-// Copyright (C) 2011-2012 CEA/DEN, EDF R&D
+// Copyright (C) 2011-2015 CEA/DEN, EDF R&D
//
// 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.
+// 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
// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//
-using namespace std;
-
#include "MonCreateBoundaryAn.h"
#include "MonCreateCase.h"
#include <SUIT_Session.h>
#include <SUIT_ViewManager.h>
+#include "math.h"
+#define PI 3.141592653589793
+
+using namespace std;
// ------------------------------------------------------------------------------------------------------------------------
MonCreateBoundaryAn::MonCreateBoundaryAn(MonCreateCase* parent, bool modal,
- HOMARD::HOMARD_Gen_var myHomardGen,
+ HOMARD::HOMARD_Gen_var myHomardGen0,
QString caseName) :
// ------------------------------------------------------------------------------------------------------------------------------
/* Constructs a MonCreateBoundaryAn
*/
QDialog(0), Ui_CreateBoundaryAn(),
_parent(parent),
- _aBoundaryAnName (""),
+ _aName (""),
_aCaseName(caseName),
- _BoundaryType(1),
+ _Xmin(0), _Xmax(0), _Xincr(0), _Ymin(0), _Ymax(0), _Yincr(0), _Zmin(0), _Zmax(0), _Zincr(0), _DMax(0),
+ _Type(1),
_BoundaryAnXcentre(0), _BoundaryAnYcentre(0), _BoundaryAnZcentre(0), _BoundaryAnRayon(0),
_BoundaryAnXaxis(0), _BoundaryAnYaxis(0), _BoundaryAnZaxis(0),
_Xcentre(0), _Ycentre(0), _Zcentre(0), _Rayon(0),
- _Xmin(0), _Xmax(0), _Xincr(0), _Ymin(0), _Ymax(0), _Yincr(0), _Zmin(0), _Zmax(0), _Zincr(0), _DMax(0),
+ _BoundaryAnXcone1(0), _BoundaryAnYcone1(0), _BoundaryAnZcone1(0), _BoundaryAnRayon1(0),
+ _BoundaryAnXcone2(0), _BoundaryAnYcone2(0), _BoundaryAnZcone2(0), _BoundaryAnRayon2(0),
+ _BoundaryAnXaxisCone(0), _BoundaryAnYaxisCone(0), _BoundaryAnZaxisCone(0),
+ _BoundaryAngle(0),
+ _BoundaryAnToreXcentre(0), _BoundaryAnToreYcentre(0), _BoundaryAnToreZcentre(0),
+ _BoundaryAnToreXaxe(0), _BoundaryAnToreYaxe(0), _BoundaryAnToreZaxe(0),
+ _BoundaryAnToreRRev(0), _BoundaryAnToreRPri(0),
Chgt (false)
{
MESSAGE("Constructeur") ;
- _myHomardGen=HOMARD::HOMARD_Gen::_duplicate(myHomardGen);
+ myHomardGen=HOMARD::HOMARD_Gen::_duplicate(myHomardGen0);
setupUi(this);
setModal(modal);
// Gestion des icones
+ QPixmap pix ;
+ QIcon IS ;
SUIT_ResourceMgr* resMgr = SUIT_Session::session()->resourceMgr();
- QPixmap pix = resMgr->loadPixmap( "HOMARD", "spherepoint.png" );
- QIcon IS=QIcon(pix);
+ pix = resMgr->loadPixmap( "HOMARD", "spherepoint.png" );
+ IS=QIcon(pix);
RBSphere->setIcon(IS);
- QPixmap pix2 = resMgr->loadPixmap( "HOMARD", "cylinderpointvector.png" );
- QIcon IS2=QIcon(pix2);
- RBCylindre->setIcon(IS2);
+ pix = resMgr->loadPixmap( "HOMARD", "cylinderpointvector.png" );
+ IS=QIcon(pix);
+ RBCylindre->setIcon(IS);
+ pix = resMgr->loadPixmap( "HOMARD", "cone.png" );
+ IS=QIcon(pix);
+ RBCone->setIcon(IS);
+ pix = resMgr->loadPixmap( "HOMARD", "conepointvector.png" );
+ IS=QIcon(pix);
+ RB_Def_angle->setIcon(IS);
+ pix = resMgr->loadPixmap( "HOMARD", "conedxyz.png" );
+ IS=QIcon(pix);
+ RB_Def_radius->setIcon(IS);
+ pix = resMgr->loadPixmap( "HOMARD", "toruspointvector.png" );
+ IS=QIcon(pix);
+ RBTore->setIcon(IS);
InitConnect( );
- SetNewBoundaryAnName() ;
+ SetNewName() ;
InitValBoundaryAn(); // Cherche les valeurs de la boite englobante le maillage
InitMinMax(); // Initialise les bornes des boutons
SetCylinder(); // Propose un cylindre en premier choix
}
// --------------------------------------------------------------------------------------------------------------
MonCreateBoundaryAn::MonCreateBoundaryAn(MonCreateCase* parent,
- HOMARD::HOMARD_Gen_var myHomardGen,
+ HOMARD::HOMARD_Gen_var myHomardGen0,
QString caseName):
