelegate): def __init__(self, **kwargs): super().__init__(**kwargs) def build_item(self, item: ui.MenuHelper): super().build_item(item) def build_status(self, item: ui.MenuHelper): super().build_status(item) def build_title(self, item: ui.MenuHelper): super().build_title(item) def get_menu_alignment(self): return MenuAlignment.RIGHT class MenuDelegateHidden(MenuDelegate): def update_menu_item(self, menu_item: Union[ui.Menu, ui.MenuItem], menu_refresh: bool): if isinstance(menu_item, ui.MenuItem): menu_item.visible = False elif isinstance(menu_item, ui.Menu): menu_item.visible = True class MenuDelegateButton(MenuDelegate): def build_item(self, item: ui.MenuHelper): with ui.HStack(width=0): with ui.VStack(content_clipping=1, width=0): ui.Button("Button", style={"margin": 0}, clicked_fn=lambda: print("clicked")) # ---------------------------------------------------- # left aligned menu # ---------------------------------------------------- submenu_list3 = [ MenuItemDescription(name="SubMenu Item") ] submenu_list2 = [ MenuItemDescription(name="SubMenu 2", sub_menu=submenu_list3) ] submenu_list1 = [ MenuItemDescription(name="SubMenu 1", sub_menu=submenu_list2) ] left_menu_list = [ MenuItemDescription(name="Root Item", sub_menu=submenu_list1) ] # add menu omni.kit.menu.utils.add_menu_items(left_menu_list, "SubMenu Test", 99) verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True)]) # refresh and verify omni.kit.menu.utils.refresh_menu_items("SubMenu Test") verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True)]) # ---------------------------------------------------- # right aligned menu # ---------------------------------------------------- right_menu_list = [ MenuItemDescription(name="SubMenu Item 1"), MenuItemDescription(name="SubMenu Item 2") ] right_menu1 = omni.kit.menu.utils.add_menu_items(right_menu_list, "Right Menu Test 1", delegate=MenuDelegate()) right_menu2 = omni.kit.menu.utils.add_menu_items(right_menu_list, "Right Menu Test 2", delegate=MenuDelegate()) right_menu3 = omni.kit.menu.utils.add_menu_items([], name="Empty Menu", delegate=MenuDelegateHidden()) right_menu4 = omni.kit.menu.utils.add_menu_items([], name="Button Menu", delegate=MenuDelegateButton()) # verify verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Spacer, True), (ui.Menu, "Right Menu Test 1", True), (ui.Menu, "Right Menu Test 2", True), (ui.Menu, "Empty Menu", True), (ui.Menu, "Button Menu", True), (ui.Spacer, True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "placeholder", False), (ui.MenuItem, "placeholder", False)], True) # refresh and verify omni.kit.menu.utils.refresh_menu_items("Right Menu Test 1") verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Spacer, True), (ui.Menu, "Right Menu Test 1", True), (ui.Menu, "Right Menu Test 2", True), (ui.Menu, "Empty Menu", True), (ui.Menu, "Button Menu", True), (ui.Spacer, True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "placeholder", False), (ui.MenuItem, "placeholder", False)], True) # remove menus omni.kit.menu.utils.remove_menu_items(left_menu_list, "SubMenu Test") omni.kit.menu.utils.remove_menu_items(right_menu1, "Right Menu Test 1") omni.kit.menu.utils.remove_menu_items(right_menu2, "Right Menu Test 2") omni.kit.menu.utils.remove_menu_items(right_menu3, "Empty Menu") omni.kit.menu.utils.remove_menu_items(right_menu4, "Button Menu") # verify menus removed self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {}) async def test_multi_delegate_menu(self): class MenuDelegate(ui.MenuDelegate): def __init__(self, **kwargs): super().__init__(**kwargs) def build_item(self, item: ui.MenuHelper): super().build_item(item) def build_status(self, item: ui.MenuHelper): super().build_status(item) def build_title(self, item: ui.MenuHelper): super().build_title(item) def get_menu_alignment(self): return MenuAlignment.RIGHT class MenuDelegateHidden(MenuDelegate): def update_menu_item(self, menu_item: Union[ui.Menu, ui.MenuItem], menu_refresh: bool): if isinstance(menu_item, ui.MenuItem): menu_item.visible = False elif isinstance(menu_item, ui.Menu): menu_item.visible = True class MenuDelegateButton(MenuDelegate): def build_item(self, item: ui.MenuHelper): with ui.HStack(width=0): with ui.VStack(content_clipping=1, width=0): ui.Button("Button", style={"margin": 0}, clicked_fn=lambda: print("clicked")) # ---------------------------------------------------- # left aligned menu # ---------------------------------------------------- submenu_list3 = [ MenuItemDescription(name="SubMenu Item") ] submenu_list2 = [ MenuItemDescription(name="SubMenu 2", sub_menu=submenu_list3) ] submenu_list1 = [ MenuItemDescription(name="SubMenu 1", sub_menu=submenu_list2) ] left_menu_list = [ MenuItemDescription(name="Root Item", sub_menu=submenu_list1) ] # add menu omni.kit.menu.utils.add_menu_items(left_menu_list, "SubMenu Test", 99) verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True)]) # refresh and verify omni.kit.menu.utils.refresh_menu_items("SubMenu Test") verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True)]) # ---------------------------------------------------- # right aligned menu # ---------------------------------------------------- md = MenuDelegate() right_menu_list = [ MenuItemDescription(name="SubMenu Item 1"), MenuItemDescription(name="SubMenu Item 2") ] right_menu1 = omni.kit.menu.utils.add_menu_items(right_menu_list, "Right Menu Test", delegate=md) right_menu2 = omni.kit.menu.utils.add_menu_items(right_menu_list, "Right Menu Test", delegate=md) right_menu3 = omni.kit.menu.utils.add_menu_items([], name="Right Menu Test", delegate=MenuDelegateHidden()) right_menu4 = omni.kit.menu.utils.add_menu_items([], name="Right Menu Test", delegate=MenuDelegateButton()) # verify verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Spacer, True), (ui.Menu, "Right Menu Test", True), (ui.Spacer, True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "placeholder", False)], True) # refresh and verify omni.kit.menu.utils.refresh_menu_items("Right Menu Test") verify_menu_items(self, [(ui.Menu, "SubMenu Test", True), (ui.Spacer, True), (ui.Menu, "Right Menu Test", True), (ui.Spacer, True), (ui.Menu, "Root Item", True), (ui.Menu, "SubMenu 1", True), (ui.Menu, "SubMenu 2", True), (ui.MenuItem, "SubMenu Item", True), (ui.MenuItem, "SubMenu Item 1", True), (ui.MenuItem, "SubMenu Item 2", True), (ui.MenuItem, "placeholder", False)], True) # remove menus omni.kit.menu.utils.remove_menu_items(left_menu_list, "SubMenu Test") omni.kit.menu.utils.remove_menu_items(right_menu1, "Right Menu Test") omni.kit.menu.utils.remove_menu_items(right_menu2, "Right Menu Test") omni.kit.menu.utils.remove_menu_items(right_menu3, "Right Menu Test") omni.kit.menu.utils.remove_menu_items(right_menu4, "Right Menu Test") # verify menus removed self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {})

9,703

Python

61.606451

606

0.595589

omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/__init__.py

from .test_menus import * from .test_menu_layouts import * from .test_action_mapping import * from .test_right_menus import * from .test_debug_menu import * from .test_menu_icons import *

188

Python

25.999996

34

0.75

omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_action_mapping.py

import os import unittest import carb import omni.kit.test from omni.kit import ui_test from omni.kit.menu.utils import MenuItemDescription class TestActionMappingMenuUtils(omni.kit.test.AsyncTestCase): async def setUp(self): self._menus = [ MenuItemDescription( name="Test Hotkey Mapping", glyph="none.svg", hotkey=( carb.input.KEYBOARD_MODIFIER_FLAG_CONTROL | carb.input.KEYBOARD_MODIFIER_FLAG_SHIFT, carb.input.KeyboardInput.EQUAL, ), ) ] omni.kit.menu.utils.add_menu_items( self._menus, "Test", 99) async def tearDown(self): omni.kit.menu.utils.remove_menu_items( self._menus, "Test") pass async def wait_for_update(self, usd_context=omni.usd.get_context(), wait_frames=10): max_loops = 0 while max_loops < wait_frames: _, files_loaded, total_files = usd_context.get_stage_loading_status() await omni.kit.app.get_app().next_update_async() if files_loaded or total_files: continue max_loops = max_loops + 1 async def test_action_mapping(self): import re mapping_path = "/app/inputBindings/global/Test_Test_Hotkey_Mapping" menu_widget = ui_test.get_menubar() widget = menu_widget.find_menu("Test Hotkey Mapping") settings = carb.settings.get_settings() await self.wait_for_update(wait_frames=10) # verify initial value menu_text = re.sub(r'[^\x00-\x7F]+','', widget.widget.text).replace(" ", "") self.assertTrue(menu_text == "TestHotkeyMapping") key_mapping = settings.get(mapping_path) self.assertTrue(key_mapping == ['Shift + Ctrl + Keyboard::=']) hotkey_text = widget.widget.hotkey_text.replace(" ", "") self.assertTrue(hotkey_text == "Shift+Ctrl+=") # set to bad value.. settings.set(mapping_path, "Nothingness") await self.wait_for_update(wait_frames=10) hotkey_text = widget.widget.hotkey_text.replace(" ", "") self.assertTrue(hotkey_text == "") # set to bad value.. (this crashes kit) # settings.set(mapping_path, ["Nothingness"]) # await self.wait_for_update(wait_frames=10) # hotkey_text = widget.widget.hotkey_text.replace(" ", "") # self.assertTrue(hotkey_text == "") # set to good value.. settings.set(mapping_path, ["Shift + Ctrl + Keyboard::O"]) await self.wait_for_update(wait_frames=10) hotkey_text = widget.widget.hotkey_text.replace(" ", "") self.assertTrue(hotkey_text == "Shift+Ctrl+O") # set to good value.. settings.set(mapping_path, ["Shift + Ctrl + Keyboard::="]) await self.wait_for_update(wait_frames=10) hotkey_text = widget.widget.hotkey_text.replace(" ", "") self.assertTrue(hotkey_text == "Shift+Ctrl+=")

3,006

Python

37.551282

104

0.594145

omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/utils.py

import carb import omni.ui as ui from omni.kit import ui_test def verify_menu_items(cls, verify_list, use_menu_spacers: bool=False): menu_widget = ui_test.get_menubar() menu_widgets = [] def show_debug(): debug_info = "" for w in menu_widgets: if isinstance(w.widget, (ui.Menu, ui.MenuItem, ui.Separator)): debug_info += f"(ui.{w.widget.__class__.__name__}, \"{w.widget.text.strip()}\", {w.widget.visible}), " elif isinstance(w.widget, ui.Spacer) and use_menu_spacers: debug_info += f"(ui.{w.widget.__class__.__name__}, {w.widget.visible}), " carb.log_warn(f"verify_menu_items [{debug_info[:-2]}] vs {verify_list}") for w in menu_widget.find_all("**/"): if isinstance(w.widget, (ui.Menu, ui.MenuItem, ui.Separator)): menu_widgets.append(w) elif isinstance(w.widget, ui.Spacer) and use_menu_spacers and w.widget.identifier in ["right_aligned_menus", "right_padding"]: menu_widgets.append(w) try: cls.assertEqual(len(menu_widgets), len(verify_list)) for index, item in enumerate(verify_list): widget = menu_widgets[index] cls.assertTrue(isinstance(widget.widget, item[0]), f"menu type error {widget.widget} vs {item[0]}") if isinstance(widget.widget, (ui.Menu, ui.MenuItem, ui.Separator)): cls.assertEqual(widget.widget.text.strip(), item[1]) cls.assertEqual(widget.widget.visible, item[2]) elif isinstance(widget.widget, ui.Spacer) and use_menu_spacers and widget.widget.identifier in ["right_aligned_menus", "right_padding"]: cls.assertEqual(widget.widget.visible, item[1]) except Exception as exc: show_debug() raise Exception(exc) def verify_menu_checked_items(cls, verify_list): menu_widget = ui_test.get_menubar() menu_widgets = [] def show_debug(): debug_info = "" for w in menu_widgets: if isinstance(w.widget, (ui.Menu, ui.MenuItem)) and w.widget.text.strip() != "placeholder": debug_info += f"(ui.{w.widget.__class__.__name__}, \"{w.widget.text.strip()}\", {w.widget.visible}, {w.widget.checkable}, {w.widget.checked}), " carb.log_warn(f"verify_menu_items [{debug_info[:-2]}] vs {verify_list}") for w in menu_widget.find_all("**/"): if isinstance(w.widget, (ui.Menu, ui.MenuItem)) and w.widget.text.strip() != "placeholder": menu_widgets.append(w) try: cls.assertEqual(len(menu_widgets), len(verify_list)) for index, item in enumerate(verify_list): widget = menu_widgets[index] cls.assertTrue(isinstance(widget.widget, item[0]), f"menu type error {widget.widget} vs {item[0]}") cls.assertEqual(widget.widget.text.strip(), item[1]) cls.assertEqual(widget.widget.visible, item[2]) cls.assertEqual(widget.widget.checkable, item[3]) cls.assertEqual(widget.widget.checked, item[4]) except Exception as exc: show_debug() raise Exception(exc)

3,127

Python

44.999999

160

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omniverse-code/kit/exts/omni.kit.menu.utils/omni/kit/menu/utils/tests/test_menu_icons.py

from pathlib import Path import unittest import carb import omni.kit.test import omni.ui as ui from omni.kit import ui_test from omni.kit.menu.utils import MenuItemDescription, MenuLayout from omni.ui.tests.test_base import OmniUiTest from omni.kit.test_suite.helpers import get_test_data_path class TestMenuIcon(OmniUiTest): async def setUp(self): pass async def tearDown(self): pass async def test_menu_icon(self): icon_path = Path(omni.kit.app.get_app().get_extension_manager().get_extension_path_by_module(__name__)).joinpath("data/tests/icons/audio_record.svg") golden_img_dir = Path(get_test_data_path(__name__, "golden_img")) submenu_list = [ MenuItemDescription(name="Menu Item", glyph=str(icon_path)) ] menu_list = [ MenuItemDescription(name="Icon Menu Test", glyph=str(icon_path), sub_menu=submenu_list) ] omni.kit.menu.utils.add_menu_items(menu_list, "Icon Test", 99) omni.kit.menu.utils.rebuild_menus() await ui_test.human_delay(50) await ui_test.menu_click("Icon Test/Icon Menu Test", human_delay_speed=4) await ui_test.human_delay(10) await self.finalize_test(golden_img_dir=golden_img_dir, golden_img_name="test_menu_icon.png", hide_menu_bar=False) await ui_test.human_delay(50) omni.kit.menu.utils.remove_menu_items(menu_list, "Icon Test") self.assertTrue(omni.kit.menu.utils.get_merged_menus() == {})

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omniverse-code/kit/exts/omni.kit.menu.utils/docs/index.rst

omni.kit.menu.utils ########################### Menu Utils .. toctree:: :maxdepth: 1 CHANGELOG

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omniverse-code/kit/exts/omni.kit.search_core/config/extension.toml

[package] # Semantic Versioning is used: https://semver.org/ version = "1.0.2" # 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 = "Search Core Classes" description="The extension provides the base classes for search and registering search engines." # Path (relative to the root) or content of readme markdown file for UI. readme = "docs/README.md" # URL of the extension source repository. repository = "" # Keywords for the extension keywords = ["search", "filepicker", "content"] # 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. Folder named "data" automatically goes in git lfs (see .gitattributes file). preview_image = "data/preview.png" # Main python module this extension provides, it will be publicly available as "import omni.example.hello". [[python.module]] name = "omni.kit.search_core"

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omniverse-code/kit/exts/omni.kit.search_core/omni/kit/search_core/search_engine_registry.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 .singleton import Singleton from omni.kit.widget.nucleus_info import get_instance as get_nucleus @Singleton class SearchEngineRegistry: """ Singleton that keeps all the search engines. It's used to put custom search engine to the content browser. """ class _Event(set): """ A list of callable objects. Calling an instance of this will cause a call to each item in the list in ascending order by index. """ def __call__(self, *args, **kwargs): """Called when the instance is “called” as a function""" # Call all the saved functions for f in self: f(*args, **kwargs) def __repr__(self): """ Called by the repr() built-in function to compute the “official” string representation of an object. """ return f"Event({set.__repr__(self)})" class _EventSubscription: """ Event subscription. _Event has callback while this object exists. """ def __init__(self, event, fn): """ Save the function, the event, and add the function to the event. """ self._fn = fn self._event = event event.add(self._fn) def __del__(self): """Called by GC.""" self._event.remove(self._fn) class _EngineSubscription: """ Event subscription. _Event has callback while this object exists. """ def __init__(self, name, model_type): """ Save name and type to the list. """ self._name = name SearchEngineRegistry()._engines[self._name] = model_type SearchEngineRegistry()._on_engines_changed() def __del__(self): """Called by GC.""" del SearchEngineRegistry()._engines[self._name] SearchEngineRegistry()._on_engines_changed() def __init__(self): self._engines = {} self._on_engines_changed = self._Event() def register_search_model(self, name, model_type): """ Add a new engine to the registry. name: the name of the engine as it appears in the menu. model_type: the type derived from AbstractSearchModel. Content browser will create an object of this type when it needs a new search. """ if name in self._engines: # TODO: Warning return return self._EngineSubscription(name, model_type) def get_search_names(self): """Returns all the search names""" return list(sorted(self._engines.keys())) def get_available_search_names(self, server: str): """Returns available search names in given server""" search_names = list(sorted(self._engines.keys())) available_search_names = [] for name in search_names: if "Service" not in name or get_nucleus().is_service_available(name, server): available_search_names.append(name) return available_search_names def get_search_model(self, name): """Returns the type of derived from AbstractSearchModel for the given name""" return self._engines.get(name, None) def subscribe_engines_changed(self, fn): """ Add the provided function to engines changed event subscription callbacks. Return the object that will automatically unsubscribe when destroyed. """ return self._EventSubscription(self._on_engines_changed, fn)

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omniverse-code/kit/exts/omni.kit.search_core/omni/kit/search_core/abstract_search_model.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 abc class AbstractSearchItem: """AbstractSearchItem represents a single file in the file browser.""" @property def path(self): """The full path that goes to usd when Drag and Drop""" return "" @property def name(self): """The name as it appears in the widget""" return "" @property def date(self): # TODO: Grid View needs datatime, but Tree View needs a string. We need to make them the same. return datetime.now() @property def size(self): # TODO: Grid View needs int, but Tree View needs a string. We need to make them the same. return 0 @property def icon(self): pass @property def is_folder(self): pass def __getitem__(self, key): """Access to methods by text for _RedirectModel""" return getattr(self, key) class SearchLifetimeObject(metaclass=abc.ABCMeta): """ SearchLifetimeObject encapsulates a callback to be called when a search is finished. It is the responsibility of the implementers of AbstractSearchModel to get the object argument and keep it alive until the search is completed if the search runs long. """ def __init__(self, callback): self._callback = callback def __del__(self): self.destroy() def destroy(self): if self._callback: self._callback() self._callback = None class AbstractSearchModel(metaclass=abc.ABCMeta): """ AbstractSearchModel represents the search results. It supports async mode. If the search engine needs some time to process the request, it can return an empty list and do a search in async mode. As soon as a result is ready, the model should call `self._item_changed()`. It will make the view reload the model. It's also possible to return the search result with portions. __init__ is usually called with the named arguments search_text and current_dir, and optionally a search_lifetime object. """ class _Event(set): """ A list of callable objects. Calling an instance of this will cause a call to each item in the list in ascending order by index. """ def __call__(self, *args, **kwargs): """Called when the instance is “called” as a function""" # Call all the saved functions for f in self: f(*args, **kwargs) def __repr__(self): """ Called by the repr() built-in function to compute the “official” string representation of an object. """ return f"Event({set.__repr__(self)})" class _EventSubscription: """ Event subscription. _Event has callback while this object exists. """ def __init__(self, event, fn): """ Save the function, the event, and add the function to the event. """ self._fn = fn self._event = event event.add(self._fn) def __del__(self): """Called by GC.""" self._event.remove(self._fn) def __init__(self): # TODO: begin_edit/end_edit self.__on_item_changed = self._Event() @property @abc.abstractmethod def items(self): """Should be implemented""" pass def destroy(self): """Called to cancel current search""" pass def _item_changed(self, item=None): """Call the event object that has the list of functions""" self.__on_item_changed(item) def subscribe_item_changed(self, fn): """ Return the object that will automatically unsubscribe when destroyed. """ return self._EventSubscription(self.__on_item_changed, fn)

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omniverse-code/kit/exts/omni.kit.search_core/omni/kit/search_core/tests/search_core_test.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. ## from ..search_engine_registry import SearchEngineRegistry from ..abstract_search_model import AbstractSearchItem from ..abstract_search_model import AbstractSearchModel import omni.kit.test from unittest.mock import Mock class TestSearchItem(AbstractSearchItem): pass class TestSearchModel(AbstractSearchModel): running_search = None def __init__(self, **kwargs): super().__init__() self.__items = [TestSearchItem()] def destroy(self): self.__items = [] @property def items(self): return self.__items class TestSearchCore(omni.kit.test.AsyncTestCase): async def test_registry(self): test_name = "TEST_SEARCH" self._subscription = SearchEngineRegistry().register_search_model(test_name, TestSearchModel) self.assertIn(test_name, SearchEngineRegistry().get_search_names()) self.assertIn(test_name, SearchEngineRegistry().get_available_search_names("DummyServer")) self.assertIs(TestSearchModel, SearchEngineRegistry().get_search_model(test_name)) self._subscription = None self.assertNotIn(test_name, SearchEngineRegistry().get_search_names()) async def test_event_subscription(self): mock_callback = Mock() self._sub = SearchEngineRegistry().subscribe_engines_changed(mock_callback) self._added_model = SearchEngineRegistry().register_search_model("dummy", TestSearchModel) mock_callback.assert_called_once() mock_callback.reset_mock() self._added_model = None mock_callback.assert_called_once() async def test_item_changed_subscription(self): mock_callback = Mock() model = TestSearchModel() self._sub = model.subscribe_item_changed(mock_callback) model._item_changed() mock_callback.assert_called_once()

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omniverse-code/kit/exts/omni.kit.search_core/docs/CHANGELOG.md

# Changelog This document records all notable changes to ``omni.kit.search_core`` extension. ## [1.0.2] - 2022-11-10 ### Removed - Removed dependency on omni.kit.test ## [1.0.1] - 2022-03-07 ### Added - Added a search lifetime object that can be used for callbacks after search is done to indicate progress. ## [1.0.0] - 2020-10-05 ### Added - Initial model and registry

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omniverse-code/kit/exts/omni.kit.search_core/docs/README.md

# omni.kit.search_example ## Python Search Core The example provides search model AbstractSearchModel and search registry SearchEngineRegistry. `AbstractSearchModel` represents the search results. It supports async mode. If the search engine needs some time to process the request, it can return an empty list and do a search in async mode. As soon as a result is ready, the model should call `self._item_changed()`. It will make the view reload the model. It's also possible to return the search result with portions. `AbstractSearchModel.__init__` is usually called with the named arguments search_text and current_dir. `SearchEngineRegistry` keeps all the search engines. It's used to put custom search engine to the content browser. It provides fast access to search engines. Any extension that can use the objects derived from `AbstractSearchModel` can use the search.

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omniverse-code/kit/exts/omni.graph.bundle.action/config/extension.toml

[package] # Semantic Versioning is used: https://semver.org/ version = "1.3.0" # Lists people or organizations that are considered the "authors" of the package. authors = ["NVIDIA"] # The title description fields are primarly for displaying extension info in UI title = "Action Graph Bundle" description="Load all extensions necessary for using OmniGraph action graphs" category = "Graph" feature = true # URL of the extension source repository. repository = "" # Keywords for the extension keywords = ["kit", "omnigraph", "action"] # Preview image. Folder named "data" automatically goes in git lfs (see .gitattributes file). preview_image = "data/preview.png" # Icon is shown in Extensions window, it is recommended to be square, of size 256x256. icon = "data/icon.svg" # Location of change log file in target (final) folder of extension, relative to the root. changelog="docs/CHANGELOG.md" # Path (relative to the root) of the main documentation file. readme = "docs/index.rst" [dependencies] "omni.graph" = {} "omni.graph.action" = {} "omni.graph.nodes" = {} "omni.graph.ui" = {} [[test]] unreliable = true # OM-51994 waiver = "Empty extension that bundles other extensions" args = [ "--/app/extensions/registryEnabled=1" # needs to be fixed and removed: OM-49578 ] [documentation] pages = [ "docs/Overview.md", "docs/CHANGELOG.md", ]

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omniverse-code/kit/exts/omni.graph.bundle.action/docs/CHANGELOG.md

# Changelog The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/). ## [1.3.0] - 2022-08-11 ### Removed - omni.graph.window.action dependency ## [1.2.0] - 2022-08-04 ### Removed - omni.graph.instancing dependency ## [1.1.1] - 2022-06-21 ### Fixed - Put docs in the README for the extension manager ## [1.1.0] - 2022-05-05 ### Removed - omni.graph.tutorials dependency ## [1.0.0] - 2021-11-18 ### Changes - Created with initial required set of extensions

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omniverse-code/kit/exts/omni.graph.bundle.action/docs/README.md

# OmniGraph Action Bundle [omni.graph.bundle.action] Action Graphs are a subset of OmniGraph that control execution flow through event triggers. Loading this bundled extension is a convenient way to load all of the extensions required for OmniGraph action graphs to run. For visual editing of Action graphs, see `omni.graph.window.action`.

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omniverse-code/kit/exts/omni.graph.bundle.action/docs/index.rst

OmniGraph Action Graph Bundle ############################# .. tabularcolumns:: |L|R| .. csv-table:: :width: 100% **Extension**: omni.graph.bundle.action,**Documentation Generated**: |today| Action Graphs are a subset of OmniGraph that control execution flow through event triggers. Loading this bundled extension is a convenient way to load all of the extensions required to use the OmniGraph action graphs. Extensions Loaded ================= - omni.graph - omni.graph.action - omni.graph.nodes - omni.graph.ui - omni.graph.window.action .. toctree:: :maxdepth: 1 CHANGELOG

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omniverse-code/kit/exts/omni.graph.bundle.action/docs/Overview.md

# OmniGraph Action Graph Bundle ```{csv-table} **Extension**: omni.graph.bundle.action,**Documentation Generated**: {sub-ref}`today` ``` Action Graphs are a subset of OmniGraph that control execution flow through event triggers. Loading this bundled extension is a convenient way to load all of the extensions required to use the OmniGraph action graphs. ## Extensions Loaded - omni.graph - omni.graph.action - omni.graph.nodes - omni.graph.ui - omni.graph.window.action

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omniverse-code/kit/exts/omni.graph.test/config/extension.toml

[package] version = "0.18.0" title = "OmniGraph Regression Testing" category = "Graph" readme = "docs/README.md" changelog = "docs/CHANGELOG.md" description = "Contains test scripts and files used to test the OmniGraph extensions where the tests cannot live in a single extension." repository = "" keywords = ["kit", "omnigraph", "tests"] # Main module for the Python interface [[python.module]] name = "omni.graph.test" [[native.plugin]] path = "bin/*.plugin" recursive = false # Watch the .ogn files for hot reloading (only works for Python files) [fswatcher.patterns] include = ["*.ogn", "*.py"] exclude = ["Ogn*Database.py"] # Python array data uses numpy as its format [python.pipapi] requirements = ["numpy"] # Other extensions that need to load in order for this one to work [dependencies] "omni.graph" = {} "omni.graph.tools" = {} "omni.kit.pipapi" = {} "omni.graph.examples.cpp" = {} "omni.graph.examples.python" = {} "omni.graph.nodes" = {} "omni.graph.tutorials" = {} "omni.graph.action" = {} "omni.graph.scriptnode" = {} "omni.inspect" = {} "omni.usd" = {} [[test]] timeout = 600 stdoutFailPatterns.exclude = [ # Exclude carb.events leak that only shows up locally "*[Error] [carb.events.plugin]*PooledAllocator*", # Exclude messages which say they should be ignored "*Ignore this error/warning*", ] pythonTests.unreliable = [ # "*test_graph_load", # OM-53608 # "*test_hashability", # OM-53608 # "*test_rename_deformer", # OM-53608 "*test_import_time_sampled_data", # OM-58596 # "*test_import_time_samples", # OM-61324 "*test_reparent_graph", # OM-58852 "*test_simple_rename", # OM-58852 "*test_copy_on_write", # OM-58586 "*test_reparent_fabric", # OM-63175 ] [documentation] pages = [ "docs/Overview.md", "docs/CHANGELOG.md", ]

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/__init__.py

"""There is no public API to this module.""" __all__ = [] from ._impl.extension import _PublicExtension # noqa: F401

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestDataModelDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TestDataModel Helper node that allows to test that core features of datamodel are working as expected (CoW, DataStealing, ...) """ import carb import numpy import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestDataModelDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestDataModel Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.arrayShouldMatch inputs.attrib inputs.bundleArraysThatShouldDiffer inputs.bundleShouldMatch inputs.mutArray inputs.mutBundle inputs.mutateArray inputs.refArray inputs.refBundle Outputs: outputs.array outputs.bundle """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:arrayShouldMatch', 'bool', 0, 'Array should match', 'Whether or not the input arrays should be the same one one', {ogn.MetadataKeys.DEFAULT: 'true'}, True, True, False, ''), ('inputs:attrib', 'token', 0, 'Attrib to mutate', 'Attribute to mutate in the bundle', {}, True, "", False, ''), ('inputs:bundleArraysThatShouldDiffer', 'int', 0, 'Number of != arrays in bundles', 'The number of arrays attribute in the input bundles that should differs', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''), ('inputs:bundleShouldMatch', 'bool', 0, 'Bundles should match', 'Whether or not the input bundles should be the same one', {ogn.MetadataKeys.DEFAULT: 'true'}, True, True, False, ''), ('inputs:mutArray', 'point3f[]', 0, 'In array', 'Array meant to be mutated', {}, True, [], False, ''), ('inputs:mutBundle', 'bundle', 0, 'In bundle', 'Bundle meant to be mutated (or not)', {}, True, None, False, ''), ('inputs:mutateArray', 'bool', 0, 'Mutate array', 'Whether or not to mutate the array or just passthrough', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''), ('inputs:refArray', 'point3f[]', 0, 'Ref array', 'A reference array used as a point of comparaison', {}, True, [], False, ''), ('inputs:refBundle', 'bundle', 0, 'Ref bundle', 'Reference Bundle used as a point of comparaison', {}, True, None, False, ''), ('outputs:array', 'point3f[]', 0, 'Output array', 'The outputed array', {}, True, None, False, ''), ('outputs:bundle', 'bundle', 0, 'Output bundle', 'The outputed bundle', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.mutArray = og.AttributeRole.POSITION role_data.inputs.mutBundle = og.AttributeRole.BUNDLE role_data.inputs.refArray = og.AttributeRole.POSITION role_data.inputs.refBundle = og.AttributeRole.BUNDLE role_data.outputs.array = og.AttributeRole.POSITION role_data.outputs.bundle = og.AttributeRole.BUNDLE return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=True, gpu_ptr_kinds={}) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def arrayShouldMatch(self): data_view = og.AttributeValueHelper(self._attributes.arrayShouldMatch) return data_view.get() @arrayShouldMatch.setter def arrayShouldMatch(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.arrayShouldMatch) data_view = og.AttributeValueHelper(self._attributes.arrayShouldMatch) data_view.set(value) @property def attrib(self): data_view = og.AttributeValueHelper(self._attributes.attrib) return data_view.get() @attrib.setter def attrib(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.attrib) data_view = og.AttributeValueHelper(self._attributes.attrib) data_view.set(value) @property def bundleArraysThatShouldDiffer(self): data_view = og.AttributeValueHelper(self._attributes.bundleArraysThatShouldDiffer) return data_view.get() @bundleArraysThatShouldDiffer.setter def bundleArraysThatShouldDiffer(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.bundleArraysThatShouldDiffer) data_view = og.AttributeValueHelper(self._attributes.bundleArraysThatShouldDiffer) data_view.set(value) @property def bundleShouldMatch(self): data_view = og.AttributeValueHelper(self._attributes.bundleShouldMatch) return data_view.get() @bundleShouldMatch.setter def bundleShouldMatch(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.bundleShouldMatch) data_view = og.AttributeValueHelper(self._attributes.bundleShouldMatch) data_view.set(value) @property def mutArray(self): data_view = og.AttributeValueHelper(self._attributes.mutArray) return data_view.get() @mutArray.setter def mutArray(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.mutArray) data_view = og.AttributeValueHelper(self._attributes.mutArray) data_view.set(value) self.mutArray_size = data_view.get_array_size() @property def mutBundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute inputs.mutBundle""" return self.__bundles.mutBundle @property def mutateArray(self): data_view = og.AttributeValueHelper(self._attributes.mutateArray) return data_view.get() @mutateArray.setter def mutateArray(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.mutateArray) data_view = og.AttributeValueHelper(self._attributes.mutateArray) data_view.set(value) @property def refArray(self): data_view = og.AttributeValueHelper(self._attributes.refArray) return data_view.get() @refArray.setter def refArray(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.refArray) data_view = og.AttributeValueHelper(self._attributes.refArray) data_view.set(value) self.refArray_size = data_view.get_array_size() @property def refBundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute inputs.refBundle""" return self.__bundles.refBundle def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self.array_size = None self._batchedWriteValues = { } @property def array(self): data_view = og.AttributeValueHelper(self._attributes.array) return data_view.get(reserved_element_count=self.array_size) @array.setter def array(self, value): data_view = og.AttributeValueHelper(self._attributes.array) data_view.set(value) self.array_size = data_view.get_array_size() @property def bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute outputs.bundle""" return self.__bundles.bundle @bundle.setter def bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute outputs.bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.bundle.bundle = bundle def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestDataModelDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestDataModelDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestDataModelDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

11,607

Python

46.966942

220

0.649091

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestGatherDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TestGather Test node to test out the effects of vectorization. """ import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn import carb import numpy class OgnTestGatherDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestGather Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.base_name inputs.num_instances Outputs: outputs.gathered_paths outputs.rotations """ # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:base_name', 'token', 0, None, 'The base name of the pattern to match', {ogn.MetadataKeys.DEFAULT: '""'}, True, '', False, ''), ('inputs:num_instances', 'int', 0, None, 'How many instances are involved', {ogn.MetadataKeys.DEFAULT: '1'}, True, 1, False, ''), ('outputs:gathered_paths', 'token[]', 0, None, 'The paths of the gathered objects', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('outputs:rotations', 'double3[]', 0, None, 'The rotations of the gathered points', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = {"base_name", "num_instances", "_setting_locked", "_batchedReadAttributes", "_batchedReadValues"} """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [self._attributes.base_name, self._attributes.num_instances] self._batchedReadValues = ["", 1] @property def base_name(self): return self._batchedReadValues[0] @base_name.setter def base_name(self, value): self._batchedReadValues[0] = value @property def num_instances(self): return self._batchedReadValues[1] @num_instances.setter def num_instances(self, value): self._batchedReadValues[1] = value def __getattr__(self, item: str): if item in self.LOCAL_PROPERTY_NAMES: return object.__getattribute__(self, item) else: return super().__getattr__(item) def __setattr__(self, item: str, new_value): if item in self.LOCAL_PROPERTY_NAMES: object.__setattr__(self, item, new_value) else: super().__setattr__(item, new_value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.gathered_paths_size = 0 self.rotations_size = 0 self._batchedWriteValues = { } @property def gathered_paths(self): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) return data_view.get(reserved_element_count=self.gathered_paths_size) @gathered_paths.setter def gathered_paths(self, value): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) data_view.set(value) self.gathered_paths_size = data_view.get_array_size() @property def rotations(self): data_view = og.AttributeValueHelper(self._attributes.rotations) return data_view.get(reserved_element_count=self.rotations_size) @rotations.setter def rotations(self, value): data_view = og.AttributeValueHelper(self._attributes.rotations) data_view.set(value) self.rotations_size = data_view.get_array_size() def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestGatherDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestGatherDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestGatherDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

6,560

Python

49.083969

147

0.653506

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnDecomposeDouble3CDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.DecomposeDouble3C Example node that takes in a double[3] and outputs scalars that are its components """ import carb import numpy import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnDecomposeDouble3CDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.DecomposeDouble3C Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.double3 Outputs: outputs.x outputs.y outputs.z """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:double3', 'double3', 0, None, 'Input to decompose', {ogn.MetadataKeys.DEFAULT: '[0, 0, 0]'}, True, [0, 0, 0], False, ''), ('outputs:x', 'double', 0, None, 'The x component of the input', {}, True, None, False, ''), ('outputs:y', 'double', 0, None, 'The y component of the input', {}, True, None, False, ''), ('outputs:z', 'double', 0, None, 'The z component of the input', {}, True, None, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def double3(self): data_view = og.AttributeValueHelper(self._attributes.double3) return data_view.get() @double3.setter def double3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.double3) data_view = og.AttributeValueHelper(self._attributes.double3) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def x(self): data_view = og.AttributeValueHelper(self._attributes.x) return data_view.get() @x.setter def x(self, value): data_view = og.AttributeValueHelper(self._attributes.x) data_view.set(value) @property def y(self): data_view = og.AttributeValueHelper(self._attributes.y) return data_view.get() @y.setter def y(self, value): data_view = og.AttributeValueHelper(self._attributes.y) data_view.set(value) @property def z(self): data_view = og.AttributeValueHelper(self._attributes.z) return data_view.get() @z.setter def z(self, value): data_view = og.AttributeValueHelper(self._attributes.z) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnDecomposeDouble3CDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnDecomposeDouble3CDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnDecomposeDouble3CDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

5,913

Python

42.807407

138

0.651108

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnComputeErrorCppDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.ComputeErrorCpp Generates a customizable error during its compute(), for testing purposes. C++ version. """ import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnComputeErrorCppDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.ComputeErrorCpp Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.deprecatedInInit inputs.deprecatedInOgn inputs.dummyIn inputs.failCompute inputs.message inputs.severity Outputs: outputs.dummyOut Predefined Tokens: tokens.none tokens.warning tokens.error """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:deprecatedInInit', 'float', 0, None, "Attribute which has been deprecated in the node's initialization code.", {}, True, 0.0, False, ''), ('inputs:deprecatedInOgn', 'float', 0, None, 'Attribute which has been deprecated here in the .ogn file.', {}, True, 0.0, True, "Use 'dummyIn' instead."), ('inputs:dummyIn', 'int', 0, None, 'Dummy value to be copied to the output.', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''), ('inputs:failCompute', 'bool', 0, None, 'If true, the compute() call will return failure to the evaluator.', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''), ('inputs:message', 'string', 0, None, 'Text of the error message.', {}, True, "", False, ''), ('inputs:severity', 'token', 0, None, "Severity of the error. 'none' disables the error.", {ogn.MetadataKeys.ALLOWED_TOKENS: 'none,warning,error', ogn.MetadataKeys.ALLOWED_TOKENS_RAW: '["none", "warning", "error"]', ogn.MetadataKeys.DEFAULT: '"none"'}, True, "none", False, ''), ('outputs:dummyOut', 'int', 0, None, "Value copied from 'dummyIn'", {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''), ]) class tokens: none = "none" warning = "warning" error = "error" @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.message = og.AttributeRole.TEXT return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def deprecatedInInit(self): data_view = og.AttributeValueHelper(self._attributes.deprecatedInInit) return data_view.get() @deprecatedInInit.setter def deprecatedInInit(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.deprecatedInInit) data_view = og.AttributeValueHelper(self._attributes.deprecatedInInit) data_view.set(value) @property def deprecatedInOgn(self): data_view = og.AttributeValueHelper(self._attributes.deprecatedInOgn) return data_view.get() @deprecatedInOgn.setter def deprecatedInOgn(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.deprecatedInOgn) data_view = og.AttributeValueHelper(self._attributes.deprecatedInOgn) data_view.set(value) @property def dummyIn(self): data_view = og.AttributeValueHelper(self._attributes.dummyIn) return data_view.get() @dummyIn.setter def dummyIn(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.dummyIn) data_view = og.AttributeValueHelper(self._attributes.dummyIn) data_view.set(value) @property def failCompute(self): data_view = og.AttributeValueHelper(self._attributes.failCompute) return data_view.get() @failCompute.setter def failCompute(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.failCompute) data_view = og.AttributeValueHelper(self._attributes.failCompute) data_view.set(value) @property def message(self): data_view = og.AttributeValueHelper(self._attributes.message) return data_view.get() @message.setter def message(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.message) data_view = og.AttributeValueHelper(self._attributes.message) data_view.set(value) self.message_size = data_view.get_array_size() @property def severity(self): data_view = og.AttributeValueHelper(self._attributes.severity) return data_view.get() @severity.setter def severity(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.severity) data_view = og.AttributeValueHelper(self._attributes.severity) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def dummyOut(self): data_view = og.AttributeValueHelper(self._attributes.dummyOut) return data_view.get() @dummyOut.setter def dummyOut(self, value): data_view = og.AttributeValueHelper(self._attributes.dummyOut) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnComputeErrorCppDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnComputeErrorCppDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnComputeErrorCppDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

8,936

Python

44.136363

286

0.648389

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestGatherRandomRotationsDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TestGatherRandomRotations A sample node that gathers (vectorizes) a bunch of translations and rotations for OmniHydra. It lays out the objects in a grid and assigns a random value for the rotation """ import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn import carb class OgnTestGatherRandomRotationsDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestGatherRandomRotations Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.bucketIds """ # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:bucketIds', 'uint64', 0, None, 'bucketIds of the buckets involved in the gather', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = {"bucketIds", "_setting_locked", "_batchedReadAttributes", "_batchedReadValues"} """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [self._attributes.bucketIds] self._batchedReadValues = [0] @property def bucketIds(self): return self._batchedReadValues[0] @bucketIds.setter def bucketIds(self, value): self._batchedReadValues[0] = value def __getattr__(self, item: str): if item in self.LOCAL_PROPERTY_NAMES: return object.__getattribute__(self, item) else: return super().__getattr__(item) def __setattr__(self, item: str, new_value): if item in self.LOCAL_PROPERTY_NAMES: object.__setattr__(self, item, new_value) else: super().__setattr__(item, new_value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestGatherRandomRotationsDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestGatherRandomRotationsDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestGatherRandomRotationsDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

