* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
- * under the terms of the license (GNU LGPL) which comes with this package. */
+ * under the terms of the license (GNU LGPL) which comes with this package. */
#include "private.h"
#include "xbt/time.h"
#include <errno.h>
#include "surf/surf.h"
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(smpi_base, smpi,
- "Logging specific to SMPI (base)");
+
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(smpi_base, smpi, "Logging specific to SMPI (base)");
+
static int match_recv(void* a, void* b, smx_action_t ignored) {
- MPI_Request ref = (MPI_Request)a;
- MPI_Request req = (MPI_Request)b;
+ MPI_Request ref = (MPI_Request)a;
+ MPI_Request req = (MPI_Request)b;
- xbt_assert(ref, "Cannot match recv against null reference");
- xbt_assert(req, "Cannot match recv against null request");
- return (ref->src == MPI_ANY_SOURCE || req->src == ref->src)
- && (ref->tag == MPI_ANY_TAG || req->tag == ref->tag);
+ xbt_assert(ref, "Cannot match recv against null reference");
+ xbt_assert(req, "Cannot match recv against null request");
+ return (ref->src == MPI_ANY_SOURCE || req->src == ref->src)
+ && (ref->tag == MPI_ANY_TAG || req->tag == ref->tag);
}
static int match_send(void* a, void* b,smx_action_t ignored) {
- MPI_Request ref = (MPI_Request)a;
- MPI_Request req = (MPI_Request)b;
+ MPI_Request ref = (MPI_Request)a;
+ MPI_Request req = (MPI_Request)b;
- xbt_assert(ref, "Cannot match send against null reference");
- xbt_assert(req, "Cannot match send against null request");
- return (req->src == MPI_ANY_SOURCE || req->src == ref->src)
- && (req->tag == MPI_ANY_TAG || req->tag == ref->tag);
+ xbt_assert(ref, "Cannot match send against null reference");
+ xbt_assert(req, "Cannot match send against null request");
+ return (req->src == MPI_ANY_SOURCE || req->src == ref->src)
+ && (req->tag == MPI_ANY_TAG || req->tag == ref->tag);
}
static MPI_Request build_request(void *buf, int count,
{
MPI_Request request;
+ void *old_buf;
+
request = xbt_new(s_smpi_mpi_request_t, 1);
+
+ s_smpi_subtype_t *subtype = datatype->substruct;
+
+ if(datatype->has_subtype == 1){
+ // This part handles the problem of non-contignous memory
+ old_buf = buf;
+ buf = malloc(count*smpi_datatype_size(datatype));
+ if (flags & SEND) {
+ subtype->serialize(old_buf, buf, count, datatype->substruct);
+ }
+ }
+
request->buf = buf;
- // FIXME: this will have to be changed to support non-contiguous datatypes
+ // This part handles the problem of non-contignous memory (for the
+ // unserialisation at the reception)
+ request->old_buf = old_buf;
+ request->old_type = datatype;
+
request->size = smpi_datatype_size(datatype) * count;
- request->contiguous=smpi_datatype_contiguous(datatype);
- if(request->contiguous != 1){
- request->block_stride = smpi_datatype_block_stride(datatype);
- request->block_length = smpi_datatype_block_length(datatype);
- request->block_count = smpi_datatype_block_count(datatype)*count;
- }
request->src = src;
request->dst = dst;
request->tag = tag;
if (path) {
action_fp = fopen(path, "r");
xbt_assert(action_fp != NULL, "Cannot open %s: %s", path,
- strerror(errno));
+ strerror(errno));
}
if (!xbt_dict_is_empty(action_queues)) {
XBT_WARN
- ("Not all actions got consumed. If the simulation ended successfully (without deadlock), you may want to add new processes to your deployment file.");
+ ("Not all actions got consumed. If the simulation ended successfully (without deadlock), you may want to add new processes to your deployment file.");
xbt_dict_foreach(action_queues, cursor, name, todo) {
int dst, int tag, MPI_Comm comm)
{
MPI_Request request =
- build_request(buf, count, datatype, smpi_comm_rank(comm), dst, tag,
- comm, PERSISTENT | SEND);
+ build_request(buf, count, datatype, smpi_comm_rank(comm), dst, tag,
+ comm, PERSISTENT | SEND);
return request;
