+// SMESH DriverMED : driver to read and write 'med' files
+//
+// Copyright (C) 2003 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.
+//
+// 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.opencascade.org/SALOME/ or email : webmaster.salome@opencascade.org
+//
+//
+//
+// File : DriverMED_W_SMDS_Mesh.cxx
+// Module : SMESH
+
using namespace std;
#include "DriverMED_W_SMDS_Mesh.h"
#include "SMDS_MeshElement.hxx"
#include "SMDS_MeshNode.hxx"
-#include "SMDS_MeshFacesIterator.hxx"
-#include "SMDS_MeshNodesIterator.hxx"
-#include "SMDS_MeshVolumesIterator.hxx"
+
+
+
#include "utilities.h"
#include <vector>
-DriverMED_W_SMDS_Mesh::DriverMED_W_SMDS_Mesh() {
-;
+DriverMED_W_SMDS_Mesh::DriverMED_W_SMDS_Mesh()
+{
+ ;
}
-DriverMED_W_SMDS_Mesh::~DriverMED_W_SMDS_Mesh() {
-;
+DriverMED_W_SMDS_Mesh::~DriverMED_W_SMDS_Mesh()
+{
+ ;
}
-void DriverMED_W_SMDS_Mesh::SetMesh(Handle(SMDS_Mesh)& aMesh) {
- myMesh = aMesh;
+void DriverMED_W_SMDS_Mesh::SetMesh(SMDS_Mesh * aMesh)
+{
+ myMesh = aMesh;
}
-void DriverMED_W_SMDS_Mesh::SetFile(string aFile) {
- myFile = aFile;
+void DriverMED_W_SMDS_Mesh::SetFile(string aFile)
+{
+ myFile = aFile;
}
-void DriverMED_W_SMDS_Mesh::SetFileId(med_idt aFileId) {
- myFileId = aFileId;
+void DriverMED_W_SMDS_Mesh::SetFileId(med_idt aFileId)
+{
+ myFileId = aFileId;
}
-void DriverMED_W_SMDS_Mesh::SetMeshId(int aMeshId) {
- myMeshId = aMeshId;
+void DriverMED_W_SMDS_Mesh::SetMeshId(int aMeshId)
+{
+ myMeshId = aMeshId;
}
-void DriverMED_W_SMDS_Mesh::Add() {
- ;
+void DriverMED_W_SMDS_Mesh::Add()
+{
+ ;
}
-void DriverMED_W_SMDS_Mesh::Write() {
-
- med_err ret = 0;
- int i,j,k,l;
- int numero;
- char message[200];
- Standard_Boolean ok;
- /* nombre d'objets MED */
- char nom_universel[MED_TAILLE_LNOM+1];
- med_int long_fichier_en_tete;
- char *fichier_en_tete;
- char version_hdf[10];
- char version_med[10];
- med_int nmaa,mdim,nnoe;
- med_int nmai[MED_NBR_GEOMETRIE_MAILLE],nfac[MED_NBR_GEOMETRIE_FACE];
- med_int nare[MED_NBR_GEOMETRIE_ARETE];
- /* nom du maillage */
- char nommaa[MED_TAILLE_NOM+1];
- /* noeuds */
- med_float *coo;
- char nomcoo[3*MED_TAILLE_PNOM+1];
- char unicoo[3*MED_TAILLE_PNOM+1];
- char *nomnoe;
- med_int *numnoe;
- med_int *nufano;
- med_repere rep;
- med_booleen inonoe,inunoe;
- med_mode_switch mode_coo;
- char str[MED_TAILLE_PNOM+1];
- med_int nbNodes;
- /* elements */
- med_int nsup;
- med_int edim;
- med_int taille;
- med_int elem_id,myId;
- med_int *connectivite;
- char *nomele;
- med_int *numele;
- med_int *nufael;
- med_booleen inoele, inuele;
- med_connectivite typ_con;
- med_geometrie_element typgeo;
- med_geometrie_element typmai[MED_NBR_GEOMETRIE_MAILLE] = {MED_POINT1,MED_SEG2,