4,969

Python

53.021739

152

0.680217

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestAllDataTypesDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TestAllDataTypes This node is meant to exercise data access for all available data types, including all legal combinations of tuples, arrays, and bundle members. This node definition is a duplicate of OgnTestAllDataTypesPy.ogn, except the implementation language is C++. """ import carb import numpy import usdrt import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestAllDataTypesDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestAllDataTypes Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.a_bool inputs.a_bool_array inputs.a_bundle inputs.a_colord_3 inputs.a_colord_3_array inputs.a_colord_4 inputs.a_colord_4_array inputs.a_colorf_3 inputs.a_colorf_3_array inputs.a_colorf_4 inputs.a_colorf_4_array inputs.a_colorh_3 inputs.a_colorh_3_array inputs.a_colorh_4 inputs.a_colorh_4_array inputs.a_double inputs.a_double_2 inputs.a_double_2_array inputs.a_double_3 inputs.a_double_3_array inputs.a_double_4 inputs.a_double_4_array inputs.a_double_array inputs.a_execution inputs.a_float inputs.a_float_2 inputs.a_float_2_array inputs.a_float_3 inputs.a_float_3_array inputs.a_float_4 inputs.a_float_4_array inputs.a_float_array inputs.a_frame_4 inputs.a_frame_4_array inputs.a_half inputs.a_half_2 inputs.a_half_2_array inputs.a_half_3 inputs.a_half_3_array inputs.a_half_4 inputs.a_half_4_array inputs.a_half_array inputs.a_int inputs.a_int64 inputs.a_int64_array inputs.a_int_2 inputs.a_int_2_array inputs.a_int_3 inputs.a_int_3_array inputs.a_int_4 inputs.a_int_4_array inputs.a_int_array inputs.a_matrixd_2 inputs.a_matrixd_2_array inputs.a_matrixd_3 inputs.a_matrixd_3_array inputs.a_matrixd_4 inputs.a_matrixd_4_array inputs.a_normald_3 inputs.a_normald_3_array inputs.a_normalf_3 inputs.a_normalf_3_array inputs.a_normalh_3 inputs.a_normalh_3_array inputs.a_objectId inputs.a_objectId_array inputs.a_path inputs.a_pointd_3 inputs.a_pointd_3_array inputs.a_pointf_3 inputs.a_pointf_3_array inputs.a_pointh_3 inputs.a_pointh_3_array inputs.a_quatd_4 inputs.a_quatd_4_array inputs.a_quatf_4 inputs.a_quatf_4_array inputs.a_quath_4 inputs.a_quath_4_array inputs.a_string inputs.a_target inputs.a_texcoordd_2 inputs.a_texcoordd_2_array inputs.a_texcoordd_3 inputs.a_texcoordd_3_array inputs.a_texcoordf_2 inputs.a_texcoordf_2_array inputs.a_texcoordf_3 inputs.a_texcoordf_3_array inputs.a_texcoordh_2 inputs.a_texcoordh_2_array inputs.a_texcoordh_3 inputs.a_texcoordh_3_array inputs.a_timecode inputs.a_timecode_array inputs.a_token inputs.a_token_array inputs.a_uchar inputs.a_uchar_array inputs.a_uint inputs.a_uint64 inputs.a_uint64_array inputs.a_uint_array inputs.a_vectord_3 inputs.a_vectord_3_array inputs.a_vectorf_3 inputs.a_vectorf_3_array inputs.a_vectorh_3 inputs.a_vectorh_3_array inputs.doNotCompute Outputs: outputs.a_bool outputs.a_bool_array outputs.a_bundle outputs.a_colord_3 outputs.a_colord_3_array outputs.a_colord_4 outputs.a_colord_4_array outputs.a_colorf_3 outputs.a_colorf_3_array outputs.a_colorf_4 outputs.a_colorf_4_array outputs.a_colorh_3 outputs.a_colorh_3_array outputs.a_colorh_4 outputs.a_colorh_4_array outputs.a_double outputs.a_double_2 outputs.a_double_2_array outputs.a_double_3 outputs.a_double_3_array outputs.a_double_4 outputs.a_double_4_array outputs.a_double_array outputs.a_execution outputs.a_float outputs.a_float_2 outputs.a_float_2_array outputs.a_float_3 outputs.a_float_3_array outputs.a_float_4 outputs.a_float_4_array outputs.a_float_array outputs.a_frame_4 outputs.a_frame_4_array outputs.a_half outputs.a_half_2 outputs.a_half_2_array outputs.a_half_3 outputs.a_half_3_array outputs.a_half_4 outputs.a_half_4_array outputs.a_half_array outputs.a_int outputs.a_int64 outputs.a_int64_array outputs.a_int_2 outputs.a_int_2_array outputs.a_int_3 outputs.a_int_3_array outputs.a_int_4 outputs.a_int_4_array outputs.a_int_array outputs.a_matrixd_2 outputs.a_matrixd_2_array outputs.a_matrixd_3 outputs.a_matrixd_3_array outputs.a_matrixd_4 outputs.a_matrixd_4_array outputs.a_normald_3 outputs.a_normald_3_array outputs.a_normalf_3 outputs.a_normalf_3_array outputs.a_normalh_3 outputs.a_normalh_3_array outputs.a_objectId outputs.a_objectId_array outputs.a_path outputs.a_pointd_3 outputs.a_pointd_3_array outputs.a_pointf_3 outputs.a_pointf_3_array outputs.a_pointh_3 outputs.a_pointh_3_array outputs.a_quatd_4 outputs.a_quatd_4_array outputs.a_quatf_4 outputs.a_quatf_4_array outputs.a_quath_4 outputs.a_quath_4_array outputs.a_string outputs.a_target outputs.a_texcoordd_2 outputs.a_texcoordd_2_array outputs.a_texcoordd_3 outputs.a_texcoordd_3_array outputs.a_texcoordf_2 outputs.a_texcoordf_2_array outputs.a_texcoordf_3 outputs.a_texcoordf_3_array outputs.a_texcoordh_2 outputs.a_texcoordh_2_array outputs.a_texcoordh_3 outputs.a_texcoordh_3_array outputs.a_timecode outputs.a_timecode_array outputs.a_token outputs.a_token_array outputs.a_uchar outputs.a_uchar_array outputs.a_uint outputs.a_uint64 outputs.a_uint64_array outputs.a_uint_array outputs.a_vectord_3 outputs.a_vectord_3_array outputs.a_vectorf_3 outputs.a_vectorf_3_array outputs.a_vectorh_3 outputs.a_vectorh_3_array State: state.a_bool state.a_bool_array state.a_bundle state.a_colord_3 state.a_colord_3_array state.a_colord_4 state.a_colord_4_array state.a_colorf_3 state.a_colorf_3_array state.a_colorf_4 state.a_colorf_4_array state.a_colorh_3 state.a_colorh_3_array state.a_colorh_4 state.a_colorh_4_array state.a_double state.a_double_2 state.a_double_2_array state.a_double_3 state.a_double_3_array state.a_double_4 state.a_double_4_array state.a_double_array state.a_execution state.a_firstEvaluation state.a_float state.a_float_2 state.a_float_2_array state.a_float_3 state.a_float_3_array state.a_float_4 state.a_float_4_array state.a_float_array state.a_frame_4 state.a_frame_4_array state.a_half state.a_half_2 state.a_half_2_array state.a_half_3 state.a_half_3_array state.a_half_4 state.a_half_4_array state.a_half_array state.a_int state.a_int64 state.a_int64_array state.a_int_2 state.a_int_2_array state.a_int_3 state.a_int_3_array state.a_int_4 state.a_int_4_array state.a_int_array state.a_matrixd_2 state.a_matrixd_2_array state.a_matrixd_3 state.a_matrixd_3_array state.a_matrixd_4 state.a_matrixd_4_array state.a_normald_3 state.a_normald_3_array state.a_normalf_3 state.a_normalf_3_array state.a_normalh_3 state.a_normalh_3_array state.a_objectId state.a_objectId_array state.a_path state.a_pointd_3 state.a_pointd_3_array state.a_pointf_3 state.a_pointf_3_array state.a_pointh_3 state.a_pointh_3_array state.a_quatd_4 state.a_quatd_4_array state.a_quatf_4 state.a_quatf_4_array state.a_quath_4 state.a_quath_4_array state.a_string state.a_stringEmpty state.a_target state.a_texcoordd_2 state.a_texcoordd_2_array state.a_texcoordd_3 state.a_texcoordd_3_array state.a_texcoordf_2 state.a_texcoordf_2_array state.a_texcoordf_3 state.a_texcoordf_3_array state.a_texcoordh_2 state.a_texcoordh_2_array state.a_texcoordh_3 state.a_texcoordh_3_array state.a_timecode state.a_timecode_array state.a_token state.a_token_array state.a_uchar state.a_uchar_array state.a_uint state.a_uint64 state.a_uint64_array state.a_uint_array state.a_vectord_3 state.a_vectord_3_array state.a_vectorf_3 state.a_vectorf_3_array state.a_vectorh_3 state.a_vectorh_3_array """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:a_bool', 'bool', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''), ('inputs:a_bool_array', 'bool[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[false, true]'}, True, [False, True], False, ''), ('inputs:a_bundle', 'bundle', 0, None, 'Input Attribute', {}, False, None, False, ''), ('inputs:a_colord_3', 'color3d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_colord_3_array', 'color3d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_colord_4', 'color4d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_colord_4_array', 'color4d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_colorf_3', 'color3f', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_colorf_3_array', 'color3f[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_colorf_4', 'color4f', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_colorf_4_array', 'color4f[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_colorh_3', 'color3h', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_colorh_3_array', 'color3h[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_colorh_4', 'color4h', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_colorh_4_array', 'color4h[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_double', 'double', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1.0'}, True, 1.0, False, ''), ('inputs:a_double_2', 'double2', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_double_2_array', 'double2[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0], [11.0, 12.0]]'}, True, [[1.0, 2.0], [11.0, 12.0]], False, ''), ('inputs:a_double_3', 'double3', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_double_3_array', 'double3[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_double_4', 'double4', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_double_4_array', 'double4[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_double_array', 'double[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_execution', 'execution', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1'}, True, 1, False, ''), ('inputs:a_float', 'float', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1.0'}, True, 1.0, False, ''), ('inputs:a_float_2', 'float2', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_float_2_array', 'float2[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0], [11.0, 12.0]]'}, True, [[1.0, 2.0], [11.0, 12.0]], False, ''), ('inputs:a_float_3', 'float3', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_float_3_array', 'float3[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_float_4', 'float4', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_float_4_array', 'float4[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_float_array', 'float[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_frame_4', 'frame4d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], False, ''), ('inputs:a_frame_4_array', 'frame4d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], [[11.0, 12.0, 13.0, 14.0], [15.0, 16.0, 17.0, 18.0], [19.0, 20.0, 21.0, 22.0], [23.0, 24.0, 25.0, 26.0]]]'}, True, [[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], [[11.0, 12.0, 13.0, 14.0], [15.0, 16.0, 17.0, 18.0], [19.0, 20.0, 21.0, 22.0], [23.0, 24.0, 25.0, 26.0]]], False, ''), ('inputs:a_half', 'half', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1.0'}, True, 1.0, False, ''), ('inputs:a_half_2', 'half2', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_half_2_array', 'half2[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0], [11.0, 12.0]]'}, True, [[1.0, 2.0], [11.0, 12.0]], False, ''), ('inputs:a_half_3', 'half3', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0]'}, True, [1.0, 2.0, 3.0], False, ''), ('inputs:a_half_3_array', 'half3[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]]'}, True, [[1.0, 2.0, 3.0], [11.0, 12.0, 13.0]], False, ''), ('inputs:a_half_4', 'half4', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0, 3.0, 4.0]'}, True, [1.0, 2.0, 3.0, 4.0], False, ''), ('inputs:a_half_4_array', 'half4[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [11.0, 12.0, 13.0, 14.0]], False, ''), ('inputs:a_half_array', 'half[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1.0, 2.0]'}, True, [1.0, 2.0], False, ''), ('inputs:a_int', 'int', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '1'}, True, 1, False, ''), ('inputs:a_int64', 'int64', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '12345'}, True, 12345, False, ''), ('inputs:a_int64_array', 'int64[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[12345, 23456]'}, True, [12345, 23456], False, ''), ('inputs:a_int_2', 'int2', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2]'}, True, [1, 2], False, ''), ('inputs:a_int_2_array', 'int2[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1, 2], [3, 4]]'}, True, [[1, 2], [3, 4]], False, ''), ('inputs:a_int_3', 'int3', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2, 3]'}, True, [1, 2, 3], False, ''), ('inputs:a_int_3_array', 'int3[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1, 2, 3], [4, 5, 6]]'}, True, [[1, 2, 3], [4, 5, 6]], False, ''), ('inputs:a_int_4', 'int4', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2, 3, 4]'}, True, [1, 2, 3, 4], False, ''), ('inputs:a_int_4_array', 'int4[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1, 2, 3, 4], [5, 6, 7, 8]]'}, True, [[1, 2, 3, 4], [5, 6, 7, 8]], False, ''), ('inputs:a_int_array', 'int[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[1, 2]'}, True, [1, 2], False, ''), ('inputs:a_matrixd_2', 'matrix2d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0], [3.0, 4.0]]'}, True, [[1.0, 2.0], [3.0, 4.0]], False, ''), ('inputs:a_matrixd_2_array', 'matrix2d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.0, 2.0], [3.0, 4.0]], [[11.0, 12.0], [13.0, 14.0]]]'}, True, [[[1.0, 2.0], [3.0, 4.0]], [[11.0, 12.0], [13.0, 14.0]]], False, ''), ('inputs:a_matrixd_3', 'matrix3d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]]'}, True, [[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]], False, ''), ('inputs:a_matrixd_3_array', 'matrix3d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]], [[11.0, 12.0, 13.0], [14.0, 15.0, 16.0], [17.0, 18.0, 19.0]]]'}, True, [[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]], [[11.0, 12.0, 13.0], [14.0, 15.0, 16.0], [17.0, 18.0, 19.0]]], False, ''), ('inputs:a_matrixd_4', 'matrix4d', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]]'}, True, [[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], False, ''), ('inputs:a_matrixd_4_array', 'matrix4d[]', 0, None, 'Input Attribute', {ogn.MetadataKeys.DEFAULT: '[[[1.0, 2.0, 3.0, 4.0], [5.0, 6.0, 7.0, 8.0], [9.0, 10.0, 11.0, 12.0], [13.0, 14.0, 15.0, 16.0]], [[11.0, 12.0, 13.0, 14.0], [15.0, 16.0, 17.0, 18.0], [19.0, 20.0, 21.0, 22.0], [23.0, 24.0, 25.0, 26.0]]]'}, True, [[[1.0, 2.0, 3.0, 4.0], [5.0, 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True, [[1.5, 2.5, 3.5, 4.5], [11.5, 12.5, 13.5, 14.5]], False, ''), ('state:a_double_array', 'double[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5]'}, True, [1.5, 2.5], False, ''), ('state:a_execution', 'execution', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2'}, True, 2, False, ''), ('state:a_firstEvaluation', 'bool', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: 'true'}, True, True, False, ''), ('state:a_float', 'float', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '1.5'}, True, 1.5, False, ''), ('state:a_float_2', 'float2', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5]'}, True, [1.5, 2.5], False, ''), ('state:a_float_2_array', 'float2[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5], [11.5, 12.5]]'}, True, [[1.5, 2.5], [11.5, 12.5]], False, ''), ('state:a_float_3', 'float3', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), 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2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_texcoordh_2', 'texCoord2h', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5]'}, True, [1.5, 2.5], False, ''), ('state:a_texcoordh_2_array', 'texCoord2h[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5], [11.5, 12.5]]'}, True, [[1.5, 2.5], [11.5, 12.5]], False, ''), ('state:a_texcoordh_3', 'texCoord3h', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_texcoordh_3_array', 'texCoord3h[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_timecode', 'timecode', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2.5'}, True, 2.5, False, ''), ('state:a_timecode_array', 'timecode[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[2.5, 3.5]'}, True, [2.5, 3.5], False, ''), ('state:a_token', 'token', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '"Jedi\\nMaster"'}, True, "Jedi\nMaster", False, ''), ('state:a_token_array', 'token[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '["Luke\\n\\"Whiner\\"", "Skywalker"]'}, True, ['Luke\n"Whiner"', 'Skywalker'], False, ''), ('state:a_uchar', 'uchar', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2'}, True, 2, False, ''), ('state:a_uchar_array', 'uchar[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[2, 3]'}, True, [2, 3], False, ''), ('state:a_uint', 'uint', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2'}, True, 2, False, ''), ('state:a_uint64', 'uint64', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '2'}, True, 2, False, ''), ('state:a_uint64_array', 'uint64[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[2, 3]'}, True, [2, 3], False, ''), ('state:a_uint_array', 'uint[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[2, 3]'}, True, [2, 3], False, ''), ('state:a_vectord_3', 'vector3d', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_vectord_3_array', 'vector3d[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_vectorf_3', 'vector3f', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_vectorf_3_array', 'vector3f[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ('state:a_vectorh_3', 'vector3h', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[1.5, 2.5, 3.5]'}, True, [1.5, 2.5, 3.5], False, ''), ('state:a_vectorh_3_array', 'vector3h[]', 0, None, 'State Attribute', {ogn.MetadataKeys.DEFAULT: '[[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]]'}, True, [[1.5, 2.5, 3.5], [11.5, 12.5, 13.5]], False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.a_bundle = og.AttributeRole.BUNDLE role_data.inputs.a_colord_3 = og.AttributeRole.COLOR role_data.inputs.a_colord_3_array = og.AttributeRole.COLOR role_data.inputs.a_colord_4 = og.AttributeRole.COLOR role_data.inputs.a_colord_4_array = og.AttributeRole.COLOR role_data.inputs.a_colorf_3 = og.AttributeRole.COLOR role_data.inputs.a_colorf_3_array = og.AttributeRole.COLOR role_data.inputs.a_colorf_4 = og.AttributeRole.COLOR role_data.inputs.a_colorf_4_array = og.AttributeRole.COLOR role_data.inputs.a_colorh_3 = og.AttributeRole.COLOR role_data.inputs.a_colorh_3_array = og.AttributeRole.COLOR role_data.inputs.a_colorh_4 = og.AttributeRole.COLOR role_data.inputs.a_colorh_4_array = og.AttributeRole.COLOR role_data.inputs.a_execution = og.AttributeRole.EXECUTION role_data.inputs.a_frame_4 = og.AttributeRole.FRAME role_data.inputs.a_frame_4_array = og.AttributeRole.FRAME role_data.inputs.a_matrixd_2 = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_2_array = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_3 = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_3_array = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_4 = og.AttributeRole.MATRIX role_data.inputs.a_matrixd_4_array = og.AttributeRole.MATRIX role_data.inputs.a_normald_3 = og.AttributeRole.NORMAL role_data.inputs.a_normald_3_array = og.AttributeRole.NORMAL role_data.inputs.a_normalf_3 = og.AttributeRole.NORMAL role_data.inputs.a_normalf_3_array = og.AttributeRole.NORMAL role_data.inputs.a_normalh_3 = og.AttributeRole.NORMAL role_data.inputs.a_normalh_3_array = og.AttributeRole.NORMAL role_data.inputs.a_objectId = og.AttributeRole.OBJECT_ID role_data.inputs.a_objectId_array = og.AttributeRole.OBJECT_ID role_data.inputs.a_path = og.AttributeRole.PATH role_data.inputs.a_pointd_3 = og.AttributeRole.POSITION role_data.inputs.a_pointd_3_array = og.AttributeRole.POSITION role_data.inputs.a_pointf_3 = og.AttributeRole.POSITION role_data.inputs.a_pointf_3_array = og.AttributeRole.POSITION role_data.inputs.a_pointh_3 = og.AttributeRole.POSITION role_data.inputs.a_pointh_3_array = og.AttributeRole.POSITION role_data.inputs.a_quatd_4 = og.AttributeRole.QUATERNION role_data.inputs.a_quatd_4_array = og.AttributeRole.QUATERNION role_data.inputs.a_quatf_4 = og.AttributeRole.QUATERNION role_data.inputs.a_quatf_4_array = og.AttributeRole.QUATERNION role_data.inputs.a_quath_4 = og.AttributeRole.QUATERNION role_data.inputs.a_quath_4_array = og.AttributeRole.QUATERNION role_data.inputs.a_string = og.AttributeRole.TEXT role_data.inputs.a_target = og.AttributeRole.TARGET role_data.inputs.a_texcoordd_2 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd_2_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd_3 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd_3_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf_2 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf_2_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf_3 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf_3_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh_2 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh_2_array = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh_3 = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh_3_array = og.AttributeRole.TEXCOORD role_data.inputs.a_timecode = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_array = og.AttributeRole.TIMECODE role_data.inputs.a_vectord_3 = og.AttributeRole.VECTOR role_data.inputs.a_vectord_3_array = og.AttributeRole.VECTOR role_data.inputs.a_vectorf_3 = og.AttributeRole.VECTOR role_data.inputs.a_vectorf_3_array = og.AttributeRole.VECTOR role_data.inputs.a_vectorh_3 = og.AttributeRole.VECTOR role_data.inputs.a_vectorh_3_array = og.AttributeRole.VECTOR role_data.outputs.a_bundle = og.AttributeRole.BUNDLE role_data.outputs.a_colord_3 = og.AttributeRole.COLOR role_data.outputs.a_colord_3_array = og.AttributeRole.COLOR role_data.outputs.a_colord_4 = og.AttributeRole.COLOR role_data.outputs.a_colord_4_array = og.AttributeRole.COLOR role_data.outputs.a_colorf_3 = og.AttributeRole.COLOR role_data.outputs.a_colorf_3_array = og.AttributeRole.COLOR role_data.outputs.a_colorf_4 = og.AttributeRole.COLOR role_data.outputs.a_colorf_4_array = og.AttributeRole.COLOR role_data.outputs.a_colorh_3 = og.AttributeRole.COLOR role_data.outputs.a_colorh_3_array = og.AttributeRole.COLOR role_data.outputs.a_colorh_4 = og.AttributeRole.COLOR role_data.outputs.a_colorh_4_array = og.AttributeRole.COLOR role_data.outputs.a_execution = og.AttributeRole.EXECUTION role_data.outputs.a_frame_4 = og.AttributeRole.FRAME role_data.outputs.a_frame_4_array = og.AttributeRole.FRAME role_data.outputs.a_matrixd_2 = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_2_array = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_3 = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_3_array = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_4 = og.AttributeRole.MATRIX role_data.outputs.a_matrixd_4_array = og.AttributeRole.MATRIX role_data.outputs.a_normald_3 = og.AttributeRole.NORMAL role_data.outputs.a_normald_3_array = og.AttributeRole.NORMAL role_data.outputs.a_normalf_3 = og.AttributeRole.NORMAL role_data.outputs.a_normalf_3_array = og.AttributeRole.NORMAL role_data.outputs.a_normalh_3 = og.AttributeRole.NORMAL role_data.outputs.a_normalh_3_array = og.AttributeRole.NORMAL role_data.outputs.a_objectId = og.AttributeRole.OBJECT_ID role_data.outputs.a_objectId_array = og.AttributeRole.OBJECT_ID role_data.outputs.a_path = og.AttributeRole.PATH role_data.outputs.a_pointd_3 = og.AttributeRole.POSITION role_data.outputs.a_pointd_3_array = og.AttributeRole.POSITION role_data.outputs.a_pointf_3 = og.AttributeRole.POSITION role_data.outputs.a_pointf_3_array = og.AttributeRole.POSITION role_data.outputs.a_pointh_3 = og.AttributeRole.POSITION role_data.outputs.a_pointh_3_array = og.AttributeRole.POSITION role_data.outputs.a_quatd_4 = og.AttributeRole.QUATERNION role_data.outputs.a_quatd_4_array = og.AttributeRole.QUATERNION role_data.outputs.a_quatf_4 = og.AttributeRole.QUATERNION role_data.outputs.a_quatf_4_array = og.AttributeRole.QUATERNION role_data.outputs.a_quath_4 = og.AttributeRole.QUATERNION role_data.outputs.a_quath_4_array = og.AttributeRole.QUATERNION role_data.outputs.a_string = og.AttributeRole.TEXT role_data.outputs.a_target = og.AttributeRole.TARGET role_data.outputs.a_texcoordd_2 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd_2_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd_3 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd_3_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf_2 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf_2_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf_3 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf_3_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh_2 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh_2_array = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh_3 = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh_3_array = og.AttributeRole.TEXCOORD role_data.outputs.a_timecode = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_array = og.AttributeRole.TIMECODE role_data.outputs.a_vectord_3 = og.AttributeRole.VECTOR role_data.outputs.a_vectord_3_array = og.AttributeRole.VECTOR role_data.outputs.a_vectorf_3 = og.AttributeRole.VECTOR role_data.outputs.a_vectorf_3_array = og.AttributeRole.VECTOR role_data.outputs.a_vectorh_3 = og.AttributeRole.VECTOR role_data.outputs.a_vectorh_3_array = og.AttributeRole.VECTOR role_data.state.a_bundle = og.AttributeRole.BUNDLE role_data.state.a_colord_3 = og.AttributeRole.COLOR role_data.state.a_colord_3_array = og.AttributeRole.COLOR role_data.state.a_colord_4 = og.AttributeRole.COLOR role_data.state.a_colord_4_array = og.AttributeRole.COLOR role_data.state.a_colorf_3 = og.AttributeRole.COLOR role_data.state.a_colorf_3_array = og.AttributeRole.COLOR role_data.state.a_colorf_4 = og.AttributeRole.COLOR role_data.state.a_colorf_4_array = og.AttributeRole.COLOR role_data.state.a_colorh_3 = og.AttributeRole.COLOR role_data.state.a_colorh_3_array = og.AttributeRole.COLOR role_data.state.a_colorh_4 = og.AttributeRole.COLOR role_data.state.a_colorh_4_array = og.AttributeRole.COLOR role_data.state.a_execution = og.AttributeRole.EXECUTION role_data.state.a_frame_4 = og.AttributeRole.FRAME role_data.state.a_frame_4_array = og.AttributeRole.FRAME role_data.state.a_matrixd_2 = og.AttributeRole.MATRIX role_data.state.a_matrixd_2_array = og.AttributeRole.MATRIX role_data.state.a_matrixd_3 = og.AttributeRole.MATRIX role_data.state.a_matrixd_3_array = og.AttributeRole.MATRIX role_data.state.a_matrixd_4 = og.AttributeRole.MATRIX role_data.state.a_matrixd_4_array = og.AttributeRole.MATRIX role_data.state.a_normald_3 = og.AttributeRole.NORMAL role_data.state.a_normald_3_array = og.AttributeRole.NORMAL role_data.state.a_normalf_3 = og.AttributeRole.NORMAL role_data.state.a_normalf_3_array = og.AttributeRole.NORMAL role_data.state.a_normalh_3 = og.AttributeRole.NORMAL role_data.state.a_normalh_3_array = og.AttributeRole.NORMAL role_data.state.a_objectId = og.AttributeRole.OBJECT_ID role_data.state.a_objectId_array = og.AttributeRole.OBJECT_ID role_data.state.a_path = og.AttributeRole.PATH role_data.state.a_pointd_3 = og.AttributeRole.POSITION role_data.state.a_pointd_3_array = og.AttributeRole.POSITION role_data.state.a_pointf_3 = og.AttributeRole.POSITION role_data.state.a_pointf_3_array = og.AttributeRole.POSITION role_data.state.a_pointh_3 = og.AttributeRole.POSITION role_data.state.a_pointh_3_array = og.AttributeRole.POSITION role_data.state.a_quatd_4 = og.AttributeRole.QUATERNION role_data.state.a_quatd_4_array = og.AttributeRole.QUATERNION role_data.state.a_quatf_4 = og.AttributeRole.QUATERNION role_data.state.a_quatf_4_array = og.AttributeRole.QUATERNION role_data.state.a_quath_4 = og.AttributeRole.QUATERNION role_data.state.a_quath_4_array = og.AttributeRole.QUATERNION role_data.state.a_string = og.AttributeRole.TEXT role_data.state.a_stringEmpty = og.AttributeRole.TEXT role_data.state.a_target = og.AttributeRole.TARGET role_data.state.a_texcoordd_2 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordd_2_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordd_3 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordd_3_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordf_2 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordf_2_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordf_3 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordf_3_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordh_2 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordh_2_array = og.AttributeRole.TEXCOORD role_data.state.a_texcoordh_3 = og.AttributeRole.TEXCOORD role_data.state.a_texcoordh_3_array = og.AttributeRole.TEXCOORD role_data.state.a_timecode = og.AttributeRole.TIMECODE role_data.state.a_timecode_array = og.AttributeRole.TIMECODE role_data.state.a_vectord_3 = og.AttributeRole.VECTOR role_data.state.a_vectord_3_array = og.AttributeRole.VECTOR role_data.state.a_vectorf_3 = og.AttributeRole.VECTOR role_data.state.a_vectorf_3_array = og.AttributeRole.VECTOR role_data.state.a_vectorh_3 = og.AttributeRole.VECTOR role_data.state.a_vectorh_3_array = og.AttributeRole.VECTOR return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=True, gpu_ptr_kinds={}) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def a_bool(self): data_view = og.AttributeValueHelper(self._attributes.a_bool) return data_view.get() @a_bool.setter def a_bool(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_bool) data_view = og.AttributeValueHelper(self._attributes.a_bool) data_view.set(value) @property def a_bool_array(self): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) return data_view.get() @a_bool_array.setter def a_bool_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_bool_array) data_view = og.AttributeValueHelper(self._attributes.a_bool_array) data_view.set(value) self.a_bool_array_size = data_view.get_array_size() @property def a_bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute inputs.a_bundle""" return self.__bundles.a_bundle @property def a_colord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) return data_view.get() @a_colord_3.setter def a_colord_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord_3) data_view = og.AttributeValueHelper(self._attributes.a_colord_3) data_view.set(value) @property def a_colord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) return data_view.get() @a_colord_3_array.setter def a_colord_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord_3_array) data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) data_view.set(value) self.a_colord_3_array_size = data_view.get_array_size() @property def a_colord_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) return data_view.get() @a_colord_4.setter def a_colord_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord_4) data_view = og.AttributeValueHelper(self._attributes.a_colord_4) data_view.set(value) @property def a_colord_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) return data_view.get() @a_colord_4_array.setter def a_colord_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord_4_array) data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) data_view.set(value) self.a_colord_4_array_size = data_view.get_array_size() @property def a_colorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) return data_view.get() @a_colorf_3.setter def a_colorf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf_3) data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) data_view.set(value) @property def a_colorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) return data_view.get() @a_colorf_3_array.setter def a_colorf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) data_view.set(value) self.a_colorf_3_array_size = data_view.get_array_size() @property def a_colorf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) return data_view.get() @a_colorf_4.setter def a_colorf_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf_4) data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) data_view.set(value) @property def a_colorf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) return data_view.get() @a_colorf_4_array.setter def a_colorf_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf_4_array) data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) data_view.set(value) self.a_colorf_4_array_size = data_view.get_array_size() @property def a_colorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) return data_view.get() @a_colorh_3.setter def a_colorh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh_3) data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) data_view.set(value) @property def a_colorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) return data_view.get() @a_colorh_3_array.setter def a_colorh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) data_view.set(value) self.a_colorh_3_array_size = data_view.get_array_size() @property def a_colorh_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) return data_view.get() @a_colorh_4.setter def a_colorh_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh_4) data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) data_view.set(value) @property def a_colorh_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) return data_view.get() @a_colorh_4_array.setter def a_colorh_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh_4_array) data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) data_view.set(value) self.a_colorh_4_array_size = data_view.get_array_size() @property def a_double(self): data_view = og.AttributeValueHelper(self._attributes.a_double) return data_view.get() @a_double.setter def a_double(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double) data_view = og.AttributeValueHelper(self._attributes.a_double) data_view.set(value) @property def a_double_2(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2) return data_view.get() @a_double_2.setter def a_double_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_2) data_view = og.AttributeValueHelper(self._attributes.a_double_2) data_view.set(value) @property def a_double_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) return data_view.get() @a_double_2_array.setter def a_double_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_2_array) data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) data_view.set(value) self.a_double_2_array_size = data_view.get_array_size() @property def a_double_3(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3) return data_view.get() @a_double_3.setter def a_double_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_3) data_view = og.AttributeValueHelper(self._attributes.a_double_3) data_view.set(value) @property def a_double_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) return data_view.get() @a_double_3_array.setter def a_double_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_3_array) data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) data_view.set(value) self.a_double_3_array_size = data_view.get_array_size() @property def a_double_4(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4) return data_view.get() @a_double_4.setter def a_double_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_4) data_view = og.AttributeValueHelper(self._attributes.a_double_4) data_view.set(value) @property def a_double_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) return data_view.get() @a_double_4_array.setter def a_double_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_4_array) data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) data_view.set(value) self.a_double_4_array_size = data_view.get_array_size() @property def a_double_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array) return data_view.get() @a_double_array.setter def a_double_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array) data_view = og.AttributeValueHelper(self._attributes.a_double_array) data_view.set(value) self.a_double_array_size = data_view.get_array_size() @property def a_execution(self): data_view = og.AttributeValueHelper(self._attributes.a_execution) return data_view.get() @a_execution.setter def a_execution(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_execution) data_view = og.AttributeValueHelper(self._attributes.a_execution) data_view.set(value) @property def a_float(self): data_view = og.AttributeValueHelper(self._attributes.a_float) return data_view.get() @a_float.setter def a_float(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float) data_view = og.AttributeValueHelper(self._attributes.a_float) data_view.set(value) @property def a_float_2(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2) return data_view.get() @a_float_2.setter def a_float_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_2) data_view = og.AttributeValueHelper(self._attributes.a_float_2) data_view.set(value) @property def a_float_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) return data_view.get() @a_float_2_array.setter def a_float_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_2_array) data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) data_view.set(value) self.a_float_2_array_size = data_view.get_array_size() @property def a_float_3(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3) return data_view.get() @a_float_3.setter def a_float_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_3) data_view = og.AttributeValueHelper(self._attributes.a_float_3) data_view.set(value) @property def a_float_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) return data_view.get() @a_float_3_array.setter def a_float_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_3_array) data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) data_view.set(value) self.a_float_3_array_size = data_view.get_array_size() @property def a_float_4(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4) return data_view.get() @a_float_4.setter def a_float_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_4) data_view = og.AttributeValueHelper(self._attributes.a_float_4) data_view.set(value) @property def a_float_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) return data_view.get() @a_float_4_array.setter def a_float_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_4_array) data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) data_view.set(value) self.a_float_4_array_size = data_view.get_array_size() @property def a_float_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array) return data_view.get() @a_float_array.setter def a_float_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array) data_view = og.AttributeValueHelper(self._attributes.a_float_array) data_view.set(value) self.a_float_array_size = data_view.get_array_size() @property def a_frame_4(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) return data_view.get() @a_frame_4.setter def a_frame_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame_4) data_view = og.AttributeValueHelper(self._attributes.a_frame_4) data_view.set(value) @property def a_frame_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) return data_view.get() @a_frame_4_array.setter def a_frame_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame_4_array) data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) data_view.set(value) self.a_frame_4_array_size = data_view.get_array_size() @property def a_half(self): data_view = og.AttributeValueHelper(self._attributes.a_half) return data_view.get() @a_half.setter def a_half(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half) data_view = og.AttributeValueHelper(self._attributes.a_half) data_view.set(value) @property def a_half_2(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2) return data_view.get() @a_half_2.setter def a_half_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_2) data_view = og.AttributeValueHelper(self._attributes.a_half_2) data_view.set(value) @property def a_half_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) return data_view.get() @a_half_2_array.setter def a_half_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_2_array) data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) data_view.set(value) self.a_half_2_array_size = data_view.get_array_size() @property def a_half_3(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3) return data_view.get() @a_half_3.setter def a_half_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_3) data_view = og.AttributeValueHelper(self._attributes.a_half_3) data_view.set(value) @property def a_half_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) return data_view.get() @a_half_3_array.setter def a_half_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_3_array) data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) data_view.set(value) self.a_half_3_array_size = data_view.get_array_size() @property def a_half_4(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4) return data_view.get() @a_half_4.setter def a_half_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_4) data_view = og.AttributeValueHelper(self._attributes.a_half_4) data_view.set(value) @property def a_half_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) return data_view.get() @a_half_4_array.setter def a_half_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_4_array) data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) data_view.set(value) self.a_half_4_array_size = data_view.get_array_size() @property def a_half_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array) return data_view.get() @a_half_array.setter def a_half_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array) data_view = og.AttributeValueHelper(self._attributes.a_half_array) data_view.set(value) self.a_half_array_size = data_view.get_array_size() @property def a_int(self): data_view = og.AttributeValueHelper(self._attributes.a_int) return data_view.get() @a_int.setter def a_int(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int) data_view = og.AttributeValueHelper(self._attributes.a_int) data_view.set(value) @property def a_int64(self): data_view = og.AttributeValueHelper(self._attributes.a_int64) return data_view.get() @a_int64.setter def a_int64(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int64) data_view = og.AttributeValueHelper(self._attributes.a_int64) data_view.set(value) @property def a_int64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) return data_view.get() @a_int64_array.setter def a_int64_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int64_array) data_view = og.AttributeValueHelper(self._attributes.a_int64_array) data_view.set(value) self.a_int64_array_size = data_view.get_array_size() @property def a_int_2(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2) return data_view.get() @a_int_2.setter def a_int_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_2) data_view = og.AttributeValueHelper(self._attributes.a_int_2) data_view.set(value) @property def a_int_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) return data_view.get() @a_int_2_array.setter def a_int_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_2_array) data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) data_view.set(value) self.a_int_2_array_size = data_view.get_array_size() @property def a_int_3(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3) return data_view.get() @a_int_3.setter def a_int_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_3) data_view = og.AttributeValueHelper(self._attributes.a_int_3) data_view.set(value) @property def a_int_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) return data_view.get() @a_int_3_array.setter def a_int_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_3_array) data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) data_view.set(value) self.a_int_3_array_size = data_view.get_array_size() @property def a_int_4(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4) return data_view.get() @a_int_4.setter def a_int_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_4) data_view = og.AttributeValueHelper(self._attributes.a_int_4) data_view.set(value) @property def a_int_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) return data_view.get() @a_int_4_array.setter def a_int_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_4_array) data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) data_view.set(value) self.a_int_4_array_size = data_view.get_array_size() @property def a_int_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_array) return data_view.get() @a_int_array.setter def a_int_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_int_array) data_view = og.AttributeValueHelper(self._attributes.a_int_array) data_view.set(value) self.a_int_array_size = data_view.get_array_size() @property def a_matrixd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) return data_view.get() @a_matrixd_2.setter def a_matrixd_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_2) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) data_view.set(value) @property def a_matrixd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) return data_view.get() @a_matrixd_2_array.setter def a_matrixd_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_2_array) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) data_view.set(value) self.a_matrixd_2_array_size = data_view.get_array_size() @property def a_matrixd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) return data_view.get() @a_matrixd_3.setter def a_matrixd_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_3) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) data_view.set(value) @property def a_matrixd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) return data_view.get() @a_matrixd_3_array.setter def a_matrixd_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_3_array) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) data_view.set(value) self.a_matrixd_3_array_size = data_view.get_array_size() @property def a_matrixd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) return data_view.get() @a_matrixd_4.setter def a_matrixd_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_4) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) data_view.set(value) @property def a_matrixd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) return data_view.get() @a_matrixd_4_array.setter def a_matrixd_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd_4_array) data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) data_view.set(value) self.a_matrixd_4_array_size = data_view.get_array_size() @property def a_normald_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) return data_view.get() @a_normald_3.setter def a_normald_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald_3) data_view = og.AttributeValueHelper(self._attributes.a_normald_3) data_view.set(value) @property def a_normald_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) return data_view.get() @a_normald_3_array.setter def a_normald_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald_3_array) data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) data_view.set(value) self.a_normald_3_array_size = data_view.get_array_size() @property def a_normalf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) return data_view.get() @a_normalf_3.setter def a_normalf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf_3) data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) data_view.set(value) @property def a_normalf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) return data_view.get() @a_normalf_3_array.setter def a_normalf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) data_view.set(value) self.a_normalf_3_array_size = data_view.get_array_size() @property def a_normalh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) return data_view.get() @a_normalh_3.setter def a_normalh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh_3) data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) data_view.set(value) @property def a_normalh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) return data_view.get() @a_normalh_3_array.setter def a_normalh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) data_view.set(value) self.a_normalh_3_array_size = data_view.get_array_size() @property def a_objectId(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId) return data_view.get() @a_objectId.setter def a_objectId(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_objectId) data_view = og.AttributeValueHelper(self._attributes.a_objectId) data_view.set(value) @property def a_objectId_array(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) return data_view.get() @a_objectId_array.setter def a_objectId_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_objectId_array) data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) data_view.set(value) self.a_objectId_array_size = data_view.get_array_size() @property def a_path(self): data_view = og.AttributeValueHelper(self._attributes.a_path) return data_view.get() @a_path.setter def a_path(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_path) data_view = og.AttributeValueHelper(self._attributes.a_path) data_view.set(value) self.a_path_size = data_view.get_array_size() @property def a_pointd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) return data_view.get() @a_pointd_3.setter def a_pointd_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd_3) data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) data_view.set(value) @property def a_pointd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) return data_view.get() @a_pointd_3_array.setter def a_pointd_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd_3_array) data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) data_view.set(value) self.a_pointd_3_array_size = data_view.get_array_size() @property def a_pointf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) return data_view.get() @a_pointf_3.setter def a_pointf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf_3) data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) data_view.set(value) @property def a_pointf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) return data_view.get() @a_pointf_3_array.setter def a_pointf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) data_view.set(value) self.a_pointf_3_array_size = data_view.get_array_size() @property def a_pointh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) return data_view.get() @a_pointh_3.setter def a_pointh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh_3) data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) data_view.set(value) @property def a_pointh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) return data_view.get() @a_pointh_3_array.setter def a_pointh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) data_view.set(value) self.a_pointh_3_array_size = data_view.get_array_size() @property def a_quatd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) return data_view.get() @a_quatd_4.setter def a_quatd_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd_4) data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) data_view.set(value) @property def a_quatd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) return data_view.get() @a_quatd_4_array.setter def a_quatd_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd_4_array) data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) data_view.set(value) self.a_quatd_4_array_size = data_view.get_array_size() @property def a_quatf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) return data_view.get() @a_quatf_4.setter def a_quatf_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf_4) data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) data_view.set(value) @property def a_quatf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) return data_view.get() @a_quatf_4_array.setter def a_quatf_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf_4_array) data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) data_view.set(value) self.a_quatf_4_array_size = data_view.get_array_size() @property def a_quath_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) return data_view.get() @a_quath_4.setter def a_quath_4(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath_4) data_view = og.AttributeValueHelper(self._attributes.a_quath_4) data_view.set(value) @property def a_quath_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) return data_view.get() @a_quath_4_array.setter def a_quath_4_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath_4_array) data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) data_view.set(value) self.a_quath_4_array_size = data_view.get_array_size() @property def a_string(self): data_view = og.AttributeValueHelper(self._attributes.a_string) return data_view.get() @a_string.setter def a_string(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_string) data_view = og.AttributeValueHelper(self._attributes.a_string) data_view.set(value) self.a_string_size = data_view.get_array_size() @property def a_target(self): data_view = og.AttributeValueHelper(self._attributes.a_target) return data_view.get() @a_target.setter def a_target(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_target) data_view = og.AttributeValueHelper(self._attributes.a_target) data_view.set(value) self.a_target_size = data_view.get_array_size() @property def a_texcoordd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) return data_view.get() @a_texcoordd_2.setter def a_texcoordd_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd_2) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) data_view.set(value) @property def a_texcoordd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) return data_view.get() @a_texcoordd_2_array.setter def a_texcoordd_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd_2_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) data_view.set(value) self.a_texcoordd_2_array_size = data_view.get_array_size() @property def a_texcoordd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) return data_view.get() @a_texcoordd_3.setter def a_texcoordd_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd_3) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) data_view.set(value) @property def a_texcoordd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) return data_view.get() @a_texcoordd_3_array.setter def a_texcoordd_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd_3_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) data_view.set(value) self.a_texcoordd_3_array_size = data_view.get_array_size() @property def a_texcoordf_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) return data_view.get() @a_texcoordf_2.setter def a_texcoordf_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf_2) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) data_view.set(value) @property def a_texcoordf_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) return data_view.get() @a_texcoordf_2_array.setter def a_texcoordf_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf_2_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) data_view.set(value) self.a_texcoordf_2_array_size = data_view.get_array_size() @property def a_texcoordf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) return data_view.get() @a_texcoordf_3.setter def a_texcoordf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf_3) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) data_view.set(value) @property def a_texcoordf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) return data_view.get() @a_texcoordf_3_array.setter def a_texcoordf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) data_view.set(value) self.a_texcoordf_3_array_size = data_view.get_array_size() @property def a_texcoordh_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) return data_view.get() @a_texcoordh_2.setter def a_texcoordh_2(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh_2) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) data_view.set(value) @property def a_texcoordh_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) return data_view.get() @a_texcoordh_2_array.setter def a_texcoordh_2_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh_2_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) data_view.set(value) self.a_texcoordh_2_array_size = data_view.get_array_size() @property def a_texcoordh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) return data_view.get() @a_texcoordh_3.setter def a_texcoordh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh_3) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) data_view.set(value) @property def a_texcoordh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) return data_view.get() @a_texcoordh_3_array.setter def a_texcoordh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) data_view.set(value) self.a_texcoordh_3_array_size = data_view.get_array_size() @property def a_timecode(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode) return data_view.get() @a_timecode.setter def a_timecode(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode) data_view = og.AttributeValueHelper(self._attributes.a_timecode) data_view.set(value) @property def a_timecode_array(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) return data_view.get() @a_timecode_array.setter def a_timecode_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) data_view.set(value) self.a_timecode_array_size = data_view.get_array_size() @property def a_token(self): data_view = og.AttributeValueHelper(self._attributes.a_token) return data_view.get() @a_token.setter def a_token(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_token) data_view = og.AttributeValueHelper(self._attributes.a_token) data_view.set(value) @property def a_token_array(self): data_view = og.AttributeValueHelper(self._attributes.a_token_array) return data_view.get() @a_token_array.setter def a_token_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_token_array) data_view = og.AttributeValueHelper(self._attributes.a_token_array) data_view.set(value) self.a_token_array_size = data_view.get_array_size() @property def a_uchar(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar) return data_view.get() @a_uchar.setter def a_uchar(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uchar) data_view = og.AttributeValueHelper(self._attributes.a_uchar) data_view.set(value) @property def a_uchar_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) return data_view.get() @a_uchar_array.setter def a_uchar_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uchar_array) data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) data_view.set(value) self.a_uchar_array_size = data_view.get_array_size() @property def a_uint(self): data_view = og.AttributeValueHelper(self._attributes.a_uint) return data_view.get() @a_uint.setter def a_uint(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uint) data_view = og.AttributeValueHelper(self._attributes.a_uint) data_view.set(value) @property def a_uint64(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64) return data_view.get() @a_uint64.setter def a_uint64(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uint64) data_view = og.AttributeValueHelper(self._attributes.a_uint64) data_view.set(value) @property def a_uint64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) return data_view.get() @a_uint64_array.setter def a_uint64_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uint64_array) data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) data_view.set(value) self.a_uint64_array_size = data_view.get_array_size() @property def a_uint_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) return data_view.get() @a_uint_array.setter def a_uint_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_uint_array) data_view = og.AttributeValueHelper(self._attributes.a_uint_array) data_view.set(value) self.a_uint_array_size = data_view.get_array_size() @property def a_vectord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) return data_view.get() @a_vectord_3.setter def a_vectord_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord_3) data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) data_view.set(value) @property def a_vectord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) return data_view.get() @a_vectord_3_array.setter def a_vectord_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord_3_array) data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) data_view.set(value) self.a_vectord_3_array_size = data_view.get_array_size() @property def a_vectorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) return data_view.get() @a_vectorf_3.setter def a_vectorf_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf_3) data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) data_view.set(value) @property def a_vectorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) return data_view.get() @a_vectorf_3_array.setter def a_vectorf_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf_3_array) data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) data_view.set(value) self.a_vectorf_3_array_size = data_view.get_array_size() @property def a_vectorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) return data_view.get() @a_vectorh_3.setter def a_vectorh_3(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh_3) data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) data_view.set(value) @property def a_vectorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) return data_view.get() @a_vectorh_3_array.setter def a_vectorh_3_array(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh_3_array) data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) data_view.set(value) self.a_vectorh_3_array_size = data_view.get_array_size() @property def doNotCompute(self): data_view = og.AttributeValueHelper(self._attributes.doNotCompute) return data_view.get() @doNotCompute.setter def doNotCompute(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.doNotCompute) data_view = og.AttributeValueHelper(self._attributes.doNotCompute) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self.a_bool_array_size = 2 self.a_colord_3_array_size = 2 self.a_colord_4_array_size = 2 self.a_colorf_3_array_size = 2 self.a_colorf_4_array_size = 2 self.a_colorh_3_array_size = 2 self.a_colorh_4_array_size = 2 self.a_double_2_array_size = 2 self.a_double_3_array_size = 2 self.a_double_4_array_size = 2 self.a_double_array_size = 2 self.a_float_2_array_size = 2 self.a_float_3_array_size = 2 self.a_float_4_array_size = 2 self.a_float_array_size = 2 self.a_frame_4_array_size = 2 self.a_half_2_array_size = 2 self.a_half_3_array_size = 2 self.a_half_4_array_size = 2 self.a_half_array_size = 2 self.a_int64_array_size = 2 self.a_int_2_array_size = 2 self.a_int_3_array_size = 2 self.a_int_4_array_size = 2 self.a_int_array_size = 2 self.a_matrixd_2_array_size = 2 self.a_matrixd_3_array_size = 2 self.a_matrixd_4_array_size = 2 self.a_normald_3_array_size = 2 self.a_normalf_3_array_size = 2 self.a_normalh_3_array_size = 2 self.a_objectId_array_size = 2 self.a_path_size = 7 self.a_pointd_3_array_size = 2 self.a_pointf_3_array_size = 2 self.a_pointh_3_array_size = 2 self.a_quatd_4_array_size = 2 self.a_quatf_4_array_size = 2 self.a_quath_4_array_size = 2 self.a_string_size = 20 self.a_target_size = None self.a_texcoordd_2_array_size = 2 self.a_texcoordd_3_array_size = 2 self.a_texcoordf_2_array_size = 2 self.a_texcoordf_3_array_size = 2 self.a_texcoordh_2_array_size = 2 self.a_texcoordh_3_array_size = 2 self.a_timecode_array_size = 2 self.a_token_array_size = 2 self.a_uchar_array_size = 2 self.a_uint64_array_size = 2 self.a_uint_array_size = 2 self.a_vectord_3_array_size = 2 self.a_vectorf_3_array_size = 2 self.a_vectorh_3_array_size = 2 self._batchedWriteValues = { } @property def a_bool(self): data_view = og.AttributeValueHelper(self._attributes.a_bool) return data_view.get() @a_bool.setter def a_bool(self, value): data_view = og.AttributeValueHelper(self._attributes.a_bool) data_view.set(value) @property def a_bool_array(self): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) return data_view.get(reserved_element_count=self.a_bool_array_size) @a_bool_array.setter def a_bool_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) data_view.set(value) self.a_bool_array_size = data_view.get_array_size() @property def a_bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute outputs.a_bundle""" return self.