#include "SMESHGUI_GEOMGenUtils.h"
#include "SMESHGUI_MeshUtils.h"
#include "SMESHGUI_VTKUtils.h"
+#include "SMESHGUI_MeshInfosBox.h"
#include "SMESHGUI_HypothesesUtils.h"
#include "SMESHGUI_MeshEditPreview.h"
#include "SMESH_ActorUtils.h"
} // namespace SMESH
-// =========================================================================================
-/*!
- * \brief Box showing mesh info
- */
-// =========================================================================================
-
-SMESHGUI_MeshInfosBox::SMESHGUI_MeshInfosBox(const bool full, QWidget* theParent)
- : QGroupBox( tr("SMESH_MESHINFO_TITLE"), theParent ), myFull( full )
-{
- QGridLayout* l = new QGridLayout(this);
- l->setMargin( MARGIN );
- l->setSpacing( SPACING );
-
- QFont italic = font(); italic.setItalic(true);
- QFont bold = font(); bold.setBold(true);
-
- QLabel* lab;
- int row = 0;
-
- // title
- lab = new QLabel( this );
- lab->setMinimumWidth(100); lab->setFont( italic );
- l->addWidget( lab, row, 0 );
- // --
- lab = new QLabel(tr("SMESH_MESHINFO_ORDER0"), this );
- lab->setMinimumWidth(100); lab->setFont( italic );
- l->addWidget( lab, row, 1 );
- // --
- lab = new QLabel(tr("SMESH_MESHINFO_ORDER1"), this );
- lab->setMinimumWidth(100); lab->setFont( italic );
- l->addWidget( lab, row, 2 );
- // --
- lab = new QLabel(tr("SMESH_MESHINFO_ORDER2"), this );
- lab->setMinimumWidth(100); lab->setFont( italic );
- l->addWidget( lab, row, 3 );
-
- if ( myFull )
- {
- // nodes
- row = l->rowCount(); // retrieve current row count
- // --
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_NODES")), this );
- lab->setFont( bold );
- l->addWidget( lab, row, 0 );
- // --
- myNbNode = new QLabel( this );
- l->addWidget( myNbNode, row, 1 );
-
- addSeparator(this); // add separator
-
- // edges
- row = l->rowCount(); // retrieve current row count
- // --
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_EDGES")), this );
- lab->setFont( bold );
- l->addWidget( lab, row, 0 );
- // --
- myNbEdge = new QLabel( this );
- l->addWidget( myNbEdge, row, 1 );
- // --
- myNbLinEdge = new QLabel( this );
- l->addWidget( myNbLinEdge, row, 2 );
- // --
- myNbQuadEdge = new QLabel( this );
- l->addWidget( myNbQuadEdge, row, 3 );
-
- addSeparator(this); // add separator
-
- // faces
- row = l->rowCount(); // retrieve current row count
- // --
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_FACES")), this);
- lab->setFont( bold );
- l->addWidget( lab, row, 0 );
- // --
- myNbFace = new QLabel( this );
- l->addWidget( myNbFace, row, 1 );
- // --
- myNbLinFace = new QLabel( this );
- l->addWidget( myNbLinFace, row, 2 );
- // --
- myNbQuadFace = new QLabel( this );
- l->addWidget( myNbQuadFace, row, 3 );
- // --
- row++; // increment row count
- // ... triangles
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_TRIANGLES")), this );
- l->addWidget( lab, row, 0 );
- // --
- myNbTrai = new QLabel( this );
- l->addWidget( myNbTrai, row, 1 );
- // --
- myNbLinTrai = new QLabel( this );
- l->addWidget( myNbLinTrai, row, 2 );
- // --
- myNbQuadTrai = new QLabel( this );
- l->addWidget( myNbQuadTrai, row, 3 );
- // --
- row++; // increment row count
- // ... quadrangles
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_QUADRANGLES")), this );
- l->addWidget( lab, row, 0 );
- // --
- myNbQuad = new QLabel( this );
- l->addWidget( myNbQuad, row, 1 );
- // --
- myNbLinQuad = new QLabel( this );
- l->addWidget( myNbLinQuad, row, 2 );
- // --
- myNbQuadQuad = new QLabel( this );
- l->addWidget( myNbQuadQuad, row, 3 );
- // --
- row++; // increment row count
- // ... poligones
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_POLYGONES")), this );
- l->addWidget( lab, row, 0 );
- myNbPolyg = new QLabel( this );
- l->addWidget( myNbPolyg, row, 1 );
-
- addSeparator(this); // add separator
-
- // volumes
- row = l->rowCount(); // retrieve current row count
- // --
