* (C) 2003 by Argonne National Laboratory.
* See COPYRIGHT in top-level directory.
*/
-
#include "mpi.h"
#include "mpitest.h"
-#include "smpi_cocci.h"
#include <stdio.h>
#include <stdlib.h>
#ifdef HAVE_SYS_TIME_H
#include <time.h>
#include <math.h>
#include <assert.h>
-
/* FIXME: What is this test supposed to accomplish? */
-
#define START_BUF (1)
#define LARGE_BUF (256 * 1024)
-
/* FIXME: MAX_BUF is too large */
#define MAX_BUF (32 * 1024 * 1024)
#define LOOPS 10
-
-SMPI_VARINIT_GLOBAL(sbuf, char*);
-SMPI_VARINIT_GLOBAL(rbuf, char*);
-SMPI_VARINIT_GLOBAL(recvcounts, int*);
-SMPI_VARINIT_GLOBAL(displs, int*);
-SMPI_VARINIT_GLOBAL_AND_SET(errs, int, 0);
-
+char *sbuf, *rbuf;
+int *recvcounts, *displs;
+int errs = 0;
/* #define dprintf printf */
#define dprintf(...)
-
typedef enum {
REGULAR,
BCAST,
LINEAR_DECREASE,
BELL_CURVE
} test_t;
-
void comm_tests(MPI_Comm comm);
-double run_test(long long msg_size, MPI_Comm comm, test_t test_type, double * max_time);
-
-int main(int argc, char ** argv)
+double run_test(long long msg_size, MPI_Comm comm, test_t test_type, double *max_time);
+int main(int argc, char **argv)
{
int comm_size, comm_rank;
MPI_Comm comm;
-
MTest_Init(&argc, &argv);
MPI_Comm_size(MPI_COMM_WORLD, &comm_size);
MPI_Comm_rank(MPI_COMM_WORLD, &comm_rank);
-
+ if (comm_size < 3) {
+ fprintf(stderr, "At least 3 processes required\n");
+ MPI_Abort(MPI_COMM_WORLD, 1);
+ }
if (LARGE_BUF * comm_size > MAX_BUF)
goto fn_exit;
-
- SMPI_VARGET_GLOBAL(sbuf) = (void *) calloc(MAX_BUF, 1);
- SMPI_VARGET_GLOBAL(rbuf) = (void *) calloc(MAX_BUF, 1);
-
+ sbuf = (void *) calloc(MAX_BUF, 1);
+ rbuf = (void *) calloc(MAX_BUF, 1);
srand(time(NULL));
-
- SMPI_VARGET_GLOBAL(recvcounts) = (void *) malloc(comm_size * sizeof(int));
- SMPI_VARGET_GLOBAL(displs) = (void *) malloc(comm_size * sizeof(int));
- if (!SMPI_VARGET_GLOBAL(recvcounts) || !SMPI_VARGET_GLOBAL(displs) || !SMPI_VARGET_GLOBAL(sbuf) || !SMPI_VARGET_GLOBAL(rbuf)) {
+ recvcounts = (void *) malloc(comm_size * sizeof(int));
+ displs = (void *) malloc(comm_size * sizeof(int));
+ if (!recvcounts || !displs || !sbuf || !rbuf) {
fprintf(stderr, "Unable to allocate memory:\n");
- if (!SMPI_VARGET_GLOBAL(sbuf)) fprintf(stderr,"\tsbuf of %d bytes\n", MAX_BUF );
- if (!SMPI_VARGET_GLOBAL(rbuf)) fprintf(stderr,"\trbuf of %d bytes\n", MAX_BUF );
- if (!SMPI_VARGET_GLOBAL(recvcounts)) fprintf(stderr,"\trecvcounts of %zd bytes\n", comm_size * sizeof(int) );
- if (!SMPI_VARGET_GLOBAL(displs)) fprintf(stderr,"\tdispls of %zd bytes\n", comm_size * sizeof(int) );
+ if (!sbuf)
+ fprintf(stderr, "\tsbuf of %d bytes\n", MAX_BUF);
+ if (!rbuf)
+ fprintf(stderr, "\trbuf of %d bytes\n", MAX_BUF);
+ if (!recvcounts)
+ fprintf(stderr, "\trecvcounts of %zu bytes\n", comm_size * sizeof(int));
+ if (!displs)
+ fprintf(stderr, "\tdispls of %zu bytes\n", comm_size * sizeof(int));