__bundles.a_bundle @a_bundle.setter def a_bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute outputs.a_bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.a_bundle.bundle = bundle @property def a_colord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) return data_view.get() @a_colord_3.setter def a_colord_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) data_view.set(value) @property def a_colord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) return data_view.get(reserved_element_count=self.a_colord_3_array_size) @a_colord_3_array.setter def a_colord_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) data_view.set(value) self.a_colord_3_array_size = data_view.get_array_size() @property def a_colord_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) return data_view.get() @a_colord_4.setter def a_colord_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) data_view.set(value) @property def a_colord_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) return data_view.get(reserved_element_count=self.a_colord_4_array_size) @a_colord_4_array.setter def a_colord_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) data_view.set(value) self.a_colord_4_array_size = data_view.get_array_size() @property def a_colorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) return data_view.get() @a_colorf_3.setter def a_colorf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) data_view.set(value) @property def a_colorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) return data_view.get(reserved_element_count=self.a_colorf_3_array_size) @a_colorf_3_array.setter def a_colorf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) data_view.set(value) self.a_colorf_3_array_size = data_view.get_array_size() @property def a_colorf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) return data_view.get() @a_colorf_4.setter def a_colorf_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) data_view.set(value) @property def a_colorf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) return data_view.get(reserved_element_count=self.a_colorf_4_array_size) @a_colorf_4_array.setter def a_colorf_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) data_view.set(value) self.a_colorf_4_array_size = data_view.get_array_size() @property def a_colorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) return data_view.get() @a_colorh_3.setter def a_colorh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) data_view.set(value) @property def a_colorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) return data_view.get(reserved_element_count=self.a_colorh_3_array_size) @a_colorh_3_array.setter def a_colorh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) data_view.set(value) self.a_colorh_3_array_size = data_view.get_array_size() @property def a_colorh_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) return data_view.get() @a_colorh_4.setter def a_colorh_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) data_view.set(value) @property def a_colorh_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) return data_view.get(reserved_element_count=self.a_colorh_4_array_size) @a_colorh_4_array.setter def a_colorh_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) data_view.set(value) self.a_colorh_4_array_size = data_view.get_array_size() @property def a_double(self): data_view = og.AttributeValueHelper(self._attributes.a_double) return data_view.get() @a_double.setter def a_double(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double) data_view.set(value) @property def a_double_2(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2) return data_view.get() @a_double_2.setter def a_double_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_2) data_view.set(value) @property def a_double_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) return data_view.get(reserved_element_count=self.a_double_2_array_size) @a_double_2_array.setter def a_double_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) data_view.set(value) self.a_double_2_array_size = data_view.get_array_size() @property def a_double_3(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3) return data_view.get() @a_double_3.setter def a_double_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_3) data_view.set(value) @property def a_double_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) return data_view.get(reserved_element_count=self.a_double_3_array_size) @a_double_3_array.setter def a_double_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) data_view.set(value) self.a_double_3_array_size = data_view.get_array_size() @property def a_double_4(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4) return data_view.get() @a_double_4.setter def a_double_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_4) data_view.set(value) @property def a_double_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) return data_view.get(reserved_element_count=self.a_double_4_array_size) @a_double_4_array.setter def a_double_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) data_view.set(value) self.a_double_4_array_size = data_view.get_array_size() @property def a_double_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array) return data_view.get(reserved_element_count=self.a_double_array_size) @a_double_array.setter def a_double_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array) data_view.set(value) self.a_double_array_size = data_view.get_array_size() @property def a_execution(self): data_view = og.AttributeValueHelper(self._attributes.a_execution) return data_view.get() @a_execution.setter def a_execution(self, value): data_view = og.AttributeValueHelper(self._attributes.a_execution) data_view.set(value) @property def a_float(self): data_view = og.AttributeValueHelper(self._attributes.a_float) return data_view.get() @a_float.setter def a_float(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float) data_view.set(value) @property def a_float_2(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2) return data_view.get() @a_float_2.setter def a_float_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_2) data_view.set(value) @property def a_float_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) return data_view.get(reserved_element_count=self.a_float_2_array_size) @a_float_2_array.setter def a_float_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) data_view.set(value) self.a_float_2_array_size = data_view.get_array_size() @property def a_float_3(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3) return data_view.get() @a_float_3.setter def a_float_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_3) data_view.set(value) @property def a_float_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) return data_view.get(reserved_element_count=self.a_float_3_array_size) @a_float_3_array.setter def a_float_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) data_view.set(value) self.a_float_3_array_size = data_view.get_array_size() @property def a_float_4(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4) return data_view.get() @a_float_4.setter def a_float_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_4) data_view.set(value) @property def a_float_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) return data_view.get(reserved_element_count=self.a_float_4_array_size) @a_float_4_array.setter def a_float_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) data_view.set(value) self.a_float_4_array_size = data_view.get_array_size() @property def a_float_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array) return data_view.get(reserved_element_count=self.a_float_array_size) @a_float_array.setter def a_float_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array) data_view.set(value) self.a_float_array_size = data_view.get_array_size() @property def a_frame_4(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) return data_view.get() @a_frame_4.setter def a_frame_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) data_view.set(value) @property def a_frame_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) return data_view.get(reserved_element_count=self.a_frame_4_array_size) @a_frame_4_array.setter def a_frame_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) data_view.set(value) self.a_frame_4_array_size = data_view.get_array_size() @property def a_half(self): data_view = og.AttributeValueHelper(self._attributes.a_half) return data_view.get() @a_half.setter def a_half(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half) data_view.set(value) @property def a_half_2(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2) return data_view.get() @a_half_2.setter def a_half_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_2) data_view.set(value) @property def a_half_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) return data_view.get(reserved_element_count=self.a_half_2_array_size) @a_half_2_array.setter def a_half_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) data_view.set(value) self.a_half_2_array_size = data_view.get_array_size() @property def a_half_3(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3) return data_view.get() @a_half_3.setter def a_half_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_3) data_view.set(value) @property def a_half_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) return data_view.get(reserved_element_count=self.a_half_3_array_size) @a_half_3_array.setter def a_half_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) data_view.set(value) self.a_half_3_array_size = data_view.get_array_size() @property def a_half_4(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4) return data_view.get() @a_half_4.setter def a_half_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_4) data_view.set(value) @property def a_half_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) return data_view.get(reserved_element_count=self.a_half_4_array_size) @a_half_4_array.setter def a_half_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) data_view.set(value) self.a_half_4_array_size = data_view.get_array_size() @property def a_half_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array) return data_view.get(reserved_element_count=self.a_half_array_size) @a_half_array.setter def a_half_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array) data_view.set(value) self.a_half_array_size = data_view.get_array_size() @property def a_int(self): data_view = og.AttributeValueHelper(self._attributes.a_int) return data_view.get() @a_int.setter def a_int(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int) data_view.set(value) @property def a_int64(self): data_view = og.AttributeValueHelper(self._attributes.a_int64) return data_view.get() @a_int64.setter def a_int64(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int64) data_view.set(value) @property def a_int64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) return data_view.get(reserved_element_count=self.a_int64_array_size) @a_int64_array.setter def a_int64_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) data_view.set(value) self.a_int64_array_size = data_view.get_array_size() @property def a_int_2(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2) return data_view.get() @a_int_2.setter def a_int_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_2) data_view.set(value) @property def a_int_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) return data_view.get(reserved_element_count=self.a_int_2_array_size) @a_int_2_array.setter def a_int_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) data_view.set(value) self.a_int_2_array_size = data_view.get_array_size() @property def a_int_3(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3) return data_view.get() @a_int_3.setter def a_int_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_3) data_view.set(value) @property def a_int_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) return data_view.get(reserved_element_count=self.a_int_3_array_size) @a_int_3_array.setter def a_int_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) data_view.set(value) self.a_int_3_array_size = data_view.get_array_size() @property def a_int_4(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4) return data_view.get() @a_int_4.setter def a_int_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_4) data_view.set(value) @property def a_int_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) return data_view.get(reserved_element_count=self.a_int_4_array_size) @a_int_4_array.setter def a_int_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) data_view.set(value) self.a_int_4_array_size = data_view.get_array_size() @property def a_int_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_array) return data_view.get(reserved_element_count=self.a_int_array_size) @a_int_array.setter def a_int_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_array) data_view.set(value) self.a_int_array_size = data_view.get_array_size() @property def a_matrixd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) return data_view.get() @a_matrixd_2.setter def a_matrixd_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) data_view.set(value) @property def a_matrixd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) return data_view.get(reserved_element_count=self.a_matrixd_2_array_size) @a_matrixd_2_array.setter def a_matrixd_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) data_view.set(value) self.a_matrixd_2_array_size = data_view.get_array_size() @property def a_matrixd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) return data_view.get() @a_matrixd_3.setter def a_matrixd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) data_view.set(value) @property def a_matrixd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) return data_view.get(reserved_element_count=self.a_matrixd_3_array_size) @a_matrixd_3_array.setter def a_matrixd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) data_view.set(value) self.a_matrixd_3_array_size = data_view.get_array_size() @property def a_matrixd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) return data_view.get() @a_matrixd_4.setter def a_matrixd_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) data_view.set(value) @property def a_matrixd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) return data_view.get(reserved_element_count=self.a_matrixd_4_array_size) @a_matrixd_4_array.setter def a_matrixd_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) data_view.set(value) self.a_matrixd_4_array_size = data_view.get_array_size() @property def a_normald_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) return data_view.get() @a_normald_3.setter def a_normald_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) data_view.set(value) @property def a_normald_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) return data_view.get(reserved_element_count=self.a_normald_3_array_size) @a_normald_3_array.setter def a_normald_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) data_view.set(value) self.a_normald_3_array_size = data_view.get_array_size() @property def a_normalf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) return data_view.get() @a_normalf_3.setter def a_normalf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) data_view.set(value) @property def a_normalf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) return data_view.get(reserved_element_count=self.a_normalf_3_array_size) @a_normalf_3_array.setter def a_normalf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) data_view.set(value) self.a_normalf_3_array_size = data_view.get_array_size() @property def a_normalh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) return data_view.get() @a_normalh_3.setter def a_normalh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) data_view.set(value) @property def a_normalh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) return data_view.get(reserved_element_count=self.a_normalh_3_array_size) @a_normalh_3_array.setter def a_normalh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) data_view.set(value) self.a_normalh_3_array_size = data_view.get_array_size() @property def a_objectId(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId) return data_view.get() @a_objectId.setter def a_objectId(self, value): data_view = og.AttributeValueHelper(self._attributes.a_objectId) data_view.set(value) @property def a_objectId_array(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) return data_view.get(reserved_element_count=self.a_objectId_array_size) @a_objectId_array.setter def a_objectId_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) data_view.set(value) self.a_objectId_array_size = data_view.get_array_size() @property def a_path(self): data_view = og.AttributeValueHelper(self._attributes.a_path) return data_view.get(reserved_element_count=self.a_path_size) @a_path.setter def a_path(self, value): data_view = og.AttributeValueHelper(self._attributes.a_path) data_view.set(value) self.a_path_size = data_view.get_array_size() @property def a_pointd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) return data_view.get() @a_pointd_3.setter def a_pointd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) data_view.set(value) @property def a_pointd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) return data_view.get(reserved_element_count=self.a_pointd_3_array_size) @a_pointd_3_array.setter def a_pointd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) data_view.set(value) self.a_pointd_3_array_size = data_view.get_array_size() @property def a_pointf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) return data_view.get() @a_pointf_3.setter def a_pointf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) data_view.set(value) @property def a_pointf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) return data_view.get(reserved_element_count=self.a_pointf_3_array_size) @a_pointf_3_array.setter def a_pointf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) data_view.set(value) self.a_pointf_3_array_size = data_view.get_array_size() @property def a_pointh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) return data_view.get() @a_pointh_3.setter def a_pointh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) data_view.set(value) @property def a_pointh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) return data_view.get(reserved_element_count=self.a_pointh_3_array_size) @a_pointh_3_array.setter def a_pointh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) data_view.set(value) self.a_pointh_3_array_size = data_view.get_array_size() @property def a_quatd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) return data_view.get() @a_quatd_4.setter def a_quatd_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) data_view.set(value) @property def a_quatd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) return data_view.get(reserved_element_count=self.a_quatd_4_array_size) @a_quatd_4_array.setter def a_quatd_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) data_view.set(value) self.a_quatd_4_array_size = data_view.get_array_size() @property def a_quatf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) return data_view.get() @a_quatf_4.setter def a_quatf_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) data_view.set(value) @property def a_quatf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) return data_view.get(reserved_element_count=self.a_quatf_4_array_size) @a_quatf_4_array.setter def a_quatf_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) data_view.set(value) self.a_quatf_4_array_size = data_view.get_array_size() @property def a_quath_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) return data_view.get() @a_quath_4.setter def a_quath_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) data_view.set(value) @property def a_quath_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) return data_view.get(reserved_element_count=self.a_quath_4_array_size) @a_quath_4_array.setter def a_quath_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) data_view.set(value) self.a_quath_4_array_size = data_view.get_array_size() @property def a_string(self): data_view = og.AttributeValueHelper(self._attributes.a_string) return data_view.get(reserved_element_count=self.a_string_size) @a_string.setter def a_string(self, value): data_view = og.AttributeValueHelper(self._attributes.a_string) data_view.set(value) self.a_string_size = data_view.get_array_size() @property def a_target(self): data_view = og.AttributeValueHelper(self._attributes.a_target) return data_view.get(reserved_element_count=self.a_target_size) @a_target.setter def a_target(self, value): data_view = og.AttributeValueHelper(self._attributes.a_target) data_view.set(value) self.a_target_size = data_view.get_array_size() @property def a_texcoordd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) return data_view.get() @a_texcoordd_2.setter def a_texcoordd_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) data_view.set(value) @property def a_texcoordd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) return data_view.get(reserved_element_count=self.a_texcoordd_2_array_size) @a_texcoordd_2_array.setter def a_texcoordd_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) data_view.set(value) self.a_texcoordd_2_array_size = data_view.get_array_size() @property def a_texcoordd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) return data_view.get() @a_texcoordd_3.setter def a_texcoordd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) data_view.set(value) @property def a_texcoordd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) return data_view.get(reserved_element_count=self.a_texcoordd_3_array_size) @a_texcoordd_3_array.setter def a_texcoordd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) data_view.set(value) self.a_texcoordd_3_array_size = data_view.get_array_size() @property def a_texcoordf_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) return data_view.get() @a_texcoordf_2.setter def a_texcoordf_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) data_view.set(value) @property def a_texcoordf_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) return data_view.get(reserved_element_count=self.a_texcoordf_2_array_size) @a_texcoordf_2_array.setter def a_texcoordf_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) data_view.set(value) self.a_texcoordf_2_array_size = data_view.get_array_size() @property def a_texcoordf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) return data_view.get() @a_texcoordf_3.setter def a_texcoordf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) data_view.set(value) @property def a_texcoordf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) return data_view.get(reserved_element_count=self.a_texcoordf_3_array_size) @a_texcoordf_3_array.setter def a_texcoordf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) data_view.set(value) self.a_texcoordf_3_array_size = data_view.get_array_size() @property def a_texcoordh_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) return data_view.get() @a_texcoordh_2.setter def a_texcoordh_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) data_view.set(value) @property def a_texcoordh_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) return data_view.get(reserved_element_count=self.a_texcoordh_2_array_size) @a_texcoordh_2_array.setter def a_texcoordh_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) data_view.set(value) self.a_texcoordh_2_array_size = data_view.get_array_size() @property def a_texcoordh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) return data_view.get() @a_texcoordh_3.setter def a_texcoordh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) data_view.set(value) @property def a_texcoordh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) return data_view.get(reserved_element_count=self.a_texcoordh_3_array_size) @a_texcoordh_3_array.setter def a_texcoordh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) data_view.set(value) self.a_texcoordh_3_array_size = data_view.get_array_size() @property def a_timecode(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode) return data_view.get() @a_timecode.setter def a_timecode(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode) data_view.set(value) @property def a_timecode_array(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) return data_view.get(reserved_element_count=self.a_timecode_array_size) @a_timecode_array.setter def a_timecode_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) data_view.set(value) self.a_timecode_array_size = data_view.get_array_size() @property def a_token(self): data_view = og.AttributeValueHelper(self._attributes.a_token) return data_view.get() @a_token.setter def a_token(self, value): data_view = og.AttributeValueHelper(self._attributes.a_token) data_view.set(value) @property def a_token_array(self): data_view = og.AttributeValueHelper(self._attributes.a_token_array) return data_view.get(reserved_element_count=self.a_token_array_size) @a_token_array.setter def a_token_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_token_array) data_view.set(value) self.a_token_array_size = data_view.get_array_size() @property def a_uchar(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar) return data_view.get() @a_uchar.setter def a_uchar(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uchar) data_view.set(value) @property def a_uchar_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) return data_view.get(reserved_element_count=self.a_uchar_array_size) @a_uchar_array.setter def a_uchar_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) data_view.set(value) self.a_uchar_array_size = data_view.get_array_size() @property def a_uint(self): data_view = og.AttributeValueHelper(self._attributes.a_uint) return data_view.get() @a_uint.setter def a_uint(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint) data_view.set(value) @property def a_uint64(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64) return data_view.get() @a_uint64.setter def a_uint64(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint64) data_view.set(value) @property def a_uint64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) return data_view.get(reserved_element_count=self.a_uint64_array_size) @a_uint64_array.setter def a_uint64_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) data_view.set(value) self.a_uint64_array_size = data_view.get_array_size() @property def a_uint_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) return data_view.get(reserved_element_count=self.a_uint_array_size) @a_uint_array.setter def a_uint_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) data_view.set(value) self.a_uint_array_size = data_view.get_array_size() @property def a_vectord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) return data_view.get() @a_vectord_3.setter def a_vectord_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) data_view.set(value) @property def a_vectord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) return data_view.get(reserved_element_count=self.a_vectord_3_array_size) @a_vectord_3_array.setter def a_vectord_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) data_view.set(value) self.a_vectord_3_array_size = data_view.get_array_size() @property def a_vectorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) return data_view.get() @a_vectorf_3.setter def a_vectorf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) data_view.set(value) @property def a_vectorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) return data_view.get(reserved_element_count=self.a_vectorf_3_array_size) @a_vectorf_3_array.setter def a_vectorf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) data_view.set(value) self.a_vectorf_3_array_size = data_view.get_array_size() @property def a_vectorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) return data_view.get() @a_vectorh_3.setter def a_vectorh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) data_view.set(value) @property def a_vectorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) return data_view.get(reserved_element_count=self.a_vectorh_3_array_size) @a_vectorh_3_array.setter def a_vectorh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) data_view.set(value) self.a_vectorh_3_array_size = data_view.get_array_size() def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self.a_bool_array_size = 2 self.a_colord_3_array_size = 2 self.a_colord_4_array_size = 2 self.a_colorf_3_array_size = 2 self.a_colorf_4_array_size = 2 self.a_colorh_3_array_size = 2 self.a_colorh_4_array_size = 2 self.a_double_2_array_size = 2 self.a_double_3_array_size = 2 self.a_double_4_array_size = 2 self.a_double_array_size = 2 self.a_float_2_array_size = 2 self.a_float_3_array_size = 2 self.a_float_4_array_size = 2 self.a_float_array_size = 2 self.a_frame_4_array_size = 2 self.a_half_2_array_size = 2 self.a_half_3_array_size = 2 self.a_half_4_array_size = 2 self.a_half_array_size = 2 self.a_int64_array_size = 2 self.a_int_2_array_size = 2 self.a_int_3_array_size = 2 self.a_int_4_array_size = 2 self.a_int_array_size = 2 self.a_matrixd_2_array_size = 2 self.a_matrixd_3_array_size = 2 self.a_matrixd_4_array_size = 2 self.a_normald_3_array_size = 2 self.a_normalf_3_array_size = 2 self.a_normalh_3_array_size = 2 self.a_objectId_array_size = 2 self.a_path_size = 6 self.a_pointd_3_array_size = 2 self.a_pointf_3_array_size = 2 self.a_pointh_3_array_size = 2 self.a_quatd_4_array_size = 2 self.a_quatf_4_array_size = 2 self.a_quath_4_array_size = 2 self.a_string_size = 20 self.a_stringEmpty_size = None self.a_target_size = None self.a_texcoordd_2_array_size = 2 self.a_texcoordd_3_array_size = 2 self.a_texcoordf_2_array_size = 2 self.a_texcoordf_3_array_size = 2 self.a_texcoordh_2_array_size = 2 self.a_texcoordh_3_array_size = 2 self.a_timecode_array_size = 2 self.a_token_array_size = 2 self.a_uchar_array_size = 2 self.a_uint64_array_size = 2 self.a_uint_array_size = 2 self.a_vectord_3_array_size = 2 self.a_vectorf_3_array_size = 2 self.a_vectorh_3_array_size = 2 @property def a_bool(self): data_view = og.AttributeValueHelper(self._attributes.a_bool) return data_view.get() @a_bool.setter def a_bool(self, value): data_view = og.AttributeValueHelper(self._attributes.a_bool) data_view.set(value) @property def a_bool_array(self): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) self.a_bool_array_size = data_view.get_array_size() return data_view.get() @a_bool_array.setter def a_bool_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_bool_array) data_view.set(value) self.a_bool_array_size = data_view.get_array_size() @property def a_bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute state.a_bundle""" return self.__bundles.a_bundle @a_bundle.setter def a_bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute state.a_bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.a_bundle.bundle = bundle @property def a_colord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) return data_view.get() @a_colord_3.setter def a_colord_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_3) data_view.set(value) @property def a_colord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) self.a_colord_3_array_size = data_view.get_array_size() return data_view.get() @a_colord_3_array.setter def a_colord_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_3_array) data_view.set(value) self.a_colord_3_array_size = data_view.get_array_size() @property def a_colord_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) return data_view.get() @a_colord_4.setter def a_colord_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_4) data_view.set(value) @property def a_colord_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) self.a_colord_4_array_size = data_view.get_array_size() return data_view.get() @a_colord_4_array.setter def a_colord_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord_4_array) data_view.set(value) self.a_colord_4_array_size = data_view.get_array_size() @property def a_colorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) return data_view.get() @a_colorf_3.setter def a_colorf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3) data_view.set(value) @property def a_colorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) self.a_colorf_3_array_size = data_view.get_array_size() return data_view.get() @a_colorf_3_array.setter def a_colorf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_3_array) data_view.set(value) self.a_colorf_3_array_size = data_view.get_array_size() @property def a_colorf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) return data_view.get() @a_colorf_4.setter def a_colorf_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4) data_view.set(value) @property def a_colorf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) self.a_colorf_4_array_size = data_view.get_array_size() return data_view.get() @a_colorf_4_array.setter def a_colorf_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf_4_array) data_view.set(value) self.a_colorf_4_array_size = data_view.get_array_size() @property def a_colorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) return data_view.get() @a_colorh_3.setter def a_colorh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3) data_view.set(value) @property def a_colorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) self.a_colorh_3_array_size = data_view.get_array_size() return data_view.get() @a_colorh_3_array.setter def a_colorh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_3_array) data_view.set(value) self.a_colorh_3_array_size = data_view.get_array_size() @property def a_colorh_4(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) return data_view.get() @a_colorh_4.setter def a_colorh_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4) data_view.set(value) @property def a_colorh_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) self.a_colorh_4_array_size = data_view.get_array_size() return data_view.get() @a_colorh_4_array.setter def a_colorh_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh_4_array) data_view.set(value) self.a_colorh_4_array_size = data_view.get_array_size() @property def a_double(self): data_view = og.AttributeValueHelper(self._attributes.a_double) return data_view.get() @a_double.setter def a_double(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double) data_view.set(value) @property def a_double_2(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2) return data_view.get() @a_double_2.setter def a_double_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_2) data_view.set(value) @property def a_double_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) self.a_double_2_array_size = data_view.get_array_size() return data_view.get() @a_double_2_array.setter def a_double_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_2_array) data_view.set(value) self.a_double_2_array_size = data_view.get_array_size() @property def a_double_3(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3) return data_view.get() @a_double_3.setter def a_double_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_3) data_view.set(value) @property def a_double_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) self.a_double_3_array_size = data_view.get_array_size() return data_view.get() @a_double_3_array.setter def a_double_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_3_array) data_view.set(value) self.a_double_3_array_size = data_view.get_array_size() @property def a_double_4(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4) return data_view.get() @a_double_4.setter def a_double_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_4) data_view.set(value) @property def a_double_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) self.a_double_4_array_size = data_view.get_array_size() return data_view.get() @a_double_4_array.setter def a_double_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_4_array) data_view.set(value) self.a_double_4_array_size = data_view.get_array_size() @property def a_double_array(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array) self.a_double_array_size = data_view.get_array_size() return data_view.get() @a_double_array.setter def a_double_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array) data_view.set(value) self.a_double_array_size = data_view.get_array_size() @property def a_execution(self): data_view = og.AttributeValueHelper(self._attributes.a_execution) return data_view.get() @a_execution.setter def a_execution(self, value): data_view = og.AttributeValueHelper(self._attributes.a_execution) data_view.set(value) @property def a_firstEvaluation(self): data_view = og.AttributeValueHelper(self._attributes.a_firstEvaluation) return data_view.get() @a_firstEvaluation.setter def a_firstEvaluation(self, value): data_view = og.AttributeValueHelper(self._attributes.a_firstEvaluation) data_view.set(value) @property def a_float(self): data_view = og.AttributeValueHelper(self._attributes.a_float) return data_view.get() @a_float.setter def a_float(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float) data_view.set(value) @property def a_float_2(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2) return data_view.get() @a_float_2.setter def a_float_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_2) data_view.set(value) @property def a_float_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) self.a_float_2_array_size = data_view.get_array_size() return data_view.get() @a_float_2_array.setter def a_float_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_2_array) data_view.set(value) self.a_float_2_array_size = data_view.get_array_size() @property def a_float_3(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3) return data_view.get() @a_float_3.setter def a_float_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_3) data_view.set(value) @property def a_float_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) self.a_float_3_array_size = data_view.get_array_size() return data_view.get() @a_float_3_array.setter def a_float_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_3_array) data_view.set(value) self.a_float_3_array_size = data_view.get_array_size() @property def a_float_4(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4) return data_view.get() @a_float_4.setter def a_float_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_4) data_view.set(value) @property def a_float_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) self.a_float_4_array_size = data_view.get_array_size() return data_view.get() @a_float_4_array.setter def a_float_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_4_array) data_view.set(value) self.a_float_4_array_size = data_view.get_array_size() @property def a_float_array(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array) self.a_float_array_size = data_view.get_array_size() return data_view.get() @a_float_array.setter def a_float_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array) data_view.set(value) self.a_float_array_size = data_view.get_array_size() @property def a_frame_4(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) return data_view.get() @a_frame_4.setter def a_frame_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame_4) data_view.set(value) @property def a_frame_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) self.a_frame_4_array_size = data_view.get_array_size() return data_view.get() @a_frame_4_array.setter def a_frame_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame_4_array) data_view.set(value) self.a_frame_4_array_size = data_view.get_array_size() @property def a_half(self): data_view = og.AttributeValueHelper(self._attributes.a_half) return data_view.get() @a_half.setter def a_half(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half) data_view.set(value) @property def a_half_2(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2) return data_view.get() @a_half_2.setter def a_half_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_2) data_view.set(value) @property def a_half_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) self.a_half_2_array_size = data_view.get_array_size() return data_view.get() @a_half_2_array.setter def a_half_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_2_array) data_view.set(value) self.a_half_2_array_size = data_view.get_array_size() @property def a_half_3(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3) return data_view.get() @a_half_3.setter def a_half_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_3) data_view.set(value) @property def a_half_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) self.a_half_3_array_size = data_view.get_array_size() return data_view.get() @a_half_3_array.setter def a_half_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_3_array) data_view.set(value) self.a_half_3_array_size = data_view.get_array_size() @property def a_half_4(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4) return data_view.get() @a_half_4.setter def a_half_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_4) data_view.set(value) @property def a_half_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) self.a_half_4_array_size = data_view.get_array_size() return data_view.get() @a_half_4_array.setter def a_half_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_4_array) data_view.set(value) self.a_half_4_array_size = data_view.get_array_size() @property def a_half_array(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array) self.a_half_array_size = data_view.get_array_size() return data_view.get() @a_half_array.setter def a_half_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array) data_view.set(value) self.a_half_array_size = data_view.get_array_size() @property def a_int(self): data_view = og.AttributeValueHelper(self._attributes.a_int) return data_view.get() @a_int.setter def a_int(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int) data_view.set(value) @property def a_int64(self): data_view = og.AttributeValueHelper(self._attributes.a_int64) return data_view.get() @a_int64.setter def a_int64(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int64) data_view.set(value) @property def a_int64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) self.a_int64_array_size = data_view.get_array_size() return data_view.get() @a_int64_array.setter def a_int64_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int64_array) data_view.set(value) self.a_int64_array_size = data_view.get_array_size() @property def a_int_2(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2) return data_view.get() @a_int_2.setter def a_int_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_2) data_view.set(value) @property def a_int_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) self.a_int_2_array_size = data_view.get_array_size() return data_view.get() @a_int_2_array.setter def a_int_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_2_array) data_view.set(value) self.a_int_2_array_size = data_view.get_array_size() @property def a_int_3(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3) return data_view.get() @a_int_3.setter def a_int_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_3) data_view.set(value) @property def a_int_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) self.a_int_3_array_size = data_view.get_array_size() return data_view.get() @a_int_3_array.setter def a_int_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_3_array) data_view.set(value) self.a_int_3_array_size = data_view.get_array_size() @property def a_int_4(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4) return data_view.get() @a_int_4.setter def a_int_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_4) data_view.set(value) @property def a_int_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) self.a_int_4_array_size = data_view.get_array_size() return data_view.get() @a_int_4_array.setter def a_int_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_4_array) data_view.set(value) self.a_int_4_array_size = data_view.get_array_size() @property def a_int_array(self): data_view = og.AttributeValueHelper(self._attributes.a_int_array) self.a_int_array_size = data_view.get_array_size() return data_view.get() @a_int_array.setter def a_int_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_int_array) data_view.set(value) self.a_int_array_size = data_view.get_array_size() @property def a_matrixd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) return data_view.get() @a_matrixd_2.setter def a_matrixd_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2) data_view.set(value) @property def a_matrixd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) self.a_matrixd_2_array_size = data_view.get_array_size() return data_view.get() @a_matrixd_2_array.setter def a_matrixd_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_2_array) data_view.set(value) self.a_matrixd_2_array_size = data_view.get_array_size() @property def a_matrixd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) return data_view.get() @a_matrixd_3.setter def a_matrixd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3) data_view.set(value) @property def a_matrixd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) self.a_matrixd_3_array_size = data_view.get_array_size() return data_view.get() @a_matrixd_3_array.setter def a_matrixd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_3_array) data_view.set(value) self.a_matrixd_3_array_size = data_view.get_array_size() @property def a_matrixd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) return data_view.get() @a_matrixd_4.setter def a_matrixd_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4) data_view.set(value) @property def a_matrixd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) self.a_matrixd_4_array_size = data_view.get_array_size() return data_view.get() @a_matrixd_4_array.setter def a_matrixd_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd_4_array) data_view.set(value) self.a_matrixd_4_array_size = data_view.get_array_size() @property def a_normald_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) return data_view.get() @a_normald_3.setter def a_normald_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald_3) data_view.set(value) @property def a_normald_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) self.a_normald_3_array_size = data_view.get_array_size() return data_view.get() @a_normald_3_array.setter def a_normald_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald_3_array) data_view.set(value) self.a_normald_3_array_size = data_view.get_array_size() @property def a_normalf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) return data_view.get() @a_normalf_3.setter def a_normalf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3) data_view.set(value) @property def a_normalf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) self.a_normalf_3_array_size = data_view.get_array_size() return data_view.get() @a_normalf_3_array.setter def a_normalf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf_3_array) data_view.set(value) self.a_normalf_3_array_size = data_view.get_array_size() @property def a_normalh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) return data_view.get() @a_normalh_3.setter def a_normalh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3) data_view.set(value) @property def a_normalh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) self.a_normalh_3_array_size = data_view.get_array_size() return data_view.get() @a_normalh_3_array.setter def a_normalh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh_3_array) data_view.set(value) self.a_normalh_3_array_size = data_view.get_array_size() @property def a_objectId(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId) return data_view.get() @a_objectId.setter def a_objectId(self, value): data_view = og.AttributeValueHelper(self._attributes.a_objectId) data_view.set(value) @property def a_objectId_array(self): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) self.a_objectId_array_size = data_view.get_array_size() return data_view.get() @a_objectId_array.setter def a_objectId_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_objectId_array) data_view.set(value) self.a_objectId_array_size = data_view.get_array_size() @property def a_path(self): data_view = og.AttributeValueHelper(self._attributes.a_path) self.a_path_size = data_view.get_array_size() return data_view.get() @a_path.setter def a_path(self, value): data_view = og.AttributeValueHelper(self._attributes.a_path) data_view.set(value) self.a_path_size = data_view.get_array_size() @property def a_pointd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) return data_view.get() @a_pointd_3.setter def a_pointd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3) data_view.set(value) @property def a_pointd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) self.a_pointd_3_array_size = data_view.get_array_size() return data_view.get() @a_pointd_3_array.setter def a_pointd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd_3_array) data_view.set(value) self.a_pointd_3_array_size = data_view.get_array_size() @property def a_pointf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) return data_view.get() @a_pointf_3.setter def a_pointf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3) data_view.set(value) @property def a_pointf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) self.a_pointf_3_array_size = data_view.get_array_size() return data_view.get() @a_pointf_3_array.setter def a_pointf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf_3_array) data_view.set(value) self.a_pointf_3_array_size = data_view.get_array_size() @property def a_pointh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) return data_view.get() @a_pointh_3.setter def a_pointh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3) data_view.set(value) @property def a_pointh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) self.a_pointh_3_array_size = data_view.get_array_size() return data_view.get() @a_pointh_3_array.setter def a_pointh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh_3_array) data_view.set(value) self.a_pointh_3_array_size = data_view.get_array_size() @property def a_quatd_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) return data_view.get() @a_quatd_4.setter def a_quatd_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4) data_view.set(value) @property def a_quatd_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) self.a_quatd_4_array_size = data_view.get_array_size() return data_view.get() @a_quatd_4_array.setter def a_quatd_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd_4_array) data_view.set(value) self.a_quatd_4_array_size = data_view.get_array_size() @property def a_quatf_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) return data_view.get() @a_quatf_4.setter def a_quatf_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4) data_view.set(value) @property def a_quatf_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) self.a_quatf_4_array_size = data_view.get_array_size() return data_view.get() @a_quatf_4_array.setter def a_quatf_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf_4_array) data_view.set(value) self.a_quatf_4_array_size = data_view.get_array_size() @property def a_quath_4(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) return data_view.get() @a_quath_4.setter def a_quath_4(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath_4) data_view.set(value) @property def a_quath_4_array(self): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) self.a_quath_4_array_size = data_view.get_array_size() return data_view.get() @a_quath_4_array.setter def a_quath_4_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath_4_array) data_view.set(value) self.a_quath_4_array_size = data_view.get_array_size() @property def a_string(self): data_view = og.AttributeValueHelper(self._attributes.a_string) self.a_string_size = data_view.get_array_size() return data_view.get() @a_string.setter def a_string(self, value): data_view = og.AttributeValueHelper(self._attributes.a_string) data_view.set(value) self.a_string_size = data_view.get_array_size() @property def a_stringEmpty(self): data_view = og.AttributeValueHelper(self._attributes.a_stringEmpty) self.a_stringEmpty_size = data_view.get_array_size() return data_view.get() @a_stringEmpty.setter def a_stringEmpty(self, value): data_view = og.AttributeValueHelper(self._attributes.a_stringEmpty) data_view.set(value) self.a_stringEmpty_size = data_view.get_array_size() @property def a_target(self): data_view = og.AttributeValueHelper(self._attributes.a_target) self.a_target_size = data_view.get_array_size() return data_view.get() @a_target.setter def a_target(self, value): data_view = og.AttributeValueHelper(self._attributes.a_target) data_view.set(value) self.a_target_size = data_view.get_array_size() @property def a_texcoordd_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) return data_view.get() @a_texcoordd_2.setter def a_texcoordd_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2) data_view.set(value) @property def a_texcoordd_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) self.a_texcoordd_2_array_size = data_view.get_array_size() return data_view.get() @a_texcoordd_2_array.setter def a_texcoordd_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_2_array) data_view.set(value) self.a_texcoordd_2_array_size = data_view.get_array_size() @property def a_texcoordd_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) return data_view.get() @a_texcoordd_3.setter def a_texcoordd_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3) data_view.set(value) @property def a_texcoordd_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) self.a_texcoordd_3_array_size = data_view.get_array_size() return data_view.get() @a_texcoordd_3_array.setter def a_texcoordd_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd_3_array) data_view.set(value) self.a_texcoordd_3_array_size = data_view.get_array_size() @property def a_texcoordf_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) return data_view.get() @a_texcoordf_2.setter def a_texcoordf_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2) data_view.set(value) @property def a_texcoordf_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) self.a_texcoordf_2_array_size = data_view.get_array_size() return data_view.get() @a_texcoordf_2_array.setter def a_texcoordf_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_2_array) data_view.set(value) self.a_texcoordf_2_array_size = data_view.get_array_size() @property def a_texcoordf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) return data_view.get() @a_texcoordf_3.setter def a_texcoordf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3) data_view.set(value) @property def a_texcoordf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) self.a_texcoordf_3_array_size = data_view.get_array_size() return data_view.get() @a_texcoordf_3_array.setter def a_texcoordf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf_3_array) data_view.set(value) self.a_texcoordf_3_array_size = data_view.get_array_size() @property def a_texcoordh_2(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) return data_view.get() @a_texcoordh_2.setter def a_texcoordh_2(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2) data_view.set(value) @property def a_texcoordh_2_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) self.a_texcoordh_2_array_size = data_view.get_array_size() return data_view.get() @a_texcoordh_2_array.setter def a_texcoordh_2_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_2_array) data_view.set(value) self.a_texcoordh_2_array_size = data_view.get_array_size() @property def a_texcoordh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) return data_view.get() @a_texcoordh_3.setter def a_texcoordh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3) data_view.set(value) @property def a_texcoordh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) self.a_texcoordh_3_array_size = data_view.get_array_size() return data_view.get() @a_texcoordh_3_array.setter def a_texcoordh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh_3_array) data_view.set(value) self.a_texcoordh_3_array_size = data_view.get_array_size() @property def a_timecode(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode) return data_view.get() @a_timecode.setter def a_timecode(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode) data_view.set(value) @property def a_timecode_array(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) self.a_timecode_array_size = data_view.get_array_size() return data_view.get() @a_timecode_array.setter def a_timecode_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array) data_view.set(value) self.a_timecode_array_size = data_view.get_array_size() @property def a_token(self): data_view = og.AttributeValueHelper(self._attributes.a_token) return data_view.get() @a_token.setter def a_token(self, value): data_view = og.AttributeValueHelper(self._attributes.a_token) data_view.set(value) @property def a_token_array(self): data_view = og.AttributeValueHelper(self._attributes.a_token_array) self.a_token_array_size = data_view.get_array_size() return data_view.get() @a_token_array.setter def a_token_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_token_array) data_view.set(value) self.a_token_array_size = data_view.get_array_size() @property def a_uchar(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar) return data_view.get() @a_uchar.setter def a_uchar(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uchar) data_view.set(value) @property def a_uchar_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) self.a_uchar_array_size = data_view.get_array_size() return data_view.get() @a_uchar_array.setter def a_uchar_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uchar_array) data_view.set(value) self.a_uchar_array_size = data_view.get_array_size() @property def a_uint(self): data_view = og.AttributeValueHelper(self._attributes.a_uint) return data_view.get() @a_uint.setter def a_uint(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint) data_view.set(value) @property def a_uint64(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64) return data_view.get() @a_uint64.setter def a_uint64(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint64) data_view.set(value) @property def a_uint64_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) self.a_uint64_array_size = data_view.get_array_size() return data_view.get() @a_uint64_array.setter def a_uint64_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint64_array) data_view.set(value) self.a_uint64_array_size = data_view.get_array_size() @property def a_uint_array(self): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) self.a_uint_array_size = data_view.get_array_size() return data_view.get() @a_uint_array.setter def a_uint_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_uint_array) data_view.set(value) self.a_uint_array_size = data_view.get_array_size() @property def a_vectord_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) return data_view.get() @a_vectord_3.setter def a_vectord_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3) data_view.set(value) @property def a_vectord_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) self.a_vectord_3_array_size = data_view.get_array_size() return data_view.get() @a_vectord_3_array.setter def a_vectord_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord_3_array) data_view.set(value) self.a_vectord_3_array_size = data_view.get_array_size() @property def a_vectorf_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) return data_view.get() @a_vectorf_3.setter def a_vectorf_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3) data_view.set(value) @property def a_vectorf_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) self.a_vectorf_3_array_size = data_view.get_array_size() return data_view.get() @a_vectorf_3_array.setter def a_vectorf_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf_3_array) data_view.set(value) self.a_vectorf_3_array_size = data_view.get_array_size() @property def a_vectorh_3(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) return data_view.get() @a_vectorh_3.setter def a_vectorh_3(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3) data_view.set(value) @property def a_vectorh_3_array(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) self.a_vectorh_3_array_size = data_view.get_array_size() return data_view.get() @a_vectorh_3_array.setter def a_vectorh_3_array(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh_3_array) data_view.set(value) self.a_vectorh_3_array_size = data_view.get_array_size() def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestAllDataTypesDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestAllDataTypesDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestAllDataTypesDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

