mirror of
https://github.com/PixarAnimationStudios/OpenSubdiv
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356 lines
13 KiB
C++
356 lines
13 KiB
C++
//
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// Copyright 2014 DreamWorks Animation LLC.
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//
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// Licensed under the Apache License, Version 2.0 (the "Apache License")
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// with the following modification; you may not use this file except in
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// compliance with the Apache License and the following modification to it:
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// Section 6. Trademarks. is deleted and replaced with:
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//
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// 6. Trademarks. This License does not grant permission to use the trade
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// names, trademarks, service marks, or product names of the Licensor
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// and its affiliates, except as required to comply with Section 4(c) of
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// the License and to reproduce the content of the NOTICE file.
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//
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// You may obtain a copy of the Apache License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the Apache License with the above modification is
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// distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied. See the Apache License for the specific
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// language governing permissions and limitations under the Apache License.
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//
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#ifndef VTR_FVAR_LEVEL_H
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#define VTR_FVAR_LEVEL_H
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#include "../version.h"
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#include "../sdc/types.h"
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#include "../sdc/crease.h"
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#include "../sdc/options.h"
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#include "../vtr/types.h"
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#include "../vtr/level.h"
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#include <vector>
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#include <cassert>
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#include <cstring>
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namespace OpenSubdiv {
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namespace OPENSUBDIV_VERSION {
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// Forward declaration of friend classes:
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namespace Far {
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class TopologyRefiner;
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}
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namespace Vtr {
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class Refinement;
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class FVarRefinement;
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}
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//
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// FVarLevel:
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// A "face-varying channel" includes the topology for a set of face-varying
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// data, relative to the topology of the Level with which it is associated.
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//
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// Analogous to a set of vertices and face-vertices that define the topology for
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// the geometry, a channel requires a set of "values" and "face-values". The
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// "values" are indices of entries in a set of face-varying data, just as vertices
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// are indices into a set of vertex data. The face-values identify a value for
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// each vertex of the face, and so define topology for the values that may be
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// unique to each channel.
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//
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// In addition to the value size and the vector of face-values (which matches the
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// size of the geometry's face-vertices), tags are associated with each component
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// to identify deviations of the face-varying topology from the vertex topology.
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// And since there may be a one-to-many mapping between vertices and face-varying
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// values, that mapping is also allocated.
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//
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// It turns out that the mapping used is able to completely encode the set of
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// face-values and is more amenable to refinement. Currently the face-values
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// take up almost half the memory of this representation, so if memory does
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// become a concern, we do not need to store them. The only reason we do so now
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// is that the face-value interface for specifying base topology and inspecting
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// subsequent levels is very familar to that of face-vertices for clients. So
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// having them available for such access is convenient.
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//
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// Regarding scope and access...
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// Unclear at this early state, but leaning towards nesting this class within
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// Level, given the intimate dependency between the two.
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// Everything is being declared public for now to facilitate access until its
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// clearer how this functionality will be provided.
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//
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namespace Vtr {
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class FVarLevel {
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protected:
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friend class Level;
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friend class Refinement;
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friend class FVarRefinement;
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friend class Far::TopologyRefiner;
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protected:
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//
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// Component tags -- trying to minimize the types needed here:
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//
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// Tag per Edge:
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// - facilitates topological analysis around each vertex
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// - required during refinement to spawn one or more edge-values
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//
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struct ETag {
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ETag() { }
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void clear() { std::memset(this, 0, sizeof(ETag)); }
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typedef unsigned char ETagSize;
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ETagSize _mismatch : 1; // local FVar topology does not match
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ETagSize _boundary : 1; // not continuous at both ends
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ETagSize _disctsV0 : 1; // discontinuous at vertex 0
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ETagSize _disctsV1 : 1; // discontinuous at vertex 1
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};
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//
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// Tag per Value:
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// - informs both refinement and interpolation
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// - every value spawns a child value in refinement
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// - given ordering of values (1-per-vertex first) serves as a vertex tag
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//