- MED_SEG3,MED_TRIA3,
- MED_TRIA6,MED_QUAD4,
- MED_QUAD8,MED_TETRA4,
- MED_TETRA10,MED_HEXA8,
- MED_HEXA20,MED_PENTA6,
- MED_PENTA15,MED_PYRA5,
- MED_PYRA13};
- med_int desmai[MED_NBR_GEOMETRIE_MAILLE] = {0,2,3,3,3,4,4,4,4,6,6,5,5,5,5};
- med_int nmailles[MED_NBR_GEOMETRIE_MAILLE];
- char nommai[MED_NBR_GEOMETRIE_MAILLE] [MED_TAILLE_NOM+1] = {"MED_POINT1",
- "MED_SEG2",
- "MED_SEG3",
- "MED_TRIA3",
- "MED_TRIA6",
- "MED_QUAD4",
- "MED_QUAD8",
- "MED_TETRA4",
- "MED_TETRA10",
- "MED_HEXA8",
- "MED_HEXA20",
- "MED_PENTA6",
- "MED_PENTA15",
- "MED_PYRA5",
- "MED_PYRA13"};
- med_geometrie_element typfac[MED_NBR_GEOMETRIE_FACE] = {MED_TRIA3,MED_TRIA6,
- MED_QUAD4,MED_QUAD8};
- med_int desfac[MED_NBR_GEOMETRIE_FACE] = {3,3,4,4};
- med_int nfaces[MED_NBR_GEOMETRIE_FACE];
- char nomfac[MED_NBR_GEOMETRIE_FACE][MED_TAILLE_NOM+1] = {"MED_TRIA3","MED_TRIA6",
- "MED_QUAD4","MED_QUAD8"};
- med_geometrie_element typare[MED_NBR_GEOMETRIE_ARETE] = {MED_SEG2,MED_SEG3};
- med_int desare[MED_NBR_GEOMETRIE_ARETE] = {2,3};
- med_int naretes[MED_NBR_GEOMETRIE_ARETE];
- char nomare[MED_NBR_GEOMETRIE_ARETE] [MED_TAILLE_NOM+1] = {"MED_SEG2","MED_SEG3"};
- /* familles */
- med_int nfam;
- med_int natt,ngro;
- char *attdes,*gro;
- med_int *attval,*attide;
- char nomfam[MED_TAILLE_NOM+1];
- med_int numfam;
- char str1[MED_TAILLE_DESC+1];
- char str2[MED_TAILLE_LNOM+1];
+void DriverMED_W_SMDS_Mesh::Write()
+{
+
+ med_err ret = 0;
+ int i, j, k, l;
+ int numero;
+ char message[200];
+ bool ok;
+ /* nombre d'objets MED */
+ char nom_universel[MED_TAILLE_LNOM + 1];
+ med_int long_fichier_en_tete;
+ char *fichier_en_tete;
+ char version_hdf[10];
+ char version_med[10];
+ med_int nmaa, mdim, nnoe;
+ med_int nmai[MED_NBR_GEOMETRIE_MAILLE], nfac[MED_NBR_GEOMETRIE_FACE];
+ med_int nare[MED_NBR_GEOMETRIE_ARETE];
+ /* nom du maillage */
+ char nommaa[MED_TAILLE_NOM + 1];
+ /* noeuds */
+ med_float *coo;
+ char nomcoo[3 * MED_TAILLE_PNOM + 1];
+ char unicoo[3 * MED_TAILLE_PNOM + 1];
+ char *nomnoe;
+ med_int *numnoe;
+ med_int *nufano;
+ med_repere rep;
+ med_booleen inonoe, inunoe;
+ med_mode_switch mode_coo;
+ char str[MED_TAILLE_PNOM + 1];
+ med_int nbNodes;
+ /* elements */
+ med_int nsup;
+ med_int edim;
+ med_int taille;
+ med_int elem_id, myId;
+ med_int *connectivite;
+ char *nomele;
+ med_int *numele;
+ med_int *nufael;
+ med_booleen inoele, inuele;
+ med_connectivite typ_con;
+ med_geometrie_element typgeo;
+ med_geometrie_element typmai[MED_NBR_GEOMETRIE_MAILLE] =
+ { MED_POINT1, MED_SEG2,
+ MED_SEG3, MED_TRIA3,
+ MED_TRIA6, MED_QUAD4,
+ MED_QUAD8, MED_TETRA4,
+ MED_TETRA10, MED_HEXA8,
+ MED_HEXA20, MED_PENTA6,
+ MED_PENTA15, MED_PYRA5,
+ MED_PYRA13
+ };