}
int src, int tag, MPI_Comm comm)
{
MPI_Request request =
- build_request(buf, count, datatype, src, smpi_comm_rank(comm), tag,
- comm, PERSISTENT | RECV);
+ build_request(buf, count, datatype, src, smpi_comm_rank(comm), tag,
+ comm, PERSISTENT | RECV);
return request;
}
int detached = 0;
xbt_assert(!request->action,
- "Cannot (re)start a non-finished communication");
+ "Cannot (re)start a non-finished communication");
if(request->flags & RECV) {
print_request("New recv", request);
if (request->size < xbt_cfg_get_int(_surf_cfg_set, "smpi/async_small_thres"))
- mailbox = smpi_process_mailbox_small();
+ mailbox = smpi_process_mailbox_small();
else
- mailbox = smpi_process_mailbox();
+ mailbox = smpi_process_mailbox();
// FIXME: SIMIX does not yet support non-contiguous datatypes
request->action = simcall_comm_irecv(mailbox, request->buf, &request->size, &match_recv, request);
if (request->size < xbt_cfg_get_int(_surf_cfg_set, "smpi/async_small_thres")) { // eager mode => detached send (FIXME: this limit should be configurable)
mailbox = smpi_process_remote_mailbox_small(
- smpi_group_index(smpi_comm_group(request->comm), request->dst));
+ smpi_group_index(smpi_comm_group(request->comm), request->dst));
}else{
XBT_DEBUG("Send request %p is not in the permanent receive mailbox (buf: %p)",request,request->buf);
mailbox = smpi_process_remote_mailbox(
- smpi_group_index(smpi_comm_group(request->comm), request->dst));
+ smpi_group_index(smpi_comm_group(request->comm), request->dst));
}
if (request->size < 64*1024 ) { //(FIXME: this limit should be configurable)
void *oldbuf = request->buf;
XBT_DEBUG("Send request %p is detached; buf %p copied into %p",request,oldbuf,request->buf);
}
- request->action =
+ request->action =
simcall_comm_isend(mailbox, request->size, -1.0,
- request->buf, request->size,
- &match_send,
- &smpi_mpi_request_free_voidp, // how to free the userdata if a detached send fails
- request,
- // detach if msg size < eager/rdv switch limit
- detached);
-
- #ifdef HAVE_TRACING
- /* FIXME: detached sends are not traceable (request->action == NULL) */
- if (request->action)
- simcall_set_category(request->action, TRACE_internal_smpi_get_category());
- #endif
+ request->buf, request->size,
+ &match_send,
+ &smpi_mpi_request_free_voidp, // how to free the userdata if a detached send fails
+ request,
+ // detach if msg size < eager/rdv switch limit
+ detached);
- }
+#ifdef HAVE_TRACING
+ /* FIXME: detached sends are not traceable (request->action == NULL) */
+ if (request->action)
+ simcall_set_category(request->action, TRACE_internal_smpi_get_category());
+#endif
+
+ }
}
void smpi_mpi_startall(int count, MPI_Request * requests)
{
- int i;
+ int i;
for(i = 0; i < count; i++) {
smpi_mpi_start(requests[i]);
int dst, int tag, MPI_Comm comm)
{
MPI_Request request =
- build_request(buf, count, datatype, smpi_comm_rank(comm), dst, tag,
- comm, NON_PERSISTENT | SEND);
+ build_request(buf, count, datatype, smpi_comm_rank(comm), dst, tag,
+ comm, NON_PERSISTENT | SEND);
return request;
}
int dst, int tag, MPI_Comm comm)
{
MPI_Request request =
- smpi_isend_init(buf, count, datatype, dst, tag, comm);
+ smpi_isend_init(buf, count, datatype, dst, tag, comm);
smpi_mpi_start(request);
return request;
int src, int tag, MPI_Comm comm)
{
MPI_Request request =
- build_request(buf, count, datatype, src, smpi_comm_rank(comm), tag,
- comm, NON_PERSISTENT | RECV);
-
+ build_request(buf, count, datatype, src, smpi_comm_rank(comm), tag,
+ comm, NON_PERSISTENT | RECV);
return request;
}
int src, int tag, MPI_Comm comm)
{
MPI_Request request =
- smpi_irecv_init(buf, count, datatype, src, tag, comm);
+ smpi_irecv_init(buf, count, datatype, src, tag, comm);
smpi_mpi_start(request);
return request;
int tag, MPI_Comm comm, MPI_Status * status)
{
MPI_Request request;
-
request = smpi_mpi_irecv(buf, count, datatype, src, tag, comm);
