void StructureMgrSingleton::ShowAllParts()
{
FeaStructure* fea_struct = GetFeaStruct( m_CurrStructIndex );
Vehicle* veh = VehicleMgr.GetVehicle();
if ( fea_struct && veh )
{
string parent_id = fea_struct->GetParentGeomID();
veh->HideAll();
Geom* parent = veh->FindGeom( parent_id );
if ( parent )
{
parent->SetSetFlag( 1, true ); //add to shown
parent->SetSetFlag( 2, false ); //remove from show
}
vector < FeaPart* > part_vec = fea_struct->GetFeaPartVec();
for ( size_t i = 0; i < part_vec.size(); i++ )
{
part_vec[i]->m_DrawFeaPartFlag.Set( true );
}
vector < SubSurface* > ss_vec = fea_struct->GetFeaSubSurfVec();
for ( size_t i = 0; i < ss_vec.size(); i++ )
{
ss_vec[i]->m_DrawFeaPartFlag.Set( true );
}
}
}
//==== Get the geom pointer matching a given comp_id ====//
Geom* SubSurfaceMgrSingleton::GetGeom( string comp_id )
{
Vehicle* veh = VehicleMgr.GetVehicle();
if ( !veh )
{
return NULL;
}
return veh->FindGeom( comp_id );
}
//==== Add Parm To Current Custom Geom ====//
string CustomGeomMgrSingleton::AddParm( int type, const string & name, const string & group )
{
Vehicle* veh = VehicleMgr.GetVehicle();
Geom* gptr = veh->FindGeom( m_CurrGeom );
//==== Check If Geom is Valid and Correct Type ====//
if ( gptr && gptr->GetType().m_Type == CUSTOM_GEOM_TYPE )
{
CustomGeom* custom_geom = dynamic_cast<CustomGeom*>( gptr );
return custom_geom->AddParm( type, name, group );
}
return string();
}
//==== Init Custom Geom ====//
void CustomGeomMgrSingleton::InitGeom( const string& id, const string& module_name )
{
Vehicle* veh = VehicleMgr.GetVehicle();
Geom* gptr = veh->FindGeom( id );
//==== Check If Geom is Valid and Correct Type ====//
if ( gptr && gptr->GetType().m_Type == CUSTOM_GEOM_TYPE )
{
m_CurrGeom = id;
CustomGeom* custom_geom = dynamic_cast<CustomGeom*>( gptr );
custom_geom->SetScriptModuleName( module_name );
custom_geom->InitGeom();
m_ModuleGeomIDMap[ module_name ] = id;
}
}
void SubSurface::UpdateDrawObjs()
{
if ( !m_UpdateDrawFlag )
{
return;
}
Vehicle* veh = VehicleMgr.GetVehicle();
if ( !veh )
{
return;
}
Geom* geom = veh->FindGeom( m_CompID );
m_DrawObjVec.clear();
if ( geom )
{
vector< VspSurf > surf_vec;
geom->GetSurfVec( surf_vec );
int ncopy = geom->GetNumSymmCopies();
m_DrawObjVec.resize( m_LVec.size()*ncopy, DrawObj() );
int ind = 0;
for ( int ls = 0 ; ls < ( int )m_LVec.size() ; ls++ )
{
int num_pnts = CompNumDrawPnts( geom );
int *num_pnts_ptr = NULL;
if ( num_pnts > 0 )
{
num_pnts_ptr = &num_pnts;
}
int isurf = m_MainSurfIndx();
vector < int > symms = geom->GetSymmIndexs( isurf );
assert( ncopy == symms.size() );
for ( int s = 0 ; s < ncopy ; s++ )
{
m_LVec[ls].UpdateDrawObj( &surf_vec[symms[s]], geom, m_DrawObjVec[ind], num_pnts_ptr );
ind++;
}
}
}
}
void SSControlSurf::UpdateDrawObjs()
{
SubSurface::UpdateDrawObjs();
Vehicle* veh = VehicleMgr.GetVehicle();
if ( !veh )
{
return;
}
