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omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdRenderVarPtr.rst | .. _omni_syntheticdata_SdRenderVarPtr_2:
.. _omni_syntheticdata_SdRenderVarPtr:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Render Var Ptr
:keywords: lang-en omnigraph node graph:action syntheticdata sd-render-var-ptr
Sd Render Var Ptr
=================
.. <description>
Synthetic Data node exposing the raw pointer data of a rendervar.
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:renderResults", "``uint64``", "Render results pointer", "0"
"inputs:renderVar", "``token``", "Name of the renderVar", ""
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:bufferSize", "``uint64``", "Size (in bytes) of the buffer (0 if the input is a texture)", "None"
"outputs:cudaDeviceIndex", "``int``", "Index of the device where the data lives (-1 for host data)", "-1"
"outputs:dataPtr", "``uint64``", "Pointer to the raw data (cuda device pointer or host pointer)", "0"
"Received (*outputs:exec*)", "``execution``", "Executes when the event is received", "None"
"outputs:format", "``uint64``", "Format", "None"
"outputs:height", "``uint``", "Height (0 if the input is a buffer)", "None"
"outputs:strides", "``int[2]``", "Strides (in bytes) ([0,0] if the input is a buffer)", "None"
"outputs:width", "``uint``", "Width (0 if the input is a buffer)", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdRenderVarPtr"
"Version", "2"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "tests"
"Categories", "graph:action"
"Generated Class Name", "OgnSdRenderVarPtrDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdTestRenderProductCamera.rst | .. _omni_syntheticdata_SdTestRenderProductCamera_1:
.. _omni_syntheticdata_SdTestRenderProductCamera:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Test Render Product Camera
:keywords: lang-en omnigraph node graph:simulation,graph:postRender,graph:action,internal:test syntheticdata sd-test-render-product-camera
Sd Test Render Product Camera
=============================
.. <description>
Synthetic Data node to test the renderProduct camera pipeline
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:cameraApertureOffset", "``float[2]``", "Camera horizontal and vertical aperture offset", "[0.0, 0.0]"
"inputs:cameraApertureSize", "``float[2]``", "Camera horizontal and vertical aperture", "[0.0, 0.0]"
"inputs:cameraFStop", "``float``", "Camera fStop", "0.0"
"inputs:cameraFisheyeParams", "``float[]``", "Camera fisheye projection parameters", "[]"
"inputs:cameraFocalLength", "``float``", "Camera focal length", "0.0"
"inputs:cameraFocusDistance", "``float``", "Camera focus distance", "0.0"
"inputs:cameraModel", "``int``", "Camera model (pinhole or fisheye models)", "0"
"inputs:cameraNearFar", "``float[2]``", "Camera near/far clipping range", "[0.0, 0.0]"
"inputs:cameraProjection", "``matrixd[4]``", "Camera projection matrix", "[[1.0, 0.0, 0.0, 0.0], [0.0, 1.0, 0.0, 0.0], [0.0, 0.0, 1.0, 0.0], [0.0, 0.0, 0.0, 1.0]]"
"inputs:cameraViewTransform", "``matrixd[4]``", "Camera view matrix", "[[1.0, 0.0, 0.0, 0.0], [0.0, 1.0, 0.0, 0.0], [0.0, 0.0, 1.0, 0.0], [0.0, 0.0, 0.0, 1.0]]"
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:height", "``uint``", "Height of the frame", "0"
"inputs:metersPerSceneUnit", "``float``", "Scene units to meters scale", "0.0"
"inputs:renderProductCameraPath", "``token``", "RenderProduct camera prim path", ""
"inputs:renderProductResolution", "``int[2]``", "RenderProduct resolution", "[0, 0]"
"inputs:renderResults", "``uint64``", "OnDemand connection : pointer to render product results", "0"
"renderProduct (*inputs:rp*)", "``uint64``", "PostRender connection : pointer to render product for this view", "0"
"inputs:stage", "``token``", "Stage in {simulation, postrender, ondemand}", ""
"inputs:traceError", "``bool``", "If true print an error message when the frame numbers are out-of-sync", "False"
"inputs:width", "``uint``", "Width of the frame", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:test", "``bool``", "Test value : false if failed", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdTestRenderProductCamera"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "tests"
"__tokens", "[""simulation"", ""postRender"", ""onDemand""]"
"Categories", "graph:simulation,graph:postRender,graph:action,internal:test"
"Generated Class Name", "OgnSdTestRenderProductCameraDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdOnNewRenderProductFrame.rst | .. _omni_syntheticdata_SdOnNewRenderProductFrame_1:
.. _omni_syntheticdata_SdOnNewRenderProductFrame:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd On New Render Product Frame
:keywords: lang-en omnigraph node graph:action,flowControl syntheticdata sd-on-new-render-product-frame
Sd On New Render Product Frame
==============================
.. <description>
Synthetic Data postprocess node to execute pipeline after the NewFrame event has been received on the given renderProduct
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"Received (*inputs:exec*)", "``execution``", "Executes for each newFrame event received", "None"
"inputs:renderProductDataPtrs", "``uint64[]``", "HydraRenderProduct data pointers.", "[]"
"inputs:renderProductPath", "``token``", "Path of the renderProduct to wait for being rendered", ""
"inputs:renderProductPaths", "``token[]``", "Render product path tokens.", "[]"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:cudaStream", "``uint64``", "Cuda stream", "None"
"Received (*outputs:exec*)", "``execution``", "Executes for each newFrame event received", "None"
"outputs:renderProductPath", "``token``", "Path of the renderProduct to wait for being rendered", "None"
"outputs:renderResults", "``uint64``", "Render results", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdOnNewRenderProductFrame"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:action,flowControl"
"Generated Class Name", "OgnSdOnNewRenderProductFrameDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdFabricTimeRangeExecution.rst | .. _omni_syntheticdata_SdFabricTimeRangeExecution_1:
.. _omni_syntheticdata_SdFabricTimeRangeExecution:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Fabric Time Range Execution
:keywords: lang-en omnigraph node graph:postRender,graph:action syntheticdata sd-fabric-time-range-execution
Sd Fabric Time Range Execution
==============================
.. <description>
Read a rational time range from Fabric or RenderVars and signal its execution if the current time fall within this range. The range is [begin,end[, that is the end time does not belong to the range.
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:gpu", "``uint64``", "Pointer to shared context containing gpu foundations.", "0"
"inputs:renderResults", "``uint64``", "Render results", "0"
"inputs:timeRangeBeginDenominatorToken", "``token``", "Attribute name of the range begin time denominator", "timeRangeStartDenominator"
"inputs:timeRangeBeginNumeratorToken", "``token``", "Attribute name of the range begin time numerator", "timeRangeStartNumerator"
"inputs:timeRangeEndDenominatorToken", "``token``", "Attribute name of the range end time denominator", "timeRangeEndDenominator"
"inputs:timeRangeEndNumeratorToken", "``token``", "Attribute name of the range end time numerator", "timeRangeEndNumerator"
"inputs:timeRangeName", "``token``", "Time range name used to read from the Fabric or RenderVars.", ""
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
"outputs:timeRangeBeginDenominator", "``uint64``", "Time denominator of the last time range change (begin)", "None"
"outputs:timeRangeBeginNumerator", "``int64``", "Time numerator of the last time range change (begin)", "None"
"outputs:timeRangeEndDenominator", "``uint64``", "Time denominator of the last time range change (end)", "None"
"outputs:timeRangeEndNumerator", "``int64``", "Time numerator of the last time range change (end)", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdFabricTimeRangeExecution"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:postRender,graph:action"
"Generated Class Name", "OgnSdFabricTimeRangeExecutionDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdRenderVarDisplayTexture.rst | .. _omni_syntheticdata_SdRenderVarDisplayTexture_2:
.. _omni_syntheticdata_SdRenderVarDisplayTexture:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Render Var Display Texture
:keywords: lang-en omnigraph node graph:action,rendering,internal syntheticdata sd-render-var-display-texture
Sd Render Var Display Texture
=============================
.. <description>
Synthetic Data node to expose texture resource of a visualization render variable
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:renderResults", "``uint64``", "Render results pointer", "0"
"inputs:renderVarDisplay", "``token``", "Name of the renderVar", ""
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:cudaPtr", "``uint64``", "Display texture CUDA pointer", "None"
"outputs:exec", "``execution``", "Trigger", "None"
"outputs:format", "``uint64``", "Display texture format", "None"
"outputs:height", "``uint``", "Display texture height", "None"
"outputs:referenceTimeDenominator", "``uint64``", "Reference time represented as a rational number : denominator", "None"
"outputs:referenceTimeNumerator", "``int64``", "Reference time represented as a rational number : numerator", "None"
"outputs:rpResourcePtr", "``uint64``", "Display texture RpResource pointer", "None"
"outputs:width", "``uint``", "Display texture width", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdRenderVarDisplayTexture"
"Version", "2"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:action,rendering,internal"
"Generated Class Name", "OgnSdRenderVarDisplayTextureDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdPostRenderVarTextureToBuffer.rst | .. _omni_syntheticdata_SdPostRenderVarTextureToBuffer_1:
.. _omni_syntheticdata_SdPostRenderVarTextureToBuffer:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Post Render Var Texture To Buffer
:keywords: lang-en omnigraph node graph:postRender,rendering syntheticdata sd-post-render-var-texture-to-buffer
Sd Post Render Var Texture To Buffer
====================================
.. <description>
Expose a device renderVar buffer a texture one.
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:gpu", "``uint64``", "Pointer to shared context containing gpu foundations", "0"
"inputs:renderVar", "``token``", "Name of the device renderVar to expose on the host", ""
"inputs:renderVarBufferSuffix", "``string``", "Suffix appended to the renderVar name", "buffer"
"inputs:rp", "``uint64``", "Pointer to render product for this view", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
"outputs:renderVar", "``token``", "Name of the resulting renderVar on the host", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdPostRenderVarTextureToBuffer"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:postRender,rendering"
"Generated Class Name", "OgnSdPostRenderVarTextureToBufferDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdPostInstanceMapping.rst | .. _omni_syntheticdata_SdPostInstanceMapping_2:
.. _omni_syntheticdata_SdPostInstanceMapping:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Post Instance Mapping
:keywords: lang-en omnigraph node graph:postRender,rendering syntheticdata sd-post-instance-mapping
Sd Post Instance Mapping
========================
.. <description>
Synthetic Data node to compute and store scene instances semantic hierarchy information
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"gpuFoundations (*inputs:gpu*)", "``uint64``", "Pointer to shared context containing gpu foundations", "0"
"renderProduct (*inputs:rp*)", "``uint64``", "Pointer to render product for this view", "0"
"inputs:semanticFilterName", "``token``", "Name of the semantic filter to apply to the semanticLabelToken", "default"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
"outputs:instanceMapSDCudaPtr", "``uint64``", "cuda uint16_t buffer pointer of size numInstances containing the instance parent semantic index", "None"
"outputs:instanceMappingInfoSDPtr", "``uint64``", "uint buffer pointer containing the following information : [ numInstances, minInstanceId, numSemantics, minSemanticId, numProtoSemantic, lastUpdateTimeNumeratorHigh, lastUpdateTimeNumeratorLow, , lastUpdateTimeDenominatorHigh, lastUpdateTimeDenominatorLow ]", "None"
"outputs:instancePrimTokenSDCudaPtr", "``uint64``", "cuda uint64_t buffer pointer of size numInstances containing the instance path token", "None"
"outputs:lastUpdateTimeDenominator", "``uint64``", "Time denominator of the last time the data has changed", "None"
"outputs:lastUpdateTimeNumerator", "``int64``", "Time numerator of the last time the data has changed", "None"
"outputs:semanticLabelTokenSDCudaPtr", "``uint64``", "cuda uint64_t buffer pointer of size numSemantics containing the semantic label token", "None"
"outputs:semanticLocalTransformSDCudaPtr", "``uint64``", "cuda float44 buffer pointer of size numSemantics containing the local semantic transform", "None"
"outputs:semanticMapSDCudaPtr", "``uint64``", "cuda uint16_t buffer pointer of size numSemantics containing the semantic parent semantic index", "None"
"outputs:semanticPrimTokenSDCudaPtr", "``uint64``", "cuda uint32_t buffer pointer of size numSemantics containing the prim part of the semantic path token", "None"
"outputs:semanticWorldTransformSDCudaPtr", "``uint64``", "cuda float44 buffer pointer of size numSemantics containing the world semantic transform", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdPostInstanceMapping"
"Version", "2"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"__tokens", "[""InstanceMappingInfoSDhost"", ""SemanticMapSD"", ""SemanticMapSDhost"", ""SemanticPrimTokenSD"", ""SemanticPrimTokenSDhost"", ""InstanceMapSD"", ""InstanceMapSDhost"", ""InstancePrimTokenSD"", ""InstancePrimTokenSDhost"", ""SemanticLabelTokenSD"", ""SemanticLabelTokenSDhost"", ""SemanticLocalTransformSD"", ""SemanticLocalTransformSDhost"", ""SemanticWorldTransformSD"", ""SemanticWorldTransformSDhost""]"
"Categories", "graph:postRender,rendering"
"Generated Class Name", "OgnSdPostInstanceMappingDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdInstanceMapping.rst | .. _omni_syntheticdata_SdInstanceMapping_2:
.. _omni_syntheticdata_SdInstanceMapping:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Instance Mapping
:keywords: lang-en omnigraph node graph:action syntheticdata sd-instance-mapping
Sd Instance Mapping
===================
.. <description>
Synthetic Data node to expose the scene instances semantic hierarchy information
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:lazy", "``bool``", "Compute outputs only when connected to a downstream node", "True"
"inputs:renderResults", "``uint64``", "Render results pointer", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"Received (*outputs:exec*)", "``execution``", "Executes when the event is received", "None"
"outputs:sdIMInstanceSemanticMap", "``uchar[]``", "Raw array of uint16_t of size sdIMNumInstances*sdIMMaxSemanticHierarchyDepth containing the mapping from the instances index to their inherited semantic entities", "None"
"outputs:sdIMInstanceTokens", "``token[]``", "Instance array containing the token for every instances", "None"
"outputs:sdIMLastUpdateTimeDenominator", "``uint64``", "Time denominator of the last time the data has changed", "None"
"outputs:sdIMLastUpdateTimeNumerator", "``int64``", "Time numerator of the last time the data has changed", "None"
"outputs:sdIMMaxSemanticHierarchyDepth", "``uint``", "Maximal number of semantic entities inherited by an instance", "None"
"outputs:sdIMMinInstanceIndex", "``uint``", "Instance id of the first instance in the instance arrays", "None"
"outputs:sdIMMinSemanticIndex", "``uint``", "Semantic id of the first semantic entity in the semantic arrays", "None"
"outputs:sdIMNumInstances", "``uint``", "Number of instances in the instance arrays", "None"
"outputs:sdIMNumSemanticTokens", "``uint``", "Number of semantics token including the semantic entity path, the semantic entity types and if the number of semantic types is greater than one a ", "None"
"outputs:sdIMNumSemantics", "``uint``", "Number of semantic entities in the semantic arrays", "None"
"outputs:sdIMSemanticLocalTransform", "``float[]``", "Semantic array of 4x4 float matrices containing the transform from world to local space for every semantic entity", "None"
"outputs:sdIMSemanticTokenMap", "``token[]``", "Semantic array of token of size numSemantics * numSemanticTypes containing the mapping from the semantic entities to the semantic entity path and semantic types", "None"
"outputs:sdIMSemanticWorldTransform", "``float[]``", "Semantic array of 4x4 float matrices containing the transform from local to world space for every semantic entity", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdInstanceMapping"
"Version", "2"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"__tokens", "[""InstanceMappingInfoSDhost"", ""InstanceMapSDhost"", ""SemanticLabelTokenSDhost"", ""InstancePrimTokenSDhost"", ""SemanticLocalTransformSDhost"", ""SemanticWorldTransformSDhost""]"
"Categories", "graph:action"
"Generated Class Name", "OgnSdInstanceMappingDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdPostRenderVarDisplayTexture.rst | .. _omni_syntheticdata_SdPostRenderVarDisplayTexture_1:
.. _omni_syntheticdata_SdPostRenderVarDisplayTexture:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Post Render Var Display Texture
:keywords: lang-en omnigraph node graph:postRender,rendering,internal syntheticdata sd-post-render-var-display-texture
Sd Post Render Var Display Texture
==================================
.. <description>
Synthetic Data node to copy the input aov texture into the corresponding visualization texture
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:cameraFisheyeParams", "``float[]``", "Camera fisheye projection parameters", "[]"
"inputs:cameraModel", "``int``", "Camera model (pinhole or fisheye models)", "0"
"inputs:cameraNearFar", "``float[2]``", "Camera near/far clipping range", "[0.0, 0.0]"
"inputs:exec", "``execution``", "Trigger", "None"
"gpuFoundations (*inputs:gpu*)", "``uint64``", "Pointer to shared context containing gpu foundations", "0"
"inputs:instanceMapSDCudaPtr", "``uint64``", "cuda uint16_t buffer pointer of size numInstances containing the instance parent semantic index", "0"
"inputs:instanceMappingInfoSDPtr", "``uint64``", "uint buffer pointer containing the following information : [numInstances, minInstanceId, numSemantics, minSemanticId, numProtoSemantic]", "0"
"inputs:metersPerSceneUnit", "``float``", "Scene units to meters scale", "0.0"
"inputs:mode", "``token``", "Display mode", "autoMode"
"inputs:parameters", "``float[4]``", "Display parameters", "[0.0, 5.0, 0.33, 0.27]"
"inputs:renderVar", "``token``", "Name of the input RenderVar to display", ""
"inputs:renderVarDisplay", "``token``", "Name of the output display RenderVar", ""
"renderProduct (*inputs:rp*)", "``uint64``", "Pointer to render product for this view", "0"
"inputs:sdDisplayHeight", "``uint``", "Visualization texture Height", "0"
"inputs:sdDisplayWidth", "``uint``", "Visualization texture width", "0"
"inputs:sdSemBBox3dCamCornersCudaPtr", "``uint64``", "Cuda buffer containing the projection of the 3d bounding boxes on the camera plane represented as a float3=(u,v,z,a) for each bounding box corners", "0"
"inputs:sdSemBBox3dCamExtentCudaPtr", "``uint64``", "Cuda buffer containing the 2d extent of the 3d bounding boxes on the camera plane represented as a float6=(u_min,u_max,v_min,v_max,z_min,z_max)", "0"
"inputs:sdSemBBoxExtentCudaPtr", "``uint64``", "Cuda buffer containing the extent of the bounding boxes as a float4=(u_min,v_min,u_max,v_max) for 2D or a float6=(xmin,ymin,zmin,xmax,ymax,zmax) in object space for 3D", "0"
"inputs:sdSemBBoxInfosCudaPtr", "``uint64``", "Cuda buffer containing valid bounding boxes infos", "0"
"inputs:semanticLabelTokenSDCudaPtr", "``uint64``", "cuda uint64_t buffer pointer of size numSemantics containing the semantic label token", "0"
"inputs:semanticMapSDCudaPtr", "``uint64``", "cuda uint16_t buffer pointer of size numSemantics containing the semantic parent semantic index", "0"
"inputs:semanticPrimTokenSDCudaPtr", "``uint64``", "cuda uint64_t buffer pointer of size numSemantics containing the semantic path token", "0"
"inputs:semanticWorldTransformSDCudaPtr", "``uint64``", "cuda float44 buffer pointer of size numSemantics containing the world semantic transform", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:cudaPtr", "``uint64``", "Display texture CUDA pointer", "None"
"outputs:exec", "``execution``", "Trigger", "None"
"outputs:format", "``uint64``", "Display texture format", "None"
"outputs:height", "``uint``", "Display texture height", "None"
"outputs:renderVarDisplay", "``token``", "Name of the output display RenderVar", "None"
"outputs:width", "``uint``", "Display texture width", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdPostRenderVarDisplayTexture"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"__tokens", "[""LdrColorSD"", ""Camera3dPositionSD"", ""DistanceToImagePlaneSD"", ""DistanceToCameraSD"", ""InstanceSegmentationSD"", ""SemanticSegmentationSD"", ""NormalSD"", ""TargetMotionSD"", ""BoundingBox2DTightSD"", ""BoundingBox2DLooseSD"", ""BoundingBox3DSD"", ""OcclusionSD"", ""TruncationSD"", ""CrossCorrespondenceSD"", ""SemanticBoundingBox2DExtentTightSD"", ""SemanticBoundingBox2DInfosTightSD"", ""SemanticBoundingBox2DExtentLooseSD"", ""SemanticBoundingBox2DInfosLooseSD"", ""SemanticBoundingBox3DExtentSD"", ""SemanticBoundingBox3DInfosSD"", ""SemanticBoundingBox3DCamCornersSD"", ""SemanticBoundingBox3DDisplayAxesSD"", ""autoMode"", ""colorMode"", ""scaled3dVectorMode"", ""clippedValueMode"", ""normalized3dVectorMode"", ""segmentationMapMode"", ""instanceMapMode"", ""semanticPathMode"", ""semanticLabelMode"", ""semanticBoundingBox2dMode"", ""rawBoundingBox2dMode"", ""semanticProjBoundingBox3dMode"", ""semanticBoundingBox3dMode"", ""rawBoundingBox3dMode"", ""pinhole"", ""perspective"", ""orthographic"", ""fisheyePolynomial""]"
"Categories", "graph:postRender,rendering,internal"
"Generated Class Name", "OgnSdPostRenderVarDisplayTextureDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdInstanceMappingPtr.rst | .. _omni_syntheticdata_SdInstanceMappingPtr_2:
.. _omni_syntheticdata_SdInstanceMappingPtr:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Instance Mapping Ptr
:keywords: lang-en omnigraph node graph:action syntheticdata sd-instance-mapping-ptr
Sd Instance Mapping Ptr
=======================
.. <description>
Synthetic Data node to expose the scene instances semantic hierarchy information
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:cudaPtr", "``bool``", "If true, return cuda device pointer instead of host pointer", "False"
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:renderResults", "``uint64``", "Render results pointer", "0"
"inputs:semanticFilerTokens", "``token[]``", "Tokens identifying the semantic filters applied to the output semantic labels. Each token should correspond to an activated SdSemanticFilter node", "[]"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:cudaDeviceIndex", "``int``", "If the data is on the device it is the cuda index of this device otherwise it is set to -1", "-1"
"Received (*outputs:exec*)", "``execution``", "Executes when the event is received", "None"
"outputs:instanceMapPtr", "``uint64``", "Array pointer of numInstances uint16_t containing the semantic index of the instance prim first semantic prim parent", "None"
"outputs:instancePrimPathPtr", "``uint64``", "Array pointer of numInstances uint64_t containing the prim path tokens for every instance prims", "None"
"outputs:lastUpdateTimeDenominator", "``uint64``", "Time denominator of the last time the data has changed", "None"
"outputs:lastUpdateTimeNumerator", "``int64``", "Time numerator of the last time the data has changed", "None"
"outputs:minInstanceIndex", "``uint``", "Instance index of the first instance prim in the instance arrays", "None"
"outputs:minSemanticIndex", "``uint``", "Semantic index of the first semantic prim in the semantic arrays", "None"
"outputs:numInstances", "``uint``", "Number of instances prim in the instance arrays", "None"
"outputs:numSemantics", "``uint``", "Number of semantic prim in the semantic arrays", "None"
"outputs:semanticLabelTokenPtrs", "``uint64[]``", "Array containing for every input semantic filters the corresponding array pointer of numSemantics uint64_t representing the semantic label of the semantic prim", "None"
"outputs:semanticLocalTransformPtr", "``uint64``", "Array pointer of numSemantics 4x4 float matrices containing the transform from world to object space for every semantic prims", "None"
"outputs:semanticMapPtr", "``uint64``", "Array pointer of numSemantics uint16_t containing the semantic index of the semantic prim first semantic prim parent", "None"
"outputs:semanticPrimPathPtr", "``uint64``", "Array pointer of numSemantics uint32_t containing the prim part of the prim path tokens for every semantic prims", "None"
"outputs:semanticWorldTransformPtr", "``uint64``", "Array pointer of numSemantics 4x4 float matrices containing the transform from local to world space for every semantic entity", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdInstanceMappingPtr"
"Version", "2"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"__tokens", "[""InstanceMappingInfoSDhost"", ""InstancePrimTokenSDhost"", ""InstancePrimTokenSD"", ""SemanticPrimTokenSDhost"", ""SemanticPrimTokenSD"", ""InstanceMapSDhost"", ""InstanceMapSD"", ""SemanticMapSDhost"", ""SemanticMapSD"", ""SemanticWorldTransformSDhost"", ""SemanticWorldTransformSD"", ""SemanticLocalTransformSDhost"", ""SemanticLocalTransformSD"", ""SemanticLabelTokenSDhost"", ""SemanticLabelTokenSD""]"
"Categories", "graph:action"
"Generated Class Name", "OgnSdInstanceMappingPtrDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdTestSimFabricTimeRange.rst | .. _omni_syntheticdata_SdTestSimFabricTimeRange_1:
.. _omni_syntheticdata_SdTestSimFabricTimeRange:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Test Sim Fabric Time Range
:keywords: lang-en omnigraph node graph:simulation,internal,event compute-on-request syntheticdata sd-test-sim-fabric-time-range
Sd Test Sim Fabric Time Range
=============================
.. <description>
Testing node : on request write/update a Fabric time range of a given number of frames starting at the current simulation time.
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:numberOfFrames", "``uint64``", "Number of frames to writes.", "0"
"inputs:timeRangeBeginDenominatorToken", "``token``", "Attribute name of the range begin time denominator", "timeRangeStartDenominator"
"inputs:timeRangeBeginNumeratorToken", "``token``", "Attribute name of the range begin time numerator", "timeRangeStartNumerator"
"inputs:timeRangeEndDenominatorToken", "``token``", "Attribute name of the range end time denominator", "timeRangeEndDenominator"
"inputs:timeRangeEndNumeratorToken", "``token``", "Attribute name of the range end time numerator", "timeRangeEndNumerator"
"inputs:timeRangeName", "``token``", "Time range name used to write to the Fabric.", "TestSimFabricTimeRangeSD"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdTestSimFabricTimeRange"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"__tokens", "[""fc_exportToRingbuffer""]"
"Categories", "graph:simulation,internal,event"
"Generated Class Name", "OgnSdTestSimFabricTimeRangeDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdPostCompRenderVarTextures.rst | .. _omni_syntheticdata_SdPostCompRenderVarTextures_1:
.. _omni_syntheticdata_SdPostCompRenderVarTextures:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Post Comp Render Var Textures
:keywords: lang-en omnigraph node graph:postRender,rendering,internal syntheticdata sd-post-comp-render-var-textures
Sd Post Comp Render Var Textures
================================
.. <description>
Synthetic Data node to compose a front renderVar texture into a back renderVar texture
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:cudaPtr", "``uint64``", "Front texture CUDA pointer", "0"
"inputs:format", "``uint64``", "Front texture format", "0"
"gpuFoundations (*inputs:gpu*)", "``uint64``", "Pointer to shared context containing gpu foundations", "0"
"inputs:height", "``uint``", "Front texture height", "0"
"inputs:mode", "``token``", "Mode : grid, line", "line"
"inputs:parameters", "``float[3]``", "Parameters", "[0, 0, 0]"
"inputs:renderVar", "``token``", "Name of the back RenderVar", "LdrColor"
"renderProduct (*inputs:rp*)", "``uint64``", "Pointer to render product for this view", "0"
"inputs:width", "``uint``", "Front texture width", "0"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdPostCompRenderVarTextures"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"__tokens", "[""line"", ""grid""]"
"Categories", "graph:postRender,rendering,internal"
"Generated Class Name", "OgnSdPostCompRenderVarTexturesDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdUpdateSwhFrameNumber.rst | .. _omni_syntheticdata_SdUpdateSwFrameNumber_1:
.. _omni_syntheticdata_SdUpdateSwFrameNumber:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Update Sw Frame Number
:keywords: lang-en omnigraph node graph:simulation syntheticdata sd-update-sw-frame-number
Sd Update Sw Frame Number
=========================
.. <description>
Synthetic Data node to return the current update swhFrameNumber
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"Received (*outputs:exec*)", "``execution``", "Executes when the event is received", "None"
"outputs:swhFrameNumber", "``uint64``", "Fabric frame number", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdUpdateSwFrameNumber"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:simulation"
"Generated Class Name", "OgnSdUpdateSwhFrameNumberDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdPostSemantic3dBoundingBoxFilter.rst | .. _omni_syntheticdata_SdPostSemantic3dBoundingBoxFilter_1:
.. _omni_syntheticdata_SdPostSemantic3dBoundingBoxFilter:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Post Semantic3D Bounding Box Filter
:keywords: lang-en omnigraph node graph:postRender,rendering syntheticdata sd-post-semantic3d-bounding-box-filter
Sd Post Semantic3D Bounding Box Filter
======================================
.. <description>
Synthetic Data node to cull the semantic 3d bounding boxes.
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"gpuFoundations (*inputs:gpu*)", "``uint64``", "Pointer to shared context containing gpu foundations", "0"
"inputs:instanceMappingInfoSDPtr", "``uint64``", "uint buffer pointer containing the following information : [numInstances, minInstanceId, numSemantics, minSemanticId, numProtoSemantic]", "0"
"inputs:metersPerSceneUnit", "``float``", "Scene units to meters scale", "0.01"
"renderProduct (*inputs:rp*)", "``uint64``", "Pointer to render product for this view", "0"
"inputs:sdSemBBox3dCamCornersCudaPtr", "``uint64``", "Cuda buffer containing the projection of the 3d bounding boxes on the camera plane represented as a float3=(u,v,z,a) for each bounding box corners", "0"
"inputs:sdSemBBoxInfosCudaPtr", "``uint64``", "Cuda buffer containing valid bounding boxes infos", "0"
"inputs:viewportNearFar", "``float[2]``", "near and far plane (in scene units) used to clip the 3d bounding boxes.", "[0.0, -1.0]"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
"outputs:sdSemBBoxInfosCudaPtr", "``uint64``", "Cuda buffer containing valid bounding boxes infos", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdPostSemantic3dBoundingBoxFilter"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"__tokens", "[""SemanticBoundingBox3DInfosSD"", ""SemanticBoundingBox3DFilterInfosSD""]"
"Categories", "graph:postRender,rendering"
"Generated Class Name", "OgnSdPostSemantic3dBoundingBoxFilterDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdSimInstanceMapping.rst | .. _omni_syntheticdata_SdSimInstanceMapping_1:
.. _omni_syntheticdata_SdSimInstanceMapping:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Sim Instance Mapping
:keywords: lang-en omnigraph node graph:simulation,internal syntheticdata sd-sim-instance-mapping
Sd Sim Instance Mapping
=======================
.. <description>
Synthetic Data node to update and cache the instance mapping data
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:needTransform", "``bool``", "If true compute the semantic entities world and object transforms", "True"
"inputs:semanticFilterPredicate", "``token``", "The semantic filter predicate : a disjunctive normal form of semantic type and label", "*:*"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
"outputs:semanticFilterPredicate", "``token``", "The semantic filter predicate in normalized form", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdSimInstanceMapping"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:simulation,internal"
"Generated Class Name", "OgnSdSimInstanceMappingDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdPostRenderVarToHost.rst | .. _omni_syntheticdata_SdPostRenderVarToHost_1:
.. _omni_syntheticdata_SdPostRenderVarToHost:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Post Render Var To Host
:keywords: lang-en omnigraph node graph:postRender,rendering syntheticdata sd-post-render-var-to-host
Sd Post Render Var To Host
==========================
.. <description>
Expose a host renderVar from the input device renderVar.
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:gpu", "``uint64``", "Pointer to shared context containing gpu foundations", "0"
"inputs:renderVar", "``token``", "Name of the device renderVar to expose on the host", ""
"inputs:renderVarHostSuffix", "``string``", "Suffix appended to the renderVar name", "host"
"inputs:rp", "``uint64``", "Pointer to render product for this view", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
"outputs:renderVar", "``token``", "Name of the resulting renderVar on the host", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdPostRenderVarToHost"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:postRender,rendering"
"Generated Class Name", "OgnSdPostRenderVarToHostDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdSimRenderProductCamera.rst | .. _omni_syntheticdata_SdSimRenderProductCamera_1:
.. _omni_syntheticdata_SdSimRenderProductCamera:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Sim Render Product Camera
:keywords: lang-en omnigraph node graph:simulation,internal syntheticdata sd-sim-render-product-camera
Sd Sim Render Product Camera
============================
.. <description>
Synthetic Data node to expose the renderProduct camera in the fabric
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:renderProductPath", "``token``", "renderProduct prim path", ""
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdSimRenderProductCamera"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:simulation,internal"
"Generated Class Name", "OgnSdSimRenderProductCameraDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdFrameIdentifier.rst | .. _omni_syntheticdata_SdFrameIdentifier_1:
.. _omni_syntheticdata_SdFrameIdentifier:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Frame Identifier
:keywords: lang-en omnigraph node graph:postRender,graph:action syntheticdata sd-frame-identifier
Sd Frame Identifier
===================
.. <description>
Synthetic Data node to expose pipeline frame identifier.
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:renderResults", "``uint64``", "Render results", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:durationDenominator", "``uint64``", "Duration denominator. Only valid if eConstantFramerateFrameNumber", "0"
"outputs:durationNumerator", "``int64``", "Duration numerator. Only valid if eConstantFramerateFrameNumber.", "0"
"Received (*outputs:exec*)", "``execution``", "Executes for each newFrame event received", "None"
"outputs:externalTimeOfSimNs", "``int64``", "External time in Ns. Only valid if eConstantFramerateFrameNumber.", "-1"
"outputs:frameNumber", "``int64``", "Frame number. Valid if eFrameNumber or eConstantFramerateFrameNumber.", "-1"
"outputs:rationalTimeOfSimDenominator", "``uint64``", "rational time of simulation denominator.", "0"
"outputs:rationalTimeOfSimNumerator", "``int64``", "rational time of simulation numerator.", "0"
"outputs:sampleTimeOffsetInSimFrames", "``uint64``", "Sample time offset. Only valid if eConstantFramerateFrameNumber.", "0"
"outputs:type", "``token``", "Type of the frame identifier.", "NoFrameNumber"
"", "*allowedTokens*", "NoFrameNumber,FrameNumber,ConstantFramerateFrameNumber", ""
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdFrameIdentifier"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:postRender,graph:action"
"Generated Class Name", "OgnSdFrameIdentifierDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdTestPrintRawArray.rst | .. _omni_syntheticdata_SdTestPrintRawArray_1:
.. _omni_syntheticdata_SdTestPrintRawArray:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Test Print Raw Array
:keywords: lang-en omnigraph node graph:action,internal:test syntheticdata sd-test-print-raw-array
Sd Test Print Raw Array
=======================
.. <description>
Synthetic Data test node printing the input linear array
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:bufferSize", "``uint``", "Size (in bytes) of the buffer (0 if the input is a texture)", "0"
"inputs:data", "``uchar[]``", "Buffer array data", "[]"
"inputs:dataFileBaseName", "``token``", "Basename of the output npy file", "/tmp/sdTestRawArray"
"inputs:elementCount", "``int``", "Number of array element", "1"
"inputs:elementType", "``token``", "Type of the array element", "uint8"
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:height", "``uint``", "Height (0 if the input is a buffer)", "0"
"inputs:mode", "``token``", "Mode in [printFormatted, printReferences, testReferences]", "printFormatted"
"inputs:randomSeed", "``int``", "Random seed", "0"
"inputs:referenceNumUniqueRandomValues", "``int``", "Number of reference unique random values to compare", "7"
"inputs:referenceSWHFrameNumbers", "``uint[]``", "Reference swhFrameNumbers relative to the first one", "[11, 17, 29]"
"inputs:referenceTolerance", "``float``", "Reference tolerance", "0.1"
"inputs:referenceValues", "``float[]``", "Reference data point values", "[]"
"inputs:swhFrameNumber", "``uint64``", "Frame number", "0"
"inputs:width", "``uint``", "Width (0 if the input is a buffer)", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"Received (*outputs:exec*)", "``execution``", "Executes when the event is received", "None"
"outputs:swhFrameNumber", "``uint64``", "FrameNumber just rendered", "None"
State
-----
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"state:initialSWHFrameNumber", "``int64``", "Initial swhFrameNumber", "-1"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdTestPrintRawArray"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "True"
"Implementation Language", "Python"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "tests"
"__tokens", "[""uint16"", ""int16"", ""uint32"", ""int32"", ""float32"", ""token"", ""printFormatted"", ""printReferences"", ""writeToDisk""]"
"Categories", "graph:action,internal:test"
"Generated Class Name", "OgnSdTestPrintRawArrayDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdOnNewFrame.rst | .. _omni_syntheticdata_SdOnNewFrame_1:
.. _omni_syntheticdata_SdOnNewFrame:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd On New Frame
:keywords: lang-en omnigraph node graph:action,flowControl syntheticdata sd-on-new-frame
Sd On New Frame
===============
.. <description>
Synthetic Data postprocess node to execute pipeline after the NewFrame event has been received
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:cudaStream", "``uint64``", "Cuda stream", "None"
"outputs:exec", "``execution``", "Executes for each newFrame event received", "None"
"outputs:referenceTimeDenominator", "``uint64``", "Reference time represented as a rational number : denominator", "None"
"outputs:referenceTimeNumerator", "``int64``", "Reference time represented as a rational number : numerator", "None"
"outputs:renderProductDataPtrs", "``uint64[]``", "HydraRenderProduct data pointer.", "None"
"outputs:renderProductPaths", "``token[]``", "Render product path tokens.", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdOnNewFrame"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:action,flowControl"
"Generated Class Name", "OgnSdOnNewFrameDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdNoOp.rst | .. _omni_syntheticdata_SdNoOp_1:
.. _omni_syntheticdata_SdNoOp:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd No Op
:keywords: lang-en omnigraph node internal syntheticdata sd-no-op
Sd No Op
========
.. <description>
Synthetic Data pass through node
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdNoOp"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "internal"
"Generated Class Name", "OgnSdNoOpDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdTimeChangeExecution.rst | .. _omni_syntheticdata_SdTimeChangeExecution_1:
.. _omni_syntheticdata_SdTimeChangeExecution:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Time Change Execution
:keywords: lang-en omnigraph node graph:postRender,graph:action syntheticdata sd-time-change-execution
Sd Time Change Execution
========================
.. <description>
Set its execution output if the input rational time is more recent that the last registered time.
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:errorOnFutureChange", "``bool``", "Print error if the last update is in the future.", "False"
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:lastUpdateTimeDenominator", "``uint64``", "Time denominator of the last time change", "0"
"inputs:lastUpdateTimeNumerator", "``int64``", "Time numerator of the last time change", "0"
"inputs:renderResults", "``uint64``", "Render results", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdTimeChangeExecution"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"Categories", "graph:postRender,graph:action"
"Generated Class Name", "OgnSdTimeChangeExecutionDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdTestStageManipulationScenarii.rst | .. _omni_syntheticdata_SdTestStageManipulationScenarii_1:
.. _omni_syntheticdata_SdTestStageManipulationScenarii:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Test Stage Manipulation Scenarii
:keywords: lang-en omnigraph node graph:simulation,internal:test syntheticdata sd-test-stage-manipulation-scenarii
Sd Test Stage Manipulation Scenarii
===================================
.. <description>
Synthetic Data test node applying randomly some predefined stage manipulation scenarii
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:randomSeed", "``int``", "Random seed", "0"
"inputs:worldPrimPath", "``token``", "Path of the world prim : contains every modifiable prim, cannot be modified", ""
State
-----
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"state:frameNumber", "``uint64``", "Current frameNumber (number of invocations)", "0"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdTestStageManipulationScenarii"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "True"
"Implementation Language", "Python"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "tests"
"Categories", "graph:simulation,internal:test"
"Generated Class Name", "OgnSdTestStageManipulationScenariiDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdRenderProductCamera.rst | .. _omni_syntheticdata_SdRenderProductCamera_2:
.. _omni_syntheticdata_SdRenderProductCamera:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Render Product Camera
:keywords: lang-en omnigraph node graph:postRender,graph:action syntheticdata sd-render-product-camera
Sd Render Product Camera
========================
.. <description>
Synthetic Data node to expose the camera data
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:gpu", "``uint64``", "Pointer to shared context containing gpu foundations.", "0"
"inputs:renderProductPath", "``token``", "RenderProduct prim path", ""
"inputs:renderResults", "``uint64``", "Render results", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:cameraApertureOffset", "``float[2]``", "Camera horizontal and vertical aperture offset", "None"
"outputs:cameraApertureSize", "``float[2]``", "Camera horizontal and vertical aperture", "None"
"outputs:cameraFStop", "``float``", "Camera fStop", "None"
"outputs:cameraFisheyeParams", "``float[]``", "Camera fisheye projection parameters", "None"
"outputs:cameraFocalLength", "``float``", "Camera focal length", "None"
"outputs:cameraFocusDistance", "``float``", "Camera focus distance", "None"
"outputs:cameraModel", "``int``", "Camera model (pinhole or fisheye models)", "None"
"outputs:cameraNearFar", "``float[2]``", "Camera near/far clipping range", "None"
"outputs:cameraProjection", "``matrixd[4]``", "Camera projection matrix", "None"
"outputs:cameraViewTransform", "``matrixd[4]``", "Camera view matrix", "None"
"Received (*outputs:exec*)", "``execution``", "Executes for each newFrame event received", "None"
"outputs:metersPerSceneUnit", "``float``", "Scene units to meters scale", "None"
"outputs:renderProductResolution", "``int[2]``", "RenderProduct resolution", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdRenderProductCamera"
"Version", "2"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"__tokens", "[""RenderProductCameraSD""]"
"Categories", "graph:postRender,graph:action"
"Generated Class Name", "OgnSdRenderProductCameraDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdPostSemantic3dBoundingBoxCameraProjection.rst | .. _omni_syntheticdata_SdPostSemantic3dBoundingBoxCameraProjection_1:
.. _omni_syntheticdata_SdPostSemantic3dBoundingBoxCameraProjection:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Post Semantic3D Bounding Box Camera Projection
:keywords: lang-en omnigraph node graph:postRender,rendering syntheticdata sd-post-semantic3d-bounding-box-camera-projection
Sd Post Semantic3D Bounding Box Camera Projection
=================================================
.. <description>
Synthetic Data node to project 3d bounding boxes data in camera space.
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:cameraFisheyeParams", "``float[]``", "Camera fisheye projection parameters", "[]"
"inputs:cameraModel", "``int``", "Camera model (pinhole or fisheye models)", "0"
"inputs:cameraNearFar", "``float[2]``", "Camera near/far clipping range", "[1.0, 10000000.0]"
"inputs:exec", "``execution``", "Trigger", "None"
"gpuFoundations (*inputs:gpu*)", "``uint64``", "Pointer to shared context containing gpu foundations", "0"
"inputs:instanceMappingInfoSDPtr", "``uint64``", "uint buffer pointer containing the following information : [numInstances, minInstanceId, numSemantics, minSemanticId, numProtoSemantic]", "0"
"inputs:metersPerSceneUnit", "``float``", "Scene units to meters scale", "0.01"
"inputs:renderProductResolution", "``int[2]``", "RenderProduct resolution", "[65536, 65536]"
"renderProduct (*inputs:rp*)", "``uint64``", "Pointer to render product for this view", "0"
"inputs:sdSemBBoxExtentCudaPtr", "``uint64``", "Cuda buffer containing the extent of the bounding boxes as a float4=(u_min,v_min,u_max,v_max) for 2D or a float6=(xmin,ymin,zmin,xmax,ymax,zmax) in object space for 3D", "0"
"inputs:sdSemBBoxInfosCudaPtr", "``uint64``", "Cuda buffer containing valid bounding boxes infos", "0"
"inputs:semanticWorldTransformSDCudaPtr", "``uint64``", "cuda float44 buffer pointer of size numSemantics containing the world semantic transform", "0"
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:exec", "``execution``", "Trigger", "None"
"outputs:sdSemBBox3dCamCornersCudaPtr", "``uint64``", "Cuda buffer containing the projection of the 3d bounding boxes on the camera plane represented as a float4=(u,v,z,a) for each bounding box corners", "None"
"outputs:sdSemBBox3dCamExtentCudaPtr", "``uint64``", "Cuda buffer containing the 2d extent of the 3d bounding boxes on the camera plane represented as a float6=(u_min,u_max,v_min,v_max,z_min,z_max)", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdPostSemantic3dBoundingBoxCameraProjection"
"Version", "1"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "None"
"__tokens", "[""SemanticBoundingBox3DInfosSD"", ""SemanticBoundingBox3DCamCornersSD"", ""SemanticBoundingBox3DCamExtentSD""]"
"Categories", "graph:postRender,rendering"
"Generated Class Name", "OgnSdPostSemantic3dBoundingBoxCameraProjectionDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/ogn/docs/OgnSdRenderVarToRawArray.rst | .. _omni_syntheticdata_SdRenderVarToRawArray_2:
.. _omni_syntheticdata_SdRenderVarToRawArray:
.. ================================================================================
.. THIS PAGE IS AUTO-GENERATED. DO NOT MANUALLY EDIT.
.. ================================================================================
:orphan:
.. meta::
:title: Sd Render Var To Raw Array
:keywords: lang-en omnigraph node graph:action syntheticdata sd-render-var-to-raw-array
Sd Render Var To Raw Array
==========================
.. <description>
Synthetic Data action node to copy the input rendervar into an output raw array
.. </description>
Installation
------------
To use this node enable :ref:`omni.syntheticdata<ext_omni_syntheticdata>` in the Extension Manager.
Inputs
------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"inputs:cudaStream", "``uint64``", "Pointer to the CUDA stream", "0"
"inputs:exec", "``execution``", "Trigger", "None"
"inputs:renderResults", "``uint64``", "Render results pointer", "0"
"inputs:renderVar", "``token``", "Name of the renderVar", ""
Outputs
-------
.. csv-table::
:header: "Name", "Type", "Descripton", "Default"
:widths: 20, 20, 50, 10
"outputs:bufferSize", "``uint64``", "Size (in bytes) of the buffer (0 if the input is a texture)", "None"
"outputs:cudaStream", "``uint64``", "Pointer to the CUDA stream", "None"
"outputs:data", "``uchar[]``", "Buffer array data", "[]"
"Received (*outputs:exec*)", "``execution``", "Executes when the event is received", "None"
"outputs:format", "``uint64``", "Format", "None"
"outputs:height", "``uint``", "Height (0 if the input is a buffer)", "None"
"outputs:strides", "``int[2]``", "Strides (in bytes) ([0,0] if the input is a buffer)", "None"
"outputs:width", "``uint``", "Width (0 if the input is a buffer)", "None"
Metadata
--------
.. csv-table::
:header: "Name", "Value"
:widths: 30,70
"Unique ID", "omni.syntheticdata.SdRenderVarToRawArray"
"Version", "2"
"Extension", "omni.syntheticdata"
"Has State?", "False"
"Implementation Language", "C++"
"Default Memory Type", "cpu"
"Generated Code Exclusions", "tests"
"Categories", "graph:action"
"Generated Class Name", "OgnSdRenderVarToRawArrayDatabase"
"Python Module", "omni.syntheticdata"
|
omniverse-code/kit/exts/omni.syntheticdata/include/omni/kit/syntheticdata/SyntheticData.h | // Copyright (c) 2020-2021, 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.
//
#pragma once
#include <carb/Interface.h>
#include <carb/sensors/SensorTypes.h>
#include <string>
namespace omni
{
// Forward declare deprecated viewport interface
namespace kit
{
class IViewportWindow;
};
namespace syntheticdata
{
/**
* Return code for functions that need to return information about a failure.
*/
enum class SyntheticDataResult : int32_t
{
eSuccess = 0, ///< Successful completion.
eFailure, ///< A general failure or error.
};
/**
* Structure which contains a list mapping instance Ids to prims with semantic labels that
* can be used to build bounding boxes for meshes with a common semantic class
*/
struct InstanceMapping
{
uint32_t uniqueId; ///< a unique ID for this instance mapping entry
std::string primPath; ///< the prim path for this instance mapping
uint16_t semanticId; ///< the semantic ID for this instance mapping
std::string semanticLabel; ///< the semantic class label for this mapping
std::vector<uint32_t> instanceIds; ///< a list of instance Ids that inherit this semantic label
void* metaData; ///< reserved for future use
};
struct BoundingBox2DExtent
{
int32_t x_min; ///< left extent
int32_t y_min; ///< top extent
int32_t x_max; ///< right extent
int32_t y_max; ///< bottom extent
};
struct BoundingBox3DExtent
{
float x_min; ///< left extent (local coords)
float y_min; ///< top extent (local coords)
float z_min; ///< front extent (local coords)
float x_max; ///< right extent (local coords)
float y_max; ///< bottom extent (local coords)
float z_max; ///< back extent (local coords)
};
struct SyntheticData
{
CARB_PLUGIN_INTERFACE("omni::syntheticdata::SyntheticData", 0, 9)
/**
* Enable a specific sensor type on a viewport.
*
* @param type the type of sensor to enable
*
* @param viewportWindow the viewport to enable the sensor on
*
* @return false
*
* @deprecated removed since version 0.8
*/
bool(CARB_ABI* createSensor)(carb::sensors::SensorType type,
omni::kit::IViewportWindow* viewportWindow);
/**
* Disable a sensor on a viewport.
*
* @param type the type of sensor to disable
*
* @param viewportWindow the viewport to disable the sensor on
*
* @return false
*
* @deprecated removed since version 0.8
*/
bool(CARB_ABI* destroySensor)(carb::sensors::SensorType type,
omni::kit::IViewportWindow* viewportWindow);
/**
* Retrieve resource information on the sensor type of a specific viewport
*
* @param type the type of sensor to retrieve information from
*
* @param viewportWindow the viewport to retrieve information from
*
* @return dummy sensorInfo.
*
* @deprecated removed since version 0.8
*/
const carb::sensors::SensorInfo(CARB_ABI* getSensorInfo)(carb::sensors::SensorType type,
omni::kit::IViewportWindow* viewportWindow);
/**
* Get pointer the sensor data on the device
*
* @param type the type of sensor to retrieve data from
*
* @param viewportWindow the viewport you are retrieving data from
*
* @return nullptr
*
* @deprecated removed since version 0.8
*/
void*(CARB_ABI* getSensorDeviceData)(carb::sensors::SensorType type,
omni::kit::IViewportWindow* viewportWindow);
/**
* Get pointer the sensor data on the host
*
* @param type the type of sensor to retrieve data from
*
* @param viewportWindow the viewport you are retrieving data from
*
* @return nullptr
*
* @deprecated removed since version 0.8
*/
void*(CARB_ABI* getSensorHostData)(carb::sensors::SensorType type,
omni::kit::IViewportWindow* viewportWindow);
/**
* Get the number of sensors that are currently enabled on a viewport
*
* @param viewportWindow the viewport to return the count for
*
* @return 0
*
* @deprecated removed since version 0.8
*/
uint32_t(CARB_ABI* getSensorsCount)(omni::kit::IViewportWindow* viewportWindow);
/**
* Get a list of sensors bound to the viewport
*
* @param viewportWindow the viewport to retrieve sensors for
*
* @param sensorList an array of sensors in the viewport
*
* @param count number of sensors to retrieve for the given viewport
*
* @remarks It is up to the caller to allocate memory for the sensor
* list, using getSensorCount() to determind the list size.
* The call will fail if count is larger than the number of
* instance IDs at uri, or if instanceList is NULL.
*
* @return eFailure
*
* @deprecated removed since version 0.8
*/
SyntheticDataResult(CARB_ABI* getSensors)(omni::kit::IViewportWindow* viewportWindow,
carb::sensors::SensorType* sensorList,
uint32_t count);
/**
* Get instance ID count for an asset
*
* @param uri the object to retrieve the instance ID count for
*
* @return number of instance IDs listed at the uri
*
* @deprecated to be removed, replaced by InstanceMapping AOVs
*/
size_t(CARB_ABI* getInstanceIdsCount)(const char* uri);
/**
* Get instance IDs for an asset
*
* @param uri the object to retrieve the instance ID list for
*
* @param instanceList An array of instance IDs for the given uri
*
* @param count number of instance IDs to retrieve at the uri
*
* @remarks It is up to the caller to allocate memory for the instance
* list, using getInstanceIdsCount() to determind the list size.
* The call will fail if count is larger than the number of
* instance IDs at uri, or if instanceList is NULL.