smpi_mpi_wait(&request, status);
}
void smpi_mpi_send(void *buf, int count, MPI_Datatype datatype, int dst,
int tag, MPI_Comm comm)
{
- MPI_Request request;
+ MPI_Request request;
- request = smpi_mpi_isend(buf, count, datatype, dst, tag, comm);
- smpi_mpi_wait(&request, MPI_STATUS_IGNORE);
+ request = smpi_mpi_isend(buf, count, datatype, dst, tag, comm);
+ smpi_mpi_wait(&request, MPI_STATUS_IGNORE);
}
void smpi_mpi_sendrecv(void *sendbuf, int sendcount, MPI_Datatype sendtype,
MPI_Status stats[2];
requests[0] =
- smpi_isend_init(sendbuf, sendcount, sendtype, dst, sendtag, comm);
+ smpi_isend_init(sendbuf, sendcount, sendtype, dst, sendtag, comm);
requests[1] =
- smpi_irecv_init(recvbuf, recvcount, recvtype, src, recvtag, comm);
+ smpi_irecv_init(recvbuf, recvcount, recvtype, src, recvtag, comm);
smpi_mpi_startall(2, requests);
smpi_mpi_waitall(2, requests, stats);
if(status != MPI_STATUS_IGNORE) {
MPI_Request req = *request;
// if we have a sender, we should use its data, and not the data from the receive
if((req->action)&&
- (req->src==MPI_ANY_SOURCE || req->tag== MPI_ANY_TAG))
+ (req->src==MPI_ANY_SOURCE || req->tag== MPI_ANY_TAG))
req = (MPI_Request)SIMIX_comm_get_src_data((*request)->action);
if(status != MPI_STATUS_IGNORE) {
req = *request;
print_request("Finishing", req);
+ MPI_Datatype datatype = req->old_type;
+ if(datatype->has_subtype == 1){
+ // This part handles the problem of non-contignous memory
+ // the unserialization at the reception
+ s_smpi_subtype_t *subtype = datatype->substruct;
+ if(req->flags & RECV) {
+ subtype->unserialize(req->buf, req->old_buf, req->size/smpi_datatype_size(datatype) , datatype->substruct);
+ }
+ //FIXME: I am not sure that if the send is detached we have to free
+ //the sender buffer thus I do it only for the reciever
+ if(req->flags & RECV) free(req->buf);
+ }
+
if(req->flags & NON_PERSISTENT) {
smpi_mpi_request_free(request);
} else {
}
int smpi_mpi_test(MPI_Request * request, MPI_Status * status) {
-int flag;
+ int flag;
- if ((*request)->action == NULL)
- flag = 1;
- else
+ if ((*request)->action == NULL)
+ flag = 1;
+ else
flag = simcall_comm_test((*request)->action);
- if(flag) {
- finish_wait(request, status);
- }
- return flag;
+ if(flag) {
+ finish_wait(request, status);
+ }
+ return flag;
}
int smpi_mpi_testany(int count, MPI_Request requests[], int *index,
size = 0;
for(i = 0; i < count; i++) {
if(requests[i]->action) {
- xbt_dynar_push(comms, &requests[i]->action);
- map[size] = i;
- size++;
+ xbt_dynar_push(comms, &requests[i]->action);
+ map[size] = i;
+ size++;
}
}
if(size > 0) {
int flag=1;
int i;
for(i=0; i<count; i++)
- if (smpi_mpi_test(&requests[i], &status[i])!=1)
- flag=0;
+ if (smpi_mpi_test(&requests[i], &status[i])!=1)
+ flag=0;
return flag;
}
// the issue here is that we have to wait on a nonexistent comm
MPI_Request request;
while(flag==0){
- request = smpi_mpi_iprobe(source, tag, comm, &flag, status);
- XBT_DEBUG("Busy Waiting on probing : %d", flag);
- if(!flag) {
- smpi_mpi_request_free(&request);
- simcall_process_sleep(0.0001);
- }
+ request = smpi_mpi_iprobe(source, tag, comm, &flag, status);
+ XBT_DEBUG("Busy Waiting on probing : %d", flag);
+ if(!flag) {
+ smpi_mpi_request_free(&request);
+ simcall_process_sleep(0.0001);
+ }
}
}
MPI_Request smpi_mpi_iprobe(int source, int tag, MPI_Comm comm, int* flag, MPI_Status* status){
- MPI_Request request =build_request(NULL, 0, MPI_CHAR, source, smpi_comm_rank(comm), tag,
- comm, NON_PERSISTENT | RECV);
+ MPI_Request request = build_request(NULL, 0, MPI_CHAR, source, smpi_comm_rank(comm), tag,
+ comm, NON_PERSISTENT | RECV);
// behave like a receive, but don't do it
smx_rdv_t mailbox;
print_request("New iprobe", request);
// We have to test both mailboxes as we don't know if we will receive one one or another
