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filterBlockOfentities.c
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1 /* This file is part of MED.
2  *
3  * COPYRIGHT (C) 1999 - 2021 EDF R&D, CEA/DEN
4  * MED is free software: you can redistribute it and/or modify
5  * it under the terms of the GNU Lesser General Public License as published by
6  * the Free Software Foundation, either version 3 of the License, or
7  * (at your option) any later version.
8  *
9  * MED is distributed in the hope that it will be useful,
10  * but WITHOUT ANY WARRANTY; without even the implied warranty of
11  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12  * GNU Lesser General Public License for more details.
13  *
14  * You should have received a copy of the GNU Lesser General Public License
15  * along with MED. If not, see <http://www.gnu.org/licenses/>.
16  */
17 
18 #define MAX(a,b) ((a) > (b) ? (a) : (b))
19 
20 #include <med.h>
21 #define MESGERR 1
22 #include "med_utils.h"
23 #include "med_config.h"
24 
25 #include <stdlib.h>
26 #include <string.h>
27 #include <assert.h>
28 
29 #ifdef PPRO_NT_CALL
30 // Windows Header Files:
31 # include <windows.h>
32 # include <Lmcons.h>
33 # include <sys/timeb.h>
34 # include <time.h>
35 #else
36 
37 # if HAVE_SYS_TIME_H
38 # include <sys/time.h>
39 # endif
40 
41 #include <time.h>
42 
43 #ifndef HAVE_UNISTD_H
44 #error "unistd.h required."
45 #endif
46 
47 #endif
48 
50 #include "generateDatas.h"
51 #include "generateFilterArray.h"
52 
53 
54 #ifdef DEF_LECT_ECR
55 #define MODE_ACCES MED_ACC_RDWR
56 #elif DEF_LECT_AJOUT
57 #define MODE_ACCES MED_ACC_RDEXT
58 #else
59 #define MODE_ACCES MED_ACC_CREAT
60 #endif
61 
62 /*Valeur de l'enum dans med.h.in*/
63 /* #define MED_NO_INTERLACE 2 */
64 /* #define MED_FULL_INTERLACE 1 */
65 
66 
67 /* #ifndef USER_INTERLACE */
68 /* #define USER_INTERLACE MED_FULL_INTERLACE */
69 /* #warning "Defining MED_FULL_INTERLACE mode..." */
70 /* #endif */
71 
72 /* #if USER_INTERLACE == MED_NO_INTERLACE */
73 /* #define generateDatas generateNoIDatas */
74 /* #warning "Using generateNoIDatas..." */
75 /* #elif USER_INTERLACE == MED_FULL_INTERLACE */
76 /* #define generateDatas generateFullIDatas */
77 /* #warning "Using generateFullIDatas..." */
78 /* #else */
79 /* #error "The USER_INTERLACE macro value match neither MED_NO_INTERLACE nor MED_FULL_INTERLACE" */
80 /* #endif */
81 
82 /* #define USER_MODE MED_COMPACT */
83 
84 typedef struct {
85  MPI_Info info;
86  MPI_Comm comm;
87  int mpi_size;
88  int mpi_rank;
91 } COM_info;
92 
93 
94 
95 med_err generateFieldFile( const med_size nentities, const med_size nvaluesperentity, const med_size nconstituentpervalue,
96  const med_switch_mode constituentmode,GetBlocksOfEntitiesType getBlockOfEntities, const med_int nbblocksperproc,
97  GenerateDataType generateDatas,
98  const med_storage_mode storagemode, const med_size profilearraysize, const char * const fieldnameprefix, COM_info * const cominfo ) {
99 
100 /* static int _fileno=0; */
101  med_err _ret=-1;
102  char _filename [255]="";
103  char _meshname[MED_NAME_SIZE+1]="Empty mesh";
104  med_int _meshdim=3;
105  char _meshcomponentname[3*MED_SNAME_SIZE+1] = "x y z ";
106  char _meshcomponentunit[3*MED_SNAME_SIZE+1] = "cm cm cm ";
107  char _fieldname [MED_NAME_SIZE+1]="";
108  char *componentname,*componentunit;
109  char _profilename[MED_NAME_SIZE+1]=MED_NO_PROFILE;
110  med_int *_profilearray=0;