*
* @return eSuccess if successful, eFailure otherwise
*
* @deprecated to be removed, replaced by InstanceMapping AOVs
*/
SyntheticDataResult(CARB_ABI* getInstanceIds)(const char* uri, uint32_t* instanceList, size_t count);
/**
* Get uri from an instance ID
*
* @param instanceId Instance ID to retrieve a uri for
*
* @return uri for the mesh specified by instanceId
*
* @deprecated to be removed, replaced by InstanceMapping AOVs
*/
const char*(CARB_ABI* getUriFromInstanceId)(uint32_t instanceId);
/**
* Get semantic ID for an asset
*
* @param type the semantic type to retrieve the semantic ID for
* @param data the semantic data to retrieve the semantic ID for
*
* @return semantic ID retrieved by the segmentation sensor
*
* @deprecated to be removed, replaced by InstanceMapping AOVs
*/
uint16_t(CARB_ABI* getSemanticIdFromData)(const char* type, const char* data);
/**
* Get semantic type for an asset
*
* @param semanticId the Id to retrieve the semantic type for
*
* @return semantic type retrieved by the segmentation sensor
*
* @deprecated to be removed, replaced by InstanceMapping AOVs
*/
const char*(CARB_ABI* getSemanticTypeFromId)(uint16_t semanticId);
/**
* Get semantic data for an asset
*
* @param semanticId the Id to retrieve the semantic class fors
*
* @return semantic data retrieved by the segmentation sensor
*
* @deprecated to be removed, replaced by InstanceMapping AOVs
*/
const char*(CARB_ABI* getSemanticDataFromId)(uint16_t semanticId);
/**
* Specify the semantic ID of bounding boxes to return
*
* @param semanticId only retreive bounding boxes with this id
*
* @remarks 0 is the default value and retrieves all bounding boxes
*
* @deprecated to be removed, will be replaced by OmniGraph node
*/
void(CARB_ABI* setBoundingBoxSemanticId)(uint16_t semanticId);
/**
* Specify the semantic type and data of bounding boxes to return
*
* @param type only retrieve bounding boxes with this semantic type
* @param data only retreive bounding boxes with this semantic data
*
* @remarks null string is the default value and retrieves all bounding boxes
*
* @deprecated to be removed, will be replaced by OmniGraph node
*/
void(CARB_ABI* setBoundingBoxSemantics)(const char* type, const char* data);
/**
* Build out a list that will containing mappings of instances and semantics
* to prims
*
* @param uri the root prim to derive instance mappings from
*
* @param instanceMappings a list to output instance mappings to
*
* @remarks It is expected that you will pass in an empty vector to be filled
* in with instance mappings. It is the caller's responsibility to make
* sure the vector is freed when it is no longer needed
*
* @deprecated to be removed, replaced by InstanceMapping AOVs
*/
size_t(CARB_ABI* getInstanceMappings)(const char* uri, std::vector<InstanceMapping>& instanceMappings);
/**
* Callback to update the pipeline internal data just before flushing the fabric
*
* @param stausdStageId id of the current USD stage for which the data has to be updated
*/
void(CARB_ABI* updatePipelineBeforeFabricFlush)(uint64_t usdStageId);
/**
* Fetch the offseted current simulation time (Fabric reference time)
*
* @param usdStageId id of the current USD stage for which the data has to be updated
* @param numSimulationFramesOffset number of simulation frames to offset the current simulation time (0 to get the current simulation time)
* @param rationalTimeOfSimNumerator output numerator part of the current simulation time
* @param rationalTimeOfSimDenominator output denominator part of the current simulation time
*/
void(CARB_ABI* getRationalTimeOfSimulation)(uint64_t usdStageId,
int32_t numSimulationFramesOffset,
int64_t& rationalTimeOfSimNumerator,
uint64_t& rationalTimeOfSimDenominator);
/**
* Parse rendered frame event
*
* @param renderProductPathHandle handle of the render product path
* @param renderProductPtr pointer on the render product data
* @param renderProductPathStr output render product path
* @param rationalTimeOfSimNumerator output numerator part of the current simulation time
* @param rationalTimeOfSimDenominator output denominator part of the current simulation time
*/
void(CARB_ABI* parseRenderedFrameEventPayload)(int64_t renderProductPathHandle,
int64_t renderProductPtr,
std::string& renderProductPathStr,
int64_t& rationalTimeOfSimNumerator,
uint64_t& rationalTimeOfSimDenominator);
};
}
}
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/__init__.py | from . import _syntheticdata
from .scripts.extension import *
from .ogn import *
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdTestRenderProductCameraDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdTestRenderProductCamera
Synthetic Data node to test the renderProduct camera pipeline
"""
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 OgnSdTestRenderProductCameraDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdTestRenderProductCamera
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.cameraApertureOffset
inputs.cameraApertureSize
inputs.cameraFStop
inputs.cameraFisheyeParams
inputs.cameraFocalLength
inputs.cameraFocusDistance
inputs.cameraModel
inputs.cameraNearFar
inputs.cameraProjection
inputs.cameraViewTransform
inputs.exec
inputs.height
inputs.metersPerSceneUnit
inputs.renderProductCameraPath
inputs.renderProductResolution
inputs.renderResults
inputs.rp
inputs.stage
inputs.traceError
inputs.width
Outputs:
outputs.test
Predefined Tokens:
tokens.simulation
tokens.postRender
tokens.onDemand
"""
# 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:cameraApertureOffset', 'float2', 0, None, 'Camera horizontal and vertical aperture offset', {}, True, [0.0, 0.0], False, ''),
('inputs:cameraApertureSize', 'float2', 0, None, 'Camera horizontal and vertical aperture', {}, True, [0.0, 0.0], False, ''),
('inputs:cameraFStop', 'float', 0, None, 'Camera fStop', {}, True, 0.0, False, ''),
('inputs:cameraFisheyeParams', 'float[]', 0, None, 'Camera fisheye projection parameters', {}, True, [], False, ''),
('inputs:cameraFocalLength', 'float', 0, None, 'Camera focal length', {}, True, 0.0, False, ''),
('inputs:cameraFocusDistance', 'float', 0, None, 'Camera focus distance', {}, True, 0.0, False, ''),
('inputs:cameraModel', 'int', 0, None, 'Camera model (pinhole or fisheye models)', {}, True, 0, False, ''),
('inputs:cameraNearFar', 'float2', 0, None, 'Camera near/far clipping range', {}, True, [0.0, 0.0], False, ''),
('inputs:cameraProjection', 'matrix4d', 0, None, 'Camera projection matrix', {}, True, [[1.0, 0.0, 0.0, 0.0], [0.0, 1.0, 0.0, 0.0], [0.0, 0.0, 1.0, 0.0], [0.0, 0.0, 0.0, 1.0]], False, ''),
('inputs:cameraViewTransform', 'matrix4d', 0, None, 'Camera view matrix', {}, True, [[1.0, 0.0, 0.0, 0.0], [0.0, 1.0, 0.0, 0.0], [0.0, 0.0, 1.0, 0.0], [0.0, 0.0, 0.0, 1.0]], False, ''),
('inputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:height', 'uint', 0, None, 'Height of the frame', {}, True, 0, False, ''),
('inputs:metersPerSceneUnit', 'float', 0, None, 'Scene units to meters scale', {}, True, 0.0, False, ''),
('inputs:renderProductCameraPath', 'token', 0, None, 'RenderProduct camera prim path', {}, True, "", False, ''),
('inputs:renderProductResolution', 'int2', 0, None, 'RenderProduct resolution', {}, True, [0, 0], False, ''),
('inputs:renderResults', 'uint64', 0, None, 'OnDemand connection : pointer to render product results', {}, True, 0, False, ''),
('inputs:rp', 'uint64', 0, 'renderProduct', 'PostRender connection : pointer to render product for this view', {}, True, 0, False, ''),
('inputs:stage', 'token', 0, None, 'Stage in {simulation, postrender, ondemand}', {}, True, "", False, ''),
('inputs:traceError', 'bool', 0, None, 'If true print an error message when the frame numbers are out-of-sync', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''),
('inputs:width', 'uint', 0, None, 'Width of the frame', {}, True, 0, False, ''),
('outputs:test', 'bool', 0, None, 'Test value : false if failed', {}, True, None, False, ''),
])
class tokens:
simulation = "simulation"
postRender = "postRender"
onDemand = "onDemand"
@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.cameraProjection = og.AttributeRole.MATRIX
role_data.inputs.cameraViewTransform = og.AttributeRole.MATRIX
role_data.inputs.exec = og.AttributeRole.EXECUTION
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 cameraApertureOffset(self):
data_view = og.AttributeValueHelper(self._attributes.cameraApertureOffset)
return data_view.get()
@cameraApertureOffset.setter
def cameraApertureOffset(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraApertureOffset)
data_view = og.AttributeValueHelper(self._attributes.cameraApertureOffset)
data_view.set(value)
@property
def cameraApertureSize(self):
data_view = og.AttributeValueHelper(self._attributes.cameraApertureSize)
return data_view.get()
@cameraApertureSize.setter
def cameraApertureSize(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraApertureSize)
data_view = og.AttributeValueHelper(self._attributes.cameraApertureSize)
data_view.set(value)
@property
def cameraFStop(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFStop)
return data_view.get()
@cameraFStop.setter
def cameraFStop(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraFStop)
data_view = og.AttributeValueHelper(self._attributes.cameraFStop)
data_view.set(value)
@property
def cameraFisheyeParams(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFisheyeParams)
return data_view.get()
@cameraFisheyeParams.setter
def cameraFisheyeParams(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraFisheyeParams)
data_view = og.AttributeValueHelper(self._attributes.cameraFisheyeParams)
data_view.set(value)
self.cameraFisheyeParams_size = data_view.get_array_size()
@property
def cameraFocalLength(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFocalLength)
return data_view.get()
@cameraFocalLength.setter
def cameraFocalLength(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraFocalLength)
data_view = og.AttributeValueHelper(self._attributes.cameraFocalLength)
data_view.set(value)
@property
def cameraFocusDistance(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFocusDistance)
return data_view.get()
@cameraFocusDistance.setter
def cameraFocusDistance(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraFocusDistance)
data_view = og.AttributeValueHelper(self._attributes.cameraFocusDistance)
data_view.set(value)
@property
def cameraModel(self):
data_view = og.AttributeValueHelper(self._attributes.cameraModel)
return data_view.get()
@cameraModel.setter
def cameraModel(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraModel)
data_view = og.AttributeValueHelper(self._attributes.cameraModel)
data_view.set(value)
@property
def cameraNearFar(self):
data_view = og.AttributeValueHelper(self._attributes.cameraNearFar)
return data_view.get()
@cameraNearFar.setter
def cameraNearFar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraNearFar)
data_view = og.AttributeValueHelper(self._attributes.cameraNearFar)
data_view.set(value)
@property
def cameraProjection(self):
data_view = og.AttributeValueHelper(self._attributes.cameraProjection)
return data_view.get()
@cameraProjection.setter
def cameraProjection(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraProjection)
data_view = og.AttributeValueHelper(self._attributes.cameraProjection)
data_view.set(value)
@property
def cameraViewTransform(self):
data_view = og.AttributeValueHelper(self._attributes.cameraViewTransform)
return data_view.get()
@cameraViewTransform.setter
def cameraViewTransform(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraViewTransform)
data_view = og.AttributeValueHelper(self._attributes.cameraViewTransform)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.height)
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def metersPerSceneUnit(self):
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
return data_view.get()
@metersPerSceneUnit.setter
def metersPerSceneUnit(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.metersPerSceneUnit)
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
data_view.set(value)
@property
def renderProductCameraPath(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductCameraPath)
return data_view.get()
@renderProductCameraPath.setter
def renderProductCameraPath(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderProductCameraPath)
data_view = og.AttributeValueHelper(self._attributes.renderProductCameraPath)
data_view.set(value)
@property
def renderProductResolution(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductResolution)
return data_view.get()
@renderProductResolution.setter
def renderProductResolution(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderProductResolution)
data_view = og.AttributeValueHelper(self._attributes.renderProductResolution)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
data_view.set(value)
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
data_view.set(value)
@property
def stage(self):
data_view = og.AttributeValueHelper(self._attributes.stage)
return data_view.get()
@stage.setter
def stage(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.stage)
data_view = og.AttributeValueHelper(self._attributes.stage)
data_view.set(value)
@property
def traceError(self):
data_view = og.AttributeValueHelper(self._attributes.traceError)
return data_view.get()
@traceError.setter
def traceError(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.traceError)
data_view = og.AttributeValueHelper(self._attributes.traceError)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.width)
data_view = og.AttributeValueHelper(self._attributes.width)
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 test(self):
data_view = og.AttributeValueHelper(self._attributes.test)
return data_view.get()
@test.setter
def test(self, value):
data_view = og.AttributeValueHelper(self._attributes.test)
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 = OgnSdTestRenderProductCameraDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdTestRenderProductCameraDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdTestRenderProductCameraDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdPostSemantic3dBoundingBoxFilterDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdPostSemantic3dBoundingBoxFilter
Synthetic Data node to cull the semantic 3d bounding boxes.
"""
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 OgnSdPostSemantic3dBoundingBoxFilterDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdPostSemantic3dBoundingBoxFilter
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.gpu
inputs.instanceMappingInfoSDPtr
inputs.metersPerSceneUnit
inputs.rp
inputs.sdSemBBox3dCamCornersCudaPtr
inputs.sdSemBBoxInfosCudaPtr
inputs.viewportNearFar
Outputs:
outputs.exec
outputs.sdSemBBoxInfosCudaPtr
Predefined Tokens:
tokens.SemanticBoundingBox3DInfosSD
tokens.SemanticBoundingBox3DFilterInfosSD
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, 'gpuFoundations', 'Pointer to shared context containing gpu foundations', {}, True, 0, False, ''),
('inputs:instanceMappingInfoSDPtr', 'uint64', 0, None, 'uint buffer pointer containing the following information : [numInstances, minInstanceId, numSemantics, minSemanticId, numProtoSemantic]', {}, True, 0, False, ''),
('inputs:metersPerSceneUnit', 'float', 0, None, 'Scene units to meters scale', {ogn.MetadataKeys.DEFAULT: '0.01'}, True, 0.01, False, ''),
('inputs:rp', 'uint64', 0, 'renderProduct', 'Pointer to render product for this view', {}, True, 0, False, ''),
('inputs:sdSemBBox3dCamCornersCudaPtr', 'uint64', 0, None, 'Cuda buffer containing the projection of the 3d bounding boxes on the camera plane represented as a float3=(u,v,z,a) for each bounding box corners', {}, True, 0, False, ''),
('inputs:sdSemBBoxInfosCudaPtr', 'uint64', 0, None, 'Cuda buffer containing valid bounding boxes infos', {}, True, 0, False, ''),
('inputs:viewportNearFar', 'float2', 0, None, 'near and far plane (in scene units) used to clip the 3d bounding boxes.', {ogn.MetadataKeys.DEFAULT: '[0.0, -1.0]'}, True, [0.0, -1.0], False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:sdSemBBoxInfosCudaPtr', 'uint64', 0, None, 'Cuda buffer containing valid bounding boxes infos', {}, True, None, False, ''),
])
class tokens:
SemanticBoundingBox3DInfosSD = "SemanticBoundingBox3DInfosSD"
SemanticBoundingBox3DFilterInfosSD = "SemanticBoundingBox3DFilterInfosSD"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def instanceMappingInfoSDPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
return data_view.get()
@instanceMappingInfoSDPtr.setter
def instanceMappingInfoSDPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.instanceMappingInfoSDPtr)
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
data_view.set(value)
@property
def metersPerSceneUnit(self):
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
return data_view.get()
@metersPerSceneUnit.setter
def metersPerSceneUnit(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.metersPerSceneUnit)
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
data_view.set(value)
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
data_view.set(value)
@property
def sdSemBBox3dCamCornersCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamCornersCudaPtr)
return data_view.get()
@sdSemBBox3dCamCornersCudaPtr.setter
def sdSemBBox3dCamCornersCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdSemBBox3dCamCornersCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamCornersCudaPtr)
data_view.set(value)
@property
def sdSemBBoxInfosCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
return data_view.get()
@sdSemBBoxInfosCudaPtr.setter
def sdSemBBoxInfosCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdSemBBoxInfosCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
data_view.set(value)
@property
def viewportNearFar(self):
data_view = og.AttributeValueHelper(self._attributes.viewportNearFar)
return data_view.get()
@viewportNearFar.setter
def viewportNearFar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.viewportNearFar)
data_view = og.AttributeValueHelper(self._attributes.viewportNearFar)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def sdSemBBoxInfosCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
return data_view.get()
@sdSemBBoxInfosCudaPtr.setter
def sdSemBBoxInfosCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
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 = OgnSdPostSemantic3dBoundingBoxFilterDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdPostSemantic3dBoundingBoxFilterDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdPostSemantic3dBoundingBoxFilterDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdTestStageManipulationScenariiDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdTestStageManipulationScenarii
Synthetic Data test node applying randomly some predefined stage manipulation scenarii
"""
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 OgnSdTestStageManipulationScenariiDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdTestStageManipulationScenarii
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.randomSeed
inputs.worldPrimPath
State:
state.frameNumber
"""
# 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:randomSeed', 'int', 0, None, 'Random seed', {}, True, 0, False, ''),
('inputs:worldPrimPath', 'token', 0, None, 'Path of the world prim : contains every modifiable prim, cannot be modified', {}, True, "", False, ''),
('state:frameNumber', 'uint64', 0, None, 'Current frameNumber (number of invocations)', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
])
class ValuesForInputs(og.DynamicAttributeAccess):
LOCAL_PROPERTY_NAMES = {"randomSeed", "worldPrimPath", "_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.randomSeed, self._attributes.worldPrimPath]
self._batchedReadValues = [0, ""]
@property
def randomSeed(self):
return self._batchedReadValues[0]
@randomSeed.setter
def randomSeed(self, value):
self._batchedReadValues[0] = value
@property
def worldPrimPath(self):
return self._batchedReadValues[1]
@worldPrimPath.setter
def worldPrimPath(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._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)
@property
def frameNumber(self):
data_view = og.AttributeValueHelper(self._attributes.frameNumber)
return data_view.get()
@frameNumber.setter
def frameNumber(self, value):
data_view = og.AttributeValueHelper(self._attributes.frameNumber)
data_view.set(value)
def __init__(self, node):
super().__init__(node)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT)
self.inputs = OgnSdTestStageManipulationScenariiDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdTestStageManipulationScenariiDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdTestStageManipulationScenariiDatabase.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(OgnSdTestStageManipulationScenariiDatabase.NODE_TYPE_CLASS, 'get_node_type', None)
if callable(get_node_type_function):
return get_node_type_function()
return 'omni.syntheticdata.SdTestStageManipulationScenarii'
@staticmethod
def compute(context, node):
def database_valid():
return True
try:
per_node_data = OgnSdTestStageManipulationScenariiDatabase.PER_NODE_DATA[node.node_id()]
db = per_node_data.get('_db')
if db is None:
db = OgnSdTestStageManipulationScenariiDatabase(node)
per_node_data['_db'] = db
if not database_valid():
per_node_data['_db'] = None
return False
except:
db = OgnSdTestStageManipulationScenariiDatabase(node)
try:
compute_function = getattr(OgnSdTestStageManipulationScenariiDatabase.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 OgnSdTestStageManipulationScenariiDatabase.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):
OgnSdTestStageManipulationScenariiDatabase._initialize_per_node_data(node)
initialize_function = getattr(OgnSdTestStageManipulationScenariiDatabase.NODE_TYPE_CLASS, 'initialize', None)
if callable(initialize_function):
initialize_function(context, node)
per_node_data = OgnSdTestStageManipulationScenariiDatabase.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(OgnSdTestStageManipulationScenariiDatabase.NODE_TYPE_CLASS, 'release', None)
if callable(release_function):
release_function(node)
OgnSdTestStageManipulationScenariiDatabase._release_per_node_data(node)
@staticmethod
def release_instance(node, target):
OgnSdTestStageManipulationScenariiDatabase._release_per_node_instance_data(node, target)
@staticmethod
def update_node_version(context, node, old_version, new_version):
update_node_version_function = getattr(OgnSdTestStageManipulationScenariiDatabase.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(OgnSdTestStageManipulationScenariiDatabase.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.syntheticdata")
node_type.set_metadata(ogn.MetadataKeys.CATEGORIES, "graph:simulation,internal:test")
node_type.set_metadata(ogn.MetadataKeys.DESCRIPTION, "Synthetic Data test node applying randomly some predefined stage manipulation scenarii")
node_type.set_metadata(ogn.MetadataKeys.EXCLUSIONS, "tests")
node_type.set_metadata(ogn.MetadataKeys.LANGUAGE, "Python")
OgnSdTestStageManipulationScenariiDatabase.INTERFACE.add_to_node_type(node_type)
node_type.set_has_state(True)
@staticmethod
def on_connection_type_resolve(node):
on_connection_type_resolve_function = getattr(OgnSdTestStageManipulationScenariiDatabase.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):
OgnSdTestStageManipulationScenariiDatabase.NODE_TYPE_CLASS = node_type_class
og.register_node_type(OgnSdTestStageManipulationScenariiDatabase.abi, 1)
@staticmethod
def deregister():
og.deregister_node_type("omni.syntheticdata.SdTestStageManipulationScenarii")
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdInstanceMappingDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdInstanceMapping
Synthetic Data node to expose the scene instances semantic hierarchy information
"""
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 OgnSdInstanceMappingDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdInstanceMapping
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.lazy
inputs.renderResults
Outputs:
outputs.exec
outputs.sdIMInstanceSemanticMap
outputs.sdIMInstanceTokens
outputs.sdIMLastUpdateTimeDenominator
outputs.sdIMLastUpdateTimeNumerator
outputs.sdIMMaxSemanticHierarchyDepth
outputs.sdIMMinInstanceIndex
outputs.sdIMMinSemanticIndex
outputs.sdIMNumInstances
outputs.sdIMNumSemanticTokens
outputs.sdIMNumSemantics
outputs.sdIMSemanticLocalTransform
outputs.sdIMSemanticTokenMap
outputs.sdIMSemanticWorldTransform
Predefined Tokens:
tokens.InstanceMappingInfoSDhost
tokens.InstanceMapSDhost
tokens.SemanticLabelTokenSDhost
tokens.InstancePrimTokenSDhost
tokens.SemanticLocalTransformSDhost
tokens.SemanticWorldTransformSDhost
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:lazy', 'bool', 0, None, 'Compute outputs only when connected to a downstream node', {ogn.MetadataKeys.DEFAULT: 'true'}, True, True, False, ''),
('inputs:renderResults', 'uint64', 0, None, 'Render results pointer', {}, True, 0, False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes when the event is received', {}, True, None, False, ''),
('outputs:sdIMInstanceSemanticMap', 'uchar[]', 0, None, 'Raw array of uint16_t of size sdIMNumInstances*sdIMMaxSemanticHierarchyDepth containing the mapping from the instances index to their inherited semantic entities', {}, True, None, False, ''),
('outputs:sdIMInstanceTokens', 'token[]', 0, None, 'Instance array containing the token for every instances', {}, True, None, False, ''),
('outputs:sdIMLastUpdateTimeDenominator', 'uint64', 0, None, 'Time denominator of the last time the data has changed', {}, True, None, False, ''),
('outputs:sdIMLastUpdateTimeNumerator', 'int64', 0, None, 'Time numerator of the last time the data has changed', {}, True, None, False, ''),
('outputs:sdIMMaxSemanticHierarchyDepth', 'uint', 0, None, 'Maximal number of semantic entities inherited by an instance', {}, True, None, False, ''),
('outputs:sdIMMinInstanceIndex', 'uint', 0, None, 'Instance id of the first instance in the instance arrays', {}, True, None, False, ''),
('outputs:sdIMMinSemanticIndex', 'uint', 0, None, 'Semantic id of the first semantic entity in the semantic arrays', {}, True, None, False, ''),
('outputs:sdIMNumInstances', 'uint', 0, None, 'Number of instances in the instance arrays', {}, True, None, False, ''),
('outputs:sdIMNumSemanticTokens', 'uint', 0, None, 'Number of semantics token including the semantic entity path, the semantic entity types and if the number of semantic types is greater than one a ', {}, True, None, False, ''),
('outputs:sdIMNumSemantics', 'uint', 0, None, 'Number of semantic entities in the semantic arrays', {}, True, None, False, ''),
('outputs:sdIMSemanticLocalTransform', 'float[]', 0, None, 'Semantic array of 4x4 float matrices containing the transform from world to local space for every semantic entity', {}, True, None, False, ''),
('outputs:sdIMSemanticTokenMap', 'token[]', 0, None, 'Semantic array of token of size numSemantics * numSemanticTypes containing the mapping from the semantic entities to the semantic entity path and semantic types', {}, True, None, False, ''),
('outputs:sdIMSemanticWorldTransform', 'float[]', 0, None, 'Semantic array of 4x4 float matrices containing the transform from local to world space for every semantic entity', {}, True, None, False, ''),
])
class tokens:
InstanceMappingInfoSDhost = "InstanceMappingInfoSDhost"
InstanceMapSDhost = "InstanceMapSDhost"
SemanticLabelTokenSDhost = "SemanticLabelTokenSDhost"
InstancePrimTokenSDhost = "InstancePrimTokenSDhost"
SemanticLocalTransformSDhost = "SemanticLocalTransformSDhost"
SemanticWorldTransformSDhost = "SemanticWorldTransformSDhost"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def lazy(self):
data_view = og.AttributeValueHelper(self._attributes.lazy)
return data_view.get()
@lazy.setter
def lazy(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.lazy)
data_view = og.AttributeValueHelper(self._attributes.lazy)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
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.sdIMInstanceSemanticMap_size = None
self.sdIMInstanceTokens_size = None
self.sdIMSemanticLocalTransform_size = None
self.sdIMSemanticTokenMap_size = None
self.sdIMSemanticWorldTransform_size = None
self._batchedWriteValues = { }
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def sdIMInstanceSemanticMap(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMInstanceSemanticMap)
return data_view.get(reserved_element_count=self.sdIMInstanceSemanticMap_size)
@sdIMInstanceSemanticMap.setter
def sdIMInstanceSemanticMap(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMInstanceSemanticMap)
data_view.set(value)
self.sdIMInstanceSemanticMap_size = data_view.get_array_size()
@property
def sdIMInstanceTokens(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMInstanceTokens)
return data_view.get(reserved_element_count=self.sdIMInstanceTokens_size)
@sdIMInstanceTokens.setter
def sdIMInstanceTokens(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMInstanceTokens)
data_view.set(value)
self.sdIMInstanceTokens_size = data_view.get_array_size()
@property
def sdIMLastUpdateTimeDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMLastUpdateTimeDenominator)
return data_view.get()
@sdIMLastUpdateTimeDenominator.setter
def sdIMLastUpdateTimeDenominator(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMLastUpdateTimeDenominator)
data_view.set(value)
@property
def sdIMLastUpdateTimeNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMLastUpdateTimeNumerator)
return data_view.get()
@sdIMLastUpdateTimeNumerator.setter
def sdIMLastUpdateTimeNumerator(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMLastUpdateTimeNumerator)
data_view.set(value)
@property
def sdIMMaxSemanticHierarchyDepth(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMMaxSemanticHierarchyDepth)
return data_view.get()
@sdIMMaxSemanticHierarchyDepth.setter
def sdIMMaxSemanticHierarchyDepth(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMMaxSemanticHierarchyDepth)
data_view.set(value)
@property
def sdIMMinInstanceIndex(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMMinInstanceIndex)
return data_view.get()
@sdIMMinInstanceIndex.setter
def sdIMMinInstanceIndex(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMMinInstanceIndex)
data_view.set(value)
@property
def sdIMMinSemanticIndex(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMMinSemanticIndex)
return data_view.get()
@sdIMMinSemanticIndex.setter
def sdIMMinSemanticIndex(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMMinSemanticIndex)
data_view.set(value)
@property
def sdIMNumInstances(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMNumInstances)
return data_view.get()
@sdIMNumInstances.setter
def sdIMNumInstances(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMNumInstances)
data_view.set(value)
@property
def sdIMNumSemanticTokens(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMNumSemanticTokens)
return data_view.get()
@sdIMNumSemanticTokens.setter
def sdIMNumSemanticTokens(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMNumSemanticTokens)
data_view.set(value)
@property
def sdIMNumSemantics(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMNumSemantics)
return data_view.get()
@sdIMNumSemantics.setter
def sdIMNumSemantics(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMNumSemantics)
data_view.set(value)
@property
def sdIMSemanticLocalTransform(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMSemanticLocalTransform)
return data_view.get(reserved_element_count=self.sdIMSemanticLocalTransform_size)
@sdIMSemanticLocalTransform.setter
def sdIMSemanticLocalTransform(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMSemanticLocalTransform)
data_view.set(value)
self.sdIMSemanticLocalTransform_size = data_view.get_array_size()
@property
def sdIMSemanticTokenMap(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMSemanticTokenMap)
return data_view.get(reserved_element_count=self.sdIMSemanticTokenMap_size)
@sdIMSemanticTokenMap.setter
def sdIMSemanticTokenMap(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMSemanticTokenMap)
data_view.set(value)
self.sdIMSemanticTokenMap_size = data_view.get_array_size()
@property
def sdIMSemanticWorldTransform(self):
data_view = og.AttributeValueHelper(self._attributes.sdIMSemanticWorldTransform)
return data_view.get(reserved_element_count=self.sdIMSemanticWorldTransform_size)
@sdIMSemanticWorldTransform.setter
def sdIMSemanticWorldTransform(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdIMSemanticWorldTransform)
data_view.set(value)
self.sdIMSemanticWorldTransform_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 = OgnSdInstanceMappingDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdInstanceMappingDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdInstanceMappingDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdPostRenderVarDisplayTextureDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdPostRenderVarDisplayTexture
Synthetic Data node to copy the input aov texture into the corresponding visualization texture
"""
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 OgnSdPostRenderVarDisplayTextureDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdPostRenderVarDisplayTexture
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.cameraFisheyeParams
inputs.cameraModel
inputs.cameraNearFar
inputs.exec
inputs.gpu
inputs.instanceMapSDCudaPtr
inputs.instanceMappingInfoSDPtr
inputs.metersPerSceneUnit
inputs.mode
inputs.parameters
inputs.renderVar
inputs.renderVarDisplay
inputs.rp
inputs.sdDisplayHeight
inputs.sdDisplayWidth
inputs.sdSemBBox3dCamCornersCudaPtr
inputs.sdSemBBox3dCamExtentCudaPtr
inputs.sdSemBBoxExtentCudaPtr
inputs.sdSemBBoxInfosCudaPtr
inputs.semanticLabelTokenSDCudaPtr
inputs.semanticMapSDCudaPtr
inputs.semanticPrimTokenSDCudaPtr
inputs.semanticWorldTransformSDCudaPtr
Outputs:
outputs.cudaPtr
outputs.exec
outputs.format
outputs.height
outputs.renderVarDisplay
outputs.width
Predefined Tokens:
tokens.LdrColorSD
tokens.Camera3dPositionSD
tokens.DistanceToImagePlaneSD
tokens.DistanceToCameraSD
tokens.InstanceSegmentationSD
tokens.SemanticSegmentationSD
tokens.NormalSD
tokens.TargetMotionSD
tokens.BoundingBox2DTightSD
tokens.BoundingBox2DLooseSD
tokens.BoundingBox3DSD
tokens.OcclusionSD
tokens.TruncationSD
tokens.CrossCorrespondenceSD
tokens.SemanticBoundingBox2DExtentTightSD
tokens.SemanticBoundingBox2DInfosTightSD
tokens.SemanticBoundingBox2DExtentLooseSD
tokens.SemanticBoundingBox2DInfosLooseSD
tokens.SemanticBoundingBox3DExtentSD
tokens.SemanticBoundingBox3DInfosSD
tokens.SemanticBoundingBox3DCamCornersSD
tokens.SemanticBoundingBox3DDisplayAxesSD
tokens.autoMode
tokens.colorMode
tokens.scaled3dVectorMode
tokens.clippedValueMode
tokens.normalized3dVectorMode
tokens.segmentationMapMode
tokens.instanceMapMode
tokens.semanticPathMode
tokens.semanticLabelMode
tokens.semanticBoundingBox2dMode
tokens.rawBoundingBox2dMode
tokens.semanticProjBoundingBox3dMode
tokens.semanticBoundingBox3dMode
tokens.rawBoundingBox3dMode
tokens.pinhole
tokens.perspective
tokens.orthographic
tokens.fisheyePolynomial
"""
# 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:cameraFisheyeParams', 'float[]', 0, None, 'Camera fisheye projection parameters', {}, True, [], False, ''),
('inputs:cameraModel', 'int', 0, None, 'Camera model (pinhole or fisheye models)', {}, True, 0, False, ''),
('inputs:cameraNearFar', 'float2', 0, None, 'Camera near/far clipping range', {}, True, [0.0, 0.0], False, ''),
('inputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, 'gpuFoundations', 'Pointer to shared context containing gpu foundations', {}, True, 0, False, ''),
('inputs:instanceMapSDCudaPtr', 'uint64', 0, None, 'cuda uint16_t buffer pointer of size numInstances containing the instance parent semantic index', {}, True, 0, False, ''),
('inputs:instanceMappingInfoSDPtr', 'uint64', 0, None, 'uint buffer pointer containing the following information : [numInstances, minInstanceId, numSemantics, minSemanticId, numProtoSemantic]', {}, True, 0, False, ''),
('inputs:metersPerSceneUnit', 'float', 0, None, 'Scene units to meters scale', {}, True, 0.0, False, ''),
('inputs:mode', 'token', 0, None, 'Display mode', {ogn.MetadataKeys.DEFAULT: '"autoMode"'}, True, "autoMode", False, ''),
('inputs:parameters', 'float4', 0, None, 'Display parameters', {ogn.MetadataKeys.DEFAULT: '[0.0, 5.0, 0.33, 0.27]'}, True, [0.0, 5.0, 0.33, 0.27], False, ''),
('inputs:renderVar', 'token', 0, None, 'Name of the input RenderVar to display', {}, True, "", False, ''),
('inputs:renderVarDisplay', 'token', 0, None, 'Name of the output display RenderVar', {}, True, "", False, ''),
('inputs:rp', 'uint64', 0, 'renderProduct', 'Pointer to render product for this view', {}, True, 0, False, ''),
('inputs:sdDisplayHeight', 'uint', 0, None, 'Visualization texture Height', {}, True, 0, False, ''),
('inputs:sdDisplayWidth', 'uint', 0, None, 'Visualization texture width', {}, True, 0, False, ''),
('inputs:sdSemBBox3dCamCornersCudaPtr', 'uint64', 0, None, 'Cuda buffer containing the projection of the 3d bounding boxes on the camera plane represented as a float3=(u,v,z,a) for each bounding box corners', {}, True, 0, False, ''),
('inputs:sdSemBBox3dCamExtentCudaPtr', 'uint64', 0, None, 'Cuda buffer containing the 2d extent of the 3d bounding boxes on the camera plane represented as a float6=(u_min,u_max,v_min,v_max,z_min,z_max)', {}, True, 0, False, ''),
('inputs:sdSemBBoxExtentCudaPtr', 'uint64', 0, None, 'Cuda buffer containing the extent of the bounding boxes as a float4=(u_min,v_min,u_max,v_max) for 2D or a float6=(xmin,ymin,zmin,xmax,ymax,zmax) in object space for 3D', {}, True, 0, False, ''),
('inputs:sdSemBBoxInfosCudaPtr', 'uint64', 0, None, 'Cuda buffer containing valid bounding boxes infos', {}, True, 0, False, ''),
('inputs:semanticLabelTokenSDCudaPtr', 'uint64', 0, None, 'cuda uint64_t buffer pointer of size numSemantics containing the semantic label token', {}, True, 0, False, ''),
('inputs:semanticMapSDCudaPtr', 'uint64', 0, None, 'cuda uint16_t buffer pointer of size numSemantics containing the semantic parent semantic index', {}, True, 0, False, ''),
('inputs:semanticPrimTokenSDCudaPtr', 'uint64', 0, None, 'cuda uint64_t buffer pointer of size numSemantics containing the semantic path token', {}, True, 0, False, ''),
('inputs:semanticWorldTransformSDCudaPtr', 'uint64', 0, None, 'cuda float44 buffer pointer of size numSemantics containing the world semantic transform', {}, True, 0, False, ''),
('outputs:cudaPtr', 'uint64', 0, None, 'Display texture CUDA pointer', {}, True, None, False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:format', 'uint64', 0, None, 'Display texture format', {}, True, None, False, ''),
('outputs:height', 'uint', 0, None, 'Display texture height', {}, True, None, False, ''),
('outputs:renderVarDisplay', 'token', 0, None, 'Name of the output display RenderVar', {}, True, None, False, ''),
('outputs:width', 'uint', 0, None, 'Display texture width', {}, True, None, False, ''),
])
class tokens:
LdrColorSD = "LdrColorSD"
Camera3dPositionSD = "Camera3dPositionSD"
DistanceToImagePlaneSD = "DistanceToImagePlaneSD"
DistanceToCameraSD = "DistanceToCameraSD"
InstanceSegmentationSD = "InstanceSegmentationSD"
SemanticSegmentationSD = "SemanticSegmentationSD"
NormalSD = "NormalSD"
TargetMotionSD = "TargetMotionSD"
BoundingBox2DTightSD = "BoundingBox2DTightSD"
BoundingBox2DLooseSD = "BoundingBox2DLooseSD"
BoundingBox3DSD = "BoundingBox3DSD"
OcclusionSD = "OcclusionSD"
TruncationSD = "TruncationSD"
CrossCorrespondenceSD = "CrossCorrespondenceSD"
SemanticBoundingBox2DExtentTightSD = "SemanticBoundingBox2DExtentTightSD"
SemanticBoundingBox2DInfosTightSD = "SemanticBoundingBox2DInfosTightSD"
SemanticBoundingBox2DExtentLooseSD = "SemanticBoundingBox2DExtentLooseSD"
SemanticBoundingBox2DInfosLooseSD = "SemanticBoundingBox2DInfosLooseSD"
SemanticBoundingBox3DExtentSD = "SemanticBoundingBox3DExtentSD"
SemanticBoundingBox3DInfosSD = "SemanticBoundingBox3DInfosSD"
SemanticBoundingBox3DCamCornersSD = "SemanticBoundingBox3DCamCornersSD"
SemanticBoundingBox3DDisplayAxesSD = "SemanticBoundingBox3DDisplayAxesSD"
autoMode = "autoMode"
colorMode = "colorMode"
scaled3dVectorMode = "scaled3dVectorMode"
clippedValueMode = "clippedValueMode"
normalized3dVectorMode = "normalized3dVectorMode"
segmentationMapMode = "segmentationMapMode"
instanceMapMode = "instanceMapMode"
semanticPathMode = "semanticPathMode"
semanticLabelMode = "semanticLabelMode"
semanticBoundingBox2dMode = "semanticBoundingBox2dMode"
rawBoundingBox2dMode = "rawBoundingBox2dMode"
semanticProjBoundingBox3dMode = "semanticProjBoundingBox3dMode"
semanticBoundingBox3dMode = "semanticBoundingBox3dMode"
rawBoundingBox3dMode = "rawBoundingBox3dMode"
pinhole = "pinhole"
perspective = "perspective"
orthographic = "orthographic"
fisheyePolynomial = "fisheyePolynomial"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 cameraFisheyeParams(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFisheyeParams)
return data_view.get()
@cameraFisheyeParams.setter
def cameraFisheyeParams(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraFisheyeParams)
data_view = og.AttributeValueHelper(self._attributes.cameraFisheyeParams)
data_view.set(value)
self.cameraFisheyeParams_size = data_view.get_array_size()
@property
def cameraModel(self):
data_view = og.AttributeValueHelper(self._attributes.cameraModel)
return data_view.get()
@cameraModel.setter
def cameraModel(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraModel)
data_view = og.AttributeValueHelper(self._attributes.cameraModel)
data_view.set(value)
@property
def cameraNearFar(self):
data_view = og.AttributeValueHelper(self._attributes.cameraNearFar)
return data_view.get()
@cameraNearFar.setter
def cameraNearFar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraNearFar)
data_view = og.AttributeValueHelper(self._attributes.cameraNearFar)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def instanceMapSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMapSDCudaPtr)
return data_view.get()
@instanceMapSDCudaPtr.setter
def instanceMapSDCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.instanceMapSDCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.instanceMapSDCudaPtr)
data_view.set(value)
@property
def instanceMappingInfoSDPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
return data_view.get()
@instanceMappingInfoSDPtr.setter
def instanceMappingInfoSDPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.instanceMappingInfoSDPtr)
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
data_view.set(value)
@property
def metersPerSceneUnit(self):
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
return data_view.get()
@metersPerSceneUnit.setter
def metersPerSceneUnit(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.metersPerSceneUnit)
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
data_view.set(value)
@property
def mode(self):
data_view = og.AttributeValueHelper(self._attributes.mode)
return data_view.get()
@mode.setter
def mode(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.mode)
data_view = og.AttributeValueHelper(self._attributes.mode)
data_view.set(value)
@property
def parameters(self):
data_view = og.AttributeValueHelper(self._attributes.parameters)
return data_view.get()
@parameters.setter
def parameters(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.parameters)
data_view = og.AttributeValueHelper(self._attributes.parameters)
data_view.set(value)
@property
def renderVar(self):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
return data_view.get()
@renderVar.setter
def renderVar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVar)
data_view = og.AttributeValueHelper(self._attributes.renderVar)
data_view.set(value)
@property
def renderVarDisplay(self):
data_view = og.AttributeValueHelper(self._attributes.renderVarDisplay)
return data_view.get()
@renderVarDisplay.setter
def renderVarDisplay(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVarDisplay)
data_view = og.AttributeValueHelper(self._attributes.renderVarDisplay)
data_view.set(value)
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
data_view.set(value)
@property
def sdDisplayHeight(self):
data_view = og.AttributeValueHelper(self._attributes.sdDisplayHeight)
return data_view.get()
@sdDisplayHeight.setter
def sdDisplayHeight(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdDisplayHeight)
data_view = og.AttributeValueHelper(self._attributes.sdDisplayHeight)
data_view.set(value)
@property
def sdDisplayWidth(self):
data_view = og.AttributeValueHelper(self._attributes.sdDisplayWidth)
return data_view.get()
@sdDisplayWidth.setter
def sdDisplayWidth(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdDisplayWidth)
data_view = og.AttributeValueHelper(self._attributes.sdDisplayWidth)
data_view.set(value)
@property
def sdSemBBox3dCamCornersCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamCornersCudaPtr)
return data_view.get()
@sdSemBBox3dCamCornersCudaPtr.setter
def sdSemBBox3dCamCornersCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdSemBBox3dCamCornersCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamCornersCudaPtr)
data_view.set(value)
@property
def sdSemBBox3dCamExtentCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamExtentCudaPtr)
return data_view.get()
@sdSemBBox3dCamExtentCudaPtr.setter
def sdSemBBox3dCamExtentCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdSemBBox3dCamExtentCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamExtentCudaPtr)
data_view.set(value)
@property
def sdSemBBoxExtentCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxExtentCudaPtr)
return data_view.get()
@sdSemBBoxExtentCudaPtr.setter
def sdSemBBoxExtentCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdSemBBoxExtentCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxExtentCudaPtr)
data_view.set(value)
@property
def sdSemBBoxInfosCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
return data_view.get()
@sdSemBBoxInfosCudaPtr.setter
def sdSemBBoxInfosCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdSemBBoxInfosCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
data_view.set(value)
@property
def semanticLabelTokenSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticLabelTokenSDCudaPtr)
return data_view.get()
@semanticLabelTokenSDCudaPtr.setter
def semanticLabelTokenSDCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticLabelTokenSDCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticLabelTokenSDCudaPtr)
data_view.set(value)
@property
def semanticMapSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticMapSDCudaPtr)
return data_view.get()
@semanticMapSDCudaPtr.setter
def semanticMapSDCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticMapSDCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticMapSDCudaPtr)
data_view.set(value)
@property
def semanticPrimTokenSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticPrimTokenSDCudaPtr)
return data_view.get()
@semanticPrimTokenSDCudaPtr.setter
def semanticPrimTokenSDCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticPrimTokenSDCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticPrimTokenSDCudaPtr)
data_view.set(value)
@property
def semanticWorldTransformSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformSDCudaPtr)
return data_view.get()
@semanticWorldTransformSDCudaPtr.setter
def semanticWorldTransformSDCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticWorldTransformSDCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformSDCudaPtr)
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 cudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
return data_view.get()
@cudaPtr.setter
def cudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def format(self):
data_view = og.AttributeValueHelper(self._attributes.format)
return data_view.get()
@format.setter
def format(self, value):
data_view = og.AttributeValueHelper(self._attributes.format)
data_view.set(value)
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def renderVarDisplay(self):
data_view = og.AttributeValueHelper(self._attributes.renderVarDisplay)
return data_view.get()
@renderVarDisplay.setter
def renderVarDisplay(self, value):
data_view = og.AttributeValueHelper(self._attributes.renderVarDisplay)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
data_view = og.AttributeValueHelper(self._attributes.width)
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 = OgnSdPostRenderVarDisplayTextureDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdPostRenderVarDisplayTextureDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdPostRenderVarDisplayTextureDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdTestStageSynchronizationDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdTestStageSynchronization
Synthetic Data node to test the pipeline stage synchronization
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdTestStageSynchronizationDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdTestStageSynchronization
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.gpu
inputs.randomMaxProcessingTimeUs
inputs.randomSeed
inputs.renderResults
inputs.rp
inputs.swhFrameNumber
inputs.tag
inputs.traceError
Outputs:
outputs.exec
outputs.fabricSWHFrameNumber
outputs.swhFrameNumber
"""
# 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:exec', 'execution', 0, None, 'OnDemand connection : trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, 'gpuFoundations', 'PostRender connection : pointer to shared context containing gpu foundations', {}, True, 0, False, ''),
('inputs:randomMaxProcessingTimeUs', 'uint', 0, None, 'Maximum number of micro-seconds to randomly (uniformely) wait for in order to simulate varying workload', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('inputs:randomSeed', 'uint', 0, None, 'Random seed for the randomization', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('inputs:renderResults', 'uint64', 0, None, 'OnDemand connection : pointer to render product results', {}, True, 0, False, ''),
('inputs:rp', 'uint64', 0, 'renderProduct', 'PostRender connection : pointer to render product for this view', {}, True, 0, False, ''),
('inputs:swhFrameNumber', 'uint64', 0, None, 'Fabric frame number', {}, True, 0, False, ''),
('inputs:tag', 'token', 0, None, 'A tag to identify the node', {}, True, "", False, ''),
('inputs:traceError', 'bool', 0, None, 'If true print an error message when the frame numbers are out-of-sync', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''),
('outputs:exec', 'execution', 0, None, 'OnDemand connection : trigger', {}, True, None, False, ''),
('outputs:fabricSWHFrameNumber', 'uint64', 0, None, 'Fabric frame number from the fabric', {}, True, None, False, ''),
('outputs:swhFrameNumber', 'uint64', 0, None, 'Fabric frame number', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def randomMaxProcessingTimeUs(self):
data_view = og.AttributeValueHelper(self._attributes.randomMaxProcessingTimeUs)
return data_view.get()
@randomMaxProcessingTimeUs.setter
def randomMaxProcessingTimeUs(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.randomMaxProcessingTimeUs)
data_view = og.AttributeValueHelper(self._attributes.randomMaxProcessingTimeUs)
data_view.set(value)
@property
def randomSeed(self):
data_view = og.AttributeValueHelper(self._attributes.randomSeed)
return data_view.get()
@randomSeed.setter
def randomSeed(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.randomSeed)
data_view = og.AttributeValueHelper(self._attributes.randomSeed)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
data_view.set(value)
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
data_view.set(value)
@property
def swhFrameNumber(self):
data_view = og.AttributeValueHelper(self._attributes.swhFrameNumber)
return data_view.get()
@swhFrameNumber.setter
def swhFrameNumber(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.swhFrameNumber)
data_view = og.AttributeValueHelper(self._attributes.swhFrameNumber)
data_view.set(value)
@property
def tag(self):
data_view = og.AttributeValueHelper(self._attributes.tag)
return data_view.get()
@tag.setter
def tag(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.tag)
data_view = og.AttributeValueHelper(self._attributes.tag)
data_view.set(value)
@property
def traceError(self):
data_view = og.AttributeValueHelper(self._attributes.traceError)
return data_view.get()
@traceError.setter
def traceError(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.traceError)
data_view = og.AttributeValueHelper(self._attributes.traceError)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def fabricSWHFrameNumber(self):
data_view = og.AttributeValueHelper(self._attributes.fabricSWHFrameNumber)
return data_view.get()
@fabricSWHFrameNumber.setter
def fabricSWHFrameNumber(self, value):
data_view = og.AttributeValueHelper(self._attributes.fabricSWHFrameNumber)
data_view.set(value)
@property
def swhFrameNumber(self):
data_view = og.AttributeValueHelper(self._attributes.swhFrameNumber)
return data_view.get()
@swhFrameNumber.setter
def swhFrameNumber(self, value):
data_view = og.AttributeValueHelper(self._attributes.swhFrameNumber)
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 = OgnSdTestStageSynchronizationDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdTestStageSynchronizationDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdTestStageSynchronizationDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdFabricTimeRangeExecutionDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdFabricTimeRangeExecution
Read a rational time range from Fabric or RenderVars and signal its execution if the current time fall within this range.
The range is [begin,end[, that is the end time does not belong to the range.
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdFabricTimeRangeExecutionDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdFabricTimeRangeExecution
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.gpu
inputs.renderResults
inputs.timeRangeBeginDenominatorToken
inputs.timeRangeBeginNumeratorToken
inputs.timeRangeEndDenominatorToken
inputs.timeRangeEndNumeratorToken
inputs.timeRangeName
Outputs:
outputs.exec
outputs.timeRangeBeginDenominator
outputs.timeRangeBeginNumerator
outputs.timeRangeEndDenominator
outputs.timeRangeEndNumerator
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, None, 'Pointer to shared context containing gpu foundations.', {}, True, 0, False, ''),
('inputs:renderResults', 'uint64', 0, None, 'Render results', {}, True, 0, False, ''),
('inputs:timeRangeBeginDenominatorToken', 'token', 0, None, 'Attribute name of the range begin time denominator', {ogn.MetadataKeys.DEFAULT: '"timeRangeStartDenominator"'}, True, "timeRangeStartDenominator", False, ''),
('inputs:timeRangeBeginNumeratorToken', 'token', 0, None, 'Attribute name of the range begin time numerator', {ogn.MetadataKeys.DEFAULT: '"timeRangeStartNumerator"'}, True, "timeRangeStartNumerator", False, ''),
('inputs:timeRangeEndDenominatorToken', 'token', 0, None, 'Attribute name of the range end time denominator', {ogn.MetadataKeys.DEFAULT: '"timeRangeEndDenominator"'}, True, "timeRangeEndDenominator", False, ''),
('inputs:timeRangeEndNumeratorToken', 'token', 0, None, 'Attribute name of the range end time numerator', {ogn.MetadataKeys.DEFAULT: '"timeRangeEndNumerator"'}, True, "timeRangeEndNumerator", False, ''),
('inputs:timeRangeName', 'token', 0, None, 'Time range name used to read from the Fabric or RenderVars.', {}, True, "", False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:timeRangeBeginDenominator', 'uint64', 0, None, 'Time denominator of the last time range change (begin)', {}, True, None, False, ''),
('outputs:timeRangeBeginNumerator', 'int64', 0, None, 'Time numerator of the last time range change (begin)', {}, True, None, False, ''),
('outputs:timeRangeEndDenominator', 'uint64', 0, None, 'Time denominator of the last time range change (end)', {}, True, None, False, ''),
('outputs:timeRangeEndNumerator', 'int64', 0, None, 'Time numerator of the last time range change (end)', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
data_view.set(value)
@property
def timeRangeBeginDenominatorToken(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginDenominatorToken)
return data_view.get()
@timeRangeBeginDenominatorToken.setter
def timeRangeBeginDenominatorToken(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeBeginDenominatorToken)
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginDenominatorToken)
data_view.set(value)
@property
def timeRangeBeginNumeratorToken(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginNumeratorToken)
return data_view.get()
@timeRangeBeginNumeratorToken.setter
def timeRangeBeginNumeratorToken(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeBeginNumeratorToken)
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginNumeratorToken)
data_view.set(value)
@property
def timeRangeEndDenominatorToken(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndDenominatorToken)
return data_view.get()
@timeRangeEndDenominatorToken.setter
def timeRangeEndDenominatorToken(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeEndDenominatorToken)
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndDenominatorToken)
data_view.set(value)
@property
def timeRangeEndNumeratorToken(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndNumeratorToken)
return data_view.get()
@timeRangeEndNumeratorToken.setter
def timeRangeEndNumeratorToken(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeEndNumeratorToken)
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndNumeratorToken)
data_view.set(value)
@property
def timeRangeName(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeName)
return data_view.get()
@timeRangeName.setter
def timeRangeName(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeName)
data_view = og.AttributeValueHelper(self._attributes.timeRangeName)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def timeRangeBeginDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginDenominator)
return data_view.get()
@timeRangeBeginDenominator.setter
def timeRangeBeginDenominator(self, value):
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginDenominator)
data_view.set(value)
@property
def timeRangeBeginNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginNumerator)
return data_view.get()
@timeRangeBeginNumerator.setter
def timeRangeBeginNumerator(self, value):
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginNumerator)
data_view.set(value)
@property
def timeRangeEndDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndDenominator)
return data_view.get()
@timeRangeEndDenominator.setter
def timeRangeEndDenominator(self, value):
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndDenominator)
data_view.set(value)
@property
def timeRangeEndNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndNumerator)
return data_view.get()
@timeRangeEndNumerator.setter
def timeRangeEndNumerator(self, value):
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndNumerator)
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 = OgnSdFabricTimeRangeExecutionDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdFabricTimeRangeExecutionDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdFabricTimeRangeExecutionDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdRenderVarDisplayTextureDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdRenderVarDisplayTexture
Synthetic Data node to expose texture resource of a visualization render variable
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdRenderVarDisplayTextureDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdRenderVarDisplayTexture
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.renderResults
inputs.renderVarDisplay
Outputs:
outputs.cudaPtr
outputs.exec
outputs.format
outputs.height
outputs.referenceTimeDenominator
outputs.referenceTimeNumerator
outputs.rpResourcePtr
outputs.width
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:renderResults', 'uint64', 0, None, 'Render results pointer', {}, True, 0, False, ''),
('inputs:renderVarDisplay', 'token', 0, None, 'Name of the renderVar', {}, True, "", False, ''),
('outputs:cudaPtr', 'uint64', 0, None, 'Display texture CUDA pointer', {}, True, None, False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:format', 'uint64', 0, None, 'Display texture format', {}, True, None, False, ''),
('outputs:height', 'uint', 0, None, 'Display texture height', {}, True, None, False, ''),
('outputs:referenceTimeDenominator', 'uint64', 0, None, 'Reference time represented as a rational number : denominator', {}, True, None, False, ''),
('outputs:referenceTimeNumerator', 'int64', 0, None, 'Reference time represented as a rational number : numerator', {}, True, None, False, ''),
('outputs:rpResourcePtr', 'uint64', 0, None, 'Display texture RpResource pointer', {}, True, None, False, ''),
('outputs:width', 'uint', 0, None, 'Display texture width', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
data_view.set(value)
@property
def renderVarDisplay(self):
data_view = og.AttributeValueHelper(self._attributes.renderVarDisplay)
return data_view.get()
@renderVarDisplay.setter
def renderVarDisplay(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVarDisplay)
data_view = og.AttributeValueHelper(self._attributes.renderVarDisplay)
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 cudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
return data_view.get()
@cudaPtr.setter
def cudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def format(self):
data_view = og.AttributeValueHelper(self._attributes.format)
return data_view.get()
@format.setter
def format(self, value):
data_view = og.AttributeValueHelper(self._attributes.format)
data_view.set(value)
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def referenceTimeDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.referenceTimeDenominator)
return data_view.get()
@referenceTimeDenominator.setter
def referenceTimeDenominator(self, value):
data_view = og.AttributeValueHelper(self._attributes.referenceTimeDenominator)
data_view.set(value)
@property
def referenceTimeNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.referenceTimeNumerator)
return data_view.get()
@referenceTimeNumerator.setter
def referenceTimeNumerator(self, value):
data_view = og.AttributeValueHelper(self._attributes.referenceTimeNumerator)
data_view.set(value)
@property
def rpResourcePtr(self):
data_view = og.AttributeValueHelper(self._attributes.rpResourcePtr)
return data_view.get()
@rpResourcePtr.setter
def rpResourcePtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.rpResourcePtr)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
data_view = og.AttributeValueHelper(self._attributes.width)
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 = OgnSdRenderVarDisplayTextureDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdRenderVarDisplayTextureDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdRenderVarDisplayTextureDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdPostRenderVarTextureToBufferDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdPostRenderVarTextureToBuffer
Expose a device renderVar buffer a texture one.
