*/
#include "mpi.h"
#include "mpitestconf.h"
-#ifdef HAVE_UNISTD_H
+#if HAVE_UNISTD_H
#include <unistd.h>
#endif
#include <stdio.h>
{
int err, errs = 0;
- MPI_Init(&argc, &argv); /* MPI-1.2 doesn't allow for MPI_Init(0,0) */
+ MPI_Init(&argc, &argv); /* MPI-1.2 doesn't allow for MPI_Init(0,0) */
parse_args(argc, argv);
/* To improve reporting of problems about operations, we
- change the error handler to errors return */
- MPI_Comm_set_errhandler( MPI_COMM_WORLD, MPI_ERRORS_RETURN );
+ * change the error handler to errors return */
+ MPI_Comm_set_errhandler(MPI_COMM_WORLD, MPI_ERRORS_RETURN);
/* perform some tests */
err = builtin_float_test();
errs += err;
if (err) {
- fprintf(stderr, "Found %d errors in builtin float test.\n", err);
+ fprintf(stderr, "Found %d errors in builtin float test.\n", err);
}
err = vector_of_vectors_test();
errs += err;
if (err) {
- fprintf(stderr, "Found %d errors in vector of vectors test.\n", err);
+ fprintf(stderr, "Found %d errors in vector of vectors test.\n", err);
}
err = optimizable_vector_of_basics_test();
errs += err;
if (err) {
- fprintf(stderr, "Found %d errors in vector of basics test.\n", err);
+ fprintf(stderr, "Found %d errors in vector of basics test.\n", err);
}
err = indexed_of_basics_test();
errs += err;
if (err) {
- fprintf(stderr, "Found %d errors in indexed of basics test.\n", err);
+ fprintf(stderr, "Found %d errors in indexed of basics test.\n", err);
}
err = indexed_of_vectors_test();
errs += err;
if (err) {
- fprintf(stderr, "Found %d errors in indexed of vectors test.\n", err);
+ fprintf(stderr, "Found %d errors in indexed of vectors test.\n", err);
}
#ifdef HAVE_MPI_TYPE_CREATE_STRUCT
/* print message and exit */
if (errs) {
- fprintf(stderr, "Found %d errors\n", errs);
+ fprintf(stderr, "Found %d errors\n", errs);
}
else {
- printf(" No Errors\n");
+ printf(" No Errors\n");
}
MPI_Finalize();
return 0;
{
int nints, nadds, ntypes, combiner;
- int /* err, */ errs = 0;
+ int err, errs = 0;
+
+ err = MPI_Type_get_envelope(MPI_FLOAT, &nints, &nadds, &ntypes, &combiner);
- /* err = */ MPI_Type_get_envelope(MPI_FLOAT,
- &nints,
- &nadds,
- &ntypes,
- &combiner);
-
- if (combiner != MPI_COMBINER_NAMED) errs++;
+ if (combiner != MPI_COMBINER_NAMED || err != MPI_SUCCESS)
+ errs++;
if (verbose && combiner != MPI_COMBINER_NAMED)
- fprintf(stderr, "combiner = %s; should be named\n",
- combiner_to_string(combiner));
+ fprintf(stderr, "combiner = %s; should be named\n", combiner_to_string(combiner));
/* Note: it is erroneous to call MPI_Type_get_contents() on a basic. */
return errs;
/* vector_of_vectors_test()
*
- * Builds a vector of a vector of ints. Assuming an int array of size 9
- * integers, and treating the array as a 3x3 2D array, this will grab the
+ * Builds a vector of a vector of ints. Assuming an int array of size 9
+ * integers, and treating the array as a 3x3 2D array, this will grab the
* corners.
*
* Returns the number of errors encountered.
int err, errs = 0;
/* set up type */
- err = MPI_Type_vector(2,
- 1,
- 2,
- MPI_INT,
- &inner_vector);
+ err = MPI_Type_vector(2, 1, 2, MPI_INT, &inner_vector);
if (err != MPI_SUCCESS) {
- if (verbose) fprintf(stderr,
- "error in MPI call; aborting after %d errors\n",
- errs+1);
- return errs+1;
+ if (verbose)
+ fprintf(stderr, "error in MPI call; aborting after %d errors\n", errs + 1);
+ return errs + 1;
}
- err = MPI_Type_vector(2,
- 1,
- 2,
- inner_vector,
- &outer_vector);
+ err = MPI_Type_vector(2, 1, 2, inner_vector, &outer_vector);
if (err != MPI_SUCCESS) {
- if (verbose) fprintf(stderr,
- "error in MPI call; aborting after %d errors\n",
- errs+1);
- return errs+1;
+ if (verbose)
+ fprintf(stderr, "error in MPI call; aborting after %d errors\n", errs + 1);
+ return errs + 1;
}
/* decode outer vector (get envelope, then contents) */
- err = MPI_Type_get_envelope(outer_vector,
- &nints,
- &nadds,
- &ntypes,
- &combiner);
+ err = MPI_Type_get_envelope(outer_vector, &nints, &nadds, &ntypes, &combiner);
if (err != MPI_SUCCESS) {
- if (verbose) fprintf(stderr,
- "error in MPI call; aborting after %d errors\n",
- errs+1);
- return errs+1;
+ if (verbose)
+ fprintf(stderr, "error in MPI call; aborting after %d errors\n", errs + 1);
+ return errs + 1;
}
- if (nints != 3) errs++;
- if (nadds != 0) errs++;
- if (ntypes != 1) errs++;
- if (combiner != MPI_COMBINER_VECTOR) errs++;
+ if (nints != 3)
+ errs++;
+ if (nadds != 0)
+ errs++;
+ if (ntypes != 1)
+ errs++;
+ if (combiner != MPI_COMBINER_VECTOR)
