GA_Detail::IOStatus GEO_CobIOTranslator::fileSaveToFile( const GEO_Detail *geo, ostream &os, const char *fileName )
{
	((ofstream&)os).close();
	
	GU_DetailHandle handle;
	handle.allocateAndSet( (GU_Detail*)geo, false );
	
	FromHoudiniGeometryConverterPtr converter = FromHoudiniGeometryConverter::create( handle );
	if ( !converter )
	{
		return false;
	}
	
	ObjectPtr object = converter->convert();
	if ( !object )
	{
		return false;
	}
	
	try
	{
		WriterPtr writer = Writer::create( object, fileName );
		writer->write();
	}
	catch ( IECore::Exception e )
	{
		return false;
	}
	
	return true;
}
Пример #2
0
ConstObjectPtr HoudiniScene::readObject( double time ) const
{
	OBJ_Node *objNode = retrieveNode( true )->castToOBJNode();
	if ( !objNode )
	{
		return 0;
	}
	
	if ( objNode->getObjectType() == OBJ_GEOMETRY )
	{
		OP_Context context( time );
		GU_DetailHandle handle = objNode->getRenderGeometryHandle( context, false );
		
		if ( !m_splitter || ( handle != m_splitter->handle() ) )
		{
			m_splitter = new DetailSplitter( handle );
		}
		
		GU_DetailHandle newHandle = m_splitter->split( contentPathValue() );
		FromHoudiniGeometryConverterPtr converter = FromHoudiniGeometryConverter::create( ( newHandle.isNull() ) ? handle : newHandle );
		if ( !converter )
		{
			return 0;
		}
		
		return converter->convert();
	}
	
	/// \todo: need to account for cameras and lights
	
	return 0;
}
ObjectPtr FromHoudiniGroupConverter::doDetailConversion( const GU_Detail *geo, const CompoundObject *operands ) const
{
	GU_DetailHandle handle;
	handle.allocateAndSet( (GU_Detail*)geo, false );

	FromHoudiniGeometryConverterPtr converter = FromHoudiniGeometryConverter::create( handle );
	if ( !converter || converter->isInstanceOf( FromHoudiniGroupConverter::staticTypeId() ) )
	{
		/// \todo: if we're in PrimitiveGroup mode, but names exist, we return 0 when we should be returning a Group
		return 0;
	}
	
	// transfer the common parameter values
	CompoundParameter *parameters = converter->parameters();
	const CompoundParameter::ParameterMap &parameterMap = parameters->parameters();
	const CompoundObject::ObjectMap &values = operands->members();
	for ( CompoundObject::ObjectMap::const_iterator it = values.begin(); it != values.end(); ++it )
	{
		CompoundParameter::ParameterMap::const_iterator pIt = parameterMap.find( it->first );
		if ( pIt != parameterMap.end() && pIt->second->defaultValue()->typeId() == it->second->typeId() )
		{
			parameters->setParameterValue( it->first, it->second );
		}
	}
	
	return converter->convert();
}
Пример #4
0
void SOP_CortexConverter::doConvert( const GU_DetailHandle &handle, const std::string &name, ResultType type, const std::string &attributeFilter, bool convertStandardAttributes )
{
	if ( handle.isNull() )
	{
		addError( SOP_MESSAGE, ( "Could not extract the geometry named " + name ).c_str() );
		return;
	}
	
	FromHoudiniGeometryConverterPtr fromConverter = FromHoudiniGeometryConverter::create( handle );
	if ( !fromConverter )
	{
		addError( SOP_MESSAGE, ( "Could not convert the geometry named " + name ).c_str() );
		return;
	}
	
	IECore::ObjectPtr result = fromConverter->convert();
	if ( !result )
	{
		addError( SOP_MESSAGE, ( "Could not find Cortex Object named " + name + " on input geometry" ).c_str() );
		return;
	}
	
	if ( IECore::ParameterisedProcedural *procedural = IECore::runTimeCast<IECore::ParameterisedProcedural>( result.get() ) )
	{
		IECore::CapturingRendererPtr renderer = new IECore::CapturingRenderer();
		// We are acquiring and releasing the GIL here to ensure that it is released when we render. This has
		// to be done because a procedural might jump between c++ and python a few times (i.e. if it spawns
		// subprocedurals that are implemented in python). In a normal call to cookMySop, this wouldn't be an
		// issue, but if cookMySop was called from HOM, hou.Node.cook appears to be holding onto the GIL.
		IECorePython::ScopedGILLock gilLock;
		{
			IECorePython::ScopedGILRelease gilRelease;
			{
				IECore::WorldBlock worldBlock( renderer );
				procedural->render( renderer.get() );
			}
		}
		
		result = boost::const_pointer_cast<IECore::Object>( IECore::runTimeCast<const IECore::Object>( renderer->world() ) );
	}
	
