TopoDS_Face F = TopoDS::Face(ex.Current());
Handle(Poly_Triangulation) Tr = BRep_Tool::Triangulation(F, L);
if(Tr.IsNull())
- MESSAGE("Error, null layer" )
+ MESSAGE("Error, null layer" );
nbNodes = Tr->NbNodes();
const TColgp_Array1OfPnt& Nodes = Tr->Nodes();
}
}
- // Creation du point d'initialisation, c'est \80 dire le centre de gravit\89
- //g\89om\89trique de la boite englobante
+ // Creation du point d'initialisation, c'est e dire le centre de gravite
+ // geometrique de la boite englobante
InitPoint.SetX(0.5 * (Xmin + Xmax));
InitPoint.SetY(0.5 * (Ymin + Ymax));
TopoDS_Face F = TopoDS::Face(ex.Current());
Handle(Poly_Triangulation) Tr = BRep_Tool::Triangulation(F, L);
if(Tr.IsNull())
- MESSAGE("Error, null layer" )
+ MESSAGE("Error, null layer" );
const Poly_Array1OfTriangle& triangles = Tr->Triangles();
Standard_Integer nbTriangles = Tr->NbTriangles();
//nbNodes = Tr->NbNodes();
const TColgp_Array1OfPnt& Nodes = Tr->Nodes();
// Calcul des volumes de chaque triangle, de chaque face
- //en tenant compte des triangles coup\89s par le plan de section
+ // en tenant compte des triangles coupes par le plan de section
for (i=1;i<=nbTriangles;i++)
{
Bsup = Zmax;
if(Binf>Bsup)
{
- MESSAGE("error, Bound + < Bound - in dichotomy")
+ MESSAGE("error, Bound + < Bound - in dichotomy");
return -1;
}
tempBsupVolume = CalculateVolume(Bsup);
if (Constante>tempBsupVolume || Constante<tempBinfVolume)
{
- MESSAGE("error, algorithm start Impossible. Wrong constant value" )
+ MESSAGE("error, algorithm start Impossible. Wrong constant value" );
return -1;
}
}
endMethod:
- MESSAGE("La ligne de flottaison correspondant a la constante :"<<Constante<<" est a la cote Z = "<<c)
+ MESSAGE("La ligne de flottaison correspondant a la constante :"<<Constante<<" est a la cote Z = "<<c);
return c;
}
return Point;
}
-//Fonction calculant le volume \89l\89mentaire de chaque t\89traedre \80 partir de 3 points
+// Fonction calculant le volume elementaire de chaque tetraedre e partir de 3 points
Standard_Real VolumeSection::ElementaryVolume(gp_Pnt P1,gp_Pnt P2,gp_Pnt P3)
{
Standard_Real Determinant;
//=====================================================================================
void EntityGUI::DisplaySimulationShape( const TopoDS_Shape& S1, const TopoDS_Shape& S2 )
{
- MESSAGE("EntityGUI::DisplaySimulationShape")
+ MESSAGE("EntityGUI::DisplaySimulationShape");
SalomeApp_Application* app = getGeometryGUI()->getApp();
if ( !app ) return;
//==================================================================================
void EntityGUI::EraseSimulationShape()
{
- MESSAGE("EntityGUI::EraseSimulationShape")
+ MESSAGE("EntityGUI::EraseSimulationShape");
SalomeApp_Application* app = getGeometryGUI()->getApp();
if ( !app ) return;
//=================================================================================
void EntityGUI_FeatureDetectorDlg::ConstructorsClicked(int id)
{
- MESSAGE("Constructor id ="<<id)
+ MESSAGE("Constructor id ="<<id);
myConstructorId = id;
switch (id)
{
void EntityGUI_FeatureDetectorDlg::setStartPnt(const gp_Pnt& theStartPnt)
{
myStartPnt = theStartPnt;
- MESSAGE("myStartPnt = ("<<theStartPnt.X()<<", "<<theStartPnt.Y()<<")")
+ MESSAGE("myStartPnt = ("<<theStartPnt.X()<<", "<<theStartPnt.Y()<<")");
}
//=================================================================================
void EntityGUI_FeatureDetectorDlg::setEndPnt(const gp_Pnt& theEndPnt)
{
myEndPnt = theEndPnt;
- MESSAGE("myEndPnt = ("<<theEndPnt.X()<<", "<<theEndPnt.Y()<<")")
+ MESSAGE("myEndPnt = ("<<theEndPnt.X()<<", "<<theEndPnt.Y()<<")");
if (setSelectionRect() && myDetector->GetImgHeight() > 0)
showImageSample();
}
bool insert;