// --------------------------------------------------------------------------------------------------------------
// Constructeur appele par MonEditBoundaryAn
//
QDialog(0), Ui_CreateBoundaryAn(),
- _myHomardGen(myHomardGen),
+ myHomardGen(myHomardGen0),
_parent(parent),
- _aBoundaryAnName (""),
+ _aName (""),
_aCaseName(caseName),
- _BoundaryType(1),
+ _Type(1),
_BoundaryAnXcentre(0), _BoundaryAnYcentre(0), _BoundaryAnZcentre(0), _BoundaryAnRayon(0),
_BoundaryAnXaxis(0), _BoundaryAnYaxis(0), _BoundaryAnZaxis(0),
// Pour affichage lors de l edition d une BoundaryAn sans nom de Cas
QPixmap pix2 = resMgr->loadPixmap( "HOMARD", "cylinderpointvector.png" );
QIcon IS2=QIcon(pix2);
RBCylindre->setIcon(IS2);
+ QPixmap pix3 = resMgr->loadPixmap( "HOMARD", "cone.png" );
+ QIcon IS3=QIcon(pix3);
+ RBCone->setIcon(IS3);
+ QPixmap pix4 = resMgr->loadPixmap( "HOMARD", "conepointvector.png" );
+ QIcon IS4=QIcon(pix4);
+ RB_Def_angle->setIcon(IS4);
+ QPixmap pix5 = resMgr->loadPixmap( "HOMARD", "conedxyz.png" );
+ QIcon IS5=QIcon(pix5);
+ RB_Def_radius->setIcon(IS5);
setModal(true);
InitConnect();
}
void MonCreateBoundaryAn::InitConnect()
// ------------------------------------------------------------------------
{
- connect( RBCylindre, SIGNAL(clicked()) , this, SLOT(SetCylinder()) ) ;
- connect( RBSphere, SIGNAL(clicked()) , this, SLOT(SetSphere()) ) ;
+ connect( RBCylindre, SIGNAL(clicked()) , this, SLOT(SetCylinder()) ) ;
+ connect( RBSphere, SIGNAL(clicked()) , this, SLOT(SetSphere()) ) ;
+ connect( RBCone, SIGNAL(clicked()) , this, SLOT(SetCone()) ) ;
+ connect( RB_Def_radius, SIGNAL(clicked()) , this, SLOT(SetConeR()) );
+ connect( RB_Def_angle, SIGNAL(clicked()) , this, SLOT(SetConeA()) );
+ connect( RBTore, SIGNAL(clicked()) , this, SLOT(SetTore()) ) ;
connect( buttonOk, SIGNAL( pressed() ), this, SLOT( PushOnOK() ) );
connect( buttonApply, SIGNAL( pressed() ), this, SLOT( PushOnApply() ) );
connect( buttonCancel, SIGNAL( pressed() ), this, SLOT( close() ) );
//
if (_aCaseName == QString("")) { return; }
- HOMARD::HOMARD_Cas_var aCas = _myHomardGen->GetCas(_aCaseName.toStdString().c_str());
+ HOMARD::HOMARD_Cas_var aCas = myHomardGen->GetCase(_aCaseName.toStdString().c_str());
HOMARD::extrema_var MesExtremes = aCas->GetBoundingBox();
int num = MesExtremes->length() ;
ASSERT(num == 10);
void MonCreateBoundaryAn::InitMinMax()
// ------------------------------------------------------------------------
{
-// en X
+ // Cylindre
+ // . X du centre
+ SpinBox_Xcent->setValue(_Xcentre);
+ SpinBox_Xcent->setSingleStep(_Xincr);
+ // . Y du centre
+ SpinBox_Ycent->setValue(_Ycentre);
+ SpinBox_Ycent->setSingleStep(_Yincr);
+ // . Z du centre
+ SpinBox_Zcent->setValue(_Zcentre);
+ SpinBox_Zcent->setSingleStep(_Zincr);
+ // . X de l'axe
+ SpinBox_Xaxis->setValue(0.);
SpinBox_Xaxis->setSingleStep(0.1);
- SpinBox_Xcentre->setSingleStep(_Xincr);
-//en Y
+ // . Y de l'axe
+ SpinBox_Yaxis->setValue(0.);
SpinBox_Yaxis->setSingleStep(0.1);
- SpinBox_Ycentre->setSingleStep(_Yincr);
-//en Z
+ // . Z de l'axe
+ SpinBox_Zaxis->setValue(1.);
SpinBox_Zaxis->setSingleStep(0.1);
- SpinBox_Zcentre->setSingleStep(_Zincr);
-// Rayon
+ // . Rayon
+ SpinBox_Radius->setValue(_Rayon);
SpinBox_Radius->setSingleStep(_Rayon/10.);
- SpinBox_Radius->setMinimum(0.);
+
+ // Sphere
+ // . X du centre
+ SpinBox_Xcentre->setValue(_Xcentre);
+ SpinBox_Xcentre->setSingleStep(_Xincr);
+ // . Y du centre
+ SpinBox_Ycentre->setValue(_Ycentre);
+ SpinBox_Ycentre->setSingleStep(_Yincr);
+ // . Z du centre
+ SpinBox_Zcentre->setValue(_Zcentre);
+ SpinBox_Zcentre->setSingleStep(_Zincr);
+ // . Rayon
+ SpinBox_Rayon->setValue(_Rayon);
SpinBox_Rayon->setSingleStep(_Rayon/10.);
