geom/src/GEOM_I/GEOM_IAdvancedOperations_i.cc

// Copyright (C) 2007-2012  CEA/DEN, EDF R&D, OPEN CASCADE
//
// 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.
//
// 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
//

//  File   : GEOM_IAdvancedOperations.cc
//  Author : Vadim SANDLER, Open CASCADE S.A.S. (vadim.sandler@opencascade.com)
//
#include <Standard_Stream.hxx>

#include "GEOM_IAdvancedOperations_i.hh"

#include <utilities.h>
#include <OpUtil.hxx>
#include <Utils_ExceptHandlers.hxx>

#include "GEOM_Engine.hxx"
#include "GEOM_Object.hxx"

//=============================================================================
/*!
 *   constructor:
 */
//=============================================================================
GEOM_IAdvancedOperations_i::GEOM_IAdvancedOperations_i(PortableServer::POA_ptr thePOA, GEOM::GEOM_Gen_ptr theEngine, ::GEOMImpl_IAdvancedOperations* theImpl)
:GEOM_IOperations_i(thePOA, theEngine, theImpl)
{
  MESSAGE("GEOM_IAdvancedOperations_i::GEOM_IAdvancedOperations_i");
}

//=============================================================================
/*!
 *  destructor
 */
//=============================================================================
GEOM_IAdvancedOperations_i::~GEOM_IAdvancedOperations_i()
{
  MESSAGE("GEOM_IAdvancedOperations_i::~GEOM_IAdvancedOperations_i");
}

//=============================================================================
/*!
 *  MakePipeTShape
 *  Create a T-shape object with specified caracteristics for the main and
 *  the incident pipes (radius, width, half-length).
 *  Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
 *  \param theR1 Internal radius of main pipe
 *  \param theW1 Width of main pipe
 *  \param theL1 Half-length of main pipe
 *  \param theR2 Internal radius of incident pipe (R2 < R1)
 *  \param theW2 Width of incident pipe (R2+W2 < R1+W1)
 *  \param theL2 Half-length of incident pipe
 *  \param theHexMesh Boolean indicating if shape is prepared for hex mesh
 *  \return List of GEOM_Objects, containing the created shape and propagation groups.
 */
//=============================================================================
GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShape (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1, 
							      CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2, CORBA::Boolean theHexMesh)
{
  GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;

  //Set a not done flag
  GetOperations()->SetNotDone();

  //Create the TShape
  Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShape(theR1, theW1, theL1, theR2, theW2, theL2, theHexMesh);
  if (!GetOperations()->IsDone() || aHSeq.IsNull())
    return aSeq._retn();
  
  Standard_Integer aLength = aHSeq->Length();
  aSeq->length(aLength);
  for (Standard_Integer i = 1; i <= aLength; i++)
    aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));

  return aSeq._retn();
}

//=============================================================================
/*!
 *  MakePipeTShapeWithPosition
 *  Create a T-shape object with specified caracteristics for the main and
 *  the incident pipes (radius, width, half-length).
 *  The extremities of the main pipe are located on junctions points P1 and P2.
 *  The extremity of the incident pipe is located on junction point P3.
 *  \param theR1 Internal radius of main pipe
 *  \param theW1 Width of main pipe
 *  \param theL1 Half-length of main pipe
 *  \param theR2 Internal radius of incident pipe (R2 < R1)
 *  \param theW2 Width of incident pipe (R2+W2 < R1+W1)
 *  \param theL2 Half-length of incident pipe
 *  \param theHexMesh Boolean indicating if shape is prepared for hex mesh
 *  \param theP1 1st junction point of main pipe
 *  \param theP2 2nd junction point of main pipe
 *  \param theP3 Junction point of incident pipe
 *  \return List of GEOM_Objects, containing the created shape and propagation groups.
 */
//=============================================================================
GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeWithPosition (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1, 
									      CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2, CORBA::Boolean theHexMesh,
									      GEOM::GEOM_Object_ptr theP1, GEOM::GEOM_Object_ptr theP2, GEOM::GEOM_Object_ptr theP3)
{
  GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;

  //Set a not done flag
  GetOperations()->SetNotDone();