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdPostRenderVarTextureToBufferDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdPostRenderVarTextureToBuffer
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.gpu
inputs.renderVar
inputs.renderVarBufferSuffix
inputs.rp
Outputs:
outputs.exec
outputs.renderVar
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, None, 'Pointer to shared context containing gpu foundations', {}, True, 0, False, ''),
('inputs:renderVar', 'token', 0, None, 'Name of the device renderVar to expose on the host', {}, True, "", False, ''),
('inputs:renderVarBufferSuffix', 'string', 0, None, 'Suffix appended to the renderVar name', {ogn.MetadataKeys.DEFAULT: '"buffer"'}, True, "buffer", False, ''),
('inputs:rp', 'uint64', 0, None, 'Pointer to render product for this view', {}, True, 0, False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:renderVar', 'token', 0, None, 'Name of the resulting renderVar on the host', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.inputs.renderVarBufferSuffix = og.AttributeRole.TEXT
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def renderVar(self):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
return data_view.get()
@renderVar.setter
def renderVar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVar)
data_view = og.AttributeValueHelper(self._attributes.renderVar)
data_view.set(value)
@property
def renderVarBufferSuffix(self):
data_view = og.AttributeValueHelper(self._attributes.renderVarBufferSuffix)
return data_view.get()
@renderVarBufferSuffix.setter
def renderVarBufferSuffix(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVarBufferSuffix)
data_view = og.AttributeValueHelper(self._attributes.renderVarBufferSuffix)
data_view.set(value)
self.renderVarBufferSuffix_size = data_view.get_array_size()
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def renderVar(self):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
return data_view.get()
@renderVar.setter
def renderVar(self, value):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
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 = OgnSdPostRenderVarTextureToBufferDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdPostRenderVarTextureToBufferDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdPostRenderVarTextureToBufferDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdRenderProductCameraDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdRenderProductCamera
Synthetic Data node to expose the camera data
"""
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 OgnSdRenderProductCameraDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdRenderProductCamera
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.gpu
inputs.renderProductPath
inputs.renderResults
Outputs:
outputs.cameraApertureOffset
outputs.cameraApertureSize
outputs.cameraFStop
outputs.cameraFisheyeParams
outputs.cameraFocalLength
outputs.cameraFocusDistance
outputs.cameraModel
outputs.cameraNearFar
outputs.cameraProjection
outputs.cameraViewTransform
outputs.exec
outputs.metersPerSceneUnit
outputs.renderProductResolution
Predefined Tokens:
tokens.RenderProductCameraSD
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, None, 'Pointer to shared context containing gpu foundations.', {}, True, 0, False, ''),
('inputs:renderProductPath', 'token', 0, None, 'RenderProduct prim path', {}, True, "", False, ''),
('inputs:renderResults', 'uint64', 0, None, 'Render results', {}, True, 0, False, ''),
('outputs:cameraApertureOffset', 'float2', 0, None, 'Camera horizontal and vertical aperture offset', {}, True, None, False, ''),
('outputs:cameraApertureSize', 'float2', 0, None, 'Camera horizontal and vertical aperture', {}, True, None, False, ''),
('outputs:cameraFStop', 'float', 0, None, 'Camera fStop', {}, True, None, False, ''),
('outputs:cameraFisheyeParams', 'float[]', 0, None, 'Camera fisheye projection parameters', {}, True, None, False, ''),
('outputs:cameraFocalLength', 'float', 0, None, 'Camera focal length', {}, True, None, False, ''),
('outputs:cameraFocusDistance', 'float', 0, None, 'Camera focus distance', {}, True, None, False, ''),
('outputs:cameraModel', 'int', 0, None, 'Camera model (pinhole or fisheye models)', {}, True, None, False, ''),
('outputs:cameraNearFar', 'float2', 0, None, 'Camera near/far clipping range', {}, True, None, False, ''),
('outputs:cameraProjection', 'matrix4d', 0, None, 'Camera projection matrix', {}, True, None, False, ''),
('outputs:cameraViewTransform', 'matrix4d', 0, None, 'Camera view matrix', {}, True, None, False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes for each newFrame event received', {}, True, None, False, ''),
('outputs:metersPerSceneUnit', 'float', 0, None, 'Scene units to meters scale', {}, True, None, False, ''),
('outputs:renderProductResolution', 'int2', 0, None, 'RenderProduct resolution', {}, True, None, False, ''),
])
class tokens:
RenderProductCameraSD = "RenderProductCameraSD"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.cameraProjection = og.AttributeRole.MATRIX
role_data.outputs.cameraViewTransform = og.AttributeRole.MATRIX
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def renderProductPath(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductPath)
return data_view.get()
@renderProductPath.setter
def renderProductPath(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderProductPath)
data_view = og.AttributeValueHelper(self._attributes.renderProductPath)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
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.cameraFisheyeParams_size = None
self._batchedWriteValues = { }
@property
def cameraApertureOffset(self):
data_view = og.AttributeValueHelper(self._attributes.cameraApertureOffset)
return data_view.get()
@cameraApertureOffset.setter
def cameraApertureOffset(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraApertureOffset)
data_view.set(value)
@property
def cameraApertureSize(self):
data_view = og.AttributeValueHelper(self._attributes.cameraApertureSize)
return data_view.get()
@cameraApertureSize.setter
def cameraApertureSize(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraApertureSize)
data_view.set(value)
@property
def cameraFStop(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFStop)
return data_view.get()
@cameraFStop.setter
def cameraFStop(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraFStop)
data_view.set(value)
@property
def cameraFisheyeParams(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFisheyeParams)
return data_view.get(reserved_element_count=self.cameraFisheyeParams_size)
@cameraFisheyeParams.setter
def cameraFisheyeParams(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraFisheyeParams)
data_view.set(value)
self.cameraFisheyeParams_size = data_view.get_array_size()
@property
def cameraFocalLength(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFocalLength)
return data_view.get()
@cameraFocalLength.setter
def cameraFocalLength(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraFocalLength)
data_view.set(value)
@property
def cameraFocusDistance(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFocusDistance)
return data_view.get()
@cameraFocusDistance.setter
def cameraFocusDistance(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraFocusDistance)
data_view.set(value)
@property
def cameraModel(self):
data_view = og.AttributeValueHelper(self._attributes.cameraModel)
return data_view.get()
@cameraModel.setter
def cameraModel(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraModel)
data_view.set(value)
@property
def cameraNearFar(self):
data_view = og.AttributeValueHelper(self._attributes.cameraNearFar)
return data_view.get()
@cameraNearFar.setter
def cameraNearFar(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraNearFar)
data_view.set(value)
@property
def cameraProjection(self):
data_view = og.AttributeValueHelper(self._attributes.cameraProjection)
return data_view.get()
@cameraProjection.setter
def cameraProjection(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraProjection)
data_view.set(value)
@property
def cameraViewTransform(self):
data_view = og.AttributeValueHelper(self._attributes.cameraViewTransform)
return data_view.get()
@cameraViewTransform.setter
def cameraViewTransform(self, value):
data_view = og.AttributeValueHelper(self._attributes.cameraViewTransform)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def metersPerSceneUnit(self):
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
return data_view.get()
@metersPerSceneUnit.setter
def metersPerSceneUnit(self, value):
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
data_view.set(value)
@property
def renderProductResolution(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductResolution)
return data_view.get()
@renderProductResolution.setter
def renderProductResolution(self, value):
data_view = og.AttributeValueHelper(self._attributes.renderProductResolution)
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 = OgnSdRenderProductCameraDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdRenderProductCameraDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdRenderProductCameraDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdPostCompRenderVarTexturesDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdPostCompRenderVarTextures
Synthetic Data node to compose a front renderVar texture into a back renderVar texture
"""
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 OgnSdPostCompRenderVarTexturesDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdPostCompRenderVarTextures
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.cudaPtr
inputs.format
inputs.gpu
inputs.height
inputs.mode
inputs.parameters
inputs.renderVar
inputs.rp
inputs.width
Predefined Tokens:
tokens.line
tokens.grid
"""
# 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:cudaPtr', 'uint64', 0, None, 'Front texture CUDA pointer', {}, True, 0, False, ''),
('inputs:format', 'uint64', 0, None, 'Front texture format', {}, True, 0, False, ''),
('inputs:gpu', 'uint64', 0, 'gpuFoundations', 'Pointer to shared context containing gpu foundations', {}, True, 0, False, ''),
('inputs:height', 'uint', 0, None, 'Front texture height', {}, True, 0, False, ''),
('inputs:mode', 'token', 0, None, 'Mode : grid, line', {ogn.MetadataKeys.DEFAULT: '"line"'}, True, "line", False, ''),
('inputs:parameters', 'float3', 0, None, 'Parameters', {ogn.MetadataKeys.DEFAULT: '[0, 0, 0]'}, True, [0, 0, 0], False, ''),
('inputs:renderVar', 'token', 0, None, 'Name of the back RenderVar', {ogn.MetadataKeys.DEFAULT: '"LdrColor"'}, True, "LdrColor", False, ''),
('inputs:rp', 'uint64', 0, 'renderProduct', 'Pointer to render product for this view', {}, True, 0, False, ''),
('inputs:width', 'uint', 0, None, 'Front texture width', {}, True, 0, False, ''),
])
class tokens:
line = "line"
grid = "grid"
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 cudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
return data_view.get()
@cudaPtr.setter
def cudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cudaPtr)
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
data_view.set(value)
@property
def format(self):
data_view = og.AttributeValueHelper(self._attributes.format)
return data_view.get()
@format.setter
def format(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.format)
data_view = og.AttributeValueHelper(self._attributes.format)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.height)
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def mode(self):
data_view = og.AttributeValueHelper(self._attributes.mode)
return data_view.get()
@mode.setter
def mode(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.mode)
data_view = og.AttributeValueHelper(self._attributes.mode)
data_view.set(value)
@property
def parameters(self):
data_view = og.AttributeValueHelper(self._attributes.parameters)
return data_view.get()
@parameters.setter
def parameters(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.parameters)
data_view = og.AttributeValueHelper(self._attributes.parameters)
data_view.set(value)
@property
def renderVar(self):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
return data_view.get()
@renderVar.setter
def renderVar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVar)
data_view = og.AttributeValueHelper(self._attributes.renderVar)
data_view.set(value)
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.width)
data_view = og.AttributeValueHelper(self._attributes.width)
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 = { }
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 = OgnSdPostCompRenderVarTexturesDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdPostCompRenderVarTexturesDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdPostCompRenderVarTexturesDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdOnNewRenderProductFrameDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdOnNewRenderProductFrame
Synthetic Data postprocess node to execute pipeline after the NewFrame event has been received on the given renderProduct
"""
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 OgnSdOnNewRenderProductFrameDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdOnNewRenderProductFrame
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.renderProductDataPtrs
inputs.renderProductPath
inputs.renderProductPaths
Outputs:
outputs.cudaStream
outputs.exec
outputs.renderProductPath
outputs.renderResults
"""
# 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:exec', 'execution', 0, 'Received', 'Executes for each newFrame event received', {}, True, None, False, ''),
('inputs:renderProductDataPtrs', 'uint64[]', 0, None, 'HydraRenderProduct data pointers.', {}, True, [], False, ''),
('inputs:renderProductPath', 'token', 0, None, 'Path of the renderProduct to wait for being rendered', {}, True, "", False, ''),
('inputs:renderProductPaths', 'token[]', 0, None, 'Render product path tokens.', {}, True, [], False, ''),
('outputs:cudaStream', 'uint64', 0, None, 'Cuda stream', {}, True, None, False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes for each newFrame event received', {}, True, None, False, ''),
('outputs:renderProductPath', 'token', 0, None, 'Path of the renderProduct to wait for being rendered', {}, True, None, False, ''),
('outputs:renderResults', 'uint64', 0, None, 'Render results', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def renderProductDataPtrs(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductDataPtrs)
return data_view.get()
@renderProductDataPtrs.setter
def renderProductDataPtrs(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderProductDataPtrs)
data_view = og.AttributeValueHelper(self._attributes.renderProductDataPtrs)
data_view.set(value)
self.renderProductDataPtrs_size = data_view.get_array_size()
@property
def renderProductPath(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductPath)
return data_view.get()
@renderProductPath.setter
def renderProductPath(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderProductPath)
data_view = og.AttributeValueHelper(self._attributes.renderProductPath)
data_view.set(value)
@property
def renderProductPaths(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductPaths)
return data_view.get()
@renderProductPaths.setter
def renderProductPaths(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderProductPaths)
data_view = og.AttributeValueHelper(self._attributes.renderProductPaths)
data_view.set(value)
self.renderProductPaths_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._batchedWriteValues = { }
@property
def cudaStream(self):
data_view = og.AttributeValueHelper(self._attributes.cudaStream)
return data_view.get()
@cudaStream.setter
def cudaStream(self, value):
data_view = og.AttributeValueHelper(self._attributes.cudaStream)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def renderProductPath(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductPath)
return data_view.get()
@renderProductPath.setter
def renderProductPath(self, value):
data_view = og.AttributeValueHelper(self._attributes.renderProductPath)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
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 = OgnSdOnNewRenderProductFrameDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdOnNewRenderProductFrameDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdOnNewRenderProductFrameDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdTestPrintRawArrayDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdTestPrintRawArray
Synthetic Data test node printing the input linear array
"""
import numpy
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 OgnSdTestPrintRawArrayDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdTestPrintRawArray
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.bufferSize
inputs.data
inputs.dataFileBaseName
inputs.elementCount
inputs.elementType
inputs.exec
inputs.height
inputs.mode
inputs.randomSeed
inputs.referenceNumUniqueRandomValues
inputs.referenceSWHFrameNumbers
inputs.referenceTolerance
inputs.referenceValues
inputs.swhFrameNumber
inputs.width
Outputs:
outputs.exec
outputs.swhFrameNumber
State:
state.initialSWHFrameNumber
Predefined Tokens:
tokens.uint16
tokens.int16
tokens.uint32
tokens.int32
tokens.float32
tokens.token
tokens.printFormatted
tokens.printReferences
tokens.writeToDisk
"""
# 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:bufferSize', 'uint', 0, None, 'Size (in bytes) of the buffer (0 if the input is a texture)', {}, True, 0, False, ''),
('inputs:data', 'uchar[]', 0, None, 'Buffer array data', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''),
('inputs:dataFileBaseName', 'token', 0, None, 'Basename of the output npy file', {ogn.MetadataKeys.DEFAULT: '"/tmp/sdTestRawArray"'}, True, "/tmp/sdTestRawArray", False, ''),
('inputs:elementCount', 'int', 0, None, 'Number of array element', {ogn.MetadataKeys.DEFAULT: '1'}, True, 1, False, ''),
('inputs:elementType', 'token', 0, None, 'Type of the array element', {ogn.MetadataKeys.DEFAULT: '"uint8"'}, True, "uint8", False, ''),
('inputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:height', 'uint', 0, None, 'Height (0 if the input is a buffer)', {}, True, 0, False, ''),
('inputs:mode', 'token', 0, None, 'Mode in [printFormatted, printReferences, testReferences]', {ogn.MetadataKeys.DEFAULT: '"printFormatted"'}, True, "printFormatted", False, ''),
('inputs:randomSeed', 'int', 0, None, 'Random seed', {}, True, 0, False, ''),
('inputs:referenceNumUniqueRandomValues', 'int', 0, None, 'Number of reference unique random values to compare', {ogn.MetadataKeys.DEFAULT: '7'}, True, 7, False, ''),
('inputs:referenceSWHFrameNumbers', 'uint[]', 0, None, 'Reference swhFrameNumbers relative to the first one', {ogn.MetadataKeys.DEFAULT: '[11, 17, 29]'}, True, [11, 17, 29], False, ''),
('inputs:referenceTolerance', 'float', 0, None, 'Reference tolerance', {ogn.MetadataKeys.DEFAULT: '0.1'}, True, 0.1, False, ''),
('inputs:referenceValues', 'float[]', 0, None, 'Reference data point values', {}, True, [], False, ''),
('inputs:swhFrameNumber', 'uint64', 0, None, 'Frame number', {}, True, 0, False, ''),
('inputs:width', 'uint', 0, None, 'Width (0 if the input is a buffer)', {}, True, 0, False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes when the event is received', {}, True, None, False, ''),
('outputs:swhFrameNumber', 'uint64', 0, None, 'FrameNumber just rendered', {}, True, None, False, ''),
('state:initialSWHFrameNumber', 'int64', 0, None, 'Initial swhFrameNumber', {ogn.MetadataKeys.DEFAULT: '-1'}, True, -1, False, ''),
])
class tokens:
uint16 = "uint16"
int16 = "int16"
uint32 = "uint32"
int32 = "int32"
float32 = "float32"
token = "token"
printFormatted = "printFormatted"
printReferences = "printReferences"
writeToDisk = "writeToDisk"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
return role_data
class ValuesForInputs(og.DynamicAttributeAccess):
LOCAL_PROPERTY_NAMES = {"bufferSize", "dataFileBaseName", "elementCount", "elementType", "exec", "height", "mode", "randomSeed", "referenceNumUniqueRandomValues", "referenceTolerance", "swhFrameNumber", "width", "_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.bufferSize, self._attributes.dataFileBaseName, self._attributes.elementCount, self._attributes.elementType, self._attributes.exec, self._attributes.height, self._attributes.mode, self._attributes.randomSeed, self._attributes.referenceNumUniqueRandomValues, self._attributes.referenceTolerance, self._attributes.swhFrameNumber, self._attributes.width]
self._batchedReadValues = [0, "/tmp/sdTestRawArray", 1, "uint8", None, 0, "printFormatted", 0, 7, 0.1, 0, 0]
@property
def data(self):
data_view = og.AttributeValueHelper(self._attributes.data)
return data_view.get()
@data.setter
def data(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.data)
data_view = og.AttributeValueHelper(self._attributes.data)
data_view.set(value)
self.data_size = data_view.get_array_size()
@property
def referenceSWHFrameNumbers(self):
data_view = og.AttributeValueHelper(self._attributes.referenceSWHFrameNumbers)
return data_view.get()
@referenceSWHFrameNumbers.setter
def referenceSWHFrameNumbers(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.referenceSWHFrameNumbers)
data_view = og.AttributeValueHelper(self._attributes.referenceSWHFrameNumbers)
data_view.set(value)
self.referenceSWHFrameNumbers_size = data_view.get_array_size()
@property
def referenceValues(self):
data_view = og.AttributeValueHelper(self._attributes.referenceValues)
return data_view.get()
@referenceValues.setter
def referenceValues(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.referenceValues)
data_view = og.AttributeValueHelper(self._attributes.referenceValues)
data_view.set(value)
self.referenceValues_size = data_view.get_array_size()
@property
def bufferSize(self):
return self._batchedReadValues[0]
@bufferSize.setter
def bufferSize(self, value):
self._batchedReadValues[0] = value
@property
def dataFileBaseName(self):
return self._batchedReadValues[1]
@dataFileBaseName.setter
def dataFileBaseName(self, value):
self._batchedReadValues[1] = value
@property
def elementCount(self):
return self._batchedReadValues[2]
@elementCount.setter
def elementCount(self, value):
self._batchedReadValues[2] = value
@property
def elementType(self):
return self._batchedReadValues[3]
@elementType.setter
def elementType(self, value):
self._batchedReadValues[3] = value
@property
def exec(self):
return self._batchedReadValues[4]
@exec.setter
def exec(self, value):
self._batchedReadValues[4] = value
@property
def height(self):
return self._batchedReadValues[5]
@height.setter
def height(self, value):
self._batchedReadValues[5] = value
@property
def mode(self):
return self._batchedReadValues[6]
@mode.setter
def mode(self, value):
self._batchedReadValues[6] = value
@property
def randomSeed(self):
return self._batchedReadValues[7]
@randomSeed.setter
def randomSeed(self, value):
self._batchedReadValues[7] = value
@property
def referenceNumUniqueRandomValues(self):
return self._batchedReadValues[8]
@referenceNumUniqueRandomValues.setter
def referenceNumUniqueRandomValues(self, value):
self._batchedReadValues[8] = value
@property
def referenceTolerance(self):
return self._batchedReadValues[9]
@referenceTolerance.setter
def referenceTolerance(self, value):
self._batchedReadValues[9] = value
@property
def swhFrameNumber(self):
return self._batchedReadValues[10]
@swhFrameNumber.setter
def swhFrameNumber(self, value):
self._batchedReadValues[10] = value
@property
def width(self):
return self._batchedReadValues[11]
@width.setter
def width(self, value):
self._batchedReadValues[11] = 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 = {"exec", "swhFrameNumber", "_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 exec(self):
value = self._batchedWriteValues.get(self._attributes.exec)
if value:
return value
else:
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
self._batchedWriteValues[self._attributes.exec] = value
@property
def swhFrameNumber(self):
value = self._batchedWriteValues.get(self._attributes.swhFrameNumber)
if value:
return value
else:
data_view = og.AttributeValueHelper(self._attributes.swhFrameNumber)
return data_view.get()
@swhFrameNumber.setter
def swhFrameNumber(self, value):
self._batchedWriteValues[self._attributes.swhFrameNumber] = 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)
@property
def initialSWHFrameNumber(self):
data_view = og.AttributeValueHelper(self._attributes.initialSWHFrameNumber)
return data_view.get()
@initialSWHFrameNumber.setter
def initialSWHFrameNumber(self, value):
data_view = og.AttributeValueHelper(self._attributes.initialSWHFrameNumber)
data_view.set(value)
def __init__(self, node):
super().__init__(node)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_INPUT)
self.inputs = OgnSdTestPrintRawArrayDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdTestPrintRawArrayDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdTestPrintRawArrayDatabase.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(OgnSdTestPrintRawArrayDatabase.NODE_TYPE_CLASS, 'get_node_type', None)
if callable(get_node_type_function):
return get_node_type_function()
return 'omni.syntheticdata.SdTestPrintRawArray'
@staticmethod
def compute(context, node):
def database_valid():
return True
try:
per_node_data = OgnSdTestPrintRawArrayDatabase.PER_NODE_DATA[node.node_id()]
db = per_node_data.get('_db')
if db is None:
db = OgnSdTestPrintRawArrayDatabase(node)
per_node_data['_db'] = db
if not database_valid():
per_node_data['_db'] = None
return False
except:
db = OgnSdTestPrintRawArrayDatabase(node)
try:
compute_function = getattr(OgnSdTestPrintRawArrayDatabase.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 OgnSdTestPrintRawArrayDatabase.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):
OgnSdTestPrintRawArrayDatabase._initialize_per_node_data(node)
initialize_function = getattr(OgnSdTestPrintRawArrayDatabase.NODE_TYPE_CLASS, 'initialize', None)
if callable(initialize_function):
initialize_function(context, node)
per_node_data = OgnSdTestPrintRawArrayDatabase.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(OgnSdTestPrintRawArrayDatabase.NODE_TYPE_CLASS, 'release', None)
if callable(release_function):
release_function(node)
OgnSdTestPrintRawArrayDatabase._release_per_node_data(node)
@staticmethod
def release_instance(node, target):
OgnSdTestPrintRawArrayDatabase._release_per_node_instance_data(node, target)
@staticmethod
def update_node_version(context, node, old_version, new_version):
update_node_version_function = getattr(OgnSdTestPrintRawArrayDatabase.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(OgnSdTestPrintRawArrayDatabase.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.syntheticdata")
node_type.set_metadata(ogn.MetadataKeys.TOKENS, "[\"uint16\", \"int16\", \"uint32\", \"int32\", \"float32\", \"token\", \"printFormatted\", \"printReferences\", \"writeToDisk\"]")
node_type.set_metadata(ogn.MetadataKeys.CATEGORIES, "graph:action,internal:test")
node_type.set_metadata(ogn.MetadataKeys.DESCRIPTION, "Synthetic Data test node printing the input linear array")
node_type.set_metadata(ogn.MetadataKeys.EXCLUSIONS, "tests")
node_type.set_metadata(ogn.MetadataKeys.LANGUAGE, "Python")
OgnSdTestPrintRawArrayDatabase.INTERFACE.add_to_node_type(node_type)
node_type.set_has_state(True)
@staticmethod
def on_connection_type_resolve(node):
on_connection_type_resolve_function = getattr(OgnSdTestPrintRawArrayDatabase.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):
OgnSdTestPrintRawArrayDatabase.NODE_TYPE_CLASS = node_type_class
og.register_node_type(OgnSdTestPrintRawArrayDatabase.abi, 1)
@staticmethod
def deregister():
og.deregister_node_type("omni.syntheticdata.SdTestPrintRawArray")
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdSimRenderProductCameraDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdSimRenderProductCamera
Synthetic Data node to expose the renderProduct camera in the fabric
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdSimRenderProductCameraDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdSimRenderProductCamera
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.renderProductPath
Outputs:
outputs.exec
"""
# 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:renderProductPath', 'token', 0, None, 'renderProduct prim path', {}, True, "", False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, 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.outputs.exec = og.AttributeRole.EXECUTION
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 renderProductPath(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductPath)
return data_view.get()
@renderProductPath.setter
def renderProductPath(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderProductPath)
data_view = og.AttributeValueHelper(self._attributes.renderProductPath)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
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 = OgnSdSimRenderProductCameraDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdSimRenderProductCameraDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdSimRenderProductCameraDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdUpdateSwhFrameNumberDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdUpdateSwFrameNumber
Synthetic Data node to return the current update swhFrameNumber
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdUpdateSwhFrameNumberDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdUpdateSwFrameNumber
Class Members:
node: Node being evaluated
Attribute Value Properties:
Outputs:
outputs.exec
outputs.swhFrameNumber
"""
# 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([
('outputs:exec', 'execution', 0, 'Received', 'Executes when the event is received', {}, True, None, False, ''),
('outputs:swhFrameNumber', 'uint64', 0, None, 'Fabric frame number', {}, 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.outputs.exec = og.AttributeRole.EXECUTION
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 = []
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def swhFrameNumber(self):
data_view = og.AttributeValueHelper(self._attributes.swhFrameNumber)
return data_view.get()
@swhFrameNumber.setter
def swhFrameNumber(self, value):
data_view = og.AttributeValueHelper(self._attributes.swhFrameNumber)
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 = OgnSdUpdateSwhFrameNumberDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdUpdateSwhFrameNumberDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdUpdateSwhFrameNumberDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdTextureToLinearArrayDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdTextureToLinearArray
SyntheticData node to copy the input texture into a linear array buffer
"""
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 OgnSdTextureToLinearArrayDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdTextureToLinearArray
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.cudaMipmappedArray
inputs.format
inputs.height
inputs.hydraTime
inputs.mipCount
inputs.outputHeight
inputs.outputWidth
inputs.simTime
inputs.stream
inputs.width
Outputs:
outputs.data
outputs.height
outputs.hydraTime
outputs.simTime
outputs.stream
outputs.width
"""
# 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:cudaMipmappedArray', 'uint64', 0, None, 'Pointer to the CUDA Mipmapped Array', {}, True, 0, False, ''),
('inputs:format', 'uint64', 0, None, 'Format', {}, True, 0, False, ''),
('inputs:height', 'uint', 0, None, 'Height', {}, True, 0, False, ''),
('inputs:hydraTime', 'double', 0, None, 'Hydra time in stage', {}, True, 0.0, False, ''),
('inputs:mipCount', 'uint', 0, None, 'Mip Count', {}, True, 0, False, ''),
('inputs:outputHeight', 'uint', 0, None, 'Requested output height', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('inputs:outputWidth', 'uint', 0, None, 'Requested output width', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('inputs:simTime', 'double', 0, None, 'Simulation time', {}, True, 0.0, False, ''),
('inputs:stream', 'uint64', 0, None, 'Pointer to the CUDA Stream', {}, True, 0, False, ''),
('inputs:width', 'uint', 0, None, 'Width', {}, True, 0, False, ''),
('outputs:data', 'float4[]', 0, None, 'Buffer array data', {ogn.MetadataKeys.MEMORY_TYPE: 'cuda', ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''),
('outputs:height', 'uint', 0, None, 'Buffer array height', {}, True, None, False, ''),
('outputs:hydraTime', 'double', 0, None, 'Hydra time in stage', {}, True, None, False, ''),
('outputs:simTime', 'double', 0, None, 'Simulation time', {}, True, None, False, ''),
('outputs:stream', 'uint64', 0, None, 'Pointer to the CUDA Stream', {}, True, None, False, ''),
('outputs:width', 'uint', 0, None, 'Buffer array width', {}, 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 cudaMipmappedArray(self):
data_view = og.AttributeValueHelper(self._attributes.cudaMipmappedArray)
return data_view.get()
@cudaMipmappedArray.setter
def cudaMipmappedArray(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cudaMipmappedArray)
data_view = og.AttributeValueHelper(self._attributes.cudaMipmappedArray)
data_view.set(value)
@property
def format(self):
data_view = og.AttributeValueHelper(self._attributes.format)
return data_view.get()
@format.setter
def format(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.format)
data_view = og.AttributeValueHelper(self._attributes.format)
data_view.set(value)
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.height)
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def hydraTime(self):
data_view = og.AttributeValueHelper(self._attributes.hydraTime)
return data_view.get()
@hydraTime.setter
def hydraTime(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.hydraTime)
data_view = og.AttributeValueHelper(self._attributes.hydraTime)
data_view.set(value)
@property
def mipCount(self):
data_view = og.AttributeValueHelper(self._attributes.mipCount)
return data_view.get()
@mipCount.setter
def mipCount(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.mipCount)
data_view = og.AttributeValueHelper(self._attributes.mipCount)
data_view.set(value)
@property
def outputHeight(self):
data_view = og.AttributeValueHelper(self._attributes.outputHeight)
return data_view.get()
@outputHeight.setter
def outputHeight(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.outputHeight)
data_view = og.AttributeValueHelper(self._attributes.outputHeight)
data_view.set(value)
@property
def outputWidth(self):
data_view = og.AttributeValueHelper(self._attributes.outputWidth)
return data_view.get()
@outputWidth.setter
def outputWidth(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.outputWidth)
data_view = og.AttributeValueHelper(self._attributes.outputWidth)
data_view.set(value)
@property
def simTime(self):
data_view = og.AttributeValueHelper(self._attributes.simTime)
return data_view.get()
@simTime.setter
def simTime(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.simTime)
data_view = og.AttributeValueHelper(self._attributes.simTime)
data_view.set(value)
@property
def stream(self):
data_view = og.AttributeValueHelper(self._attributes.stream)
return data_view.get()
@stream.setter
def stream(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.stream)
data_view = og.AttributeValueHelper(self._attributes.stream)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.width)
data_view = og.AttributeValueHelper(self._attributes.width)
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.data_size = 0
self._batchedWriteValues = { }
@property
def data(self):
data_view = og.AttributeValueHelper(self._attributes.data)
return data_view.get(reserved_element_count=self.data_size, on_gpu=True)
@data.setter
def data(self, value):
data_view = og.AttributeValueHelper(self._attributes.data)
data_view.set(value, on_gpu=True)
self.data_size = data_view.get_array_size()
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def hydraTime(self):
data_view = og.AttributeValueHelper(self._attributes.hydraTime)
return data_view.get()
@hydraTime.setter
def hydraTime(self, value):
data_view = og.AttributeValueHelper(self._attributes.hydraTime)
data_view.set(value)
@property
def simTime(self):
data_view = og.AttributeValueHelper(self._attributes.simTime)
return data_view.get()
@simTime.setter
def simTime(self, value):
data_view = og.AttributeValueHelper(self._attributes.simTime)
data_view.set(value)
@property
def stream(self):
data_view = og.AttributeValueHelper(self._attributes.stream)
return data_view.get()
@stream.setter
def stream(self, value):
data_view = og.AttributeValueHelper(self._attributes.stream)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
data_view = og.AttributeValueHelper(self._attributes.width)
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 = OgnSdTextureToLinearArrayDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdTextureToLinearArrayDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdTextureToLinearArrayDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdNoOpDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdNoOp
Synthetic Data pass through node
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdNoOpDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdNoOp
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
Outputs:
outputs.exec
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
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 = OgnSdNoOpDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdNoOpDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdNoOpDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdTestInstanceMappingDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdTestInstanceMapping
Synthetic Data node to test the instance mapping pipeline
"""
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 OgnSdTestInstanceMappingDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdTestInstanceMapping
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.instanceMapPtr
inputs.instancePrimPathPtr
inputs.minInstanceIndex
inputs.minSemanticIndex
inputs.numInstances
inputs.numSemantics
inputs.semanticLabelTokenPtrs
inputs.semanticLocalTransformPtr
inputs.semanticMapPtr
inputs.semanticPrimPathPtr
inputs.semanticWorldTransformPtr
inputs.stage
inputs.swhFrameNumber
inputs.testCaseIndex
Outputs:
outputs.exec
outputs.semanticFilterPredicate
outputs.success
Predefined Tokens:
tokens.simulation
tokens.postRender
tokens.onDemand
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:instanceMapPtr', 'uint64', 0, None, 'Array pointer of numInstances uint16_t containing the semantic index of the instance prim first semantic prim parent', {}, True, 0, False, ''),
('inputs:instancePrimPathPtr', 'uint64', 0, None, 'Array pointer of numInstances uint64_t containing the prim path tokens for every instance prims', {}, True, 0, False, ''),
('inputs:minInstanceIndex', 'uint', 0, None, 'Instance index of the first instance prim in the instance arrays', {}, True, 0, False, ''),
('inputs:minSemanticIndex', 'uint', 0, None, 'Semantic index of the first semantic prim in the semantic arrays', {}, True, 0, False, ''),
('inputs:numInstances', 'uint', 0, None, 'Number of instances prim in the instance arrays', {}, True, 0, False, ''),
('inputs:numSemantics', 'uint', 0, None, 'Number of semantic prim in the semantic arrays', {}, True, 0, False, ''),
('inputs:semanticLabelTokenPtrs', 'uint64[]', 0, None, 'Array containing for every input semantic filters the corresponding array pointer of numSemantics uint64_t representing the semantic label of the semantic prim', {}, True, [], False, ''),
('inputs:semanticLocalTransformPtr', 'uint64', 0, None, 'Array pointer of numSemantics 4x4 float matrices containing the transform from world to object space for every semantic prims', {}, True, 0, False, ''),
('inputs:semanticMapPtr', 'uint64', 0, None, 'Array pointer of numSemantics uint16_t containing the semantic index of the semantic prim first semantic prim parent', {}, True, 0, False, ''),
('inputs:semanticPrimPathPtr', 'uint64', 0, None, 'Array pointer of numSemantics uint32_t containing the prim part of the prim path tokens for every semantic prims', {}, True, 0, False, ''),
('inputs:semanticWorldTransformPtr', 'uint64', 0, None, 'Array pointer of numSemantics 4x4 float matrices containing the transform from local to world space for every semantic entity', {}, True, 0, False, ''),
('inputs:stage', 'token', 0, None, 'Stage in {simulation, postrender, ondemand}', {}, True, "", False, ''),
('inputs:swhFrameNumber', 'uint64', 0, None, 'Fabric frame number', {}, True, 0, False, ''),
('inputs:testCaseIndex', 'int', 0, None, 'Test case index', {ogn.MetadataKeys.DEFAULT: '-1'}, True, -1, False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes when the event is received', {}, True, None, False, ''),
('outputs:semanticFilterPredicate', 'token', 0, None, 'The semantic filter predicate : a disjunctive normal form of semantic type and label', {}, True, None, False, ''),
('outputs:success', 'bool', 0, None, 'Test value : false if failed', {}, True, None, False, ''),
])
class tokens:
simulation = "simulation"
postRender = "postRender"
onDemand = "onDemand"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def instanceMapPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMapPtr)
return data_view.get()
@instanceMapPtr.setter
def instanceMapPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.instanceMapPtr)
data_view = og.AttributeValueHelper(self._attributes.instanceMapPtr)
data_view.set(value)
@property
def instancePrimPathPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instancePrimPathPtr)
return data_view.get()
@instancePrimPathPtr.setter
def instancePrimPathPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.instancePrimPathPtr)
data_view = og.AttributeValueHelper(self._attributes.instancePrimPathPtr)
data_view.set(value)
@property
def minInstanceIndex(self):
data_view = og.AttributeValueHelper(self._attributes.minInstanceIndex)
return data_view.get()
@minInstanceIndex.setter
def minInstanceIndex(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.minInstanceIndex)
data_view = og.AttributeValueHelper(self._attributes.minInstanceIndex)
data_view.set(value)
@property
def minSemanticIndex(self):
data_view = og.AttributeValueHelper(self._attributes.minSemanticIndex)
return data_view.get()
@minSemanticIndex.setter
def minSemanticIndex(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.minSemanticIndex)
data_view = og.AttributeValueHelper(self._attributes.minSemanticIndex)
data_view.set(value)
@property
def numInstances(self):
data_view = og.AttributeValueHelper(self._attributes.numInstances)
return data_view.get()
@numInstances.setter
def numInstances(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.numInstances)
data_view = og.AttributeValueHelper(self._attributes.numInstances)
data_view.set(value)
@property
def numSemantics(self):
data_view = og.AttributeValueHelper(self._attributes.numSemantics)
return data_view.get()
@numSemantics.setter
def numSemantics(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.numSemantics)
data_view = og.AttributeValueHelper(self._attributes.numSemantics)
data_view.set(value)
@property
def semanticLabelTokenPtrs(self):
data_view = og.AttributeValueHelper(self._attributes.semanticLabelTokenPtrs)
return data_view.get()
@semanticLabelTokenPtrs.setter
def semanticLabelTokenPtrs(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticLabelTokenPtrs)
data_view = og.AttributeValueHelper(self._attributes.semanticLabelTokenPtrs)
data_view.set(value)
self.semanticLabelTokenPtrs_size = data_view.get_array_size()
@property
def semanticLocalTransformPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticLocalTransformPtr)
return data_view.get()
@semanticLocalTransformPtr.setter
def semanticLocalTransformPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticLocalTransformPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticLocalTransformPtr)
data_view.set(value)
@property
def semanticMapPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticMapPtr)
return data_view.get()
@semanticMapPtr.setter
def semanticMapPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticMapPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticMapPtr)
data_view.set(value)
@property
def semanticPrimPathPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticPrimPathPtr)
return data_view.get()
@semanticPrimPathPtr.setter
def semanticPrimPathPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticPrimPathPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticPrimPathPtr)
data_view.set(value)
@property
def semanticWorldTransformPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformPtr)
return data_view.get()
@semanticWorldTransformPtr.setter
def semanticWorldTransformPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticWorldTransformPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformPtr)
data_view.set(value)
@property
def stage(self):
data_view = og.AttributeValueHelper(self._attributes.stage)
return data_view.get()
@stage.setter
def stage(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.stage)
data_view = og.AttributeValueHelper(self._attributes.stage)
data_view.set(value)
@property
def swhFrameNumber(self):
data_view = og.AttributeValueHelper(self._attributes.swhFrameNumber)
return data_view.get()
@swhFrameNumber.setter
def swhFrameNumber(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.swhFrameNumber)
data_view = og.AttributeValueHelper(self._attributes.swhFrameNumber)
data_view.set(value)
@property
def testCaseIndex(self):
data_view = og.AttributeValueHelper(self._attributes.testCaseIndex)
return data_view.get()
@testCaseIndex.setter
def testCaseIndex(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.testCaseIndex)
data_view = og.AttributeValueHelper(self._attributes.testCaseIndex)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def semanticFilterPredicate(self):
data_view = og.AttributeValueHelper(self._attributes.semanticFilterPredicate)
return data_view.get()
@semanticFilterPredicate.setter
def semanticFilterPredicate(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticFilterPredicate)
data_view.set(value)
@property
def success(self):
data_view = og.AttributeValueHelper(self._attributes.success)
return data_view.get()
@success.setter
def success(self, value):
data_view = og.AttributeValueHelper(self._attributes.success)
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 = OgnSdTestInstanceMappingDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdTestInstanceMappingDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdTestInstanceMappingDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdPostSemantic3dBoundingBoxCameraProjectionDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdPostSemantic3dBoundingBoxCameraProjection
Synthetic Data node to project 3d bounding boxes data in camera space.
"""
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 OgnSdPostSemantic3dBoundingBoxCameraProjectionDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdPostSemantic3dBoundingBoxCameraProjection
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.cameraFisheyeParams
inputs.cameraModel
inputs.cameraNearFar
inputs.exec
inputs.gpu
inputs.instanceMappingInfoSDPtr
inputs.metersPerSceneUnit
inputs.renderProductResolution
inputs.rp
inputs.sdSemBBoxExtentCudaPtr
inputs.sdSemBBoxInfosCudaPtr
inputs.semanticWorldTransformSDCudaPtr
Outputs:
outputs.exec
outputs.sdSemBBox3dCamCornersCudaPtr
outputs.sdSemBBox3dCamExtentCudaPtr
Predefined Tokens:
tokens.SemanticBoundingBox3DInfosSD
tokens.SemanticBoundingBox3DCamCornersSD
tokens.SemanticBoundingBox3DCamExtentSD
"""
# 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:cameraFisheyeParams', 'float[]', 0, None, 'Camera fisheye projection parameters', {}, True, [], False, ''),
('inputs:cameraModel', 'int', 0, None, 'Camera model (pinhole or fisheye models)', {}, True, 0, False, ''),
('inputs:cameraNearFar', 'float2', 0, None, 'Camera near/far clipping range', {ogn.MetadataKeys.DEFAULT: '[1.0, 10000000.0]'}, True, [1.0, 10000000.0], False, ''),
('inputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, 'gpuFoundations', 'Pointer to shared context containing gpu foundations', {}, True, 0, False, ''),
('inputs:instanceMappingInfoSDPtr', 'uint64', 0, None, 'uint buffer pointer containing the following information : [numInstances, minInstanceId, numSemantics, minSemanticId, numProtoSemantic]', {}, True, 0, False, ''),
('inputs:metersPerSceneUnit', 'float', 0, None, 'Scene units to meters scale', {ogn.MetadataKeys.DEFAULT: '0.01'}, True, 0.01, False, ''),
('inputs:renderProductResolution', 'int2', 0, None, 'RenderProduct resolution', {ogn.MetadataKeys.DEFAULT: '[65536, 65536]'}, True, [65536, 65536], False, ''),
('inputs:rp', 'uint64', 0, 'renderProduct', 'Pointer to render product for this view', {}, True, 0, False, ''),
('inputs:sdSemBBoxExtentCudaPtr', 'uint64', 0, None, 'Cuda buffer containing the extent of the bounding boxes as a float4=(u_min,v_min,u_max,v_max) for 2D or a float6=(xmin,ymin,zmin,xmax,ymax,zmax) in object space for 3D', {}, True, 0, False, ''),
('inputs:sdSemBBoxInfosCudaPtr', 'uint64', 0, None, 'Cuda buffer containing valid bounding boxes infos', {}, True, 0, False, ''),
('inputs:semanticWorldTransformSDCudaPtr', 'uint64', 0, None, 'cuda float44 buffer pointer of size numSemantics containing the world semantic transform', {}, True, 0, False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:sdSemBBox3dCamCornersCudaPtr', 'uint64', 0, None, 'Cuda buffer containing the projection of the 3d bounding boxes on the camera plane represented as a float4=(u,v,z,a) for each bounding box corners', {}, True, None, False, ''),
('outputs:sdSemBBox3dCamExtentCudaPtr', 'uint64', 0, None, 'Cuda buffer containing the 2d extent of the 3d bounding boxes on the camera plane represented as a float6=(u_min,u_max,v_min,v_max,z_min,z_max)', {}, True, None, False, ''),
])
class tokens:
SemanticBoundingBox3DInfosSD = "SemanticBoundingBox3DInfosSD"
SemanticBoundingBox3DCamCornersSD = "SemanticBoundingBox3DCamCornersSD"
SemanticBoundingBox3DCamExtentSD = "SemanticBoundingBox3DCamExtentSD"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 cameraFisheyeParams(self):
data_view = og.AttributeValueHelper(self._attributes.cameraFisheyeParams)
return data_view.get()
@cameraFisheyeParams.setter
def cameraFisheyeParams(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraFisheyeParams)
data_view = og.AttributeValueHelper(self._attributes.cameraFisheyeParams)
data_view.set(value)
self.cameraFisheyeParams_size = data_view.get_array_size()
@property
def cameraModel(self):
data_view = og.AttributeValueHelper(self._attributes.cameraModel)
return data_view.get()
@cameraModel.setter
def cameraModel(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraModel)
data_view = og.AttributeValueHelper(self._attributes.cameraModel)
data_view.set(value)
@property
def cameraNearFar(self):
data_view = og.AttributeValueHelper(self._attributes.cameraNearFar)
return data_view.get()
@cameraNearFar.setter
def cameraNearFar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cameraNearFar)
data_view = og.AttributeValueHelper(self._attributes.cameraNearFar)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def instanceMappingInfoSDPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
return data_view.get()
@instanceMappingInfoSDPtr.setter
def instanceMappingInfoSDPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.instanceMappingInfoSDPtr)
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
data_view.set(value)
@property
def metersPerSceneUnit(self):
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
return data_view.get()
@metersPerSceneUnit.setter
def metersPerSceneUnit(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.metersPerSceneUnit)
data_view = og.AttributeValueHelper(self._attributes.metersPerSceneUnit)
data_view.set(value)
@property
def renderProductResolution(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductResolution)
return data_view.get()
@renderProductResolution.setter
def renderProductResolution(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderProductResolution)
data_view = og.AttributeValueHelper(self._attributes.renderProductResolution)
data_view.set(value)
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
data_view.set(value)
@property
def sdSemBBoxExtentCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxExtentCudaPtr)
return data_view.get()
@sdSemBBoxExtentCudaPtr.setter
def sdSemBBoxExtentCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdSemBBoxExtentCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxExtentCudaPtr)
data_view.set(value)
@property
def sdSemBBoxInfosCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
return data_view.get()
@sdSemBBoxInfosCudaPtr.setter
def sdSemBBoxInfosCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdSemBBoxInfosCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
data_view.set(value)
@property
def semanticWorldTransformSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformSDCudaPtr)
return data_view.get()
@semanticWorldTransformSDCudaPtr.setter
def semanticWorldTransformSDCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticWorldTransformSDCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformSDCudaPtr)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def sdSemBBox3dCamCornersCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamCornersCudaPtr)
return data_view.get()
@sdSemBBox3dCamCornersCudaPtr.setter
def sdSemBBox3dCamCornersCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamCornersCudaPtr)
data_view.set(value)
@property
def sdSemBBox3dCamExtentCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamExtentCudaPtr)
return data_view.get()
@sdSemBBox3dCamExtentCudaPtr.setter
def sdSemBBox3dCamExtentCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBox3dCamExtentCudaPtr)
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 = OgnSdPostSemantic3dBoundingBoxCameraProjectionDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdPostSemantic3dBoundingBoxCameraProjectionDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdPostSemantic3dBoundingBoxCameraProjectionDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdTestSimFabricTimeRangeDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdTestSimFabricTimeRange
Testing node : on request write/update a Fabric time range of a given number of frames starting at the current simulation
time.
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdTestSimFabricTimeRangeDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdTestSimFabricTimeRange
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.numberOfFrames
inputs.timeRangeBeginDenominatorToken
inputs.timeRangeBeginNumeratorToken
inputs.timeRangeEndDenominatorToken
inputs.timeRangeEndNumeratorToken
inputs.timeRangeName
Outputs:
outputs.exec
Predefined Tokens:
tokens.fc_exportToRingbuffer
"""
# 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:numberOfFrames', 'uint64', 0, None, 'Number of frames to writes.', {}, True, 0, False, ''),
('inputs:timeRangeBeginDenominatorToken', 'token', 0, None, 'Attribute name of the range begin time denominator', {ogn.MetadataKeys.DEFAULT: '"timeRangeStartDenominator"'}, True, "timeRangeStartDenominator", False, ''),
('inputs:timeRangeBeginNumeratorToken', 'token', 0, None, 'Attribute name of the range begin time numerator', {ogn.MetadataKeys.DEFAULT: '"timeRangeStartNumerator"'}, True, "timeRangeStartNumerator", False, ''),
('inputs:timeRangeEndDenominatorToken', 'token', 0, None, 'Attribute name of the range end time denominator', {ogn.MetadataKeys.DEFAULT: '"timeRangeEndDenominator"'}, True, "timeRangeEndDenominator", False, ''),
('inputs:timeRangeEndNumeratorToken', 'token', 0, None, 'Attribute name of the range end time numerator', {ogn.MetadataKeys.DEFAULT: '"timeRangeEndNumerator"'}, True, "timeRangeEndNumerator", False, ''),
('inputs:timeRangeName', 'token', 0, None, 'Time range name used to write to the Fabric.', {ogn.MetadataKeys.DEFAULT: '"TestSimFabricTimeRangeSD"'}, True, "TestSimFabricTimeRangeSD", False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
])
class tokens:
fc_exportToRingbuffer = "fc_exportToRingbuffer"
@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.outputs.exec = og.AttributeRole.EXECUTION
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 numberOfFrames(self):
data_view = og.AttributeValueHelper(self._attributes.numberOfFrames)
return data_view.get()
@numberOfFrames.setter
def numberOfFrames(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.numberOfFrames)
data_view = og.AttributeValueHelper(self._attributes.numberOfFrames)
data_view.set(value)
@property
def timeRangeBeginDenominatorToken(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginDenominatorToken)
return data_view.get()
@timeRangeBeginDenominatorToken.setter
def timeRangeBeginDenominatorToken(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeBeginDenominatorToken)
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginDenominatorToken)
data_view.set(value)
@property
def timeRangeBeginNumeratorToken(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginNumeratorToken)
return data_view.get()
@timeRangeBeginNumeratorToken.setter
def timeRangeBeginNumeratorToken(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeBeginNumeratorToken)
data_view = og.AttributeValueHelper(self._attributes.timeRangeBeginNumeratorToken)
data_view.set(value)
@property
def timeRangeEndDenominatorToken(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndDenominatorToken)
return data_view.get()
@timeRangeEndDenominatorToken.setter
def timeRangeEndDenominatorToken(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeEndDenominatorToken)
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndDenominatorToken)
data_view.set(value)
@property
def timeRangeEndNumeratorToken(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndNumeratorToken)
return data_view.get()
@timeRangeEndNumeratorToken.setter
def timeRangeEndNumeratorToken(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeEndNumeratorToken)
data_view = og.AttributeValueHelper(self._attributes.timeRangeEndNumeratorToken)
data_view.set(value)
@property
def timeRangeName(self):
data_view = og.AttributeValueHelper(self._attributes.timeRangeName)
return data_view.get()
@timeRangeName.setter
def timeRangeName(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.timeRangeName)
data_view = og.AttributeValueHelper(self._attributes.timeRangeName)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
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 = OgnSdTestSimFabricTimeRangeDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdTestSimFabricTimeRangeDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdTestSimFabricTimeRangeDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdTimeChangeExecutionDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdTimeChangeExecution
Set its execution output if the input rational time is more recent that the last registered time.
