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();
}
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();
}
Exemplo n.º 3
0
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();
}