111  int _i=0,_j=0,_k=0, _lastusedrank=0;
112  med_size _blocksize=0,_lastblocksize=0,_count=0,_stride=0,_start=0,_index=0;
113  med_float *_arrayvalues;
114  med_filter filter = MED_FILTER_INIT;
115  med_size _nusedentities = nentities;
116  med_size _io_count = nbblocksperproc;
117  med_idt _fidseq,_fid;
118 
119  MPI_Info info = cominfo->info;
120  MPI_Comm comm = cominfo->comm;
121  int mpi_size = cominfo->mpi_size;
122  int mpi_rank = cominfo->mpi_rank;
123 
124  char *_MED_MODE_SWITCH_MSG[3]={"MED_FULL_INTERLACE", "MED_NO_INTERLACE","MED_UNDEF_INTERLACE",};
125  char *_MED_STORAGE_MODE_MSG[3]={"MED_NO_STMODE","MED_GLOBAL_STMODE", "MED_COMPACT_STMODE"};
126 
127  med_geometry_type _geotype = MED_TRIA6;
128  med_int _geodim = _geotype/100;
129  med_int _geonnodes = _geotype%100;
130  char _ipointname[MED_NAME_SIZE+1];
131  med_float* _ipointrefcoo = 0;
132  med_int _ipoint = nvaluesperentity;
133  med_float* _ipointcoo = 0;
134  med_float* _ipointwg = 0;
135 
136  sprintf(_filename,"%s_CPU-%03d_@_%s_%s.med",fieldnameprefix,mpi_size,_MED_MODE_SWITCH_MSG[constituentmode],_MED_STORAGE_MODE_MSG[storagemode]);
137 /* SSCRUTE(_filename); */
138  /* Ouverture du fichier en mode parallel */
139  if ((_fid = MEDparFileOpen(_filename, MODE_ACCES ,comm, info)) < 0){
140  MED_ERR_(_ret,MED_ERR_OPEN,MED_ERR_FILE,_filename);
141  goto ERROR;
142  }
143 
144 /* SSCRUTE(_meshname); */
145  if (MEDmeshCr( _fid,_meshname,_meshdim,_meshdim, MED_UNSTRUCTURED_MESH,
146  "Un maillage pour le test parallel","s", MED_SORT_DTIT,
147  MED_CARTESIAN, _meshcomponentname, _meshcomponentunit) < 0) {
148  MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_MESH,_meshname);
149  goto ERROR;
150  };
151 
152  componentname = (char*) malloc((nconstituentpervalue*MED_SNAME_SIZE+1)*sizeof(char));
153  componentunit = (char*) malloc((nconstituentpervalue*MED_SNAME_SIZE+1)*sizeof(char));
154  /*TODO : Compléter le nom */
155  strcpy(componentname,"");
156  strcpy(componentunit,"");
157  strcpy(_fieldname,fieldnameprefix);
158  if ( MEDfieldCr(_fid,_fieldname,MED_FLOAT64,nconstituentpervalue,componentname,componentunit,"s",_meshname ) < 0) {
159  MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_FIELD,_fieldname);
160  goto ERROR;
161  };
162  free(componentname);
163  free(componentunit);
164 
165 
166  if ( _ipoint > 1 ) {
167 
168  MESSAGE("Creating a localization of integration points...");
169  strcpy(_ipointname,_fieldname);
170  strcat(_ipointname,"_loc");
171 
172  /*Attention ancienne spec*/
173  _ipointrefcoo = (med_float *) calloc(_geodim*_geonnodes,sizeof(med_float));
174  _ipointcoo = (med_float *) calloc(_ipoint*_geodim,sizeof(med_float));
175  _ipointwg = (med_float *) calloc(_ipoint,sizeof(med_float));
176 
177  if (MEDlocalizationWr(_fid, _ipointname, _geotype, _geotype/100, _ipointrefcoo, constituentmode,
178  _ipoint, _ipointcoo, _ipointwg, MED_NO_INTERPOLATION, MED_NO_MESH_SUPPORT ) < 0) {
179  MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_LOCALIZATION,_ipointname);
180  ISCRUTE_int(constituentmode);
181  goto ERROR;
182  }
183  free(_ipointrefcoo );
184  free(_ipointcoo );
185  free(_ipointwg );
186 
187  } else {
188  strcpy(_ipointname,MED_NO_LOCALIZATION);
189  }
190 
191  if (profilearraysize) {
192  MESSAGE("Creating a profile...");
193 
194  strcpy(_profilename,_fieldname);strcat(_profilename,"_profile");
195 
196  _profilearray = (med_int*) calloc(profilearraysize,sizeof(med_int));