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_VOLUMES")), this);
- lab->setFont( bold );
- l->addWidget( lab, row, 0 );
- // --
- myNbVolum = new QLabel( this );
- l->addWidget( myNbVolum, row, 1 );
- // --
- myNbLinVolum = new QLabel( this );
- l->addWidget( myNbLinVolum, row, 2 );
- // --
- myNbQuadVolum = new QLabel( this );
- l->addWidget( myNbQuadVolum, row, 3 );
- // --
- row++; // increment row count
- // ... tetras
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_TETRAS")), this );
- l->addWidget( lab, row, 0 );
- // --
- myNbTetra = new QLabel( this );
- l->addWidget( myNbTetra, row, 1 );
- // --
- myNbLinTetra = new QLabel( this );
- l->addWidget( myNbLinTetra, row, 2 );
- // --
- myNbQuadTetra = new QLabel( this );
- l->addWidget( myNbQuadTetra, row, 3 );
- // --
- row++; // increment row count
- // ... hexas
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_HEXAS")), this );
- l->addWidget( lab, row, 0 );
- // --
- myNbHexa = new QLabel( this );
- l->addWidget( myNbHexa, row, 1 );
- // --
- myNbLinHexa = new QLabel( this );
- l->addWidget( myNbLinHexa, row, 2 );
- // --
- myNbQuadHexa = new QLabel( this );
- l->addWidget( myNbQuadHexa, row, 3 );
- // --
- row++; // increment row count
- // ... pyras
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_PYRAS")), this );
- l->addWidget( lab, row, 0 );
- // --
- myNbPyra = new QLabel( this );
- l->addWidget( myNbPyra, row, 1 );
- // --
- myNbLinPyra = new QLabel( this );
- l->addWidget( myNbLinPyra, row, 2 );
- // --
- myNbQuadPyra = new QLabel( this );
- l->addWidget( myNbQuadPyra, row, 3 );
- // --
- row++; // increment row count
- // ... prisms
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_PRISMS")), this );
- l->addWidget( lab, row, 0 );
- // --
- myNbPrism = new QLabel( this );
- l->addWidget( myNbPrism, row, 1 );
- // --
- myNbLinPrism = new QLabel( this );
- l->addWidget( myNbLinPrism, row, 2 );
- // --
- myNbQuadPrism = new QLabel( this );
- l->addWidget( myNbQuadPrism, row, 3 );
- // --
- row++; // increment row count
- // ... polyedres
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_POLYEDRES")), this );
- l->addWidget( lab, row, 0 );
- // --
- myNbPolyh = new QLabel( this );
- l->addWidget( myNbPolyh, row, 1 );
- }
- else
- {
- // nodes
- row = l->rowCount(); // retrieve current row count
- // --
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_NODES")), this );
- l->addWidget( lab, row, 0 );
- // --
- myNbNode = new QLabel( this );
- l->addWidget( myNbNode, row, 1 );
-
- // edges
- row = l->rowCount(); // retrieve current row count
- // --
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_EDGES")), this );
- l->addWidget( lab, row, 0 );
- // --
- myNbEdge = new QLabel( this );
- l->addWidget( myNbEdge, row, 1 );
- // --
- myNbLinEdge = new QLabel( this );
- l->addWidget( myNbLinEdge, row, 2 );
- // --
- myNbQuadEdge = new QLabel( this );
- l->addWidget( myNbQuadEdge, row, 3 );
-
- // faces
- row = l->rowCount(); // retrieve current row count
- // --
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_FACES")), this);
- l->addWidget( lab, row, 0 );
- // --
- myNbFace = new QLabel( this );
- l->addWidget( myNbFace, row, 1 );
- // --
- myNbLinFace = new QLabel( this );
- l->addWidget( myNbLinFace, row, 2 );
- // --
- myNbQuadFace = new QLabel( this );
- l->addWidget( myNbQuadFace, row, 3 );
-
- // volumes
- row = l->rowCount(); // retrieve current row count
- // --
- lab = new QLabel(COLONIZE(tr("SMESH_MESHINFO_VOLUMES")), this);
- l->addWidget( lab, row, 0 );
- // --
- myNbVolum = new QLabel( this );
- l->addWidget( myNbVolum, row, 1 );
- // --
- myNbLinVolum = new QLabel( this );
- l->addWidget( myNbLinVolum, row, 2 );
- // --
- myNbQuadVolum = new QLabel( this );
- l->addWidget( myNbQuadVolum, row, 3 );
- }
-}
-
-// =========================================================================================
-/*!