235,864

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48.087409

540

0.582777

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestNanInfDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TestNanInf Test node that exercises specification of NaN and Inf numbers, tuples, and arrays """ import carb import numpy import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestNanInfDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestNanInf Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.a_colord3_array_inf inputs.a_colord3_array_nan inputs.a_colord3_array_ninf inputs.a_colord3_array_snan inputs.a_colord3_inf inputs.a_colord3_nan inputs.a_colord3_ninf inputs.a_colord3_snan inputs.a_colord4_array_inf inputs.a_colord4_array_nan inputs.a_colord4_array_ninf inputs.a_colord4_array_snan inputs.a_colord4_inf inputs.a_colord4_nan inputs.a_colord4_ninf inputs.a_colord4_snan inputs.a_colorf3_array_inf inputs.a_colorf3_array_nan inputs.a_colorf3_array_ninf inputs.a_colorf3_array_snan inputs.a_colorf3_inf inputs.a_colorf3_nan inputs.a_colorf3_ninf inputs.a_colorf3_snan inputs.a_colorf4_array_inf inputs.a_colorf4_array_nan inputs.a_colorf4_array_ninf inputs.a_colorf4_array_snan inputs.a_colorf4_inf inputs.a_colorf4_nan inputs.a_colorf4_ninf inputs.a_colorf4_snan inputs.a_colorh3_array_inf inputs.a_colorh3_array_nan inputs.a_colorh3_array_ninf inputs.a_colorh3_array_snan inputs.a_colorh3_inf inputs.a_colorh3_nan inputs.a_colorh3_ninf inputs.a_colorh3_snan inputs.a_colorh4_array_inf inputs.a_colorh4_array_nan inputs.a_colorh4_array_ninf inputs.a_colorh4_array_snan inputs.a_colorh4_inf inputs.a_colorh4_nan inputs.a_colorh4_ninf inputs.a_colorh4_snan inputs.a_double2_array_inf inputs.a_double2_array_nan inputs.a_double2_array_ninf inputs.a_double2_array_snan inputs.a_double2_inf inputs.a_double2_nan inputs.a_double2_ninf inputs.a_double2_snan inputs.a_double3_array_inf inputs.a_double3_array_nan inputs.a_double3_array_ninf inputs.a_double3_array_snan inputs.a_double3_inf inputs.a_double3_nan inputs.a_double3_ninf inputs.a_double3_snan inputs.a_double4_array_inf inputs.a_double4_array_nan inputs.a_double4_array_ninf inputs.a_double4_array_snan inputs.a_double4_inf inputs.a_double4_nan inputs.a_double4_ninf inputs.a_double4_snan inputs.a_double_array_inf inputs.a_double_array_nan inputs.a_double_array_ninf inputs.a_double_array_snan inputs.a_double_inf inputs.a_double_nan inputs.a_double_ninf inputs.a_double_snan inputs.a_float2_array_inf inputs.a_float2_array_nan inputs.a_float2_array_ninf inputs.a_float2_array_snan inputs.a_float2_inf inputs.a_float2_nan inputs.a_float2_ninf inputs.a_float2_snan inputs.a_float3_array_inf inputs.a_float3_array_nan inputs.a_float3_array_ninf inputs.a_float3_array_snan inputs.a_float3_inf inputs.a_float3_nan inputs.a_float3_ninf inputs.a_float3_snan inputs.a_float4_array_inf inputs.a_float4_array_nan inputs.a_float4_array_ninf inputs.a_float4_array_snan inputs.a_float4_inf inputs.a_float4_nan inputs.a_float4_ninf inputs.a_float4_snan inputs.a_float_array_inf inputs.a_float_array_nan inputs.a_float_array_ninf inputs.a_float_array_snan inputs.a_float_inf inputs.a_float_nan inputs.a_float_ninf inputs.a_float_snan inputs.a_frame4_array_inf inputs.a_frame4_array_nan inputs.a_frame4_array_ninf inputs.a_frame4_array_snan inputs.a_frame4_inf inputs.a_frame4_nan inputs.a_frame4_ninf inputs.a_frame4_snan inputs.a_half2_array_inf inputs.a_half2_array_nan inputs.a_half2_array_ninf inputs.a_half2_array_snan inputs.a_half2_inf inputs.a_half2_nan inputs.a_half2_ninf inputs.a_half2_snan inputs.a_half3_array_inf inputs.a_half3_array_nan inputs.a_half3_array_ninf inputs.a_half3_array_snan inputs.a_half3_inf inputs.a_half3_nan inputs.a_half3_ninf inputs.a_half3_snan inputs.a_half4_array_inf inputs.a_half4_array_nan inputs.a_half4_array_ninf inputs.a_half4_array_snan inputs.a_half4_inf inputs.a_half4_nan inputs.a_half4_ninf inputs.a_half4_snan inputs.a_half_array_inf inputs.a_half_array_nan inputs.a_half_array_ninf inputs.a_half_array_snan inputs.a_half_inf inputs.a_half_nan inputs.a_half_ninf inputs.a_half_snan inputs.a_matrixd2_array_inf inputs.a_matrixd2_array_nan inputs.a_matrixd2_array_ninf inputs.a_matrixd2_array_snan inputs.a_matrixd2_inf inputs.a_matrixd2_nan inputs.a_matrixd2_ninf inputs.a_matrixd2_snan inputs.a_matrixd3_array_inf inputs.a_matrixd3_array_nan inputs.a_matrixd3_array_ninf inputs.a_matrixd3_array_snan inputs.a_matrixd3_inf inputs.a_matrixd3_nan inputs.a_matrixd3_ninf inputs.a_matrixd3_snan inputs.a_matrixd4_array_inf inputs.a_matrixd4_array_nan inputs.a_matrixd4_array_ninf inputs.a_matrixd4_array_snan inputs.a_matrixd4_inf inputs.a_matrixd4_nan inputs.a_matrixd4_ninf inputs.a_matrixd4_snan inputs.a_normald3_array_inf inputs.a_normald3_array_nan inputs.a_normald3_array_ninf inputs.a_normald3_array_snan inputs.a_normald3_inf inputs.a_normald3_nan inputs.a_normald3_ninf inputs.a_normald3_snan inputs.a_normalf3_array_inf inputs.a_normalf3_array_nan inputs.a_normalf3_array_ninf inputs.a_normalf3_array_snan inputs.a_normalf3_inf inputs.a_normalf3_nan inputs.a_normalf3_ninf inputs.a_normalf3_snan inputs.a_normalh3_array_inf inputs.a_normalh3_array_nan inputs.a_normalh3_array_ninf inputs.a_normalh3_array_snan inputs.a_normalh3_inf inputs.a_normalh3_nan inputs.a_normalh3_ninf inputs.a_normalh3_snan inputs.a_pointd3_array_inf inputs.a_pointd3_array_nan inputs.a_pointd3_array_ninf inputs.a_pointd3_array_snan inputs.a_pointd3_inf inputs.a_pointd3_nan inputs.a_pointd3_ninf inputs.a_pointd3_snan inputs.a_pointf3_array_inf inputs.a_pointf3_array_nan inputs.a_pointf3_array_ninf inputs.a_pointf3_array_snan inputs.a_pointf3_inf inputs.a_pointf3_nan inputs.a_pointf3_ninf inputs.a_pointf3_snan inputs.a_pointh3_array_inf inputs.a_pointh3_array_nan inputs.a_pointh3_array_ninf inputs.a_pointh3_array_snan inputs.a_pointh3_inf inputs.a_pointh3_nan inputs.a_pointh3_ninf inputs.a_pointh3_snan inputs.a_quatd4_array_inf inputs.a_quatd4_array_nan inputs.a_quatd4_array_ninf inputs.a_quatd4_array_snan inputs.a_quatd4_inf inputs.a_quatd4_nan inputs.a_quatd4_ninf inputs.a_quatd4_snan inputs.a_quatf4_array_inf inputs.a_quatf4_array_nan inputs.a_quatf4_array_ninf inputs.a_quatf4_array_snan inputs.a_quatf4_inf inputs.a_quatf4_nan inputs.a_quatf4_ninf inputs.a_quatf4_snan inputs.a_quath4_array_inf inputs.a_quath4_array_nan inputs.a_quath4_array_ninf inputs.a_quath4_array_snan inputs.a_quath4_inf inputs.a_quath4_nan inputs.a_quath4_ninf inputs.a_quath4_snan inputs.a_texcoordd2_array_inf inputs.a_texcoordd2_array_nan inputs.a_texcoordd2_array_ninf inputs.a_texcoordd2_array_snan inputs.a_texcoordd2_inf inputs.a_texcoordd2_nan inputs.a_texcoordd2_ninf inputs.a_texcoordd2_snan inputs.a_texcoordd3_array_inf inputs.a_texcoordd3_array_nan inputs.a_texcoordd3_array_ninf inputs.a_texcoordd3_array_snan inputs.a_texcoordd3_inf inputs.a_texcoordd3_nan inputs.a_texcoordd3_ninf inputs.a_texcoordd3_snan inputs.a_texcoordf2_array_inf inputs.a_texcoordf2_array_nan inputs.a_texcoordf2_array_ninf inputs.a_texcoordf2_array_snan inputs.a_texcoordf2_inf inputs.a_texcoordf2_nan inputs.a_texcoordf2_ninf inputs.a_texcoordf2_snan inputs.a_texcoordf3_array_inf inputs.a_texcoordf3_array_nan inputs.a_texcoordf3_array_ninf inputs.a_texcoordf3_array_snan inputs.a_texcoordf3_inf inputs.a_texcoordf3_nan inputs.a_texcoordf3_ninf inputs.a_texcoordf3_snan inputs.a_texcoordh2_array_inf inputs.a_texcoordh2_array_nan inputs.a_texcoordh2_array_ninf inputs.a_texcoordh2_array_snan inputs.a_texcoordh2_inf inputs.a_texcoordh2_nan inputs.a_texcoordh2_ninf inputs.a_texcoordh2_snan inputs.a_texcoordh3_array_inf inputs.a_texcoordh3_array_nan inputs.a_texcoordh3_array_ninf inputs.a_texcoordh3_array_snan inputs.a_texcoordh3_inf inputs.a_texcoordh3_nan inputs.a_texcoordh3_ninf inputs.a_texcoordh3_snan inputs.a_timecode_array_inf inputs.a_timecode_array_nan inputs.a_timecode_array_ninf inputs.a_timecode_array_snan inputs.a_timecode_inf inputs.a_timecode_nan inputs.a_timecode_ninf inputs.a_timecode_snan inputs.a_vectord3_array_inf inputs.a_vectord3_array_nan inputs.a_vectord3_array_ninf inputs.a_vectord3_array_snan inputs.a_vectord3_inf inputs.a_vectord3_nan inputs.a_vectord3_ninf inputs.a_vectord3_snan inputs.a_vectorf3_array_inf inputs.a_vectorf3_array_nan inputs.a_vectorf3_array_ninf inputs.a_vectorf3_array_snan inputs.a_vectorf3_inf inputs.a_vectorf3_nan inputs.a_vectorf3_ninf inputs.a_vectorf3_snan inputs.a_vectorh3_array_inf inputs.a_vectorh3_array_nan inputs.a_vectorh3_array_ninf inputs.a_vectorh3_array_snan inputs.a_vectorh3_inf inputs.a_vectorh3_nan inputs.a_vectorh3_ninf inputs.a_vectorh3_snan Outputs: outputs.a_colord3_array_inf outputs.a_colord3_array_nan outputs.a_colord3_array_ninf outputs.a_colord3_array_snan outputs.a_colord3_inf outputs.a_colord3_nan outputs.a_colord3_ninf outputs.a_colord3_snan outputs.a_colord4_array_inf outputs.a_colord4_array_nan outputs.a_colord4_array_ninf outputs.a_colord4_array_snan outputs.a_colord4_inf outputs.a_colord4_nan outputs.a_colord4_ninf outputs.a_colord4_snan outputs.a_colorf3_array_inf outputs.a_colorf3_array_nan outputs.a_colorf3_array_ninf outputs.a_colorf3_array_snan outputs.a_colorf3_inf outputs.a_colorf3_nan outputs.a_colorf3_ninf outputs.a_colorf3_snan outputs.a_colorf4_array_inf outputs.a_colorf4_array_nan outputs.a_colorf4_array_ninf outputs.a_colorf4_array_snan outputs.a_colorf4_inf outputs.a_colorf4_nan outputs.a_colorf4_ninf outputs.a_colorf4_snan outputs.a_colorh3_array_inf outputs.a_colorh3_array_nan outputs.a_colorh3_array_ninf outputs.a_colorh3_array_snan outputs.a_colorh3_inf outputs.a_colorh3_nan outputs.a_colorh3_ninf outputs.a_colorh3_snan outputs.a_colorh4_array_inf outputs.a_colorh4_array_nan outputs.a_colorh4_array_ninf outputs.a_colorh4_array_snan outputs.a_colorh4_inf outputs.a_colorh4_nan outputs.a_colorh4_ninf outputs.a_colorh4_snan outputs.a_double2_array_inf outputs.a_double2_array_nan outputs.a_double2_array_ninf outputs.a_double2_array_snan outputs.a_double2_inf outputs.a_double2_nan outputs.a_double2_ninf outputs.a_double2_snan outputs.a_double3_array_inf outputs.a_double3_array_nan outputs.a_double3_array_ninf outputs.a_double3_array_snan outputs.a_double3_inf outputs.a_double3_nan outputs.a_double3_ninf outputs.a_double3_snan outputs.a_double4_array_inf outputs.a_double4_array_nan outputs.a_double4_array_ninf outputs.a_double4_array_snan outputs.a_double4_inf outputs.a_double4_nan outputs.a_double4_ninf outputs.a_double4_snan outputs.a_double_array_inf outputs.a_double_array_nan outputs.a_double_array_ninf outputs.a_double_array_snan outputs.a_double_inf outputs.a_double_nan outputs.a_double_ninf outputs.a_double_snan outputs.a_float2_array_inf outputs.a_float2_array_nan outputs.a_float2_array_ninf outputs.a_float2_array_snan outputs.a_float2_inf outputs.a_float2_nan outputs.a_float2_ninf outputs.a_float2_snan outputs.a_float3_array_inf outputs.a_float3_array_nan outputs.a_float3_array_ninf outputs.a_float3_array_snan outputs.a_float3_inf outputs.a_float3_nan outputs.a_float3_ninf outputs.a_float3_snan outputs.a_float4_array_inf outputs.a_float4_array_nan outputs.a_float4_array_ninf outputs.a_float4_array_snan outputs.a_float4_inf outputs.a_float4_nan outputs.a_float4_ninf outputs.a_float4_snan outputs.a_float_array_inf outputs.a_float_array_nan outputs.a_float_array_ninf outputs.a_float_array_snan outputs.a_float_inf outputs.a_float_nan outputs.a_float_ninf outputs.a_float_snan outputs.a_frame4_array_inf outputs.a_frame4_array_nan outputs.a_frame4_array_ninf outputs.a_frame4_array_snan outputs.a_frame4_inf outputs.a_frame4_nan outputs.a_frame4_ninf outputs.a_frame4_snan outputs.a_half2_array_inf outputs.a_half2_array_nan outputs.a_half2_array_ninf outputs.a_half2_array_snan outputs.a_half2_inf outputs.a_half2_nan outputs.a_half2_ninf outputs.a_half2_snan outputs.a_half3_array_inf outputs.a_half3_array_nan 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False, ''), ('inputs:a_colord4_inf', 'color4d', 0, None, 'colord4 Infinity', {ogn.MetadataKeys.DEFAULT: '["inf", "inf", "inf", "inf"]'}, True, [float("Inf"), float("Inf"), float("Inf"), float("Inf")], False, ''), ('inputs:a_colord4_nan', 'color4d', 0, None, 'colord4 NaN', {ogn.MetadataKeys.DEFAULT: '["nan", "nan", "nan", "nan"]'}, True, [float("NaN"), float("NaN"), float("NaN"), float("NaN")], False, ''), ('inputs:a_colord4_ninf', 'color4d', 0, None, 'colord4 -Infinity', {ogn.MetadataKeys.DEFAULT: '["-inf", "-inf", "-inf", "-inf"]'}, True, [float("-Inf"), float("-Inf"), float("-Inf"), float("-Inf")], False, ''), ('inputs:a_colord4_snan', 'color4d', 0, None, 'colord4 sNaN', {ogn.MetadataKeys.DEFAULT: '["snan", "snan", "snan", "snan"]'}, True, [float("NaN"), float("NaN"), float("NaN"), float("NaN")], False, ''), ('inputs:a_colorf3_array_inf', 'color3f[]', 0, None, 'colorf3_array Infinity', {ogn.MetadataKeys.DEFAULT: '[["inf", "inf", "inf"], ["inf", "inf", "inf"]]'}, True, [[float("Inf"), float("Inf"), float("Inf")], [float("Inf"), float("Inf"), float("Inf")]], False, ''), ('inputs:a_colorf3_array_nan', 'color3f[]', 0, None, 'colorf3_array NaN', {ogn.MetadataKeys.DEFAULT: '[["nan", "nan", "nan"], ["nan", "nan", "nan"]]'}, True, [[float("NaN"), float("NaN"), float("NaN")], [float("NaN"), float("NaN"), float("NaN")]], False, ''), ('inputs:a_colorf3_array_ninf', 'color3f[]', 0, None, 'colorf3_array -Infinity', {ogn.MetadataKeys.DEFAULT: '[["-inf", "-inf", "-inf"], ["-inf", "-inf", "-inf"]]'}, True, [[float("-Inf"), float("-Inf"), float("-Inf")], [float("-Inf"), float("-Inf"), float("-Inf")]], False, ''), ('inputs:a_colorf3_array_snan', 'color3f[]', 0, None, 'colorf3_array sNaN', {ogn.MetadataKeys.DEFAULT: '[["snan", "snan", "snan"], ["snan", "snan", "snan"]]'}, True, [[float("NaN"), float("NaN"), float("NaN")], [float("NaN"), float("NaN"), float("NaN")]], False, ''), ('inputs:a_colorf3_inf', 'color3f', 0, None, 'colorf3 Infinity', {ogn.MetadataKeys.DEFAULT: '["inf", "inf", "inf"]'}, True, [float("Inf"), float("Inf"), float("Inf")], False, ''), ('inputs:a_colorf3_nan', 'color3f', 0, None, 'colorf3 NaN', {ogn.MetadataKeys.DEFAULT: '["nan", "nan", "nan"]'}, True, [float("NaN"), float("NaN"), float("NaN")], False, ''), ('inputs:a_colorf3_ninf', 'color3f', 0, None, 'colorf3 -Infinity', {ogn.MetadataKeys.DEFAULT: '["-inf", "-inf", "-inf"]'}, True, [float("-Inf"), float("-Inf"), float("-Inf")], False, ''), ('inputs:a_colorf3_snan', 'color3f', 0, None, 'colorf3 sNaN', {ogn.MetadataKeys.DEFAULT: '["snan", "snan", "snan"]'}, True, [float("NaN"), float("NaN"), float("NaN")], False, ''), ('inputs:a_colorf4_array_inf', 'color4f[]', 0, None, 'colorf4_array Infinity', {ogn.MetadataKeys.DEFAULT: '[["inf", "inf", "inf", "inf"], ["inf", "inf", "inf", "inf"]]'}, True, [[float("Inf"), float("Inf"), float("Inf"), float("Inf")], [float("Inf"), float("Inf"), float("Inf"), float("Inf")]], False, ''), ('inputs:a_colorf4_array_nan', 'color4f[]', 0, None, 'colorf4_array NaN', {ogn.MetadataKeys.DEFAULT: '[["nan", "nan", "nan", "nan"], ["nan", "nan", "nan", "nan"]]'}, True, [[float("NaN"), float("NaN"), float("NaN"), float("NaN")], [float("NaN"), float("NaN"), float("NaN"), float("NaN")]], False, ''), ('inputs:a_colorf4_array_ninf', 'color4f[]', 0, None, 'colorf4_array -Infinity', {ogn.MetadataKeys.DEFAULT: '[["-inf", "-inf", "-inf", "-inf"], ["-inf", "-inf", "-inf", "-inf"]]'}, True, [[float("-Inf"), float("-Inf"), float("-Inf"), float("-Inf")], [float("-Inf"), float("-Inf"), float("-Inf"), float("-Inf")]], False, ''), ('inputs:a_colorf4_array_snan', 'color4f[]', 0, None, 'colorf4_array sNaN', {ogn.MetadataKeys.DEFAULT: '[["snan", "snan", "snan", "snan"], ["snan", "snan", "snan", "snan"]]'}, True, [[float("NaN"), float("NaN"), float("NaN"), float("NaN")], [float("NaN"), float("NaN"), float("NaN"), float("NaN")]], False, ''), ('inputs:a_colorf4_inf', 'color4f', 0, None, 'colorf4 Infinity', {ogn.MetadataKeys.DEFAULT: '["inf", "inf", "inf", "inf"]'}, True, [float("Inf"), float("Inf"), float("Inf"), float("Inf")], False, ''), ('inputs:a_colorf4_nan', 'color4f', 0, None, 'colorf4 NaN', {ogn.MetadataKeys.DEFAULT: '["nan", "nan", "nan", "nan"]'}, True, [float("NaN"), float("NaN"), float("NaN"), float("NaN")], False, ''), ('inputs:a_colorf4_ninf', 'color4f', 0, None, 'colorf4 -Infinity', {ogn.MetadataKeys.DEFAULT: '["-inf", "-inf", "-inf", "-inf"]'}, True, [float("-Inf"), float("-Inf"), float("-Inf"), float("-Inf")], False, ''), ('inputs:a_colorf4_snan', 'color4f', 0, None, 'colorf4 sNaN', {ogn.MetadataKeys.DEFAULT: '["snan", "snan", "snan", "snan"]'}, True, [float("NaN"), float("NaN"), float("NaN"), float("NaN")], False, ''), ('inputs:a_colorh3_array_inf', 'color3h[]', 0, None, 'colorh3_array Infinity', {ogn.MetadataKeys.DEFAULT: '[["inf", "inf", "inf"], ["inf", "inf", "inf"]]'}, True, [[float("Inf"), float("Inf"), float("Inf")], [float("Inf"), float("Inf"), float("Inf")]], False, ''), ('inputs:a_colorh3_array_nan', 'color3h[]', 0, None, 'colorh3_array NaN', {ogn.MetadataKeys.DEFAULT: '[["nan", "nan", "nan"], ["nan", "nan", "nan"]]'}, True, [[float("NaN"), float("NaN"), float("NaN")], [float("NaN"), float("NaN"), float("NaN")]], False, ''), ('inputs:a_colorh3_array_ninf', 'color3h[]', 0, None, 'colorh3_array -Infinity', {ogn.MetadataKeys.DEFAULT: '[["-inf", "-inf", "-inf"], ["-inf", "-inf", "-inf"]]'}, True, [[float("-Inf"), float("-Inf"), float("-Inf")], [float("-Inf"), float("-Inf"), float("-Inf")]], False, ''), ('inputs:a_colorh3_array_snan', 'color3h[]', 0, None, 'colorh3_array sNaN', {ogn.MetadataKeys.DEFAULT: '[["snan", "snan", "snan"], ["snan", "snan", "snan"]]'}, True, [[float("NaN"), float("NaN"), float("NaN")], [float("NaN"), float("NaN"), float("NaN")]], False, ''), ('inputs:a_colorh3_inf', 'color3h', 0, None, 'colorh3 Infinity', {ogn.MetadataKeys.DEFAULT: '["inf", "inf", "inf"]'}, True, [float("Inf"), float("Inf"), float("Inf")], False, ''), ('inputs:a_colorh3_nan', 'color3h', 0, None, 'colorh3 NaN', 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float("NaN"), float("NaN")], [float("NaN"), float("NaN"), float("NaN"), float("NaN")]], False, ''), ('inputs:a_colorh4_array_ninf', 'color4h[]', 0, None, 'colorh4_array -Infinity', {ogn.MetadataKeys.DEFAULT: '[["-inf", "-inf", "-inf", "-inf"], ["-inf", "-inf", "-inf", "-inf"]]'}, True, [[float("-Inf"), float("-Inf"), float("-Inf"), float("-Inf")], [float("-Inf"), float("-Inf"), float("-Inf"), float("-Inf")]], False, ''), ('inputs:a_colorh4_array_snan', 'color4h[]', 0, None, 'colorh4_array sNaN', {ogn.MetadataKeys.DEFAULT: '[["snan", "snan", "snan", "snan"], ["snan", "snan", "snan", "snan"]]'}, True, [[float("NaN"), float("NaN"), float("NaN"), float("NaN")], [float("NaN"), float("NaN"), float("NaN"), float("NaN")]], False, ''), ('inputs:a_colorh4_inf', 'color4h', 0, None, 'colorh4 Infinity', {ogn.MetadataKeys.DEFAULT: '["inf", "inf", "inf", "inf"]'}, True, [float("Inf"), float("Inf"), float("Inf"), float("Inf")], False, ''), ('inputs:a_colorh4_nan', 'color4h', 0, None, 'colorh4 NaN', 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None, False, ''), ('outputs:a_float4_nan', 'float4', 0, None, 'float4 NaN', {}, True, None, False, ''), ('outputs:a_float4_ninf', 'float4', 0, None, 'float4 -Infinity', {}, True, None, False, ''), ('outputs:a_float4_snan', 'float4', 0, None, 'float4 sNaN', {}, True, None, False, ''), ('outputs:a_float_array_inf', 'float[]', 0, None, 'float_array Infinity', {}, True, None, False, ''), ('outputs:a_float_array_nan', 'float[]', 0, None, 'float_array NaN', {}, True, None, False, ''), ('outputs:a_float_array_ninf', 'float[]', 0, None, 'float_array -Infinity', {}, True, None, False, ''), ('outputs:a_float_array_snan', 'float[]', 0, None, 'float_array sNaN', {}, True, None, False, ''), ('outputs:a_float_inf', 'float', 0, None, 'float Infinity', {}, True, None, False, ''), ('outputs:a_float_nan', 'float', 0, None, 'float NaN', {}, True, None, False, ''), ('outputs:a_float_ninf', 'float', 0, None, 'float -Infinity', {}, True, None, False, ''), ('outputs:a_float_snan', 'float', 0, None, 'float sNaN', {}, True, None, False, ''), ('outputs:a_frame4_array_inf', 'frame4d[]', 0, None, 'frame4_array Infinity', {}, True, None, False, ''), ('outputs:a_frame4_array_nan', 'frame4d[]', 0, None, 'frame4_array NaN', {}, True, None, False, ''), ('outputs:a_frame4_array_ninf', 'frame4d[]', 0, None, 'frame4_array -Infinity', {}, True, None, False, ''), ('outputs:a_frame4_array_snan', 'frame4d[]', 0, None, 'frame4_array sNaN', {}, True, None, False, ''), ('outputs:a_frame4_inf', 'frame4d', 0, None, 'frame4 Infinity', {}, True, None, False, ''), ('outputs:a_frame4_nan', 'frame4d', 0, None, 'frame4 NaN', {}, True, None, False, ''), ('outputs:a_frame4_ninf', 'frame4d', 0, None, 'frame4 -Infinity', {}, True, None, False, ''), ('outputs:a_frame4_snan', 'frame4d', 0, None, 'frame4 sNaN', {}, True, None, False, ''), ('outputs:a_half2_array_inf', 'half2[]', 0, None, 'half2_array Infinity', {}, True, None, False, ''), ('outputs:a_half2_array_nan', 'half2[]', 0, None, 'half2_array NaN', {}, True, None, False, ''), ('outputs:a_half2_array_ninf', 'half2[]', 0, None, 'half2_array -Infinity', {}, True, None, False, ''), ('outputs:a_half2_array_snan', 'half2[]', 0, None, 'half2_array sNaN', {}, True, None, False, ''), ('outputs:a_half2_inf', 'half2', 0, None, 'half2 Infinity', {}, True, None, False, ''), ('outputs:a_half2_nan', 'half2', 0, None, 'half2 NaN', {}, True, None, False, ''), ('outputs:a_half2_ninf', 'half2', 0, None, 'half2 -Infinity', {}, True, None, False, ''), ('outputs:a_half2_snan', 'half2', 0, None, 'half2 sNaN', {}, True, None, False, ''), ('outputs:a_half3_array_inf', 'half3[]', 0, None, 'half3_array Infinity', {}, True, None, False, ''), ('outputs:a_half3_array_nan', 'half3[]', 0, None, 'half3_array NaN', {}, True, None, False, ''), ('outputs:a_half3_array_ninf', 'half3[]', 0, None, 'half3_array -Infinity', {}, True, None, False, ''), ('outputs:a_half3_array_snan', 'half3[]', 0, None, 'half3_array sNaN', {}, True, None, False, ''), ('outputs:a_half3_inf', 'half3', 0, None, 'half3 Infinity', {}, True, None, False, ''), ('outputs:a_half3_nan', 'half3', 0, None, 'half3 NaN', {}, True, None, False, ''), ('outputs:a_half3_ninf', 'half3', 0, None, 'half3 -Infinity', {}, True, None, False, ''), ('outputs:a_half3_snan', 'half3', 0, None, 'half3 sNaN', {}, True, None, False, ''), ('outputs:a_half4_array_inf', 'half4[]', 0, None, 'half4_array Infinity', {}, True, None, False, ''), ('outputs:a_half4_array_nan', 'half4[]', 0, None, 'half4_array NaN', {}, True, None, False, ''), ('outputs:a_half4_array_ninf', 'half4[]', 0, None, 'half4_array -Infinity', {}, True, None, False, ''), ('outputs:a_half4_array_snan', 'half4[]', 0, None, 'half4_array sNaN', {}, True, None, False, ''), ('outputs:a_half4_inf', 'half4', 0, None, 'half4 Infinity', {}, True, None, False, ''), ('outputs:a_half4_nan', 'half4', 0, None, 'half4 NaN', {}, True, None, False, ''), ('outputs:a_half4_ninf', 'half4', 0, None, 'half4 -Infinity', {}, True, None, False, ''), ('outputs:a_half4_snan', 'half4', 0, None, 'half4 sNaN', {}, True, None, False, ''), ('outputs:a_half_array_inf', 'half[]', 0, None, 'half_array Infinity', {}, True, None, False, ''), ('outputs:a_half_array_nan', 'half[]', 0, None, 'half_array NaN', {}, True, None, False, ''), ('outputs:a_half_array_ninf', 'half[]', 0, None, 'half_array -Infinity', {}, True, None, False, ''), ('outputs:a_half_array_snan', 'half[]', 0, None, 'half_array sNaN', {}, True, None, False, ''), ('outputs:a_half_inf', 'half', 0, None, 'half Infinity', {}, True, None, False, ''), ('outputs:a_half_nan', 'half', 0, None, 'half NaN', {}, True, None, False, ''), ('outputs:a_half_ninf', 'half', 0, None, 'half -Infinity', {}, True, None, False, ''), ('outputs:a_half_snan', 'half', 0, None, 'half sNaN', {}, True, None, False, ''), ('outputs:a_matrixd2_array_inf', 'matrix2d[]', 0, None, 'matrixd2_array Infinity', {}, True, None, False, ''), ('outputs:a_matrixd2_array_nan', 'matrix2d[]', 0, None, 'matrixd2_array NaN', {}, True, None, False, ''), ('outputs:a_matrixd2_array_ninf', 'matrix2d[]', 0, None, 'matrixd2_array -Infinity', {}, True, None, False, ''), ('outputs:a_matrixd2_array_snan', 'matrix2d[]', 0, None, 'matrixd2_array sNaN', {}, True, None, False, ''), ('outputs:a_matrixd2_inf', 'matrix2d', 0, None, 'matrixd2 Infinity', {}, True, None, False, ''), ('outputs:a_matrixd2_nan', 'matrix2d', 0, None, 'matrixd2 NaN', {}, True, None, False, ''), ('outputs:a_matrixd2_ninf', 'matrix2d', 0, None, 'matrixd2 -Infinity', {}, True, None, False, ''), ('outputs:a_matrixd2_snan', 'matrix2d', 0, None, 'matrixd2 sNaN', {}, True, None, False, ''), ('outputs:a_matrixd3_array_inf', 'matrix3d[]', 0, None, 'matrixd3_array Infinity', {}, True, None, False, ''), ('outputs:a_matrixd3_array_nan', 'matrix3d[]', 0, None, 'matrixd3_array NaN', {}, True, None, False, ''), ('outputs:a_matrixd3_array_ninf', 'matrix3d[]', 0, None, 'matrixd3_array -Infinity', {}, True, None, False, ''), ('outputs:a_matrixd3_array_snan', 'matrix3d[]', 0, None, 'matrixd3_array sNaN', {}, True, None, False, ''), ('outputs:a_matrixd3_inf', 'matrix3d', 0, None, 'matrixd3 Infinity', {}, True, None, False, ''), ('outputs:a_matrixd3_nan', 'matrix3d', 0, None, 'matrixd3 NaN', {}, True, None, False, ''), ('outputs:a_matrixd3_ninf', 'matrix3d', 0, None, 'matrixd3 -Infinity', {}, True, None, False, ''), ('outputs:a_matrixd3_snan', 'matrix3d', 0, None, 'matrixd3 sNaN', {}, True, None, False, ''), ('outputs:a_matrixd4_array_inf', 'matrix4d[]', 0, None, 'matrixd4_array Infinity', {}, True, None, False, ''), ('outputs:a_matrixd4_array_nan', 'matrix4d[]', 0, None, 'matrixd4_array NaN', {}, True, None, False, ''), ('outputs:a_matrixd4_array_ninf', 'matrix4d[]', 0, None, 'matrixd4_array -Infinity', {}, True, None, False, ''), ('outputs:a_matrixd4_array_snan', 'matrix4d[]', 0, None, 'matrixd4_array sNaN', {}, True, None, False, ''), ('outputs:a_matrixd4_inf', 'matrix4d', 0, None, 'matrixd4 Infinity', {}, True, None, False, ''), ('outputs:a_matrixd4_nan', 'matrix4d', 0, None, 'matrixd4 NaN', {}, True, None, False, ''), ('outputs:a_matrixd4_ninf', 'matrix4d', 0, None, 'matrixd4 -Infinity', {}, True, None, False, ''), ('outputs:a_matrixd4_snan', 'matrix4d', 0, None, 'matrixd4 sNaN', {}, True, None, False, ''), ('outputs:a_normald3_array_inf', 'normal3d[]', 0, None, 'normald3_array Infinity', {}, True, None, False, ''), ('outputs:a_normald3_array_nan', 'normal3d[]', 0, None, 'normald3_array NaN', {}, True, None, False, ''), ('outputs:a_normald3_array_ninf', 'normal3d[]', 0, None, 'normald3_array -Infinity', {}, True, None, False, ''), ('outputs:a_normald3_array_snan', 'normal3d[]', 0, None, 'normald3_array sNaN', {}, True, None, False, ''), ('outputs:a_normald3_inf', 'normal3d', 0, None, 'normald3 Infinity', {}, True, None, False, ''), ('outputs:a_normald3_nan', 'normal3d', 0, None, 'normald3 NaN', {}, True, None, False, ''), ('outputs:a_normald3_ninf', 'normal3d', 0, None, 'normald3 -Infinity', {}, True, None, False, ''), ('outputs:a_normald3_snan', 'normal3d', 0, None, 'normald3 sNaN', {}, True, None, False, ''), ('outputs:a_normalf3_array_inf', 'normal3f[]', 0, None, 'normalf3_array Infinity', {}, True, None, False, ''), ('outputs:a_normalf3_array_nan', 'normal3f[]', 0, None, 'normalf3_array NaN', {}, True, None, False, ''), ('outputs:a_normalf3_array_ninf', 'normal3f[]', 0, None, 'normalf3_array -Infinity', {}, True, None, False, ''), ('outputs:a_normalf3_array_snan', 'normal3f[]', 0, None, 'normalf3_array sNaN', {}, True, None, False, ''), ('outputs:a_normalf3_inf', 'normal3f', 0, None, 'normalf3 Infinity', {}, True, None, False, ''), ('outputs:a_normalf3_nan', 'normal3f', 0, None, 'normalf3 NaN', {}, True, None, False, ''), ('outputs:a_normalf3_ninf', 'normal3f', 0, None, 'normalf3 -Infinity', {}, True, None, False, ''), ('outputs:a_normalf3_snan', 'normal3f', 0, None, 'normalf3 sNaN', {}, True, None, False, ''), ('outputs:a_normalh3_array_inf', 'normal3h[]', 0, None, 'normalh3_array Infinity', {}, True, None, False, ''), ('outputs:a_normalh3_array_nan', 'normal3h[]', 0, None, 'normalh3_array NaN', {}, True, None, False, ''), ('outputs:a_normalh3_array_ninf', 'normal3h[]', 0, None, 'normalh3_array -Infinity', {}, True, None, False, ''), ('outputs:a_normalh3_array_snan', 'normal3h[]', 0, None, 'normalh3_array sNaN', {}, True, None, False, ''), ('outputs:a_normalh3_inf', 'normal3h', 0, None, 'normalh3 Infinity', {}, True, None, False, ''), ('outputs:a_normalh3_nan', 'normal3h', 0, None, 'normalh3 NaN', {}, True, None, False, ''), ('outputs:a_normalh3_ninf', 'normal3h', 0, None, 'normalh3 -Infinity', {}, True, None, False, ''), ('outputs:a_normalh3_snan', 'normal3h', 0, None, 'normalh3 sNaN', {}, True, None, False, ''), ('outputs:a_pointd3_array_inf', 'point3d[]', 0, None, 'pointd3_array Infinity', {}, True, None, False, ''), ('outputs:a_pointd3_array_nan', 'point3d[]', 0, None, 'pointd3_array NaN', {}, True, None, False, ''), ('outputs:a_pointd3_array_ninf', 'point3d[]', 0, None, 'pointd3_array -Infinity', {}, True, None, False, ''), ('outputs:a_pointd3_array_snan', 'point3d[]', 0, None, 'pointd3_array sNaN', {}, True, None, False, ''), ('outputs:a_pointd3_inf', 'point3d', 0, None, 'pointd3 Infinity', {}, True, None, False, ''), ('outputs:a_pointd3_nan', 'point3d', 0, None, 'pointd3 NaN', {}, True, None, False, ''), ('outputs:a_pointd3_ninf', 'point3d', 0, None, 'pointd3 -Infinity', {}, True, None, False, ''), ('outputs:a_pointd3_snan', 'point3d', 0, None, 'pointd3 sNaN', {}, True, None, False, ''), ('outputs:a_pointf3_array_inf', 'point3f[]', 0, None, 'pointf3_array Infinity', {}, True, None, False, ''), ('outputs:a_pointf3_array_nan', 'point3f[]', 0, None, 'pointf3_array NaN', {}, True, None, False, ''), ('outputs:a_pointf3_array_ninf', 'point3f[]', 0, None, 'pointf3_array -Infinity', {}, True, None, False, ''), ('outputs:a_pointf3_array_snan', 'point3f[]', 0, None, 'pointf3_array sNaN', {}, True, None, False, ''), ('outputs:a_pointf3_inf', 'point3f', 0, None, 'pointf3 Infinity', {}, True, None, False, ''), ('outputs:a_pointf3_nan', 'point3f', 0, None, 'pointf3 NaN', {}, True, None, False, ''), ('outputs:a_pointf3_ninf', 'point3f', 0, None, 'pointf3 -Infinity', {}, True, None, False, ''), ('outputs:a_pointf3_snan', 'point3f', 0, None, 'pointf3 sNaN', {}, True, None, False, ''), ('outputs:a_pointh3_array_inf', 'point3h[]', 0, None, 'pointh3_array Infinity', {}, True, None, False, ''), ('outputs:a_pointh3_array_nan', 'point3h[]', 0, None, 'pointh3_array NaN', {}, True, None, False, ''), ('outputs:a_pointh3_array_ninf', 'point3h[]', 0, None, 'pointh3_array -Infinity', {}, True, None, False, ''), ('outputs:a_pointh3_array_snan', 'point3h[]', 0, None, 'pointh3_array sNaN', {}, True, None, False, ''), ('outputs:a_pointh3_inf', 'point3h', 0, None, 'pointh3 Infinity', {}, True, None, False, ''), ('outputs:a_pointh3_nan', 'point3h', 0, None, 'pointh3 NaN', {}, True, None, False, ''), ('outputs:a_pointh3_ninf', 'point3h', 0, None, 'pointh3 -Infinity', {}, True, None, False, ''), ('outputs:a_pointh3_snan', 'point3h', 0, None, 'pointh3 sNaN', {}, True, None, False, ''), ('outputs:a_quatd4_array_inf', 'quatd[]', 0, None, 'quatd4_array Infinity', {}, True, None, False, ''), ('outputs:a_quatd4_array_nan', 'quatd[]', 0, None, 'quatd4_array NaN', {}, True, None, False, ''), ('outputs:a_quatd4_array_ninf', 'quatd[]', 0, None, 'quatd4_array -Infinity', {}, True, None, False, ''), ('outputs:a_quatd4_array_snan', 'quatd[]', 0, None, 'quatd4_array sNaN', {}, True, None, False, ''), ('outputs:a_quatd4_inf', 'quatd', 0, None, 'quatd4 Infinity', {}, True, None, False, ''), ('outputs:a_quatd4_nan', 'quatd', 0, None, 'quatd4 NaN', {}, True, None, False, ''), ('outputs:a_quatd4_ninf', 'quatd', 0, None, 'quatd4 -Infinity', {}, True, None, False, ''), ('outputs:a_quatd4_snan', 'quatd', 0, None, 'quatd4 sNaN', {}, True, None, False, ''), ('outputs:a_quatf4_array_inf', 'quatf[]', 0, None, 'quatf4_array Infinity', {}, True, None, False, ''), ('outputs:a_quatf4_array_nan', 'quatf[]', 0, None, 'quatf4_array NaN', {}, True, None, False, ''), ('outputs:a_quatf4_array_ninf', 'quatf[]', 0, None, 'quatf4_array -Infinity', {}, True, None, False, ''), ('outputs:a_quatf4_array_snan', 'quatf[]', 0, None, 'quatf4_array sNaN', {}, True, None, False, ''), ('outputs:a_quatf4_inf', 'quatf', 0, None, 'quatf4 Infinity', {}, True, None, False, ''), ('outputs:a_quatf4_nan', 'quatf', 0, None, 'quatf4 NaN', {}, True, None, False, ''), ('outputs:a_quatf4_ninf', 'quatf', 0, None, 'quatf4 -Infinity', {}, True, None, False, ''), ('outputs:a_quatf4_snan', 'quatf', 0, None, 'quatf4 sNaN', {}, True, None, False, ''), ('outputs:a_quath4_array_inf', 'quath[]', 0, None, 'quath4_array Infinity', {}, True, None, False, ''), ('outputs:a_quath4_array_nan', 'quath[]', 0, None, 'quath4_array NaN', {}, True, None, False, ''), ('outputs:a_quath4_array_ninf', 'quath[]', 0, None, 'quath4_array -Infinity', {}, True, None, False, ''), ('outputs:a_quath4_array_snan', 'quath[]', 0, None, 'quath4_array sNaN', {}, True, None, False, ''), ('outputs:a_quath4_inf', 'quath', 0, None, 'quath4 Infinity', {}, True, None, False, ''), ('outputs:a_quath4_nan', 'quath', 0, None, 'quath4 NaN', {}, True, None, False, ''), ('outputs:a_quath4_ninf', 'quath', 0, None, 'quath4 -Infinity', {}, True, None, False, ''), ('outputs:a_quath4_snan', 'quath', 0, None, 'quath4 sNaN', {}, True, None, False, ''), ('outputs:a_texcoordd2_array_inf', 'texCoord2d[]', 0, None, 'texcoordd2_array Infinity', {}, True, None, False, ''), ('outputs:a_texcoordd2_array_nan', 'texCoord2d[]', 0, None, 'texcoordd2_array NaN', {}, True, None, False, ''), ('outputs:a_texcoordd2_array_ninf', 'texCoord2d[]', 0, None, 'texcoordd2_array -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordd2_array_snan', 'texCoord2d[]', 0, None, 'texcoordd2_array sNaN', {}, True, None, False, ''), ('outputs:a_texcoordd2_inf', 'texCoord2d', 0, None, 'texcoordd2 Infinity', {}, True, None, False, ''), ('outputs:a_texcoordd2_nan', 'texCoord2d', 0, None, 'texcoordd2 NaN', {}, True, None, False, ''), ('outputs:a_texcoordd2_ninf', 'texCoord2d', 0, None, 'texcoordd2 -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordd2_snan', 'texCoord2d', 0, None, 'texcoordd2 sNaN', {}, True, None, False, ''), ('outputs:a_texcoordd3_array_inf', 'texCoord3d[]', 0, None, 'texcoordd3_array Infinity', {}, True, None, False, ''), ('outputs:a_texcoordd3_array_nan', 'texCoord3d[]', 0, None, 'texcoordd3_array NaN', {}, True, None, False, ''), ('outputs:a_texcoordd3_array_ninf', 'texCoord3d[]', 0, None, 'texcoordd3_array -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordd3_array_snan', 'texCoord3d[]', 0, None, 'texcoordd3_array sNaN', {}, True, None, False, ''), ('outputs:a_texcoordd3_inf', 'texCoord3d', 0, None, 'texcoordd3 Infinity', {}, True, None, False, ''), ('outputs:a_texcoordd3_nan', 'texCoord3d', 0, None, 'texcoordd3 NaN', {}, True, None, False, ''), ('outputs:a_texcoordd3_ninf', 'texCoord3d', 0, None, 'texcoordd3 -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordd3_snan', 'texCoord3d', 0, None, 'texcoordd3 sNaN', {}, True, None, False, ''), ('outputs:a_texcoordf2_array_inf', 'texCoord2f[]', 0, None, 'texcoordf2_array Infinity', {}, True, None, False, ''), ('outputs:a_texcoordf2_array_nan', 'texCoord2f[]', 0, None, 'texcoordf2_array NaN', {}, True, None, False, ''), ('outputs:a_texcoordf2_array_ninf', 'texCoord2f[]', 0, None, 'texcoordf2_array -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordf2_array_snan', 'texCoord2f[]', 0, None, 'texcoordf2_array sNaN', {}, True, None, False, ''), ('outputs:a_texcoordf2_inf', 'texCoord2f', 0, None, 'texcoordf2 Infinity', {}, True, None, False, ''), ('outputs:a_texcoordf2_nan', 'texCoord2f', 0, None, 'texcoordf2 NaN', {}, True, None, False, ''), ('outputs:a_texcoordf2_ninf', 'texCoord2f', 0, None, 'texcoordf2 -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordf2_snan', 'texCoord2f', 0, None, 'texcoordf2 sNaN', {}, True, None, False, ''), ('outputs:a_texcoordf3_array_inf', 'texCoord3f[]', 0, None, 'texcoordf3_array Infinity', {}, True, None, False, ''), ('outputs:a_texcoordf3_array_nan', 'texCoord3f[]', 0, None, 'texcoordf3_array NaN', {}, True, None, False, ''), ('outputs:a_texcoordf3_array_ninf', 'texCoord3f[]', 0, None, 'texcoordf3_array -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordf3_array_snan', 'texCoord3f[]', 0, None, 'texcoordf3_array sNaN', {}, True, None, False, ''), ('outputs:a_texcoordf3_inf', 'texCoord3f', 0, None, 'texcoordf3 Infinity', {}, True, None, False, ''), ('outputs:a_texcoordf3_nan', 'texCoord3f', 0, None, 'texcoordf3 NaN', {}, True, None, False, ''), ('outputs:a_texcoordf3_ninf', 'texCoord3f', 0, None, 'texcoordf3 -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordf3_snan', 'texCoord3f', 0, None, 'texcoordf3 sNaN', {}, True, None, False, ''), ('outputs:a_texcoordh2_array_inf', 'texCoord2h[]', 0, None, 'texcoordh2_array Infinity', {}, True, None, False, ''), ('outputs:a_texcoordh2_array_nan', 'texCoord2h[]', 0, None, 'texcoordh2_array NaN', {}, True, None, False, ''), ('outputs:a_texcoordh2_array_ninf', 'texCoord2h[]', 0, None, 'texcoordh2_array -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordh2_array_snan', 'texCoord2h[]', 0, None, 'texcoordh2_array sNaN', {}, True, None, False, ''), ('outputs:a_texcoordh2_inf', 'texCoord2h', 0, None, 'texcoordh2 Infinity', {}, True, None, False, ''), ('outputs:a_texcoordh2_nan', 'texCoord2h', 0, None, 'texcoordh2 NaN', {}, True, None, False, ''), ('outputs:a_texcoordh2_ninf', 'texCoord2h', 0, None, 'texcoordh2 -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordh2_snan', 'texCoord2h', 0, None, 'texcoordh2 sNaN', {}, True, None, False, ''), ('outputs:a_texcoordh3_array_inf', 'texCoord3h[]', 0, None, 'texcoordh3_array Infinity', {}, True, None, False, ''), ('outputs:a_texcoordh3_array_nan', 'texCoord3h[]', 0, None, 'texcoordh3_array NaN', {}, True, None, False, ''), ('outputs:a_texcoordh3_array_ninf', 'texCoord3h[]', 0, None, 'texcoordh3_array -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordh3_array_snan', 'texCoord3h[]', 0, None, 'texcoordh3_array sNaN', {}, True, None, False, ''), ('outputs:a_texcoordh3_inf', 'texCoord3h', 0, None, 'texcoordh3 Infinity', {}, True, None, False, ''), ('outputs:a_texcoordh3_nan', 'texCoord3h', 0, None, 'texcoordh3 NaN', {}, True, None, False, ''), ('outputs:a_texcoordh3_ninf', 'texCoord3h', 0, None, 'texcoordh3 -Infinity', {}, True, None, False, ''), ('outputs:a_texcoordh3_snan', 'texCoord3h', 0, None, 'texcoordh3 sNaN', {}, True, None, False, ''), ('outputs:a_timecode_array_inf', 'timecode[]', 0, None, 'timecode_array Infinity', {}, True, None, False, ''), ('outputs:a_timecode_array_nan', 'timecode[]', 0, None, 'timecode_array NaN', {}, True, None, False, ''), ('outputs:a_timecode_array_ninf', 'timecode[]', 0, None, 'timecode_array -Infinity', {}, True, None, False, ''), ('outputs:a_timecode_array_snan', 'timecode[]', 0, None, 'timecode_array sNaN', {}, True, None, False, ''), ('outputs:a_timecode_inf', 'timecode', 0, None, 'timecode Infinity', {}, True, None, False, ''), ('outputs:a_timecode_nan', 'timecode', 0, None, 'timecode NaN', {}, True, None, False, ''), ('outputs:a_timecode_ninf', 'timecode', 0, None, 'timecode -Infinity', {}, True, None, False, ''), ('outputs:a_timecode_snan', 'timecode', 0, None, 'timecode sNaN', {}, True, None, False, ''), ('outputs:a_vectord3_array_inf', 'vector3d[]', 0, None, 'vectord3_array Infinity', {}, True, None, False, ''), ('outputs:a_vectord3_array_nan', 'vector3d[]', 0, None, 'vectord3_array NaN', {}, True, None, False, ''), ('outputs:a_vectord3_array_ninf', 'vector3d[]', 0, None, 'vectord3_array -Infinity', {}, True, None, False, ''), ('outputs:a_vectord3_array_snan', 'vector3d[]', 0, None, 'vectord3_array sNaN', {}, True, None, False, ''), ('outputs:a_vectord3_inf', 'vector3d', 0, None, 'vectord3 Infinity', {}, True, None, False, ''), ('outputs:a_vectord3_nan', 'vector3d', 0, None, 'vectord3 NaN', {}, True, None, False, ''), ('outputs:a_vectord3_ninf', 'vector3d', 0, None, 'vectord3 -Infinity', {}, True, None, False, ''), ('outputs:a_vectord3_snan', 'vector3d', 0, None, 'vectord3 sNaN', {}, True, None, False, ''), ('outputs:a_vectorf3_array_inf', 'vector3f[]', 0, None, 'vectorf3_array Infinity', {}, True, None, False, ''), ('outputs:a_vectorf3_array_nan', 'vector3f[]', 0, None, 'vectorf3_array NaN', {}, True, None, False, ''), ('outputs:a_vectorf3_array_ninf', 'vector3f[]', 0, None, 'vectorf3_array -Infinity', {}, True, None, False, ''), ('outputs:a_vectorf3_array_snan', 'vector3f[]', 0, None, 'vectorf3_array sNaN', {}, True, None, False, ''), ('outputs:a_vectorf3_inf', 'vector3f', 0, None, 'vectorf3 Infinity', {}, True, None, False, ''), ('outputs:a_vectorf3_nan', 'vector3f', 0, None, 'vectorf3 NaN', {}, True, None, False, ''), ('outputs:a_vectorf3_ninf', 'vector3f', 0, None, 'vectorf3 -Infinity', {}, True, None, False, ''), ('outputs:a_vectorf3_snan', 'vector3f', 0, None, 'vectorf3 sNaN', {}, True, None, False, ''), ('outputs:a_vectorh3_array_inf', 'vector3h[]', 0, None, 'vectorh3_array Infinity', {}, True, None, False, ''), ('outputs:a_vectorh3_array_nan', 'vector3h[]', 0, None, 'vectorh3_array NaN', {}, True, None, False, ''), ('outputs:a_vectorh3_array_ninf', 'vector3h[]', 0, None, 'vectorh3_array -Infinity', {}, True, None, False, ''), ('outputs:a_vectorh3_array_snan', 'vector3h[]', 0, None, 'vectorh3_array sNaN', {}, True, None, False, ''), ('outputs:a_vectorh3_inf', 'vector3h', 0, None, 'vectorh3 Infinity', {}, True, None, False, ''), ('outputs:a_vectorh3_nan', 'vector3h', 0, None, 'vectorh3 NaN', {}, True, None, False, ''), ('outputs:a_vectorh3_ninf', 'vector3h', 0, None, 'vectorh3 -Infinity', {}, True, None, False, ''), ('outputs:a_vectorh3_snan', 'vector3h', 0, None, 'vectorh3 sNaN', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.a_colord3_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colord3_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colord3_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colord3_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colord3_inf = og.AttributeRole.COLOR role_data.inputs.a_colord3_nan = og.AttributeRole.COLOR role_data.inputs.a_colord3_ninf = og.AttributeRole.COLOR role_data.inputs.a_colord3_snan = og.AttributeRole.COLOR role_data.inputs.a_colord4_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colord4_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colord4_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colord4_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colord4_inf = og.AttributeRole.COLOR role_data.inputs.a_colord4_nan = og.AttributeRole.COLOR role_data.inputs.a_colord4_ninf = og.AttributeRole.COLOR role_data.inputs.a_colord4_snan = og.AttributeRole.COLOR role_data.inputs.a_colorf3_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colorf3_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colorf3_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorf3_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colorf3_inf = og.AttributeRole.COLOR role_data.inputs.a_colorf3_nan = og.AttributeRole.COLOR role_data.inputs.a_colorf3_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorf3_snan = og.AttributeRole.COLOR role_data.inputs.a_colorf4_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colorf4_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colorf4_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorf4_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colorf4_inf = og.AttributeRole.COLOR role_data.inputs.a_colorf4_nan = og.AttributeRole.COLOR role_data.inputs.a_colorf4_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorf4_snan = og.AttributeRole.COLOR role_data.inputs.a_colorh3_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colorh3_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colorh3_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorh3_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colorh3_inf = og.AttributeRole.COLOR role_data.inputs.a_colorh3_nan = og.AttributeRole.COLOR role_data.inputs.a_colorh3_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorh3_snan = og.AttributeRole.COLOR role_data.inputs.a_colorh4_array_inf = og.AttributeRole.COLOR role_data.inputs.a_colorh4_array_nan = og.AttributeRole.COLOR role_data.inputs.a_colorh4_array_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorh4_array_snan = og.AttributeRole.COLOR role_data.inputs.a_colorh4_inf = og.AttributeRole.COLOR role_data.inputs.a_colorh4_nan = og.AttributeRole.COLOR role_data.inputs.a_colorh4_ninf = og.AttributeRole.COLOR role_data.inputs.a_colorh4_snan = og.AttributeRole.COLOR role_data.inputs.a_frame4_array_inf = og.AttributeRole.FRAME role_data.inputs.a_frame4_array_nan = og.AttributeRole.FRAME role_data.inputs.a_frame4_array_ninf = og.AttributeRole.FRAME role_data.inputs.a_frame4_array_snan = og.AttributeRole.FRAME role_data.inputs.a_frame4_inf = og.AttributeRole.FRAME role_data.inputs.a_frame4_nan = og.AttributeRole.FRAME role_data.inputs.a_frame4_ninf = og.AttributeRole.FRAME role_data.inputs.a_frame4_snan = og.AttributeRole.FRAME role_data.inputs.a_matrixd2_array_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_array_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_array_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_array_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd2_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_array_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_array_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_array_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_array_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd3_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_array_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_array_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_array_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_array_snan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_inf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_nan = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_ninf = og.AttributeRole.MATRIX role_data.inputs.a_matrixd4_snan = og.AttributeRole.MATRIX role_data.inputs.a_normald3_array_inf = og.AttributeRole.NORMAL role_data.inputs.a_normald3_array_nan = og.AttributeRole.NORMAL role_data.inputs.a_normald3_array_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normald3_array_snan = og.AttributeRole.NORMAL role_data.inputs.a_normald3_inf = og.AttributeRole.NORMAL role_data.inputs.a_normald3_nan = og.AttributeRole.NORMAL role_data.inputs.a_normald3_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normald3_snan = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_array_inf = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_array_nan = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_array_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_array_snan = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_inf = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_nan = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normalf3_snan = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_array_inf = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_array_nan = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_array_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_array_snan = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_inf = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_nan = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_ninf = og.AttributeRole.NORMAL role_data.inputs.a_normalh3_snan = og.AttributeRole.NORMAL role_data.inputs.a_pointd3_array_inf = og.AttributeRole.POSITION role_data.inputs.a_pointd3_array_nan = og.AttributeRole.POSITION role_data.inputs.a_pointd3_array_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointd3_array_snan = og.AttributeRole.POSITION role_data.inputs.a_pointd3_inf = og.AttributeRole.POSITION role_data.inputs.a_pointd3_nan = og.AttributeRole.POSITION role_data.inputs.a_pointd3_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointd3_snan = og.AttributeRole.POSITION role_data.inputs.a_pointf3_array_inf = og.AttributeRole.POSITION role_data.inputs.a_pointf3_array_nan = og.AttributeRole.POSITION role_data.inputs.a_pointf3_array_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointf3_array_snan = og.AttributeRole.POSITION role_data.inputs.a_pointf3_inf = og.AttributeRole.POSITION role_data.inputs.a_pointf3_nan = og.AttributeRole.POSITION role_data.inputs.a_pointf3_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointf3_snan = og.AttributeRole.POSITION role_data.inputs.a_pointh3_array_inf = og.AttributeRole.POSITION role_data.inputs.a_pointh3_array_nan = og.AttributeRole.POSITION role_data.inputs.a_pointh3_array_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointh3_array_snan = og.AttributeRole.POSITION role_data.inputs.a_pointh3_inf = og.AttributeRole.POSITION role_data.inputs.a_pointh3_nan = og.AttributeRole.POSITION role_data.inputs.a_pointh3_ninf = og.AttributeRole.POSITION role_data.inputs.a_pointh3_snan = og.AttributeRole.POSITION role_data.inputs.a_quatd4_array_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_array_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_array_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_array_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quatd4_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_array_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_array_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_array_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_array_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quatf4_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_array_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_array_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_array_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_array_snan = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_inf = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_nan = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_ninf = og.AttributeRole.QUATERNION role_data.inputs.a_quath4_snan = og.AttributeRole.QUATERNION role_data.inputs.a_texcoordd2_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd2_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordd3_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf2_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordf3_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh2_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_array_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_array_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_array_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_array_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_inf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_nan = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_ninf = og.AttributeRole.TEXCOORD role_data.inputs.a_texcoordh3_snan = og.AttributeRole.TEXCOORD role_data.inputs.a_timecode_array_inf = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_array_nan = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_array_ninf = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_array_snan = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_inf = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_nan = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_ninf = og.AttributeRole.TIMECODE role_data.inputs.a_timecode_snan = og.AttributeRole.TIMECODE role_data.inputs.a_vectord3_array_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_array_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_array_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_array_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectord3_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_array_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_array_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_array_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_array_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectorf3_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_array_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_array_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_array_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_array_snan = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_inf = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_nan = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_ninf = og.AttributeRole.VECTOR role_data.inputs.a_vectorh3_snan = og.AttributeRole.VECTOR role_data.outputs.a_colord3_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colord3_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colord3_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colord3_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colord3_inf = og.AttributeRole.COLOR role_data.outputs.a_colord3_nan = og.AttributeRole.COLOR role_data.outputs.a_colord3_ninf = og.AttributeRole.COLOR role_data.outputs.a_colord3_snan = og.AttributeRole.COLOR role_data.outputs.a_colord4_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colord4_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colord4_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colord4_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colord4_inf = og.AttributeRole.COLOR role_data.outputs.a_colord4_nan = og.AttributeRole.COLOR role_data.outputs.a_colord4_ninf = og.AttributeRole.COLOR role_data.outputs.a_colord4_snan = og.AttributeRole.COLOR role_data.outputs.a_colorf3_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colorf3_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colorf3_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorf3_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colorf3_inf = og.AttributeRole.COLOR role_data.outputs.a_colorf3_nan = og.AttributeRole.COLOR role_data.outputs.a_colorf3_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorf3_snan = og.AttributeRole.COLOR role_data.outputs.a_colorf4_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colorf4_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colorf4_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorf4_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colorf4_inf = og.AttributeRole.COLOR role_data.outputs.a_colorf4_nan = og.AttributeRole.COLOR role_data.outputs.a_colorf4_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorf4_snan = og.AttributeRole.COLOR role_data.outputs.a_colorh3_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colorh3_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colorh3_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorh3_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colorh3_inf = og.AttributeRole.COLOR role_data.outputs.a_colorh3_nan = og.AttributeRole.COLOR role_data.outputs.a_colorh3_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorh3_snan = og.AttributeRole.COLOR role_data.outputs.a_colorh4_array_inf = og.AttributeRole.COLOR role_data.outputs.a_colorh4_array_nan = og.AttributeRole.COLOR role_data.outputs.a_colorh4_array_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorh4_array_snan = og.AttributeRole.COLOR role_data.outputs.a_colorh4_inf = og.AttributeRole.COLOR role_data.outputs.a_colorh4_nan = og.AttributeRole.COLOR role_data.outputs.a_colorh4_ninf = og.AttributeRole.COLOR role_data.outputs.a_colorh4_snan = og.AttributeRole.COLOR role_data.outputs.a_frame4_array_inf = og.AttributeRole.FRAME role_data.outputs.a_frame4_array_nan = og.AttributeRole.FRAME role_data.outputs.a_frame4_array_ninf = og.AttributeRole.FRAME role_data.outputs.a_frame4_array_snan = og.AttributeRole.FRAME role_data.outputs.a_frame4_inf = og.AttributeRole.FRAME role_data.outputs.a_frame4_nan = og.AttributeRole.FRAME role_data.outputs.a_frame4_ninf = og.AttributeRole.FRAME role_data.outputs.a_frame4_snan = og.AttributeRole.FRAME role_data.outputs.a_matrixd2_array_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_array_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_array_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_array_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd2_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_array_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_array_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_array_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_array_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd3_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_array_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_array_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_array_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_array_snan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_inf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_nan = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_ninf = og.AttributeRole.MATRIX role_data.outputs.a_matrixd4_snan = og.AttributeRole.MATRIX role_data.outputs.a_normald3_array_inf = og.AttributeRole.NORMAL role_data.outputs.a_normald3_array_nan = og.AttributeRole.NORMAL role_data.outputs.a_normald3_array_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normald3_array_snan = og.AttributeRole.NORMAL role_data.outputs.a_normald3_inf = og.AttributeRole.NORMAL role_data.outputs.a_normald3_nan = og.AttributeRole.NORMAL role_data.outputs.a_normald3_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normald3_snan = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_array_inf = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_array_nan = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_array_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_array_snan = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_inf = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_nan = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normalf3_snan = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_array_inf = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_array_nan = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_array_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_array_snan = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_inf = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_nan = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_ninf = og.AttributeRole.NORMAL role_data.outputs.a_normalh3_snan = og.AttributeRole.NORMAL role_data.outputs.a_pointd3_array_inf = og.AttributeRole.POSITION role_data.outputs.a_pointd3_array_nan = og.AttributeRole.POSITION role_data.outputs.a_pointd3_array_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointd3_array_snan = og.AttributeRole.POSITION role_data.outputs.a_pointd3_inf = og.AttributeRole.POSITION role_data.outputs.a_pointd3_nan = og.AttributeRole.POSITION role_data.outputs.a_pointd3_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointd3_snan = og.AttributeRole.POSITION role_data.outputs.a_pointf3_array_inf = og.AttributeRole.POSITION role_data.outputs.a_pointf3_array_nan = og.AttributeRole.POSITION role_data.outputs.a_pointf3_array_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointf3_array_snan = og.AttributeRole.POSITION role_data.outputs.a_pointf3_inf = og.AttributeRole.POSITION role_data.outputs.a_pointf3_nan = og.AttributeRole.POSITION role_data.outputs.a_pointf3_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointf3_snan = og.AttributeRole.POSITION role_data.outputs.a_pointh3_array_inf = og.AttributeRole.POSITION role_data.outputs.a_pointh3_array_nan = og.AttributeRole.POSITION role_data.outputs.a_pointh3_array_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointh3_array_snan = og.AttributeRole.POSITION role_data.outputs.a_pointh3_inf = og.AttributeRole.POSITION role_data.outputs.a_pointh3_nan = og.AttributeRole.POSITION role_data.outputs.a_pointh3_ninf = og.AttributeRole.POSITION role_data.outputs.a_pointh3_snan = og.AttributeRole.POSITION role_data.outputs.a_quatd4_array_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_array_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_array_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_array_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quatd4_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_array_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_array_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_array_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_array_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quatf4_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_array_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_array_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_array_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_array_snan = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_inf = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_nan = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_ninf = og.AttributeRole.QUATERNION role_data.outputs.a_quath4_snan = og.AttributeRole.QUATERNION role_data.outputs.a_texcoordd2_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd2_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordd3_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf2_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordf3_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh2_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_array_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_array_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_array_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_array_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_inf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_nan = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_ninf = og.AttributeRole.TEXCOORD role_data.outputs.a_texcoordh3_snan = og.AttributeRole.TEXCOORD role_data.outputs.a_timecode_array_inf = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_array_nan = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_array_ninf = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_array_snan = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_inf = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_nan = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_ninf = og.AttributeRole.TIMECODE role_data.outputs.a_timecode_snan = og.AttributeRole.TIMECODE role_data.outputs.a_vectord3_array_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_array_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_array_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_array_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectord3_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_array_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_array_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_array_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_array_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectorf3_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_array_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_array_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_array_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_array_snan = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_inf = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_nan = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_ninf = og.AttributeRole.VECTOR role_data.outputs.a_vectorh3_snan = og.AttributeRole.VECTOR return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def a_colord3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_inf) return data_view.get() @a_colord3_array_inf.setter def a_colord3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_inf) data_view.set(value) self.a_colord3_array_inf_size = data_view.get_array_size() @property def a_colord3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_nan) return data_view.get() @a_colord3_array_nan.setter def a_colord3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_nan) data_view.set(value) self.a_colord3_array_nan_size = data_view.get_array_size() @property def a_colord3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_ninf) return data_view.get() @a_colord3_array_ninf.setter def a_colord3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_ninf) data_view.set(value) self.a_colord3_array_ninf_size = data_view.get_array_size() @property def a_colord3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_snan) return data_view.get() @a_colord3_array_snan.setter def a_colord3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_snan) data_view.set(value) self.a_colord3_array_snan_size = data_view.get_array_size() @property def a_colord3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_inf) return data_view.get() @a_colord3_inf.setter def a_colord3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_inf) data_view = og.AttributeValueHelper(self._attributes.a_colord3_inf) data_view.set(value) @property def a_colord3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_nan) return data_view.get() @a_colord3_nan.setter def a_colord3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_nan) data_view = og.AttributeValueHelper(self._attributes.a_colord3_nan) data_view.set(value) @property def a_colord3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_ninf) return data_view.get() @a_colord3_ninf.setter def a_colord3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colord3_ninf) data_view.set(value) @property def a_colord3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_snan) return data_view.get() @a_colord3_snan.setter def a_colord3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord3_snan) data_view = og.AttributeValueHelper(self._attributes.a_colord3_snan) data_view.set(value) @property def a_colord4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_inf) return data_view.get() @a_colord4_array_inf.setter def a_colord4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_inf) data_view.set(value) self.a_colord4_array_inf_size = data_view.get_array_size() @property def a_colord4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_nan) return data_view.get() @a_colord4_array_nan.setter def a_colord4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_nan) data_view.set(value) self.a_colord4_array_nan_size = data_view.get_array_size() @property def a_colord4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_ninf) return data_view.get() @a_colord4_array_ninf.setter def a_colord4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_ninf) data_view.set(value) self.a_colord4_array_ninf_size = data_view.get_array_size() @property def a_colord4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_snan) return data_view.get() @a_colord4_array_snan.setter def a_colord4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_snan) data_view.set(value) self.a_colord4_array_snan_size = data_view.get_array_size() @property def a_colord4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_inf) return data_view.get() @a_colord4_inf.setter def a_colord4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_inf) data_view = og.AttributeValueHelper(self._attributes.a_colord4_inf) data_view.set(value) @property def a_colord4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_nan) return data_view.get() @a_colord4_nan.setter def a_colord4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_nan) data_view = og.AttributeValueHelper(self._attributes.a_colord4_nan) data_view.set(value) @property def a_colord4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_ninf) return data_view.get() @a_colord4_ninf.setter def a_colord4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colord4_ninf) data_view.set(value) @property def a_colord4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_snan) return data_view.get() @a_colord4_snan.setter def a_colord4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colord4_snan) data_view = og.AttributeValueHelper(self._attributes.a_colord4_snan) data_view.set(value) @property def a_colorf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_inf) return data_view.get() @a_colorf3_array_inf.setter def a_colorf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_inf) data_view.set(value) self.a_colorf3_array_inf_size = data_view.get_array_size() @property def a_colorf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_nan) return data_view.get() @a_colorf3_array_nan.setter def a_colorf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_nan) data_view.set(value) self.a_colorf3_array_nan_size = data_view.get_array_size() @property def a_colorf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_ninf) return data_view.get() @a_colorf3_array_ninf.setter def a_colorf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_ninf) data_view.set(value) self.a_colorf3_array_ninf_size = data_view.get_array_size() @property def a_colorf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_snan) return data_view.get() @a_colorf3_array_snan.setter def a_colorf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_snan) data_view.set(value) self.a_colorf3_array_snan_size = data_view.get_array_size() @property def a_colorf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_inf) return data_view.get() @a_colorf3_inf.setter def a_colorf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_inf) data_view.set(value) @property def a_colorf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_nan) return data_view.get() @a_colorf3_nan.setter def a_colorf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_nan) data_view.set(value) @property def a_colorf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_ninf) return data_view.get() @a_colorf3_ninf.setter def a_colorf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_ninf) data_view.set(value) @property def a_colorf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_snan) return data_view.get() @a_colorf3_snan.setter def a_colorf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorf3_snan) data_view.set(value) @property def a_colorf4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_inf) return data_view.get() @a_colorf4_array_inf.setter def a_colorf4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_inf) data_view.set(value) self.a_colorf4_array_inf_size = data_view.get_array_size() @property def a_colorf4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_nan) return data_view.get() @a_colorf4_array_nan.setter def a_colorf4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_nan) data_view.set(value) self.a_colorf4_array_nan_size = data_view.get_array_size() @property def a_colorf4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_ninf) return data_view.get() @a_colorf4_array_ninf.setter def a_colorf4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_ninf) data_view.set(value) self.a_colorf4_array_ninf_size = data_view.get_array_size() @property def a_colorf4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_snan) return data_view.get() @a_colorf4_array_snan.setter def a_colorf4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_snan) data_view.set(value) self.a_colorf4_array_snan_size = data_view.get_array_size() @property def a_colorf4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_inf) return data_view.get() @a_colorf4_inf.setter def a_colorf4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_inf) data_view.set(value) @property def a_colorf4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_nan) return data_view.get() @a_colorf4_nan.setter def a_colorf4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_nan) data_view.set(value) @property def a_colorf4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_ninf) return data_view.get() @a_colorf4_ninf.setter def a_colorf4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_ninf) data_view.set(value) @property def a_colorf4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_snan) return data_view.get() @a_colorf4_snan.setter def a_colorf4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorf4_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorf4_snan) data_view.set(value) @property def a_colorh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_inf) return data_view.get() @a_colorh3_array_inf.setter def a_colorh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_inf) data_view.set(value) self.a_colorh3_array_inf_size = data_view.get_array_size() @property def a_colorh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_nan) return data_view.get() @a_colorh3_array_nan.setter def a_colorh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_nan) data_view.set(value) self.a_colorh3_array_nan_size = data_view.get_array_size() @property def a_colorh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_ninf) return data_view.get() @a_colorh3_array_ninf.setter def a_colorh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_ninf) data_view.set(value) self.a_colorh3_array_ninf_size = data_view.get_array_size() @property def a_colorh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_snan) return data_view.get() @a_colorh3_array_snan.setter def a_colorh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_snan) data_view.set(value) self.a_colorh3_array_snan_size = data_view.get_array_size() @property def a_colorh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_inf) return data_view.get() @a_colorh3_inf.setter def a_colorh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_inf) data_view.set(value) @property def a_colorh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_nan) return data_view.get() @a_colorh3_nan.setter def a_colorh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_nan) data_view.set(value) @property def a_colorh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_ninf) return data_view.get() @a_colorh3_ninf.setter def a_colorh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_ninf) data_view.set(value) @property def a_colorh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_snan) return data_view.get() @a_colorh3_snan.setter def a_colorh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorh3_snan) data_view.set(value) @property def a_colorh4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_inf) return data_view.get() @a_colorh4_array_inf.setter def a_colorh4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_inf) data_view.set(value) self.a_colorh4_array_inf_size = data_view.get_array_size() @property def a_colorh4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_nan) return data_view.get() @a_colorh4_array_nan.setter def a_colorh4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_nan) data_view.set(value) self.a_colorh4_array_nan_size = data_view.get_array_size() @property def a_colorh4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_ninf) return data_view.get() @a_colorh4_array_ninf.setter def a_colorh4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_ninf) data_view.set(value) self.a_colorh4_array_ninf_size = data_view.get_array_size() @property def a_colorh4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_snan) return data_view.get() @a_colorh4_array_snan.setter def a_colorh4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_snan) data_view.set(value) self.a_colorh4_array_snan_size = data_view.get_array_size() @property def a_colorh4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_inf) return data_view.get() @a_colorh4_inf.setter def a_colorh4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_inf) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_inf) data_view.set(value) @property def a_colorh4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_nan) return data_view.get() @a_colorh4_nan.setter def a_colorh4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_nan) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_nan) data_view.set(value) @property def a_colorh4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_ninf) return data_view.get() @a_colorh4_ninf.setter def a_colorh4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_ninf) data_view.set(value) @property def a_colorh4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_snan) return data_view.get() @a_colorh4_snan.setter def a_colorh4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_colorh4_snan) data_view = og.AttributeValueHelper(self._attributes.a_colorh4_snan) data_view.set(value) @property def a_double2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_inf) return data_view.get() @a_double2_array_inf.setter def a_double2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_double2_array_inf) data_view.set(value) self.a_double2_array_inf_size = data_view.get_array_size() @property def a_double2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_nan) return data_view.get() @a_double2_array_nan.setter def a_double2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_double2_array_nan) data_view.set(value) self.a_double2_array_nan_size = data_view.get_array_size() @property def a_double2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_ninf) return data_view.get() @a_double2_array_ninf.setter def a_double2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double2_array_ninf) data_view.set(value) self.a_double2_array_ninf_size = data_view.get_array_size() @property def a_double2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_snan) return data_view.get() @a_double2_array_snan.setter def a_double2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_double2_array_snan) data_view.set(value) self.a_double2_array_snan_size = data_view.get_array_size() @property def a_double2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_inf) return data_view.get() @a_double2_inf.setter def a_double2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_inf) data_view = og.AttributeValueHelper(self._attributes.a_double2_inf) data_view.set(value) @property def a_double2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_nan) return data_view.get() @a_double2_nan.setter def a_double2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_nan) data_view = og.AttributeValueHelper(self._attributes.a_double2_nan) data_view.set(value) @property def a_double2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_ninf) return data_view.get() @a_double2_ninf.setter def a_double2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double2_ninf) data_view.set(value) @property def a_double2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_snan) return data_view.get() @a_double2_snan.setter def a_double2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double2_snan) data_view = og.AttributeValueHelper(self._attributes.a_double2_snan) data_view.set(value) @property def a_double3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_inf) return data_view.get() @a_double3_array_inf.setter def a_double3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_double3_array_inf) data_view.set(value) self.a_double3_array_inf_size = data_view.get_array_size() @property def a_double3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_nan) return data_view.get() @a_double3_array_nan.setter def a_double3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_double3_array_nan) data_view.set(value) self.a_double3_array_nan_size = data_view.get_array_size() @property def a_double3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_ninf) return data_view.get() @a_double3_array_ninf.setter def a_double3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double3_array_ninf) data_view.set(value) self.a_double3_array_ninf_size = data_view.get_array_size() @property def a_double3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_snan) return data_view.get() @a_double3_array_snan.setter def a_double3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_double3_array_snan) data_view.set(value) self.a_double3_array_snan_size = data_view.get_array_size() @property def a_double3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_inf) return data_view.get() @a_double3_inf.setter def a_double3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_inf) data_view = og.AttributeValueHelper(self._attributes.a_double3_inf) data_view.set(value) @property def a_double3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_nan) return data_view.get() @a_double3_nan.setter def a_double3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_nan) data_view = og.AttributeValueHelper(self._attributes.a_double3_nan) data_view.set(value) @property def a_double3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_ninf) return data_view.get() @a_double3_ninf.setter def a_double3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double3_ninf) data_view.set(value) @property def a_double3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_snan) return data_view.get() @a_double3_snan.setter def a_double3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double3_snan) data_view = og.AttributeValueHelper(self._attributes.a_double3_snan) data_view.set(value) @property def a_double4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_inf) return data_view.get() @a_double4_array_inf.setter def a_double4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_double4_array_inf) data_view.set(value) self.a_double4_array_inf_size = data_view.get_array_size() @property def a_double4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_nan) return data_view.get() @a_double4_array_nan.setter def a_double4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_double4_array_nan) data_view.set(value) self.a_double4_array_nan_size = data_view.get_array_size() @property def a_double4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_ninf) return data_view.get() @a_double4_array_ninf.setter def a_double4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double4_array_ninf) data_view.set(value) self.a_double4_array_ninf_size = data_view.get_array_size() @property def a_double4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_snan) return data_view.get() @a_double4_array_snan.setter def a_double4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_double4_array_snan) data_view.set(value) self.a_double4_array_snan_size = data_view.get_array_size() @property def a_double4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_inf) return data_view.get() @a_double4_inf.setter def a_double4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_inf) data_view = og.AttributeValueHelper(self._attributes.a_double4_inf) data_view.set(value) @property def a_double4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_nan) return data_view.get() @a_double4_nan.setter def a_double4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_nan) data_view = og.AttributeValueHelper(self._attributes.a_double4_nan) data_view.set(value) @property def a_double4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_ninf) return data_view.get() @a_double4_ninf.setter def a_double4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double4_ninf) data_view.set(value) @property def a_double4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_snan) return data_view.get() @a_double4_snan.setter def a_double4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double4_snan) data_view = og.AttributeValueHelper(self._attributes.a_double4_snan) data_view.set(value) @property def a_double_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_inf) return data_view.get() @a_double_array_inf.setter def a_double_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_double_array_inf) data_view.set(value) self.a_double_array_inf_size = data_view.get_array_size() @property def a_double_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_nan) return data_view.get() @a_double_array_nan.setter def a_double_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_double_array_nan) data_view.set(value) self.a_double_array_nan_size = data_view.get_array_size() @property def a_double_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_ninf) return data_view.get() @a_double_array_ninf.setter def a_double_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double_array_ninf) data_view.set(value) self.a_double_array_ninf_size = data_view.get_array_size() @property def a_double_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_snan) return data_view.get() @a_double_array_snan.setter def a_double_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_double_array_snan) data_view.set(value) self.a_double_array_snan_size = data_view.get_array_size() @property def a_double_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_inf) return data_view.get() @a_double_inf.setter def a_double_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_inf) data_view = og.AttributeValueHelper(self._attributes.a_double_inf) data_view.set(value) @property def a_double_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_nan) return data_view.get() @a_double_nan.setter def a_double_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_nan) data_view = og.AttributeValueHelper(self._attributes.a_double_nan) data_view.set(value) @property def a_double_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_ninf) return data_view.get() @a_double_ninf.setter def a_double_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_ninf) data_view = og.AttributeValueHelper(self._attributes.a_double_ninf) data_view.set(value) @property def a_double_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_snan) return data_view.get() @a_double_snan.setter def a_double_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_double_snan) data_view = og.AttributeValueHelper(self._attributes.a_double_snan) data_view.set(value) @property def a_float2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_inf) return data_view.get() @a_float2_array_inf.setter def a_float2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_float2_array_inf) data_view.set(value) self.a_float2_array_inf_size = data_view.get_array_size() @property def a_float2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_nan) return data_view.get() @a_float2_array_nan.setter def a_float2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_float2_array_nan) data_view.set(value) self.a_float2_array_nan_size = data_view.get_array_size() @property def a_float2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_ninf) return data_view.get() @a_float2_array_ninf.setter def a_float2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float2_array_ninf) data_view.set(value) self.a_float2_array_ninf_size = data_view.get_array_size() @property def a_float2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_snan) return data_view.get() @a_float2_array_snan.setter def a_float2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_float2_array_snan) data_view.set(value) self.a_float2_array_snan_size = data_view.get_array_size() @property def a_float2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_inf) return data_view.get() @a_float2_inf.setter def a_float2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_inf) data_view = og.AttributeValueHelper(self._attributes.a_float2_inf) data_view.set(value) @property def a_float2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_nan) return data_view.get() @a_float2_nan.setter def a_float2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_nan) data_view = og.AttributeValueHelper(self._attributes.a_float2_nan) data_view.set(value) @property def a_float2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_ninf) return data_view.get() @a_float2_ninf.setter def a_float2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float2_ninf) data_view.set(value) @property def a_float2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_snan) return data_view.get() @a_float2_snan.setter def a_float2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float2_snan) data_view = og.AttributeValueHelper(self._attributes.a_float2_snan) data_view.set(value) @property def a_float3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_inf) return data_view.get() @a_float3_array_inf.setter def a_float3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_float3_array_inf) data_view.set(value) self.a_float3_array_inf_size = data_view.get_array_size() @property def a_float3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_nan) return data_view.get() @a_float3_array_nan.setter def a_float3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_float3_array_nan) data_view.set(value) self.a_float3_array_nan_size = data_view.get_array_size() @property def a_float3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_ninf) return data_view.get() @a_float3_array_ninf.setter def a_float3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float3_array_ninf) data_view.set(value) self.a_float3_array_ninf_size = data_view.get_array_size() @property def a_float3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_snan) return data_view.get() @a_float3_array_snan.setter def a_float3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_float3_array_snan) data_view.set(value) self.a_float3_array_snan_size = data_view.get_array_size() @property def a_float3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_inf) return data_view.get() @a_float3_inf.setter def a_float3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_inf) data_view = og.AttributeValueHelper(self._attributes.a_float3_inf) data_view.set(value) @property def a_float3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_nan) return data_view.get() @a_float3_nan.setter def a_float3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_nan) data_view = og.AttributeValueHelper(self._attributes.a_float3_nan) data_view.set(value) @property def a_float3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_ninf) return data_view.get() @a_float3_ninf.setter def a_float3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float3_ninf) data_view.set(value) @property def a_float3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_snan) return data_view.get() @a_float3_snan.setter def a_float3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float3_snan) data_view = og.AttributeValueHelper(self._attributes.a_float3_snan) data_view.set(value) @property def a_float4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_inf) return data_view.get() @a_float4_array_inf.setter def a_float4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_float4_array_inf) data_view.set(value) self.a_float4_array_inf_size = data_view.get_array_size() @property def a_float4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_nan) return data_view.get() @a_float4_array_nan.setter def a_float4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_float4_array_nan) data_view.set(value) self.a_float4_array_nan_size = data_view.get_array_size() @property def a_float4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_ninf) return data_view.get() @a_float4_array_ninf.setter def a_float4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float4_array_ninf) data_view.set(value) self.a_float4_array_ninf_size = data_view.get_array_size() @property def a_float4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_snan) return data_view.get() @a_float4_array_snan.setter def a_float4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_float4_array_snan) data_view.set(value) self.a_float4_array_snan_size = data_view.get_array_size() @property def a_float4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_inf) return data_view.get() @a_float4_inf.setter def a_float4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_inf) data_view = og.AttributeValueHelper(self._attributes.a_float4_inf) data_view.set(value) @property def a_float4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_nan) return data_view.get() @a_float4_nan.setter def a_float4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_nan) data_view = og.AttributeValueHelper(self._attributes.a_float4_nan) data_view.set(value) @property def a_float4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_ninf) return data_view.get() @a_float4_ninf.setter def a_float4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float4_ninf) data_view.set(value) @property def a_float4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_snan) return data_view.get() @a_float4_snan.setter def a_float4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float4_snan) data_view = og.AttributeValueHelper(self._attributes.a_float4_snan) data_view.set(value) @property def a_float_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_inf) return data_view.get() @a_float_array_inf.setter def a_float_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_float_array_inf) data_view.set(value) self.a_float_array_inf_size = data_view.get_array_size() @property def a_float_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_nan) return data_view.get() @a_float_array_nan.setter def a_float_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_float_array_nan) data_view.set(value) self.a_float_array_nan_size = data_view.get_array_size() @property def a_float_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_ninf) return data_view.get() @a_float_array_ninf.setter def a_float_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float_array_ninf) data_view.set(value) self.a_float_array_ninf_size = data_view.get_array_size() @property def a_float_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_snan) return data_view.get() @a_float_array_snan.setter def a_float_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_float_array_snan) data_view.set(value) self.a_float_array_snan_size = data_view.get_array_size() @property def a_float_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_inf) return data_view.get() @a_float_inf.setter def a_float_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_inf) data_view = og.AttributeValueHelper(self._attributes.a_float_inf) data_view.set(value) @property def a_float_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_nan) return data_view.get() @a_float_nan.setter def a_float_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_nan) data_view = og.AttributeValueHelper(self._attributes.a_float_nan) data_view.set(value) @property def a_float_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_ninf) return data_view.get() @a_float_ninf.setter def a_float_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_ninf) data_view = og.AttributeValueHelper(self._attributes.a_float_ninf) data_view.set(value) @property def a_float_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_snan) return data_view.get() @a_float_snan.setter def a_float_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_float_snan) data_view = og.AttributeValueHelper(self._attributes.a_float_snan) data_view.set(value) @property def a_frame4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_inf) return data_view.get() @a_frame4_array_inf.setter def a_frame4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_inf) data_view.set(value) self.a_frame4_array_inf_size = data_view.get_array_size() @property def a_frame4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_nan) return data_view.get() @a_frame4_array_nan.setter def a_frame4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_nan) data_view.set(value) self.a_frame4_array_nan_size = data_view.get_array_size() @property def a_frame4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_ninf) return data_view.get() @a_frame4_array_ninf.setter def a_frame4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_ninf) data_view.set(value) self.a_frame4_array_ninf_size = data_view.get_array_size() @property def a_frame4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_snan) return data_view.get() @a_frame4_array_snan.setter def a_frame4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_snan) data_view.set(value) self.a_frame4_array_snan_size = data_view.get_array_size() @property def a_frame4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_inf) return data_view.get() @a_frame4_inf.setter def a_frame4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_inf) data_view = og.AttributeValueHelper(self._attributes.a_frame4_inf) data_view.set(value) @property def a_frame4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_nan) return data_view.get() @a_frame4_nan.setter def a_frame4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_nan) data_view = og.AttributeValueHelper(self._attributes.a_frame4_nan) data_view.set(value) @property def a_frame4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_ninf) return data_view.get() @a_frame4_ninf.setter def a_frame4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_frame4_ninf) data_view.set(value) @property def a_frame4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_snan) return data_view.get() @a_frame4_snan.setter def a_frame4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_frame4_snan) data_view = og.AttributeValueHelper(self._attributes.a_frame4_snan) data_view.set(value) @property def a_half2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_inf) return data_view.get() @a_half2_array_inf.setter def a_half2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_half2_array_inf) data_view.set(value) self.a_half2_array_inf_size = data_view.get_array_size() @property def a_half2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_nan) return data_view.get() @a_half2_array_nan.setter def a_half2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_half2_array_nan) data_view.set(value) self.a_half2_array_nan_size = data_view.get_array_size() @property def a_half2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_ninf) return data_view.get() @a_half2_array_ninf.setter def a_half2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half2_array_ninf) data_view.set(value) self.a_half2_array_ninf_size = data_view.get_array_size() @property def a_half2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_snan) return data_view.get() @a_half2_array_snan.setter def a_half2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_half2_array_snan) data_view.set(value) self.a_half2_array_snan_size = data_view.get_array_size() @property def a_half2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_inf) return data_view.get() @a_half2_inf.setter def a_half2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_inf) data_view = og.AttributeValueHelper(self._attributes.a_half2_inf) data_view.set(value) @property def a_half2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_nan) return data_view.get() @a_half2_nan.setter def a_half2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_nan) data_view = og.AttributeValueHelper(self._attributes.a_half2_nan) data_view.set(value) @property def a_half2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_ninf) return data_view.get() @a_half2_ninf.setter def a_half2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half2_ninf) data_view.set(value) @property def a_half2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_snan) return data_view.get() @a_half2_snan.setter def a_half2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half2_snan) data_view = og.AttributeValueHelper(self._attributes.a_half2_snan) data_view.set(value) @property def a_half3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_inf) return data_view.get() @a_half3_array_inf.setter def a_half3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_half3_array_inf) data_view.set(value) self.a_half3_array_inf_size = data_view.get_array_size() @property def a_half3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_nan) return data_view.get() @a_half3_array_nan.setter def a_half3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_half3_array_nan) data_view.set(value) self.a_half3_array_nan_size = data_view.get_array_size() @property def a_half3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_ninf) return data_view.get() @a_half3_array_ninf.setter def a_half3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half3_array_ninf) data_view.set(value) self.a_half3_array_ninf_size = data_view.get_array_size() @property def a_half3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_snan) return data_view.get() @a_half3_array_snan.setter def a_half3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_half3_array_snan) data_view.set(value) self.a_half3_array_snan_size = data_view.get_array_size() @property def a_half3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_inf) return data_view.get() @a_half3_inf.setter def a_half3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_inf) data_view = og.AttributeValueHelper(self._attributes.a_half3_inf) data_view.set(value) @property def a_half3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_nan) return data_view.get() @a_half3_nan.setter def a_half3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_nan) data_view = og.AttributeValueHelper(self._attributes.a_half3_nan) data_view.set(value) @property def a_half3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_ninf) return data_view.get() @a_half3_ninf.setter def a_half3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half3_ninf) data_view.set(value) @property def a_half3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_snan) return data_view.get() @a_half3_snan.setter def a_half3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half3_snan) data_view = og.AttributeValueHelper(self._attributes.a_half3_snan) data_view.set(value) @property def a_half4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_inf) return data_view.get() @a_half4_array_inf.setter def a_half4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_half4_array_inf) data_view.set(value) self.a_half4_array_inf_size = data_view.get_array_size() @property def a_half4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_nan) return data_view.get() @a_half4_array_nan.setter def a_half4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_half4_array_nan) data_view.set(value) self.a_half4_array_nan_size = data_view.get_array_size() @property def a_half4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_ninf) return data_view.get() @a_half4_array_ninf.setter def a_half4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half4_array_ninf) data_view.set(value) self.a_half4_array_ninf_size = data_view.get_array_size() @property def a_half4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_snan) return data_view.get() @a_half4_array_snan.setter def a_half4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_half4_array_snan) data_view.set(value) self.a_half4_array_snan_size = data_view.get_array_size() @property def a_half4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_inf) return data_view.get() @a_half4_inf.setter def a_half4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_inf) data_view = og.AttributeValueHelper(self._attributes.a_half4_inf) data_view.set(value) @property def a_half4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_nan) return data_view.get() @a_half4_nan.setter def a_half4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_nan) data_view = og.AttributeValueHelper(self._attributes.a_half4_nan) data_view.set(value) @property def a_half4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_ninf) return data_view.get() @a_half4_ninf.setter def a_half4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half4_ninf) data_view.set(value) @property def a_half4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_snan) return data_view.get() @a_half4_snan.setter def a_half4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half4_snan) data_view = og.AttributeValueHelper(self._attributes.a_half4_snan) data_view.set(value) @property def a_half_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_inf) return data_view.get() @a_half_array_inf.setter def a_half_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_half_array_inf) data_view.set(value) self.a_half_array_inf_size = data_view.get_array_size() @property def a_half_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_nan) return data_view.get() @a_half_array_nan.setter def a_half_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_half_array_nan) data_view.set(value) self.a_half_array_nan_size = data_view.get_array_size() @property def a_half_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_ninf) return data_view.get() @a_half_array_ninf.setter def a_half_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half_array_ninf) data_view.set(value) self.a_half_array_ninf_size = data_view.get_array_size() @property def a_half_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_snan) return data_view.get() @a_half_array_snan.setter def a_half_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_half_array_snan) data_view.set(value) self.a_half_array_snan_size = data_view.get_array_size() @property def a_half_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_inf) return data_view.get() @a_half_inf.setter def a_half_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_inf) data_view = og.AttributeValueHelper(self._attributes.a_half_inf) data_view.set(value) @property def a_half_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_nan) return data_view.get() @a_half_nan.setter def a_half_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_nan) data_view = og.AttributeValueHelper(self._attributes.a_half_nan) data_view.set(value) @property def a_half_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_ninf) return data_view.get() @a_half_ninf.setter def a_half_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_ninf) data_view = og.AttributeValueHelper(self._attributes.a_half_ninf) data_view.set(value) @property def a_half_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_snan) return data_view.get() @a_half_snan.setter def a_half_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_half_snan) data_view = og.AttributeValueHelper(self._attributes.a_half_snan) data_view.set(value) @property def a_matrixd2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_inf) return data_view.get() @a_matrixd2_array_inf.setter def a_matrixd2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_inf) data_view.set(value) self.a_matrixd2_array_inf_size = data_view.get_array_size() @property def a_matrixd2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_nan) return data_view.get() @a_matrixd2_array_nan.setter def a_matrixd2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_nan) data_view.set(value) self.a_matrixd2_array_nan_size = data_view.get_array_size() @property def a_matrixd2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_ninf) return data_view.get() @a_matrixd2_array_ninf.setter def a_matrixd2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_ninf) data_view.set(value) self.a_matrixd2_array_ninf_size = data_view.get_array_size() @property def a_matrixd2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_snan) return data_view.get() @a_matrixd2_array_snan.setter def a_matrixd2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_snan) data_view.set(value) self.a_matrixd2_array_snan_size = data_view.get_array_size() @property def a_matrixd2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_inf) return data_view.get() @a_matrixd2_inf.setter def a_matrixd2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_inf) data_view.set(value) @property def a_matrixd2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_nan) return data_view.get() @a_matrixd2_nan.setter def a_matrixd2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_nan) data_view.set(value) @property def a_matrixd2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_ninf) return data_view.get() @a_matrixd2_ninf.setter def a_matrixd2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_ninf) data_view.set(value) @property def a_matrixd2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_snan) return data_view.get() @a_matrixd2_snan.setter def a_matrixd2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd2_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_snan) data_view.set(value) @property def a_matrixd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_inf) return data_view.get() @a_matrixd3_array_inf.setter def a_matrixd3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_inf) data_view.set(value) self.a_matrixd3_array_inf_size = data_view.get_array_size() @property def a_matrixd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_nan) return data_view.get() @a_matrixd3_array_nan.setter def a_matrixd3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_nan) data_view.set(value) self.a_matrixd3_array_nan_size = data_view.get_array_size() @property def a_matrixd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_ninf) return data_view.get() @a_matrixd3_array_ninf.setter def a_matrixd3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_ninf) data_view.set(value) self.a_matrixd3_array_ninf_size = data_view.get_array_size() @property def a_matrixd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_snan) return data_view.get() @a_matrixd3_array_snan.setter def a_matrixd3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_snan) data_view.set(value) self.a_matrixd3_array_snan_size = data_view.get_array_size() @property def a_matrixd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_inf) return data_view.get() @a_matrixd3_inf.setter def a_matrixd3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_inf) data_view.set(value) @property def a_matrixd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_nan) return data_view.get() @a_matrixd3_nan.setter def a_matrixd3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_nan) data_view.set(value) @property def a_matrixd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_ninf) return data_view.get() @a_matrixd3_ninf.setter def a_matrixd3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_ninf) data_view.set(value) @property def a_matrixd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_snan) return data_view.get() @a_matrixd3_snan.setter def a_matrixd3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd3_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_snan) data_view.set(value) @property def a_matrixd4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_inf) return data_view.get() @a_matrixd4_array_inf.setter def a_matrixd4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_inf) data_view.set(value) self.a_matrixd4_array_inf_size = data_view.get_array_size() @property def a_matrixd4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_nan) return data_view.get() @a_matrixd4_array_nan.setter def a_matrixd4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_nan) data_view.set(value) self.a_matrixd4_array_nan_size = data_view.get_array_size() @property def a_matrixd4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_ninf) return data_view.get() @a_matrixd4_array_ninf.setter def a_matrixd4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_ninf) data_view.set(value) self.a_matrixd4_array_ninf_size = data_view.get_array_size() @property def a_matrixd4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_snan) return data_view.get() @a_matrixd4_array_snan.setter def a_matrixd4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_snan) data_view.set(value) self.a_matrixd4_array_snan_size = data_view.get_array_size() @property def a_matrixd4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_inf) return data_view.get() @a_matrixd4_inf.setter def a_matrixd4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_inf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_inf) data_view.set(value) @property def a_matrixd4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_nan) return data_view.get() @a_matrixd4_nan.setter def a_matrixd4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_nan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_nan) data_view.set(value) @property def a_matrixd4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_ninf) return data_view.get() @a_matrixd4_ninf.setter def a_matrixd4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_ninf) data_view.set(value) @property def a_matrixd4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_snan) return data_view.get() @a_matrixd4_snan.setter def a_matrixd4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_matrixd4_snan) data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_snan) data_view.set(value) @property def a_normald3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_inf) return data_view.get() @a_normald3_array_inf.setter def a_normald3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_inf) data_view.set(value) self.a_normald3_array_inf_size = data_view.get_array_size() @property def a_normald3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_nan) return data_view.get() @a_normald3_array_nan.setter def a_normald3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_nan) data_view.set(value) self.a_normald3_array_nan_size = data_view.get_array_size() @property def a_normald3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_ninf) return data_view.get() @a_normald3_array_ninf.setter def a_normald3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_ninf) data_view.set(value) self.a_normald3_array_ninf_size = data_view.get_array_size() @property def a_normald3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_snan) return data_view.get() @a_normald3_array_snan.setter def a_normald3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_snan) data_view.set(value) self.a_normald3_array_snan_size = data_view.get_array_size() @property def a_normald3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_inf) return data_view.get() @a_normald3_inf.setter def a_normald3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_inf) data_view = og.AttributeValueHelper(self._attributes.a_normald3_inf) data_view.set(value) @property def a_normald3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_nan) return data_view.get() @a_normald3_nan.setter def a_normald3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_nan) data_view = og.AttributeValueHelper(self._attributes.a_normald3_nan) data_view.set(value) @property def a_normald3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_ninf) return data_view.get() @a_normald3_ninf.setter def a_normald3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normald3_ninf) data_view.set(value) @property def a_normald3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_snan) return data_view.get() @a_normald3_snan.setter def a_normald3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normald3_snan) data_view = og.AttributeValueHelper(self._attributes.a_normald3_snan) data_view.set(value) @property def a_normalf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_inf) return data_view.get() @a_normalf3_array_inf.setter def a_normalf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_inf) data_view.set(value) self.a_normalf3_array_inf_size = data_view.get_array_size() @property def a_normalf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_nan) return data_view.get() @a_normalf3_array_nan.setter def a_normalf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_nan) data_view.set(value) self.a_normalf3_array_nan_size = data_view.get_array_size() @property def a_normalf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_ninf) return data_view.get() @a_normalf3_array_ninf.setter def a_normalf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_ninf) data_view.set(value) self.a_normalf3_array_ninf_size = data_view.get_array_size() @property def a_normalf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_snan) return data_view.get() @a_normalf3_array_snan.setter def a_normalf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_snan) data_view.set(value) self.a_normalf3_array_snan_size = data_view.get_array_size() @property def a_normalf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_inf) return data_view.get() @a_normalf3_inf.setter def a_normalf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_inf) data_view.set(value) @property def a_normalf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_nan) return data_view.get() @a_normalf3_nan.setter def a_normalf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_nan) data_view.set(value) @property def a_normalf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_ninf) return data_view.get() @a_normalf3_ninf.setter def a_normalf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_ninf) data_view.set(value) @property def a_normalf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_snan) return data_view.get() @a_normalf3_snan.setter def a_normalf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_normalf3_snan) data_view.set(value) @property def a_normalh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_inf) return data_view.get() @a_normalh3_array_inf.setter def a_normalh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_inf) data_view.set(value) self.a_normalh3_array_inf_size = data_view.get_array_size() @property def a_normalh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_nan) return data_view.get() @a_normalh3_array_nan.setter def a_normalh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_nan) data_view.set(value) self.a_normalh3_array_nan_size = data_view.get_array_size() @property def a_normalh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_ninf) return data_view.get() @a_normalh3_array_ninf.setter def a_normalh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_ninf) data_view.set(value) self.a_normalh3_array_ninf_size = data_view.get_array_size() @property def a_normalh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_snan) return data_view.get() @a_normalh3_array_snan.setter def a_normalh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_snan) data_view.set(value) self.a_normalh3_array_snan_size = data_view.get_array_size() @property def a_normalh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_inf) return data_view.get() @a_normalh3_inf.setter def a_normalh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_inf) data_view.set(value) @property def a_normalh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_nan) return data_view.get() @a_normalh3_nan.setter def a_normalh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_nan) data_view.set(value) @property def a_normalh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_ninf) return data_view.get() @a_normalh3_ninf.setter def a_normalh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_ninf) data_view.set(value) @property def a_normalh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_snan) return data_view.get() @a_normalh3_snan.setter def a_normalh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_normalh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_normalh3_snan) data_view.set(value) @property def a_pointd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_inf) return data_view.get() @a_pointd3_array_inf.setter def a_pointd3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_inf) data_view.set(value) self.a_pointd3_array_inf_size = data_view.get_array_size() @property def a_pointd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_nan) return data_view.get() @a_pointd3_array_nan.setter def a_pointd3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_nan) data_view.set(value) self.a_pointd3_array_nan_size = data_view.get_array_size() @property def a_pointd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_ninf) return data_view.get() @a_pointd3_array_ninf.setter def a_pointd3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_ninf) data_view.set(value) self.a_pointd3_array_ninf_size = data_view.get_array_size() @property def a_pointd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_snan) return data_view.get() @a_pointd3_array_snan.setter def a_pointd3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_snan) data_view.set(value) self.a_pointd3_array_snan_size = data_view.get_array_size() @property def a_pointd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_inf) return data_view.get() @a_pointd3_inf.setter def a_pointd3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_inf) data_view.set(value) @property def a_pointd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_nan) return data_view.get() @a_pointd3_nan.setter def a_pointd3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_nan) data_view.set(value) @property def a_pointd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_ninf) return data_view.get() @a_pointd3_ninf.setter def a_pointd3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_ninf) data_view.set(value) @property def a_pointd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_snan) return data_view.get() @a_pointd3_snan.setter def a_pointd3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointd3_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointd3_snan) data_view.set(value) @property def a_pointf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_inf) return data_view.get() @a_pointf3_array_inf.setter def a_pointf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_inf) data_view.set(value) self.a_pointf3_array_inf_size = data_view.get_array_size() @property def a_pointf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_nan) return data_view.get() @a_pointf3_array_nan.setter def a_pointf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_nan) data_view.set(value) self.a_pointf3_array_nan_size = data_view.get_array_size() @property def a_pointf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_ninf) return data_view.get() @a_pointf3_array_ninf.setter def a_pointf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_ninf) data_view.set(value) self.a_pointf3_array_ninf_size = data_view.get_array_size() @property def a_pointf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_snan) return data_view.get() @a_pointf3_array_snan.setter def a_pointf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_snan) data_view.set(value) self.a_pointf3_array_snan_size = data_view.get_array_size() @property def a_pointf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_inf) return data_view.get() @a_pointf3_inf.setter def a_pointf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_inf) data_view.set(value) @property def a_pointf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_nan) return data_view.get() @a_pointf3_nan.setter def a_pointf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_nan) data_view.set(value) @property def a_pointf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_ninf) return data_view.get() @a_pointf3_ninf.setter def a_pointf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_ninf) data_view.set(value) @property def a_pointf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_snan) return data_view.get() @a_pointf3_snan.setter def a_pointf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointf3_snan) data_view.set(value) @property def a_pointh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_inf) return data_view.get() @a_pointh3_array_inf.setter def a_pointh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_inf) data_view.set(value) self.a_pointh3_array_inf_size = data_view.get_array_size() @property def a_pointh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_nan) return data_view.get() @a_pointh3_array_nan.setter def a_pointh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_nan) data_view.set(value) self.a_pointh3_array_nan_size = data_view.get_array_size() @property def a_pointh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_ninf) return data_view.get() @a_pointh3_array_ninf.setter def a_pointh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_ninf) data_view.set(value) self.a_pointh3_array_ninf_size = data_view.get_array_size() @property def a_pointh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_snan) return data_view.get() @a_pointh3_array_snan.setter def a_pointh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_snan) data_view.set(value) self.a_pointh3_array_snan_size = data_view.get_array_size() @property def a_pointh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_inf) return data_view.get() @a_pointh3_inf.setter def a_pointh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_inf) data_view.set(value) @property def a_pointh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_nan) return data_view.get() @a_pointh3_nan.setter def a_pointh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_nan) data_view.set(value) @property def a_pointh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_ninf) return data_view.get() @a_pointh3_ninf.setter def a_pointh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_ninf) data_view.set(value) @property def a_pointh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_snan) return data_view.get() @a_pointh3_snan.setter def a_pointh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_pointh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_pointh3_snan) data_view.set(value) @property def a_quatd4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_inf) return data_view.get() @a_quatd4_array_inf.setter def a_quatd4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_inf) data_view.set(value) self.a_quatd4_array_inf_size = data_view.get_array_size() @property def a_quatd4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_nan) return data_view.get() @a_quatd4_array_nan.setter def a_quatd4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_nan) data_view.set(value) self.a_quatd4_array_nan_size = data_view.get_array_size() @property def a_quatd4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_ninf) return data_view.get() @a_quatd4_array_ninf.setter def a_quatd4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_ninf) data_view.set(value) self.a_quatd4_array_ninf_size = data_view.get_array_size() @property def a_quatd4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_snan) return data_view.get() @a_quatd4_array_snan.setter def a_quatd4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_snan) data_view.set(value) self.a_quatd4_array_snan_size = data_view.get_array_size() @property def a_quatd4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_inf) return data_view.get() @a_quatd4_inf.setter def a_quatd4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_inf) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_inf) data_view.set(value) @property def