// Copyright (C) 2007-2016 CEA/DEN, EDF R&D, OPEN CASCADE // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // // File : SMESHGUI_ComputeDlg.cxx // Author : Edward AGAPOV, Open CASCADE S.A.S. // SMESH includes // #include "SMESHGUI_ComputeDlg.h" #include "SMDS_Mesh.hxx" #include "SMDS_SetIterator.hxx" #include "SMESHGUI.h" #include "SMESHGUI_GEOMGenUtils.h" #include "SMESHGUI_HypothesesUtils.h" #include "SMESHGUI_MeshEditPreview.h" #include "SMESHGUI_MeshInfosBox.h" #include "SMESHGUI_MeshOrderDlg.h" #include "SMESHGUI_MeshOrderOp.h" #include "SMESHGUI_MeshUtils.h" #include "SMESHGUI_VTKUtils.h" #include "SMESH_Actor.h" #include "SMESH_ActorUtils.h" // SALOME GEOM includes #include #include #include // SALOME GUI includes #include #include #include #include #include #include #include #include #include #include #include #include // SALOME KERNEL includes #include #include #include #include "utilities.h" #include CORBA_SERVER_HEADER(SMESH_Group) // OCCT includes #include #include #include #include #include #include #include #include #include #include #include // Qt includes #include #include #include #include #include #include #include #include #include #include #include #include #include // VTK includes #include // STL includes #include #include #ifndef WIN32 #include #endif #define SPACING 6 #define MARGIN 11 #define COLONIZE(str) (QString(str).contains(":") > 0 ? QString(str) : QString(str) + " :" ) #define __SHAPE_RGB__ 250, 0, 250 enum TCol { COL_ALGO = 0, COL_SHAPE, COL_ERROR, COL_SHAPEID, COL_PUBLISHED, COL_BAD_MESH, NB_COLUMNS }; //using namespace SMESH; namespace SMESH { //============================================================================= /*! * \brief Allocate some memory at construction and release it at destruction. * Is used to be able to continue working after mesh generation or visualization * break due to lack of memory */ //============================================================================= struct MemoryReserve { char* myBuf; MemoryReserve(): myBuf( new char[1024*1024*1] ){} // 1M void release() { delete [] myBuf; myBuf = 0; } ~MemoryReserve() { release(); } }; // ========================================================================================= /*! * \brief Class showing shapes without publishing */ // ========================================================================================= class TShapeDisplayer { public: // ----------------------------------------------------------------------- TShapeDisplayer(): myViewWindow(0) { myProperty = vtkProperty::New(); myProperty->SetRepresentationToWireframe(); myProperty->SetColor( __SHAPE_RGB__ ); myProperty->SetAmbientColor( __SHAPE_RGB__ ); myProperty->SetDiffuseColor( __SHAPE_RGB__ ); //myProperty->SetSpecularColor( __SHAPE_RGB__ ); myProperty->SetLineWidth( 5 ); } // ----------------------------------------------------------------------- ~TShapeDisplayer() { DeleteActors(); myProperty->Delete(); } // ----------------------------------------------------------------------- void DeleteActors() { if ( hasViewWindow() ) { TActorIterator actorIt = actorIterator(); while ( actorIt.more() ) if (VTKViewer_Actor* anActor = actorIt.next()) { myViewWindow->RemoveActor( anActor ); //anActor->Delete(); } } myIndexToShape.Clear(); myActors.clear(); myShownActors.clear(); myBuiltSubs.clear(); } // ----------------------------------------------------------------------- void SetVisibility (bool theVisibility) { TActorIterator actorIt = shownIterator(); while ( actorIt.more() ) if (VTKViewer_Actor* anActor = actorIt.next()) anActor->SetVisibility(theVisibility); SMESH::RepaintCurrentView(); } // ----------------------------------------------------------------------- bool HasReadyActorsFor (int subShapeID, GEOM::GEOM_Object_var aMainShape ) { std::string mainEntry; if ( !aMainShape->_is_nil() ) mainEntry = aMainShape->GetStudyEntry(); return ( myMainEntry == mainEntry && myBuiltSubs.find( subShapeID ) != myBuiltSubs.end() ); } // ----------------------------------------------------------------------- void Show( int subShapeID, GEOM::GEOM_Object_var aMainShape, bool only = false) { SVTK_ViewWindow* aViewWindow = SMESH::GetViewWindow( SMESHGUI::GetSMESHGUI() ); SUIT_ResourceMgr* resMgr = SMESH::GetResourceMgr( SMESHGUI::GetSMESHGUI() ); std::string mainEntry; if ( !aMainShape->_is_nil() ) mainEntry = aMainShape->GetStudyEntry(); if ( myMainEntry != mainEntry || aViewWindow != myViewWindow ) { // remove actors DeleteActors(); TopoDS_Shape aShape; if ( !aMainShape->_is_nil() && GEOMBase::GetShape(aMainShape, aShape)) { checkTriangulation( aShape ); TopExp::MapShapes(aShape, myIndexToShape); myActors.resize( myIndexToShape.Extent(), 0 ); myShownActors.reserve( myIndexToShape.Extent() ); } myMainEntry = mainEntry; myViewWindow = aViewWindow; } if ( only ) { // hide shown actors TActorIterator actorIt = shownIterator(); while ( actorIt.more() ) if (VTKViewer_Actor* anActor = actorIt.next()) anActor->SetVisibility(false); myShownActors.clear(); } // find actors to show TopoDS_Shape aShape = myIndexToShape( subShapeID ); if ( !aShape.IsNull() ) { TopAbs_ShapeEnum type( aShape.ShapeType() >= TopAbs_WIRE ? TopAbs_EDGE : TopAbs_FACE ); for ( TopExp_Explorer exp( aShape, type ); exp.More(); exp.Next() ) { //checkTriangulation( exp.Current() ); if ( GEOM_Actor* anActor = getActor( exp.Current() ) ) { int UNbIsos = resMgr->integerValue( "Geometry", "iso_number_u", 1); int VNbIsos = resMgr->integerValue( "Geometry", "iso_number_v", 1); int aNbIsos[2] = { UNbIsos ? UNbIsos : 1, VNbIsos ? VNbIsos : 1 }; anActor->SetNbIsos( aNbIsos ); myShownActors.push_back( anActor ); } } if ( type == TopAbs_FACE ) { for ( TopExp_Explorer exp( aShape, TopAbs_EDGE ); exp.More(); exp.Next() ) { const TopoDS_Edge & edge = TopoDS::Edge( exp.Current() ); if ( !BRep_Tool::Degenerated( edge )) if ( GEOM_Actor* anActor = getActor( exp.Current() )) myShownActors.push_back( anActor ); } } } myBuiltSubs.insert( subShapeID ); SetVisibility(true); } // ----------------------------------------------------------------------- private: typedef std::vector TActorVec; TActorVec myActors; TActorVec myShownActors; TopTools_IndexedMapOfShape myIndexToShape; std::string myMainEntry; SVTK_ViewWindow* myViewWindow; vtkProperty* myProperty; std::set myBuiltSubs; // ----------------------------------------------------------------------- typedef SMDS_SetIterator< GEOM_Actor*, TActorVec::const_iterator> TActorIterator; TActorIterator actorIterator() { return TActorIterator( myActors.begin(), myActors.end() ); } TActorIterator shownIterator() { return TActorIterator( myShownActors.begin(), myShownActors.end() ); } // ----------------------------------------------------------------------- GEOM_Actor* getActor(const TopoDS_Shape& shape) { int index = myIndexToShape.FindIndex( shape ) - 1; if ( index < 0 || index >= (int) myActors.size() ) return 0; GEOM_Actor* & actor = myActors[ index ]; if ( !actor ) { actor = GEOM_Actor::New(); if ( actor ) { actor->SetShape(shape,0,0); // actor->SetProperty(myProperty); // actor->SetShadingProperty(myProperty); // actor->SetWireframeProperty(myProperty); // actor->SetPreviewProperty(myProperty); actor->PickableOff(); // actor->SetWidth( myProperty->GetLineWidth() ); actor->SetIsosWidth( myProperty->GetLineWidth() ); actor->SetIsosColor( __SHAPE_RGB__ ); actor->SetColor( __SHAPE_RGB__ ); // if ( shape.ShapeType() == TopAbs_EDGE ) // actor->SubShapeOn(); myViewWindow->AddActor( actor ); } } return actor; } // ----------------------------------------------------------------------- void checkTriangulation(const TopoDS_Shape& shape) { TopLoc_Location aLoc; Standard_Boolean alreadymesh = Standard_True; TopExp_Explorer ex(shape, TopAbs_FACE); if ( ex.More() ) for ( ; ex.More(); ex.Next()) { const TopoDS_Face& aFace = TopoDS::Face(ex.Current()); Handle(Poly_Triangulation) aPoly = BRep_Tool::Triangulation(aFace,aLoc); if(aPoly.IsNull()) { alreadymesh = Standard_False; break; } } else for (ex.Init(shape, TopAbs_EDGE); ex.More(); ex.Next()) { const TopoDS_Edge& edge = TopoDS::Edge(ex.Current()); Handle(Poly_Polygon3D) aPoly = BRep_Tool::Polygon3D(edge, aLoc); if(aPoly.IsNull()) { alreadymesh = Standard_False; break; } } if (alreadymesh) return; // Compute default deflection Bnd_Box B; BRepBndLib::Add(shape, B); Standard_Real aXmin, aYmin, aZmin, aXmax, aYmax, aZmax; B.Get(aXmin, aYmin, aZmin, aXmax, aYmax, aZmax); double deflection = Max( aXmax-aXmin, Max ( aYmax-aYmin, aZmax-aZmin)) * 0.01 *4; BRepMesh_IncrementalMesh MESH(shape,deflection); } // ----------------------------------------------------------------------- bool hasViewWindow() const { if ( !myViewWindow ) return false; if ( SalomeApp_Application* anApp = SMESHGUI::GetSMESHGUI()->getApp() ) return FindVtkViewWindow( anApp->getViewManager(SVTK_Viewer::Type(), false ), myViewWindow ); return false; } }; // ========================================================================================= /*! * \brief Return text describing an error */ #define CASE2TEXT(enum) case SMESH::enum: text = QObject::tr( #enum ); break; QString errorText(int errCode, const char* comment) { QString text; switch ( errCode ) { CASE2TEXT( COMPERR_OK ); CASE2TEXT( COMPERR_BAD_INPUT_MESH ); CASE2TEXT( COMPERR_STD_EXCEPTION ); CASE2TEXT( COMPERR_OCC_EXCEPTION ); case SMESH::COMPERR_SLM_EXCEPTION: break; // avoid double "Salome exception" CASE2TEXT( COMPERR_EXCEPTION ); CASE2TEXT( COMPERR_MEMORY_PB ); CASE2TEXT( COMPERR_BAD_SHAPE ); CASE2TEXT( COMPERR_CANCELED ); CASE2TEXT( COMPERR_NO_MESH_ON_SHAPE ); CASE2TEXT( COMPERR_BAD_PARMETERS ); case SMESH::COMPERR_ALGO_FAILED: if ( strlen(comment) == 0 ) text = QObject::tr("COMPERR_ALGO_FAILED"); break; case SMESH::COMPERR_WARNING: text = QObject::tr( (comment && strlen(comment)) ? "COMPERR_WARNING" : "COMPERR_UNKNOWN"); break; default: text = QString("#%1").arg( -errCode ); } if ( text.length() > 0 ) text += ". "; return text + comment; } // ----------------------------------------------------------------------- /*! * \brief Return SO of a sub-shape */ _PTR(SObject) getSubShapeSO( int subShapeID, GEOM::GEOM_Object_var aMainShape) { _PTR(SObject) so = SMESH::FindSObject(aMainShape); if ( subShapeID == 1 || !so ) return so; _PTR(ChildIterator) it; if (_PTR(Study) study = SMESH::GetActiveStudyDocument()) it = study->NewChildIterator(so); _PTR(SObject) subSO; if ( it ) { for ( it->InitEx(true); !subSO && it->More(); it->Next() ) { GEOM::GEOM_Object_var geom = SMESH::SObjectToInterface( it->Value() ); if ( !geom->_is_nil() ) { GEOM::ListOfLong_var list = geom->GetSubShapeIndices(); if ( list->length() == 1 && list[0] == subShapeID ) { GEOM::GEOM_Object_var mainGO = geom->GetMainShape(); if ( aMainShape->IsSame( mainGO )) subSO = it->Value(); } } } } return subSO; } // ----------------------------------------------------------------------- /*! * \brief Return sub-shape by ID. WARNING: UnRegister() must be called on a result */ GEOM::GEOM_Object_ptr getSubShape( int subShapeID, GEOM::GEOM_Object_var aMainShape) { GEOM::GEOM_Object_var aSubShape; if ( subShapeID == 1 ) { aSubShape = aMainShape; aSubShape->Register(); } else if ( _PTR(SObject) so = getSubShapeSO( subShapeID, aMainShape )) { aSubShape = SMESH::SObjectToInterface( so ); aSubShape->Register(); } else { aSubShape = SMESH::GetSubShape( aMainShape, subShapeID ); // future call of UnRegister() will delete a servant of this new object } return aSubShape._retn(); } // ----------------------------------------------------------------------- /*! * \brief Return shape type name */ #define CASE2NAME(enum) case GEOM::enum: name = QObject::tr( "GEOM_" #enum ); break; QString shapeTypeName(GEOM::GEOM_Object_var aShape, const char* dflt = "" ) { QString name = dflt; if ( !aShape->_is_nil() ) { switch ( aShape->GetShapeType() ) { CASE2NAME( VERTEX ); CASE2NAME( EDGE ); CASE2NAME( WIRE ); CASE2NAME( FACE ); CASE2NAME( SHELL ); CASE2NAME( SOLID ); CASE2NAME( COMPSOLID ); CASE2NAME( COMPOUND ); default:; } } return name; } // ----------------------------------------------------------------------- /*! * \brief Return text describing a sub-shape */ QString shapeText(int subShapeID, GEOM::GEOM_Object_var aMainShape ) { QString text; if ( _PTR(SObject) aSO = getSubShapeSO( subShapeID, aMainShape )) { text = aSO->GetName().c_str(); text += QString(" (%1)").arg( aSO->GetID().c_str() ); } else { text = QString("#%1").arg( subShapeID ); GEOM::GEOM_Object_wrap shape = getSubShape( subShapeID, aMainShape ); QString typeName = shapeTypeName( shape ); if ( typeName.length() ) text += QString(" (%1)").arg(typeName); } return text; } // ----------------------------------------------------------------------- /*! * \brief Return a list of selected rows */ int getSelectedRows(QTableWidget* table, QList& rows) { rows.clear(); QList selRanges = table->selectedRanges(); QTableWidgetSelectionRange range; foreach( range, selRanges ) { for ( int row = range.topRow(); row <= range.bottomRow(); ++row ) if ( !rows.count( row )) rows.append( row ); } if ( rows.isEmpty() && table->currentRow() > -1 ) if ( !rows.count( table->currentRow() )) rows.append( table->currentRow() ); return rows.count(); } } // namespace SMESH // ========================================================================================= /*! * \brief Dialog to compute a mesh and show computation errors */ //======================================================================= SMESHGUI_ComputeDlg::SMESHGUI_ComputeDlg( QWidget* parent, bool ForEval ) : SMESHGUI_Dialog( parent, false, true, Close | Help ) { QVBoxLayout* aDlgLay = new QVBoxLayout (mainFrame()); aDlgLay->setMargin( 0 ); aDlgLay->setSpacing( SPACING ); QFrame* aMainFrame = createMainFrame(mainFrame(),ForEval); aDlgLay->addWidget(aMainFrame); aDlgLay->setStretchFactor(aMainFrame, 1); } // ========================================================================================= /*! * \brief Destructor */ //======================================================================= SMESHGUI_ComputeDlg::~SMESHGUI_ComputeDlg() { } //======================================================================= // function : createMainFrame() // purpose : Create frame containing dialog's fields //======================================================================= QFrame* SMESHGUI_ComputeDlg::createMainFrame (QWidget* theParent, bool ForEval) { QFrame* aFrame = new QFrame(theParent); SUIT_ResourceMgr* rm = resourceMgr(); QPixmap iconCompute (rm->loadPixmap("SMESH", tr("ICON_COMPUTE"))); // constructor QGroupBox* aPixGrp; if(ForEval) { aPixGrp = new QGroupBox(tr("EVAL_DLG"), aFrame); } else { aPixGrp = new QGroupBox(tr("CONSTRUCTOR"), aFrame); } QButtonGroup* aBtnGrp = new QButtonGroup(this); QHBoxLayout* aPixGrpLayout = new QHBoxLayout(aPixGrp); aPixGrpLayout->setMargin(MARGIN); aPixGrpLayout->setSpacing(SPACING); QRadioButton* aRBut = new QRadioButton(aPixGrp); aRBut->setIcon(iconCompute); aRBut->setChecked(true); aPixGrpLayout->addWidget(aRBut); aBtnGrp->addButton(aRBut, 0); // Mesh name QGroupBox* nameBox = new QGroupBox(tr("SMESH_MESHINFO_NAME"), aFrame ); QHBoxLayout* nameBoxLayout = new QHBoxLayout(nameBox); nameBoxLayout->setMargin(MARGIN); nameBoxLayout->setSpacing(SPACING); myMeshName = new QLabel(nameBox); nameBoxLayout->addWidget(myMeshName); // Mesh Info myBriefInfo = new SMESHGUI_MeshInfosBox(false, aFrame); myFullInfo = new SMESHGUI_MeshInfosBox(true, aFrame); // Computation errors myCompErrorGroup = new QGroupBox(tr("ERRORS"), aFrame); myWarningLabel = new QLabel(QString("%1").arg(tr("COMPUTE_WARNING")), myCompErrorGroup); myTable = new QTableWidget( 1, NB_COLUMNS, myCompErrorGroup); myShowBtn = new QPushButton(tr("SHOW_SHAPE"), myCompErrorGroup); myPublishBtn = new QPushButton(tr("PUBLISH_SHAPE"), myCompErrorGroup); myBadMeshBtn = new QPushButton(tr("SHOW_BAD_MESH"), myCompErrorGroup); myBadMeshToGroupBtn = new QPushButton(tr("GROUP_OF_BAD_MESH"), myCompErrorGroup); //myTable->setReadOnly( true ); // VSR: check myTable->setEditTriggers( QAbstractItemView::NoEditTriggers ); myTable->hideColumn( COL_PUBLISHED ); myTable->hideColumn( COL_SHAPEID ); myTable->hideColumn( COL_BAD_MESH ); myTable->horizontalHeader()->setResizeMode( COL_ERROR, QHeaderView::Interactive ); myTable->setWordWrap( true ); myTable->horizontalHeader()->setStretchLastSection( true ); myTable->setMinimumWidth( 500 ); QStringList headers; headers << tr( "COL_ALGO_HEADER" ); headers << tr( "COL_SHAPE_HEADER" ); headers << tr( "COL_ERROR_HEADER" ); headers << tr( "COL_SHAPEID_HEADER" ); headers << tr( "COL_PUBLISHED_HEADER" ); myTable->setHorizontalHeaderLabels( headers ); // layouting QGridLayout* grpLayout = new QGridLayout(myCompErrorGroup); grpLayout->setSpacing(SPACING); grpLayout->setMargin(MARGIN); grpLayout->addWidget( myWarningLabel, 0, 0, 1, 4 ); grpLayout->addWidget( myTable, 1, 0, 1, 4 ); grpLayout->addWidget( myShowBtn, 2, 0 ); grpLayout->addWidget( myPublishBtn, 2, 1 ); grpLayout->addWidget( myBadMeshBtn, 2, 2 ); grpLayout->addWidget( myBadMeshToGroupBtn, 2, 3 ); grpLayout->setColumnStretch( 3, 1 ); // Hypothesis definition errors myHypErrorGroup = new QGroupBox(tr("SMESH_WRN_MISSING_PARAMETERS"), aFrame); QHBoxLayout* myHypErrorGroupLayout = new QHBoxLayout(myHypErrorGroup); myHypErrorGroupLayout->setMargin(MARGIN); myHypErrorGroupLayout->setSpacing(SPACING); myHypErrorLabel = new QLabel(myHypErrorGroup); myHypErrorGroupLayout->addWidget(myHypErrorLabel); // Memory Lack Label myMemoryLackGroup = new QGroupBox(tr("ERRORS"), aFrame); QVBoxLayout* myMemoryLackGroupLayout = new QVBoxLayout(myMemoryLackGroup); myMemoryLackGroupLayout->setMargin(MARGIN); myMemoryLackGroupLayout->setSpacing(SPACING); QLabel* memLackLabel = new QLabel(tr("MEMORY_LACK"), myMemoryLackGroup); QFont bold = memLackLabel->font(); bold.setBold(true); memLackLabel->setFont( bold ); memLackLabel->setMinimumWidth(300); myMemoryLackGroupLayout->addWidget(memLackLabel); // add all widgets to aFrame QVBoxLayout* aLay = new QVBoxLayout(aFrame); aLay->setMargin( MARGIN ); aLay->setSpacing( SPACING ); aLay->addWidget( aPixGrp ); aLay->addWidget( nameBox ); aLay->addWidget( myBriefInfo ); aLay->addWidget( myFullInfo ); aLay->addWidget( myHypErrorGroup ); aLay->addWidget( myCompErrorGroup ); aLay->addWidget( myMemoryLackGroup ); aLay->setStretchFactor( myCompErrorGroup, 1 ); ((QPushButton*) button( OK ))->setDefault( true ); return aFrame; } //================================================================================ /*! * \brief Constructor */ //================================================================================ SMESHGUI_BaseComputeOp::SMESHGUI_BaseComputeOp() : SMESHGUI_Operation(), myCompDlg( 0 ) { myTShapeDisplayer = new SMESH::TShapeDisplayer(); myBadMeshDisplayer = 0; //myHelpFileName = "/files/about_meshes.htm"; // V3 myHelpFileName = "about_meshes_page.html"; // V4 } SMESH::SMESH_Mesh_ptr SMESHGUI_BaseComputeOp::getMesh() { LightApp_SelectionMgr* Sel = selectionMgr(); SALOME_ListIO selected; Sel->selectedObjects( selected ); Handle(SALOME_InteractiveObject) anIO = selected.First(); SMESH::SMESH_Mesh_var aMesh = SMESH::GetMeshByIO(anIO); return myMesh->_is_nil() ? aMesh._retn() : SMESH::SMESH_Mesh::_duplicate( myMesh ); } //================================================================================ /*! * \brief Start operation * \purpose Init dialog fields, connect signals and slots, show dialog */ //================================================================================ void SMESHGUI_BaseComputeOp::startOperation() { // create compute dialog if not created before computeDlg(); myMesh = SMESH::SMESH_Mesh::_nil(); myMainShape = GEOM::GEOM_Object::_nil(); // check selection LightApp_SelectionMgr *Sel = selectionMgr(); SALOME_ListIO selected; Sel->selectedObjects( selected ); int nbSel = selected.Extent(); if (nbSel != 1) { SUIT_MessageBox::warning(desktop(), tr("SMESH_WRN_WARNING"), tr("SMESH_WRN_NO_AVAILABLE_DATA")); onCancel(); return; } myIObject = selected.First(); myMesh = SMESH::GetMeshByIO(myIObject); if (myMesh->_is_nil()) { SUIT_MessageBox::warning(desktop(), tr("SMESH_WRN_WARNING"), tr("SMESH_WRN_NO_AVAILABLE_DATA")); onCancel(); return; } myMainShape = myMesh->GetShapeToMesh(); SMESHGUI_Operation::startOperation(); } //================================================================================ //================================================================================ SMESHGUI_ComputeDlg_QThread::SMESHGUI_ComputeDlg_QThread(SMESH::SMESH_Gen_var gen, SMESH::SMESH_Mesh_var mesh, GEOM::GEOM_Object_var mainShape) { myResult = false; myGen = gen; myMesh = mesh; myMainShape = mainShape; } void SMESHGUI_ComputeDlg_QThread::run() { myResult = myGen->Compute(myMesh, myMainShape); } bool SMESHGUI_ComputeDlg_QThread::result() { return myResult; } void SMESHGUI_ComputeDlg_QThread::cancel() { myGen->CancelCompute(myMesh, myMainShape); } //================================================================================ //================================================================================ SMESHGUI_ComputeDlg_QThreadQDialog:: SMESHGUI_ComputeDlg_QThreadQDialog(QWidget * parent, SMESH::SMESH_Gen_var gen, SMESH::SMESH_Mesh_var mesh, GEOM::GEOM_Object_var mainShape) : QDialog(parent, Qt::WindowSystemMenuHint | Qt::WindowCloseButtonHint | Qt::Dialog | Qt::WindowMaximizeButtonHint), qthread(gen, mesh, mainShape) { // -- setWindowTitle(tr("TITLE")); setMinimumWidth( 200 ); cancelButton = new QPushButton(tr("CANCEL")); cancelButton->setDefault(true); cancelButton->setCheckable(true); QLabel * nbNodesName = new QLabel(tr("SMESH_MESHINFO_NODES"), this ); QLabel * nbElemsName = new QLabel(tr("SMESH_MESHINFO_ELEMENTS"), this ); nbNodesLabel = new QLabel("0", this ); nbElemsLabel = new QLabel("0", this ); #ifndef WIN32 QLabel * freeRAMName = new QLabel(tr("SMESH_FREERAM"), this ); freeRAMLabel = new QLabel("", this ); #endif progressBar = new QProgressBar(this); progressBar->setMinimum( 0 ); progressBar->setMaximum( 1000 ); QGridLayout* layout = new QGridLayout(this); layout->setMargin( MARGIN ); layout->setSpacing( SPACING ); int row = 0; layout->addWidget(nbNodesName, row, 0); layout->addWidget(nbNodesLabel, row++, 1); layout->addWidget(nbElemsName, row, 0); layout->addWidget(nbElemsLabel, row++, 1); #ifndef WIN32 layout->addWidget(freeRAMName, row, 0); layout->addWidget(freeRAMLabel, row++, 1); #endif layout->addWidget(progressBar, row++, 0, 1, 2); layout->addWidget(cancelButton, row++, 0, 1, 2); adjustSize(); update(); connect(cancelButton, SIGNAL(clicked()), this, SLOT(onCancel())); // -- startTimer(300); // millisecs qthread.start(); } bool SMESHGUI_ComputeDlg_QThreadQDialog::result() { return qthread.result(); } void SMESHGUI_ComputeDlg_QThreadQDialog::onCancel() { qthread.cancel(); cancelButton->setText( tr("CANCELING")); cancelButton->setEnabled(false); } void SMESHGUI_ComputeDlg_QThreadQDialog::timerEvent(QTimerEvent *event) { if ( !cancelButton->isChecked() ) // not yet cancelled progressBar->setValue( progressBar->maximum() * qthread.getMesh()->GetComputeProgress() ); if(qthread.isFinished()) { close(); } else { nbNodesLabel->setText( QString("%1").arg( qthread.getMesh()->NbNodes() )); nbElemsLabel->setText( QString("%1").arg( qthread.getMesh()->NbElements() )); #ifndef WIN32 struct sysinfo si; const int err = sysinfo( &si ); if ( err ) freeRAMLabel->setText(""); else freeRAMLabel->setText( tr("SMESH_GIGABYTE").arg ( si.freeram * si.mem_unit /1024./1024./1024., 0, 'f', 2 )); #endif } event->accept(); } void SMESHGUI_ComputeDlg_QThreadQDialog::closeEvent(QCloseEvent *event) { if(qthread.isRunning()) { event->ignore(); return; } event->accept(); } //================================================================================ /*! * \brief computeMesh() */ //================================================================================ void SMESHGUI_BaseComputeOp::computeMesh() { // COMPUTE MESH SMESH::MemoryReserve aMemoryReserve; SMESH::compute_error_array_var aCompErrors; QString aHypErrors; bool computeFailed = true, memoryLack = false; _PTR(SObject) aMeshSObj = SMESH::FindSObject(myMesh); if ( !aMeshSObj ) // IPAL 21340 return; bool hasShape = myMesh->HasShapeToMesh(); bool shapeOK = myMainShape->_is_nil() ? !hasShape : hasShape; if ( shapeOK ) { myCompDlg->myMeshName->setText( aMeshSObj->GetName().c_str() ); SMESH::SMESH_Gen_var gen = getSMESHGUI()->GetSMESHGen(); SMESH::algo_error_array_var errors = gen->GetAlgoState(myMesh,myMainShape); if ( errors->length() > 0 ) { aHypErrors = SMESH::GetMessageOnAlgoStateErrors( errors.in() ); } if ( myMesh->HasModificationsToDiscard() && // issue 0020693 SUIT_MessageBox::question( desktop(), tr( "SMESH_WARNING" ), tr( "FULL_RECOMPUTE_QUESTION" ), tr( "SMESH_BUT_YES" ), tr( "SMESH_BUT_NO" ), 1, 0 ) == 0 ) myMesh->Clear(); SUIT_OverrideCursor aWaitCursor; try { #if (OCC_VERSION_MAJOR << 16 | OCC_VERSION_MINOR << 8 | OCC_VERSION_MAINTENANCE) > 0x060100 OCC_CATCH_SIGNALS; #endif SMESHGUI_ComputeDlg_QThreadQDialog qthreaddialog(desktop(), gen, myMesh, myMainShape); qthreaddialog.exec(); computeFailed = !qthreaddialog.result(); } catch(const SALOME::SALOME_Exception & S_ex) { memoryLack = true; } try { #if (OCC_VERSION_MAJOR << 16 | OCC_VERSION_MINOR << 8 | OCC_VERSION_MAINTENANCE) > 0x060100 OCC_CATCH_SIGNALS; #endif aCompErrors = gen->GetComputeErrors( myMesh, myMainShape ); // check if there are memory problems for ( CORBA::ULong i = 0; (i < aCompErrors->length()) && !memoryLack; ++i ) memoryLack = ( aCompErrors[ i ].code == SMESH::COMPERR_MEMORY_PB ); } catch(const SALOME::SALOME_Exception & S_ex) { memoryLack = true; } if ( !memoryLack && !SMDS_Mesh::CheckMemory(true) ) { // has memory to show dialog boxes? memoryLack = true; } // NPAL16631: if ( !memoryLack ) { SMESH::ModifiedMesh( aMeshSObj, !computeFailed && aHypErrors.isEmpty(), myMesh->NbNodes() == 0); update( UF_ObjBrowser | UF_Model ); // SHOW MESH // NPAL16631: if ( getSMESHGUI()->automaticUpdate() ) SUIT_ResourceMgr* resMgr = SMESH::GetResourceMgr( SMESHGUI::GetSMESHGUI() ); bool limitExceeded; long limitSize = resMgr->integerValue( "SMESH", "update_limit", 500000 ); int entities = SMESH_Actor::eAllEntity; int hidden = 0; long nbElements = 0; if ( !memoryLack ) { // List of objects that will be updated automatically typedef QList< QPair< SMESH::SMESH_IDSource_var, _PTR(SObject) > > TListOf_IDSrc_SObj; TListOf_IDSrc_SObj aListToUpdate; SMESH::SMESH_IDSource_var aMeshObj = SMESH::SObjectToInterface( aMeshSObj ); // put Mesh into list aListToUpdate.append( TListOf_IDSrc_SObj::value_type( aMeshObj, aMeshSObj )); SMESH::submesh_array_var aSubMeshes = myMesh->GetSubMeshes(); // put SubMeshes into list for ( CORBA::ULong i = 0; i < aSubMeshes->length(); i++ ) { SMESH::SMESH_subMesh_var sm = aSubMeshes[i]; if ( CORBA::is_nil( sm ) ) continue; _PTR(SObject) smSObj = SMESH::ObjectToSObject( sm ); if ( !smSObj ) continue; SMESH::SMESH_IDSource_var aSubMeshObj = SMESH::SObjectToInterface( smSObj ); aListToUpdate.append( TListOf_IDSrc_SObj::value_type( aSubMeshObj, smSObj )); } // put Groups into list SMESH::ListOfGroups_var aGroups = myMesh->GetGroups(); for ( size_t i = 0; i < aGroups->length(); ++i ) { SMESH::SMESH_GroupBase_var aGrp = aGroups[i]; if ( CORBA::is_nil( aGrp ) ) continue; SMESH::SMESH_Group_var aStdGroup = SMESH::SMESH_Group::_narrow( aGrp ); SMESH::SMESH_GroupOnGeom_var aGeomGroup = SMESH::SMESH_GroupOnGeom::_narrow( aGrp ); SMESH::SMESH_GroupOnFilter_var aFltGroup = SMESH::SMESH_GroupOnFilter::_narrow( aGrp ); if ( !aStdGroup->_is_nil() ) continue; // don't update the standalone groups _PTR(SObject) aGroupSO = SMESH::FindSObject( aGrp ); if ( !aGroupSO ) continue; SMESH::SMESH_IDSource_var aGroupObj = SMESH::SObjectToInterface( aGroupSO ); aListToUpdate.append( TListOf_IDSrc_SObj::value_type( aGroupObj, aGroupSO )); } // update mesh, sub-mesh and groups, if it's possible TListOf_IDSrc_SObj::iterator anIter; for ( anIter = aListToUpdate.begin(); anIter != aListToUpdate.end(); anIter++ ) { SMESH::SMESH_Mesh_var aMesh = SMESH::SMESH_Mesh::_narrow( SMESH::SObjectToObject( (*anIter).second )); if ( getSMESHGUI()->automaticUpdate( (*anIter).first, &entities, &limitExceeded, &hidden, &nbElements ) ) { try { OCC_CATCH_SIGNALS; bool toDisplay = false; if ( !aMesh->_is_nil() ) // display only a mesh { toDisplay = true; SMESH_Actor *anActor = SMESH::FindActorByObject( aMesh ); if ( !anActor ) anActor = SMESH::CreateActor( (*anIter).second->GetStudy(), (*anIter).second->GetID().c_str(), /*clearLog =*/ true ); if ( anActor ) // actor is not created for an empty mesh { anActor->SetEntityMode( entities ); SMESH::DisplayActor( SMESH::GetActiveWindow(), anActor ); } } Handle(SALOME_InteractiveObject) anIO = new SALOME_InteractiveObject ( (*anIter).second->GetID().c_str(), "SMESH", (*anIter).second->GetName().c_str() ); SMESH::Update(anIO, toDisplay); if ( limitExceeded && !aMesh->_is_nil() ) { QStringList hiddenMsg; if ( hidden & SMESH_Actor::e0DElements ) hiddenMsg << tr( "SMESH_ELEMS0D" ); if ( hidden & SMESH_Actor::eEdges ) hiddenMsg << tr( "SMESH_EDGES" ); if ( hidden & SMESH_Actor::eFaces ) hiddenMsg << tr( "SMESH_FACES" ); if ( hidden & SMESH_Actor::eVolumes ) hiddenMsg << tr( "SMESH_VOLUMES" ); if ( hidden & SMESH_Actor::eBallElem ) hiddenMsg << tr( "SMESH_BALLS" ); SUIT_MessageBox::warning( desktop(), tr( "SMESH_WRN_WARNING" ), tr( "SMESH_WRN_SIZE_INC_LIMIT_EXCEEDED" ). arg( nbElements ). arg( limitSize ). arg( hiddenMsg.join(", "))); } } catch (...) { #ifdef _DEBUG_ MESSAGE ( "Exception thrown during mesh visualization" ); #endif if ( SMDS_Mesh::CheckMemory(true) ) { // has memory to show warning? SMESH::OnVisuException(); } else { memoryLack = true; } } } else if ( limitExceeded && !aMesh->_is_nil() ) { SUIT_MessageBox::warning( desktop(), tr( "SMESH_WRN_WARNING" ), tr( "SMESH_WRN_SIZE_LIMIT_EXCEEDED" ). arg( nbElements ).arg( limitSize ) ); } } } if ( LightApp_SelectionMgr *Sel = selectionMgr() ) { SALOME_ListIO selected; selected.Append( myIObject ); Sel->setSelectedObjects( selected ); } } } if ( memoryLack ) aMemoryReserve.release(); myCompDlg->setWindowTitle ( tr( computeFailed ? "SMESH_WRN_COMPUTE_FAILED" : "SMESH_COMPUTE_SUCCEED" )); // SHOW ERRORS bool noCompError = ( !aCompErrors.operator->() || aCompErrors->length() == 0 ); bool noHypoError = ( aHypErrors.isEmpty() ); SUIT_ResourceMgr* resMgr = SMESH::GetResourceMgr( SMESHGUI::GetSMESHGUI() ); int aNotifyMode = resMgr->integerValue( "SMESH", "show_result_notification" ); bool isShowResultDlg = true; switch( aNotifyMode ) { case 0: // show the mesh computation result dialog NEVER isShowResultDlg = false; commit(); break; case 1: // show the mesh computation result dialog if there are some errors if ( memoryLack || !noCompError || !noHypoError ) isShowResultDlg = true; else { isShowResultDlg = false; commit(); } break; default: // show the result dialog after each mesh computation isShowResultDlg = true; } // SHOW RESULTS if ( isShowResultDlg ) showComputeResult( memoryLack, noCompError,aCompErrors, noHypoError, aHypErrors ); } void SMESHGUI_BaseComputeOp::showComputeResult( const bool theMemoryLack, const bool theNoCompError, SMESH::compute_error_array_var& theCompErrors, const bool theNoHypoError, const QString& theHypErrors ) { bool hasShape = myMesh->HasShapeToMesh(); SMESHGUI_ComputeDlg* aCompDlg = computeDlg(); aCompDlg->myMemoryLackGroup->hide(); if ( theMemoryLack ) { aCompDlg->myMemoryLackGroup->show(); aCompDlg->myFullInfo->hide(); aCompDlg->myBriefInfo->hide(); aCompDlg->myHypErrorGroup->hide(); aCompDlg->myCompErrorGroup->hide(); } else if ( theNoCompError && theNoHypoError ) { SMESH::long_array_var aRes = myMesh->GetMeshInfo(); aCompDlg->myFullInfo->SetMeshInfo( aRes ); aCompDlg->myFullInfo->show(); aCompDlg->myBriefInfo->hide(); aCompDlg->myHypErrorGroup->hide(); aCompDlg->myCompErrorGroup->hide(); } else { bool onlyWarnings = !theNoCompError; // == valid mesh computed but there are errors reported for ( CORBA::ULong i = 0; i < theCompErrors->length() && onlyWarnings; ++i ) onlyWarnings = ( theCompErrors[ i ].code == SMESH::COMPERR_WARNING || theCompErrors[ i ].code == SMESH::COMPERR_NO_MESH_ON_SHAPE ); // full or brief mesh info SMESH::long_array_var aRes = myMesh->GetMeshInfo(); if ( onlyWarnings ) { aCompDlg->myFullInfo->SetMeshInfo( aRes ); aCompDlg->myFullInfo->show(); aCompDlg->myBriefInfo->hide(); } else { aCompDlg->myBriefInfo->SetMeshInfo( aRes ); aCompDlg->myBriefInfo->show(); aCompDlg->myFullInfo->hide(); } // pbs of hypo dfinitions if ( theNoHypoError ) { aCompDlg->myHypErrorGroup->hide(); } else { aCompDlg->myHypErrorGroup->show(); aCompDlg->myHypErrorLabel->setText( theHypErrors ); } // table of errors if ( theNoCompError ) { aCompDlg->myCompErrorGroup->hide(); } else { aCompDlg->myCompErrorGroup->show(); if ( onlyWarnings ) aCompDlg->myWarningLabel->show(); else aCompDlg->myWarningLabel->hide(); if ( !hasShape ) { aCompDlg->myPublishBtn->hide(); aCompDlg->myShowBtn->hide(); } else { aCompDlg->myPublishBtn->show(); aCompDlg->myShowBtn->show(); } // fill table of errors QTableWidget* tbl = aCompDlg->myTable; tbl->setRowCount( theCompErrors->length() ); if ( !hasShape ) tbl->hideColumn( COL_SHAPE ); else tbl->showColumn( COL_SHAPE ); tbl->setColumnWidth( COL_ERROR, 200 ); bool hasBadMesh = false; for ( int row = 0; row < (int) theCompErrors->length(); ++row ) { SMESH::ComputeError & err = theCompErrors[ row ]; QString text = err.algoName.in(); if ( !tbl->item( row, COL_ALGO ) ) tbl->setItem( row, COL_ALGO, new QTableWidgetItem( text ) ); else tbl->item( row, COL_ALGO )->setText( text ); text = SMESH::errorText( err.code, err.comment.in() ); if ( !tbl->item( row, COL_ERROR ) ) tbl->setItem( row, COL_ERROR, new QTableWidgetItem( text ) ); else tbl->item( row, COL_ERROR )->setText( text ); text = QString("%1").arg( err.subShapeID ); if ( !tbl->item( row, COL_SHAPEID ) ) tbl->setItem( row, COL_SHAPEID, new QTableWidgetItem( text ) ); else tbl->item( row, COL_SHAPEID )->setText( text ); text = hasShape ? SMESH::shapeText( err.subShapeID, myMainShape ) : QString(""); if ( !tbl->item( row, COL_SHAPE ) ) tbl->setItem( row, COL_SHAPE, new QTableWidgetItem( text ) ); else tbl->item( row, COL_SHAPE )->setText( text ); text = ( !hasShape || SMESH::getSubShapeSO( err.subShapeID, myMainShape )) ? "PUBLISHED" : ""; if ( !tbl->item( row, COL_PUBLISHED ) ) tbl->setItem( row, COL_PUBLISHED, new QTableWidgetItem( text ) ); else tbl->item( row, COL_PUBLISHED )->setText( text ); // if text=="", "PUBLISH" button enabled text = err.hasBadMesh ? "hasBadMesh" : ""; if ( !tbl->item( row, COL_BAD_MESH ) ) tbl->setItem( row, COL_BAD_MESH, new QTableWidgetItem( text ) ); else tbl->item( row, COL_BAD_MESH )->setText( text ); if ( err.hasBadMesh ) hasBadMesh = true; //tbl->item( row, COL_ERROR )->setWordWrap( true ); // VSR: TODO ??? tbl->resizeRowToContents( row ); } tbl->resizeColumnToContents( COL_ALGO ); tbl->resizeColumnToContents( COL_SHAPE ); tbl->setWordWrap( true ); if ( hasBadMesh ) { aCompDlg->myBadMeshBtn->show(); aCompDlg->myBadMeshToGroupBtn->show(); } else { aCompDlg->myBadMeshBtn->hide(); aCompDlg->myBadMeshToGroupBtn->hide(); } tbl->setCurrentCell(0,0); currentCellChanged(); // to update buttons } } // show dialog and wait, becase Compute can be