- if (xbt_cfg_get_int(_surf_cfg_set, "smpi/async_small_thres")>0){
- mailbox = smpi_process_mailbox_small();
- request->action = simcall_comm_iprobe(mailbox, request->src, request->tag, &match_recv, (void*)request);
+ if (xbt_cfg_get_int(_surf_cfg_set, "smpi/async_small_thres")>0){
+ mailbox = smpi_process_mailbox_small();
+ request->action = simcall_comm_iprobe(mailbox, request->src, request->tag, &match_recv, (void*)request);
- }
- if (request->action==NULL){
- mailbox = smpi_process_mailbox();
- request->action = simcall_comm_iprobe(mailbox, request->src, request->tag, &match_recv, (void*)request);
- }
+ }
+ if (request->action==NULL){
+ mailbox = smpi_process_mailbox();
+ request->action = simcall_comm_iprobe(mailbox, request->src, request->tag, &match_recv, (void*)request);
+ }
if(request->action){
MPI_Request req = (MPI_Request)SIMIX_comm_get_src_data(request->action);
count = 0;
for(i = 0; i < incount; i++) {
- if(smpi_mpi_testany(incount, requests, &index, status)) {
- indices[count] = index;
- count++;
- }
+ if(smpi_mpi_testany(incount, requests, &index, status)) {
+ indices[count] = index;
+ count++;
+ }
}
return count;
}
// FIXME: check for errors
smpi_datatype_extent(recvtype, &lb, &recvext);
// Local copy from root
- smpi_datatype_copy(sendbuf, sendcount, sendtype,
- (char *)recvbuf + root * recvcount * recvext, recvcount, recvtype);
+ smpi_datatype_copy(sendbuf, sendcount, sendtype,
+ (char *)recvbuf + root * recvcount * recvext, recvcount, recvtype);
// Receive buffers from senders
requests = xbt_new(MPI_Request, size - 1);
index = 0;
for(src = 0; src < size; src++) {
if(src != root) {
- requests[index] = smpi_irecv_init((char *)recvbuf + src * recvcount * recvext,
- recvcount, recvtype,
+ requests[index] = smpi_irecv_init((char *)recvbuf + src * recvcount * recvext,
+ recvcount, recvtype,
src, system_tag, comm);
index++;
}
// FIXME: check for errors
smpi_datatype_extent(recvtype, &lb, &recvext);
// Local copy from root
- smpi_datatype_copy(sendbuf, sendcount, sendtype,
- (char *)recvbuf + displs[root] * recvext,
+ smpi_datatype_copy(sendbuf, sendcount, sendtype,
+ (char *)recvbuf + displs[root] * recvext,
recvcounts[root], recvtype);
// Receive buffers from senders
requests = xbt_new(MPI_Request, size - 1);
for(src = 0; src < size; src++) {
if(src != root) {
requests[index] =
- smpi_irecv_init((char *)recvbuf + displs[src] * recvext,
- recvcounts[src], recvtype, src, system_tag, comm);
+ smpi_irecv_init((char *)recvbuf + displs[src] * recvext,
+ recvcounts[src], recvtype, src, system_tag, comm);
index++;
}
}
// FIXME: check for errors
smpi_datatype_extent(recvtype, &lb, &recvext);
// Local copy from self
- smpi_datatype_copy(sendbuf, sendcount, sendtype,
- (char *)recvbuf + rank * recvcount * recvext, recvcount,
+ smpi_datatype_copy(sendbuf, sendcount, sendtype,
+ (char *)recvbuf + rank * recvcount * recvext, recvcount,
recvtype);
// Send/Recv buffers to/from others;
requests = xbt_new(MPI_Request, 2 * (size - 1));
for(other = 0; other < size; other++) {
if(other != rank) {
requests[index] =
- smpi_isend_init(sendbuf, sendcount, sendtype, other, system_tag,
- comm);
+ smpi_isend_init(sendbuf, sendcount, sendtype, other, system_tag,
+ comm);
index++;
- requests[index] = smpi_irecv_init((char *)recvbuf + other * recvcount * recvext,
- recvcount, recvtype, other,
+ requests[index] = smpi_irecv_init((char *)recvbuf + other * recvcount * recvext,
+ recvcount, recvtype, other,
system_tag, comm);
index++;
}
// FIXME: check for errors
smpi_datatype_extent(recvtype, &lb, &recvext);
// Local copy from self
- smpi_datatype_copy(sendbuf, sendcount, sendtype,
- (char *)recvbuf + displs[rank] * recvext,
+ smpi_datatype_copy(sendbuf, sendcount, sendtype,
+ (char *)recvbuf + displs[rank] * recvext,
recvcounts[rank], recvtype);
// Send buffers to others;
requests = xbt_new(MPI_Request, 2 * (size - 1));