- MESSAGE("hierarchy.size() =" << hierarchy.size())
+ MESSAGE("hierarchy.size() =" << hierarchy.size());
if ( hierarchy.size() < 1 ) {
- getOperation()->SetErrorCode( "Impossible detected contours" );
- return false;
+ getOperation()->SetErrorCode( "Impossible detected contours" );
+ return false;
}
for( ; idx >= 0; idx = hierarchy[idx][0])
//=================================================================================
void EntityGUI_PictureImportDlg::ClickOnOk()
{
- MESSAGE("EntityGUI_PictureImportDlg::ClickOnOk()")
+ MESSAGE("EntityGUI_PictureImportDlg::ClickOnOk()");
setIsApplyAndClose( true );
if ( ClickOnApply() )
ClickOnCancel();
//=================================================================================
bool EntityGUI_PictureImportDlg::ClickOnApply()
{
- MESSAGE("EntityGUI_PictureImportDlg::ClickOnApply()")
+ MESSAGE("EntityGUI_PictureImportDlg::ClickOnApply()");
if ( !onAccept() )
return false;
gp_Ax3 aLCS;
if (theGeomObj || aShape.IsNull()) {
- MESSAGE("CORBA::is_nil(theGeomObj) || aShape.IsNull()")
+ MESSAGE("CORBA::is_nil(theGeomObj) || aShape.IsNull()");
}
aLCS.Transform(aShape.Location().Transformation());
//=================================================================================
void EntityGUI_SketcherDlg::InitClick()
{
- MESSAGE("EntityGUI_SketcherDlg::InitClick()")
+ MESSAGE("EntityGUI_SketcherDlg::InitClick()");
disconnect( myGeometryGUI->getApp()->selectionMgr(), 0, this, 0 );
myCheckFlag = 0;
//=================================================================================
void EntityGUI_SketcherDlg::PointClicked( int constructorId )
{
- MESSAGE("PointClicked")
+ MESSAGE("PointClicked");
myConstructorPntId = constructorId;
GroupPt->RB_Point3->setEnabled( true );
int buttonId = GroupPt2->ButtonGroup->checkedId();
//=================================================================================
void EntityGUI_SketcherDlg::Point2Clicked( int constructorId )
{
- MESSAGE("Point2Clicked")
+ MESSAGE("Point2Clicked");
InitClick();
// Get setting of step value from file configuration
//=================================================================================
void EntityGUI_SketcherDlg::ClickOnEnd()
{
- MESSAGE("EntityGUI_SketcherDlg::ClickOnEnd()")
+ MESSAGE("EntityGUI_SketcherDlg::ClickOnEnd()");
if ( sender() == MainWidget->buttonClose ) {
// Verify validity of commands
if ( myCommand.count() <= 2 ) {
//=================================================================================
bool EntityGUI_SketcherDlg::ClickOnApply()
{
- MESSAGE("EntityGUI_SketcherDlg::ClickOnApply()")
+ MESSAGE("EntityGUI_SketcherDlg::ClickOnApply()");
if ( sender() && sender()->inherits( "QPushButton" ) )
( (QPushButton*)sender() )->setFocus(); // to update value of currently edited spin-box (PAL11948)
//=================================================================================
void EntityGUI_SketcherDlg::SelectionIntoArgument()
{
- MESSAGE("EntityGUI_SketcherDlg::SelectionIntoArgument")
+ MESSAGE("EntityGUI_SketcherDlg::SelectionIntoArgument");
myEditCurrentArgument->setText( "" );
LightApp_SelectionMgr* aSelMgr = myGeometryGUI->getApp()->selectionMgr();
//=================================================================================
void EntityGUI_SketcherDlg::ActivateThisDialog()
{
- MESSAGE("EntityGUI_SketcherDlg::ActivateThisDialog()")
+ MESSAGE("EntityGUI_SketcherDlg::ActivateThisDialog()");
myGeometryGUI->EmitSignalDeactivateDialog();
setEnabled( true );
myGeometryGUI->SetActiveDialogBox( this );
//=================================================================================
void EntityGUI_SketcherDlg::closeEvent( QCloseEvent* e )
{