a_quatd4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_nan) return data_view.get() @a_quatd4_nan.setter def a_quatd4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_nan) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_nan) data_view.set(value) @property def a_quatd4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_ninf) return data_view.get() @a_quatd4_ninf.setter def a_quatd4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_ninf) data_view.set(value) @property def a_quatd4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_snan) return data_view.get() @a_quatd4_snan.setter def a_quatd4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatd4_snan) data_view = og.AttributeValueHelper(self._attributes.a_quatd4_snan) data_view.set(value) @property def a_quatf4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_inf) return data_view.get() @a_quatf4_array_inf.setter def a_quatf4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_inf) data_view.set(value) self.a_quatf4_array_inf_size = data_view.get_array_size() @property def a_quatf4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_nan) return data_view.get() @a_quatf4_array_nan.setter def a_quatf4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_nan) data_view.set(value) self.a_quatf4_array_nan_size = data_view.get_array_size() @property def a_quatf4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_ninf) return data_view.get() @a_quatf4_array_ninf.setter def a_quatf4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_ninf) data_view.set(value) self.a_quatf4_array_ninf_size = data_view.get_array_size() @property def a_quatf4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_snan) return data_view.get() @a_quatf4_array_snan.setter def a_quatf4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_snan) data_view.set(value) self.a_quatf4_array_snan_size = data_view.get_array_size() @property def a_quatf4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_inf) return data_view.get() @a_quatf4_inf.setter def a_quatf4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_inf) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_inf) data_view.set(value) @property def a_quatf4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_nan) return data_view.get() @a_quatf4_nan.setter def a_quatf4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_nan) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_nan) data_view.set(value) @property def a_quatf4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_ninf) return data_view.get() @a_quatf4_ninf.setter def a_quatf4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_ninf) data_view.set(value) @property def a_quatf4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_snan) return data_view.get() @a_quatf4_snan.setter def a_quatf4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quatf4_snan) data_view = og.AttributeValueHelper(self._attributes.a_quatf4_snan) data_view.set(value) @property def a_quath4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_inf) return data_view.get() @a_quath4_array_inf.setter def a_quath4_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_inf) data_view.set(value) self.a_quath4_array_inf_size = data_view.get_array_size() @property def a_quath4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_nan) return data_view.get() @a_quath4_array_nan.setter def a_quath4_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_nan) data_view.set(value) self.a_quath4_array_nan_size = data_view.get_array_size() @property def a_quath4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_ninf) return data_view.get() @a_quath4_array_ninf.setter def a_quath4_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_ninf) data_view.set(value) self.a_quath4_array_ninf_size = data_view.get_array_size() @property def a_quath4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_snan) return data_view.get() @a_quath4_array_snan.setter def a_quath4_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_snan) data_view.set(value) self.a_quath4_array_snan_size = data_view.get_array_size() @property def a_quath4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_inf) return data_view.get() @a_quath4_inf.setter def a_quath4_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_inf) data_view = og.AttributeValueHelper(self._attributes.a_quath4_inf) data_view.set(value) @property def a_quath4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_nan) return data_view.get() @a_quath4_nan.setter def a_quath4_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_nan) data_view = og.AttributeValueHelper(self._attributes.a_quath4_nan) data_view.set(value) @property def a_quath4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_ninf) return data_view.get() @a_quath4_ninf.setter def a_quath4_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_ninf) data_view = og.AttributeValueHelper(self._attributes.a_quath4_ninf) data_view.set(value) @property def a_quath4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_snan) return data_view.get() @a_quath4_snan.setter def a_quath4_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_quath4_snan) data_view = og.AttributeValueHelper(self._attributes.a_quath4_snan) data_view.set(value) @property def a_texcoordd2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_inf) return data_view.get() @a_texcoordd2_array_inf.setter def a_texcoordd2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_inf) data_view.set(value) self.a_texcoordd2_array_inf_size = data_view.get_array_size() @property def a_texcoordd2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_nan) return data_view.get() @a_texcoordd2_array_nan.setter def a_texcoordd2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_nan) data_view.set(value) self.a_texcoordd2_array_nan_size = data_view.get_array_size() @property def a_texcoordd2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_ninf) return data_view.get() @a_texcoordd2_array_ninf.setter def a_texcoordd2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_ninf) data_view.set(value) self.a_texcoordd2_array_ninf_size = data_view.get_array_size() @property def a_texcoordd2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_snan) return data_view.get() @a_texcoordd2_array_snan.setter def a_texcoordd2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_snan) data_view.set(value) self.a_texcoordd2_array_snan_size = data_view.get_array_size() @property def a_texcoordd2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_inf) return data_view.get() @a_texcoordd2_inf.setter def a_texcoordd2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_inf) data_view.set(value) @property def a_texcoordd2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_nan) return data_view.get() @a_texcoordd2_nan.setter def a_texcoordd2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_nan) data_view.set(value) @property def a_texcoordd2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_ninf) return data_view.get() @a_texcoordd2_ninf.setter def a_texcoordd2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_ninf) data_view.set(value) @property def a_texcoordd2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_snan) return data_view.get() @a_texcoordd2_snan.setter def a_texcoordd2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd2_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_snan) data_view.set(value) @property def a_texcoordd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_inf) return data_view.get() @a_texcoordd3_array_inf.setter def a_texcoordd3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_inf) data_view.set(value) self.a_texcoordd3_array_inf_size = data_view.get_array_size() @property def a_texcoordd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_nan) return data_view.get() @a_texcoordd3_array_nan.setter def a_texcoordd3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_nan) data_view.set(value) self.a_texcoordd3_array_nan_size = data_view.get_array_size() @property def a_texcoordd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_ninf) return data_view.get() @a_texcoordd3_array_ninf.setter def a_texcoordd3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_ninf) data_view.set(value) self.a_texcoordd3_array_ninf_size = data_view.get_array_size() @property def a_texcoordd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_snan) return data_view.get() @a_texcoordd3_array_snan.setter def a_texcoordd3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_snan) data_view.set(value) self.a_texcoordd3_array_snan_size = data_view.get_array_size() @property def a_texcoordd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_inf) return data_view.get() @a_texcoordd3_inf.setter def a_texcoordd3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_inf) data_view.set(value) @property def a_texcoordd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_nan) return data_view.get() @a_texcoordd3_nan.setter def a_texcoordd3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_nan) data_view.set(value) @property def a_texcoordd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_ninf) return data_view.get() @a_texcoordd3_ninf.setter def a_texcoordd3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_ninf) data_view.set(value) @property def a_texcoordd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_snan) return data_view.get() @a_texcoordd3_snan.setter def a_texcoordd3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordd3_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_snan) data_view.set(value) @property def a_texcoordf2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_inf) return data_view.get() @a_texcoordf2_array_inf.setter def a_texcoordf2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_inf) data_view.set(value) self.a_texcoordf2_array_inf_size = data_view.get_array_size() @property def a_texcoordf2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_nan) return data_view.get() @a_texcoordf2_array_nan.setter def a_texcoordf2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_nan) data_view.set(value) self.a_texcoordf2_array_nan_size = data_view.get_array_size() @property def a_texcoordf2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_ninf) return data_view.get() @a_texcoordf2_array_ninf.setter def a_texcoordf2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_ninf) data_view.set(value) self.a_texcoordf2_array_ninf_size = data_view.get_array_size() @property def a_texcoordf2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_snan) return data_view.get() @a_texcoordf2_array_snan.setter def a_texcoordf2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_snan) data_view.set(value) self.a_texcoordf2_array_snan_size = data_view.get_array_size() @property def a_texcoordf2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_inf) return data_view.get() @a_texcoordf2_inf.setter def a_texcoordf2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_inf) data_view.set(value) @property def a_texcoordf2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_nan) return data_view.get() @a_texcoordf2_nan.setter def a_texcoordf2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_nan) data_view.set(value) @property def a_texcoordf2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_ninf) return data_view.get() @a_texcoordf2_ninf.setter def a_texcoordf2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_ninf) data_view.set(value) @property def a_texcoordf2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_snan) return data_view.get() @a_texcoordf2_snan.setter def a_texcoordf2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf2_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_snan) data_view.set(value) @property def a_texcoordf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_inf) return data_view.get() @a_texcoordf3_array_inf.setter def a_texcoordf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_inf) data_view.set(value) self.a_texcoordf3_array_inf_size = data_view.get_array_size() @property def a_texcoordf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_nan) return data_view.get() @a_texcoordf3_array_nan.setter def a_texcoordf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_nan) data_view.set(value) self.a_texcoordf3_array_nan_size = data_view.get_array_size() @property def a_texcoordf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_ninf) return data_view.get() @a_texcoordf3_array_ninf.setter def a_texcoordf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_ninf) data_view.set(value) self.a_texcoordf3_array_ninf_size = data_view.get_array_size() @property def a_texcoordf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_snan) return data_view.get() @a_texcoordf3_array_snan.setter def a_texcoordf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_snan) data_view.set(value) self.a_texcoordf3_array_snan_size = data_view.get_array_size() @property def a_texcoordf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_inf) return data_view.get() @a_texcoordf3_inf.setter def a_texcoordf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_inf) data_view.set(value) @property def a_texcoordf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_nan) return data_view.get() @a_texcoordf3_nan.setter def a_texcoordf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_nan) data_view.set(value) @property def a_texcoordf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_ninf) return data_view.get() @a_texcoordf3_ninf.setter def a_texcoordf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_ninf) data_view.set(value) @property def a_texcoordf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_snan) return data_view.get() @a_texcoordf3_snan.setter def a_texcoordf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_snan) data_view.set(value) @property def a_texcoordh2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_inf) return data_view.get() @a_texcoordh2_array_inf.setter def a_texcoordh2_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_inf) data_view.set(value) self.a_texcoordh2_array_inf_size = data_view.get_array_size() @property def a_texcoordh2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_nan) return data_view.get() @a_texcoordh2_array_nan.setter def a_texcoordh2_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_nan) data_view.set(value) self.a_texcoordh2_array_nan_size = data_view.get_array_size() @property def a_texcoordh2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_ninf) return data_view.get() @a_texcoordh2_array_ninf.setter def a_texcoordh2_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_ninf) data_view.set(value) self.a_texcoordh2_array_ninf_size = data_view.get_array_size() @property def a_texcoordh2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_snan) return data_view.get() @a_texcoordh2_array_snan.setter def a_texcoordh2_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_snan) data_view.set(value) self.a_texcoordh2_array_snan_size = data_view.get_array_size() @property def a_texcoordh2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_inf) return data_view.get() @a_texcoordh2_inf.setter def a_texcoordh2_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_inf) data_view.set(value) @property def a_texcoordh2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_nan) return data_view.get() @a_texcoordh2_nan.setter def a_texcoordh2_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_nan) data_view.set(value) @property def a_texcoordh2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_ninf) return data_view.get() @a_texcoordh2_ninf.setter def a_texcoordh2_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_ninf) data_view.set(value) @property def a_texcoordh2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_snan) return data_view.get() @a_texcoordh2_snan.setter def a_texcoordh2_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh2_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_snan) data_view.set(value) @property def a_texcoordh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_inf) return data_view.get() @a_texcoordh3_array_inf.setter def a_texcoordh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_inf) data_view.set(value) self.a_texcoordh3_array_inf_size = data_view.get_array_size() @property def a_texcoordh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_nan) return data_view.get() @a_texcoordh3_array_nan.setter def a_texcoordh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_nan) data_view.set(value) self.a_texcoordh3_array_nan_size = data_view.get_array_size() @property def a_texcoordh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_ninf) return data_view.get() @a_texcoordh3_array_ninf.setter def a_texcoordh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_ninf) data_view.set(value) self.a_texcoordh3_array_ninf_size = data_view.get_array_size() @property def a_texcoordh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_snan) return data_view.get() @a_texcoordh3_array_snan.setter def a_texcoordh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_snan) data_view.set(value) self.a_texcoordh3_array_snan_size = data_view.get_array_size() @property def a_texcoordh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_inf) return data_view.get() @a_texcoordh3_inf.setter def a_texcoordh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_inf) data_view.set(value) @property def a_texcoordh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_nan) return data_view.get() @a_texcoordh3_nan.setter def a_texcoordh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_nan) data_view.set(value) @property def a_texcoordh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_ninf) return data_view.get() @a_texcoordh3_ninf.setter def a_texcoordh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_ninf) data_view.set(value) @property def a_texcoordh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_snan) return data_view.get() @a_texcoordh3_snan.setter def a_texcoordh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_texcoordh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_snan) data_view.set(value) @property def a_timecode_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_inf) return data_view.get() @a_timecode_array_inf.setter def a_timecode_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_inf) data_view.set(value) self.a_timecode_array_inf_size = data_view.get_array_size() @property def a_timecode_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_nan) return data_view.get() @a_timecode_array_nan.setter def a_timecode_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_nan) data_view.set(value) self.a_timecode_array_nan_size = data_view.get_array_size() @property def a_timecode_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_ninf) return data_view.get() @a_timecode_array_ninf.setter def a_timecode_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_ninf) data_view.set(value) self.a_timecode_array_ninf_size = data_view.get_array_size() @property def a_timecode_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_snan) return data_view.get() @a_timecode_array_snan.setter def a_timecode_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_snan) data_view.set(value) self.a_timecode_array_snan_size = data_view.get_array_size() @property def a_timecode_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_inf) return data_view.get() @a_timecode_inf.setter def a_timecode_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_inf) data_view = og.AttributeValueHelper(self._attributes.a_timecode_inf) data_view.set(value) @property def a_timecode_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_nan) return data_view.get() @a_timecode_nan.setter def a_timecode_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_nan) data_view = og.AttributeValueHelper(self._attributes.a_timecode_nan) data_view.set(value) @property def a_timecode_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_ninf) return data_view.get() @a_timecode_ninf.setter def a_timecode_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_ninf) data_view = og.AttributeValueHelper(self._attributes.a_timecode_ninf) data_view.set(value) @property def a_timecode_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_snan) return data_view.get() @a_timecode_snan.setter def a_timecode_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_timecode_snan) data_view = og.AttributeValueHelper(self._attributes.a_timecode_snan) data_view.set(value) @property def a_vectord3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_inf) return data_view.get() @a_vectord3_array_inf.setter def a_vectord3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_inf) data_view.set(value) self.a_vectord3_array_inf_size = data_view.get_array_size() @property def a_vectord3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_nan) return data_view.get() @a_vectord3_array_nan.setter def a_vectord3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_nan) data_view.set(value) self.a_vectord3_array_nan_size = data_view.get_array_size() @property def a_vectord3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_ninf) return data_view.get() @a_vectord3_array_ninf.setter def a_vectord3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_ninf) data_view.set(value) self.a_vectord3_array_ninf_size = data_view.get_array_size() @property def a_vectord3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_snan) return data_view.get() @a_vectord3_array_snan.setter def a_vectord3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_snan) data_view.set(value) self.a_vectord3_array_snan_size = data_view.get_array_size() @property def a_vectord3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_inf) return data_view.get() @a_vectord3_inf.setter def a_vectord3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_inf) data_view.set(value) @property def a_vectord3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_nan) return data_view.get() @a_vectord3_nan.setter def a_vectord3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_nan) data_view.set(value) @property def a_vectord3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_ninf) return data_view.get() @a_vectord3_ninf.setter def a_vectord3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_ninf) data_view.set(value) @property def a_vectord3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_snan) return data_view.get() @a_vectord3_snan.setter def a_vectord3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectord3_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectord3_snan) data_view.set(value) @property def a_vectorf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_inf) return data_view.get() @a_vectorf3_array_inf.setter def a_vectorf3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_inf) data_view.set(value) self.a_vectorf3_array_inf_size = data_view.get_array_size() @property def a_vectorf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_nan) return data_view.get() @a_vectorf3_array_nan.setter def a_vectorf3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_nan) data_view.set(value) self.a_vectorf3_array_nan_size = data_view.get_array_size() @property def a_vectorf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_ninf) return data_view.get() @a_vectorf3_array_ninf.setter def a_vectorf3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_ninf) data_view.set(value) self.a_vectorf3_array_ninf_size = data_view.get_array_size() @property def a_vectorf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_snan) return data_view.get() @a_vectorf3_array_snan.setter def a_vectorf3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_snan) data_view.set(value) self.a_vectorf3_array_snan_size = data_view.get_array_size() @property def a_vectorf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_inf) return data_view.get() @a_vectorf3_inf.setter def a_vectorf3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_inf) data_view.set(value) @property def a_vectorf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_nan) return data_view.get() @a_vectorf3_nan.setter def a_vectorf3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_nan) data_view.set(value) @property def a_vectorf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_ninf) return data_view.get() @a_vectorf3_ninf.setter def a_vectorf3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_ninf) data_view.set(value) @property def a_vectorf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_snan) return data_view.get() @a_vectorf3_snan.setter def a_vectorf3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorf3_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_snan) data_view.set(value) @property def a_vectorh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_inf) return data_view.get() @a_vectorh3_array_inf.setter def a_vectorh3_array_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_array_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_inf) data_view.set(value) self.a_vectorh3_array_inf_size = data_view.get_array_size() @property def a_vectorh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_nan) return data_view.get() @a_vectorh3_array_nan.setter def a_vectorh3_array_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_array_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_nan) data_view.set(value) self.a_vectorh3_array_nan_size = data_view.get_array_size() @property def a_vectorh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_ninf) return data_view.get() @a_vectorh3_array_ninf.setter def a_vectorh3_array_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_array_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_ninf) data_view.set(value) self.a_vectorh3_array_ninf_size = data_view.get_array_size() @property def a_vectorh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_snan) return data_view.get() @a_vectorh3_array_snan.setter def a_vectorh3_array_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_array_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_snan) data_view.set(value) self.a_vectorh3_array_snan_size = data_view.get_array_size() @property def a_vectorh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_inf) return data_view.get() @a_vectorh3_inf.setter def a_vectorh3_inf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_inf) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_inf) data_view.set(value) @property def a_vectorh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_nan) return data_view.get() @a_vectorh3_nan.setter def a_vectorh3_nan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_nan) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_nan) data_view.set(value) @property def a_vectorh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_ninf) return data_view.get() @a_vectorh3_ninf.setter def a_vectorh3_ninf(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_ninf) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_ninf) data_view.set(value) @property def a_vectorh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_snan) return data_view.get() @a_vectorh3_snan.setter def a_vectorh3_snan(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.a_vectorh3_snan) data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_snan) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.a_colord3_array_inf_size = None self.a_colord3_array_nan_size = None self.a_colord3_array_ninf_size = None self.a_colord3_array_snan_size = None self.a_colord4_array_inf_size = None self.a_colord4_array_nan_size = None self.a_colord4_array_ninf_size = None self.a_colord4_array_snan_size = None self.a_colorf3_array_inf_size = None self.a_colorf3_array_nan_size = None self.a_colorf3_array_ninf_size = None self.a_colorf3_array_snan_size = None self.a_colorf4_array_inf_size = None self.a_colorf4_array_nan_size = None self.a_colorf4_array_ninf_size = None self.a_colorf4_array_snan_size = None self.a_colorh3_array_inf_size = None self.a_colorh3_array_nan_size = None self.a_colorh3_array_ninf_size = None self.a_colorh3_array_snan_size = None self.a_colorh4_array_inf_size = None self.a_colorh4_array_nan_size = None self.a_colorh4_array_ninf_size = None self.a_colorh4_array_snan_size = None self.a_double2_array_inf_size = None self.a_double2_array_nan_size = None self.a_double2_array_ninf_size = None self.a_double2_array_snan_size = None self.a_double3_array_inf_size = None self.a_double3_array_nan_size = None self.a_double3_array_ninf_size = None self.a_double3_array_snan_size = None self.a_double4_array_inf_size = None self.a_double4_array_nan_size = None self.a_double4_array_ninf_size = None self.a_double4_array_snan_size = None self.a_double_array_inf_size = None self.a_double_array_nan_size = None self.a_double_array_ninf_size = None self.a_double_array_snan_size = None self.a_float2_array_inf_size = None self.a_float2_array_nan_size = None self.a_float2_array_ninf_size = None self.a_float2_array_snan_size = None self.a_float3_array_inf_size = None self.a_float3_array_nan_size = None self.a_float3_array_ninf_size = None self.a_float3_array_snan_size = None self.a_float4_array_inf_size = None self.a_float4_array_nan_size = None self.a_float4_array_ninf_size = None self.a_float4_array_snan_size = None self.a_float_array_inf_size = None self.a_float_array_nan_size = None self.a_float_array_ninf_size = None self.a_float_array_snan_size = None self.a_frame4_array_inf_size = None self.a_frame4_array_nan_size = None self.a_frame4_array_ninf_size = None self.a_frame4_array_snan_size = None self.a_half2_array_inf_size = None self.a_half2_array_nan_size = None self.a_half2_array_ninf_size = None self.a_half2_array_snan_size = None self.a_half3_array_inf_size = None self.a_half3_array_nan_size = None self.a_half3_array_ninf_size = None self.a_half3_array_snan_size = None self.a_half4_array_inf_size = None self.a_half4_array_nan_size = None self.a_half4_array_ninf_size = None self.a_half4_array_snan_size = None self.a_half_array_inf_size = None self.a_half_array_nan_size = None self.a_half_array_ninf_size = None self.a_half_array_snan_size = None self.a_matrixd2_array_inf_size = None self.a_matrixd2_array_nan_size = None self.a_matrixd2_array_ninf_size = None self.a_matrixd2_array_snan_size = None self.a_matrixd3_array_inf_size = None self.a_matrixd3_array_nan_size = None self.a_matrixd3_array_ninf_size = None self.a_matrixd3_array_snan_size = None self.a_matrixd4_array_inf_size = None self.a_matrixd4_array_nan_size = None self.a_matrixd4_array_ninf_size = None self.a_matrixd4_array_snan_size = None self.a_normald3_array_inf_size = None self.a_normald3_array_nan_size = None self.a_normald3_array_ninf_size = None self.a_normald3_array_snan_size = None self.a_normalf3_array_inf_size = None self.a_normalf3_array_nan_size = None self.a_normalf3_array_ninf_size = None self.a_normalf3_array_snan_size = None self.a_normalh3_array_inf_size = None self.a_normalh3_array_nan_size = None self.a_normalh3_array_ninf_size = None self.a_normalh3_array_snan_size = None self.a_pointd3_array_inf_size = None self.a_pointd3_array_nan_size = None self.a_pointd3_array_ninf_size = None self.a_pointd3_array_snan_size = None self.a_pointf3_array_inf_size = None self.a_pointf3_array_nan_size = None self.a_pointf3_array_ninf_size = None self.a_pointf3_array_snan_size = None self.a_pointh3_array_inf_size = None self.a_pointh3_array_nan_size = None self.a_pointh3_array_ninf_size = None self.a_pointh3_array_snan_size = None self.a_quatd4_array_inf_size = None self.a_quatd4_array_nan_size = None self.a_quatd4_array_ninf_size = None self.a_quatd4_array_snan_size = None self.a_quatf4_array_inf_size = None self.a_quatf4_array_nan_size = None self.a_quatf4_array_ninf_size = None self.a_quatf4_array_snan_size = None self.a_quath4_array_inf_size = None self.a_quath4_array_nan_size = None self.a_quath4_array_ninf_size = None self.a_quath4_array_snan_size = None self.a_texcoordd2_array_inf_size = None self.a_texcoordd2_array_nan_size = None self.a_texcoordd2_array_ninf_size = None self.a_texcoordd2_array_snan_size = None self.a_texcoordd3_array_inf_size = None self.a_texcoordd3_array_nan_size = None self.a_texcoordd3_array_ninf_size = None self.a_texcoordd3_array_snan_size = None self.a_texcoordf2_array_inf_size = None self.a_texcoordf2_array_nan_size = None self.a_texcoordf2_array_ninf_size = None self.a_texcoordf2_array_snan_size = None self.a_texcoordf3_array_inf_size = None self.a_texcoordf3_array_nan_size = None self.a_texcoordf3_array_ninf_size = None self.a_texcoordf3_array_snan_size = None self.a_texcoordh2_array_inf_size = None self.a_texcoordh2_array_nan_size = None self.a_texcoordh2_array_ninf_size = None self.a_texcoordh2_array_snan_size = None self.a_texcoordh3_array_inf_size = None self.a_texcoordh3_array_nan_size = None self.a_texcoordh3_array_ninf_size = None self.a_texcoordh3_array_snan_size = None self.a_timecode_array_inf_size = None self.a_timecode_array_nan_size = None self.a_timecode_array_ninf_size = None self.a_timecode_array_snan_size = None self.a_vectord3_array_inf_size = None self.a_vectord3_array_nan_size = None self.a_vectord3_array_ninf_size = None self.a_vectord3_array_snan_size = None self.a_vectorf3_array_inf_size = None self.a_vectorf3_array_nan_size = None self.a_vectorf3_array_ninf_size = None self.a_vectorf3_array_snan_size = None self.a_vectorh3_array_inf_size = None self.a_vectorh3_array_nan_size = None self.a_vectorh3_array_ninf_size = None self.a_vectorh3_array_snan_size = None self._batchedWriteValues = { } @property def a_colord3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_inf) return data_view.get(reserved_element_count=self.a_colord3_array_inf_size) @a_colord3_array_inf.setter def a_colord3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_inf) data_view.set(value) self.a_colord3_array_inf_size = data_view.get_array_size() @property def a_colord3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_nan) return data_view.get(reserved_element_count=self.a_colord3_array_nan_size) @a_colord3_array_nan.setter def a_colord3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_nan) data_view.set(value) self.a_colord3_array_nan_size = data_view.get_array_size() @property def a_colord3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_ninf) return data_view.get(reserved_element_count=self.a_colord3_array_ninf_size) @a_colord3_array_ninf.setter def a_colord3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_ninf) data_view.set(value) self.a_colord3_array_ninf_size = data_view.get_array_size() @property def a_colord3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_snan) return data_view.get(reserved_element_count=self.a_colord3_array_snan_size) @a_colord3_array_snan.setter def a_colord3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_array_snan) data_view.set(value) self.a_colord3_array_snan_size = data_view.get_array_size() @property def a_colord3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_inf) return data_view.get() @a_colord3_inf.setter def a_colord3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_inf) data_view.set(value) @property def a_colord3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_nan) return data_view.get() @a_colord3_nan.setter def a_colord3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_nan) data_view.set(value) @property def a_colord3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_ninf) return data_view.get() @a_colord3_ninf.setter def a_colord3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_ninf) data_view.set(value) @property def a_colord3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord3_snan) return data_view.get() @a_colord3_snan.setter def a_colord3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord3_snan) data_view.set(value) @property def a_colord4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_inf) return data_view.get(reserved_element_count=self.a_colord4_array_inf_size) @a_colord4_array_inf.setter def a_colord4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_inf) data_view.set(value) self.a_colord4_array_inf_size = data_view.get_array_size() @property def a_colord4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_nan) return data_view.get(reserved_element_count=self.a_colord4_array_nan_size) @a_colord4_array_nan.setter def a_colord4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_nan) data_view.set(value) self.a_colord4_array_nan_size = data_view.get_array_size() @property def a_colord4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_ninf) return data_view.get(reserved_element_count=self.a_colord4_array_ninf_size) @a_colord4_array_ninf.setter def a_colord4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_ninf) data_view.set(value) self.a_colord4_array_ninf_size = data_view.get_array_size() @property def a_colord4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_snan) return data_view.get(reserved_element_count=self.a_colord4_array_snan_size) @a_colord4_array_snan.setter def a_colord4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_array_snan) data_view.set(value) self.a_colord4_array_snan_size = data_view.get_array_size() @property def a_colord4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_inf) return data_view.get() @a_colord4_inf.setter def a_colord4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_inf) data_view.set(value) @property def a_colord4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_nan) return data_view.get() @a_colord4_nan.setter def a_colord4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_nan) data_view.set(value) @property def a_colord4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_ninf) return data_view.get() @a_colord4_ninf.setter def a_colord4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_ninf) data_view.set(value) @property def a_colord4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colord4_snan) return data_view.get() @a_colord4_snan.setter def a_colord4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colord4_snan) data_view.set(value) @property def a_colorf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_inf) return data_view.get(reserved_element_count=self.a_colorf3_array_inf_size) @a_colorf3_array_inf.setter def a_colorf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_inf) data_view.set(value) self.a_colorf3_array_inf_size = data_view.get_array_size() @property def a_colorf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_nan) return data_view.get(reserved_element_count=self.a_colorf3_array_nan_size) @a_colorf3_array_nan.setter def a_colorf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_nan) data_view.set(value) self.a_colorf3_array_nan_size = data_view.get_array_size() @property def a_colorf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_ninf) return data_view.get(reserved_element_count=self.a_colorf3_array_ninf_size) @a_colorf3_array_ninf.setter def a_colorf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_ninf) data_view.set(value) self.a_colorf3_array_ninf_size = data_view.get_array_size() @property def a_colorf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_snan) return data_view.get(reserved_element_count=self.a_colorf3_array_snan_size) @a_colorf3_array_snan.setter def a_colorf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_array_snan) data_view.set(value) self.a_colorf3_array_snan_size = data_view.get_array_size() @property def a_colorf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_inf) return data_view.get() @a_colorf3_inf.setter def a_colorf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_inf) data_view.set(value) @property def a_colorf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_nan) return data_view.get() @a_colorf3_nan.setter def a_colorf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_nan) data_view.set(value) @property def a_colorf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_ninf) return data_view.get() @a_colorf3_ninf.setter def a_colorf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_ninf) data_view.set(value) @property def a_colorf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_snan) return data_view.get() @a_colorf3_snan.setter def a_colorf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf3_snan) data_view.set(value) @property def a_colorf4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_inf) return data_view.get(reserved_element_count=self.a_colorf4_array_inf_size) @a_colorf4_array_inf.setter def a_colorf4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_inf) data_view.set(value) self.a_colorf4_array_inf_size = data_view.get_array_size() @property def a_colorf4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_nan) return data_view.get(reserved_element_count=self.a_colorf4_array_nan_size) @a_colorf4_array_nan.setter def a_colorf4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_nan) data_view.set(value) self.a_colorf4_array_nan_size = data_view.get_array_size() @property def a_colorf4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_ninf) return data_view.get(reserved_element_count=self.a_colorf4_array_ninf_size) @a_colorf4_array_ninf.setter def a_colorf4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_ninf) data_view.set(value) self.a_colorf4_array_ninf_size = data_view.get_array_size() @property def a_colorf4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_snan) return data_view.get(reserved_element_count=self.a_colorf4_array_snan_size) @a_colorf4_array_snan.setter def a_colorf4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_array_snan) data_view.set(value) self.a_colorf4_array_snan_size = data_view.get_array_size() @property def a_colorf4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_inf) return data_view.get() @a_colorf4_inf.setter def a_colorf4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_inf) data_view.set(value) @property def a_colorf4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_nan) return data_view.get() @a_colorf4_nan.setter def a_colorf4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_nan) data_view.set(value) @property def a_colorf4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_ninf) return data_view.get() @a_colorf4_ninf.setter def a_colorf4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_ninf) data_view.set(value) @property def a_colorf4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_snan) return data_view.get() @a_colorf4_snan.setter def a_colorf4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorf4_snan) data_view.set(value) @property def a_colorh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_inf) return data_view.get(reserved_element_count=self.a_colorh3_array_inf_size) @a_colorh3_array_inf.setter def a_colorh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_inf) data_view.set(value) self.a_colorh3_array_inf_size = data_view.get_array_size() @property def a_colorh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_nan) return data_view.get(reserved_element_count=self.a_colorh3_array_nan_size) @a_colorh3_array_nan.setter def a_colorh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_nan) data_view.set(value) self.a_colorh3_array_nan_size = data_view.get_array_size() @property def a_colorh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_ninf) return data_view.get(reserved_element_count=self.a_colorh3_array_ninf_size) @a_colorh3_array_ninf.setter def a_colorh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_ninf) data_view.set(value) self.a_colorh3_array_ninf_size = data_view.get_array_size() @property def a_colorh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_snan) return data_view.get(reserved_element_count=self.a_colorh3_array_snan_size) @a_colorh3_array_snan.setter def a_colorh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_array_snan) data_view.set(value) self.a_colorh3_array_snan_size = data_view.get_array_size() @property def a_colorh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_inf) return data_view.get() @a_colorh3_inf.setter def a_colorh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_inf) data_view.set(value) @property def a_colorh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_nan) return data_view.get() @a_colorh3_nan.setter def a_colorh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_nan) data_view.set(value) @property def a_colorh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_ninf) return data_view.get() @a_colorh3_ninf.setter def a_colorh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_ninf) data_view.set(value) @property def a_colorh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_snan) return data_view.get() @a_colorh3_snan.setter def a_colorh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh3_snan) data_view.set(value) @property def a_colorh4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_inf) return data_view.get(reserved_element_count=self.a_colorh4_array_inf_size) @a_colorh4_array_inf.setter def a_colorh4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_inf) data_view.set(value) self.a_colorh4_array_inf_size = data_view.get_array_size() @property def a_colorh4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_nan) return data_view.get(reserved_element_count=self.a_colorh4_array_nan_size) @a_colorh4_array_nan.setter def a_colorh4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_nan) data_view.set(value) self.a_colorh4_array_nan_size = data_view.get_array_size() @property def a_colorh4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_ninf) return data_view.get(reserved_element_count=self.a_colorh4_array_ninf_size) @a_colorh4_array_ninf.setter def a_colorh4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_ninf) data_view.set(value) self.a_colorh4_array_ninf_size = data_view.get_array_size() @property def a_colorh4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_snan) return data_view.get(reserved_element_count=self.a_colorh4_array_snan_size) @a_colorh4_array_snan.setter def a_colorh4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_array_snan) data_view.set(value) self.a_colorh4_array_snan_size = data_view.get_array_size() @property def a_colorh4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_inf) return data_view.get() @a_colorh4_inf.setter def a_colorh4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_inf) data_view.set(value) @property def a_colorh4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_nan) return data_view.get() @a_colorh4_nan.setter def a_colorh4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_nan) data_view.set(value) @property def a_colorh4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_ninf) return data_view.get() @a_colorh4_ninf.setter def a_colorh4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_ninf) data_view.set(value) @property def a_colorh4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_snan) return data_view.get() @a_colorh4_snan.setter def a_colorh4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_colorh4_snan) data_view.set(value) @property def a_double2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_inf) return data_view.get(reserved_element_count=self.a_double2_array_inf_size) @a_double2_array_inf.setter def a_double2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_inf) data_view.set(value) self.a_double2_array_inf_size = data_view.get_array_size() @property def a_double2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_nan) return data_view.get(reserved_element_count=self.a_double2_array_nan_size) @a_double2_array_nan.setter def a_double2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_nan) data_view.set(value) self.a_double2_array_nan_size = data_view.get_array_size() @property def a_double2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_ninf) return data_view.get(reserved_element_count=self.a_double2_array_ninf_size) @a_double2_array_ninf.setter def a_double2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_ninf) data_view.set(value) self.a_double2_array_ninf_size = data_view.get_array_size() @property def a_double2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_snan) return data_view.get(reserved_element_count=self.a_double2_array_snan_size) @a_double2_array_snan.setter def a_double2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_array_snan) data_view.set(value) self.a_double2_array_snan_size = data_view.get_array_size() @property def a_double2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_inf) return data_view.get() @a_double2_inf.setter def a_double2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_inf) data_view.set(value) @property def a_double2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_nan) return data_view.get() @a_double2_nan.setter def a_double2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_nan) data_view.set(value) @property def a_double2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_ninf) return data_view.get() @a_double2_ninf.setter def a_double2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_ninf) data_view.set(value) @property def a_double2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double2_snan) return data_view.get() @a_double2_snan.setter def a_double2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double2_snan) data_view.set(value) @property def a_double3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_inf) return data_view.get(reserved_element_count=self.a_double3_array_inf_size) @a_double3_array_inf.setter def a_double3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_inf) data_view.set(value) self.a_double3_array_inf_size = data_view.get_array_size() @property def a_double3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_nan) return data_view.get(reserved_element_count=self.a_double3_array_nan_size) @a_double3_array_nan.setter def a_double3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_nan) data_view.set(value) self.a_double3_array_nan_size = data_view.get_array_size() @property def a_double3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_ninf) return data_view.get(reserved_element_count=self.a_double3_array_ninf_size) @a_double3_array_ninf.setter def a_double3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_ninf) data_view.set(value) self.a_double3_array_ninf_size = data_view.get_array_size() @property def a_double3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_snan) return data_view.get(reserved_element_count=self.a_double3_array_snan_size) @a_double3_array_snan.setter def a_double3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_array_snan) data_view.set(value) self.a_double3_array_snan_size = data_view.get_array_size() @property def a_double3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_inf) return data_view.get() @a_double3_inf.setter def a_double3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_inf) data_view.set(value) @property def a_double3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_nan) return data_view.get() @a_double3_nan.setter def a_double3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_nan) data_view.set(value) @property def a_double3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_ninf) return data_view.get() @a_double3_ninf.setter def a_double3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_ninf) data_view.set(value) @property def a_double3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double3_snan) return data_view.get() @a_double3_snan.setter def a_double3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double3_snan) data_view.set(value) @property def a_double4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_inf) return data_view.get(reserved_element_count=self.a_double4_array_inf_size) @a_double4_array_inf.setter def a_double4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_inf) data_view.set(value) self.a_double4_array_inf_size = data_view.get_array_size() @property def a_double4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_nan) return data_view.get(reserved_element_count=self.a_double4_array_nan_size) @a_double4_array_nan.setter def a_double4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_nan) data_view.set(value) self.a_double4_array_nan_size = data_view.get_array_size() @property def a_double4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_ninf) return data_view.get(reserved_element_count=self.a_double4_array_ninf_size) @a_double4_array_ninf.setter def a_double4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_ninf) data_view.set(value) self.a_double4_array_ninf_size = data_view.get_array_size() @property def a_double4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_snan) return data_view.get(reserved_element_count=self.a_double4_array_snan_size) @a_double4_array_snan.setter def a_double4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_array_snan) data_view.set(value) self.a_double4_array_snan_size = data_view.get_array_size() @property def a_double4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_inf) return data_view.get() @a_double4_inf.setter def a_double4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_inf) data_view.set(value) @property def a_double4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_nan) return data_view.get() @a_double4_nan.setter def a_double4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_nan) data_view.set(value) @property def a_double4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_ninf) return data_view.get() @a_double4_ninf.setter def a_double4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_ninf) data_view.set(value) @property def a_double4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double4_snan) return data_view.get() @a_double4_snan.setter def a_double4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double4_snan) data_view.set(value) @property def a_double_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_inf) return data_view.get(reserved_element_count=self.a_double_array_inf_size) @a_double_array_inf.setter def a_double_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array_inf) data_view.set(value) self.a_double_array_inf_size = data_view.get_array_size() @property def a_double_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_nan) return data_view.get(reserved_element_count=self.a_double_array_nan_size) @a_double_array_nan.setter def a_double_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array_nan) data_view.set(value) self.a_double_array_nan_size = data_view.get_array_size() @property def a_double_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_ninf) return data_view.get(reserved_element_count=self.a_double_array_ninf_size) @a_double_array_ninf.setter def a_double_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array_ninf) data_view.set(value) self.a_double_array_ninf_size = data_view.get_array_size() @property def a_double_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_array_snan) return data_view.get(reserved_element_count=self.a_double_array_snan_size) @a_double_array_snan.setter def a_double_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_array_snan) data_view.set(value) self.a_double_array_snan_size = data_view.get_array_size() @property def a_double_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_inf) return data_view.get() @a_double_inf.setter def a_double_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_inf) data_view.set(value) @property def a_double_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_nan) return data_view.get() @a_double_nan.setter def a_double_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_nan) data_view.set(value) @property def a_double_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_double_ninf) return data_view.get() @a_double_ninf.setter def a_double_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_ninf) data_view.set(value) @property def a_double_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_double_snan) return data_view.get() @a_double_snan.setter def a_double_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_double_snan) data_view.set(value) @property def a_float2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_inf) return data_view.get(reserved_element_count=self.a_float2_array_inf_size) @a_float2_array_inf.setter def a_float2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_inf) data_view.set(value) self.a_float2_array_inf_size = data_view.get_array_size() @property def a_float2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_nan) return data_view.get(reserved_element_count=self.a_float2_array_nan_size) @a_float2_array_nan.setter def a_float2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_nan) data_view.set(value) self.a_float2_array_nan_size = data_view.get_array_size() @property def a_float2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_ninf) return data_view.get(reserved_element_count=self.a_float2_array_ninf_size) @a_float2_array_ninf.setter def a_float2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_ninf) data_view.set(value) self.a_float2_array_ninf_size = data_view.get_array_size() @property def a_float2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_snan) return data_view.get(reserved_element_count=self.a_float2_array_snan_size) @a_float2_array_snan.setter def a_float2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_array_snan) data_view.set(value) self.a_float2_array_snan_size = data_view.get_array_size() @property def a_float2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_inf) return data_view.get() @a_float2_inf.setter def a_float2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_inf) data_view.set(value) @property def a_float2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_nan) return data_view.get() @a_float2_nan.setter def a_float2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_nan) data_view.set(value) @property def a_float2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_ninf) return data_view.get() @a_float2_ninf.setter def a_float2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_ninf) data_view.set(value) @property def a_float2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float2_snan) return data_view.get() @a_float2_snan.setter def a_float2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float2_snan) data_view.set(value) @property def a_float3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_inf) return data_view.get(reserved_element_count=self.a_float3_array_inf_size) @a_float3_array_inf.setter def a_float3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_inf) data_view.set(value) self.a_float3_array_inf_size = data_view.get_array_size() @property def a_float3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_nan) return data_view.get(reserved_element_count=self.a_float3_array_nan_size) @a_float3_array_nan.setter def a_float3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_nan) data_view.set(value) self.a_float3_array_nan_size = data_view.get_array_size() @property def a_float3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_ninf) return data_view.get(reserved_element_count=self.a_float3_array_ninf_size) @a_float3_array_ninf.setter def a_float3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_ninf) data_view.set(value) self.a_float3_array_ninf_size = data_view.get_array_size() @property def a_float3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_snan) return data_view.get(reserved_element_count=self.a_float3_array_snan_size) @a_float3_array_snan.setter def a_float3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_array_snan) data_view.set(value) self.a_float3_array_snan_size = data_view.get_array_size() @property def a_float3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_inf) return data_view.get() @a_float3_inf.setter def a_float3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_inf) data_view.set(value) @property def a_float3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_nan) return data_view.get() @a_float3_nan.setter def a_float3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_nan) data_view.set(value) @property def a_float3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_ninf) return data_view.get() @a_float3_ninf.setter def a_float3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_ninf) data_view.set(value) @property def a_float3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float3_snan) return data_view.get() @a_float3_snan.setter def a_float3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float3_snan) data_view.set(value) @property def a_float4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_inf) return data_view.get(reserved_element_count=self.a_float4_array_inf_size) @a_float4_array_inf.setter def a_float4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_inf) data_view.set(value) self.a_float4_array_inf_size = data_view.get_array_size() @property def a_float4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_nan) return data_view.get(reserved_element_count=self.a_float4_array_nan_size) @a_float4_array_nan.setter def a_float4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_nan) data_view.set(value) self.a_float4_array_nan_size = data_view.get_array_size() @property def a_float4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_ninf) return data_view.get(reserved_element_count=self.a_float4_array_ninf_size) @a_float4_array_ninf.setter def a_float4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_ninf) data_view.set(value) self.a_float4_array_ninf_size = data_view.get_array_size() @property def a_float4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_snan) return data_view.get(reserved_element_count=self.a_float4_array_snan_size) @a_float4_array_snan.setter def a_float4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_array_snan) data_view.set(value) self.a_float4_array_snan_size = data_view.get_array_size() @property def a_float4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_inf) return data_view.get() @a_float4_inf.setter def a_float4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_inf) data_view.set(value) @property def a_float4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_nan) return data_view.get() @a_float4_nan.setter def a_float4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_nan) data_view.set(value) @property def a_float4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_ninf) return data_view.get() @a_float4_ninf.setter def a_float4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_ninf) data_view.set(value) @property def a_float4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float4_snan) return data_view.get() @a_float4_snan.setter def a_float4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float4_snan) data_view.set(value) @property def a_float_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_inf) return data_view.get(reserved_element_count=self.a_float_array_inf_size) @a_float_array_inf.setter def a_float_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array_inf) data_view.set(value) self.a_float_array_inf_size = data_view.get_array_size() @property def