  //Get the reference vertices
  Handle(GEOM_Object) aP1 = GetObjectImpl(theP1);
  Handle(GEOM_Object) aP2 = GetObjectImpl(theP2);
  Handle(GEOM_Object) aP3 = GetObjectImpl(theP3);
  if (aP1.IsNull() || aP2.IsNull() || aP3.IsNull())return aSeq._retn();

  //Create the TShape
  Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeWithPosition(theR1, theW1, theL1, theR2, theW2, theL2, theHexMesh, aP1, aP2, aP3);
  if (!GetOperations()->IsDone() || aHSeq.IsNull())
    return aSeq._retn();
  
  Standard_Integer aLength = aHSeq->Length();
  aSeq->length(aLength);
  for (Standard_Integer i = 1; i <= aLength; i++)
    aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));

  return aSeq._retn();
}

//=============================================================================
/*!
 *  MakePipeTShapeChamfer
 *  Create a T-shape object with specified caracteristics for the main and
 *  the incident pipes (radius, width, half-length). A chamfer is created
 *  on the junction of the pipes.
 *  Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
 *  \param theR1 Internal radius of main pipe
 *  \param theW1 Width of main pipe
 *  \param theL1 Half-length of main pipe
 *  \param theR2 Internal radius of incident pipe (R2 < R1)
 *  \param theW2 Width of incident pipe (R2+W2 < R1+W1)
 *  \param theL2 Half-length of incident pipe
 *  \param theH Height of chamfer.
 *  \param theW Width of chamfer.
 *  \param theHexMesh Boolean indicating if shape is prepared for hex mesh
 *  \return List of GEOM_Objects, containing the created shape and propagation groups.
 */
//=============================================================================
GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeChamfer(CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1, 
									CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2, 
									CORBA::Double theH, CORBA::Double theW, CORBA::Boolean theHexMesh)
{
  GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;

  //Set a not done flag
  GetOperations()->SetNotDone();

  //Create the TShape
  Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeChamfer(theR1, theW1, theL1, theR2, theW2, theL2, theH, theW, theHexMesh);
  if (!GetOperations()->IsDone() || aHSeq.IsNull())
    return aSeq._retn();
  
  Standard_Integer aLength = aHSeq->Length();
  aSeq->length(aLength);
  for (Standard_Integer i = 1; i <= aLength; i++)
    aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));

  return aSeq._retn();
}

//=============================================================================
/*!
 *  MakePipeTShapeChamferWithPosition
 *  Create a T-shape object with specified caracteristics for the main and
 *  the incident pipes (radius, width, half-length). A chamfer is created
 *  on the junction of the pipes.
 *  The extremities of the main pipe are located on junctions points P1 and P2.
 *  The extremity of the incident pipe is located on junction point P3.
 *  \param theR1 Internal radius of main pipe
 *  \param theW1 Width of main pipe
 *  \param theL1 Half-length of main pipe
 *  \param theR2 Internal radius of incident pipe (R2 < R1)
 *  \param theW2 Width of incident pipe (R2+W2 < R1+W1)
 *  \param theL2 Half-length of incident pipe
 *  \param theH Height of the chamfer.
 *  \param theW Width of the chamfer.
 *  \param theHexMesh Boolean indicating if shape is prepared for hex mesh
 *  \param theP1 1st junction point of main pipe
 *  \param theP2 2nd junction point of main pipe
 *  \param theP3 Junction point of incident pipe
 *  \return List of GEOM_Objects, containing the created shape and propagation groups.
 */
//=============================================================================
GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeChamferWithPosition (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1, 
										     CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2, 
										     CORBA::Double theH, CORBA::Double theW, CORBA::Boolean theHexMesh,
										     GEOM::GEOM_Object_ptr theP1, GEOM::GEOM_Object_ptr theP2, GEOM::GEOM_Object_ptr theP3)
{
  GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;

  //Set a not done flag
  GetOperations()->SetNotDone();

  //Get the reference vertices
  Handle(GEOM_Object) aP1 = GetObjectImpl(theP1);
  Handle(GEOM_Object) aP2 = GetObjectImpl(theP2);
  Handle(GEOM_Object) aP3 = GetObjectImpl(theP3);

