-// Copyright (C) 2007-2014 CEA/DEN, EDF R&D, OPEN CASCADE
+// Copyright (C) 2007-2015 CEA/DEN, EDF R&D, OPEN CASCADE
//
// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
// object
QLabel* aNameLab = new QLabel( tr( "NAME_LAB" ), this );
QLabel* aName = createField();
+ aName->setObjectName("meshName");
aName->setMinimumWidth( 150 );
QLabel* aObjLab = new QLabel( tr( "OBJECT_LAB" ), this );
QLabel* aObj = createField();
+ aObj->setObjectName("meshType");
aObj->setMinimumWidth( 150 );
myWidgets[ index++ ] << aNameLab << aName;
myWidgets[ index++ ] << aObjLab << aObj;
QWidget* aNodesLine = createLine();
QLabel* aNodesLab = new QLabel( tr( "NODES_LAB" ), this );
QLabel* aNodes = createField();
+ aNodes->setObjectName("nbNodes");
myWidgets[ index++ ] << aNodesLine;
myWidgets[ index++ ] << aNodesLab << aNodes;
// ... Number elements
QWidget* aNbLine = createLine();
QLabel* aNbTotal = createField();
+ aNbTotal->setObjectName("totalNbElems");
QLabel* aNbLin = createField();
+ aNbLin->setObjectName("totalNbLinearElems");
QLabel* aNbQuad = createField();
+ aNbQuad->setObjectName("totalNbQuadraticElems");
QLabel* aNbBiQuad = createField();
+ aNbBiQuad->setObjectName("totalNbBiQuadraticElems");
myWidgets[ index++ ] << aNbLine;
myWidgets[ index++ ] << new QLabel( "", this ) << aNbTotal << aNbLin << aNbQuad << aNbBiQuad;
QWidget* a0DLine = createLine();
QLabel* a0DLab = new QLabel( tr( "0D_LAB" ), this );
QLabel* a0DTotal = createField();
+ a0DTotal->setObjectName("nb0D");
+
myWidgets[ index++ ] << a0DLine;
myWidgets[ index++ ] << a0DLab << a0DTotal;
QWidget* aBallLine = createLine();
QLabel* aBallLab = new QLabel( tr( "BALL_LAB" ), this );
QLabel* aBallTotal = createField();
+ aBallTotal->setObjectName("nbBall");
myWidgets[ index++ ] << aBallLine;
myWidgets[ index++ ] << aBallLab << aBallTotal;
QWidget* a1DLine = createLine();
QLabel* a1DLab = new QLabel( tr( "1D_LAB" ), this );
QLabel* a1DTotal = createField();
+ a1DTotal->setObjectName("nb1D");
QLabel* a1DLin = createField();
+ a1DLin->setObjectName("nbLinear1D");
QLabel* a1DQuad = createField();
+ a1DQuad->setObjectName("nbQuadratic1D");
myWidgets[ index++ ] << a1DLine;
myWidgets[ index++ ] << a1DLab << a1DTotal << a1DLin << a1DQuad;
QWidget* a2DLine = createLine();
QLabel* a2DLab = new QLabel( tr( "2D_LAB" ), this );
QLabel* a2DTotal = createField();
+ a2DTotal->setObjectName("nb2D");
QLabel* a2DLin = createField();
+ a2DLin->setObjectName("nbLinear2D");
QLabel* a2DQuad = createField();
+ a2DQuad->setObjectName("nbQuadratic2D");
QLabel* a2DBiQuad = createField();
+ a2DBiQuad->setObjectName("nbBiQuadratic2D");
QLabel* a2DTriLab = new QLabel( tr( "TRIANGLES_LAB" ), this );
QLabel* a2DTriTotal = createField();
+ a2DTriTotal->setObjectName("nbTriangle");
QLabel* a2DTriLin = createField();
