filterBlockOfentities.c

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00001 /*  This file is part of MED.
00002  *
00003  *  COPYRIGHT (C) 1999 - 2015  EDF R&D, CEA/DEN
00004  *  MED is free software: you can redistribute it and/or modify
00005  *  it under the terms of the GNU Lesser General Public License as published by
00006  *  the Free Software Foundation, either version 3 of the License, or
00007  *  (at your option) any later version.
00008  *
00009  *  MED is distributed in the hope that it will be useful,
00010  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
00011  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
00012  *  GNU Lesser General Public License for more details.
00013  *
00014  *  You should have received a copy of the GNU Lesser General Public License
00015  *  along with MED.  If not, see <http://www.gnu.org/licenses/>.
00016  */
00017 
00018 #define MAX(a,b) ((a) > (b) ? (a) : (b))
00019 
00020 #include <med.h>
00021 #define MESGERR 1
00022 #include "med_utils.h"
00023 #include "med_config.h"
00024 
00025 #include <stdlib.h>
00026 #include <string.h>
00027 #include <assert.h>
00028 
00029 #if TIME_WITH_SYS_TIME
00030 # include <sys/time.h>
00031 # include <time.h>
00032 #else
00033 # if HAVE_SYS_TIME_H
00034 #  include <sys/time.h>
00035 # else
00036 #  include <time.h>
00037 # endif
00038 #endif
00039 
00040 #ifndef HAVE_UNISTD_H
00041 #error "unistd.h reuired."
00042 #endif
00043 
00044 #include "getBlocksOfEntitiesPartition.h"
00045 #include "generateDatas.h"
00046 #include "generateFilterArray.h"
00047 
00048 
00049 #ifdef DEF_LECT_ECR
00050 #define MODE_ACCES MED_ACC_RDWR
00051 #elif DEF_LECT_AJOUT
00052 #define MODE_ACCES MED_ACC_RDEXT
00053 #else
00054 #define MODE_ACCES MED_ACC_CREAT
00055 #endif
00056 
00057 /*Valeur de l'enum dans med.h.in*/
00058 /* #define MED_NO_INTERLACE 2 */
00059 /* #define MED_FULL_INTERLACE 1 */
00060 
00061 
00062 /* #ifndef USER_INTERLACE */
00063 /* #define USER_INTERLACE MED_FULL_INTERLACE */
00064 /* #warning "Defining MED_FULL_INTERLACE mode..." */
00065 /* #endif */
00066 
00067 /* #if USER_INTERLACE == MED_NO_INTERLACE */
00068 /* #define generateDatas generateNoIDatas */
00069 /* #warning "Using generateNoIDatas..." */
00070 /* #elif USER_INTERLACE == MED_FULL_INTERLACE */
00071 /* #define generateDatas generateFullIDatas */
00072 /* #warning "Using generateFullIDatas..." */
00073 /* #else */
00074 /* #error "The USER_INTERLACE macro value match neither MED_NO_INTERLACE nor MED_FULL_INTERLACE" */
00075 /* #endif */
00076 
00077 /* #define USER_MODE MED_COMPACT */
00078 
00079 
00080 int main (int argc, char **argv)
00081 
00082 
00083 {
00084   med_err _ret=0;
00085   med_idt _fid;
00086 
00087   int mpi_size, mpi_rank;
00088   MPI_Comm comm = MPI_COMM_WORLD;
00089   MPI_Info info = MPI_INFO_NULL;
00090 
00091   med_int    _nentitiesfiltered=0;
00092   med_int    *_filterarray=NULL;
00093 
00094 
00095   MPI_Init(&argc, &argv);
00096   MPI_Comm_size(MPI_COMM_WORLD, &mpi_size);
00097   MPI_Comm_rank(MPI_COMM_WORLD, &mpi_rank);
00098 
00099 
00100   med_err generateFieldFile( const med_size nentities, const med_size nvaluesperentity, const med_size nconstituentpervalue,
00101                              const med_switch_mode constituentmode,GetBlocksOfEntitiesType getBlockOfEntities, const med_int nbblocksperproc,
00102                              GenerateDataType generateDatas,
00103                              const med_storage_mode storagemode, const med_size profilearraysize,  const char * const fieldnameprefix ) {
00104 
00105 /*     static int   _fileno=0; */
