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618 lines
24 KiB
Plaintext
618 lines
24 KiB
Plaintext
// Copyright (C) 2007-2022 CEA/DEN, EDF R&D, OPEN CASCADE
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//
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// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
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// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 2.1 of the License, or (at your option) any later version.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public
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// License along with this library; if not, write to the Free Software
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// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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//
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// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
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//
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// File : SMESH_Gen.idl
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// Author : Paul RASCLE, EDF
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#ifndef _SMESH_GEN_IDL_
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#define _SMESH_GEN_IDL_
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#include "SALOME_Exception.idl"
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#include "SALOME_Component.idl"
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#include "SALOMEDS.idl"
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#include "GEOM_Gen.idl"
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#include "SMESH_Mesh.idl"
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#include "SMESH_Hypothesis.idl"
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#include "SMESH_smIdType.idl"
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module SMESHHOMARD
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{
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interface HOMARD_Gen;
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};
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module SMESH
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{
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typedef sequence<SALOMEDS::SObject> sobject_list;
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typedef sequence<GEOM::GEOM_Object> object_array;
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typedef sequence<SMESH_Mesh> mesh_array;
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interface FilterManager;
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interface SMESH_Pattern;
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interface Measurements;
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interface MG_ADAPT;
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interface MG_ADAPT_OBJECT;
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/*!
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* Tags definition
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*/
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// Top level
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const long Tag_HypothesisRoot = 1; // hypotheses root
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const long Tag_AlgorithmsRoot = 2; // algorithms root
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const long Tag_FirstMeshRoot = 3; // first mesh root
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// Mesh/Submesh
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const long Tag_RefOnShape = 1; // references to shape
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const long Tag_RefOnAppliedHypothesis = 2; // applied hypotheses root
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const long Tag_RefOnAppliedAlgorithms = 3; // applied algorithms root
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// Mesh only: sub-meshes roots by type
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const long Tag_FirstSubMesh = 4;
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const long Tag_SubMeshOnVertex = 4;
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const long Tag_SubMeshOnEdge = 5;
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const long Tag_SubMeshOnWire = 6;
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const long Tag_SubMeshOnFace = 7;
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const long Tag_SubMeshOnShell = 8;
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const long Tag_SubMeshOnSolid = 9;
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const long Tag_SubMeshOnCompound = 10;
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const long Tag_LastSubMesh = 10;
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// Mesh only: group roots by type
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const long Tag_FirstGroup = 11;
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const long Tag_NodeGroups = 11;
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const long Tag_EdgeGroups = 12;
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const long Tag_FaceGroups = 13;
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const long Tag_VolumeGroups = 14;
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const long Tag_0DElementsGroups = 15;
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const long Tag_BallElementsGroups = 16;
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const long Tag_LastGroup = 16;
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/*!
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* Hypothesis definition error
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*/
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struct AlgoStateError
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{
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Hypothesis_Status state;
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string algoName;
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long algoDim;
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boolean isGlobalAlgo;
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};
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typedef sequence<AlgoStateError> algo_error_array;
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/*!
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* Mesh computation error
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*/
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enum ComputeErrorName
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{
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COMPERR_OK ,
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COMPERR_BAD_INPUT_MESH, // wrong mesh on lower submesh
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COMPERR_STD_EXCEPTION , // some std exception raised
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COMPERR_OCC_EXCEPTION , // OCC exception raised
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COMPERR_SLM_EXCEPTION , // SALOME exception raised
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COMPERR_EXCEPTION , // other exception raised
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COMPERR_MEMORY_PB , // memory allocation problem
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COMPERR_ALGO_FAILED , // computation failed
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COMPERR_BAD_SHAPE , // bad geometry
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COMPERR_WARNING , // algo reports error but sub-mesh is computed anyway
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COMPERR_CANCELED , // compute canceled
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COMPERR_NO_MESH_ON_SHAPE,// no mesh elements assigned to sub-mesh
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COMPERR_BAD_PARMETERS // incorrect hypotheses parameters
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};
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struct ComputeError
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{
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short code; // ComputeErrorName or, if negative, algo specific code
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string comment; // textual problem description
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string algoName;
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long subShapeID; // id of sub-shape of a shape to mesh
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boolean hasBadMesh; // there are elements preventing computation available for visualization
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};
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typedef sequence<ComputeError> compute_error_array;
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/*!
