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author | Albert Cheng <acheng@hdfgroup.org> | 1998-05-29 19:57:05 (GMT) |
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committer | Albert Cheng <acheng@hdfgroup.org> | 1998-05-29 19:57:05 (GMT) |
commit | a92096e9a3af3376388f0088a88773a4ba02a5cc (patch) | |
tree | a67a63651b20e43d663a90f428c2af69a0636881 /testpar/testphdf5.c | |
parent | 1327f0c65ecaa72a0e8983f6a0574cc9b802f130 (diff) | |
download | hdf5-a92096e9a3af3376388f0088a88773a4ba02a5cc.zip hdf5-a92096e9a3af3376388f0088a88773a4ba02a5cc.tar.gz hdf5-a92096e9a3af3376388f0088a88773a4ba02a5cc.tar.bz2 |
[svn-r403] Revised PHDF5 test program. Used VRFY macros instead of
assert. That allowed more customization in the future (like
allow different levels of verboseness.)
Diffstat (limited to 'testpar/testphdf5.c')
-rw-r--r-- | testpar/testphdf5.c | 364 |
1 files changed, 170 insertions, 194 deletions
diff --git a/testpar/testphdf5.c b/testpar/testphdf5.c index d81827e..03c3d92 100644 --- a/testpar/testphdf5.c +++ b/testpar/testphdf5.c @@ -1,4 +1,6 @@ +/* $Id$ */ + /* * Example of using the parallel HDF5 library to access datasets. * @@ -24,8 +26,25 @@ /* Define some handy debugging shorthands, routines, ... */ /* debugging tools */ -#define MESG(x)\ - if (verbose) printf("%s\n", x); + +#define MESG(x) \ + if (verbose) printf("%s\n", x); \ + +#define VRFY(val, mesg) do { \ + if (val) { \ + if (*mesg != '\0'){ \ + MESG(mesg); \ + } \ + } \ + else{ \ + printf("*** Assertion failed (%s) at line %4d in %s\n", \ + mesg, (int)__LINE__, __FILE__); \ + nerrors++; \ + H5Eprint (stdout); \ + if (!verbose) exit(nerrors); \ + } \ + H5Eclear(); \ +} while(0) #define MPI_BANNER(mesg)\ {printf("--------------------------------\n");\ @@ -119,6 +138,7 @@ slab_set(hssize_t start[], hsize_t count[], hsize_t stride[], int mode) count[1] = SPACE1_DIM2; start[0] = mpi_rank*count[0]; start[1] = 0; +if (verbose) printf("slab_set BYROW\n"); break; case BYCOL: /* Each process takes a block of columns. */ @@ -128,6 +148,14 @@ slab_set(hssize_t start[], hsize_t count[], hsize_t stride[], int mode) count[1] = SPACE1_DIM2/mpi_size; start[0] = 0; start[1] = mpi_rank*count[1]; +#ifdef DISABLED + /* change the above macro to #ifndef if you want to test */ + /* zero elements access. */ + printf("set to size 0\n"); + if (!(mpi_rank % 3)) + count[1]=0; +#endif +if (verbose) printf("slab_set BYCOL\n"); break; default: /* Unknown mode. Set it to cover the whole dataset. */ @@ -138,8 +166,13 @@ slab_set(hssize_t start[], hsize_t count[], hsize_t stride[], int mode) count[1] = SPACE1_DIM2; start[0] = 0; start[1] = 0; +if (verbose) printf("slab_set wholeset\n"); break; } +if (verbose){ + printf("start[]=(%d,%d), count[]=(%d,%d), total datapoints=%d\n", + start[0], start[1], count[0], count[1], count[0]*count[1]); + } } @@ -156,7 +189,8 @@ dataset_fill(hssize_t start[], hsize_t count[], hsize_t stride[], DATATYPE * dat /* put some trivial data in the data_array */ for (i=0; i < count[0]; i++){ for (j=0; j < count[1]; j++){ - *dataptr++ = (i*stride[0]+start[0])*100 + (j*stride[1]+start[1]+1); + *dataptr = (i*stride[0]+start[0])*100 + (j*stride[1]+start[1]+1); + dataptr++; } } } @@ -170,9 +204,16 @@ void dataset_print(hssize_t start[], hsize_t count[], hsize_t stride[], DATATYPE DATATYPE *dataptr = dataset; int i, j; - /* print the slab read */ + /* print the column heading */ + printf("%-8s", "Cols:"); + for (j=0; j < count[1]; j++){ + printf("%3d ", start[1]+j); + } + printf("\n"); + + /* print the slab data */ for (i=0; i < count[0]; i++){ - printf("Row %d: ", (int)(i*stride[0]+start[0])); + printf("Row %2d: ", (int)(i*stride[0]+start[0])); for (j=0; j < count[1]; j++){ printf("%03d ", *dataptr++); } @@ -190,31 +231,32 @@ int dataset_vrfy(hssize_t start[], hsize_t count[], hsize_t stride[], DATATYPE * DATATYPE *dataptr = dataset; DATATYPE *originptr = original; - int i, j, nerrors; + int i, j, vrfyerrs; /* print it if verbose */ if (verbose) dataset_print(start, count, stride, dataset); - nerrors = 0; + vrfyerrs = 0; for (i=0; i < count[0]; i++){ for (j=0; j < count[1]; j++){ - if (*dataset++ != *original++){ - nerrors++; - if (nerrors <= MAX_ERR_REPORT){ + if (*dataset != *original){ + if (vrfyerrs++ < MAX_ERR_REPORT){ printf("Dataset Verify failed at [%d][%d](row %d, col %d): expect %d, got %d\n", i, j, (int)(i*stride[0]+start[0]), (int)(j*stride[1]+start[1]), - *(dataset-1), *(original-1)); + *(original), *(dataset)); } + dataset++; + original++; } } } - if (nerrors > MAX_ERR_REPORT) + if (vrfyerrs > MAX_ERR_REPORT) printf("[more errors ...]\n"); - if (nerrors) - printf("%d errors found in dataset_vrfy\n", nerrors); - return(nerrors); + if (vrfyerrs) + printf("%d errors found in dataset_vrfy\n", vrfyerrs); + return(vrfyerrs); } @@ -266,21 +308,18 @@ phdf5writeInd(char *filename) * -------------------*/ /* setup file access template with parallel IO access. */ acc_tpl1 = H5Pcreate (H5P_FILE_ACCESS); - assert(acc_tpl1 != FAIL); - MESG("H5Pcreate access succeed"); + VRFY((acc_tpl1 != FAIL), "H5Pcreate access succeed"); /* set Parallel access with communicator */ ret = H5Pset_mpi(acc_tpl1, comm, info); - assert(ret != FAIL); - MESG("H5Pset_mpi succeed"); + VRFY((ret != FAIL), "H5Pset_mpi succeed"); /* create the file collectively */ fid1=H5Fcreate(filename,H5F_ACC_TRUNC,H5P_DEFAULT,acc_tpl1); - assert(fid1 != FAIL); - MESG("H5Fcreate succeed"); + VRFY((fid1 != FAIL), "H5Fcreate succeed"); /* Release file-access template */ ret=H5Pclose(acc_tpl1); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); /* -------------------------- @@ -289,34 +328,23 @@ phdf5writeInd(char *filename) * ------------------------- */ /* setup dimensionality object */ sid1 = H5Screate_simple (SPACE1_RANK, dims1, NULL); - assert (sid1 != FAIL); - MESG("H5Screate_simple succeed"); + VRFY((sid1 != FAIL), "H5Screate_simple succeed"); /* create a dataset collectively */ dataset1 = H5Dcreate(fid1, DATASETNAME1, H5T_NATIVE_INT, sid1, H5P_DEFAULT); - assert(dataset1 != FAIL); - MESG("H5Dcreate succeed"); + VRFY((dataset1 != FAIL), "H5Dcreate succeed"); /* create another dataset collectively */ dataset2 = H5Dcreate(fid1, DATASETNAME2, H5T_NATIVE_INT, sid1, H5P_DEFAULT); - assert(dataset2 != FAIL); - MESG("H5Dcreate succeed"); + VRFY((dataset2 != FAIL), "H5Dcreate succeed"); /* set up dimensions of the slab this process accesses */ - start[0] = mpi_rank*SPACE1_DIM1/mpi_size; - start[1] = 