1 /* Copyright (c) 2010-2017. The SimGrid Team. All rights reserved. */
3 /* This program is free software; you can redistribute it and/or modify it
4 * under the terms of the license (GNU LGPL) which comes with this package. */
7 #include "smpi_comm.hpp"
8 #include "smpi_datatype.hpp"
10 extern "C" { // This should really use the C linkage to be usable from Fortran
12 void mpi_type_extent_(int* datatype, MPI_Aint * extent, int* ierr){
13 *ierr= MPI_Type_extent(simgrid::smpi::Datatype::f2c(*datatype), extent);
16 void mpi_type_free_(int* datatype, int* ierr){
17 MPI_Datatype tmp= simgrid::smpi::Datatype::f2c(*datatype);
18 *ierr= MPI_Type_free (&tmp);
19 if(*ierr == MPI_SUCCESS) {
20 simgrid::smpi::F2C::free_f(*datatype);
24 void mpi_type_ub_(int* datatype, MPI_Aint * disp, int* ierr){
25 *ierr= MPI_Type_ub(simgrid::smpi::Datatype::f2c(*datatype), disp);
28 void mpi_type_lb_(int* datatype, MPI_Aint * extent, int* ierr){
29 *ierr= MPI_Type_extent(simgrid::smpi::Datatype::f2c(*datatype), extent);
32 void mpi_type_size_(int* datatype, int *size, int* ierr)
34 *ierr = MPI_Type_size(simgrid::smpi::Datatype::f2c(*datatype), size);
37 void mpi_type_dup_ (int* datatype, int* newdatatype, int* ierr){
39 *ierr = MPI_Type_dup(simgrid::smpi::Datatype::f2c(*datatype), &tmp);
40 if(*ierr == MPI_SUCCESS) {
41 *newdatatype = tmp->add_f();
45 void mpi_type_set_name_ (int* datatype, char * name, int* ierr, int size){
46 char* tname = xbt_new(char, size+1);
47 strncpy(tname, name, size);
49 *ierr = MPI_Type_set_name(simgrid::smpi::Datatype::f2c(*datatype), tname);
53 void mpi_type_get_name_ (int* datatype, char * name, int* len, int* ierr){
54 *ierr = MPI_Type_get_name(simgrid::smpi::Datatype::f2c(*datatype),name,len);
59 void mpi_type_get_attr_ (int* type, int* type_keyval, void *attribute_val, int* flag, int* ierr){
61 *ierr = MPI_Type_get_attr ( simgrid::smpi::Datatype::f2c(*type), *type_keyval, attribute_val,flag);
64 void mpi_type_set_attr_ (int* type, int* type_keyval, void *attribute_val, int* ierr){
66 *ierr = MPI_Type_set_attr ( simgrid::smpi::Datatype::f2c(*type), *type_keyval, attribute_val);
69 void mpi_type_delete_attr_ (int* type, int* type_keyval, int* ierr){
71 *ierr = MPI_Type_delete_attr ( simgrid::smpi::Datatype::f2c(*type), *type_keyval);
74 void mpi_type_create_keyval_ (void* copy_fn, void* delete_fn, int* keyval, void* extra_state, int* ierr){
76 *ierr = MPI_Type_create_keyval(reinterpret_cast<MPI_Type_copy_attr_function*>(copy_fn), reinterpret_cast<MPI_Type_delete_attr_function*>(delete_fn),
77 keyval, extra_state) ;
80 void mpi_type_free_keyval_ (int* keyval, int* ierr) {
81 *ierr = MPI_Type_free_keyval( keyval);
84 void mpi_type_get_extent_ (int* datatype, MPI_Aint * lb, MPI_Aint * extent, int* ierr){
86 *ierr = MPI_Type_get_extent(simgrid::smpi::Datatype::f2c(*datatype), lb, extent);
89 void mpi_type_get_true_extent_ (int* datatype, MPI_Aint * lb, MPI_Aint * extent, int* ierr){
91 *ierr = MPI_Type_get_true_extent(simgrid::smpi::Datatype::f2c(*datatype), lb, extent);
94 void mpi_type_commit_(int* datatype, int* ierr){
95 MPI_Datatype tmp= simgrid::smpi::Datatype::f2c(*datatype);
96 *ierr= MPI_Type_commit(&tmp);
99 void mpi_type_contiguous_ (int* count, int* old_type, int* newtype, int* ierr) {
101 *ierr = MPI_Type_contiguous(*count, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
102 if(*ierr == MPI_SUCCESS) {