	ToHoudiniGeometryConverterPtr converter = ( type == Cortex ) ? new ToHoudiniCortexObjectConverter( result.get() ) : ToHoudiniGeometryConverter::create( result.get() );
	converter->nameParameter()->setTypedValue( name );
	converter->attributeFilterParameter()->setTypedValue( attributeFilter );
	converter->convertStandardAttributesParameter()->setTypedValue( convertStandardAttributes );
	
	if ( !converter->convert( myGdpHandle ) )
	{
		addError( SOP_MESSAGE, ( "Could not convert the Cortex Object named " + name + " to Houdini geometry" ).c_str() );
	}
}
Пример #5
0
void SOP_ParameterisedHolder::setInputParameterValues( float now )
{
	for ( unsigned int i=0; i < m_inputParameters.size(); i++ )
	{
		useInputSource( i, m_dirty, false );
		
		IECore::ParameterPtr inputParameter = m_inputParameters[i];
		
		GU_DetailHandle inputHandle = inputGeoHandle( i );
		GU_DetailHandleAutoReadLock readHandle( inputHandle );
		const GU_Detail *inputGdp = readHandle.getGdp();
		if ( !inputGdp )
		{
			continue;
		}
		
		const GA_ROAttributeRef attrRef = inputGdp->findAttribute( GA_ATTRIB_DETAIL, GA_SCOPE_PRIVATE, "IECoreHoudiniNodePassData" );
		if ( attrRef.isValid() )
		{
			// looks like data passed from another ParameterisedHolder
			const GA_Attribute *attr = attrRef.getAttribute();
			const GA_AIFBlindData *blindData = attr->getAIFBlindData();
			const NodePassData passData = blindData->getValue<NodePassData>( attr, 0 );
			SOP_ParameterisedHolder *sop = dynamic_cast<SOP_ParameterisedHolder*>( const_cast<OP_Node*>( passData.nodePtr() ) );
			
			IECore::ConstObjectPtr result = 0;
			if ( passData.type() == IECoreHoudini::NodePassData::CORTEX_OPHOLDER )
			{
				IECore::OpPtr op = IECore::runTimeCast<IECore::Op>( sop->getParameterised() );
				result = op->resultParameter()->getValue();
			}
			else if ( passData.type() == IECoreHoudini::NodePassData::CORTEX_PROCEDURALHOLDER )
			{
				IECore::ParameterisedProcedural *procedural = IECore::runTimeCast<IECore::ParameterisedProcedural>( sop->getParameterised() );
				IECore::CapturingRendererPtr renderer = new IECore::CapturingRenderer();
				// We are acquiring and releasing the GIL here to ensure that it is released when we render. This has
				// to be done because a procedural might jump between c++ and python a few times (i.e. if it spawns
				// subprocedurals that are implemented in python). In a normal call to cookMySop, this wouldn't be an
				// issue, but if cookMySop was called from HOM, hou.Node.cook appears to be holding onto the GIL.
				IECorePython::ScopedGILLock gilLock;
				{
					IECorePython::ScopedGILRelease gilRelease;
					{
						IECore::WorldBlock worldBlock( renderer );
						procedural->render( renderer );
					}
				}
				result = IECore::runTimeCast<const IECore::Object>( renderer->world() );
			}
			else
			{
				continue;
			}
			
			try
			{
				inputParameter->setValidatedValue( IECore::constPointerCast<IECore::Object>( result ) );
			}
			catch ( const IECore::Exception &e )
			{
				addError( SOP_MESSAGE, e.what() );
			}
		}
		else
		{
			// looks like a regular Houdini detail
			IECore::ObjectParameterPtr objectParameter = IECore::runTimeCast<IECore::ObjectParameter>( inputParameter );
			if ( !objectParameter )
			{
				continue;
			}
			
			FromHoudiniGeometryConverterPtr converter = FromHoudiniGeometryConverter::create( inputHandle, objectParameter->validTypes() );
			if ( !converter )
			{
				continue;
			}
			
			// set converter parameters from the node values
			const CompoundParameter::ParameterVector &converterParameters = converter->parameters()->orderedParameters();
			for ( CompoundParameter::ParameterVector::const_iterator it=converterParameters.begin(); it != converterParameters.end(); ++it )
			{
				updateParameter( *it, now, "parm_" + inputParameter->name() + "_" );
			}
			
			try
			{
				IECore::ObjectPtr converted = converter->convert();
				if ( converted )
				{
					inputParameter->setValidatedValue( converted );
				}
			}
			catch ( const IECore::Exception &e )
			{
				addError( SOP_MESSAGE, e.what() );
			}
			catch ( std::runtime_error &e )
			{
				addError( SOP_MESSAGE, e.what() );
			}
		}
	}
}