ports/openmpi
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openmpi/ompi/group/group.c
Josh Hursey ee42c673fe Fix formatting in group and communicator code (- No functionality changes -) 
Mostly TAB to spaces changes, though a couple style fixes were included as well.

The tab/space issue was causing problems with off-trunk branch merging.

This commit was SVN r23827.
2010-10-04 14:54:58 +00:00

509 строки
16 KiB
C
Исходник Ответственный История

/*
* Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. All rights reserved.
* Copyright (c) 2004-2005 The University of Tennessee and The University
* of Tennessee Research Foundation. All rights
* reserved.
* Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
* University of Stuttgart. All rights reserved.
* Copyright (c) 2004-2005 The Regents of the University of California.
* All rights reserved.
* Copyright (c) 2006-2007 University of Houston. All rights reserved.
* Copyright (c) 2007 Cisco Systems, Inc. All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
#include "ompi_config.h"
#include "ompi/group/group.h"
#include "ompi/constants.h"
#include "ompi/proc/proc.h"
#include "ompi/runtime/params.h"
#include "mpi.h"
int ompi_group_free ( ompi_group_t **group )
{
ompi_group_t *l_group;
l_group = (ompi_group_t *) *group;
ompi_group_decrement_proc_count (l_group);
OBJ_RELEASE(l_group);
*group = MPI_GROUP_NULL;
return OMPI_SUCCESS;
}
int ompi_group_translate_ranks ( ompi_group_t *group1,
int n_ranks, int *ranks1,
ompi_group_t *group2,
int *ranks2)
{
int rank, proc, proc2;
struct ompi_proc_t *proc1_pointer, *proc2_pointer;
if ( MPI_GROUP_EMPTY == group1 || MPI_GROUP_EMPTY == group2 ) {
for (proc = 0; proc < n_ranks ; proc++) {
ranks2[proc] = MPI_UNDEFINED;
}
return MPI_SUCCESS;
}
/*
* If we are translating from a parent to a child that uses the sparse format
* or vice versa, we use the translate ranks function corresponding to the
* format used. Generally, all these functions require less time than the
* original method that loops over the processes of both groups till we
* find a match.
*/
if( group1->grp_parent_group_ptr == group2 ) { /* from child to parent */
if(OMPI_GROUP_IS_SPORADIC(group1)) {
return ompi_group_translate_ranks_sporadic_reverse
(group1,n_ranks,ranks1,group2,ranks2);
}
else if(OMPI_GROUP_IS_STRIDED(group1)) {
return ompi_group_translate_ranks_strided_reverse
(group1,n_ranks,ranks1,group2,ranks2);
}
else if(OMPI_GROUP_IS_BITMAP(group1)) {
return ompi_group_translate_ranks_bmap_reverse
(group1,n_ranks,ranks1,group2,ranks2);
}
}
else if( group2->grp_parent_group_ptr == group1 ) { /* from parent to child*/
if(OMPI_GROUP_IS_SPORADIC(group2)) {
return ompi_group_translate_ranks_sporadic
(group1,n_ranks,ranks1,group2,ranks2);
}
else if(OMPI_GROUP_IS_STRIDED(group2)) {
return ompi_group_translate_ranks_strided
(group1,n_ranks,ranks1,group2,ranks2);
}
else if(OMPI_GROUP_IS_BITMAP(group2)) {
return ompi_group_translate_ranks_bmap
(group1,n_ranks,ranks1,group2,ranks2);
}
}
else {
/* loop over all ranks */
for (proc = 0; proc < n_ranks; proc++) {
rank=ranks1[proc];
if ( MPI_PROC_NULL == rank) {
ranks2[proc] = MPI_PROC_NULL;
}
else {
proc1_pointer = ompi_group_peer_lookup(group1 ,rank);
/* initialize to no "match" */
ranks2[proc] = MPI_UNDEFINED;
for (proc2 = 0; proc2 < group2->grp_proc_count; proc2++) {
proc2_pointer= ompi_group_peer_lookup(group2 ,proc2);
if ( proc1_pointer == proc2_pointer) {
ranks2[proc] = proc2;
break;
}
} /* end proc2 loop */
} /* end proc loop */
}
}
return MPI_SUCCESS;
}
int ompi_group_dump (ompi_group_t* group)
{
int i;
int new_rank;
i=0;
printf("Group Proc Count: %d\n",group->grp_proc_count);
printf("Group My Rank: %d\n",group->grp_my_rank);
if (OMPI_GROUP_IS_SPORADIC(group)) {
ompi_group_translate_ranks( group,1,&group->grp_my_rank,
group->grp_parent_group_ptr,
&new_rank);
printf("Rank in the parent group: %d\n",new_rank);
printf("The Sporadic List Length: %d\n",
group->sparse_data.grp_sporadic.grp_sporadic_list_len);
printf("Rank First Length\n");
for(i=0 ; i<group->sparse_data.grp_sporadic.grp_sporadic_list_len ; i++) {
printf("%d %d\n",
group->sparse_data.grp_sporadic.grp_sporadic_list[i].rank_first,