0; - count[0] = SPACE1_DIM1/mpi_size; - count[1] = SPACE1_DIM2; - stride[0] = 1; - stride[1] =1; -if (verbose) - printf("start[]=(%d,%d), count[]=(%d,%d), total datapoints=%d\n", - start[0], start[1], count[0], count[1], count[0]*count[1]); + slab_set(start, count, stride, BYROW); /* put some trivial data in the data_array */ dataset_fill(start, count, stride, &data_array1[0][0]); @@ -324,38 +352,32 @@ if (verbose) /* create a file dataspace independently */ file_dataspace = H5Dget_space (dataset1); - assert(file_dataspace != FAIL); - MESG("H5Dget_space succeed"); + VRFY((file_dataspace != FAIL), "H5Dget_space succeed"); ret=H5Sset_hyperslab(file_dataspace, start, count, stride); - assert(ret != FAIL); - MESG("H5Sset_hyperslab succeed"); + VRFY((ret != FAIL), "H5Sset_hyperslab succeed"); /* create a memory dataspace independently */ mem_dataspace = H5Screate_simple (SPACE1_RANK, count, NULL); - assert (mem_dataspace != FAIL); + VRFY((mem_dataspace != FAIL), ""); /* write data independently */ ret = H5Dwrite(dataset1, H5T_NATIVE_INT, mem_dataspace, file_dataspace, H5P_DEFAULT, data_array1); - assert(ret != FAIL); - MESG("H5Dwrite succeed"); + VRFY((ret != FAIL), "H5Dwrite succeed"); /* write data independently */ ret = H5Dwrite(dataset2, H5T_NATIVE_INT, mem_dataspace, file_dataspace, H5P_DEFAULT, data_array1); - assert(ret != FAIL); - MESG("H5Dwrite succeed"); + VRFY((ret != FAIL), "H5Dwrite succeed"); /* release dataspace ID */ H5Sclose(file_dataspace); /* close dataset collectively */ ret=H5Dclose(dataset1); - assert(ret != FAIL); - MESG("H5Dclose1 succeed"); + VRFY((ret != FAIL), "H5Dclose1 succeed"); ret=H5Dclose(dataset2); - assert(ret != FAIL); - MESG("H5Dclose2 succeed"); + VRFY((ret != FAIL), "H5Dclose2 succeed"); /* release all IDs created */ H5Sclose(sid1); @@ -399,49 +421,41 @@ phdf5readInd(char *filename) /* setup file access template */ acc_tpl1 = H5Pcreate (H5P_FILE_ACCESS); - assert(acc_tpl1 != FAIL); + VRFY((acc_tpl1 != FAIL), ""); /* set Parallel access with communicator */ ret = H5Pset_mpi(acc_tpl1, comm, info); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); /* open the file collectively */ fid1=H5Fopen(filename,H5F_ACC_RDWR,acc_tpl1); - assert(fid1 != FAIL); + VRFY((fid1 != FAIL), ""); /* Release file-access template */ ret=H5Pclose(acc_tpl1); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); /* open the dataset1 collectively */ dataset1 = H5Dopen(fid1, DATASETNAME1); - assert(dataset1 != FAIL); + VRFY((dataset1 != FAIL), ""); /* open another dataset collectively */ dataset2 = H5Dopen(fid1, DATASETNAME1); - assert(dataset2 != FAIL); + VRFY((dataset2 != FAIL), ""); /* set up dimensions of the slab this process accesses */ - start[0] = mpi_rank*SPACE1_DIM1/mpi_size; - start[1] = 0; - count[0] = SPACE1_DIM1/mpi_size; - count[1] = SPACE1_DIM2; - stride[0] = 1; - stride[1] =1; -if (verbose) - printf("start[]=(%d,%d), count[]=(%d,%d), total datapoints=%d\n", - start[0], start[1], count[0], count[1], count[0]*count[1]); + slab_set(start, count, stride, BYROW); /* create a file dataspace independently */ file_dataspace = H5Dget_space (dataset1); - assert(file_dataspace != FAIL); + VRFY((file_dataspace != FAIL), ""); ret=H5Sset_hyperslab(file_dataspace, start, count, stride); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); /* create a memory dataspace independently */ mem_dataspace = H5Screate_simple (SPACE1_RANK, count, NULL); - assert (mem_dataspace != FAIL); + VRFY((mem_dataspace != FAIL), ""); /* fill dataset with test data */ dataset_fill(start, count, stride, &data_origin1[0][0]); @@ -449,26 +463,26 @@ if (verbose) /* read data independently */ ret = H5Dread(dataset1, H5T_NATIVE_INT, mem_dataspace, file_dataspace, H5P_DEFAULT, data_array1); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); /* verify the read data with original expected data */ ret = dataset_vrfy(start, count, stride, &data_array1[0][0], &data_origin1[0][0]); - assert(ret != FAIL); + if (ret) nerrors++; /* read data independently */ ret = H5Dread(dataset2, H5T_NATIVE_INT, mem_dataspace, file_dataspace, H5P_DEFAULT, data_array1); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); /* verify the read data with original expected data */ ret = dataset_vrfy(start, count, stride, &data_array1[0][0], &data_origin1[0][0]); - assert(ret == 0); + if (ret) nerrors++; /* close dataset collectively */ ret=H5Dclose(dataset1); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); ret=H5Dclose(dataset2); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); /* release all IDs created */ H5Sclose(file_dataspace); @@ -497,6 +511,7 @@ phdf5writeAll(char *filename) hid_t file_dataspace; /* File dataspace ID */ hid_t mem_dataspace; /* memory dataspace ID */ hid_t dataset1, dataset2; /* Dataset ID */ + hid_t datatype; /* Datatype ID */ int rank = SPACE1_RANK; /* Logical rank of dataspace */ hsize_t dims1[SPACE1_RANK] = {SPACE1_DIM1,SPACE1_DIM2}; /* dataspace dim sizes */ @@ -523,21 +538,18 @@ phdf5writeAll(char *filename) * -------------------*/ /* setup file access template with parallel IO access. */ acc_tpl1 = H5Pcreate (H5P_FILE_ACCESS); - assert(acc_tpl1 != FAIL); - MESG("H5Pcreate access succeed"); + VRFY((acc_tpl1 != FAIL), "H5Pcreate access succeed"); /* set Parallel access with communicator */ ret = H5Pset_mpi(acc_tpl1, comm, info); - assert(ret != FAIL); - MESG("H5Pset_mpi succeed"); + VRFY((ret != FAIL), "H5Pset_mpi succeed"); /* create the file collectively */ fid1=H5Fcreate(filename,H5F_ACC_TRUNC,H5P_DEFAULT,acc_tpl1); - assert(fid1 != FAIL); - MESG("H5Fcreate succeed"); + VRFY((fid1 != FAIL), "H5Fcreate succeed"); /* Release file-access template */ ret=H5Pclose(acc_tpl1); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); /* -------------------------- @@ -546,19 +558,20 @@ phdf5writeAll(char *filename) * ------------------------- */ /* setup dimensionality object */ sid1 = H5Screate_simple (SPACE1_RANK, dims1, NULL); - assert (sid1 != FAIL); - MESG("H5Screate_simple succeed"); + VRFY((sid1 != FAIL), "H5Screate_simple succeed"); /* create a dataset collectively */ dataset1 = H5Dcreate(fid1, DATASETNAME1, H5T_NATIVE_INT, sid1, H5P_DEFAULT); - assert(dataset1 != FAIL); - MESG("H5Dcreate succeed"); + VRFY((dataset1 != FAIL), "H5Dcreate succeed"); /* create another dataset collectively */ - dataset2 = H5Dcreate(fid1, DATASETNAME2, H5T_NATIVE_INT, sid1, H5P_DEFAULT); - assert(dataset2 != FAIL); - MESG("H5Dcreate 2 succeed"); + datatype = H5Tcopy(H5T_NATIVE_INT32); + ret = H5Tset_order(datatype, H5T_ORDER_LE); + VRFY((ret != FAIL), "H5Tset_order succeed"); + + dataset2 = H5Dcreate(fid1, DATASETNAME2, datatype, sid1, H5P_DEFAULT); + VRFY((dataset2 != FAIL), "H5Dcreate 2 succeed"); /* * Set up dimensions of the slab this process accesses. @@ -566,21 +579,16 @@ phdf5writeAll(char *filename) /* Dataset1: each process takes a block of rows. */ slab_set(start, count, stride, BYROW); -if (verbose) - printf("start[]=(%d,%d), count[]=(%d,%d), total datapoints=%d\n", - start[0], start[1], count[0], count[1], count[0]*count[1]); /* create a file dataspace independently */ file_dataspace = H5Dget_space (dataset1); - assert(file_dataspace != FAIL); - MESG("H5Dget_space succeed"); + VRFY((file_dataspace != FAIL), "H5Dget_space succeed"); ret=H5Sset_hyperslab(file_dataspace, start, count, stride); - assert(ret != FAIL); - MESG("H5Sset_hyperslab succeed"); + VRFY((ret != FAIL), "H5Sset_hyperslab succeed"); /* create a memory dataspace independently */ mem_dataspace = H5Screate_simple (SPACE1_RANK, count, NULL); - assert (mem_dataspace != FAIL); + VRFY((mem_dataspace != FAIL), ""); /* fill the local slab with some trivial data */ dataset_fill(start, count, stride, &data_array1[0][0]); @@ -592,16 +600,14 @@ if (verbose) /* set up the collective transfer properties list */ xfer_plist = H5Pcreate (H5P_DATASET_XFER); - assert(xfer_plist != FAIL); + VRFY((xfer_plist != FAIL), ""); ret=H5Pset_xfer(xfer_plist, H5D_XFER_COLLECTIVE); - assert(ret != FAIL); - MESG("H5Pcreate xfer succeed"); + VRFY((ret != FAIL), "H5Pcreate xfer succeed"); /* write data collectively */ ret = H5Dwrite(dataset1, H5T_NATIVE_INT, mem_dataspace, file_dataspace, xfer_plist, data_array1); - assert(ret != FAIL); - MESG("H5Dwrite succeed"); + VRFY((ret != FAIL), "H5Dwrite dataset1 succeed"); /* release all temporary handles. */ /* Could have used them for dataset2 but it is cleaner */ @@ -612,9 +618,6 @@ if (verbose) /* Dataset2: each process takes a block of columns. */ slab_set(start, count, stride, BYCOL); -if (verbose) - printf("start[]=(%d,%d), count[]=(%d,%d), total datapoints=%d\n", - start[0], start[1], count[0], count[1], count[0]*count[1]); /* put some trivial data in the data_array */ dataset_fill(start, count, stride, &data_array1[0][0]); @@ -626,15 +629,13 @@ if (verbose) /* create a file dataspace independently */ file_dataspace = H5Dget_space (dataset1); - assert(file_dataspace != FAIL); - MESG("H5Dget_space succeed"); + VRFY((file_dataspace != FAIL), "H5Dget_space succeed"); ret=H5Sset_hyperslab(file_dataspace, start, count, stride); - assert(ret != FAIL); - MESG("H5Sset_hyperslab succeed"); + VRFY((ret != FAIL), "H5Sset_hyperslab succeed"); /* create a memory dataspace independently */ mem_dataspace = H5Screate_simple (SPACE1_RANK, count, NULL); - assert (mem_dataspace != FAIL); + VRFY((mem_dataspace != FAIL), ""); /* fill the local slab with some trivial data */ dataset_fill(start, count, stride, &data_array1[0][0]); @@ -646,16 +647,15 @@ if (verbose) /* set up the collective transfer properties list */ xfer_plist = H5Pcreate (H5P_DATASET_XFER); - assert(xfer_plist != FAIL); + VRFY((xfer_plist != FAIL), ""); ret=H5Pset_xfer(xfer_plist, H5D_XFER_COLLECTIVE); - assert(ret != FAIL); - MESG("H5Pcreate xfer succeed"); + VRFY((ret != FAIL), "H5Pcreate xfer succeed"); /* write data independently */ +printf("WRITING TO DATASET2\n"); ret = H5Dwrite(dataset2, H5T_NATIVE_INT, mem_dataspace, file_dataspace, xfer_plist, data_array1); - assert(ret != FAIL); - MESG("H5Dwrite succeed"); + VRFY((ret != FAIL), "H5Dwrite dataset2 succeed"); /* release all temporary handles. */ H5Sclose(file_dataspace); @@ -667,11 +667,9 @@ if (verbose) * All writes completed. Close datasets collectively */ ret=H5Dclose(dataset1); - assert(ret != FAIL); - MESG("H5Dclose1 succeed"); + VRFY((ret != FAIL), "H5Dclose1 succeed"); ret=H5Dclose(dataset2); - assert(ret != FAIL); - MESG("H5Dclose2 succeed"); + VRFY((ret != FAIL), "H5Dclose2 succeed"); /* release all IDs created */ H5Sclose(sid1); @@ -725,21 +723,18 @@ phdf5readAll(char *filename) * -------------------*/ /* setup file access template with parallel IO access. */ acc_tpl1 = H5Pcreate (H5P_FILE_ACCESS); - assert(acc_tpl1 != FAIL); - MESG("H5Pcreate access succeed"); + VRFY((acc_tpl1 != FAIL), "H5Pcreate access succeed"); /* set Parallel access with communicator */ ret = H5Pset_mpi(acc_tpl1, comm, info); - assert(ret != FAIL); - MESG("H5Pset_mpi succeed"); + VRFY((ret != FAIL), "H5Pset_mpi succeed"); /* open the file collectively */ fid1=H5Fopen(filename,H5F_ACC_RDWR,acc_tpl1); - assert(fid1 != FAIL); - MESG("H5Fopen succeed"); + VRFY((fid1 != FAIL), "H5Fopen succeed"); /* Release file-access template */ ret=H5Pclose(acc_tpl1); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); /* -------------------------- @@ -747,13 +742,11 @@ phdf5readAll(char *filename) * ------------------------- */ /* open the dataset1 collectively */ dataset1 = H5Dopen(fid1, DATASETNAME1); - assert(dataset1 != FAIL); - MESG("H5Dopen succeed"); + VRFY((dataset1 != FAIL), "H5Dopen succeed"); /* open another dataset collectively */ - dataset2 = H5Dopen(fid1, DATASETNAME1); - assert(dataset2 != FAIL); - MESG("H5Dopen 2 succeed"); + dataset2 = H5Dopen(fid1, DATASETNAME2); + VRFY((dataset2 != FAIL), "H5Dopen 2 succeed"); /* * Set up dimensions of the slab this process accesses. @@ -761,46 +754,39 @@ phdf5readAll(char *filename) /* Dataset1: each process takes a block of columns. */ slab_set(start, count, stride, BYCOL); -if (verbose) - printf("start[]=(%d,%d), count[]=(%d,%d), total datapoints=%d\n", - start[0], start[1], count[0], count[1], count[0]*count[1]); /* create a file dataspace independently */ file_dataspace = H5Dget_space (dataset1); - assert(file_dataspace != FAIL); - MESG("H5Dget_space succeed"); + VRFY((file_dataspace != FAIL), "H5Dget_space succeed"); ret=H5Sset_hyperslab(file_dataspace, start, count, stride); - assert(ret != FAIL); - MESG("H5Sset_hyperslab succeed"); + VRFY((ret != FAIL), "H5Sset_hyperslab succeed"); /* create a memory dataspace independently */ mem_dataspace = H5Screate_simple (SPACE1_RANK, count, NULL); - assert (mem_dataspace != FAIL); + VRFY((mem_dataspace != FAIL), ""); /* fill dataset with test data */ dataset_fill(start, count, stride, &data_origin1[0][0]); MESG("data_array