00106     med_err      _ret=-1;
00107     char         _filename   [255]="";
00108     char         _meshname[MED_NAME_SIZE+1]="Empty mesh";
00109     med_int      _meshdim=3;
00110     char         _meshcomponentname[3*MED_SNAME_SIZE+1] = "x               y               z               ";
00111     char         _meshcomponentunit[3*MED_SNAME_SIZE+1] = "cm              cm              cm              ";
00112     char         _fieldname  [MED_NAME_SIZE+1]="";
00113     char         *componentname,*componentunit;
00114     char         _profilename[MED_NAME_SIZE+1]=MED_NO_PROFILE;
00115     med_int       *_profilearray=0;
00116     int          _i=0,_j=0,_k=0, _lastusedrank=0;
00117     med_size     _blocksize=0,_lastblocksize=0,_count=0,_stride=0,_start=0,_index=0;
00118     med_float    *_arrayvalues;
00119     med_filter   filter = MED_FILTER_INIT;
00120     med_size     _nusedentities        = nentities;
00121     med_size     _io_count                = nbblocksperproc;
00122     med_idt      _fidseq;
00123 
00124     /*TODO : EXTERNALISER CES DEFINITIONS ET GENERALISER LE PRINCIPE */
00125     char         *_MED_MODE_SWITCH_MSG[3]={"MED_FULL_INTERLACE", "MED_NO_INTERLACE","MED_UNDEF_INTERLACE",};
00126     char         *_MED_STORAGE_MODE_MSG[3]={"MED_NO_PFLMODE","MED_GLOBAL_PFLMODE", "MED_COMPACT_PFLMODE"};
00127 
00128     med_geometry_type     _geotype       = MED_TRIA6;
00129     med_int               _geodim        = _geotype/100;
00130     med_int               _geonnodes     = _geotype%100;
00131     char       _ipointname[MED_NAME_SIZE+1];
00132     med_float* _ipointrefcoo = 0;
00133     med_int    _ipoint       = nvaluesperentity;
00134     med_float* _ipointcoo    = 0;
00135     med_float* _ipointwg     = 0;
00136 
00137     sprintf(_filename,"%s_CPU-%03d_@_%s_%s.med",fieldnameprefix,mpi_size,_MED_MODE_SWITCH_MSG[constituentmode],_MED_STORAGE_MODE_MSG[storagemode]);
00138 /*     SSCRUTE(_filename); */
00139     /* Ouverture du fichier en mode parallel */
00140     if ((_fid = MEDparFileOpen(_filename, MODE_ACCES ,comm, info)) < 0){
00141       MED_ERR_(_ret,MED_ERR_OPEN,MED_ERR_FILE,_filename);
00142       goto ERROR;
00143     }
00144 
00145 /*     SSCRUTE(_meshname); */
00146     if (MEDmeshCr( _fid,_meshname,_meshdim,_meshdim, MED_UNSTRUCTURED_MESH,
00147                    "Un maillage pour le test parallel","s", MED_SORT_DTIT,
00148                    MED_CARTESIAN, _meshcomponentname, _meshcomponentunit) < 0) {
00149       MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_MESH,_meshname);
00150       goto ERROR;
00151     };
00152 
00153     componentname = (char*) malloc((nconstituentpervalue*MED_SNAME_SIZE+1)*sizeof(char));
00154     componentunit = (char*) malloc((nconstituentpervalue*MED_SNAME_SIZE+1)*sizeof(char));
00155     /*TODO : Compléter le nom */
00156     strcpy(componentname,"");
00157     strcpy(componentunit,"");
00158     strcpy(_fieldname,fieldnameprefix);
00159     if ( MEDfieldCr(_fid,_fieldname,MED_FLOAT64,nconstituentpervalue,componentname,componentunit,"s",_meshname ) < 0) {
00160       MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_FIELD,_fieldname);
00161       goto ERROR;
00162     };
00163     free(componentname);
00164     free(componentunit);
00165 
00166 
00167     if ( _ipoint > 1 ) {
00168 
00169       MESSAGE("Creating a localization of integration points...");
00170       strcpy(_ipointname,_fieldname);
00171       strcat(_ipointname,"_loc");
00172 
00173       /*Attention ancienne spec*/
00174       _ipointrefcoo = (med_float *) calloc(_geodim*_geonnodes,sizeof(med_float));