+ a2DTriLin->setObjectName("nbLinearTriangle");
QLabel* a2DTriQuad = createField();
+ a2DTriQuad->setObjectName("nbQuadraticTriangle");
QLabel* a2DTriBiQuad = createField();
+ a2DTriBiQuad->setObjectName("nbBiQuadraticTriangle");
QLabel* a2DQuaLab = new QLabel( tr( "QUADRANGLES_LAB" ), this );
QLabel* a2DQuaTotal = createField();
+ a2DQuaTotal->setObjectName("nbQuadrangle");
QLabel* a2DQuaLin = createField();
+ a2DQuaLin->setObjectName("nbLinearQuadrangle");
QLabel* a2DQuaQuad = createField();
+ a2DQuaQuad->setObjectName("nbQuadraticQuadrangle");
QLabel* a2DQuaBiQuad = createField();
+ a2DQuaBiQuad->setObjectName("nbBiQuadraticQuadrangle");
QLabel* a2DPolLab = new QLabel( tr( "POLYGONS_LAB" ), this );
QLabel* a2DPolTotal = createField();
+ a2DPolTotal->setObjectName("nbPolygon");
+ QLabel* a2DPolLin = createField();
+ a2DPolLin->setObjectName("nbLinearPolygon");
+ QLabel* a2DPolQuad = createField();
+ a2DPolQuad->setObjectName("nbQuadraticPolygon");
myWidgets[ index++ ] << a2DLine;
myWidgets[ index++ ] << a2DLab << a2DTotal << a2DLin << a2DQuad << a2DBiQuad;
myWidgets[ index++ ] << a2DTriLab << a2DTriTotal << a2DTriLin << a2DTriQuad << a2DTriBiQuad;
myWidgets[ index++ ] << a2DQuaLab << a2DQuaTotal << a2DQuaLin << a2DQuaQuad << a2DQuaBiQuad;
- myWidgets[ index++ ] << a2DPolLab << a2DPolTotal;
+ myWidgets[ index++ ] << a2DPolLab << a2DPolTotal << a2DPolLin << a2DPolQuad;
// ... 3D elements
QWidget* a3DLine = createLine();
QLabel* a3DLab = new QLabel( tr( "3D_LAB" ), this );
QLabel* a3DTotal = createField();
+ a3DTotal->setObjectName("nb3D");
QLabel* a3DLin = createField();
+ a3DLin->setObjectName("nbLinear3D");
QLabel* a3DQuad = createField();
+ a3DQuad->setObjectName("nbQuadratic3D");
QLabel* a3DBiQuad = createField();
+ a3DBiQuad->setObjectName("nbBiQuadratic3D");
QLabel* a3DTetLab = new QLabel( tr( "TETRAHEDRONS_LAB" ), this );
QLabel* a3DTetTotal = createField();
+ a3DTetTotal->setObjectName("nbTetrahedron");
QLabel* a3DTetLin = createField();
+ a3DTetLin->setObjectName("nbLinearTetrahedron");
QLabel* a3DTetQuad = createField();
+ a3DTetQuad->setObjectName("nbQudraticTetrahedron");
QLabel* a3DHexLab = new QLabel( tr( "HEXAHEDONRS_LAB" ), this );
QLabel* a3DHexTotal = createField();
+ a3DHexTotal->setObjectName("nbHexahedron");
QLabel* a3DHexLin = createField();
+ a3DHexLin->setObjectName("nbLinearHexahedron");
QLabel* a3DHexQuad = createField();
+ a3DHexQuad->setObjectName("nbQuadraticHexahedron");
QLabel* a3DHexBiQuad = createField();
+ a3DHexBiQuad->setObjectName("nbBiQuadraticHexahedron");
QLabel* a3DPyrLab = new QLabel( tr( "PYRAMIDS_LAB" ), this );
QLabel* a3DPyrTotal = createField();
+ a3DPyrTotal->setObjectName("nbPyramid");
QLabel* a3DPyrLin = createField();
+ a3DPyrLin->setObjectName("nbLinearPyramid");
QLabel* a3DPyrQuad = createField();