  //Create the TShape
  Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeChamferWithPosition(theR1, theW1, theL1, theR2, theW2, theL2, theH, theW,
										    theHexMesh, aP1, aP2, aP3);
  if (!GetOperations()->IsDone() || aHSeq.IsNull())
    return aSeq._retn();
  
  Standard_Integer aLength = aHSeq->Length();
  aSeq->length(aLength);
  for (Standard_Integer i = 1; i <= aLength; i++)
    aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));

  return aSeq._retn();
}

//=============================================================================
/*!
 *  MakePipeTShapeFillet
 *  Create a T-shape object with specified caracteristics for the main and
 *  the incident pipes (radius, width, half-length). A fillet is created
 *  on the junction of the pipes.
 *  Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
 *  \param theR1 Internal radius of main pipe
 *  \param theW1 Width of main pipe
 *  \param theL1 Half-length of main pipe
 *  \param theR2 Internal radius of incident pipe (R2 < R1)
 *  \param theW2 Width of incident pipe (R2+W2 < R1+W1)
 *  \param theL2 Half-length of incident pipe
 *  \param theRF Radius of curvature of fillet.
 *  \param theHexMesh Boolean indicating if shape is prepared for hex mesh
 *  \return List of GEOM_Objects, containing the created shape and propagation groups.
 */
//=============================================================================
GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeFillet (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1,
									CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2, 
									CORBA::Double theRF, CORBA::Boolean theHexMesh)
{
  GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;

  //Set a not done flag
  GetOperations()->SetNotDone();

  //Create the TShape
  Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeFillet(theR1, theW1, theL1, theR2, theW2, theL2, theRF, theHexMesh);
  if (!GetOperations()->IsDone() || aHSeq.IsNull())
    return aSeq._retn();
  
  Standard_Integer aLength = aHSeq->Length();
  aSeq->length(aLength);
  for (Standard_Integer i = 1; i <= aLength; i++)
    aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));

  return aSeq._retn();
}

//=============================================================================
/*!
 *  MakePipeTShapeFilletWithPosition
 *  Create a T-shape object with specified caracteristics for the main and
 *  the incident pipes (radius, width, half-length). A fillet is created
 *  on the junction of the pipes.
 *  The extremities of the main pipe are located on junctions points P1 and P2.
 *  The extremity of the incident pipe is located on junction point P3.
 *  \param theR1 Internal radius of main pipe
 *  \param theW1 Width of main pipe
 *  \param theL1 Half-length of main pipe
 *  \param theR2 Internal radius of incident pipe (R2 < R1)
 *  \param theW2 Width of incident pipe (R2+W2 < R1+W1)
 *  \param theL2 Half-length of incident pipe
 *  \param theRF Radius of curvature of fillet
 *  \param theHexMesh Boolean indicating if shape is prepared for hex mesh
 *  \param theP1 1st junction point of main pipe
 *  \param theP2 2nd junction point of main pipe
 *  \param theP3 Junction point of incident pipe
 *  \return List of GEOM_Objects, containing the created shape and propagation groups.
 */
//=============================================================================
GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeFilletWithPosition (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1,
										    CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2, 
										    CORBA::Double theRF, CORBA::Boolean theHexMesh,
										    GEOM::GEOM_Object_ptr theP1, GEOM::GEOM_Object_ptr theP2, GEOM::GEOM_Object_ptr theP3)
{
  GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;

  //Set a not done flag
  GetOperations()->SetNotDone();

  //Get the reference vertices
  Handle(GEOM_Object) aP1 = GetObjectImpl(theP1);
  Handle(GEOM_Object) aP2 = GetObjectImpl(theP2);
  Handle(GEOM_Object) aP3 = GetObjectImpl(theP3);

  //Create the TShape
  Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeFilletWithPosition(theR1, theW1, theL1, theR2, theW2, theL2, theRF, 
										   theHexMesh, aP1, aP2, aP3);
  if (!GetOperations()->IsDone() || aHSeq.IsNull())
    return aSeq._retn();
  