- * \brief Set mesh info
- */
-// =========================================================================================
-
-void SMESHGUI_MeshInfosBox::SetInfoByMesh(SMESH::SMESH_Mesh_var mesh)
-{
- const SMESH::ElementOrder lin = SMESH::ORDER_LINEAR;
- int nbTot, nbLin;
-
- // nodes
- myNbNode ->setText( QString("%1").arg( mesh->NbNodes() ));
-
- // edges
- nbTot = mesh->NbEdges(), nbLin = mesh->NbEdgesOfOrder(lin);
- myNbEdge ->setText( QString("%1").arg( nbTot ));
- myNbLinEdge ->setText( QString("%1").arg( nbLin ));
- myNbQuadEdge ->setText( QString("%1").arg( nbTot - nbLin ));
-
- // faces
- nbTot = mesh->NbFaces(), nbLin = mesh->NbFacesOfOrder(lin);
- myNbFace ->setText( QString("%1").arg( nbTot ));
- myNbLinFace ->setText( QString("%1").arg( nbLin ));
- myNbQuadFace ->setText( QString("%1").arg( nbTot - nbLin ));
-
- // volumes
- nbTot = mesh->NbVolumes(), nbLin = mesh->NbVolumesOfOrder(lin);
- myNbVolum ->setText( QString("%1").arg( nbTot ));
- myNbLinVolum ->setText( QString("%1").arg( nbLin ));
- myNbQuadVolum->setText( QString("%1").arg( nbTot - nbLin ));
-
- if ( myFull )
- {
- // triangles
- nbTot = mesh->NbTriangles(), nbLin = mesh->NbTrianglesOfOrder(lin);
- myNbTrai ->setText( QString("%1").arg( nbTot ));
- myNbLinTrai ->setText( QString("%1").arg( nbLin ));
- myNbQuadTrai ->setText( QString("%1").arg( nbTot - nbLin ));
- // quadrangles
- nbTot = mesh->NbQuadrangles(), nbLin = mesh->NbQuadranglesOfOrder(lin);
- myNbQuad ->setText( QString("%1").arg( nbTot ));
- myNbLinQuad ->setText( QString("%1").arg( nbLin ));
- myNbQuadQuad ->setText( QString("%1").arg( nbTot - nbLin ));
- // poligones
- myNbPolyg ->setText( QString("%1").arg( mesh->NbPolygons() ));
-
- // tetras
- nbTot = mesh->NbTetras(), nbLin = mesh->NbTetrasOfOrder(lin);
- myNbTetra ->setText( QString("%1").arg( nbTot ));
- myNbLinTetra ->setText( QString("%1").arg( nbLin ));
- myNbQuadTetra->setText( QString("%1").arg( nbTot - nbLin ));
- // hexas
- nbTot = mesh->NbHexas(), nbLin = mesh->NbHexasOfOrder(lin);
- myNbHexa ->setText( QString("%1").arg( nbTot ));
- myNbLinHexa ->setText( QString("%1").arg( nbLin ));
- myNbQuadHexa ->setText( QString("%1").arg( nbTot - nbLin ));
- // pyras
- nbTot = mesh->NbPyramids(), nbLin = mesh->NbPyramidsOfOrder(lin);
- myNbPyra ->setText( QString("%1").arg( nbTot ));
- myNbLinPyra ->setText( QString("%1").arg( nbLin ));
- myNbQuadPyra ->setText( QString("%1").arg( nbTot - nbLin ));
- // prisms
- nbTot = mesh->NbPrisms(), nbLin = mesh->NbPrismsOfOrder(lin);
- myNbPrism ->setText( QString("%1").arg( nbTot ));
- myNbLinPrism ->setText( QString("%1").arg( nbLin ));
- myNbQuadPrism->setText( QString("%1").arg( nbTot - nbLin ));
- // polyedres
- myNbPolyh ->setText( QString("%1").arg( mesh->NbPolyhedrons() ));
- }
-}
-
// =========================================================================================
/*!
* \brief Dialog to compute a mesh and show computation errors
tr("SMESH_WRN_WARNING"),
tr("SMESH_WRN_NO_AVAILABLE_DATA"));
onCancel();
-
+ return;
}
myMainShape = myMesh->GetShapeToMesh();
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 && aMeshSObj )
+ if ( shapeOK )
{
myCompDlg->myMeshName->setText( aMeshSObj->GetName().c_str() );
SMESH::SMESH_Gen_var gen = getSMESHGUI()->GetSMESHGen();
}
else if ( theNoCompError && theNoHypoError )
{
- aCompDlg->myFullInfo->SetInfoByMesh( myMesh );
+ SMESH::long_array_var aRes = myMesh->GetMeshInfo();
+ aCompDlg->myFullInfo->SetMeshInfo( aRes );
aCompDlg->myFullInfo->show();
aCompDlg->myBriefInfo->hide();
aCompDlg->myHypErrorGroup->hide();
else
{
QTableWidget* tbl = aCompDlg->myTable;
- aCompDlg->myBriefInfo->SetInfoByMesh( myMesh );
+ SMESH::long_array_var aRes = myMesh->GetMeshInfo();
+ aCompDlg->myFullInfo->SetMeshInfo( aRes );
aCompDlg->myBriefInfo->show();
aCompDlg->myFullInfo->hide();
//================================================================================
/*!
