[modules/geom.git] / src / MeasureGUI / MeasureGUI_WhatisDlg.cxx

// Copyright (C) 2007-2022  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
//
// 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
//

// GEOM GEOMGUI : GUI for Geometry component
// File   : MeasureGUI_WhatisDlg.cxx
// Author : Nicolas REJNERI, Open CASCADE S.A.S.
//
#include "MeasureGUI_WhatisDlg.h"
#include "MeasureGUI_Widgets.h"

#include <DlgRef.h>
#include <GEOMBase.h>

#include <SUIT_Session.h>
#include <SUIT_ResourceMgr.h>
#include <SalomeApp_Tools.h>

#include <QGroupBox>
#include <QScrollBar>
#include <QMessageBox>

class MeasureGUI_WhatisDlg::Whatis : public QGroupBox
{ 
public:
  Whatis( QWidget* parent );
  ~Whatis();

  QLabel*      TextLabel1;
  QPushButton* PushButton1;
  QLineEdit*   LineEdit1;
  
  QTextEdit*   TextEdit1;
  
  QLabel*      TextLabel2;
  QLineEdit*   LineEdit2;
  QPushButton* PushButton2;
};

//=================================================================================
// Constructs a MeasureGUI_Whatis_QTD which is a child of 'parent', with the
// name 'name' and widget flags set to 'f'
//=================================================================================
MeasureGUI_WhatisDlg::Whatis::Whatis( QWidget* parent )
  : QGroupBox( parent )
{
  QGridLayout* topLayout = new QGridLayout( this );
  topLayout->setMargin( 11 );
  topLayout->setSpacing( 6 );

  TextLabel1  = new QLabel( this );
  PushButton1 = new QPushButton( this );
  LineEdit1   = new QLineEdit( this );
  TextEdit1   = new QTextEdit( this );
  TextLabel2  = new QLabel( this );
  LineEdit2   = new QLineEdit( this);
  PushButton2 = new QPushButton( this );

  topLayout->addWidget( TextLabel1,  0, 0 );
  topLayout->addWidget( PushButton1, 0, 1 );
  topLayout->addWidget( LineEdit1,   0, 2, 1, 2 );
  topLayout->addWidget( TextEdit1,   1, 0, 1, 4 );
  topLayout->addWidget( TextLabel2 , 2, 0 );
  topLayout->addWidget( LineEdit2  , 2, 1, 1, 2 );
  topLayout->addWidget( PushButton2, 2, 3 );
}

//=================================================================================
// Destroys the object and frees any allocated resources
//=================================================================================
MeasureGUI_WhatisDlg::Whatis::~Whatis()
{
}

//=================================================================================
// class    : MeasureGUI_WhatisDlg( )
// purpose  : Constructs a MeasureGUI_WhatisDlg which is a child of 'parent', with the
//            name 'name' and widget flags set to 'f'.
//            The dialog will by default be modeless, unless you set 'modal' to
//            true to construct a modal dialog.
//=================================================================================
MeasureGUI_WhatisDlg::MeasureGUI_WhatisDlg( GeometryGUI* GUI, QWidget* parent )
  : MeasureGUI_Skeleton( GUI, parent )
{
  SUIT_ResourceMgr* resMgr = SUIT_Session::session()->resourceMgr();
  QPixmap image0( resMgr->loadPixmap( "GEOM", tr( "ICON_DLG_WHATIS" ) ) );
  QPixmap image1( resMgr->loadPixmap( "GEOM", tr( "ICON_SELECT" ) ) );

  setWindowTitle( tr( "GEOM_WHATIS_TITLE" ) );

  /***************************************************************/
  
  mainFrame()->GroupConstructors->setTitle( tr( "GEOM_WHATIS" ) );
  mainFrame()->RadioButton1->setIcon( image0 );

  myGrp = new Whatis( this );

  myGrp->setTitle( tr( "GEOM_WHATIS_OBJECT" ) );

  myGrp->TextLabel1->setText( tr( "GEOM_OBJECT" ) );
  myGrp->PushButton1->setIcon( image1 );
  myGrp->PushButton1->setSizePolicy( QSizePolicy( QSizePolicy::Fixed, QSizePolicy::Fixed ) );
  myGrp->LineEdit1->setReadOnly( true );