  Standard_Integer aLength = aHSeq->Length();
  aSeq->length(aLength);
  for (Standard_Integer i = 1; i <= aLength; i++)
    aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));

  return aSeq._retn();
}

//=============================================================================
/*!
 *  This function allows to create a disk already divided into blocks. It can be
 *  use to create divided pipes for later meshing in hexaedra.
 *  \param theR Radius of the disk
 *  \param theRatio Relative size of the central square diagonal against the disk diameter
 *  \return New GEOM_Object, containing the created shape.
 */
//=============================================================================
GEOM::GEOM_Object_ptr GEOM_IAdvancedOperations_i::MakeDividedDisk (CORBA::Double theR, 
                                                                   CORBA::Double theRatio, 
                                                                   CORBA::Short theOrientation,
                                                                   GEOM::pattern thePattern)
{
  GEOM::GEOM_Object_var aGEOMObject;

  //Set a not done flag
  GetOperations()->SetNotDone();

  //Create the DividedDisk
  Handle(GEOM_Object) anObject = GetOperations()->MakeDividedDisk(theR, theRatio, theOrientation, thePattern);
  if (!GetOperations()->IsDone() || anObject.IsNull())
    return aGEOMObject._retn();

  return GetObject(anObject);
}

//=============================================================================
/*!
 *  MakeDividedDiskPntVecR
 */
//=============================================================================
GEOM::GEOM_Object_ptr GEOM_IAdvancedOperations_i::MakeDividedDiskPntVecR (GEOM::GEOM_Object_ptr thePnt, 
                                                                          GEOM::GEOM_Object_ptr theVec,
                                                                          CORBA::Double theR,
                                                                          CORBA::Double theRatio,
                                                                          GEOM::pattern thePattern)
{
  GEOM::GEOM_Object_var aGEOMObject;

  //Set a not done flag
  GetOperations()->SetNotDone();

  //Get the reference points
  Handle(GEOM_Object) aPnt = GetObjectImpl(thePnt);
  Handle(GEOM_Object) aVec = GetObjectImpl(theVec);

  if (aPnt.IsNull() || aVec.IsNull()) return aGEOMObject._retn();

  // Make DividedDisk
  Handle(GEOM_Object) anObject =
    GetOperations()->MakeDividedDiskPntVecR(aPnt, aVec, theR, theRatio, thePattern);
  if (!GetOperations()->IsDone() || anObject.IsNull())
    return aGEOMObject._retn();

  return GetObject(anObject);
}

//=============================================================================
/*!
 *  Builds a cylinder prepared for hexa meshes
 *  \param theR Radius of the cylinder
 *  \param theH Height of the cylinder
 *  \return New GEOM_Object, containing the created shape.
 */
//=============================================================================
GEOM::GEOM_Object_ptr GEOM_IAdvancedOperations_i::MakeDividedCylinder (CORBA::Double theR, 
                                                                       CORBA::Double theH,
                                                                       GEOM::pattern thePattern)
{
  GEOM::GEOM_Object_var aGEOMObject;

  //Set a not done flag
  GetOperations()->SetNotDone();

  //Create the DividedCylinder
  Handle(GEOM_Object) anObject = GetOperations()->MakeDividedCylinder(theR, theH, thePattern);
  if (!GetOperations()->IsDone() || anObject.IsNull())
    return aGEOMObject._retn();

  return GetObject(anObject);
}

/*@@ insert new functions before this line @@ do not remove this line @@*/
Merge from V6_main_20120808 08Aug12 2012-08-09 13:58:02 +06:00			`// Copyright (C) 2007-2012 CEA/DEN, EDF R&D, OPEN CASCADE`
			`//`
			`// 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.`
			`//`
			`// 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`
			`//`

			`// File : GEOM_IAdvancedOperations.cc`
			`// Author : Vadim SANDLER, Open CASCADE S.A.S. (vadim.sandler@opencascade.com)`
			`//`
			`#include <Standard_Stream.hxx>`

			`#include "GEOM_IAdvancedOperations_i.hh"`

			`#include <utilities.h>`
			`#include <OpUtil.hxx>`
			`#include <Utils_ExceptHandlers.hxx>`

