usdrt::UsdGeomNurbsCurves
Defined in usdrt/scenegraph/usd/usdGeom/nurbsCurves.h
Functions
usdrt::PhysxSchemaPlane::CreateAccelerationsAttr: See GetAccelerationsAttr() , 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
.usdrt::UsdGeomBasisCurves::CreateCurveVertexCountsAttr: See GetCurveVertexCountsAttr() , 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
.usdrt::PhysxSchemaPhysxParticleSystem::CreateDisplayColorAttr: See GetDisplayColorAttr() , 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
.usdrt::PhysxSchemaPhysxParticleSystem::CreateDisplayOpacityAttr: See GetDisplayOpacityAttr() , 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
.usdrt::PhysxSchemaPhysxParticleSystem::CreateDoubleSidedAttr: See GetDoubleSidedAttr() , 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
.usdrt::PhysxSchemaPhysxParticleSystem::CreateExtentAttr: 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
.usdrt::UsdGeomNurbsCurves::CreateFormAttr: See GetFormAttr() , 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
.usdrt::UsdGeomNurbsCurves::CreateKnotsAttr: See GetKnotsAttr() , 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
.usdrt::PhysxSchemaPlane::CreateNormalsAttr: See GetNormalsAttr() , 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
.usdrt::UsdGeomNurbsCurves::CreateOrderAttr: See GetOrderAttr() , 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
.usdrt::PhysxSchemaPhysxParticleSystem::CreateOrientationAttr: See GetOrientationAttr() , 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
.usdrt::UsdGeomNurbsCurves::CreatePointWeightsAttr: See GetPointWeightsAttr() , 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
.usdrt::PhysxSchemaPlane::CreatePointsAttr: See GetPointsAttr() , 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
.usdrt::PhysxSchemaPhysxParticleSystem::CreateProxyPrimRel: See GetProxyPrimRel() , and also Create vs Get Property Methods for when to use Get vs Create.
usdrt::PhysxSchemaPhysxParticleSystem::CreatePurposeAttr: 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
.usdrt::UsdGeomNurbsCurves::CreateRangesAttr: See GetRangesAttr() , 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
.usdrt::PhysxSchemaPlane::CreateVelocitiesAttr: See GetVelocitiesAttr() , 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
.usdrt::PhysxSchemaPhysxParticleSystem::CreateVisibilityAttr: 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
.usdrt::UsdGeomBasisCurves::CreateWidthsAttr: See GetWidthsAttr() , 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
.usdrt::PhysxSchemaPhysxParticleSystem::CreateXformOpOrderAttr: 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
.usdrt::UsdGeomNurbsCurves::Define: Attempt to ensure a UsdPrim adhering to this schema at
path
is defined (according to UsdPrim::IsDefined()) on this stage.usdrt::PhysxSchemaPlane::GetAccelerationsAttr: If provided, 'accelerations' should be used with velocities to compute positions between samples for the 'points' attribute rather than interpolating between neighboring 'points' samples. Acceleration is measured in position units per second-squared. To convert to position units per squared UsdTimeCode, divide by the square of UsdStage::GetTimeCodesPerSecond().
usdrt::UsdGeomBasisCurves::GetCurveVertexCountsAttr: Curves-derived primitives can represent multiple distinct, potentially disconnected curves. The length of 'curveVertexCounts' gives the number of such curves, and each element describes the number of vertices in the corresponding curve.
usdrt::PhysxSchemaPhysxParticleSystem::GetDisplayColorAttr: It is useful to have an "official" colorSet that can be used as a display or modeling color, even in the absence of any specified shader for a gprim. DisplayColor serves this role; because it is a UsdGeomPrimvar, it can also be used as a gprim override for any shader that consumes a displayColor parameter.
usdrt::PhysxSchemaPhysxParticleSystem::GetDisplayOpacityAttr: Companion to displayColor that specifies opacity, broken out as an independent attribute rather than an rgba color, both so that each can be independently overridden, and because shaders rarely consume rgba parameters.
usdrt::PhysxSchemaPhysxParticleSystem::GetDoubleSidedAttr: Although some renderers treat all parametric or polygonal surfaces as if they were effectively laminae with outward-facing normals on both sides, some renderers derive significant optimizations by considering these surfaces to have only a single outward side, typically determined by control-point winding order and/or orientation . By doing so they can perform "backface culling" to avoid drawing the many polygons of most closed surfaces that face away from the viewer.