+ errs++;
if (verbose) {
- if (nints != 3) fprintf(stderr,
- "outer vector nints = %d; should be 3\n",
- nints);
- if (nadds != 0) fprintf(stderr,
- "outer vector nadds = %d; should be 0\n",
- nadds);
- if (ntypes != 1) fprintf(stderr,
- "outer vector ntypes = %d; should be 1\n",
- ntypes);
- if (combiner != MPI_COMBINER_VECTOR)
- fprintf(stderr, "outer vector combiner = %s; should be vector\n",
- combiner_to_string(combiner));
+ if (nints != 3)
+ fprintf(stderr, "outer vector nints = %d; should be 3\n", nints);
+ if (nadds != 0)
+ fprintf(stderr, "outer vector nadds = %d; should be 0\n", nadds);
+ if (ntypes != 1)
+ fprintf(stderr, "outer vector ntypes = %d; should be 1\n", ntypes);
+ if (combiner != MPI_COMBINER_VECTOR)
+ fprintf(stderr, "outer vector combiner = %s; should be vector\n",
+ combiner_to_string(combiner));
}
if (errs) {
- if (verbose) fprintf(stderr, "aborting after %d errors\n", errs);
- return errs;
+ if (verbose)
+ fprintf(stderr, "aborting after %d errors\n", errs);
+ return errs;
}
ints = malloc(nints * sizeof(*ints));
- if (nadds) adds = malloc(nadds * sizeof(*adds));
+ if (nadds)
+ adds = malloc(nadds * sizeof(*adds));
types = malloc(ntypes * sizeof(*types));
/* get contents of outer vector */
- err = MPI_Type_get_contents(outer_vector,
- nints,
- nadds,
- ntypes,
- ints,
- adds,
- types);
-
- if (ints[0] != 2) errs++;
- if (ints[1] != 1) errs++;
- if (ints[2] != 2) errs++;
+ err = MPI_Type_get_contents(outer_vector, nints, nadds, ntypes, ints, adds, types);
+
+ if (ints[0] != 2)
+ errs++;
+ if (ints[1] != 1)
+ errs++;
+ if (ints[2] != 2)
+ errs++;
if (verbose) {
- if (ints[0] != 2) fprintf(stderr,
- "outer vector count = %d; should be 2\n",
- ints[0]);
- if (ints[1] != 1) fprintf(stderr,
- "outer vector blocklength = %d; should be 1\n",
- ints[1]);
- if (ints[2] != 2) fprintf(stderr, "outer vector stride = %d; should be 2\n",
- ints[2]);
+ if (ints[0] != 2)
+ fprintf(stderr, "outer vector count = %d; should be 2\n", ints[0]);
+ if (ints[1] != 1)
+ fprintf(stderr, "outer vector blocklength = %d; should be 1\n", ints[1]);
+ if (ints[2] != 2)
+ fprintf(stderr, "outer vector stride = %d; should be 2\n", ints[2]);
}
if (errs) {
- if (verbose) fprintf(stderr, "aborting after %d errors\n", errs);
- return errs;
+ if (verbose)
+ fprintf(stderr, "aborting after %d errors\n", errs);
+ return errs;
}
inner_vector_copy = types[0];
free(ints);
- if (nadds) free(adds);
+ if (nadds)
+ free(adds);
free(types);
/* decode inner vector */
- err = MPI_Type_get_envelope(inner_vector_copy,
- &nints,
- &nadds,
- &ntypes,
- &combiner);
+ err = MPI_Type_get_envelope(inner_vector_copy, &nints, &nadds, &ntypes, &combiner);
if (err != MPI_SUCCESS) {
- if (verbose) fprintf(stderr,
- "error in MPI call; aborting after %d errors\n",
- errs+1);
- return errs+1;
+ if (verbose)
+ fprintf(stderr, "error in MPI call; aborting after %d errors\n", errs + 1);
+ return errs + 1;
}
- if (nints != 3) errs++;
- if (nadds != 0) errs++;
- if (ntypes != 1) errs++;
- if (combiner != MPI_COMBINER_VECTOR) errs++;
+ if (nints != 3)
+ errs++;
+ if (nadds != 0)
+ errs++;
+ if (ntypes != 1)
+ errs++;
+ if (combiner != MPI_COMBINER_VECTOR)
+ errs++;
if (verbose) {
- if (nints != 3) fprintf(stderr,
- "inner vector nints = %d; should be 3\n",
- nints);
- if (nadds != 0) fprintf(stderr,
- "inner vector nadds = %d; should be 0\n",
- nadds);
- if (ntypes != 1) fprintf(stderr,
- "inner vector ntypes = %d; should be 1\n",
- ntypes);
- if (combiner != MPI_COMBINER_VECTOR)
- fprintf(stderr, "inner vector combiner = %s; should be vector\n",
- combiner_to_string(combiner));
+ if (nints != 3)
+ fprintf(stderr, "inner vector nints = %d; should be 3\n", nints);
+ if (nadds != 0)
+ fprintf(stderr, "inner vector nadds = %d; should be 0\n", nadds);
+ if (ntypes != 1)
+ fprintf(stderr, "inner vector ntypes = %d; should be 1\n", ntypes);
+ if (combiner != MPI_COMBINER_VECTOR)
+ fprintf(stderr, "inner vector combiner = %s; should be vector\n",
+ combiner_to_string(combiner));
}
if (errs) {
- if (verbose) fprintf(stderr, "aborting after %d errors\n", errs);
- return errs;
+ if (verbose)
+ fprintf(stderr, "aborting after %d errors\n", errs);
+ return errs;
}
ints = malloc(nints * sizeof(*ints));
- if (nadds) adds = malloc(nadds * sizeof(*adds));
+ if (nadds)
+ adds = malloc(nadds * sizeof(*adds));
types = malloc(ntypes * sizeof(*types));
- err = MPI_Type_get_contents(inner_vector_copy,
- nints,
- nadds,
- ntypes,