initialized"); if (verbose){ MESG("data_array created"); - dataset_print(start, count, stride, &data_array1[0][0]); + dataset_print(start, count, stride, &data_origin1[0][0]); } /* set up the collective transfer properties list */ xfer_plist = H5Pcreate (H5P_DATASET_XFER); - assert(xfer_plist != FAIL); + VRFY((xfer_plist != FAIL), ""); ret=H5Pset_xfer(xfer_plist, H5D_XFER_COLLECTIVE); - assert(ret != FAIL); - MESG("H5Pcreate xfer succeed"); + VRFY((ret != FAIL), "H5Pcreate xfer succeed"); /* read data collectively */ ret = H5Dread(dataset1, H5T_NATIVE_INT, mem_dataspace, file_dataspace, xfer_plist, data_array1); - assert(ret != FAIL); - MESG("H5Dread succeed"); + VRFY((ret != FAIL), "H5Dread succeed"); /* verify the read data with original expected data */ ret = dataset_vrfy(start, count, stride, &data_array1[0][0], &data_origin1[0][0]); - assert(ret != FAIL); + if (ret) nerrors++; /* release all temporary handles. */ /* Could have used them for dataset2 but it is cleaner */ @@ -811,46 +797,39 @@ if (verbose) /* Dataset2: each process takes a block of rows. */ slab_set(start, count, stride, BYROW); -if (verbose) - printf("start[]=(%d,%d), count[]=(%d,%d), total datapoints=%d\n", - start[0], start[1], count[0], count[1], count[0]*count[1]); /* create a file dataspace independently */ file_dataspace = H5Dget_space (dataset1); - assert(file_dataspace != FAIL); - MESG("H5Dget_space succeed"); + VRFY((file_dataspace != FAIL), "H5Dget_space succeed"); ret=H5Sset_hyperslab(file_dataspace, start, count, stride); - assert(ret != FAIL); - MESG("H5Sset_hyperslab succeed"); + VRFY((ret != FAIL), "H5Sset_hyperslab succeed"); /* create a memory dataspace independently */ mem_dataspace = H5Screate_simple (SPACE1_RANK, count, NULL); - assert (mem_dataspace != FAIL); + VRFY((mem_dataspace != FAIL), ""); /* fill dataset with test data */ dataset_fill(start, count, stride, &data_origin1[0][0]); MESG("data_array initialized"); if (verbose){ MESG("data_array created"); - dataset_print(start, count, stride, &data_array1[0][0]); + dataset_print(start, count, stride, &data_origin1[0][0]); } /* set up the collective transfer properties list */ xfer_plist = H5Pcreate (H5P_DATASET_XFER); - assert(xfer_plist != FAIL); + VRFY((xfer_plist != FAIL), ""); ret=H5Pset_xfer(xfer_plist, H5D_XFER_COLLECTIVE); - assert(ret != FAIL); - MESG("H5Pcreate xfer succeed"); + VRFY((ret != FAIL), "H5Pcreate xfer succeed"); /* read data independently */ ret = H5Dread(dataset2, H5T_NATIVE_INT, mem_dataspace, file_dataspace, xfer_plist, data_array1); - assert(ret != FAIL); - MESG("H5Dread succeed"); + VRFY((ret != FAIL), "H5Dread succeed"); /* verify the read data with original expected data */ ret = dataset_vrfy(start, count, stride, &data_array1[0][0], &data_origin1[0][0]); - assert(ret != FAIL); + if (ret) nerrors++; /* release all temporary handles. */ H5Sclose(file_dataspace); @@ -862,11 +841,9 @@ if (verbose) * All reads completed. Close datasets collectively */ ret=H5Dclose(dataset1); - assert(ret != FAIL); - MESG("H5Dclose1 succeed"); + VRFY((ret != FAIL), "H5Dclose1 succeed"); ret=H5Dclose(dataset2); - assert(ret != FAIL); - MESG("H5Dclose2 succeed"); + VRFY((ret != FAIL), "H5Dclose2 succeed"); /* close