197 
198  for (_i=0; _i < profilearraysize; ++_i) _profilearray[_i]=_i;
199  if ( MEDprofileWr(_fid,_profilename,profilearraysize,_profilearray) < 0) {
200  MED_ERR_(_ret,MED_ERR_CREATE,MED_ERR_PROFILE,_profilename);
201  goto ERROR;
202  };
203  _nusedentities = profilearraysize;
204  } else {
205  strcpy(_profilename,MED_NO_PROFILE);
206  }
207 
208 
209  MESSAGE("Generating partition...");
210  getBlockOfEntities ( mpi_rank , mpi_size, _nusedentities,
211  &_start, &_stride, &_io_count, &_blocksize,
212  &_lastusedrank, &_lastblocksize);
213 
214  _count=_io_count;
215  MESSAGE("Generating filter...");
216  if ( MEDfilterBlockOfEntityCr(_fid, nentities, nvaluesperentity, nconstituentpervalue,
217  MED_ALL_CONSTITUENT, constituentmode, storagemode, _profilename,
218  _start,_stride,_count,_blocksize,_lastblocksize, &filter) < 0 ) {
220  goto ERROR;
221  }
222 
223  MESSAGE("Generating datas...");
224  generateDatas(mpi_rank, _lastusedrank, sizeof(med_float),
225  storagemode, profilearraysize, _profilearray,
226  _start, _stride, _count, _blocksize, _lastblocksize,
227  nentities, nvaluesperentity, nconstituentpervalue,
228  &_arrayvalues );
229 
230  MESSAGE("Writing field...");
231  if ( MEDfieldValueAdvancedWr(_fid,_fieldname,MED_NO_DT,MED_NO_IT,0.0, MED_CELL, _geotype,
232  _ipointname, &filter, (unsigned char*)_arrayvalues ) < 0) {
233  MED_ERR_(_ret,MED_ERR_WRITE,MED_ERR_FIELD,_fieldname);
234  ISCRUTE(mpi_rank);
235  goto ERROR;
236  }
237 
238  /* Test de lecture du même fichier avec filtre simple par un seul processeur */
239  /* TODO : Créer MEDflush */
240  H5Fflush(_fid, H5F_SCOPE_GLOBAL );
241 
242  /*Le flush suffit pas besoin de synchroniser les processus : MPI_Barrier(MPI_COMM_WORLD); */
243  if (mpi_rank == 0 ) {
244  MESSAGE("Reading field...");
245 
246 
247  med_int _nentitiesarrayvalues=0;
248  med_float *_filteredarrayvalues=NULL;
249  med_filter filter2=MED_FILTER_INIT;
250  int _ind=0;
251  FILE * _asciifile;
252  char _asciifilename[255]="";
253 
254 
255  if ((_fidseq = MEDfileOpen(_filename, MED_ACC_RDONLY )) < 0){
256  MED_ERR_(_ret,MED_ERR_OPEN,MED_ERR_FILE,_filename);
257  goto ERROR;
258  }
259 
260  sprintf(_asciifilename,"%s_CPU-%03d_@_%s_%s.ascii",fieldnameprefix,mpi_size,_MED_MODE_SWITCH_MSG[constituentmode],_MED_STORAGE_MODE_MSG[storagemode]);
261  _asciifile=fopen(_asciifilename, "w");
262 
263  /*Génère un filtre de selection simple s'il n'a pas déjà été généré lors d'un précédent appel */
264  /*TODO : Déplacer cette appel dans le main après avoir externaliser la génération du profile */
265  if (!(cominfo->filterarray))
266  if ( generateFilterArray( nentities, nvaluesperentity, nconstituentpervalue,
267  profilearraysize, _profilearray,
268  &(cominfo->nentitiesfiltered), &(cominfo->filterarray) ) < 0 ) {
269  goto ERROR;
270  }
271 
272  ISCRUTE(cominfo->nentitiesfiltered);
273  /*Stocke le filtre utilisé dans le fichier .ascii*/
274  for (_i=0; _i < cominfo->nentitiesfiltered; ++_i ) {
275 /* ISCRUTE(cominfo->filterarray[_i]); */
276  fprintf(_asciifile,"%d ",cominfo->filterarray[_i]) ;
277  }
278  fprintf(_asciifile,"\n") ;
279 
280 
281  /*Pas de profile possible (profilearraysize == 0) en MED_GLOBAL_STMODE sur un fichier géré en parallel */
282  if ( profilearraysize ) {
283  _nentitiesarrayvalues = profilearraysize;
284  } else {
285  _nentitiesarrayvalues = nentities;
286  }
287 
