mirror of
https://github.com/PixarAnimationStudios/OpenSubdiv
synced 2024-12-13 04:20:10 +00:00
346 lines
12 KiB
C++
346 lines
12 KiB
C++
//
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// Copyright 2013 Pixar
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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 FAR_UTILS_H
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#define FAR_UTILS_H
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#include <far/topologyRefinerFactory.h>
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#include <far/primvarRefiner.h>
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#include <far/types.h>
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#include <cstdio>
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#include "shape_utils.h"
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//------------------------------------------------------------------------------
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inline OpenSubdiv::Sdc::SchemeType
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GetSdcType(Shape const & shape) {
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OpenSubdiv::Sdc::SchemeType type=OpenSubdiv::Sdc::SCHEME_CATMARK;
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switch (shape.scheme) {
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case kBilinear: type = OpenSubdiv::Sdc::SCHEME_BILINEAR; break;
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case kCatmark : type = OpenSubdiv::Sdc::SCHEME_CATMARK; break;
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case kLoop : type = OpenSubdiv::Sdc::SCHEME_LOOP; break;
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}
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return type;
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}
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inline OpenSubdiv::Sdc::Options
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GetSdcOptions(Shape const & shape) {
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typedef OpenSubdiv::Sdc::Options Options;
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Options result;
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result.SetVtxBoundaryInterpolation(Options::VTX_BOUNDARY_EDGE_ONLY);
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result.SetCreasingMethod(Options::CREASE_UNIFORM);
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result.SetTriangleSubdivision(Options::TRI_SUB_CATMARK);
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for (int i=0; i<(int)shape.tags.size(); ++i) {
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Shape::tag * t = shape.tags[i];
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if (t->name=="interpolateboundary") {
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if ((int)t->intargs.size()!=1) {
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printf("expecting 1 integer for \"interpolateboundary\" tag n. %d\n", i);
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continue;
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}
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switch( t->intargs[0] ) {
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case 0 : result.SetVtxBoundaryInterpolation(Options::VTX_BOUNDARY_NONE); break;
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case 1 : result.SetVtxBoundaryInterpolation(Options::VTX_BOUNDARY_EDGE_AND_CORNER); break;
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case 2 : result.SetVtxBoundaryInterpolation(Options::VTX_BOUNDARY_EDGE_ONLY); break;
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default: printf("unknown interpolate boundary : %d\n", t->intargs[0] ); break;
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}
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} else if (t->name=="facevaryinginterpolateboundary") {
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if ((int)t->intargs.size()!=1) {
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printf("expecting 1 integer for \"facevaryinginterpolateboundary\" tag n. %d\n", i);
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continue;
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}
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switch( t->intargs[0] ) {
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case 0 : result.SetFVarLinearInterpolation(Options::FVAR_LINEAR_NONE); break;
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case 1 : result.SetFVarLinearInterpolation(Options::FVAR_LINEAR_CORNERS_ONLY); break;
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case 2 : result.SetFVarLinearInterpolation(Options::FVAR_LINEAR_CORNERS_PLUS1); break;
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case 3 : result.SetFVarLinearInterpolation(Options::FVAR_LINEAR_CORNERS_PLUS2); break;
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case 4 : result.SetFVarLinearInterpolation(Options::FVAR_LINEAR_BOUNDARIES); break;
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case 5 : result.SetFVarLinearInterpolation(Options::FVAR_LINEAR_ALL); break;
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default: printf("unknown interpolate boundary : %d\n", t->intargs[0] ); break;
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}
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} else if (t->name=="facevaryingpropagatecorners") {
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if ((int)t->intargs.size()==1) {
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// XXXX no propagate corners in Options
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assert(0);
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} else
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printf( "expecting single int argument for \"facevaryingpropagatecorners\"\n" );
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} else if (t->name=="creasemethod") {
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if ((int)t->stringargs.size()==0) {
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printf("the \"creasemethod\" tag expects a string argument\n");
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continue;
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}
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if (t->stringargs[0]=="normal") {
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result.SetCreasingMethod(Options::CREASE_UNIFORM);
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} else if (t->stringargs[0]=="chaikin") {
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result.SetCreasingMethod(Options::CREASE_CHAIKIN);
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} else {
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printf("the \"creasemethod\" tag only accepts \"normal\" or \"chaikin\" as value (%s)\n", t->stringargs[0].c_str());
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}
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} else if (t->name=="smoothtriangles") {
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if (shape.scheme!=kCatmark) {
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printf("the \"smoothtriangles\" tag can only be applied to Catmark meshes\n");
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continue;
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}
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if (t->stringargs[0]=="catmark") {
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result.SetTriangleSubdivision(Options::TRI_SUB_CATMARK);