			`#include "GEOM_Engine.hxx"`
			`#include "GEOM_Object.hxx"`

			`//=============================================================================`
			`/*!`
			`* constructor:`
			`*/`
			`//=============================================================================`
			`GEOM_IAdvancedOperations_i::GEOM_IAdvancedOperations_i(PortableServer::POA_ptr thePOA, GEOM::GEOM_Gen_ptr theEngine, ::GEOMImpl_IAdvancedOperations* theImpl)`
			`:GEOM_IOperations_i(thePOA, theEngine, theImpl)`
			`{`
			`MESSAGE("GEOM_IAdvancedOperations_i::GEOM_IAdvancedOperations_i");`
			`}`

			`//=============================================================================`
			`/*!`
			`* destructor`
			`*/`
			`//=============================================================================`
			`GEOM_IAdvancedOperations_i::~GEOM_IAdvancedOperations_i()`
			`{`
			`MESSAGE("GEOM_IAdvancedOperations_i::~GEOM_IAdvancedOperations_i");`
			`}`

			`//=============================================================================`
			`/*!`
			`* MakePipeTShape`
			`* Create a T-shape object with specified caracteristics for the main and`
			`* the incident pipes (radius, width, half-length).`
			`* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.`
			`* \param theR1 Internal radius of main pipe`
			`* \param theW1 Width of main pipe`
			`* \param theL1 Half-length of main pipe`
			`* \param theR2 Internal radius of incident pipe (R2 < R1)`
			`* \param theW2 Width of incident pipe (R2+W2 < R1+W1)`
			`* \param theL2 Half-length of incident pipe`
			`* \param theHexMesh Boolean indicating if shape is prepared for hex mesh`
			`* \return List of GEOM_Objects, containing the created shape and propagation groups.`
			`*/`
			`//=============================================================================`
			`GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShape (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1,`
			`CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2, CORBA::Boolean theHexMesh)`
			`{`
			`GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;`

			`//Set a not done flag`
			`GetOperations()->SetNotDone();`

			`//Create the TShape`
			`Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShape(theR1, theW1, theL1, theR2, theW2, theL2, theHexMesh);`
			`if (!GetOperations()->IsDone() \|\| aHSeq.IsNull())`
			`return aSeq._retn();`

			`Standard_Integer aLength = aHSeq->Length();`
			`aSeq->length(aLength);`
			`for (Standard_Integer i = 1; i <= aLength; i++)`
			`aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));`

			`return aSeq._retn();`
			`}`

			`//=============================================================================`
			`/*!`
			`* MakePipeTShapeWithPosition`
			`* Create a T-shape object with specified caracteristics for the main and`
			`* the incident pipes (radius, width, half-length).`
			`* The extremities of the main pipe are located on junctions points P1 and P2.`
			`* The extremity of the incident pipe is located on junction point P3.`
			`* \param theR1 Internal radius of main pipe`
			`* \param theW1 Width of main pipe`
			`* \param theL1 Half-length of main pipe`
			`* \param theR2 Internal radius of incident pipe (R2 < R1)`
			`* \param theW2 Width of incident pipe (R2+W2 < R1+W1)`
			`* \param theL2 Half-length of incident pipe`
			`* \param theHexMesh Boolean indicating if shape is prepared for hex mesh`
			`* \param theP1 1st junction point of main pipe`
			`* \param theP2 2nd junction point of main pipe`
			`* \param theP3 Junction point of incident pipe`
			`* \return List of GEOM_Objects, containing the created shape and propagation groups.`
			`*/`
			`//=============================================================================`
			`GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeWithPosition (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1,`
			`CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2, CORBA::Boolean theHexMesh,`
			`GEOM::GEOM_Object_ptr theP1, GEOM::GEOM_Object_ptr theP2, GEOM::GEOM_Object_ptr theP3)`
			`{`
			`GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;`

			`//Set a not done flag`
			`GetOperations()->SetNotDone();`

			`//Get the reference vertices`
			`Handle(GEOM_Object) aP1 = GetObjectImpl(theP1);`
			`Handle(GEOM_Object) aP2 = GetObjectImpl(theP2);`
			`Handle(GEOM_Object) aP3 = GetObjectImpl(theP3);`
			`if (aP1.IsNull() \|\| aP2.IsNull() \|\| aP3.IsNull())return aSeq._retn();`