- * \brief perform it's intention action: reinitialise dialog
+ * \brief reinitialize dialog after operaiton become active again
*/
//================================================================================
SMESHGUI_BaseComputeOp::resumeOperation();
}
+//================================================================================
+/*!
+ * \brief perform it's intention action: reinitialise dialog
+ */
+//================================================================================
+
void SMESHGUI_PrecomputeOp::initDialog()
{
QList<int> modes;
+
QMap<int, int> 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 );
+ }
+
+ myDlg->setPreviewModes( modes );
+}
+
+//================================================================================
+/*!
+ * \brief detect asigned mesh algorithms
+ */
+//================================================================================
+
+void SMESHGUI_PrecomputeOp::getAssignedAlgos(_PTR(SObject) theMesh,
+ QMap<int,int>& theModeMap)
+{
_PTR(SObject) aHypRoot;
_PTR(GenericAttribute) anAttr;
int aPart = SMESH::Tag_RefOnAppliedAlgorithms;
-
- _PTR(SObject) pMesh = studyDS()->FindObjectID( myIObject->getEntry() );
- if ( pMesh && pMesh->FindSubObject( aPart, aHypRoot ) )
+ if ( theMesh && theMesh->FindSubObject( aPart, aHypRoot ) )
{
_PTR(ChildIterator) anIter =
SMESH::GetActiveStudyDocument()->NewChildIterator( aHypRoot );
CORBA::Object_var aVar = _CAST(SObject,anObj)->GetObject();
if ( CORBA::is_nil( aVar ) )
continue;
-
- SMESH::SMESH_Algo_var algo = SMESH::SMESH_3D_Algo::_narrow( aVar );
- if ( !algo->_is_nil() )
- {
- modeMap[ SMESH::DIM_1D ] = 0;
- modeMap[ SMESH::DIM_2D ] = 0;
- }
- else
+
+ for( int dim = SMESH::DIM_1D; dim <= SMESH::DIM_3D; dim++ )
{
- algo = SMESH::SMESH_2D_Algo::_narrow( aVar );
+ SMESH::SMESH_Algo_var algo;
+ 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() )
- modeMap[ SMESH::DIM_1D ] = 0;
+ theModeMap[ dim ] = 0;
}
}
}
}
- if ( modeMap.contains( SMESH::DIM_1D ) )
- modes.append( SMESH::DIM_1D );
- if ( modeMap.contains( SMESH::DIM_2D ) )
- modes.append( SMESH::DIM_2D );
-
- myDlg->setPreviewModes( modes );
}
//================================================================================
//================================================================================
/*!
- * \brief evaluaateMesh()
+ * \brief evaluateMesh()
*/
//================================================================================
QString aHypErrors;
bool evaluateFailed = true, memoryLack = false;
- std::vector<int> aResVec(18);
+ 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 && aMeshSObj )
+ if ( shapeOK )
{
myCompDlg->myMeshName->setText( aMeshSObj->GetName().c_str() );
SMESH::SMESH_Gen_var gen = getSMESHGUI()->GetSMESHGen();
#if (OCC_VERSION_MAJOR << 16 | OCC_VERSION_MINOR << 8 | OCC_VERSION_MAINTENANCE) > 0x060100
OCC_CATCH_SIGNALS;
#endif
- SMESH::long_array_var aVec = gen->Evaluate(myMesh, myMainShape);
- for(int i=0; i<17; i++) {
- aResVec[i] = aVec[i];
- }
+ aRes = gen->Evaluate(myMesh, myMainShape);
}
catch(const SALOME::SALOME_Exception & S_ex){
memoryLack = true;
// SHOW RESULTS
if ( isShowResultDlg )
- //showComputeResult( memoryLack, noCompError,aCompErrors, noHypoError, aHypErrors );
- showEvaluateResult( aResVec, memoryLack, noCompError, aCompErrors,
+ showEvaluateResult( aRes, memoryLack, noCompError, aCompErrors,
noHypoError, aHypErrors);
}
-void SMESHGUI_BaseComputeOp::showEvaluateResult(std::vector<int> theVec,
+void SMESHGUI_BaseComputeOp::showEvaluateResult(const SMESH::long_array& theRes,
const bool theMemoryLack,
const bool theNoCompError,
SMESH::compute_error_array_var& theCompErrors,
}
else if ( theNoCompError && theNoHypoError )
{
- //aCompDlg->myFullInfo->SetInfoByMesh( myMesh );
- aCompDlg->myFullInfo->SetInfoByEval( theVec );
+ aCompDlg->myFullInfo->SetMeshInfo( theRes );
aCompDlg->myFullInfo->show();
aCompDlg->myBriefInfo->hide();
aCompDlg->myHypErrorGroup->hide();
else
{
QTableWidget* tbl = aCompDlg->myTable;
- //aCompDlg->myBriefInfo->SetInfoByMesh( myMesh );
- aCompDlg->myBriefInfo->SetInfoByEval( theVec );
+ aCompDlg->myBriefInfo->SetMeshInfo( theRes );
aCompDlg->myBriefInfo->show();
aCompDlg->myFullInfo->hide();
}
-// =========================================================================================
-/*!
