usdrt::UsdSkelRoot
Defined in usdrt/scenegraph/usd/usdSkel/root.h
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class UsdSkelRoot : public usdrt::UsdGeomBoundable
Boundable prim type used to identify a scope beneath which skeletally-posed primitives are defined.
A SkelRoot must be defined at or above a skinned primitive for any skinning behaviors in UsdSkel.
See the extended Skel Root Schema documentation for more information.
Public Functions
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inline explicit UsdSkelRoot(const UsdPrim &prim = UsdPrim())
Construct a UsdSkelRoot on UsdPrim
prim
. Equivalent to UsdSkelRoot::Get(prim.GetStage(), prim.GetPath()) for a validprim
, but will not immediately throw an error for an invalidprim
.
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inline explicit UsdSkelRoot(const UsdSchemaBase &schemaObj)
Construct a UsdSkelRoot on the prim held by
schemaObj
. Should be preferred over UsdSkelRoot(schemaObj.GetPrim()), as it preserves SchemaBase state.
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inline virtual ~UsdSkelRoot()
Destructor.
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inline UsdAttribute GetExtentAttr() const
Extent is a three dimensional range measuring the geometric extent of the authored gprim in its own local space (i.e. its own transform not applied), without accounting for any shader-induced displacement. If any extent value has been authored for a given Boundable, then it should be authored at every timeSample at which geometry-affecting properties are authored, to ensure correct evaluation via ComputeExtent(). If no extent value has been authored, then ComputeExtent() will call the Boundable’s registered ComputeExtentFunction(), which may be expensive, which is why we strongly encourage proper authoring of extent.
An authored extent on a prim which has children is expected to include the extent of all children, as they will be pruned from BBox computation during traversal.
See also
ComputeExtent()
See also
Why Extent and not Bounds ?.
Declaration
float3[] extent
C++ Type
VtArray<GfVec3f>
Usd Type
SdfValueTypeNames->Float3Array
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inline UsdAttribute CreateExtentAttr() const
See GetExtentAttr(), and also Create vs Get Property Methods for when to use Get vs Create. If specified, author
defaultValue
as the attribute’s default, sparsely (when it makes sense to do so) ifwriteSparsely
istrue
- the default forwriteSparsely
isfalse
.
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inline UsdAttribute GetXformOpOrderAttr() const
Encodes the sequence of transformation operations in the order in which they should be pushed onto a transform stack while visiting a UsdStage’s prims in a graph traversal that will effect the desired positioning for this prim and its descendant prims.
You should rarely, if ever, need to manipulate this attribute directly. It is managed by the AddXformOp(), SetResetXformStack(), and SetXformOpOrder(), and consulted by GetOrderedXformOps() and GetLocalTransformation().
Declaration
uniform token[] xformOpOrder
C++ Type
VtArray<TfToken>
Usd Type
SdfValueTypeNames->TokenArray
Variability
SdfVariabilityUniform
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inline UsdAttribute CreateXformOpOrderAttr() const
See GetXformOpOrderAttr(), and also Create vs Get Property Methods for when to use Get vs Create. If specified, author
defaultValue
as the attribute’s default, sparsely (when it makes sense to do so) ifwriteSparsely
istrue
- the default forwriteSparsely
isfalse
.
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inline UsdAttribute GetVisibilityAttr() const
Visibility is meant to be the simplest form of “pruning” visibility that is supported by most DCC apps. Visibility is animatable, allowing a sub-tree of geometry to be present for some segment of a shot, and absent from others; unlike the action of deactivating geometry prims, invisible geometry is still available for inspection, for positioning, for defining volumes, etc.
Declaration
token visibility = "inherited"
C++ Type
Usd Type
SdfValueTypeNames->Token
Allowed Values
inherited, invisible
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inline UsdAttribute CreateVisibilityAttr() const
See GetVisibilityAttr(), and also Create vs Get Property Methods for when to use Get vs Create. If specified, author
defaultValue
as the attribute’s default, sparsely (when it makes sense to do so) ifwriteSparsely
istrue
- the default forwriteSparsely
isfalse
.
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inline UsdAttribute GetPurposeAttr() const
Purpose is a classification of geometry into categories that can each be independently included or excluded from traversals of prims on a stage, such as rendering or bounding-box computation traversals.
See UsdGeom_ImageablePurpose for more detail about how purpose is computed and used.
Declaration
uniform token purpose = "default"
C++ Type
Usd Type
SdfValueTypeNames->Token
Variability
SdfVariabilityUniform
Allowed Values
default, render, proxy, guide
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inline UsdAttribute CreatePurposeAttr() const
See GetPurposeAttr(), and also Create vs Get Property Methods for when to use Get vs Create. If specified, author
defaultValue
as the attribute’s default, sparsely (when it makes sense to do so) ifwriteSparsely
istrue
- the default forwriteSparsely
isfalse
.
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inline UsdRelationship GetProxyPrimRel() const
The proxyPrim relationship allows us to link a prim whose purpose is “render” to its (single target) purpose=”proxy” prim. This is entirely optional, but can be useful in several scenarios:
In a pipeline that does pruning (for complexity management) by deactivating prims composed from asset references, when we deactivate a purpose=”render” prim, we will be able to discover and additionally deactivate its associated purpose=”proxy” prim, so that preview renders reflect the pruning accurately.
DCC importers may be able to make more aggressive optimizations for interactive processing and display if they can discover the proxy for a given render prim.
With a little more work, a Hydra-based application will be able to map a picked proxy prim back to its render geometry for selection.
Note
It is only valid to author the proxyPrim relationship on prims whose purpose is “render”.
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inline UsdRelationship CreateProxyPrimRel() const
See GetProxyPrimRel(), and also Create vs Get Property Methods for when to use Get vs Create.
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inline explicit operator bool() const
Check if this schema object is compatible with it’s held prim and that the prim is valid.
A typed schema object is compatible if the held prim’s type is or is a subtype of the schema’s type. Based on
prim.IsA()
.An API schema object is compatible if the API is of type SingleApplyAPI or UsdSchemaType::MultipleApplyAPI, and the schema has been applied to the prim. Based on
prim.HasAPI
.This method invokes polymorphic behaviour.
See also
- Returns
True if the help prim is valid, and the schema object is compatible with its held prim.
Public Static Functions
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static inline UsdSkelRoot Define(const UsdStageRefPtr &stage, const SdfPath &path)
Attempt to ensure a UsdPrim adhering to this schema at
path
is defined (according to UsdPrim::IsDefined()) on this stage.
Public Static Attributes
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static const UsdSchemaType schemaType = UsdSchemaType::ConcreteTyped
Compile time constant representing what kind of schema this class is.
See also
Protected Functions
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inline virtual bool _IsCompatible() const
Helper for subclasses to do specific compatibility checking with the given prim. Subclassess may override
_isCompatible
to for example check type compatibility or value compatibility on the prim.Overrides exist for UsdTyped and UsdAPISchemaBase.
This check is called when clients invoke the bool operator.
- Returns
True if the schema object is compatible with its held prim.
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inline explicit UsdSkelRoot(const UsdPrim &prim = UsdPrim())