/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil ; -*- */ /* * * (C) 2003 by Argonne National Laboratory. * See COPYRIGHT in top-level directory. */ #include "mpi.h" #include "mpitestconf.h" #include #include "mpitest.h" /* static char MTEST_Descrip[] = "Test MPI_LXOR operations on optional datatypes dupported by MPICH"; */ /* * This test looks at the handling of logical and for types that are not * integers or are not required integers (e.g., long long). MPICH allows * these as well. A strict MPI test should not include this test. */ int main(int argc, char *argv[]) { int errs = 0; int rc; int rank, size; MPI_Comm comm; char cinbuf[3], coutbuf[3]; signed char scinbuf[3], scoutbuf[3]; unsigned char ucinbuf[3], ucoutbuf[3]; float finbuf[3], foutbuf[3]; double dinbuf[3], doutbuf[3]; MTest_Init(&argc, &argv); comm = MPI_COMM_WORLD; /* Set errors return so that we can provide better information * should a routine reject one of the operand/datatype pairs */ MPI_Errhandler_set(comm, MPI_ERRORS_RETURN); MPI_Comm_rank(comm, &rank); MPI_Comm_size(comm, &size); #ifndef USE_STRICT_MPI /* char */ MTestPrintfMsg(10, "Reduce of MPI_CHAR\n"); cinbuf[0] = 1; cinbuf[1] = 0; cinbuf[2] = (rank > 0); coutbuf[0] = 0; coutbuf[1] = 1; coutbuf[2] = 1; rc = MPI_Reduce(cinbuf, coutbuf, 3, MPI_CHAR, MPI_LXOR, 0, comm); if (rc) { MTestPrintErrorMsg("MPI_LXOR and MPI_CHAR", rc); errs++; } else { if (rank == 0) { if (coutbuf[0] != (size % 2)) { errs++; fprintf(stderr, "char XOR(1) test failed\n"); } if (coutbuf[1]) { errs++; fprintf(stderr, "char XOR(0) test failed\n"); } if (coutbuf[2] == (size % 2) && size > 1) { errs++; fprintf(stderr, "char XOR(>) test failed\n"); } } } #endif /* USE_STRICT_MPI */ /* signed char */ MTestPrintfMsg(10, "Reduce of MPI_SIGNED_CHAR\n"); scinbuf[0] = 1; scinbuf[1] = 0; scinbuf[2] = (rank > 0); scoutbuf[0] = 0; scoutbuf[1] = 1; scoutbuf[2] = 1; rc = MPI_Reduce(scinbuf, scoutbuf, 3, MPI_SIGNED_CHAR, MPI_LXOR, 0, comm); if (rc) { MTestPrintErrorMsg("MPI_LXOR and MPI_SIGNED_CHAR", rc); errs++; } else { if (rank == 0) { if (scoutbuf[0] != (size % 2)) { errs++; fprintf(stderr, "signed char XOR(1) test failed\n"); } if (scoutbuf[1]) { errs++; fprintf(stderr, "signed char XOR(0) test failed\n"); } if (scoutbuf[2] == (size % 2) && size > 1) { errs++; fprintf(stderr, "signed char XOR(>) test failed\n"); } } } /* unsigned char */ MTestPrintfMsg(10, "Reduce of MPI_UNSIGNED_CHAR\n"); ucinbuf[0] = 1; ucinbuf[1] = 0; ucinbuf[2] = (rank > 0); ucoutbuf[0] = 0; ucoutbuf[1] = 1; ucoutbuf[2] = 1; rc = MPI_Reduce(ucinbuf, ucoutbuf, 3, MPI_UNSIGNED_CHAR, MPI_LXOR, 0, comm); if (rc) { MTestPrintErrorMsg("MPI_LXOR and MPI_UNSIGNED_CHAR", rc); errs++; } else { if (rank == 0) { if (ucoutbuf[0] != (size % 2)) { errs++; fprintf(stderr, "unsigned char XOR(1) test failed\n"); } if (ucoutbuf[1]) { errs++; fprintf(stderr, "unsigned char XOR(0) test failed\n"); } if (ucoutbuf[2] == (size % 2) && size > 1) { errs++; fprintf(stderr, "unsigned