- SpinBox_Rayon->setMinimum(0.);
+
+ // Cone en rayons
+ // . X des centres
+ _BoundaryAnXcone1 = _Xcentre ;
+ SpinBox_Cone_X1->setSingleStep(_Xincr);
+ _BoundaryAnXcone2 = _Xcentre ;
+ SpinBox_Cone_X2->setSingleStep(_Xincr);
+ // . Y des centres
+ _BoundaryAnYcone1 = _Ycentre ;
+ SpinBox_Cone_Y1->setSingleStep(_Yincr);
+ _BoundaryAnYcone2 = _Ycentre ;
+ SpinBox_Cone_Y2->setSingleStep(_Yincr);
+ // . Z des centres
+ _BoundaryAnZcone1 = _Zmin ;
+ SpinBox_Cone_Z1->setSingleStep(_Zincr);
+ _BoundaryAnZcone2 = _Zmax ;
+ SpinBox_Cone_Z2->setSingleStep(_Zincr);
+ // . Rayons/Angles
+ _BoundaryAnRayon1 = 0. ;
+ _BoundaryAnRayon2 = _Rayon ;
+ SpinBox_Cone_V2->setSingleStep(_Rayon/10.);
+
+ // Cone en angle
+ convertRayonAngle(1) ;
+ SpinBox_Cone_X1->setValue(_BoundaryAnXaxisCone);
+ SpinBox_Cone_Y1->setValue(_BoundaryAnYaxisCone);
+ SpinBox_Cone_Z1->setValue(_BoundaryAnZaxisCone);
+ SpinBox_Cone_V1->setValue(_BoundaryAngle);
+ SpinBox_Cone_X2->setValue(_BoundaryAnXorigCone);
+ SpinBox_Cone_Y2->setValue(_BoundaryAnYorigCone);
+ SpinBox_Cone_Z2->setValue(_BoundaryAnZorigCone);
+
+ // Tore
+ // . X du centre
+ SpinBoxToreXcent->setValue(_Xcentre);
+ SpinBoxToreXcent->setSingleStep(_Xincr);
+ // . Y du centre
+ SpinBoxToreYcent->setValue(_Ycentre);
+ SpinBoxToreYcent->setSingleStep(_Yincr);
+ // . Z du centre
+ SpinBoxToreZcent->setValue(_Zcentre);
+ SpinBoxToreZcent->setSingleStep(_Zincr);
+ // . X de l'axe
+ SpinBoxToreXaxe->setValue(0.);
+ SpinBoxToreXaxe->setSingleStep(0.1);
+ // . Y de l'axe
+ SpinBoxToreYaxe->setValue(0.);
+ SpinBoxToreYaxe->setSingleStep(0.1);
+ // . Z de l'axe
+ SpinBoxToreZaxe->setValue(1.);
+ SpinBoxToreZaxe->setSingleStep(0.1);
+ // . Rayon de revolution
+ SpinBoxToreRRev->setValue(_Rayon);
+ SpinBoxToreRRev->setSingleStep(_Rayon/10.);
+ // . Rayon primaire
+ SpinBoxToreRPri->setValue(_Rayon/3.);
+ SpinBoxToreRPri->setSingleStep(_Rayon/20.);
}
// ------------------------------------------------------------------------
bool MonCreateBoundaryAn::PushOnApply()
// Appele lorsque l'un des boutons Ok ou Apply est presse
//
{
- std::cerr << LEBoundaryName->text().trimmed().toStdString() << std::endl;
- if (LEBoundaryName->text().trimmed()=="")
+ if (LEName->text().trimmed()=="")
{
QMessageBox::critical( 0, QObject::tr("HOM_ERROR"),
QObject::tr("HOM_BOUN_NAME") );
return false;
}
- switch (_BoundaryType)
+ switch (_Type)
{
case 1 : // il s agit d un cylindre
{
- if ((_BoundaryAnXcentre != SpinBox_Xcent->value()) or
- (_BoundaryAnYcentre != SpinBox_Ycent->value()) or
- (_BoundaryAnZcentre != SpinBox_Zcent->value()) or
- (_BoundaryAnRayon != SpinBox_Radius->value()) or
- (_BoundaryAnXaxis != SpinBox_Xaxis->value()) or
- (_BoundaryAnYaxis != SpinBox_Yaxis->value()) or
+ if ((_BoundaryAnXcentre != SpinBox_Xcent->value()) ||
+ (_BoundaryAnYcentre != SpinBox_Ycent->value()) ||
+ (_BoundaryAnZcentre != SpinBox_Zcent->value()) ||
+ (_BoundaryAnRayon != SpinBox_Radius->value()) ||
+ (_BoundaryAnXaxis != SpinBox_Xaxis->value()) ||
+ (_BoundaryAnYaxis != SpinBox_Yaxis->value()) ||
(_BoundaryAnZaxis != SpinBox_Zaxis->value()) )
{
Chgt = true;
_BoundaryAnYcentre=SpinBox_Ycent->value();
_BoundaryAnZcentre=SpinBox_Zcent->value();
_BoundaryAnRayon=SpinBox_Radius->value();
- double daux = _BoundaryAnXaxis*_BoundaryAnXaxis + _BoundaryAnYaxis*_BoundaryAnYaxis + _BoundaryAnZaxis*_BoundaryAnZaxis ;
- if ( daux < 0.0000001 )
- {
- QMessageBox::critical( 0, QObject::tr("HOM_ERROR"),
- QObject::tr("HOM_AXE") );
- return false;
- }
}
break;
}
case 2 : // il s agit d une sphere
{
- if ((_BoundaryAnXcentre != SpinBox_Xcentre->value()) or
- (_BoundaryAnYcentre != SpinBox_Ycentre->value()) or
- (_BoundaryAnZcentre != SpinBox_Zcentre->value()) or
