Esempio n. 1
0
IECore::ObjectVectorPtr TestLight::computeLight( const Gaffer::Context *context ) const
{
	IECore::ShaderPtr result = new IECore::Shader( "testLight", "light" );
	result->parameters()["intensity"] = new IECore::Color3fData( parametersPlug()->getChild<Color3fPlug>( "intensity" )->getValue() );
	result->parameters()["__areaLight"] = new IECore::BoolData( parametersPlug()->getChild<BoolPlug>( "areaLight" )->getValue() );

	IECore::ObjectVectorPtr resultVector = new IECore::ObjectVector();
	resultVector->members().push_back( result );
	return resultVector;
}
Esempio n. 2
0
IECore::ObjectVectorPtr AppleseedLight::computeLight( const Gaffer::Context *context ) const
{
	IECoreScene::ShaderPtr result = new IECoreScene::Shader( modelPlug()->getValue(), "as:light" );
	for( InputValuePlugIterator it( parametersPlug() ); !it.done(); ++it )
	{
		result->parameters()[(*it)->getName()] = CompoundDataPlug::extractDataFromPlug( it->get() );
	}

	IECore::ObjectVectorPtr resultVector = new IECore::ObjectVector();
	resultVector->members().push_back( result );
	return resultVector;
}
Esempio n. 3
0
IECore::ObjectVectorPtr RenderManLight::computeLight( const Gaffer::Context *context ) const
{
	IECore::LightPtr result = new IECore::Light( "ri:" + shaderNamePlug()->getValue() );
	for( InputValuePlugIterator it( parametersPlug() ); it!=it.end(); it++ )
	{
		result->parameters()[(*it)->getName()] = CompoundDataPlug::extractDataFromPlug( it->get() );
	}

	IECore::ObjectVectorPtr resultVector = new IECore::ObjectVector();
	resultVector->members().push_back( result );
	return resultVector;
}
void ObjectVectorParameterHandler::setParameterValue( IECore::Parameter *parameter, InputIterator first, InputIterator last )
{
	assert( last == first + 1 );

	IECore::ObjectVectorPtr value = new IECore::ObjectVector;
	for( InputIterator it=first; it!=last; it++ )
	{
		OpHolder *opHolder = static_cast<OpHolder *>( *it );
		if( opHolder )
		{
			IECore::ObjectPtr o = opHolder->engine();
			value->members().push_back( o );
		}
	}

	parameter->setValue( value );
}
Esempio n. 5
0
IECore::ConstCompoundObjectPtr Light::computeAttributes( const SceneNode::ScenePath &path, const Gaffer::Context *context, const ScenePlug *parent ) const
{
	IECore::CompoundObjectPtr result = new IECore::CompoundObject;

	std::string lightAttribute = "light";

	IECore::ObjectVectorPtr lightShaders = computeLight( context );
	if( lightShaders->members().size() > 0 )
	{
		IECore::LightPtr light = IECore::runTimeCast< IECore::Light >(
			lightShaders->members()[ lightShaders->members().size() - 1 ] );
		std::string lightName = light->getName();
		size_t colon = lightName.find( ":" );
		if( colon != std::string::npos )
		{
			lightAttribute = lightName.substr( 0, colon ) + ":light";
		}
	}

	result->members()[lightAttribute] = lightShaders;

	return result;
}
Esempio n. 6
0
IECore::ObjectVectorPtr ArnoldLight::computeLight( const Gaffer::Context *context ) const
{
	IECore::ObjectVectorPtr result = new IECore::ObjectVector;
	IECoreScene::ShaderPtr lightShader = new IECoreScene::Shader( shaderNamePlug()->getValue(), "ai:light" );
	for( InputPlugIterator it( parametersPlug() ); !it.done(); ++it )
	{
		if( const Shader *shader = (*it)->source<Plug>()->ancestor<Shader>() )
		{
			/// \todo We should generalise Shader::NetworkBuilder so we can
			/// use it directly to do the whole of the light generation, instead
			/// of dealing with input networks manually one by one here. Alternatively
			/// we could take the approach that OSLLight takes, and use an internal
			/// ArnoldShader to do all the shader loading and network generation.
			/// This would avoid exposing any Shader internals, and would generalise
			/// nicely to the other Light subclasses too.
			IECore::ConstCompoundObjectPtr inputAttributes = shader->attributes();
			const IECore::ObjectVector *inputNetwork = inputAttributes->member<const IECore::ObjectVector>( "ai:surface" );
			if( !inputNetwork || inputNetwork->members().empty() )
			{
				continue;
			}

			// Add input network into our result.
			result->members().insert( result->members().end(), inputNetwork->members().begin(), inputNetwork->members().end() );
			// Update endpoint of network with a handle we can refer to it with.
			result->members().back() = result->members().back()->copy();
			IECoreScene::Shader *endpoint = static_cast<IECoreScene::Shader *>( result->members().back().get() );
			endpoint->parameters()["__handle"] = new IECore::StringData( (*it)->getName() );
			// Add a parameter value linking to the input network.
			lightShader->parameters()[(*it)->getName()] = new IECore::StringData( "link:" + (*it)->getName().string() );
		}
		else if( ValuePlug *valuePlug = IECore::runTimeCast<ValuePlug>( it->get() ) )
		{
			lightShader->parameters()[valuePlug->getName()] = CompoundDataPlug::extractDataFromPlug( valuePlug );
		}
	}

	result->members().push_back( lightShader );
	return result;
}