+ a3DPyrQuad->setObjectName("nbQuadraticPyramid");
QLabel* a3DPriLab = new QLabel( tr( "PRISMS_LAB" ), this );
QLabel* a3DPriTotal = createField();
+ a3DPriTotal->setObjectName("nbPrism");
QLabel* a3DPriLin = createField();
+ a3DPriLin->setObjectName("nbLinearPrism");
QLabel* a3DPriQuad = createField();
+ a3DPriQuad->setObjectName("nbQuadraticPrism");
QLabel* a3DHexPriLab = new QLabel( tr( "HEX_PRISMS_LAB" ), this );
QLabel* a3DHexPriTotal = createField();
+ a3DHexPriTotal->setObjectName("nbHexagonalPrism");
QLabel* a3DPolLab = new QLabel( tr( "POLYHEDRONS_LAB" ), this );
QLabel* a3DPolTotal = createField();
+ a3DPolTotal->setObjectName("nbPolyhedron");
myWidgets[ index++ ] << a3DLine;
myWidgets[ index++ ] << a3DLab << a3DTotal << a3DLin << a3DQuad << a3DBiQuad;
myWidgets[ index++ ] << a3DTetLab << a3DTetTotal << a3DTetLin << a3DTetQuad;
l->addWidget( a2DQuaBiQuad, 17, 4 );
l->addWidget( a2DPolLab, 18, 0 );
l->addWidget( a2DPolTotal, 18, 1 );
+ l->addWidget( a2DPolLin, 18, 2 );
+ l->addWidget( a2DPolQuad, 18, 3 );
l->addWidget( a3DLine, 19, 1, 1, 4 );
l->addWidget( a3DLab, 20, 0 );
l->addWidget( a3DTotal, 20, 1 );
myWidgets[i1D][iQuadratic]->setProperty( "text", QString::number( info[SMDSEntity_Quad_Edge] ) );
long nbTriangles = info[SMDSEntity_Triangle] + info[SMDSEntity_Quad_Triangle] + info[SMDSEntity_BiQuad_Triangle];
long nbQuadrangles = info[SMDSEntity_Quadrangle] + info[SMDSEntity_Quad_Quadrangle] + info[SMDSEntity_BiQuad_Quadrangle];
+ long nb2DPolygons = info[SMDSEntity_Polygon] + info[SMDSEntity_Quad_Polygon];
long nb2DLinear = info[SMDSEntity_Triangle] + info[SMDSEntity_Quadrangle] + info[SMDSEntity_Polygon];
- long nb2DQuadratic = info[SMDSEntity_Quad_Triangle] + info[SMDSEntity_Quad_Quadrangle];
+ long nb2DQuadratic = info[SMDSEntity_Quad_Triangle] + info[SMDSEntity_Quad_Quadrangle] + info[SMDSEntity_Quad_Polygon];
long nb2DBiQuadratic = info[SMDSEntity_BiQuad_Triangle] + info[SMDSEntity_BiQuad_Quadrangle];
long nb2DTotal = nb2DLinear + nb2DQuadratic + nb2DBiQuadratic;
myWidgets[i2DQuadrangles][iLinear] ->setProperty( "text", QString::number( info[SMDSEntity_Quadrangle] ) );
myWidgets[i2DQuadrangles][iQuadratic] ->setProperty( "text", QString::number( info[SMDSEntity_Quad_Quadrangle] ) );
myWidgets[i2DQuadrangles][iBiQuadratic] ->setProperty( "text", QString::number( info[SMDSEntity_BiQuad_Quadrangle] ) );
- myWidgets[i2DPolygons][iTotal] ->setProperty( "text", QString::number( info[SMDSEntity_Polygon] ) );
+ myWidgets[i2DPolygons][iTotal] ->setProperty( "text", QString::number( nb2DPolygons ));
+ myWidgets[i2DPolygons][iLinear] ->setProperty( "text", QString::number( info[SMDSEntity_Polygon] ) );
+ myWidgets[i2DPolygons][iQuadratic] ->setProperty( "text", QString::number( info[SMDSEntity_Quad_Polygon] ) );
long nbTetrahedrons = info[SMDSEntity_Tetra] + info[SMDSEntity_Quad_Tetra];