+ med_int desmai[MED_NBR_GEOMETRIE_MAILLE] =
+ { 0, 2, 3, 3, 3, 4, 4, 4, 4, 6, 6, 5, 5, 5, 5 };
+ med_int nmailles[MED_NBR_GEOMETRIE_MAILLE];
+ char nommai[MED_NBR_GEOMETRIE_MAILLE][MED_TAILLE_NOM + 1] = { "MED_POINT1",
+ "MED_SEG2",
+ "MED_SEG3",
+ "MED_TRIA3",
+ "MED_TRIA6",
+ "MED_QUAD4",
+ "MED_QUAD8",
+ "MED_TETRA4",
+ "MED_TETRA10",
+ "MED_HEXA8",
+ "MED_HEXA20",
+ "MED_PENTA6",
+ "MED_PENTA15",
+ "MED_PYRA5",
+ "MED_PYRA13"
+ };
+ med_geometrie_element typfac[MED_NBR_GEOMETRIE_FACE] =
+ { MED_TRIA3, MED_TRIA6,
+ MED_QUAD4, MED_QUAD8
+ };
+ med_int desfac[MED_NBR_GEOMETRIE_FACE] = { 3, 3, 4, 4 };
+ med_int nfaces[MED_NBR_GEOMETRIE_FACE];
+ char nomfac[MED_NBR_GEOMETRIE_FACE][MED_TAILLE_NOM + 1] =
+ { "MED_TRIA3", "MED_TRIA6",
+ "MED_QUAD4", "MED_QUAD8"
+ };
+ med_geometrie_element typare[MED_NBR_GEOMETRIE_ARETE] =
+ { MED_SEG2, MED_SEG3 };
+ med_int desare[MED_NBR_GEOMETRIE_ARETE] = { 2, 3 };
+ med_int naretes[MED_NBR_GEOMETRIE_ARETE];
+ char nomare[MED_NBR_GEOMETRIE_ARETE][MED_TAILLE_NOM + 1] =
+ { "MED_SEG2", "MED_SEG3" };
+ /* familles */
+ med_int nfam;
+ med_int natt, ngro;
+ char *attdes, *gro;
+ med_int *attval, *attide;
+ char nomfam[MED_TAILLE_NOM + 1];
+ med_int numfam;
+ char str1[MED_TAILLE_DESC + 1];
+ char str2[MED_TAILLE_LNOM + 1];
/****************************************************************************
* OUVERTURE DU FICHIER EN ECRITURE *
****************************************************************************/
- /*! char* file2Read = (char*)myFile.c_str();
- myFileId = MEDouvrir(file2Read,MED_REMP);
- if (myFileId < 0)
- {
- fprintf(stderr,">> ERREUR : ouverture du fichier %s \n",file2Read);
- exit(EXIT_FAILURE);
- }
- */
- typ_con = MED_NOD;
- mode_coo = MED_FULL_INTERLACE;
- numero = myMeshId;
+ /*! char* file2Read = (char*)myFile.c_str();
+ * myFileId = MEDouvrir(file2Read,MED_REMP);
+ * if (myFileId < 0)
+ * {
+ * fprintf(stderr,">> ERREUR : ouverture du fichier %s \n",file2Read);
+ * exit(EXIT_FAILURE);
+ * }
+ */
+ typ_con = MED_NOD;
+ mode_coo = MED_FULL_INTERLACE;
+ numero = myMeshId;
/****************************************************************************
* NOMBRES D'OBJETS MED *
****************************************************************************/
- fprintf(stdout,"\n(****************************)\n");
- fprintf(stdout,"(* INFORMATIONS GENERALES : *)\n");
- fprintf(stdout,"(****************************)\n");
-
- /* creation du maillage */
- mdim=3;
- //nommaa = QString("Mesh "+myMeshId).latin1();
- //nommaa = "";
- //plutot recuperer le nom du maillage dans l'etude
- if (ret == 0)
- ret = MEDmaaCr(myFileId,nommaa,mdim);
- printf("%d\n",ret);
-
-
- /* Combien de noeuds ? */
