void readPoly(double iFrame, MFnMesh & ioMesh, MObject & iParent, PolyMeshAndFriends & iNode, bool iInitialized) { Alembic::AbcGeom::IPolyMeshSchema schema = iNode.mMesh.getSchema(); Alembic::AbcGeom::MeshTopologyVariance ttype = schema.getTopologyVariance(); Alembic::AbcCoreAbstract::index_t index, ceilIndex; double alpha = getWeightAndIndex(iFrame, schema.getTimeSampling(), schema.getNumSamples(), index, ceilIndex); MFloatPointArray pointArray; Alembic::Abc::P3fArraySamplePtr ceilPoints; // we can just read the points if (ttype != Alembic::AbcGeom::kHeterogenousTopology && iInitialized) { Alembic::Abc::P3fArraySamplePtr points = schema.getPositionsProperty( ).getValue(Alembic::Abc::ISampleSelector(index)); if (alpha != 0.0) { ceilPoints = schema.getPositionsProperty().getValue( Alembic::Abc::ISampleSelector(ceilIndex) ); } fillPoints(pointArray, points, ceilPoints, alpha); ioMesh.setPoints(pointArray, MSpace::kObject); setColorsAndUVs(iFrame, ioMesh, schema.getUVsParam(), iNode.mV2s, iNode.mC3s, iNode.mC4s, !iInitialized); if (schema.getNormalsParam().getNumSamples() > 1) { setPolyNormals(iFrame, ioMesh, schema.getNormalsParam()); } return; } // we need to read the topology Alembic::AbcGeom::IPolyMeshSchema::Sample samp; schema.get(samp, Alembic::Abc::ISampleSelector(index)); if (alpha != 0.0 && ttype != Alembic::AbcGeom::kHeterogenousTopology) { ceilPoints = schema.getPositionsProperty().getValue( Alembic::Abc::ISampleSelector(ceilIndex) ); } fillPoints(pointArray, samp.getPositions(), ceilPoints, alpha); fillTopology(ioMesh, iParent, pointArray, samp.getFaceIndices(), samp.getFaceCounts()); setPolyNormals(iFrame, ioMesh, schema.getNormalsParam()); setColorsAndUVs(iFrame, ioMesh, schema.getUVsParam(), iNode.mV2s, iNode.mC3s, iNode.mC4s, !iInitialized); }
MObject createPoly(double iFrame, PolyMeshAndColors & iNode, MObject & iParent) { Alembic::AbcGeom::IPolyMeshSchema schema = iNode.mMesh.getSchema(); MString name(iNode.mMesh.getName().c_str()); MObject obj; // add other properties if (!schema.isConstant()) { MFloatPointArray emptyPt; MIntArray emptyInt; MFnMesh fnMesh; obj = fnMesh.create(0, 0, emptyPt, emptyInt, emptyInt, iParent); fnMesh.setName(name); } else { Alembic::AbcCoreAbstract::index_t index, ceilIndex; double alpha = getWeightAndIndex(iFrame, schema.getTimeSampling(), schema.getNumSamples(), index, ceilIndex); Alembic::AbcGeom::IPolyMeshSchema::Sample samp; schema.get(samp, Alembic::Abc::ISampleSelector(index)); MFloatPointArray ptArray; Alembic::Abc::P3fArraySamplePtr ceilPoints; if (index != ceilIndex) { Alembic::AbcGeom::IPolyMeshSchema::Sample ceilSamp; schema.get(ceilSamp, Alembic::Abc::ISampleSelector(ceilIndex)); ceilPoints = ceilSamp.getPositions(); } fillPoints(ptArray, samp.getPositions(), ceilPoints, alpha); MFnMesh fnMesh; fillTopology(fnMesh, iParent, ptArray, samp.getFaceIndices(), samp.getFaceCounts()); fnMesh.setName(iNode.mMesh.getName().c_str()); setPolyNormals(iFrame, fnMesh, schema.getNormalsParam()); setUVs(iFrame, fnMesh, schema.getUVsParam()); obj = fnMesh.object(); } MFnMesh fnMesh(obj); MString pathName = fnMesh.partialPathName(); setInitialShadingGroup(pathName); setColors(iFrame, fnMesh, iNode.mC3s, iNode.mC4s, true); if ( !schema.getNormalsParam().valid() ) { MFnNumericAttribute attr; MString attrName("noNormals"); MObject attrObj = attr.create(attrName, attrName, MFnNumericData::kBoolean, true); attr.setKeyable(true); attr.setHidden(false); fnMesh.addAttribute(attrObj, MFnDependencyNode::kLocalDynamicAttr); } return obj; }