usdrt::PhysxSchemaPhysxParticleSystem::GetExtentAttr: 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.
usdrt::UsdGeomNurbsCurves::GetFormAttr: Interpret the control grid and knot vectors as representing an open, geometrically closed, or geometrically closed and C2 continuous curve.
usdrt::UsdGeomNurbsCurves::GetKnotsAttr: Knot vector providing curve parameterization. The length of the slice of the array for the ith curve must be ( curveVertexCount[i] + order[i] ), and its entries must take on monotonically increasing values.
usdrt::PhysxSchemaPlane::GetNormalsAttr: Provide an object-space orientation for individual points, which, depending on subclass, may define a surface, curve, or free points. Note that 'normals' should not be authored on any Mesh that is subdivided, since the subdivision algorithm will define its own normals. 'normals' is not a generic primvar, but the number of elements in this attribute will be determined by its 'interpolation'. See SetNormalsInterpolation() . If 'normals' and 'primvars:normals' are both specified, the latter has precedence.
usdrt::UsdGeomNurbsCurves::GetOrderAttr: Order of the curve. Order must be positive and is equal to the degree of the polynomial basis to be evaluated, plus 1. Its value for the 'i'th curve must be less than or equal to curveVertexCount[i].
usdrt::PhysxSchemaPhysxParticleSystem::GetOrientationAttr: Orientation specifies whether the gprim's surface normal should be computed using the right hand rule, or the left hand rule. Please see UsdGeom_WindingOrder for a deeper explanation and generalization of orientation to composed scenes with transformation hierarchies.
usdrt::DestructionSchemaDestructibleBaseAPI::GetPath: Return the SdfPath to this schema object's held prim.
usdrt::UsdGeomNurbsCurves::GetPointWeightsAttr: Optionally provides "w" components for each control point, thus must be the same length as the points attribute. If authored, the patch will be rational. If unauthored, the patch will be polynomial, i.e. weight for all points is 1.0.
usdrt::PhysxSchemaPlane::GetPointsAttr: The primary geometry attribute for all PointBased primitives, describes points in (local) space.
usdrt::DestructionSchemaDestructibleBaseAPI::GetPrim: Return this schema object's held prim.
usdrt::PhysxSchemaPhysxParticleSystem::GetProxyPrimRel: 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:
usdrt::PhysxSchemaPhysxParticleSystem::GetPurposeAttr: 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.
usdrt::UsdGeomNurbsCurves::GetRangesAttr: Provides the minimum and maximum parametric values (as defined by knots) over which the curve is actually defined. The minimum must be less than the maximum, and greater than or equal to the value of the knots['i'th curve slice][order[i]-1]. The maxium must be less than or equal to the last element's value in knots['i'th curve slice]. Range maps to (vmin, vmax) in the RenderMan spec.
usdrt::PhysxSchemaPlane::GetVelocitiesAttr: If provided, 'velocities' should be used by renderers to.
usdrt::PhysxSchemaPhysxParticleSystem::GetVisibilityAttr: 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.
usdrt::UsdGeomBasisCurves::GetWidthsAttr: Provides width specification for the curves, whose application will depend on whether the curve is oriented (normals are defined for it), in which case widths are "ribbon width", or unoriented, in which case widths are cylinder width. 'widths' is not a generic Primvar, but the number of elements in this attribute will be determined by its 'interpolation'. See SetWidthsInterpolation() . If 'widths' and 'primvars:widths' are both specified, the latter has precedence.
usdrt::PhysxSchemaPhysxParticleSystem::GetXformOpOrderAttr: 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.
usdrt::UsdGeomNurbsCurves::UsdGeomNurbsCurves: Construct a UsdGeomNurbsCurves on the prim held by
schemaObj
. Should be preferred over UsdGeomNurbsCurves (schemaObj.GetPrim()), as it preserves SchemaBase state.usdrt::UsdGeomNurbsCurves::UsdGeomNurbsCurves: Construct a UsdGeomNurbsCurves on UsdPrim
prim
. Equivalent to UsdGeomNurbsCurves::Get(prim.GetStage(), prim.GetPath()) for a validprim
, but will not immediately throw an error for an invalidprim
.usdrt::UsdGeomNurbsCurves::operator bool: Boolean operator.
usdrt::UsdGeomNurbsCurves::~UsdGeomNurbsCurves: Destructor.
