//-***************************************************************************** void AbcReader::makeCurrentObject() { if ( m_vertices.size() > 3 && m_indices.size() > 3 && m_counts.size() > 1 && m_currentObjectName.length() && !m_parentObject.getChildHeader( m_currentObjectName ) ) { OPolyMesh meshObj( m_parentObject, m_currentObjectName ); OPolyMeshSchema &mesh = meshObj.getSchema(); OPolyMeshSchema::Sample psamp; psamp.setPositions( V3fArraySample( m_vertices ) ); psamp.setIndices( Int32ArraySample( m_indices ) ); psamp.setCounts( Int32ArraySample( m_counts ) ); mesh.set( psamp ); } m_indices.clear(); m_counts.clear(); m_currentObjectName = ""; }
//-***************************************************************************** // a recursive function that reads all inputs and write to the given oObject // node if there's no gap in the frame range for animated nodes // void visitObjects(std::vector< IObject > & iObjects, OObject & oParentObj) { OObject outObj; const AbcA::ObjectHeader & header = iObjects[0].getHeader(); // there are a number of things that needs to be checked for each node // to make sure they can be properly stitched together // // for xform node: // locator or normal xform node // if an xform node, numOps and type of ops match // static or no, and if not, timesampling type matches // if sampled, timesampling type should match // if sampled, no frame gaps // if (IXform::matches(header)) { OXformSchema oSchema; init< IXform, IXformSchema, OXform, OXformSchema >(iObjects, oParentObj, oSchema); outObj = oSchema.getObject(); ICompoundPropertyVec iCompoundProps; iCompoundProps.reserve(iObjects.size()); ICompoundProperty cp = iObjects[0].getProperties(); iCompoundProps.push_back(cp); bool isLocator = cp.getPropertyHeader("locator")?true:false; for (size_t i = 1; i < iObjects.size(); i++) { ICompoundProperty cp = iObjects[i].getProperties(); iCompoundProps.push_back(cp); } // stitch the operations if this is an xform node for (size_t i = 0; i < iObjects.size(); i++) { IXformSchema iSchema = IXform(iObjects[i], Alembic::Abc::kWrapExisting).getSchema(); index_t numSamples = iSchema.getNumSamples(); index_t reqIdx = getIndexSample(oSchema.getNumSamples(), oSchema.getTimeSampling(), numSamples, iSchema.getTimeSampling()); for (; reqIdx < numSamples; reqIdx++) { XformSample samp = iSchema.getValue(reqIdx); oSchema.set(samp); } } // stitch "locator" if it's a locator OCompoundProperty oCompoundProp = outObj.getProperties(); if (isLocator) { const PropertyHeader * propHeaderPtr = iCompoundProps[0].getPropertyHeader("locator"); stitchScalarProp(*propHeaderPtr, iCompoundProps, oCompoundProp); } } else if (ISubD::matches(header)) { OSubDSchema oSchema; init< ISubD, ISubDSchema, OSubD, OSubDSchema >(iObjects, oParentObj, oSchema); outObj = oSchema.getObject(); // stitch the SubDSchema // for (size_t i = 0; i < iObjects.size(); i++) { ISubDSchema iSchema = ISubD(iObjects[i], Alembic::Abc::kWrapExisting).getSchema(); index_t numSamples = iSchema.getNumSamples(); IV2fGeomParam uvs = iSchema.getUVsParam(); if (i == 0 && uvs) { oSchema.setUVSourceName(GetSourceName(uvs.getMetaData())); } index_t reqIdx = getIndexSample(oSchema.getNumSamples(), oSchema.getTimeSampling(), numSamples, iSchema.getTimeSampling()); for (; reqIdx < numSamples; reqIdx++) { ISubDSchema::Sample iSamp = iSchema.getValue(reqIdx); OSubDSchema::Sample oSamp; Abc::P3fArraySamplePtr posPtr = iSamp.getPositions(); if (posPtr) oSamp.setPositions(*posPtr); Abc::V3fArraySamplePtr velocPtr = iSamp.getVelocities(); if (velocPtr) oSamp.setVelocities(*velocPtr); Abc::Int32ArraySamplePtr