for(other = 0; other < size; other++) {
if(other != rank) {
requests[index] =
- smpi_isend_init(sendbuf, sendcount, sendtype, other, system_tag,
- comm);
+ smpi_isend_init(sendbuf, sendcount, sendtype, other, system_tag,
+ comm);
index++;
requests[index] =
- smpi_irecv_init((char *)recvbuf + displs[other] * recvext, recvcounts[other],
- recvtype, other, system_tag, comm);
+ smpi_irecv_init((char *)recvbuf + displs[other] * recvext, recvcounts[other],
+ recvtype, other, system_tag, comm);
index++;
}
}
smpi_datatype_extent(sendtype, &lb, &sendext);
// Local copy from root
smpi_datatype_copy((char *)sendbuf + root * sendcount * sendext,
- sendcount, sendtype, recvbuf, recvcount, recvtype);
+ sendcount, sendtype, recvbuf, recvcount, recvtype);
// Send buffers to receivers
requests = xbt_new(MPI_Request, size - 1);
index = 0;
for(dst = 0; dst < size; dst++) {
if(dst != root) {
- requests[index] = smpi_isend_init((char *)sendbuf + dst * sendcount * sendext,
+ requests[index] = smpi_isend_init((char *)sendbuf + dst * sendcount * sendext,
sendcount, sendtype, dst,
system_tag, comm);
index++;
// FIXME: check for errors
smpi_datatype_extent(sendtype, &lb, &sendext);
// Local copy from root
- smpi_datatype_copy((char *)sendbuf + displs[root] * sendext, sendcounts[root],
+ smpi_datatype_copy((char *)sendbuf + displs[root] * sendext, sendcounts[root],
sendtype, recvbuf, recvcount, recvtype);
// Send buffers to receivers
requests = xbt_new(MPI_Request, size - 1);
for(dst = 0; dst < size; dst++) {
if(dst != root) {
requests[index] =
- smpi_isend_init((char *)sendbuf + displs[dst] * sendext, sendcounts[dst],
- sendtype, dst, system_tag, comm);
+ smpi_isend_init((char *)sendbuf + displs[dst] * sendext, sendcounts[dst],
+ sendtype, dst, system_tag, comm);
index++;
}
}
// mapping...
tmpbufs[index] = xbt_malloc(count * dataext);
requests[index] =
- smpi_irecv_init(tmpbufs[index], count, datatype, src,
- system_tag, comm);
+ smpi_irecv_init(tmpbufs[index], count, datatype, src,
+ system_tag, comm);
index++;
}
}
tmpbufs = xbt_new(void *, rank);
index = 0;
for(other = 0; other < rank; other++) {
- // FIXME: possibly overkill we we have contiguous/noncontiguous data
+ // FIXME: possibly overkill we we have contiguous/noncontiguous data
// mapping...
tmpbufs[index] = xbt_malloc(count * dataext);
requests[index] =
- smpi_irecv_init(tmpbufs[index], count, datatype, other, system_tag,
- comm);
+ smpi_irecv_init(tmpbufs[index], count, datatype, other, system_tag,
+ comm);
index++;
}
for(other = rank + 1; other < size; other++) {
requests[index] =
- smpi_isend_init(sendbuf, count, datatype, other, system_tag, comm);
+ smpi_isend_init(sendbuf, count, datatype, other, system_tag, comm);
index++;
}
// Wait for completion of all comms.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
- * under the terms of the license (GNU LGPL) which comes with this package. */
+ * under the terms of the license (GNU LGPL) which comes with this package. */
#include <stdio.h>
#include <stdlib.h>
XBT_LOG_NEW_DEFAULT_SUBCATEGORY(smpi_mpi_dt, smpi,
"Logging specific to SMPI (datatype)");
-typedef struct s_smpi_mpi_datatype {
- size_t size;
- size_t contiguous;
- size_t block_stride;
- size_t block_length;
- size_t block_count:
- MPI_Aint lb;
- MPI_Aint ub;
- int flags;
-} s_smpi_mpi_datatype_t;
-
#define CREATE_MPI_DATATYPE(name, type) \
static s_smpi_mpi_datatype_t mpi_##name = { \
sizeof(type), /* size */ \
- 1, /*contiguous*/ \
- 0, /*block_stride*/ \
- 0, /*block_length*/ \
- 0, /*block_count*/ \
+ 0, /*was 1 has_subtype*/ \
0, /* lb */ \
sizeof(type), /* ub = lb + size */ \
- DT_FLAG_BASIC /* flags */ \
+ DT_FLAG_BASIC, /* flags */ \
+ NULL /* pointer on extended struct*/ \
}; \
- MPI_Datatype name = &mpi_##name;
+MPI_Datatype name = &mpi_##name;
//The following are datatypes for the MPI functions MPI_MAXLOC and MPI_MINLOC.