+ if ((_BoundaryAnXcentre != SpinBox_Xcentre->value()) ||
+ (_BoundaryAnYcentre != SpinBox_Ycentre->value()) ||
+ (_BoundaryAnZcentre != SpinBox_Zcentre->value()) ||
(_BoundaryAnRayon != SpinBox_Rayon->value()) )
{
Chgt = true;
}
break;
}
- }
+
+ case 3 : // il s agit d un cone defini par un axe et un angle
+ {
+ if ((_BoundaryAnXaxisCone != SpinBox_Cone_X1->value()) ||
+ (_BoundaryAnYaxisCone != SpinBox_Cone_Y1->value()) ||
+ (_BoundaryAnZaxisCone != SpinBox_Cone_Z1->value()) ||
+ (_BoundaryAnXorigCone != SpinBox_Cone_X2->value()) ||
+ (_BoundaryAnYorigCone != SpinBox_Cone_Y2->value()) ||
+ (_BoundaryAnZorigCone != SpinBox_Cone_Z2->value()) ||
+ (_BoundaryAngle != SpinBox_Cone_V1->value()) )
+ {
+ Chgt = true;
+ _BoundaryAnXaxisCone = SpinBox_Cone_X1->value() ;
+ _BoundaryAnYaxisCone = SpinBox_Cone_Y1->value() ;
+ _BoundaryAnZaxisCone = SpinBox_Cone_Z1->value() ;
+ _BoundaryAnXorigCone = SpinBox_Cone_X2->value() ;
+ _BoundaryAnYorigCone = SpinBox_Cone_Y2->value() ;
+ _BoundaryAnZorigCone = SpinBox_Cone_Z2->value() ;
+ _BoundaryAngle = SpinBox_Cone_V1->value() ;
+ }
+ break;
+ }
+
+ case 4 : // il s agit d un cone defini par les 2 rayons
+ {
+ if ((_BoundaryAnXcone1 != SpinBox_Cone_X1->value()) ||
+ (_BoundaryAnYcone1 != SpinBox_Cone_Y1->value()) ||
+ (_BoundaryAnZcone1 != SpinBox_Cone_Z1->value()) ||
+ (_BoundaryAnRayon1 != SpinBox_Cone_V1->value()) ||
+ (_BoundaryAnXcone2 != SpinBox_Cone_X2->value()) ||
+ (_BoundaryAnYcone2 != SpinBox_Cone_Y2->value()) ||
+ (_BoundaryAnZcone2 != SpinBox_Cone_Z2->value()) ||
+ (_BoundaryAnRayon2 != SpinBox_Cone_V2->value()) )
+ {
+ Chgt = true;
+ _BoundaryAnXcone1 = SpinBox_Cone_X1->value() ;
+ _BoundaryAnYcone1 = SpinBox_Cone_Y1->value() ;
+ _BoundaryAnZcone1 = SpinBox_Cone_Z1->value() ;
+ _BoundaryAnRayon1 = SpinBox_Cone_V1->value() ;
+ _BoundaryAnXcone2 = SpinBox_Cone_X2->value() ;
+ _BoundaryAnYcone2 = SpinBox_Cone_Y2->value() ;
+ _BoundaryAnZcone2 = SpinBox_Cone_Z2->value() ;
+ _BoundaryAnRayon2 = SpinBox_Cone_V2->value() ;
+ }
+ break;
+ }
+ case 5 : // il s agit d un tore
+ {
+ if ((_BoundaryAnToreXcentre != SpinBoxToreXcent->value()) ||
+ (_BoundaryAnToreYcentre != SpinBoxToreYcent->value()) ||
+ (_BoundaryAnToreZcentre != SpinBoxToreZcent->value()) ||
+ (_BoundaryAnToreRRev != SpinBoxToreRRev->value()) ||
+ (_BoundaryAnToreRPri != SpinBoxToreRPri->value()) ||
+ (_BoundaryAnToreXaxe != SpinBoxToreXaxe->value()) ||
+ (_BoundaryAnToreYaxe != SpinBoxToreYaxe->value()) ||
+ (_BoundaryAnToreZaxe != SpinBoxToreZaxe->value()) )
+ {
+ Chgt = true;
+ _BoundaryAnToreXcentre= SpinBoxToreXcent->value();
+ _BoundaryAnToreYcentre= SpinBoxToreYcent->value();
+ _BoundaryAnToreZcentre= SpinBoxToreZcent->value();
+ _BoundaryAnToreRRev=SpinBoxToreRRev->value();
+ _BoundaryAnToreRPri=SpinBoxToreRPri->value();
+ _BoundaryAnToreXaxe=SpinBoxToreXaxe->value();
+ _BoundaryAnToreYaxe=SpinBoxToreYaxe->value();
+ _BoundaryAnToreZaxe=SpinBoxToreZaxe->value();
+ }
+ break;
+ }
+
+ }
bool bOK = CreateOrUpdateBoundaryAn();
+
+ if ( bOK ) { HOMARD_UTILS::updateObjBrowser() ; }
+
return bOK;
}
//----------------------------------------------------
// Creation de l'objet boundary
{
- if (_aBoundaryAnName != LEBoundaryName->text().trimmed())
+ _aName = LEName->text().trimmed();
+ switch (_Type)
{
- _aBoundaryAnName = LEBoundaryName->text().trimmed();
- switch (_BoundaryType)
+ case 1 : // il s agit d un cylindre
{
- case 1 : // il s agit d un cylindre
+ try
{
- aBoundaryAn = _myHomardGen->CreateBoundaryCylinder(CORBA::string_dup(_aBoundaryAnName.toStdString().c_str()), \
+ aBoundaryAn = myHomardGen->CreateBoundaryCylinder(CORBA::string_dup(_aName.toStdString().c_str()), \