- * \brief Set mesh info
- */
-// =========================================================================================
-
-void SMESHGUI_MeshInfosBox::SetInfoByEval(std::vector<int> theVec)
-{
- // nodes
- myNbNode ->setText( QString("%1").arg( theVec[0] ));
-
- // edges
- int nbTot = theVec[1] + theVec[2];
- myNbEdge ->setText( QString("%1").arg( nbTot ));
- myNbLinEdge ->setText( QString("%1").arg( theVec[1] ));
- myNbQuadEdge ->setText( QString("%1").arg( theVec[2] ));
-
- // faces
- nbTot = 0;
- int i = 3;
- for(; i<=7; i++) nbTot += theVec[i];
- myNbFace ->setText( QString("%1").arg( nbTot ));
- myNbLinFace ->setText( QString("%1").arg( theVec[3] + theVec[5] ));
- myNbQuadFace ->setText( QString("%1").arg( theVec[4] + theVec[6] ));
-
- // volumes
- nbTot = 0;
- for(i=8; i<=16; i++) nbTot += theVec[i];
- int nbLin = 0, nbQua = 0;;
- for(i=0; i<=3; i++) {
- nbLin += theVec[8+2*i];
- nbQua += theVec[9+2*i];
- }
- myNbVolum ->setText( QString("%1").arg( nbTot ));
- myNbLinVolum ->setText( QString("%1").arg( nbLin ));
- myNbQuadVolum->setText( QString("%1").arg( nbQua ));
-
- if ( myFull )
- {
- // triangles
- myNbTrai ->setText( QString("%1").arg( theVec[3] + theVec[4] ));
- myNbLinTrai ->setText( QString("%1").arg( theVec[3] ));
- myNbQuadTrai ->setText( QString("%1").arg( theVec[4] ));
- // quadrangles
- myNbQuad ->setText( QString("%1").arg( theVec[5] + theVec[6] ));
- myNbLinQuad ->setText( QString("%1").arg( theVec[5] ));
- myNbQuadQuad ->setText( QString("%1").arg( theVec[6] ));
- // poligones
- myNbPolyg ->setText( QString("%1").arg( theVec[7] ));
-
- // tetras
- myNbTetra ->setText( QString("%1").arg( theVec[8] + theVec[9] ));
- myNbLinTetra ->setText( QString("%1").arg( theVec[8] ));
- myNbQuadTetra->setText( QString("%1").arg( theVec[9] ));
- // hexas
- myNbHexa ->setText( QString("%1").arg( theVec[14] + theVec[15] ));
- myNbLinHexa ->setText( QString("%1").arg( theVec[14] ));
- myNbQuadHexa ->setText( QString("%1").arg( theVec[15] ));
- // pyras
- myNbPyra ->setText( QString("%1").arg( theVec[10] + theVec[11] ));
- myNbLinPyra ->setText( QString("%1").arg( theVec[10] ));
- myNbQuadPyra ->setText( QString("%1").arg( theVec[11] ));
- // prisms
- myNbPrism ->setText( QString("%1").arg( theVec[12] + theVec[13] ));
- myNbLinPrism ->setText( QString("%1").arg( theVec[12] ));
- myNbQuadPrism->setText( QString("%1").arg( theVec[13] ));
- // polyedres
- myNbPolyh ->setText( QString("%1").arg( theVec[16] ));
- }
-}
-
//================================================================================
/*!
* \brief Gets dialog of evaluate operation