OP_ERROR SOP_SceneCacheSource::cookMySop( OP_Context &context ) { // make sure the state is valid if ( boost::indeterminate( m_static ) ) { sceneChanged(); } flags().setTimeDep( bool( !m_static ) ); std::string file; if ( !ensureFile( file ) ) { addError( SOP_ATTRIBUTE_INVALID, ( file + " is not a valid .scc" ).c_str() ); gdp->clearAndDestroy(); return error(); } std::string path = getPath(); Space space = getSpace(); GeometryType geometryType = (GeometryType)this->evalInt( pGeometryType.getToken(), 0, 0 ); UT_String tagFilterStr; getTagFilter( tagFilterStr ); UT_StringMMPattern tagFilter; tagFilter.compile( tagFilterStr ); UT_String shapeFilterStr; getShapeFilter( shapeFilterStr ); UT_StringMMPattern shapeFilter; shapeFilter.compile( shapeFilterStr ); UT_String p( "P" ); UT_String attributeFilter; getAttributeFilter( attributeFilter ); if ( !p.match( attributeFilter ) ) { attributeFilter += " P"; } UT_String attributeCopy; getAttributeCopy( attributeCopy ); UT_String fullPathName; getFullPathName( fullPathName ); ConstSceneInterfacePtr scene = this->scene( file, path ); if ( !scene ) { addError( SOP_ATTRIBUTE_INVALID, ( path + " is not a valid location in " + file ).c_str() ); gdp->clearAndDestroy(); return error(); } MurmurHash hash; hash.append( file ); hash.append( path ); hash.append( space ); hash.append( tagFilterStr ); hash.append( shapeFilterStr ); hash.append( attributeFilter ); hash.append( attributeCopy ); hash.append( fullPathName ); hash.append( geometryType ); hash.append( getObjectOnly() ); if ( !m_loaded || m_hash != hash ) { gdp->clearAndDestroy(); } double readTime = time( context ); Imath::M44d transform = ( space == World ) ? worldTransform( file, path, readTime ) : Imath::M44d(); SceneInterface::Path rootPath; scene->path( rootPath ); UT_Interrupt *progress = UTgetInterrupt(); if ( !progress->opStart( ( "Cooking objects for " + getPath() ).c_str() ) ) { addError( SOP_ATTRIBUTE_INVALID, "Cooking interrupted before it started" ); gdp->clearAndDestroy(); return error(); } Parameters params; UT_String attribFilter; getAttributeFilter( attribFilter ); params.attributeFilter = attribFilter.toStdString(); params.attributeCopy = attributeCopy.toStdString(); params.fullPathName = fullPathName.toStdString(); params.geometryType = getGeometryType(); getShapeFilter( params.shapeFilter ); getTagFilter( params.tagFilter ); // Building a map from shape name to primitive range, which will be used during // convertObject() to do a lazy update of animated primvars where possible, and // to destroy changing topology shapes when necessary. GA_ROAttributeRef nameAttrRef = gdp->findStringTuple( GA_ATTRIB_PRIMITIVE, "name" ); if ( nameAttrRef.isValid() ) { const GA_Attribute *attr = nameAttrRef.getAttribute(); const GA_AIFSharedStringTuple *tuple = attr->getAIFSharedStringTuple(); std::map<std::string, GA_OffsetList> offsets; GA_Range primRange = gdp->getPrimitiveRange(); for ( GA_Iterator it = primRange.begin(); !it.atEnd(); ++it ) { std::string current = ""; if ( const char *value = tuple->getString( attr, it.getOffset() ) ) { current = value; } std::map<std::string, GA_OffsetList>::iterator oIt = offsets.find( current ); if ( oIt == offsets.end() ) { oIt = offsets.insert( std::pair<std::string, GA_OffsetList>( current, GA_OffsetList() ) ).first; } oIt->second.append( it.getOffset() ); } for ( std::map<std::string, GA_OffsetList>::iterator oIt = offsets.begin(); oIt != offsets.end(); ++oIt ) { params.namedRanges[oIt->first] = GA_Range( gdp->getPrimitiveMap(), oIt->second ); } } loadObjects( scene.get(), transform, readTime, space, params, rootPath.size() ); if ( progress->opInterrupt( 100 ) ) { addError( SOP_ATTRIBUTE_INVALID, "Cooking interrupted" ); gdp->clearAndDestroy(); m_loaded = false; m_hash = MurmurHash(); } else { m_loaded = true; m_hash = hash; } progress->opEnd(); return error(); }