_BoundaryAnXcentre, _BoundaryAnYcentre, _BoundaryAnZcentre, _BoundaryAnXaxis, _BoundaryAnYaxis, _BoundaryAnZaxis, _BoundaryAnRayon );
- break;
}
- case 2 : // il s agit d une sphere
+ catch( SALOME::SALOME_Exception& S_ex )
{
- aBoundaryAn = _myHomardGen->CreateBoundarySphere(CORBA::string_dup(_aBoundaryAnName.toStdString().c_str()), \
+ QMessageBox::critical( 0, QObject::tr("HOM_ERROR"),
+ QObject::tr(CORBA::string_dup(S_ex.details.text)) );
+ return false ;
+ }
+ break;
+ }
+ case 2 : // il s agit d une sphere
+ {
+ try
+ {
+ aBoundaryAn = myHomardGen->CreateBoundarySphere(CORBA::string_dup(_aName.toStdString().c_str()), \
_BoundaryAnXcentre, _BoundaryAnYcentre, _BoundaryAnZcentre, _BoundaryAnRayon);
- break;
}
+ catch( SALOME::SALOME_Exception& S_ex )
+ {
+ QMessageBox::critical( 0, QObject::tr("HOM_ERROR"),
+ QObject::tr(CORBA::string_dup(S_ex.details.text)) );
+ return false ;
+ }
+ break;
+ }
+ case 3 : // il s agit d un cone defini par un axe et un angle
+ {
+ try
+ {
+ aBoundaryAn = myHomardGen->CreateBoundaryConeA(CORBA::string_dup(_aName.toStdString().c_str()), \
+ _BoundaryAnXaxisCone, _BoundaryAnYaxisCone, _BoundaryAnZaxisCone, _BoundaryAngle, \
+ _BoundaryAnXorigCone, _BoundaryAnYorigCone, _BoundaryAnYorigCone);
+ }
+ catch( SALOME::SALOME_Exception& S_ex )
+ {
+ QMessageBox::critical( 0, QObject::tr("HOM_ERROR"),
+ QObject::tr(CORBA::string_dup(S_ex.details.text)) );
+ return false ;
+ }
+ break;
+ }
+ case 4 : // il s agit d un cone defini par les 2 rayons
+ {
+ try
+ {
+ aBoundaryAn = myHomardGen->CreateBoundaryConeR(CORBA::string_dup(_aName.toStdString().c_str()), \
+ _BoundaryAnXcone1, _BoundaryAnYcone1, _BoundaryAnZcone1, _BoundaryAnRayon1, \
+ _BoundaryAnXcone2, _BoundaryAnYcone2, _BoundaryAnZcone2, _BoundaryAnRayon2);
+ }
+ catch( SALOME::SALOME_Exception& S_ex )
+ {
+ QMessageBox::critical( 0, QObject::tr("HOM_ERROR"),
+ QObject::tr(CORBA::string_dup(S_ex.details.text)) );
+ return false ;
+ }
+ break;
+ }
+ case 5 : // il s agit d un tore
+ {
+ try
+ {
+ aBoundaryAn = myHomardGen->CreateBoundaryTorus(CORBA::string_dup(_aName.toStdString().c_str()), \
+ _BoundaryAnToreXcentre, _BoundaryAnToreYcentre, _BoundaryAnToreZcentre, _BoundaryAnToreXaxe, _BoundaryAnToreYaxe, _BoundaryAnToreZaxe, _BoundaryAnToreRRev, _BoundaryAnToreRPri );
+ }
+ catch( SALOME::SALOME_Exception& S_ex )
+ {
+ QMessageBox::critical( 0, QObject::tr("HOM_ERROR"),
+ QObject::tr(CORBA::string_dup(S_ex.details.text)) );
+ return false ;
+ }
+ break;
}
- _parent->addBoundaryAn(_aBoundaryAnName);
}
-// Mise en place des attributs
- aBoundaryAn->SetLimit(_Xincr, _Yincr, _Zincr);
+ _parent->AddBoundaryAn(_aName);
- HOMARD_UTILS::updateObjBrowser();
return true;
}
// ------------------------------------------------------------------------
void MonCreateBoundaryAn::PushOnHelp()
// ------------------------------------------------------------------------
{
- HOMARD_UTILS::PushOnHelp(QString("gui_create_boundary.html#un-cylindre") ) ;
+ std::string LanguageShort = myHomardGen->GetLanguageShort();
+ HOMARD_UTILS::PushOnHelp(QString("gui_create_boundary.html"), QString("un-cylindre"), QString(LanguageShort.c_str()));
}
// -----------------------------------
-void MonCreateBoundaryAn::SetNewBoundaryAnName()
+void MonCreateBoundaryAn::SetNewName()
// -----------------------------------
{
// Recherche d'un nom par defaut qui n'existe pas encore
- HOMARD::listeBoundarys_var MyBoundaryAns = _myHomardGen->GetAllBoundarys();
- int num = 0; QString aBoundaryAnName="";
- while (aBoundaryAnName=="" )
+ HOMARD::listeBoundarys_var MyObjects = myHomardGen->GetAllBoundarysName();
+ int num = 0; QString aName="";
+ while (aName=="" )
{
- aBoundaryAnName.setNum(num+1) ;
