diff options
-rw-r--r-- | testpar/t_filters_parallel.c | 2822 | ||||
-rw-r--r-- | testpar/t_filters_parallel.h | 240 |
2 files changed, 2394 insertions, 668 deletions
diff --git a/testpar/t_filters_parallel.c b/testpar/t_filters_parallel.c index 21a5ce0..30c048d 100644 --- a/testpar/t_filters_parallel.c +++ b/testpar/t_filters_parallel.c @@ -33,20 +33,47 @@ int nerrors = 0; #define ARRAY_SIZE(a) sizeof(a) / sizeof(a[0]) -static void test_one_chunk_filtered_dataset(void); -static void test_filtered_dataset_no_overlap(void); -static void test_filtered_dataset_overlap(void); -static void test_filtered_dataset_single_no_selection(void); -static void test_filtered_dataset_all_no_selection(void); -static void test_filtered_dataset_point_selection(void); -static void test_filtered_dataset_interleaved_write(void); -static void test_3d_filtered_dataset_no_overlap_separate_pages(void); -static void test_3d_filtered_dataset_no_overlap_same_pages(void); -static void test_3d_filtered_dataset_overlap(void); -static void test_cmpd_filtered_dataset_no_conversion_unshared(void); -static void test_cmpd_filtered_dataset_no_conversion_shared(void); -static void test_cmpd_filtered_dataset_type_conversion_unshared(void); -static void test_cmpd_filtered_dataset_type_conversion_shared(void); +/* Tests for writing data in parallel */ +static void test_write_one_chunk_filtered_dataset(void); +static void test_write_filtered_dataset_no_overlap(void); +static void test_write_filtered_dataset_overlap(void); +static void test_write_filtered_dataset_single_no_selection(void); +static void test_write_filtered_dataset_all_no_selection(void); +static void test_write_filtered_dataset_point_selection(void); +static void test_write_filtered_dataset_interleaved_write(void); +static void test_write_3d_filtered_dataset_no_overlap_separate_pages(void); +static void test_write_3d_filtered_dataset_no_overlap_same_pages(void); +static void test_write_3d_filtered_dataset_overlap(void); +static void test_write_cmpd_filtered_dataset_no_conversion_unshared(void); +static void test_write_cmpd_filtered_dataset_no_conversion_shared(void); +static void test_write_cmpd_filtered_dataset_type_conversion_unshared(void); +static void test_write_cmpd_filtered_dataset_type_conversion_shared(void); + +/* Tests for reading data in parallel */ +static void test_read_one_chunk_filtered_dataset(void); +static void test_read_filtered_dataset_no_overlap(void); +static void test_read_filtered_dataset_overlap(void); +static void test_read_filtered_dataset_single_no_selection(void); +static void test_read_filtered_dataset_all_no_selection(void); +static void test_read_filtered_dataset_point_selection(void); +static void test_read_filtered_dataset_interleaved_read(void); +static void test_read_3d_filtered_dataset_no_overlap_separate_pages(void); +static void test_read_3d_filtered_dataset_no_overlap_same_pages(void); +static void test_read_3d_filtered_dataset_overlap(void); +static void test_read_cmpd_filtered_dataset_no_conversion_unshared(void); +static void test_read_cmpd_filtered_dataset_no_conversion_shared(void); +static void test_read_cmpd_filtered_dataset_type_conversion_unshared(void); +static void test_read_cmpd_filtered_dataset_type_conversion_shared(void); + +/* + * Tests for attempting to round-trip the data going from + * + * written serially -> read in parallel + * + * and + * + * written in parallel -> read serially + */ static void test_write_serial_read_parallel(void); static void test_write_parallel_read_serial(void); @@ -56,22 +83,36 @@ static int mpi_rank; static int mpi_size; static void (*tests[])(void) = { - test_one_chunk_filtered_dataset, - test_filtered_dataset_no_overlap, - test_filtered_dataset_overlap, - test_filtered_dataset_single_no_selection, - test_filtered_dataset_all_no_selection, - test_filtered_dataset_point_selection, - test_filtered_dataset_interleaved_write, - test_3d_filtered_dataset_no_overlap_separate_pages, - test_3d_filtered_dataset_no_overlap_same_pages, - test_3d_filtered_dataset_overlap, - test_cmpd_filtered_dataset_no_conversion_unshared, - test_cmpd_filtered_dataset_no_conversion_shared, - test_cmpd_filtered_dataset_type_conversion_unshared, - test_cmpd_filtered_dataset_type_conversion_shared, - test_write_serial_read_parallel, - test_write_parallel_read_serial, + test_write_one_chunk_filtered_