a_float_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_nan) return data_view.get(reserved_element_count=self.a_float_array_nan_size) @a_float_array_nan.setter def a_float_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array_nan) data_view.set(value) self.a_float_array_nan_size = data_view.get_array_size() @property def a_float_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_ninf) return data_view.get(reserved_element_count=self.a_float_array_ninf_size) @a_float_array_ninf.setter def a_float_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array_ninf) data_view.set(value) self.a_float_array_ninf_size = data_view.get_array_size() @property def a_float_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_array_snan) return data_view.get(reserved_element_count=self.a_float_array_snan_size) @a_float_array_snan.setter def a_float_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_array_snan) data_view.set(value) self.a_float_array_snan_size = data_view.get_array_size() @property def a_float_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_inf) return data_view.get() @a_float_inf.setter def a_float_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_inf) data_view.set(value) @property def a_float_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_nan) return data_view.get() @a_float_nan.setter def a_float_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_nan) data_view.set(value) @property def a_float_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_float_ninf) return data_view.get() @a_float_ninf.setter def a_float_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_ninf) data_view.set(value) @property def a_float_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_float_snan) return data_view.get() @a_float_snan.setter def a_float_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_float_snan) data_view.set(value) @property def a_frame4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_inf) return data_view.get(reserved_element_count=self.a_frame4_array_inf_size) @a_frame4_array_inf.setter def a_frame4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_inf) data_view.set(value) self.a_frame4_array_inf_size = data_view.get_array_size() @property def a_frame4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_nan) return data_view.get(reserved_element_count=self.a_frame4_array_nan_size) @a_frame4_array_nan.setter def a_frame4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_nan) data_view.set(value) self.a_frame4_array_nan_size = data_view.get_array_size() @property def a_frame4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_ninf) return data_view.get(reserved_element_count=self.a_frame4_array_ninf_size) @a_frame4_array_ninf.setter def a_frame4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_ninf) data_view.set(value) self.a_frame4_array_ninf_size = data_view.get_array_size() @property def a_frame4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_snan) return data_view.get(reserved_element_count=self.a_frame4_array_snan_size) @a_frame4_array_snan.setter def a_frame4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_array_snan) data_view.set(value) self.a_frame4_array_snan_size = data_view.get_array_size() @property def a_frame4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_inf) return data_view.get() @a_frame4_inf.setter def a_frame4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_inf) data_view.set(value) @property def a_frame4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_nan) return data_view.get() @a_frame4_nan.setter def a_frame4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_nan) data_view.set(value) @property def a_frame4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_ninf) return data_view.get() @a_frame4_ninf.setter def a_frame4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_ninf) data_view.set(value) @property def a_frame4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_frame4_snan) return data_view.get() @a_frame4_snan.setter def a_frame4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_frame4_snan) data_view.set(value) @property def a_half2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_inf) return data_view.get(reserved_element_count=self.a_half2_array_inf_size) @a_half2_array_inf.setter def a_half2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_inf) data_view.set(value) self.a_half2_array_inf_size = data_view.get_array_size() @property def a_half2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_nan) return data_view.get(reserved_element_count=self.a_half2_array_nan_size) @a_half2_array_nan.setter def a_half2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_nan) data_view.set(value) self.a_half2_array_nan_size = data_view.get_array_size() @property def a_half2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_ninf) return data_view.get(reserved_element_count=self.a_half2_array_ninf_size) @a_half2_array_ninf.setter def a_half2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_ninf) data_view.set(value) self.a_half2_array_ninf_size = data_view.get_array_size() @property def a_half2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_snan) return data_view.get(reserved_element_count=self.a_half2_array_snan_size) @a_half2_array_snan.setter def a_half2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_array_snan) data_view.set(value) self.a_half2_array_snan_size = data_view.get_array_size() @property def a_half2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_inf) return data_view.get() @a_half2_inf.setter def a_half2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_inf) data_view.set(value) @property def a_half2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_nan) return data_view.get() @a_half2_nan.setter def a_half2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_nan) data_view.set(value) @property def a_half2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_ninf) return data_view.get() @a_half2_ninf.setter def a_half2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_ninf) data_view.set(value) @property def a_half2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half2_snan) return data_view.get() @a_half2_snan.setter def a_half2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half2_snan) data_view.set(value) @property def a_half3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_inf) return data_view.get(reserved_element_count=self.a_half3_array_inf_size) @a_half3_array_inf.setter def a_half3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_inf) data_view.set(value) self.a_half3_array_inf_size = data_view.get_array_size() @property def a_half3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_nan) return data_view.get(reserved_element_count=self.a_half3_array_nan_size) @a_half3_array_nan.setter def a_half3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_nan) data_view.set(value) self.a_half3_array_nan_size = data_view.get_array_size() @property def a_half3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_ninf) return data_view.get(reserved_element_count=self.a_half3_array_ninf_size) @a_half3_array_ninf.setter def a_half3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_ninf) data_view.set(value) self.a_half3_array_ninf_size = data_view.get_array_size() @property def a_half3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_snan) return data_view.get(reserved_element_count=self.a_half3_array_snan_size) @a_half3_array_snan.setter def a_half3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_array_snan) data_view.set(value) self.a_half3_array_snan_size = data_view.get_array_size() @property def a_half3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_inf) return data_view.get() @a_half3_inf.setter def a_half3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_inf) data_view.set(value) @property def a_half3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_nan) return data_view.get() @a_half3_nan.setter def a_half3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_nan) data_view.set(value) @property def a_half3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_ninf) return data_view.get() @a_half3_ninf.setter def a_half3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_ninf) data_view.set(value) @property def a_half3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half3_snan) return data_view.get() @a_half3_snan.setter def a_half3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half3_snan) data_view.set(value) @property def a_half4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_inf) return data_view.get(reserved_element_count=self.a_half4_array_inf_size) @a_half4_array_inf.setter def a_half4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_inf) data_view.set(value) self.a_half4_array_inf_size = data_view.get_array_size() @property def a_half4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_nan) return data_view.get(reserved_element_count=self.a_half4_array_nan_size) @a_half4_array_nan.setter def a_half4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_nan) data_view.set(value) self.a_half4_array_nan_size = data_view.get_array_size() @property def a_half4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_ninf) return data_view.get(reserved_element_count=self.a_half4_array_ninf_size) @a_half4_array_ninf.setter def a_half4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_ninf) data_view.set(value) self.a_half4_array_ninf_size = data_view.get_array_size() @property def a_half4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_snan) return data_view.get(reserved_element_count=self.a_half4_array_snan_size) @a_half4_array_snan.setter def a_half4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_array_snan) data_view.set(value) self.a_half4_array_snan_size = data_view.get_array_size() @property def a_half4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_inf) return data_view.get() @a_half4_inf.setter def a_half4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_inf) data_view.set(value) @property def a_half4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_nan) return data_view.get() @a_half4_nan.setter def a_half4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_nan) data_view.set(value) @property def a_half4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_ninf) return data_view.get() @a_half4_ninf.setter def a_half4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_ninf) data_view.set(value) @property def a_half4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half4_snan) return data_view.get() @a_half4_snan.setter def a_half4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half4_snan) data_view.set(value) @property def a_half_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_inf) return data_view.get(reserved_element_count=self.a_half_array_inf_size) @a_half_array_inf.setter def a_half_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array_inf) data_view.set(value) self.a_half_array_inf_size = data_view.get_array_size() @property def a_half_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_nan) return data_view.get(reserved_element_count=self.a_half_array_nan_size) @a_half_array_nan.setter def a_half_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array_nan) data_view.set(value) self.a_half_array_nan_size = data_view.get_array_size() @property def a_half_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_ninf) return data_view.get(reserved_element_count=self.a_half_array_ninf_size) @a_half_array_ninf.setter def a_half_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array_ninf) data_view.set(value) self.a_half_array_ninf_size = data_view.get_array_size() @property def a_half_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_array_snan) return data_view.get(reserved_element_count=self.a_half_array_snan_size) @a_half_array_snan.setter def a_half_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_array_snan) data_view.set(value) self.a_half_array_snan_size = data_view.get_array_size() @property def a_half_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_inf) return data_view.get() @a_half_inf.setter def a_half_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_inf) data_view.set(value) @property def a_half_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_nan) return data_view.get() @a_half_nan.setter def a_half_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_nan) data_view.set(value) @property def a_half_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_half_ninf) return data_view.get() @a_half_ninf.setter def a_half_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_ninf) data_view.set(value) @property def a_half_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_half_snan) return data_view.get() @a_half_snan.setter def a_half_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_half_snan) data_view.set(value) @property def a_matrixd2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_inf) return data_view.get(reserved_element_count=self.a_matrixd2_array_inf_size) @a_matrixd2_array_inf.setter def a_matrixd2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_inf) data_view.set(value) self.a_matrixd2_array_inf_size = data_view.get_array_size() @property def a_matrixd2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_nan) return data_view.get(reserved_element_count=self.a_matrixd2_array_nan_size) @a_matrixd2_array_nan.setter def a_matrixd2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_nan) data_view.set(value) self.a_matrixd2_array_nan_size = data_view.get_array_size() @property def a_matrixd2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_ninf) return data_view.get(reserved_element_count=self.a_matrixd2_array_ninf_size) @a_matrixd2_array_ninf.setter def a_matrixd2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_ninf) data_view.set(value) self.a_matrixd2_array_ninf_size = data_view.get_array_size() @property def a_matrixd2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_snan) return data_view.get(reserved_element_count=self.a_matrixd2_array_snan_size) @a_matrixd2_array_snan.setter def a_matrixd2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_array_snan) data_view.set(value) self.a_matrixd2_array_snan_size = data_view.get_array_size() @property def a_matrixd2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_inf) return data_view.get() @a_matrixd2_inf.setter def a_matrixd2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_inf) data_view.set(value) @property def a_matrixd2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_nan) return data_view.get() @a_matrixd2_nan.setter def a_matrixd2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_nan) data_view.set(value) @property def a_matrixd2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_ninf) return data_view.get() @a_matrixd2_ninf.setter def a_matrixd2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_ninf) data_view.set(value) @property def a_matrixd2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_snan) return data_view.get() @a_matrixd2_snan.setter def a_matrixd2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd2_snan) data_view.set(value) @property def a_matrixd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_inf) return data_view.get(reserved_element_count=self.a_matrixd3_array_inf_size) @a_matrixd3_array_inf.setter def a_matrixd3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_inf) data_view.set(value) self.a_matrixd3_array_inf_size = data_view.get_array_size() @property def a_matrixd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_nan) return data_view.get(reserved_element_count=self.a_matrixd3_array_nan_size) @a_matrixd3_array_nan.setter def a_matrixd3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_nan) data_view.set(value) self.a_matrixd3_array_nan_size = data_view.get_array_size() @property def a_matrixd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_ninf) return data_view.get(reserved_element_count=self.a_matrixd3_array_ninf_size) @a_matrixd3_array_ninf.setter def a_matrixd3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_ninf) data_view.set(value) self.a_matrixd3_array_ninf_size = data_view.get_array_size() @property def a_matrixd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_snan) return data_view.get(reserved_element_count=self.a_matrixd3_array_snan_size) @a_matrixd3_array_snan.setter def a_matrixd3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_array_snan) data_view.set(value) self.a_matrixd3_array_snan_size = data_view.get_array_size() @property def a_matrixd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_inf) return data_view.get() @a_matrixd3_inf.setter def a_matrixd3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_inf) data_view.set(value) @property def a_matrixd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_nan) return data_view.get() @a_matrixd3_nan.setter def a_matrixd3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_nan) data_view.set(value) @property def a_matrixd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_ninf) return data_view.get() @a_matrixd3_ninf.setter def a_matrixd3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_ninf) data_view.set(value) @property def a_matrixd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_snan) return data_view.get() @a_matrixd3_snan.setter def a_matrixd3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd3_snan) data_view.set(value) @property def a_matrixd4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_inf) return data_view.get(reserved_element_count=self.a_matrixd4_array_inf_size) @a_matrixd4_array_inf.setter def a_matrixd4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_inf) data_view.set(value) self.a_matrixd4_array_inf_size = data_view.get_array_size() @property def a_matrixd4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_nan) return data_view.get(reserved_element_count=self.a_matrixd4_array_nan_size) @a_matrixd4_array_nan.setter def a_matrixd4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_nan) data_view.set(value) self.a_matrixd4_array_nan_size = data_view.get_array_size() @property def a_matrixd4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_ninf) return data_view.get(reserved_element_count=self.a_matrixd4_array_ninf_size) @a_matrixd4_array_ninf.setter def a_matrixd4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_ninf) data_view.set(value) self.a_matrixd4_array_ninf_size = data_view.get_array_size() @property def a_matrixd4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_snan) return data_view.get(reserved_element_count=self.a_matrixd4_array_snan_size) @a_matrixd4_array_snan.setter def a_matrixd4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_array_snan) data_view.set(value) self.a_matrixd4_array_snan_size = data_view.get_array_size() @property def a_matrixd4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_inf) return data_view.get() @a_matrixd4_inf.setter def a_matrixd4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_inf) data_view.set(value) @property def a_matrixd4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_nan) return data_view.get() @a_matrixd4_nan.setter def a_matrixd4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_nan) data_view.set(value) @property def a_matrixd4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_ninf) return data_view.get() @a_matrixd4_ninf.setter def a_matrixd4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_ninf) data_view.set(value) @property def a_matrixd4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_snan) return data_view.get() @a_matrixd4_snan.setter def a_matrixd4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_matrixd4_snan) data_view.set(value) @property def a_normald3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_inf) return data_view.get(reserved_element_count=self.a_normald3_array_inf_size) @a_normald3_array_inf.setter def a_normald3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_inf) data_view.set(value) self.a_normald3_array_inf_size = data_view.get_array_size() @property def a_normald3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_nan) return data_view.get(reserved_element_count=self.a_normald3_array_nan_size) @a_normald3_array_nan.setter def a_normald3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_nan) data_view.set(value) self.a_normald3_array_nan_size = data_view.get_array_size() @property def a_normald3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_ninf) return data_view.get(reserved_element_count=self.a_normald3_array_ninf_size) @a_normald3_array_ninf.setter def a_normald3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_ninf) data_view.set(value) self.a_normald3_array_ninf_size = data_view.get_array_size() @property def a_normald3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_snan) return data_view.get(reserved_element_count=self.a_normald3_array_snan_size) @a_normald3_array_snan.setter def a_normald3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_array_snan) data_view.set(value) self.a_normald3_array_snan_size = data_view.get_array_size() @property def a_normald3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_inf) return data_view.get() @a_normald3_inf.setter def a_normald3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_inf) data_view.set(value) @property def a_normald3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_nan) return data_view.get() @a_normald3_nan.setter def a_normald3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_nan) data_view.set(value) @property def a_normald3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_ninf) return data_view.get() @a_normald3_ninf.setter def a_normald3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_ninf) data_view.set(value) @property def a_normald3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normald3_snan) return data_view.get() @a_normald3_snan.setter def a_normald3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normald3_snan) data_view.set(value) @property def a_normalf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_inf) return data_view.get(reserved_element_count=self.a_normalf3_array_inf_size) @a_normalf3_array_inf.setter def a_normalf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_inf) data_view.set(value) self.a_normalf3_array_inf_size = data_view.get_array_size() @property def a_normalf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_nan) return data_view.get(reserved_element_count=self.a_normalf3_array_nan_size) @a_normalf3_array_nan.setter def a_normalf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_nan) data_view.set(value) self.a_normalf3_array_nan_size = data_view.get_array_size() @property def a_normalf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_ninf) return data_view.get(reserved_element_count=self.a_normalf3_array_ninf_size) @a_normalf3_array_ninf.setter def a_normalf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_ninf) data_view.set(value) self.a_normalf3_array_ninf_size = data_view.get_array_size() @property def a_normalf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_snan) return data_view.get(reserved_element_count=self.a_normalf3_array_snan_size) @a_normalf3_array_snan.setter def a_normalf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_array_snan) data_view.set(value) self.a_normalf3_array_snan_size = data_view.get_array_size() @property def a_normalf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_inf) return data_view.get() @a_normalf3_inf.setter def a_normalf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_inf) data_view.set(value) @property def a_normalf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_nan) return data_view.get() @a_normalf3_nan.setter def a_normalf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_nan) data_view.set(value) @property def a_normalf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_ninf) return data_view.get() @a_normalf3_ninf.setter def a_normalf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_ninf) data_view.set(value) @property def a_normalf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_snan) return data_view.get() @a_normalf3_snan.setter def a_normalf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalf3_snan) data_view.set(value) @property def a_normalh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_inf) return data_view.get(reserved_element_count=self.a_normalh3_array_inf_size) @a_normalh3_array_inf.setter def a_normalh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_inf) data_view.set(value) self.a_normalh3_array_inf_size = data_view.get_array_size() @property def a_normalh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_nan) return data_view.get(reserved_element_count=self.a_normalh3_array_nan_size) @a_normalh3_array_nan.setter def a_normalh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_nan) data_view.set(value) self.a_normalh3_array_nan_size = data_view.get_array_size() @property def a_normalh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_ninf) return data_view.get(reserved_element_count=self.a_normalh3_array_ninf_size) @a_normalh3_array_ninf.setter def a_normalh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_ninf) data_view.set(value) self.a_normalh3_array_ninf_size = data_view.get_array_size() @property def a_normalh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_snan) return data_view.get(reserved_element_count=self.a_normalh3_array_snan_size) @a_normalh3_array_snan.setter def a_normalh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_array_snan) data_view.set(value) self.a_normalh3_array_snan_size = data_view.get_array_size() @property def a_normalh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_inf) return data_view.get() @a_normalh3_inf.setter def a_normalh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_inf) data_view.set(value) @property def a_normalh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_nan) return data_view.get() @a_normalh3_nan.setter def a_normalh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_nan) data_view.set(value) @property def a_normalh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_ninf) return data_view.get() @a_normalh3_ninf.setter def a_normalh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_ninf) data_view.set(value) @property def a_normalh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_snan) return data_view.get() @a_normalh3_snan.setter def a_normalh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_normalh3_snan) data_view.set(value) @property def a_pointd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_inf) return data_view.get(reserved_element_count=self.a_pointd3_array_inf_size) @a_pointd3_array_inf.setter def a_pointd3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_inf) data_view.set(value) self.a_pointd3_array_inf_size = data_view.get_array_size() @property def a_pointd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_nan) return data_view.get(reserved_element_count=self.a_pointd3_array_nan_size) @a_pointd3_array_nan.setter def a_pointd3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_nan) data_view.set(value) self.a_pointd3_array_nan_size = data_view.get_array_size() @property def a_pointd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_ninf) return data_view.get(reserved_element_count=self.a_pointd3_array_ninf_size) @a_pointd3_array_ninf.setter def a_pointd3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_ninf) data_view.set(value) self.a_pointd3_array_ninf_size = data_view.get_array_size() @property def a_pointd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_snan) return data_view.get(reserved_element_count=self.a_pointd3_array_snan_size) @a_pointd3_array_snan.setter def a_pointd3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_array_snan) data_view.set(value) self.a_pointd3_array_snan_size = data_view.get_array_size() @property def a_pointd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_inf) return data_view.get() @a_pointd3_inf.setter def a_pointd3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_inf) data_view.set(value) @property def a_pointd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_nan) return data_view.get() @a_pointd3_nan.setter def a_pointd3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_nan) data_view.set(value) @property def a_pointd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_ninf) return data_view.get() @a_pointd3_ninf.setter def a_pointd3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_ninf) data_view.set(value) @property def a_pointd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_snan) return data_view.get() @a_pointd3_snan.setter def a_pointd3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointd3_snan) data_view.set(value) @property def a_pointf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_inf) return data_view.get(reserved_element_count=self.a_pointf3_array_inf_size) @a_pointf3_array_inf.setter def a_pointf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_inf) data_view.set(value) self.a_pointf3_array_inf_size = data_view.get_array_size() @property def a_pointf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_nan) return data_view.get(reserved_element_count=self.a_pointf3_array_nan_size) @a_pointf3_array_nan.setter def a_pointf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_nan) data_view.set(value) self.a_pointf3_array_nan_size = data_view.get_array_size() @property def a_pointf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_ninf) return data_view.get(reserved_element_count=self.a_pointf3_array_ninf_size) @a_pointf3_array_ninf.setter def a_pointf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_ninf) data_view.set(value) self.a_pointf3_array_ninf_size = data_view.get_array_size() @property def a_pointf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_snan) return data_view.get(reserved_element_count=self.a_pointf3_array_snan_size) @a_pointf3_array_snan.setter def a_pointf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_array_snan) data_view.set(value) self.a_pointf3_array_snan_size = data_view.get_array_size() @property def a_pointf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_inf) return data_view.get() @a_pointf3_inf.setter def a_pointf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_inf) data_view.set(value) @property def a_pointf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_nan) return data_view.get() @a_pointf3_nan.setter def a_pointf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_nan) data_view.set(value) @property def a_pointf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_ninf) return data_view.get() @a_pointf3_ninf.setter def a_pointf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_ninf) data_view.set(value) @property def a_pointf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_snan) return data_view.get() @a_pointf3_snan.setter def a_pointf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointf3_snan) data_view.set(value) @property def a_pointh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_inf) return data_view.get(reserved_element_count=self.a_pointh3_array_inf_size) @a_pointh3_array_inf.setter def a_pointh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_inf) data_view.set(value) self.a_pointh3_array_inf_size = data_view.get_array_size() @property def a_pointh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_nan) return data_view.get(reserved_element_count=self.a_pointh3_array_nan_size) @a_pointh3_array_nan.setter def a_pointh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_nan) data_view.set(value) self.a_pointh3_array_nan_size = data_view.get_array_size() @property def a_pointh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_ninf) return data_view.get(reserved_element_count=self.a_pointh3_array_ninf_size) @a_pointh3_array_ninf.setter def a_pointh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_ninf) data_view.set(value) self.a_pointh3_array_ninf_size = data_view.get_array_size() @property def a_pointh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_snan) return data_view.get(reserved_element_count=self.a_pointh3_array_snan_size) @a_pointh3_array_snan.setter def a_pointh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_array_snan) data_view.set(value) self.a_pointh3_array_snan_size = data_view.get_array_size() @property def a_pointh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_inf) return data_view.get() @a_pointh3_inf.setter def a_pointh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_inf) data_view.set(value) @property def a_pointh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_nan) return data_view.get() @a_pointh3_nan.setter def a_pointh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_nan) data_view.set(value) @property def a_pointh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_ninf) return data_view.get() @a_pointh3_ninf.setter def a_pointh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_ninf) data_view.set(value) @property def a_pointh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_snan) return data_view.get() @a_pointh3_snan.setter def a_pointh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_pointh3_snan) data_view.set(value) @property def a_quatd4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_inf) return data_view.get(reserved_element_count=self.a_quatd4_array_inf_size) @a_quatd4_array_inf.setter def a_quatd4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_inf) data_view.set(value) self.a_quatd4_array_inf_size = data_view.get_array_size() @property def a_quatd4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_nan) return data_view.get(reserved_element_count=self.a_quatd4_array_nan_size) @a_quatd4_array_nan.setter def a_quatd4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_nan) data_view.set(value) self.a_quatd4_array_nan_size = data_view.get_array_size() @property def a_quatd4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_ninf) return data_view.get(reserved_element_count=self.a_quatd4_array_ninf_size) @a_quatd4_array_ninf.setter def a_quatd4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_ninf) data_view.set(value) self.a_quatd4_array_ninf_size = data_view.get_array_size() @property def a_quatd4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_snan) return data_view.get(reserved_element_count=self.a_quatd4_array_snan_size) @a_quatd4_array_snan.setter def a_quatd4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_array_snan) data_view.set(value) self.a_quatd4_array_snan_size = data_view.get_array_size() @property def a_quatd4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_inf) return data_view.get() @a_quatd4_inf.setter def a_quatd4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_inf) data_view.set(value) @property def a_quatd4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_nan) return data_view.get() @a_quatd4_nan.setter def a_quatd4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_nan) data_view.set(value) @property def a_quatd4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_ninf) return data_view.get() @a_quatd4_ninf.setter def a_quatd4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_ninf) data_view.set(value) @property def a_quatd4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_snan) return data_view.get() @a_quatd4_snan.setter def a_quatd4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatd4_snan) data_view.set(value) @property def a_quatf4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_inf) return data_view.get(reserved_element_count=self.a_quatf4_array_inf_size) @a_quatf4_array_inf.setter def a_quatf4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_inf) data_view.set(value) self.a_quatf4_array_inf_size = data_view.get_array_size() @property def a_quatf4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_nan) return data_view.get(reserved_element_count=self.a_quatf4_array_nan_size) @a_quatf4_array_nan.setter def a_quatf4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_nan) data_view.set(value) self.a_quatf4_array_nan_size = data_view.get_array_size() @property def a_quatf4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_ninf) return data_view.get(reserved_element_count=self.a_quatf4_array_ninf_size) @a_quatf4_array_ninf.setter def a_quatf4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_ninf) data_view.set(value) self.a_quatf4_array_ninf_size = data_view.get_array_size() @property def a_quatf4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_snan) return data_view.get(reserved_element_count=self.a_quatf4_array_snan_size) @a_quatf4_array_snan.setter def a_quatf4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_array_snan) data_view.set(value) self.a_quatf4_array_snan_size = data_view.get_array_size() @property def a_quatf4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_inf) return data_view.get() @a_quatf4_inf.setter def a_quatf4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_inf) data_view.set(value) @property def a_quatf4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_nan) return data_view.get() @a_quatf4_nan.setter def a_quatf4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_nan) data_view.set(value) @property def a_quatf4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_ninf) return data_view.get() @a_quatf4_ninf.setter def a_quatf4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_ninf) data_view.set(value) @property def a_quatf4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_snan) return data_view.get() @a_quatf4_snan.setter def a_quatf4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quatf4_snan) data_view.set(value) @property def a_quath4_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_inf) return data_view.get(reserved_element_count=self.a_quath4_array_inf_size) @a_quath4_array_inf.setter def a_quath4_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_inf) data_view.set(value) self.a_quath4_array_inf_size = data_view.get_array_size() @property def a_quath4_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_nan) return data_view.get(reserved_element_count=self.a_quath4_array_nan_size) @a_quath4_array_nan.setter def a_quath4_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_nan) data_view.set(value) self.a_quath4_array_nan_size = data_view.get_array_size() @property def a_quath4_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_ninf) return data_view.get(reserved_element_count=self.a_quath4_array_ninf_size) @a_quath4_array_ninf.setter def a_quath4_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_ninf) data_view.set(value) self.a_quath4_array_ninf_size = data_view.get_array_size() @property def a_quath4_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_snan) return data_view.get(reserved_element_count=self.a_quath4_array_snan_size) @a_quath4_array_snan.setter def a_quath4_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_array_snan) data_view.set(value) self.a_quath4_array_snan_size = data_view.get_array_size() @property def a_quath4_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_inf) return data_view.get() @a_quath4_inf.setter def a_quath4_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_inf) data_view.set(value) @property def a_quath4_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_nan) return data_view.get() @a_quath4_nan.setter def a_quath4_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_nan) data_view.set(value) @property def a_quath4_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_ninf) return data_view.get() @a_quath4_ninf.setter def a_quath4_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_ninf) data_view.set(value) @property def a_quath4_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_quath4_snan) return data_view.get() @a_quath4_snan.setter def a_quath4_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_quath4_snan) data_view.set(value) @property def a_texcoordd2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_inf) return data_view.get(reserved_element_count=self.a_texcoordd2_array_inf_size) @a_texcoordd2_array_inf.setter def a_texcoordd2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_inf) data_view.set(value) self.a_texcoordd2_array_inf_size = data_view.get_array_size() @property def a_texcoordd2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_nan) return data_view.get(reserved_element_count=self.a_texcoordd2_array_nan_size) @a_texcoordd2_array_nan.setter def a_texcoordd2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_nan) data_view.set(value) self.a_texcoordd2_array_nan_size = data_view.get_array_size() @property def a_texcoordd2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordd2_array_ninf_size) @a_texcoordd2_array_ninf.setter def a_texcoordd2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_ninf) data_view.set(value) self.a_texcoordd2_array_ninf_size = data_view.get_array_size() @property def a_texcoordd2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_snan) return data_view.get(reserved_element_count=self.a_texcoordd2_array_snan_size) @a_texcoordd2_array_snan.setter def a_texcoordd2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_array_snan) data_view.set(value) self.a_texcoordd2_array_snan_size = data_view.get_array_size() @property def a_texcoordd2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_inf) return data_view.get() @a_texcoordd2_inf.setter def a_texcoordd2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_inf) data_view.set(value) @property def a_texcoordd2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_nan) return data_view.get() @a_texcoordd2_nan.setter def a_texcoordd2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_nan) data_view.set(value) @property def a_texcoordd2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_ninf) return data_view.get() @a_texcoordd2_ninf.setter def a_texcoordd2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_ninf) data_view.set(value) @property def a_texcoordd2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_snan) return data_view.get() @a_texcoordd2_snan.setter def a_texcoordd2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd2_snan) data_view.set(value) @property def a_texcoordd3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_inf) return data_view.get(reserved_element_count=self.a_texcoordd3_array_inf_size) @a_texcoordd3_array_inf.setter def a_texcoordd3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_inf) data_view.set(value) self.a_texcoordd3_array_inf_size = data_view.get_array_size() @property def a_texcoordd3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_nan) return data_view.get(reserved_element_count=self.a_texcoordd3_array_nan_size) @a_texcoordd3_array_nan.setter def a_texcoordd3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_nan) data_view.set(value) self.a_texcoordd3_array_nan_size = data_view.get_array_size() @property def a_texcoordd3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordd3_array_ninf_size) @a_texcoordd3_array_ninf.setter def a_texcoordd3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_ninf) data_view.set(value) self.a_texcoordd3_array_ninf_size = data_view.get_array_size() @property def a_texcoordd3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_snan) return data_view.get(reserved_element_count=self.a_texcoordd3_array_snan_size) @a_texcoordd3_array_snan.setter def a_texcoordd3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_array_snan) data_view.set(value) self.a_texcoordd3_array_snan_size = data_view.get_array_size() @property def a_texcoordd3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_inf) return data_view.get() @a_texcoordd3_inf.setter def a_texcoordd3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_inf) data_view.set(value) @property def a_texcoordd3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_nan) return data_view.get() @a_texcoordd3_nan.setter def a_texcoordd3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_nan) data_view.set(value) @property def a_texcoordd3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_ninf) return data_view.get() @a_texcoordd3_ninf.setter def a_texcoordd3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_ninf) data_view.set(value) @property def a_texcoordd3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_snan) return data_view.get() @a_texcoordd3_snan.setter def a_texcoordd3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordd3_snan) data_view.set(value) @property def a_texcoordf2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_inf) return data_view.get(reserved_element_count=self.a_texcoordf2_array_inf_size) @a_texcoordf2_array_inf.setter def a_texcoordf2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_inf) data_view.set(value) self.a_texcoordf2_array_inf_size = data_view.get_array_size() @property def a_texcoordf2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_nan) return data_view.get(reserved_element_count=self.a_texcoordf2_array_nan_size) @a_texcoordf2_array_nan.setter def a_texcoordf2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_nan) data_view.set(value) self.a_texcoordf2_array_nan_size = data_view.get_array_size() @property def a_texcoordf2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordf2_array_ninf_size) @a_texcoordf2_array_ninf.setter def a_texcoordf2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_ninf) data_view.set(value) self.a_texcoordf2_array_ninf_size = data_view.get_array_size() @property def a_texcoordf2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_snan) return data_view.get(reserved_element_count=self.a_texcoordf2_array_snan_size) @a_texcoordf2_array_snan.setter def a_texcoordf2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_array_snan) data_view.set(value) self.a_texcoordf2_array_snan_size = data_view.get_array_size() @property def a_texcoordf2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_inf) return data_view.get() @a_texcoordf2_inf.setter def a_texcoordf2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_inf) data_view.set(value) @property def a_texcoordf2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_nan) return data_view.get() @a_texcoordf2_nan.setter def a_texcoordf2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_nan) data_view.set(value) @property def a_texcoordf2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_ninf) return data_view.get() @a_texcoordf2_ninf.setter def a_texcoordf2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_ninf) data_view.set(value) @property def a_texcoordf2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_snan) return data_view.get() @a_texcoordf2_snan.setter def a_texcoordf2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf2_snan) data_view.set(value) @property def a_texcoordf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_inf) return data_view.get(reserved_element_count=self.a_texcoordf3_array_inf_size) @a_texcoordf3_array_inf.setter def a_texcoordf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_inf) data_view.set(value) self.a_texcoordf3_array_inf_size = data_view.get_array_size() @property def a_texcoordf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_nan) return data_view.get(reserved_element_count=self.a_texcoordf3_array_nan_size) @a_texcoordf3_array_nan.setter def a_texcoordf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_nan) data_view.set(value) self.a_texcoordf3_array_nan_size = data_view.get_array_size() @property def a_texcoordf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordf3_array_ninf_size) @a_texcoordf3_array_ninf.setter def a_texcoordf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_ninf) data_view.set(value) self.a_texcoordf3_array_ninf_size = data_view.get_array_size() @property def a_texcoordf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_snan) return data_view.get(reserved_element_count=self.a_texcoordf3_array_snan_size) @a_texcoordf3_array_snan.setter def a_texcoordf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_array_snan) data_view.set(value) self.a_texcoordf3_array_snan_size = data_view.get_array_size() @property def a_texcoordf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_inf) return data_view.get() @a_texcoordf3_inf.setter def a_texcoordf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_inf) data_view.set(value) @property def a_texcoordf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_nan) return data_view.get() @a_texcoordf3_nan.setter def a_texcoordf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_nan) data_view.set(value) @property def a_texcoordf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_ninf) return data_view.get() @a_texcoordf3_ninf.setter def a_texcoordf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_ninf) data_view.set(value) @property def a_texcoordf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_snan) return data_view.get() @a_texcoordf3_snan.setter def a_texcoordf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordf3_snan) data_view.set(value) @property def a_texcoordh2_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_inf) return data_view.get(reserved_element_count=self.a_texcoordh2_array_inf_size) @a_texcoordh2_array_inf.setter def a_texcoordh2_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_inf) data_view.set(value) self.a_texcoordh2_array_inf_size = data_view.get_array_size() @property def a_texcoordh2_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_nan) return data_view.get(reserved_element_count=self.a_texcoordh2_array_nan_size) @a_texcoordh2_array_nan.setter def a_texcoordh2_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_nan) data_view.set(value) self.a_texcoordh2_array_nan_size = data_view.get_array_size() @property def a_texcoordh2_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordh2_array_ninf_size) @a_texcoordh2_array_ninf.setter def a_texcoordh2_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_ninf) data_view.set(value) self.a_texcoordh2_array_ninf_size = data_view.get_array_size() @property def a_texcoordh2_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_snan) return data_view.get(reserved_element_count=self.a_texcoordh2_array_snan_size) @a_texcoordh2_array_snan.setter def a_texcoordh2_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_array_snan) data_view.set(value) self.a_texcoordh2_array_snan_size = data_view.get_array_size() @property def a_texcoordh2_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_inf) return data_view.get() @a_texcoordh2_inf.setter def a_texcoordh2_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_inf) data_view.set(value) @property def a_texcoordh2_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_nan) return data_view.get() @a_texcoordh2_nan.setter def a_texcoordh2_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_nan) data_view.set(value) @property def a_texcoordh2_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_ninf) return data_view.get() @a_texcoordh2_ninf.setter def a_texcoordh2_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_ninf) data_view.set(value) @property def a_texcoordh2_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_snan) return data_view.get() @a_texcoordh2_snan.setter def a_texcoordh2_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh2_snan) data_view.set(value) @property def a_texcoordh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_inf) return data_view.get(reserved_element_count=self.a_texcoordh3_array_inf_size) @a_texcoordh3_array_inf.setter def a_texcoordh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_inf) data_view.set(value) self.a_texcoordh3_array_inf_size = data_view.get_array_size() @property def a_texcoordh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_nan) return data_view.get(reserved_element_count=self.a_texcoordh3_array_nan_size) @a_texcoordh3_array_nan.setter def a_texcoordh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_nan) data_view.set(value) self.a_texcoordh3_array_nan_size = data_view.get_array_size() @property def a_texcoordh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_ninf) return data_view.get(reserved_element_count=self.a_texcoordh3_array_ninf_size) @a_texcoordh3_array_ninf.setter def a_texcoordh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_ninf) data_view.set(value) self.a_texcoordh3_array_ninf_size = data_view.get_array_size() @property def a_texcoordh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_snan) return data_view.get(reserved_element_count=self.a_texcoordh3_array_snan_size) @a_texcoordh3_array_snan.setter def a_texcoordh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_array_snan) data_view.set(value) self.a_texcoordh3_array_snan_size = data_view.get_array_size() @property def a_texcoordh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_inf) return data_view.get() @a_texcoordh3_inf.setter def a_texcoordh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_inf) data_view.set(value) @property def a_texcoordh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_nan) return data_view.get() @a_texcoordh3_nan.setter def a_texcoordh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_nan) data_view.set(value) @property def a_texcoordh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_ninf) return data_view.get() @a_texcoordh3_ninf.setter def a_texcoordh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_ninf) data_view.set(value) @property def a_texcoordh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_snan) return data_view.get() @a_texcoordh3_snan.setter def a_texcoordh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_texcoordh3_snan) data_view.set(value) @property def a_timecode_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_inf) return data_view.get(reserved_element_count=self.a_timecode_array_inf_size) @a_timecode_array_inf.setter def a_timecode_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_inf) data_view.set(value) self.a_timecode_array_inf_size = data_view.get_array_size() @property def a_timecode_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_nan) return data_view.get(reserved_element_count=self.a_timecode_array_nan_size) @a_timecode_array_nan.setter def a_timecode_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_nan) data_view.set(value) self.a_timecode_array_nan_size = data_view.get_array_size() @property def a_timecode_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_ninf) return data_view.get(reserved_element_count=self.a_timecode_array_ninf_size) @a_timecode_array_ninf.setter def a_timecode_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_ninf) data_view.set(value) self.a_timecode_array_ninf_size = data_view.get_array_size() @property def a_timecode_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_snan) return data_view.get(reserved_element_count=self.a_timecode_array_snan_size) @a_timecode_array_snan.setter def a_timecode_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_array_snan) data_view.set(value) self.a_timecode_array_snan_size = data_view.get_array_size() @property def a_timecode_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_inf) return data_view.get() @a_timecode_inf.setter def a_timecode_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_inf) data_view.set(value) @property def a_timecode_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_nan) return data_view.get() @a_timecode_nan.setter def a_timecode_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_nan) data_view.set(value) @property def a_timecode_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_ninf) return data_view.get() @a_timecode_ninf.setter def a_timecode_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_ninf) data_view.set(value) @property def a_timecode_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_timecode_snan) return data_view.get() @a_timecode_snan.setter def a_timecode_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_timecode_snan) data_view.set(value) @property def a_vectord3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_inf) return data_view.get(reserved_element_count=self.a_vectord3_array_inf_size) @a_vectord3_array_inf.setter def a_vectord3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_inf) data_view.set(value) self.a_vectord3_array_inf_size = data_view.get_array_size() @property def a_vectord3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_nan) return data_view.get(reserved_element_count=self.a_vectord3_array_nan_size) @a_vectord3_array_nan.setter def a_vectord3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_nan) data_view.set(value) self.a_vectord3_array_nan_size = data_view.get_array_size() @property def a_vectord3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_ninf) return data_view.get(reserved_element_count=self.a_vectord3_array_ninf_size) @a_vectord3_array_ninf.setter def a_vectord3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_ninf) data_view.set(value) self.a_vectord3_array_ninf_size = data_view.get_array_size() @property def a_vectord3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_snan) return data_view.get(reserved_element_count=self.a_vectord3_array_snan_size) @a_vectord3_array_snan.setter def a_vectord3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_array_snan) data_view.set(value) self.a_vectord3_array_snan_size = data_view.get_array_size() @property def a_vectord3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_inf) return data_view.get() @a_vectord3_inf.setter def a_vectord3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_inf) data_view.set(value) @property def a_vectord3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_nan) return data_view.get() @a_vectord3_nan.setter def a_vectord3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_nan) data_view.set(value) @property def a_vectord3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_ninf) return data_view.get() @a_vectord3_ninf.setter def a_vectord3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_ninf) data_view.set(value) @property def a_vectord3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_snan) return data_view.get() @a_vectord3_snan.setter def a_vectord3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectord3_snan) data_view.set(value) @property def a_vectorf3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_inf) return data_view.get(reserved_element_count=self.a_vectorf3_array_inf_size) @a_vectorf3_array_inf.setter def a_vectorf3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_inf) data_view.set(value) self.a_vectorf3_array_inf_size = data_view.get_array_size() @property def a_vectorf3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_nan) return data_view.get(reserved_element_count=self.a_vectorf3_array_nan_size) @a_vectorf3_array_nan.setter def a_vectorf3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_nan) data_view.set(value) self.a_vectorf3_array_nan_size = data_view.get_array_size() @property def a_vectorf3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_ninf) return data_view.get(reserved_element_count=self.a_vectorf3_array_ninf_size) @a_vectorf3_array_ninf.setter def a_vectorf3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_ninf) data_view.set(value) self.a_vectorf3_array_ninf_size = data_view.get_array_size() @property def a_vectorf3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_snan) return data_view.get(reserved_element_count=self.a_vectorf3_array_snan_size) @a_vectorf3_array_snan.setter def a_vectorf3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_array_snan) data_view.set(value) self.a_vectorf3_array_snan_size = data_view.get_array_size() @property def a_vectorf3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_inf) return data_view.get() @a_vectorf3_inf.setter def a_vectorf3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_inf) data_view.set(value) @property def a_vectorf3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_nan) return data_view.get() @a_vectorf3_nan.setter def a_vectorf3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_nan) data_view.set(value) @property def a_vectorf3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_ninf) return data_view.get() @a_vectorf3_ninf.setter def a_vectorf3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_ninf) data_view.set(value) @property def a_vectorf3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_snan) return data_view.get() @a_vectorf3_snan.setter def a_vectorf3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorf3_snan) data_view.set(value) @property def a_vectorh3_array_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_inf) return data_view.get(reserved_element_count=self.a_vectorh3_array_inf_size) @a_vectorh3_array_inf.setter def a_vectorh3_array_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_inf) data_view.set(value) self.a_vectorh3_array_inf_size = data_view.get_array_size() @property def a_vectorh3_array_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_nan) return data_view.get(reserved_element_count=self.a_vectorh3_array_nan_size) @a_vectorh3_array_nan.setter def a_vectorh3_array_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_nan) data_view.set(value) self.a_vectorh3_array_nan_size = data_view.get_array_size() @property def a_vectorh3_array_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_ninf) return data_view.get(reserved_element_count=self.a_vectorh3_array_ninf_size) @a_vectorh3_array_ninf.setter def a_vectorh3_array_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_ninf) data_view.set(value) self.a_vectorh3_array_ninf_size = data_view.get_array_size() @property def a_vectorh3_array_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_snan) return data_view.get(reserved_element_count=self.a_vectorh3_array_snan_size) @a_vectorh3_array_snan.setter def a_vectorh3_array_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_array_snan) data_view.set(value) self.a_vectorh3_array_snan_size = data_view.get_array_size() @property def a_vectorh3_inf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_inf) return data_view.get() @a_vectorh3_inf.setter def a_vectorh3_inf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_inf) data_view.set(value) @property def a_vectorh3_nan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_nan) return data_view.get() @a_vectorh3_nan.setter def a_vectorh3_nan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_nan) data_view.set(value) @property def a_vectorh3_ninf(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_ninf) return data_view.get() @a_vectorh3_ninf.setter def a_vectorh3_ninf(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_ninf) data_view.set(value) @property def a_vectorh3_snan(self): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_snan) return data_view.get() @a_vectorh3_snan.setter def a_vectorh3_snan(self, value): data_view = og.AttributeValueHelper(self._attributes.a_vectorh3_snan) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestNanInfDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestNanInfDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestNanInfDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