- aBoundaryAnName.insert(0, QString("Boun_")) ;
- for ( int i=0; i<MyBoundaryAns->length(); i++)
+ aName.setNum(num+1) ;
+ aName.insert(0, QString("Boun_")) ;
+ for ( int i=0; i<MyObjects->length(); i++)
{
- if ( aBoundaryAnName == QString(MyBoundaryAns[i]))
+ if ( aName == QString(MyObjects[i]))
{
- num=num+1;
- aBoundaryAnName="";
- break;
+ num ++ ;
+ aName = "" ;
+ break ;
}
}
}
- LEBoundaryName->clear() ;
- LEBoundaryName->insert(aBoundaryAnName);
+ LEName->setText(aName);
}
// ------------------------------------------------------------------------
void MonCreateBoundaryAn::SetCylinder()
MESSAGE("Debut de SetCylinder")
gBCylindre->setVisible(1);
gBSphere->setVisible(0);
+ gBCone->setVisible(0);
+ gBTore->setVisible(0);
+//
+ _Type=1;
+//
adjustSize();
- _BoundaryType=1;
- SpinBox_Xcent->setValue(_Xcentre);
- SpinBox_Xaxis->setValue(0.);
- SpinBox_Ycent->setValue(_Ycentre);
- SpinBox_Yaxis->setValue(0.);
- SpinBox_Zcent->setValue(_Zcentre);
- SpinBox_Zaxis->setValue(1.);
- SpinBox_Radius->setValue(_Rayon);
// MESSAGE("Fin de SetCylinder")
}
// ------------------------------------------------------------------------
MESSAGE("Debut de SetSphere")
gBCylindre->setVisible(0);
gBSphere->setVisible(1);
+ gBCone->setVisible(0);
+ gBTore->setVisible(0);
+//
+ _Type=2;
+//
adjustSize();
- _BoundaryType=2;
- SpinBox_Xcentre->setValue(_Xcentre);
- SpinBox_Ycentre->setValue(_Ycentre);
- SpinBox_Zcentre->setValue(_Zcentre);
- SpinBox_Rayon->setValue(_Rayon);
// MESSAGE("Fin de SetSphere")
}
+// ------------------------------------------------------------------------
+void MonCreateBoundaryAn::SetConeR()
+// ------------------------------------------------------------------------
+{
+ MESSAGE("Debut de SetConeR")
+//
+// Stockage et conversion des valeurs si elles ont change
+ if ((_BoundaryAnXaxisCone != SpinBox_Cone_X1->value()) ||
+ (_BoundaryAnYaxisCone != SpinBox_Cone_Y1->value()) ||
+ (_BoundaryAnZaxisCone != SpinBox_Cone_Z1->value()) ||
+ (_BoundaryAnXorigCone != SpinBox_Cone_X2->value()) ||
+ (_BoundaryAnYorigCone != SpinBox_Cone_Y2->value()) ||
+ (_BoundaryAnZorigCone != SpinBox_Cone_Z2->value()) ||
+ (_BoundaryAngle != SpinBox_Cone_V1->value()) )
+ {
+ MESSAGE("Stockage et conversion")
+ _BoundaryAnXaxisCone = SpinBox_Cone_X1->value() ;
+ _BoundaryAnYaxisCone = SpinBox_Cone_Y1->value() ;
+ _BoundaryAnZaxisCone = SpinBox_Cone_Z1->value() ;
+ _BoundaryAnXorigCone = SpinBox_Cone_X2->value() ;
+ _BoundaryAnYorigCone = SpinBox_Cone_Y2->value() ;
+ _BoundaryAnZorigCone = SpinBox_Cone_Z2->value() ;
+ _BoundaryAngle = SpinBox_Cone_V1->value() ;
+ convertRayonAngle(-1) ;
+ }
+//
+ _Type=4;
+//
+ TLCone_X1->setText(QApplication::translate("CreateBoundaryAn", "X centre 1", 0));
+ SpinBox_Cone_X1->setValue(_BoundaryAnXcone1);
+ TLCone_Y1->setText(QApplication::translate("CreateBoundaryAn", "Y centre 1", 0));
+ SpinBox_Cone_Y1->setValue(_BoundaryAnYcone1);
+ TLCone_Z1->setText(QApplication::translate("CreateBoundaryAn", "Z centre 1", 0));
+ SpinBox_Cone_Z1->setValue(_BoundaryAnZcone1);
+//
+ TLCone_V1->setText(QApplication::translate("CreateBoundaryAn", "Radius 1", 0));
+ SpinBox_Cone_V1->setSingleStep(_Rayon/10.);
+ SpinBox_Cone_V1->setMaximum(100000.*_DMax);
+ SpinBox_Cone_V1->setValue(_BoundaryAnRayon1);
+//
+ TLCone_X2->setText(QApplication::translate("CreateBoundaryAn", "X centre 2", 0));
+ SpinBox_Cone_X2->setValue(_BoundaryAnXcone2);
+ TLCone_Y2->setText(QApplication::translate("CreateBoundaryAn", "Y centre 2", 0));
+ SpinBox_Cone_Y2->setValue(_BoundaryAnYcone2);
+ TLCone_Z2->setText(QApplication::translate("CreateBoundaryAn", "Z centre 2", 0));
+ SpinBox_Cone_Z2->setValue(_BoundaryAnZcone2);
+//
+ TLCone_V2->setVisible(1);