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdTimeChangeExecutionDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdTimeChangeExecution
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.errorOnFutureChange
inputs.exec
inputs.lastUpdateTimeDenominator
inputs.lastUpdateTimeNumerator
inputs.renderResults
Outputs:
outputs.exec
"""
# 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:errorOnFutureChange', 'bool', 0, None, 'Print error if the last update is in the future.', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''),
('inputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:lastUpdateTimeDenominator', 'uint64', 0, None, 'Time denominator of the last time change', {}, True, 0, False, ''),
('inputs:lastUpdateTimeNumerator', 'int64', 0, None, 'Time numerator of the last time change', {}, True, 0, False, ''),
('inputs:renderResults', 'uint64', 0, None, 'Render results', {}, True, 0, False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 errorOnFutureChange(self):
data_view = og.AttributeValueHelper(self._attributes.errorOnFutureChange)
return data_view.get()
@errorOnFutureChange.setter
def errorOnFutureChange(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.errorOnFutureChange)
data_view = og.AttributeValueHelper(self._attributes.errorOnFutureChange)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def lastUpdateTimeDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeDenominator)
return data_view.get()
@lastUpdateTimeDenominator.setter
def lastUpdateTimeDenominator(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.lastUpdateTimeDenominator)
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeDenominator)
data_view.set(value)
@property
def lastUpdateTimeNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeNumerator)
return data_view.get()
@lastUpdateTimeNumerator.setter
def lastUpdateTimeNumerator(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.lastUpdateTimeNumerator)
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeNumerator)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
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 = OgnSdTimeChangeExecutionDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdTimeChangeExecutionDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdTimeChangeExecutionDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdFrameIdentifierDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdFrameIdentifier
Synthetic Data node to expose pipeline frame identifier.
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdFrameIdentifierDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdFrameIdentifier
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.renderResults
Outputs:
outputs.durationDenominator
outputs.durationNumerator
outputs.exec
outputs.externalTimeOfSimNs
outputs.frameNumber
outputs.rationalTimeOfSimDenominator
outputs.rationalTimeOfSimNumerator
outputs.sampleTimeOffsetInSimFrames
outputs.type
Predefined Tokens:
tokens.NoFrameNumber
tokens.FrameNumber
tokens.ConstantFramerateFrameNumber
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:renderResults', 'uint64', 0, None, 'Render results', {}, True, 0, False, ''),
('outputs:durationDenominator', 'uint64', 0, None, 'Duration denominator.\nOnly valid if eConstantFramerateFrameNumber', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('outputs:durationNumerator', 'int64', 0, None, 'Duration numerator.\nOnly valid if eConstantFramerateFrameNumber.', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes for each newFrame event received', {}, True, None, False, ''),
('outputs:externalTimeOfSimNs', 'int64', 0, None, 'External time in Ns.\nOnly valid if eConstantFramerateFrameNumber.', {ogn.MetadataKeys.DEFAULT: '-1'}, True, -1, False, ''),
('outputs:frameNumber', 'int64', 0, None, 'Frame number.\nValid if eFrameNumber or eConstantFramerateFrameNumber.', {ogn.MetadataKeys.DEFAULT: '-1'}, True, -1, False, ''),
('outputs:rationalTimeOfSimDenominator', 'uint64', 0, None, 'rational time of simulation denominator.', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('outputs:rationalTimeOfSimNumerator', 'int64', 0, None, 'rational time of simulation numerator.', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('outputs:sampleTimeOffsetInSimFrames', 'uint64', 0, None, 'Sample time offset.\nOnly valid if eConstantFramerateFrameNumber.', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('outputs:type', 'token', 0, None, 'Type of the frame identifier.', {ogn.MetadataKeys.ALLOWED_TOKENS: 'NoFrameNumber,FrameNumber,ConstantFramerateFrameNumber', ogn.MetadataKeys.ALLOWED_TOKENS_RAW: '["NoFrameNumber", "FrameNumber", "ConstantFramerateFrameNumber"]', ogn.MetadataKeys.DEFAULT: '"NoFrameNumber"'}, True, "NoFrameNumber", False, ''),
])
class tokens:
NoFrameNumber = "NoFrameNumber"
FrameNumber = "FrameNumber"
ConstantFramerateFrameNumber = "ConstantFramerateFrameNumber"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
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 durationDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.durationDenominator)
return data_view.get()
@durationDenominator.setter
def durationDenominator(self, value):
data_view = og.AttributeValueHelper(self._attributes.durationDenominator)
data_view.set(value)
@property
def durationNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.durationNumerator)
return data_view.get()
@durationNumerator.setter
def durationNumerator(self, value):
data_view = og.AttributeValueHelper(self._attributes.durationNumerator)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def externalTimeOfSimNs(self):
data_view = og.AttributeValueHelper(self._attributes.externalTimeOfSimNs)
return data_view.get()
@externalTimeOfSimNs.setter
def externalTimeOfSimNs(self, value):
data_view = og.AttributeValueHelper(self._attributes.externalTimeOfSimNs)
data_view.set(value)
@property
def frameNumber(self):
data_view = og.AttributeValueHelper(self._attributes.frameNumber)
return data_view.get()
@frameNumber.setter
def frameNumber(self, value):
data_view = og.AttributeValueHelper(self._attributes.frameNumber)
data_view.set(value)
@property
def rationalTimeOfSimDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.rationalTimeOfSimDenominator)
return data_view.get()
@rationalTimeOfSimDenominator.setter
def rationalTimeOfSimDenominator(self, value):
data_view = og.AttributeValueHelper(self._attributes.rationalTimeOfSimDenominator)
data_view.set(value)
@property
def rationalTimeOfSimNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.rationalTimeOfSimNumerator)
return data_view.get()
@rationalTimeOfSimNumerator.setter
def rationalTimeOfSimNumerator(self, value):
data_view = og.AttributeValueHelper(self._attributes.rationalTimeOfSimNumerator)
data_view.set(value)
@property
def sampleTimeOffsetInSimFrames(self):
data_view = og.AttributeValueHelper(self._attributes.sampleTimeOffsetInSimFrames)
return data_view.get()
@sampleTimeOffsetInSimFrames.setter
def sampleTimeOffsetInSimFrames(self, value):
data_view = og.AttributeValueHelper(self._attributes.sampleTimeOffsetInSimFrames)
data_view.set(value)
@property
def type(self):
data_view = og.AttributeValueHelper(self._attributes.type)
return data_view.get()
@type.setter
def type(self, value):
data_view = og.AttributeValueHelper(self._attributes.type)
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 = OgnSdFrameIdentifierDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdFrameIdentifierDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdFrameIdentifierDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdSimInstanceMappingDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdSimInstanceMapping
Synthetic Data node to update and cache the instance mapping data
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdSimInstanceMappingDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdSimInstanceMapping
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.needTransform
inputs.semanticFilterPredicate
Outputs:
outputs.exec
outputs.semanticFilterPredicate
"""
# 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:needTransform', 'bool', 0, None, 'If true compute the semantic entities world and object transforms', {ogn.MetadataKeys.DEFAULT: 'true'}, True, True, False, ''),
('inputs:semanticFilterPredicate', 'token', 0, None, 'The semantic filter predicate : a disjunctive normal form of semantic type and label', {ogn.MetadataKeys.DEFAULT: '"*:*"'}, True, "*:*", False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:semanticFilterPredicate', 'token', 0, None, 'The semantic filter predicate in normalized form', {}, 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.outputs.exec = og.AttributeRole.EXECUTION
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 needTransform(self):
data_view = og.AttributeValueHelper(self._attributes.needTransform)
return data_view.get()
@needTransform.setter
def needTransform(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.needTransform)
data_view = og.AttributeValueHelper(self._attributes.needTransform)
data_view.set(value)
@property
def semanticFilterPredicate(self):
data_view = og.AttributeValueHelper(self._attributes.semanticFilterPredicate)
return data_view.get()
@semanticFilterPredicate.setter
def semanticFilterPredicate(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticFilterPredicate)
data_view = og.AttributeValueHelper(self._attributes.semanticFilterPredicate)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def semanticFilterPredicate(self):
data_view = og.AttributeValueHelper(self._attributes.semanticFilterPredicate)
return data_view.get()
@semanticFilterPredicate.setter
def semanticFilterPredicate(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticFilterPredicate)
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 = OgnSdSimInstanceMappingDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdSimInstanceMappingDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdSimInstanceMappingDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdRenderVarToRawArrayDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdRenderVarToRawArray
Synthetic Data action node to copy the input rendervar into an output raw array
"""
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 OgnSdRenderVarToRawArrayDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdRenderVarToRawArray
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.cudaStream
inputs.exec
inputs.renderResults
inputs.renderVar
Outputs:
outputs.bufferSize
outputs.cudaStream
outputs.data
outputs.exec
outputs.format
outputs.height
outputs.strides
outputs.width
"""
# 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:cudaStream', 'uint64', 0, None, 'Pointer to the CUDA stream', {}, True, 0, False, ''),
('inputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:renderResults', 'uint64', 0, None, 'Render results pointer', {}, True, 0, False, ''),
('inputs:renderVar', 'token', 0, None, 'Name of the renderVar', {}, True, "", False, ''),
('outputs:bufferSize', 'uint64', 0, None, 'Size (in bytes) of the buffer (0 if the input is a texture)', {}, True, None, False, ''),
('outputs:cudaStream', 'uint64', 0, None, 'Pointer to the CUDA stream', {}, True, None, False, ''),
('outputs:data', 'uchar[]', 0, None, 'Buffer array data', {ogn.MetadataKeys.MEMORY_TYPE: 'any', ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes when the event is received', {}, True, None, False, ''),
('outputs:format', 'uint64', 0, None, 'Format', {}, True, None, False, ''),
('outputs:height', 'uint', 0, None, 'Height (0 if the input is a buffer)', {}, True, None, False, ''),
('outputs:strides', 'int2', 0, None, 'Strides (in bytes) ([0,0] if the input is a buffer)', {}, True, None, False, ''),
('outputs:width', 'uint', 0, None, 'Width (0 if the input is a buffer)', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 cudaStream(self):
data_view = og.AttributeValueHelper(self._attributes.cudaStream)
return data_view.get()
@cudaStream.setter
def cudaStream(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cudaStream)
data_view = og.AttributeValueHelper(self._attributes.cudaStream)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
data_view.set(value)
@property
def renderVar(self):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
return data_view.get()
@renderVar.setter
def renderVar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVar)
data_view = og.AttributeValueHelper(self._attributes.renderVar)
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.data_size = 0
self._batchedWriteValues = { }
@property
def bufferSize(self):
data_view = og.AttributeValueHelper(self._attributes.bufferSize)
return data_view.get()
@bufferSize.setter
def bufferSize(self, value):
data_view = og.AttributeValueHelper(self._attributes.bufferSize)
data_view.set(value)
@property
def cudaStream(self):
data_view = og.AttributeValueHelper(self._attributes.cudaStream)
return data_view.get()
@cudaStream.setter
def cudaStream(self, value):
data_view = og.AttributeValueHelper(self._attributes.cudaStream)
data_view.set(value)
class __data:
def __init__(self, parent):
self._parent = parent
@property
def cpu(self):
data_view = og.AttributeValueHelper(self._parent._attributes.data)
return data_view.get(reserved_element_count=self._parent.data_size)
@cpu.setter
def cpu(self, value):
data_view = og.AttributeValueHelper(self._parent._attributes.cpu)
data_view.set(value)
self._parent.cpu_size = data_view.get_array_size()
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._parent._attributes.data)
data_view.gpu_ptr_kind = og.PtrToPtrKind.CPU
return data_view.get(reserved_element_count=self._parent.data_size, on_gpu=True)
@gpu.setter
def gpu(self, value):
data_view = og.AttributeValueHelper(self._parent._attributes.gpu)
data_view.set(value)
self._parent.gpu_size = data_view.get_array_size()
@property
def data(self):
return self.__class__.__data(self)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def format(self):
data_view = og.AttributeValueHelper(self._attributes.format)
return data_view.get()
@format.setter
def format(self, value):
data_view = og.AttributeValueHelper(self._attributes.format)
data_view.set(value)
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def strides(self):
data_view = og.AttributeValueHelper(self._attributes.strides)
return data_view.get()
@strides.setter
def strides(self, value):
data_view = og.AttributeValueHelper(self._attributes.strides)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
data_view = og.AttributeValueHelper(self._attributes.width)
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 = OgnSdRenderVarToRawArrayDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdRenderVarToRawArrayDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdRenderVarToRawArrayDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdOnNewFrameDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdOnNewFrame
Synthetic Data postprocess node to execute pipeline after the NewFrame event has been received
"""
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 OgnSdOnNewFrameDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdOnNewFrame
Class Members:
node: Node being evaluated
Attribute Value Properties:
Outputs:
outputs.cudaStream
outputs.exec
outputs.referenceTimeDenominator
outputs.referenceTimeNumerator
outputs.renderProductDataPtrs
outputs.renderProductPaths
"""
# 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([
('outputs:cudaStream', 'uint64', 0, None, 'Cuda stream', {}, True, None, False, ''),
('outputs:exec', 'execution', 0, None, 'Executes for each newFrame event received', {}, True, None, False, ''),
('outputs:referenceTimeDenominator', 'uint64', 0, None, 'Reference time represented as a rational number : denominator', {}, True, None, False, ''),
('outputs:referenceTimeNumerator', 'int64', 0, None, 'Reference time represented as a rational number : numerator', {}, True, None, False, ''),
('outputs:renderProductDataPtrs', 'uint64[]', 0, None, 'HydraRenderProduct data pointer.', {}, True, None, False, ''),
('outputs:renderProductPaths', 'token[]', 0, None, 'Render product path tokens.', {}, 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.outputs.exec = og.AttributeRole.EXECUTION
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 = []
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.renderProductDataPtrs_size = None
self.renderProductPaths_size = None
self._batchedWriteValues = { }
@property
def cudaStream(self):
data_view = og.AttributeValueHelper(self._attributes.cudaStream)
return data_view.get()
@cudaStream.setter
def cudaStream(self, value):
data_view = og.AttributeValueHelper(self._attributes.cudaStream)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def referenceTimeDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.referenceTimeDenominator)
return data_view.get()
@referenceTimeDenominator.setter
def referenceTimeDenominator(self, value):
data_view = og.AttributeValueHelper(self._attributes.referenceTimeDenominator)
data_view.set(value)
@property
def referenceTimeNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.referenceTimeNumerator)
return data_view.get()
@referenceTimeNumerator.setter
def referenceTimeNumerator(self, value):
data_view = og.AttributeValueHelper(self._attributes.referenceTimeNumerator)
data_view.set(value)
@property
def renderProductDataPtrs(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductDataPtrs)
return data_view.get(reserved_element_count=self.renderProductDataPtrs_size)
@renderProductDataPtrs.setter
def renderProductDataPtrs(self, value):
data_view = og.AttributeValueHelper(self._attributes.renderProductDataPtrs)
data_view.set(value)
self.renderProductDataPtrs_size = data_view.get_array_size()
@property
def renderProductPaths(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductPaths)
return data_view.get(reserved_element_count=self.renderProductPaths_size)
@renderProductPaths.setter
def renderProductPaths(self, value):
data_view = og.AttributeValueHelper(self._attributes.renderProductPaths)
data_view.set(value)
self.renderProductPaths_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 = OgnSdOnNewFrameDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdOnNewFrameDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdOnNewFrameDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdPostInstanceMappingDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdPostInstanceMapping
Synthetic Data node to compute and store scene instances semantic hierarchy information
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdPostInstanceMappingDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdPostInstanceMapping
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.gpu
inputs.rp
inputs.semanticFilterName
Outputs:
outputs.exec
outputs.instanceMapSDCudaPtr
outputs.instanceMappingInfoSDPtr
outputs.instancePrimTokenSDCudaPtr
outputs.lastUpdateTimeDenominator
outputs.lastUpdateTimeNumerator
outputs.semanticLabelTokenSDCudaPtr
outputs.semanticLocalTransformSDCudaPtr
outputs.semanticMapSDCudaPtr
outputs.semanticPrimTokenSDCudaPtr
outputs.semanticWorldTransformSDCudaPtr
Predefined Tokens:
tokens.InstanceMappingInfoSDhost
tokens.SemanticMapSD
tokens.SemanticMapSDhost
tokens.SemanticPrimTokenSD
tokens.SemanticPrimTokenSDhost
tokens.InstanceMapSD
tokens.InstanceMapSDhost
tokens.InstancePrimTokenSD
tokens.InstancePrimTokenSDhost
tokens.SemanticLabelTokenSD
tokens.SemanticLabelTokenSDhost
tokens.SemanticLocalTransformSD
tokens.SemanticLocalTransformSDhost
tokens.SemanticWorldTransformSD
tokens.SemanticWorldTransformSDhost
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, 'gpuFoundations', 'Pointer to shared context containing gpu foundations', {}, True, 0, False, ''),
('inputs:rp', 'uint64', 0, 'renderProduct', 'Pointer to render product for this view', {}, True, 0, False, ''),
('inputs:semanticFilterName', 'token', 0, None, 'Name of the semantic filter to apply to the semanticLabelToken', {ogn.MetadataKeys.DEFAULT: '"default"'}, True, "default", False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:instanceMapSDCudaPtr', 'uint64', 0, None, 'cuda uint16_t buffer pointer of size numInstances containing the instance parent semantic index', {}, True, None, False, ''),
('outputs:instanceMappingInfoSDPtr', 'uint64', 0, None, 'uint buffer pointer containing the following information :\n[ numInstances, minInstanceId, numSemantics, minSemanticId, numProtoSemantic,\n lastUpdateTimeNumeratorHigh, lastUpdateTimeNumeratorLow, , lastUpdateTimeDenominatorHigh, lastUpdateTimeDenominatorLow ]', {}, True, None, False, ''),
('outputs:instancePrimTokenSDCudaPtr', 'uint64', 0, None, 'cuda uint64_t buffer pointer of size numInstances containing the instance path token', {}, True, None, False, ''),
('outputs:lastUpdateTimeDenominator', 'uint64', 0, None, 'Time denominator of the last time the data has changed', {}, True, None, False, ''),
('outputs:lastUpdateTimeNumerator', 'int64', 0, None, 'Time numerator of the last time the data has changed', {}, True, None, False, ''),
('outputs:semanticLabelTokenSDCudaPtr', 'uint64', 0, None, 'cuda uint64_t buffer pointer of size numSemantics containing the semantic label token', {}, True, None, False, ''),
('outputs:semanticLocalTransformSDCudaPtr', 'uint64', 0, None, 'cuda float44 buffer pointer of size numSemantics containing the local semantic transform', {}, True, None, False, ''),
('outputs:semanticMapSDCudaPtr', 'uint64', 0, None, 'cuda uint16_t buffer pointer of size numSemantics containing the semantic parent semantic index', {}, True, None, False, ''),
('outputs:semanticPrimTokenSDCudaPtr', 'uint64', 0, None, 'cuda uint32_t buffer pointer of size numSemantics containing the prim part of the semantic path token', {}, True, None, False, ''),
('outputs:semanticWorldTransformSDCudaPtr', 'uint64', 0, None, 'cuda float44 buffer pointer of size numSemantics containing the world semantic transform', {}, True, None, False, ''),
])
class tokens:
InstanceMappingInfoSDhost = "InstanceMappingInfoSDhost"
SemanticMapSD = "SemanticMapSD"
SemanticMapSDhost = "SemanticMapSDhost"
SemanticPrimTokenSD = "SemanticPrimTokenSD"
SemanticPrimTokenSDhost = "SemanticPrimTokenSDhost"
InstanceMapSD = "InstanceMapSD"
InstanceMapSDhost = "InstanceMapSDhost"
InstancePrimTokenSD = "InstancePrimTokenSD"
InstancePrimTokenSDhost = "InstancePrimTokenSDhost"
SemanticLabelTokenSD = "SemanticLabelTokenSD"
SemanticLabelTokenSDhost = "SemanticLabelTokenSDhost"
SemanticLocalTransformSD = "SemanticLocalTransformSD"
SemanticLocalTransformSDhost = "SemanticLocalTransformSDhost"
SemanticWorldTransformSD = "SemanticWorldTransformSD"
SemanticWorldTransformSDhost = "SemanticWorldTransformSDhost"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
data_view.set(value)
@property
def semanticFilterName(self):
data_view = og.AttributeValueHelper(self._attributes.semanticFilterName)
return data_view.get()
@semanticFilterName.setter
def semanticFilterName(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticFilterName)
data_view = og.AttributeValueHelper(self._attributes.semanticFilterName)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def instanceMapSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMapSDCudaPtr)
return data_view.get()
@instanceMapSDCudaPtr.setter
def instanceMapSDCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.instanceMapSDCudaPtr)
data_view.set(value)
@property
def instanceMappingInfoSDPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
return data_view.get()
@instanceMappingInfoSDPtr.setter
def instanceMappingInfoSDPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
data_view.set(value)
@property
def instancePrimTokenSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instancePrimTokenSDCudaPtr)
return data_view.get()
@instancePrimTokenSDCudaPtr.setter
def instancePrimTokenSDCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.instancePrimTokenSDCudaPtr)
data_view.set(value)
@property
def lastUpdateTimeDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeDenominator)
return data_view.get()
@lastUpdateTimeDenominator.setter
def lastUpdateTimeDenominator(self, value):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeDenominator)
data_view.set(value)
@property
def lastUpdateTimeNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeNumerator)
return data_view.get()
@lastUpdateTimeNumerator.setter
def lastUpdateTimeNumerator(self, value):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeNumerator)
data_view.set(value)
@property
def semanticLabelTokenSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticLabelTokenSDCudaPtr)
return data_view.get()
@semanticLabelTokenSDCudaPtr.setter
def semanticLabelTokenSDCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticLabelTokenSDCudaPtr)
data_view.set(value)
@property
def semanticLocalTransformSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticLocalTransformSDCudaPtr)
return data_view.get()
@semanticLocalTransformSDCudaPtr.setter
def semanticLocalTransformSDCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticLocalTransformSDCudaPtr)
data_view.set(value)
@property
def semanticMapSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticMapSDCudaPtr)
return data_view.get()
@semanticMapSDCudaPtr.setter
def semanticMapSDCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticMapSDCudaPtr)
data_view.set(value)
@property
def semanticPrimTokenSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticPrimTokenSDCudaPtr)
return data_view.get()
@semanticPrimTokenSDCudaPtr.setter
def semanticPrimTokenSDCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticPrimTokenSDCudaPtr)
data_view.set(value)
@property
def semanticWorldTransformSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformSDCudaPtr)
return data_view.get()
@semanticWorldTransformSDCudaPtr.setter
def semanticWorldTransformSDCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformSDCudaPtr)
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 = OgnSdPostInstanceMappingDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdPostInstanceMappingDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdPostInstanceMappingDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdLinearArrayToTextureDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdLinearArrayToTexture
Synthetic Data node to copy the input buffer array into a texture for visualization
"""
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 OgnSdLinearArrayToTextureDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdLinearArrayToTexture
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.data
inputs.exec
inputs.height
inputs.sdDisplayCudaMipmappedArray
inputs.sdDisplayFormat
inputs.sdDisplayHeight
inputs.sdDisplayStream
inputs.sdDisplayWidth
inputs.stream
inputs.width
Outputs:
outputs.cudaPtr
outputs.exec
outputs.format
outputs.handlePtr
outputs.height
outputs.stream
outputs.width
"""
# 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:data', 'float4[]', 0, None, 'Buffer array data', {ogn.MetadataKeys.MEMORY_TYPE: 'cuda'}, True, [], False, ''),
('inputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:height', 'uint', 0, None, 'Buffer array height', {}, True, 0, False, ''),
('inputs:sdDisplayCudaMipmappedArray', 'uint64', 0, None, 'Visualization texture CUDA mipmapped array pointer', {}, True, 0, False, ''),
('inputs:sdDisplayFormat', 'uint64', 0, None, 'Visualization texture format', {}, True, 0, False, ''),
('inputs:sdDisplayHeight', 'uint', 0, None, 'Visualization texture Height', {}, True, 0, False, ''),
('inputs:sdDisplayStream', 'uint64', 0, None, 'Visualization texture CUDA stream pointer', {}, True, 0, False, ''),
('inputs:sdDisplayWidth', 'uint', 0, None, 'Visualization texture width', {}, True, 0, False, ''),
('inputs:stream', 'uint64', 0, None, 'Pointer to the CUDA Stream', {}, True, 0, False, ''),
('inputs:width', 'uint', 0, None, 'Buffer array width', {}, True, 0, False, ''),
('outputs:cudaPtr', 'uint64', 0, None, 'Display texture CUDA pointer', {}, True, None, False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes when the event is received', {}, True, None, False, ''),
('outputs:format', 'uint64', 0, None, 'Display texture format', {}, True, None, False, ''),
('outputs:handlePtr', 'uint64', 0, None, 'Display texture handle reference', {}, True, None, False, ''),
('outputs:height', 'uint', 0, None, 'Display texture height', {}, True, None, False, ''),
('outputs:stream', 'uint64', 0, None, 'Output texture CUDA stream pointer', {}, True, None, False, ''),
('outputs:width', 'uint', 0, None, 'Display texture width', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 data(self):
data_view = og.AttributeValueHelper(self._attributes.data)
return data_view.get(on_gpu=True)
@data.setter
def data(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.data)
data_view = og.AttributeValueHelper(self._attributes.data)
data_view.set(value, on_gpu=True)
self.data_size = data_view.get_array_size()
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.height)
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def sdDisplayCudaMipmappedArray(self):
data_view = og.AttributeValueHelper(self._attributes.sdDisplayCudaMipmappedArray)
return data_view.get()
@sdDisplayCudaMipmappedArray.setter
def sdDisplayCudaMipmappedArray(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdDisplayCudaMipmappedArray)
data_view = og.AttributeValueHelper(self._attributes.sdDisplayCudaMipmappedArray)
data_view.set(value)
@property
def sdDisplayFormat(self):
data_view = og.AttributeValueHelper(self._attributes.sdDisplayFormat)
return data_view.get()
@sdDisplayFormat.setter
def sdDisplayFormat(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdDisplayFormat)
data_view = og.AttributeValueHelper(self._attributes.sdDisplayFormat)
data_view.set(value)
@property
def sdDisplayHeight(self):
data_view = og.AttributeValueHelper(self._attributes.sdDisplayHeight)
return data_view.get()
@sdDisplayHeight.setter
def sdDisplayHeight(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdDisplayHeight)
data_view = og.AttributeValueHelper(self._attributes.sdDisplayHeight)
data_view.set(value)
@property
def sdDisplayStream(self):
data_view = og.AttributeValueHelper(self._attributes.sdDisplayStream)
return data_view.get()
@sdDisplayStream.setter
def sdDisplayStream(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdDisplayStream)
data_view = og.AttributeValueHelper(self._attributes.sdDisplayStream)
data_view.set(value)
@property
def sdDisplayWidth(self):
data_view = og.AttributeValueHelper(self._attributes.sdDisplayWidth)
return data_view.get()
@sdDisplayWidth.setter
def sdDisplayWidth(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.sdDisplayWidth)
data_view = og.AttributeValueHelper(self._attributes.sdDisplayWidth)
data_view.set(value)
@property
def stream(self):
data_view = og.AttributeValueHelper(self._attributes.stream)
return data_view.get()
@stream.setter
def stream(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.stream)
data_view = og.AttributeValueHelper(self._attributes.stream)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.width)
data_view = og.AttributeValueHelper(self._attributes.width)
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 cudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
return data_view.get()
@cudaPtr.setter
def cudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def format(self):
data_view = og.AttributeValueHelper(self._attributes.format)
return data_view.get()
@format.setter
def format(self, value):
data_view = og.AttributeValueHelper(self._attributes.format)
data_view.set(value)
@property
def handlePtr(self):
data_view = og.AttributeValueHelper(self._attributes.handlePtr)
return data_view.get()
@handlePtr.setter
def handlePtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.handlePtr)
data_view.set(value)
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def stream(self):
data_view = og.AttributeValueHelper(self._attributes.stream)
return data_view.get()
@stream.setter
def stream(self, value):
data_view = og.AttributeValueHelper(self._attributes.stream)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
data_view = og.AttributeValueHelper(self._attributes.width)
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 = OgnSdLinearArrayToTextureDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdLinearArrayToTextureDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdLinearArrayToTextureDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdPostSemanticBoundingBoxDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdPostSemanticBoundingBox
Synthetic Data node to compute the bounding boxes of the scene semantic entities.
"""
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 OgnSdPostSemanticBoundingBoxDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdPostSemanticBoundingBox
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.gpu
inputs.instanceMapSDCudaPtr
inputs.instanceMappingInfoSDPtr
inputs.renderProductResolution
inputs.renderVar
inputs.rp
inputs.semanticLocalTransformSDCudaPtr
inputs.semanticMapSDCudaPtr
Outputs:
outputs.exec
outputs.sdSemBBoxExtentCudaPtr
outputs.sdSemBBoxInfosCudaPtr
Predefined Tokens:
tokens.BoundingBox2DLooseSD
tokens.BoundingBox2DTightSD
tokens.SemanticBoundingBox2DExtentLooseSD
tokens.SemanticBoundingBox2DInfosLooseSD
tokens.SemanticBoundingBox2DExtentTightSD
tokens.SemanticBoundingBox2DInfosTightSD
tokens.BoundingBox3DSD
tokens.SemanticBoundingBox3DExtentSD
tokens.SemanticBoundingBox3DInfosSD
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, 'gpuFoundations', 'Pointer to shared context containing gpu foundations', {}, True, 0, False, ''),
('inputs:instanceMapSDCudaPtr', 'uint64', 0, None, 'cuda uint16_t buffer pointer of size numInstances containing the instance parent semantic index', {}, True, 0, False, ''),
('inputs:instanceMappingInfoSDPtr', 'uint64', 0, None, 'uint buffer pointer containing the following information : [numInstances, minInstanceId, numSemantics, minSemanticId, numProtoSemantic]', {}, True, 0, False, ''),
('inputs:renderProductResolution', 'int2', 0, None, 'RenderProduct resolution', {}, True, [0, 0], False, ''),
('inputs:renderVar', 'token', 0, None, 'Name of the BoundingBox RenderVar to process', {}, True, "", False, ''),
('inputs:rp', 'uint64', 0, 'renderProduct', 'Pointer to render product for this view', {}, True, 0, False, ''),
('inputs:semanticLocalTransformSDCudaPtr', 'uint64', 0, None, 'cuda float44 buffer pointer of size numSemantics containing the local semantic transform', {}, True, 0, False, ''),
('inputs:semanticMapSDCudaPtr', 'uint64', 0, None, 'cuda uint16_t buffer pointer of size numSemantics containing the semantic parent semantic index', {}, True, 0, False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:sdSemBBoxExtentCudaPtr', 'uint64', 0, None, 'Cuda buffer containing the extent of the bounding boxes as a float4=(u_min,v_min,u_max,v_max) for 2D or a float6=(xmin,ymin,zmin,xmax,ymax,zmax) in object space for 3D', {}, True, None, False, ''),
('outputs:sdSemBBoxInfosCudaPtr', 'uint64', 0, None, 'Cuda buffer containing valid bounding boxes infos', {}, True, None, False, ''),
])
class tokens:
BoundingBox2DLooseSD = "BoundingBox2DLooseSD"
BoundingBox2DTightSD = "BoundingBox2DTightSD"
SemanticBoundingBox2DExtentLooseSD = "SemanticBoundingBox2DExtentLooseSD"
SemanticBoundingBox2DInfosLooseSD = "SemanticBoundingBox2DInfosLooseSD"
SemanticBoundingBox2DExtentTightSD = "SemanticBoundingBox2DExtentTightSD"
SemanticBoundingBox2DInfosTightSD = "SemanticBoundingBox2DInfosTightSD"
BoundingBox3DSD = "BoundingBox3DSD"
SemanticBoundingBox3DExtentSD = "SemanticBoundingBox3DExtentSD"
SemanticBoundingBox3DInfosSD = "SemanticBoundingBox3DInfosSD"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def instanceMapSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMapSDCudaPtr)
return data_view.get()
@instanceMapSDCudaPtr.setter
def instanceMapSDCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.instanceMapSDCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.instanceMapSDCudaPtr)
data_view.set(value)
@property
def instanceMappingInfoSDPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
return data_view.get()
@instanceMappingInfoSDPtr.setter
def instanceMappingInfoSDPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.instanceMappingInfoSDPtr)
data_view = og.AttributeValueHelper(self._attributes.instanceMappingInfoSDPtr)
data_view.set(value)
@property
def renderProductResolution(self):
data_view = og.AttributeValueHelper(self._attributes.renderProductResolution)
return data_view.get()
@renderProductResolution.setter
def renderProductResolution(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderProductResolution)
data_view = og.AttributeValueHelper(self._attributes.renderProductResolution)
data_view.set(value)
@property
def renderVar(self):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
return data_view.get()
@renderVar.setter
def renderVar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVar)
data_view = og.AttributeValueHelper(self._attributes.renderVar)
data_view.set(value)
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
data_view.set(value)
@property
def semanticLocalTransformSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticLocalTransformSDCudaPtr)
return data_view.get()
@semanticLocalTransformSDCudaPtr.setter
def semanticLocalTransformSDCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticLocalTransformSDCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticLocalTransformSDCudaPtr)
data_view.set(value)
@property
def semanticMapSDCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticMapSDCudaPtr)
return data_view.get()
@semanticMapSDCudaPtr.setter
def semanticMapSDCudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticMapSDCudaPtr)
data_view = og.AttributeValueHelper(self._attributes.semanticMapSDCudaPtr)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def sdSemBBoxExtentCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxExtentCudaPtr)
return data_view.get()
@sdSemBBoxExtentCudaPtr.setter
def sdSemBBoxExtentCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxExtentCudaPtr)
data_view.set(value)
@property
def sdSemBBoxInfosCudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
return data_view.get()
@sdSemBBoxInfosCudaPtr.setter
def sdSemBBoxInfosCudaPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.sdSemBBoxInfosCudaPtr)
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 = OgnSdPostSemanticBoundingBoxDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdPostSemanticBoundingBoxDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdPostSemanticBoundingBoxDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdInstanceMappingPtrDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdInstanceMappingPtr
Synthetic Data node to expose the scene instances semantic hierarchy information
"""
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 OgnSdInstanceMappingPtrDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdInstanceMappingPtr
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.cudaPtr
inputs.exec
inputs.renderResults
inputs.semanticFilerTokens
Outputs:
outputs.cudaDeviceIndex
outputs.exec
outputs.instanceMapPtr
outputs.instancePrimPathPtr
outputs.lastUpdateTimeDenominator
outputs.lastUpdateTimeNumerator
outputs.minInstanceIndex
outputs.minSemanticIndex
outputs.numInstances
outputs.numSemantics
outputs.semanticLabelTokenPtrs
outputs.semanticLocalTransformPtr
outputs.semanticMapPtr
outputs.semanticPrimPathPtr
outputs.semanticWorldTransformPtr
Predefined Tokens:
tokens.InstanceMappingInfoSDhost
tokens.InstancePrimTokenSDhost
tokens.InstancePrimTokenSD
tokens.SemanticPrimTokenSDhost
tokens.SemanticPrimTokenSD
tokens.InstanceMapSDhost
tokens.InstanceMapSD
tokens.SemanticMapSDhost
tokens.SemanticMapSD
tokens.SemanticWorldTransformSDhost
tokens.SemanticWorldTransformSD
tokens.SemanticLocalTransformSDhost
tokens.SemanticLocalTransformSD
tokens.SemanticLabelTokenSDhost
tokens.SemanticLabelTokenSD
"""
# 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:cudaPtr', 'bool', 0, None, 'If true, return cuda device pointer instead of host pointer', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''),
('inputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:renderResults', 'uint64', 0, None, 'Render results pointer', {}, True, 0, False, ''),
('inputs:semanticFilerTokens', 'token[]', 0, None, 'Tokens identifying the semantic filters applied to the output semantic labels. Each token should correspond to an activated SdSemanticFilter node', {ogn.MetadataKeys.DEFAULT: '[]'}, True, [], False, ''),
('outputs:cudaDeviceIndex', 'int', 0, None, 'If the data is on the device it is the cuda index of this device otherwise it is set to -1', {ogn.MetadataKeys.DEFAULT: '-1'}, True, -1, False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes when the event is received', {}, True, None, False, ''),
('outputs:instanceMapPtr', 'uint64', 0, None, 'Array pointer of numInstances uint16_t containing the semantic index of the instance prim first semantic prim parent', {}, True, None, False, ''),
('outputs:instancePrimPathPtr', 'uint64', 0, None, 'Array pointer of numInstances uint64_t containing the prim path tokens for every instance prims', {}, True, None, False, ''),
('outputs:lastUpdateTimeDenominator', 'uint64', 0, None, 'Time denominator of the last time the data has changed', {}, True, None, False, ''),
('outputs:lastUpdateTimeNumerator', 'int64', 0, None, 'Time numerator of the last time the data has changed', {}, True, None, False, ''),
('outputs:minInstanceIndex', 'uint', 0, None, 'Instance index of the first instance prim in the instance arrays', {}, True, None, False, ''),
('outputs:minSemanticIndex', 'uint', 0, None, 'Semantic index of the first semantic prim in the semantic arrays', {}, True, None, False, ''),
('outputs:numInstances', 'uint', 0, None, 'Number of instances prim in the instance arrays', {}, True, None, False, ''),
('outputs:numSemantics', 'uint', 0, None, 'Number of semantic prim in the semantic arrays', {}, True, None, False, ''),
('outputs:semanticLabelTokenPtrs', 'uint64[]', 0, None, 'Array containing for every input semantic filters the corresponding array pointer of numSemantics uint64_t representing the semantic label of the semantic prim', {}, True, None, False, ''),
('outputs:semanticLocalTransformPtr', 'uint64', 0, None, 'Array pointer of numSemantics 4x4 float matrices containing the transform from world to object space for every semantic prims', {}, True, None, False, ''),
('outputs:semanticMapPtr', 'uint64', 0, None, 'Array pointer of numSemantics uint16_t containing the semantic index of the semantic prim first semantic prim parent', {}, True, None, False, ''),
('outputs:semanticPrimPathPtr', 'uint64', 0, None, 'Array pointer of numSemantics uint32_t containing the prim part of the prim path tokens for every semantic prims', {}, True, None, False, ''),
('outputs:semanticWorldTransformPtr', 'uint64', 0, None, 'Array pointer of numSemantics 4x4 float matrices containing the transform from local to world space for every semantic entity', {}, True, None, False, ''),
])
class tokens:
InstanceMappingInfoSDhost = "InstanceMappingInfoSDhost"
InstancePrimTokenSDhost = "InstancePrimTokenSDhost"
InstancePrimTokenSD = "InstancePrimTokenSD"
SemanticPrimTokenSDhost = "SemanticPrimTokenSDhost"
SemanticPrimTokenSD = "SemanticPrimTokenSD"
InstanceMapSDhost = "InstanceMapSDhost"
InstanceMapSD = "InstanceMapSD"
SemanticMapSDhost = "SemanticMapSDhost"
SemanticMapSD = "SemanticMapSD"
SemanticWorldTransformSDhost = "SemanticWorldTransformSDhost"
SemanticWorldTransformSD = "SemanticWorldTransformSD"
SemanticLocalTransformSDhost = "SemanticLocalTransformSDhost"
SemanticLocalTransformSD = "SemanticLocalTransformSD"
SemanticLabelTokenSDhost = "SemanticLabelTokenSDhost"
SemanticLabelTokenSD = "SemanticLabelTokenSD"
@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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 cudaPtr(self):
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
return data_view.get()
@cudaPtr.setter
def cudaPtr(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.cudaPtr)
data_view = og.AttributeValueHelper(self._attributes.cudaPtr)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
data_view.set(value)
@property
def semanticFilerTokens(self):
data_view = og.AttributeValueHelper(self._attributes.semanticFilerTokens)
return data_view.get()
@semanticFilerTokens.setter
def semanticFilerTokens(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.semanticFilerTokens)
data_view = og.AttributeValueHelper(self._attributes.semanticFilerTokens)
data_view.set(value)
self.semanticFilerTokens_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.semanticLabelTokenPtrs_size = None
self._batchedWriteValues = { }
@property
def cudaDeviceIndex(self):
data_view = og.AttributeValueHelper(self._attributes.cudaDeviceIndex)
return data_view.get()
@cudaDeviceIndex.setter
def cudaDeviceIndex(self, value):
data_view = og.AttributeValueHelper(self._attributes.cudaDeviceIndex)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def instanceMapPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instanceMapPtr)
return data_view.get()
@instanceMapPtr.setter
def instanceMapPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.instanceMapPtr)
data_view.set(value)
@property
def instancePrimPathPtr(self):
data_view = og.AttributeValueHelper(self._attributes.instancePrimPathPtr)
return data_view.get()
@instancePrimPathPtr.setter
def instancePrimPathPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.instancePrimPathPtr)
data_view.set(value)
@property
def lastUpdateTimeDenominator(self):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeDenominator)
return data_view.get()
@lastUpdateTimeDenominator.setter
def lastUpdateTimeDenominator(self, value):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeDenominator)
data_view.set(value)
@property
def lastUpdateTimeNumerator(self):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeNumerator)
return data_view.get()
@lastUpdateTimeNumerator.setter
def lastUpdateTimeNumerator(self, value):
data_view = og.AttributeValueHelper(self._attributes.lastUpdateTimeNumerator)
data_view.set(value)
@property
def minInstanceIndex(self):
data_view = og.AttributeValueHelper(self._attributes.minInstanceIndex)
return data_view.get()
@minInstanceIndex.setter
def minInstanceIndex(self, value):
data_view = og.AttributeValueHelper(self._attributes.minInstanceIndex)
data_view.set(value)
@property
def minSemanticIndex(self):
data_view = og.AttributeValueHelper(self._attributes.minSemanticIndex)
return data_view.get()
@minSemanticIndex.setter
def minSemanticIndex(self, value):
data_view = og.AttributeValueHelper(self._attributes.minSemanticIndex)
data_view.set(value)
@property
def numInstances(self):
data_view = og.AttributeValueHelper(self._attributes.numInstances)
return data_view.get()
@numInstances.setter
def numInstances(self, value):
data_view = og.AttributeValueHelper(self._attributes.numInstances)
data_view.set(value)
@property
def numSemantics(self):
data_view = og.AttributeValueHelper(self._attributes.numSemantics)
return data_view.get()
@numSemantics.setter
def numSemantics(self, value):
data_view = og.AttributeValueHelper(self._attributes.numSemantics)
data_view.set(value)
@property
def semanticLabelTokenPtrs(self):
data_view = og.AttributeValueHelper(self._attributes.semanticLabelTokenPtrs)
return data_view.get(reserved_element_count=self.semanticLabelTokenPtrs_size)
@semanticLabelTokenPtrs.setter
def semanticLabelTokenPtrs(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticLabelTokenPtrs)
data_view.set(value)
self.semanticLabelTokenPtrs_size = data_view.get_array_size()
@property
def semanticLocalTransformPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticLocalTransformPtr)
return data_view.get()
@semanticLocalTransformPtr.setter
def semanticLocalTransformPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticLocalTransformPtr)
data_view.set(value)
@property
def semanticMapPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticMapPtr)
return data_view.get()
@semanticMapPtr.setter
def semanticMapPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticMapPtr)
data_view.set(value)
@property
def semanticPrimPathPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticPrimPathPtr)
return data_view.get()
@semanticPrimPathPtr.setter
def semanticPrimPathPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticPrimPathPtr)
data_view.set(value)
@property
def semanticWorldTransformPtr(self):
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformPtr)
return data_view.get()
@semanticWorldTransformPtr.setter
def semanticWorldTransformPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.semanticWorldTransformPtr)
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 = OgnSdInstanceMappingPtrDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdInstanceMappingPtrDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdInstanceMappingPtrDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdSemanticFilterDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdSemanticFilter
Synthetic Data node to declare a semantic filter.
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdSemanticFilterDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdSemanticFilter
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.hierarchicalLabels
inputs.matchingLabels
inputs.name
inputs.predicate
Outputs:
outputs.exec
outputs.name
outputs.predicate
"""
# 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:exec', 'execution', 0, None, 'Dependency', {}, True, None, False, ''),
('inputs:hierarchicalLabels', 'bool', 0, None, 'If true the filter consider all labels in the semantic hierarchy above the prims', {ogn.MetadataKeys.DEFAULT: 'false'}, True, False, False, ''),
('inputs:matchingLabels', 'bool', 0, None, 'If true output only the labels matching the filter (if false keep all labels of the matching prims)', {ogn.MetadataKeys.DEFAULT: 'true'}, True, True, False, ''),
('inputs:name', 'token', 0, None, 'Filter unique identifier [if empty, use the normalized predicate as an identifier]', {ogn.MetadataKeys.DEFAULT: '""'}, True, "", False, ''),
('inputs:predicate', 'token', 0, None, 'The semantic filter specification : a disjunctive normal form of semantic type and label', {ogn.MetadataKeys.DEFAULT: '""'}, True, "", False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:name', 'token', 0, None, 'The semantic filter name identifier', {ogn.MetadataKeys.DEFAULT: '""'}, True, "", False, ''),
('outputs:predicate', 'token', 0, None, 'The semantic filter predicate in normalized form', {ogn.MetadataKeys.DEFAULT: '""'}, True, "", 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def hierarchicalLabels(self):
data_view = og.AttributeValueHelper(self._attributes.hierarchicalLabels)
return data_view.get()
@hierarchicalLabels.setter
def hierarchicalLabels(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.hierarchicalLabels)
data_view = og.AttributeValueHelper(self._attributes.hierarchicalLabels)
data_view.set(value)
@property
def matchingLabels(self):
data_view = og.AttributeValueHelper(self._attributes.matchingLabels)
return data_view.get()
@matchingLabels.setter
def matchingLabels(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.matchingLabels)
data_view = og.AttributeValueHelper(self._attributes.matchingLabels)
data_view.set(value)
@property
def name(self):
data_view = og.AttributeValueHelper(self._attributes.name)
return data_view.get()
@name.setter
def name(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.name)
data_view = og.AttributeValueHelper(self._attributes.name)
data_view.set(value)
@property
def predicate(self):
data_view = og.AttributeValueHelper(self._attributes.predicate)
return data_view.get()
@predicate.setter
def predicate(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.predicate)
data_view = og.AttributeValueHelper(self._attributes.predicate)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def name(self):
data_view = og.AttributeValueHelper(self._attributes.name)
return data_view.get()
@name.setter
def name(self, value):
data_view = og.AttributeValueHelper(self._attributes.name)
data_view.set(value)
@property
def predicate(self):
data_view = og.AttributeValueHelper(self._attributes.predicate)
return data_view.get()
@predicate.setter
def predicate(self, value):
data_view = og.AttributeValueHelper(self._attributes.predicate)
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 = OgnSdSemanticFilterDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdSemanticFilterDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdSemanticFilterDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdPostRenderVarToHostDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdPostRenderVarToHost
Expose a host renderVar from the input device renderVar.
"""
import omni.graph.core as og
import omni.graph.core._omni_graph_core as _og
import omni.graph.tools.ogn as ogn
class OgnSdPostRenderVarToHostDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdPostRenderVarToHost
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.gpu
inputs.renderVar
inputs.renderVarHostSuffix
inputs.rp
Outputs:
outputs.exec
outputs.renderVar
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:gpu', 'uint64', 0, None, 'Pointer to shared context containing gpu foundations', {}, True, 0, False, ''),
('inputs:renderVar', 'token', 0, None, 'Name of the device renderVar to expose on the host', {}, True, "", False, ''),
('inputs:renderVarHostSuffix', 'string', 0, None, 'Suffix appended to the renderVar name', {ogn.MetadataKeys.DEFAULT: '"host"'}, True, "host", False, ''),
('inputs:rp', 'uint64', 0, None, 'Pointer to render product for this view', {}, True, 0, False, ''),
('outputs:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('outputs:renderVar', 'token', 0, None, 'Name of the resulting renderVar on the host', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.inputs.renderVarHostSuffix = og.AttributeRole.TEXT
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def gpu(self):
data_view = og.AttributeValueHelper(self._attributes.gpu)
return data_view.get()
@gpu.setter
def gpu(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.gpu)
data_view = og.AttributeValueHelper(self._attributes.gpu)
data_view.set(value)
@property
def renderVar(self):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
return data_view.get()
@renderVar.setter
def renderVar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVar)
data_view = og.AttributeValueHelper(self._attributes.renderVar)
data_view.set(value)
@property
def renderVarHostSuffix(self):
data_view = og.AttributeValueHelper(self._attributes.renderVarHostSuffix)
return data_view.get()
@renderVarHostSuffix.setter
def renderVarHostSuffix(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVarHostSuffix)
data_view = og.AttributeValueHelper(self._attributes.renderVarHostSuffix)
data_view.set(value)
self.renderVarHostSuffix_size = data_view.get_array_size()
@property
def rp(self):
data_view = og.AttributeValueHelper(self._attributes.rp)
return data_view.get()
@rp.setter
def rp(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.rp)
data_view = og.AttributeValueHelper(self._attributes.rp)
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def renderVar(self):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
return data_view.get()
@renderVar.setter
def renderVar(self, value):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
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 = OgnSdPostRenderVarToHostDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdPostRenderVarToHostDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdPostRenderVarToHostDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/OgnSdRenderVarPtrDatabase.py | """Support for simplified access to data on nodes of type omni.syntheticdata.SdRenderVarPtr
Synthetic Data node exposing the raw pointer data of a rendervar.
