MED fichier
usecases/c/UsesCase_MEDstructElement_3.c
/* This file is part of MED.
*
* COPYRIGHT (C) 1999 - 2023 EDF R&D, CEA/DEN
* MED 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 3 of the License, or
* (at your option) any later version.
*
* MED 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 MED. If not, see <http://www.gnu.org/licenses/>.
*/
#include <med.h>
#define MESGERR 1
#include <med_utils.h>
#include <string.h>
/*
* StructElement use case 3 : read struct element models in a file from a computation mesh
*/
int main (int argc, char **argv) {
med_idt fid;
med_int nmodels, nsmesh;
int i,j;
char elementname[MED_NAME_SIZE+1]="";
char supportmeshname[MED_NAME_SIZE+1]="";
const char computmeshname[MED_NAME_SIZE+1]="COMPUT_MESH";
med_entity_type entitype;
med_int elementdim;
med_int nnode,ncell;
med_geometry_type geocelltype;
med_bool anyprofile=0;
med_int nconstatt, *nvaratt=NULL;
char attname[MED_NAME_SIZE+1]="";
char profilename[MED_NAME_SIZE+1]="";
med_int nattcomp;
med_entity_type attentitype;
med_int profilesize;
med_float *value=NULL;
med_int size=0;
med_int meshdim, spacedim;
char description[MED_COMMENT_SIZE+1]="";
char axisname[3*MED_SNAME_SIZE+1]="";
char axisunit[3*MED_SNAME_SIZE+1]="";
med_axis_type axistype;
med_float *coordinates=NULL;
med_bool coordinatechangement;
med_bool geotransformation;
med_int nseg2;
med_int *seg2connectivity=NULL;
med_int nentities=0;
med_sorting_type sortingtype;
med_mesh_type meshtype;
med_int nstep;
char dtunit[MED_SNAME_SIZE+1]="";
char unitname[2*MED_SNAME_SIZE+1]="";
int ret=-1;
/* open file */
fid = MEDfileOpen("UsesCase_MEDstructElement_1.med",MED_ACC_RDONLY);
if (fid < 0) {
MESSAGE("ERROR : file creation ...");
goto ERROR;
}
/*
* ... In this case, we know that the MED file has only one mesh,
* a real code would check ...
*/
/* read mesh informations : mesh dimension, space dimension ... */
if (MEDmeshInfoByName(fid, computmeshname, &spacedim, &meshdim, &meshtype, description,
dtunit, &sortingtype, &nstep, &axistype, axisname, unitname) < 0) {
MESSAGE("ERROR : mesh info ...");
goto ERROR;
}
/* read how many struct element models in the mesh ? */
if ((nmodels = MEDmeshnEntity(fid, computmeshname, MED_NO_DT, MED_NO_IT, MED_STRUCT_ELEMENT, MED_GEO_ALL,
MED_UNDEF_DATATYPE, MED_NO_CMODE,&coordinatechangement,
&geotransformation)) < 0) {
MESSAGE("ERROR : number of nodes ...");
goto ERROR;
}
geotype = (med_geometry_type *) malloc(sizeof(med_geometry_type)*nmodels);
nvaratt = (med_int *) malloc(sizeof(med_int)*nmodels);
/* Get the name and the geotype of each struct element model used in the computation mesh.
For each struct element geotype read the connectivity and the attribute(s)
The mesh support may be read if needed.