  myGrp->TextEdit1->setReadOnly( true );
  myGrp->TextEdit1->setSizePolicy( QSizePolicy( QSizePolicy::Expanding, QSizePolicy::Expanding ) );
  QFontMetrics fm( myGrp->TextEdit1->font() );
  myGrp->TextEdit1->setMinimumHeight( fm.height()*20 );

  myGrp->TextLabel2->setText( tr( "GEOM_KIND_OF_SHAPE" ) );
  myGrp->LineEdit2->setReadOnly( true );
  myGrp->LineEdit2->setMinimumWidth( 150 );
  myGrp->PushButton2->setText( tr( "GEOM_PROPERTIES" ) );
  myGrp->PushButton2->setSizePolicy( QSizePolicy( QSizePolicy::Fixed, QSizePolicy::Fixed ) );

  QVBoxLayout* layout = new QVBoxLayout( centralWidget() );
  layout->setMargin( 0 ); layout->setSpacing( 6 );
  layout->addWidget( myGrp );

  // Properties dialog
  myParamsDlg = new QMessageBox(QMessageBox::Information, "", "", QMessageBox::Ok, this);
  myParamsDlg->setModal( false );

  /***************************************************************/

  myHelpFileName = "whatis_page.html";

  /* Initialisation */
  Init();
}

//=================================================================================
// function : ~MeasureGUI_WhatisDlg()
// purpose  : Destroys the object and frees any allocated resources
//=================================================================================
MeasureGUI_WhatisDlg::~MeasureGUI_WhatisDlg()
{
}

//=================================================================================
// function : Init()
// purpose  :
//=================================================================================
void MeasureGUI_WhatisDlg::Init()
{
  mySelBtn = myGrp->PushButton1;
  mySelEdit = myGrp->LineEdit1;

  connect( myGrp->PushButton2, SIGNAL( clicked() ), this, SLOT( ClickOnProperties() ) );

  MeasureGUI_Skeleton::Init();
}

//=================================================================================
// function : processObject
// purpose  :
//=================================================================================
void MeasureGUI_WhatisDlg::processObject()
{
  QString aText;
  myGrp->TextEdit1->setText( getParameters( aText ) ? aText : QString( "" ) );

  QString aParameters;
  QString aKind = getKindOfShape( aParameters );
  myGrp->LineEdit2->setText( aKind );
  myGrp->PushButton2->setEnabled( !aParameters.isEmpty());
  myParamsDlg->setWindowTitle(aKind + " " + tr("GEOM_PROPERTIES"));
  myParamsDlg->setText(aParameters);
  myParamsDlg->adjustSize();
}

//=================================================================================
// function : activateSelection()
// purpose  :
//=================================================================================
void MeasureGUI_WhatisDlg::activateSelection()
{
  globalSelection(); // all types of objects
  localSelection(TopAbs_SHAPE); // all types of sub-shapes
}

//=================================================================================
// function : ClickOnProperties()
// purpose  :
//=================================================================================
void MeasureGUI_WhatisDlg::ClickOnProperties()
{
  myParamsDlg->show();
}

//=================================================================================
// function : getParameters
// purpose  :
//=================================================================================
bool MeasureGUI_WhatisDlg::getParameters( QString& theText )
{
  if ( !myObj )
    return false;

  GEOM::GEOM_IMeasureOperations_var anOper = GEOM::GEOM_IMeasureOperations::_narrow( getOperation() );
  try
  {
    theText = anOper->WhatIs( myObj.get() );
  }
  catch( const SALOME::SALOME_Exception& e )
  {
    SalomeApp_Tools::QtCatchCorbaException( e );
    return false;
  }

  return anOper->IsDone();
}

//=================================================================================
// function : getKindOfShape
// purpose  :
//=================================================================================
QString MeasureGUI_WhatisDlg::getKindOfShape( QString& theParameters )
{
  QString aKindStr("");
  theParameters = "";

  SUIT_ResourceMgr* resMgr = SUIT_Session::session()->resourceMgr();
  int aLenPrecision = resMgr->integerValue( "Geometry", "length_precision", 6 );

  if ( !myObj )
    return aKindStr;

  GEOM::GEOM_IKindOfShape::shape_kind aKind;
  GEOM::ListOfLong_var anInts;
  GEOM::ListOfDouble_var aDbls;