- MESSAGE("EntityGUI_SketcherDlg::closeEvent")
+ MESSAGE("EntityGUI_SketcherDlg::closeEvent");
//myGeometryGUI->SetState( -1 );
disconnect( myGeometryGUI->getApp()->selectionMgr(), 0, this, 0 );
myGeometryGUI->getApp()->updateActions();
//=================================================================================
bool EntityGUI_SketcherDlg::execute( ObjectList& objects )
{
- MESSAGE("EntityGUI_SketcherDlg::execute")
+ MESSAGE("EntityGUI_SketcherDlg::execute");
SUIT_ResourceMgr* resMgr = SUIT_Session::session()->resourceMgr();
int aPrecision = resMgr->integerValue( "Geometry", "length_precision", 6 );
int DigNum = qAbs(aPrecision); // options for the format of numbers in myNewCommand
gp_Ax3 aLCS;
if (CORBA::is_nil( geomObj ) || aShape.IsNull())
{
- MESSAGE("CORBA::is_nil( geomObj ) || aShape.IsNull()")
+ MESSAGE("CORBA::is_nil( geomObj ) || aShape.IsNull()");
}
aLCS.Transform(aShape.Location().Transformation());
if (aShape.ShapeType() == TopAbs_FACE)
bool res = false;
if ( !getStudy() || hasCommand() )
{
- MESSAGE("Getting out from openCommand()")
+ MESSAGE("Getting out from openCommand()");
return res;
}
}
else
{
- MESSAGE("anOp->_is_nil() = true")
- }
+ MESSAGE("anOp->_is_nil() = true");
+ }
return res;
}
SalomeApp_Study* appStudy = dynamic_cast<SalomeApp_Study*>( SUIT_Session::session()->activeApplication()->activeStudy() );
if ( !appStudy )
{
- MESSAGE("appStudy is empty")
+ MESSAGE("appStudy is empty");
return false;
}
_PTR(Study) aStudy = appStudy->studyDS();
catch( const SALOME::SALOME_Exception& e ) {
SalomeApp_Tools::QtCatchCorbaException( e );
abortCommand();
- MESSAGE("Exception caught")
- }
+ MESSAGE("Exception caught");
+ }
updateViewer();
- MESSAGE("result ="<<result)
- return result;
+ MESSAGE("result ="<<result);
+ return result;
}
Handle(TColStd_HSequenceOfInteger) GEOMImpl_IShapesOperations::GetSubShapesIndices (Handle(GEOM_Object) theMainShape,
std::list<Handle(GEOM_Object)> theSubShapes)
{
- MESSAGE("GEOMImpl_IShapesOperations::GetSubShapesIndices")
+ MESSAGE("GEOMImpl_IShapesOperations::GetSubShapesIndices");
SetErrorCode(KO);
Handle(TColStd_HSequenceOfInteger) aSeq = new TColStd_HSequenceOfInteger;
TopoDS_Shape aMainShape = theMainShape->GetValue();
if (aMainShape.IsNull())
{
- MESSAGE("NULL main shape")
+ MESSAGE("NULL main shape");
return NULL;
}
TopoDS_Shape aSubShape = (*it)->GetValue();
if (aSubShape.IsNull())
{
- MESSAGE("NULL subshape")
+ MESSAGE("NULL subshape");
return NULL;
}
int id = anIndices.FindIndex(aSubShape);
Handle(::GEOM_Object) aSh = GetObjectImpl(theSubShapes[ind]);
if (aSh.IsNull())
{
- MESSAGE("NULL shape")
+ MESSAGE("NULL shape");
return aSeq._retn();
}
aShapes.push_back(aSh);
if (anIndices.IsNull() || aParams.IsNull()) {
if (IsUIso) {
- MESSAGE("GEOMUtils_Hatcher: null U-isoline indices")
+ MESSAGE("GEOMUtils_Hatcher: null U-isoline indices");
} else {
- MESSAGE("GEOMUtils_Hatcher: null V-isoline indices")
+ MESSAGE("GEOMUtils_Hatcher: null V-isoline indices");
}
} else {
const GeomAbs_IsoType aType = (IsUIso ? GeomAbs_IsoU : GeomAbs_IsoV);
if (aNbDomains < 0) {
if (IsUIso) {
- MESSAGE("GEOMUtils_Hatcher: U iso of parameter: "<<aParam)
+ MESSAGE("GEOMUtils_Hatcher: U iso of parameter: "<<aParam);
} else {
- MESSAGE("GEOMUtils_Hatcher: V iso of parameter: "<<aParam)
+ MESSAGE("GEOMUtils_Hatcher: V iso of parameter: "<<aParam);
}
switch (theHatcher.GetHatcher().Status (aHatchingIndex)) {
Computes the lines in the image located at imagePath
*/
bool ShapeRec_FeatureDetector::ComputeLines(){
- MESSAGE("ShapeRec_FeatureDetector::ComputeLines()")
+ MESSAGE("ShapeRec_FeatureDetector::ComputeLines()");
// Initialising images
cv::Mat src, src_gray, detected_edges, dst;