500,510

Python

51.272689

919

0.605872

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnRandomBundlePointsDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.RandomBundlePoints Generate a bundle of 'bundleSize' arrays of 'pointCount' points at random locations within the bounding cube delineated by the corner points 'minimum' and 'maximum'. """ import carb import numpy import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnRandomBundlePointsDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.RandomBundlePoints Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.bundleSize inputs.maximum inputs.minimum inputs.pointCount Outputs: outputs.bundle """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:bundleSize', 'int', 0, 'Bundle Size', 'Number of point attributes to generate in the bundle', {}, True, 0, False, ''), ('inputs:maximum', 'point3f', 0, 'Bounding Cube Maximum', 'Highest X, Y, Z values for the bounding volume', {ogn.MetadataKeys.DEFAULT: '[1.0, 1.0, 1.0]'}, True, [1.0, 1.0, 1.0], False, ''), ('inputs:minimum', 'point3f', 0, 'Bounding Cube Minimum', 'Lowest X, Y, Z values for the bounding volume', {ogn.MetadataKeys.DEFAULT: '[0.0, 0.0, 0.0]'}, True, [0.0, 0.0, 0.0], False, ''), ('inputs:pointCount', 'uint64', 0, 'Point Count', 'Number of points to generate', {}, True, 0, False, ''), ('outputs:bundle', 'bundle', 0, 'Random Bundle', 'Randomly generated bundle of attributes containing random points', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.maximum = og.AttributeRole.POSITION role_data.inputs.minimum = og.AttributeRole.POSITION role_data.outputs.bundle = og.AttributeRole.BUNDLE return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def bundleSize(self): data_view = og.AttributeValueHelper(self._attributes.bundleSize) return data_view.get() @bundleSize.setter def bundleSize(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.bundleSize) data_view = og.AttributeValueHelper(self._attributes.bundleSize) data_view.set(value) @property def maximum(self): data_view = og.AttributeValueHelper(self._attributes.maximum) return data_view.get() @maximum.setter def maximum(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.maximum) data_view = og.AttributeValueHelper(self._attributes.maximum) data_view.set(value) @property def minimum(self): data_view = og.AttributeValueHelper(self._attributes.minimum) return data_view.get() @minimum.setter def minimum(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.minimum) data_view = og.AttributeValueHelper(self._attributes.minimum) data_view.set(value) @property def pointCount(self): data_view = og.AttributeValueHelper(self._attributes.pointCount) return data_view.get() @pointCount.setter def pointCount(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.pointCount) data_view = og.AttributeValueHelper(self._attributes.pointCount) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self._batchedWriteValues = { } @property def bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute outputs.bundle""" return self.__bundles.bundle @bundle.setter def bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute outputs.bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.bundle.bundle = bundle def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnRandomBundlePointsDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnRandomBundlePointsDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnRandomBundlePointsDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

7,913

Python

46.389221

197

0.657652

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestScatterDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TestScatter Test node to test out the effects of vectorization. Scatters the results of gathered compute back to FC """ import carb import numpy import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestScatterDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestScatter Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.gathered_paths inputs.rotations Outputs: outputs.gathered_paths outputs.rotations outputs.single_rotation """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:gathered_paths', 'token[]', 0, None, 'The paths of the gathered objects', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('inputs:rotations', 'double3[]', 0, None, 'The rotations of the gathered points', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('outputs:gathered_paths', 'token[]', 0, None, 'The paths of the gathered objects', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('outputs:rotations', 'double3[]', 0, None, 'The rotations of the gathered points', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''), ('outputs:single_rotation', 'double3', 0, None, 'Placeholder single rotation until we get the scatter working properly', {ogn.MetadataKeys.DEFAULT: '[0, 0, 0]'}, True, [0, 0, 0], False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def gathered_paths(self): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) return data_view.get() @gathered_paths.setter def gathered_paths(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.gathered_paths) data_view = og.AttributeValueHelper(self._attributes.gathered_paths) data_view.set(value) self.gathered_paths_size = data_view.get_array_size() @property def rotations(self): data_view = og.AttributeValueHelper(self._attributes.rotations) return data_view.get() @rotations.setter def rotations(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.rotations) data_view = og.AttributeValueHelper(self._attributes.rotations) data_view.set(value) self.rotations_size = data_view.get_array_size() def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.gathered_paths_size = 0 self.rotations_size = 0 self._batchedWriteValues = { } @property def gathered_paths(self): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) return data_view.get(reserved_element_count=self.gathered_paths_size) @gathered_paths.setter def gathered_paths(self, value): data_view = og.AttributeValueHelper(self._attributes.gathered_paths) data_view.set(value) self.gathered_paths_size = data_view.get_array_size() @property def rotations(self): data_view = og.AttributeValueHelper(self._attributes.rotations) return data_view.get(reserved_element_count=self.rotations_size) @rotations.setter def rotations(self, value): data_view = og.AttributeValueHelper(self._attributes.rotations) data_view.set(value) self.rotations_size = data_view.get_array_size() @property def single_rotation(self): data_view = og.AttributeValueHelper(self._attributes.single_rotation) return data_view.get() @single_rotation.setter def single_rotation(self, value): data_view = og.AttributeValueHelper(self._attributes.single_rotation) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestScatterDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestScatterDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestScatterDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

7,389

Python

46.677419

198

0.658411

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestWriteVariablePyDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TestWriteVariablePy Node that test writes a value to a variable in python """ from typing import Any import carb import sys import traceback import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestWriteVariablePyDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestWriteVariablePy Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.execIn inputs.value inputs.variableName Outputs: outputs.execOut outputs.value """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:execIn', 'execution', 0, None, 'Input execution state', {}, True, None, False, ''), ('inputs:value', 'any', 2, None, 'The new value to be written', {}, True, None, False, ''), ('inputs:variableName', 'token', 0, None, 'The name of the graph variable to use.', {}, True, "", False, ''), ('outputs:execOut', 'execution', 0, None, 'Output execution', {}, True, None, False, ''), ('outputs:value', 'any', 2, None, 'The newly written value', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.execIn = og.AttributeRole.EXECUTION role_data.outputs.execOut = og.AttributeRole.EXECUTION return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = {"execIn", "variableName", "_setting_locked", "_batchedReadAttributes", "_batchedReadValues"} """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [self._attributes.execIn, self._attributes.variableName] self._batchedReadValues = [None, ""] @property def value(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute inputs.value""" return og.RuntimeAttribute(self._attributes.value.get_attribute_data(), self._context, True) @value.setter def value(self, value_to_set: Any): """Assign another attribute's value to outputs.value""" if isinstance(value_to_set, og.RuntimeAttribute): self.value.value = value_to_set.value else: self.value.value = value_to_set @property def execIn(self): return self._batchedReadValues[0] @execIn.setter def execIn(self, value): self._batchedReadValues[0] = value @property def variableName(self): return self._batchedReadValues[1] @variableName.setter def variableName(self, value): self._batchedReadValues[1] = value def __getattr__(self, item: str): if item in self.LOCAL_PROPERTY_NAMES: return object.__getattribute__(self, item) else: return super().__getattr__(item) def __setattr__(self, item: str, new_value): if item in self.LOCAL_PROPERTY_NAMES: object.__setattr__(self, item, new_value) else: super().__setattr__(item, new_value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = {"execOut", "_batchedWriteValues"} """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def value(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.value""" return og.RuntimeAttribute(self._attributes.value.get_attribute_data(), self._context, False) @value.setter def value(self, value_to_set: Any): """Assign another attribute's value to outputs.value""" if isinstance(value_to_set, og.RuntimeAttribute): self.value.value = value_to_set.value else: self.value.value = value_to_set @property def execOut(self): value = self._batchedWriteValues.get(self._attributes.execOut) if value: return value else: data_view = og.AttributeValueHelper(self._attributes.execOut) return data_view.get() @execOut.setter def execOut(self, value): self._batchedWriteValues[self._attributes.execOut] = value def __getattr__(self, item: str): if item in self.LOCAL_PROPERTY_NAMES: return object.__getattribute__(self, item) else: return super().__getattr__(item) def __setattr__(self, item: str, new_value): if item in self.LOCAL_PROPERTY_NAMES: object.__setattr__(self, item, new_value) else: super().__setattr__(item, new_value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestWriteVariablePyDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestWriteVariablePyDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestWriteVariablePyDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes) class abi: """Class defining the ABI interface for the node type""" @staticmethod def get_node_type(): get_node_type_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'get_node_type', None) if callable(get_node_type_function): return get_node_type_function() return 'omni.graph.test.TestWriteVariablePy' @staticmethod def compute(context, node): def database_valid(): if db.inputs.value.type.base_type == og.BaseDataType.UNKNOWN: db.log_warning('Required extended attribute inputs:value is not resolved, compute skipped') return False if db.outputs.value.type.base_type == og.BaseDataType.UNKNOWN: db.log_warning('Required extended attribute outputs:value is not resolved, compute skipped') return False return True try: per_node_data = OgnTestWriteVariablePyDatabase.PER_NODE_DATA[node.node_id()] db = per_node_data.get('_db') if db is None: db = OgnTestWriteVariablePyDatabase(node) per_node_data['_db'] = db if not database_valid(): per_node_data['_db'] = None return False except: db = OgnTestWriteVariablePyDatabase(node) try: compute_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'compute', None) if callable(compute_function) and compute_function.__code__.co_argcount > 1: return compute_function(context, node) db.inputs._prefetch() db.inputs._setting_locked = True with og.in_compute(): return OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS.compute(db) except Exception as error: stack_trace = "".join(traceback.format_tb(sys.exc_info()[2].tb_next)) db.log_error(f'Assertion raised in compute - {error}\n{stack_trace}', add_context=False) finally: db.inputs._setting_locked = False db.outputs._commit() return False @staticmethod def initialize(context, node): OgnTestWriteVariablePyDatabase._initialize_per_node_data(node) initialize_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'initialize', None) if callable(initialize_function): initialize_function(context, node) per_node_data = OgnTestWriteVariablePyDatabase.PER_NODE_DATA[node.node_id()] def on_connection_or_disconnection(*args): per_node_data['_db'] = None node.register_on_connected_callback(on_connection_or_disconnection) node.register_on_disconnected_callback(on_connection_or_disconnection) @staticmethod def release(node): release_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'release', None) if callable(release_function): release_function(node) OgnTestWriteVariablePyDatabase._release_per_node_data(node) @staticmethod def release_instance(node, target): OgnTestWriteVariablePyDatabase._release_per_node_instance_data(node, target) @staticmethod def update_node_version(context, node, old_version, new_version): update_node_version_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'update_node_version', None) if callable(update_node_version_function): return update_node_version_function(context, node, old_version, new_version) return False @staticmethod def initialize_type(node_type): initialize_type_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'initialize_type', None) needs_initializing = True if callable(initialize_type_function): needs_initializing = initialize_type_function(node_type) if needs_initializing: node_type.set_metadata(ogn.MetadataKeys.EXTENSION, "omni.graph.test") node_type.set_metadata(ogn.MetadataKeys.UI_NAME, "Write Variable") node_type.set_metadata(ogn.MetadataKeys.CATEGORIES, "internal:test") node_type.set_metadata(ogn.MetadataKeys.DESCRIPTION, "Node that test writes a value to a variable in python") node_type.set_metadata(ogn.MetadataKeys.EXCLUSIONS, "tests,usd,docs") node_type.set_metadata(ogn.MetadataKeys.LANGUAGE, "Python") icon_path = carb.tokens.get_tokens_interface().resolve("${omni.graph.test}") icon_path = icon_path + '/' + "ogn/icons/omni.graph.test.TestWriteVariablePy.svg" node_type.set_metadata(ogn.MetadataKeys.ICON_PATH, icon_path) OgnTestWriteVariablePyDatabase.INTERFACE.add_to_node_type(node_type) @staticmethod def on_connection_type_resolve(node): on_connection_type_resolve_function = getattr(OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS, 'on_connection_type_resolve', None) if callable(on_connection_type_resolve_function): on_connection_type_resolve_function(node) NODE_TYPE_CLASS = None @staticmethod def register(node_type_class): OgnTestWriteVariablePyDatabase.NODE_TYPE_CLASS = node_type_class og.register_node_type(OgnTestWriteVariablePyDatabase.abi, 1) @staticmethod def deregister(): og.deregister_node_type("omni.graph.test.TestWriteVariablePy")

13,982

Python

45.61

141

0.629667

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestTypeResolutionDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TypeResolution Test node, explicitly constructed to make the attribute type resolution mechanism testable. It has output attributes with union and any types whose type will be resolved at runtime when they are connected to inputs with a fixed type. The extra string output provides the resolution information to the test script for verification """ from typing import Any import carb import numpy import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestTypeResolutionDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TypeResolution Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.anyValueIn Outputs: outputs.anyValue outputs.arrayValue outputs.mixedValue outputs.resolvedType outputs.tupleArrayValue outputs.tupleValue outputs.value """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:anyValueIn', 'any', 2, None, 'Input that can resolve to any type. Internally the node couples \nthe types of inputs:anyValueIn -> outputs:anyValue. Meaning if one is resolved it will\nautomatically resolve the other', {}, True, None, False, ''), ('outputs:anyValue', 'any', 2, None, 'Output that can resolve to any type at all', {}, True, None, False, ''), ('outputs:arrayValue', 'double[],float[],int64[],int[],uint64[],uint[]', 1, None, 'Output that only resolves to one of the numeric array types.', {}, True, None, False, ''), ('outputs:mixedValue', 'float,float[3],float[3][],float[]', 1, None, 'Output that can resolve to data of different shapes.', {}, True, None, False, ''), ('outputs:resolvedType', 'token[]', 0, None, "Array of strings representing the output attribute's type resolutions.\nThe array items consist of comma-separated pairs of strings representing\nthe output attribute name and the type to which it is currently resolved.\ne.g. if the attribute 'foo' is an integer there would be one entry in the array\nwith the string 'foo,int'", {}, True, None, False, ''), ('outputs:tupleArrayValue', 'double[3][],float[3][],int[3][]', 1, None, 'Output that only resolves to one of the numeric tuple array types.', {}, True, None, False, ''), ('outputs:tupleValue', 'double[3],float[3],int[3]', 1, None, 'Output that only resolves to one of the numeric tuple types.', {}, True, None, False, ''), ('outputs:value', 'double,float,int,int64,uint,uint64', 1, None, 'Output that only resolves to one of the numeric types.', {}, True, None, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def anyValueIn(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute inputs.anyValueIn""" return og.RuntimeAttribute(self._attributes.anyValueIn.get_attribute_data(), self._context, True) @anyValueIn.setter def anyValueIn(self, value_to_set: Any): """Assign another attribute's value to outputs.anyValueIn""" if isinstance(value_to_set, og.RuntimeAttribute): self.anyValueIn.value = value_to_set.value else: self.anyValueIn.value = value_to_set def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.resolvedType_size = None self._batchedWriteValues = { } @property def anyValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.anyValue""" return og.RuntimeAttribute(self._attributes.anyValue.get_attribute_data(), self._context, False) @anyValue.setter def anyValue(self, value_to_set: Any): """Assign another attribute's value to outputs.anyValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.anyValue.value = value_to_set.value else: self.anyValue.value = value_to_set @property def arrayValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.arrayValue""" return og.RuntimeAttribute(self._attributes.arrayValue.get_attribute_data(), self._context, False) @arrayValue.setter def arrayValue(self, value_to_set: Any): """Assign another attribute's value to outputs.arrayValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.arrayValue.value = value_to_set.value else: self.arrayValue.value = value_to_set @property def mixedValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.mixedValue""" return og.RuntimeAttribute(self._attributes.mixedValue.get_attribute_data(), self._context, False) @mixedValue.setter def mixedValue(self, value_to_set: Any): """Assign another attribute's value to outputs.mixedValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.mixedValue.value = value_to_set.value else: self.mixedValue.value = value_to_set @property def resolvedType(self): data_view = og.AttributeValueHelper(self._attributes.resolvedType) return data_view.get(reserved_element_count=self.resolvedType_size) @resolvedType.setter def resolvedType(self, value): data_view = og.AttributeValueHelper(self._attributes.resolvedType) data_view.set(value) self.resolvedType_size = data_view.get_array_size() @property def tupleArrayValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.tupleArrayValue""" return og.RuntimeAttribute(self._attributes.tupleArrayValue.get_attribute_data(), self._context, False) @tupleArrayValue.setter def tupleArrayValue(self, value_to_set: Any): """Assign another attribute's value to outputs.tupleArrayValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.tupleArrayValue.value = value_to_set.value else: self.tupleArrayValue.value = value_to_set @property def tupleValue(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.tupleValue""" return og.RuntimeAttribute(self._attributes.tupleValue.get_attribute_data(), self._context, False) @tupleValue.setter def tupleValue(self, value_to_set: Any): """Assign another attribute's value to outputs.tupleValue""" if isinstance(value_to_set, og.RuntimeAttribute): self.tupleValue.value = value_to_set.value else: self.tupleValue.value = value_to_set @property def value(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.value""" return og.RuntimeAttribute(self._attributes.value.get_attribute_data(), self._context, False) @value.setter def value(self, value_to_set: Any): """Assign another attribute's value to outputs.value""" if isinstance(value_to_set, og.RuntimeAttribute): self.value.value = value_to_set.value else: self.value.value = value_to_set def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestTypeResolutionDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestTypeResolutionDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestTypeResolutionDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

10,983

Python

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411

0.660748

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestCppKeywordsDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TestCppKeywords Test that attributes named for C++ keywords produce valid code """ import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestCppKeywordsDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestCppKeywords Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.atomic_cancel inputs.atomic_commit inputs.atomic_noexcept inputs.consteval inputs.constinit inputs.reflexpr inputs.requires Outputs: outputs.verify """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:atomic_cancel', 'float', 0, None, 'KW Test for atomic_cancel', {}, True, 0.0, False, ''), ('inputs:atomic_commit', 'float', 0, None, 'KW Test for atomic_commit', {}, True, 0.0, False, ''), ('inputs:atomic_noexcept', 'float', 0, None, 'KW Test for atomic_noexcept', {}, True, 0.0, False, ''), ('inputs:consteval', 'float', 0, None, 'KW Test for consteval', {}, True, 0.0, False, ''), ('inputs:constinit', 'float', 0, None, 'KW Test for constinit', {}, True, 0.0, False, ''), ('inputs:reflexpr', 'float', 0, None, 'KW Test for reflexpr', {}, True, 0.0, False, ''), ('inputs:requires', 'float', 0, None, 'KW Test for requires', {}, True, 0.0, False, ''), ('outputs:verify', 'bool', 0, None, 'Flag to indicate that a node was created and executed', {}, True, None, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def atomic_cancel(self): data_view = og.AttributeValueHelper(self._attributes.atomic_cancel) return data_view.get() @atomic_cancel.setter def atomic_cancel(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.atomic_cancel) data_view = og.AttributeValueHelper(self._attributes.atomic_cancel) data_view.set(value) @property def atomic_commit(self): data_view = og.AttributeValueHelper(self._attributes.atomic_commit) return data_view.get() @atomic_commit.setter def atomic_commit(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.atomic_commit) data_view = og.AttributeValueHelper(self._attributes.atomic_commit) data_view.set(value) @property def atomic_noexcept(self): data_view = og.AttributeValueHelper(self._attributes.atomic_noexcept) return data_view.get() @atomic_noexcept.setter def atomic_noexcept(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.atomic_noexcept) data_view = og.AttributeValueHelper(self._attributes.atomic_noexcept) data_view.set(value) @property def consteval(self): data_view = og.AttributeValueHelper(self._attributes.consteval) return data_view.get() @consteval.setter def consteval(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.consteval) data_view = og.AttributeValueHelper(self._attributes.consteval) data_view.set(value) @property def constinit(self): data_view = og.AttributeValueHelper(self._attributes.constinit) return data_view.get() @constinit.setter def constinit(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.constinit) data_view = og.AttributeValueHelper(self._attributes.constinit) data_view.set(value) @property def reflexpr(self): data_view = og.AttributeValueHelper(self._attributes.reflexpr) return data_view.get() @reflexpr.setter def reflexpr(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.reflexpr) data_view = og.AttributeValueHelper(self._attributes.reflexpr) data_view.set(value) @property def requires(self): data_view = og.AttributeValueHelper(self._attributes.requires) return data_view.get() @requires.setter def requires(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.requires) data_view = og.AttributeValueHelper(self._attributes.requires) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def verify(self): data_view = og.AttributeValueHelper(self._attributes.verify) return data_view.get() @verify.setter def verify(self, value): data_view = og.AttributeValueHelper(self._attributes.verify) data_view.set(value) def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestCppKeywordsDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestCppKeywordsDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestCppKeywordsDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

8,546

Python

43.284974

128

0.639129

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnTestAddAnyTypeAnyMemoryDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.TestAddAnyTypeAnyMemory Test node that sum 2 runtime attributes that live either on the cpu or the gpu """ from typing import Any import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnTestAddAnyTypeAnyMemoryDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.TestAddAnyTypeAnyMemory Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.scalar inputs.vec Outputs: outputs.outCpu outputs.outGpu """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:scalar', 'double,float', 1, None, 'A scalar to add to each vector component', {ogn.MetadataKeys.MEMORY_TYPE: 'any'}, True, None, False, ''), ('inputs:vec', 'double[3],float[3]', 1, None, 'vector[3] Input ', {ogn.MetadataKeys.MEMORY_TYPE: 'any'}, True, None, False, ''), ('outputs:outCpu', 'double[3],float[3]', 1, None, 'The result of the scalar added to each component of the vector on the CPU', {ogn.MetadataKeys.MEMORY_TYPE: 'cpu'}, True, None, False, ''), ('outputs:outGpu', 'double[3],float[3]', 1, None, 'The result of the scalar added to each component of the vector on the GPU', {ogn.MetadataKeys.MEMORY_TYPE: 'cuda'}, True, None, False, ''), ]) class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def scalar(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute inputs.scalar""" return og.RuntimeAttribute(self._attributes.scalar.get_attribute_data(), self._context, True) @scalar.setter def scalar(self, value_to_set: Any): """Assign another attribute's value to outputs.scalar""" if isinstance(value_to_set, og.RuntimeAttribute): self.scalar.value = value_to_set.value else: self.scalar.value = value_to_set @property def vec(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute inputs.vec""" return og.RuntimeAttribute(self._attributes.vec.get_attribute_data(), self._context, True) @vec.setter def vec(self, value_to_set: Any): """Assign another attribute's value to outputs.vec""" if isinstance(value_to_set, og.RuntimeAttribute): self.vec.value = value_to_set.value else: self.vec.value = value_to_set def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self._batchedWriteValues = { } @property def outCpu(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.outCpu""" return og.RuntimeAttribute(self._attributes.outCpu.get_attribute_data(), self._context, False) @outCpu.setter def outCpu(self, value_to_set: Any): """Assign another attribute's value to outputs.outCpu""" if isinstance(value_to_set, og.RuntimeAttribute): self.outCpu.value = value_to_set.value else: self.outCpu.value = value_to_set @property def outGpu(self) -> og.RuntimeAttribute: """Get the runtime wrapper class for the attribute outputs.outGpu""" return og.RuntimeAttribute(self._attributes.outGpu.get_attribute_data(), self._context, False) @outGpu.setter def outGpu(self, value_to_set: Any): """Assign another attribute's value to outputs.outGpu""" if isinstance(value_to_set, og.RuntimeAttribute): self.outGpu.value = value_to_set.value else: self.outGpu.value = value_to_set def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnTestAddAnyTypeAnyMemoryDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnTestAddAnyTypeAnyMemoryDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnTestAddAnyTypeAnyMemoryDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

7,203

Python

48.682758

198

0.658059

omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/OgnPerturbBundlePointsDatabase.py

"""Support for simplified access to data on nodes of type omni.graph.test.PerturbBundlePoints Randomly modify positions on all points attributes within a bundle """ import carb import numpy import carb import omni.graph.core as og import omni.graph.core._omni_graph_core as _og import omni.graph.tools.ogn as ogn class OgnPerturbBundlePointsDatabase(og.Database): """Helper class providing simplified access to data on nodes of type omni.graph.test.PerturbBundlePoints Class Members: node: Node being evaluated Attribute Value Properties: Inputs: inputs.bundle inputs.maximum inputs.minimum inputs.percentModified Outputs: outputs.bundle """ # Imprint the generator and target ABI versions in the file for JIT generation GENERATOR_VERSION = (1, 41, 3) TARGET_VERSION = (2, 139, 12) # This is an internal object that provides per-class storage of a per-node data dictionary PER_NODE_DATA = {} # This is an internal object that describes unchanging attributes in a generic way # The values in this list are in no particular order, as a per-attribute tuple # Name, Type, ExtendedTypeIndex, UiName, Description, Metadata, # Is_Required, DefaultValue, Is_Deprecated, DeprecationMsg # You should not need to access any of this data directly, use the defined database interfaces INTERFACE = og.Database._get_interface([ ('inputs:bundle', 'bundle', 0, 'Original Bundle', 'Bundle containing arrays of points to be perturbed', {}, True, None, False, ''), ('inputs:maximum', 'point3f', 0, 'Perturb Maximum', 'Maximum values of the perturbation', {ogn.MetadataKeys.DEFAULT: '[1.0, 1.0, 1.0]'}, True, [1.0, 1.0, 1.0], False, ''), ('inputs:minimum', 'point3f', 0, 'Perturb Minimum', 'Minimum values of the perturbation', {ogn.MetadataKeys.DEFAULT: '[0.0, 0.0, 0.0]'}, True, [0.0, 0.0, 0.0], False, ''), ('inputs:percentModified', 'float', 0, 'Percentage Modified', 'Percentage of points to modify, decided by striding across point set', {ogn.MetadataKeys.DEFAULT: '100.0'}, True, 100.0, False, ''), ('outputs:bundle', 'bundle', 0, 'Perturbed Bundle', 'Bundle containing arrays of points that were perturbed', {}, True, None, False, ''), ]) @classmethod def _populate_role_data(cls): """Populate a role structure with the non-default roles on this node type""" role_data = super()._populate_role_data() role_data.inputs.bundle = og.AttributeRole.BUNDLE role_data.inputs.maximum = og.AttributeRole.POSITION role_data.inputs.minimum = og.AttributeRole.POSITION role_data.outputs.bundle = og.AttributeRole.BUNDLE return role_data class ValuesForInputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to input attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=True, gpu_ptr_kinds={}) self._batchedReadAttributes = [] self._batchedReadValues = [] @property def bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute inputs.bundle""" return self.__bundles.bundle @property def maximum(self): data_view = og.AttributeValueHelper(self._attributes.maximum) return data_view.get() @maximum.setter def maximum(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.maximum) data_view = og.AttributeValueHelper(self._attributes.maximum) data_view.set(value) @property def minimum(self): data_view = og.AttributeValueHelper(self._attributes.minimum) return data_view.get() @minimum.setter def minimum(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.minimum) data_view = og.AttributeValueHelper(self._attributes.minimum) data_view.set(value) @property def percentModified(self): data_view = og.AttributeValueHelper(self._attributes.percentModified) return data_view.get() @percentModified.setter def percentModified(self, value): if self._setting_locked: raise og.ReadOnlyError(self._attributes.percentModified) data_view = og.AttributeValueHelper(self._attributes.percentModified) data_view.set(value) def _prefetch(self): readAttributes = self._batchedReadAttributes newValues = _og._prefetch_input_attributes_data(readAttributes) if len(readAttributes) == len(newValues): self._batchedReadValues = newValues class ValuesForOutputs(og.DynamicAttributeAccess): LOCAL_PROPERTY_NAMES = { } """Helper class that creates natural hierarchical access to output attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) self.__bundles = og.BundleContainer(context, node, attributes, [], read_only=False, gpu_ptr_kinds={}) self._batchedWriteValues = { } @property def bundle(self) -> og.BundleContents: """Get the bundle wrapper class for the attribute outputs.bundle""" return self.__bundles.bundle @bundle.setter def bundle(self, bundle: og.BundleContents): """Overwrite the bundle attribute outputs.bundle with a new bundle""" if not isinstance(bundle, og.BundleContents): carb.log_error("Only bundle attributes can be assigned to another bundle attribute") self.__bundles.bundle.bundle = bundle def _commit(self): _og._commit_output_attributes_data(self._batchedWriteValues) self._batchedWriteValues = { } class ValuesForState(og.DynamicAttributeAccess): """Helper class that creates natural hierarchical access to state attributes""" def __init__(self, node: og.Node, attributes, dynamic_attributes: og.DynamicAttributeInterface): """Initialize simplified access for the attribute data""" context = node.get_graph().get_default_graph_context() super().__init__(context, node, attributes, dynamic_attributes) def __init__(self, node): super().__init__(node) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT) self.inputs = OgnPerturbBundlePointsDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT) self.outputs = OgnPerturbBundlePointsDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes) dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE) self.state = OgnPerturbBundlePointsDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestOptionalExtended.py

"""Test node exercising the 'optional' flag on extended attributes""" import omni.graph.core as og class OgnTestOptionalExtended: @staticmethod def compute(db) -> bool: """Moves the 'other' input to the 'other' output if both of the optional attributes are not resolved, sets the 'other' output to the default value if only one of them is resolved, and copies the 'optional' input to the 'optional' output if both are resolved. (Since this is a test node we can count on the resolution types being compatible.) """ if db.attributes.inputs.optional.get_resolved_type().base_type == og.BaseDataType.UNKNOWN: if db.attributes.outputs.optional.get_resolved_type().base_type == og.BaseDataType.UNKNOWN: db.outputs.other = db.inputs.other else: db.outputs.other = 10 elif db.attributes.outputs.optional.get_resolved_type().base_type != og.BaseDataType.UNKNOWN: db.outputs.optional = db.inputs.optional else: db.outputs.other = 10

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestIsolate.cpp

// 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. // #include <OgnTestIsolateDatabase.h> #include "../include/omni/graph/test/ConcurrencyState.h" // This is the implementation of the OGN node defined in OgnTestIsolate.ogn // This node is used as part of a unit test in ../python/tests/test_execution.py namespace omni { namespace graph { namespace test { class OgnTestIsolate { public: static bool compute(OgnTestIsolateDatabase& db) { db.outputs.result() = false; // Use a race condition finder to confirm that there is no collision between serial and/or isolated // tasks. If we crash in here, that means ParallelScheduler is not respecting scheduling constraints. omni::graph::exec::unstable::RaceConditionFinder::Scope detectIssues(getConcurrencyState().raceConditionFinder); // In addition to ensuring that no other threads try to access the resources held by // this node/the thread this node gets evaluated in, Isolate scheduling implies that only // a SINGLE thread processing the current Isolate node can be computing (until said node // is done being evaluated). To validate that this is the case, try to grab an exclusive // lock over the global shared mutex. If this node is unable to do that (because concurrently- // running nodes have ownership over it at the moment), we'll return false. Also, if another // node/thread tries to access said shared mutex while this node is evaluating, the test will // end up failing as well. // Return early if TestIsolate can't exclusively own the shared mutex. outputs:result was already // set to false at the start, so no need to do anything else. if (!getConcurrencyState().sharedMutex.try_lock()) { return true; } // Sleep for a while (simulate expensive compute/allows for potential race conditions to occur). std::this_thread::sleep_for(std::chrono::milliseconds(100)); // Unlock the shared mutex, set output:result to true. db.outputs.result() = true; getConcurrencyState().sharedMutex.unlock(); return true; } }; REGISTER_OGN_NODE() } // test } // namespace graph } // namespace omni

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestSerial.cpp

// 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. // #include "../include/omni/graph/test/ConcurrencyState.h" #include <OgnTestSerialDatabase.h> // This is the implementation of the OGN node defined in OgnTestSerial.ogn namespace omni { namespace graph { namespace test { class OgnTestSerial { public: static bool compute(OgnTestSerialDatabase& db) { db.outputs.result() = false; // Use a race condition finder to confirm that there is no collision between serial and/or isolated // tasks. If we crash in here, that means ParallelScheduler is not respecting scheduling constraints. omni::graph::exec::unstable::RaceConditionFinder::Scope detectIssues(getConcurrencyState().raceConditionFinder); // Sleep for a while (simulate expensive compute and give time for potential race conditions // to arise). std::this_thread::sleep_for(std::chrono::milliseconds(100)); db.outputs.result() = true; return true; } }; REGISTER_OGN_NODE() } // test } // namespace graph } // namespace omni

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestConcurrency.cpp

// Copyright (c) 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. // #include <OgnTestConcurrencyDatabase.h> #include <omni/graph/exec/unstable/IExecutionContext.h> #include <omni/graph/exec/unstable/IExecutionCurrentThread.h> #include <omni/graph/exec/unstable/Stamp.h> #include "../include/omni/graph/test/ConcurrencyState.h" #include <atomic> #include <chrono> #include <cstdlib> #include <mutex> // This is the implementation of the OGN node defined in OgnTestConcurrency.ogn namespace omni { namespace graph { namespace test { namespace { std::mutex g_resetMutex; exec::unstable::SyncStamp g_currentSyncStamp; std::atomic<uint64_t> g_currentConcurrency{0}; } class OgnTestConcurrency { public: static bool compute(OgnTestConcurrencyDatabase& db) { auto& result = db.outputs.result(); result = false; // Try to access the shared mutex via a shared lock. If the node is unable to do // that (i.e. because TestIsolate currently holds exclusive ownership), we'll // return early with result set to false. if (!getConcurrencyState().sharedMutex.try_lock_shared()) { return true; } if (auto task = exec::unstable::getCurrentTask()) { auto currentStamp = task->getContext()->getExecutionStamp(); if(!g_currentSyncStamp.inSync(currentStamp)) { std::unique_lock<std::mutex> lock(g_resetMutex); if(g_currentSyncStamp.makeSync(currentStamp)) { g_currentConcurrency = 0; } } g_currentConcurrency++; uint64_t expectedConcurrency = db.inputs.expected(); std::chrono::milliseconds timeOut(db.inputs.timeOut()); auto start = std::chrono::high_resolution_clock::now(); std::chrono::milliseconds currentDuration; do { currentDuration = std::chrono::duration_cast<std::chrono::milliseconds>(std::chrono::high_resolution_clock::now()-start); if(g_currentConcurrency.load() == expectedConcurrency) { result = true; break; } std::this_thread::yield(); } while(currentDuration < timeOut); } // Release the shared mutex. getConcurrencyState().sharedMutex.unlock_shared(); return true; } }; REGISTER_OGN_NODE() } // test } // namespace graph } // namespace omni

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestDynamicAttributeRawData.cpp

// 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. // #include <OgnTestDynamicAttributeRawDataDatabase.h> namespace omni { namespace graph { namespace test { namespace { template<typename TAttribute, typename TValue> void writeRawData(TAttribute& runtimeAttribute, TValue value) { uint8_t* dstData{ nullptr }; size_t size{ 0 }; runtimeAttribute.rawData(dstData, size); memcpy(dstData, &value, size); } } // This node validates the APIs for accessing and mutating the dynamic node attributes (inputs, outputs and state) class OgnTestDynamicAttributeRawData { public: static bool compute(OgnTestDynamicAttributeRawDataDatabase& db) { auto dynamicInputs = db.getDynamicInputs(); auto dynamicOutputs = db.getDynamicOutputs(); auto dynamicStates = db.getDynamicStates(); if (dynamicInputs.empty() || dynamicOutputs.empty() || dynamicStates.empty()) { return false; } int sum = 0; for (auto const& input : dynamicInputs) { ConstRawPtr dataPtr{ nullptr }; size_t size{ 0 }; input().rawData(dataPtr, size); sum += *reinterpret_cast<int const*>(dataPtr); } // ensure that dynamic output and state attributes can be written to using the raw data pointer writeRawData(dynamicOutputs[0](), sum); writeRawData(dynamicStates[0](), sum); return true; } }; REGISTER_OGN_NODE() } // test } // namespace graph } // namespace omni

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestDynamicAttributeMemory.py

"""Test node exercising retrieval of dynamic attribute array values from various memory locations. Add an input attribute named "array" of type "int[]", another named "simple" of type "double", and output attributes with matching names and types to pass data through using the dynamic attribute get() and set() methods. """ import numpy as np import omni.graph.core as og from omni.graph.core._impl.dtypes import Int class OgnTestDynamicAttributeMemory: @staticmethod def compute(db) -> bool: gpu_ptr_kind = og.PtrToPtrKind.NA on_gpu = db.inputs.onGpu if on_gpu: gpu_ptr_kind = og.PtrToPtrKind.GPU if db.inputs.gpuPtrsOnGpu else og.PtrToPtrKind.CPU db.set_dynamic_attribute_memory_location(on_gpu=on_gpu, gpu_ptr_kind=gpu_ptr_kind) try: array_value = db.inputs.array simple_value = db.inputs.simple except AttributeError: # Only verify when the input dynamic attribute was present db.outputs.inputMemoryVerified = False db.outputs.outputMemoryVerified = False return True # CPU inputs are returned as np.ndarrays, GPU inputs are og.DataWrapper if not on_gpu: db.outputs.inputMemoryVerified = isinstance(array_value, np.ndarray) and isinstance(simple_value, float) else: _, *new_shape = array_value.shape new_shape = tuple(new_shape) db.outputs.inputMemoryVerified = ( array_value.gpu_ptr_kind == gpu_ptr_kind and array_value.device.cuda and array_value.is_array() and array_value.dtype == Int() and isinstance(simple_value, float) ) try: db.outputs.array = array_value db.outputs.simple = simple_value except AttributeError: # Only verify when the output dynamic attribute was present db.outputs.outputMemoryVerified = False return True # CPU inputs are returned as np.ndarrays, GPU inputs are og.DataWrapper new_output_arr = db.outputs.array new_output = db.outputs.simple if not on_gpu: db.outputs.outputMemoryVerified = isinstance(new_output_arr, np.ndarray) and isinstance(new_output, float) else: _, *new_shape = new_output_arr.shape new_shape = tuple(new_shape) db.outputs.outputMemoryVerified = ( new_output_arr.gpu_ptr_kind == gpu_ptr_kind and new_output_arr.device.cuda and new_output_arr.is_array() and new_output_arr.dtype == Int() and isinstance(new_output, float) ) return True

2,767

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnExecInputEnabledTest.py

""" This node's compute checks that its input attrib is properly enabled. """ import omni.graph.core as og class OgnExecInputEnabledTest: @staticmethod def compute(db) -> bool: if ( db.inputs.execInA == og.ExecutionAttributeState.ENABLED and db.inputs.execInB == og.ExecutionAttributeState.ENABLED ): db.log_warning("Unexpected execution with both execution inputs enabled") return False if db.inputs.execInA == og.ExecutionAttributeState.ENABLED: db.outputs.execOutA = og.ExecutionAttributeState.ENABLED return True if db.inputs.execInB == og.ExecutionAttributeState.ENABLED: db.outputs.execOutB = og.ExecutionAttributeState.ENABLED return True db.log_warning("Unexpected execution with no execution input enabled") db.outputs.execOut = og.ExecutionAttributeState.DISABLED return False

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestCategoryDefinitions.py

"""Node that tests custom category assignment through extraction of the current category""" import omni.graph.tools.ogn as ogn class OgnTestCategoryDefinitions: """Extract the assigned category definition of a node type""" @staticmethod def compute(db) -> bool: """Compute only extracts the category name and puts it into the output""" db.outputs.category = db.abi_node.get_node_type().get_metadata(ogn.MetadataKeys.CATEGORIES) return True

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestWriteVariablePy.py

""" Test node for writing variables """ import omni.graph.core as og class OgnTestWriteVariablePy: """Python version of OgnWriteVariable""" @staticmethod def compute(db) -> bool: """Write the given variable""" try: db.set_variable(db.inputs.variableName, db.inputs.value.value) except og.OmniGraphError: return False # Output the value value = db.inputs.value.value if value is not None: db.outputs.value = value return True @staticmethod def initialize(graph_context, node): function_callback = OgnTestWriteVariablePy.on_value_changed_callback node.get_attribute("inputs:variableName").register_value_changed_callback(function_callback) @staticmethod def on_value_changed_callback(attr): node = attr.get_node() name = attr.get_attribute_data().get(False) var = node.get_graph().find_variable(name) value_attr = node.get_attribute("inputs:value") old_type = value_attr.get_resolved_type() # resolve the input variable if not var: value_attr.set_resolved_type(og.Type(og.BaseDataType.UNKNOWN)) elif var.type != old_type: value_attr.set_resolved_type(og.Type(og.BaseDataType.UNKNOWN)) value_attr.set_resolved_type(var.type) # resolve the output variable value_attr = node.get_attribute("outputs:value") old_type = value_attr.get_resolved_type() if not var: value_attr.set_resolved_type(og.Type(og.BaseDataType.UNKNOWN)) elif var.type != old_type: value_attr.set_resolved_type(og.Type(og.BaseDataType.UNKNOWN)) value_attr.set_resolved_type(var.type)

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestSchedulingHintsList.py

"""Empty test node used for checking scheduling hints""" class OgnTestSchedulingHintsList: @staticmethod def compute(db) -> bool: return True

160

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omniverse-code/kit/exts/omni.graph.test/omni/graph/test/ogn/nodes/OgnTestScatter.cpp

// Copyright (c) 2019-2021, 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. // #include <OgnTestScatterDatabase.h> #include <cmath> #include <vector> using carb::Double3; namespace omni { namespace graph { namespace examples { class OgnTestScatter { public: static bool compute(OgnTestScatterDatabase& db) { /* const auto& gatheredPaths = db.inputs.gathered_paths(); for (const auto& gatheredPath : gatheredPaths) { std::string gatheredPathStr = db.tokenToString(gatheredPath); printf("gather path = %s\n", gatheredPathStr.c_str()); }*/ const auto& inputRotations = db.inputs.rotations(); int count = 0; for (const auto& inputRotation : inputRotations) { // Pretend scan the inputs. The real scatter node would be writing to the Fabric here with the updated // transforms. count++; } // Because we don't have the real scatter node yet, we'll just pluck one element of the calculated rotations // and output there in a temporary single output. auto& singleRot = db.outputs.single_rotation(); if (inputRotations.size() > 0) { singleRot[0] = -90; singleRot[1] = inputRotations[0][1]; singleRot[2] = 0; } return true; } }; REGISTER_OGN_NODE() } } }

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