- nnoe = myMesh->NbNodes();
- //SCRUTE(nnoe);
- /* Combien de mailles, faces ou aretes ? */
- for (i=0;i<MED_NBR_GEOMETRIE_MAILLE;i++)
- nmailles[i]=0;
-
- SMDS_MeshFacesIterator itFaces(myMesh);
- Standard_Integer nb_of_nodes, nb_of_faces;
- nb_of_faces = myMesh->NbFaces();
- //SCRUTE(nb_of_faces);
-
- //med_int elem_Id[MED_NBR_GEOMETRIE_FACE][nb_of_faces];
- vector<int> elem_Id[MED_NBR_GEOMETRIE_MAILLE];
- //typedef vector<int> Integer_vector;
- //vector<Integer_vector> elem_Id;
- //elem_Id.resize(MED_NBR_GEOMETRIE_MAILLE);
-
- for (;itFaces.More();itFaces.Next()) {
- const Handle(SMDS_MeshElement)& elem = itFaces.Value();
-
- nb_of_nodes = elem->NbNodes();
-
- switch (nb_of_nodes) {
- case 3 : {
- //elem_Id[3][nmailles[3]] = elem->GetID();
- elem_Id[3].push_back(elem->GetID());
- nmailles[3]++;
- break;
- }
- case 4 : {
- //elem_Id[5][nmailles[5]] = elem->GetID();
- elem_Id[5].push_back(elem->GetID());
- nmailles[5]++;
- break;
- }
- case 6 : {
- //elem_Id[4][nmailles[4]] = elem->GetID();
- elem_Id[4].push_back(elem->GetID());
- nmailles[4]++;
- break;
- }
- }
-
- }
-
- SMDS_MeshVolumesIterator itVolumes(myMesh);
-
- for (;itVolumes.More();itVolumes.Next()) {
- const Handle(SMDS_MeshElement)& elem = itVolumes.Value();
-
- nb_of_nodes = elem->NbNodes();
- switch (nb_of_nodes) {
- case 8 : {
- //elem_Id[9][nmailles[9]] = elem->GetID();
- elem_Id[9].push_back(elem->GetID());
- nmailles[9]++;
- break;
- }
- }
- }
+ fprintf(stdout, "\n(****************************)\n");
+ fprintf(stdout, "(* INFORMATIONS GENERALES : *)\n");
+ fprintf(stdout, "(****************************)\n");
+
+ /* creation du maillage */
+ mdim = 3;
+ //nommaa = QString("Mesh "+myMeshId).latin1();
+ //nommaa = "";
+ //plutot recuperer le nom du maillage dans l'etude
+ if (ret == 0)
+ ret = MEDmaaCr(myFileId, nommaa, mdim);
+ printf("%d\n", ret);
+
+ /* Combien de noeuds ? */
+ nnoe = myMesh->NbNodes();
+ //SCRUTE(nnoe);
+ /* Combien de mailles, faces ou aretes ? */
+ for (i = 0; i < MED_NBR_GEOMETRIE_MAILLE; i++)
+ nmailles[i] = 0;
+
+ SMDS_Iterator<const SMDS_MeshFace *> * itFaces=myMesh->facesIterator();
+ int nb_of_nodes, nb_of_faces;
+ nb_of_faces = myMesh->NbFaces();
+ //SCRUTE(nb_of_faces);
+
+ //med_int elem_Id[MED_NBR_GEOMETRIE_FACE][nb_of_faces];
+ vector<int> elem_Id[MED_NBR_GEOMETRIE_MAILLE];
+ //typedef vector<int> Integer_vector;
+ //vector<Integer_vector> elem_Id;
+ //elem_Id.resize(MED_NBR_GEOMETRIE_MAILLE);
+
+ while(itFaces->more())
+ {
+ const SMDS_MeshFace * elem = itFaces->next();
+
+ nb_of_nodes = elem->NbNodes();
+
+ switch (nb_of_nodes)
+ {
+ case 3:
+ {
+ //elem_Id[3][nmailles[3]] = elem->GetID();
+ elem_Id[3].push_back(elem->GetID());
+ nmailles[3]++;