288  /*Attention allocation mémoire potentiellement grosse car réalisée uniquement par le processus 0
289  qui rassemble les données.*/
290  /* C'est une taille maxi qui ne prend pas en compte le COMPACT+filter */
291  /* TODO : Ajuster la taille au storage_mode*/
292  _filteredarrayvalues = (med_float*) malloc(_nentitiesarrayvalues*
293  nvaluesperentity*
294  nconstituentpervalue*sizeof(med_float));
295 
296  /* Permet de vérifier une erreur d'indiçage après la lecture */
297  for (_i=0;_i<_nentitiesarrayvalues*nvaluesperentity*nconstituentpervalue; ++_i)
298  _filteredarrayvalues[_i]=-_i;
299 
300 
301  /*Création d'un filtre de sélection simple, pour une lecture séquentielle par le processys 0*/
302  if ( MEDfilterEntityCr(_fidseq, nentities, nvaluesperentity, nconstituentpervalue,
303  MED_ALL_CONSTITUENT, constituentmode, storagemode, _profilename,
304  cominfo->nentitiesfiltered,cominfo->filterarray, &filter2) < 0 ) {
306  goto ERROR;
307  }
308 
309  if ( MEDfieldValueAdvancedRd(_fidseq,_fieldname,MED_NO_DT,MED_NO_IT, MED_CELL, _geotype,
310  &filter2, (unsigned char*)_filteredarrayvalues ) < 0) {
311  MED_ERR_(_ret,MED_ERR_READ,MED_ERR_FIELD,_fieldname);
312  ISCRUTE(mpi_rank);
313  goto ERROR;
314  }
315 
316  /*AFFICHAGE TOUJOURS EN FULL INTERLACE QUELQUES SOIENT LES COMBINAISONS*/
317  /*TODO : Externaliser l'affichage*/
318  if ( storagemode == MED_GLOBAL_STMODE ) {
319  switch (constituentmode) {
320  case MED_FULL_INTERLACE:
321  for (_i=0; _i < cominfo->nentitiesfiltered; ++_i)
322  for (_j=0; _j < nvaluesperentity; ++_j)
323  for (_k=0; _k < nconstituentpervalue; ++_k) {
324  _ind = (cominfo->filterarray[_i]-1)*nvaluesperentity*nconstituentpervalue+ _j*nconstituentpervalue+_k;
325 /* fprintf(stdout,"%s%3d%s = %f\n","_filteredarrayvaluesFULLGLB[",_ind,"]",_filteredarrayvalues[_ind]) ; */
326  fprintf(_asciifile,"%f\n",_filteredarrayvalues[_ind]) ;
327  }
328  break;
329  case MED_NO_INTERLACE:
330  for (_j=0; _j < cominfo->nentitiesfiltered; ++_j)
331  for (_k=0; _k < nvaluesperentity; ++_k)
332  for (_i=0; _i < nconstituentpervalue; ++_i) {
333  _ind =_i*nentities*nvaluesperentity+ (cominfo->filterarray[_j]-1)*nvaluesperentity +_k;
334 /* fprintf(stdout,"%s%3d%s = %f\n","_filteredarrayvaluesNOGLB[",_ind,"]",_filteredarrayvalues[_ind]); */
335  fprintf(_asciifile,"%f\n",_filteredarrayvalues[_ind]);
336  }
337  break;
338  }
339  } else
340  switch (constituentmode) {
341  case MED_FULL_INTERLACE:
342  for (_i=0; _i < cominfo->nentitiesfiltered; ++_i )
343  for (_j=0; _j < nvaluesperentity; ++_j)
344  for (_k=0; _k < nconstituentpervalue; ++_k) {
345  _ind = _i*nvaluesperentity*nconstituentpervalue+_j*nconstituentpervalue+_k;
346 /* fprintf(stdout,"%s%3d%s = %f\n","_filteredarrayvaluesFULLCP[",_ind,"]",_filteredarrayvalues[_ind]) ; */
347  fprintf(_asciifile,"%f\n",_filteredarrayvalues[_ind]) ;
348  }
349  break;
350  case MED_NO_INTERLACE:
351  for (_j=0; _j < cominfo->nentitiesfiltered; ++_j)
352  for (_k=0; _k < nvaluesperentity; ++_k)
353  for (_i=0; _i < nconstituentpervalue; ++_i) {
354  _ind =_i*cominfo->nentitiesfiltered*nvaluesperentity+ _j*nvaluesperentity +_k;
355  /* _ind =_i*_nentitiesarrayvalues*nvaluesperentity+ (_filterarray[_j]-1)*nvaluesperentity +_k; */
356 /* fprintf(stdout,"%s%3d%s = %f\n","_filteredarrayvaluesNOCP[",_ind,"]",_filteredarrayvalues[_ind]); */
357  fprintf(_asciifile,"%f\n",_filteredarrayvalues[_ind]);
358  }
359  break;
360  }
361 
362 
363  free(_filteredarrayvalues);