  GEOM::GEOM_IMeasureOperations_var anOper = GEOM::GEOM_IMeasureOperations::_narrow( getOperation() );

  try
  {
    aKind = anOper->KindOfShape( myObj.get(), anInts, aDbls );
  }
  catch( const SALOME::SALOME_Exception& e ) {
    SalomeApp_Tools::QtCatchCorbaException( e );
    return aKindStr;
  }

  if ( !anOper->IsDone() )
    return aKindStr;

#define PRINT_DOUBLE(val, tol) QString(" %1").arg( DlgRef::PrintDoubleValue( val, tol ) )
#define PRINT_INTEGER(val) QString(" %1").arg( val )
#define TITLE(val) QString("<b>%1</b>").arg(tr(val))
#define TITLE_I(val, i) QString("<b>%1</b>").arg(tr(val).arg(i))
  switch ( aKind )
  {
  case GEOM::GEOM_IKindOfShape::COMPOUND:
    aKindStr = tr( "GEOM_COMPOUND" );
    break;
  case GEOM::GEOM_IKindOfShape::COMPSOLID:
    aKindStr = tr( "GEOM_COMPOUNDSOLID" );
    break;
  case GEOM::GEOM_IKindOfShape::SHELL:
    aKindStr = tr( "GEOM_SHELL" );
    if ( anInts[0] == 1 )
      theParameters = tr( "GEOM_CLOSED" );
    else if ( anInts[0] == 2 )
      theParameters = tr( "GEOM_UNCLOSED" );
    else
      theParameters = tr( "GEOM_CLOSEDUNCLOSED" );
    break;
  case GEOM::GEOM_IKindOfShape::WIRE:
    aKindStr = tr( "GEOM_WIRE" );
    if ( anInts[0] == 1 )
      theParameters = tr( "GEOM_CLOSED" );
    else if ( anInts[0] == 2 )
      theParameters = tr( "GEOM_UNCLOSED" );
    else
      theParameters = tr( "GEOM_CLOSEDUNCLOSED" );
    break;
  // SOLIDs
  case GEOM::GEOM_IKindOfShape::SPHERE:
    aKindStr = tr( "GEOM_SPHERE" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + tr( "GEOM_RADIUS" )         + PRINT_DOUBLE( aDbls[3], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::CYLINDER:
    aKindStr = tr( "GEOM_CYLINDER" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_AXIS" )        +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + tr( "GEOM_RADIUS" )         + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_HEIGHT" )         + PRINT_DOUBLE( aDbls[7], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::BOX:
    aKindStr = tr( "GEOM_BOX" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + "Ax :"                      + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + "Ay :"                      + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + "Az :"                      + PRINT_DOUBLE( aDbls[5], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::ROTATED_BOX:
    aKindStr = tr( "GEOM_BOX" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_Z_AXIS")       +
      "<br>" + tr( "GEOM_Z_I" ).arg( "x" ) + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( "y" ) + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( "z" ) + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_X_AXIS")       +
      "<br>" + tr( "GEOM_X_I" ).arg( "x" ) + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_X_I" ).arg( "y" ) + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
      "<br>" + tr( "GEOM_X_I" ).arg( "z" ) + PRINT_DOUBLE( aDbls[8], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIM_AXES")     +
      "<br>" + tr( "GEOM_A_I" ).arg( "x" ) + PRINT_DOUBLE( aDbls[9], aLenPrecision ) +
      "<br>" + tr( "GEOM_A_I" ).arg( "y" ) + PRINT_DOUBLE( aDbls[10], aLenPrecision ) +
      "<br>" + tr( "GEOM_A_I" ).arg( "z" ) + PRINT_DOUBLE( aDbls[11], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::TORUS:
    aKindStr = tr( "GEOM_TORUS" );
    theParameters = TITLE( "GEOM_CENTER" )    +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_AXIS" )           +
      "<br>" + tr( "GEOM_DX" )                + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )                + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )                + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )     +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 1 ) + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 2 ) + PRINT_DOUBLE( aDbls[7], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::CONE:
    aKindStr = tr( "GEOM_CONE" );
    theParameters = TITLE( "GEOM_CENTER" )    +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_AXIS" )           +
      "<br>" + tr( "GEOM_DX" )                + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )                + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )                + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )     +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 1 ) + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 2 ) + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
      "<br>" + tr( "GEOM_HEIGHT" )            + PRINT_DOUBLE( aDbls[8], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::POLYHEDRON:
    aKindStr = tr( "GEOM_POLYHEDRON" );
    break;
  case GEOM::GEOM_IKindOfShape::SOLID:
    aKindStr = tr( "GEOM_SOLID" );
    break;
  // FACEs
  case GEOM::GEOM_IKindOfShape::SPHERE2D:
    aKindStr = tr( "GEOM_SURFSPHERE" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + tr( "GEOM_RADIUS" )         + PRINT_DOUBLE( aDbls[3], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::CYLINDER2D:
    aKindStr = tr( "GEOM_SURFCYLINDER" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_AXIS" )        +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + tr( "GEOM_RADIUS" )         + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_HEIGHT" )         + PRINT_DOUBLE( aDbls[7], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::TORUS2D:
    aKindStr = tr( "GEOM_SURFTORUS" );
    theParameters = TITLE( "GEOM_CENTER" )    +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_AXIS" )           +
      "<br>" + tr( "GEOM_DX" )                + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )                + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )                + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )     +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 1 ) + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 2 ) + PRINT_DOUBLE( aDbls[7], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::CONE2D:
    aKindStr = tr( "GEOM_SURFCONE" );
    theParameters = TITLE( "GEOM_CENTER" )    +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_AXIS" )           +
      "<br>" + tr( "GEOM_DX" )                + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )                + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )                + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )     +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 1 ) + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 2 ) + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
      "<br>" + tr( "GEOM_HEIGHT" )            + PRINT_DOUBLE( aDbls[8], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::DISK_CIRCLE:
    aKindStr = tr( "GEOM_DISK_CIRCLE" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )      +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + tr( "GEOM_RADIUS" )         + PRINT_DOUBLE( aDbls[6], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::DISK_ELLIPSE:
    aKindStr = tr( "GEOM_DISK_ELLIPSE" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )      +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + tr( "GEOM_RADIUS_MAJOR" )   + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_RADIUS_MINOR" )   + PRINT_DOUBLE( aDbls[7], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::POLYGON:
    aKindStr = tr( "GEOM_POLYGON" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )      +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::PLANE:
    aKindStr = tr( "GEOM_PLANE" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )      +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::PLANAR:
    aKindStr = tr( "GEOM_PLANAR_FACE" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )      +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::FACE:
    aKindStr = tr( "GEOM_FACE" );
    break;
  // EDGEs
  case GEOM::GEOM_IKindOfShape::CIRCLE:
    aKindStr = tr( "GEOM_CIRCLE" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )      +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + tr( "GEOM_RADIUS" )         + PRINT_DOUBLE( aDbls[6], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::ARC_CIRCLE:
    aKindStr = tr( "GEOM_ARC" );
    theParameters = TITLE( "GEOM_CENTER" )  +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )    + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )    + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )    + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )       +
      "<br>" + tr( "GEOM_DX" )              + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )              + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )              + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )   +
      "<br>" + tr( "GEOM_RADIUS" )          + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + TITLE_I( "GEOM_POINT_I", 1 ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 1 )    + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 1 )    + PRINT_DOUBLE( aDbls[8], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 1 )    + PRINT_DOUBLE( aDbls[9], aLenPrecision ) +
      "<br>" + TITLE_I( "GEOM_POINT_I", 2 ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 2 )    + PRINT_DOUBLE( aDbls[10], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 2 )    + PRINT_DOUBLE( aDbls[11], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 2 )    + PRINT_DOUBLE( aDbls[12], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::ELLIPSE:
    aKindStr = tr( "GEOM_ELLIPSE" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )      +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + tr( "GEOM_RADIUS_MAJOR" )   + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_RADIUS_MINOR" )   + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_X_AXIS")       + 
      "<br>" + "Xx :"                      + PRINT_DOUBLE( aDbls[8], aLenPrecision ) +
      "<br>" + "Xy :"                      + PRINT_DOUBLE( aDbls[9], aLenPrecision ) +
      "<br>" + "Xz :"                      + PRINT_DOUBLE( aDbls[10], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_Y_AXIS")       + 