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struct ValueTag {
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ValueTag() { }
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void clear() { std::memset(this, 0, sizeof(ValueTag)); }
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bool isMismatch() const { return _mismatch; }
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bool isCrease() const { return _crease; }
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bool isCorner() const { return !_crease; }
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bool isSemiSharp() const { return _semiSharp; }
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bool isInfSharp() const { return !_semiSharp && !_crease; }
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bool isDepSharp() const { return _depSharp; }
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typedef unsigned char ValueTagSize;
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ValueTagSize _mismatch : 1; // local FVar topology does not match
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ValueTagSize _crease : 1; // value is a crease, otherwise a corner
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ValueTagSize _semiSharp : 1; // value is a corner decaying to crease
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ValueTagSize _depSharp : 1; // value a corner by dependency on another
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};
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typedef Vtr::ConstArray<ValueTag> ConstValueTagArray;
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typedef Vtr::Array<ValueTag> ValueTagArray;
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//
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// Simple struct containing the "end faces" of a crease, i.e. the faces which
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// contain the FVar values to be used when interpolating the crease. (Prefer
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// the struct over std::pair for its member names)
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//
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struct CreaseEndPair {
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LocalIndex _startFace;
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LocalIndex _endFace;
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};
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typedef Vtr::ConstArray<CreaseEndPair> ConstCreaseEndPairArray;
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typedef Vtr::Array<CreaseEndPair> CreaseEndPairArray;
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typedef LocalIndex Sibling;
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typedef ConstLocalIndexArray ConstSiblingArray;
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typedef LocalIndexArray SiblingArray;
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protected:
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FVarLevel(Level const& level);
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~FVarLevel();
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// Queries for the entire channel:
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Level const& getLevel() const { return _level; }
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int getNumValues() const { return _valueCount; }
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int getNumFaceValuesTotal() const { return (int) _faceVertValues.size(); }
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// Queries per face:
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ConstIndexArray getFaceValues(Index fIndex) const;
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IndexArray getFaceValues(Index fIndex);
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// Queries per edge:
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ETag getEdgeTag(Index eIndex) const { return _edgeTags[eIndex]; }
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bool edgeTopologyMatches(Index eIndex) const { return !getEdgeTag(eIndex)._mismatch; }
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// Queries per vertex (and its potential sibling values):
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int getNumVertexValues(Index v) const { return _vertSiblingCounts[v]; }
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Index getVertexValueOffset(Index v, Sibling i = 0) const { return _vertSiblingOffsets[v] + i; }
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Index getVertexValue(Index v, Sibling i = 0) const { return _vertValueIndices[getVertexValueOffset(v,i)]; }
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// Methods to access/modify array properties per vertex:
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ConstIndexArray getVertexValues(Index vIndex) const;
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IndexArray getVertexValues(Index vIndex);
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ConstValueTagArray getVertexValueTags(Index vIndex) const;
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ValueTagArray getVertexValueTags(Index vIndex);
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ConstCreaseEndPairArray getVertexValueCreaseEnds(Index vIndex) const;
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CreaseEndPairArray getVertexValueCreaseEnds(Index vIndex);
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ConstSiblingArray getVertexFaceSiblings(Index vIndex) const;
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SiblingArray getVertexFaceSiblings(Index vIndex);
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// Queries per value:
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ValueTag getValueTag(Index valueIndex) const { return _vertValueTags[valueIndex]; }
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bool valueTopologyMatches(Index valueIndex) const { return !getValueTag(valueIndex)._mismatch; }
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// Higher-level topological queries, i.e. values in a neighborhood:
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void getEdgeFaceValues(Index eIndex, int fIncToEdge, Index valuesPerVert[2]) const;
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void getVertexEdgeValues(Index vIndex, Index valuesPerEdge[]) const;
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void getVertexCreaseEndValues(Index vIndex, Sibling sibling, Index endValues[2]) const;
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// Initialization and allocation helpers:
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void setOptions(Sdc::Options const& options);
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void resizeVertexValues(int numVertexValues);
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void resizeValues(int numValues);
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void resizeComponents();
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// Topological analysis methods -- tagging and face-value population:
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void completeTopologyFromFaceValues();
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void initializeFaceValuesFromFaceVertices();
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void initializeFaceValuesFromVertexFaceSiblings();
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// Information about the "span" for a value:
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struct ValueSpan {
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LocalIndex _size;
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LocalIndex _start;
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LocalIndex _disjoint;
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LocalIndex _semiSharp;
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};
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void gatherValueSpans(Index vIndex, ValueSpan * vValueSpans) const;
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// Debugging methods:
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bool validate() const;
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void print() const;
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void buildFaceVertexSiblingsFromVertexFaceSiblings(std::vector<Sibling>& fvSiblings) const;
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protected:
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Level const & _level;
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// Options vary between channels:
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Sdc::Options _options;
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bool _isLinear;
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bool _hasSmoothBoundaries;
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bool _hasDependentSharpness;
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int _valueCount;
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//
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// Vectors recording face-varying topology including tags that help propagate
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// data through the refinement hierarchy. Vectors are not sparse but most use
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// 8-bit values relative to the local topology.