"""
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 OgnSdRenderVarPtrDatabase(og.Database):
"""Helper class providing simplified access to data on nodes of type omni.syntheticdata.SdRenderVarPtr
Class Members:
node: Node being evaluated
Attribute Value Properties:
Inputs:
inputs.exec
inputs.renderResults
inputs.renderVar
Outputs:
outputs.bufferSize
outputs.cudaDeviceIndex
outputs.dataPtr
outputs.exec
outputs.format
outputs.height
outputs.strides
outputs.width
"""
# 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:exec', 'execution', 0, None, 'Trigger', {}, True, None, False, ''),
('inputs:renderResults', 'uint64', 0, None, 'Render results pointer', {}, True, 0, False, ''),
('inputs:renderVar', 'token', 0, None, 'Name of the renderVar', {}, True, "", False, ''),
('outputs:bufferSize', 'uint64', 0, None, 'Size (in bytes) of the buffer (0 if the input is a texture)', {}, True, None, False, ''),
('outputs:cudaDeviceIndex', 'int', 0, None, 'Index of the device where the data lives (-1 for host data)', {ogn.MetadataKeys.DEFAULT: '-1'}, True, -1, False, ''),
('outputs:dataPtr', 'uint64', 0, None, 'Pointer to the raw data (cuda device pointer or host pointer)', {ogn.MetadataKeys.DEFAULT: '0'}, True, 0, False, ''),
('outputs:exec', 'execution', 0, 'Received', 'Executes when the event is received', {}, True, None, False, ''),
('outputs:format', 'uint64', 0, None, 'Format', {}, True, None, False, ''),
('outputs:height', 'uint', 0, None, 'Height (0 if the input is a buffer)', {}, True, None, False, ''),
('outputs:strides', 'int2', 0, None, 'Strides (in bytes) ([0,0] if the input is a buffer)', {}, True, None, False, ''),
('outputs:width', 'uint', 0, None, 'Width (0 if the input is a buffer)', {}, 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.exec = og.AttributeRole.EXECUTION
role_data.outputs.exec = og.AttributeRole.EXECUTION
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 exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.exec)
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def renderResults(self):
data_view = og.AttributeValueHelper(self._attributes.renderResults)
return data_view.get()
@renderResults.setter
def renderResults(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderResults)
data_view = og.AttributeValueHelper(self._attributes.renderResults)
data_view.set(value)
@property
def renderVar(self):
data_view = og.AttributeValueHelper(self._attributes.renderVar)
return data_view.get()
@renderVar.setter
def renderVar(self, value):
if self._setting_locked:
raise og.ReadOnlyError(self._attributes.renderVar)
data_view = og.AttributeValueHelper(self._attributes.renderVar)
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 bufferSize(self):
data_view = og.AttributeValueHelper(self._attributes.bufferSize)
return data_view.get()
@bufferSize.setter
def bufferSize(self, value):
data_view = og.AttributeValueHelper(self._attributes.bufferSize)
data_view.set(value)
@property
def cudaDeviceIndex(self):
data_view = og.AttributeValueHelper(self._attributes.cudaDeviceIndex)
return data_view.get()
@cudaDeviceIndex.setter
def cudaDeviceIndex(self, value):
data_view = og.AttributeValueHelper(self._attributes.cudaDeviceIndex)
data_view.set(value)
@property
def dataPtr(self):
data_view = og.AttributeValueHelper(self._attributes.dataPtr)
return data_view.get()
@dataPtr.setter
def dataPtr(self, value):
data_view = og.AttributeValueHelper(self._attributes.dataPtr)
data_view.set(value)
@property
def exec(self):
data_view = og.AttributeValueHelper(self._attributes.exec)
return data_view.get()
@exec.setter
def exec(self, value):
data_view = og.AttributeValueHelper(self._attributes.exec)
data_view.set(value)
@property
def format(self):
data_view = og.AttributeValueHelper(self._attributes.format)
return data_view.get()
@format.setter
def format(self, value):
data_view = og.AttributeValueHelper(self._attributes.format)
data_view.set(value)
@property
def height(self):
data_view = og.AttributeValueHelper(self._attributes.height)
return data_view.get()
@height.setter
def height(self, value):
data_view = og.AttributeValueHelper(self._attributes.height)
data_view.set(value)
@property
def strides(self):
data_view = og.AttributeValueHelper(self._attributes.strides)
return data_view.get()
@strides.setter
def strides(self, value):
data_view = og.AttributeValueHelper(self._attributes.strides)
data_view.set(value)
@property
def width(self):
data_view = og.AttributeValueHelper(self._attributes.width)
return data_view.get()
@width.setter
def width(self, value):
data_view = og.AttributeValueHelper(self._attributes.width)
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 = OgnSdRenderVarPtrDatabase.ValuesForInputs(node, self.attributes.inputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_OUTPUT)
self.outputs = OgnSdRenderVarPtrDatabase.ValuesForOutputs(node, self.attributes.outputs, dynamic_attributes)
dynamic_attributes = self.dynamic_attribute_data(node, og.AttributePortType.ATTRIBUTE_PORT_TYPE_STATE)
self.state = OgnSdRenderVarPtrDatabase.ValuesForState(node, self.attributes.state, dynamic_attributes)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/python/nodes/OgnSdTestPrintRawArray.py | # Copyright (c) 2021-2022, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.graph.core as og
import numpy as np
import random
class OgnSdTestPrintRawArray:
@staticmethod
def get_formatted_data(db, data, element_count):
formatted_data = data.copy()
is2DArray = db.inputs.bufferSize == 0
if not is2DArray:
data = data.reshape(data.shape[0] // element_count, element_count) if element_count > 1 else data
else:
data = (
data.reshape(db.inputs.height, db.inputs.width, element_count)
if element_count > 1
else data.reshape(db.inputs.height, db.inputs.width)
)
return formatted_data
@staticmethod
def compute(db) -> bool:
if db.state.initialSWHFrameNumber < 0:
db.state.initialSWHFrameNumber = db.inputs.swhFrameNumber
frameNumber = db.inputs.swhFrameNumber - db.state.initialSWHFrameNumber
rd_seed = db.inputs.randomSeed + ((frameNumber * 17) % 491)
random.seed(rd_seed)
db.outputs.swhFrameNumber = db.inputs.swhFrameNumber
db.outputs.exec = og.ExecutionAttributeState.ENABLED
elemenType = np.uint8
if db.inputs.elementType == db.tokens.uint16:
elemenType = np.uint16
elif db.inputs.elementType == db.tokens.int16:
elemenType = np.int16
elif db.inputs.elementType == db.tokens.uint32:
elemenType = np.uint32
elif db.inputs.elementType == db.tokens.int32:
elemenType = np.int32
elif db.inputs.elementType == db.tokens.float32:
elemenType = np.float32
elif db.inputs.elementType == db.tokens.token:
elemenType = np.uint64
elementCount = db.inputs.elementCount
data = db.inputs.data
data = data.view(elemenType)
if db.inputs.mode == db.tokens.printFormatted:
data = OgnSdTestPrintRawArray.get_formatted_data(db,data, elementCount)
print("OgnSdPrintRawArray : ", db.inputs.swhFrameNumber)
print(data)
elif db.inputs.mode == db.tokens.writeToDisk:
data = OgnSdTestPrintRawArray.get_formatted_data(db,data, elementCount)
np.save(f"{db.inputs.dataFileBaseName}_{db.inputs.swhFrameNumber}", data)
elif (frameNumber in db.inputs.referenceSWHFrameNumbers) and (data.shape[0]>=db.inputs.referenceNumUniqueRandomValues):
if (db.inputs.mode == db.tokens.printReferences):
ref_values = data.astype(np.float32)
random.shuffle(ref_values)
ref_values = ref_values[:db.inputs.referenceNumUniqueRandomValues]
print(ref_values)
else:
ref_values = data.astype(np.float32)
random.shuffle(ref_values)
ref_values = ref_values[:db.inputs.referenceNumUniqueRandomValues]
frame_offset = np.where(db.inputs.referenceSWHFrameNumbers == frameNumber)[0][0]
reference_offset = frame_offset * db.inputs.referenceNumUniqueRandomValues
err = np.square(ref_values - db.inputs.referenceValues[reference_offset:reference_offset+db.inputs.referenceNumUniqueRandomValues]).max()
if err >= db.inputs.referenceTolerance:
print(f"OgnSdTestPrintRawArray [Error]")
return True
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/python/nodes/OgnSdTestStageManipulationScenarii.py | # Copyright (c) 2021-2022, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
import omni.usd
import omni.graph.core as og
from pxr import Gf, Semantics, UsdGeom
import numpy as np
class OgnSdTestStageManipulationScenarii:
_prim_names = ["Sphere", "Capsule", "Plane", "Torus", "Cube", "Cone"]
_sem_types = ["type", "class", "genre"]
_sem_labels = ["sphere", "capsule", "plane", "torus", "cube", "ball", "cone"]
@staticmethod
def add_semantics(prim, semantic_label, semantic_type="class"):
sem = Semantics.SemanticsAPI.Apply(prim, "Semantics")
sem.CreateSemanticTypeAttr()
sem.CreateSemanticDataAttr()
sem.GetSemanticTypeAttr().Set(semantic_type)
sem.GetSemanticDataAttr().Set(semantic_label)
@staticmethod
def get_random_transform(rng):
tf = np.eye(4)
tf[:3, :3] = Gf.Matrix3d(Gf.Rotation(rng.rand(3).tolist(), rng.rand(3).tolist()))
tf[3, :3] = rng.rand(3).tolist()
return Gf.Matrix4d(tf)
@staticmethod
def compute(db) -> bool:
usd_context = omni.usd.get_context()
stage = usd_context.get_stage()
if not stage:
return False
rng = np.random.default_rng(db.inputs.randomSeed + ((db.state.frameNumber * 23) % 1579))
world_prim = stage.GetPrimAtPath(db.inputs.worldPrimPath)
if not world_prim:
world_prim = stage.DefinePrim(db.inputs.worldPrimPath)
if world_prim:
world_xform_prim = UsdGeom.Xformable(world_prim) if world_prim else None
if world_xform_prim:
world_xform_prim.AddTransformOp().Set(OgnSdTestStageManipulationScenarii.get_random_transform(rng))
if not world_prim:
return False
db.state.frameNumber += 1
num_manipulations = rng.randint(0, 3)
for manip_index in range(num_manipulations):
prims = world_prim.GetChildren()
prims.append(world_prim)
prim = rng.choice(prims)
if not prim :
continue
manipulation = rng.randint(0, 38)
if (manipulation < 11):
"""create a new children prim"""
prim_name = rng.choice(OgnSdTestStageManipulationScenarii._prim_names)
prim_path = prim.GetPath().pathString + "/" + prim_name + "_" + str(db.state.frameNumber) + "_" + str(manip_index)
new_prim = stage.DefinePrim(prim_path, prim_name)
new_prim_color_attr = new_prim.GetAttribute("primvars:displayColor") if new_prim else None
if new_prim_color_attr:
new_prim_color_attr.Set([rng.rand(3).tolist()])
xform_prim = UsdGeom.Xformable(new_prim) if new_prim else None
if xform_prim:
xform_prim.AddScaleOp().Set((175.0*rng.random(), 175.0*rng.random(), 175.0*rng.random()))
xform_prim.AddTransformOp().Set(OgnSdTestStageManipulationScenarii.get_random_transform(rng))
elif (manipulation >= 11) and (manipulation <12):
"""remove the prim"""
stage.RemovePrim(prim.GetPath())
elif (manipulation >=12) and (manipulation <23):
"""move the prim"""
xform_prim = UsdGeom.Xformable(prim)
if xform_prim:
xform_prim.ClearXformOpOrder()
xform_prim.AddTransformOp().Set(OgnSdTestStageManipulationScenarii.get_random_transform(rng))
elif (manipulation >=23) and (manipulation < 31):
"""add semantic to the prim"""
OgnSdTestStageManipulationScenarii.add_semantics(prim, rng.choice(OgnSdTestStageManipulationScenarii._sem_labels), rng.choice(OgnSdTestStageManipulationScenarii._sem_types))
elif (manipulation >=31) and (manipulation < 39):
"""change color of the prim"""
prim_color_attr = prim.GetAttribute("primvars:displayColor")
if prim_color_attr:
prim_color_attr.Set([rng.rand(3).tolist()])
return True
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/python/nodes/OgnSdTestPrintRawArray.ogn | {
"SdTestPrintRawArray": {
"version": 1,
"description": [ "Synthetic Data test node printing the input linear array" ],
"categories": ["graph:action","internal:test"],
"language": "Python",
"state": {
"initialSWHFrameNumber": {
"type": "int64",
"description": "Initial swhFrameNumber",
"default": -1
}
},
"inputs": {
"mode": {
"type" : "token",
"description" : "Mode in [printFormatted, printReferences, testReferences]",
"default" : "printFormatted"
},
"exec": {
"type": "execution",
"description": "Trigger"
},
"randomSeed": {
"type": "int",
"description": "Random seed"
},
"swhFrameNumber": {
"type": "uint64",
"description": "Frame number"
},
"data": {
"type": "uchar[]",
"description": "Buffer array data",
"default": []
},
"width": {
"type": "uint",
"description": "Width (0 if the input is a buffer)"
},
"height": {
"type": "uint",
"description": "Height (0 if the input is a buffer)"
},
"bufferSize": {
"type": "uint",
"description": "Size (in bytes) of the buffer (0 if the input is a texture)"
},
"elementType": {
"type": "token",
"description": "Type of the array element",
"default": "uint8"
},
"elementCount": {
"type": "int",
"description": "Number of array element",
"default": 1
},
"referenceTolerance": {
"type": "float",
"description": "Reference tolerance",
"default": 0.1
},
"referenceSWHFrameNumbers": {
"type": "uint[]",
"description": "Reference swhFrameNumbers relative to the first one",
"default": [11,17,29]
},
"referenceNumUniqueRandomValues": {
"type": "int",
"description" : "Number of reference unique random values to compare",
"default" : 7
},
"referenceValues": {
"type": "float[]",
"description": "Reference data point values"
},
"dataFileBaseName": {
"type": "token",
"description": "Basename of the output npy file",
"default": "/tmp/sdTestRawArray"
}
},
"outputs": {
"exec": {
"type": "execution",
"description": "Executes when the event is received",
"uiName": "Received"
},
"swhFrameNumber": {
"type": "uint64",
"description": "FrameNumber just rendered"
}
},
"tokens": [
"uint16",
"int16",
"uint32",
"int32",
"float32",
"token",
"printFormatted",
"printReferences",
"writeToDisk"
],
"exclude": [
"tests"
]
}
} |
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/python/nodes/OgnSdTestStageManipulationScenarii.ogn | {
"SdTestStageManipulationScenarii": {
"version": 1,
"description": [
"Synthetic Data test node applying randomly some predefined stage manipulation scenarii"
],
"categories": [
"graph:simulation",
"internal:test"
],
"language": "Python",
"state": {
"frameNumber": {
"type": "uint64",
"description": "Current frameNumber (number of invocations)",
"default": 0
}
},
"inputs": {
"randomSeed": {
"type": "int",
"description": "Random seed"
},
"worldPrimPath": {
"type": "token",
"description": "Path of the world prim : contains every modifiable prim, cannot be modified"
}
},
"exclude": [
"tests"
]
}
} |
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdRenderProductCamera.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdRenderProductCameraDatabase import OgnSdRenderProductCameraDatabase
test_file_name = "OgnSdRenderProductCameraTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdRenderProductCamera")
database = OgnSdRenderProductCameraDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 2)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderProductPath"))
attribute = test_node.get_attribute("inputs:renderProductPath")
db_value = database.inputs.renderProductPath
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderResults"))
attribute = test_node.get_attribute("inputs:renderResults")
db_value = database.inputs.renderResults
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:cameraApertureOffset"))
attribute = test_node.get_attribute("outputs:cameraApertureOffset")
db_value = database.outputs.cameraApertureOffset
self.assertTrue(test_node.get_attribute_exists("outputs:cameraApertureSize"))
attribute = test_node.get_attribute("outputs:cameraApertureSize")
db_value = database.outputs.cameraApertureSize
self.assertTrue(test_node.get_attribute_exists("outputs:cameraFStop"))
attribute = test_node.get_attribute("outputs:cameraFStop")
db_value = database.outputs.cameraFStop
self.assertTrue(test_node.get_attribute_exists("outputs:cameraFisheyeParams"))
attribute = test_node.get_attribute("outputs:cameraFisheyeParams")
db_value = database.outputs.cameraFisheyeParams
self.assertTrue(test_node.get_attribute_exists("outputs:cameraFocalLength"))
attribute = test_node.get_attribute("outputs:cameraFocalLength")
db_value = database.outputs.cameraFocalLength
self.assertTrue(test_node.get_attribute_exists("outputs:cameraFocusDistance"))
attribute = test_node.get_attribute("outputs:cameraFocusDistance")
db_value = database.outputs.cameraFocusDistance
self.assertTrue(test_node.get_attribute_exists("outputs:cameraModel"))
attribute = test_node.get_attribute("outputs:cameraModel")
db_value = database.outputs.cameraModel
self.assertTrue(test_node.get_attribute_exists("outputs:cameraNearFar"))
attribute = test_node.get_attribute("outputs:cameraNearFar")
db_value = database.outputs.cameraNearFar
self.assertTrue(test_node.get_attribute_exists("outputs:cameraProjection"))
attribute = test_node.get_attribute("outputs:cameraProjection")
db_value = database.outputs.cameraProjection
self.assertTrue(test_node.get_attribute_exists("outputs:cameraViewTransform"))
attribute = test_node.get_attribute("outputs:cameraViewTransform")
db_value = database.outputs.cameraViewTransform
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:metersPerSceneUnit"))
attribute = test_node.get_attribute("outputs:metersPerSceneUnit")
db_value = database.outputs.metersPerSceneUnit
self.assertTrue(test_node.get_attribute_exists("outputs:renderProductResolution"))
attribute = test_node.get_attribute("outputs:renderProductResolution")
db_value = database.outputs.renderProductResolution
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdPostRenderVarTextureToBuffer.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdPostRenderVarTextureToBufferDatabase import OgnSdPostRenderVarTextureToBufferDatabase
test_file_name = "OgnSdPostRenderVarTextureToBufferTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdPostRenderVarTextureToBuffer")
database = OgnSdPostRenderVarTextureToBufferDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderVar"))
attribute = test_node.get_attribute("inputs:renderVar")
db_value = database.inputs.renderVar
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderVarBufferSuffix"))
attribute = test_node.get_attribute("inputs:renderVarBufferSuffix")
db_value = database.inputs.renderVarBufferSuffix
expected_value = "buffer"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:rp"))
attribute = test_node.get_attribute("inputs:rp")
db_value = database.inputs.rp
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:renderVar"))
attribute = test_node.get_attribute("outputs:renderVar")
db_value = database.outputs.renderVar
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdPostSemantic3dBoundingBoxCameraProjection.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdPostSemantic3dBoundingBoxCameraProjectionDatabase import OgnSdPostSemantic3dBoundingBoxCameraProjectionDatabase
test_file_name = "OgnSdPostSemantic3dBoundingBoxCameraProjectionTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdPostSemantic3dBoundingBoxCameraProjection")
database = OgnSdPostSemantic3dBoundingBoxCameraProjectionDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:cameraFisheyeParams"))
attribute = test_node.get_attribute("inputs:cameraFisheyeParams")
db_value = database.inputs.cameraFisheyeParams
expected_value = []
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:cameraModel"))
attribute = test_node.get_attribute("inputs:cameraModel")
db_value = database.inputs.cameraModel
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:cameraNearFar"))
attribute = test_node.get_attribute("inputs:cameraNearFar")
db_value = database.inputs.cameraNearFar
expected_value = [1.0, 10000000.0]
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:instanceMappingInfoSDPtr"))
attribute = test_node.get_attribute("inputs:instanceMappingInfoSDPtr")
db_value = database.inputs.instanceMappingInfoSDPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:metersPerSceneUnit"))
attribute = test_node.get_attribute("inputs:metersPerSceneUnit")
db_value = database.inputs.metersPerSceneUnit
expected_value = 0.01
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderProductResolution"))
attribute = test_node.get_attribute("inputs:renderProductResolution")
db_value = database.inputs.renderProductResolution
expected_value = [65536, 65536]
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:rp"))
attribute = test_node.get_attribute("inputs:rp")
db_value = database.inputs.rp
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdSemBBoxExtentCudaPtr"))
attribute = test_node.get_attribute("inputs:sdSemBBoxExtentCudaPtr")
db_value = database.inputs.sdSemBBoxExtentCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdSemBBoxInfosCudaPtr"))
attribute = test_node.get_attribute("inputs:sdSemBBoxInfosCudaPtr")
db_value = database.inputs.sdSemBBoxInfosCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticWorldTransformSDCudaPtr"))
attribute = test_node.get_attribute("inputs:semanticWorldTransformSDCudaPtr")
db_value = database.inputs.semanticWorldTransformSDCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:sdSemBBox3dCamCornersCudaPtr"))
attribute = test_node.get_attribute("outputs:sdSemBBox3dCamCornersCudaPtr")
db_value = database.outputs.sdSemBBox3dCamCornersCudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:sdSemBBox3dCamExtentCudaPtr"))
attribute = test_node.get_attribute("outputs:sdSemBBox3dCamExtentCudaPtr")
db_value = database.outputs.sdSemBBox3dCamExtentCudaPtr
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdSimRenderProductCamera.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdSimRenderProductCameraDatabase import OgnSdSimRenderProductCameraDatabase
test_file_name = "OgnSdSimRenderProductCameraTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdSimRenderProductCamera")
database = OgnSdSimRenderProductCameraDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:renderProductPath"))
attribute = test_node.get_attribute("inputs:renderProductPath")
db_value = database.inputs.renderProductPath
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdOnNewFrame.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdOnNewFrameDatabase import OgnSdOnNewFrameDatabase
test_file_name = "OgnSdOnNewFrameTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdOnNewFrame")
database = OgnSdOnNewFrameDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("outputs:cudaStream"))
attribute = test_node.get_attribute("outputs:cudaStream")
db_value = database.outputs.cudaStream
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:referenceTimeDenominator"))
attribute = test_node.get_attribute("outputs:referenceTimeDenominator")
db_value = database.outputs.referenceTimeDenominator
self.assertTrue(test_node.get_attribute_exists("outputs:referenceTimeNumerator"))
attribute = test_node.get_attribute("outputs:referenceTimeNumerator")
db_value = database.outputs.referenceTimeNumerator
self.assertTrue(test_node.get_attribute_exists("outputs:renderProductDataPtrs"))
attribute = test_node.get_attribute("outputs:renderProductDataPtrs")
db_value = database.outputs.renderProductDataPtrs
self.assertTrue(test_node.get_attribute_exists("outputs:renderProductPaths"))
attribute = test_node.get_attribute("outputs:renderProductPaths")
db_value = database.outputs.renderProductPaths
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdPostInstanceMapping.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdPostInstanceMappingDatabase import OgnSdPostInstanceMappingDatabase
test_file_name = "OgnSdPostInstanceMappingTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdPostInstanceMapping")
database = OgnSdPostInstanceMappingDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 2)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:rp"))
attribute = test_node.get_attribute("inputs:rp")
db_value = database.inputs.rp
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticFilterName"))
attribute = test_node.get_attribute("inputs:semanticFilterName")
db_value = database.inputs.semanticFilterName
expected_value = "default"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:instanceMapSDCudaPtr"))
attribute = test_node.get_attribute("outputs:instanceMapSDCudaPtr")
db_value = database.outputs.instanceMapSDCudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:instanceMappingInfoSDPtr"))
attribute = test_node.get_attribute("outputs:instanceMappingInfoSDPtr")
db_value = database.outputs.instanceMappingInfoSDPtr
self.assertTrue(test_node.get_attribute_exists("outputs:instancePrimTokenSDCudaPtr"))
attribute = test_node.get_attribute("outputs:instancePrimTokenSDCudaPtr")
db_value = database.outputs.instancePrimTokenSDCudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:lastUpdateTimeDenominator"))
attribute = test_node.get_attribute("outputs:lastUpdateTimeDenominator")
db_value = database.outputs.lastUpdateTimeDenominator
self.assertTrue(test_node.get_attribute_exists("outputs:lastUpdateTimeNumerator"))
attribute = test_node.get_attribute("outputs:lastUpdateTimeNumerator")
db_value = database.outputs.lastUpdateTimeNumerator
self.assertTrue(test_node.get_attribute_exists("outputs:semanticLabelTokenSDCudaPtr"))
attribute = test_node.get_attribute("outputs:semanticLabelTokenSDCudaPtr")
db_value = database.outputs.semanticLabelTokenSDCudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:semanticLocalTransformSDCudaPtr"))
attribute = test_node.get_attribute("outputs:semanticLocalTransformSDCudaPtr")
db_value = database.outputs.semanticLocalTransformSDCudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:semanticMapSDCudaPtr"))
attribute = test_node.get_attribute("outputs:semanticMapSDCudaPtr")
db_value = database.outputs.semanticMapSDCudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:semanticPrimTokenSDCudaPtr"))
attribute = test_node.get_attribute("outputs:semanticPrimTokenSDCudaPtr")
db_value = database.outputs.semanticPrimTokenSDCudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:semanticWorldTransformSDCudaPtr"))
attribute = test_node.get_attribute("outputs:semanticWorldTransformSDCudaPtr")
db_value = database.outputs.semanticWorldTransformSDCudaPtr
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdSimInstanceMapping.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdSimInstanceMappingDatabase import OgnSdSimInstanceMappingDatabase
test_file_name = "OgnSdSimInstanceMappingTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdSimInstanceMapping")
database = OgnSdSimInstanceMappingDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:needTransform"))
attribute = test_node.get_attribute("inputs:needTransform")
db_value = database.inputs.needTransform
expected_value = True
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticFilterPredicate"))
attribute = test_node.get_attribute("inputs:semanticFilterPredicate")
db_value = database.inputs.semanticFilterPredicate
expected_value = "*:*"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:semanticFilterPredicate"))
attribute = test_node.get_attribute("outputs:semanticFilterPredicate")
db_value = database.outputs.semanticFilterPredicate
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdNoOp.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdNoOpDatabase import OgnSdNoOpDatabase
test_file_name = "OgnSdNoOpTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdNoOp")
database = OgnSdNoOpDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdInstanceMapping.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdInstanceMappingDatabase import OgnSdInstanceMappingDatabase
test_file_name = "OgnSdInstanceMappingTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdInstanceMapping")
database = OgnSdInstanceMappingDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 2)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:lazy"))
attribute = test_node.get_attribute("inputs:lazy")
db_value = database.inputs.lazy
expected_value = True
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderResults"))
attribute = test_node.get_attribute("inputs:renderResults")
db_value = database.inputs.renderResults
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMInstanceSemanticMap"))
attribute = test_node.get_attribute("outputs:sdIMInstanceSemanticMap")
db_value = database.outputs.sdIMInstanceSemanticMap
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMInstanceTokens"))
attribute = test_node.get_attribute("outputs:sdIMInstanceTokens")
db_value = database.outputs.sdIMInstanceTokens
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMLastUpdateTimeDenominator"))
attribute = test_node.get_attribute("outputs:sdIMLastUpdateTimeDenominator")
db_value = database.outputs.sdIMLastUpdateTimeDenominator
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMLastUpdateTimeNumerator"))
attribute = test_node.get_attribute("outputs:sdIMLastUpdateTimeNumerator")
db_value = database.outputs.sdIMLastUpdateTimeNumerator
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMMaxSemanticHierarchyDepth"))
attribute = test_node.get_attribute("outputs:sdIMMaxSemanticHierarchyDepth")
db_value = database.outputs.sdIMMaxSemanticHierarchyDepth
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMMinInstanceIndex"))
attribute = test_node.get_attribute("outputs:sdIMMinInstanceIndex")
db_value = database.outputs.sdIMMinInstanceIndex
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMMinSemanticIndex"))
attribute = test_node.get_attribute("outputs:sdIMMinSemanticIndex")
db_value = database.outputs.sdIMMinSemanticIndex
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMNumInstances"))
attribute = test_node.get_attribute("outputs:sdIMNumInstances")
db_value = database.outputs.sdIMNumInstances
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMNumSemanticTokens"))
attribute = test_node.get_attribute("outputs:sdIMNumSemanticTokens")
db_value = database.outputs.sdIMNumSemanticTokens
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMNumSemantics"))
attribute = test_node.get_attribute("outputs:sdIMNumSemantics")
db_value = database.outputs.sdIMNumSemantics
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMSemanticLocalTransform"))
attribute = test_node.get_attribute("outputs:sdIMSemanticLocalTransform")
db_value = database.outputs.sdIMSemanticLocalTransform
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMSemanticTokenMap"))
attribute = test_node.get_attribute("outputs:sdIMSemanticTokenMap")
db_value = database.outputs.sdIMSemanticTokenMap
self.assertTrue(test_node.get_attribute_exists("outputs:sdIMSemanticWorldTransform"))
attribute = test_node.get_attribute("outputs:sdIMSemanticWorldTransform")
db_value = database.outputs.sdIMSemanticWorldTransform
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdUpdateSwhFrameNumber.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdUpdateSwhFrameNumberDatabase import OgnSdUpdateSwhFrameNumberDatabase
test_file_name = "OgnSdUpdateSwhFrameNumberTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdUpdateSwFrameNumber")
database = OgnSdUpdateSwhFrameNumberDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:swhFrameNumber"))
attribute = test_node.get_attribute("outputs:swhFrameNumber")
db_value = database.outputs.swhFrameNumber
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/__init__.py | """====== GENERATED BY omni.graph.tools - DO NOT EDIT ======"""
import omni.graph.tools._internal as ogi
ogi.import_tests_in_directory(__file__, __name__)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdFrameIdentifier.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdFrameIdentifierDatabase import OgnSdFrameIdentifierDatabase
test_file_name = "OgnSdFrameIdentifierTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdFrameIdentifier")
database = OgnSdFrameIdentifierDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:renderResults"))
attribute = test_node.get_attribute("inputs:renderResults")
db_value = database.inputs.renderResults
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:durationDenominator"))
attribute = test_node.get_attribute("outputs:durationDenominator")
db_value = database.outputs.durationDenominator
self.assertTrue(test_node.get_attribute_exists("outputs:durationNumerator"))
attribute = test_node.get_attribute("outputs:durationNumerator")
db_value = database.outputs.durationNumerator
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:externalTimeOfSimNs"))
attribute = test_node.get_attribute("outputs:externalTimeOfSimNs")
db_value = database.outputs.externalTimeOfSimNs
self.assertTrue(test_node.get_attribute_exists("outputs:frameNumber"))
attribute = test_node.get_attribute("outputs:frameNumber")
db_value = database.outputs.frameNumber
self.assertTrue(test_node.get_attribute_exists("outputs:rationalTimeOfSimDenominator"))
attribute = test_node.get_attribute("outputs:rationalTimeOfSimDenominator")
db_value = database.outputs.rationalTimeOfSimDenominator
self.assertTrue(test_node.get_attribute_exists("outputs:rationalTimeOfSimNumerator"))
attribute = test_node.get_attribute("outputs:rationalTimeOfSimNumerator")
db_value = database.outputs.rationalTimeOfSimNumerator
self.assertTrue(test_node.get_attribute_exists("outputs:sampleTimeOffsetInSimFrames"))
attribute = test_node.get_attribute("outputs:sampleTimeOffsetInSimFrames")
db_value = database.outputs.sampleTimeOffsetInSimFrames
self.assertTrue(test_node.get_attribute_exists("outputs:type"))
attribute = test_node.get_attribute("outputs:type")
db_value = database.outputs.type
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdPostCompRenderVarTextures.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdPostCompRenderVarTexturesDatabase import OgnSdPostCompRenderVarTexturesDatabase
test_file_name = "OgnSdPostCompRenderVarTexturesTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdPostCompRenderVarTextures")
database = OgnSdPostCompRenderVarTexturesDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:cudaPtr"))
attribute = test_node.get_attribute("inputs:cudaPtr")
db_value = database.inputs.cudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:format"))
attribute = test_node.get_attribute("inputs:format")
db_value = database.inputs.format
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:height"))
attribute = test_node.get_attribute("inputs:height")
db_value = database.inputs.height
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:mode"))
attribute = test_node.get_attribute("inputs:mode")
db_value = database.inputs.mode
expected_value = "line"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:parameters"))
attribute = test_node.get_attribute("inputs:parameters")
db_value = database.inputs.parameters
expected_value = [0, 0, 0]
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderVar"))
attribute = test_node.get_attribute("inputs:renderVar")
db_value = database.inputs.renderVar
expected_value = "LdrColor"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:rp"))
attribute = test_node.get_attribute("inputs:rp")
db_value = database.inputs.rp
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:width"))
attribute = test_node.get_attribute("inputs:width")
db_value = database.inputs.width
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdRenderVarDisplayTexture.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdRenderVarDisplayTextureDatabase import OgnSdRenderVarDisplayTextureDatabase
test_file_name = "OgnSdRenderVarDisplayTextureTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdRenderVarDisplayTexture")
database = OgnSdRenderVarDisplayTextureDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 2)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:renderResults"))
attribute = test_node.get_attribute("inputs:renderResults")
db_value = database.inputs.renderResults
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderVarDisplay"))
attribute = test_node.get_attribute("inputs:renderVarDisplay")
db_value = database.inputs.renderVarDisplay
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:cudaPtr"))
attribute = test_node.get_attribute("outputs:cudaPtr")
db_value = database.outputs.cudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:format"))
attribute = test_node.get_attribute("outputs:format")
db_value = database.outputs.format
self.assertTrue(test_node.get_attribute_exists("outputs:height"))
attribute = test_node.get_attribute("outputs:height")
db_value = database.outputs.height
self.assertTrue(test_node.get_attribute_exists("outputs:referenceTimeDenominator"))
attribute = test_node.get_attribute("outputs:referenceTimeDenominator")
db_value = database.outputs.referenceTimeDenominator
self.assertTrue(test_node.get_attribute_exists("outputs:referenceTimeNumerator"))
attribute = test_node.get_attribute("outputs:referenceTimeNumerator")
db_value = database.outputs.referenceTimeNumerator
self.assertTrue(test_node.get_attribute_exists("outputs:rpResourcePtr"))
attribute = test_node.get_attribute("outputs:rpResourcePtr")
db_value = database.outputs.rpResourcePtr
self.assertTrue(test_node.get_attribute_exists("outputs:width"))
attribute = test_node.get_attribute("outputs:width")
db_value = database.outputs.width
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdTestInstanceMapping.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdTestInstanceMappingDatabase import OgnSdTestInstanceMappingDatabase
test_file_name = "OgnSdTestInstanceMappingTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdTestInstanceMapping")
database = OgnSdTestInstanceMappingDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:instanceMapPtr"))
attribute = test_node.get_attribute("inputs:instanceMapPtr")
db_value = database.inputs.instanceMapPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:instancePrimPathPtr"))
attribute = test_node.get_attribute("inputs:instancePrimPathPtr")
db_value = database.inputs.instancePrimPathPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:minInstanceIndex"))
attribute = test_node.get_attribute("inputs:minInstanceIndex")
db_value = database.inputs.minInstanceIndex
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:minSemanticIndex"))
attribute = test_node.get_attribute("inputs:minSemanticIndex")
db_value = database.inputs.minSemanticIndex
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:numInstances"))
attribute = test_node.get_attribute("inputs:numInstances")
db_value = database.inputs.numInstances
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:numSemantics"))
attribute = test_node.get_attribute("inputs:numSemantics")
db_value = database.inputs.numSemantics
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticLabelTokenPtrs"))
attribute = test_node.get_attribute("inputs:semanticLabelTokenPtrs")
db_value = database.inputs.semanticLabelTokenPtrs
expected_value = []
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticLocalTransformPtr"))
attribute = test_node.get_attribute("inputs:semanticLocalTransformPtr")
db_value = database.inputs.semanticLocalTransformPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticMapPtr"))
attribute = test_node.get_attribute("inputs:semanticMapPtr")
db_value = database.inputs.semanticMapPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticPrimPathPtr"))
attribute = test_node.get_attribute("inputs:semanticPrimPathPtr")
db_value = database.inputs.semanticPrimPathPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticWorldTransformPtr"))
attribute = test_node.get_attribute("inputs:semanticWorldTransformPtr")
db_value = database.inputs.semanticWorldTransformPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:stage"))
attribute = test_node.get_attribute("inputs:stage")
db_value = database.inputs.stage
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:swhFrameNumber"))
attribute = test_node.get_attribute("inputs:swhFrameNumber")
db_value = database.inputs.swhFrameNumber
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:testCaseIndex"))
attribute = test_node.get_attribute("inputs:testCaseIndex")
db_value = database.inputs.testCaseIndex
expected_value = -1
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:semanticFilterPredicate"))
attribute = test_node.get_attribute("outputs:semanticFilterPredicate")
db_value = database.outputs.semanticFilterPredicate
self.assertTrue(test_node.get_attribute_exists("outputs:success"))
attribute = test_node.get_attribute("outputs:success")
db_value = database.outputs.success
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdPostSemantic3dBoundingBoxFilter.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdPostSemantic3dBoundingBoxFilterDatabase import OgnSdPostSemantic3dBoundingBoxFilterDatabase
test_file_name = "OgnSdPostSemantic3dBoundingBoxFilterTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdPostSemantic3dBoundingBoxFilter")
database = OgnSdPostSemantic3dBoundingBoxFilterDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:instanceMappingInfoSDPtr"))
attribute = test_node.get_attribute("inputs:instanceMappingInfoSDPtr")
db_value = database.inputs.instanceMappingInfoSDPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:metersPerSceneUnit"))
attribute = test_node.get_attribute("inputs:metersPerSceneUnit")
db_value = database.inputs.metersPerSceneUnit
expected_value = 0.01
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:rp"))
attribute = test_node.get_attribute("inputs:rp")
db_value = database.inputs.rp
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdSemBBox3dCamCornersCudaPtr"))
attribute = test_node.get_attribute("inputs:sdSemBBox3dCamCornersCudaPtr")
db_value = database.inputs.sdSemBBox3dCamCornersCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdSemBBoxInfosCudaPtr"))
attribute = test_node.get_attribute("inputs:sdSemBBoxInfosCudaPtr")
db_value = database.inputs.sdSemBBoxInfosCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:viewportNearFar"))
attribute = test_node.get_attribute("inputs:viewportNearFar")
db_value = database.inputs.viewportNearFar
expected_value = [0.0, -1.0]
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:sdSemBBoxInfosCudaPtr"))
attribute = test_node.get_attribute("outputs:sdSemBBoxInfosCudaPtr")
db_value = database.outputs.sdSemBBoxInfosCudaPtr
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdInstanceMappingPtr.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdInstanceMappingPtrDatabase import OgnSdInstanceMappingPtrDatabase
test_file_name = "OgnSdInstanceMappingPtrTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdInstanceMappingPtr")
database = OgnSdInstanceMappingPtrDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 2)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:cudaPtr"))
attribute = test_node.get_attribute("inputs:cudaPtr")
db_value = database.inputs.cudaPtr
expected_value = False
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:renderResults"))
attribute = test_node.get_attribute("inputs:renderResults")
db_value = database.inputs.renderResults
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticFilerTokens"))
attribute = test_node.get_attribute("inputs:semanticFilerTokens")
db_value = database.inputs.semanticFilerTokens
expected_value = []
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:cudaDeviceIndex"))
attribute = test_node.get_attribute("outputs:cudaDeviceIndex")
db_value = database.outputs.cudaDeviceIndex
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:instanceMapPtr"))
attribute = test_node.get_attribute("outputs:instanceMapPtr")
db_value = database.outputs.instanceMapPtr
self.assertTrue(test_node.get_attribute_exists("outputs:instancePrimPathPtr"))
attribute = test_node.get_attribute("outputs:instancePrimPathPtr")
db_value = database.outputs.instancePrimPathPtr
self.assertTrue(test_node.get_attribute_exists("outputs:lastUpdateTimeDenominator"))
attribute = test_node.get_attribute("outputs:lastUpdateTimeDenominator")
db_value = database.outputs.lastUpdateTimeDenominator
self.assertTrue(test_node.get_attribute_exists("outputs:lastUpdateTimeNumerator"))
attribute = test_node.get_attribute("outputs:lastUpdateTimeNumerator")
db_value = database.outputs.lastUpdateTimeNumerator
self.assertTrue(test_node.get_attribute_exists("outputs:minInstanceIndex"))
attribute = test_node.get_attribute("outputs:minInstanceIndex")
db_value = database.outputs.minInstanceIndex
self.assertTrue(test_node.get_attribute_exists("outputs:minSemanticIndex"))
attribute = test_node.get_attribute("outputs:minSemanticIndex")
db_value = database.outputs.minSemanticIndex
self.assertTrue(test_node.get_attribute_exists("outputs:numInstances"))
attribute = test_node.get_attribute("outputs:numInstances")
db_value = database.outputs.numInstances
self.assertTrue(test_node.get_attribute_exists("outputs:numSemantics"))
attribute = test_node.get_attribute("outputs:numSemantics")
db_value = database.outputs.numSemantics
self.assertTrue(test_node.get_attribute_exists("outputs:semanticLabelTokenPtrs"))
attribute = test_node.get_attribute("outputs:semanticLabelTokenPtrs")
db_value = database.outputs.semanticLabelTokenPtrs
self.assertTrue(test_node.get_attribute_exists("outputs:semanticLocalTransformPtr"))
attribute = test_node.get_attribute("outputs:semanticLocalTransformPtr")
db_value = database.outputs.semanticLocalTransformPtr
self.assertTrue(test_node.get_attribute_exists("outputs:semanticMapPtr"))
attribute = test_node.get_attribute("outputs:semanticMapPtr")
db_value = database.outputs.semanticMapPtr
self.assertTrue(test_node.get_attribute_exists("outputs:semanticPrimPathPtr"))
attribute = test_node.get_attribute("outputs:semanticPrimPathPtr")
db_value = database.outputs.semanticPrimPathPtr
self.assertTrue(test_node.get_attribute_exists("outputs:semanticWorldTransformPtr"))
attribute = test_node.get_attribute("outputs:semanticWorldTransformPtr")
db_value = database.outputs.semanticWorldTransformPtr
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdTestSimFabricTimeRange.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdTestSimFabricTimeRangeDatabase import OgnSdTestSimFabricTimeRangeDatabase
test_file_name = "OgnSdTestSimFabricTimeRangeTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdTestSimFabricTimeRange")
database = OgnSdTestSimFabricTimeRangeDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:numberOfFrames"))
attribute = test_node.get_attribute("inputs:numberOfFrames")
db_value = database.inputs.numberOfFrames
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeBeginDenominatorToken"))
attribute = test_node.get_attribute("inputs:timeRangeBeginDenominatorToken")
db_value = database.inputs.timeRangeBeginDenominatorToken
expected_value = "timeRangeStartDenominator"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeBeginNumeratorToken"))
attribute = test_node.get_attribute("inputs:timeRangeBeginNumeratorToken")
db_value = database.inputs.timeRangeBeginNumeratorToken
expected_value = "timeRangeStartNumerator"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeEndDenominatorToken"))
attribute = test_node.get_attribute("inputs:timeRangeEndDenominatorToken")
db_value = database.inputs.timeRangeEndDenominatorToken
expected_value = "timeRangeEndDenominator"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeEndNumeratorToken"))
attribute = test_node.get_attribute("inputs:timeRangeEndNumeratorToken")
db_value = database.inputs.timeRangeEndNumeratorToken
expected_value = "timeRangeEndNumerator"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeName"))
attribute = test_node.get_attribute("inputs:timeRangeName")
db_value = database.inputs.timeRangeName
expected_value = "TestSimFabricTimeRangeSD"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdSemanticFilter.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdSemanticFilterDatabase import OgnSdSemanticFilterDatabase
test_file_name = "OgnSdSemanticFilterTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdSemanticFilter")
database = OgnSdSemanticFilterDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:hierarchicalLabels"))
attribute = test_node.get_attribute("inputs:hierarchicalLabels")
db_value = database.inputs.hierarchicalLabels
expected_value = False
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:matchingLabels"))
attribute = test_node.get_attribute("inputs:matchingLabels")
db_value = database.inputs.matchingLabels
expected_value = True
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:name"))
attribute = test_node.get_attribute("inputs:name")
db_value = database.inputs.name
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:predicate"))
attribute = test_node.get_attribute("inputs:predicate")
db_value = database.inputs.predicate
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:name"))
attribute = test_node.get_attribute("outputs:name")
db_value = database.outputs.name
self.assertTrue(test_node.get_attribute_exists("outputs:predicate"))
attribute = test_node.get_attribute("outputs:predicate")
db_value = database.outputs.predicate
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdPostRenderVarDisplayTexture.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdPostRenderVarDisplayTextureDatabase import OgnSdPostRenderVarDisplayTextureDatabase
test_file_name = "OgnSdPostRenderVarDisplayTextureTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdPostRenderVarDisplayTexture")
database = OgnSdPostRenderVarDisplayTextureDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:cameraFisheyeParams"))
attribute = test_node.get_attribute("inputs:cameraFisheyeParams")
db_value = database.inputs.cameraFisheyeParams
expected_value = []
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:cameraModel"))
attribute = test_node.get_attribute("inputs:cameraModel")
db_value = database.inputs.cameraModel
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:cameraNearFar"))
attribute = test_node.get_attribute("inputs:cameraNearFar")
db_value = database.inputs.cameraNearFar
expected_value = [0.0, 0.0]
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:instanceMapSDCudaPtr"))
attribute = test_node.get_attribute("inputs:instanceMapSDCudaPtr")
db_value = database.inputs.instanceMapSDCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:instanceMappingInfoSDPtr"))
attribute = test_node.get_attribute("inputs:instanceMappingInfoSDPtr")
db_value = database.inputs.instanceMappingInfoSDPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:metersPerSceneUnit"))
attribute = test_node.get_attribute("inputs:metersPerSceneUnit")
db_value = database.inputs.metersPerSceneUnit
expected_value = 0.0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:mode"))
attribute = test_node.get_attribute("inputs:mode")
db_value = database.inputs.mode
expected_value = "autoMode"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:parameters"))
attribute = test_node.get_attribute("inputs:parameters")
db_value = database.inputs.parameters
expected_value = [0.0, 5.0, 0.33, 0.27]
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderVar"))
attribute = test_node.get_attribute("inputs:renderVar")
db_value = database.inputs.renderVar
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderVarDisplay"))
attribute = test_node.get_attribute("inputs:renderVarDisplay")
db_value = database.inputs.renderVarDisplay
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:rp"))
attribute = test_node.get_attribute("inputs:rp")
db_value = database.inputs.rp
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdDisplayHeight"))
attribute = test_node.get_attribute("inputs:sdDisplayHeight")
db_value = database.inputs.sdDisplayHeight
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdDisplayWidth"))
attribute = test_node.get_attribute("inputs:sdDisplayWidth")
db_value = database.inputs.sdDisplayWidth
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdSemBBox3dCamCornersCudaPtr"))
attribute = test_node.get_attribute("inputs:sdSemBBox3dCamCornersCudaPtr")
db_value = database.inputs.sdSemBBox3dCamCornersCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdSemBBox3dCamExtentCudaPtr"))
attribute = test_node.get_attribute("inputs:sdSemBBox3dCamExtentCudaPtr")
db_value = database.inputs.sdSemBBox3dCamExtentCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdSemBBoxExtentCudaPtr"))
attribute = test_node.get_attribute("inputs:sdSemBBoxExtentCudaPtr")
db_value = database.inputs.sdSemBBoxExtentCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:sdSemBBoxInfosCudaPtr"))
attribute = test_node.get_attribute("inputs:sdSemBBoxInfosCudaPtr")
db_value = database.inputs.sdSemBBoxInfosCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticLabelTokenSDCudaPtr"))
attribute = test_node.get_attribute("inputs:semanticLabelTokenSDCudaPtr")
db_value = database.inputs.semanticLabelTokenSDCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticMapSDCudaPtr"))
attribute = test_node.get_attribute("inputs:semanticMapSDCudaPtr")
db_value = database.inputs.semanticMapSDCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticPrimTokenSDCudaPtr"))
attribute = test_node.get_attribute("inputs:semanticPrimTokenSDCudaPtr")
db_value = database.inputs.semanticPrimTokenSDCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticWorldTransformSDCudaPtr"))
attribute = test_node.get_attribute("inputs:semanticWorldTransformSDCudaPtr")
db_value = database.inputs.semanticWorldTransformSDCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:cudaPtr"))
attribute = test_node.get_attribute("outputs:cudaPtr")
db_value = database.outputs.cudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:format"))
attribute = test_node.get_attribute("outputs:format")
db_value = database.outputs.format
self.assertTrue(test_node.get_attribute_exists("outputs:height"))
attribute = test_node.get_attribute("outputs:height")
db_value = database.outputs.height
self.assertTrue(test_node.get_attribute_exists("outputs:renderVarDisplay"))
attribute = test_node.get_attribute("outputs:renderVarDisplay")
db_value = database.outputs.renderVarDisplay
self.assertTrue(test_node.get_attribute_exists("outputs:width"))
attribute = test_node.get_attribute("outputs:width")
db_value = database.outputs.width
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdPostRenderVarToHost.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdPostRenderVarToHostDatabase import OgnSdPostRenderVarToHostDatabase
test_file_name = "OgnSdPostRenderVarToHostTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdPostRenderVarToHost")
database = OgnSdPostRenderVarToHostDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderVar"))
attribute = test_node.get_attribute("inputs:renderVar")
db_value = database.inputs.renderVar
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderVarHostSuffix"))
attribute = test_node.get_attribute("inputs:renderVarHostSuffix")
db_value = database.inputs.renderVarHostSuffix
expected_value = "host"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:rp"))
attribute = test_node.get_attribute("inputs:rp")
db_value = database.inputs.rp
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:renderVar"))
attribute = test_node.get_attribute("outputs:renderVar")
db_value = database.outputs.renderVar
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdFabricTimeRangeExecution.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdFabricTimeRangeExecutionDatabase import OgnSdFabricTimeRangeExecutionDatabase
test_file_name = "OgnSdFabricTimeRangeExecutionTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdFabricTimeRangeExecution")
database = OgnSdFabricTimeRangeExecutionDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderResults"))
attribute = test_node.get_attribute("inputs:renderResults")
db_value = database.inputs.renderResults
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeBeginDenominatorToken"))
attribute = test_node.get_attribute("inputs:timeRangeBeginDenominatorToken")
db_value = database.inputs.timeRangeBeginDenominatorToken
expected_value = "timeRangeStartDenominator"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeBeginNumeratorToken"))
attribute = test_node.get_attribute("inputs:timeRangeBeginNumeratorToken")
db_value = database.inputs.timeRangeBeginNumeratorToken
expected_value = "timeRangeStartNumerator"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeEndDenominatorToken"))
attribute = test_node.get_attribute("inputs:timeRangeEndDenominatorToken")
db_value = database.inputs.timeRangeEndDenominatorToken
expected_value = "timeRangeEndDenominator"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeEndNumeratorToken"))
attribute = test_node.get_attribute("inputs:timeRangeEndNumeratorToken")
db_value = database.inputs.timeRangeEndNumeratorToken
expected_value = "timeRangeEndNumerator"
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:timeRangeName"))
attribute = test_node.get_attribute("inputs:timeRangeName")
db_value = database.inputs.timeRangeName
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:timeRangeBeginDenominator"))
attribute = test_node.get_attribute("outputs:timeRangeBeginDenominator")
db_value = database.outputs.timeRangeBeginDenominator
self.assertTrue(test_node.get_attribute_exists("outputs:timeRangeBeginNumerator"))
attribute = test_node.get_attribute("outputs:timeRangeBeginNumerator")
db_value = database.outputs.timeRangeBeginNumerator
self.assertTrue(test_node.get_attribute_exists("outputs:timeRangeEndDenominator"))
attribute = test_node.get_attribute("outputs:timeRangeEndDenominator")
db_value = database.outputs.timeRangeEndDenominator
self.assertTrue(test_node.get_attribute_exists("outputs:timeRangeEndNumerator"))
attribute = test_node.get_attribute("outputs:timeRangeEndNumerator")
db_value = database.outputs.timeRangeEndNumerator
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdOnNewRenderProductFrame.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdOnNewRenderProductFrameDatabase import OgnSdOnNewRenderProductFrameDatabase
test_file_name = "OgnSdOnNewRenderProductFrameTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdOnNewRenderProductFrame")
database = OgnSdOnNewRenderProductFrameDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:renderProductDataPtrs"))
attribute = test_node.get_attribute("inputs:renderProductDataPtrs")
db_value = database.inputs.renderProductDataPtrs
expected_value = []
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderProductPath"))
attribute = test_node.get_attribute("inputs:renderProductPath")
db_value = database.inputs.renderProductPath
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderProductPaths"))
attribute = test_node.get_attribute("inputs:renderProductPaths")
db_value = database.inputs.renderProductPaths
expected_value = []
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:cudaStream"))
attribute = test_node.get_attribute("outputs:cudaStream")
db_value = database.outputs.cudaStream
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:renderProductPath"))
attribute = test_node.get_attribute("outputs:renderProductPath")
db_value = database.outputs.renderProductPath
self.assertTrue(test_node.get_attribute_exists("outputs:renderResults"))
attribute = test_node.get_attribute("outputs:renderResults")
db_value = database.outputs.renderResults
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdTimeChangeExecution.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdTimeChangeExecutionDatabase import OgnSdTimeChangeExecutionDatabase
test_file_name = "OgnSdTimeChangeExecutionTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdTimeChangeExecution")
database = OgnSdTimeChangeExecutionDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:errorOnFutureChange"))
attribute = test_node.get_attribute("inputs:errorOnFutureChange")
db_value = database.inputs.errorOnFutureChange
expected_value = False
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:lastUpdateTimeDenominator"))
attribute = test_node.get_attribute("inputs:lastUpdateTimeDenominator")
db_value = database.inputs.lastUpdateTimeDenominator
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:lastUpdateTimeNumerator"))
attribute = test_node.get_attribute("inputs:lastUpdateTimeNumerator")
db_value = database.inputs.lastUpdateTimeNumerator
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderResults"))
attribute = test_node.get_attribute("inputs:renderResults")
db_value = database.inputs.renderResults
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/ogn/tests/TestOgnSdPostSemanticBoundingBox.py | import os
import omni.kit.test
import omni.graph.core as og
import omni.graph.core.tests as ogts
from omni.graph.core.tests.omnigraph_test_utils import _TestGraphAndNode
from omni.graph.core.tests.omnigraph_test_utils import _test_clear_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_setup_scene
from omni.graph.core.tests.omnigraph_test_utils import _test_verify_scene
class TestOgn(ogts.OmniGraphTestCase):
async def test_data_access(self):
from omni.syntheticdata.ogn.OgnSdPostSemanticBoundingBoxDatabase import OgnSdPostSemanticBoundingBoxDatabase
test_file_name = "OgnSdPostSemanticBoundingBoxTemplate.usda"
usd_path = os.path.join(os.path.dirname(__file__), "usd", test_file_name)
if not os.path.exists(usd_path):
self.assertTrue(False, f"{usd_path} not found for loading test")
(result, error) = await ogts.load_test_file(usd_path)
self.assertTrue(result, f'{error} on {usd_path}')
test_node = og.Controller.node("/TestGraph/Template_omni_syntheticdata_SdPostSemanticBoundingBox")
database = OgnSdPostSemanticBoundingBoxDatabase(test_node)
self.assertTrue(test_node.is_valid())
node_type_name = test_node.get_type_name()
self.assertEqual(og.GraphRegistry().get_node_type_version(node_type_name), 1)
def _attr_error(attribute: og.Attribute, usd_test: bool) -> str:
test_type = "USD Load" if usd_test else "Database Access"
return f"{node_type_name} {test_type} Test - {attribute.get_name()} value error"
self.assertTrue(test_node.get_attribute_exists("inputs:exec"))
attribute = test_node.get_attribute("inputs:exec")
db_value = database.inputs.exec
self.assertTrue(test_node.get_attribute_exists("inputs:gpu"))
attribute = test_node.get_attribute("inputs:gpu")
db_value = database.inputs.gpu
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:instanceMapSDCudaPtr"))
attribute = test_node.get_attribute("inputs:instanceMapSDCudaPtr")
db_value = database.inputs.instanceMapSDCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:instanceMappingInfoSDPtr"))
attribute = test_node.get_attribute("inputs:instanceMappingInfoSDPtr")
db_value = database.inputs.instanceMappingInfoSDPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderProductResolution"))
attribute = test_node.get_attribute("inputs:renderProductResolution")
db_value = database.inputs.renderProductResolution
expected_value = [0, 0]
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:renderVar"))
attribute = test_node.get_attribute("inputs:renderVar")
db_value = database.inputs.renderVar
expected_value = ""
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:rp"))
attribute = test_node.get_attribute("inputs:rp")
db_value = database.inputs.rp
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticLocalTransformSDCudaPtr"))
attribute = test_node.get_attribute("inputs:semanticLocalTransformSDCudaPtr")
db_value = database.inputs.semanticLocalTransformSDCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("inputs:semanticMapSDCudaPtr"))
attribute = test_node.get_attribute("inputs:semanticMapSDCudaPtr")
db_value = database.inputs.semanticMapSDCudaPtr
expected_value = 0
actual_value = og.Controller.get(attribute)
ogts.verify_values(expected_value, actual_value, _attr_error(attribute, True))
ogts.verify_values(expected_value, db_value, _attr_error(attribute, False))
self.assertTrue(test_node.get_attribute_exists("outputs:exec"))
attribute = test_node.get_attribute("outputs:exec")
db_value = database.outputs.exec
self.assertTrue(test_node.get_attribute_exists("outputs:sdSemBBoxExtentCudaPtr"))
attribute = test_node.get_attribute("outputs:sdSemBBoxExtentCudaPtr")
db_value = database.outputs.sdSemBBoxExtentCudaPtr
self.assertTrue(test_node.get_attribute_exists("outputs:sdSemBBoxInfosCudaPtr"))
attribute = test_node.get_attribute("outputs:sdSemBBoxInfosCudaPtr")
db_value = database.outputs.sdSemBBoxInfosCudaPtr
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/viewport_legacy.py | from pathlib import Path
from pxr import Sdf
import carb.settings
import omni.ui as ui
import omni.usd
from .SyntheticData import SyntheticData
from .visualizer_window import VisualizerWindow
import weakref
CURRENT_PATH = Path(__file__).parent.absolute()
ICON_PATH = CURRENT_PATH.parent.parent.parent.joinpath("data")
BUTTON_STYLE = {
"height": 22,
"width": 26,
"style": {"Button": {"padding": 4, "background_color": 0x80303030}},
"image_height": 14,
"image_width": 26,
}
MENU_FLAGS = {"flags": ui.WINDOW_FLAGS_POPUP | ui.WINDOW_FLAGS_NO_TITLE_BAR, "auto_resize": True}
class ViewportLegacy:
_g_visualizers = {}
_g_iface = None
@staticmethod
def create_update_subscription():
import omni.kit.viewport_legacy
ViewportLegacy._g_iface = omni.kit.viewport_legacy.get_viewport_interface()
if ViewportLegacy._g_iface is None:
return
import omni.kit.app
event_stream = omni.kit.app.get_app().get_update_event_stream()
return event_stream.create_subscription_to_pop(ViewportLegacy._on_update, name="omni.syntheticdata update")
@staticmethod
def close_viewports():
visualizers, ViewportLegacy._g_visualizers = ViewportLegacy._g_visualizers, {}
if visualizers:
for visualizer, vp_delegate in visualizers.values():
visualizer.close()
vp_delegate.destroy()
@staticmethod
def _on_update(dt):
stage = omni.usd.get_context().get_stage()
if stage is None:
return
# retrieve the list of active viewports
viewport_names = set([ViewportLegacy._g_iface.get_viewport_window_name(vp) for vp in ViewportLegacy._g_iface.get_instance_list()])
visualizers = ViewportLegacy._g_visualizers
# remove obsolete extension viewports data
for vp_name in set(visualizers.keys()).difference(viewport_names):
visualizer, vp_delegate = visualizers[vp_name]
visualizer.close()
vp_delegate.destroy()
del visualizers[vp_name]
# create missing extension viewports data
for vp_name in viewport_names.difference(set(visualizers.keys())):
vp_delegate = ViewportLegacy(vp_name)
visualizer_window = VisualizerWindow(vp_name, vp_delegate)
vp_delegate.set_visualizer_window(weakref.proxy(visualizer_window))
visualizers[vp_name] = visualizer_window, vp_delegate
# update all valid viewport
for vp_name, vis_and_delegate in visualizers.items():
legacy_vp = ViewportLegacy._g_iface.get_viewport_window(ViewportLegacy._g_iface.get_instance(vp_name))
if legacy_vp:
visualizer, vp_delegate = vis_and_delegate
camera_path = legacy_vp.get_active_camera()
vp_delegate._update_legacy_buttons(Sdf.Path(camera_path).name, legacy_vp.is_visible())
visualizer.update(legacy_vp.get_render_product_path(), stage)
def __init__(self, name: str):
self.__window_name = name
self.__visualizer_window = None
# initialize ui
self.__menus = None
self.__btns = {"window": ui.Window(name, detachable=False)}
with self.__btns["window"].frame:
with ui.VStack():
ui.Spacer(height=4)
with ui.HStack(height=0, width=0):
self.__btns["spacer"] = ui.Spacer(width=300)
self.__btns["icon"] = ui.Button(
tooltip="Synthetic Data Sensors", image_url=f"{ICON_PATH}/sensor_icon.svg", **BUTTON_STYLE
)
self.__btns["icon"].set_mouse_pressed_fn(lambda x, y, *_: self._show_legacy_ui_menu(x, y))
def __del__(self):
self.destroy()
def destroy(self):
self.__btns = None
self.__menus = None
self.__window_name = None
self.__visualizer_window = None
def set_visualizer_window(self, visualizer_window):
self.__visualizer_window = visualizer_window
self._reset_to_default(None)
def _update_legacy_buttons(self, cam_name: str, is_visible: bool):
# update the buttons in a legacy viewport (dependent on camera name length)
render_mode = carb.settings.get_settings().get("/rtx/rendermode")
render_spacing = 15
if render_mode == "RaytracedLighting":
render_spacing = 12
elif render_mode == "PathTracing":
render_spacing = 31
spacing = 5 + (len(cam_name) + render_spacing) * 15
self.__btns["spacer"].width = ui.Length(max(300, spacing))
self.__btns["window"].visible = is_visible
def _build_legacy_ui_menu(self):
self.__menus = ui.Window(f"{self.__window_name}-sensor-menu", **MENU_FLAGS)
with self.__menus.frame:
with ui.VStack(width=200, spacing=5):
render_product_combo_model = self.__visualizer_window.render_product_combo_model
if render_product_combo_model:
with ui.HStack(height=40):
ui.Label("RenderProduct", width=150)
ui.ComboBox(render_product_combo_model)
render_var_combo_model = self.__visualizer_window.render_var_combo_model
if render_var_combo_model:
with ui.HStack(height=40):
ui.Label("RenderVar", width=150)
ui.ComboBox(render_var_combo_model)
with ui.HStack(height=20):
model = ui.FloatSlider(name="angle", min=-100.0, max=100.0).model
model.add_value_changed_fn(
lambda m: render_var_combo_model.set_combine_angle(m.get_value_as_float())
)
model = ui.FloatSlider(name="x", min=-100.0, max=100.0).model
model.add_value_changed_fn(
lambda m: render_var_combo_model.set_combine_divide_x(m.get_value_as_float())
)
model = ui.FloatSlider(name="y", min=-100.0, max=100.0).model
model.add_value_changed_fn(
lambda m: render_var_combo_model.set_combine_divide_y(m.get_value_as_float())
)
with ui.HStack(height=40):
ui.Label("Synthetic Data Sensors", width=150)
clear_btn = ui.Button("Clear All")
show_default_btns = carb.settings.get_settings().get_as_bool("/exts/omni.syntheticdata/menubar/showSensorDefaultButton")
if show_default_btns:
with ui.HStack(height=40):
set_as_default_btn = ui.Button("Set as default")
reset_to_default_btn = ui.Button("Reset to default")
selection_stack = ui.VStack(spacing=5)
clear_btn.set_clicked_fn(lambda ss=selection_stack: self._clear_all(ss))
if show_default_btns:
set_as_default_btn.set_clicked_fn(lambda ss=selection_stack: self._set_as_default())
reset_to_default_btn.set_clicked_fn(lambda ss=selection_stack: self._reset_to_default(ss))
selection_stack.clear()
with selection_stack:
self._build_ui_sensor_selection()
self.__menus.visible = False
# callback to reset the sensor selection
def _clear_all(self, selection_stack):
if self.__visualizer_window:
self.__visualizer_window.visualization_activation.clear()
selection_stack.clear()
with selection_stack:
self._build_ui_sensor_selection()
def _set_as_default(self):
if self.__visualizer_window:
for sensor in self.__visualizer_window.visualization_activation:
SyntheticData.set_visualization_template_name_default_activation(sensor, True)
def _reset_to_default(self, selection_stack):
# reset the selection
if self.__visualizer_window:
self.__visualizer_window.visualization_activation.clear()
for _, sensor in SyntheticData.get_registered_visualization_template_names_for_display():
if SyntheticData.get_visualization_template_name_default_activation(sensor):
self.__visualizer_window.visualization_activation.add(sensor)
if not selection_stack is None:
selection_stack.clear()
with selection_stack:
self._build_ui_sensor_selection()
def _show_window(self):
self.__visualizer_window.toggle_enable_visualization()
def _build_ui_sensor_selection(self):
for sensor_label, sensor in SyntheticData.get_registered_visualization_template_names_for_display():
with ui.HStack():
ui.Label(sensor_label, width=300)
cb = ui.CheckBox(
width=0, style={"font_size": 24, "margin": 3}, style_type_name_override="Options.CheckBox"
)
cb.model.set_value(sensor in self.__visualizer_window.visualization_activation)
cb.model.add_value_changed_fn(lambda c, s=sensor: self.__visualizer_window.on_sensor_item_clicked(c.as_bool, s))
ui.Button("Show", height=40, clicked_fn=lambda: self._show_window())
def _show_legacy_ui_menu(self, x, y):
self.__menus = None
self._build_legacy_ui_menu()
self.__menus.position_x = x
self.__menus.position_y = y
self.__menus.visible = True
@property
def render_product_path(self):
legacy_vp = ViewportLegacy._g_iface.get_viewport_window(ViewportLegacy._g_iface.get_instance(self.__window_name))
return legacy_vp.get_render_product_path() if legacy_vp else None
@render_product_path.setter
def render_product_path(self, prim_path: str):
legacy_vp = ViewportLegacy._g_iface.get_viewport_window(ViewportLegacy._g_iface.get_instance(self.__window_name))
if legacy_vp:
legacy_vp.set_render_product_path(prim_path)
@property
def usd_context(self):
legacy_vp = ViewportLegacy._g_iface.get_viewport_window(ViewportLegacy._g_iface.get_instance(self.__window_name))
usd_context_name = legacy_vp.get_usd_context_name() if hasattr(legacy_vp, 'get_usd_context_name') else ''
return omni.usd.get_context(usd_context_name)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/helpers.py | import math
from functools import lru_cache
import numpy.lib.recfunctions as rfn
import carb
import numpy as np
import omni.usd
from pxr import UsdGeom, UsdShade, Semantics
from .. import _syntheticdata
EPS = 1e-8
@lru_cache()
def _get_syntheticdata_iface():
return _syntheticdata.acquire_syntheticdata_interface()
def _interpolate(p, a, b):
p0 = 1.0 - p
return [int(p0 * a[0] + p * b[0]), int(p0 * a[1] + p * b[1]), int(p0 * a[2] + p * b[2]), 255]
def get_bbox_3d_corners(extents):
"""Return transformed points in the following order: [LDB, RDB, LUB, RUB, LDF, RDF, LUF, RUF]
where R=Right, L=Left, D=Down, U=Up, B=Back, F=Front and LR: x-axis, UD: y-axis, FB: z-axis.