*/
for (i=0;i<nmodels;i++) {
/* read the geotype */
if (MEDmeshEntityInfo(fid, computmeshname, MED_NO_DT, MED_NO_IT, MED_STRUCT_ELEMENT,i+1,elementname,(geotype+i)) < 0) {
MESSAGE("ERROR : name and type of MED_STRUCT_ELEMENT ...");
goto ERROR;
}
/* read how many MED_STRUCT_ELEMENT of type *(geotype+i) there is in the mesh */
if ((nentities = MEDmeshnEntity(fid, computmeshname, MED_NO_DT, MED_NO_IT, MED_STRUCT_ELEMENT,*(geotype+i),
MED_CONNECTIVITY, MED_NODAL, &coordinatechangement,
&geotransformation)) < 0) {
MESSAGE("ERROR : number of MED_STRUCT_ELEMENT ...");
goto ERROR;
}
/* read informations about the model */
if (MEDstructElementInfoByName(fid, elementname, geotype+i, &elementdim,
supportmeshname, &entitype, &nnode, &ncell,
&geocelltype, &nconstatt, &anyprofile, nvaratt+i) < 0) {
MESSAGE("ERROR : struct element models information ...");
goto ERROR;
}
/* read support mesh */
/* TODO : Ceci est optionnel dans ce usescase */
if (strcmp(supportmeshname,"")) {
if ( MEDsupportMeshInfoByName(fid, supportmeshname, &spacedim, &meshdim, description,
&axistype, axisname, axisunit) < 0 ) {
MESSAGE("ERROR : read information about mesh support ...");
goto ERROR;
}
ISCRUTE(nnode);
/* read how many nodes in the support mesh */
/* Ceci est optionnel dans ce usescase */
if ((nnode = MEDmeshnEntity(fid, supportmeshname, MED_NO_DT, MED_NO_IT, MED_NODE, MED_NONE,
MED_COORDINATE, MED_NO_CMODE,&coordinatechangement,
&geotransformation)) < 0) {
MESSAGE("ERROR : read number of nodes ...");
goto ERROR;
}
ISCRUTE(nnode);
/* read support mesh nodes coordinates */
/* Ceci est optionnel dans ce usescase */
coordinates = (med_float*) malloc(sizeof(med_float)*nnode*spacedim);
coordinates) < 0) {
MESSAGE("ERROR : read nodes coordinates ...");
free(coordinates);
goto ERROR;
}
/* free memory */
free(coordinates);
/* read how many MED_SEG2 cells in the support mesh */
/* Ceci est optionnel dans ce usescase */
if ((nseg2 = MEDmeshnEntity(fid, supportmeshname, MED_NO_DT, MED_NO_IT, MED_CELL,geocelltype,
MED_CONNECTIVITY, MED_NODAL, &coordinatechangement,
&geotransformation)) < 0) {
MESSAGE("ERROR : number of MED_SEG2 ...");
goto ERROR;
}
ISCRUTE(nseg2);
ISCRUTE(ncell);
/* read MED_SEG2 connectivity in the support mesh */
if (nseg2 > 0) {
seg2connectivity = (med_int *) malloc(sizeof(med_int)*nseg2*2);
geocelltype, MED_NODAL, MED_FULL_INTERLACE, seg2connectivity) < 0) {
MESSAGE("ERROR : MED_SEG2 connectivity ...");
free(seg2connectivity);
goto ERROR;
}
free(seg2connectivity);
}
}
/* read constant attribute(s) */
/* Optionnel pour ce usescase (cf. usescase lecture modèle) */
for (j=0; j<nconstatt; j++) {
if ( MEDstructElementConstAttInfo(fid, elementname, j+1,
attname, &atttype, &nattcomp, &attentitype,
profilename, &profilesize) < 0) {
MESSAGE("ERROR : const attribute information ...");
goto ERROR;
}
/* if there is a profile => read the profile, see UsesCase_MEDprofile_2 */
/* memory allocation */
if (profilesize != 0)
size = profilesize*nattcomp*MEDstructElementAttSizeof(atttype);
else
if (attentitype== MED_NODE)
size = nnode*nattcomp*MEDstructElementAttSizeof(atttype);
else
size = ncell*nattcomp*MEDstructElementAttSizeof(atttype);
if ( atttype == MED_ATT_NAME) ++size;
ISCRUTE(size);
value = (med_float *) malloc(size);
/* read attribute(s) value(s) */
if ( MEDstructElementConstAttRd(fid, elementname, attname, (unsigned char *)value ) < 0 ) {
MESSAGE("ERROR : const attribute value ...");
free(value);
goto ERROR;
}
/* memory deallocation */
free(value);
}
/* read variable attribute(s) */
for (j=0; j<*(nvaratt+i); j++) {
/* read informations about the attribute */
if ( MEDstructElementVarAttInfo(fid, elementname, j+1,
attname, &atttype, &nattcomp) < 0) {
MESSAGE("ERROR : var attribute information ...");
goto ERROR;
}
/* memory allocation */
size = nentities*nattcomp*MEDstructElementAttSizeof(atttype);
if ( atttype == MED_ATT_NAME) ++size;
ISCRUTE(size);
value = (med_float *) malloc((size)*sizeof(char));
/* read attribute values */
*(geotype+i), attname, value ) < 0) {
MESSAGE("ERROR : read variable attributes values ...");
free(value);
goto ERROR;
}
/* free memory */
free(value);
}
}
ret=0;
ERROR:
/* free memory */
free(geotype);
free(nvaratt);
/* close file */
if (MEDfileClose(fid) < 0) {
MESSAGE("ERROR : file closing ...");
ret=-1;
}
return ret;
}
MEDmeshStructElementVarAttRd
MEDC_EXPORT med_err MEDmeshStructElementVarAttRd(const med_idt fid, const char *const meshname, const med_int numdt, const med_int numit, const med_geometry_type mgeotype, const char *const varattname, void *const value)
Cette routine lit les valeurs d'un attribut caractéristique variable sur les éléments de structure d'...