- ints,
- adds,
- types);
+ err = MPI_Type_get_contents(inner_vector_copy, nints, nadds, ntypes, ints, adds, types);
- if (ints[0] != 2) errs++;
- if (ints[1] != 1) errs++;
- if (ints[2] != 2) errs++;
+ if (ints[0] != 2)
+ errs++;
+ if (ints[1] != 1)
+ errs++;
+ if (ints[2] != 2)
+ errs++;
if (verbose) {
- if (ints[0] != 2) fprintf(stderr,
- "inner vector count = %d; should be 2\n",
- ints[0]);
- if (ints[1] != 1) fprintf(stderr,
- "inner vector blocklength = %d; should be 1\n",
- ints[1]);
- if (ints[2] != 2) fprintf(stderr,
- "inner vector stride = %d; should be 2\n",
- ints[2]);
+ if (ints[0] != 2)
+ fprintf(stderr, "inner vector count = %d; should be 2\n", ints[0]);
+ if (ints[1] != 1)
+ fprintf(stderr, "inner vector blocklength = %d; should be 1\n", ints[1]);
+ if (ints[2] != 2)
+ fprintf(stderr, "inner vector stride = %d; should be 2\n", ints[2]);
}
if (errs) {
- if (verbose) fprintf(stderr, "aborting after %d errors\n", errs);
- return errs;
+ if (verbose)
+ fprintf(stderr, "aborting after %d errors\n", errs);
+ return errs;
}
free(ints);
- if (nadds) free(adds);
+ if (nadds)
+ free(adds);
free(types);
- MPI_Type_free( &inner_vector_copy );
- MPI_Type_free( &inner_vector );
- MPI_Type_free( &outer_vector );
+ MPI_Type_free(&inner_vector_copy);
+ MPI_Type_free(&inner_vector);
+ MPI_Type_free(&outer_vector);
return 0;
}
MPI_Aint *adds = NULL;
MPI_Datatype *types;
- int /* err, */ errs = 0;
+ int err, errs = 0;
/* set up type */
- /* err = */ MPI_Type_vector(10,
- 2,
- 2,
- MPI_INT,
- &parent_type);
+ err = MPI_Type_vector(10, 2, 2, MPI_INT, &parent_type);
/* decode */
- /* err = */ MPI_Type_get_envelope(parent_type,
- &nints,
- &nadds,
- &ntypes,
- &combiner);
+ err = MPI_Type_get_envelope(parent_type, &nints, &nadds, &ntypes, &combiner);
- if (nints != 3) errs++;
- if (nadds != 0) errs++;
- if (ntypes != 1) errs++;
- if (combiner != MPI_COMBINER_VECTOR) errs++;
+ if (nints != 3 || err != MPI_SUCCESS)
+ errs++;
+ if (nadds != 0)
+ errs++;
+ if (ntypes != 1)
+ errs++;
+ if (combiner != MPI_COMBINER_VECTOR)
+ errs++;
if (verbose) {
- if (nints != 3) fprintf(stderr, "nints = %d; should be 3\n", nints);
- if (nadds != 0) fprintf(stderr, "nadds = %d; should be 0\n", nadds);
- if (ntypes != 1) fprintf(stderr, "ntypes = %d; should be 1\n", ntypes);
- if (combiner != MPI_COMBINER_VECTOR)
- fprintf(stderr, "combiner = %s; should be vector\n",
- combiner_to_string(combiner));
+ if (nints != 3)
+ fprintf(stderr, "nints = %d; should be 3\n", nints);
+ if (nadds != 0)
+ fprintf(stderr, "nadds = %d; should be 0\n", nadds);
+ if (ntypes != 1)
+ fprintf(stderr, "ntypes = %d; should be 1\n", ntypes);
+ if (combiner != MPI_COMBINER_VECTOR)
+ fprintf(stderr, "combiner = %s; should be vector\n", combiner_to_string(combiner));
}
ints = malloc(nints * sizeof(*ints));
- if (nadds) adds = malloc(nadds * sizeof(*adds));
- types = malloc(ntypes *sizeof(*types));
-
- /* err = */ MPI_Type_get_contents(parent_type,
- nints,
- nadds,
- ntypes,
- ints,
- adds,
- types);
-
- if (ints[0] != 10) errs++;
- if (ints[1] != 2) errs++;
- if (ints[2] != 2) errs++;
- if (types[0] != MPI_INT) errs++;
+ if (nadds)
+ adds = malloc(nadds * sizeof(*adds));
+ types = malloc(ntypes * sizeof(*types));
+
+ err = MPI_Type_get_contents(parent_type, nints, nadds, ntypes, ints, adds, types);
+
+ if (ints[0] != 10)
+ errs++;
+ if (ints[1] != 2)
+ errs++;
+ if (ints[2] != 2)
+ errs++;
+ if (types[0] != MPI_INT)
+ errs++;
if (verbose) {
- if (ints[0] != 10) fprintf(stderr, "count = %d; should be 10\n",
- ints[0]);
- if (ints[1] != 2) fprintf(stderr, "blocklength = %d; should be 2\n",
- ints[1]);
- if (ints[2] != 2) fprintf(stderr, "stride = %d; should be 2\n",
- ints[2]);
- if (types[0] != MPI_INT) fprintf(stderr, "type is not MPI_INT\n");
+ if (ints[0] != 10)
+ fprintf(stderr, "count = %d; should be 10\n", ints[0]);
+ if (ints[1] != 2)
+ fprintf(stderr, "blocklength = %d; should be 2\n", ints[1]);
+ if (ints[2] != 2)
+ fprintf(stderr, "stride = %d; should be 2\n", ints[2]);
+ if (types[0] != MPI_INT)
+ fprintf(stderr, "type is not MPI_INT\n");
}
free(ints);
- if (nadds) free(adds);
+ if (nadds)
+ free(adds);
free(types);
- MPI_Type_free( &parent_type );
+ MPI_Type_free(&parent_type);
return errs;
}
MPI_Aint *adds = NULL;
MPI_Datatype *types;
- int /* err, */ errs = 0;
+ int err, errs = 0;
/* set up type */
- /* err = */ MPI_Type_indexed(s_count,
- s_blocklengths,
- s_displacements,
- MPI_INT,
- &parent_type);