long nbHexahedrons = info[SMDSEntity_Hexa] + info[SMDSEntity_Quad_Hexa] + info[SMDSEntity_TriQuad_Hexa];
long nbPyramids = info[SMDSEntity_Pyramid] + info[SMDSEntity_Quad_Pyramid];
myWidgets[i2DQuadrangles][iLinear] ->setProperty( "text", "?" );
myWidgets[i2DQuadrangles][iQuadratic] ->setProperty( "text", "?" );
myWidgets[i2DQuadrangles][iBiQuadratic] ->setProperty( "text", "?" );
+ myWidgets[i2DPolygons][iLinear] ->setProperty( "text", "?" );
+ myWidgets[i2DPolygons][iQuadratic] ->setProperty( "text", "?" );
myWidgets[i2DPolygons][iTotal] ->setProperty( "text", "?" );
myWidgets[iNb][iTotal] ->setProperty( "text", "?" );
myWidgets[iNb][iLinear] ->setProperty( "text", "?" );
myWidgets[i2DQuadrangles][iLinear] ->setProperty( "text", QString::number( 0 ) );
myWidgets[i2DQuadrangles][iQuadratic] ->setProperty( "text", QString::number( 0 ) );
myWidgets[i2DQuadrangles][iBiQuadratic] ->setProperty( "text", QString::number( 0 ) );
+ myWidgets[i2DPolygons][iLinear] ->setProperty( "text", QString::number( 0 ) );
+ myWidgets[i2DPolygons][iQuadratic] ->setProperty( "text", QString::number( 0 ) );
myWidgets[i2DPolygons][iTotal] ->setProperty( "text", QString::number( 0 ) );
myWidgets[i3D][iTotal] ->setProperty( "text", QString::number( 0 ) );
myWidgets[i3D][iLinear] ->setProperty( "text", QString::number( 0 ) );
out << QString( SPACING_INFO*3, ' ' ) << tr( "BI_QUADRATIC_LAB" ) << ": " << ( myWidgets[i2DQuadrangles][iBiQuadratic]->property( "text" ) ).toString() << "\n";
out << QString( SPACING_INFO*2, ' ' ) << tr( "POLYGONS_LAB" ) << "\n";
out << QString( SPACING_INFO*3, ' ' ) << tr( "TOTAL_LAB" ) << ": " << ( myWidgets[i2DPolygons][iTotal]->property( "text" ) ).toString() << "\n";
+ out << QString( SPACING_INFO*3, ' ' ) << tr( "LINEAR_LAB" ) << ": " << ( myWidgets[i2DPolygons][iLinear]->property( "text" ) ).toString() << "\n";
+ out << QString( SPACING_INFO*3, ' ' ) << tr( "QUADRATIC_LAB" ) << ": " << ( myWidgets[i2DPolygons][iQuadratic]->property( "text" ) ).toString() << "\n";
out << QString( SPACING_INFO, ' ' ) << tr( "3D_LAB" ) << "\n";
out << QString( SPACING_INFO*2, ' ' ) << tr( "TOTAL_LAB" ) << ": " << ( myWidgets[i3D][iTotal]->property( "text" ) ).toString() << "\n";
out << QString( SPACING_INFO*2, ' ' ) << tr( "LINEAR_LAB" ) << ": " << ( myWidgets[i3D][iLinear]->property( "text" ) ).toString() << "\n";
return xyz;
}
+/*!
+ \brief Calculate normal vector to the mesh face
+ \param element mesh face
+*/
+SMESHGUI_ElemInfo::XYZ SMESHGUI_ElemInfo::normal( const SMDS_MeshElement* element )
+{
+ gp_XYZ n = SMESH::getNormale( dynamic_cast<const SMDS_MeshFace*>( element ) );
+ return XYZ(n.X(), n.Y(), n.Z());
+}
+
/*!
\brief This slot is called from "Show Previous" button click.
Shows information on the previous group of the items.
