#include "mpi.h"
#include "mpitest.h"
-#include "smpi_cocci.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#endif
-SMPI_VARINIT_GLOBAL(count, int);
-SMPI_VARINIT_GLOBAL(size, int);
-SMPI_VARINIT_GLOBAL(rank, int);
-SMPI_VARINIT_GLOBAL(cerrcnt, int);
-
-struct int_test { int a; int b; };
-struct long_test { long a; int b; };
-struct short_test { short a; int b; };
-struct float_test { float a; int b; };
-struct double_test { double a; int b; };
+int count, size, rank;
+int cerrcnt;
+
+struct int_test {
+ int a;
+ int b;
+};
+struct long_test {
+ long a;
+ int b;
+};
+struct short_test {
+ short a;
+ int b;
+};
+struct float_test {
+ float a;
+ int b;
+};
+struct double_test {
+ double a;
+ int b;
+};
#define mpi_op2str(op) \
((op == MPI_SUM) ? "MPI_SUM" : \
/* calloc to avoid spurious valgrind warnings when "type" has padding bytes */
#define DECL_MALLOC_IN_OUT_SOL(type) \
type *in, *out, *sol; \
- in = (type *) calloc(SMPI_VARGET_GLOBAL(count), sizeof(type)); \
- out = (type *) calloc(SMPI_VARGET_GLOBAL(count), sizeof(type)); \
- sol = (type *) calloc(SMPI_VARGET_GLOBAL(count), sizeof(type));
+ in = (type *) calloc(count, sizeof(type)); \
+ out = (type *) calloc(count, sizeof(type)); \
+ sol = (type *) calloc(count, sizeof(type));
#define SET_INDEX_CONST(arr, val) \
{ \
int i; \
- for (i = 0; i < SMPI_VARGET_GLOBAL(count); i++) \
+ for (i = 0; i < count; i++) \
arr[i] = val; \
}
#define SET_INDEX_SUM(arr, val) \
{ \
int i; \
- for (i = 0; i < SMPI_VARGET_GLOBAL(count); i++) \
+ for (i = 0; i < count; i++) \
arr[i] = i + val; \
}
#define SET_INDEX_FACTOR(arr, val) \
{ \
int i; \
- for (i = 0; i < SMPI_VARGET_GLOBAL(count); i++) \
+ for (i = 0; i < count; i++) \
arr[i] = i * (val); \
}
#define SET_INDEX_POWER(arr, val) \
{ \
int i, j; \
- for (i = 0; i < SMPI_VARGET_GLOBAL(count); i++) { \
+ for (i = 0; i < count; i++) { \
(arr)[i] = 1; \
for (j = 0; j < (val); j++) \
arr[i] *= i; \
if (lerrcnt) { \
MPI_Type_get_name(mpi_type, name, &len); \
fprintf(stderr, "(%d) Error for type %s and op %s\n", \
- SMPI_VARGET_GLOBAL(rank), name, mpi_op2str(mpi_op)); \
+ rank, name, mpi_op2str(mpi_op)); \
} \
free(in); free(out); free(sol); \
- } while(0)
+ } while (0)
-/* The logic on the error check on MPI_Allreduce assumes that all
+/* The logic on the error check on MPI_Allreduce assumes that all
MPI_Allreduce routines return a failure if any do - this is sufficient
for MPI implementations that reject some of the valid op/datatype pairs
- (and motivated this addition, as some versions of the IBM MPI
+ (and motivated this addition, as some versions of the IBM MPI
failed in just this way).