return datatype->size;
}
-size_t smpi_datatype_contiguous(MPI_Datatype datatype)
-{
- return datatype->contiguous;
-}
-size_t smpi_datatype_block_stride(MPI_Datatype datatype)
-{
- return datatype->block_stride;
-}
-size_t smpi_datatype_block_length(MPI_Datatype datatype)
-{
- return datatype->block_length;
-}
-size_t smpi_datatype_block_count(MPI_Datatype datatype)
-{
- return datatype->block_count;
-}
MPI_Aint smpi_datatype_lb(MPI_Datatype datatype)
{
sendcount *= smpi_datatype_size(sendtype);
recvcount *= smpi_datatype_size(recvtype);
count = sendcount < recvcount ? sendcount : recvcount;
- memcpy(recvbuf, sendbuf, count);
+
+ if(sendtype->has_subtype == 0 && recvtype->has_subtype == 0) {
+ memcpy(recvbuf, sendbuf, count);
+ }
+ else if (sendtype->has_subtype == 0)
+ {
+ s_smpi_subtype_t *subtype = recvtype->substruct;
+ subtype->unserialize( sendbuf, recvbuf,1, subtype);
+ }
+ else if (recvtype->has_subtype == 0)
+ {
+ s_smpi_subtype_t *subtype = sendtype->substruct;
+ subtype->serialize(sendbuf, recvbuf,1, subtype);
+ }else{
+ s_smpi_subtype_t *subtype = sendtype->substruct;
+
+ s_smpi_mpi_vector_t* type_c = (s_smpi_mpi_vector_t*)sendtype;
+
+ void * buf_tmp = malloc(count * type_c->size_oldtype);
+
+ subtype->serialize( sendbuf, buf_tmp,1, subtype);
+ subtype = recvtype->substruct;
+ subtype->unserialize(recvbuf, buf_tmp,1, subtype);
+
+ free(buf_tmp);
+ }
retval = sendcount > recvcount ? MPI_ERR_TRUNCATE : MPI_SUCCESS;
}
+
return retval;
}
-void smpi_datatype_create(MPI_Datatype* new_type, int size, int flags){
+/*
+ * Copies noncontiguous data into contiguous memory.
+ * @param contiguous_vector - output vector
+ * @param noncontiguous_vector - input vector
+ * @param type - pointer contening :
+ * - stride - stride of between noncontiguous data
+ * - block_length - the width or height of blocked matrix
+ * - count - the number of rows of matrix
+ */
+void serialize_vector( const void *noncontiguous_vector,
+ void *contiguous_vector,
+ size_t count,
+ void *type)
+{
+ s_smpi_mpi_vector_t* type_c = (s_smpi_mpi_vector_t*)type;
+ int i;
+ for (i = 0; i < type_c->block_count * count; i++) {
+ memcpy(contiguous_vector,
+ noncontiguous_vector, type_c->block_length * type_c->size_oldtype);
+ contiguous_vector += type_c->block_length*type_c->size_oldtype;
+ noncontiguous_vector += type_c->block_stride*type_c->size_oldtype;
+ }
+}
+/*
+ * Copies contiguous data into noncontiguous memory.