// Gravity center
XYZ gc = gravityCenter( e );
myInfo->append( QString( "<b>%1:</b> (%2, %3, %4)" ).arg( SMESHGUI_ElemInfo::tr( "GRAVITY_CENTER" ) ).arg( gc.x() ).arg( gc.y() ).arg( gc.z() ) );
+
+ // Normal vector
+ if( e->GetType() == SMDSAbs_Face ) {
+ XYZ gc = normal( e );
+ myInfo->append( QString( "<b>%1:</b> (%2, %3, %4)" ).arg( SMESHGUI_ElemInfo::tr( "NORMAL_VECTOR" ) ).arg( gc.x() ).arg( gc.y() ).arg( gc.z() ) );
+ }
// Element position
if ( e->GetType() >= SMDSAbs_Edge && e->GetType() <= SMDSAbs_Volume ) {
QTreeWidgetItem* zItem = createItem( gcItem );
zItem->setText( 0, "Z" );
zItem->setText( 1, QString::number( gc.z(), precision > 0 ? 'f' : 'g', qAbs( precision ) ) );
+
+ // normal vector
+ if( e->GetType() == SMDSAbs_Face ) {
+ XYZ gc = normal( e );
+ QTreeWidgetItem* nItem = createItem( elemItem, Bold );
+ nItem->setText( 0, SMESHGUI_ElemInfo::tr( "NORMAL_VECTOR" ) );
+ QTreeWidgetItem* xItem = createItem( nItem );
+ xItem->setText( 0, "X" );
+ xItem->setText( 1, QString::number( gc.x(), precision > 0 ? 'f' : 'g', qAbs( precision ) ) );
+ QTreeWidgetItem* yItem = createItem( nItem );
+ yItem->setText( 0, "Y" );
+ yItem->setText( 1, QString::number( gc.y(), precision > 0 ? 'f' : 'g', qAbs( precision ) ) );
+ QTreeWidgetItem* zItem = createItem( nItem );
+ zItem->setText( 0, "Z" );
+ zItem->setText( 1, QString::number( gc.z(), precision > 0 ? 'f' : 'g', qAbs( precision ) ) );
+ }
+
// element position
SMESH::SMESH_Mesh_ptr aMesh = actor()->GetObject()->GetMeshServer();
if ( e->GetType() >= SMDSAbs_Edge && e->GetType() <= SMDSAbs_Volume ) {
/*!
\brief Contructor
*/
-GrpComputor::GrpComputor( SMESH::SMESH_GroupBase_ptr grp, QTreeWidgetItem* item, QObject* parent )
- : QObject( parent ), myItem( item )
+GrpComputor::GrpComputor( SMESH::SMESH_GroupBase_ptr grp,
+ QTreeWidgetItem* item,
+ QObject* parent,
+ bool toComputeSize)
+ : QObject( parent ), myItem( item ), myToComputeSize( toComputeSize )
{
myGroup = SMESH::SMESH_GroupBase::_narrow( grp );
}
if ( !CORBA::is_nil( myGroup ) && myItem ) {
QTreeWidgetItem* item = myItem;
myItem = 0;
- int nbNodes = myGroup->GetNumberOfNodes();
+ int nb = myToComputeSize ? myGroup->Size() : myGroup->GetNumberOfNodes();
item->treeWidget()->removeItemWidget( item, 1 );
- item->setText( 1, QString::number( nbNodes ));
+ item->setText( 1, QString::number( nb ));
}
}
etypeItem->setText( 1, etype );
}
- // size
+ SMESH::SMESH_Mesh_var mesh = grp->GetMesh();
+ bool meshLoaded = mesh->IsLoaded();
+
+ // size. Don't call grp->Size() for GroupOnFilter - issue IPAL52831
+ int groupSize = -1;
+ if ( grp->IsNodeInfoAvailable() || CORBA::is_nil( aFltGroup ))
+ groupSize = grp->Size();
+
QTreeWidgetItem* sizeItem = createItem( parent, Bold );
sizeItem->setText( 0, tr( "SIZE" ) );
- sizeItem->setText( 1, QString::number( grp->Size() ) );
+ if ( groupSize > -1 ) {
