-// Copyright (C) 2007-2016 CEA/DEN, EDF R&D, OPEN CASCADE
+// Copyright (C) 2007-2023 CEA, EDF, OPEN CASCADE
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
#include <meshing.hpp>
//#include <meshtype.hpp>
namespace netgen {
-#ifdef NETGEN_V5
- extern int OCCGenerateMesh (OCCGeometry&, Mesh*&, MeshingParameters&, int, int);
-#else
- extern int OCCGenerateMesh (OCCGeometry&, Mesh*&, int, int, char*);
-#endif
-#if defined(NETGEN_V5) && defined(WIN32)
- DLL_HEADER
-#endif
+ NETGENPLUGIN_DLL_HEADER
extern MeshingParameters mparam;
+#ifdef NETGEN_V5
extern void OCCSetLocalMeshSize(OCCGeometry & geom, Mesh & mesh);
+#endif
}
using namespace std;
//=============================================================================
/*!
- *
+ *
*/
//=============================================================================
NETGENPlugin_NETGEN_2D_ONLY::NETGENPlugin_NETGEN_2D_ONLY(int hypId,
- int studyId,
SMESH_Gen* gen)
- : SMESH_2D_Algo(hypId, studyId, gen)
+ : SMESH_2D_Algo(hypId, gen)
{
_name = "NETGEN_2D_ONLY";
-
+
_shapeType = (1 << TopAbs_FACE);// 1 bit /shape type
_onlyUnaryInput = false; // treat all FACEs at once
//=============================================================================
/*!
- *
+ *
*/
//=============================================================================
NETGENPlugin_NETGEN_2D_ONLY::~NETGENPlugin_NETGEN_2D_ONLY()
{
- MESSAGE("NETGENPlugin_NETGEN_2D_ONLY::~NETGENPlugin_NETGEN_2D_ONLY");
+ //MESSAGE("NETGENPlugin_NETGEN_2D_ONLY::~NETGENPlugin_NETGEN_2D_ONLY");
}
//=============================================================================
/*!
- *
+ *
*/
//=============================================================================
int nbHyps = bool(_hypMaxElementArea) + bool(_hypLengthFromEdges) + bool(_hypParameters );
if ( nbHyps > 1 )
- aStatus = HYP_CONCURENT;
+ aStatus = HYP_CONCURRENT;
else if ( hasVL )
error( StdMeshers_ViscousLayers2D::CheckHypothesis( aMesh, aShape, aStatus ));
else
netgen::mparam.minh = aMesher.GetDefaultMinSize( aShape, netgen::mparam.maxh );
}
// set local size depending on curvature and NOT closeness of EDGEs
+#ifdef NETGEN_V6
+ const double factor = 2; //netgen::occparam.resthcloseedgefac;
+#else
+ const double factor = netgen::occparam.resthcloseedgefac;
netgen::occparam.resthcloseedgeenable = false;
- //netgen::occparam.resthcloseedgefac = 1.0 + netgen::mparam.grading;
+ netgen::occparam.resthcloseedgefac = 1.0 + netgen::mparam.grading;
+#endif
occgeoComm.face_maxh = netgen::mparam.maxh;
+#ifdef NETGEN_V6
+ netgen::OCCParameters occparam;
+ netgen::OCCSetLocalMeshSize( occgeoComm, *ngMeshes[0], netgen::mparam, occparam );
+#else
netgen::OCCSetLocalMeshSize( occgeoComm, *ngMeshes[0] );
+#endif
occgeoComm.emap.Clear();
occgeoComm.vmap.Clear();
// set local size according to size of existing segments
- const double factor = netgen::occparam.resthcloseedgefac;
TopTools_IndexedMapOfShape edgeMap;
TopExp::MapShapes( aMesh.GetShapeToMesh(), TopAbs_EDGE, edgeMap );
for ( int iE = 1; iE <= edgeMap.Extent(); ++iE )
// set local size defined on shapes
aMesher.SetLocalSize( occgeoComm, *ngMeshes[0] );
+ aMesher.SetLocalSizeForChordalError( occgeoComm, *ngMeshes[0] );
try {
ngMeshes[0]->LoadLocalMeshSize( mparam.meshsizefilename );
} catch (NgException & ex) {
// get all EDGEs of a FACE
// ------------------------
TSideVector wires =