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} else if (t->stringargs[0]=="smooth") {
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result.SetTriangleSubdivision(Options::TRI_SUB_SMOOTH);
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} else {
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printf("the \"smoothtriangles\" tag only accepts \"catmark\" or \"smooth\" as value (%s)\n", t->stringargs[0].c_str());
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}
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}
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}
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return result;
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}
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//------------------------------------------------------------------------------
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void
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InterpolateFVarData(OpenSubdiv::Far::TopologyRefiner & refiner,
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Shape const & shape, std::vector<float> & fvarData);
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//------------------------------------------------------------------------------
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template <class T>
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OpenSubdiv::Far::TopologyRefiner *
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InterpolateFarVertexData(Shape const & shape, int maxlevel, std::vector<T> &data) {
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typedef OpenSubdiv::Far::TopologyRefiner FarTopologyRefiner;
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typedef OpenSubdiv::Far::TopologyRefinerFactory<Shape> FarTopologyRefinerFactory;
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// Far interpolation
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FarTopologyRefiner * refiner =
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FarTopologyRefinerFactory::Create(shape,
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FarTopologyRefinerFactory::Options(
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GetSdcType(shape), GetSdcOptions(shape)));
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assert(refiner);
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FarTopologyRefiner::UniformOptions options(maxlevel);
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options.fullTopologyInLastLevel=true;
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refiner->RefineUniform(options);
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// populate coarse mesh positions
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data.resize(refiner->GetNumVerticesTotal());
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for (int i=0; i<refiner->GetLevel(0).GetNumVertices(); i++) {
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data[i].SetPosition(shape.verts[i*3+0],
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shape.verts[i*3+1],
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shape.verts[i*3+2]);
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}
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T * srcVerts = &data[0];
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T * dstVerts = srcVerts + refiner->GetLevel(0).GetNumVertices();
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OpenSubdiv::Far::PrimvarRefiner primvarRefiner(*refiner);
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for (int i = 1; i <= refiner->GetMaxLevel(); ++i) {
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primvarRefiner.Interpolate(i, srcVerts, dstVerts);
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srcVerts = dstVerts;
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dstVerts += refiner->GetLevel(i).GetNumVertices();
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}
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return refiner;
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}
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template <class T>
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OpenSubdiv::Far::TopologyRefiner *
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InterpolateFarVertexData(const char *shapeStr, Scheme scheme, int maxlevel,
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std::vector<T> &data) {
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Shape const * shape = Shape::parseObj(shapeStr, scheme);
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OpenSubdiv::Far::TopologyRefiner * refiner =
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InterpolateFarVertexData(*shape, maxlevel, data);
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delete shape;
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return refiner;
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}
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//------------------------------------------------------------------------------
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namespace OpenSubdiv {
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namespace OPENSUBDIV_VERSION {
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namespace Far {
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template <>
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inline bool
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TopologyRefinerFactory<Shape>::resizeComponentTopology(
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Far::TopologyRefiner & refiner, Shape const & shape) {
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int nfaces = shape.GetNumFaces(),
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nverts = shape.GetNumVertices();
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setNumBaseFaces(refiner, nfaces);
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for (int i=0; i<nfaces; ++i) {
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int nv = shape.nvertsPerFace[i];
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setNumBaseFaceVertices(refiner, i, nv);
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}
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// Vertices and vert-faces and vert-edges
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setNumBaseVertices(refiner, nverts);
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return true;
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}
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//----------------------------------------------------------
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template <>
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inline bool
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TopologyRefinerFactory<Shape>::assignComponentTopology(
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Far::TopologyRefiner & refiner, Shape const & shape) {
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{ // Face relations:
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int nfaces = getNumBaseFaces(refiner);
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for (int i=0, ofs=0; i < nfaces; ++i) {
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Far::IndexArray dstFaceVerts = getBaseFaceVertices(refiner, i);
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if (shape.isLeftHanded) {
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dstFaceVerts[0] = shape.faceverts[ofs++];
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for (int j=dstFaceVerts.size()-1; j>0; --j) {