*/
#define ALLREDUCE_AND_FREE(mpi_type, mpi_op, in, out, sol) \
{ \
int i, rc, lerrcnt = 0; \
- rc = MPI_Allreduce(in, out, SMPI_VARGET_GLOBAL(count), mpi_type, mpi_op, MPI_COMM_WORLD); \
- if (rc) { lerrcnt++; SMPI_VARGET_GLOBAL(cerrcnt)++; MTestPrintError( rc ); } \
+ rc = MPI_Allreduce(in, out, count, mpi_type, mpi_op, MPI_COMM_WORLD); \
+ if (rc) { lerrcnt++; cerrcnt++; MTestPrintError(rc); } \
else { \
- for (i = 0; i < SMPI_VARGET_GLOBAL(count); i++) { \
+ for (i = 0; i < count; i++) { \
if (out[i] != sol[i]) { \
- SMPI_VARGET_GLOBAL(cerrcnt)++; \
+ cerrcnt++; \
lerrcnt++; \
} \
} \
#define STRUCT_ALLREDUCE_AND_FREE(mpi_type, mpi_op, in, out, sol) \
{ \
int i, rc, lerrcnt = 0; \
- rc = MPI_Allreduce(in, out, SMPI_VARGET_GLOBAL(count), mpi_type, mpi_op, MPI_COMM_WORLD); \
- if (rc) { lerrcnt++; SMPI_VARGET_GLOBAL(cerrcnt)++; MTestPrintError( rc ); } \
+ rc = MPI_Allreduce(in, out, count, mpi_type, mpi_op, MPI_COMM_WORLD); \
+ if (rc) { lerrcnt++; cerrcnt++; MTestPrintError(rc); } \
else { \
- for (i = 0; i < SMPI_VARGET_GLOBAL(count); i++) { \
+ for (i = 0; i < count; i++) { \
if ((out[i].a != sol[i].a) || (out[i].b != sol[i].b)) { \
- SMPI_VARGET_GLOBAL(cerrcnt)++; \
+ cerrcnt++; \
lerrcnt++; \
} \
} \
#define SET_INDEX_STRUCT_CONST(arr, val, el) \
{ \
int i; \
- for (i = 0; i < SMPI_VARGET_GLOBAL(count); i++) \
+ for (i = 0; i < count; i++) \
arr[i].el = val; \
}
#define SET_INDEX_STRUCT_SUM(arr, val, el) \
{ \
int i; \
- for (i = 0; i < SMPI_VARGET_GLOBAL(count); i++) \
+ for (i = 0; i < count; i++) \
arr[i].el = i + (val); \
}
{ \
DECL_MALLOC_IN_OUT_SOL(type); \
SET_INDEX_SUM(in, 0); \
- SET_INDEX_FACTOR(sol, SMPI_VARGET_GLOBAL(size)); \
+ SET_INDEX_FACTOR(sol, size); \
SET_INDEX_CONST(out, 0); \
ALLREDUCE_AND_FREE(mpi_type, MPI_SUM, in, out, sol); \
}
{ \
DECL_MALLOC_IN_OUT_SOL(type); \
SET_INDEX_SUM(in, 0); \
- SET_INDEX_POWER(sol, SMPI_VARGET_GLOBAL(size)); \
+ SET_INDEX_POWER(sol, size); \
SET_INDEX_CONST(out, 0); \
ALLREDUCE_AND_FREE(mpi_type, MPI_PROD, in, out, sol); \
}
#define max_test1(type, mpi_type) \
{ \
DECL_MALLOC_IN_OUT_SOL(type); \
- SET_INDEX_SUM(in, SMPI_VARGET_GLOBAL(rank)); \
- SET_INDEX_SUM(sol, SMPI_VARGET_GLOBAL(size) - 1); \
+ SET_INDEX_SUM(in, rank); \
+ SET_INDEX_SUM(sol, size - 1); \
SET_INDEX_CONST(out, 0); \
ALLREDUCE_AND_FREE(mpi_type, MPI_MAX, in, out, sol); \
}
#define min_test1(type, mpi_type) \
{ \
DECL_MALLOC_IN_OUT_SOL(type); \
- SET_INDEX_SUM(in, SMPI_VARGET_GLOBAL(rank)); \
+ SET_INDEX_SUM(in, rank); \
SET_INDEX_SUM(sol, 0); \
SET_INDEX_CONST(out, 0); \
ALLREDUCE_AND_FREE(mpi_type, MPI_MIN, in, out, sol); \
}
#define lor_test1(type, mpi_type) \
- const_test(type, mpi_type, MPI_LOR, (SMPI_VARGET_GLOBAL(rank) & 0x1), (SMPI_VARGET_GLOBAL(size) > 1), 0)
+ const_test(type, mpi_type, MPI_LOR, (rank & 0x1), (size > 1), 0)
#define lor_test2(type, mpi_type) \