+ err = MPI_Type_indexed(s_count, s_blocklengths, s_displacements, MPI_INT, &parent_type);
/* decode */
- /* err = */ MPI_Type_get_envelope(parent_type,
- &nints,
- &nadds,
- &ntypes,
- &combiner);
+ err = MPI_Type_get_envelope(parent_type, &nints, &nadds, &ntypes, &combiner);
- if (nints != 7) errs++;
- if (nadds != 0) errs++;
- if (ntypes != 1) errs++;
- if (combiner != MPI_COMBINER_INDEXED) errs++;
+ if (nints != 7 || err != MPI_SUCCESS)
+ errs++;
+ if (nadds != 0)
+ errs++;
+ if (ntypes != 1)
+ errs++;
+ if (combiner != MPI_COMBINER_INDEXED)
+ errs++;
if (verbose) {
- if (nints != 7) fprintf(stderr, "nints = %d; should be 7\n", nints);
- if (nadds != 0) fprintf(stderr, "nadds = %d; should be 0\n", nadds);
- if (ntypes != 1) fprintf(stderr, "ntypes = %d; should be 1\n", ntypes);
- if (combiner != MPI_COMBINER_INDEXED)
- fprintf(stderr, "combiner = %s; should be indexed\n",
- combiner_to_string(combiner));
+ if (nints != 7)
+ fprintf(stderr, "nints = %d; should be 7\n", nints);
+ if (nadds != 0)
+ fprintf(stderr, "nadds = %d; should be 0\n", nadds);
+ if (ntypes != 1)
+ fprintf(stderr, "ntypes = %d; should be 1\n", ntypes);
+ if (combiner != MPI_COMBINER_INDEXED)
+ fprintf(stderr, "combiner = %s; should be indexed\n", combiner_to_string(combiner));
}
ints = malloc(nints * sizeof(*ints));
- if (nadds) adds = malloc(nadds * sizeof(*adds));
- types = malloc(ntypes *sizeof(*types));
-
- /* err = */ MPI_Type_get_contents(parent_type,
- nints,
- nadds,
- ntypes,
- ints,
- adds,
- types);
-
- if (ints[0] != s_count) errs++;
- if (ints[1] != s_blocklengths[0]) errs++;
- if (ints[2] != s_blocklengths[1]) errs++;
- if (ints[3] != s_blocklengths[2]) errs++;
- if (ints[4] != s_displacements[0]) errs++;
- if (ints[5] != s_displacements[1]) errs++;
- if (ints[6] != s_displacements[2]) errs++;
- if (types[0] != MPI_INT) errs++;
+ if (nadds)
+ adds = malloc(nadds * sizeof(*adds));
+ types = malloc(ntypes * sizeof(*types));
+
+ err = MPI_Type_get_contents(parent_type, nints, nadds, ntypes, ints, adds, types);
+
+ if (ints[0] != s_count)
+ errs++;
+ if (ints[1] != s_blocklengths[0])
+ errs++;
+ if (ints[2] != s_blocklengths[1])
+ errs++;
+ if (ints[3] != s_blocklengths[2])
+ errs++;
+ if (ints[4] != s_displacements[0])
+ errs++;
+ if (ints[5] != s_displacements[1])
+ errs++;
+ if (ints[6] != s_displacements[2])
+ errs++;
+ if (types[0] != MPI_INT)
+ errs++;
if (verbose) {
- if (ints[0] != s_count)
- fprintf(stderr, "count = %d; should be %d\n", ints[0], s_count);
- if (ints[1] != s_blocklengths[0])
- fprintf(stderr, "blocklength[0] = %d; should be %d\n", ints[1], s_blocklengths[0]);
- if (ints[2] != s_blocklengths[1])
- fprintf(stderr, "blocklength[1] = %d; should be %d\n", ints[2], s_blocklengths[1]);
- if (ints[3] != s_blocklengths[2])
- fprintf(stderr, "blocklength[2] = %d; should be %d\n", ints[3], s_blocklengths[2]);
- if (ints[4] != s_displacements[0])
- fprintf(stderr, "displacement[0] = %d; should be %d\n", ints[4], s_displacements[0]);
- if (ints[5] != s_displacements[1])
- fprintf(stderr, "displacement[1] = %d; should be %d\n", ints[5], s_displacements[1]);
- if (ints[6] != s_displacements[2])
- fprintf(stderr, "displacement[2] = %d; should be %d\n", ints[6], s_displacements[2]);
- if (types[0] != MPI_INT) fprintf(stderr, "type[0] does not match\n");
+ if (ints[0] != s_count)
+ fprintf(stderr, "count = %d; should be %d\n", ints[0], s_count);
+ if (ints[1] != s_blocklengths[0])
+ fprintf(stderr, "blocklength[0] = %d; should be %d\n", ints[1], s_blocklengths[0]);
+ if (ints[2] != s_blocklengths[1])
+ fprintf(stderr, "blocklength[1] = %d; should be %d\n", ints[2], s_blocklengths[1]);
+ if (ints[3] != s_blocklengths[2])
+ fprintf(stderr, "blocklength[2] = %d; should be %d\n", ints[3], s_blocklengths[2]);
+ if (ints[4] != s_displacements[0])
+ fprintf(stderr, "displacement[0] = %d; should be %d\n", ints[4], s_displacements[0]);
+ if (ints[5] != s_displacements[1])
+ fprintf(stderr, "displacement[1] = %d; should be %d\n", ints[5], s_displacements[1]);
+ if (ints[6] != s_displacements[2])
+ fprintf(stderr, "displacement[2] = %d; should be %d\n", ints[6], s_displacements[2]);
+ if (types[0] != MPI_INT)
+ fprintf(stderr, "type[0] does not match\n");
}
free(ints);
- if (nadds) free(adds);
+ if (nadds)
+ free(adds);
free(types);
- MPI_Type_free( &parent_type );
+ MPI_Type_free(&parent_type);
return errs;
}
{
MPI_Datatype inner_vector, inner_vector_copy;
MPI_Datatype outer_indexed;
-
+