+ * @param noncontiguous_vector - output vector
+ * @param contiguous_vector - input vector
+ * @param type - pointer contening :
+ * - stride - stride of between noncontiguous data
+ * - block_length - the width or height of blocked matrix
+ * - count - the number of rows of matrix
+ */
+void unserialize_vector( const void *contiguous_vector,
+ void *noncontiguous_vector,
+ size_t count,
+ void *type)
+{
+ s_smpi_mpi_vector_t* type_c = (s_smpi_mpi_vector_t*)type;
+ int i;
+ for (i = 0; i < type_c->block_count * count; i++) {
+ memcpy(noncontiguous_vector,
+ contiguous_vector, type_c->block_length * type_c->size_oldtype);
+ contiguous_vector += type_c->block_length*type_c->size_oldtype;
+ noncontiguous_vector += type_c->block_stride*type_c->size_oldtype;
+ }
+}
+
+/*
+ * Create a Sub type vector to be able to serialize and unserialize it
+ * the structre s_smpi_mpi_vector_t is derived from s_smpi_subtype which
+ * required the functions unserialize and serialize
+ *
+ */
+s_smpi_mpi_vector_t* smpi_datatype_vector_create( int block_stride,
+ int block_length,
+ int block_count,
+ MPI_Datatype old_type,
+ int size_oldtype){
+ s_smpi_mpi_vector_t *new_t= xbt_new(s_smpi_mpi_vector_t,1);
+ new_t->base.serialize = &serialize_vector;
+ new_t->base.unserialize = &unserialize_vector;
+ new_t->block_stride = block_stride;
+ new_t->block_length = block_length;
+ new_t->block_count = block_count;
+ new_t->old_type = old_type;
+ new_t->size_oldtype = size_oldtype;
+ return new_t;
+}
+
+void smpi_datatype_create(MPI_Datatype* new_type, int size, int has_subtype,
+ void *struct_type, int flags){
MPI_Datatype new_t= xbt_new(s_smpi_mpi_datatype_t,1);
new_t->size=size;
+ new_t->has_subtype=has_subtype;
new_t->lb=0;
new_t->ub=size;
new_t->flags=flags;
+ new_t->substruct=struct_type;
*new_type = new_t;
}
{
int retval;
if ((old_type->flags & DT_FLAG_COMMITED) != DT_FLAG_COMMITED) {
- retval = MPI_ERR_TYPE;
+ retval = MPI_ERR_TYPE;
} else {
- smpi_datatype_create(new_type, count * smpi_datatype_size(old_type), DT_FLAG_CONTIGUOUS);
+ smpi_datatype_create(new_type, count *
+ smpi_datatype_size(old_type),1,NULL, DT_FLAG_CONTIGUOUS);
retval=MPI_SUCCESS;
}
return retval;
int smpi_datatype_vector(int count, int blocklen, int stride, MPI_Datatype old_type, MPI_Datatype* new_type)
{
int retval;
- if (blocklen<=0)return MPI_ERR_ARG;
+ if (blocklen<=0) return MPI_ERR_ARG;
if ((old_type->flags & DT_FLAG_COMMITED) != DT_FLAG_COMMITED) {
- retval = MPI_ERR_TYPE;
+ retval = MPI_ERR_TYPE;
} else {
- smpi_datatype_create(new_type, count * (blocklen+stride) * smpi_datatype_size(old_type), DT_FLAG_VECTOR);
- retval=MPI_SUCCESS;
+ if(stride != blocklen){
+ s_smpi_mpi_vector_t* subtype = smpi_datatype_vector_create( stride,
+ blocklen,
+ count,
+ old_type,
+ smpi_datatype_size(old_type));
+
+ smpi_datatype_create(new_type, count * (blocklen) *
+ smpi_datatype_size(old_type),
+ 1,
+ subtype,
+ DT_FLAG_VECTOR);
+ retval=MPI_SUCCESS;
+ }else{
+ /* in this situation the data are contignous thus it's not
+ * required to serialize and unserialize it*/
+ smpi_datatype_create(new_type, count * (blocklen) *
+ smpi_datatype_size(old_type),
+ 0,
+ NULL,
+ DT_FLAG_VECTOR);
+ retval=MPI_SUCCESS;
+ }
}
return retval;
}
int smpi_datatype_hvector(int count, int blocklen, MPI_Aint stride, MPI_Datatype old_type, MPI_Datatype* new_type)
{
int retval;
- if (blocklen<=0)return MPI_ERR_ARG;
+ if (blocklen<=0) return MPI_ERR_ARG;
if ((old_type->flags & DT_FLAG_COMMITED) != DT_FLAG_COMMITED) {