invoked from Preview operation //aCompDlg->exec(); // this way it becomes modal - impossible to rotate model in the Viewer aCompDlg->show(); } //================================================================================ /*! * \brief Stops operation */ //================================================================================ void SMESHGUI_BaseComputeOp::stopOperation() { SMESHGUI_Operation::stopOperation(); if ( myTShapeDisplayer ) myTShapeDisplayer->SetVisibility( false ); if ( myBadMeshDisplayer ) { myBadMeshDisplayer->SetVisibility( false ); // delete it in order not to have problems at its destruction when the viewer // where it worked is dead due to e.g. study closing delete myBadMeshDisplayer; myBadMeshDisplayer = 0; } myIObject.Nullify(); } //================================================================================ /*! * \brief publish selected sub-shape */ //================================================================================ void SMESHGUI_BaseComputeOp::onPublishShape() { GEOM::GEOM_Gen_var geomGen = SMESH::GetGEOMGen(); SALOMEDS::Study_var study = SMESHGUI::GetSMESHGen()->GetCurrentStudy(); QStringList entryList; QList rows; SMESH::getSelectedRows( table(), rows ); int row; foreach ( row, rows ) { int curSub = table()->item(row, COL_SHAPEID)->text().toInt(); GEOM::GEOM_Object_wrap shape = SMESH::getSubShape( curSub, myMainShape ); if ( !shape->_is_nil() && ! SMESH::getSubShapeSO( curSub, myMainShape )) { if ( !SMESH::getSubShapeSO( 1, myMainShape )) // the main shape not published { QString name = GEOMBase::GetDefaultName( SMESH::shapeTypeName( myMainShape, "MAIN_SHAPE" )); SALOMEDS::SObject_wrap so = geomGen->AddInStudy( study, myMainShape, name.toLatin1().data(), GEOM::GEOM_Object::_nil()); // look for myMainShape in the table for ( int r = 0, nr = table()->rowCount(); r < nr; ++r ) { if ( table()->item( r, COL_SHAPEID )->text() == "1" ) { if ( so->_is_nil() ) { CORBA::String_var name = so->GetName(); CORBA::String_var entry = so->GetID(); QString shapeText = QString("%1 (%2)").arg( name.in() ).arg( entry.in() ); table()->item( r, COL_SHAPE )->setText( shapeText ); table()->item( r, COL_PUBLISHED )->setText( entry.in() ); } break; } } if ( curSub == 1 ) continue; } QString name = GEOMBase::GetDefaultName( SMESH::shapeTypeName( shape, "ERROR_SHAPE" )); SALOMEDS::SObject_wrap so = geomGen->AddInStudy( study, shape, name.toLatin1().data(), myMainShape); if ( !so->_is_nil() ) { CORBA::String_var name = so->GetName(); CORBA::String_var entry = so->GetID(); QString shapeText = QString("%1 (%2)").arg( name.in() ).arg( entry.in() ); table()->item( row, COL_SHAPE )->setText( shapeText ); table()->item( row, COL_PUBLISHED )->setText( entry.in() ); entryList.push_back( entry.in() ); } } } getSMESHGUI()->getApp()->updateObjectBrowser(); getSMESHGUI()->getApp()->browseObjects( entryList, /*isApplyAndClose=*/true ); currentCellChanged(); // to update buttons } //================================================================================ /*! * \brief show mesh elements preventing computation of a submesh of current row */ //================================================================================ void SMESHGUI_BaseComputeOp::onShowBadMesh() { myTShapeDisplayer->SetVisibility( false ); QList rows; if ( SMESH::getSelectedRows( table(), rows ) == 1 ) { bool hasBadMesh = ( !table()->item(rows.front(), COL_BAD_MESH)->text().isEmpty() ); if ( hasBadMesh ) { int curSub = table()->item(rows.front(), COL_SHAPEID)->text().toInt(); SMESHGUI* gui = getSMESHGUI(); SMESH::SMESH_Gen_var gen = gui->GetSMESHGen(); SVTK_ViewWindow* view = SMESH::GetViewWindow( gui ); if ( myBadMeshDisplayer ) delete myBadMeshDisplayer; myBadMeshDisplayer = new SMESHGUI_MeshEditPreview( view ); SMESH::MeshPreviewStruct_var aMeshData = gen->GetBadInputElements(myMesh,curSub); double aPointSize = SMESH::GetFloat("SMESH:node_size",3); double aLineWidth = SMESH::GetFloat("SMESH:element_width",1); vtkProperty* prop = vtkProperty::New(); prop->SetLineWidth( aLineWidth * 3 ); prop->SetPointSize( aPointSize * 3 ); prop->SetColor( 250, 0, 250 ); myBadMeshDisplayer->GetActor()->SetProperty( prop ); myBadMeshDisplayer->SetData( aMeshData._retn() ); prop->Delete(); } } } //================================================================================ /*! * \brief create groups of bad mesh elements preventing computation of a submesh of current row */ //================================================================================ void SMESHGUI_BaseComputeOp::onGroupOfBadMesh() { QList rows; SMESH::getSelectedRows( table(), rows ); int row; foreach ( row, rows ) { bool hasBadMesh = ( !table()->item(row, COL_BAD_MESH)->text().isEmpty() ); if ( hasBadMesh ) { int curSub = table()->item(rows.front(), COL_SHAPEID)->text().toInt(); QString grName = table()->item(rows.front(), COL_SHAPE)->text(); if ( grName.isEmpty() ) grName = "bad mesh"; else grName = "bad mesh of " + grName; SMESH::SMESH_Gen_var gen = getSMESHGUI()->GetSMESHGen(); SMESH::ListOfGroups_var groups ( gen->MakeGroupsOfBadInputElements(myMesh,curSub,grName.toLatin1().data()) ); update( UF_ObjBrowser | UF_Model ); if( LightApp_Application* anApp = dynamic_cast( application() )) { QStringList anEntryList; for ( size_t i = 0; i < groups->length(); ++i ) if ( _PTR(SObject) so = SMESH::FindSObject( groups[i] )) anEntryList.append( so->GetID().c_str() ); if ( !anEntryList.isEmpty()) anApp->browseObjects( anEntryList, true, false ); } } } } //================================================================================ /*! * \brief SLOT called when a selected cell in table() changed */ //================================================================================ void SMESHGUI_BaseComputeOp::currentCellChanged() { myTShapeDisplayer->SetVisibility( false ); if ( myBadMeshDisplayer ) myBadMeshDisplayer->SetVisibility( false ); bool publishEnable = 0, showEnable = 0, showOnly = 1, hasBadMesh = 0; QList rows; int nbSelected = SMESH::getSelectedRows( table(), rows ); int row; foreach ( row, rows ) { bool hasData = ( !table()->item( row, COL_SHAPE )->text().isEmpty() ); bool isPublished = ( !table()->item( row, COL_PUBLISHED )->text().isEmpty() ); if ( hasData && !isPublished ) publishEnable = true; int curSub = table()->item( row, COL_SHAPEID )->text().toInt(); bool prsReady = myTShapeDisplayer->HasReadyActorsFor( curSub, myMainShape ); if ( prsReady ) { myTShapeDisplayer->Show( curSub, myMainShape, showOnly ); showOnly = false; } else { showEnable = true; } if ( !table()->item(row, COL_BAD_MESH)->text().isEmpty() ) hasBadMesh = true; } myCompDlg->myPublishBtn->setEnabled( publishEnable ); myCompDlg->myShowBtn ->setEnabled( showEnable ); myCompDlg->myBadMeshBtn->setEnabled( hasBadMesh && ( nbSelected == 1 )); myCompDlg->myBadMeshToGroupBtn->setEnabled( hasBadMesh && ( nbSelected == 1 )); } //================================================================================ /*! * \brief update preview */ //================================================================================ void SMESHGUI_BaseComputeOp::onPreviewShape() { if ( myTShapeDisplayer ) { SUIT_OverrideCursor aWaitCursor; QList rows; SMESH::getSelectedRows( table(), rows ); bool showOnly = true; int row; foreach ( row, rows ) { int curSub = table()->item( row, COL_SHAPEID )->text().toInt(); if ( curSub > 0 ) { myTShapeDisplayer->Show( curSub, myMainShape, showOnly ); showOnly = false; } } currentCellChanged(); // to update buttons } } //================================================================================ /*! * \brief Destructor */ //================================================================================ SMESHGUI_BaseComputeOp::~SMESHGUI_BaseComputeOp() { delete myCompDlg; myCompDlg = 0; delete myTShapeDisplayer; if ( myBadMeshDisplayer ) delete myBadMeshDisplayer; } //================================================================================ /*! * \brief Gets dialog of compute operation * \retval SMESHGUI_ComputeDlg* - pointer to dialog of this operation */ //================================================================================ SMESHGUI_ComputeDlg* SMESHGUI_BaseComputeOp::computeDlg() const { if ( !myCompDlg ) { SMESHGUI_BaseComputeOp* me = (SMESHGUI_BaseComputeOp*)this; me->myCompDlg = new SMESHGUI_ComputeDlg( desktop(), false ); // connect signals and slots connect(myCompDlg->myShowBtn, SIGNAL (clicked()), SLOT(onPreviewShape())); connect(myCompDlg->myPublishBtn, SIGNAL (clicked()), SLOT(onPublishShape())); connect(myCompDlg->myBadMeshBtn, SIGNAL (clicked()), SLOT(onShowBadMesh())); connect(myCompDlg->myBadMeshToGroupBtn, SIGNAL (clicked()), SLOT(onGroupOfBadMesh())); QTableWidget* aTable = me->table(); connect(aTable, SIGNAL(itemSelectionChanged()), SLOT(currentCellChanged())); connect(aTable, SIGNAL(currentCellChanged(int,int,int,int)), SLOT(currentCellChanged())); } return