OP_Node *HoudiniScene::retrieveChild( const Name &name, Path &contentPath, MissingBehaviour missingBehaviour ) const
{
OP_Node *node = retrieveNode( false, missingBehaviour );
OP_Node *contentBaseNode = retrieveNode( true, missingBehaviour );
if ( !node || !contentBaseNode )
{
return 0;
}
OBJ_Node *objNode = node->castToOBJNode();
OBJ_Node *contentNode = contentBaseNode->castToOBJNode();
// check subnet children
if ( node->isManager() || ( objNode && objNode->getObjectType() == OBJ_SUBNET ) )
{
for ( int i=0; i < node->getNchildren(); ++i )
{
OP_Node *child = node->getChild( i );
// the contentNode is actually an extension of ourself
if ( child == contentNode )
{
continue;
}
if ( child->getName().equal( name.c_str() ) && !hasInput( child ) )
{
return child;
}
}
}
if ( contentNode )
{
// check connected outputs
for ( unsigned i=0; i < contentNode->nOutputs(); ++i )
{
OP_Node *child = contentNode->getOutput( i );
if ( child->getName().equal( name.c_str() ) )
{
return child;
}
}
// check child shapes within the geo
if ( contentNode->getObjectType() == OBJ_GEOMETRY )
{
OP_Context context( getDefaultTime() );
const GU_Detail *geo = contentNode->getRenderGeometry( context, false );
GA_ROAttributeRef nameAttrRef = geo->findStringTuple( GA_ATTRIB_PRIMITIVE, "name" );
if ( nameAttrRef.isValid() )
{
const GA_Attribute *nameAttr = nameAttrRef.getAttribute();
const GA_AIFSharedStringTuple *tuple = nameAttr->getAIFSharedStringTuple();
GA_Size numShapes = tuple->getTableEntries( nameAttr );
for ( GA_Size i=0; i < numShapes; ++i )
{
const char *currentName = tuple->getTableString( nameAttr, tuple->validateTableHandle( nameAttr, i ) );
const char *match = matchPath( currentName );
if ( match && *match != *emptyString )
{
std::pair<const char *, size_t> childMarker = nextWord( match );
std::string child( childMarker.first, childMarker.second );
if ( name == child )
{
size_t contentSize = ( m_contentIndex ) ? m_path.size() - m_contentIndex : 0;
if ( contentSize )
{
contentPath.resize( contentSize );
std::copy( m_path.begin() + m_contentIndex, m_path.end(), contentPath.begin() );
}
contentPath.push_back( name );
return contentNode;
}
}
}
}
}
}
if ( missingBehaviour == SceneInterface::ThrowIfMissing )
{
Path p;
path( p );
std::string pStr;
pathToString( p, pStr );
throw Exception( "IECoreHoudini::HoudiniScene::retrieveChild: Path \"" + pStr + "\" has no child named " + name.string() + "." );
}
return 0;
}
void HoudiniScene::childNames( NameList &childNames ) const
{
OP_Node *node = retrieveNode();
OBJ_Node *objNode = node->castToOBJNode();
OBJ_Node *contentNode = retrieveNode( true )->castToOBJNode();
// add subnet children
if ( node->isManager() || ( objNode && objNode->getObjectType() == OBJ_SUBNET ) )
{
for ( int i=0; i < node->getNchildren(); ++i )
{
OP_Node *child = node->getChild( i );
// ignore children that have incoming connections, as those are actually grandchildren
// also ignore the contentNode, which is actually an extension of ourself
if ( child != contentNode && !hasInput( child ) )
{
childNames.push_back( Name( child->getName() ) );
}
}
}
if ( !contentNode )
{
return;
}
// add connected outputs
for ( unsigned i=0; i < contentNode->nOutputs(); ++i )
{
childNames.push_back( Name( contentNode->getOutput( i )->getName() ) );
}
// add child shapes within the geometry
if ( contentNode->getObjectType() == OBJ_GEOMETRY )
{
OP_Context context( getDefaultTime() );
const GU_Detail *geo = contentNode->getRenderGeometry( context, false );
GA_ROAttributeRef nameAttrRef = geo->findStringTuple( GA_ATTRIB_PRIMITIVE, "name" );
if ( !nameAttrRef.isValid() )
{
return;
}
const GA_Attribute *nameAttr = nameAttrRef.getAttribute();
const GA_AIFSharedStringTuple *tuple = nameAttr->getAIFSharedStringTuple();
GA_Size numShapes = tuple->getTableEntries( nameAttr );
for ( GA_Size i=0; i < numShapes; ++i )
{
const char *currentName = tuple->getTableString( nameAttr, tuple->validateTableHandle( nameAttr, i ) );
const char *match = matchPath( currentName );
if ( match && *match != *emptyString )
{
std::pair<const char *, size_t> childMarker = nextWord( match );
std::string child( childMarker.first, childMarker.second );
if ( std::find( childNames.begin(), childNames.end(), child ) == childNames.end() )
{
childNames.push_back( child );
}
}
}
}
}