the file collectively */ H5Fclose(fid1); @@ -884,9 +861,9 @@ if (verbose) * sooner or later due to barrier mixed up. */ void -test_split_comm_access(char *filenames[]) +test_split_comm_access(char *filename[]) { - int mpi_size, myrank; + int mpi_size, mpi_rank; MPI_Comm comm; MPI_Info info = MPI_INFO_NULL; int color, mrc; @@ -896,49 +873,52 @@ test_split_comm_access(char *filenames[]) herr_t ret; /* generic return value */ if (verbose) - printf("Independent write test on file %s %s\n", - filenames[0], filenames[1]); + printf("Split Communicator access test on file %s %s\n", + filename[0], filename[1]); /* set up MPI parameters */ MPI_Comm_size(MPI_COMM_WORLD,&mpi_size); - MPI_Comm_rank(MPI_COMM_WORLD,&myrank); - color = myrank%2; - mrc = MPI_Comm_split (MPI_COMM_WORLD, color, myrank, &comm); - assert(mrc==MPI_SUCCESS); + MPI_Comm_rank(MPI_COMM_WORLD,&mpi_rank); + color = mpi_rank%2; + mrc = MPI_Comm_split (MPI_COMM_WORLD, color, mpi_rank, &comm); + VRFY((mrc==MPI_SUCCESS), ""); MPI_Comm_size(comm,&newprocs); MPI_Comm_rank(comm,&newrank); if (color){ /* odd-rank processes */ mrc = MPI_Barrier(comm); - assert(mrc==MPI_SUCCESS); + VRFY((mrc==MPI_SUCCESS), ""); }else{ /* even-rank processes */ + int sub_mpi_rank; /* rank in the sub-comm */ + MPI_Comm_rank(comm,&sub_mpi_rank); + /* setup file access template */ acc_tpl = H5Pcreate (H5P_FILE_ACCESS); - assert(acc_tpl != FAIL); - MESG("H5Pcreate succeed"); + VRFY((acc_tpl != FAIL), ""); /* set Parallel access with communicator */ ret = H5Pset_mpi(acc_tpl, comm, info); - assert(ret != FAIL); - MESG("H5Pset_mpi succeed"); + VRFY((ret != FAIL), ""); /* create the file collectively */ - fid=H5Fcreate(filenames[color],H5F_ACC_TRUNC,H5P_DEFAULT,acc_tpl); - assert(fid != FAIL); - MESG("H5Fcreate succeed"); + fid=H5Fcreate(filename[color],H5F_ACC_TRUNC,H5P_DEFAULT,acc_tpl); + VRFY((fid != FAIL), "H5Fcreate succeed"); /* Release file-access template */ ret=H5Pclose(acc_tpl); - assert(ret != FAIL); + VRFY((ret != FAIL), ""); + /* close the file */ ret=H5Fclose(fid); - assert(ret != FAIL); - } - if (myrank == 0){ - mrc = MPI_File_delete(filenames[color], info); - assert(mrc==MPI_SUCCESS); + VRFY((ret != FAIL), ""); + + /* detele the test file */ + if (sub_mpi_rank == 0){ + mrc = MPI_File_delete(filename[color], info); + VRFY((mrc==MPI_SUCCESS), ""); + } } } @@ -985,12 +965,7 @@ parse_options(int argc, char **argv){ main(int argc, char **argv) { -#ifdef HAVE_PARALLEL - char *filenames[]={ "pfs:/pfs/multi/tmp_1/your_own/Eg1.h5f", "pfs:/pfs/multi/tmp_1/your_own/Eg2.h5f" }; char *filenames[]={ "ParaEg1.h5f", "ParaEg2.h5f" }; -#else - char *filenames[]={ "Eg1.h5f", "Eg2.h5f" }; -#endif int mpi_namelen; char mpi_name[MPI_MAX_PROCESSOR_NAME]; @@ -1036,13 +1011,14 @@ main(int argc, char **argv) finish: if (mpi_rank == 0){ /* only process 0 reports */ - if (nerrors) + printf("===================================\n"); + if (nerrors){ printf("***PHDF5 tests detected %d errors***\n", nerrors); + } else{ - printf("===================================\n"); printf("PHDF5 tests finished with no errors\n"); - printf("===================================\n"); } + printf("===================================\n"); } MPI_Finalize(); |