void EntityInstanceNode::SetBackingEntity( const Asset::EntityInstancePtr& entity ) { m_Entity = entity; m_UID = m_Entity->m_ID; m_Plug.setAttribute( s_ArtFilePath ); m_Plug.setValue( MString (entity->GetEntity()->GetPath().c_str()) ); Math::Matrix4 gm = m_Entity->m_GlobalTransform * s_RelativeTransform.Inverted(); MMatrix mat; gm.t.x *= 100.0f; gm.t.y *= 100.0f; gm.t.z *= 100.0f; for (int i=0; i<4; i++) { for (int j=0; j<4; j++) { mat[i][j] = gm[i][j]; } } MFnTransform transFn( thisMObject() ); MTransformationMatrix transMat (mat); transFn.set(transMat); AddAttributeChangedCallback(); }
std::pair< EntityNode*, EntityInstanceNode*> EntityNode::CreateInstance( const Asset::EntityInstancePtr& entity ) { EntityNode* artClass = &Get( entity->GetEntity()->GetPath() ); M_EntityNode::iterator instItor = artClass->m_Instances.find( entity->m_ID ); EntityInstanceNode* entityNode = NULL; if( instItor == artClass->m_Instances.end() ) { MFnDagNode nodeFn; MObject instanceObject = nodeFn.create( EntityInstanceNode::s_TypeID, entity->GetName().c_str() ); nodeFn.setDoNotWrite( true ); entityNode = static_cast< EntityInstanceNode* >( nodeFn.userNode() ); artClass->m_Instances[ entity->m_ID ] = entityNode; entityNode->SetBackingEntity( entity ); entityNode->Show( *artClass ); } else { entityNode = instItor->second; entityNode->SetBackingEntity( entity ); } return std::pair< EntityNode*, EntityInstanceNode* >( artClass, entityNode ); }