+ break;
+ }
+ case 4:
+ {
+ //elem_Id[5][nmailles[5]] = elem->GetID();
+ elem_Id[5].push_back(elem->GetID());
+ nmailles[5]++;
+ break;
+ }
+ case 6:
+ {
+ //elem_Id[4][nmailles[4]] = elem->GetID();
+ elem_Id[4].push_back(elem->GetID());
+ nmailles[4]++;
+ break;
+ }
+ }
+
+ }
+
+ SMDS_Iterator<const SMDS_MeshVolume*> * itVolumes=myMesh->volumesIterator();
+ while(itVolumes->more())
+ {
+ const SMDS_MeshVolume * elem = itVolumes->next();
+
+ nb_of_nodes = elem->NbNodes();
+ switch (nb_of_nodes)
+ {
+ case 8:
+ {
+ //elem_Id[9][nmailles[9]] = elem->GetID();
+ elem_Id[9].push_back(elem->GetID());
+ nmailles[9]++;
+ break;
+ }
+ case 4 :
+ {
+ elem_Id[7].push_back(elem->GetID());
+ nmailles[7]++;
+ break;
+ }
+ }
+ }
/****************************************************************************
* ECRITURE DES NOEUDS *
****************************************************************************/
- fprintf(stdout,"\n(************************)\n");
- fprintf(stdout,"(* NOEUDS DU MAILLAGE : *)\n");
- fprintf(stdout,"(************************)\n");
-
- /* Allocations memoires */
- /* table des coordonnees
- profil : (dimension * nombre de noeuds ) */
- coo = (med_float*) malloc(sizeof(med_float)*nnoe*mdim);
- /* table des numeros, des numeros de familles des noeuds
- profil : (nombre de noeuds) */
- numnoe = (med_int*) malloc(sizeof(med_int)*nnoe);
- nufano = (med_int*) malloc(sizeof(med_int)*nnoe);
- /* table des noms des noeuds
- profil : (nnoe*MED_TAILLE_PNOM+1) */
- nomnoe ="";
-
- i = 0;
- SMDS_MeshNodesIterator itNodes(myMesh);
- for (;itNodes.More();itNodes.Next()) {
- const Handle(SMDS_MeshElement)& elem = itNodes.Value();
- const Handle(SMDS_MeshNode)& node = myMesh->GetNode(1,elem);
-
- coo[i*3]=node->X();
- coo[i*3+1]=node->Y();
- coo[i*3+2]=node->Z();
- numnoe[i]=node->GetID();
- nufano[i]=0;
- i++;
- }
-
- /* ecriture des noeuds :
- - coordonnees
- - noms (optionnel dans un fichier MED)
- - numeros (optionnel dans un fichier MED)
- - numeros des familles */
- ret = MEDnoeudsEcr(myFileId,nommaa,mdim,coo,mode_coo,MED_CART,
- nomcoo,unicoo,nomnoe,MED_FAUX,numnoe,MED_VRAI,
- nufano,nnoe,MED_REMP);
-
- /* liberation memoire */
- free(coo);
- //free(nomnoe);
- free(numnoe);
- free(nufano);
+ fprintf(stdout, "\n(************************)\n");
+ fprintf(stdout, "(* NOEUDS DU MAILLAGE : *)\n");
+ fprintf(stdout, "(************************)\n");
+
+ /* Allocations memoires */
+ /* table des coordonnees
+ * profil : (dimension * nombre de noeuds ) */
+ coo = (med_float *) malloc(sizeof(med_float) * nnoe * mdim);
+ /* table des numeros, des numeros de familles des noeuds
+ * profil : (nombre de noeuds) */
+ numnoe = (med_int *) malloc(sizeof(med_int) * nnoe);