Variables
usdrt::UsdGeomNurbsCurves::schemaType: Compile time constant representing what kind of schema this class is.
-
class UsdGeomNurbsCurves : public usdrt::UsdGeomCurves
This schema is analagous to NURBS Curves in packages like Maya and Houdini, often used for interchange of rigging and modeling curves. Unlike Maya, this curve spec supports batching of multiple curves into a single prim, widths, and normals in the schema. Additionally, we require ‘numSegments + 2 * degree + 1’ knots (2 more than maya does). This is to be more consistent with RenderMan’s NURBS patch specification.
To express a periodic curve:
knot[0] = knot[1] - (knots[-2] - knots[-3];
knot[-1] = knot[-2] + (knot[2] - knots[1]);
To express a nonperiodic curve:
knot[0] = knot[1];
knot[-1] = knot[-2];
In spite of these slight differences in the spec, curves generated in Maya should be preserved when roundtripping.
order and range, when representing a batched NurbsCurve should be authored one value per curve. knots should be the concatentation of all batched curves.
NurbsCurve Form
Form is provided as an aid to interchange between modeling and animation applications so that they can robustly identify the intent with which the surface was modelled, and take measures (if they are able) to preserve the continuity/concidence constraints as the surface may be rigged or deformed.
An open-form NurbsCurve has no continuity constraints.
A closed-form NurbsCurve expects the first and last control points to overlap
A periodic-form NurbsCurve expects the first and last order - 1 control points to overlap.
Public Functions
-
inline explicit UsdGeomNurbsCurves(const UsdPrim &prim = UsdPrim())
Construct a UsdGeomNurbsCurves on UsdPrim
prim
. Equivalent to UsdGeomNurbsCurves::Get(prim.GetStage(), prim.GetPath()) for a validprim
, but will not immediately throw an error for an invalidprim
.
-
inline explicit UsdGeomNurbsCurves(const UsdSchemaBase &schemaObj)
Construct a UsdGeomNurbsCurves on the prim held by
schemaObj
. Should be preferred over UsdGeomNurbsCurves(schemaObj.GetPrim()), as it preserves SchemaBase state.
-
inline virtual ~UsdGeomNurbsCurves()
Destructor.
-
inline operator bool() const
Boolean operator.
- Returns
Return true if the contained prim is an instance of this schema using
IsA
, and false otherwise.
-
inline UsdAttribute GetOrderAttr() const
Order of the curve. Order must be positive and is equal to the degree of the polynomial basis to be evaluated, plus 1. Its value for the ‘i’th curve must be less than or equal to curveVertexCount[i].
Declaration
int[] order = []
C++ Type
VtArray<int>
Usd Type
SdfValueTypeNames->IntArray
-
inline UsdAttribute CreateOrderAttr() const
See GetOrderAttr(), 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
.
-
inline UsdAttribute GetKnotsAttr() const
Knot vector providing curve parameterization. The length of the slice of the array for the ith curve must be ( curveVertexCount[i] + order[i] ), and its entries must take on monotonically increasing values.
Declaration
double[] knots
C++ Type
VtArray<double>
Usd Type
SdfValueTypeNames->DoubleArray
-
inline UsdAttribute CreateKnotsAttr() const
See GetKnotsAttr(), 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
.
-
inline UsdAttribute GetRangesAttr() const
Provides the minimum and maximum parametric values (as defined by knots) over which the curve is actually defined. The minimum must be less than the maximum, and greater than or equal to the value of the knots[‘i’th curve slice][order[i]-1]. The maxium must be less than or equal to the last element’s value in knots[‘i’th curve slice]. Range maps to (vmin, vmax) in the RenderMan spec.
Declaration
double2[] ranges
C++ Type
VtArray<GfVec2d>
Usd Type
SdfValueTypeNames->Double2Array
-
inline UsdAttribute CreateRangesAttr() const
See GetRangesAttr(), 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
.