Args:
extents (numpy.ndarray): A structured numpy array containing the fields: [`x_min`, `y_min`,
`x_max`, `y_max`, `transform`.
Returns:
(numpy.ndarray): Transformed corner coordinates with shape `(N, 8, 3)`.
"""
rdb = [extents["x_max"], extents["y_min"], extents["z_min"]]
ldb = [extents["x_min"], extents["y_min"], extents["z_min"]]
lub = [extents["x_min"], extents["y_max"], extents["z_min"]]
rub = [extents["x_max"], extents["y_max"], extents["z_min"]]
ldf = [extents["x_min"], extents["y_min"], extents["z_max"]]
rdf = [extents["x_max"], extents["y_min"], extents["z_max"]]
luf = [extents["x_min"], extents["y_max"], extents["z_max"]]
ruf = [extents["x_max"], extents["y_max"], extents["z_max"]]
tfs = extents["transform"]
corners = np.stack((ldb, rdb, lub, rub, ldf, rdf, luf, ruf), 0)
corners_homo = np.pad(corners, ((0, 0), (0, 1), (0, 0)), constant_values=1.0)
return np.einsum("jki,ikl->ijl", corners_homo, tfs)[..., :3]
def reduce_bboxes_2d(bboxes, instance_mappings):
"""
Reduce 2D bounding boxes of leaf nodes to prims with a semantic label.
Args:
bboxes (numpy.ndarray): A structured numpy array containing the fields:
`[("instanceId", "<u4"), ("semanticId", "<u4"), ("x_min", "<i4"),
("y_min", "<i4"), ("x_max", "<i4"), ("y_max", "<i4")]`
instance_mappings (numpy.ndarray): A structured numpy array containing the fields:
`[("uniqueId", np.int32), ("name", "O"), ("semanticId", "<u4"), ("semanticLabel", "O"),
("instanceIds", "O"), ("metadata", "O")]`
Returns:
(numpy.ndarray): A structured numpy array containing the fields:
`[("uniqueId", np.int32), ("name", "O"), ("semanticLabel", "O"), ("instanceIds", "O"),
("semanticId", "<u4"), ("metadata", "O"), ("x_min", "<i4"), ("y_min", "<i4"),
("x_max", "<i4"), ("y_max", "<i4")]`
"""
bboxes = bboxes[bboxes["x_min"] < 2147483647]
reduced_bboxes = []
for im in instance_mappings:
if im["instanceIds"]: # if mapping has descendant instance ids
mask = np.isin(bboxes["instanceId"], im["instanceIds"])
bbox_masked = bboxes[mask]
if len(bbox_masked) > 0:
reduced_bboxes.append(
(
im["uniqueId"],
im["name"],
im["semanticLabel"],
im["metadata"],
im["instanceIds"],
im["semanticId"],
np.min(bbox_masked["x_min"]),
np.min(bbox_masked["y_min"]),
np.max(bbox_masked["x_max"]),
np.max(bbox_masked["y_max"]),
)
)
return np.array(
reduced_bboxes,
dtype=[("uniqueId", np.int32), ("name", "O"), ("semanticLabel", "O"), ("metadata", "O"), ("instanceIds", "O")]
+ bboxes.dtype.descr[1:],
)
def reduce_bboxes_3d(bboxes, instance_mappings):
"""
Reduce 3D bounding boxes of leaf nodes to prims with a semantic label.
Args:
bboxes (numpy.ndarray): A structured numpy array containing the fields:
`[("instanceId", "<u4"), ("semanticId", "<u4"), ("x_min", "<i4"),
("y_min", "<i4"), ("z_min", "<i4"), ("x_max", "<i4"), ("y_max", "<i4"),
("z_max", "<i4"), ("transform", "<f4", (4, 4))]`
instance_mappings (numpy.ndarray): A structured numpy array containing the fields:
`[("uniqueId", np.int32), ("name", "O"), ("semanticId", "<u4"), ("semanticLabel", "O"),
("instanceIds", "<u4"), ("metadata", "O")]`
Returns:
(numpy.ndarray): A structured numpy array containing the fields:
`[("uniqueId", np.int32), ("name", "O"), ("semanticLabel", "O"), ("instanceIds", "O"), ("metadata", "O"),
("semanticId", "<u4"),("x_min", "<i4"), ("y_min", "<i4"), ("z_min", "<i4"),
("x_max", "<i4"), ("y_max", "<i4"), ("z_max", "<i4"), ("transform", "<f4", (4, 4))]`
If `corners` field is supplied in `bboxes` argument, the field will be updated accordingly.
"""
current_time = omni.timeline.get_timeline_interface().get_current_time()
reduced_bboxes = []
stage = omni.usd.get_context().get_stage()
if "corners" in bboxes.dtype.names:
corners = bboxes["corners"]
else:
# TODO if not corners, use extents
corners = get_bbox_3d_corners(bboxes)
max_instance_id = bboxes["instanceId"].max()
idx_lut = np.empty(max_instance_id + 1, dtype=int)
for i, bb_id in enumerate(bboxes["instanceId"]):
idx_lut[bb_id] = i
for i, im in enumerate(instance_mappings):
prim = stage.GetPrimAtPath(im["name"])
tf = np.array(UsdGeom.Imageable(prim).ComputeLocalToWorldTransform(current_time))
tf_inv = np.linalg.inv(tf)
# filter instance ids that corresponding to invisible bounding boxes (not filtered in the instance mapping)
instIds = [instId for instId in im["instanceIds"] if instId < len(idx_lut) ]
idxs = idx_lut[instIds]
children_corners = corners[idxs]
children_corners_homo = np.pad(children_corners.reshape(-1, 3), ((0, 0), (0, 1)), constant_values=1.0)
corners_local = np.einsum("bj,jk->bk", children_corners_homo, tf_inv)[:, :3]
corners_local_min = corners_local[..., :3].reshape(-1, 3).min(0)
corners_local_max = corners_local[..., :3].reshape(-1, 3).max(0)
extents_local = np.stack([corners_local_min, corners_local_max])
row = [
im["uniqueId"],
im["name"],
im["semanticLabel"],
im["metadata"],
im["instanceIds"],
im["semanticId"],
*extents_local.reshape(-1),
tf,
]
if "corners" in bboxes.dtype.names:
world_corners = get_bbox_3d_corners(
{
"x_min": [extents_local[0, 0]],
"x_max": [extents_local[1, 0]],
"y_min": [extents_local[0, 1]],
"y_max": [extents_local[1, 1]],
"z_min": [extents_local[0, 2]],
"z_max": [extents_local[1, 2]],
"transform": [tf],
}
)
row.append(world_corners)
reduced_bboxes.append(tuple(row))
return np.array(
reduced_bboxes,
dtype=[("uniqueId", np.int32), ("name", "O"), ("semanticLabel", "O"), ("metadata", "O"), ("instanceIds", "O")]
+ bboxes.dtype.descr[1:],
)
def merge_sensors(
bounding_box_2d_tight=None, bounding_box_2d_loose=None, bounding_box_3d=None, occlusion_quadrants=None
):
"""
Merge sensor structured array outputs.
Args:
bounding_box_2d_tight (numpy.ndarray, optional): A structured numpy array
containing the fields: `[("uniqueId", "<i4"), ("name", "O"), ("semanticLabel", "O"),
("semanticId", "<u4"), ("metadata", "O"), ("instanceIds", "O"),
("x_min", "<i4"), ("y_min", "<i4"), ("x_max", "<i4"), ("y_max", "<i4")]`
bounding_box_2d_loose (numpy.ndarray, optional): A structured numpy array
containing the fields: `[("uniqueId", "<i4"), ("name", "O"), ("semanticLabel", "O"),
("instanceId", "<u4"), ("semanticId", "<u4"), ("metadata", "O"), ("instanceIds", "O"),
("x_min", "<i4"), ("y_min", "<i4"), ("x_max", "<i4"), ("y_max", "<i4")]`
bounding_box_3d (numpy.ndarray, optional): A structured numpy array containing the fields:
`[("uniqueId", "<i4"), ("name", "O"), ("semanticLabel", "O"), ("semanticId", "<u4"),
("metadata", "O"), ("instanceIds", "O"), ("x_min", "<i4"), ("y_min", "<i4"), ("z_min", "<i4"),
("x_max", "<i4"), ("y_max", "<i4"), ("z_max", "<i4"), ("transform", "<f4", (4, 4))]`
occlusion_quadrants (numpy.ndarray, optional): A structured numpy array containing the fields:
[("uniqueId", "<i4"), ("name", "O"), ("semanticLabel", "O"),("semanticId", "<u4"),
("metadata", "O"), ("instanceIds", "O"), ("occlusion_quadrant", "O")]
Returns:
(numpy.ndarray): A structured array containing merged data from the arguments supplied.
"""
arrays = []
array_suffixes = []
defaults = {"x_min": -1, "x_max": -1, "y_min": -1, "y_max": -1, "z_min": -1, "z_max": -1}
# Add valid arrays to merge list and set suffixes
if bounding_box_2d_tight is not None:
arrays.append(bounding_box_2d_tight)
array_suffixes.append("_bbox2d_tight")
if bounding_box_2d_loose is not None:
arrays.append(bounding_box_2d_loose)
array_suffixes.append("_bbox2d_loose")
if bounding_box_3d is not None:
arrays.append(bounding_box_3d)
array_suffixes.append("_bbox3d")
if occlusion_quadrants is not None:
arrays.append(occlusion_quadrants)
array_suffixes.append("_occ")
if not arrays:
return None
r0 = arrays.pop()
r0_suf = array_suffixes.pop()
while arrays:
r1 = arrays.pop()
r1_suf = array_suffixes.pop()
# Add suffixes
r0.dtype.names = [f"{n}{r0_suf}" if n in defaults.keys() else n for n in r0.dtype.names]
r1.dtype.names = [f"{n}{r1_suf}" if n in defaults.keys() else n for n in r1.dtype.names]
defaults_suf = {}
defaults_suf.update({f"{k}{r0_suf}": v for k, v in defaults.items()})
defaults_suf.update({f"{k}{r1_suf}": v for k, v in defaults.items()})
r0 = rfn.join_by(
["uniqueId", "name", "semanticId", "semanticLabel", "metadata", "instanceIds"],
r0,
r1,
defaults=defaults_suf,
r1postfix=r0_suf,
r2postfix=r1_suf,
jointype="outer",
usemask=False,
)
r0_suf = ""
return r0
def get_projection_matrix(fov, aspect_ratio, z_near, z_far):
"""
Calculate the camera projection matrix.
Args:
fov (float): Field of View (in radians)
aspect_ratio (float): Image aspect ratio (Width / Height)
z_near (float): distance to near clipping plane
z_far (float): distance to far clipping plane
Returns:
(numpy.ndarray): View projection matrix with shape `(4, 4)`
"""
a = -1.0 / math.tan(fov / 2)
b = -a * aspect_ratio
c = z_far / (z_far - z_near)
d = z_near * z_far / (z_far - z_near)
return np.array([[a, 0.0, 0.0, 0.0], [0.0, b, 0.0, 0.0], [0.0, 0.0, c, 1.0], [0.0, 0.0, d, 0.0]])
def get_view_proj_mat(view_params):
"""
Get View Projection Matrix.
Args:
view_params (dict): dictionary containing view parameters
"""
z_near, z_far = view_params["clipping_range"]
view_matrix = np.linalg.inv(view_params["view_to_world"])
fov = 2 * math.atan(view_params["horizontal_aperture"] / (2 * view_params["focal_length"]))
projection_mat = get_projection_matrix(fov, view_params["aspect_ratio"], z_near, z_far)
return np.dot(view_matrix, projection_mat)
def project_pinhole(points, view_params):
"""
Project 3D points to 2D camera view using a pinhole camera model.
Args:
points (numpy.ndarray): Array of points in world frame of shape (num_points, 3).
view_params:
Returns:
(numpy.ndarray): Image-space points of shape (num_points, 3)
"""
view_proj_matrix = get_view_proj_mat(view_params)
homo = np.pad(points, ((0, 0), (0, 1)), constant_values=1.0)
tf_points = np.dot(homo, view_proj_matrix)
tf_points = tf_points / (tf_points[..., -1:])
tf_points[..., :2] = 0.5 * (tf_points[..., :2] + 1)
return tf_points[..., :3]
def get_instance_mappings():
"""
Get instance mappings.
Uses update number as frame ID for caching.
"""
app = omni.kit.app.get_app_interface()
frame_id = app.get_update_number()
mappings = _get_instance_mappings(frame_id)
return mappings
@lru_cache(maxsize=1)
def _get_instance_mappings(frame_id=None):
"""
Get instance mappings.
Uses `frame_id` for caching.
"""
stage = omni.usd.get_context().get_stage()
""" Use the C++ API to retrieve the instance mapping """
# _, instance_mappings = _parse_instance_mappings(stage.GetPseudoRoot())
# mappings_raw = [(i + 1, *im) for i, im in enumerate(instance_mappings)]
mappings_raw = _get_syntheticdata_iface().get_instance_mapping_list()
mappings = np.array(
mappings_raw,
dtype=[
("uniqueId", np.int32),
("name", "O"),
("semanticId", np.int32),
("semanticLabel", "O"),
("instanceIds", "O"),
("metadata", "O"),
],
)
return mappings
def reduce_occlusion(occlusion_data, instance_mappings):
"""
Reduce occlusion value of leaf nodes to prims with a semantic label.
Args:
sensor_data (numpy.ndarray): A structured numpy array with the fields: [("instanceId", "<u4"),
("semanticId", "<u4"), ("occlusionRatio", "<f4")], where occlusion ranges from 0
(not occluded) to 1 (fully occluded).
Returns:
(numpy.ndarray): A structured numpy array with the fields: [("uniqueId", np.int32)
("name", "O"), ("semanticLabel", "O"), ("instanceIds", "O"), ("semanticId", "<u4"),
("metadata", "O"), ("occlusionRatio", "<f4")]
"""
mapped_data = []
occlusion_data = occlusion_data[~np.isnan(occlusion_data["occlusionRatio"])]
for im in instance_mappings:
if im["instanceIds"]: # if mapping has descendant instance ids
mask = np.isin(occlusion_data["instanceId"], im["instanceIds"])
if mask.sum() > 1:
carb.log_warn(
f"[syntheticdata.viz] Mapping on {im['name']} contains multiple child meshes, occlusion value may be incorrect."
)
occ = occlusion_data[mask]
if len(occ) > 0:
mapped_data.append(
(
im["uniqueId"],
im["name"],
im["semanticLabel"],
im["metadata"],
im["instanceIds"],
im["semanticId"],
np.mean(occ["occlusionRatio"]),
)
)
return np.array(
mapped_data,
dtype=[("uniqueId", np.int32), ("name", "O"), ("semanticLabel", "O"), ("metadata", "O"), ("instanceIds", "O")]
+ occlusion_data.dtype.descr[1:],
)
def _join_struct_arrays(arrays):
"""
Join N numpy structured arrays.
"""
n = len(arrays[0])
assert all([len(a) == n for a in arrays])
dtypes = sum(([d for d in a.dtype.descr if d[0]] for a in arrays), [])
joined = np.empty(n, dtype=dtypes)
for a in arrays:
joined[list(a.dtype.names)] = a
return joined
def _fish_eye_map_to_sphere(screen, screen_norm, theta, max_fov):
""" Utility function to map a sample from a disk on the image plane to a sphere. """
direction = np.array([[0, 0, -1]] * screen.shape[0], dtype=np.float)
extent = np.zeros(screen.shape[0], dtype=np.float)
# A real fisheye have some maximum FOV after which the lens clips.
valid_mask = theta <= max_fov
# Map to a disk: screen / R normalizes the polar direction in screen space.
xy = screen[valid_mask]
screen_norm_mask = screen_norm[valid_mask] > 1e-5
xy[screen_norm_mask] = xy[screen_norm_mask] / screen_norm[valid_mask, None]
# Map disk to a sphere
cos_theta = np.cos(theta[valid_mask])
sin_theta = np.sqrt(1.0 - cos_theta ** 2)
# Todo: is this right? Do we assume z is negative (RH coordinate system)?
z = -cos_theta
xy = xy * sin_theta[:, None]
direction[valid_mask] = np.stack([xy[valid_mask, 0], xy[valid_mask, 1], z], axis=1)
extent[valid_mask] = 1.0 # < far clip is not a plane, it's a sphere!
return direction, extent
def project_fish_eye_map_to_sphere(direction):
z = direction[:, 2:]
cos_theta = -z
theta = np.arccos(cos_theta)
# TODO currently projecting outside of max FOV
sin_theta = np.sqrt(1.0 - cos_theta * cos_theta + EPS)
xy = direction[:, :2] / (sin_theta + EPS)
return xy, theta
def fish_eye_polynomial(ndc, view_params):
""" FTheta camera model based on DW src/dw/calibration/cameramodel/CameraModelsNoEigen.hpp """
# Convert NDC pixel position to screen space... well almost. It is screen space but the extent of x is [-0.5, 0.5]
# and the extent of y is [-0.5/aspectRatio, 0.5/aspectRatio].
screen = ndc - 0.5
aspect_ratio = view_params["aspect_ratio"]
screen[:, 1] /= -aspect_ratio
# The FTheta polynomial works at a nominal resolution. So far we have done calculations in NDC to be
# resolution independent. Here we scale by the nominal resolution in X.
screen = (screen - view_params["ftheta"]["c_ndc"]) * view_params["ftheta"]["width"]
# Compute the radial distance on the screen from its center point
r = np.sqrt(screen[:, 0] ** 2 + screen[:, 1] ** 2)
theta = ftheta_distortion(view_params["ftheta"], r)
max_fov = math.radians(view_params["ftheta"]["max_fov"] / 2)
return _fish_eye_map_to_sphere(screen, r, theta, max_fov)
def project_fish_eye_polynomial(points, view_params):
""" Project F-Theta camera model.
Args:
points (numpy.ndarray): Array of points in world frame of shape (num_points, 3).
view_params (dict): dictionary containing view parameters
Returns:
(numpy.ndarray): Image-space points of shape (num_points, 3)
"""
points_h = np.pad(points, ((0, 0), (0, 1)), constant_values=1)
points_cam_frame = np.einsum("jk,kl->jl", points_h, view_params["world_to_view"])[..., :3]
directions = points_cam_frame / np.linalg.norm(points_cam_frame + EPS, axis=1)[:, None]
xy, theta = project_fish_eye_map_to_sphere(directions)
r = _ftheta_distortion_solver(view_params["ftheta"], theta)
screen = xy * r
screen = screen / view_params["ftheta"]["width"] + view_params["ftheta"]["c_ndc"]
screen[:, 1] *= -view_params["aspect_ratio"]
ndc = screen + 0.5
ndc = np.pad(ndc, ((0, 0), (0, 1)), constant_values=0)
return ndc
def get_view_params(viewport):
""" Get view parameters.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Returns:
(dict): Dictionary containing view parameters.
"""
stage = omni.usd.get_context().get_stage()
camera = stage.GetPrimAtPath(viewport.camera_path)
current_time = omni.timeline.get_timeline_interface().get_current_time()
view_to_world = UsdGeom.Imageable(camera).ComputeLocalToWorldTransform(current_time)
world_to_view = view_to_world.GetInverse()
width, height = viewport.resolution
projection_type = camera.GetAttribute("cameraProjectionType").Get(current_time)
if projection_type == "fisheyePolynomial":
ftheta = {
"width": camera.GetAttribute("fthetaWidth").Get(),
"height": camera.GetAttribute("fthetaHeight").Get(),
"cx": camera.GetAttribute("fthetaCx").Get(),
"cy": camera.GetAttribute("fthetaCy").Get(),
"poly_a": camera.GetAttribute("fthetaPolyA").Get(),
"poly_b": camera.GetAttribute("fthetaPolyB").Get(),
"poly_c": camera.GetAttribute("fthetaPolyC").Get(),
"poly_d": camera.GetAttribute("fthetaPolyD").Get(),
"poly_e": camera.GetAttribute("fthetaPolyE").Get(),
"max_fov": camera.GetAttribute("fthetaMaxFov").Get(),
}
ftheta["edge_fov"] = ftheta_distortion(ftheta, ftheta["width"] / 2)
ftheta["c_ndc"] = np.array(
[
(ftheta["cx"] - ftheta["width"] / 2) / ftheta["width"],
(ftheta["height"] / 2 - ftheta["cy"]) / ftheta["width"],
]
)
else:
ftheta = None
view_params = {
"view_to_world": np.array(view_to_world),
"world_to_view": np.array(world_to_view),
"projection_type": projection_type,
"ftheta": ftheta,
"width": width,
"height": height,
"aspect_ratio": width / height,
"clipping_range": camera.GetAttribute("clippingRange").Get(current_time),
"horizontal_aperture": camera.GetAttribute("horizontalAperture").Get(current_time),
"focal_length": camera.GetAttribute("focalLength").Get(current_time),
}
return view_params
def image_to_world(image_coordinates, view_params):
""" Map each image coordinate to a corresponding direction vector.
Args:
pixel (numpy.ndarray): Pixel coordinates of shape (num_pixels, 2)
view_params (dict): dictionary containing view parameters
Returns:
(numpy.ndarray): Direction vectors of shape (num_pixels, 3)
"""
ndc = image_coordinates / np.array([view_params["width"], view_params["height"]])
direction, extent = fish_eye_polynomial(ndc, view_params)
view_to_world = view_params["view_to_world"]
origin = np.matmul(np.array([0, 0, 0, 1]), view_to_world)[:3]
direction = np.matmul(np.pad(direction, ((0, 0), (0, 1)), constant_values=0), view_to_world)[:, :3]
direction /= np.linalg.norm(direction, axis=1, keepdims=True)
return origin, direction
def world_to_image(points, viewport, view_params=None):
""" Project world coordinates to image-space.
Args:
points (numpy.ndarray): Array of points in world frame of shape (num_points, 3).
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
view_params (dict, Optional): View parameters dictionary obtained from
omni.syntheticdata.helpers.get_view_params. Use current viewport state if not provided.
Returns:
(numpy.ndarray): Image-space points of shape (num_points, 3)
"""
if view_params is None:
view_params = get_view_params(viewport)
if view_params["projection_type"] == "pinhole" or view_params["projection_type"] is None:
points_image_space = project_pinhole(points, view_params)
elif view_params["projection_type"] == "fisheyePolynomial":
points_image_space = project_fish_eye_polynomial(points, view_params)
else:
raise ValueError(f"Projection type {view_params['projection_type']} is not currently supported.")
return points_image_space
def ftheta_distortion(ftheta, x):
""" F-Theta distortion. """
return ftheta["poly_a"] + x * (
ftheta["poly_b"] + x * (ftheta["poly_c"] + x * (ftheta["poly_d"] + x * ftheta["poly_e"]))
)
def ftheta_distortion_prime(ftheta, x):
""" Derivative to f_theta_distortion. """
return ftheta["poly_b"] + x * (2 * ftheta["poly_c"] + x * (3 * ftheta["poly_d"] + x * 4 * ftheta["poly_e"]))
def _ftheta_distortion_solver(ftheta, theta):
# Solve for r in theta = f(r), where f(r) is some general polynomial that is guaranteed to be monotonically
# increasing up to some maximum r and theta. For theta > maximum theta switch to linear extrapolation.
def solver(ftheta, theta):
ratio = ftheta["width"] / 2 / ftheta["edge_fov"]
guess = theta * ratio
# 2 loops provides sufficient precision in working range.
for i in range(2):
guessed_theta = ftheta_distortion(ftheta, guess)
dy = theta - guessed_theta
dx = ftheta_distortion_prime(ftheta, guess)
mask = dx != 0
guess[mask] += dy[mask] / dx[mask]
guess[~mask] += dy[~mask] * ratio
return guess
# For all points guess r using a linear approximation.
guess = solver(ftheta, theta)
# Determine which points were actually inside the FOV
max_theta = math.radians((ftheta["max_fov"] / 2.0))
inside_fov = theta < max_theta
# For all points that were outside the FOV replace their solution with a more stable linear extrapolation.
# These outside of FOV points map beyond the maximum r possible for inside FOV points.
# These points shouldn't be seen by the camera, but a valid projection is still required.
max_r = solver(ftheta, np.array([max_theta]))
min_theta = ftheta["poly_a"] # this should always be zero in theory, but the user could define poly_a != 0.
extrapolation_slope = max_r / (max_theta - min_theta)
guess[~inside_fov] = max_r + extrapolation_slope * (theta[~inside_fov] - max_theta)
return guess
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/sensors.py | import carb
import omni.usd
import omni.kit
from pxr import UsdGeom
import numpy as np
import asyncio
from .. import _syntheticdata
from . import helpers
from .SyntheticData import *
def get_synthetic_data():
sdg = SyntheticData.Get()
if not sdg:
SyntheticData.Initialize()
sdg = SyntheticData.Get()
assert sdg
return sdg
async def next_render_simulation_async(render_product_path, num_simulation_frames_offset=0):
"""Fetch the current simulation time and wait for a frame to be rendered at or after this time."""
_sdg_iface = helpers._get_syntheticdata_iface()
stage_id = omni.usd.get_context().get_stage_id()
simulation_rationnal_time = _sdg_iface.get_rational_time_of_simulation(stage_id, num_simulation_frames_offset)
simulation_time = simulation_rationnal_time[0]/simulation_rationnal_time[1] if simulation_rationnal_time[1] > 0 else 0
# wait the frame next to this time to be rendered
render_f = asyncio.Future()
def on_render_event(e: carb.events.IEvent):
parsed_payload = _sdg_iface.parse_rendered_simulation_event(e.payload["product_path_handle"], e.payload["results"])
if parsed_payload[0] == render_product_path:
render_time = parsed_payload[1]/parsed_payload[2] if parsed_payload[2] > 0 else 0
if (render_time >= simulation_time) and not render_f.done():
render_f.set_result(render_time)
sub_render = (
omni.usd.get_context()
.get_rendering_event_stream()
.create_subscription_to_pop_by_type(
int(omni.usd.StageRenderingEventType.NEW_FRAME),
on_render_event,
name="omni.syntheticdata.sensors.next_render_simulation_async",
order=0,
)
)
max_num_skipped_update = max(0, num_simulation_frames_offset) + 150
num_skipped_update = 0
app = omni.kit.app.get_app()
while (num_skipped_update<max_num_skipped_update) and (not render_f.done()):
await app.next_update_async()
num_skipped_update+=1
if num_skipped_update >= max_num_skipped_update:
raise SyntheticDataException(f"waiting for simulation to be rendered failed.")
async def next_sensor_data_async(viewport = None, waitSimFrame: bool = False, inViewportId: int = None):
"""Wait for frame complete event from Kit for specific viewport. """
# next_sensor_data_async API previously passed inViewportId as ViewportHandle
# This is actually incorrect and bad due to waiting on that handle, which can
# change for a variety of reasons between the retrieval of the handle and
# the wait on it below.
if hasattr(viewport, "frame_info"):
inViewportId = viewport.frame_info.get("viewport_handle")
else:
if inViewportId is None:
if isinstance(viewport, int):
inViewportId = viewport
else:
inViewportId = 0
viewport = None
carb.log_warn(f"Depreacted usage of next_sensor_data_async with inViewportId={inViewportId}, pass the Viewport instead")
app = omni.kit.app.get_app()
# wait for the next pre_update call
pre_f = asyncio.Future()
def on_pre_event(e: carb.events.IEvent):
if not pre_f.done():
swhFrameNumber = e.payload["SWHFrameNumber"]
# drivesim legacy name
if not swhFrameNumber:
swhFrameNumber = e.payload["frameNumber"]
pre_f.set_result(swhFrameNumber)
sub_pre = app.get_pre_update_event_stream().create_subscription_to_pop(on_pre_event, name="omni.kit.app._pre_update_async")
# wait the next frame to be rendered
render_f = asyncio.Future()
def on_render_event(e: carb.events.IEvent):
# Grab the ViewportHandle to match from the Viewport if we have it or the legacy inViewportId
cur_viewport_handle = viewport.frame_info.get("viewport_handle") if viewport else inViewportId
viewId = e.payload["viewport_handle"]
frameNumber = e.payload["swh_frame_number"]
if ((viewId == cur_viewport_handle) and (not waitSimFrame or (pre_f.done() and (frameNumber >= pre_f.result())))) :
if not render_f.done():
render_f.set_result(frameNumber)
sub_render = (
omni.usd.get_context()
.get_rendering_event_stream()
.create_subscription_to_pop_by_type(
int(omni.usd.StageRenderingEventType.NEW_FRAME),
on_render_event,
name="omni.syntheticdata.sensors._next_sensor_data_async",
order=0,
)
)
MAX_NUM_SKIPPED_UPDATE = 150
num_skipped_update = 0
while (num_skipped_update<MAX_NUM_SKIPPED_UPDATE) and (not render_f.done()):
await app.next_update_async()
num_skipped_update+=1
if num_skipped_update >= MAX_NUM_SKIPPED_UPDATE:
raise SyntheticDataException(f"waiting for next frame failed.")
def enable_sensors(viewport, sensor_types):
""" activate the host buffer copy nodes for given sensor
NB: This function is deprecated
"""
for sensor_type in sensor_types:
rendervar_name = SyntheticData.convert_sensor_type_to_rendervar(sensor_type.name)
get_synthetic_data().activate_node_template(rendervar_name + "ExportRawArray", 0, [viewport.render_product_path])
def disable_sensors(viewport, sensor_types):
""" deactivate the host buffer copy nodes for given sensor
NB: This function is deprecated
"""
for sensor_type in sensor_types:
rendervar_name = SyntheticData.convert_sensor_type_to_rendervar(sensor_type.name)
get_synthetic_data().deactivate_node_template(rendervar_name + "ExportRawArray", 0, [viewport.render_product_path])
def create_or_retrieve_sensor(viewport, sensor_type):
""" Retrieve a sensor for the specified viewport and sensor type.
If the sensor does not exist, it is created. Note that the sensor will be
uninitialized until a frame is rendered after the sensor is created.
NB: This function is deprecated and the asynchronous version below
(create_or_retrieve_sensor_async) should be used instead to ensure sensors
are properly initialized by the renderer after creation
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
sensor_type (omni.syntheticdata._syntheticdata.SensorType): Type of sensor to retrieve/create.
"""
enable_sensors(viewport,[sensor_type])
return sensor_type
async def create_or_retrieve_sensor_async(viewport, sensor_type):
""" Retrieve a sensor for the specified viewport and sensor type.
If the sensor does not exist, it is created. Note that the sensor will be
uninitialized until a frame is rendered after the sensor is created.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
sensor_type (omni.syntheticdata._syntheticdata.SensorType): Type of sensor to retrieve/create.
"""
enable_sensors(viewport,[sensor_type])
await next_sensor_data_async(viewport,True)
return sensor_type
async def initialize_async(viewport, sensor_types):
""" Initialize sensors in the list provided.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
sensor_types (list of omni.syntheticdata._syntheticdata.SensorType): List of sensor types to initialize.
"""
await omni.kit.app.get_app_interface().next_update_async()
enable_sensors(viewport, sensor_types)
await next_sensor_data_async(viewport,True)
def get_sensor_array(viewport, sensor_type, elemType, elemCount, is2DArray):
""" Retrieve the sensor array data from the last sensor node evaluation.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
sensor_type : Sensor type to retrieve the data from.
is2DArray : True if the array to be retrieved is a 2d array
"""
output_names = ["outputs:data"]
if is2DArray:
output_names.append("outputs:width")
output_names.append("outputs:height")
else:
output_names.append("outputs:bufferSize")
rendervar_name = SyntheticData.convert_sensor_type_to_rendervar(sensor_type.name)
outputs = get_synthetic_data().get_node_attributes(rendervar_name + "ExportRawArray", output_names, viewport.render_product_path)
data = outputs["outputs:data"] if outputs and ("outputs:data" in outputs) else None
if is2DArray:
height = outputs["outputs:height"] if outputs and ("outputs:height" in outputs) else 0
width = outputs["outputs:width"] if outputs and ("outputs:width" in outputs) else 0
bufferSize = height*width*elemCount*np.dtype(elemType).itemsize
else:
bufferSize = outputs["outputs:bufferSize"] if outputs and ("outputs:bufferSize" in outputs) else 0
if (data is None) or (len(data) < np.dtype(elemType).itemsize):
if is2DArray:
shape = (0, 0, elemCount) if elemCount > 1 else (0, 0)
else:
shape = (0, elemCount) if elemCount > 1 else (0)
return np.empty(shape, elemType)
assert bufferSize == len(data)
data = data.view(elemType)
assert len(data) > 0
if not is2DArray:
return data.reshape(data.shape[0] // elemCount, elemCount) if elemCount > 1 else data
return data.reshape(height, width, elemCount) if elemCount > 1 else data.reshape(height, width)
def get_rgb(viewport):
""" Get RGB sensor output.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
(numpy.ndarray): A uint8 array of shape (height, width, 4)
"""
return get_sensor_array(viewport, _syntheticdata.SensorType.Rgb, np.uint8, 4, True)
def get_depth(viewport):
""" Get Inverse Depth sensor output. *** DEPRECATED ***
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
(numpy.ndarray): A float32 array of shape (height, width, 1).
"""
return get_sensor_array(viewport, _syntheticdata.SensorType.Depth, np.float32, 1, True)
def get_depth_linear(viewport):
""" Get Linear Depth sensor output. *** DEPRECATED ***
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
(numpy.ndarray): A float32 array of shape (height, width, 1).
"""
return get_sensor_array(viewport, _syntheticdata.SensorType.DepthLinear, np.float32, 1, True)
def get_distance_to_image_plane(viewport):
""" Get distance to image plane sensor output.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
(numpy.ndarray): A float32 array of shape (height, width, 1).
"""
return get_sensor_array(viewport, _syntheticdata.SensorType.DistanceToImagePlane, np.float32, 1, True)
def get_distance_to_camera(viewport):
""" Get distance to camera sensor output.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
(numpy.ndarray): A float32 array of shape (height, width, 1).
"""
return get_sensor_array(viewport, _syntheticdata.SensorType.DistanceToCamera, np.float32, 1, True)
def get_camera_3d_position(viewport):
""" Get camera space 3d position sensor output.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
(numpy.ndarray): A float32 array of shape (height, width, 4).
"""
return get_sensor_array(viewport, _syntheticdata.SensorType.Camera3dPosition, np.float32, 4, True)
def get_bounding_box_3d(viewport, parsed=False, return_corners=False, camera_frame=False, instance_mappings=None):
""" Get bounding box 3D sensor output.
NB: The semanticId field in the return value is deprecated and contains undefined data
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
parsed (bool): If True, return a single bounding box for each prim with a semantic schema.
Otherwise, a bounding box will be provided for each leaf prim.
include_corners (bool): if True, calculate and return the 8 corners of each 3D bounding box.
Corners are returned in the order: [LDB, RDB, LUB, RUB, LDF, RDF, LUF, RUF] where
L=Left, R=Right, D=Down, U=Up, B=Back, F=Front and LR: x-axis, UD: y-axis, FB: z-axis.
camera_frame (bool): If True, the transforms and corners will be returned in the camera's
reference frame. Otherwise, coordinates are returned with respect to the world frame.
Note: The coordinate system is right-handed.
instance_mappings (numpy.ndarray, optional): A structured array returned by `helpers.get_instance_mappings`.
If not provided (default), a new instance mappings will be computed.
Return:
(numpy.ndarray): A structured array with the fields: `[('instanceId', '<u4'), ('semanticId', '<u4'),
("metadata", "O"), ('x_min', '<f4'), ('y_min', '<f4'), ('z_min', '<f4'), ('x_max', '<f4'), ('y_max', '<f4'),
('z_max', '<f4'), ('transform', '<f4', (4, 4))]`. If `return_corners` is `True`, an additional
field `('corners', '<f4', (8, 3)` is returned.
"""
BoundingBox3DValuesType = np.dtype(
[
("instanceId", "<u4"),
("semanticId", "<u4"),
("x_min", "<f4"),
("y_min", "<f4"),
("z_min", "<f4"),
("x_max", "<f4"),
("y_max", "<f4"),
("z_max", "<f4"),
("transform", "<f4", (4, 4)),
]
)
bboxes_3d_data = get_sensor_array(
viewport, _syntheticdata.SensorType.BoundingBox3D, BoundingBox3DValuesType, 1, False
)
# Return immediately if empty
if bboxes_3d_data.size == 0:
return bboxes_3d_data
if return_corners:
corners = helpers.get_bbox_3d_corners(bboxes_3d_data)
corners_struc = np.zeros(len(corners), dtype=[("corners", np.float32, (8, 3))])
corners_struc["corners"] = corners
bboxes_3d_data = helpers._join_struct_arrays([bboxes_3d_data, corners_struc])
if parsed:
if instance_mappings is None:
instance_mappings = helpers.get_instance_mappings()
bboxes_3d_data = helpers.reduce_bboxes_3d(bboxes_3d_data, instance_mappings)
if camera_frame:
stage = omni.usd.get_context().get_stage()
camera = stage.GetPrimAtPath(viewport.camera_path)
current_time = omni.timeline.get_timeline_interface().get_current_time()
tf_mat = np.array(UsdGeom.Camera(camera).ComputeLocalToWorldTransform(current_time))
view_matrix = np.linalg.inv(tf_mat)
bboxes_3d_data["transform"] = np.einsum("ijk,kl->ijl", bboxes_3d_data["transform"], view_matrix)
if return_corners:
corners_homo = np.pad(bboxes_3d_data["corners"], ((0, 0), (0, 0), (0, 1)), constant_values=1.0)
bboxes_3d_data["corners"] = np.einsum("ijk,kl->ijl", corners_homo, view_matrix)[..., :3]
return bboxes_3d_data
def get_bounding_box_2d_tight(viewport, instance_mappings=None):
""" Get Bounding Box 2D Tight sensor output.
Tight bounding boxes only bound the visible or unoccluded portions of an object. If an object is
completely occluded, it is omitted from the returned array. Bounds units are in pixels.
NB: The semanticId field in the return value is deprecated and contains undefined data
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
instance_mappings (numpy.ndarray, optional): A structured array returned by `helpers.get_instance_mappings`.
If not provided (default), a new instance mappings will be computed.
Return:
(np.ndarray): A structured numpy array with the fields: [('name', 'O'), ('semanticLabel', 'O'),
('instanceId', '<u4'), ('semanticId', '<u4'), ("metadata", "O"), ('x_min', '<i4'), ('y_min', '<i4'),
('x_max', '<i4'), ('y_max', '<i4')]
"""
BoundingBox2DValuesType = np.dtype(
[
("instanceId", "<u4"),
("semanticId", "<u4"),
("x_min", "<i4"),
("y_min", "<i4"),
("x_max", "<i4"),
("y_max", "<i4"),
]
)
bboxes_2d_data = get_sensor_array(
viewport, _syntheticdata.SensorType.BoundingBox2DTight, BoundingBox2DValuesType, 1, is2DArray=False
)
if instance_mappings is None:
instance_mappings = helpers.get_instance_mappings()
bboxes_2d_data = helpers.reduce_bboxes_2d(bboxes_2d_data, instance_mappings)
return bboxes_2d_data
def get_bounding_box_2d_loose(viewport, instance_mappings=None):
""" Get Bounding Box 2D Loose sensor output.
Loose bounding boxes bound the full extents of an object, even if totally occluded. Bounds units are
in pixels.
NB: The semanticId field in the return value is deprecated and contains undefined data
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
instance_mappings (numpy.ndarray, optional): A structured array returned by `helpers.get_instance_mappings`.
If not provided (default), a new instance mappings will be computed.
Return:
(np.ndarray): A structured numpy array with the fields: [('name', 'O'), ('semanticLabel', 'O'),
('instanceId', '<u4'), ('semanticId', '<u4'), ("metadata", "O"), ('x_min', '<i4'), ('y_min', '<i4'),
('x_max', '<i4'), ('y_max', '<i4')]
"""
BoundingBox2DValuesType = np.dtype(
[
("instanceId", "<u4"),
("semanticId", "<u4"),
("x_min", "<i4"),
("y_min", "<i4"),
("x_max", "<i4"),
("y_max", "<i4"),
]
)
bboxes_2d_data = get_sensor_array(
viewport, _syntheticdata.SensorType.BoundingBox2DLoose, BoundingBox2DValuesType, 1, is2DArray=False
)
if instance_mappings is None:
instance_mappings = helpers.get_instance_mappings()
bboxes_2d_data = helpers.reduce_bboxes_2d(bboxes_2d_data, instance_mappings)
return bboxes_2d_data
def get_semantic_segmentation(viewport, parsed=False, return_mapping=False, instance_mappings=None):
"""Get semantic segmentation sensor output.
NB: The non-parsed return value (parsed=False) is deprecated and contains undefined data
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
parsed (bool): If True, map each leaf prim to a parent with a semantic schema applied. Otherwise,
each leaf prim is returned as a unique semantic ID.
return_mapping (bool): Whether to also return an array mapping instance IDs to their corresponding prims.
instance_mappings (numpy.ndarray, optional): A structured array returned by `helpers.get_instance_mappings`.
If not provided (default), a new instance mappings will be computed.