myCompDlg; } //================================================================================ /*! * \brief returns from compute mesh result dialog */ //================================================================================ bool SMESHGUI_BaseComputeOp::onApply() { return true; } //================================================================================ /*! * \brief Return a table */ //================================================================================ QTableWidget* SMESHGUI_BaseComputeOp::table() { return myCompDlg->myTable; } //================================================================================ /*! * \brief Constructor */ //================================================================================ SMESHGUI_ComputeOp::SMESHGUI_ComputeOp() : SMESHGUI_BaseComputeOp() { myHelpFileName = "constructing_meshes_page.html#compute_anchor"; } //================================================================================ /*! * \brief Desctructor */ //================================================================================ SMESHGUI_ComputeOp::~SMESHGUI_ComputeOp() { } //================================================================================ /*! * \brief perform it's intention action: compute mesh */ //================================================================================ void SMESHGUI_ComputeOp::startOperation() { SMESHGUI_BaseComputeOp::startOperation(); if (myMesh->_is_nil()) return; computeMesh(); } //================================================================================ /*! * \brief check the same operations on the same mesh */ //================================================================================ bool SMESHGUI_BaseComputeOp::isValid( SUIT_Operation* theOp ) const { SMESHGUI_BaseComputeOp* baseOp = dynamic_cast( theOp ); bool ret = true; if ( !myMesh->_is_nil() && baseOp ) { SMESH::SMESH_Mesh_var aMesh = baseOp->getMesh(); if ( !aMesh->_is_nil() && aMesh->GetId() == myMesh->GetId() ) ret = false; } return ret; } //================================================================================ /*! * \brief Gets dialog of this operation * \retval LightApp_Dialog* - pointer to dialog of this operation */ //================================================================================ LightApp_Dialog* SMESHGUI_ComputeOp::dlg() const { return computeDlg(); } //================================================================================ /*! * \brief Constructor */ //================================================================================ SMESHGUI_PrecomputeOp::SMESHGUI_PrecomputeOp() : SMESHGUI_BaseComputeOp(), myActiveDlg( 0 ), myDlg( 0 ), myPreviewDisplayer( 0 ), myOrderMgr( 0 ) { } //================================================================================ /*! * \brief Destructor */ //================================================================================ SMESHGUI_PrecomputeOp::~SMESHGUI_PrecomputeOp() { delete myDlg; myDlg = 0; delete myOrderMgr; myOrderMgr = 0; myActiveDlg = 0; if ( myPreviewDisplayer ) delete myPreviewDisplayer; myPreviewDisplayer = 0; } //================================================================================ /*! * \brief Gets current dialog of this operation * \retval LightApp_Dialog* - pointer to dialog of this operation */ //================================================================================ LightApp_Dialog* SMESHGUI_PrecomputeOp::dlg() const { return myActiveDlg; } //================================================================================ /*! * \brief perform it's intention action: prepare data */ //================================================================================ void SMESHGUI_PrecomputeOp::startOperation() { myHelpFileName = "constructing_meshes_page.html#preview_anchor"; // other anchor onCompute() if ( !myDlg ) { myDlg = new SMESHGUI_PrecomputeDlg( desktop() ); // connect signals connect( myDlg, SIGNAL( preview() ), this, SLOT( onPreview() ) ); connect( myDlg, SIGNAL( dlgOk() ), this, SLOT( onCompute() ) ); connect( myDlg, SIGNAL( dlgApply() ), this, SLOT( onCompute() ) ); } myActiveDlg = myDlg; // connect signal to compute dialog. which will be shown after Compute mesh operation SMESHGUI_ComputeDlg* cmpDlg = computeDlg(); if ( cmpDlg ) { // disconnect signals disconnect( cmpDlg, SIGNAL( dlgOk() ), this, SLOT( onOk() ) ); disconnect( cmpDlg, SIGNAL( dlgApply() ), this, SLOT( onApply() ) ); disconnect( cmpDlg, SIGNAL( dlgCancel() ), this, SLOT( onCancel() ) ); disconnect( cmpDlg, SIGNAL( dlgClose() ), this, SLOT( onCancel() ) ); disconnect( cmpDlg, SIGNAL( dlgHelp() ), this, SLOT( onHelp() ) ); // connect signals if( cmpDlg->testButtonFlags( QtxDialog::OK ) ) connect( cmpDlg, SIGNAL( dlgOk() ), this, SLOT( onOk() ) ); if( cmpDlg->testButtonFlags( QtxDialog::Apply ) ) connect( cmpDlg, SIGNAL( dlgApply() ), this, SLOT( onApply() ) ); if( cmpDlg->testButtonFlags( QtxDialog::Help ) ) connect( cmpDlg, SIGNAL( dlgHelp() ), this, SLOT( onHelp() ) ); if( cmpDlg->testButtonFlags( QtxDialog::Cancel ) ) connect( cmpDlg, SIGNAL( dlgCancel() ), this, SLOT( onCancel() ) ); if( cmpDlg->testButtonFlags( QtxDialog::Close ) ) connect( cmpDlg, SIGNAL( dlgClose() ), this, SLOT( onCancel() ) ); } SMESHGUI_BaseComputeOp::startOperation(); if (myMesh->_is_nil()) return; if (myDlg->getPreviewMode() == -1) { // nothing to preview SUIT_MessageBox::warning(desktop(), tr("SMESH_WRN_WARNING"), tr("SMESH_WRN_NOTHING_PREVIEW")); onCancel(); return; } // disconnect slot from preview dialog to have Apply from results of compute operation only disconnect( myDlg, SIGNAL( dlgOk() ), this, SLOT( onOk() ) ); disconnect( myDlg, SIGNAL( dlgApply() ), this, SLOT( onApply() ) ); myDlg->show(); } //================================================================================ /*! * \brief Stops operation */ //================================================================================ void SMESHGUI_PrecomputeOp::stopOperation() { if ( myPreviewDisplayer ) { myPreviewDisplayer->SetVisibility( false ); delete myPreviewDisplayer; myPreviewDisplayer = 0; } myMapShapeId.clear(); SMESHGUI_BaseComputeOp::stopOperation(); } //================================================================================ /*! * \brief reinitialize dialog after operaiton become active again */ //================================================================================ void SMESHGUI_PrecomputeOp::resumeOperation() { if ( myActiveDlg == myDlg ) initDialog(); SMESHGUI_BaseComputeOp::resumeOperation(); } //================================================================================ /*! * \brief perform it's intention action: reinitialise dialog */ //================================================================================ void SMESHGUI_PrecomputeOp::initDialog() { QList modes; QMap modeMap; _PTR(SObject) pMesh = studyDS()->FindObjectID( myIObject->getEntry() ); getAssignedAlgos( pMesh, modeMap ); if ( modeMap.contains( SMESH::DIM_3D ) ) { if ( modeMap.contains( SMESH::DIM_2D ) ) modes.append( SMESH::DIM_2D ); if ( modeMap.contains( SMESH::DIM_1D ) ) modes.append( SMESH::DIM_1D ); } else if ( modeMap.contains( SMESH::DIM_2D ) ) { if ( modeMap.contains( SMESH::DIM_1D ) ) modes.append( SMESH::DIM_1D ); } myOrderMgr = new SMESHGUI_MeshOrderMgr( myDlg->getMeshOrderBox() ); myOrderMgr->SetMesh( myMesh ); bool isOrder = myOrderMgr->GetMeshOrder(myPrevOrder); myDlg->getMeshOrderBox()->setVisible(isOrder); if ( !isOrder ) { delete myOrderMgr; myOrderMgr = 0; } myDlg->setPreviewModes( modes ); } //================================================================================ /*! * \brief detect asigned mesh algorithms */ //================================================================================ void SMESHGUI_PrecomputeOp::getAssignedAlgos(_PTR(SObject) theMesh, QMap& theModeMap) { if ( !theMesh ) return; _PTR(SObject) aHypFolder; _PTR(GenericAttribute) anAttr; int aPart = SMESH::Tag_RefOnAppliedAlgorithms; if ( theMesh->FindSubObject( aPart, aHypFolder ) ) { _PTR(ChildIterator) anIter = SMESH::GetActiveStudyDocument()->NewChildIterator( aHypFolder ); for ( ; anIter->More(); anIter->Next() ) { _PTR(SObject) anObj = anIter->Value(); _PTR(SObject) aRefObj; if ( anObj->ReferencedObject( aRefObj ) ) anObj = aRefObj; else continue; if ( anObj->FindAttribute( anAttr, "AttributeName" ) ) { CORBA::Object_var aVar = _CAST(SObject,anObj)->GetObject(); if ( CORBA::is_nil( aVar ) ) continue; SMESH::SMESH_Algo_var algo; for( int dim = SMESH::DIM_1D; dim <= SMESH::DIM_3D; dim++ ) { switch(dim) { case SMESH::DIM_1D: algo = SMESH::SMESH_1D_Algo::_narrow( aVar ); break; case SMESH::DIM_2D: algo = SMESH::SMESH_2D_Algo::_narrow( aVar ); break; case SMESH::DIM_3D: algo = SMESH::SMESH_3D_Algo::_narrow( aVar ); break; default: break; } if ( !algo->_is_nil() ) { theModeMap[ dim ] = 0; if ( theModeMap.size() == 3 ) return; break; } } } } } // check sub-meshes for ( aPart = SMESH::Tag_SubMeshOnEdge; aPart <= SMESH::Tag_LastSubMesh; ++aPart ) { if ( !theMesh->FindSubObject( aPart, aHypFolder )) continue; _PTR(ChildIterator) anIter = SMESH::GetActiveStudyDocument()->NewChildIterator( aHypFolder ); for ( anIter->InitEx(true); anIter->More(); anIter->Next() ) { _PTR(SObject) anObj = anIter->Value(); _PTR(SObject) aRefObj; if ( anObj->ReferencedObject( aRefObj ) ) anObj = aRefObj; else continue; if ( anObj->FindAttribute( anAttr, "AttributeName" )) { CORBA::Object_var aVar = _CAST(SObject,anObj)->GetObject(); if ( CORBA::is_nil( aVar ) ) continue; SMESH::SMESH_Algo_var algo; for( int dim = SMESH::DIM_1D; dim <= SMESH::DIM_3D; dim++ ) { switch(dim) { case SMESH::DIM_1D: algo = SMESH::SMESH_1D_Algo::_narrow( aVar ); break; case SMESH::DIM_2D: algo = SMESH::SMESH_2D_Algo::_narrow( aVar ); break; case SMESH::DIM_3D: algo = SMESH::SMESH_3D_Algo::_narrow( aVar ); break; default: break; } if ( !algo->_is_nil() ) { theModeMap[ dim ] = 0; if ( theModeMap.size() == 3 ) return; break; } } } } } } //================================================================================ /*! * \brief perform it's intention action: compute mesh */ //================================================================================ void SMESHGUI_PrecomputeOp::onCompute() { myDlg->hide(); if (myOrderMgr && myOrderMgr->IsOrderChanged()) myOrderMgr->SetMeshOrder(); myMapShapeId.clear(); myActiveDlg = computeDlg(); myHelpFileName = "constructing_meshes_page.html#compute_anchor"; computeMesh(); } //================================================================================ /*! * \brief perform it's intention action: compute mesh */ //================================================================================ void SMESHGUI_PrecomputeOp::onCancel() { QObject* curDlg = sender(); if ( curDlg == computeDlg() && myActiveDlg == myDlg ) { // return from error messages myDlg->show(); return; } bool isRestoreOrder = false; if ( myActiveDlg == myDlg && !myMesh->_is_nil() && myMapShapeId.count() ) { // ask to remove already computed mesh elements if ( SUIT_MessageBox::question( desktop(), tr( "SMESH_WARNING" ), tr( "CLEAR_SUBMESH_QUESTION" ), tr( "SMESH_BUT_DELETE" ), tr( "SMESH_BUT_NO" ), 0, 1 ) == 0 ) { // remove all submeshes for collected shapes QMap::const_iterator it = myMapShapeId.constBegin(); for ( ; it != myMapShapeId.constEnd(); ++it ) myMesh->ClearSubMesh( it.key() ); isRestoreOrder = true; } } // return previous mesh order if (myOrderMgr && myOrderMgr->IsOrderChanged()) { if (!isRestoreOrder) isRestoreOrder = (SUIT_MessageBox::question( desktop(), tr( "SMESH_WARNING" ), tr( "SMESH_REJECT_MESH_ORDER" ), tr( "SMESH_BUT_YES" ), tr( "SMESH_BUT_NO" ), 0, 1 ) == 0); if (isRestoreOrder) myOrderMgr->SetMeshOrder(myPrevOrder); } delete myOrderMgr; myOrderMgr = 0; myMapShapeId.clear(); SMESHGUI_BaseComputeOp::onCancel(); } //================================================================================ /*! * \brief perform it's intention action: preview mesh */ //================================================================================ void SMESHGUI_PrecomputeOp::onPreview() { if ( !myDlg || myMesh->_is_nil() || myMainShape->_is_nil() ) return; _PTR(SObject) aMeshSObj = SMESH::FindSObject(myMesh); if ( !aMeshSObj ) return; // set modified submesh priority if any if (myOrderMgr && myOrderMgr->IsOrderChanged()) myOrderMgr->SetMeshOrder(); // Compute preview of mesh, // i.e. compute mesh till indicated dimension int dim = myDlg->getPreviewMode(); SMESH::MemoryReserve aMemoryReserve; SMESH::compute_error_array_var aCompErrors; QString aHypErrors; bool computeFailed = true, memoryLack = false; SMESHGUI_ComputeDlg* aCompDlg = computeDlg(); aCompDlg->myMeshName->setText( aMeshSObj->GetName().c_str() ); SMESHGUI* gui = getSMESHGUI(); SMESH::SMESH_Gen_var gen = gui->GetSMESHGen(); SMESH::algo_error_array_var errors = gen->GetAlgoState(myMesh,myMainShape); if ( errors->length() > 0 ) { aHypErrors = SMESH::GetMessageOnAlgoStateErrors( errors.in() ); } SUIT_OverrideCursor aWaitCursor; SVTK_ViewWindow* view = SMESH::GetViewWindow( gui ); if ( myPreviewDisplayer ) delete myPreviewDisplayer; myPreviewDisplayer = new SMESHGUI_MeshEditPreview( view ); SMESH::long_array_var aShapesId = new SMESH::long_array(); try { #if (OCC_VERSION_MAJOR << 16 | OCC_VERSION_MINOR << 8 | OCC_VERSION_MAINTENANCE) > 0x060100 OCC_CATCH_SIGNALS; #endif SMESH::MeshPreviewStruct_var previewData = gen->Precompute(myMesh, myMainShape, (SMESH::Dimension)dim, aShapesId); SMESH::MeshPreviewStruct* previewRes = previewData._retn(); if ( previewRes && previewRes->nodesXYZ.length() > 0 ) { computeFailed = false; myPreviewDisplayer->SetData( previewRes ); // append shape indeces with computed mesh entities for ( int i = 0, n = aShapesId->length(); i < n; i++ ) myMapShapeId[ aShapesId[ i ] ] = 0; } else myPreviewDisplayer->SetVisibility(false); } catch(const SALOME::SALOME_Exception & S_ex){ memoryLack = true; myPreviewDisplayer->SetVisibility(false); } try { #if (OCC_VERSION_MAJOR << 16 | OCC_VERSION_MINOR << 8 | OCC_VERSION_MAINTENANCE) > 0x060100 OCC_CATCH_SIGNALS; #endif aCompErrors = gen->GetComputeErrors( myMesh, myMainShape ); // check if there are memory problems for ( CORBA::ULong i = 0; (i < aCompErrors->length()) && !memoryLack; ++i ) memoryLack = ( aCompErrors[ i ].code == SMESH::COMPERR_MEMORY_PB ); } catch(const SALOME::SALOME_Exception & S_ex){ memoryLack = true; } if ( memoryLack ) aMemoryReserve.release(); bool noCompError = ( !aCompErrors.operator->() || aCompErrors->length() == 0 ); bool noHypoError = ( aHypErrors.isEmpty() ); SUIT_ResourceMgr* resMgr = SMESH::GetResourceMgr( gui ); int aNotifyMode = resMgr->integerValue( "SMESH", "show_result_notification" ); bool isShowError = true; switch( aNotifyMode ) { case 0: // show the mesh computation result dialog NEVER isShowError = false; break; case 1: // show the mesh computation result dialog if there are some errors default: // show the result dialog after each mesh computation if ( !computeFailed && !memoryLack && noCompError && noHypoError ) isShowError = false; break; } aWaitCursor.suspend(); // SHOW ERRORS if ( isShowError ) { myDlg->hide(); aCompDlg->setWindowTitle ( tr( computeFailed ? "SMESH_WRN_COMPUTE_FAILED" : "SMESH_COMPUTE_SUCCEED" )); showComputeResult( memoryLack, noCompError, aCompErrors, noHypoError, aHypErrors ); } } //================================================================================ /*! * \brief Constructor */ //================================================================================ SMESHGUI_PrecomputeDlg::SMESHGUI_PrecomputeDlg( QWidget* parent ) : SMESHGUI_Dialog( parent, false, false, OK | Cancel | Help ), myOrderBox(0) { setWindowTitle( tr( "CAPTION" ) ); setButtonText( OK, tr( "COMPUTE" ) ); QFrame* main = mainFrame(); main->setMinimumWidth( 300 ); QVBoxLayout* layout = new QVBoxLayout( main ); myOrderBox = new SMESHGUI_MeshOrderBox( main ); layout->addWidget(myOrderBox); QFrame* frame = new QFrame( main ); layout->setMargin(0); layout->setSpacing(0); layout->addWidget( frame ); QHBoxLayout* frameLay = new QHBoxLayout( frame ); frameLay->setMargin(0); frameLay->setSpacing(SPACING); myPreviewMode = new QtxComboBox( frame ); frameLay->addWidget( myPreviewMode ); myPreviewBtn = new QPushButton( tr( "PREVIEW" ), frame ); frameLay->addWidget( myPreviewBtn ); connect( myPreviewBtn, SIGNAL( clicked( bool ) ), this, SIGNAL( preview() ) ); } //================================================================================ /*! * \brief Destructor */ //================================================================================ SMESHGUI_PrecomputeDlg::~SMESHGUI_PrecomputeDlg() { } //================================================================================ /*! * \brief Sets available preview modes */ //================================================================================ void SMESHGUI_PrecomputeDlg::setPreviewModes( const QList& theModes ) { myPreviewMode->clear(); QList::const_iterator it = theModes.constBegin(); for ( int i = 0; it != theModes.constEnd(); ++it, i++ ) { QString mode = QString( "PREVIEW_%1" ).arg( *it ); myPreviewMode->addItem( tr( mode.toLatin1().data() ) ); myPreviewMode->setId( i, *it ); } myPreviewBtn->setEnabled( !theModes.isEmpty() ); } //================================================================================ /*! * \brief Returns current preview mesh mode */ //================================================================================ int SMESHGUI_PrecomputeDlg::getPreviewMode() const { return