00175       _ipointcoo    = (med_float *) calloc(_ipoint*_geodim,sizeof(med_float));
00176       _ipointwg     = (med_float *) calloc(_ipoint,sizeof(med_float));
00177 
00178       if (MEDlocalizationWr(_fid, _ipointname, _geotype, _geotype/100, _ipointrefcoo, constituentmode,
00179                             _ipoint, _ipointcoo, _ipointwg, MED_NO_INTERPOLATION, MED_NO_MESH_SUPPORT ) < 0) {
00180         MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_LOCALIZATION,_ipointname);
00181         ISCRUTE_int(constituentmode);
00182         goto ERROR;
00183       }
00184       free(_ipointrefcoo );
00185       free(_ipointcoo    );
00186       free(_ipointwg     );
00187 
00188     } else {
00189       strcpy(_ipointname,MED_NO_LOCALIZATION);
00190     }
00191 
00192     if (profilearraysize) {
00193       MESSAGE("Creating a profile...");
00194 
00195       strcpy(_profilename,_fieldname);strcat(_profilename,"_profile");
00196 
00197       _profilearray = (med_int*) calloc(profilearraysize,sizeof(med_int));
00198 
00199       for (_i=0; _i < profilearraysize; ++_i) _profilearray[_i]=_i;
00200       if ( MEDprofileWr(_fid,_profilename,profilearraysize,_profilearray) < 0) {
00201         MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_PROFILE,_profilename);
00202         goto ERROR;
00203       };
00204       _nusedentities = profilearraysize;
00205     } else {
00206       strcpy(_profilename,MED_NO_PROFILE);
00207     }
00208 
00209 
00210     MESSAGE("Generating partition...");
00211     getBlockOfEntities ( mpi_rank , mpi_size, _nusedentities,
00212                          &_start, &_stride, &_io_count, &_blocksize,
00213                          &_lastusedrank, &_lastblocksize);
00214 
00215     _count=_io_count;
00216     MESSAGE("Generating filter...");
00217     if ( MEDfilterBlockOfEntityCr(_fid, nentities, nvaluesperentity, nconstituentpervalue,
00218                                   MED_ALL_CONSTITUENT, constituentmode, storagemode, _profilename,
00219                                   _start,_stride,_count,_blocksize,_lastblocksize,  &filter) < 0 ) {
00220         MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_FILTER,"");
00221         goto ERROR;
00222     }
00223 
00224     MESSAGE("Generating datas...");
00225     generateDatas(mpi_rank, _lastusedrank, sizeof(med_float),
00226                   storagemode, profilearraysize, _profilearray,
00227                   _start, _stride, _count, _blocksize, _lastblocksize,
00228                   nentities, nvaluesperentity, nconstituentpervalue,
00229                   &_arrayvalues );
00230 
00231     MESSAGE("Writing field...");
00232     if ( MEDfieldValueAdvancedWr(_fid,_fieldname,MED_NO_DT,MED_NO_IT,0.0, MED_CELL, _geotype,
00233                                  _ipointname, &filter, (unsigned char*)_arrayvalues ) < 0) {
00234       MED_ERR_(_ret,MED_ERR_WRITE,MED_ERR_FIELD,_fieldname);
00235       ISCRUTE(mpi_rank);
00236       goto ERROR;
00237     }
00238 
00239     /* Test de lecture du même fichier avec filtre simple par un seul processeur */
00240     /* TODO : Créer MEDflush */
00241     H5Fflush(_fid, H5F_SCOPE_GLOBAL );
00242 
00243     /*Le flush suffit pas besoin de synchroniser les processus : MPI_Barrier(MPI_COMM_WORLD); */
00244     if (mpi_rank == 0 ) {
00245       MESSAGE("Reading field...");
00246 
00247 
00248       med_int    _nentitiesarrayvalues=0;
00249       med_float  *_filteredarrayvalues=NULL;
00250       med_filter filter2=MED_FILTER_INIT;
00251       int        _ind=0;
00252       FILE *     _asciifile;
00253       char       _asciifilename[255]="";
00254 
00255 