+ nufano = (med_int *) malloc(sizeof(med_int) * nnoe);
+ /* table des noms des noeuds
+ * profil : (nnoe*MED_TAILLE_PNOM+1) */
+ nomnoe = "";
+
+ i = 0;
+ SMDS_Iterator<const SMDS_MeshNode *> * itNodes=myMesh->nodesIterator();
+ while(itNodes->more())
+ {
+ const SMDS_MeshNode * node = itNodes->next();
+ coo[i * 3] = node->X();
+ coo[i * 3 + 1] = node->Y();
+ coo[i * 3 + 2] = node->Z();
+ numnoe[i] = node->GetID();
+ nufano[i] = 0;
+ i++;
+ }
+
+ /* ecriture des noeuds :
+ * - coordonnees
+ * - noms (optionnel dans un fichier MED)
+ * - numeros (optionnel dans un fichier MED)
+ * - numeros des familles */
+ ret = MEDnoeudsEcr(myFileId, nommaa, mdim, coo, mode_coo, MED_CART,
+ nomcoo, unicoo, nomnoe, MED_FAUX, numnoe, MED_VRAI,
+ nufano, nnoe, MED_REMP);
+
+ /* liberation memoire */
+ free(coo);
+ //free(nomnoe);
+ free(numnoe);
+ free(nufano);
/****************************************************************************
* ECRITURE DES ELEMENTS *
****************************************************************************/
- fprintf(stdout,"\n(**************************)\n");
- fprintf(stdout,"(* ELEMENTS DU MAILLAGE : *)\n");
- fprintf(stdout,"(**************************)");
- //fprintf(Out,"CELLS\n");
- /* Ecriture des connectivites, noms, numeros des mailles */
-
- if (ret == 0)
- for (i=0;i<MED_NBR_GEOMETRIE_MAILLE;i++)
- {
- if (nmailles[i] > 0 && ret == 0)
- {
- MESSAGE ( " Start "<<typmai[i]);
- /* dimension de la maille */
- edim = typmai[i] / 100;
- nsup = 0;
- if (mdim == 2 || mdim == 3)
- if (edim == 1)
- nsup = 1;
- if (mdim == 3)
- if (edim == 2)
- nsup = 1;
-
- taille = nsup+typmai[i]%100;
- //taille = typmai[i]%100;
-
- /* allocation memoire */
- connectivite = (med_int*)malloc(sizeof(med_int)*
- taille*nmailles[i]);
- nomele = (char*)malloc(sizeof(char)*MED_TAILLE_PNOM*
- nmailles[i]+1);
- numele = (med_int*)malloc(sizeof(med_int)*
- nmailles[i]);
- nufael = (med_int*)malloc(sizeof(med_int)*
- nmailles[i]);
- nomele="";
- nbNodes=typmai[i]%100;
-
- //penser a mater les (taille-nsup)
- for (j=0;j<nmailles[i];j++) {
- myId = elem_Id[i][j];
- const Handle(SMDS_MeshElement)& elem = myMesh->FindElement(myId);
- *(numele+j) = myId;
- //elem_id=*(numele+j);
- //fprintf(stdout,"%d \n",myId);
-
- for (k=0; k<nbNodes; k++) {
- //*(connectivite+j*(taille-1)+k)=cnx[k];
- *(connectivite+j*(taille-nsup)+k) = elem->GetConnection(k+1);
- //fprintf(stdout,"%d ",*(connectivite+j*(taille-nsup)+k));
- }
- nufael[j]=0;
- //fprintf(stdout,"\n");
- }
-
- /* ecriture des données */
-
- ret=MEDelementsEcr(myFileId,nommaa,mdim,connectivite,mode_coo,nomele,MED_FAUX,numele,MED_VRAI,nufael,nmailles[i],MED_MAILLE,typmai[i],typ_con,MED_REMP);