const_test(type, mpi_type, MPI_LOR, 0, 0, 0)
#define lxor_test1(type, mpi_type) \
- const_test(type, mpi_type, MPI_LXOR, (SMPI_VARGET_GLOBAL(rank) == 1), (SMPI_VARGET_GLOBAL(size) > 1), 0)
+ const_test(type, mpi_type, MPI_LXOR, (rank == 1), (size > 1), 0)
#define lxor_test2(type, mpi_type) \
const_test(type, mpi_type, MPI_LXOR, 0, 0, 0)
#define lxor_test3(type, mpi_type) \
- const_test(type, mpi_type, MPI_LXOR, 1, (SMPI_VARGET_GLOBAL(size) & 0x1), 0)
+ const_test(type, mpi_type, MPI_LXOR, 1, (size & 0x1), 0)
#define land_test1(type, mpi_type) \
- const_test(type, mpi_type, MPI_LAND, (SMPI_VARGET_GLOBAL(rank) & 0x1), 0, 0)
+ const_test(type, mpi_type, MPI_LAND, (rank & 0x1), 0, 0)
#define land_test2(type, mpi_type) \
const_test(type, mpi_type, MPI_LAND, 1, 1, 0)
#define bor_test1(type, mpi_type) \
- const_test(type, mpi_type, MPI_BOR, (SMPI_VARGET_GLOBAL(rank) & 0x3), ((SMPI_VARGET_GLOBAL(size) < 3) ? SMPI_VARGET_GLOBAL(size) - 1 : 0x3), 0)
+ const_test(type, mpi_type, MPI_BOR, (rank & 0x3), ((size < 3) ? size - 1 : 0x3), 0)
#define bxor_test1(type, mpi_type) \
- const_test(type, mpi_type, MPI_BXOR, (SMPI_VARGET_GLOBAL(rank) == 1) * 0xf0, (SMPI_VARGET_GLOBAL(size) > 1) * 0xf0, 0)
+ const_test(type, mpi_type, MPI_BXOR, (rank == 1) * 0xf0, (size > 1) * 0xf0, 0)
#define bxor_test2(type, mpi_type) \
const_test(type, mpi_type, MPI_BXOR, 0, 0, 0)
#define bxor_test3(type, mpi_type) \
- const_test(type, mpi_type, MPI_BXOR, ~0, (SMPI_VARGET_GLOBAL(size) &0x1) ? ~0 : 0, 0)
+ const_test(type, mpi_type, MPI_BXOR, ~0, (size &0x1) ? ~0 : 0, 0)
#define band_test1(type, mpi_type) \
{ \
DECL_MALLOC_IN_OUT_SOL(type); \
- if (SMPI_VARGET_GLOBAL(rank) == SMPI_VARGET_GLOBAL(size)-1) { \
+ if (rank == size-1) { \
SET_INDEX_SUM(in, 0); \
} \
else { \
#define band_test2(type, mpi_type) \
{ \
DECL_MALLOC_IN_OUT_SOL(type); \
- if (SMPI_VARGET_GLOBAL(rank) == SMPI_VARGET_GLOBAL(size)-1) { \
+ if (rank == size-1) { \
SET_INDEX_SUM(in, 0); \
} \
else { \
#define maxloc_test(type, mpi_type) \
{ \
DECL_MALLOC_IN_OUT_SOL(type); \
- SET_INDEX_STRUCT_SUM(in, SMPI_VARGET_GLOBAL(rank), a); \
- SET_INDEX_STRUCT_CONST(in, SMPI_VARGET_GLOBAL(rank), b); \
- SET_INDEX_STRUCT_SUM(sol, SMPI_VARGET_GLOBAL(size) - 1, a); \
- SET_INDEX_STRUCT_CONST(sol, SMPI_VARGET_GLOBAL(size) - 1, b); \
+ SET_INDEX_STRUCT_SUM(in, rank, a); \
+ SET_INDEX_STRUCT_CONST(in, rank, b); \
+ SET_INDEX_STRUCT_SUM(sol, size - 1, a); \
+ SET_INDEX_STRUCT_CONST(sol, size - 1, b); \
SET_INDEX_STRUCT_CONST(out, 0, a); \
SET_INDEX_STRUCT_CONST(out, -1, b); \
STRUCT_ALLREDUCE_AND_FREE(mpi_type, MPI_MAXLOC, in, out, sol); \
#define minloc_test(type, mpi_type) \
{ \
DECL_MALLOC_IN_OUT_SOL(type); \
- SET_INDEX_STRUCT_SUM(in, SMPI_VARGET_GLOBAL(rank), a); \
- SET_INDEX_STRUCT_CONST(in, SMPI_VARGET_GLOBAL(rank), b); \
+ SET_INDEX_STRUCT_SUM(in, rank, a); \
+ SET_INDEX_STRUCT_CONST(in, rank, b); \
