//==== Get Vector Parm IDs And Index For Given Parm ID ====// int ParmContainer::GetParmIDs( string parm_id, vector< string > & parm_ids ) { int index = 0; string group_name; Parm* p = ParmMgr.FindParm( parm_id ); if ( p ) { group_name = p->GetDisplayGroupName(); } map< string, vector< string > >::iterator iter = m_GroupParmMap.find( group_name ); if ( iter == m_GroupParmMap.end() ) { return index; } for ( int i = 0 ; i < ( int )iter->second.size() ; i++ ) { if ( parm_id == iter->second[i] ) { index = parm_ids.size(); } parm_ids.push_back( iter->second[i] ); } return index; }
//==== Load Parm Vec, Find Groups And Sort ====// void ParmContainer::LoadGroupParmVec( vector< string > & parm_vec, bool displaynames ) { m_GroupNames.clear(); m_GroupParmMap.clear(); //==== Map Parms To Group Names ====// for ( int i = 0 ; i < ( int )parm_vec.size() ; i++ ) { string pid = parm_vec[i]; Parm* p = ParmMgr.FindParm( pid ); if ( p ) { string group_name; if( displaynames ) { group_name = p->GetDisplayGroupName(); } else { group_name = p->GetGroupName(); } m_GroupParmMap[group_name].push_back( pid ); } } map< string, vector< string > >::iterator iter; for ( iter = m_GroupParmMap.begin() ; iter != m_GroupParmMap.end() ; iter++ ) { m_GroupNames.push_back( iter->first ); sort( iter->second.begin(), iter->second.end(), ParmNameCompare ); } }
//==== Link All Parms In A Container (Component) ====// bool LinkMgrSingleton::LinkAllComp() { Parm* pA = ParmMgr.FindParm( m_WorkingLink->GetParmA() ); Parm* pB = ParmMgr.FindParm( m_WorkingLink->GetParmB() ); ParmContainer* pcA = pA->GetLinkContainer(); ParmContainer* pcB = pB->GetLinkContainer(); if ( !pcA || !pcB ) { return false; } if ( pcA == pcB ) { return false; } vector< string > parmAVec, parmBVec; pcA->AddLinkableParms( parmAVec, pcA->GetID() ); pcB->AddLinkableParms( parmBVec, pcB->GetID() ); for ( int k = 0 ; k < ( int )parmAVec.size() ; k++ ) { for ( int n = 0 ; n < ( int )parmBVec.size() ; n++ ) { Parm* parmA = ParmMgr.FindParm( parmAVec[k] ); Parm* parmB = ParmMgr.FindParm( parmBVec[n] ); if ( parmA && parmB ) { if ( parmA->GetName() == parmB->GetName() && parmA->GetDisplayGroupName() == parmB->GetDisplayGroupName() ) { AddLink( parmAVec[k], parmBVec[n] ); } } } } return true; }
//==== Link All Parms In A Group ====// bool LinkMgrSingleton::LinkAllGroup() { Parm* pA = ParmMgr.FindParm( m_WorkingLink->GetParmA() ); Parm* pB = ParmMgr.FindParm( m_WorkingLink->GetParmB() ); if ( !pA || !pB ) { return false; } string gnameA = pA->GetDisplayGroupName(); string gnameB = pB->GetDisplayGroupName(); if ( ( pA->GetLinkContainer() == pB->GetLinkContainer() ) && ( gnameA == gnameB ) ) { return false; } vector< string > parmAVec, parmBVec; pA->GetLinkContainer()->GetParmIDs( pA->GetID(), parmAVec ); pB->GetLinkContainer()->GetParmIDs( pB->GetID(), parmBVec ); for ( int k = 0 ; k < ( int )parmAVec.size() ; k++ ) { for ( int n = 0 ; n < ( int )parmBVec.size() ; n++ ) { Parm* parmA = ParmMgr.FindParm( parmAVec[k] ); Parm* parmB = ParmMgr.FindParm( parmBVec[n] ); if ( parmA && parmB && ( parmA->GetName() == parmB->GetName() ) ) { AddLink( parmAVec[k], parmBVec[n] ); } } } return true; }
//==== Get Vector of Group Names And Index For Given Parm ID ====// int ParmContainer::GetGroupNames( string parm_id, vector< string > & group_names ) { int index = 0; string group_name; Parm* p = ParmMgr.FindParm( parm_id ); if ( p ) { group_name = p->GetDisplayGroupName(); } map< string, vector< string > >::iterator iter; for ( iter = m_GroupParmMap.begin() ; iter != m_GroupParmMap.end() ; iter++ ) { string name = iter->first; if ( name == group_name ) { index = group_names.size(); } group_names.push_back( name ); } return index; }