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//
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// The vector of face-values is actually redundant here, but is constructed as
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// it is most convenient for clients. It represents almost half the memory of
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// the topology (4 32-bit integers per face) and not surprisingly, populating
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// it takes a considerable amount of the refinement time (1/3). We can reduce
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// both if we are willing to compute these on demand for clients.
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//
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// Per-face (matches face-verts of corresponding level):
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std::vector<Index> _faceVertValues;
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// Per-edge:
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std::vector<ETag> _edgeTags;
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// Per-vertex:
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std::vector<Sibling> _vertSiblingCounts;
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std::vector<int> _vertSiblingOffsets;
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std::vector<Sibling> _vertFaceSiblings;
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// Per-value:
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std::vector<Index> _vertValueIndices;
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std::vector<ValueTag> _vertValueTags;
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std::vector<CreaseEndPair> _vertValueCreaseEnds;
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};
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//
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// Access/modify the values associated with each face:
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//
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inline ConstIndexArray
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FVarLevel::getFaceValues(Index fIndex) const {
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int vCount = _level._faceVertCountsAndOffsets[fIndex*2];
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int vOffset = _level._faceVertCountsAndOffsets[fIndex*2+1];
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return ConstIndexArray(&_faceVertValues[vOffset], vCount);
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}
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inline IndexArray
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FVarLevel::getFaceValues(Index fIndex) {
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int vCount = _level._faceVertCountsAndOffsets[fIndex*2];
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int vOffset = _level._faceVertCountsAndOffsets[fIndex*2+1];
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return IndexArray(&_faceVertValues[vOffset], vCount);
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}
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inline FVarLevel::ConstSiblingArray
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FVarLevel::getVertexFaceSiblings(Index vIndex) const {
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int vCount = _level._vertFaceCountsAndOffsets[vIndex*2];
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int vOffset = _level._vertFaceCountsAndOffsets[vIndex*2+1];
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return ConstSiblingArray(&_vertFaceSiblings[vOffset], vCount);
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}
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inline FVarLevel::SiblingArray
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FVarLevel::getVertexFaceSiblings(Index vIndex) {
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int vCount = _level._vertFaceCountsAndOffsets[vIndex*2];
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int vOffset = _level._vertFaceCountsAndOffsets[vIndex*2+1];
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return SiblingArray(&_vertFaceSiblings[vOffset], vCount);
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}
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inline ConstIndexArray
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FVarLevel::getVertexValues(Index vIndex) const
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{
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int vCount = getNumVertexValues(vIndex);
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int vOffset = getVertexValueOffset(vIndex);
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return ConstIndexArray(&_vertValueIndices[vOffset], vCount);
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}
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inline IndexArray
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FVarLevel::getVertexValues(Index vIndex)
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{
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int vCount = getNumVertexValues(vIndex);
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int vOffset = getVertexValueOffset(vIndex);
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return IndexArray(&_vertValueIndices[vOffset], vCount);
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}
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inline FVarLevel::ConstValueTagArray
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FVarLevel::getVertexValueTags(Index vIndex) const
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{
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int vCount = getNumVertexValues(vIndex);
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int vOffset = getVertexValueOffset(vIndex);
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return ConstValueTagArray(&_vertValueTags[vOffset], vCount);
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}
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inline FVarLevel::ValueTagArray
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FVarLevel::getVertexValueTags(Index vIndex)
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{
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int vCount = getNumVertexValues(vIndex);
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int vOffset = getVertexValueOffset(vIndex);
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return ValueTagArray(&_vertValueTags[vOffset], vCount);
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}
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inline FVarLevel::ConstCreaseEndPairArray
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FVarLevel::getVertexValueCreaseEnds(Index vIndex) const
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{
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int vCount = getNumVertexValues(vIndex);
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int vOffset = getVertexValueOffset(vIndex);
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return ConstCreaseEndPairArray(&_vertValueCreaseEnds[vOffset], vCount);
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}
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inline FVarLevel::CreaseEndPairArray
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FVarLevel::getVertexValueCreaseEnds(Index vIndex)
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{
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int vCount = getNumVertexValues(vIndex);
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int vOffset = getVertexValueOffset(vIndex);
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return CreaseEndPairArray(&_vertValueCreaseEnds[vOffset], vCount);
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}
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} // end namespace Vtr
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} // end namespace OPENSUBDIV_VERSION
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using namespace OPENSUBDIV_VERSION;
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} // end namespace OpenSubdiv
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#endif /* VTR_FVAR_LEVEL_H */
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