faceIndicesPtr = iSamp.getFaceIndices(); if (faceIndicesPtr) oSamp.setFaceIndices(*faceIndicesPtr); Abc::Int32ArraySamplePtr faceCntPtr = iSamp.getFaceCounts(); if (faceCntPtr) oSamp.setFaceCounts(*faceCntPtr); oSamp.setFaceVaryingInterpolateBoundary(iSamp.getFaceVaryingInterpolateBoundary()); oSamp.setFaceVaryingPropagateCorners(iSamp.getFaceVaryingPropagateCorners()); oSamp.setInterpolateBoundary(iSamp.getInterpolateBoundary()); Abc::Int32ArraySamplePtr creaseIndicesPtr = iSamp.getCreaseIndices(); if (creaseIndicesPtr) oSamp.setCreaseIndices(*creaseIndicesPtr); Abc::Int32ArraySamplePtr creaseLenPtr = iSamp.getCreaseLengths(); if (creaseLenPtr) oSamp.setCreaseLengths(*creaseLenPtr); Abc::FloatArraySamplePtr creaseSpPtr = iSamp.getCreaseSharpnesses(); if (creaseSpPtr) oSamp.setCreaseSharpnesses(*creaseSpPtr); Abc::Int32ArraySamplePtr cornerIndicesPtr = iSamp.getCornerIndices(); if (cornerIndicesPtr) oSamp.setCornerIndices(*cornerIndicesPtr); Abc::FloatArraySamplePtr cornerSpPtr = iSamp.getCornerSharpnesses(); if (cornerSpPtr) oSamp.setCreaseSharpnesses(*cornerSpPtr); Abc::Int32ArraySamplePtr holePtr = iSamp.getHoles(); if (holePtr) oSamp.setHoles(*holePtr); oSamp.setSubdivisionScheme(iSamp.getSubdivisionScheme()); // set uvs IV2fGeomParam::Sample iUVSample; OV2fGeomParam::Sample oUVSample; if (uvs) { getOGeomParamSamp <IV2fGeomParam, IV2fGeomParam::Sample, OV2fGeomParam::Sample>(uvs, iUVSample, oUVSample, reqIdx); oSamp.setUVs(oUVSample); } oSchema.set(oSamp); } } } else if (IPolyMesh::matches(header)) { OPolyMeshSchema oSchema; init< IPolyMesh, IPolyMeshSchema, OPolyMesh, OPolyMeshSchema >(iObjects, oParentObj, oSchema); outObj = oSchema.getObject(); // stitch the PolySchema // for (size_t i = 0; i < iObjects.size(); i++) { IPolyMeshSchema iSchema = IPolyMesh(iObjects[i], Alembic::Abc::kWrapExisting).getSchema(); index_t numSamples = iSchema.getNumSamples(); IN3fGeomParam normals = iSchema.getNormalsParam(); IV2fGeomParam uvs = iSchema.getUVsParam(); if (i == 0 && uvs) { oSchema.setUVSourceName(GetSourceName(uvs.getMetaData())); } index_t reqIdx = getIndexSample(oSchema.getNumSamples(), oSchema.getTimeSampling(), numSamples, iSchema.getTimeSampling()); for (; reqIdx < numSamples; reqIdx++) { IPolyMeshSchema::Sample iSamp = iSchema.getValue(reqIdx); OPolyMeshSchema::Sample oSamp; Abc::P3fArraySamplePtr posPtr = iSamp.getPositions(); if (posPtr) oSamp.setPositions(*posPtr); Abc::V3fArraySamplePtr velocPtr = iSamp.getVelocities(); if (velocPtr) oSamp.setVelocities(*velocPtr); Abc::Int32ArraySamplePtr faceIndicesPtr = iSamp.getFaceIndices(); if (faceIndicesPtr) oSamp.setFaceIndices(*faceIndicesPtr); Abc::Int32ArraySamplePtr faceCntPtr = iSamp.getFaceCounts(); if (faceCntPtr) oSamp.setFaceCounts(*faceCntPtr); // set uvs IV2fGeomParam::Sample iUVSample; OV2fGeomParam::Sample oUVSample; if (uvs) { getOGeomParamSamp <IV2fGeomParam, IV2fGeomParam::Sample, OV2fGeomParam::Sample>(uvs, iUVSample, oUVSample, reqIdx); oSamp.setUVs(oUVSample); } // set normals IN3fGeomParam::Sample iNormalsSample; ON3fGeomParam::Sample oNormalsSample; if (normals) { getOGeomParamSamp <IN3fGeomParam, IN3fGeomParam::Sample, ON3fGeomParam::Sample>(normals, iNormalsSample, oNormalsSample, reqIdx); oSamp.setNormals(oNormalsSample); } oSchema.set(oSamp); } } } else if (ICamera::matches(header)) { OCameraSchema oSchema; init< ICamera, ICameraSchema, OCamera, OCameraSchema >(iObjects, oParentObj, oSchema); outObj = oSchema.getObject(); // stitch the CameraSchemas // for (size_t i = 0; i < iObjects.size(); i++) { ICameraSchema