364 
365  fclose(_asciifile);
366 
367  if ( MEDfilterClose(&filter2) < 0 ) {
369  goto ERROR;
370  }
371 
372  } /*fin if (mpi_rank == 0) */
373 
374  if ( MEDfilterClose(&filter) < 0 ) {
376  goto ERROR;
377  }
378 
379 
380  _ret=0;
381  ERROR:
382  if (_arrayvalues) free(_arrayvalues);
383  if (profilearraysize) free(_profilearray);
384 
385  if ( MEDfileClose(_fid) < 0) {
386  MED_ERR_(_ret,MED_ERR_CLOSE,MED_ERR_FILE,""); _ret = -1;
387  }
388 
389  if (mpi_rank == 0 ) {
390  if ( MEDfileClose(_fidseq) < 0) {
391  MED_ERR_(_ret,MED_ERR_CLOSE,MED_ERR_FILE,""); _ret = -1;
392  }
393  }
394 
395  return _ret;
396 }
397 
398 
399 
400 int main (int argc, char **argv)
401 
402 
403 {
404  med_err _ret=0;
405  COM_info _cominfo;
406  _cominfo.comm = MPI_COMM_WORLD;
407  _cominfo.info = MPI_INFO_NULL;
408  _cominfo.nentitiesfiltered=0;
409  _cominfo.filterarray =NULL;
410 
411 
412 
413  MPI_Init(&argc, &argv);
414  MPI_Comm_size(MPI_COMM_WORLD, &(_cominfo.mpi_size));
415  MPI_Comm_rank(MPI_COMM_WORLD, &(_cominfo.mpi_rank));
416 
417  med_size _nbblocksperproc = 0;
418  int _nentities = 0;
419  int _nvaluesperentity = 0;
420  int _nconstituentpervalue = 0;
421 
422  if (_cominfo.mpi_rank == 0 ) {
423 
424  struct tm *_tm ;
425  time_t _tt=time(0);
426  _tm = localtime(&_tt);
427 
428  srandom((*_tm).tm_sec * (*_tm).tm_min );
429  _nbblocksperproc = 1 + (int) (_cominfo.mpi_size * (random() / (RAND_MAX + 1.0)));
430  _nentities = 1 + (int) (1000.0 * (random() / (RAND_MAX + 1.0)));
431  _nvaluesperentity = 1 + (int) (11.0 * (random() / (RAND_MAX + 1.0)));
432  _nconstituentpervalue = 1 + (int) (7.0 * (random() / (RAND_MAX + 1.0)));
433 /* _nbblocksperproc = 1 + (int) (mpi_size * (random() / (RAND_MAX + 1.0))); */
434 /* _nentities = 1 + (int) (5.0 * (random() / (RAND_MAX + 1.0))); */
435 /* _nvaluesperentity = 1 + (int) (3.0 * (random() / (RAND_MAX + 1.0))); */
436 /* _nconstituentpervalue = 1 + (int) (3.0 * (random() / (RAND_MAX + 1.0))); */
437 /* _nbblocksperproc = 2; */
438 /* _nentities = 4; */
439 /* _nvaluesperentity = 1; */
440 /* _nconstituentpervalue = 1; */
441 
442  }
443 
444  if ( (sizeof(med_size)%(sizeof(MPI_LONG)))==0 ) {
445 
446  MPI_Bcast(&_nbblocksperproc , sizeof(med_size)/sizeof(MPI_LONG), MPI_LONG, 0, MPI_COMM_WORLD);
447  MPI_Bcast(&_nentities , sizeof(med_size)/sizeof(MPI_LONG), MPI_LONG, 0, MPI_COMM_WORLD);
448  MPI_Bcast(&_nvaluesperentity , sizeof(med_size)/sizeof(MPI_LONG), MPI_LONG, 0, MPI_COMM_WORLD);
449  MPI_Bcast(&_nconstituentpervalue , sizeof(med_size)/sizeof(MPI_LONG), MPI_LONG, 0, MPI_COMM_WORLD);
450  } else {
451  assert(sizeof(med_size) == (sizeof(MPI_LONG)));
452  }
453 
454  char _fieldnameprefix[256] = "";
455 
456  sprintf(_fieldnameprefix,"NENT-%03d_NVAL-%03d_NCST-%03d_NBL-%03llu",_nentities,_nvaluesperentity,
457  _nconstituentpervalue,_nbblocksperproc);
458 
459  GenerateDataType generateDatas = 0;
460  med_switch_mode _switchmode = MED_UNDEF_INTERLACE;
461  med_storage_mode _storagemode = MED_UNDEF_STMODE;
462  /*Pour que les 4 fichiers générés soient identiques, on désactive l'utilisation des profils
463  qui n'est pas utilisable en mode GLOBAL+// */
464  med_int _profilearraysize=0;
465  /* med_int _profilearraysize=_nentities/2; */
466 
467  for (_switchmode = MED_FULL_INTERLACE ; _switchmode <= MED_NO_INTERLACE; ++_switchmode) {
468 
469  if ( _switchmode == MED_FULL_INTERLACE ) generateDatas = generateFullIDatas;