int i_count = 3, i_blocklengths[3] = { 3, 2, 1 };
int i_displacements[3] = { 10, 20, 30 };
int err, errs = 0;
/* set up type */
- err = MPI_Type_vector(2,
- 1,
- 2,
- MPI_INT,
- &inner_vector);
+ err = MPI_Type_vector(2, 1, 2, MPI_INT, &inner_vector);
if (err != MPI_SUCCESS) {
- if (verbose) fprintf(stderr,
- "error in MPI call; aborting after %d errors\n",
- errs+1);
- return errs+1;
+ if (verbose)
+ fprintf(stderr, "error in MPI call; aborting after %d errors\n", errs + 1);
+ return errs + 1;
}
- err = MPI_Type_indexed(i_count,
- i_blocklengths,
- i_displacements,
- inner_vector,
- &outer_indexed);
+ err = MPI_Type_indexed(i_count, i_blocklengths, i_displacements, inner_vector, &outer_indexed);
if (err != MPI_SUCCESS) {
- if (verbose) fprintf(stderr,
- "error in MPI call; aborting after %d errors\n",
- errs+1);
- return errs+1;
+ if (verbose)
+ fprintf(stderr, "error in MPI call; aborting after %d errors\n", errs + 1);
+ return errs + 1;
}
/* decode outer vector (get envelope, then contents) */
- err = MPI_Type_get_envelope(outer_indexed,
- &nints,
- &nadds,
- &ntypes,
- &combiner);
+ err = MPI_Type_get_envelope(outer_indexed, &nints, &nadds, &ntypes, &combiner);
if (err != MPI_SUCCESS) {
- if (verbose) fprintf(stderr,
- "error in MPI call; aborting after %d errors\n",
- errs+1);
- return errs+1;
+ if (verbose)
+ fprintf(stderr, "error in MPI call; aborting after %d errors\n", errs + 1);
+ return errs + 1;
}
- if (nints != 7) errs++;
- if (nadds != 0) errs++;
- if (ntypes != 1) errs++;
- if (combiner != MPI_COMBINER_INDEXED) errs++;
+ if (nints != 7)
+ errs++;
+ if (nadds != 0)
+ errs++;
+ if (ntypes != 1)
+ errs++;
+ if (combiner != MPI_COMBINER_INDEXED)
+ errs++;
if (verbose) {
- if (nints != 7) fprintf(stderr, "nints = %d; should be 7\n", nints);
- if (nadds != 0) fprintf(stderr, "nadds = %d; should be 0\n", nadds);
- if (ntypes != 1) fprintf(stderr, "ntypes = %d; should be 1\n", ntypes);
- if (combiner != MPI_COMBINER_INDEXED)
- fprintf(stderr, "combiner = %s; should be indexed\n",
- combiner_to_string(combiner));
+ if (nints != 7)
+ fprintf(stderr, "nints = %d; should be 7\n", nints);
+ if (nadds != 0)
+ fprintf(stderr, "nadds = %d; should be 0\n", nadds);
+ if (ntypes != 1)
+ fprintf(stderr, "ntypes = %d; should be 1\n", ntypes);
+ if (combiner != MPI_COMBINER_INDEXED)
+ fprintf(stderr, "combiner = %s; should be indexed\n", combiner_to_string(combiner));
}
if (errs) {
- if (verbose) fprintf(stderr, "aborting after %d errors\n", errs);
- return errs;
+ if (verbose)
+ fprintf(stderr, "aborting after %d errors\n", errs);
+ return errs;
}
ints = malloc(nints * sizeof(*ints));
- if (nadds) adds = malloc(nadds * sizeof(*adds));
+ if (nadds)
+ adds = malloc(nadds * sizeof(*adds));
types = malloc(ntypes * sizeof(*types));
/* get contents of outer vector */
- err = MPI_Type_get_contents(outer_indexed,
- nints,
- nadds,
- ntypes,
- ints,
- adds,
- types);
-
- if (ints[0] != i_count) errs++;
- if (ints[1] != i_blocklengths[0]) errs++;
- if (ints[2] != i_blocklengths[1]) errs++;
- if (ints[3] != i_blocklengths[2]) errs++;
- if (ints[4] != i_displacements[0]) errs++;
- if (ints[5] != i_displacements[1]) errs++;
- if (ints[6] != i_displacements[2]) errs++;
+ err = MPI_Type_get_contents(outer_indexed, nints, nadds, ntypes, ints, adds, types);
+
+ if (ints[0] != i_count)
+ errs++;
+ if (ints[1] != i_blocklengths[0])
+ errs++;
+ if (ints[2] != i_blocklengths[1])
+ errs++;
+ if (ints[3] != i_blocklengths[2])
+ errs++;
+ if (ints[4] != i_displacements[0])
+ errs++;
+ if (ints[5] != i_displacements[1])
+ errs++;
+ if (ints[6] != i_displacements[2])
+ errs++;
if (verbose) {
- if (ints[0] != i_count)
- fprintf(stderr, "count = %d; should be %d\n", ints[0], i_count);
- if (ints[1] != i_blocklengths[0])
- fprintf(stderr, "blocklength[0] = %d; should be %d\n", ints[1], i_blocklengths[0]);
- if (ints[2] != i_blocklengths[1])
- fprintf(stderr, "blocklength[1] = %d; should be %d\n", ints[2], i_blocklengths[1]);
- if (ints[3] != i_blocklengths[2])
- fprintf(stderr, "blocklength[2] = %d; should be %d\n", ints[3], i_blocklengths[2]);
- if (ints[4] != i_displacements[0])
- fprintf(stderr, "displacement[0] = %d; should be %d\n", ints[4], i_displacements[0]);
- if (ints[5] != i_displacements[1])
- fprintf(stderr, "displacement[1] = %d; should be %d\n", ints[5], i_displacements[1]);
- if (ints[6] != i_displacements[2])
- fprintf(stderr, "displacement[2] = %d; should be %d\n", ints[6], i_displacements[2]);
+ if (ints[0] != i_count)