SET_INDEX_STRUCT_SUM(sol, 0, a); \
SET_INDEX_STRUCT_CONST(sol, 0, b); \
SET_INDEX_STRUCT_CONST(out, 0, a); \
#if MTEST_HAVE_MIN_MPI_VERSION(3,0)
#define test_types_set_mpi_3_0_integer(op,post) do { \
- op##_test##post(MPI_SMPI_VARGET_GLOBAL(count), MPI_SMPI_VARGET_GLOBAL(count)); \
+ op##_test##post(MPI_Count, MPI_COUNT); \
} while (0)
#else
#define test_types_set_mpi_3_0_integer(op,post) do { } while (0)
op##_test##post(unsigned char, MPI_BYTE); \
}
-/* Make sure that we test complex and double complex, even if long
+/* Make sure that we test complex and double complex, even if long
double complex is not available */
#if defined(USE_LONG_DOUBLE_COMPLEX)
#else
#if MTEST_HAVE_MIN_MPI_VERSION(2,2) && defined(HAVE_FLOAT__COMPLEX) \
- && defined(HAVE_DOUBLE__COMPLEX)
+ && defined(HAVE_DOUBLE__COMPLEX)
#define test_types_set4(op, post) \
do { \
op##_test##post(float _Complex, MPI_C_FLOAT_COMPLEX); \
#define test_types_set5(op, post) do { } while (0)
#endif
-int main( int argc, char **argv )
+int main(int argc, char **argv)
{
- MTest_Init( &argc, &argv );
+ MTest_Init(&argc, &argv);
- MPI_Comm_size(MPI_COMM_WORLD, &SMPI_VARGET_GLOBAL(size));
- MPI_Comm_rank(MPI_COMM_WORLD, &SMPI_VARGET_GLOBAL(rank));
+ MPI_Comm_size(MPI_COMM_WORLD, &size);
+ MPI_Comm_rank(MPI_COMM_WORLD, &rank);
- if (SMPI_VARGET_GLOBAL(size) < 2) {
- fprintf( stderr, "At least 2 processes required\n" );
- MPI_Abort( MPI_COMM_WORLD, 1 );
- exit(1);
+ if (size < 2) {
+ fprintf(stderr, "At least 2 processes required\n");
+ MPI_Abort(MPI_COMM_WORLD, 1);
}
- /* Set errors return so that we can provide better information
- should a routine reject one of the operand/datatype pairs */
- MPI_Errhandler_set( MPI_COMM_WORLD, MPI_ERRORS_RETURN );
+ /* Set errors return so that we can provide better information
+ * should a routine reject one of the operand/datatype pairs */
+ MPI_Errhandler_set(MPI_COMM_WORLD, MPI_ERRORS_RETURN);
- SMPI_VARGET_GLOBAL(count) = 10;
+ count = 10;
/* Allow an argument to override the count.
- Note that the product tests may fail if the count is very large.
+ * Note that the product tests may fail if the count is very large.
*/
if (argc >= 2) {
- SMPI_VARGET_GLOBAL(count) = atoi( argv[1] );
- if (SMPI_VARGET_GLOBAL(count) <= 0) {
- fprintf( stderr, "Invalid count argument %s\n", argv[1] );
- MPI_Abort( MPI_COMM_WORLD, 1 );
- exit(1);
- }
+ count = atoi(argv[1]);
+ if (count <= 0) {
+ fprintf(stderr, "Invalid count argument %s\n", argv[1]);
+ MPI_Abort(MPI_COMM_WORLD, 1);
+ }
}
test_types_set2(sum, 1);
minloc_test(struct float_test, MPI_FLOAT_INT);
minloc_test(struct double_test, MPI_DOUBLE_INT);
- MPI_Errhandler_set( MPI_COMM_WORLD, MPI_ERRORS_ARE_FATAL );
- MTest_Finalize( SMPI_VARGET_GLOBAL(cerrcnt) );
+ MPI_Errhandler_set(MPI_COMM_WORLD, MPI_ERRORS_ARE_FATAL);
+ MTest_Finalize(cerrcnt);
MPI_Finalize();
return 0;
}