103 *newtype = tmp->add_f();
107 void mpi_type_vector_(int* count, int* blocklen, int* stride, int* old_type, int* newtype, int* ierr){
109 *ierr= MPI_Type_vector(*count, *blocklen, *stride, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
110 if(*ierr == MPI_SUCCESS) {
111 *newtype = tmp->add_f();
115 void mpi_type_hvector_(int* count, int* blocklen, MPI_Aint* stride, int* old_type, int* newtype, int* ierr){
117 *ierr= MPI_Type_hvector (*count, *blocklen, *stride, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
118 if(*ierr == MPI_SUCCESS) {
119 *newtype = tmp->add_f();
123 void mpi_type_create_hvector_(int* count, int* blocklen, MPI_Aint* stride, int* old_type, int* newtype, int* ierr){
125 *ierr= MPI_Type_hvector(*count, *blocklen, *stride, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
126 if(*ierr == MPI_SUCCESS) {
127 *newtype = tmp->add_f();
131 void mpi_type_hindexed_ (int* count, int* blocklens, MPI_Aint* indices, int* old_type, int* newtype, int* ierr) {
133 *ierr = MPI_Type_hindexed(*count, blocklens, indices, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
134 if(*ierr == MPI_SUCCESS) {
135 *newtype = tmp->add_f();
139 void mpi_type_create_hindexed_(int* count, int* blocklens, MPI_Aint* indices, int* old_type, int* newtype, int* ierr){
141 *ierr = MPI_Type_create_hindexed(*count, blocklens, indices, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
142 if(*ierr == MPI_SUCCESS) {
143 *newtype = tmp->add_f();
147 void mpi_type_create_hindexed_block_ (int* count, int* blocklength, MPI_Aint* indices, int* old_type, int* newtype,
150 *ierr = MPI_Type_create_hindexed_block(*count, *blocklength, indices, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
151 if(*ierr == MPI_SUCCESS) {
152 *newtype = tmp->add_f();
156 void mpi_type_indexed_ (int* count, int* blocklens, int* indices, int* old_type, int* newtype, int* ierr) {
158 *ierr = MPI_Type_indexed(*count, blocklens, indices, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
159 if(*ierr == MPI_SUCCESS) {
160 *newtype = tmp->add_f();
164 void mpi_type_create_indexed_(int* count, int* blocklens, int* indices, int* old_type, int* newtype, int* ierr){
166 *ierr = MPI_Type_create_indexed(*count, blocklens, indices, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
167 if(*ierr == MPI_SUCCESS) {
168 *newtype = tmp->add_f();
172 void mpi_type_create_indexed_block_ (int* count, int* blocklength, int* indices, int* old_type, int*newtype,
175 *ierr = MPI_Type_create_indexed_block(*count, *blocklength, indices, simgrid::smpi::Datatype::f2c(*old_type), &tmp);
176 if(*ierr == MPI_SUCCESS) {
177 *newtype = tmp->add_f();
181 void mpi_type_struct_ (int* count, int* blocklens, MPI_Aint* indices, int* old_types, int* newtype, int* ierr) {
184 MPI_Datatype* types = static_cast<MPI_Datatype*>(xbt_malloc(*count*sizeof(MPI_Datatype)));
185 for(i=0; i< *count; i++){
186 types[i] = simgrid::smpi::Datatype::f2c(old_types[i]);
188 *ierr = MPI_Type_struct(*count, blocklens, indices, types, &tmp);
189 if(*ierr == MPI_SUCCESS) {
190 *newtype = tmp->add_f();
195 void mpi_type_create_struct_(int* count, int* blocklens, MPI_Aint* indices, int* old_types, int* newtype, int* ierr){
198 MPI_Datatype* types = static_cast<MPI_Datatype*>(xbt_malloc(*count*sizeof(MPI_Datatype)));
199 for(i=0; i< *count; i++){
200 types[i] = simgrid::smpi::Datatype::f2c(old_types[i]);