-
inline UsdAttribute GetPointWeightsAttr() const
Optionally provides “w” components for each control point, thus must be the same length as the points attribute. If authored, the patch will be rational. If unauthored, the patch will be polynomial, i.e. weight for all points is 1.0.
Declaration
double[] pointWeights
C++ Type
VtArray<double>
Usd Type
SdfValueTypeNames->DoubleArray
Note
Some DCC’s pre-weight the points, but in this schema, points are not pre-weighted.
-
inline UsdAttribute CreatePointWeightsAttr() const
See GetPointWeightsAttr(), 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
.
-
inline UsdAttribute GetFormAttr() const
Interpret the control grid and knot vectors as representing an open, geometrically closed, or geometrically closed and C2 continuous curve.
Declaration
uniform token form = "open"
C++ Type
TfToken
Usd Type
SdfValueTypeNames->Token
Variability
SdfVariabilityUniform
Allowed Values
open, closed, periodic
See also
NurbsCurve Form
-
inline UsdAttribute CreateFormAttr() const
See GetFormAttr(), 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
.
-
inline UsdAttribute GetCurveVertexCountsAttr() const
Curves-derived primitives can represent multiple distinct, potentially disconnected curves. The length of ‘curveVertexCounts’ gives the number of such curves, and each element describes the number of vertices in the corresponding curve.
Declaration
int[] curveVertexCounts
C++ Type
VtArray<int>
Usd Type
SdfValueTypeNames->IntArray
-
inline UsdAttribute CreateCurveVertexCountsAttr() const
See GetCurveVertexCountsAttr(), 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
.
-
inline UsdAttribute GetWidthsAttr() const
Provides width specification for the curves, whose application will depend on whether the curve is oriented (normals are defined for it), in which case widths are “ribbon width”, or unoriented, in which case widths are cylinder width. ‘widths’ is not a generic Primvar, but the number of elements in this attribute will be determined by its ‘interpolation’. See SetWidthsInterpolation() . If ‘widths’ and ‘primvars:widths’ are both specified, the latter has precedence.
Declaration
float[] widths
C++ Type
VtArray<float>
Usd Type
SdfValueTypeNames->FloatArray
-
inline UsdAttribute CreateWidthsAttr() const
See GetWidthsAttr(), 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
.
-
inline UsdAttribute GetPointsAttr() const
The primary geometry attribute for all PointBased primitives, describes points in (local) space.
Declaration
point3f[] points
C++ Type
VtArray<GfVec3f>
Usd Type
SdfValueTypeNames->Point3fArray
-
inline UsdAttribute CreatePointsAttr() const
See GetPointsAttr(), 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
.
-
inline UsdAttribute GetVelocitiesAttr() const
If provided, ‘velocities’ should be used by renderers to.
compute positions between samples for the ‘points’ attribute, rather than interpolating between neighboring ‘points’ samples. This is the only reasonable means of computing motion blur for topologically varying PointBased primitives. It follows that the length of each ‘velocities’ sample must match the length of the corresponding ‘points’ sample. Velocity is measured in position units per second, as per most simulation software. To convert to position units per UsdTimeCode, divide by UsdStage::GetTimeCodesPerSecond().
See also UsdGeom_VelocityInterpolation .
Declaration
vector3f[] velocities
C++ Type
VtArray<GfVec3f>
Usd Type
SdfValueTypeNames->Vector3fArray
-
inline UsdAttribute CreateVelocitiesAttr() const
See GetVelocitiesAttr(), 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
.
-
inline UsdAttribute GetAccelerationsAttr() const
If provided, ‘accelerations’ should be used with velocities to compute positions between samples for the ‘points’ attribute rather than interpolating between neighboring ‘points’ samples. Acceleration is measured in position units per second-squared. To convert to position units per squared UsdTimeCode, divide by the square of UsdStage::GetTimeCodesPerSecond().
Declaration
vector3f[] accelerations
C++ Type
VtArray<GfVec3f>
Usd Type
SdfValueTypeNames->Vector3fArray
-
inline UsdAttribute CreateAccelerationsAttr() const
See GetAccelerationsAttr(), 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
.