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* Way to initialize hypothesis
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*/
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struct HypInitParams
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{
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short way; // 0 - by mesh, 1 - by geometry size + preferred parameters, 2 - by averageLength
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double averageLength;
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boolean quadDominated;
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};
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interface SMESH_Gen : Engines::EngineComponent, SALOMEDS::Driver
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{
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//GEOM::GEOM_Gen SetGeomEngine( in string containerLoc );
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void SetGeomEngine( in GEOM::GEOM_Gen geomcompo );
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FilterManager CreateFilterManager();
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SMESH_Pattern GetPattern();
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Measurements CreateMeasurements();
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/*!
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Set the current mode
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*/
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void SetEmbeddedMode( in boolean theMode );
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/*!
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Get the current mode
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*/
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boolean IsEmbeddedMode();
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/*!
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Update the study
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*/
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void UpdateStudy();
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/*!
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Set enable publishing in the study
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*/
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void SetEnablePublish( in boolean theIsEnablePublish );
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/*!
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Get enable publishing in the study
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*/
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boolean IsEnablePublish();
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/*!
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* Create a hypothesis that can be shared by different parts of the mesh.
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* An hypothesis is either:
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* - a method used to generate or modify a part of the mesh (algorithm).
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* - a parameter or a law used by an algorithm.
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* Algorithms are 1D, 2D or 3D.
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*/
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SMESH_Hypothesis CreateHypothesis( in string theHypName,
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in string theLibName )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create a hypothesis and initialize it by average length
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*/
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SMESH_Hypothesis CreateHypothesisByAverageLength( in string theHypName,
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in string theLibName,
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in double theAverageLength,
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in boolean theQuadDominated)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Return a hypothesis holding parameter values corresponding either to the mesh
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* existing on the given geometry or to size of the geometry.
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* The returned hypothesis may be the one existing in a study and used
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* to compute the mesh, or a temporary one created just to pass parameter
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* values.
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*/
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SMESH_Hypothesis GetHypothesisParameterValues( in string theHypName,
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in string theLibName,
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in SMESH_Mesh theMesh,
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in GEOM::GEOM_Object theGeom,
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in HypInitParams theWay)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Returns \c True if a hypothesis is assigned to a sole sub-mesh in a current Study
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* \param [in] theHyp - the hypothesis of interest
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* \param [out] theMesh - the sole mesh using \a theHyp
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* \param [out] theShape - the sole geometry \a theHyp is assigned to
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* \return boolean - \c True if \a theMesh and \a theShape are sole using \a theHyp
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*/
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boolean GetSoleSubMeshUsingHyp( in SMESH_Hypothesis theHyp,
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out SMESH_Mesh theMesh,
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out GEOM::GEOM_Object theShape);
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/*!
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* Sets number of segments per diagonal of boundary box of geometry by which
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* default segment length of appropriate 1D hypotheses is defined
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*/
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void SetBoundaryBoxSegmentation( in long theNbSegments ) raises ( SALOME::SALOME_Exception );
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/*!
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* \brief Sets default number of segments per edge
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*/
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void SetDefaultNbSegments( in long theNbSegments) raises ( SALOME::SALOME_Exception );
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/*!
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* Set the object name
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*/
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void SetName( in string theObjectIOR,
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in string theObjectName )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create a Mesh object, given a geometry shape.
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* Mesh is created empty (no points, no elements).
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* Shape is explored via GEOM_Client to create local copies.
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* of TopoDS_Shapes and bind CORBA references of shape & subshapes
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* with TopoDS_Shapes
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*/
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SMESH_Mesh CreateMesh( in GEOM::GEOM_Object theObject )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create a Mesh object, given a geometry shape.
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* Mesh is created empty (no points, no elements).
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* Shape is explored via GEOM_Client to create local copies.