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dstFaceVerts[j] = shape.faceverts[ofs++];
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}
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} else {
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for (int j=0; j<dstFaceVerts.size(); ++j) {
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dstFaceVerts[j] = shape.faceverts[ofs++];
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}
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}
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}
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}
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return true;
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}
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//----------------------------------------------------------
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template <>
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inline bool
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TopologyRefinerFactory<Shape>::assignFaceVaryingTopology(
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Far::TopologyRefiner & refiner, Shape const & shape) {
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// UV layout (we only parse 1 channel)
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if (! shape.faceuvs.empty()) {
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int nfaces = getNumBaseFaces(refiner),
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channel = createBaseFVarChannel(refiner, (int)shape.uvs.size()/2 );
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for (int i=0, ofs=0; i < nfaces; ++i) {
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Far::IndexArray dstFaceUVs = getBaseFaceFVarValues(refiner, i, channel);
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if (shape.isLeftHanded) {
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dstFaceUVs[0] = shape.faceuvs[ofs++];
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for (int j=dstFaceUVs.size()-1; j > 0; --j) {
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dstFaceUVs[j] = shape.faceuvs[ofs++];
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}
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} else {
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for (int j=0; j<dstFaceUVs.size(); ++j) {
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dstFaceUVs[j] = shape.faceuvs[ofs++];
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}
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}
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}
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}
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return true;
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}
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//----------------------------------------------------------
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template <>
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inline bool
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TopologyRefinerFactory<Shape>::assignComponentTags(
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Far::TopologyRefiner & refiner, Shape const & shape) {
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for (int i=0; i<(int)shape.tags.size(); ++i) {
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Shape::tag * t = shape.tags[i];
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if (t->name=="crease") {
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for (int j=0; j<(int)t->intargs.size()-1; j += 2) {
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OpenSubdiv::Far::Index edge = findBaseEdge(refiner, t->intargs[j], t->intargs[j+1]);
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if (edge==OpenSubdiv::Far::INDEX_INVALID) {
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printf("cannot find edge for crease tag (%d,%d)\n", t->intargs[j], t->intargs[j+1] );
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return false;
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} else {
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int nfloat = (int) t->floatargs.size();
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setBaseEdgeSharpness(refiner, edge,
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std::max(0.0f, ((nfloat > 1) ? t->floatargs[j] : t->floatargs[0])));
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}
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}
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} else if (t->name=="corner") {
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for (int j=0; j<(int)t->intargs.size(); ++j) {
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int vertex = t->intargs[j];
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if (vertex<0 || vertex>=getNumBaseVertices(refiner)) {
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printf("cannot find vertex for corner tag (%d)\n", vertex );
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return false;
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} else {
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int nfloat = (int) t->floatargs.size();
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setBaseVertexSharpness(refiner, vertex,
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std::max(0.0f, ((nfloat > 1) ? t->floatargs[j] : t->floatargs[0])));
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}
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}
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}
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}
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{ // Hole tags
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for (int i=0; i<(int)shape.tags.size(); ++i) {
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Shape::tag * t = shape.tags[i];
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if (t->name=="hole") {
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for (int j=0; j<(int)t->intargs.size(); ++j) {
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setBaseFaceHole(refiner, t->intargs[j], true);
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}
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}
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}
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}
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return true;
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}
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template <>
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inline void
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TopologyRefinerFactory<Shape>::reportInvalidTopology(
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TopologyRefinerFactory::TopologyError /* errCode */, char const * msg, Shape const & /* shape */) {
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Warning(msg);
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}
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} // namespace Far
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} // namespace OPENSUBDIV_VERSION
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} // namespace OpenSubdiv
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//------------------------------------------------------------------------------
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#endif /* FAR_UTILS_H */
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