+ SpinBox_Cone_V2->setVisible(1);
+ TLCone_V2->setText(QApplication::translate("CreateBoundaryAn", "Radius 2", 0));
+ SpinBox_Cone_V2->setValue(_BoundaryAnRayon2);
+//
+// MESSAGE("Fin de SetConeR")
+}
+// ------------------------------------------------------------------------
+void MonCreateBoundaryAn::SetConeA()
+// ------------------------------------------------------------------------
+{
+ MESSAGE("Debut de SetConeA")
+// Stockage et conversion des valeurs si elles ont change
+ if ((_BoundaryAnXcone1 != SpinBox_Cone_X1->value()) ||
+ (_BoundaryAnYcone1 != SpinBox_Cone_Y1->value()) ||
+ (_BoundaryAnZcone1 != SpinBox_Cone_Z1->value()) ||
+ (_BoundaryAnRayon1 != SpinBox_Cone_V1->value()) ||
+ (_BoundaryAnXcone2 != SpinBox_Cone_X2->value()) ||
+ (_BoundaryAnYcone2 != SpinBox_Cone_Y2->value()) ||
+ (_BoundaryAnZcone2 != SpinBox_Cone_Z2->value()) ||
+ (_BoundaryAnRayon2 != SpinBox_Cone_V2->value()) )
+ {
+ MESSAGE("Stockage et conversion")
+ _BoundaryAnXcone1 = SpinBox_Cone_X1->value() ;
+ _BoundaryAnYcone1 = SpinBox_Cone_Y1->value() ;
+ _BoundaryAnZcone1 = SpinBox_Cone_Z1->value() ;
+ _BoundaryAnRayon1 = SpinBox_Cone_V1->value() ;
+ _BoundaryAnXcone2 = SpinBox_Cone_X2->value() ;
+ _BoundaryAnYcone2 = SpinBox_Cone_Y2->value() ;
+ _BoundaryAnZcone2 = SpinBox_Cone_Z2->value() ;
+ _BoundaryAnRayon2 = SpinBox_Cone_V2->value() ;
+ convertRayonAngle(1) ;
+ }
+//
+ _Type=3;
+//
+ TLCone_X1->setText(QApplication::translate("CreateBoundaryAn", "X axis", 0));
+ SpinBox_Cone_X1->setValue(_BoundaryAnXaxisCone);
+ TLCone_Y1->setText(QApplication::translate("CreateBoundaryAn", "Y axis", 0));
+ SpinBox_Cone_Y1->setValue(_BoundaryAnYaxisCone);
+ TLCone_Z1->setText(QApplication::translate("CreateBoundaryAn", "Z axis", 0));
+ SpinBox_Cone_Z1->setValue(_BoundaryAnZaxisCone);
+//
+ TLCone_X2->setText(QApplication::translate("CreateBoundaryAn", "X centre", 0));
+ SpinBox_Cone_X2->setValue(_BoundaryAnXorigCone);
+ TLCone_Y2->setText(QApplication::translate("CreateBoundaryAn", "Y centre", 0));
+ SpinBox_Cone_Y2->setValue(_BoundaryAnYorigCone);
+ TLCone_Z2->setText(QApplication::translate("CreateBoundaryAn", "Z centre", 0));
+ SpinBox_Cone_Z2->setValue(_BoundaryAnZorigCone);
+//
+ TLCone_V1->setText(QApplication::translate("CreateBoundaryAn", "Angle", 0));
+ SpinBox_Cone_V1->setValue(_BoundaryAngle);
+ SpinBox_Cone_V1->setSingleStep(1.);
+ SpinBox_Cone_V1->setMaximum(90.);
+//
+ TLCone_V2->setVisible(0);
+ SpinBox_Cone_V2->setVisible(0);
+// MESSAGE("Fin de SetConeA")
+}
+
+
+// ------------------------------------------------------------------------
+void MonCreateBoundaryAn::SetCone()
+// ------------------------------------------------------------------------
+{
+ MESSAGE("Debut de SetCone")
+ gBCylindre->setVisible(0);
+ gBSphere->setVisible(0);
+ gBCone->setVisible(1);
+ gBTore->setVisible(0);
+//
+ if ( RB_Def_radius->isChecked() )
+ {
+ SetConeR();
+ }
+ else
+ {
+ SetConeA();
+ }
+//
+ adjustSize();
+// MESSAGE("Fin de SetCone")
+}
+// ------------------------------------------------------------------------
+void MonCreateBoundaryAn::SetTore()
+// ------------------------------------------------------------------------
+{
+ MESSAGE("Debut de SetTore")
+ gBCylindre->setVisible(0);
+ gBSphere->setVisible(0);
+ gBCone->setVisible(0);
+ gBTore->setVisible(1);
+//
+ _Type=5;
+//
+ adjustSize();
+// MESSAGE("Fin de SetTore")
+}
+// ------------------------------------------------------------------------
+void MonCreateBoundaryAn::convertRayonAngle(int option)
+// ------------------------------------------------------------------------
+// Conversion entre les deux formulations du cone :
+// par deux rayons ou avec un axe et un angle.