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* of TopoDS_Shapes and bind CORBA references of shape & subshapes
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* with TopoDS_Shapes
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* The mesh is a parallel one
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*/
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SMESH_Mesh CreateParallelMesh( in GEOM::GEOM_Object theObject )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create an empty mesh object
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*/
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SMESH_Mesh CreateEmptyMesh()
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create Mesh object importing data from given UNV file
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* (UNV supported version is I-DEAS 10)
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*/
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SMESH_Mesh CreateMeshesFromUNV( in string theFileName )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create Mesh object(s) importing data from given MED file
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*/
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mesh_array CreateMeshesFromMED( in string theFileName,
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out SMESH::DriverMED_ReadStatus theStatus )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create Mesh object importing data from given STL file
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*/
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SMESH_Mesh CreateMeshesFromSTL( in string theFileName )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create Mesh object(s) importing data from given CGNS file
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*/
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mesh_array CreateMeshesFromCGNS( in string theFileName,
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out SMESH::DriverMED_ReadStatus theStatus )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create Mesh object importing data from given GMF file
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* \param theFileName - a name of file to import
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* \param theMakeRequiredGroups - if true, groups of required entities will be created
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*/
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SMESH_Mesh CreateMeshesFromGMF( in string theFileName,
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in boolean theMakeRequiredGroups,
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out SMESH::ComputeError theError)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create a dual mesh of a Tetrahedron mesh
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* \param mesh - TetraHedron mesh to create dual from
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* \param meshName - a name of the new mesh
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* \param adaptToShape - if True project boundary point on shape
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*/
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SMESH_Mesh CreateDualMesh(in SMESH_IDSource mesh,
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in string meshName,
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in boolean adaptToShape)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create a mesh by copying a part of another mesh
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* \param meshPart - a part of mesh to copy
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* \param meshName - a name of the new mesh
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* \param toCopyGroups - to create in the new mesh groups
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* the copied elements belongs to
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* \param toKeepIDs - to preserve IDs of the copied elements or not
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*/
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SMESH_Mesh CopyMesh(in SMESH_IDSource meshPart,
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in string meshName,
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in boolean toCopyGroups,
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in boolean toKeepIDs)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create a mesh by copying definitions of another mesh to a given geometry
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* \param sourceMesh - a mesh to copy
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* \param newGeometry - a new geometry
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* \param meshName - a name of the new mesh
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* \param toCopyGroups - to create groups in the new mesh
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* \param toReuseHypotheses - if True, existing hypothesis will be used by the new mesh,
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* otherwise new hypotheses with the same parameters will be created for the new mesh.
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* \param toCopyElements - to copy mesh elements of same sub-shapes of the two geometries
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* \param newMesh - return a new mesh
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* \param newGroups - return new groups
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* \param newSubmeshes - return new sub-meshes
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* \param newHypotheses - return new algorithms and hypotheses
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* \param invalidEntries - return study entries of objects whose
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* counterparts are not found in the newGeometry, followed by entries
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* of mesh sub-objects that are invalid because they depend on a not found
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* preceding sub-shape
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*/
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boolean CopyMeshWithGeom( in SMESH_Mesh sourceMesh,
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in GEOM::GEOM_Object newGeometry,
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in string meshName,
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in boolean toCopyGroups,
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in boolean toReuseHypotheses,
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in boolean toCopyElements,
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out SMESH_Mesh newMesh,
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out ListOfGroups newGroups,
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out submesh_array newSubmeshes,
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out ListOfHypothesis newHypotheses,
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out string_array invalidEntries)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Concatenate the given meshes or groups into one mesh,
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* optionally to theMeshToAppendTo.
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* Union groups with the same name and type if
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* theUniteIdenticalGroups flag is true.
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* Merge coincident nodes and elements if
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* theMergeNodesAndElements flag is true.
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*/
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SMESH_Mesh Concatenate(in ListOfIDSources theMeshesArray,
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in boolean theUniteIdenticalGroups,
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in boolean theMergeNodesAndElements,
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in double theMergeTolerance,
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in SMESH_Mesh theMeshToAppendTo)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Concatenate the given meshes into one mesh,
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* optionally to theMeshToAppendTo.
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* Union groups with the same name and type if
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* theUniteIdenticalGroups flag is true.
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* Merge coincident nodes and elements if
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* theMergeNodesAndElements flag is true.
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* Create the groups of all elements from initial meshes.
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*/
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SMESH_Mesh ConcatenateWithGroups(in ListOfIDSources theMeshesArray,
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in boolean theUniteIdenticalGroups,
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in boolean theMergeNodesAndElements,
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in double theMergeTolerance,
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in SMESH_Mesh theMeshToAppendTo)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Mesh a subShape.