00256       if ((_fidseq = MEDfileOpen(_filename, MED_ACC_RDONLY )) < 0){
00257         MED_ERR_(_ret,MED_ERR_OPEN,MED_ERR_FILE,_filename);
00258         goto ERROR;
00259       }
00260 
00261       sprintf(_asciifilename,"%s_CPU-%03d_@_%s_%s.ascii",fieldnameprefix,mpi_size,_MED_MODE_SWITCH_MSG[constituentmode],_MED_STORAGE_MODE_MSG[storagemode]);
00262       _asciifile=fopen(_asciifilename, "w");
00263 
00264       /*Génère un filtre de selection simple s'il n'a pas déjà été généré lors d'un précédent appel */
00265       /*TODO : Déplacer cette appel dans le main après avoir externaliser la génération du profile */
00266       if (!_filterarray)
00267         if ( generateFilterArray(  nentities,  nvaluesperentity, nconstituentpervalue,
00268                                    profilearraysize, _profilearray,
00269                                    &_nentitiesfiltered, &_filterarray ) < 0 ) {
00270           goto ERROR;
00271         }
00272 
00273       ISCRUTE(_nentitiesfiltered);
00274       /*Stocke le filtre utilisé dans le fichier .ascii*/
00275       for (_i=0; _i < _nentitiesfiltered; ++_i ) {
00276 /*      ISCRUTE(_filterarray[_i]); */
00277         fprintf(_asciifile,"%d ",_filterarray[_i]) ;
00278       }
00279       fprintf(_asciifile,"\n") ;
00280 
00281 
00282       /*Pas de profile possible (profilearraysize == 0) en MED_GLOBAL_PFLMODE sur un fichier géré en parallel */
00283       if ( profilearraysize ) {
00284         _nentitiesarrayvalues = profilearraysize;
00285       } else {
00286         _nentitiesarrayvalues = nentities;
00287       }
00288 
00289       /*Attention allocation mémoire potentiellement grosse car réalisée uniquement par le processus 0
00290        qui rassemble les données.*/
00291       /* C'est une taille maxi qui ne prend pas en compte le COMPACT+filter */
00292       /* TODO : Ajuster la taille au storage_mode*/
00293       _filteredarrayvalues = (med_float*) malloc(_nentitiesarrayvalues*
00294                                                  nvaluesperentity*
00295                                                  nconstituentpervalue*sizeof(med_float));
00296 
00297       /* Permet de vérifier une erreur d'indiçage après la lecture */
00298       for (_i=0;_i<_nentitiesarrayvalues*nvaluesperentity*nconstituentpervalue; ++_i)
00299         _filteredarrayvalues[_i]=-_i;
00300 
00301 
00302       /*Création d'un filtre de sélection simple, pour une lecture séquentielle par le processys 0*/
00303       if ( MEDfilterEntityCr(_fidseq, nentities, nvaluesperentity, nconstituentpervalue,
00304                              MED_ALL_CONSTITUENT, constituentmode, storagemode, _profilename,
00305                              _nentitiesfiltered,_filterarray, &filter2) < 0 ) {
00306         MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_FILTER,"");
00307         goto ERROR;
00308       }
00309 
00310       if ( MEDfieldValueAdvancedRd(_fidseq,_fieldname,MED_NO_DT,MED_NO_IT, MED_CELL, _geotype,
00311                                    &filter2, (unsigned char*)_filteredarrayvalues ) < 0) {
00312         MED_ERR_(_ret,MED_ERR_READ,MED_ERR_FIELD,_fieldname);
00313         ISCRUTE(mpi_rank);
00314         goto ERROR;
00315       }
00316 
00317       /*AFFICHAGE TOUJOURS EN FULL INTERLACE QUELQUES SOIENT LES COMBINAISONS*/
00318       /*TODO : Externaliser l'affichage*/
00319       if ( storagemode == MED_GLOBAL_PFLMODE ) {
00320         switch (constituentmode) {
00321         case MED_FULL_INTERLACE:
00322           for (_i=0; _i < _nentitiesfiltered; ++_i)
00323             for (_j=0; _j < nvaluesperentity; ++_j)
00324               for (_k=0; _k < nconstituentpervalue; ++_k) {