-
- if (ret < 0)
- MESSAGE(">> ERREUR : lecture des mailles \n");
-
- /* liberation memoire */
- free(connectivite);
- //free(nomele);
- free(numele);
- free(nufael);
- MESSAGE ( " End "<<typmai[i]);
- }
- }
+ fprintf(stdout, "\n(**************************)\n");
+ fprintf(stdout, "(* ELEMENTS DU MAILLAGE : *)\n");
+ fprintf(stdout, "(**************************)");
+ //fprintf(Out,"CELLS\n");
+ /* Ecriture des connectivites, noms, numeros des mailles */
+
+ if (ret == 0)
+ for (i = 0; i < MED_NBR_GEOMETRIE_MAILLE; i++)
+ {
+ if (nmailles[i] > 0 && ret == 0)
+ {
+ MESSAGE(" Start " << typmai[i]);
+ /* dimension de la maille */
+ edim = typmai[i] / 100;
+ nsup = 0;
+ if (mdim == 2 || mdim == 3)
+ if (edim == 1)
+ nsup = 1;
+ if (mdim == 3)
+ if (edim == 2)
+ nsup = 1;
+
+ taille = nsup + typmai[i] % 100;
+ //taille = typmai[i]%100;
+
+ /* allocation memoire */
+ connectivite = (med_int *) malloc(sizeof(med_int) *
+ taille * nmailles[i]);
+ nomele = (char *)malloc(sizeof(char) * MED_TAILLE_PNOM *
+ nmailles[i] + 1);
+ numele = (med_int *) malloc(sizeof(med_int) * nmailles[i]);
+ nufael = (med_int *) malloc(sizeof(med_int) * nmailles[i]);
+ nomele = "";
+ nbNodes = typmai[i] % 100;
+
+ //penser a mater les (taille-nsup)
+ for (j = 0; j < nmailles[i]; j++)
+ {
+ myId = elem_Id[i][j];
+ const SMDS_MeshElement * elem =
+ myMesh->FindElement(myId);
+ *(numele + j) = myId;
+ //elem_id=*(numele+j);
+ //fprintf(stdout,"%d \n",myId);
+
+ SMDS_Iterator<const SMDS_MeshElement *> * itNode=
+ elem->nodesIterator();
+
+ while(itNode->more())
+ {
+ //*(connectivite+j*(taille-1)+k)=cnx[k];
+ *(connectivite + j * (taille - nsup) + k) =
+ itNode->next()->GetID();
+ //fprintf(stdout,"%d ",*(connectivite+j*(taille-nsup)+k));
+ }
+ nufael[j] = 0;
+ //fprintf(stdout,"\n");
+ }
+
+ /* ecriture des données */
+
+ ret =
+ MEDelementsEcr(myFileId, nommaa, mdim, connectivite,
+ mode_coo, nomele, MED_FAUX, numele, MED_VRAI, nufael,
+ nmailles[i], MED_MAILLE, typmai[i], typ_con, MED_REMP);
+
+ if (ret < 0)
+ MESSAGE(">> ERREUR : lecture des mailles \n");
+
+ /* liberation memoire */
+ free(connectivite);
+ //free(nomele);
+ free(numele);
+ free(nufael);
+ MESSAGE(" End " << typmai[i]);
+ }
+ }
/****************************************************************************
* FERMETURE DU FICHIER *
****************************************************************************/
- /*! ret = MEDfermer(myFileId);
-
- if (ret != 0)
- fprintf(stderr,">> ERREUR : erreur a la fermeture du fichier %s\n",file2Read);
- */
+ /*! ret = MEDfermer(myFileId);
+ *
+ * if (ret != 0)
+ * fprintf(stderr,">> ERREUR : erreur a la fermeture du fichier %s\n",file2Read);
+ */
}