-
inline UsdAttribute GetNormalsAttr() const
Provide an object-space orientation for individual points, which, depending on subclass, may define a surface, curve, or free points. Note that ‘normals’ should not be authored on any Mesh that is subdivided, since the subdivision algorithm will define its own normals. ‘normals’ is not a generic primvar, but the number of elements in this attribute will be determined by its ‘interpolation’. See SetNormalsInterpolation() . If ‘normals’ and ‘primvars:normals’ are both specified, the latter has precedence.
Declaration
normal3f[] normals
C++ Type
VtArray<GfVec3f>
Usd Type
SdfValueTypeNames->Normal3fArray
-
inline UsdAttribute CreateNormalsAttr() const
See GetNormalsAttr(), 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
.
-
inline UsdAttribute GetDisplayColorAttr() const
It is useful to have an “official” colorSet that can be used as a display or modeling color, even in the absence of any specified shader for a gprim. DisplayColor serves this role; because it is a UsdGeomPrimvar, it can also be used as a gprim override for any shader that consumes a displayColor parameter.
Declaration
color3f[] primvars:displayColor
C++ Type
VtArray<GfVec3f>
Usd Type
SdfValueTypeNames->Color3fArray
-
inline UsdAttribute CreateDisplayColorAttr() const
See GetDisplayColorAttr(), 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
.
-
inline UsdAttribute GetDisplayOpacityAttr() const
Companion to displayColor that specifies opacity, broken out as an independent attribute rather than an rgba color, both so that each can be independently overridden, and because shaders rarely consume rgba parameters.
Declaration
float[] primvars:displayOpacity
C++ Type
VtArray<float>
Usd Type
SdfValueTypeNames->FloatArray
-
inline UsdAttribute CreateDisplayOpacityAttr() const
See GetDisplayOpacityAttr(), 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
.
-
inline UsdAttribute GetDoubleSidedAttr() const
Although some renderers treat all parametric or polygonal surfaces as if they were effectively laminae with outward-facing normals on both sides, some renderers derive significant optimizations by considering these surfaces to have only a single outward side, typically determined by control-point winding order and/or orientation. By doing so they can perform “backface culling” to avoid drawing the many polygons of most closed surfaces that face away from the viewer.
However, it is often advantageous to model thin objects such as paper and cloth as single, open surfaces that must be viewable from both sides, always. Setting a gprim’s doubleSided attribute to
true
instructs all renderers to disable optimizations such as backface culling for the gprim, and attempt (not all renderers are able to do so, but the USD reference GL renderer always will) to provide forward-facing normals on each side of the surface for lighting calculations.Declaration
uniform bool doubleSided = 0
C++ Type
bool
Usd Type
SdfValueTypeNames->Bool
Variability
SdfVariabilityUniform
-
inline UsdAttribute CreateDoubleSidedAttr() const
See GetDoubleSidedAttr(), 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
.
-
inline UsdAttribute GetOrientationAttr() const
Orientation specifies whether the gprim’s surface normal should be computed using the right hand rule, or the left hand rule. Please see UsdGeom_WindingOrder for a deeper explanation and generalization of orientation to composed scenes with transformation hierarchies.
Declaration
uniform token orientation = "rightHanded"
C++ Type
TfToken
Usd Type
SdfValueTypeNames->Token
Variability
SdfVariabilityUniform
Allowed Values
rightHanded, leftHanded
-
inline UsdAttribute CreateOrientationAttr() const
See GetOrientationAttr(), 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
.
-
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
-
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
.
-
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
-
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
.
-
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
TfToken
Usd Type
SdfValueTypeNames->Token
Allowed Values
inherited, invisible
-
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
.
-
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
TfToken
Usd Type
SdfValueTypeNames->Token
Variability
SdfVariabilityUniform
Allowed Values
default, render, proxy, guide
-
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
.
-
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”.
-
inline UsdRelationship CreateProxyPrimRel() const
See GetProxyPrimRel(), and also Create vs Get Property Methods for when to use Get vs Create.
Public Static Functions
-
static inline UsdGeomNurbsCurves 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
-
static const UsdSchemaType schemaType = UsdSchemaType::ConcreteTyped
Compile time constant representing what kind of schema this class is.
See also
UsdSchemaType