group->sparse_data.grp_sporadic.grp_sporadic_list[i].length);
}
}
else if (OMPI_GROUP_IS_STRIDED(group)) {
ompi_group_translate_ranks( group,1,&group->grp_my_rank,
group->grp_parent_group_ptr,
&new_rank);
printf("Rank in the parent group: %d\n",new_rank);
printf("The Offset is: %d\n",group->sparse_data.grp_strided.grp_strided_offset);
printf("The Stride is: %d\n",group->sparse_data.grp_strided.grp_strided_stride);
printf("The Last Element is: %d\n",
group->sparse_data.grp_strided.grp_strided_last_element);
}
else if (OMPI_GROUP_IS_BITMAP(group)) {
ompi_group_translate_ranks( group,1,&group->grp_my_rank,
group->grp_parent_group_ptr,
&new_rank);
printf("Rank in the parent group: %d\n",new_rank);
printf("The length of the bitmap array is: %d\n",
group->sparse_data.grp_bitmap.grp_bitmap_array_len);
for (i=0 ; i<group->sparse_data.grp_bitmap.grp_bitmap_array_len ; i++) {
printf("%d\t",group->sparse_data.grp_bitmap.grp_bitmap_array[i]);
}
}
printf("*********************************************************\n");
return OMPI_SUCCESS;
}
/*
* This is the function that iterates through the sparse groups to the dense group
* to reach the process pointer
*/
ompi_proc_t* ompi_group_get_proc_ptr (ompi_group_t* group , int rank)
{
int ranks1,ranks2;
do {
if(OMPI_GROUP_IS_DENSE(group)) {
return group->grp_proc_pointers[rank];
}
ranks1 = rank;
ompi_group_translate_ranks( group, 1, &ranks1,
group->grp_parent_group_ptr,&ranks2);
rank = ranks2;
group = group->grp_parent_group_ptr;
} while (1);
}
int ompi_group_minloc ( int list[] , int length )
{
int i,index,min;
min = list[0];
index = 0;
for (i=0 ; i<length ; i++) {
if (min > list[i] && list[i] != -1) {
min = list[i];
index = i;
}
}
return index;
}
int ompi_group_incl(ompi_group_t* group, int n, int *ranks, ompi_group_t **new_group)
{
int method,result;
method = 0;
#if OMPI_GROUP_SPARSE
if (ompi_use_sparse_group_storage) {
int len [4];
len[0] = ompi_group_calc_plist ( n ,ranks );
len[1] = ompi_group_calc_strided ( n ,ranks );
len[2] = ompi_group_calc_sporadic ( n ,ranks );
len[3] = ompi_group_calc_bmap ( n , group->grp_proc_count ,ranks );
/* determin minimum length */
method = ompi_group_minloc ( len, 4 );
}
#endif
switch (method)
{
case 0:
result = ompi_group_incl_plist(group, n, ranks, new_group);
break;
case 1:
result = ompi_group_incl_strided(group, n, ranks, new_group);
break;
case 2:
result = ompi_group_incl_spor(group, n, ranks, new_group);
break;
default:
result = ompi_group_incl_bmap(group, n, ranks, new_group);
break;
}
return result;
}
int ompi_group_excl(ompi_group_t* group, int n, int *ranks, ompi_group_t **new_group)
{
int i, j, k, result;
int *ranks_included=NULL;
/* determine the list of included processes for the excl-method */
k = 0;
if (0 < (group->grp_proc_count - n)) {
ranks_included = (int *)malloc( (group->grp_proc_count-n)*(sizeof(int)));
for (i=0 ; i<group->grp_proc_count ; i++) {
for(j=0 ; j<n ; j++) {
if(ranks[j] == i) {
break;
}
}
if (j==n) {
ranks_included[k] = i;
k++;
}
}
}
result = ompi_group_incl(group, k, ranks_included, new_group);
if (NULL != ranks_included) {
free(ranks_included);
}
return result;
}
int ompi_group_range_incl(ompi_group_t* group, int n_triplets, int ranges[][3],
ompi_group_t **new_group)
{
int j,k;
int *ranks_included=NULL;
int index,first_rank,last_rank,stride;
int count,result;
count = 0;
/* determine the number of included processes for the range-incl-method */
k = 0;
for(j=0 ; j<n_triplets ; j++) {
first_rank = ranges[j][0];
last_rank = ranges[j][1];
stride = ranges[j][2];
if (first_rank < last_rank) {
/* positive stride */
index = first_rank;
while (index <= last_rank) {
count ++;
k++;
index += stride;
} /* end while loop */
}
else if (first_rank > last_rank) {
/* negative stride */
index = first_rank;
while (index >= last_rank) {
count ++;
k++;
index += stride;
} /* end while loop */
} else { /* first_rank == last_rank */
index = first_rank;
count ++;
k++;
}
}
if (0 != count) {
ranks_included = (int *)malloc( (count)*(sizeof(int)));
}
/* determine the list of included processes for the range-incl-method */
k = 0;
for(j=0 ; j<n_triplets ; j++) {
first_rank = ranges[j][0];
last_rank = ranges[j][1];