Definition: MEDmeshStructElementVarAttRd.c:43
MED_ACC_RDONLY
Definition: med.h:122
MED_COMMENT_SIZE
#define MED_COMMENT_SIZE
Definition: med.h:81
med_geometry_type
int med_geometry_type
Definition: med.h:196
MED_ATT_NAME
Definition: med.h:177
MED_SNAME_SIZE
#define MED_SNAME_SIZE
Definition: med.h:84
MEDstructElementVarAttInfo
MEDC_EXPORT med_err MEDstructElementVarAttInfo(const med_idt fid, const char *const modelname, const int attit, char *const varattname, med_attribute_type *const varatttype, med_int *const ncomponent)
Cette routine décrit les caractéristiques d'un attribut variable de modèle d'élément de structure par...
Definition: MEDstructElementVarAttInfo.c:41
med_idt
hid_t med_idt
Definition: med.h:333
MED_UNDEF_DATATYPE
Definition: med.h:154
MEDmeshEntityInfo
MEDC_EXPORT med_err MEDmeshEntityInfo(const med_idt fid, const char *const meshname, const med_int numdt, const med_int numit, const med_entity_type entitype, const int geotypeit, char *const geotypename, med_geometry_type *const geotype)
Cette routine indique de façon itérative les types géométriques disponibles dans un maillage.
Definition: MEDmeshEntityInfo.c:41
med_sorting_type
med_sorting_type
Definition: med.h:311
med_entity_type
med_entity_type
Definition: med.h:145
MESSAGE
#define MESSAGE(chaine)
Definition: med_utils.h:324
MED_FULL_INTERLACE
Definition: med.h:98
MEDmeshInfoByName
MEDC_EXPORT med_err MEDmeshInfoByName(const med_idt fid, const char *const meshname, med_int *const spacedim, med_int *const meshdim, med_mesh_type *const meshtype, char *const description, char *const dtunit, med_sorting_type *const sortingtype, med_int *const nstep, med_axis_type *const axistype, char *const axisname, char *const axisunit)
Cette routine permet de lire les informations relatives à un maillage en précisant son nom.
Definition: MEDmeshInfoByName.c:42
med_int
int med_int
Definition: med.h:344
MED_STRUCT_ELEMENT
Definition: med.h:146
MEDstructElementConstAttRd
MEDC_EXPORT med_err MEDstructElementConstAttRd(const med_idt fid, const char *const modelname, const char *const constattname, void *const value)
Cette routine lit la valeur d'un attribut caractéristique constant d'un modèle d'éléments de structur...
Definition: MEDstructElementConstAttRd.c:42
ISCRUTE
#define ISCRUTE(entier)
Definition: med_utils.h:313
med_attribute_type
med_attribute_type
Definition: med.h:175
med_bool
med_bool
Definition: med.h:262
MEDmeshnEntity
MEDC_EXPORT med_int MEDmeshnEntity(const med_idt fid, const char *const meshname, const med_int numdt, const med_int numit, const med_entity_type entitype, const med_geometry_type geotype, const med_data_type datatype, const med_connectivity_mode cmode, med_bool *const changement, med_bool *const transformation)
Cette routine permet de lire le nombre d'entités dans un maillage pour une étape de calcul donnée.