iSchema = ICamera(iObjects[i], Alembic::Abc::kWrapExisting).getSchema(); index_t numSamples = iSchema.getNumSamples(); index_t reqIdx = getIndexSample(oSchema.getNumSamples(), oSchema.getTimeSampling(), numSamples, iSchema.getTimeSampling()); for (; reqIdx < numSamples; reqIdx++) { oSchema.set(iSchema.getValue(reqIdx)); } } } else if (ICurves::matches(header)) { OCurvesSchema oSchema; init< ICurves, ICurvesSchema, OCurves, OCurvesSchema >(iObjects, oParentObj, oSchema); outObj = oSchema.getObject(); // stitch the CurvesSchemas // for (size_t i = 0; i < iObjects.size(); i++) { ICurvesSchema iSchema = ICurves(iObjects[i], Alembic::Abc::kWrapExisting).getSchema(); IV2fGeomParam iUVs = iSchema.getUVsParam(); IN3fGeomParam iNormals = iSchema.getNormalsParam(); IFloatGeomParam iWidths = iSchema.getWidthsParam(); IFloatArrayProperty iKnots = iSchema.getKnotsProperty(); IUcharArrayProperty iOrders = iSchema.getOrdersProperty(); index_t numSamples = iSchema.getNumSamples(); index_t reqIdx = getIndexSample(oSchema.getNumSamples(), oSchema.getTimeSampling(), numSamples, iSchema.getTimeSampling()); for (; reqIdx < numSamples; reqIdx++) { ICurvesSchema::Sample iSamp = iSchema.getValue(reqIdx); OCurvesSchema::Sample oSamp; Abc::P3fArraySamplePtr posPtr = iSamp.getPositions(); if (posPtr) oSamp.setPositions(*posPtr); Abc::V3fArraySamplePtr velocPtr = iSamp.getVelocities(); if (velocPtr) oSamp.setVelocities(*velocPtr); oSamp.setType(iSamp.getType()); Abc::Int32ArraySamplePtr curvsNumPtr = iSamp.getCurvesNumVertices(); if (curvsNumPtr) oSamp.setCurvesNumVertices(*curvsNumPtr); oSamp.setWrap(iSamp.getWrap()); oSamp.setBasis(iSamp.getBasis()); Abc::FloatArraySamplePtr knotsPtr = iSamp.getKnots(); if (knotsPtr) { oSamp.setKnots(*knotsPtr); } Abc::UcharArraySamplePtr ordersPtr = iSamp.getOrders(); if (ordersPtr) { oSamp.setOrders(*ordersPtr); } IFloatGeomParam::Sample iWidthSample; OFloatGeomParam::Sample oWidthSample; if (iWidths) { getOGeomParamSamp <IFloatGeomParam, IFloatGeomParam::Sample, OFloatGeomParam::Sample>(iWidths, iWidthSample, oWidthSample, reqIdx); oSamp.setWidths(oWidthSample); } IV2fGeomParam::Sample iUVSample; OV2fGeomParam::Sample oUVSample; if (iUVs) { getOGeomParamSamp <IV2fGeomParam, IV2fGeomParam::Sample, OV2fGeomParam::Sample>(iUVs, iUVSample, oUVSample, reqIdx); oSamp.setUVs(oUVSample); } IN3fGeomParam::Sample iNormalsSample; ON3fGeomParam::Sample oNormalsSample; if (iNormals) { getOGeomParamSamp <IN3fGeomParam, IN3fGeomParam::Sample, ON3fGeomParam::Sample>(iNormals, iNormalsSample, oNormalsSample, reqIdx); oSamp.setNormals(oNormalsSample); } oSchema.set(oSamp); } } } else if (IPoints::matches(header)) { OPointsSchema oSchema; init< IPoints, IPointsSchema, OPoints, OPointsSchema >(iObjects, oParentObj, oSchema); outObj = oSchema.getObject(); // stitch the PointsSchemas // for (size_t i = 0; i < iObjects.size(); i++) { IPointsSchema iSchema = IPoints(iObjects[i], Alembic::Abc::kWrapExisting).getSchema(); IFloatGeomParam iWidths = iSchema.getWidthsParam(); index_t numSamples = iSchema.getNumSamples(); index_t reqIdx = getIndexSample(oSchema.getNumSamples(), oSchema.getTimeSampling(), numSamples, iSchema.getTimeSampling()); for (; reqIdx < numSamples; reqIdx++) { IPointsSchema::Sample iSamp = iSchema.getValue(reqIdx); OPointsSchema::Sample oSamp; Abc::P3fArraySamplePtr posPtr = iSamp.getPositions(); if (posPtr) oSamp.setPositions(*posPtr); Abc::UInt64ArraySamplePtr idPtr = iSamp.getIds(); if (idPtr) oSamp.setIds(*idPtr); Abc::V3fArraySamplePtr velocPtr = iSamp.getVelocities(); if (velocPtr) oSamp.setVelocities(*velocPtr); IFloatGeomParam::Sample iWidthSample; OFloatGeomParam::Sample oWidthSample; if (iWidths) { getOGeomParamSamp <IFloatGeomParam, IFloatGeomParam::Sample, OFloatGeomParam::Sample>(iWidths, iWidthSample, oWidthSample, reqIdx); oSamp.setWidths(oWidthSample); } oSchema.set(oSamp); } } } else if (INuPatch::matches(header)) { ONuPatchSchema oSchema; init< INuPatch, INuPatchSchema, ONuPatch, ONuPatchSchema >(iObjects, oParentObj, oSchema); outObj = oSchema.getObject(); // stitch the NuPatchSchemas // for (size_t i = 0; i < iObjects.size(); i++) { INuPatchSchema iSchema = INuPatch(iObjects[i], Alembic::Abc::kWrapExisting).getSchema(); index_t numSamples = iSchema.getNumSamples(); IN3fGeomParam normals = iSchema.getNormalsParam(); IV2fGeomParam uvs = iSchema.getUVsParam(); index_t reqIdx = getIndexSample(oSchema.getNumSamples(), oSchema.getTimeSampling(), numSamples, iSchema.getTimeSampling()); for (; reqIdx < numSamples; reqIdx++) { INuPatchSchema::Sample iSamp = iSchema.getValue(reqIdx); ONuPatchSchema::Sample oSamp; Abc::P3fArraySamplePtr posPtr = iSamp.getPositions(); if (posPtr) oSamp.setPositions(*posPtr); Abc::V3fArraySamplePtr velocPtr = iSamp.getVelocities(); if (velocPtr) oSamp.setVelocities(*velocPtr); oSamp.setNu(iSamp.getNumU()); oSamp.setNv(iSamp.getNumV()); oSamp.setUOrder(iSamp.getUOrder()); oSamp.setVOrder(iSamp.getVOrder()); Abc::FloatArraySamplePtr uKnotsPtr = iSamp.getUKnot(); if (uKnotsPtr) oSamp.setUKnot(*uKnotsPtr); Abc::FloatArraySamplePtr vKnotsPtr = iSamp.getVKnot(); if (vKnotsPtr) oSamp.setVKnot(*vKnotsPtr); IV2fGeomParam::Sample iUVSample; OV2fGeomParam::Sample oUVSample; if (uvs) { getOGeomParamSamp <IV2fGeomParam, IV2fGeomParam::Sample, OV2fGeomParam::Sample>(uvs, iUVSample, oUVSample, reqIdx); oSamp.setUVs(oUVSample); } IN3fGeomParam::Sample iNormalsSample; ON3fGeomParam::Sample oNormalsSample; if (normals) { getOGeomParamSamp <IN3fGeomParam, IN3fGeomParam::Sample, ON3fGeomParam::Sample>(normals, iNormalsSample, oNormalsSample, reqIdx); oSamp.setNormals(oNormalsSample); } if (iSchema.hasTrimCurve()) { oSamp.setTrimCurve(iSamp.getTrimNumLoops(), *(iSamp.getTrimNumCurves()), *(iSamp.getTrimNumVertices()), *(iSamp.getTrimOrders()), *(iSamp.getTrimKnots()), *(iSamp.getTrimMins()), *(iSamp.getTrimMaxes()), *(iSamp.getTrimU()), *(iSamp.getTrimV()), *(iSamp.getTrimW())); } oSchema.set(oSamp); } } } else { outObj = OObject(oParentObj, header.getName(), header.getMetaData()); // collect the top level compound property ICompoundPropertyVec iCompoundProps(iObjects.size()); for (size_t i = 0; i < iObjects.size(); i++) { iCompoundProps[i] = iObjects[i].getProperties(); } OCompoundProperty oCompoundProperty = outObj.getProperties(); stitchCompoundProp(iCompoundProps, oCompoundProperty); } // After done writing THIS OObject node, if input nodes have children, // go deeper. // Otherwise we are done here size_t numChildren = iObjects[0].getNumChildren(); // check to make sure all of our iObjects have the same number of children for (size_t j = 1; j < iObjects.size(); j++) { if (numChildren != iObjects[j].getNumChildren()) { std::cerr << "ERROR: " << iObjects[j].getFullName() << " in " << iObjects[j].getArchive().getName() << " has a different number of children than " << iObjects[0].getFullName() << " in " << iObjects[0].getArchive().getName() << std::endl; exit(1); } } for (size_t i = 0 ; i < numChildren; i++ ) { std::vector< IObject > iChildObjects; for (size_t f = 0; f < iObjects.size(); f++) { iChildObjects.push_back(iObjects[f].getChild(i)); } visitObjects(iChildObjects, outObj); } }