+ sizeItem->setText( 1, QString::number( groupSize ) );
+ }
+ else {
+ QPushButton* btn = new QPushButton( tr( meshLoaded ? "COMPUTE" : "LOAD"), this );
+ setItemWidget( sizeItem, 1, btn );
+ GrpComputor* comp = new GrpComputor( grp, sizeItem, this, /*size=*/true );
+ connect( btn, SIGNAL( clicked() ), comp, SLOT( compute() ) );
+ myComputors.append( comp );
+ if ( !meshLoaded )
+ connect( btn, SIGNAL( clicked() ), this, SLOT( changeLoadToCompute() ) );
+ }
// color
SALOMEDS::Color color = grp->GetColor();
QTreeWidgetItem* nodesItem = createItem( parent, Bold );
nodesItem->setText( 0, tr( "NB_NODES" ) );
int nbNodesLimit = SMESHGUI::resourceMgr()->integerValue( "SMESH", "info_groups_nodes_limit", 100000 );
- SMESH::SMESH_Mesh_var mesh = grp->GetMesh();
- bool meshLoaded = mesh->IsLoaded();
- bool toShowNodes = ( grp->IsNodeInfoAvailable() || nbNodesLimit <= 0 || grp->Size() <= nbNodesLimit );
+ bool toShowNodes = groupSize >= 0 ? ( grp->IsNodeInfoAvailable() || nbNodesLimit <= 0 || groupSize <= nbNodesLimit ) : false;
if ( toShowNodes && meshLoaded ) {
// already calculated and up-to-date
nodesItem->setText( 1, QString::number( grp->GetNumberOfNodes() ) );
{
SMESH::SMESH_IDSource_var obj = SMESH::IObjectToInterface<SMESH::SMESH_IDSource>( IO );
if ( !CORBA::is_nil( obj ) ) {
- myBaseInfo->showInfo( obj );
- myAddInfo->showInfo( obj );
+ myAddInfo->showInfo( obj ); // nb of nodes in a group can be computed by myAddInfo,
+ myBaseInfo->showInfo( obj ); // and it will be used by myBaseInfo (IPAL52871)
myCtrlInfo->showInfo( obj );
myActor = SMESH::FindActorByEntry( IO->getEntry() );
myButtons[4]->setEnabled( true );
myButtons[5]->setEnabled( true );
}
+#ifdef DISABLE_PLOT2DVIEWER
+ myMainLayout->setRowStretch(11,0);
+ for( int i=22; i<=24; i++)
+ myMainLayout->itemAt(i)->widget()->setVisible( false );
+#endif
}
else {
myMainLayout->setRowStretch(11,0);
myButtons[7]->setEnabled( true );
myButtons[8]->setEnabled( true );
}
+#ifdef DISABLE_PLOT2DVIEWER
+ myMainLayout->setRowStretch(16,0);
+ for( int i=32; i<=34; i++)
+ myMainLayout->itemAt(i)->widget()->setVisible( false );
+#endif
}
else {
myMainLayout->setRowStretch(16,0);
void SMESHGUI_CtrlInfo::computeAspectRatio()
{
+#ifndef DISABLE_PLOT2DVIEWER
myButtons[5]->setEnabled( false );
if ( myObject->_is_nil() ) return;
myPlot->replot();
}
delete aHistogram;
+#endif
}
void SMESHGUI_CtrlInfo::computeAspectRatio3D()
{
+#ifndef DISABLE_PLOT2DVIEWER
myButtons[8]->setEnabled( false );
if ( myObject->_is_nil() ) return;
myPlot3D->replot();
}
delete aHistogram;
+#endif
}
/*!
myWidgets[2]->setText("");
}
+#ifndef DISABLE_PLOT2DVIEWER
Plot2d_Histogram* SMESHGUI_CtrlInfo::getHistogram( SMESH::NumericalFunctor_ptr aNumFun )
{
SMESH::SMESH_Mesh_var mesh = myObject->GetMesh();
}
return aHistogram;
}
+#endif
void SMESHGUI_CtrlInfo::saveInfo( QTextStream &out ) {
out << QString( 20, '-' ) << "\n";