OP_ERROR SOP_SceneCacheSource::cookMySop( OP_Context &context ) { // make sure the state is valid if ( boost::indeterminate( m_static ) ) { sceneChanged(); } flags().setTimeDep( bool( !m_static ) ); std::string file; if ( !ensureFile( file ) ) { addError( SOP_ATTRIBUTE_INVALID, ( file + " is not a valid .scc" ).c_str() ); gdp->clearAndDestroy(); return error(); } std::string path = getPath(); Space space = getSpace(); GeometryType geometryType = (GeometryType)this->evalInt( pGeometryType.getToken(), 0, 0 ); UT_String shapeFilterStr; evalString( shapeFilterStr, pShapeFilter.getToken(), 0, 0 ); UT_StringMMPattern shapeFilter; shapeFilter.compile( shapeFilterStr ); UT_String p( "P" ); UT_String attributeFilter; evalString( attributeFilter, pAttributeFilter.getToken(), 0, 0 ); if ( !p.match( attributeFilter ) ) { attributeFilter += " P"; } ConstSceneInterfacePtr scene = this->scene( file, path ); if ( !scene ) { addError( SOP_ATTRIBUTE_INVALID, ( path + " is not a valid location in " + file ).c_str() ); gdp->clearAndDestroy(); return error(); } MurmurHash hash; hash.append( file ); hash.append( path ); hash.append( space ); hash.append( shapeFilterStr ); hash.append( attributeFilter ); hash.append( geometryType ); hash.append( getObjectOnly() ); if ( !m_loaded || m_hash != hash ) { gdp->clearAndDestroy(); } Imath::M44d transform = ( space == World ) ? worldTransform( file, path, context.getTime() ) : Imath::M44d(); SceneInterface::Path rootPath; scene->path( rootPath ); UT_Interrupt *progress = UTgetInterrupt(); if ( !progress->opStart( ( "Cooking objects for " + getPath() ).c_str() ) ) { addError( SOP_ATTRIBUTE_INVALID, "Cooking interrupted before it started" ); gdp->clearAndDestroy(); return error(); } loadObjects( scene, transform, context.getTime(), space, shapeFilter, attributeFilter.toStdString(), geometryType, rootPath.size() ); if ( progress->opInterrupt( 100 ) ) { addError( SOP_ATTRIBUTE_INVALID, "Cooking interrupted" ); gdp->clearAndDestroy(); m_loaded = false; m_hash = MurmurHash(); } else { m_loaded = true; m_hash = hash; } progress->opEnd(); return error(); }
OP_ERROR SOP_SceneCacheSource::cookMySop( OP_Context &context ) { flags().setTimeDep( true ); std::string file; if ( !ensureFile( file ) ) { addError( SOP_ATTRIBUTE_INVALID, ( file + " is not a valid .scc" ).c_str() ); gdp->clearAndDestroy(); return error(); } std::string path = getPath(); Space space = getSpace(); UT_String shapeFilterStr; evalString( shapeFilterStr, pShapeFilter.getToken(), 0, 0 ); UT_StringMMPattern shapeFilter; shapeFilter.compile( shapeFilterStr ); UT_String p( "P" ); UT_String attributeFilter; evalString( attributeFilter, pAttributeFilter.getToken(), 0, 0 ); if ( !p.match( attributeFilter ) ) { attributeFilter += " P"; } ConstSceneInterfacePtr scene = this->scene( file, path ); if ( !scene ) { addError( SOP_ATTRIBUTE_INVALID, ( path + " is not a valid location in " + file ).c_str() ); gdp->clearAndDestroy(); return error(); } MurmurHash hash; hash.append( file ); hash.append( path ); hash.append( space ); hash.append( shapeFilterStr ); hash.append( attributeFilter ); if ( !m_loaded || m_hash != hash ) { gdp->clearAndDestroy(); } Imath::M44d transform = ( space == World ) ? worldTransform( file, path, context.getTime() ) : Imath::M44d(); SceneInterface::Path rootPath; scene->path( rootPath ); loadObjects( scene, transform, context.getTime(), space, shapeFilter, attributeFilter.toStdString(), rootPath.size() ); m_loaded = true; m_hash = hash; return error(); }