Geom* geom = veh->FindGeom( m_CompID );
if ( geom )
{
vector< VspSurf > surf_vec;
geom->GetSurfVec( surf_vec );
int ncopy = geom->GetNumSymmCopies();
m_HingeDO.m_PntVec.clear();
m_HingeDO.m_LineWidth = 2.0;
m_HingeDO.m_Type = DrawObj::VSP_LINES;
m_HingeDO.m_GeomID = m_ID + string( "_ss_hinge" );
m_HingeDO.m_GeomChanged = true;
m_ArrowDO.m_PntVec.clear();
m_ArrowDO.m_Type = DrawObj::VSP_SHADED_TRIS;
m_ArrowDO.m_GeomID = m_ID + string( "_ss_arrow" );
m_ArrowDO.m_GeomChanged = true;
for ( int i = 0; i < 4; i++ )
{
m_ArrowDO.m_MaterialInfo.Ambient[i] = 0.2;
m_ArrowDO.m_MaterialInfo.Diffuse[i] = 0.1;
m_ArrowDO.m_MaterialInfo.Specular[i] = 0.7;
m_ArrowDO.m_MaterialInfo.Emission[i] = 0.0;
}
m_ArrowDO.m_MaterialInfo.Diffuse[3] = 0.5;
m_ArrowDO.m_MaterialInfo.Shininess = 5.0;
int isurf = m_MainSurfIndx();
vector < int > symms = geom->GetSymmIndexs( isurf );
assert( ncopy == symms.size() );
int npt = m_UWStart.size();
for ( int s = 0 ; s < ncopy ; s++ )
{
VspSurf* surf = &( surf_vec[ symms[ s ] ] );
vec3d pst, pend;
for ( int i = 0; i < npt; i++ )
{
pst = pst + surf->CompPnt01( m_UWStart[i].x(), m_UWStart[i].y() );
pend = pend + surf->CompPnt01( m_UWEnd[i].x(), m_UWEnd[i].y() );
}
pst = pst / ( 1.0 * npt );
pend = pend / ( 1.0 * npt );
vec3d pmid = ( pst + pend ) * 0.5;
vec3d dir = pend - pst;
double len = dir.mag();
dir.normalize();
m_HingeDO.m_PntVec.push_back( pst );
m_HingeDO.m_PntVec.push_back( pend );
MakeCircleArrow( pmid, dir, 0.25, m_HingeDO, m_ArrowDO );
}
m_ArrowDO.m_NormVec = vector <vec3d> ( m_ArrowDO.m_PntVec.size() );
}
}
bool VSPAEROScreen::Update()
{
Vehicle *veh = VehicleMgr.GetVehicle();
VSPAEROMgr.Update();
if( veh )
{
//check if the degenfile name has changed
string t_ModelNameBase = VSPAEROMgr.m_ModelNameBase; //m_ModelNameBase is built from calling veh->getExportFileName();
if( !t_ModelNameBase.empty() && strcmp( m_ModelNameBasePrevious.c_str(), t_ModelNameBase.c_str() ) != 0 )
{
ReadSetup();
}
m_ModelNameBasePrevious = t_ModelNameBase;
// Reference Wing Choice
// find & list all Wing type geometries
vector <string> geomVec = veh->GetGeomVec();
m_RefWingChoice.ClearItems();
m_WingGeomVec.clear();
map <string, int> WingCompIDMap;
int iwing = 0;
for ( int i = 0 ; i < ( int )geomVec.size() ; i++ )
{
char str[256];
Geom* g = veh->FindGeom( geomVec[i] );
if ( g )
{
sprintf( str, "%d_%s", i, g->GetName().c_str() );
if( g->GetType().m_Type == MS_WING_GEOM_TYPE )
{
m_RefWingChoice.AddItem( str );
WingCompIDMap[ geomVec[i] ] = iwing;
m_WingGeomVec.push_back( geomVec[i] );
iwing ++;
}
}
}
m_RefWingChoice.UpdateItems();
// Update selected value
string refGeomID = VSPAEROMgr.m_RefGeomID;
if( refGeomID.length() == 0 && m_WingGeomVec.size() > 0 )
{
// Handle case default case.
refGeomID = m_WingGeomVec[0];
VSPAEROMgr.m_RefGeomID = refGeomID;
// Re-trigger reference quantity update with default component.