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* First, verify list of hypothesis associated with the Sub-shape,
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* return NOK if hypothesis are not sufficient
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*/
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boolean Compute( in SMESH_Mesh theMesh,
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in GEOM::GEOM_Object theSubObject )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Cancel a computation.
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*/
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void CancelCompute( in SMESH_Mesh theMesh,
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in GEOM::GEOM_Object theSubObject );
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/*!
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* Return true if hypotheses are defined well
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*/
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boolean IsReadyToCompute( in SMESH_Mesh theMesh,
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in GEOM::GEOM_Object theSubObject )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Evaluates size of prospective mesh on a shape
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*/
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smIdType_array Evaluate(in SMESH_Mesh theMesh,
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in GEOM::GEOM_Object theSubObject)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Calculate Mesh as preview till indicated dimension
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* First, verify list of hypothesis associated with the Sub-shape.
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* Return mesh preview structure
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*/
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MeshPreviewStruct Precompute( in SMESH_Mesh theMesh,
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in GEOM::GEOM_Object theSubObject,
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in Dimension theDimension,
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inout long_array theShapesId )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Return errors of hypotheses definition
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* algo_error_array is empty if everything is OK
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*/
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algo_error_array GetAlgoState( in SMESH_Mesh theMesh,
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in GEOM::GEOM_Object theSubObject )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Return errors of mesh computation
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* compute_error_array is empty if everything is OK
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*/
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compute_error_array GetComputeErrors( in SMESH_Mesh theMesh,
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in GEOM::GEOM_Object theSubObject )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Return mesh elements preventing computation of a sub-shape
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*/
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MeshPreviewStruct GetBadInputElements( in SMESH_Mesh theMesh,
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in short theSubShapeID )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Create groups of elements preventing computation of a sub-shape
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*/
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SMESH::ListOfGroups MakeGroupsOfBadInputElements( in SMESH_Mesh theMesh,
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in short theSubShapeID,
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in string theGroupName)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Return indices of faces, edges and vertices of given sub-shapes
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* within theMainObject
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*/
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long_array GetSubShapesId( in GEOM::GEOM_Object theMainObject,
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in object_array theListOfSubObjects )
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raises ( SALOME::SALOME_Exception );
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/*!
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* Return geometrical object the given element is built on.
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* The returned geometrical object, if not nil, is either found in the
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* study or is published by this method with the given name
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*/
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GEOM::GEOM_Object GetGeometryByMeshElement( in SMESH_Mesh theMesh,
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in smIdType theElementID,
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in string theGeomName)
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raises ( SALOME::SALOME_Exception );
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/*!
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* Return geometrical object the given element is built on.
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* The returned geometrical object not published in study by this method.
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*/
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GEOM::GEOM_Object FindGeometryByMeshElement( in SMESH_Mesh theMesh,
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in smIdType theElementID)
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raises ( SALOME::SALOME_Exception );
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/*!
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* \brief Return id of object, registered in current study context
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*
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* Can be used to check if the object was created in the same container, as this engine.
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*/
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long GetObjectId(in Object theObject);
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/*!
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* \brief Get version of MED format being used.
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*/
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string GetMEDFileVersion();
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/*!
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* \brief Get MED version of the file by its name.
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*/
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string GetMEDVersion(in string theFileName);
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/*!
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* \brief Check compatibility of file with MED format being used, for read only.
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*/
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boolean CheckCompatibility(in string theFileName);
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/*!
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* \brief Check compatibility of file with MED format being used, for append on write.
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*/
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boolean CheckWriteCompatibility(in string theFileName);
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/*!
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* \brief Get names of meshes defined in file with the specified name.
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*/
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string_array GetMeshNames(in string theFileName);
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/*!
