//==== Load Active Geom Output ====// void ManageGeomScreen::LoadActiveGeomOutput() { vector< string > activeVec = m_VehiclePtr->GetActiveGeomVec(); if ( activeVec.size() == 0 ) { m_GeomUI->activeGeomInput->value( m_VehiclePtr->GetName().c_str() ); } else if ( activeVec.size() == 1 ) { Geom* gptr = m_VehiclePtr->FindGeom( activeVec[0] ); if ( gptr ) { m_GeomUI->activeGeomInput->value( gptr->GetName().c_str() ); } } else { m_GeomUI->activeGeomInput->value( "<multiple>" ); } }
bool CfdMeshScreen::Update() { int i; LoadSetChoice(); CfdMeshMgr.UpdateSourcesAndWakes(); CfdMeshMgr.UpdateDomain(); //==== Base Len ====// m_BodyEdgeSizeSlider.Update( CfdMeshMgr.GetGridDensityPtr()->m_BaseLen.GetID() ); m_MinEdgeSizeSlider.Update( CfdMeshMgr.GetGridDensityPtr()->m_MinLen.GetID() ); m_MaxGapSizeSlider.Update( CfdMeshMgr.GetGridDensityPtr()->m_MaxGap.GetID() ); m_NumCircSegmentSlider.Update( CfdMeshMgr.GetGridDensityPtr()->m_NCircSeg.GetID() ); m_GrowRatioSlider.Update( CfdMeshMgr.GetGridDensityPtr()->m_GrowRatio.GetID() ); m_IntersectSubSurfsButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_IntersectSubSurfs.GetID() ); m_FarXScaleSlider.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_FarXScale.GetID() ); m_FarYScaleSlider.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_FarYScale.GetID() ); m_FarZScaleSlider.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_FarZScale.GetID() ); // char xstr[255]; // char ystr[255]; // char zstr[255]; // sprintf( xstr, "%0.4f", CfdMeshMgr.GetFarLength() ); // sprintf( ystr, "%0.4f", CfdMeshMgr.GetFarWidth() ); // sprintf( zstr, "%0.4f", CfdMeshMgr.GetFarHeight() ); // m_CfdMeshUI->farXScaleAbsInput->value(xstr); // m_CfdMeshUI->farYScaleAbsInput->value(ystr); // m_CfdMeshUI->farZScaleAbsInput->value(zstr); m_FarXLocationSlider.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_FarXLocation.GetID() ); m_FarYLocationSlider.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_FarYLocation.GetID() ); m_FarZLocationSlider.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_FarZLocation.GetID() ); m_FarEdgeLengthSlider.Update( CfdMeshMgr.GetGridDensityPtr()->m_FarMaxLen.GetID() ); m_FarGapSizeSlider.Update( CfdMeshMgr.GetGridDensityPtr()->m_FarMaxGap.GetID() ); m_FarCircSegmentSlider.Update( CfdMeshMgr.GetGridDensityPtr()->m_FarNCircSeg.GetID() ); m_WakeScaleSlider.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_WakeScale.GetID() ); m_WakeAngleSlider.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_WakeAngle.GetID() ); //==== Load Geom Choice ====// m_GeomVec = m_Vehicle->GetGeomVec(); m_CfdMeshUI->compChoice->clear(); m_CfdMeshUI->surfChoice->clear(); m_CfdMeshUI->wakeCompChoice->clear(); m_CfdMeshUI->farCompChoice->clear(); map< string, int > compIDMap; map< string, int > wingCompIDMap; m_WingGeomVec.clear(); int iwing = 0; for ( i = 0 ; i < ( int )m_GeomVec.size() ; i++ ) { char str[256]; Geom* g = m_Vehicle->FindGeom( m_GeomVec[i] ); if ( g ) { sprintf( str, "%d_%s", i, g->GetName().c_str() ); m_CfdMeshUI->compChoice->add( str ); if( g->HasWingTypeSurfs() ) { m_CfdMeshUI->wakeCompChoice->add( str ); wingCompIDMap[ m_GeomVec[i] ] = iwing; m_WingGeomVec.push_back( m_GeomVec[i] ); iwing ++; } m_CfdMeshUI->farCompChoice->add( str ); compIDMap[ m_GeomVec[i] ] = i; } } string currSourceGeomID = CfdMeshMgr.GetCurrSourceGeomID(); if( currSourceGeomID.length() == 0 && m_GeomVec.size() > 0 ) { // Handle case default case. currSourceGeomID = m_GeomVec[0]; CfdMeshMgr.SetCurrSourceGeomID( currSourceGeomID ); } Geom* currGeom = m_Vehicle->FindGeom( currSourceGeomID ); m_CfdMeshUI->compChoice->value( compIDMap[ currSourceGeomID ] ); string wakeGeomID = CfdMeshMgr.GetWakeGeomID(); if( wakeGeomID.length() == 0 && m_WingGeomVec.size() > 0 ) { // Handle case default case. wakeGeomID = m_WingGeomVec[0]; CfdMeshMgr.SetWakeGeomID( wakeGeomID ); } Geom* wakeGeom = m_Vehicle->FindGeom( wakeGeomID ); m_CfdMeshUI->wakeCompChoice->value( wingCompIDMap[ wakeGeomID ] ); string farGeomID = CfdMeshMgr.GetCfdSettingsPtr()->GetFarGeomID(); if( farGeomID.length() == 0 && m_GeomVec.size() > 0 ) { // Handle case default case. farGeomID = m_GeomVec[0]; CfdMeshMgr.GetCfdSettingsPtr()->SetFarGeomID( farGeomID ); } m_CfdMeshUI->farCompChoice->value( compIDMap[ farGeomID ] ); BaseSource* source = CfdMeshMgr.GetCurrSource(); if ( source ) { m_LengthSlider.Activate(); m_RadiusSlider.Activate(); m_CfdMeshUI->SourceNameInput->activate(); m_LengthSlider.Update( source->m_Len.GetID() ); m_RadiusSlider.Update( source->m_Rad.GetID() ); m_CfdMeshUI->SourceNameInput->value( source->GetName().c_str() ); if ( source->GetType() == vsp::POINT_SOURCE ) { m_U1Slider.Activate(); m_W1Slider.Activate(); PointSource* ps = ( PointSource* )source; m_U1Slider.Update( ps->m_ULoc.GetID() ); m_W1Slider.Update( ps->m_WLoc.GetID() ); m_CfdMeshUI->EditSourceTitle->label( "Edit Point Source" ); m_Length2Slider.Deactivate(); m_Radius2Slider.Deactivate(); m_U2Slider.Deactivate(); m_W2Slider.Deactivate(); } else if ( source->GetType() == vsp::LINE_SOURCE ) { m_Length2Slider.Activate(); m_Radius2Slider.Activate(); m_U1Slider.Activate(); m_W1Slider.Activate(); m_U2Slider.Activate(); m_W2Slider.Activate(); LineSource* ps = ( LineSource* )source; m_U1Slider.Update( ps->m_ULoc1.GetID() ); m_W1Slider.Update( ps->m_WLoc1.GetID() ); m_U2Slider.Update( ps->m_ULoc2.GetID() ); m_W2Slider.Update( ps->m_WLoc2.GetID() ); m_Length2Slider.Update( ps->m_Len2.GetID() ); m_Radius2Slider.Update( ps->m_Rad2.GetID() ); m_CfdMeshUI->EditSourceTitle->label( "Edit Line Source" ); } else if ( source->GetType() == vsp::BOX_SOURCE ) { m_U1Slider.Activate(); m_W1Slider.Activate(); m_U2Slider.Activate(); m_W2Slider.Activate(); BoxSource* ps = ( BoxSource* )source; m_U1Slider.Update( ps->m_ULoc1.GetID() ); m_W1Slider.Update( ps->m_WLoc1.GetID() ); m_U2Slider.Update( ps->m_ULoc2.GetID() ); m_W2Slider.Update( ps->m_WLoc2.GetID() ); m_CfdMeshUI->EditSourceTitle->label( "Edit Box Source" ); m_Length2Slider.Deactivate(); m_Radius2Slider.Deactivate(); } } else { m_LengthSlider.Deactivate(); m_RadiusSlider.Deactivate(); m_Length2Slider.Deactivate(); m_Radius2Slider.Deactivate(); m_U1Slider.Deactivate(); m_W1Slider.Deactivate(); m_U2Slider.Deactivate(); m_W2Slider.Deactivate(); m_CfdMeshUI->SourceNameInput->deactivate(); m_CfdMeshUI->EditSourceTitle->label( "" ); } //==== Load Up Source Browser ====// int currSourceID = -1; m_CfdMeshUI->sourceBrowser->clear(); if( currGeom ) { vector< BaseSource* > sVec = currGeom->GetCfdMeshMainSourceVec(); for ( i = 0 ; i < ( int )sVec.size() ; i++ ) { if ( source == sVec[i] ) { currSourceID = i; } m_CfdMeshUI->sourceBrowser->add( sVec[i]->GetName().c_str() ); } if ( currSourceID >= 0 && currSourceID < ( int )sVec.size() ) { m_CfdMeshUI->sourceBrowser->select( currSourceID + 1 ); } int nmain = currGeom->GetNumMainSurfs(); for ( i = 0; i < nmain; i++ ) { char str[256]; sprintf( str, "Surf_%d", i ); m_CfdMeshUI->surfChoice->add( str ); } int currMainSurfID = CfdMeshMgr.GetCurrMainSurfIndx(); if( currMainSurfID >= 0 && currMainSurfID < nmain ) { m_CfdMeshUI->surfChoice->value( currMainSurfID ); } } m_DrawMeshButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_DrawMeshFlag.GetID() ); m_DrawSourceButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_DrawSourceFlag.GetID() ); m_DrawFarButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_DrawFarFlag.GetID() ); m_DrawFarPreButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_DrawFarPreFlag.GetID() ); m_DrawBadButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_DrawBadFlag.GetID() ); m_DrawSymmButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_DrawSymmFlag.GetID() ); m_DrawWakeButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_DrawWakeFlag.GetID() ); m_DrawTagsButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->m_ColorTagsFlag.GetID() ); if ( CfdMeshMgr.GetCfdSettingsPtr()->GetHalfMeshFlag() ) { m_CfdMeshUI->halfMeshButton->value( 1 ); } else { m_CfdMeshUI->halfMeshButton->value( 0 ); } if ( CfdMeshMgr.GetGridDensityPtr()->GetRigorLimit() ) { m_CfdMeshUI->rigorLimitButton->value( 1 ); } else { m_CfdMeshUI->rigorLimitButton->value( 0 ); } string datname = CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileName( vsp::CFD_DAT_FILE_NAME ); m_CfdMeshUI->datName->value( truncateFileName( datname, 40 ).c_str() ); string keyname = CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileName( vsp::CFD_KEY_FILE_NAME ); m_CfdMeshUI->keyName->value( truncateFileName( keyname, 40 ).c_str() ); string objname = CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileName( vsp::CFD_OBJ_FILE_NAME ); m_CfdMeshUI->objName->value( truncateFileName( objname, 40 ).c_str() ); string polyname = CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileName( vsp::CFD_POLY_FILE_NAME ); m_CfdMeshUI->polyName->value( truncateFileName( polyname, 40 ).c_str() ); string stlname = CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileName( vsp::CFD_STL_FILE_NAME ); m_CfdMeshUI->stlName->value( truncateFileName( stlname, 40 ).c_str() ); string triname = CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileName( vsp::CFD_TRI_FILE_NAME ); m_CfdMeshUI->triName->value( truncateFileName( triname, 40 ).c_str() ); string gmshname = CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileName( vsp::CFD_GMSH_FILE_NAME ); m_CfdMeshUI->gmshName->value( truncateFileName( gmshname, 40 ).c_str() ); string srfname = CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileName( vsp::CFD_SRF_FILE_NAME ); m_CfdMeshUI->srfName->value( truncateFileName( srfname, 40 ).c_str() ); string tkeyname = CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileName( vsp::CFD_TKEY_FILE_NAME ); m_CfdMeshUI->tkeyName->value( truncateFileName( tkeyname, 40).c_str() ); //==== Export Flags ====// m_DatToggleButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileFlag( vsp::CFD_DAT_FILE_NAME )->GetID() ); m_KeyToggleButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileFlag( vsp::CFD_KEY_FILE_NAME )->GetID() ); m_ObjToggleButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileFlag( vsp::CFD_OBJ_FILE_NAME )->GetID() ); m_PolyToggleButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileFlag( vsp::CFD_POLY_FILE_NAME )->GetID() ); m_StlToggleButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileFlag( vsp::CFD_STL_FILE_NAME )->GetID() ); m_StlMultiSolidToggleButton.Update( m_Vehicle->m_STLMultiSolid.GetID() ); m_TriToggleButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileFlag( vsp::CFD_TRI_FILE_NAME )->GetID() ); m_GmshToggleButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileFlag( vsp::CFD_GMSH_FILE_NAME )->GetID() ); m_SrfToggleButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileFlag( vsp::CFD_SRF_FILE_NAME )->GetID() ); m_TkeyToggleButton.Update( CfdMeshMgr.GetCfdSettingsPtr()->GetExportFileFlag( vsp::CFD_TKEY_FILE_NAME)->GetID() ); //==== Wake Flag ====// if( wakeGeom ) { if ( wakeGeom->GetWakeActiveFlag() ) { m_CfdMeshUI->addWakeButton->value( 1 ); } else { m_CfdMeshUI->addWakeButton->value( 0 ); } } //=== Domain tab GUI active areas ===// if ( CfdMeshMgr.GetCfdSettingsPtr()->GetFarMeshFlag() ) { m_CfdMeshUI->farParametersGroup->activate(); if( CfdMeshMgr.GetCfdSettingsPtr()->GetFarCompFlag() ) { m_CfdMeshUI->farBoxGroup->deactivate(); m_CfdMeshUI->farCompGroup->activate(); } else { m_CfdMeshUI->farBoxGroup->activate(); m_CfdMeshUI->farCompGroup->deactivate(); if( CfdMeshMgr.GetCfdSettingsPtr()->GetFarManLocFlag() ) { m_CfdMeshUI->farXYZLocationGroup->activate(); } else { m_CfdMeshUI->farXYZLocationGroup->deactivate(); } } } else { m_CfdMeshUI->farParametersGroup->deactivate(); } //=== Domain tab GUI radio & highlight buttons ===// if( CfdMeshMgr.GetCfdSettingsPtr()->GetFarMeshFlag() ) { m_CfdMeshUI->farMeshButton->value( 1 ); } else { m_CfdMeshUI->farMeshButton->value( 0 ); } if( CfdMeshMgr.GetCfdSettingsPtr()->GetFarCompFlag() ) { m_CfdMeshUI->farComponentGenButton->setonly(); } else { m_CfdMeshUI->farBoxGenButton->setonly(); } if( CfdMeshMgr.GetCfdSettingsPtr()->GetFarAbsSizeFlag() ) { m_CfdMeshUI->farAbsSizeButton->value( 1 ); m_CfdMeshUI->farRelSizeButton->value( 0 ); } else { m_CfdMeshUI->farAbsSizeButton->value( 0 ); m_CfdMeshUI->farRelSizeButton->value( 1 ); } if( CfdMeshMgr.GetCfdSettingsPtr()->GetFarManLocFlag() ) { m_CfdMeshUI->farManLocButton->value( 1 ); m_CfdMeshUI->farCenLocButton->value( 0 ); } else { m_CfdMeshUI->farManLocButton->value( 0 ); m_CfdMeshUI->farCenLocButton->value( 1 ); } return false; }
bool FitModelScreen::Update() { int i; int index; char str[256]; // Update the number of selected points. sprintf( str, "%d", FitModelMgr.GetNumSelected() ); m_NSelOutput.Update( str ); m_TargetGeomPicker.Update(); m_UToggleGroup.Update( FitModelMgr.m_UType.GetID() ); m_USlider.Update( FitModelMgr.m_UTargetPt.GetID() ); m_WToggleGroup.Update( FitModelMgr.m_WType.GetID() ); m_WSlider.Update( FitModelMgr.m_WTargetPt.GetID() ); m_SelOneButton.Update( FitModelMgr.m_SelectOneFlag.GetID() ); m_SelBoxButton.Update( FitModelMgr.m_SelectBoxFlag.GetID() ); // Update Fixed target point browser m_TargetPtBrowser->clear(); static int ptwidths[] = { 75, 35, 35, 35, 35, 37, 35, 38 }; // widths for each column m_TargetPtBrowser->column_widths( ptwidths ); // assign array to widget m_TargetPtBrowser->column_char( ':' ); // use : as the column character sprintf( str, "@[email protected]:@b@[email protected]:@b@[email protected]:@b@[email protected]:@b@[email protected]:@b@[email protected]:@b@[email protected]:@b@[email protected]" ); m_TargetPtBrowser->add( str ); int num_fix = FitModelMgr.GetNumTargetPt(); for ( i = 0 ; i < num_fix ; i++ ) { TargetPt* tpt = FitModelMgr.GetTargetPt( i ); if( tpt ) { Geom* g = VehicleMgr.GetVehicle()->FindGeom( tpt->GetMatchGeom() ); if( g ) { char *fix = "fix"; char *free = "free"; char *ut; char *wt; if( tpt->GetUType() == TargetPt::FIXED ) { ut = fix; } else { ut = free; } if( tpt->GetWType() == TargetPt::FIXED ) { wt = fix; } else { wt = free; } sprintf( str, "%s:%4.2f:%4.2f:%4.2f:%4.2f:%s:%4.2f:%s", g->GetName().c_str(), tpt->GetPt().x(), tpt->GetPt().y(), tpt->GetPt().z(), tpt->GetUW().x(), ut, tpt->GetUW().y(), wt ); m_TargetPtBrowser->add( str ); } } } index = FitModelMgr.GetCurrTargetPtIndex(); if ( index >= 0 && index < num_fix ) { m_TargetPtBrowser->select( index + 2 ); } sprintf( str, "%d", num_fix ); m_NTgtOutput.Update( str ); // Check that all Parms exist. Needed in case a Geom with DesVars is // deleted. FitModelMgr.CheckVars(); // Re-sort DesVars. Needed in case a Geom's name is changed. if ( !FitModelMgr.SortVars() ) { RebuildAdjustTab(); } //==== Update Parm Picker ====// m_ParmPicker.Update(); //==== Update Parm Tree Picker ====// m_ParmTreePicker.Update( FitModelMgr.GetVarVec() ); //==== Update Parm Browser ====// varBrowser->clear(); static int widths[] = { 75, 75, 90 }; // widths for each column varBrowser->column_widths( widths ); // assign array to widget varBrowser->column_char( ':' ); // use : as the column character sprintf( str, "@[email protected]_A:@[email protected]:@[email protected]" ); varBrowser->add( str ); int num_vars = FitModelMgr.GetNumVars(); for ( i = 0 ; i < num_vars ; i++ ) { string c_name, g_name, p_name; ParmMgr.GetNames( FitModelMgr.GetVar( i ), c_name, g_name, p_name ); sprintf( str, "%s:%s:%s", c_name.c_str(), g_name.c_str(), p_name.c_str() ); varBrowser->add( str ); } index = FitModelMgr.GetCurrVarIndex(); if ( index >= 0 && index < num_vars ) { varBrowser->select( index + 2 ); } sprintf( str, "%d", num_vars ); m_NVarOutput.Update( str ); // Parameter GUI got out of sync. Probably from File->New or similar. if ( m_NVarLast != num_vars ) { RebuildAdjustTab(); } //==== Update Parm Adjust Tab ====// for ( int i = 0 ; i < num_vars ; i++ ) { m_ParmSliderVec[i].Update( FitModelMgr.GetVar( i ) ); } FitModelMgr.UpdateNumOptVars(); sprintf( str, "%d", FitModelMgr.GetNumOptVars() ); m_DOFOutput.Update( str ); sprintf( str, "%d", num_fix * 3 ); m_CondOutput.Update( str ); m_DistOutput.Update( std::to_string( static_cast<long double> (FitModelMgr.m_DistMetric) ) ); //===== Save/Load =====// m_SaveOutput.Update( truncateFileName( FitModelMgr.GetSaveFitFileName(), 40 ) ); m_LoadOutput.Update( truncateFileName( FitModelMgr.GetLoadFitFileName(), 40 ) ); if ( m_SaveOutput.GetString() == "" ) { m_Save.Deactivate(); } else { m_Save.Activate(); } if ( m_LoadOutput.GetString() == "" ) { m_Load.Deactivate(); } else { m_Load.Activate(); } m_FLTK_Window->redraw(); return false; }
//==== Load Geom Browser ====// void ManageGeomScreen::LoadBrowser() { //==== Save List of Selected Geoms ====// vector< string > activeVec = m_VehiclePtr->GetActiveGeomVec(); m_LastTopLine = m_GeomUI->geomBrowser->topline(); //==== Display Vehicle Name ====// m_GeomUI->geomBrowser->clear(); m_GeomUI->geomBrowser->add( m_VehiclePtr->GetName().c_str() ); //==== Get Geoms To Display ====// m_DisplayedGeomVec = m_VehiclePtr->GetGeomVec( true ); //==== Step Thru Comps ====// for ( int i = 0 ; i < ( int )m_DisplayedGeomVec.size() ; i++ ) { Geom* gPtr = m_VehiclePtr->FindGeom( m_DisplayedGeomVec[i] ); if ( gPtr ) { string str; //==== Check if Parent is Selected ====// if ( IsParentSelected( m_DisplayedGeomVec[i], activeVec ) ) { str.append( "@b@." ); } int numindents = gPtr->CountParents( 0 ); for ( int j = 0 ; j < numindents ; j++ ) { str.append( "--" ); } if ( gPtr->m_TransAttachFlag() == GeomXForm::ATTACH_TRANS_NONE && gPtr->m_RotAttachFlag() == GeomXForm::ATTACH_ROT_NONE ) { str.append( "> " ); } else { str.append( "^ " ); } if ( !gPtr->m_GuiDraw.GetDisplayChildrenFlag() ) { str.append( "(+) " ); } str.append( gPtr->GetName() ); if ( gPtr->m_GuiDraw.GetNoShowFlag() ) { str.append( "(no show)" ); } m_GeomUI->geomBrowser->add( str.c_str() ); } } //==== Restore List of Selected Geoms ====// for ( int i = 0 ; i < ( int )activeVec.size() ; i++ ) { SelectGeomBrowser( activeVec[i] ); } }
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; }