Return:
output (np.ndarray): A uint32 array of shape `(height, width)`.
mapping (list): (optional) If `return_mapping` is True, there will be an additional array containing the
mapping of instance IDs to their corresponding prims. Each row corresponds to a prim with a
SemanticSchema of Type="class". The mapping is provided in the following format:
`(ID (int), path (str), semanticID (int), semanticLabel (str), descendentIDs (list of int))`
"""
if parsed:
instance_data = get_sensor_array(viewport, _syntheticdata.SensorType.InstanceSegmentation, np.uint32, 1, True)
if instance_mappings is None:
instance_mappings = helpers.get_instance_mappings()
if len(instance_mappings) == 0:
return get_sensor_array(viewport, _syntheticdata.SensorType.SemanticSegmentation, np.uint32, 1, True)
semantic_instances = {}
for im in instance_mappings[::-1]:
semantic_instances.setdefault(im["semanticId"], []).extend(im["instanceIds"])
max_semantic_instance_id = np.max([max(il) for _, il in semantic_instances.items()])
max_instance_id = instance_data.max()
lut = np.zeros(max(max_semantic_instance_id, max_instance_id) + 1, dtype=np.uint32)
for i, (_, il) in enumerate(semantic_instances.items()):
lut[np.array(il)] = i + 1 # +1 to differentiate from ray misses
semantic_data = np.take(lut, instance_data)
else:
semantic_data = get_sensor_array(viewport, _syntheticdata.SensorType.SemanticSegmentation, np.uint32, 1, True)
if return_mapping:
if instance_mappings is None:
instance_mappings = helpers.get_instance_mappings()
return semantic_data, instance_mappings
else:
return semantic_data
def get_instance_segmentation(viewport, parsed=False, return_mapping=False, instance_mappings=None):
""" Get instance segmentation sensor output.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
parsed (bool): If True, map each leaf prim to a parent with a semantic schema applied. Otherwise,
each leaf prim is returned as a unique instance.
return_mapping (bool): Whether to also return an array mapping instance IDs to their corresponding prims.
instance_mappings (numpy.ndarray, optional): A structured array returned by `helpers.get_instance_mappings`
If not provided (default), a new instance mappings will be computed.
Return:
output (np.ndarray): A uint32 array of shape `(height, width)`
mapping (list): (optional) If `return_mapping` is True, there will be an additional array containing the
mapping of instance IDs to their corresponding prims. Each row corresponds to a prim with a
SemanticSchema of Type="class". The mapping is provided in the following format:
`(ID (int), path (str), semanticID (int), semanticLabel (str), descendentIDs (list of int))`
"""
instance_data = get_sensor_array(viewport, _syntheticdata.SensorType.InstanceSegmentation, np.uint32, 1, True)
if parsed:
if instance_mappings is None:
instance_mappings = helpers.get_instance_mappings()
if len(instance_mappings) == 0:
return instance_data
instances_list = [(im[0], im[4]) for im in instance_mappings][::-1]
if len(instances_list) == 0:
carb.log_warn("[omni.syntheticdata.visualize] No instances found.")
return instance_data
max_instance_id_list = max([max(il[1]) for il in instances_list])
max_instance_id = instance_data.max()
lut = np.zeros(max(max_instance_id, max_instance_id_list) + 1, dtype=np.uint32)
for uid, il in instances_list:
lut[np.array(il)] = uid
instance_data = np.take(lut, instance_data)
if return_mapping:
if instance_mappings is None:
instance_mappings = helpers.get_instance_mappings()
return instance_data, instance_mappings
else:
return instance_data
def get_normals(viewport):
""" Get Normals sensor output.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
(numpy.ndarray): A float32 array of shape `(height, width, 3)` with values in the range of
`(-1., 1.)`.
"""
return get_sensor_array(viewport, _syntheticdata.SensorType.Normal, np.float32, 4, True)[..., :3]
def get_motion_vector(viewport):
""" Get Motion Vector sensor output.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
TOCHECK : this does not describe what the legacy interface was returning
(numpy.ndarray): A float32 array of shape `(height, width, 3)` with values in the range of `(-1., 1.)`.
"""
return get_sensor_array(viewport, _syntheticdata.SensorType.MotionVector, np.float32, 4, True)
def get_cross_correspondence(viewport):
""" Get Cross Correspondence sensor output.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
(numpy.ndarray): A float32 array of shape `(height, width, 4)` with values in the range of
`(-1., 1.)`.
"""
return get_sensor_array(viewport, _syntheticdata.SensorType.CrossCorrespondence, np.float32, 4, True)
def get_occlusion(viewport, parsed=False, instance_mappings=None):
"""Get Occlusion values.
Returns occlusion of instances as a ratio from 0. to 1. Note that this sensor is only applied to leaf prims.
For example, if an asset is composed of multiple sub-meshes, an occlusion value will be calculated for each
sub-mesh.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
parsed (bool): If True, map occlusion values to prims with a semantic class. If the mapped prim has more than
one child with an occlusion value, a naive average will be performed. Note that this value will likely not
be accurate.
instance_mappings (numpy.ndarray, optional): A structured array returned by `helpers.get_instance_mappings`.
If not provided (default), a new instance mappings will be computed.
Return:
(numpy.ndarray): A structured numpy array with the fields: [('instanceId', '<u4'), ('semanticId', '<u4'),
('occlusionRatio', '<f4')], where occlusion ranges from 0 (not occluded) to 1 (fully occluded).
If `parsed` is True, the additional fields [('name', 'O'), ('semanticLabel', 'O'), ("metadata", "O")]
are returned.
"""
OcclusionType = np.dtype([("instanceId", "<u4"), ("semanticId", "<u4"), ("occlusionRatio", "<f4")])
data = get_sensor_array(viewport, _syntheticdata.SensorType.Occlusion, OcclusionType, 1, is2DArray=False)
if parsed:
if instance_mappings is None:
instance_mappings = helpers.get_instance_mappings()
return helpers.reduce_occlusion(data, instance_mappings)
return data
def get_semantic_data(instance_mappings=None):
""" Get Semantic Data.
Args:
instance_mappings (numpy.ndarray, optional): A structured array returned by `helpers.get_instance_mappings`.
If not provided (default), a new instance mappings will be computed.
Return:
(numpy.ndarray): A structured numpy array with the fields: [('uniqueId', '<i4'),
('name', 'O'), ('semanticLabel', 'O'), ('metadata', 'O')]
"""
if instance_mappings is None:
instance_mappings = helpers.get_instance_mappings()
output = []
for row in instance_mappings:
output.append((row[0], row[1], row[3], row[5]))
output = np.array(output, dtype=[("uniqueId", np.int32), ("name", "O"), ("semanticLabel", "O"), ("metadata", "O")])
return output
def get_occlusion_quadrant(viewport, return_bounding_boxes=False):
""" Get Occlusion Quadrant.
Uses loose and tight bounding boxes to return the occluded quadrant of all prims with semantic class.
Note that the label "fully-visible" specifies that the full height and width of the prim's bounds
can be determined, and the prim may still be partially occluded.
Args:
viewport (opaque Viewport instance): Viewport from which to retrieve/create sensor.
Return:
(numpy.ndarray): A structured numpy array with the fields: [('name', 'O'), ('semanticLabel', 'O'),
('instanceId', '<u4'), ('semanticId', '<u4'), ('occlusion_quadrant', 'O')], where
occlusion_quadrant is a string from ['bottom', 'top', 'right', 'left',
'bottom-right', 'bottom-left', 'top-right', 'top-left', 'fully-visible', 'fully-occluded'].
If `return_bounding_boxes` is True, the fields `x_min`, `y_min`, `x_max`, `y_max` for
with suffixes `_bbox2d_tight` and `_bbox2d_loose` will be returned as well.
"""
tight_data = get_bounding_box_2d_tight(viewport)
loose_data = get_bounding_box_2d_loose(viewport)
merged_data = helpers.merge_sensors(bounding_box_2d_tight=tight_data, bounding_box_2d_loose=loose_data)
is_fully_occluded = merged_data["x_min_bbox2d_tight"] == -1
is_occluded_left = (merged_data["x_min_bbox2d_tight"] > merged_data["x_min_bbox2d_loose"]) & ~is_fully_occluded
is_occluded_right = (merged_data["x_max_bbox2d_tight"] < merged_data["x_max_bbox2d_loose"]) & ~is_fully_occluded
is_occluded_top = (merged_data["y_min_bbox2d_tight"] > merged_data["y_min_bbox2d_loose"]) & ~is_fully_occluded
is_occluded_bottom = (merged_data["y_max_bbox2d_tight"] < merged_data["y_max_bbox2d_loose"]) & ~is_fully_occluded
is_occluded_bottom_left = is_occluded_bottom & is_occluded_left
is_occluded_bottom_right = is_occluded_bottom & is_occluded_right
is_occluded_top_right = is_occluded_top & is_occluded_right
is_occluded_top_left = is_occluded_top & is_occluded_left
label = np.array(["fully-visible"] * len(merged_data), dtype=[("occlusion_quadrant", "O")])
label[is_occluded_top] = "top"
label[is_occluded_bottom] = "bottom"
label[is_occluded_right] = "right"
label[is_occluded_left] = "left"
label[is_occluded_bottom_left] = "bottom-left"
label[is_occluded_bottom_right] = "bottom-right"
label[is_occluded_top_left] = "top-left"
label[is_occluded_top_right] = "top-right"
label[is_fully_occluded] = "fully-occluded"
if return_bounding_boxes:
output = helpers._join_struct_arrays([merged_data, label])
else:
output = helpers._join_struct_arrays(
[merged_data[["uniqueId", "name", "semanticLabel", "metadata", "instanceIds"]], label]
)
return output
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/visualize.py | import random
import colorsys
import numpy as np
import carb
from PIL import Image, ImageDraw
from . import helpers
from . import sensors
# Colorize Helpers
def colorize_distance(image_data):
height, width = image_data.shape[:2]
colorized_image = np.zeros((height, width, 4))
image_data[image_data == 0.0] = 1e-5
image_data = np.clip(image_data, 0, 255)
image_data -= np.min(image_data)
image_data /= np.max(image_data) + 1e-8
colorized_image[:, :, 0] = image_data
colorized_image[:, :, 1] = image_data
colorized_image[:, :, 2] = image_data
colorized_image[:, :, 3] = 1
colorized_image = (colorized_image * 255).astype(int)
return colorized_image
def colorize_segmentation(segmentation_image):
segmentation_ids = np.unique(segmentation_image)
num_colours = len(segmentation_ids)
# This is to avoid generating lots of colours for semantic classes not in frame
lut = np.array([segmentation_ids, list(range(num_colours))])
new_segmentation_image = lut[1, np.searchsorted(lut[0, :], segmentation_image)]
colours = np.array([[0.0] * 4] + random_colours(num_colours))
segmentation_image_rgba = (colours[new_segmentation_image] * 255).astype(int)
return segmentation_image_rgba
def colorize_bboxes(bboxes_2d_data, bboxes_2d_rgb):
semantic_id_list = []
bbox_2d_list = []
for bbox_2d in bboxes_2d_data:
if bbox_2d["semanticId"] > 0:
semantic_id_list.append(bbox_2d["semanticId"])
bbox_2d_list.append(bbox_2d)
semantic_id_list_np = np.unique(np.array(semantic_id_list))
color_list = random_colours(len(semantic_id_list_np.tolist()))
img = Image.fromarray(bboxes_2d_rgb)
draw = ImageDraw.Draw(img)
for bbox_2d in bbox_2d_list:
index = np.where(semantic_id_list_np == bbox_2d["semanticId"])[0][0]
bbox_color = color_list[index]
draw.rectangle(
xy=[(bbox_2d["x_min"], bbox_2d["y_min"]), (bbox_2d["x_max"], bbox_2d["y_max"])],
outline=(
int(255 * bbox_color[0]),
int(255 * bbox_color[1]),
int(255 * bbox_color[2]),
int(255 * bbox_color[3]),
),
width=4,
)
return np.asarray(img)
def colorize_bboxes_3d(bboxes_3d_corners, rgb):
"""bboxes_3d_corners: in the local camera frame"""
height, width = rgb.shape[:2]
# FILTER BOXES
mask_uv = ~np.any(np.all(bboxes_3d_corners < 0, axis=1), axis=1) & ~np.any(
np.all(bboxes_3d_corners > 1, axis=1), axis=1
)
mask_z = np.all(np.all(bboxes_3d_corners[..., 2:] >= 0, axis=1), axis=1) & np.all(
np.all(bboxes_3d_corners[..., 2:] <= 1, axis=1), axis=1
)
bboxes_3d_corners = bboxes_3d_corners[mask_uv & mask_z]
bboxes_3d_corners = bboxes_3d_corners[..., :2].reshape(-1, 8, 2) * np.array([[width, height]])
face_idx_list = [[0, 1, 3, 2], [4, 5, 7, 6], [2, 3, 7, 6], [0, 1, 5, 4], [0, 2, 6, 4], [1, 3, 7, 5]]
colours = random_colours(len(face_idx_list))
master_overlay = np.zeros_like(rgb)
master_overlay_img = Image.fromarray(master_overlay)
for face_idxs, colour in zip(face_idx_list, colours):
overlay = Image.new("RGBA", (width, height))
draw = ImageDraw.Draw(overlay)
colour = [int(c * 255) for c in colour]
for p in bboxes_3d_corners:
draw.polygon([tuple(xy) for xy in p[face_idxs]], fill=tuple([*colour[:3], 120]))
draw.line([tuple(xy) for xy in p[face_idxs]], width=3, fill=tuple(colour))
master_overlay_img = Image.alpha_composite(master_overlay_img, overlay)
rgb_img = Image.fromarray(rgb)
rgb_img = Image.alpha_composite(rgb_img, master_overlay_img)
return np.asarray(rgb_img)
def random_colours(N):
"""
Generate random colors.
Generate visually distinct colours by linearly spacing the hue
channel in HSV space and then convert to RGB space.
"""
colour_rand = random.Random(2018) # Produces consistent random colours
start = colour_rand.random()
hues = [(start + i / N) % 1.0 for i in range(N)]
colours = [list(colorsys.hsv_to_rgb(h, 0.9, 1.0)) + [1.0] for i, h in enumerate(hues)]
colour_rand.shuffle(colours)
return colours
def get_bbox2d_tight(viewport):
rgb_data = sensors.get_rgb(viewport)
bboxes_2d_data = sensors.get_bounding_box_2d_tight(viewport)
bboxes_2d_rgb = colorize_bboxes(bboxes_2d_data, rgb_data)
return bboxes_2d_rgb
def get_bbox2d_loose(viewport):
rgb_data = sensors.get_rgb(viewport)
bboxes_2d_data = sensors.get_bounding_box_2d_loose(viewport)
bboxes_2d_rgb = colorize_bboxes(bboxes_2d_data, rgb_data)
return bboxes_2d_rgb
def get_normals(viewport):
normals = sensors.get_normals(viewport)
background_mask = np.sum(normals, axis=-1) == 0.0
# normalize from [-1, 1] to [0, 255]
normals = (normals + 1.0) / 2 * 255
# Set background alpha to 0.
normals = np.pad(normals, ((0, 0), (0, 0), (0, 1)), constant_values=255)
normals[background_mask, 3] = 0.0
return normals.astype(np.uint8)
def get_motion_vector(viewport):
motion_vector = sensors.get_motion_vector(viewport)
_min, _max = motion_vector.min(), motion_vector.max()
motion_vector = (motion_vector - _min) / (_max - _min) * 255.0
return motion_vector.astype(np.uint8)
def get_cross_correspondence(viewport):
cross_correspondence = sensors.get_cross_correspondence(viewport)
# normalize from [-1, 1] to [0, 255]
# invalid values of -1 convert to 0
cross_correspondence = ((cross_correspondence + 1.0) / 2) * 255
return cross_correspondence.astype(np.uint8)
def get_instance_segmentation(viewport, mode=None):
if not mode:
carb.log_info('[omni.syntheticdata.visualize] No semantic mode provided, defaulting to "parsed"')
mode = "parsed"
if mode == "raw":
instance_data = sensors.get_instance_segmentation(viewport, parsed=False)
elif mode == "parsed":
instance_data = sensors.get_instance_segmentation(viewport, parsed=True)
else:
raise NotImplementedError
instance_image = colorize_segmentation(instance_data)
return instance_image
def get_semantic_segmentation(viewport, mode=""):
if not mode:
carb.log_info('[omni.syntheticdata.visualize] No semantic mode provided, defaulting to "parsed"')
mode = "instance_map"
# s = time.time()
if mode == "raw":
semantic_data = sensors.get_semantic_segmentation(viewport, parsed=False)
elif mode == "parsed":
semantic_data = sensors.get_semantic_segmentation(viewport, parsed=True)
else:
raise NotImplementedError
semantic_image = colorize_segmentation(semantic_data)
return semantic_image
def get_bbox3d(viewport, mode="parsed"):
rgb_data = sensors.get_rgb(viewport)
bbox_3d_data = sensors.get_bounding_box_3d(viewport, parsed=(mode == "parsed"), return_corners=True)
bbox_3d_corners = bbox_3d_data["corners"]
projected_corners = helpers.world_to_image(bbox_3d_corners.reshape(-1, 3), viewport).reshape(-1, 8, 3)
bboxes_3d_rgb = colorize_bboxes_3d(projected_corners, rgb_data)
return bboxes_3d_rgb
# *** DEPRECATED ***
def get_depth(viewport, mode="linear"):
if mode == "linear":
depth_data = sensors.get_depth_linear(viewport)
depth_data[depth_data == depth_data.max()] = 0.0
elif mode == "inverse_depth":
depth_data = sensors.get_depth(viewport)
else:
raise ValueError(f"Mode {mode} is invalid. Choose between " "['linear', 'inverse_depth'].")
return colorize_distance(depth_data.squeeze())
def get_distance(viewport, mode="image_plane"):
if mode == "image_plane":
distance_data = sensors.get_distance_to_image_plane(viewport)
distance_data[distance_data == distance_data.max()] = 0.0
elif mode == "camera":
distance_data = sensors.get_distance_to_camera(viewport)
distance_data[distance_data == distance_data.max()] = 0.0
else:
raise ValueError(f"Mode {mode} is invalid. Choose between " "['image_plane', 'camera'].")
return colorize_distance(distance_data.squeeze())
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/extension.py | from pxr import Tf, Trace, Usd
import carb.settings
import omni.kit
import omni.ext
# legacy extension export
from . import helpers
from . import visualize
from . import sensors
from .SyntheticData import *
EXTENSION_NAME = "Synthetic Data"
_extension_instance = None
class Extension(omni.ext.IExt):
def __init__(self):
super().__init__()
self.__viewport_legacy_event_sub = None
self.__viewport_legacy_close = None
self.__extension_loaded = None
self.__menu_container = None
def __menubar_core_loaded(self):
from .menu import SynthDataMenuContainer
self.__menu_container = SynthDataMenuContainer()
def __menubar_core_unloaded(self):
if self.__menu_container:
self.__menu_container.destroy()
self.__menu_container = None
def __viewport_legcy_loaded(self):
from .viewport_legacy import ViewportLegacy
self.__viewport_legacy_event_sub = ViewportLegacy.create_update_subscription()
self.__viewport_legacy_close = ViewportLegacy.close_viewports
def __viewport_legcy_unloaded(self):
if self.__viewport_legacy_event_sub:
self.__viewport_legacy_event_sub = None
if self.__viewport_legacy_close:
self.__viewport_legacy_close()
self.__viewport_legacy_close = None
def on_startup(self, ext_id):
global _extension_instance
_extension_instance = self
carb.log_info("[omni.syntheticdata] SyntheticData startup")
settings = carb.settings.get_settings()
settings.set_default("/exts/omni.syntheticdata/menubar/visible", True)
settings.set_default("/exts/omni.syntheticdata/menubar/order", -1)
settings.set_default("/exts/omni.syntheticdata/menubar/showSensorDefaultButton", False)
manager = omni.kit.app.get_app().get_extension_manager()
self.__extension_loaded = (
manager.subscribe_to_extension_enable(
lambda _: self.__menubar_core_loaded(),
lambda _: self.__menubar_core_unloaded(),
ext_name="omni.kit.viewport.menubar.core",
hook_name=f"{ext_id} omni.kit.viewport.menubar.core listener",
),
manager.subscribe_to_extension_enable(
lambda _: self.__viewport_legcy_loaded(),
lambda _: self.__viewport_legcy_unloaded(),
ext_name="omni.kit.window.viewport",
hook_name=f"{ext_id} omni.kit.window.viewport listener",
)
)
self._stage_event_sub = (
omni.usd.get_context()
.get_stage_event_stream()
.create_subscription_to_pop(self._on_stage_event, name="omni.syntheticdata stage update")
)
# force settings
stageHistoryFrameCount = settings.get_as_int("/app/settings/fabricDefaultStageFrameHistoryCount")
if not stageHistoryFrameCount or (int(stageHistoryFrameCount) < 3):
carb.log_error(f"SyntheticData extension needs at least a stageFrameHistoryCount of 3")
if settings.get_as_bool("/rtx/gatherColorToDisplayDevice") and settings.get_as_bool("/renderer/multiGpu/enabled"):
carb.log_error("SyntheticData extension does not support /rtx/gatherColorToDisplayDevice=true with multiple GPUs.")
SyntheticData.Initialize()
def _on_stage_event(self, event):
if event.type == int(omni.usd.StageEventType.CLOSING):
if self.__viewport_legacy_close:
self.__viewport_legacy_close()
# FIXME : this cause rendering issues (added for unittests)
SyntheticData.Get().reset(False)
# this is fishy but if we reset the graphs in the closing event the rendering is not happy
elif event.type == int(omni.usd.StageEventType.OPENED):
SyntheticData.Get().reset(False)
if self.__menu_container:
self.__menu_container.clear_all()
def on_shutdown(self):
global _extension_instance
_extension_instance = None
self.__extension_loaded = None
self._stage_event_sub = None
self.__viewport_legcy_unloaded()
self.__menubar_core_unloaded()
SyntheticData.Reset()
def get_name(self):
return EXTENSION_NAME
@staticmethod
def get_instance():
return _extension_instance
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/__init__.py | |
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/SyntheticData.py | from sqlite3 import connect
from pxr import Sdf, Usd, UsdRender
import carb
import omni.graph.core as og
import omni.usd
import omni.kit
from dataclasses import dataclass, field
""" SyntheticData class is the prototype interface implementation (will be eventually integrated in SynthetiData C++ interface )
- contains the definition of all omnigraphs
- expose methods for the user to
- add / remove custom nodes to graphs
"""
_sdg_iface = None
class SyntheticDataException(Exception):
def __init__(self, message="error"):
self.message = message
super().__init__(self.message)
class SyntheticDataStage:
# stage is set automatically from the node connections' stages
AUTO = -1
# global simulation : node scheduled in the simulation graph
SIMULATION = 0
# prerender : node scheduled in the prerender graph
PRE_RENDER = 1
# postrender : node scheduled in the postrender graph for a specific renderproduct
POST_RENDER = 2
# on demand : node scheduled in the postprocess graph
ON_DEMAND = 3
class SyntheticData:
_graphPathRoot = "/Render"
_graphName = "SDGPipeline"
_simulationGraphPath = "Simulation/" + _graphName
_preRenderGraphPath = "PreRender/" + _graphName
_postRenderGraphPath = "PostRender/" + _graphName
_postProcessGraphPath = "PostProcess/" + _graphName
_postProcessGraphTickOrder = -99 # eCheckForHydraRenderComplete + 1
_rendererTemplateName = "GpuInteropEntry"
_renderVarBuffSuffix = "buff"
_renderVarHostSuffix = "host"
_renderVarToHostTemplateName = "PostRenderVarToHost"
_renderProductAttributeName = "inputs:renderProductPath"
_instanceMappingChangeTriggerTemplateName ="InstanceMappingChangeTrigger"
_renderVarHostToDiskTriggerTemplateName ="RenderVarHostToDiskTrigger"
_instanceMappingCtrl = "InstanceMappingPre"
_defaultSemanticFilterName = "DefaultSemanticFilter"
# graph registry : contains node templates used to construct a graph
# node template name / id
# list containing :
# - node type
# - list of template dependencies description :
# - connection node template name or renderVar name
# - index of the render product in the list provided during activation
# - dictionnary of inputs / outputs mapping
# - node attributes name/value dictionnary to be set during the activation
#
@dataclass
class NodeConnectionTemplate:
node_template_id: str
render_product_idxs: tuple = (0,)
attributes_mapping: dict = field(default_factory=dict)
@dataclass
class NodeTemplate:
pipeline_stage: int
node_type_id: str
connections: list = field(default_factory=list)
attributes: dict = field(default_factory=dict)
_ogn_templates_registry = {
# --- Camera
"RenderProductCameraPrimPath": NodeTemplate(
SyntheticDataStage.SIMULATION,
"omni.syntheticdata.SdSimRenderProductCamera"
),
"PostRenderProductCamera": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdRenderProductCamera",
[
NodeConnectionTemplate(
_rendererTemplateName,
attributes_mapping={
"outputs:rp": "inputs:renderResults",
"outputs:exec": "inputs:exec",
"outputs:gpu" : "inputs:gpu"
}),
NodeConnectionTemplate("RenderProductCameraPrimPath", attributes_mapping={
"outputs:exec": "inputs:exec"})
]
),
# --- GPUInterop
_rendererTemplateName: NodeTemplate(SyntheticDataStage.POST_RENDER, "omni.graph.nodes.GpuInteropRenderProductEntry"),
# --- InstanceMapping
_instanceMappingCtrl : NodeTemplate(
SyntheticDataStage.SIMULATION,
"omni.syntheticdata.SdSimInstanceMapping",
attributes={"inputs:needTransform": False, "inputs:semanticFilterPredicate":"*:*"}
),
_defaultSemanticFilterName: NodeTemplate(
SyntheticDataStage.SIMULATION,
"omni.syntheticdata.SdSemanticFilter",
attributes={"inputs:name": "default", "inputs:predicate": "*:*"}
),
"InstanceMappingTransforms": NodeTemplate(
SyntheticDataStage.SIMULATION,
"omni.syntheticdata.SdSimInstanceMapping",
[
NodeConnectionTemplate(_instanceMappingCtrl, render_product_idxs=())
],
{"inputs:needTransform": True}
),
"InstanceMappingPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostInstanceMapping",
[
NodeConnectionTemplate("InstanceIdTokenMapSD"),
NodeConnectionTemplate(_instanceMappingCtrl, attributes_mapping={"outputs:exec": "inputs:exec"}, render_product_idxs=())
],
{},
),
# --- NoOp node used to expose the semantic transforms renderVars
"InstanceMappingPostWithTransforms": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdNoOp",
[
NodeConnectionTemplate("InstanceMappingTransforms", attributes_mapping={"outputs:exec": "inputs:exec"}, render_product_idxs=()),
NodeConnectionTemplate("InstanceMappingPost", attributes_mapping={"outputs:exec": "inputs:exec"})
],
{},
),
# --- BoundingBoxes
"BoundingBox2DTightReduction": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostSemanticBoundingBox",
[
NodeConnectionTemplate("BoundingBox2DTightSD"),
NodeConnectionTemplate("InstanceMappingPost")
],
{"inputs:renderVar": "BoundingBox2DTightSD"},
),
"BoundingBox2DLooseReduction": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostSemanticBoundingBox",
[
NodeConnectionTemplate("BoundingBox2DLooseSD"),
NodeConnectionTemplate("InstanceMappingPost")
],
{"inputs:renderVar": "BoundingBox2DLooseSD"},
),
"BoundingBox3DReduction": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostSemanticBoundingBox",
[
NodeConnectionTemplate("BoundingBox3DSD"),
NodeConnectionTemplate("InstanceMappingTransforms", attributes_mapping={"outputs:exec": "inputs:exec"}, render_product_idxs=()),
NodeConnectionTemplate("InstanceMappingPost")
],
{"inputs:renderVar": "BoundingBox3DSD"},
),
"BoundingBox3DCameraProjection": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostSemantic3dBoundingBoxCameraProjection",
[
NodeConnectionTemplate("BoundingBox3DSD"),
NodeConnectionTemplate("BoundingBox3DReduction"),
NodeConnectionTemplate("PostRenderProductCamera"),
NodeConnectionTemplate("InstanceMappingTransforms", attributes_mapping={"outputs:exec": "inputs:exec"}, render_product_idxs=()),
NodeConnectionTemplate("InstanceMappingPost")
]
),
"BoundingBox3DFilter": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostSemantic3dBoundingBoxFilter",
[
NodeConnectionTemplate("BoundingBox3DSD"),
NodeConnectionTemplate("BoundingBox3DCameraProjection"),
NodeConnectionTemplate("PostRenderProductCamera"),
NodeConnectionTemplate("BoundingBox3DReduction"),
NodeConnectionTemplate("InstanceMappingPost")
]
),
# --- Post-Render triggerers
_renderVarHostToDiskTriggerTemplateName: NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdFabricTimeRangeExecution",
[
NodeConnectionTemplate
(
_rendererTemplateName, attributes_mapping={
"outputs:rp": "inputs:renderResults",
"outputs:gpu": "inputs:gpu"
}
)
]
),
_instanceMappingChangeTriggerTemplateName: NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdTimeChangeExecution",
[
NodeConnectionTemplate("InstanceMappingPost"),
NodeConnectionTemplate
(
_rendererTemplateName, attributes_mapping={
"outputs:rp": "inputs:renderResults"
}
)
]
),
# --- PostRenderVarDisplay
"LdrColorDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[NodeConnectionTemplate("LdrColorSD")],
{"inputs:renderVar": "LdrColorSD"},
),
"DistanceToImagePlaneDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[NodeConnectionTemplate("DistanceToImagePlaneSD")],
{
"inputs:renderVar": "DistanceToImagePlaneSD",
"inputs:parameters": [0.0, 100.0, 0.0, 0.0]
},
),
"DistanceToCameraDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[NodeConnectionTemplate("DistanceToCameraSD")],
{
"inputs:renderVar": "DistanceToCameraSD",
"inputs:parameters": [0.0, 100.0, 0.0, 0.0]
},
),
"Camera3dPositionDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[NodeConnectionTemplate("Camera3dPositionSD")],
{"inputs:renderVar": "Camera3dPositionSD"},
),
"NormalDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[NodeConnectionTemplate("NormalSD")],
{"inputs:renderVar": "NormalSD"},
),
"CrossCorrespondenceDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[NodeConnectionTemplate("CrossCorrespondenceSD")],
{"inputs:renderVar": "CrossCorrespondenceSD"},
),
"TargetMotionDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[NodeConnectionTemplate("TargetMotionSD")],
{
"inputs:renderVar": "TargetMotionSD",
"inputs:parameters": [1.0, 5.0, 0.0, 0.0]
},
),
"InstanceIdSegmentationDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[NodeConnectionTemplate("InstanceSegmentationSD")],
{"inputs:renderVar": "InstanceSegmentationSD",
"inputs:renderVarDisplay": "RawInstanceSegmentationSDDisplay", "inputs:mode": "segmentationMapMode"},
),
"InstanceSegmentationDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[
NodeConnectionTemplate("InstanceSegmentationSD"),
NodeConnectionTemplate("InstanceMappingPost")
],
{"inputs:renderVar": "InstanceSegmentationSD", "inputs:mode": "semanticPathMode"},
),
"SemanticSegmentationDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[
NodeConnectionTemplate("InstanceSegmentationSD"),
NodeConnectionTemplate("InstanceMappingPost"),
],
{"inputs:renderVar": "InstanceSegmentationSD",
"inputs:renderVarDisplay": "SemanticSegmentationSDDisplay", "inputs:mode": "semanticLabelMode"},
),
"BoundingBox2DTightDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[
NodeConnectionTemplate("LdrColorSD"),
NodeConnectionTemplate("InstanceMappingPost"),
NodeConnectionTemplate("BoundingBox2DTightReduction"),
],
{"inputs:renderVar": "LdrColorSD", "inputs:renderVarDisplay": "BoundingBox2DTightSDDisplay",
"inputs:mode": "semanticBoundingBox2dMode"},
),
"BoundingBox2DLooseDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[
NodeConnectionTemplate("LdrColorSD"),
NodeConnectionTemplate("InstanceMappingPost"),
NodeConnectionTemplate("BoundingBox2DLooseReduction"),
],
{"inputs:renderVar": "LdrColorSD", "inputs:renderVarDisplay": "BoundingBox2DLooseSDDisplay",
"inputs:mode": "semanticBoundingBox2dMode"},
),
"BoundingBox3DDisplayPost": NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarDisplayTexture",
[
NodeConnectionTemplate("LdrColorSD"),
NodeConnectionTemplate("Camera3dPositionSD"),
NodeConnectionTemplate("PostRenderProductCamera"),
NodeConnectionTemplate("InstanceMappingPost"),
NodeConnectionTemplate("BoundingBox3DFilter"),
NodeConnectionTemplate("BoundingBox3DCameraProjection"),
NodeConnectionTemplate("BoundingBox3DReduction"),
],
{
"inputs:renderVar": "LdrColorSD",
"inputs:renderVarDisplay": "BoundingBox3DSDDisplay",
"inputs:mode": "semanticBoundingBox3dMode",
"inputs:parameters": [0.0, 5.0, 0.027, 0.27]
},
),
# --- PostProcess
"PostProcessDispatcher": NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdOnNewFrame"
),
"PostProcessDispatch": NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdOnNewRenderProductFrame",
[NodeConnectionTemplate("PostProcessDispatcher", render_product_idxs=())]
),
"PostProcessRenderProductCamera": NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdRenderProductCamera",
[
NodeConnectionTemplate("PostProcessDispatch"),
NodeConnectionTemplate("PostRenderProductCamera", attributes_mapping={
"outputs:exec": "inputs:exec"}),
NodeConnectionTemplate(_rendererTemplateName, attributes_mapping={
"outputs:exec": "inputs:exec"}) # provide the renderResults
]
),
"InstanceMapping": NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdInstanceMapping",
[
NodeConnectionTemplate("PostProcessDispatch"),
NodeConnectionTemplate("InstanceMappingPost", attributes_mapping={"outputs:exec": "inputs:exec"})
]
),
"InstanceMappingWithTransforms": NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdInstanceMapping",
[
NodeConnectionTemplate("PostProcessDispatch"),
NodeConnectionTemplate("InstanceMappingTransforms", attributes_mapping={"outputs:exec": "inputs:exec"}, render_product_idxs=()),
NodeConnectionTemplate("InstanceMappingPost", attributes_mapping={"outputs:exec": "inputs:exec"})
]
),
"InstanceMappingPtr": NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdInstanceMappingPtr",
[
NodeConnectionTemplate("PostProcessDispatch"),
NodeConnectionTemplate("InstanceMappingPost", attributes_mapping={"outputs:exec": "inputs:exec"})
]
),
"InstanceMappingPtrWithTransforms": NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdInstanceMappingPtr",
[
NodeConnectionTemplate("PostProcessDispatch"),
NodeConnectionTemplate("InstanceMappingTransforms", attributes_mapping={"outputs:exec": "inputs:exec"}, render_product_idxs=()),
NodeConnectionTemplate("InstanceMappingPost", attributes_mapping={"outputs:exec": "inputs:exec"})
]
)
}
# set of rendervars associated to the node exposing them :
# - renderVar generated by the renderer are exposed by the GpuInteropEntry
# - others renderVars are generated by some postRender nodes
# FIXME : the list of renderer rendervars should be queried from the renderer
_ogn_rendervars = {
# default renderer renderVaras
"LdrColor": _rendererTemplateName,
"HdrColor": _rendererTemplateName,
"Depth": _rendererTemplateName,
# sd renderer renderVars
"LdrColorSD": _rendererTemplateName,
"Camera3dPositionSD": _rendererTemplateName,
"DistanceToImagePlaneSD": _rendererTemplateName,
"DistanceToCameraSD": _rendererTemplateName,
"DepthSD": _rendererTemplateName,
"DepthLinearSD": _rendererTemplateName,
"InstanceSegmentationSD": _rendererTemplateName,
"SemanticSegmentationSD": _rendererTemplateName,
"NormalSD": _rendererTemplateName,
"TargetMotionSD": _rendererTemplateName,
"BoundingBox2DTightSD": _rendererTemplateName,
"BoundingBox2DLooseSD": _rendererTemplateName,
"BoundingBox3DSD": _rendererTemplateName,
"OcclusionSD": _rendererTemplateName,
"TruncationSD": _rendererTemplateName,
"CrossCorrespondenceSD": _rendererTemplateName,
"InstanceIdTokenMapSD": _rendererTemplateName,
"SemanticIdTokenMapSD": _rendererTemplateName,
# postRender nodes rendervars
"InstanceMappingInfoSDhost": "InstanceMappingPost",
"SemanticMapSD": "InstanceMappingPost",
"SemanticMapSDhost": "InstanceMappingPost",
"SemanticPrimTokenSD": "InstanceMappingPost",
"SemanticPrimTokenSDhost": "InstanceMappingPost",
"InstanceMapSD": "InstanceMappingPost",
"InstanceMapSDhost": "InstanceMappingPost",
"InstancePrimTokenSD": "InstanceMappingPost",
"InstancePrimTokenSDhost": "InstanceMappingPost",
"SemanticLabelTokenSD": "InstanceMappingPost",
"SemanticLabelTokenSDhost": "InstanceMappingPost",
"SemanticLocalTransformSD": "InstanceMappingPostWithTransforms",
"SemanticLocalTransformSDhost": "InstanceMappingPostWithTransforms",
"SemanticWorldTransformSD": "InstanceMappingPostWithTransforms",
"SemanticWorldTransformSDhost": "InstanceMappingPostWithTransforms",
"SemanticBoundingBox2DExtentTightSD": "BoundingBox2DTightReduction",
"SemanticBoundingBox2DInfosTightSD": "BoundingBox2DTightReduction",
"SemanticBoundingBox2DExtentLooseSD": "BoundingBox2DLooseReduction",
"SemanticBoundingBox2DInfosLooseSD": "BoundingBox2DLooseReduction",
"SemanticBoundingBox3DExtentSD": "BoundingBox3DReduction",
"SemanticBoundingBox3DInfosSD": "BoundingBox3DReduction",
"SemanticBoundingBox3DCamCornersSD": "BoundingBox3DCameraProjection",
"SemanticBoundingBox3DCamExtentSD": "BoundingBox3DCameraProjection",
"SemanticBoundingBox3DFilterInfosSD": "BoundingBox3DFilter",
"RenderProductCameraSD": "PostRenderProductCamera"
}
_ogn_post_display_types = [
"omni.syntheticdata.SdPostRenderVarDisplayTexture"
]
_ogn_display_types = [
"omni.syntheticdata.SdRenderVarDisplayTexture"
]
_ogn_default_activated_display_template = []
"""lst: List of omnigraph node types conforming the display api.
Todo : use reflexivity on the node outputs."""
@staticmethod
def renderer_template_name() -> str:
"""Return the root renderer template name.
To be scheduled a post-render node must be downstream to the root renderer node.
"""
return SyntheticData._rendererTemplateName
@staticmethod
def rendervar_host_to_disk_trigger_template_name() -> str:
"""Return the template name of the node triggering the execution of the post host to disk."""
return SyntheticData._renderVarHostToDiskTriggerTemplateName
@staticmethod
def register_display_rendervar_templates() -> None:
"""Automatically register SdRenderVarDisplayTexture node template for all registerd nodes whose type is in the post display type.
The function is called for every statically registered nodes during the interface initialization .
It may be called after having registered nodes whose type is omni.syntheticdata.SdPostRenderVarDisplayTexture.
"""
ogn_registry_keys = [key for key in SyntheticData._ogn_templates_registry.keys()]
for tplName in ogn_registry_keys:
tplParams = SyntheticData._ogn_templates_registry[tplName]
tplNameDisplay = tplName[:-11] + "Display"
if (tplParams.node_type_id in SyntheticData._ogn_post_display_types) and (tplNameDisplay not in SyntheticData._ogn_templates_registry):
if "inputs:renderVarDisplay" in tplParams.attributes:
renderVarDisplay = tplParams.attributes["inputs:renderVarDisplay"]
else:
renderVarDisplay = tplParams.attributes["inputs:renderVar"] + "Display"
SyntheticData.register_node_template(SyntheticData.NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdRenderVarDisplayTexture",
[
SyntheticData.NodeConnectionTemplate("PostProcessDispatch"),
SyntheticData.NodeConnectionTemplate(tplName, attributes_mapping={"outputs:exec": "inputs:exec"})
],
attributes = {"inputs:renderVarDisplay": renderVarDisplay }
),
template_name=tplNameDisplay
)
@staticmethod
def register_combine_rendervar_templates() -> None:
"""Automatically register SdPostCompRenderVarTextures node template for all registerd nodes whose type is in the post display type list.
The function is called for every statically registered nodes during the interface initialization .
It may be called after having registered nodes whose type is in the post display type list.
"""
ogn_registry_keys = [key for key in SyntheticData._ogn_templates_registry.keys()]
for tplName in ogn_registry_keys:
tplParams = SyntheticData._ogn_templates_registry[tplName]
if (tplParams.node_type_id in SyntheticData._ogn_post_display_types) and (
tplName + "Combine" not in SyntheticData._ogn_templates_registry
):
SyntheticData.register_combine_rendervar_template(tplName)
@staticmethod
def register_combine_rendervar_template(template_name: str) -> None:
"""Automatically register SdPostCompRenderVarTextures node template for the given template name.
Args:
template_name: name of the node template for which registering a SdPostCompRenderVarTextures template
"""
if not template_name in SyntheticData._ogn_templates_registry:
raise SyntheticDataException(f'graph node template "{template_name}" not registered')
# cannot combine node results from the ondemand graph
if SyntheticData._ogn_templates_registry[template_name].pipeline_stage > SyntheticDataStage.POST_RENDER:
return
templateParams = SyntheticData._ogn_templates_registry[template_name]
if templateParams.node_type_id not in SyntheticData._ogn_post_display_types:
raise SyntheticDataException(f'graph node template "{template_name}" not registered as a display node')
templateNameCombine = template_name + "Combine"
if templateNameCombine not in SyntheticData._ogn_templates_registry:
SyntheticData.register_node_template(SyntheticData.NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostCompRenderVarTextures",
[
SyntheticData.NodeConnectionTemplate(SyntheticData._rendererTemplateName),
SyntheticData.NodeConnectionTemplate(
template_name,
attributes_mapping={
"outputs:cudaPtr": "inputs:cudaPtr",
"outputs:width": "inputs:width",
"outputs:height": "inputs:height",
"outputs:format": "inputs:format"
}
)
]
),
template_name=templateNameCombine,
)
@staticmethod
def register_device_rendervar_to_host_templates(rendervars: list) -> None:
"""Automatically register SdPostRenderVarToHost node templates for the given rendervars
Args:
rendervars: list of renderVar names to register the rendervar device to host copy node template
"""
# copy the rendervars list since the registration may modify the list
rendervars_copy = rendervars.copy()
for rv in rendervars_copy:
rv_host = rv+SyntheticData._renderVarHostSuffix
if rv.endswith(SyntheticData._renderVarHostSuffix) or (rv_host in SyntheticData._ogn_rendervars):
continue
template_name = rv + "PostCopyToHost"
if template_name not in SyntheticData._ogn_templates_registry:
SyntheticData.register_node_template(
SyntheticData.NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarToHost",
[
SyntheticData.NodeConnectionTemplate(rv),
SyntheticData.NodeConnectionTemplate(
SyntheticData._rendererTemplateName,
attributes_mapping={
"outputs:rp": "inputs:rp",
"outputs:gpu": "inputs:gpu"
}
)
],
{
"inputs:renderVar": rv,
"inputs:renderVarHostSuffix" : SyntheticData._renderVarHostSuffix
}
),
rendervars=[rv_host],
template_name=template_name,
)
@staticmethod
def register_device_rendervar_tex_to_buff_templates(rendervars: list) -> None:
"""Automatically register SdPostRenderVarTextureToBuffer node templates for the given rendervars
Args:
rendervars: list of renderVar names to register the rendervar device texture to buffer copy node template
"""
# copy the rendervars list since the registration may modify the list
rendervars_copy = rendervars.copy()
for rv in rendervars_copy:
rv_buff = rv+SyntheticData._renderVarBuffSuffix
if rv.endswith(SyntheticData._renderVarBuffSuffix) or (rv_buff in SyntheticData._ogn_rendervars):
continue
template_name = rv + "PostCopyToBuff"
if template_name not in SyntheticData._ogn_templates_registry:
SyntheticData.register_node_template(
SyntheticData.NodeTemplate(
SyntheticDataStage.POST_RENDER,
"omni.syntheticdata.SdPostRenderVarTextureToBuffer",
[
SyntheticData.NodeConnectionTemplate(rv),
SyntheticData.NodeConnectionTemplate(
SyntheticData._rendererTemplateName,
attributes_mapping={
"outputs:rp": "inputs:rp",
"outputs:gpu": "inputs:gpu"
}
)
],
{
"inputs:renderVar": rv,
"inputs:renderVarBufferSuffix" : SyntheticData._renderVarBuffSuffix
}
),
rendervars=[rv_buff],
template_name=template_name,
)
@staticmethod
def register_export_rendervar_ptr_templates(rendervars: list) -> None:
"""Automatically register SdRenderVarPtr node templates for the given rendervars
Args:
rendervars: list of renderVar names to register the ptr node template
"""
for rv in rendervars:
template_name = rv + "Ptr"
if template_name not in SyntheticData._ogn_templates_registry:
SyntheticData.register_node_template(
SyntheticData.NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdRenderVarPtr",
[
SyntheticData.NodeConnectionTemplate(rv, (0,), None),
SyntheticData.NodeConnectionTemplate("PostProcessDispatch")
],
{"inputs:renderVar": rv}
),
template_name=template_name,
)
@staticmethod
def register_export_rendervar_array_templates(rendervars: list) -> None:
"""Automatically register SdRenderVarToRawArray node templates for the given rendervars
Args:
rendervars: list of renderVar names to register the export raw array node template
"""
for rv in rendervars:
template_name = rv + "ExportRawArray"
if template_name not in SyntheticData._ogn_templates_registry:
SyntheticData.register_node_template(
SyntheticData.NodeTemplate(
SyntheticDataStage.ON_DEMAND,
"omni.syntheticdata.SdRenderVarToRawArray",
[
SyntheticData.NodeConnectionTemplate(rv, (0,), None),
SyntheticData.NodeConnectionTemplate("PostProcessDispatch")
],
{"inputs:renderVar": rv}
),
template_name=template_name,
)
@staticmethod
def convert_sensor_type_to_rendervar(legacy_type_name: str) -> None:
"""Convert of legacy sensor type name to its rendervar name
Args:
legacy_type_name: legacy sensor type name to convert
Returns:
the name of the renderVar correspoding to the legacy name
"""
if legacy_type_name == "Rgb":
return "LdrColorSD"
elif legacy_type_name == "MotionVector":
return "TargetMotionSD"
else:
return legacy_type_name + "SD"
@staticmethod
def disable_async_rendering():
"""Disable asynchronous rendering
Since asyncRendering is not supported by the fabric, graphs are currently not compatible with this mode.
"""
settings = carb.settings.get_settings()
if settings.get("/app/asyncRendering") or settings.get("/app/asyncRenderingLowLatency"):
carb.log_warn(f"SyntheticData is not supporting asyncRendering : switching it off.")
settings.set("/app/asyncRendering", False)
settings.set("/app/asyncRenderingLowLatency", False)
@staticmethod
def _has_rendervar(renderProductPath: str, renderVar: str, usdStage: Usd.Stage = None) -> bool:
if not usdStage:
usdStage = omni.usd.get_context().get_stage()
if not usdStage:
raise SyntheticDataException("No stage provided or in use by default UsdContext")
renderProductPrim = usdStage.GetPrimAtPath(renderProductPath)
if not renderProductPrim:
raise SyntheticDataException(f"invalid renderProduct {renderProductPath}")
renderVarPrimPath = f"/Render/Vars/{renderVar}"
renderVarPrim = usdStage.GetPrimAtPath(renderVarPrimPath)
if not renderVarPrim:
return False
renderProductRenderVarRel = renderProductPrim.GetRelationship("orderedVars")
if not renderProductRenderVarRel:
return False
return renderVarPrimPath in renderProductRenderVarRel.GetTargets()
@staticmethod
def _add_rendervar(renderProductPath: str, renderVar: str, usdStage: Usd.Stage = None) -> None:
# FIXME : we have to use the legacy Viewport interface to modify the renderproduct, otherwise changes may be overwritten
vp_1found = False
try:
import omni.kit.viewport_legacy
vp_iface = omni.kit.viewport_legacy.get_viewport_interface()
viewports = vp_iface.get_instance_list()
for viewport in viewports:
vpw = vp_iface.get_viewport_window(viewport)
if vpw.get_render_product_path() == renderProductPath:
vpw.add_aov(renderVar, False)
vp_1found = True
except ImportError:
pass
# Both Viewport-1 and Viewport-2 won't share a common renderProductPath
if vp_1found:
return
if not usdStage:
import omni.usd # this is needed (why ?)
usdStage = omni.usd.get_context().get_stage()
if not usdStage:
raise SyntheticDataException("No stage provided or in use by default UsdContext")
with Usd.EditContext(usdStage, usdStage.GetSessionLayer()):
renderProductPrim = usdStage.GetPrimAtPath(renderProductPath)
if not renderProductPrim:
raise SyntheticDataException(f"invalid renderProduct {renderProductPath}")
renderVarPrimPath = f"/Render/Vars/{renderVar}"
renderVarPrim = usdStage.GetPrimAtPath(renderVarPrimPath)
if not renderVarPrim:
renderVarPrim = usdStage.DefinePrim(renderVarPrimPath)
if not renderVarPrim:
raise SyntheticDataException(f"cannot create renderVar {renderVarPrimPath}")
renderVarPrim.CreateAttribute("sourceName", Sdf.ValueTypeNames.String).Set(renderVar)
renderVarPrim.SetMetadata("hide_in_stage_window", True)
renderVarPrim.SetMetadata("no_delete", True)
renderProductRenderVarRel = renderProductPrim.GetRelationship("orderedVars")
if not renderProductRenderVarRel:
renderProductRenderVarRel = renderProductPrim.CreateRelationship("orderedVars")
if not renderProductRenderVarRel:
raise SyntheticDataException(
f"cannot set orderedVars relationship for renderProduct {renderProductPath}")
renderProductRenderVarRel.AddTarget(renderVarPrimPath)
@staticmethod
def _remove_rendervar(renderProductPath: str, renderVar: str, usdStage: Usd.Stage = None) -> None:
# we should not remove the LdrColor since it is the default renderVar
if renderVar == "LdrColor":
return
# FIXME : we have to use the legacy Viewport interface to modify the renderproduct, otherwise changes may be overwritten
vp_1found = False
try:
import omni.kit.viewport_legacy
vp_iface = omni.kit.viewport_legacy.get_viewport_interface()
viewports = vp_iface.get_instance_list()
for viewport in viewports:
vpw = vp_iface.get_viewport_window(viewport)
if vpw.get_render_product_path() == renderProductPath:
vpw.add_aov(renderVar, False)
vp_1found = True
except ImportError:
pass
# Both Viewport-1 and Viewport-2 won't share a common renderProductPath
if vp_1found:
return
if not usdStage:
import omni.usd # this is needed (why ?)
usdStage = omni.usd.get_context().get_stage()
if not usdStage:
raise SyntheticDataException("No stage provided or in use by default UsdContext")
with Usd.EditContext(usdStage, usdStage.GetSessionLayer()):
renderProductPrim = usdStage.GetPrimAtPath(renderProductPath)
if not renderProductPrim:
raise SyntheticDataException(f"invalid renderProduct {renderProductPath}")
renderVarPrimPath = f"/Render/Vars/{renderVar}"
renderProductRenderVarRel = renderProductPrim.GetRelationship("orderedVars")
if not renderProductRenderVarRel:
return
renderProductRenderVarRel.RemoveTarget(renderVarPrimPath)
@staticmethod
def get_registered_visualization_template_names() -> list:
"""Get the registered node template names which types are in the display type list
Returns:
list of registered template names which types are in the display type list
"""
registeredTemplateName = []
for name, val in SyntheticData._ogn_templates_registry.items():
if val.node_type_id in SyntheticData._ogn_display_types:
registeredTemplateName.append(name)
return registeredTemplateName
@staticmethod
def get_registered_visualization_template_names_for_display() -> list:
"""Get the registered node template names which types are in the display type list and their display name
Returns:
list of tuples of registered template names which types are in the display type list and their display name
"""
for sensor in SyntheticData.get_registered_visualization_template_names():
# by convention visualization sensors end with "Display"
yield (sensor[0:-7] if sensor.endswith("Display") else sensor, sensor)
@staticmethod
def get_visualization_template_name_default_activation(template_name:str) -> bool:
"""Get the default activation status of a visualization node template
Args:
template_name: the name of the visualization node template to activate/deactivate by default
Returns:
True if the visualization node template is activated by default, False otherwise
"""
return template_name in SyntheticData._ogn_default_activated_display_template
@staticmethod
def reset_visualization_template_name_default_activation():
"""Deactivate all visualization node template by default
"""
SyntheticData._ogn_default_activated_display_template.clear()
@staticmethod
def set_visualization_template_name_default_activation(template_name:str, activation:bool) -> bool:
"""Set the default activation status of visualization node template
Args:
template_name: the name of the visualization node template to activate/deactivate by default
activation: True if the visualization node template should be activated/deactivated by default
Returns:
True if the template name is an activated visualization template name afer the call, False otherwise
"""
if template_name in SyntheticData.get_registered_visualization_template_names():
is_activated_by_default = template_name in SyntheticData._ogn_default_activated_display_template
if activation and not is_activated_by_default:
SyntheticData._ogn_default_activated_display_template.append(template_name)
elif not activation and is_activated_by_default:
SyntheticData._ogn_default_activated_display_template.remove(template_name)
return SyntheticData.get_visualization_template_name_default_activation(template_name)
@staticmethod
def _get_graph_path(stage: int, renderProductPath: str = None) -> str:
# simulation stages live in the same graph
if stage == SyntheticDataStage.SIMULATION:
return f"{SyntheticData._graphPathRoot}/{SyntheticData._simulationGraphPath}"
elif stage == SyntheticDataStage.PRE_RENDER:
# check if the renderProductPath has already an associated graph
usdStage = omni.usd.get_context().get_stage()
prim = usdStage.GetPrimAtPath(renderProductPath)
ogpreprocesspath_attribute = prim.GetAttribute("ogPreProcessPath")
if ogpreprocesspath_attribute:
return f"{ogpreprocesspath_attribute.Get()}/{SyntheticData._graphName}"
else:
return f"{renderProductPath}/{SyntheticData._preRenderGraphPath}"
# postprocess stages live in the same graph
elif stage == SyntheticDataStage.ON_DEMAND:
return f"{SyntheticData._graphPathRoot}/{SyntheticData._postProcessGraphPath}"
elif stage == SyntheticDataStage.POST_RENDER:
# check if the renderProductPath has already an associated graph
usdStage = omni.usd.get_context().get_stage()
prim = usdStage.GetPrimAtPath(renderProductPath)
ogpostprocesspath_attribute = prim.GetAttribute("ogPostProcessPath")
if ogpostprocesspath_attribute:
return f"{ogpostprocesspath_attribute.Get()}/{SyntheticData._graphName}"
else:
return f"{renderProductPath}/{SyntheticData._postRenderGraphPath}"
@staticmethod
def _get_node_path(templateName: str, renderProductPath: str = None) -> str:
if templateName not in SyntheticData._ogn_templates_registry:
raise SyntheticDataException(f'graph node template "{templateName}" not registered')
nodeStage = SyntheticData._ogn_templates_registry[templateName].pipeline_stage
graphPath = SyntheticData._get_graph_path(nodeStage, renderProductPath)
# prefix the node name by the renderproduct name for nodes living in the same graph
# (simulation and postprocess graphs)
nodeName = templateName
if renderProductPath:
renderProductName = renderProductPath.split("/")[-1]
nodeName = f"{renderProductName}_{nodeName}"
return f"{graphPath}/{nodeName}"
@staticmethod
def _unregister_node_template_rec(templateList: list) -> None:
if not templateList:
return
templateDependenciesList = []
for templateName in templateList:
if templateName not in SyntheticData._ogn_templates_registry:
continue
dependencyNames = []
for rv, tpl in SyntheticData._ogn_rendervars.items():
if tpl == templateName:
dependencyNames.append(rv)
for rv in dependencyNames:
SyntheticData._ogn_rendervars.pop(rv)
dependencyNames.append(templateName)
SyntheticData._ogn_templates_registry.pop(templateName)
for otherTemplateName, otherTemplateVal in SyntheticData._ogn_templates_registry.items():
for otherTemplateConnection in otherTemplateVal.connections:
if otherTemplateConnection.node_template_id in dependencyNames:
templateDependenciesList.append(otherTemplateName)
SyntheticData._unregister_node_template_rec(templateDependenciesList)
@staticmethod
def _connect_nodes(srcNode, dstNode, connectionMap, enable) -> bool:
success = True
for srcAttrName, dstAttrName in connectionMap.items():
if (not srcNode.get_attribute_exists(srcAttrName)) or (not dstNode.get_attribute_exists(dstAttrName)):
carb.log_error(
f"SyntheticData failed to (dis)connect node {srcNode.get_prim_path()}:{srcAttrName} to {dstNode.get_prim_path()}:{dstAttrName}"
)
success = False
# best effort
continue
dstAttr = dstNode.get_attribute(dstAttrName)
srcAttr = srcNode.get_attribute(srcAttrName)
if enable:
srcAttr.connect(dstAttr, True)
else:
srcAttr.disconnect(dstAttr, True)
return success
@staticmethod
def _auto_connect_nodes(srcNode, dstNode, enable, srcIndex=0) -> bool:
"""Connect a source node to destination node
The connections are made by matching outputs / inputs node attributes names
In case of outputs attributes name clashing, the first node in the list is connected
Optionnally outputs attributes name could be indexed : terminated by underscore followed by the srcNode list index (no leading zero)
Indexed outputs attributes names take precedence
"""
success = False
for attr in srcNode.get_attributes():
srcAttrName = attr.get_name()
if not srcAttrName.startswith("outputs:"):
continue
dstAttrName = "inputs:%s_%d" % (srcAttrName[8:], srcIndex)
if (
not dstNode.get_attribute_exists(dstAttrName)
or dstNode.get_attribute(dstAttrName).get_upstream_connection_count()
):
dstAttrName = "inputs:%s" % srcAttrName[8:]
if (
not dstNode.get_attribute_exists(dstAttrName)
or dstNode.get_attribute(dstAttrName).get_upstream_connection_count()
):
continue
dstAttr = dstNode.get_attribute(dstAttrName)
srcAttr = srcNode.get_attribute(srcAttrName)
if enable:
srcAttr.connect(dstAttr, True)
else:
srcAttr.disconnect(dstAttr, True)
success = True
return success
@staticmethod
def Initialize():
"""Initialize interface singleton instance."""
global _sdg_iface
if _sdg_iface is None:
SyntheticData.register_device_rendervar_tex_to_buff_templates(SyntheticData._ogn_rendervars)
SyntheticData.register_device_rendervar_to_host_templates(SyntheticData._ogn_rendervars)
SyntheticData.register_display_rendervar_templates()
SyntheticData.register_combine_rendervar_templates()
SyntheticData.register_export_rendervar_ptr_templates(SyntheticData._ogn_rendervars)
SyntheticData.register_export_rendervar_array_templates(SyntheticData._ogn_rendervars)
_sdg_iface = SyntheticData()
@staticmethod
def Get():
"""Get the interface singleton instance."""
global _sdg_iface
return _sdg_iface
@staticmethod
def Reset():
"""Reset the interface singleton """
global _sdg_iface
if _sdg_iface:
_sdg_iface.reset()
_sdg_iface = None
@staticmethod
def register_node_template(node_template: NodeTemplate, rendervars: list = None, template_name: str = None) -> str:
"""Register a node template.