470  else generateDatas = generateNoIDatas;
471 
472  for (_storagemode = MED_GLOBAL_STMODE ; _storagemode <= MED_COMPACT_STMODE; ++_storagemode) {
473 
474  if ( (_storagemode == MED_GLOBAL_STMODE ) && (_profilearraysize) ) _profilearraysize=0;
475 
476  if ( generateFieldFile( _nentities, _nvaluesperentity, _nconstituentpervalue,
477  _switchmode, getCyclicBlocksOfEntities, _nbblocksperproc, generateDatas,
478  _storagemode, _profilearraysize, _fieldnameprefix, & _cominfo) < 0 ) {
479  MED_ERR_(_ret,MED_ERR_WRITE,MED_ERR_FIELD,_fieldnameprefix);
480  ISCRUTE(_cominfo.mpi_rank);
481  goto ERROR;
482  }
483 
484  }
485  }
486 
487 
488  _ret = 0;
489  ERROR:
490 
491  if ( _cominfo.filterarray = NULL ) free( _cominfo.filterarray );
492 
493  /*pour arch. BLueGene : Sync entre GPFS et LSF : sleep(360) */
494 
495  /* MPI_Finalize must be called AFTER MEDclose which may use MPI calls */
496  MPI_Finalize();
497 
498  /* Catcher l'erreur en retour mpirun et .sh*/
499  return _ret;
500 }
501 
502 
503 
504 
generateFullIDatas
void generateFullIDatas(const int myrank, const int lastrank, const int sizeoftype, const med_storage_mode profilemode, const med_size profilesize, const med_int *const profilearray, const med_size start, const med_size stride, const med_size count, const med_size blocksize, const med_size lastblocksize, const int nentities, const int nvaluesperentity, const int nconstituentpervalue, med_float **valuesarray)
Definition: generateDatas.c:31
MED_ERR_CREATE
#define MED_ERR_CREATE
Definition: med_err.h:27
MEDfilterEntityCr
MEDC_EXPORT med_err MEDfilterEntityCr(const med_idt fid, const med_int nentity, const med_int nvaluesperentity, const med_int nconstituentpervalue, const med_int constituentselect, const med_switch_mode switchmode, const med_storage_mode storagemode, const char *const profilename, const med_int filterarraysize, const med_int *const filterarray, med_filter *const filter)
Definition: MEDfilterEntityCr.c:55
MED_CARTESIAN
Definition: med.h:258
MEDfieldCr
MEDC_EXPORT med_err MEDfieldCr(const med_idt fid, const char *const fieldname, const med_field_type fieldtype, const med_int ncomponent, const char *const componentname, const char *const componentunit, const char *const dtunit, const char *const meshname)
Cette fonction crée un champ dans un fichier.
Definition: MEDfieldCr.c:44
MED_FULL_INTERLACE
Definition: med.h:96
MED_SORT_DTIT
Definition: med.h:309
MED_ERR_FIELD
#define MED_ERR_FIELD
Definition: med_err.h:91
MEDfieldValueAdvancedWr
MEDC_EXPORT med_err MEDfieldValueAdvancedWr(const med_idt fid, const char *const fieldname, const med_int numdt, const med_int numit, const med_float dt, const med_entity_type entitype, const med_geometry_type geotype, const char *const localizationname, const med_filter *const filter, const unsigned char *const value)
Cette fonction permet d'écire les valeurs d'un champ définies sur des entités d'un maillage pour une ...
Definition: MEDfieldValueAdvancedWr.c:46
generateFieldFile
med_err generateFieldFile(const med_size nentities, const med_size nvaluesperentity, const med_size nconstituentpervalue, const med_switch_mode constituentmode, GetBlocksOfEntitiesType getBlockOfEntities, const med_int nbblocksperproc, GenerateDataType generateDatas, const med_storage_mode storagemode, const med_size profilearraysize, const char *const fieldnameprefix, COM_info *const cominfo)
Definition: filterBlockOfentities.c:95
med_filter
Filtre de sélection.