char XOR(>) test failed\n"); } } } #ifndef USE_STRICT_MPI /* float */ MTestPrintfMsg(10, "Reduce of MPI_FLOAT\n"); finbuf[0] = 1; finbuf[1] = 0; finbuf[2] = (rank > 0); foutbuf[0] = 0; foutbuf[1] = 1; foutbuf[2] = 1; rc = MPI_Reduce(finbuf, foutbuf, 3, MPI_FLOAT, MPI_LXOR, 0, comm); if (rc) { MTestPrintErrorMsg("MPI_LXOR and MPI_FLOAT", rc); errs++; } else { if (rank == 0) { if (foutbuf[0] != (size % 2)) { errs++; fprintf(stderr, "float XOR(1) test failed\n"); } if (foutbuf[1]) { errs++; fprintf(stderr, "float XOR(0) test failed\n"); } if (foutbuf[2] == (size % 2) && size > 1) { errs++; fprintf(stderr, "float XOR(>) test failed\n"); } } } /* double */ MTestPrintfMsg(10, "Reduce of MPI_DOUBLE\n"); dinbuf[0] = 1; dinbuf[1] = 0; dinbuf[2] = (rank > 0); doutbuf[0] = 0; doutbuf[1] = 1; doutbuf[2] = 1; rc = MPI_Reduce(dinbuf, doutbuf, 3, MPI_DOUBLE, MPI_LXOR, 0, comm); if (rc) { MTestPrintErrorMsg("MPI_LXOR and MPI_DOUBLE", rc); errs++; } else { if (rank == 0) { if (doutbuf[0] != (size % 2)) { errs++; fprintf(stderr, "double XOR(1) test failed\n"); } if (doutbuf[1]) { errs++; fprintf(stderr, "double XOR(0) test failed\n"); } if (doutbuf[2] == (size % 2) && size > 1) { errs++; fprintf(stderr, "double XOR(>) test failed\n"); } } } #ifdef HAVE_LONG_DOUBLE { long double ldinbuf[3], ldoutbuf[3]; /* long double */ MTEST_VG_MEM_INIT(ldinbuf, 3 * sizeof(ldinbuf[0])); ldinbuf[0] = 1; ldinbuf[1] = 0; ldinbuf[2] = (rank > 0); ldoutbuf[0] = 0; ldoutbuf[1] = 1; ldoutbuf[2] = 1; if (MPI_LONG_DOUBLE != MPI_DATATYPE_NULL) { MTestPrintfMsg(10, "Reduce of MPI_LONG_DOUBLE\n"); rc = MPI_Reduce(ldinbuf, ldoutbuf, 3, MPI_LONG_DOUBLE, MPI_LXOR, 0, comm); if (rc) { MTestPrintErrorMsg("MPI_LXOR and MPI_LONG_DOUBLE", rc); errs++; } else { if (rank == 0) { if (ldoutbuf[0] != (size % 2)) { errs++; fprintf(stderr, "long double XOR(1) test failed\n"); } if (ldoutbuf[1]) { errs++; fprintf(stderr, "long double XOR(0) test failed\n"); } if (ldoutbuf[2] == (size % 2) && size > 1) { errs++; fprintf(stderr, "long double XOR(>) test failed\n"); } } } } } #endif /* HAVE_LONG_DOUBLE */ #endif /* USE_STRICT_MPI */ #ifdef HAVE_LONG_LONG { long long llinbuf[3], lloutbuf[3]; /* long long */ llinbuf[0] = 1; llinbuf[1] = 0; llinbuf[2] = (rank > 0); lloutbuf[0] = 0; lloutbuf[1] = 1; lloutbuf[2] = 1; if (MPI_LONG_LONG != MPI_DATATYPE_NULL) { MTestPrintfMsg(10, "Reduce of MPI_LONG_LONG\n"); rc = MPI_Reduce(llinbuf, lloutbuf, 3, MPI_LONG_LONG, MPI_LXOR, 0, comm); if (rc) { MTestPrintErrorMsg("MPI_LXOR and MPI_LONG_LONG", rc); errs++; } else { if (rank == 0) { if (lloutbuf[0] != (size % 2)) { errs++; fprintf(stderr, "long long XOR(1) test failed\n"); } if (lloutbuf[1]) { errs++; fprintf(stderr, "long long XOR(0) test failed\n"); } if (lloutbuf[2] == (size % 2) && size > 1) { errs++; fprintf(stderr, "long long XOR(>) test failed\n"); } } } } } #endif MPI_Errhandler_set(comm, MPI_ERRORS_ARE_FATAL); MTest_Finalize(errs); return MTestReturnValue(errs); }