fflush(stderr);
MPI_Abort(MPI_COMM_WORLD, -1);
- exit(-1);
}
-
if (!comm_rank) {
dprintf("Message Range: (%d, %d); System size: %d\n", START_BUF, LARGE_BUF, comm_size);
fflush(stdout);
}
-
-
/* COMM_WORLD tests */
if (!comm_rank) {
dprintf("\n\n==========================================================\n");
dprintf("==========================================================\n");
}
comm_tests(MPI_COMM_WORLD);
-
/* non-COMM_WORLD tests */
if (!comm_rank) {
dprintf("\n\n==========================================================\n");
if (comm_rank < comm_size - 1)
comm_tests(comm);
MPI_Comm_free(&comm);
-
/* Randomized communicator tests */
if (!comm_rank) {
dprintf("\n\n==========================================================\n");
MPI_Comm_split(MPI_COMM_WORLD, 0, rand(), &comm);
comm_tests(comm);
MPI_Comm_free(&comm);
-
- //free(SMPI_VARGET_GLOBAL(sbuf));
- //free(SMPI_VARGET_GLOBAL(rbuf));
- free(SMPI_VARGET_GLOBAL(recvcounts));
- free(SMPI_VARGET_GLOBAL(displs));
-
-fn_exit:
- MTest_Finalize(SMPI_VARGET_GLOBAL(errs));
+ free(sbuf);
+ free(rbuf);
+ free(recvcounts);
+ free(displs);
+ fn_exit:
+ MTest_Finalize(errs);
MPI_Finalize();
-
return 0;
}
-
void comm_tests(MPI_Comm comm)
{
int comm_size, comm_rank;
double rtime = rtime; /* stop warning about unused variable */
double max_time;
long long msg_size;
-
MPI_Comm_size(comm, &comm_size);
MPI_Comm_rank(comm, &comm_rank);
-
for (msg_size = START_BUF; msg_size <= LARGE_BUF; msg_size *= 2) {
if (!comm_rank) {
dprintf("\n====> MSG_SIZE: %d\n", (int) msg_size);
fflush(stdout);
}
-
rtime = run_test(msg_size, comm, REGULAR, &max_time);
if (!comm_rank) {
dprintf("REGULAR:\tAVG: %.3f\tMAX: %.3f\n", rtime, max_time);
fflush(stdout);
}
-
rtime = run_test(msg_size, comm, BCAST, &max_time);
if (!comm_rank) {
dprintf("BCAST:\tAVG: %.3f\tMAX: %.3f\n", rtime, max_time);
fflush(stdout);
}
-
rtime = run_test(msg_size, comm, SPIKE, &max_time);
if (!comm_rank) {
dprintf("SPIKE:\tAVG: %.3f\tMAX: %.3f\n", rtime, max_time);
fflush(stdout);
}
-
rtime = run_test(msg_size, comm, HALF_FULL, &max_time);
if (!comm_rank) {
dprintf("HALF_FULL:\tAVG: %.3f\tMAX: %.3f\n", rtime, max_time);
fflush(stdout);
}
-
rtime = run_test(msg_size, comm, LINEAR_DECREASE, &max_time);
if (!comm_rank) {
dprintf("LINEAR_DECREASE:\tAVG: %.3f\tMAX: %.3f\n", rtime, max_time);
fflush(stdout);
}
-
rtime = run_test(msg_size, comm, BELL_CURVE, &max_time);
if (!comm_rank) {
dprintf("BELL_CURVE:\tAVG: %.3f\tMAX: %.3f\n", rtime, max_time);
}
}
}
-
-double run_test(long long msg_size, MPI_Comm comm, test_t test_type,
- double * max_time)
+double run_test(long long msg_size, MPI_Comm comm, test_t test_type, double *max_time)
{
int i, j;
int comm_size, comm_rank;
double start, end;
double total_time, avg_time;
MPI_Aint tmp;
-
MPI_Comm_size(comm, &comm_size);
MPI_Comm_rank(comm, &comm_rank);
-