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* \brief Moves objects to the specified position
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* \param what objects being moved
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|
* \param where parent object where objects are moved to
|
|
* \param row position in the parent object's children list at which objects are moved
|
|
*
|
|
* This function is used in the drag-n-drop functionality.
|
|
*/
|
|
void Move( in sobject_list what,
|
|
in SALOMEDS::SObject where,
|
|
in long row );
|
|
/*!
|
|
* Returns true if algorithm can be used to mesh a given geometry
|
|
* \param theAlgoType - the algorithm type
|
|
* \param theLibName - a name of the Plug-in library implementing the algorithm
|
|
* \param theShapeObject - the geometry to mesh
|
|
* \param toCheckAll - if \c True, returns \c True if all shapes are meshable,
|
|
* else, returns \c True if at least one shape is meshable
|
|
*/
|
|
boolean IsApplicable( in string theAlgoType,
|
|
in string theLibName,
|
|
in GEOM::GEOM_Object theShapeObject,
|
|
in boolean toCheckAll );
|
|
|
|
|
|
/*!
|
|
* Return indices of elements, which are located inside the sphere
|
|
* \param theSource - mesh, sub-mesh or group
|
|
* \param theElemType - mesh element type
|
|
* \param theX - x coordinate of the center of the sphere
|
|
* \param theY - y coordinate of the center of the sphere
|
|
* \param theZ - y coordinate of the center of the sphere
|
|
* \param theR - radius of the sphere
|
|
*/
|
|
long_array GetInsideSphere( in SMESH_IDSource theSource,
|
|
in ElementType theElemType,
|
|
in double theX,
|
|
in double theY,
|
|
in double theZ,
|
|
in double theR );
|
|
|
|
/*!
|
|
* Return indices of elements, which are located inside the box
|
|
* \param theSource - mesh, sub-mesh or group
|
|
* \param theElemType - mesh element type
|
|
* \param theX1 - x coordinate of the first opposite point
|
|
* \param theY1 - y coordinate of the first opposite point
|
|
* \param theZ1 - y coordinate of the first opposite point
|
|
* \param theX2 - x coordinate of the second opposite point
|
|
* \param theY2 - y coordinate of the second opposite point
|
|
* \param theZ2 - y coordinate of the second opposite point
|
|
*/
|
|
long_array GetInsideBox( in SMESH_IDSource theSource,
|
|
in ElementType theElemType,
|
|
in double theX1,
|
|
in double theY1,
|
|
in double theZ1,
|
|
in double theX2,
|
|
in double theY2,
|
|
in double theZ2);
|
|
/*!
|
|
* Return indices of elements, which are located inside the box
|
|
* \param theSource - mesh, sub-mesh or group
|
|
* \param theElemType - mesh element type
|
|
* \param theX - x coordinate of the cented of the bottom face
|
|
* \param theY - y coordinate of the cented of the bottom face
|
|
* \param theZ - y coordinate of the cented of the bottom face
|
|
* \param theDX - x coordinate of the cented of the base vector
|
|
* \param theDY - y coordinate of the cented of the base vector
|
|
* \param theDZ - z coordinate of the cented of the base vector
|
|
* \param theH - height of the cylinder
|
|
* \param theR - radius of the cylinder
|
|
*/
|
|
long_array GetInsideCylinder( in SMESH_IDSource theSource,
|
|
in ElementType theElemType,
|
|
in double theX,
|
|
in double theY,
|
|
in double theZ,
|
|
in double theDX,
|
|
in double theDY,
|
|
in double theDZ,
|
|
in double theH,
|
|
in double theR );
|
|
/*!
|
|
* Return indices of elements, which are located inside the geometry
|
|
* \param theSource - mesh, sub-mesh or group
|
|
* \param theElemType - mesh element type
|
|
* \param theGeom - geometrical object
|
|
* \param theTolerance - tolerance for selection.
|
|
*/
|
|
long_array GetInside( in SMESH_IDSource theSource,
|
|
in ElementType theElemType,
|
|
in GEOM::GEOM_Object theGeom,
|
|
in double theTolerance );
|
|
|
|
MG_ADAPT CreateMG_ADAPT();
|
|
SMESHHOMARD::HOMARD_Gen CreateHOMARD_ADAPT() raises ( SALOME::SALOME_Exception );
|
|
//MG_ADAPT_OBJECT Adaptation(in string adaptType);
|
|
SALOME::GenericObj Adaptation(in string adaptType) raises ( SALOME::SALOME_Exception );
|
|
MG_ADAPT CreateAdaptationHypothesis();
|
|
};
|
|
|
|
};
|
|
|
|
#endif
|