VSPAEROMgr.Update();
}
m_RefWingChoice.SetVal( WingCompIDMap[ refGeomID ] );
// Update available set choices
m_GeomSetChoice.ClearItems();
m_CGSetChoice.ClearItems();
vector <string> setVec = veh->GetSetNameVec();
for ( int iSet = 0; iSet < setVec.size(); iSet++ )
{
m_GeomSetChoice.AddItem( setVec[iSet] );
m_CGSetChoice.AddItem( setVec[iSet] );
}
m_GeomSetChoice.UpdateItems();
m_CGSetChoice.UpdateItems();
m_GeomSetChoice.SetVal( VSPAEROMgr.m_GeomSet() );
m_CGSetChoice.SetVal( VSPAEROMgr.m_CGGeomSet() );
// Case Setup
m_AeroMethodToggleGroup.Update( VSPAEROMgr.m_AnalysisMethod.GetID() );
switch ( VSPAEROMgr.m_AnalysisMethod.Get() )
{
case vsp::VSPAERO_ANALYSIS_METHOD::VORTEX_LATTICE:
m_DegenFileName.Activate();
m_DegenFileButton.Activate();
m_CompGeomFileName.Deactivate();
m_CompGeomFileButton.Deactivate();
break;
case vsp::VSPAERO_ANALYSIS_METHOD::PANEL:
m_DegenFileName.Deactivate();
m_DegenFileButton.Deactivate();
m_CompGeomFileName.Activate();
m_CompGeomFileButton.Activate();
break;
default:
//do nothing; this should not be reachable
break;
}
m_DegenFileName.Update( veh->getExportFileName( vsp::DEGEN_GEOM_CSV_TYPE ) );
m_CompGeomFileName.Update( veh->getExportFileName( vsp::VSPAERO_PANEL_TRI_TYPE ) );
m_NCPUSlider.Update( VSPAEROMgr.m_NCPU.GetID() );
m_StabilityCalcToggle.Update( VSPAEROMgr.m_StabilityCalcFlag.GetID() );
m_BatchCalculationToggle.Update( VSPAEROMgr.m_BatchModeFlag.GetID() );
//printf("m_SolverProcess.m_ThreadID = %lu\n", m_SolverProcess.m_ThreadID);
if( m_SolverThreadIsRunning )
{
m_ComputeGeometryButton.Deactivate();
}
else
{
m_ComputeGeometryButton.Activate();
}
// Wake Options
m_WakeNumIterSlider.Update( VSPAEROMgr.m_WakeNumIter.GetID() );
m_WakeAvgStartIterSlider.Update( VSPAEROMgr.m_WakeAvgStartIter.GetID() );
m_WakeSkipUntilIterSlider.Update( VSPAEROMgr.m_WakeSkipUntilIter.GetID() );
// Reference Quantities
m_RefToggle.Update( VSPAEROMgr.m_RefFlag.GetID() );
m_SrefSlider.Update( VSPAEROMgr.m_Sref.GetID() );
m_brefSlider.Update( VSPAEROMgr.m_bref.GetID() );
m_crefSlider.Update( VSPAEROMgr.m_cref.GetID() );
// CG Position
m_NumSliceSlider.Update( VSPAEROMgr.m_NumMassSlice.GetID() );
m_XcgSlider.Update( VSPAEROMgr.m_Xcg.GetID() );
m_YcgSlider.Update( VSPAEROMgr.m_Ycg.GetID() );
m_ZcgSlider.Update( VSPAEROMgr.m_Zcg.GetID() );
// Flow Condition
// Alpha
m_AlphaStartInput.Update( VSPAEROMgr.m_AlphaStart.GetID() );
m_AlphaEndInput.Update( VSPAEROMgr.m_AlphaEnd.GetID() );
m_AlphaNptsInput.Update( VSPAEROMgr.m_AlphaNpts.GetID() );
if ( VSPAEROMgr.m_AlphaNpts.Get() == 1 )
{
m_AlphaEndInput.Deactivate();
}
else if ( VSPAEROMgr.m_AlphaNpts.Get() > 1 )
{
m_AlphaEndInput.Activate();
}
// Beta
m_BetaStartInput.Update( VSPAEROMgr.m_BetaStart.GetID() );
m_BetaEndInput.Update( VSPAEROMgr.m_BetaEnd.GetID() );