			`//Create the TShape`
			`Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeWithPosition(theR1, theW1, theL1, theR2, theW2, theL2, theHexMesh, aP1, aP2, aP3);`
			`if (!GetOperations()->IsDone() \|\| aHSeq.IsNull())`
			`return aSeq._retn();`

			`Standard_Integer aLength = aHSeq->Length();`
			`aSeq->length(aLength);`
			`for (Standard_Integer i = 1; i <= aLength; i++)`
			`aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));`

			`return aSeq._retn();`
			`}`

			`//=============================================================================`
			`/*!`
			`* MakePipeTShapeChamfer`
			`* Create a T-shape object with specified caracteristics for the main and`
			`* the incident pipes (radius, width, half-length). A chamfer is created`
			`* on the junction of the pipes.`
			`* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.`
			`* \param theR1 Internal radius of main pipe`
			`* \param theW1 Width of main pipe`
			`* \param theL1 Half-length of main pipe`
			`* \param theR2 Internal radius of incident pipe (R2 < R1)`
			`* \param theW2 Width of incident pipe (R2+W2 < R1+W1)`
			`* \param theL2 Half-length of incident pipe`
			`* \param theH Height of chamfer.`
			`* \param theW Width of chamfer.`
			`* \param theHexMesh Boolean indicating if shape is prepared for hex mesh`
			`* \return List of GEOM_Objects, containing the created shape and propagation groups.`
			`*/`
			`//=============================================================================`
			`GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeChamfer(CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1,`
			`CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2,`
			`CORBA::Double theH, CORBA::Double theW, CORBA::Boolean theHexMesh)`
			`{`
			`GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;`

			`//Set a not done flag`
			`GetOperations()->SetNotDone();`

			`//Create the TShape`
			`Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeChamfer(theR1, theW1, theL1, theR2, theW2, theL2, theH, theW, theHexMesh);`
			`if (!GetOperations()->IsDone() \|\| aHSeq.IsNull())`
			`return aSeq._retn();`

			`Standard_Integer aLength = aHSeq->Length();`
			`aSeq->length(aLength);`
			`for (Standard_Integer i = 1; i <= aLength; i++)`
			`aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));`

			`return aSeq._retn();`
			`}`

			`//=============================================================================`
			`/*!`
			`* MakePipeTShapeChamferWithPosition`
			`* Create a T-shape object with specified caracteristics for the main and`
			`* the incident pipes (radius, width, half-length). A chamfer is created`
			`* on the junction of the pipes.`
			`* The extremities of the main pipe are located on junctions points P1 and P2.`
			`* The extremity of the incident pipe is located on junction point P3.`
			`* \param theR1 Internal radius of main pipe`
			`* \param theW1 Width of main pipe`
			`* \param theL1 Half-length of main pipe`
			`* \param theR2 Internal radius of incident pipe (R2 < R1)`
			`* \param theW2 Width of incident pipe (R2+W2 < R1+W1)`
			`* \param theL2 Half-length of incident pipe`
			`* \param theH Height of the chamfer.`
			`* \param theW Width of the chamfer.`
			`* \param theHexMesh Boolean indicating if shape is prepared for hex mesh`
			`* \param theP1 1st junction point of main pipe`
			`* \param theP2 2nd junction point of main pipe`
			`* \param theP3 Junction point of incident pipe`
			`* \return List of GEOM_Objects, containing the created shape and propagation groups.`
			`*/`
			`//=============================================================================`
			`GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeChamferWithPosition (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1,`
			`CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2,`
			`CORBA::Double theH, CORBA::Double theW, CORBA::Boolean theHexMesh,`
			`GEOM::GEOM_Object_ptr theP1, GEOM::GEOM_Object_ptr theP2, GEOM::GEOM_Object_ptr theP3)`
			`{`
			`GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;`

			`//Set a not done flag`
			`GetOperations()->SetNotDone();`

			`//Get the reference vertices`
			`Handle(GEOM_Object) aP1 = GetObjectImpl(theP1);`
			`Handle(GEOM_Object) aP2 = GetObjectImpl(theP2);`
			`Handle(GEOM_Object) aP3 = GetObjectImpl(theP3);`

