/* * 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. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "opal_config.h" #include "opal/constants.h" #include #include #include #include "opal/runtime/opal.h" #include "opal/dss/dss.h" #define NUM_ITERS 3 #define NUM_ELEMS 10 static bool test1(void); /* verify different buffer inits */ static bool test2(void); /* verify int16 */ static bool test3(void); /* verify int */ static bool test4(void); /* verify int32 */ static bool test5(void); /* verify int64 */ static bool test6(void); /* verify string */ static bool test7(void); /* verify BOOL */ static bool test8(void); /* verify OBJECT */ static bool test9(void); /* verify composite (multiple types and element counts) */ static bool test11(void); /* verify size_t */ static bool test12(void); /* verify pid_t */ static bool test13(void); /* verify pid_t */ FILE *test_out; opal_dss_value_t dval = { {OBJ_CLASS(opal_dss_value_t),0},OPAL_UNDEF,NULL}; int main (int argc, char* argv[]) { opal_init(); test_out = stderr; /* run the tests */ fprintf(test_out, "executing test1\n"); if (test1()) { fprintf(test_out, "Test1 succeeded\n"); } else { fprintf(test_out, "Test1 failed\n"); } fprintf(test_out, "executing test2\n"); if (test2()) { fprintf(test_out, "Test2 succeeded\n"); } else { fprintf(test_out, "Test2 failed\n"); } fprintf(test_out, "executing test3\n"); if (test3()) { fprintf(test_out, "Test3 succeeded\n"); } else { fprintf(test_out, "Test3 failed\n"); } fprintf(test_out, "executing test4\n"); if (test4()) { fprintf(test_out, "Test4 succeeded\n"); } else { fprintf(test_out, "Test4 failed\n"); } fprintf(test_out, "executing test5\n"); if (test5()) { fprintf(test_out, "Test5 succeeded\n"); } else { fprintf(test_out, "Test5 failed\n"); } fprintf(test_out, "executing test6\n"); if (test6()) { fprintf(test_out, "Test6 succeeded\n"); } else { fprintf(test_out, "Test6 failed\n"); } fprintf(test_out, "executing test7\n"); if (test7()) { fprintf(test_out, "Test7 succeeded\n"); } else { fprintf(test_out, "Test7 failed\n"); } fprintf(test_out, "executing test8\n"); if (test8()) { fprintf(test_out, "Test8 succeeded\n"); } else { fprintf(test_out, "Test8 failed\n"); } fprintf(test_out, "executing test9\n"); if (test9()) { fprintf(test_out, "Test9 succeeded\n"); } else { fprintf(test_out, "opal_dss test9 failed\n"); } fprintf(test_out, "executing test11\n"); if (test11()) { fprintf(test_out, "Test11 succeeded\n"); } else { fprintf(test_out, "opal_dss test11 failed\n"); } fprintf(test_out, "executing test12\n"); if (test12()) { fprintf(test_out, "Test12 succeeded\n"); } else { fprintf(test_out, "opal_dss test12 failed\n"); } fprintf(test_out, "executing test13\n"); if (test13()) { fprintf(test_out, "Test13 succeeded\n"); } else { fprintf(test_out, "opal_dss test13 failed\n"); } fclose(test_out); opal_finalize(); return(0); } /* * INT8 */ static bool test1(void) { int8_t *v1, v2=100; uint8_t *u1, u2=150; opal_data_type_t type=OPAL_INT8, utype=OPAL_UINT8; if (OPAL_SUCCESS != opal_dss.copy((void**)&v1, &v2, type)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = OPAL_INT8; dval.data = v1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for signed value\n"); return(false); } if (OPAL_SUCCESS != opal_dss.copy((void**)&u1, &u2, utype)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = OPAL_UINT8; dval.data = u1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for unsigned value\n"); return(false); } return (true); } /* * INT16 */ static bool test2(void) { int16_t *v1, v2=100; uint16_t *u1, u2=150; opal_data_type_t type=OPAL_INT16, utype=OPAL_UINT16; if (OPAL_SUCCESS != opal_dss.copy((void**)&v1, &v2, type)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = OPAL_INT16; dval.data = v1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for signed value\n"); return(false); } if (OPAL_SUCCESS != opal_dss.copy((void**)&u1, &u2, utype)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = OPAL_UINT16; dval.data = u1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for unsigned value\n"); return(false); } return (true); } /* * INT32 */ static bool test3(void) { int32_t *v1, v2=100; uint32_t *u1, u2=150; opal_data_type_t type=OPAL_INT32, utype=OPAL_UINT32; if (OPAL_SUCCESS != opal_dss.copy((void**)&v1, &v2, type)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = OPAL_INT32; dval.data = v1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for signed value\n"); return(false); } if (OPAL_SUCCESS != opal_dss.copy((void**)&u1, &u2, utype)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = OPAL_UINT32; dval.data = u1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for unsigned value\n"); return(false); } return (true); } /* * INT64 */ static bool test4(void) { int64_t *v1, v2=100; uint64_t *u1, u2=150; opal_data_type_t type=OPAL_INT64, utype=OPAL_UINT64; if (OPAL_SUCCESS != opal_dss.copy((void**)&v1, &v2, type)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = type; dval.data = v1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for signed value\n"); return(false); } if (OPAL_SUCCESS != opal_dss.copy((void**)&u1, &u2, utype)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = OPAL_UINT64; dval.data = u1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for unsigned value\n"); return(false); } return (true); } /* * INT */ static bool test5(void) { int *v1, v2=100; uint *u1, u2=150; opal_data_type_t type=OPAL_INT, utype=OPAL_UINT; if (OPAL_SUCCESS != opal_dss.copy((void**)&v1, &v2, type)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = type; dval.data = v1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for signed value\n"); return(false); } if (OPAL_SUCCESS != opal_dss.copy((void**)&u1, &u2, utype)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = utype; dval.data = u1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for unsigned value\n"); return(false); } return (true); } /* * STRING */ static bool test6(void) { char *string1="This is a short string"; char *string2; if (OPAL_EQUAL != opal_dss.copy((void**)&string2, string1, OPAL_STRING)) { fprintf(test_out, "opal_dss.copy returned error code\n"); return(false); } dval.type = OPAL_STRING; dval.data = string2; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for string value\n"); return(false); } return (true); } /* * BOOL */ static bool test7(void) { bool *v1, v2=true; if (OPAL_SUCCESS != opal_dss.copy((void**)&v1, &v2, OPAL_BOOL)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = OPAL_BOOL; dval.data = v1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for bool value\n"); return(false); } return (true); } /* * SIZE */ static bool test8(void) { size_t *v1, v2=100; opal_data_type_t type=OPAL_SIZE; if (OPAL_SUCCESS != opal_dss.copy((void**)&v1, &v2, type)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = type; dval.data = v1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for size value\n"); return(false); } return (true); } /* * PID */ static bool test9(void) { pid_t *v1, v2=100; opal_data_type_t type=OPAL_PID; if (OPAL_SUCCESS != opal_dss.copy((void**)&v1, &v2, type)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = type; dval.data = v1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for pid value\n"); return(false); } return (true); } /* * DATA TYPE */ static bool test11(void) { opal_data_type_t *v1, v2=100; opal_data_type_t type=OPAL_DATA_TYPE; if (OPAL_SUCCESS != opal_dss.copy((void**)&v1, &v2, type)) { fprintf(test_out, "opal_dss.copy returned error\n"); return(false); } dval.type = type; dval.data = v1; opal_dss.release(&dval); if (NULL != dval.data) { fprintf(test_out, "opal_dss.release failed for data_type value\n"); return(false); } return (true); } /** * OPAL_BYTE_OBJECT */ static bool test12(void) { size_t i; opal_byte_object_t *v1, v2; opal_data_type_t type=OPAL_BYTE_OBJECT; v2.size = 20; v2.bytes = (uint8_t*)malloc(v2.size); for (i=0; i