+// Voir sfcoi1 de HOMARD
+{
+ MESSAGE("Debut de convertRayonAngle, option = "<<option)
+//
+// o
+// ! .
+// ! .
+// RA! .
+// ! o
+// ! RB! .
+// ! ! .
+// A----------------B----------O
+//
+// Thales : RA/RB = AO/BO ==> BO = AB*RB/(RA-RB)
+// Angle : tg(alpha) = RA/AO
+//
+ double daux ;
+// De rayon vers angle :
+ if ( option == 1 )
+ {
+ double xa, ya, za, ra ;
+ double xb, yb, zb, rb ;
+// Positionnement de A vers B, avec RA>RB
+ if ( _BoundaryAnRayon1 > _BoundaryAnRayon2 )
+ {
+ xa = _BoundaryAnXcone1 ;
+ ya = _BoundaryAnYcone1 ;
+ za = _BoundaryAnZcone1 ;
+ ra = _BoundaryAnRayon1 ;
+ xb = _BoundaryAnXcone2 ;
+ yb = _BoundaryAnYcone2 ;
+ zb = _BoundaryAnZcone2 ;
+ rb = _BoundaryAnRayon2 ;
+ }
+ else
+ {
+ xa = _BoundaryAnXcone2 ;
+ ya = _BoundaryAnYcone2 ;
+ za = _BoundaryAnZcone2 ;
+ ra = _BoundaryAnRayon2 ;
+ xb = _BoundaryAnXcone1 ;
+ yb = _BoundaryAnYcone1 ;
+ zb = _BoundaryAnZcone1 ;
+ rb = _BoundaryAnRayon1 ;
+ }
+// Axe : relie les deux centres, de A vers B. L'axe est normalise
+ _BoundaryAnXaxisCone = xb - xa ;
+ _BoundaryAnYaxisCone = yb - ya ;
+ _BoundaryAnZaxisCone = zb - za ;
+ daux = sqrt ( _BoundaryAnXaxisCone*_BoundaryAnXaxisCone + _BoundaryAnYaxisCone*_BoundaryAnYaxisCone + _BoundaryAnZaxisCone*_BoundaryAnZaxisCone ) ;
+ _BoundaryAnXaxisCone = _BoundaryAnXaxisCone/daux ;
+ _BoundaryAnYaxisCone = _BoundaryAnYaxisCone/daux ;
+ _BoundaryAnZaxisCone = _BoundaryAnZaxisCone/daux ;
+// Origine
+ daux = daux * rb / (ra-rb) ;
+ _BoundaryAnXorigCone = xb + daux*_BoundaryAnXaxisCone ;
+ _BoundaryAnYorigCone = yb + daux*_BoundaryAnYaxisCone ;
+ _BoundaryAnZorigCone = zb + daux*_BoundaryAnZaxisCone ;
+// Angle en degre
+ daux = ra / sqrt((_BoundaryAnXorigCone-xa)*(_BoundaryAnXorigCone-xa) + (_BoundaryAnYorigCone-ya)*(_BoundaryAnYorigCone-ya) + (_BoundaryAnZorigCone-za)*(_BoundaryAnZorigCone-za) ) ;
+ _BoundaryAngle = atan(daux)*180./PI ;
+ }
+// D'angle vers rayon :
+ else
+ {
+ double xax, yax, zax ;
+// L'axe est normalise
+ daux = sqrt ( _BoundaryAnXaxisCone*_BoundaryAnXaxisCone + _BoundaryAnYaxisCone*_BoundaryAnYaxisCone + _BoundaryAnZaxisCone*_BoundaryAnZaxisCone ) ;
+ xax = _BoundaryAnXaxisCone/daux ;
+ yax = _BoundaryAnYaxisCone/daux ;
+ zax = _BoundaryAnZaxisCone/daux ;
+// Centre 1 : l'origine
+ _BoundaryAnXcone1 = _BoundaryAnXorigCone ;
+ _BoundaryAnYcone1 = _BoundaryAnYorigCone ;
+ _BoundaryAnZcone1 = _BoundaryAnZorigCone ;
+// Rayon 1 : nul
+ _BoundaryAnRayon1 = 0. ;
+// Centre 2 : l'origine decalee d'une longueur arbitraire le long de l'axe
+ _BoundaryAnXcone2 = _BoundaryAnXorigCone + _DMax*xax ;
+ _BoundaryAnYcone2 = _BoundaryAnYorigCone + _DMax*yax ;
+ _BoundaryAnZcone2 = _BoundaryAnZorigCone + _DMax*zax ;
+// Rayon 2 : a calculer
+ _BoundaryAnRayon2 = _DMax*tan(_BoundaryAngle*PI/180.) ;
+ }
+// MESSAGE("Fin de convertRayonAngle")
+}