Definition: med.h:355
MED_FILTER_INIT
#define MED_FILTER_INIT
Definition: med.h:374
MED_ERR_LOCALIZATION
#define MED_ERR_LOCALIZATION
Definition: med_err.h:89
MEDmeshCr
MEDC_EXPORT med_err MEDmeshCr(const med_idt fid, const char *const meshname, const med_int spacedim, const med_int meshdim, const med_mesh_type meshtype, const char *const description, const char *const dtunit, const med_sorting_type sortingtype, const med_axis_type axistype, const char *const axisname, const char *const axisunit)
Cette routine permet de créer un maillage dans un fichier.
Definition: MEDmeshCr.c:45
MEDfileOpen
MEDC_EXPORT med_idt MEDfileOpen(const char *const filename, const med_access_mode accessmode)
Ouverture d'un fichier MED.
Definition: MEDfileOpen.c:42
med_geometry_type
int med_geometry_type
Definition: med.h:194
GenerateDataType
void(* GenerateDataType)(const int myrank, const int lastrank, const int sizeoftype, const med_storage_mode profilemode, const med_size profilesize, const med_int *const profilearray, const med_size start, const med_size stride, const med_size count, const med_size blocksize, const med_size lastblocksize, const int nentities, const int nvaluesperentity, const int nconstituentpervalue, med_float **valuesarray)
Definition: generateDatas.h:27
MED_SNAME_SIZE
#define MED_SNAME_SIZE
Definition: med.h:82
ISCRUTE_int
#define ISCRUTE_int(entier)
Definition: med_utils.h:314
med_size
hsize_t med_size
Definition: med.h:329
med_idt
hid_t med_idt
Definition: med.h:331
MED_ERR_
#define MED_ERR_(rt, r1, r2, r3)
Definition: med_utils.h:160
MEDfieldValueAdvancedRd
MEDC_EXPORT med_err MEDfieldValueAdvancedRd(const med_idt fid, const char *const fieldname, const med_int numdt, const med_int numit, const med_entity_type entitype, const med_geometry_type geotype, const med_filter *const filter, unsigned char *const value)
Cette fonction permet de lire les valeurs d'un champ définies sur des entités d'un maillage pour une ...
Definition: MEDfieldValueAdvancedRd.c:43
MED_ACC_RDONLY
Definition: med.h:120
MED_UNDEF_STMODE
Definition: med.h:108
generateNoIDatas
void generateNoIDatas(const int myrank, const int lastrank, const int sizeoftype, const med_storage_mode storagemode, const med_size profilearraysize, const med_int *const profilearray, const med_size start, const med_size stride, const med_size count, const med_size blocksize, const med_size lastblocksize, const int nentities, const int nvaluesperentity, const int nconstituentpervalue, med_float **valuesarray)
Definition: generateDatas.c:103
COM_info::filterarray
med_int * filterarray
Definition: filterBlockOfentities.c:90
med_err
herr_t med_err
Definition: med.h:332
MEDfilterBlockOfEntityCr
MEDC_EXPORT med_err MEDfilterBlockOfEntityCr(const med_idt fid, const med_int nentity, const med_int nvaluesperentity, const med_int nconstituentpervalue, const med_int constituentselect, const med_switch_mode switchmode, const med_storage_mode storagemode, const char *const profilename, const med_size start, const med_size stride, const med_size count, const med_size blocksize, const med_size lastblocksize, med_filter *const filter)
Crée un filtre en selectionnant par blocs les entités pour lesquelles on veut lire/écrire des valeurs...
Definition: MEDfilterBlockOfEntityCr.c:52
MED_NO_LOCALIZATION
#define MED_NO_LOCALIZATION
Definition: med.h:275
getBlocksOfEntitiesPartition.h
MED_ERR_CLOSE
#define MED_ERR_CLOSE
Definition: med_err.h:30
MED_ERR_OPEN
#define MED_ERR_OPEN
Definition: med_err.h:37
MED_CELL
Definition: med.h:143
COM_info::comm
MPI_Comm comm
Definition: filterBlockOfentities.c:86
MED_ERR_FILTER
#define MED_ERR_FILTER
Definition: med_err.h:93
MESSAGE
#define MESSAGE(chaine)
Definition: med_utils.h:324
med_int
int med_int
Definition: med.h:342
MED_NO_MESH_SUPPORT
#define MED_NO_MESH_SUPPORT
Definition: med.h:273
MED_ERR_FILE
#define MED_ERR_FILE
Definition: med_err.h:82
MED_ERR_WRITE
#define MED_ERR_WRITE
Definition: med_err.h:29
med.h
ISCRUTE
#define ISCRUTE(entier)
Definition: med_utils.h:313
med_float
double med_float
Definition: med.h:336
MED_ERR_READ
#define MED_ERR_READ
Definition: med_err.h:28
COM_info::mpi_rank
int mpi_rank
Definition: filterBlockOfentities.c:88
MED_NO_DT
#define MED_NO_DT
Definition: med.h:320
MEDparFileOpen
med_idt MEDparFileOpen(const char *const filename, const med_access_mode accessmode, const MPI_Comm comm, const MPI_Info info)
Ouverture d'un fichier MED pour une utilisation parallèle.