      "<br>" + "Yx :"                      + PRINT_DOUBLE( aDbls[11], aLenPrecision ) +
      "<br>" + "Yy :"                      + PRINT_DOUBLE( aDbls[12], aLenPrecision ) +
      "<br>" + "Yz :"                      + PRINT_DOUBLE( aDbls[13], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::ARC_ELLIPSE:
    aKindStr = tr( "GEOM_ARC_ELLIPSE" );
    theParameters = TITLE( "GEOM_CENTER" )  +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )    + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )    + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )    + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )       +
      "<br>" + tr( "GEOM_DX" )              + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )              + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )              + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )   +
      "<br>" + tr( "GEOM_RADIUS_MAJOR" )    + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_RADIUS_MINOR" )    + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
      "<br>" + TITLE_I( "GEOM_POINT_I", 1 ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 1 )    + PRINT_DOUBLE( aDbls[8], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 1 )    + PRINT_DOUBLE( aDbls[9], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 1 )    + PRINT_DOUBLE( aDbls[10], aLenPrecision ) +
      "<br>" + TITLE_I( "GEOM_POINT_I", 2 ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 2 )    + PRINT_DOUBLE( aDbls[11], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 2 )    + PRINT_DOUBLE( aDbls[12], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 2 )    + PRINT_DOUBLE( aDbls[13], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_X_AXIS")        + 
      "<br>" + "Xx :"                       + PRINT_DOUBLE( aDbls[14], aLenPrecision ) +
      "<br>" + "Xy :"                       + PRINT_DOUBLE( aDbls[15], aLenPrecision ) +
      "<br>" + "Xz :"                       + PRINT_DOUBLE( aDbls[16], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_Y_AXIS")        + 
      "<br>" + "Yx :"                       + PRINT_DOUBLE( aDbls[17], aLenPrecision ) +
      "<br>" + "Yy :"                       + PRINT_DOUBLE( aDbls[18], aLenPrecision ) +
      "<br>" + "Yz :"                       + PRINT_DOUBLE( aDbls[19], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::LINE:
    aKindStr = tr( "GEOM_LINE" );
    theParameters = TITLE( "GEOM_POSITION" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )     + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )     + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )     + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIRECTION" )     +
      "<br>" + tr( "GEOM_DX" )               + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )               + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )               + PRINT_DOUBLE( aDbls[5], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::SEGMENT:
    aKindStr = tr( "GEOM_SEGMENT" );
    theParameters = TITLE_I( "GEOM_POINT_I", 1 ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 1 )         + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 1 )         + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 1 )         + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE_I( "GEOM_POINT_I", 2 )      +
      "<br>" + tr( "GEOM_X_I" ).arg( 2 )         + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 2 )         + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 2 )         + PRINT_DOUBLE( aDbls[5], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::CRV_BSPLINE:
    {
      aKindStr = tr( "GEOM_CRV_BSPLINE" );
      theParameters = TITLE( "GEOM_PARAMETERS" ) +
        "<br>" + tr( "GEOM_PERIODICITY" )        + tr( anInts[0] ? "GEOM_PERIODIC" : "GEOM_NON_PERIODIC") +
        "<br>" + tr( "GEOM_DEGREE" )             + PRINT_INTEGER( anInts[1] ) +
        "<br>" + tr( "GEOM_NUM_POLES" )          + PRINT_INTEGER( anInts[2] ) +
        "<br>" + tr( "GEOM_NUM_WEIGHTS" )        + PRINT_INTEGER( anInts[4] ) +
        "<br>" + tr( "GEOM_NUM_KNOTS" )          + PRINT_INTEGER( anInts[3] ) +
        "<br>" + tr( "GEOM_NUM_MULTIS" )         + PRINT_INTEGER( anInts[5] ) +
        "<br>" + TITLE( "GEOM_POLES" );
      // Show max. 5 poles
      Standard_Integer i, nb = std::min(5, anInts[2]);
      if (anInts[4] == anInts[2]) {
        // Each pole has a specific weight associated
        Standard_Integer widx = anInts[2] * 3 + anInts[3]; // skip poles and knots
        for (i=0; i<nb; i++) {
          theParameters +=
          "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) +
          "("     + PRINT_DOUBLE( aDbls[i*3], aLenPrecision ) +
          ", "    + PRINT_DOUBLE( aDbls[i*3+1], aLenPrecision ) +
          ", "    + PRINT_DOUBLE( aDbls[i*3+2], aLenPrecision ) +
          " )\t" + PRINT_DOUBLE( aDbls[widx+i], aLenPrecision );
        }
      } else { 
        for (i=0; i<nb; i++) {
          theParameters +=