			`//Create the TShape`
			`Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeChamferWithPosition(theR1, theW1, theL1, theR2, theW2, theL2, theH, theW,`
			`theHexMesh, aP1, aP2, aP3);`
			`if (!GetOperations()->IsDone() \|\| aHSeq.IsNull())`
			`return aSeq._retn();`

			`Standard_Integer aLength = aHSeq->Length();`
			`aSeq->length(aLength);`
			`for (Standard_Integer i = 1; i <= aLength; i++)`
			`aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));`

			`return aSeq._retn();`
			`}`

			`//=============================================================================`
			`/*!`
			`* MakePipeTShapeFillet`
			`* Create a T-shape object with specified caracteristics for the main and`
			`* the incident pipes (radius, width, half-length). A fillet is created`
			`* on the junction of the pipes.`
			`* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.`
			`* \param theR1 Internal radius of main pipe`
			`* \param theW1 Width of main pipe`
			`* \param theL1 Half-length of main pipe`
			`* \param theR2 Internal radius of incident pipe (R2 < R1)`
			`* \param theW2 Width of incident pipe (R2+W2 < R1+W1)`
			`* \param theL2 Half-length of incident pipe`
			`* \param theRF Radius of curvature of fillet.`
			`* \param theHexMesh Boolean indicating if shape is prepared for hex mesh`
			`* \return List of GEOM_Objects, containing the created shape and propagation groups.`
			`*/`
			`//=============================================================================`
			`GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeFillet (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1,`
			`CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2,`
			`CORBA::Double theRF, CORBA::Boolean theHexMesh)`
			`{`
			`GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;`

			`//Set a not done flag`
			`GetOperations()->SetNotDone();`

			`//Create the TShape`
			`Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeFillet(theR1, theW1, theL1, theR2, theW2, theL2, theRF, theHexMesh);`
			`if (!GetOperations()->IsDone() \|\| aHSeq.IsNull())`
			`return aSeq._retn();`

			`Standard_Integer aLength = aHSeq->Length();`
			`aSeq->length(aLength);`
			`for (Standard_Integer i = 1; i <= aLength; i++)`
			`aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));`

			`return aSeq._retn();`
			`}`

			`//=============================================================================`
			`/*!`
			`* MakePipeTShapeFilletWithPosition`
			`* Create a T-shape object with specified caracteristics for the main and`
			`* the incident pipes (radius, width, half-length). A fillet is created`
			`* on the junction of the pipes.`
			`* The extremities of the main pipe are located on junctions points P1 and P2.`
			`* The extremity of the incident pipe is located on junction point P3.`
			`* \param theR1 Internal radius of main pipe`
			`* \param theW1 Width of main pipe`
			`* \param theL1 Half-length of main pipe`
			`* \param theR2 Internal radius of incident pipe (R2 < R1)`
			`* \param theW2 Width of incident pipe (R2+W2 < R1+W1)`
			`* \param theL2 Half-length of incident pipe`
			`* \param theRF Radius of curvature of fillet`
			`* \param theHexMesh Boolean indicating if shape is prepared for hex mesh`
			`* \param theP1 1st junction point of main pipe`
			`* \param theP2 2nd junction point of main pipe`
			`* \param theP3 Junction point of incident pipe`
			`* \return List of GEOM_Objects, containing the created shape and propagation groups.`
			`*/`
			`//=============================================================================`
			`GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeFilletWithPosition (CORBA::Double theR1, CORBA::Double theW1, CORBA::Double theL1,`
			`CORBA::Double theR2, CORBA::Double theW2, CORBA::Double theL2,`
			`CORBA::Double theRF, CORBA::Boolean theHexMesh,`
			`GEOM::GEOM_Object_ptr theP1, GEOM::GEOM_Object_ptr theP2, GEOM::GEOM_Object_ptr theP3)`
			`{`
			`GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;`

			`//Set a not done flag`
			`GetOperations()->SetNotDone();`

			`//Get the reference vertices`
			`Handle(GEOM_Object) aP1 = GetObjectImpl(theP1);`
			`Handle(GEOM_Object) aP2 = GetObjectImpl(theP2);`
			`Handle(GEOM_Object) aP3 = GetObjectImpl(theP3);`