- StdMeshers_FaceSide::GetFaceWires( F, aMesh, ignoreMediumNodes, faceErr, proxyMesh );
+ StdMeshers_FaceSide::GetFaceWires( F, aMesh, ignoreMediumNodes, faceErr, &helper, proxyMesh );
if ( faceErr && !faceErr->IsOK() )
continue;
- int nbWires = wires.size();
+ size_t nbWires = wires.size();
if ( nbWires == 0 )
{
faceErr.reset
if (_hypLengthFromEdges )
{
// compute edgeLength as an average segment length
- int nbSegments = 0;
- for ( int iW = 0; iW < nbWires; ++iW )
+ smIdType nbSegments = 0;
+ for ( size_t iW = 0; iW < nbWires; ++iW )
{
edgeLength += wires[ iW ]->Length();
nbSegments += wires[ iW ]->NbSegments();
}
if ( nbSegments )
- edgeLength /= nbSegments;
+ edgeLength /= double( nbSegments );
netgen::mparam.maxh = edgeLength;
}
else if ( isDefaultHyp )
{
// set edgeLength by a longest segment
double maxSeg2 = 0;
- for ( int iW = 0; iW < nbWires; ++iW )
+ for ( size_t iW = 0; iW < nbWires; ++iW )
{
const UVPtStructVec& points = wires[ iW ]->GetUVPtStruct();
if ( points.empty() )
bb.Increase (bb.Diam()/10);
ngMesh->SetLocalH (bb.PMin(), bb.PMax(), mparam.grading);
aMesher.SetLocalSize( occgeom, *ngMesh );
+ aMesher.SetLocalSizeForChordalError( occgeoComm, *ngMesh );
try {
ngMesh->LoadLocalMeshSize( mparam.meshsizefilename );
} catch (NgException & ex) {
try {
OCC_CATCH_SIGNALS;
-#ifdef NETGEN_V5
- err = netgen::OCCGenerateMesh(occgeom, ngMesh, netgen::mparam, startWith, endWith);
-#else
- char *optstr = 0;
- err = netgen::OCCGenerateMesh(occgeom, ngMesh, startWith, endWith, optstr);
-#endif
+ err = ngLib.GenerateMesh(occgeom, startWith, endWith, ngMesh);
+
if ( netgen::multithread.terminate )
return false;
if ( err )
int nbNodes = ngMesh->GetNP();
int nbFaces = ngMesh->GetNSE();
- int nbInputNodes = nodeVec.size()-1;
+ int nbInputNodes = (int) nodeVec.size()-1;
nodeVec.resize( nbNodes+1, 0 );
// add nodes
return false;
// collect info from edges
- int nb0d = 0, nb1d = 0;
+ smIdType nb0d = 0, nb1d = 0;
bool IsQuadratic = false;
bool IsFirst = true;
double fullLen = 0.0;
smError.reset( new SMESH_ComputeError(COMPERR_ALGO_FAILED,"Submesh can not be evaluated",this));
return false;
}
- std::vector<int> aVec = (*anIt).second;
+ std::vector<smIdType> aVec = (*anIt).second;
nb0d += aVec[SMDSEntity_Node];
- nb1d += Max(aVec[SMDSEntity_Edge],aVec[SMDSEntity_Quad_Edge]);
+ nb1d += std::max(aVec[SMDSEntity_Edge],aVec[SMDSEntity_Quad_Edge]);
double aLen = SMESH_Algo::EdgeLength(E);
fullLen += aLen;
if(IsFirst) {
double ELen = 0;
if (( _hypLengthFromEdges ) || ( !_hypLengthFromEdges && !_hypMaxElementArea )) {
if ( nb1d > 0 )
- ELen = fullLen / nb1d;
+ ELen = fullLen / double( nb1d );
}
if ( _hypMaxElementArea ) {
double maxArea = _hypMaxElementArea->GetMaxArea();
smError.reset( new SMESH_ComputeError(COMPERR_ALGO_FAILED,"Submesh can not be evaluated.\nToo small element length",this));
return false;
}
- int nbFaces = (int) ( anArea / ( ELen*ELen*sqrt(3.) / 4 ) );
- int nbNodes = (int) ( ( nbFaces*3 - (nb1d-1)*2 ) / 6 + 1 );
- std::vector<int> aVec(SMDSEntity_Last);
- for(int i=SMDSEntity_Node; i<SMDSEntity_Last; i++) aVec[i]=0;
+ smIdType nbFaces = (smIdType) ( anArea / ( ELen*ELen*sqrt(3.) / 4 ) );
+ smIdType nbNodes = (smIdType) ( ( nbFaces*3 - (nb1d-1)*2 ) / 6 + 1 );
+ std::vector<smIdType> aVec(SMDSEntity_Last);
+ for(smIdType i=SMDSEntity_Node; i<SMDSEntity_Last; i++) aVec[i]=0;
if( IsQuadratic ) {
aVec[SMDSEntity_Node] = nbNodes;
aVec[SMDSEntity_Quad_Triangle] = nbFaces;