          "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) + "(" + PRINT_DOUBLE( aDbls[i*3], aLenPrecision ) +
          ", " + PRINT_DOUBLE( aDbls[i*3+1], aLenPrecision ) +
          ", " + PRINT_DOUBLE( aDbls[i*3+2], aLenPrecision ) + " )";
        }
      }
      if (nb < anInts[2])
        theParameters += "<br>...";
      // Show max. 5 knots
      theParameters += "<br>" + TITLE( "GEOM_KNOTS" );
      nb = std::min(5, anInts[3]);
      Standard_Integer kidx = anInts[2] * 3; // skip poles
      if (anInts[5] == anInts[3]) {
        // Each knot has a multiplicity associated
        for (i=0; i<nb; i++) {
          theParameters +=
          "<br>" + tr( "GEOM_KNOT_I" ).arg( i+1 ) + PRINT_DOUBLE( aDbls[kidx+i], aLenPrecision ) +
          "\t" + PRINT_INTEGER( anInts[6+i] );
        }
      } else {
        // Each pole has a uniform weight of 1 (do not show it)
        for (i=0; i<nb; i++) {
          theParameters +=
            "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) + PRINT_DOUBLE( aDbls[kidx+i], aLenPrecision );
        }
      }
      if (nb < anInts[3])
        theParameters = theParameters + "<br>...";
    }
    break;
  case GEOM::GEOM_IKindOfShape::CRV_BEZIER:
    {
      aKindStr = tr( "GEOM_CRV_BEZIER" );
      theParameters = TITLE( "GEOM_PARAMETERS" ) +
        "<br>" + tr( "GEOM_NUM_POLES" )          + PRINT_INTEGER( anInts[0] ) +
        "<br>" + tr( "GEOM_NUM_WEIGHTS" )        + PRINT_INTEGER( anInts[1] ) +
        "<br>" + TITLE( "GEOM_POLES" );
      Standard_Integer i, nb = std::min(5, anInts[0]); // show max. 5 poles
      if (anInts[1] > 0) {
        Standard_Integer widx = anInts[2] * 3 + anInts[3];
        for (i=0; i<nb; i++) {
          theParameters = theParameters +
          "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) + "(" + PRINT_DOUBLE( aDbls[i*3], aLenPrecision ) +
          ", " + PRINT_DOUBLE( aDbls[i*3+1], aLenPrecision ) +
          ", " + PRINT_DOUBLE( aDbls[i*3+2], aLenPrecision ) +
          ") " + PRINT_DOUBLE( aDbls[widx+i], aLenPrecision );
        }
      } else {
        for (i=0; i<nb; i++) {
          theParameters = theParameters +
          "<br>" + tr( "GEOM_POLE_I" ).arg( i+1 ) + "(" + PRINT_DOUBLE( aDbls[i*3], aLenPrecision ) +
          ", " + PRINT_DOUBLE( aDbls[i*3+1], aLenPrecision ) +
          ", " + PRINT_DOUBLE( aDbls[i*3+2], aLenPrecision ) + ")";
        }
      }
      if (nb < anInts[0])
        theParameters = theParameters + "<br>...";
    }
    break;
 case GEOM::GEOM_IKindOfShape::HYPERBOLA:
    aKindStr = tr( "GEOM_HYPERBOLA" );
    theParameters = TITLE( "GEOM_CENTER" )    +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )      + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )         +
      "<br>" + tr( "GEOM_DX" )                + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )                + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )                + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )     +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 1 ) + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + tr( "GEOM_RADIUS_I" ).arg( 2 ) + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_X_AXIS")          + 
      "<br>" + "Xx :"                         + PRINT_DOUBLE( aDbls[8], aLenPrecision ) +
      "<br>" + "Xy :"                         + PRINT_DOUBLE( aDbls[9], aLenPrecision ) +
      "<br>" + "Xz :"                         + PRINT_DOUBLE( aDbls[10], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_Y_AXIS")          + 
      "<br>" + "Yx :"                         + PRINT_DOUBLE( aDbls[11], aLenPrecision ) +
      "<br>" + "Yy :"                         + PRINT_DOUBLE( aDbls[12], aLenPrecision ) +
      "<br>" + "Yz :"                         + PRINT_DOUBLE( aDbls[13], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::PARABOLA:
    aKindStr = tr( "GEOM_PARABOLA" );
    theParameters = TITLE( "GEOM_CENTER" ) +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 )   + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_NORMAL" )      +
      "<br>" + tr( "GEOM_DX" )             + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + tr( "GEOM_DY" )             + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + tr( "GEOM_DZ" )             + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_DIMENSIONS" )  +
      "<br>" + tr( "GEOM_FOCAL_LENGTH" )   + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_X_AXIS")       + 
      "<br>" + "Xx :"                      + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
      "<br>" + "Xy :"                      + PRINT_DOUBLE( aDbls[8], aLenPrecision ) +
      "<br>" + "Xz :"                      + PRINT_DOUBLE( aDbls[9], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_Y_AXIS")       + 
      "<br>" + "Yx :"                      + PRINT_DOUBLE( aDbls[10], aLenPrecision ) +
      "<br>" + "Yy :"                      + PRINT_DOUBLE( aDbls[11], aLenPrecision ) +
      "<br>" + "Yz :"                      + PRINT_DOUBLE( aDbls[12], aLenPrecision );
    break;