+ fprintf(stderr, "count = %d; should be %d\n", ints[0], i_count);
+ if (ints[1] != i_blocklengths[0])
+ fprintf(stderr, "blocklength[0] = %d; should be %d\n", ints[1], i_blocklengths[0]);
+ if (ints[2] != i_blocklengths[1])
+ fprintf(stderr, "blocklength[1] = %d; should be %d\n", ints[2], i_blocklengths[1]);
+ if (ints[3] != i_blocklengths[2])
+ fprintf(stderr, "blocklength[2] = %d; should be %d\n", ints[3], i_blocklengths[2]);
+ if (ints[4] != i_displacements[0])
+ fprintf(stderr, "displacement[0] = %d; should be %d\n", ints[4], i_displacements[0]);
+ if (ints[5] != i_displacements[1])
+ fprintf(stderr, "displacement[1] = %d; should be %d\n", ints[5], i_displacements[1]);
+ if (ints[6] != i_displacements[2])
+ fprintf(stderr, "displacement[2] = %d; should be %d\n", ints[6], i_displacements[2]);
}
if (errs) {
- if (verbose) fprintf(stderr, "aborting after %d errors\n", errs);
- return errs;
+ if (verbose)
+ fprintf(stderr, "aborting after %d errors\n", errs);
+ return errs;
}
inner_vector_copy = types[0];
free(ints);
- if (nadds) free(adds);
+ if (nadds)
+ free(adds);
free(types);
/* decode inner vector */
- err = MPI_Type_get_envelope(inner_vector_copy,
- &nints,
- &nadds,
- &ntypes,
- &combiner);
+ err = MPI_Type_get_envelope(inner_vector_copy, &nints, &nadds, &ntypes, &combiner);
if (err != MPI_SUCCESS) {
- if (verbose) fprintf(stderr,
- "error in MPI call; aborting after %d errors\n",
- errs+1);
- return errs+1;
+ if (verbose)
+ fprintf(stderr, "error in MPI call; aborting after %d errors\n", errs + 1);
+ return errs + 1;
}
- if (nints != 3) errs++;
- if (nadds != 0) errs++;
- if (ntypes != 1) errs++;
- if (combiner != MPI_COMBINER_VECTOR) errs++;
+ if (nints != 3)
+ errs++;
+ if (nadds != 0)
+ errs++;
+ if (ntypes != 1)
+ errs++;
+ if (combiner != MPI_COMBINER_VECTOR)
+ errs++;
if (verbose) {
- if (nints != 3) fprintf(stderr,
- "inner vector nints = %d; should be 3\n",
- nints);
- if (nadds != 0) fprintf(stderr,
- "inner vector nadds = %d; should be 0\n",
- nadds);
- if (ntypes != 1) fprintf(stderr,
- "inner vector ntypes = %d; should be 1\n",
- ntypes);
- if (combiner != MPI_COMBINER_VECTOR)
- fprintf(stderr, "inner vector combiner = %s; should be vector\n",
- combiner_to_string(combiner));
+ if (nints != 3)
+ fprintf(stderr, "inner vector nints = %d; should be 3\n", nints);
+ if (nadds != 0)
+ fprintf(stderr, "inner vector nadds = %d; should be 0\n", nadds);
+ if (ntypes != 1)
+ fprintf(stderr, "inner vector ntypes = %d; should be 1\n", ntypes);
+ if (combiner != MPI_COMBINER_VECTOR)
+ fprintf(stderr, "inner vector combiner = %s; should be vector\n",
+ combiner_to_string(combiner));
}
if (errs) {
- if (verbose) fprintf(stderr, "aborting after %d errors\n", errs);
- return errs;
+ if (verbose)
+ fprintf(stderr, "aborting after %d errors\n", errs);
+ return errs;
}
ints = malloc(nints * sizeof(*ints));
- if (nadds) adds = malloc(nadds * sizeof(*adds));
+ if (nadds)
+ adds = malloc(nadds * sizeof(*adds));
types = malloc(ntypes * sizeof(*types));
- err = MPI_Type_get_contents(inner_vector_copy,
- nints,
- nadds,
- ntypes,
- ints,
- adds,
- types);
+ err = MPI_Type_get_contents(inner_vector_copy, nints, nadds, ntypes, ints, adds, types);
- if (ints[0] != 2) errs++;
- if (ints[1] != 1) errs++;
- if (ints[2] != 2) errs++;
+ if (ints[0] != 2)
+ errs++;
+ if (ints[1] != 1)
+ errs++;
+ if (ints[2] != 2)
+ errs++;
if (verbose) {
- if (ints[0] != 2) fprintf(stderr,
- "inner vector count = %d; should be 2\n",
- ints[0]);
- if (ints[1] != 1) fprintf(stderr,
- "inner vector blocklength = %d; should be 1\n",
- ints[1]);
- if (ints[2] != 2) fprintf(stderr,
- "inner vector stride = %d; should be 2\n",
- ints[2]);
+ if (ints[0] != 2)
+ fprintf(stderr, "inner vector count = %d; should be 2\n", ints[0]);
+ if (ints[1] != 1)
+ fprintf(stderr, "inner vector blocklength = %d; should be 1\n", ints[1]);
+ if (ints[2] != 2)
+ fprintf(stderr, "inner vector stride = %d; should be 2\n", ints[2]);
}
if (errs) {
- if (verbose) fprintf(stderr, "aborting after %d errors\n", errs);
- return errs;
+ if (verbose)
+ fprintf(stderr, "aborting after %d errors\n", errs);
+ return errs;
}
free(ints);
- if (nadds) free(adds);
+ if (nadds)
+ free(adds);
free(types);
- MPI_Type_free( &inner_vector_copy );
- MPI_Type_free( &inner_vector );
- MPI_Type_free( &outer_indexed );
+ MPI_Type_free(&inner_vector_copy);
+ MPI_Type_free(&inner_vector);
+ MPI_Type_free(&outer_indexed);
return 0;
}
int err, errs = 0;
