MED fichier
parallel/generateDatas.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"
static inline med_int _identity (int i) { return i; }
static inline med_int _withprofilearray(int i) {
return (profilearray_global[i]-1);
}
/*Les données générées, le sont uniquement aux endroits utilisés */
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 ) {
med_size _start=start-1,_blockstart = 0,_blocksize=blocksize,_allblocksize=0,_index=0;
med_int (*_profilearrayfunc)(int)=0;
int _blocknum=0,_i=0,_j=0,_k=0;
profilearray_global = profilearray;
if (profilesize) {
if ( profilearray == NULL ) { MESSAGE("Error, profilesize > 0 && profilearray == 0"); }
MESSAGE("Using a profile...");
_profilearrayfunc = _withprofilearray;
} else {
_profilearrayfunc = _identity;
}
switch(profilemode) {
/* ISCRUTE(lastblocksize); */
/*En mode global on n'a normalement pas besoin de prendre en compte les profils. Il ne peut pas y en avoir.
Celà n'a pas de sens sauf si la sélection demandée est un seul block !
Tous les processus possèdent le tableau global. */
*valuesarray = (med_float *) calloc(nentities*nvaluesperentity*nconstituentpervalue,sizeoftype);
for (_blocknum=0; _blocknum< count; ++_blocknum) {
_blockstart=_blocknum*stride;
/* ISCRUTE(_blockstart); */
if ( (count > 1) && (_blocknum == (count-1) ) && (myrank == lastrank) ) _blocksize=lastblocksize;
/* ISCRUTE(_blocksize); */
for (_i=0; _i<_blocksize; ++_i)
for (_j=0; _j < nvaluesperentity; ++_j)
for (_k=0; _k < nconstituentpervalue; ++_k) {
_index = _profilearrayfunc(_start+_blockstart+_i)*nvaluesperentity*nconstituentpervalue
+_j*nconstituentpervalue+_k;
(*valuesarray)[_index]= (myrank+1)*1000+_blocknum*100+_i+0.1*_j+0.01*_k;
/* ISCRUTE(_index); */
/* RSCRUTE((*valuesarray)[_index]); */
}
}
break;
/*Idem avec ou sans profil*/
if ( (myrank == lastrank) ) _allblocksize=blocksize*count+lastblocksize; else _allblocksize = blocksize*count;
*valuesarray = (med_float *) calloc(_allblocksize*nvaluesperentity*nconstituentpervalue,sizeoftype);
_index = 0;
for (_blocknum=0; _blocknum< count; ++_blocknum) {
if ( (count > 1) && (_blocknum == (count-1) ) && (myrank == lastrank) ) _blocksize=lastblocksize;
for (_i=0; _i<_blocksize; ++_i)
for (_j=0; _j < nvaluesperentity; ++_j)
for (_k=0; _k < nconstituentpervalue; ++_k) {
(*valuesarray)[_index]= (myrank+1)*1000+_blocknum*100+_i+0.1*_j+0.01*_k;
/* ISCRUTE(_index); */
/* RSCRUTE((*valuesarray)[_index]); */
_index++;
}
}
break;
default:
break;
}
}
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 ) {
med_size _start=start-1,_blockstart = 0,_blocksize=blocksize,_allblocksize=0,_index=0,_dim=0;
med_int (*_profilearrayfunc)(int)=0;
int _blocknum=0,_i=0,_j=0,_k=0;
profilearray_global = profilearray;
if (profilearraysize) {
MESSAGE("Using a profile...");
if ( profilearray == NULL ) {MESSAGE("Error, profilearraysize > 0 && profilearray == 0"); }
_profilearrayfunc = _withprofilearray;
} else {
_profilearrayfunc = _identity;
}
switch(storagemode) {
/*En mode global on n'a normalement pas besoin de prendre en compte les profils. Il ne peut pas y en avoir.
Celà n'a pas de sens sauf si la sélection demandée est un seul block !
Tous les processus possèdent le tableau global. */
*valuesarray = (med_float *) calloc(nentities*nvaluesperentity*nconstituentpervalue,sizeoftype);
for (_dim=0; _dim< nconstituentpervalue; ++_dim) {
_blocksize = blocksize;
for (_blocknum=0; _blocknum< count; ++_blocknum) {
_blockstart=_blocknum*stride;
if ( (count > 1) && (_blocknum == (count-1) ) && (myrank == lastrank) ) _blocksize=lastblocksize;
for (_i=0; _i<_blocksize; ++_i)
for (_j=0; _j < nvaluesperentity; ++_j) {
_index = ( _dim*nentities
+_profilearrayfunc(_start+_blockstart+_i) )
*nvaluesperentity + _j;
(*valuesarray)[_index]= (myrank+1)*1000+_blocknum*100+_i+0.1*_j+0.01*_dim;
/* ISCRUTE(_index); */
/* RSCRUTE((*valuesarray)[_index]); */
}
}
}
break;
if ( (myrank == lastrank) ) _allblocksize=blocksize*count+lastblocksize; else _allblocksize = blocksize*count;
*valuesarray = (med_float *) calloc(_allblocksize*nvaluesperentity*nconstituentpervalue,sizeoftype);
_index = 0;
for (_dim=0; _dim< nconstituentpervalue; ++_dim) {
_blocksize = blocksize;
for (_blocknum=0; _blocknum< count; ++_blocknum) {
if ( (count > 1) && (_blocknum == (count-1) ) && (myrank == lastrank) ) _blocksize=lastblocksize;
for (_i=0; _i<_blocksize; ++_i)
for (_j=0; _j < nvaluesperentity; ++_j) {
(*valuesarray)[_index]= (myrank+1)*1000+_blocknum*100+_i+0.1*_j+0.01*_dim;
/* ISCRUTE(_index); */
/* RSCRUTE((*valuesarray)[_index]); */
_index++;
}
}
}
break;
default:
break;
}
}
_identity
static med_int _identity(int i)
Definition: generateDatas.c:24
_withprofilearray
static med_int _withprofilearray(int i)
Definition: generateDatas.c:26
MED_COMPACT_STMODE
Definition: med.h:112
med_size
hsize_t med_size
Definition: med.h:331
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
MED_GLOBAL_STMODE
Definition: med.h:111
profilearray_global
static const med_int * profilearray_global
Definition: generateDatas.c:25
MESSAGE
#define MESSAGE(chaine)
Definition: med_utils.h:324
med_int
int med_int
Definition: med.h:344
med_float
double med_float
Definition: med.h:338
med_utils.h
med.h
med_storage_mode
med_storage_mode
Definition: med.h:110
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