00325                 _ind = (_filterarray[_i]-1)*nvaluesperentity*nconstituentpervalue+ _j*nconstituentpervalue+_k;
00326 /*              fprintf(stdout,"%s%3d%s = %f\n","_filteredarrayvaluesFULLGLB[",_ind,"]",_filteredarrayvalues[_ind]) ; */
00327                 fprintf(_asciifile,"%f\n",_filteredarrayvalues[_ind]) ;
00328               }
00329           break;
00330         case MED_NO_INTERLACE:
00331           for (_j=0; _j < _nentitiesfiltered; ++_j)
00332             for (_k=0; _k < nvaluesperentity; ++_k)
00333               for (_i=0; _i < nconstituentpervalue; ++_i) {
00334                 _ind =_i*nentities*nvaluesperentity+ (_filterarray[_j]-1)*nvaluesperentity +_k;
00335 /*              fprintf(stdout,"%s%3d%s = %f\n","_filteredarrayvaluesNOGLB[",_ind,"]",_filteredarrayvalues[_ind]); */
00336                 fprintf(_asciifile,"%f\n",_filteredarrayvalues[_ind]);
00337               }
00338           break;
00339         }
00340       }  else
00341         switch (constituentmode) {
00342         case MED_FULL_INTERLACE:
00343           for (_i=0; _i < _nentitiesfiltered; ++_i )
00344             for (_j=0; _j < nvaluesperentity; ++_j)
00345               for (_k=0; _k < nconstituentpervalue; ++_k) {
00346                 _ind = _i*nvaluesperentity*nconstituentpervalue+_j*nconstituentpervalue+_k;
00347 /*              fprintf(stdout,"%s%3d%s = %f\n","_filteredarrayvaluesFULLCP[",_ind,"]",_filteredarrayvalues[_ind]) ; */
00348                 fprintf(_asciifile,"%f\n",_filteredarrayvalues[_ind]) ;
00349           }
00350           break;
00351         case MED_NO_INTERLACE:
00352           for (_j=0; _j < _nentitiesfiltered; ++_j)
00353             for (_k=0; _k < nvaluesperentity; ++_k)
00354               for (_i=0; _i < nconstituentpervalue; ++_i) {
00355                 _ind =_i*_nentitiesfiltered*nvaluesperentity+ _j*nvaluesperentity +_k;
00356                 /* _ind =_i*_nentitiesarrayvalues*nvaluesperentity+ (_filterarray[_j]-1)*nvaluesperentity +_k; */
00357 /*              fprintf(stdout,"%s%3d%s = %f\n","_filteredarrayvaluesNOCP[",_ind,"]",_filteredarrayvalues[_ind]); */
00358                 fprintf(_asciifile,"%f\n",_filteredarrayvalues[_ind]);
00359               }
00360           break;
00361         }
00362 
00363 
00364       free(_filteredarrayvalues);
00365 
00366       fclose(_asciifile);
00367 
00368       if ( MEDfilterClose(&filter2) < 0 ) {
00369         MED_ERR_(_ret,MED_ERR_CLOSE,MED_ERR_FILTER,"");
00370         goto ERROR;
00371       }
00372 
00373     } /*fin if (mpi_rank == 0) */
00374 
00375   if ( MEDfilterClose(&filter) < 0 ) {
00376     MED_ERR_(_ret,MED_ERR_CLOSE,MED_ERR_FILTER,"");
00377     goto ERROR;
00378   }
00379 
00380 
00381     _ret=0;
00382   ERROR:
00383     if (_arrayvalues)     free(_arrayvalues);
00384     if (profilearraysize) free(_profilearray);
00385 
00386     if (  MEDfileClose(_fid) < 0) {
00387       MED_ERR_(_ret,MED_ERR_CLOSE,MED_ERR_FILE,""); _ret = -1;
00388     }
00389 
00390     if (mpi_rank == 0 ) {
00391       if (  MEDfileClose(_fidseq) < 0) {
00392         MED_ERR_(_ret,MED_ERR_CLOSE,MED_ERR_FILE,""); _ret = -1;
00393       }
00394     }
00395 
00396     return _ret;
00397   }
00398 
00399 
00400 
00401 
00402   /* MAIN */
00403   med_size            _nbblocksperproc    = 0;
00404   int           _nentities             = 0;
00405   int           _nvaluesperentity      = 0;
00406   int           _nconstituentpervalue  = 0;
00407 
00408   if (mpi_rank == 0 ) {
00409 
00410     struct tm *_tm ;
00411     time_t _tt=time(0);
00412     _tm = localtime(&_tt);
00413 