/* set up type */
- err = MPI_Type_create_struct(s_count,
- s_blocklengths,
- s_displacements,
- s_types,
- &parent_type);
+ err = MPI_Type_create_struct(s_count, s_blocklengths, s_displacements, s_types, &parent_type);
/* decode */
- err = MPI_Type_get_envelope(parent_type,
- &nints,
- &nadds,
- &ntypes,
- &combiner);
+ err = MPI_Type_get_envelope(parent_type, &nints, &nadds, &ntypes, &combiner);
- if (nints != 4) errs++;
- if (nadds != 3) errs++;
- if (ntypes != 3) errs++;
- if (combiner != MPI_COMBINER_STRUCT) errs++;
+ if (nints != 4)
+ errs++;
+ if (nadds != 3)
+ errs++;
+ if (ntypes != 3)
+ errs++;
+ if (combiner != MPI_COMBINER_STRUCT)
+ errs++;
if (verbose) {
- if (nints != 4) fprintf(stderr, "nints = %d; should be 3\n", nints);
- if (nadds != 3) fprintf(stderr, "nadds = %d; should be 0\n", nadds);
- if (ntypes != 3) fprintf(stderr, "ntypes = %d; should be 3\n", ntypes);
- if (combiner != MPI_COMBINER_STRUCT)
- fprintf(stderr, "combiner = %s; should be struct\n",
- combiner_to_string(combiner));
+ if (nints != 4)
+ fprintf(stderr, "nints = %d; should be 3\n", nints);
+ if (nadds != 3)
+ fprintf(stderr, "nadds = %d; should be 0\n", nadds);
+ if (ntypes != 3)
+ fprintf(stderr, "ntypes = %d; should be 3\n", ntypes);
+ if (combiner != MPI_COMBINER_STRUCT)
+ fprintf(stderr, "combiner = %s; should be struct\n", combiner_to_string(combiner));
}
ints = malloc(nints * sizeof(*ints));
adds = malloc(nadds * sizeof(*adds));
- types = malloc(ntypes *sizeof(*types));
-
- err = MPI_Type_get_contents(parent_type,
- nints,
- nadds,
- ntypes,
- ints,
- adds,
- types);
-
- if (ints[0] != s_count) errs++;
- if (ints[1] != s_blocklengths[0]) errs++;
- if (ints[2] != s_blocklengths[1]) errs++;
- if (ints[3] != s_blocklengths[2]) errs++;
- if (adds[0] != s_displacements[0]) errs++;
- if (adds[1] != s_displacements[1]) errs++;
- if (adds[2] != s_displacements[2]) errs++;
- if (types[0] != s_types[0]) errs++;
- if (types[1] != s_types[1]) errs++;
- if (types[2] != s_types[2]) errs++;
+ types = malloc(ntypes * sizeof(*types));
+
+ err = MPI_Type_get_contents(parent_type, nints, nadds, ntypes, ints, adds, types);
+
+ if (ints[0] != s_count)
+ errs++;
+ if (ints[1] != s_blocklengths[0])
+ errs++;
+ if (ints[2] != s_blocklengths[1])
+ errs++;
+ if (ints[3] != s_blocklengths[2])
+ errs++;
+ if (adds[0] != s_displacements[0])
+ errs++;
+ if (adds[1] != s_displacements[1])
+ errs++;
+ if (adds[2] != s_displacements[2])
+ errs++;
+ if (types[0] != s_types[0])
+ errs++;
+ if (types[1] != s_types[1])
+ errs++;
+ if (types[2] != s_types[2])
+ errs++;
if (verbose) {
- if (ints[0] != s_count)
- fprintf(stderr, "count = %d; should be %d\n", ints[0], s_count);
- if (ints[1] != s_blocklengths[0])
- fprintf(stderr, "blocklength[0] = %d; should be %d\n", ints[1], s_blocklengths[0]);
- if (ints[2] != s_blocklengths[1])
- fprintf(stderr, "blocklength[1] = %d; should be %d\n", ints[2], s_blocklengths[1]);
- if (ints[3] != s_blocklengths[2])
- fprintf(stderr, "blocklength[2] = %d; should be %d\n", ints[3], s_blocklengths[2]);
- if (adds[0] != s_displacements[0])
- fprintf(stderr, "displacement[0] = %d; should be %d\n", adds[0], s_displacements[0]);
- if (adds[1] != s_displacements[1])
- fprintf(stderr, "displacement[1] = %d; should be %d\n", adds[1], s_displacements[1]);
- if (adds[2] != s_displacements[2])
- fprintf(stderr, "displacement[2] = %d; should be %d\n", adds[2], s_displacements[2]);
- if (types[0] != s_types[0])
- fprintf(stderr, "type[0] does not match\n");
- if (types[1] != s_types[1])
- fprintf(stderr, "type[1] does not match\n");
- if (types[2] != s_types[2])
- fprintf(stderr, "type[2] does not match\n");
+ if (ints[0] != s_count)
+ fprintf(stderr, "count = %d; should be %d\n", ints[0], s_count);
+ if (ints[1] != s_blocklengths[0])
+ fprintf(stderr, "blocklength[0] = %d; should be %d\n", ints[1], s_blocklengths[0]);
+ if (ints[2] != s_blocklengths[1])
+ fprintf(stderr, "blocklength[1] = %d; should be %d\n", ints[2], s_blocklengths[1]);
+ if (ints[3] != s_blocklengths[2])
+ fprintf(stderr, "blocklength[2] = %d; should be %d\n", ints[3], s_blocklengths[2]);
+ if (adds[0] != s_displacements[0])
+ fprintf(stderr, "displacement[0] = %d; should be %d\n", adds[0], s_displacements[0]);
+ if (adds[1] != s_displacements[1])
+ fprintf(stderr, "displacement[1] = %d; should be %d\n", adds[1], s_displacements[1]);
+ if (adds[2] != s_displacements[2])
+ fprintf(stderr, "displacement[2] = %d; should be %d\n", adds[2], s_displacements[2]);