  case GEOM::GEOM_IKindOfShape::EDGE:
    aKindStr = tr( "GEOM_EDGE" );
    break;
  case GEOM::GEOM_IKindOfShape::VERTEX:
    aKindStr = tr( "GEOM_VERTEX" );
    theParameters = TITLE( "GEOM_COORDINATES" ) +
      "<br>" + tr( "GEOM_X" )                   + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y" )                   + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z" )                   + PRINT_DOUBLE( aDbls[2], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::LCS:
    aKindStr = tr( "GEOM_LCS" );
    theParameters = TITLE("GEOM_POSITION")    +
      "<br>" + tr( "GEOM_X_I" ).arg( 0 ) + PRINT_DOUBLE( aDbls[0], aLenPrecision ) +
      "<br>" + tr( "GEOM_Y_I" ).arg( 0 ) + PRINT_DOUBLE( aDbls[1], aLenPrecision ) +
      "<br>" + tr( "GEOM_Z_I" ).arg( 0 ) + PRINT_DOUBLE( aDbls[2], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_X_AXIS")     + 
      "<br>" + "Xx :"                    + PRINT_DOUBLE( aDbls[3], aLenPrecision ) +
      "<br>" + "Xy :"                    + PRINT_DOUBLE( aDbls[4], aLenPrecision ) +
      "<br>" + "Xz :"                    + PRINT_DOUBLE( aDbls[5], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_Y_AXIS")     + 
      "<br>" + "Yx :"                    + PRINT_DOUBLE( aDbls[6], aLenPrecision ) +
      "<br>" + "Yy :"                    + PRINT_DOUBLE( aDbls[7], aLenPrecision ) +
      "<br>" + "Yz :"                    + PRINT_DOUBLE( aDbls[8], aLenPrecision ) +
      "<br>" + TITLE( "GEOM_Z_AXIS")     + 
      "<br>" + "Zx :"                    + PRINT_DOUBLE( aDbls[9],  aLenPrecision ) +
      "<br>" + "Zy :"                    + PRINT_DOUBLE( aDbls[10], aLenPrecision ) +
      "<br>" + "Zz :"                    + PRINT_DOUBLE( aDbls[11], aLenPrecision );
    break;
  case GEOM::GEOM_IKindOfShape::ADVANCED:
    {
      QString strid = QString( "GEOM_ADVANCED_%1" ).arg( myObj->GetType() ); 
      aKindStr = tr( strid.toLatin1().constData() ) == strid ? 
        tr( "GEOM_ADVANCED" ).arg( myObj->GetType() ) :
        tr( strid.toLatin1().constData() );
      break;
    }
  default:
    break;
  }

  return aKindStr;
}

void MeasureGUI_WhatisDlg::SelectionIntoArgument()
{
  myObj.nullify();
  myObj = getSelected( TopAbs_SHAPE );
 
  if (!myObj) {
    mySelEdit->setText("");
    processObject();
    erasePreview();
    return;
  }

  mySelEdit->setText(GEOMBase::GetName(myObj.get()));
  processObject();
  redisplayPreview();
}