- retval = MPI_ERR_TYPE;
+ retval = MPI_ERR_TYPE;
} else {
- smpi_datatype_create(new_type, count * ((blocklen * smpi_datatype_size(old_type))+stride), DT_FLAG_VECTOR);
+ /*FIXME: as for the vector the data should be serialized and
+ * unserialized moreover a structure derived from s_smpi_subtype should
+ * be created*/
+ smpi_datatype_create(new_type, count * ((blocklen *
+ smpi_datatype_size(old_type))+stride),
+ 0,
+ NULL,
+ DT_FLAG_VECTOR);
retval=MPI_SUCCESS;
}
return retval;
{
int i;
int retval;
+ int size = 0;
for(i=0; i< count; i++){
if (blocklens[i]<=0)
return MPI_ERR_ARG;
+ size += blocklens[i];
}
if ((old_type->flags & DT_FLAG_COMMITED) != DT_FLAG_COMMITED) {
- retval = MPI_ERR_TYPE;
+ retval = MPI_ERR_TYPE;
} else {
- smpi_datatype_create(new_type, (blocklens[count-1] + indices[count-1]) * smpi_datatype_size(old_type), DT_FLAG_DATA);
+ /*FIXME: as for the vector the data should be serialized and
+ * unserialized moreover a structure derived from s_smpi_subtype should
+ * be created*/
+ smpi_datatype_create(new_type, (size) *
+ smpi_datatype_size(old_type),0, NULL, DT_FLAG_DATA);
retval=MPI_SUCCESS;
}
return retval;
{
int i;
int retval;
+ int size = 0;
for(i=0; i< count; i++){
if (blocklens[i]<=0)
return MPI_ERR_ARG;
+ size += blocklens[i];
}
if ((old_type->flags & DT_FLAG_COMMITED) != DT_FLAG_COMMITED) {
- retval = MPI_ERR_TYPE;
+ retval = MPI_ERR_TYPE;
} else {
- smpi_datatype_create(new_type,indices[count-1] + (blocklens[count-1] * smpi_datatype_size(old_type)), DT_FLAG_DATA);
+ /*FIXME: as for the vector the data should be serialized and
+ * unserialized moreover a structure derived from s_smpi_subtype should
+ * be created*/
+ smpi_datatype_create(new_type,(size * smpi_datatype_size(old_type)), 0,NULL, DT_FLAG_DATA);
retval=MPI_SUCCESS;
}
return retval;
int smpi_datatype_struct(int count, int* blocklens, MPI_Aint* indices, MPI_Datatype* old_types, MPI_Datatype* new_type)
{
int i;
+ size_t size; //Khalid added this
+
for(i=0; i< count; i++){
if (blocklens[i]<=0)
return MPI_ERR_ARG;
if ((old_types[i]->flags & DT_FLAG_COMMITED) != DT_FLAG_COMMITED)
return MPI_ERR_TYPE;
+ size += blocklens[i]*smpi_datatype_size(old_types[i]);
}
- smpi_datatype_create(new_type,indices[count-1] + (blocklens[count-1] * smpi_datatype_size(old_types[count-1])), DT_FLAG_DATA);
+ /*FIXME: as for the vector the data should be serialized and
+ * unserialized moreover a structure derived from s_smpi_subtype should
+ * be created*/
+ smpi_datatype_create(new_type, size,
+ 0, NULL,
+ DT_FLAG_DATA);
return MPI_SUCCESS;
}
-void smpi_datatype_commit(MPI_Datatype* datatype)
+void smpi_datatype_commit(MPI_Datatype *datatype)
{
- (*datatype)->flags= ( (*datatype)->flags | DT_FLAG_COMMITED);
+ (*datatype)->flags= ((*datatype)->flags | DT_FLAG_COMMITED);
}
typedef struct s_smpi_mpi_op {
//TODO : MINLOC & MAXLOC
#define APPLY_FUNC(a, b, length, type, func) \
- { \
- int i; \
- type* x = (type*)(a); \
- type* y = (type*)(b); \
- for(i = 0; i < *(length); i++) { \
- func(x[i], y[i]); \
- } \
- }
+{ \
+ int i; \
+ type* x = (type*)(a); \
+ type* y = (type*)(b); \
+ for(i = 0; i < *(length); i++) { \
+ func(x[i], y[i]); \
+ } \
+}
static void max_func(void *a, void *b, int *length,
MPI_Datatype * datatype)
#define CREATE_MPI_OP(name, func) \
static s_smpi_mpi_op_t mpi_##name = { &(func) /* func */ }; \
- MPI_Op name = &mpi_##name;
+MPI_Op name = &mpi_##name;
CREATE_MPI_OP(MPI_MAX, max_func);
CREATE_MPI_OP(MPI_MIN, min_func);