stride = ranges[j][2];
if (first_rank < last_rank) {
/* positive stride */
index = first_rank;
while (index <= last_rank) {
ranks_included[k] = index;
k++;
index += stride;
} /* end while loop */
}
else if (first_rank > last_rank) {
/* negative stride */
index = first_rank;
while (index >= last_rank) {
ranks_included[k] = index;
k++;
index += stride;
} /* end while loop */
} else { /* first_rank == last_rank */
index = first_rank;
ranks_included[k] = index;
k++;
}
}
result = ompi_group_incl(group, k, ranks_included, new_group);
if (NULL != ranks_included) {
free(ranks_included);
}
return result;
}
int ompi_group_range_excl(ompi_group_t* group, int n_triplets, int ranges[][3],
ompi_group_t **new_group)
{
int j,k,i;
int *ranks_included=NULL, *ranks_excluded=NULL;
int index,first_rank,last_rank,stride,count,result;
count = 0;
/* determine the number of excluded processes for the range-excl-method */
k = 0;
for(j=0 ; j<n_triplets ; j++) {
first_rank = ranges[j][0];
last_rank = ranges[j][1];
stride = ranges[j][2];
if (first_rank < last_rank) {
/* positive stride */
index = first_rank;
while (index <= last_rank) {
count ++;
index += stride;
} /* end while loop */
}
else if (first_rank > last_rank) {
/* negative stride */
index = first_rank;
while (index >= last_rank) {
count ++;
index += stride;
} /* end while loop */
} else { /* first_rank == last_rank */
index = first_rank;
count ++;
}
}
if (0 != count) {
ranks_excluded = (int *)malloc( (count)*(sizeof(int)));
}
/* determine the list of included processes for the range-excl-method */
k = 0;
i = 0;
for(j=0 ; j<n_triplets ; j++) {
first_rank = ranges[j][0];
last_rank = ranges[j][1];
stride = ranges[j][2];
if (first_rank < last_rank) {
/* positive stride */
index = first_rank;
while (index <= last_rank) {
ranks_excluded[i] = index;
i++;
index += stride;
} /* end while loop */
}
else if (first_rank > last_rank) {
/* negative stride */
index = first_rank;
while (index >= last_rank) {
ranks_excluded[i] = index;
i++;
index += stride;
} /* end while loop */
} else { /* first_rank == last_rank */
index = first_rank;
ranks_excluded[i] = index;
i++;
}
}
if (0 != (group->grp_proc_count - count)) {
ranks_included = (int *)malloc( (group->grp_proc_count - count)*(sizeof(int)));
}
for (j=0 ; j<group->grp_proc_count ; j++) {
for(index=0 ; index<i ; index++) {
if(ranks_excluded[index] == j) break;
}
if (index == i) {
ranks_included[k] = j;
k++;
}
}
if (NULL != ranks_excluded) {
free(ranks_excluded);
}
result = ompi_group_incl(group, k, ranks_included, new_group);
if (NULL != ranks_included) {
free(ranks_included);
}
return result;
}
int ompi_group_intersection(ompi_group_t* group1,ompi_group_t* group2,
ompi_group_t **new_group)
{
int proc1,proc2,k, result;
int *ranks_included=NULL;
ompi_group_t *group1_pointer, *group2_pointer;
ompi_proc_t *proc1_pointer, *proc2_pointer;
group1_pointer=(ompi_group_t *)group1;
group2_pointer=(ompi_group_t *)group2;
/* determine the number of included processes for the incl-method */
k = 0;
for (proc1 = 0; proc1 < group1_pointer->grp_proc_count; proc1++) {
proc1_pointer = ompi_group_peer_lookup (group1_pointer , proc1);
/* check to see if this proc is in group2 */
for (proc2 = 0; proc2 < group2_pointer->grp_proc_count; proc2++) {
proc2_pointer = ompi_group_peer_lookup (group2_pointer , proc2);
if( proc1_pointer == proc2_pointer ) {
k++;
break;
}
} /* end proc2 loop */
} /* end proc1 loop */
if (0 != k) {
ranks_included = (int *)malloc( k*(sizeof(int)));
}
/* determine the list of included processes for the incl-method */
k = 0;
for (proc1 = 0; proc1 < group1_pointer->grp_proc_count; proc1++) {
proc1_pointer = ompi_group_peer_lookup (group1_pointer , proc1);
/* check to see if this proc is in group2 */
for (proc2 = 0; proc2 < group2_pointer->grp_proc_count; proc2++) {
proc2_pointer = ompi_group_peer_lookup (group2_pointer ,proc2);
if( proc1_pointer == proc2_pointer ) {
ranks_included[k] = proc1;
k++;
break;
}
} /* end proc2 loop */
} /* end proc1 loop */
result = ompi_group_incl(group1, k, ranks_included, new_group);
if (NULL != ranks_included) {
free(ranks_included);
}
return result;
}
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