202 *ierr = MPI_Type_create_struct(*count, blocklens, indices, types, &tmp);
203 if(*ierr == MPI_SUCCESS) {
204 *newtype = tmp->add_f();
209 void mpi_pack_ (void* inbuf, int* incount, int* type, void* outbuf, int* outcount, int* position, int* comm, int* ierr) {
210 *ierr = MPI_Pack(inbuf, *incount, simgrid::smpi::Datatype::f2c(*type), outbuf, *outcount, position, simgrid::smpi::Comm::f2c(*comm));
213 void mpi_unpack_ (void* inbuf, int* insize, int* position, void* outbuf, int* outcount, int* type, int* comm,
215 *ierr = MPI_Unpack(inbuf, *insize, position, outbuf, *outcount, simgrid::smpi::Datatype::f2c(*type), simgrid::smpi::Comm::f2c(*comm));
218 void mpi_pack_external_size_ (char *datarep, int* incount, int* datatype, MPI_Aint *size, int* ierr){
219 *ierr = MPI_Pack_external_size(datarep, *incount, simgrid::smpi::Datatype::f2c(*datatype), size);
222 void mpi_pack_external_ (char *datarep, void *inbuf, int* incount, int* datatype, void *outbuf, MPI_Aint* outcount,
223 MPI_Aint *position, int* ierr){
224 *ierr = MPI_Pack_external(datarep, inbuf, *incount, simgrid::smpi::Datatype::f2c(*datatype), outbuf, *outcount, position);
227 void mpi_unpack_external_ ( char *datarep, void *inbuf, MPI_Aint* insize, MPI_Aint *position, void *outbuf,
228 int* outcount, int* datatype, int* ierr){
229 *ierr = MPI_Unpack_external( datarep, inbuf, *insize, position, outbuf, *outcount, simgrid::smpi::Datatype::f2c(*datatype));
233 void mpi_type_get_envelope_ ( int* datatype, int *num_integers, int *num_addresses, int *num_datatypes, int *combiner,
235 *ierr = MPI_Type_get_envelope( simgrid::smpi::Datatype::f2c(*datatype), num_integers,
236 num_addresses, num_datatypes, combiner);
239 void mpi_type_get_contents_ (int* datatype, int* max_integers, int* max_addresses, int* max_datatypes,
240 int* array_of_integers, MPI_Aint* array_of_addresses,
241 int* array_of_datatypes, int* ierr){
242 *ierr = MPI_Type_get_contents(simgrid::smpi::Datatype::f2c(*datatype), *max_integers, *max_addresses,*max_datatypes,
243 array_of_integers, array_of_addresses, reinterpret_cast<MPI_Datatype*>(array_of_datatypes));
246 void mpi_type_create_darray_ (int* size, int* rank, int* ndims, int* array_of_gsizes, int* array_of_distribs,
247 int* array_of_dargs, int* array_of_psizes,
248 int* order, int* oldtype, int*newtype, int* ierr) {
250 *ierr = MPI_Type_create_darray(*size, *rank, *ndims, array_of_gsizes,
251 array_of_distribs, array_of_dargs, array_of_psizes,
252 *order, simgrid::smpi::Datatype::f2c(*oldtype), &tmp) ;
253 if(*ierr == MPI_SUCCESS) {
254 *newtype = tmp->add_f();
258 void mpi_type_create_resized_ (int* oldtype,MPI_Aint* lb, MPI_Aint* extent, int*newtype, int* ierr){
260 *ierr = MPI_Type_create_resized(simgrid::smpi::Datatype::f2c(*oldtype),*lb, *extent, &tmp);
261 if(*ierr == MPI_SUCCESS) {
262 *newtype = tmp->add_f();
266 void mpi_type_create_subarray_ (int* ndims,int *array_of_sizes, int *array_of_subsizes, int *array_of_starts,
267 int* order, int* oldtype, int*newtype, int* ierr){
269 *ierr = MPI_Type_create_subarray(*ndims,array_of_sizes, array_of_subsizes, array_of_starts, *order,
270 simgrid::smpi::Datatype::f2c(*oldtype), &tmp);
271 if(*ierr == MPI_SUCCESS) {
272 *newtype = tmp->add_f();
276 void mpi_type_match_size_ (int* typeclass,int* size,int* datatype, int* ierr){
278 *ierr = MPI_Type_match_size(*typeclass,*size,&tmp);
279 if(*ierr == MPI_SUCCESS) {
280 *datatype = tmp->c2f();