+ if (types[0] != s_types[0])
+ fprintf(stderr, "type[0] does not match\n");
+ if (types[1] != s_types[1])
+ fprintf(stderr, "type[1] does not match\n");
+ if (types[2] != s_types[2])
+ fprintf(stderr, "type[2] does not match\n");
}
free(ints);
free(adds);
free(types);
- MPI_Type_free( &parent_type );
+ MPI_Type_free(&parent_type);
return errs;
}
*/
char *combiner_to_string(int combiner)
{
- static char c_named[] = "named";
- static char c_contig[] = "contig";
- static char c_vector[] = "vector";
- static char c_hvector[] = "hvector";
- static char c_indexed[] = "indexed";
+ static char c_named[] = "named";
+ static char c_contig[] = "contig";
+ static char c_vector[] = "vector";
+ static char c_hvector[] = "hvector";
+ static char c_indexed[] = "indexed";
static char c_hindexed[] = "hindexed";
- static char c_struct[] = "struct";
+ static char c_struct[] = "struct";
#ifdef HAVE_MPI2_COMBINERS
- static char c_dup[] = "dup";
- static char c_hvector_integer[] = "hvector_integer";
+ static char c_dup[] = "dup";
+ static char c_hvector_integer[] = "hvector_integer";
static char c_hindexed_integer[] = "hindexed_integer";
- static char c_indexed_block[] = "indexed_block";
- static char c_struct_integer[] = "struct_integer";
- static char c_subarray[] = "subarray";
- static char c_darray[] = "darray";
- static char c_f90_real[] = "f90_real";
- static char c_f90_complex[] = "f90_complex";
- static char c_f90_integer[] = "f90_integer";
- static char c_resized[] = "resized";
+ static char c_indexed_block[] = "indexed_block";
+ static char c_struct_integer[] = "struct_integer";
+ static char c_subarray[] = "subarray";
+ static char c_darray[] = "darray";
+ static char c_f90_real[] = "f90_real";
+ static char c_f90_complex[] = "f90_complex";
+ static char c_f90_integer[] = "f90_integer";
+ static char c_resized[] = "resized";
#endif
- if (combiner == MPI_COMBINER_NAMED) return c_named;
- if (combiner == MPI_COMBINER_CONTIGUOUS) return c_contig;
- if (combiner == MPI_COMBINER_VECTOR) return c_vector;
- if (combiner == MPI_COMBINER_HVECTOR) return c_hvector;
- if (combiner == MPI_COMBINER_INDEXED) return c_indexed;
- if (combiner == MPI_COMBINER_HINDEXED) return c_hindexed;
- if (combiner == MPI_COMBINER_STRUCT) return c_struct;
+ if (combiner == MPI_COMBINER_NAMED)
+ return c_named;
+ if (combiner == MPI_COMBINER_CONTIGUOUS)
+ return c_contig;
+ if (combiner == MPI_COMBINER_VECTOR)
+ return c_vector;
+ if (combiner == MPI_COMBINER_HVECTOR)
+ return c_hvector;
+ if (combiner == MPI_COMBINER_INDEXED)
+ return c_indexed;
+ if (combiner == MPI_COMBINER_HINDEXED)
+ return c_hindexed;
+ if (combiner == MPI_COMBINER_STRUCT)
+ return c_struct;
#ifdef HAVE_MPI2_COMBINERS
- if (combiner == MPI_COMBINER_DUP) return c_dup;
- if (combiner == MPI_COMBINER_HVECTOR_INTEGER) return c_hvector_integer;
- if (combiner == MPI_COMBINER_HINDEXED_INTEGER) return c_hindexed_integer;
- if (combiner == MPI_COMBINER_INDEXED_BLOCK) return c_indexed_block;
- if (combiner == MPI_COMBINER_STRUCT_INTEGER) return c_struct_integer;
- if (combiner == MPI_COMBINER_SUBARRAY) return c_subarray;
- if (combiner == MPI_COMBINER_DARRAY) return c_darray;
- if (combiner == MPI_COMBINER_F90_REAL) return c_f90_real;
- if (combiner == MPI_COMBINER_F90_COMPLEX) return c_f90_complex;
- if (combiner == MPI_COMBINER_F90_INTEGER) return c_f90_integer;
- if (combiner == MPI_COMBINER_RESIZED) return c_resized;
+ if (combiner == MPI_COMBINER_DUP)
+ return c_dup;
+ if (combiner == MPI_COMBINER_HVECTOR_INTEGER)
+ return c_hvector_integer;
+ if (combiner == MPI_COMBINER_HINDEXED_INTEGER)
+ return c_hindexed_integer;
+ if (combiner == MPI_COMBINER_INDEXED_BLOCK)
+ return c_indexed_block;
+ if (combiner == MPI_COMBINER_STRUCT_INTEGER)
+ return c_struct_integer;
+ if (combiner == MPI_COMBINER_SUBARRAY)
+ return c_subarray;
+ if (combiner == MPI_COMBINER_DARRAY)
+ return c_darray;
+ if (combiner == MPI_COMBINER_F90_REAL)
+ return c_f90_real;
+ if (combiner == MPI_COMBINER_F90_COMPLEX)
+ return c_f90_complex;
+ if (combiner == MPI_COMBINER_F90_INTEGER)
+ return c_f90_integer;
+ if (combiner == MPI_COMBINER_RESIZED)
+ return c_resized;
#endif
-
+
return NULL;
}
#ifdef HAVE_GET_OPT
int ret;
- while ((ret = getopt(argc, argv, "v")) >= 0)
- {
- switch (ret) {
- case 'v':
- verbose = 1;
- break;
- }
+ while ((ret = getopt(argc, argv, "v")) >= 0) {
+ switch (ret) {
+ case 'v':
+ verbose = 1;
+ break;
+ }
}
#else
#endif
return 0;
}
-