Definition: MEDparFileOpen.c:49
MEDfilterClose
MEDC_EXPORT med_err MEDfilterClose(med_filter *const filter)
Désalloue les ressources hdf détenues par un filtre.
Definition: MEDfilterClose.c:35
COM_info::info
MPI_Info info
Definition: filterBlockOfentities.c:85
generateFilterArray.h
MED_UNDEF_INTERLACE
Definition: med.h:100
generateFilterArray
med_err generateFilterArray(const med_size nentities, const med_size nvaluesperentity, const med_size nconstituentpervalue, const med_size profilearraysize, const med_int *const profilearray, med_int *const nentitiesfiltered, med_int **filterarray)
Definition: generateFilterArray.c:30
getCyclicBlocksOfEntities
void getCyclicBlocksOfEntities(const int myrank, const int nproc, const int nentities, med_size *const start, med_size *const stride, med_size *const io_count, med_size *blocksize, int *const lastusedrank, med_size *const lastblocksize)
Definition: getBlocksOfEntitiesPartition.c:79
MED_GLOBAL_STMODE
Definition: med.h:109
med_switch_mode
med_switch_mode
Definition: med.h:96
MEDprofileWr
MEDC_EXPORT med_err MEDprofileWr(const med_idt fid, const char *const profilename, const med_int profilesize, const med_int *const profilearray)
Cette routine permet d'écrire un profil dans un fichier MED.
Definition: MEDprofileWr.c:40
MED_NAME_SIZE
#define MED_NAME_SIZE
Definition: med.h:81
MED_UNSTRUCTURED_MESH
Definition: med.h:131
generateDatas.h
MEDfileClose
MEDC_EXPORT med_err MEDfileClose(med_idt fid)
Fermeture d'un fichier MED.
Definition: MEDfileClose.c:30
main
int main(int argc, char **argv)
Definition: filterBlockOfentities.c:400
med_config.h
MED_ALL_CONSTITUENT
#define MED_ALL_CONSTITUENT
Definition: med.h:299
MED_COMPACT_STMODE
Definition: med.h:110
MED_NO_PROFILE
#define MED_NO_PROFILE
Definition: med.h:281
MED_NO_INTERLACE
Definition: med.h:98
COM_info
Definition: filterBlockOfentities.c:84
COM_info::mpi_size
int mpi_size
Definition: filterBlockOfentities.c:87
GetBlocksOfEntitiesType
void(* GetBlocksOfEntitiesType)(const int myrank, const int nproc, const int nentities, med_size *const start, med_size *const stride, med_size *const count, med_size *blocksize, int *const lastusedrank, med_size *const lastblocksize)
Definition: getBlocksOfEntitiesPartition.h:28
MED_FLOAT64
Definition: med.h:166
MODE_ACCES
#define MODE_ACCES
Definition: filterBlockOfentities.c:59
MED_NO_IT
#define MED_NO_IT
Definition: med.h:321
med_storage_mode
med_storage_mode
Definition: med.h:108
COM_info::nentitiesfiltered
med_int nentitiesfiltered
Definition: filterBlockOfentities.c:89
MED_NO_INTERPOLATION
#define MED_NO_INTERPOLATION
Definition: med.h:277
MED_ERR_PROFILE
#define MED_ERR_PROFILE
Definition: med_err.h:94
MEDlocalizationWr
MEDC_EXPORT med_err MEDlocalizationWr(const med_idt fid, const char *const localizationname, const med_geometry_type geotype, const med_int spacedimension, const med_float *const elementcoordinate, const med_switch_mode switchmode, const med_int nipoint, const med_float *const ipointcoordinate, const med_float *const weight, const char *const geointerpname, const char *const ipointstructmeshname)
Cette routine permet l'écriture d'une localisation localizationname de points d'intégration dans/auto...
Definition: MEDlocalizationWr.c:49
med_utils.h
MED_TRIA6
#define MED_TRIA6
Definition: med.h:205
MED_ERR_MESH
#define MED_ERR_MESH
Definition: med_err.h:83