void ImageNode::compute( ValuePlug *output, const Context *context ) const { ImagePlug *imagePlug = output->ancestor<ImagePlug>(); if( imagePlug ) { if( enabled() ) { if( output == imagePlug->channelDataPlug() ) { const std::string &channel = context->get<std::string>( ImagePlug::channelNameContextName ); if ( channelEnabled( channel ) ) { computeImagePlugs( output, context ); } else { static_cast<FloatVectorDataPlug *>( output )->setValue( imagePlug->channelDataPlug()->defaultValue() ); } } else { computeImagePlugs( output, context ); } } else { if( output == imagePlug->formatPlug() ) { static_cast<FormatPlug *>( output )->setValue( imagePlug->formatPlug()->defaultValue() ); } else if( output == imagePlug->dataWindowPlug() ) { static_cast<AtomicBox2iPlug *>( output )->setValue( imagePlug->dataWindowPlug()->defaultValue() ); } else if( output == imagePlug->channelNamesPlug() ) { static_cast<StringVectorDataPlug *>( output )->setValue( imagePlug->channelNamesPlug()->defaultValue() ); } else if( output == imagePlug->channelDataPlug() ) { static_cast<FloatVectorDataPlug *>( output )->setValue( imagePlug->channelDataPlug()->defaultValue() ); } } } }
void ImageNode::computeImagePlugs( ValuePlug *output, const Context *context ) const { ImagePlug *imagePlug = output->ancestor<ImagePlug>(); if( output == imagePlug->formatPlug() ) { static_cast<FormatPlug *>( output )->setValue( computeFormat( context, imagePlug ) ); } else if( output == imagePlug->dataWindowPlug() ) { static_cast<AtomicBox2iPlug *>( output )->setValue( computeDataWindow( context, imagePlug ) ); } else if( output == imagePlug->channelNamesPlug() ) { static_cast<StringVectorDataPlug *>( output )->setValue( computeChannelNames( context, imagePlug ) ); } else if( output == imagePlug->channelDataPlug() ) { std::string channelName = context->get<string>( ImagePlug::channelNameContextName ); V2i tileOrigin = context->get<V2i>( ImagePlug::tileOriginContextName ); if( tileOrigin.x % ImagePlug::tileSize() || tileOrigin.y % ImagePlug::tileSize() ) { throw Exception( "The image:tileOrigin must be a multiple of ImagePlug::tileSize()" ); } static_cast<FloatVectorDataPlug *>( output )->setValue( computeChannelData( channelName, tileOrigin, context, imagePlug ) ); } }
void ImageNode::compute( ValuePlug *output, const Context *context ) const { ImagePlug *imagePlug = output->parent<ImagePlug>(); if( !imagePlug ) { ComputeNode::compute( output, context ); return; } // we're computing part of an ImagePlug if( !enabled() ) { // disabled nodes just output a default black image. output->setToDefault(); return; } // node is enabled - defer to our derived classes to perform the appropriate computation if( output == imagePlug->formatPlug() ) { static_cast<FormatPlug *>( output )->setValue( computeFormat( context, imagePlug ) ); } else if( output == imagePlug->dataWindowPlug() ) { static_cast<AtomicBox2iPlug *>( output )->setValue( computeDataWindow( context, imagePlug ) ); } else if( output == imagePlug->channelNamesPlug() ) { static_cast<StringVectorDataPlug *>( output )->setValue( computeChannelNames( context, imagePlug ) ); } else if( output == imagePlug->channelDataPlug() ) { std::string channelName = context->get<string>( ImagePlug::channelNameContextName ); if( channelEnabled( channelName ) ) { V2i tileOrigin = context->get<V2i>( ImagePlug::tileOriginContextName ); if( tileOrigin.x % ImagePlug::tileSize() || tileOrigin.y % ImagePlug::tileSize() ) { throw Exception( "The image:tileOrigin must be a multiple of ImagePlug::tileSize()" ); } static_cast<FloatVectorDataPlug *>( output )->setValue( computeChannelData( channelName, tileOrigin, context, imagePlug ) ); } else { output->setToDefault(); } } }