Definition: MEDmeshnEntity.c:44
med_float
double med_float
Definition: med.h:338
MED_COORDINATE
Definition: med.h:151
MED_NO_CMODE
Definition: med.h:257
MED_GEO_ALL
#define MED_GEO_ALL
Definition: med.h:238
MED_NO_DT
#define MED_NO_DT
Definition: med.h:322
MED_NONE
#define MED_NONE
Definition: med.h:233
MEDstructElementAttSizeof
MEDC_EXPORT int MEDstructElementAttSizeof(const med_attribute_type atttype)
Cette routine renvoie la taille en octets du type élémentaire atttype.
Definition: MEDstructElementAttsizeof.c:27
MEDfileClose
MEDC_EXPORT med_err MEDfileClose(med_idt fid)
Fermeture d'un fichier MED.
Definition: MEDfileClose.c:30
MEDstructElementConstAttInfo
MEDC_EXPORT med_err MEDstructElementConstAttInfo(const med_idt fid, const char *const modelname, const int attit, char *const constattname, med_attribute_type *const constatttype, med_int *const ncomponent, med_entity_type *const sentitytype, char *const profilename, med_int *const profilesize)
Cette routine décrit les caractéristiques d'un attribut constant de modèle d'élément de structure par...
Definition: MEDstructElementConstAttInfo.c:45
med_mesh_type
med_mesh_type
Definition: med.h:133
MED_CELL
Definition: med.h:145
MED_NAME_SIZE
#define MED_NAME_SIZE
Definition: med.h:83
MEDstructElementInfoByName
MEDC_EXPORT med_err MEDstructElementInfoByName(const med_idt fid, const char *const modelname, med_geometry_type *const mgeotype, med_int *const modeldim, char *const supportmeshname, med_entity_type *const sentitytype, med_int *const snnode, med_int *const sncell, med_geometry_type *const sgeotype, med_int *const nconstantatribute, med_bool *const anyprofile, med_int *const nvariableattribute)
Cette routine décrit les caractéristiques d'un modèle d'élément de structure à partir de son nom.
Definition: MEDstructElementInfoByName.c:49
med_utils.h
MED_NODE
Definition: med.h:145
med_axis_type
med_axis_type
Definition: med.h:260
med.h
MED_CONNECTIVITY
Definition: med.h:151
MED_NO_IT
#define MED_NO_IT
Definition: med.h:323
MEDfileOpen
MEDC_EXPORT med_idt MEDfileOpen(const char *const filename, const med_access_mode accessmode)
Ouverture d'un fichier MED.
Definition: MEDfileOpen.c:42
MEDmeshNodeCoordinateRd
MEDC_EXPORT med_err MEDmeshNodeCoordinateRd(const med_idt fid, const char *const meshname, const med_int numdt, const med_int numit, const med_switch_mode switchmode, med_float *const coordinates)
Cette routine permet de lire dans un maillage le tableau des coordonnées des noeuds,...
Definition: MEDmeshNodeCoordinateRd.c:37
main
int main(int argc, char **argv)
Definition: 3.0.8/test10.c:50
MEDsupportMeshInfoByName
MEDC_EXPORT med_err MEDsupportMeshInfoByName(const med_idt fid, const char *const supportmeshname, med_int *const spacedim, med_int *const meshdim, char *const description, med_axis_type *const axistype, char *const axisname, char *const axisunit)
Cette routine permet de lire les informations relatives à un maillage support en précisant son nom.
Definition: MEDsupportMeshInfoByName.c:39
MED_NODAL
Definition: med.h:257
MEDmeshElementConnectivityRd
MEDC_EXPORT med_err MEDmeshElementConnectivityRd(const med_idt fid, const char *const meshname, const med_int numdt, const med_int numit, const med_entity_type entitype, const med_geometry_type geotype, const med_connectivity_mode cmode, const med_switch_mode switchmode, med_int *const connectivity)
Cette routine permet de lire dans un maillage le tableau des connectivités pour un type géométrique d...
Definition: MEDmeshElementConnectivityRd.c:40