m_BetaNptsInput.Update( VSPAEROMgr.m_BetaNpts.GetID() );
if ( VSPAEROMgr.m_BetaNpts.Get() == 1 )
{
m_BetaEndInput.Deactivate();
}
else if ( VSPAEROMgr.m_BetaNpts.Get() > 1 )
{
m_BetaEndInput.Activate();
}
// Mach
m_MachStartInput.Update( VSPAEROMgr.m_MachStart.GetID() );
m_MachEndInput.Update( VSPAEROMgr.m_MachEnd.GetID() );
m_MachNptsInput.Update( VSPAEROMgr.m_MachNpts.GetID() );
if ( VSPAEROMgr.m_MachNpts.Get() == 1 )
{
m_MachEndInput.Deactivate();
}
else if ( VSPAEROMgr.m_MachNpts.Get() > 1 )
{
m_MachEndInput.Activate();
}
// Create Setup Button
if( veh->GetVSPAEROCmd().empty() ||
!FileExist( VSPAEROMgr.m_DegenFileFull ) ||
m_SolverThreadIsRunning ||
m_SolverSetupThreadIsRunning ||
( ( VSPAEROMgr.m_AnalysisMethod.Get() == vsp::VSPAERO_ANALYSIS_METHOD::PANEL ) && ( !FileExist( VSPAEROMgr.m_CompGeomFileFull ) ) ) )
{
m_SetupButton.Deactivate();
}
else
{
m_SetupButton.Activate();
}
// Kill Solver Setup Button
if( m_SolverSetupThreadIsRunning )
{
m_KillSolverSetupButton.Activate();
}
else
{
m_KillSolverSetupButton.Deactivate();
}
// Setup Text Display
m_SetupDividerBox->copy_label( std::string( "Setup File: " + GetFilename( VSPAEROMgr.m_SetupFile ) ).c_str() );
// Read Setup Button
if( !FileExist( VSPAEROMgr.m_SetupFile ) )
{
m_ReadSetup.Deactivate();
}
else
{
m_ReadSetup.Activate();
}
// Save Setup Button
if( veh->GetVSPAEROCmd().empty() || m_SolverThreadIsRunning || m_SolverSetupThreadIsRunning )
{
m_SaveSetup.Deactivate();
}
else
{
m_SaveSetup.Activate();
}
// Solver Button
if( veh->GetVSPAEROCmd().empty() ||
!FileExist( VSPAEROMgr.m_DegenFileFull ) ||
!FileExist( VSPAEROMgr.m_SetupFile ) ||
m_SolverThreadIsRunning ||
( VSPAEROMgr.m_AnalysisMethod.Get() == vsp::VSPAERO_ANALYSIS_METHOD::PANEL && !FileExist( VSPAEROMgr.m_CompGeomFileFull ) ) )
{
m_SolverButton.Deactivate();
}
else
{
m_SolverButton.Activate();
}
// Kill Solver Button
if( m_SolverThreadIsRunning )
{
m_KillSolverButton.Activate();
}
else
{
m_KillSolverButton.Deactivate();
}
// Plot Window Button
if( veh->GetVSPAEROCmd().empty() ||
!FileExist( VSPAEROMgr.m_DegenFileFull ) ||
!FileExist( VSPAEROMgr.m_SetupFile ) ||
( VSPAEROMgr.m_AnalysisMethod.Get() == vsp::VSPAERO_ANALYSIS_METHOD::PANEL && !FileExist( VSPAEROMgr.m_CompGeomFileFull ) ) )
{
m_PlotButton.Deactivate();
}
else
{
m_PlotButton.Activate();
}
// Viewer Button
if( veh->GetVIEWERCmd().empty() || m_SolverThreadIsRunning || m_ViewerProcess.IsRunning() || !FileExist( VSPAEROMgr.m_AdbFile ) )
{
m_ViewerButton.Deactivate();
}
else
{
m_ViewerButton.Activate();
}
// Export Button
if ( ResultsMgr.GetNumResults( "VSPAERO_Wrapper" ) == 0 )
{
m_ExportResultsToCsvButton.Deactivate();
}
else
{
m_ExportResultsToCsvButton.Activate();
}
}
m_FLTK_Window->redraw();
return false;
}