- SMPI_VARGET_GLOBAL(displs)[0] = 0;
+ displs[0] = 0;
for (i = 0; i < comm_size; i++) {
if (test_type == REGULAR)
- SMPI_VARGET_GLOBAL(recvcounts)[i] = msg_size;
+ recvcounts[i] = msg_size;
else if (test_type == BCAST)
- SMPI_VARGET_GLOBAL(recvcounts)[i] = (!i) ? msg_size : 0;
+ recvcounts[i] = (!i) ? msg_size : 0;
else if (test_type == SPIKE)
- SMPI_VARGET_GLOBAL(recvcounts)[i] = (!i) ? (msg_size / 2) : (msg_size / (2 * (comm_size - 1)));
+ recvcounts[i] = (!i) ? (msg_size / 2) : (msg_size / (2 * (comm_size - 1)));
else if (test_type == HALF_FULL)
- SMPI_VARGET_GLOBAL(recvcounts)[i] = (i < (comm_size / 2)) ? (2 * msg_size) : 0;
+ recvcounts[i] = (i < (comm_size / 2)) ? (2 * msg_size) : 0;
else if (test_type == LINEAR_DECREASE) {
tmp = 2 * msg_size * (comm_size - 1 - i) / (comm_size - 1);
- if (tmp != (int)tmp) {
- fprintf( stderr, "Integer overflow in variable tmp\n" );
- MPI_Abort( MPI_COMM_WORLD, 1 );
- exit(1);
- }
- SMPI_VARGET_GLOBAL(recvcounts)[i] = (int) tmp;
-
+ if (tmp != (int) tmp) {
+ fprintf(stderr, "Integer overflow in variable tmp\n");
+ MPI_Abort(MPI_COMM_WORLD, 1);
+ }
+ recvcounts[i] = (int) tmp;
/* If the maximum message size is too large, don't run */
- if (tmp > MAX_BUF) return 0;
+ if (tmp > MAX_BUF)
+ return 0;
}
else if (test_type == BELL_CURVE) {
for (j = 0; j < i; j++) {
- if (i - 1 + j >= comm_size) continue;
+ if (i - 1 + j >= comm_size)
+ continue;
tmp = msg_size * comm_size / (log(comm_size) * i);
- SMPI_VARGET_GLOBAL(recvcounts)[i - 1 + j] = (int) tmp;
- SMPI_VARGET_GLOBAL(displs)[i - 1 + j] = 0;
-
+ recvcounts[i - 1 + j] = (int) tmp;
+ displs[i - 1 + j] = 0;
/* If the maximum message size is too large, don't run */
- if (tmp > MAX_BUF) return 0;
+ if (tmp > MAX_BUF)
+ return 0;
}
}
-
if (i < comm_size - 1)
- SMPI_VARGET_GLOBAL(displs)[i+1] = SMPI_VARGET_GLOBAL(displs)[i] + SMPI_VARGET_GLOBAL(recvcounts)[i];
+ displs[i + 1] = displs[i] + recvcounts[i];
}
-
/* Test that:
- 1: sbuf is large enough
- 2: rbuf is large enough
- 3: There were no failures (e.g., tmp nowhere > rbuf size
- */
+ * 1: sbuf is large enough
+ * 2: rbuf is large enough
+ * 3: There were no failures (e.g., tmp nowhere > rbuf size
+ */
MPI_Barrier(comm);
start = MPI_Wtime();
for (i = 0; i < LOOPS; i++) {
- MPI_Allgatherv(SMPI_VARGET_GLOBAL(sbuf), SMPI_VARGET_GLOBAL(recvcounts)[comm_rank], MPI_CHAR,
- SMPI_VARGET_GLOBAL(rbuf), SMPI_VARGET_GLOBAL(recvcounts), SMPI_VARGET_GLOBAL(displs), MPI_CHAR, comm);
+ MPI_Allgatherv(sbuf, recvcounts[comm_rank], MPI_CHAR,
+ rbuf, recvcounts, displs, MPI_CHAR, comm);
}
end = MPI_Wtime();
MPI_Barrier(comm);
-
/* Convert to microseconds (why?) */
total_time = 1.0e6 * (end - start);
MPI_Reduce(&total_time, &avg_time, 1, MPI_DOUBLE, MPI_SUM, 0, comm);
MPI_Reduce(&total_time, max_time, 1, MPI_DOUBLE, MPI_MAX, 0, comm);
-
return (avg_time / (LOOPS * comm_size));
}