00414     srandom((*_tm).tm_sec * (*_tm).tm_min );
00415     _nbblocksperproc         = 1 + (int) (mpi_size * (random() / (RAND_MAX + 1.0)));
00416     _nentities            = 1 + (int) (1000.0 * (random() / (RAND_MAX + 1.0)));
00417     _nvaluesperentity     = 1 + (int) (11.0 * (random() / (RAND_MAX + 1.0)));
00418     _nconstituentpervalue = 1 + (int) (7.0 * (random() / (RAND_MAX + 1.0)));
00419 /*     _nbblocksperproc         = 1 + (int) (mpi_size * (random() / (RAND_MAX + 1.0))); */
00420 /*     _nentities            = 1 + (int) (5.0 * (random() / (RAND_MAX + 1.0))); */
00421 /*     _nvaluesperentity     = 1 + (int) (3.0 * (random() / (RAND_MAX + 1.0))); */
00422 /*     _nconstituentpervalue = 1 + (int) (3.0 * (random() / (RAND_MAX + 1.0))); */
00423 /*     _nbblocksperproc         = 2; */
00424 /*     _nentities            = 4; */
00425 /*     _nvaluesperentity     = 1; */
00426 /*     _nconstituentpervalue = 1; */
00427 
00428   }
00429 
00430   if ( (sizeof(med_size)%(sizeof(MPI_LONG)))==0 ) {
00431 
00432     MPI_Bcast(&_nbblocksperproc         , sizeof(med_size)/sizeof(MPI_LONG), MPI_LONG, 0, MPI_COMM_WORLD);
00433     MPI_Bcast(&_nentities            , sizeof(med_size)/sizeof(MPI_LONG), MPI_LONG, 0, MPI_COMM_WORLD);
00434     MPI_Bcast(&_nvaluesperentity     , sizeof(med_size)/sizeof(MPI_LONG), MPI_LONG, 0, MPI_COMM_WORLD);
00435     MPI_Bcast(&_nconstituentpervalue , sizeof(med_size)/sizeof(MPI_LONG), MPI_LONG, 0, MPI_COMM_WORLD);
00436   } else {
00437     assert(sizeof(med_size) == (sizeof(MPI_LONG)));
00438   }
00439 
00440   char                _fieldnameprefix[256] = "";
00441 
00442   sprintf(_fieldnameprefix,"NENT-%03d_NVAL-%03d_NCST-%03d_NBL-%03llu",_nentities,_nvaluesperentity,
00443           _nconstituentpervalue,_nbblocksperproc);
00444 
00445   GenerateDataType generateDatas = 0;
00446   med_switch_mode  _switchmode  = MED_UNDEF_INTERLACE;
00447   med_storage_mode _storagemode = MED_UNDEF_PFLMODE;
00448   /*Pour que les 4 fichiers générés soient identiques, on désactive l'utilisation des profils
00449     qui n'est pas utilisable en mode GLOBAL et // */
00450   med_int          _profilearraysize=0;
00451   /*   med_int       _profilearraysize=_nentities/2; */
00452 
00453   for (_switchmode = MED_FULL_INTERLACE ; _switchmode <= MED_NO_INTERLACE; ++_switchmode) {
00454 
00455     if ( _switchmode == MED_FULL_INTERLACE ) generateDatas = generateFullIDatas;
00456     else generateDatas = generateNoIDatas;
00457 
00458     for (_storagemode = MED_GLOBAL_PFLMODE ; _storagemode <= MED_COMPACT_PFLMODE; ++_storagemode) {
00459 
00460       if ( (_storagemode == MED_GLOBAL_PFLMODE ) && (_profilearraysize) ) _profilearraysize=0;
00461 
00462       if ( generateFieldFile( _nentities,  _nvaluesperentity, _nconstituentpervalue,
00463                               _switchmode, getCyclicBlocksOfEntities, _nbblocksperproc, generateDatas,
00464                               _storagemode, _profilearraysize,  _fieldnameprefix ) < 0 ) {
00465         MED_ERR_(_ret,MED_ERR_WRITE,MED_ERR_FIELD,_fieldnameprefix);
00466         ISCRUTE(mpi_rank);
00467         goto ERROR;
00468       }
00469 
00470     }
00471   }
00472 
00473 
00474   _ret = 0;
00475  ERROR:
00476 
00477   if (_filterarray) free(_filterarray);
00478 
00479   /*pour arch. BLueGene : Sync entre GPFS et LSF : sleep(360) */
00480 
00481   /* MPI_Finalize must be called AFTER MEDclose which may use MPI calls */
00482   MPI_Finalize();
00483 
00484   /* Catcher l'erreur en retour mpirun  et .sh*/
00485   return _ret;
00486 }
00487 
00488 
00489 
00490 

Généré le Thu Oct 8 14:26:16 2015 pour MED fichier par  doxygen 1.6.1