			`//Create the TShape`
			`Handle(TColStd_HSequenceOfTransient) aHSeq = GetOperations()->MakePipeTShapeFilletWithPosition(theR1, theW1, theL1, theR2, theW2, theL2, theRF,`
			`theHexMesh, aP1, aP2, aP3);`
			`if (!GetOperations()->IsDone() \|\| aHSeq.IsNull())`
			`return aSeq._retn();`

			`Standard_Integer aLength = aHSeq->Length();`
			`aSeq->length(aLength);`
			`for (Standard_Integer i = 1; i <= aLength; i++)`
			`aSeq[i-1] = GetObject(Handle(GEOM_Object)::DownCast(aHSeq->Value(i)));`

			`return aSeq._retn();`
			`}`

			`//=============================================================================`
			`/*!`
			`* This function allows to create a disk already divided into blocks. It can be`
			`* use to create divided pipes for later meshing in hexaedra.`
			`* \param theR Radius of the disk`
			`* \param theRatio Relative size of the central square diagonal against the disk diameter`
			`* \return New GEOM_Object, containing the created shape.`
			`*/`
			`//=============================================================================`
			`GEOM::GEOM_Object_ptr GEOM_IAdvancedOperations_i::MakeDividedDisk (CORBA::Double theR,`
			`CORBA::Double theRatio,`
			`CORBA::Short theOrientation,`
			`GEOM::pattern thePattern)`
			`{`
			`GEOM::GEOM_Object_var aGEOMObject;`

			`//Set a not done flag`
			`GetOperations()->SetNotDone();`

			`//Create the DividedDisk`
			`Handle(GEOM_Object) anObject = GetOperations()->MakeDividedDisk(theR, theRatio, theOrientation, thePattern);`
			`if (!GetOperations()->IsDone() \|\| anObject.IsNull())`
			`return aGEOMObject._retn();`

			`return GetObject(anObject);`
			`}`

			`//=============================================================================`
			`/*!`
			`* MakeDividedDiskPntVecR`
			`*/`
			`//=============================================================================`
			`GEOM::GEOM_Object_ptr GEOM_IAdvancedOperations_i::MakeDividedDiskPntVecR (GEOM::GEOM_Object_ptr thePnt,`
			`GEOM::GEOM_Object_ptr theVec,`
			`CORBA::Double theR,`
			`CORBA::Double theRatio,`
			`GEOM::pattern thePattern)`
			`{`
			`GEOM::GEOM_Object_var aGEOMObject;`

			`//Set a not done flag`
			`GetOperations()->SetNotDone();`

			`//Get the reference points`
			`Handle(GEOM_Object) aPnt = GetObjectImpl(thePnt);`
			`Handle(GEOM_Object) aVec = GetObjectImpl(theVec);`

			`if (aPnt.IsNull() \|\| aVec.IsNull()) return aGEOMObject._retn();`

			`// Make DividedDisk`
			`Handle(GEOM_Object) anObject =`
			`GetOperations()->MakeDividedDiskPntVecR(aPnt, aVec, theR, theRatio, thePattern);`
			`if (!GetOperations()->IsDone() \|\| anObject.IsNull())`
			`return aGEOMObject._retn();`

			`return GetObject(anObject);`
			`}`

			`//=============================================================================`
			`/*!`
			`* Builds a cylinder prepared for hexa meshes`
			`* \param theR Radius of the cylinder`
			`* \param theH Height of the cylinder`
			`* \return New GEOM_Object, containing the created shape.`
			`*/`
			`//=============================================================================`
			`GEOM::GEOM_Object_ptr GEOM_IAdvancedOperations_i::MakeDividedCylinder (CORBA::Double theR,`
			`CORBA::Double theH,`
			`GEOM::pattern thePattern)`
			`{`
			`GEOM::GEOM_Object_var aGEOMObject;`

			`//Set a not done flag`
			`GetOperations()->SetNotDone();`

			`//Create the DividedCylinder`
			`Handle(GEOM_Object) anObject = GetOperations()->MakeDividedCylinder(theR, theH, thePattern);`
			`if (!GetOperations()->IsDone() \|\| anObject.IsNull())`
			`return aGEOMObject._retn();`

			`return GetObject(anObject);`
			`}`

			`/@@ insert new functions before this line @@ do not remove this line @@/`