myPreviewMode->currentId(); } //================================================================================ /*! * \brief Returns current preview mesh mode */ //================================================================================ SMESHGUI_MeshOrderBox* SMESHGUI_PrecomputeDlg::getMeshOrderBox() const { return myOrderBox; } //================================================================================ /*! * \brief Constructor */ //================================================================================ SMESHGUI_EvaluateOp::SMESHGUI_EvaluateOp() : SMESHGUI_BaseComputeOp() { myHelpFileName = "constructing_meshes_page.html#evaluate_anchor"; } //================================================================================ /*! * \brief Desctructor */ //================================================================================ SMESHGUI_EvaluateOp::~SMESHGUI_EvaluateOp() { } //================================================================================ /*! * \brief perform it's intention action: compute mesh */ //================================================================================ void SMESHGUI_EvaluateOp::startOperation() { SMESHGUI_BaseComputeOp::evaluateDlg(); SMESHGUI_BaseComputeOp::startOperation(); if (myMesh->_is_nil()) return; evaluateMesh(); } //================================================================================ /*! * \brief Gets dialog of this operation * \retval LightApp_Dialog* - pointer to dialog of this operation */ //================================================================================ LightApp_Dialog* SMESHGUI_EvaluateOp::dlg() const { return evaluateDlg(); } //================================================================================ /*! * \brief evaluateMesh() */ //================================================================================ void SMESHGUI_BaseComputeOp::evaluateMesh() { // EVALUATE MESH SMESH::MemoryReserve aMemoryReserve; SMESH::compute_error_array_var aCompErrors; QString aHypErrors; bool evaluateFailed = true, memoryLack = false; SMESH::long_array_var aRes; _PTR(SObject) aMeshSObj = SMESH::FindSObject(myMesh); if ( !aMeshSObj ) // IPAL21340 return; bool hasShape = myMesh->HasShapeToMesh(); bool shapeOK = myMainShape->_is_nil() ? !hasShape : hasShape; if ( shapeOK ) { myCompDlg->myMeshName->setText( aMeshSObj->GetName().c_str() ); SMESH::SMESH_Gen_var gen = getSMESHGUI()->GetSMESHGen(); SMESH::algo_error_array_var errors = gen->GetAlgoState(myMesh,myMainShape); if ( errors->length() > 0 ) { aHypErrors = SMESH::GetMessageOnAlgoStateErrors( errors.in() ); } SUIT_OverrideCursor aWaitCursor; try { #if (OCC_VERSION_MAJOR << 16 | OCC_VERSION_MINOR << 8 | OCC_VERSION_MAINTENANCE) > 0x060100 OCC_CATCH_SIGNALS; #endif aRes = gen->Evaluate(myMesh, myMainShape); } catch(const SALOME::SALOME_Exception & S_ex){ memoryLack = true; } try { #if (OCC_VERSION_MAJOR << 16 | OCC_VERSION_MINOR << 8 | OCC_VERSION_MAINTENANCE) > 0x060100 OCC_CATCH_SIGNALS; #endif aCompErrors = gen->GetComputeErrors( myMesh, myMainShape ); } catch(const SALOME::SALOME_Exception & S_ex){ memoryLack = true; } } if ( memoryLack ) aMemoryReserve.release(); evaluateFailed = ( aCompErrors->length() > 0 ); myCompDlg->setWindowTitle ( tr( evaluateFailed ? "SMESH_WRN_EVALUATE_FAILED" : "SMESH_EVALUATE_SUCCEED" )); // SHOW ERRORS bool noCompError = ( !aCompErrors.operator->() || aCompErrors->length() == 0 ); bool noHypoError = ( aHypErrors.isEmpty() ); //SUIT_ResourceMgr* resMgr = SMESH::GetResourceMgr( SMESHGUI::GetSMESHGUI() ); //int aNotifyMode = resMgr->integerValue( "SMESH", "show_result_notification" ); bool isShowResultDlg = true; //if( noHypoError ) //switch( aNotifyMode ) { //case 0: // show the mesh computation result dialog NEVER //isShowResultDlg = false; //commit(); //break; //case 1: // show the mesh computation result dialog if there are some errors //if ( memoryLack || !noHypoError ) // isShowResultDlg = true; //else //{ // isShowResultDlg = false; // commit(); //} //break; //default: // show the result dialog after each mesh computation //isShowResultDlg = true; //} // SHOW RESULTS if ( isShowResultDlg ) showEvaluateResult( aRes, memoryLack, noCompError, aCompErrors, noHypoError, aHypErrors); } void SMESHGUI_BaseComputeOp::showEvaluateResult(const SMESH::long_array& theRes, const bool theMemoryLack, const bool theNoCompError, SMESH::compute_error_array_var& theCompErrors, const bool theNoHypoError, const QString& theHypErrors) { bool hasShape = myMesh->HasShapeToMesh(); SMESHGUI_ComputeDlg* aCompDlg = evaluateDlg(); aCompDlg->myMemoryLackGroup->hide(); if ( theMemoryLack ) { aCompDlg->myMemoryLackGroup->show(); aCompDlg->myFullInfo->hide(); aCompDlg->myBriefInfo->hide(); aCompDlg->myHypErrorGroup->hide(); aCompDlg->myCompErrorGroup->hide(); } else if ( theNoCompError && theNoHypoError ) { aCompDlg->myFullInfo->SetMeshInfo( theRes ); aCompDlg->myFullInfo->show(); aCompDlg->myBriefInfo->hide(); aCompDlg->myHypErrorGroup->hide(); aCompDlg->myCompErrorGroup->hide(); } else { QTableWidget* tbl = aCompDlg->myTable; aCompDlg->myBriefInfo->SetMeshInfo( theRes ); aCompDlg->myBriefInfo->show(); aCompDlg->myFullInfo->hide(); if ( theNoHypoError ) { aCompDlg->myHypErrorGroup->hide(); } else { aCompDlg->myHypErrorGroup->show(); aCompDlg->myHypErrorLabel->setText( theHypErrors ); } if ( theNoCompError ) { aCompDlg->myCompErrorGroup->hide(); } else { aCompDlg->myCompErrorGroup->show(); aCompDlg->myPublishBtn->hide(); aCompDlg->myShowBtn->hide(); // fill table of errors tbl->setRowCount( theCompErrors->length() ); if ( !hasShape ) tbl->hideColumn( COL_SHAPE ); else tbl->showColumn( COL_SHAPE ); tbl->setColumnWidth( COL_ERROR, 200 ); bool hasBadMesh = false; for ( int row = 0; row < (int) theCompErrors->length(); ++row ) { SMESH::ComputeError & err = theCompErrors[ row ]; QString text = err.algoName.in(); if ( !tbl->item( row, COL_ALGO ) ) tbl->setItem( row, COL_ALGO, new QTableWidgetItem( text ) ); else tbl->item( row, COL_ALGO )->setText( text ); text = SMESH::errorText( err.code, err.comment.in() ); if ( !tbl->item( row, COL_ERROR ) ) tbl->setItem( row, COL_ERROR, new QTableWidgetItem( text ) ); else tbl->item( row, COL_ERROR )->setText( text ); text = QString("%1").arg( err.subShapeID ); if ( !tbl->item( row, COL_SHAPEID ) ) tbl->setItem( row, COL_SHAPEID, new QTableWidgetItem( text ) ); else tbl->item( row, COL_SHAPEID )->setText( text ); text = hasShape ? SMESH::shapeText( err.subShapeID, myMainShape ) : QString(""); if ( !tbl->item( row, COL_SHAPE ) ) tbl->setItem( row, COL_SHAPE, new QTableWidgetItem( text ) ); else tbl->item( row, COL_SHAPE )->setText( text ); text = ( !hasShape || SMESH::getSubShapeSO( err.subShapeID, myMainShape )) ? "PUBLISHED" : ""; if ( !tbl->item( row, COL_PUBLISHED ) ) tbl->setItem( row, COL_PUBLISHED, new QTableWidgetItem( text ) ); else tbl->item( row, COL_PUBLISHED )->setText( text ); // if text=="", "PUBLISH" button enabled text = err.hasBadMesh ? "hasBadMesh" : ""; if ( !tbl->item( row, COL_BAD_MESH ) ) tbl->setItem( row, COL_BAD_MESH, new QTableWidgetItem( text ) ); else tbl->item( row, COL_BAD_MESH )->setText( text ); if ( err.hasBadMesh ) hasBadMesh = true; //tbl->item( row, COL_ERROR )->setWordWrap( true ); // VSR: TODO ??? tbl->resizeRowToContents( row ); } tbl->resizeColumnToContents( COL_ALGO ); tbl->resizeColumnToContents( COL_SHAPE ); tbl->setWordWrap( true ); if ( hasBadMesh ) { aCompDlg->myBadMeshBtn->show(); aCompDlg->myBadMeshToGroupBtn->show(); } else { aCompDlg->myBadMeshBtn->hide(); aCompDlg->myBadMeshToGroupBtn->hide(); } tbl->setCurrentCell(0,0); currentCellChanged(); // to update buttons } } // show dialog and wait, becase Compute can be invoked from Preview operation //aCompDlg->exec(); // this way it becomes modal - impossible to rotate model in the Viewer aCompDlg->show(); } //================================================================================ /*! * \brief Gets dialog of evaluate operation * \retval SMESHGUI_ComputeDlg* - pointer to dialog of this operation */ //================================================================================ SMESHGUI_ComputeDlg* SMESHGUI_BaseComputeOp::evaluateDlg() const { if ( !myCompDlg ) { SMESHGUI_BaseComputeOp* me = (SMESHGUI_BaseComputeOp*)this; me->myCompDlg = new SMESHGUI_ComputeDlg( desktop(), true ); // connect signals and slots connect(myCompDlg->myShowBtn, SIGNAL (clicked()), SLOT(onPreviewShape())); connect(myCompDlg->myPublishBtn, SIGNAL (clicked()), SLOT(onPublishShape())); connect(myCompDlg->myBadMeshBtn, SIGNAL (clicked()), SLOT(onShowBadMesh())); QTableWidget* aTable = me->table(); connect(aTable, SIGNAL(itemSelectionChanged()), SLOT(currentCellChanged())); connect(aTable, SIGNAL(currentCellChanged(int,int,int,int)), SLOT(currentCellChanged())); } return myCompDlg; }