Add a node template in the node registry. After the template has been added it may be activated for being executed in its associated stage.
Args:
node_template : template to be added to the registry
rendervars : list of renderVar the node is producing
template_name : unique name id of the template
Returns:
the unique name id of the registered template
"""
# check type
if og.GraphRegistry().get_node_type_version(node_template.node_type_id) is None:
raise SyntheticDataException(
f"failed to register node template. Type {node_template.node_type_id} is not in the registry")
# check template_name
if template_name is None:
numTypeTemplates = 0
for template in SyntheticData._ogn_templates_registry.values():
if template.node_type_id == node_template.node_type_id:
numTypeTemplates += 1
template_name = "%s_%04d" % (node_template.node_type_id.split(".")[-1], numTypeTemplates)
elif template_name in SyntheticData._ogn_templates_registry:
raise SyntheticDataException(
f"failed to register node template. Template {template_name} is already in the registry")
elif template_name in SyntheticData._ogn_rendervars:
raise SyntheticDataException(
f"failed to register node template. Template {template_name} is already registered as a renderVar")
# check connections
autoStage = SyntheticDataStage.POST_RENDER if rendervars else SyntheticDataStage.SIMULATION
i_connections = node_template.connections if node_template.connections else []
for conn in i_connections:
conn_name = conn.node_template_id
if conn_name in SyntheticData._ogn_rendervars:
conn_name = SyntheticData._ogn_rendervars[conn_name]
if conn_name not in SyntheticData._ogn_templates_registry:
raise SyntheticDataException(
f"failed to register node template. Connection template name {conn_name} is not in the registry")
conn_stage = SyntheticData._ogn_templates_registry[conn_name].pipeline_stage
autoStage = max(autoStage, conn_stage)
conn_map = conn.attributes_mapping if conn.attributes_mapping else {}
if not type(conn_map) is dict:
raise SyntheticDataException(
f"failed to register node template. connection attributes map is not a dictionnary")
# check stage
if node_template.pipeline_stage == SyntheticDataStage.AUTO:
node_template.pipeline_stage = autoStage
if node_template.pipeline_stage < autoStage:
raise SyntheticDataException(
f"failed to register node template. Stage {node_template.pipeline_stage} is not compatible with the connections")
# check and register renderVars
if rendervars:
if node_template.pipeline_stage != SyntheticDataStage.POST_RENDER:
raise SyntheticDataException(
f"failed to register node template. Only postRender nodes may produce renderVars")
for rv in rendervars:
if (rv in SyntheticData._ogn_templates_registry) or (rv in SyntheticData._ogn_rendervars):
raise SyntheticDataException(f"failed to register node template. RenderVar {rv} already registered")
else:
SyntheticData._ogn_rendervars[rv] = template_name
SyntheticData._ogn_templates_registry[template_name] = node_template
return template_name
@staticmethod
def is_node_template_registered(template_name: str) -> bool:
"""Check if a node template has already been registered.
Args:
template_name: name of the node template to check
Returns:
True if the template_name specifie a node template within the registry, False otherwise
"""
return template_name in SyntheticData._ogn_templates_registry
@staticmethod
def unregister_node_template(template_name: str) -> None:
"""Unregister a node template.
Remove a node template from the registry and all its dependencies. After removing a template, it cannot be activated anymore, nor its dependent templates.
"""
SyntheticData._unregister_node_template_rec([template_name])
def _reset_node_graph(self, nodeGraph):
graph = nodeGraph.get_wrapped_graph()
if graph.is_valid():
for node in graph.get_nodes():
if node.is_valid():
graph.destroy_node(node.get_prim_path(), True)
orchestration_graph = nodeGraph.get_graph()
if orchestration_graph.is_valid():
orchestration_graph.destroy_node(nodeGraph.get_prim_path(), True)
def _set_process_path(self, renderProductPath, graphPath, processPathAttribueName):
if not renderProductPath:
raise SyntheticDataException("invalid renderProductPath")
usdStage = omni.usd.get_context().get_stage()
prim = usdStage.GetPrimAtPath(renderProductPath)
ogprocesspath_attribute = prim.GetAttribute(processPathAttribueName)
if not ogprocesspath_attribute:
assert graphPath.endswith("/" + SyntheticData._graphName)
ogProcessPath = graphPath[: -len("/" + SyntheticData._graphName)]
prim.CreateAttribute(processPathAttribueName, Sdf.ValueTypeNames.String).Set(ogProcessPath)
def _get_or_create_graph(self, path: str, stage: int, renderProductPath: object) -> object:
if path in self._nodeGraphs:
return self._nodeGraphs[path]
pipelineStage = og.GraphPipelineStage.GRAPH_PIPELINE_STAGE_SIMULATION
executionModel = "push"
backingType = og.GraphBackingType.GRAPH_BACKING_TYPE_FABRIC_SHARED
if (stage == SyntheticDataStage.PRE_RENDER):
pipelineStage = og.GraphPipelineStage.GRAPH_PIPELINE_STAGE_PRERENDER
elif (stage == SyntheticDataStage.POST_RENDER):
pipelineStage = og.GraphPipelineStage.GRAPH_PIPELINE_STAGE_POSTRENDER
elif (stage == SyntheticDataStage.ON_DEMAND):
pipelineStage = og.GraphPipelineStage.GRAPH_PIPELINE_STAGE_ONDEMAND
executionModel = "execution"
usdStage = omni.usd.get_context().get_stage()
primExistWorkaround = not usdStage.GetPrimAtPath(path)
orchestration_graphs = og.get_global_orchestration_graphs_in_pipeline_stage(pipelineStage)
nodeGraph = orchestration_graphs[0].create_graph_as_node(
path.replace("/", "_"),
path,
executionModel,
True,
primExistWorkaround,
backingType,
pipelineStage,
)
if stage == SyntheticDataStage.PRE_RENDER:
self._set_process_path(renderProductPath, path, "ogPreProcessPath")
elif stage == SyntheticDataStage.POST_RENDER:
self._set_process_path(renderProductPath, path, "ogPostProcessPath")
self._nodeGraphs[path] = nodeGraph
return nodeGraph
def _activate_node_rec(self, templateName: str, renderProductIndex: int = -1, renderProductPaths: list = None, render_var_activations: dict = None) -> None:
renderProductPath = renderProductPaths[renderProductIndex] if renderProductIndex > -1 else None
# renderVar template
if templateName in SyntheticData._ogn_rendervars:
renderVarName = templateName
templateName = SyntheticData._ogn_rendervars[templateName]
if (not render_var_activations is None) and renderProductPath and (templateName == SyntheticData._rendererTemplateName):
if renderProductPath not in render_var_activations:
render_var_activations[renderProductPath]={renderVarName:0}
elif renderVarName not in render_var_activations[renderProductPath]:
render_var_activations[renderProductPath][renderVarName]=0
render_var_activations[renderProductPath][renderVarName]+=1
if templateName not in SyntheticData._ogn_templates_registry:
raise SyntheticDataException(f"graph node template depends on unregistered template {templateName}")
nodePath = SyntheticData._get_node_path(templateName, renderProductPath)
if nodePath in self._graphNodes:
return templateName
template = SyntheticData._ogn_templates_registry[templateName]
nodeStage = template.pipeline_stage
graphPath = SyntheticData._get_graph_path(nodeStage, renderProductPath)
nodeGraph = self._get_or_create_graph(graphPath, nodeStage, renderProductPath)
nodeType = template.node_type_id
usdStage = omni.usd.get_context().get_stage()
primExistWorkaround = not usdStage.GetPrimAtPath(nodePath)
self._graphNodes[nodePath] = nodeGraph.get_wrapped_graph().create_node(nodePath, nodeType, primExistWorkaround)
node = self._graphNodes[nodePath]
# setup static attributes
for attrName, attrVal in template.attributes.items():
if node.get_attribute_exists(attrName):
node.get_attribute(attrName).set(attrVal)
else:
carb.log_error(f"SyntheticData failed to set node {nodePath} static attribute {attrName}")
# do not return error : the default value in the ogn spec will be used
# set inputs:renderProductPathPath
if renderProductPath and node.get_attribute_exists(SyntheticData._renderProductAttributeName):
node.get_attribute(SyntheticData._renderProductAttributeName).set(renderProductPath)
# recursive call for upstream connections
for connIndex in range(len(template.connections)):
connection = template.connections[connIndex]
connTemplateName = connection.node_template_id
connRenderProductPaths = [renderProductPaths[idx] for idx in connection.render_product_idxs] if (
renderProductPaths and connection.render_product_idxs) else None
# activate the template
connTemplateName = self._activate_node_rec(connTemplateName, 0 if connRenderProductPaths else -
1, connRenderProductPaths, render_var_activations)
# setup connection attributes
connRenderProductPath = connRenderProductPaths[0] if connRenderProductPaths else None
connNodePath = SyntheticData._get_node_path(connTemplateName, connRenderProductPath)
connNode = self._graphNodes[connNodePath]
connMap = connection.attributes_mapping
if not connMap is None:
if connMap:
SyntheticData._connect_nodes(connNode, node, connMap, True)
else:
SyntheticData._auto_connect_nodes(connNode, node, True, connIndex)
return templateName
def _deactivate_node_rec(
self,
templateName: str,
renderProductIndex: int = -1,
renderProductPaths: list = None,
render_var_deactivations: dict = None,
only_automatically_activated_nodes: bool = True,
manual_deactivation: bool = True
) -> None:
renderProductPath = renderProductPaths[renderProductIndex] if renderProductIndex > -1 else None
if templateName in SyntheticData._ogn_rendervars:
renderVarName = templateName
templateName = SyntheticData._ogn_rendervars[templateName]
if (not render_var_deactivations is None) and renderProductPath and (templateName == SyntheticData._rendererTemplateName):
if renderProductPath not in render_var_deactivations:
render_var_deactivations[renderProductPath]={renderVarName:0}
elif renderVarName not in render_var_deactivations[renderProductPath]:
render_var_deactivations[renderProductPath][renderVarName]=0
render_var_deactivations[renderProductPath][renderVarName]+=1
nodePath = SyntheticData._get_node_path(templateName, renderProductPath)
# prevent automatically deactivating manually activated node
if (nodePath not in self._graphNodes) or (not manual_deactivation and only_automatically_activated_nodes and (nodePath in self._activatedNodePaths)):
return templateName
node = self._graphNodes[nodePath]
template = SyntheticData._ogn_templates_registry[templateName]
# abort if the node has a downstream connection
for attr in node.get_attributes():
if attr.get_downstream_connection_count():
return templateName
node.get_graph().destroy_node(nodePath, True)
self._graphNodes.pop(nodePath)
# remove unused connections
for connection in template.connections:
connTemplateName = connection.node_template_id
connRenderProductPaths = [renderProductPaths[idx] for idx in connection.render_product_idxs] if (
renderProductPaths and connection.render_product_idxs) else None
# deactivate the template
self._deactivate_node_rec(connTemplateName,
0 if connRenderProductPaths else -1,
connRenderProductPaths,
render_var_deactivations,
only_automatically_activated_nodes,
False)
return templateName
def _set_node_attributes(self, nodePath, attributes) -> None:
if not attributes:
return
if nodePath not in self._graphNodes:
raise SyntheticDataException(f"invalid node {nodePath}")
node = self._graphNodes[nodePath]
for attrName, attrVal in attributes.items():
if node.get_attribute_exists(attrName):
og.Controller(attribute=node.get_attribute(attrName)).set(value=attrVal)
else:
raise SyntheticDataException(f"invalid node attribute {nodePath}.{attrName}")
def _get_node_attributes(self, nodePath, attribute_names: list, gpu=False) -> dict:
if not nodePath in self._graphNodes:
return None
node = self._graphNodes[nodePath]
attributes = {}
for attrName in attribute_names:
if node.get_attribute_exists(attrName):
attributes[attrName] = og.Controller(attribute=node.get_attribute(attrName)).get(on_gpu=gpu)
return attributes
def _post_process_graph_tick(self, e: carb.events.IEvent):
for nodePath, nodeGraph in self._nodeGraphs.items():
graph = nodeGraph.get_wrapped_graph()
if graph.get_pipeline_stage() == og.GraphPipelineStage.GRAPH_PIPELINE_STAGE_ONDEMAND:
graph.evaluate()
def __init__(self) -> None:
self._nodeGraphs = {}
self._graphNodes = {}
self._activatedNodePaths = []
self._render_product_var_activations = {}
self._post_process_graph_tick_sub = omni.kit.app.get_app().get_update_event_stream().create_subscription_to_pop(
self._post_process_graph_tick,
order=SyntheticData._postProcessGraphTickOrder,
name="[omni.syntheticdata] PostProcessGraph Tick"
)
def reset(self, usd=True, remove_activated_render_vars=False) -> None:
"""Reset the SyntheticData instance
Args:
usd : if true reset the graph in the usd stage session layer
remove_activated_render_vars : if True and usd is True remove the render vars activated by the node activation
If the stage is valid it will destroy every graph created.
"""
stage = omni.usd.get_context().get_stage()
if stage and usd:
session_layer = stage.GetSessionLayer()
with Usd.EditContext(stage, session_layer):
for nodeGraph in self._nodeGraphs.values():
self._reset_node_graph(nodeGraph)
if remove_activated_render_vars:
for rp, rvs in self._render_product_var_activations.items():
for rv, num_act in rvs.items():
if num_act[1] and (num_act[0] > 0):
self._remove_rendervar(rp,rv,stage)
self._render_product_var_activations = {}
self._activatedNodePaths = []
self._graphNodes = {}
self._nodeGraphs = {}
def get_graph(self, stage: int = SyntheticDataStage.ON_DEMAND, renderProductPath: str = None) -> object:
"""Return the graph at a given stage, for a given renderProduct.
Gives access to the SyntheticData graphs.
Args:
stage : SyntheticDataStage of the queried graph
renderProductPath : (for POST_RENDER stage only) the renderProductPath for which to get the POST_RENDER graph
Returns:
the graph at the given stage for the given renderProductPath.
"""
if renderProductPath and stage != SyntheticDataStage.POST_RENDER:
raise SyntheticDataException("invalid graph")
graphPath = SyntheticData._get_graph_path(stage, renderProductPath)
return self._get_or_create_graph(graphPath, stage, renderProductPath)
def activate_node_template(
self,
template_name: str,
render_product_path_index: int = -1,
render_product_paths: list = None,
attributes: dict = None,
stage: Usd.Stage = None,
activate_render_vars: bool = True
) -> None:
"""Activate a registered node.
Create a node instance for the given node template and all its missing dependencies (including nodes and renderVar).
The node will be executed during the next stage execution.
Args:
template_name : name of the node template to be activate
render_product_path_index : if the node template is associated to a render product, index of the associated render product in the render product path list
render_product_paths : render product path list to be used for specifying the render product of the node template and its dependencies to activate
attributes : dictionnary of attributes to set to the activated "template_name" node
stage : the stage to change, if None use the stage of the current usd context
activate_render_vars : if True activate the required render_vars, if False it is the user responsability to activate the required render_vars
Return:
A dictionnary containing for every render products the list of render var dependencies of this activation
NB : if activate_render_vars is True those render vars are added
"""
if (template_name not in SyntheticData._ogn_templates_registry) and (template_name not in SyntheticData._ogn_rendervars):
raise SyntheticDataException(f'graph node template "{template_name}" unregistered')
node_path = SyntheticData._get_node_path(
template_name, render_product_paths[render_product_path_index] if render_product_path_index > -1 else None
)
if node_path in self._activatedNodePaths:
return
if not stage:
stage = omni.usd.get_context().get_stage()
if not stage:
raise SyntheticDataException("invalid USD stage")
session_layer = stage.GetSessionLayer()
with Usd.EditContext(stage, session_layer):
render_var_activations = {}
self._activate_node_rec(template_name, render_product_path_index, render_product_paths, render_var_activations)
self._set_node_attributes(node_path, attributes)
self._activatedNodePaths.append(node_path)
# maintain the render_vars activation number for every render products
activated_render_vars = {}
for rp, rvs in render_var_activations.items():
if rp not in self._render_product_var_activations:
self._render_product_var_activations[rp]={}
for rv, num in rvs.items():
need_activation = not self._has_rendervar(rp,rv,stage)
if rv not in self._render_product_var_activations[rp]:
self._render_product_var_activations[rp][rv] = [num, need_activation and activate_render_vars]
else:
self._render_product_var_activations[rp][rv][0] += num
self._render_product_var_activations[rp][rv][1] = need_activation and activate_render_vars
if need_activation:
if rp not in activated_render_vars:
activated_render_vars[rp]=[]
if rv not in activated_render_vars[rp]:
activated_render_vars[rp].append(rv)
if activate_render_vars:
for rp, rvs in activated_render_vars.items():
for rv in rvs:
SyntheticData._add_rendervar(rp, rv, stage)
return activated_render_vars
def is_node_template_activated(
self,
template_name: str,
render_product_path: str = None,
only_manually_activated: bool = False
) -> None:
"""Query the activation status of a node template.
Args:
template_name : name of the node template to query the activation status
render_product_path : render product path for which to check the template activation status (None if not applicable)
only_manually_activated: if True check the activation for only the explicitely activated templates ( exclude the automatically activated template )
Return:
True if the node template is currently activated and, if only_explicitely_activated is True, if it has been explicitely activated
"""
node_path = SyntheticData._get_node_path(template_name, render_product_path)
return node_path in self._activatedNodePaths if only_manually_activated else node_path in self._graphNodes
def deactivate_node_template(
self,
template_name: str,
render_product_path_index: int = -1,
render_product_paths: list = [],
stage: Usd.Stage = None,
deactivate_render_vars: bool = False,
recurse_only_automatically_activated: bool = True
) -> None:
"""Deactivate a registered node.
Delete a node instance for the given node template and all its automatically activated dependencies with no more downstream connections.
The node won't be executed anymore starting with the next stage execution.
Args:
template_name : name of the node template to deactivate
render_product_path_index : if the node template is associated to a render product, index of the associated render product in the render product path list
render_product_paths : render product path list to be used for specifying the render product of the node template and its dependencies to deactivate
stage : the stage to change, if None use the stage of the current usd context
deactivate_render_vars : if True deactivate the render_vars that have been activated in a call to activate_node_template and which are not used anymore by the managed graphs.
Beware that in some cases, some of these render vars maybe actually used by other graphs, hence it is False by default
if False it is the user responsability to deactivate the unused render_vars.
recurse_only_automatically_activated : if True recursively deactivate only automatically activated upstream nodes without other connections
if False recursively deactivate all upstream nodes without other connections
Return:
A dictionnary containing for every render products path the list of render var dependencies that have been activated by activate_node_template and are not used anymore by the managed graphs.
NB : if deactivate_render_vars is True those render vars are removed
"""
if not stage:
stage = omni.usd.get_context().get_stage()
if not stage:
raise SyntheticDataException("invalid USD stage")
session_layer = stage.GetSessionLayer()
with Usd.EditContext(stage, session_layer):
render_var_deactivations = {}
self._deactivate_node_rec(template_name, render_product_path_index, render_product_paths, render_var_deactivations, recurse_only_automatically_activated)
node_path = SyntheticData._get_node_path(
template_name, render_product_paths[render_product_path_index] if render_product_path_index > -1 else None
)
if (node_path in self._activatedNodePaths) and (node_path not in self._graphNodes):
self._activatedNodePaths.remove(node_path)
# maintain the render_vars activation number for every render products
deactivated_render_vars = {}
for rp, rvs in render_var_deactivations.items():
valid_rp = rp in self._render_product_var_activations
for rv, num in rvs.items():
valid_rv = valid_rp and rv in self._render_product_var_activations[rp]
if valid_rv and (self._render_product_var_activations[rp][rv][0] <= num):
if self._render_product_var_activations[rp][rv][1]:
if rp not in deactivated_render_vars:
deactivated_render_vars[rp]=[rv]
else:
deactivated_render_vars[rp].append(rv)
self._render_product_var_activations[rp].pop(rv)
elif valid_rv:
self._render_product_var_activations[rp][rv][0] -= num
if deactivate_render_vars:
for rp, rvs in deactivated_render_vars.items():
for rv in rvs:
SyntheticData._remove_rendervar(rp, rv, stage)
return deactivated_render_vars
def connect_node_template(self, src_template_name: str, dst_template_name: str, render_product_path: str=None, connection_map: dict=None):
"""Connect the given source node template to the destination node template
Args:
src_template_name : name of the source node template
dst_template_name : name of the destination node template
render_product_path : render product path of the node templates (None if the node are not specific to a render product)
connection_map : attribute mapping for the source inputs to the destination outputs. (None for an automatic mapping based on names)
"""
src_node_path = SyntheticData._get_node_path(src_template_name, render_product_path)
if src_node_path not in self._graphNodes:
raise SyntheticDataException(f'cannot connect node template : "{src_node_path}" not activated')
else:
src_node = self._graphNodes[src_node_path]
dst_node_path = SyntheticData._get_node_path(dst_template_name, render_product_path)
if dst_node_path not in self._graphNodes:
raise SyntheticDataException(f'cannot connect node template : "{dst_node_path}" not activated')
else:
dst_node = self._graphNodes[dst_node_path]
if connection_map:
SyntheticData._connect_nodes(src_node, dst_node, connection_map, True)
else:
SyntheticData._auto_connect_nodes(src_node, dst_node, True)
def disconnect_node_template(self, src_template_name: str, dst_template_name: str, render_product_path: str=None, connection_map: dict=None):
"""Disconnect the given source node template to the destination node template
Args:
src_template_name : name of the source node template
dst_template_name : name of the destination node template
render_product_path : render product path of the node templates (None if the node are not specific to a render product)
connection_map : attribute mapping for the source inputs to the destination outputs. (None for an automatic mapping based on names)
"""
src_node_path = SyntheticData._get_node_path(src_template_name, render_product_path)
if src_node_path not in self._graphNodes:
raise SyntheticDataException(f'cannot disconnect node template : "{src_node_path}" not activated')
else:
src_node = self._graphNodes[src_node_path]
dst_node_path = SyntheticData._get_node_path(dst_template_name, render_product_path)
if dst_node_path not in self._graphNodes:
raise SyntheticDataException(f'cannot disconnect node template : "{dst_node_path}" not activated')
else:
dst_node = self._graphNodes[dst_node_path]
if connection_map:
SyntheticData._connect_nodes(src_node, dst_node, connection_map, False)
else:
SyntheticData._auto_connect_nodes(src_node, dst_node, False)
def request_node_execution(self, template_name: str, render_product_path: str=None):
"""Request the execution of an activated node.
The function will schedule the execution of compute-on-request node
Args:
template_name : name of the activated node
render_product_path : if the activated node is associated to a render product, provide its path
Returns:
True if the request has been successfull
"""
node_path = SyntheticData._get_node_path(template_name, render_product_path)
if node_path not in self._graphNodes:
raise SyntheticDataException(f"invalid node {node_path}")
node = self._graphNodes[node_path]
if node.is_valid():
node.request_compute()
def set_node_attributes(self, template_name: str, attributes: dict, render_product_path: str=None) -> None:
"""Set the value of an activated node attribute.
The function may be used to set the value of multiple activated node input attributes before the execution of its stage.
Args:
template_name : name of the activated node
attributes : dictionnary of attribute name/value to set
render_product_path : if the activated node is associated to a render product, provide its path
"""
node_path = SyntheticData._get_node_path(template_name, render_product_path)
self._set_node_attributes(node_path, attributes)
def get_node_attributes(
self, template_name: str, attribute_names: list, render_product_path=None, gpu=False
) -> dict:
"""Get the value of several activated node's attributes.
The function may be used to retrieve the value of multiple activated node output attributes after the execution of its graph.
Args:
template_name : name of the activated node
attribute_names : list of node attribute names to retrieve the value
render_product_path : if the activated node is associated to a render product, provide its path
gpu : for array data attribute, get a gpu data
Returns:
A dictionnary of attribute name/value for every successfully retrieved attributes
None if the node is not a valid activated node
"""
node_path = SyntheticData._get_node_path(template_name, render_product_path)
return self._get_node_attributes(node_path, attribute_names, gpu)
def set_instance_mapping_semantic_filter(self, predicate="*:*"):
"""Set the semantic filter predicate to be applied to the instance mapping. Contrary to the default
semantic filter this filter affect the instance mapping. All semantic data filtered at this level is
not available in the instance mapping.
Args:
predicate : a semantic filter predicate.
predicate examples :
"typeA : labelA & !labelB | labelC , typeB: labelA ; typeC: labelD"
"typeA : * ; * : labelA"
"""
SyntheticData._ogn_templates_registry[SyntheticData._instanceMappingCtrl].attributes["inputs:semanticFilterPredicate"] = predicate
node_path = SyntheticData._get_node_path(SyntheticData._instanceMappingCtrl)
if node_path in self._graphNodes:
self.set_node_attributes(SyntheticData._instanceMappingCtrl, {"inputs:semanticFilterPredicate":predicate})
def get_instance_mapping_semantic_filter(self):
""" Returns:
The semantic filter predicate currently applied to the instance mapping.
"""
return SyntheticData._ogn_templates_registry[SyntheticData._instanceMappingCtrl].attributes["inputs:semanticFilterPredicate"]
def set_default_semantic_filter(self, predicate="*:*", hierarchical_labels=False, matching_labels=True):
"""Set the default semantic filter predicate.
Args:
predicate : a semantic filter predicate.
hierarchical_labels : option to propagate semantic labels within the hiearchy, from parent to childrens
matching_labels : option to remove from the set of labels the one that do not match the predicate
predicate examples :
"typeA : labelA & !labelB | labelC , typeB: labelA ; typeC: labelD"
"typeA : * ; * : labelA"
"""
node_path = SyntheticData._get_node_path(SyntheticData._defaultSemanticFilterName)
attributes = {"inputs:predicate": predicate, "inputs:hierarchicalLabels": hierarchical_labels,
"inputs:matchingLabels": matching_labels}
if node_path in self._graphNodes:
self.set_node_attributes(SyntheticData._defaultSemanticFilterName, attributes)
else:
self.activate_node_template(SyntheticData._defaultSemanticFilterName, attributes=attributes)
def get_default_semantic_filter(self):
"""Set the default semantic filter predicate.
Args:
predicate : a semantic filter predicate.
hierarchical_labels : option to propagate semantic labels within the hiearchy, from parent to childrens
matching_labels : option to remove from the set of labels the one that do not match the predicate
predicate examples :
"typeA : labelA & !labelB | labelC , typeB: labelA ; typeC: labelD"
"typeA : * ; * : labelA"
"""
attr = self.get_node_attributes(SyntheticData._defaultSemanticFilterName, ["inputs:predicate"])
return attr["inputs:predicate"] if "inputs:predicate" in attr else "*"
def enable_rendervar(self, render_product_path:str, render_var:str, usd_stage: Usd.Stage = None) -> None:
"""Explicitely enable the computation of a render_var for a given render_product.
Args:
render_product_path : the render_product for which to enable the given render_var computation
render_var : the name of the render_var to enable
usd_stage : usd stage
"""
SyntheticData._add_rendervar(render_product_path, render_var, usd_stage)
def disable_rendervar(self, render_product_path:str, render_var:str, usd_stage: Usd.Stage = None) -> None:
"""Explicitely disable the computation of a render_var for a given render_product.
Args:
render_product_path : the render_product for which to disable the given render_var computation
render_var : the name of the render_var to disable
usd_stage : usd stage
"""
SyntheticData._remove_rendervar(render_product_path, render_var, usd_stage)
def is_rendervar_used(self, render_product_path:str, render_var:str) -> None:
""" query the used status of a render var for a render product
Args:
render_product_path: the path of the render product
renver_var: the name of the render_var
Returns:
True if the given render var is currently in use by the activated syntheticData nodes for the given render product
"""
if (render_product_path in self._render_product_var_activations) and (render_var in self._render_product_var_activations[render_product_path]):
return self._render_product_var_activations[render_product_path][render_var][0] > 0
else:
return False
def is_rendervar_enabled(self, render_product_path:str, render_var:str, only_sdg_activated: bool = False, usd_stage: Usd.Stage = None) -> None:
""" query the enabled status of a render var for a render product
Args:
render_product_path: the path of the render product
renver_var: the name of the render_var
only_sdg_activated: consider only the render var automatically enabled by a call to activate_node_template
usd_stage: the usd stage (if None use the current usd context stage)
Returns:
True if the given render var is currently enabled for the given render product
and, if only_sdg_activated is True, if it has been enabled by a call to activate_node_template
"""
if only_sdg_activated:
if (render_product_path in self._render_product_var_activations) and (render_var in self._render_product_var_activations[render_product_path]):
return self._render_product_var_activations[render_product_path][render_var][1]
else:
return False
else:
return SyntheticData._has_rendervar(render_product_path, render_var, usd_stage)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/model.py | # Copyright (c) 2021-2022, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
__all__ = ['RenderProductModel', 'RenderVarModel']
import omni.usd
import omni.ui as ui
from .SyntheticData import SyntheticData
from pxr import Usd
class RenderProductItem(ui.AbstractItem):
def __init__(self, model):
super().__init__()
self.model = model
class RenderProductModel(ui.AbstractItemModel):
def __init__(self, viewport_name: str, viewport_api):
super().__init__()
# Omniverse interfaces
self._viewport_api = viewport_api
self._stage_update = omni.stageupdate.get_stage_update_interface()
self._stage_subscription = self._stage_update.create_stage_update_node(
"RenderProductModel_" + viewport_name,
None,
None,
None,
self._on_prim_created,
None,
self._on_prim_removed,
)
# The list of the cameras is here
self._render_products = []
# The current index of the editable_combo box
self._current_index = ui.SimpleIntModel()
self._current_index.add_value_changed_fn(self._current_index_changed)
# Iterate the stage and get all the renderProduct
stage = viewport_api.usd_context.get_stage()
if stage:
for prim in Usd.PrimRange(stage.GetPseudoRoot()):
if prim.IsA("UsdRenderProduct"):
self._render_products.append(
RenderProductItem(ui.SimpleStringModel(prim.GetPath().pathString))
)
def destroy(self):
self._viewport_api = None
def get_item_children(self, item):
return self._render_products
def get_item_value_model(self, item, column_id):
if item is None:
return self._current_index
return item.model
def _on_prim_created(self, path):
self._render_products.append(RenderProductItem(ui.SimpleStringModel(path)))
self._item_changed(None)
def _on_prim_removed(self, path):
render_products = [rp.model.as_string for rp in self._render_products]
if path in render_products:
index = render_products.index(path)
del self._render_products[index]
self._current_index.as_int = 0
self._item_changed(None)
def _current_index_changed(self, model):
index = model.as_int
render_product_path = self._render_products[index].model.as_string
self._viewport_api.render_product_path = render_product_path
self._item_changed(None)
class RenderVarItem(ui.AbstractItem):
def __init__(self, model):
super().__init__()
self.model = model
class RenderVarModel(ui.AbstractItemModel):
def _create_item(self, name):
return RenderVarItem(ui.SimpleStringModel(name))
def __init__(self, viewport_api):
super().__init__()
self._viewport_api = viewport_api
self._render_vars = [
self._create_item(rv[0:-7]) for rv in SyntheticData.get_registered_visualization_template_names()
]
self._default_index_int = 0
self._current_index = ui.SimpleIntModel()
self._current_index.add_value_changed_fn(self._current_index_changed)
self._previous_index_int = self._current_index.as_int
self._combine_params = [0, 0, -100]
def destroy(self):
self._viewport_api = None
def get_item_children(self, item):
return self._render_vars
def get_item_value_model(self, item, column_id):
if item is None:
return self._current_index
return item.model
def _current_index_changed(self, model):
index = model.as_int
isdg = SyntheticData.Get()
if isdg:
render_prod_path = self.get_render_product_path()
stage = self._viewport_api.usd_context.get_stage()
if self._render_vars[self._previous_index_int].model.as_string != "LdrColor":
isdg.deactivate_node_template(
self._render_vars[self._previous_index_int].model.as_string + "DisplayPostCombine", 0, [render_prod_path], stage
)
if self._render_vars[index].model.as_string != "LdrColor":
isdg.activate_node_template(
self._render_vars[index].model.as_string + "DisplayPostCombine", 0, [render_prod_path], None, stage
)
self._previous_index_int = index
self.update_combine()
self._item_changed(None)
def set_default_item(self):
self._current_index.set_value(self._default_index_int)
def get_render_product_path(self):
if self._viewport_api is None:
return None
render_prod_path = self._viewport_api.render_product_path
# XXX: Issue with Viewport-2 and omni.kit.hydra_texture
# The default product path is returned as a string that isn't the prim-path
# We can work around it by noting the path isn't absolute and fixing it u pi that case.
if render_prod_path and (not render_prod_path.startswith('/')):
render_prod_path = f'/Render/RenderProduct_{render_prod_path}'
return render_prod_path
def set_combine_angle(self, angle):
self._combine_params[0] = angle
self.update_combine()
def set_combine_divide_x(self, divide):
self._combine_params[1] = divide
self.update_combine()
def set_combine_divide_y(self, divide):
self._combine_params[2] = divide
self.update_combine()
def get_combine_angle(self):
return self._combine_params[0]
def get_combine_divide_x(self):
return self._combine_params[1]
def get_combine_divide_y(self):
return self._combine_params[2]
def update_combine(self):
if self._render_vars[self._previous_index_int].model.as_string == "LdrColor":
return
isdg = SyntheticData.Get()
if isdg:
isdg.set_node_attributes(
self._render_vars[self._previous_index_int].model.as_string + "DisplayPostCombine",
{"inputs:parameters": self._combine_params},
self.get_render_product_path()
)
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/menu.py | # Copyright (c) 2021-2022, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
__all__ = ["SynthDataMenuContainer"]
from omni.kit.viewport.menubar.core import (
ComboBoxModel,
ComboBoxItem,
ComboBoxMenuDelegate,
CheckboxMenuDelegate,
IconMenuDelegate,
SliderMenuDelegate,
ViewportMenuContainer,
ViewportMenuItem,
ViewportMenuSeparator
)
from .SyntheticData import SyntheticData
from .visualizer_window import VisualizerWindow
import carb
import omni.ui as ui
from pathlib import Path
import weakref
ICON_PATH = Path(carb.tokens.get_tokens_interface().resolve("${omni.syntheticdata}")).joinpath("data")
UI_STYLE = {"Menu.Item.Icon::SyntheticData": {"image_url": str(ICON_PATH.joinpath("sensor_icon.svg"))}}
class SensorAngleModel(ui.AbstractValueModel):
def __init__(self, getter, setter, *args, **kwargs):
super().__init__(*args, **kwargs)
self.__getter = getter
self.__setter = setter
def destroy(self):
self.__getter = None
self.__setter = None
def get_value_as_float(self) -> float:
return self.__getter()
def get_value_as_int(self) -> int:
return int(self.get_value_as_float())
def set_value(self, value):
value = float(value)
if self.get_value_as_float() != value:
self.__setter(value)
self._value_changed()
class SensorVisualizationModel(ui.AbstractValueModel):
def __init__(self, sensor: str, visualizer_window, *args, **kwargs):
super().__init__(*args, **kwargs)
self.__sensor = sensor
self.__visualizer_window = visualizer_window
def get_value_as_bool(self) -> bool:
try:
return bool(self.__sensor in self.__visualizer_window.visualization_activation)
except:
return False
def get_value_as_int(self) -> int:
return 1 if self.get_value_as_bool() else 0
def set_value(self, enabled):
enabled = bool(enabled)
if self.get_value_as_bool() != enabled:
self.__visualizer_window.on_sensor_item_clicked(enabled, self.__sensor)
self._value_changed()
def sensor(self):
return self.__sensor
class MenuContext:
def __init__(self, viewport_api):
self.__visualizer_window = VisualizerWindow(f"{viewport_api.id}", viewport_api)
self.__hide_on_click = False
self.__sensor_models = set()
def destroy(self):
self.__sensor_models = set()
self.__visualizer_window.close()
@property
def hide_on_click(self) -> bool:
return self.__hide_on_click
def add_render_settings_items(self):
render_product_combo_model = self.__visualizer_window.render_product_combo_model
if render_product_combo_model:
ViewportMenuItem(
"RenderProduct",
delegate=ComboBoxMenuDelegate(model=render_product_combo_model),
hide_on_click=self.__hide_on_click,
)
render_var_combo_model = self.__visualizer_window.render_var_combo_model
if render_var_combo_model:
ViewportMenuItem(
"RenderVar",
delegate=ComboBoxMenuDelegate(model=render_var_combo_model),
hide_on_click=self.__hide_on_click,
)
def add_angles_items(self):
render_var_combo_model = self.__visualizer_window.render_var_combo_model
if render_var_combo_model:
ViewportMenuItem(
name="Angle",
hide_on_click=self.__hide_on_click,
delegate=SliderMenuDelegate(
model=SensorAngleModel(render_var_combo_model.get_combine_angle,
render_var_combo_model.set_combine_angle),
min=-100.0,
max=100.0,
tooltip="Set Combine Angle",
),
)
ViewportMenuItem(
name="X",
hide_on_click=self.__hide_on_click,
delegate=SliderMenuDelegate(
model=SensorAngleModel(render_var_combo_model.get_combine_divide_x,
render_var_combo_model.set_combine_divide_x),
min=-100.0,
max=100.0,
tooltip="Set Combine Divide X",
),
)
ViewportMenuItem(
name="Y",
hide_on_click=self.__hide_on_click,
delegate=SliderMenuDelegate(
model=SensorAngleModel(render_var_combo_model.get_combine_divide_y,
render_var_combo_model.set_combine_divide_y),
min=-100.0,
max=100.0,
tooltip="Set Combine Divide Y",
),
)
def add_sensor_selection(self):
for sensor_label, sensor in SyntheticData.get_registered_visualization_template_names_for_display():
model = SensorVisualizationModel(sensor, self.__visualizer_window)
self.__sensor_models.add(model)
ViewportMenuItem(
name=sensor_label,
hide_on_click=self.__hide_on_click,
delegate=CheckboxMenuDelegate(model=model, tooltip=f'Enable "{sensor}" visualization')
)
if SyntheticData.get_visualization_template_name_default_activation(sensor):
model.set_value(True)
def clear_all(self, *args, **kwargs):
for smodel in self.__sensor_models:
smodel.set_value(False)
def set_as_default(self, *args, **kwargs):
for smodel in self.__sensor_models:
SyntheticData.set_visualization_template_name_default_activation(smodel.sensor(), smodel.get_value_as_bool())
def reset_to_default(self, *args, **kwargs):
default_sensors = []
for _, sensor in SyntheticData.get_registered_visualization_template_names_for_display():
if SyntheticData.get_visualization_template_name_default_activation(sensor):
default_sensors.append(sensor)
for smodel in self.__sensor_models:
smodel.set_value(smodel.sensor() in default_sensors)
def show_window(self, *args, **kwargs):
self.__visualizer_window.toggle_enable_visualization()
class SynthDataMenuContainer(ViewportMenuContainer):
def __init__(self):
super().__init__(name="SyntheticData",
visible_setting_path="/exts/omni.syntheticdata/menubar/visible",
order_setting_path="/exts/omni.syntheticdata/menubar/order",
delegate=IconMenuDelegate("SyntheticData"), # tooltip="Synthetic Data Sensors"),
style=UI_STYLE)
self.__menu_context: Dict[str, MenuContext] = {}
def __del__(self):
self.destroy()
def destroy(self):
for menu_ctx in self.__menu_context.values():
menu_ctx.destroy()
self.__menu_context = {}
super().destroy()
def build_fn(self, desc: dict):
viewport_api = desc.get("viewport_api")
if not viewport_api:
return
viewport_api_id = viewport_api.id
menu_ctx = self.__menu_context.get(viewport_api_id)
if menu_ctx:
menu_ctx.destroy()
menu_ctx = MenuContext(viewport_api)
self.__menu_context[viewport_api_id] = menu_ctx
with self:
menu_ctx.add_render_settings_items()
ViewportMenuSeparator()
menu_ctx.add_angles_items()
ViewportMenuSeparator()
menu_ctx.add_sensor_selection()
if carb.settings.get_settings().get_as_bool("/exts/omni.syntheticdata/menubar/showSensorDefaultButton"):
ViewportMenuSeparator()
ViewportMenuItem(name="Set as default", hide_on_click=menu_ctx.hide_on_click, onclick_fn=menu_ctx.set_as_default)
ViewportMenuItem(name="Reset to default", hide_on_click=menu_ctx.hide_on_click, onclick_fn=menu_ctx.reset_to_default)
ViewportMenuSeparator()
ViewportMenuItem(name="Clear All", hide_on_click=menu_ctx.hide_on_click, onclick_fn=menu_ctx.clear_all)
ViewportMenuItem(name="Show Window", hide_on_click=menu_ctx.hide_on_click, onclick_fn=menu_ctx.show_window)
super().build_fn(desc)
def clear_all(self):
for menu_ctx in self.__menu_context.values():
menu_ctx.clear_all()
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/scripts/visualizer_window.py | # Copyright (c) 2021-2022, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
#
__all__ = ["VisualizerWindow"]
import omni.ui as ui
from .. import _syntheticdata
from .SyntheticData import SyntheticData
from .model import RenderProductModel, RenderVarModel
import math
from functools import lru_cache
import carb.settings
DEBUG_VIEW = False
@lru_cache()
def _get_syntheticdata_iface():
return _syntheticdata.acquire_syntheticdata_interface()
class VisualizerWindow:
def __init__(self, name, viewport_api):
# create the window
self._visualize_window = ui.Window(name + " Sensors Output ", width=800, height=600)
self._visualize_window.set_width_changed_fn(lambda _: self._update_visualization_ui())
self._visualize_window.set_height_changed_fn(lambda _: self._update_visualization_ui())
self._visualize_window.visible = False
self._render_product_combo_model = RenderProductModel(name, viewport_api) if DEBUG_VIEW else None
self._render_var_combo_model = RenderVarModel(viewport_api)
self._render_product_path = self._render_var_combo_model.get_render_product_path()
# activated visualization contains the set of display node that have been activated through the UI
self._visualization_activation = set()
# visualisation_data contain the image provider for all currently activated display node
self._activated_visualization_data = {}
if hasattr(viewport_api, 'subscribe_to_frame_change'):
self.__frame_changed_sub = viewport_api.subscribe_to_frame_change(self.__frame_changed)
def __frame_changed(self, viewport_api):
render_product = self._render_var_combo_model.get_render_product_path()
self.update(render_product, viewport_api.stage)
def close(self):
self.__frame_changed_sub = None
if self._visualize_window:
self._visualize_window.visible = False
self._visualize_window = None
if self._render_product_combo_model:
self._render_product_combo_model = None
if self._render_var_combo_model:
self._render_var_combo_model = None
self._visualization_activation = set()
self._activated_visualization_data = {}
@property
def render_product_combo_model(self):
return self._render_product_combo_model
@property
def render_var_combo_model(self):
return self._render_var_combo_model
@property
def visualization_activation(self):
return self._visualization_activation
# callback function for handling sensor selection
def on_sensor_item_clicked(self, checked, sensor):
if checked:
self._visualization_activation.add(sensor)
else:
self._visualization_activation.remove(sensor)
# visualization callback
def toggle_enable_visualization(self):
if self._visualize_window:
self._visualize_window.visible = not self._visualize_window.visible
def update(self, render_product_path: str, stage):
sdg_iface = SyntheticData.Get()
if render_product_path != self._render_product_path:
for sensor in self._activated_visualization_data:
sdg_iface.deactivate_node_template(sensor,0,[render_product_path])
self._activated_visualization_data = {}
if not carb.settings.get_settings().get_as_bool("/exts/omni.syntheticdata/menubar/showSensorDefaultButton"):
self._visualization_activation = set()
self._render_product_path = render_product_path
self._render_var_combo_model.set_default_item()
# update the activated sensors
visualization_activation = self._visualization_activation.copy() # NB this is not threadsafe
to_activate = visualization_activation.difference(set(self._activated_visualization_data.keys()))
to_deactivate = set(self._activated_visualization_data.keys()).difference(visualization_activation)
self._activated_visualization_data = {}
for sensor in visualization_activation:
self._activated_visualization_data[sensor] = None
for sensor in to_activate:
sdg_iface.activate_node_template(sensor, 0, [render_product_path], None, stage)
for sensor in to_deactivate:
sdg_iface.deactivate_node_template(sensor, 0, [render_product_path], stage)
# update the visualization window
if self._visualize_window.visible:
for sensor in self._activated_visualization_data:
# create image provider from the sensor texture data
self._activated_visualization_data[sensor] = ui.ImageProvider()
display_output_names = ["outputs:rpResourcePtr"]
display_outputs = sdg_iface.get_node_attributes(sensor, display_output_names, render_product_path)
if display_outputs and all(o in display_outputs for o in display_output_names):
resource_opaque_ptr = display_outputs["outputs:rpResourcePtr"]
if resource_opaque_ptr:
self._activated_visualization_data[sensor].set_image_data(
_get_syntheticdata_iface().get_visualizer_resource_from_opaque_pointer(resource_opaque_ptr))
self._update_visualization_ui()
def _update_visualization_ui(self):
num_sensors = len(self._activated_visualization_data)
if num_sensors == 0:
rows, columns = 0, 0
else:
# Attempt a responsive layout to the number of enabled sensors
columns = math.ceil(math.sqrt(num_sensors))
rows = math.ceil(num_sensors / columns)
if self._visualize_window.height > self._visualize_window.width:
columns, rows = rows, columns
enabled_sensors = list(self._activated_visualization_data.keys())
with self._visualize_window.frame:
with ui.VStack():
idx = 0
for _ in range(rows):
with ui.HStack():
for col in range(columns):
sensor = enabled_sensors[idx]
with ui.VStack():
ui.Label(sensor, alignment=ui.Alignment.CENTER, height=20)
ui.ImageWithProvider(
self._activated_visualization_data[sensor], alignment=ui.Alignment.CENTER_TOP
)
ui.Spacer(height=20)
idx += 1
if col < columns - 1:
# Add a spacer if inner grid edge
ui.Spacer(width=3)
if idx >= len(enabled_sensors):
break
|
omniverse-code/kit/exts/omni.syntheticdata/omni/syntheticdata/tests/__init__.py | """
Presence of this file allows the tests directory to be imported as a module so that all of its contents
can be scanned to automatically add tests that are placed into this directory.
"""
scan_for_test_modules = True
from .sensors.test_bbox3d import *
from .sensors.test_bbox2d_loose import *
from .sensors.test_bbox2d_tight import *
from .sensors.test_distance_to_camera import *
from .sensors.test_distance_to_image_plane import *
from .sensors.test_depth import * # *** DEPRECATED ***
from .sensors.test_depth_linear import * # *** DEPRECATED ***
from .sensors.test_motion_vector import *
from .sensors.test_normals import *
from .sensors.test_occlusion import *
from .sensors.test_rgb import *
from .sensors.test_instance_seg import *
from .sensors.test_semantic_seg import *
from .sensors.test_cross_correspondence import *
from .sensors.test_swh_frame_number import *
from .sensors.test_renderproduct_camera import *
from .sensors.test_rendervar_buff_host_ptr import *
from .sensors.test_semantic_filter import *
from .sensors.test_display_rendervar import *
from .helpers.test_instance_mapping import *
from .helpers.test_projection import *
from .helpers.test_bboxes import *
from .visualize.test_semantic_seg import *
from .pipeline.test_instance_mapping import *
from .pipeline.test_swh_frame_number import *
from .pipeline.test_renderproduct_camera import *
from .pipeline.test_instance_mapping_update import *
from .graph.test_graph_manipulation import * |
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