dataset, + test_write_filtered_dataset_no_overlap, + test_write_filtered_dataset_overlap, + test_write_filtered_dataset_single_no_selection, + test_write_filtered_dataset_all_no_selection, + test_write_filtered_dataset_point_selection, + test_write_filtered_dataset_interleaved_write, + test_write_3d_filtered_dataset_no_overlap_separate_pages, + test_write_3d_filtered_dataset_no_overlap_same_pages, + test_write_3d_filtered_dataset_overlap, + test_write_cmpd_filtered_dataset_no_conversion_unshared, + test_write_cmpd_filtered_dataset_no_conversion_shared, + test_write_cmpd_filtered_dataset_type_conversion_unshared, + test_write_cmpd_filtered_dataset_type_conversion_shared, + test_read_one_chunk_filtered_dataset, + test_read_filtered_dataset_no_overlap, + test_read_filtered_dataset_overlap, + test_read_filtered_dataset_single_no_selection, + test_read_filtered_dataset_all_no_selection, + test_read_filtered_dataset_point_selection, + test_read_filtered_dataset_interleaved_read, + test_read_3d_filtered_dataset_no_overlap_separate_pages, + test_read_3d_filtered_dataset_no_overlap_same_pages, + test_read_3d_filtered_dataset_overlap, + test_read_cmpd_filtered_dataset_no_conversion_unshared, + test_read_cmpd_filtered_dataset_no_conversion_shared, + test_read_cmpd_filtered_dataset_type_conversion_unshared, + test_read_cmpd_filtered_dataset_type_conversion_shared, + test_write_serial_read_parallel, + test_write_parallel_read_serial, }; /* @@ -82,31 +123,32 @@ static void (*tests[])(void) = { * 02/01/2017 */ static void -test_one_chunk_filtered_dataset(void) +test_write_one_chunk_filtered_dataset(void) { C_DATATYPE *data = NULL; C_DATATYPE *read_buf = NULL; C_DATATYPE *correct_buf = NULL; - hsize_t dataset_dims[ONE_CHUNK_FILTERED_DATASET_DIMS]; - hsize_t chunk_dims[ONE_CHUNK_FILTERED_DATASET_DIMS]; - hsize_t sel_dims[ONE_CHUNK_FILTERED_DATASET_DIMS]; - hsize_t count[ONE_CHUNK_FILTERED_DATASET_DIMS]; - hsize_t stride[ONE_CHUNK_FILTERED_DATASET_DIMS]; - hsize_t block[ONE_CHUNK_FILTERED_DATASET_DIMS]; - hsize_t offset[ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t sel_dims[WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t start[WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t stride[WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t count[WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t block[WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS]; size_t i, data_size, correct_buf_size; hid_t file_id = -1, dset_id = -1, plist_id = -1; hid_t filespace = -1, memspace = -1; - if (MAINPROCESS) puts("Testing one-chunk filtered dataset"); + if (MAINPROCESS) puts("Testing write to one-chunk filtered dataset"); /* Set up file access property list with parallel I/O access */ plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); - - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -114,29 +156,30 @@ test_one_chunk_filtered_dataset(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) ONE_CHUNK_FILTERED_DATASET_NROWS; - dataset_dims[1] = (hsize_t) ONE_CHUNK_FILTERED_DATASET_NCOLS; - chunk_dims[0] = (hsize_t) ONE_CHUNK_FILTERED_DATASET_CH_NROWS; - chunk_dims[1] = (hsize_t) ONE_CHUNK_FILTERED_DATASET_CH_NCOLS; - sel_dims[0] = (hsize_t) ONE_CHUNK_FILTERED_DATASET_NROWS / (hsize_t) mpi_size; - sel_dims[1] = (hsize_t) ONE_CHUNK_FILTERED_DATASET_NCOLS; - - filespace = H5Screate_simple(ONE_CHUNK_FILTERED_DATASET_DIMS, dataset_dims, NULL); + dataset_dims[0] = (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_NROWS; + dataset_dims[1] = (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_NCOLS; + chunk_dims[0] = (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS; + sel_dims[0] = (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_NROWS / (hsize_t) mpi_size; + sel_dims[1] = (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_NCOLS; + + filespace = H5Screate_simple(WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(ONE_CHUNK_FILTERED_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, ONE_CHUNK_FILTERED_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); - dset_id = H5Dcreate2(file_id, ONE_CHUNK_FILTERED_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + dset_id = H5Dcreate2(file_id, WRITE_ONE_CHUNK_FILTERED_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -148,26 +191,29 @@ test_one_chunk_filtered_dataset(void) */ count[0] = 1; count[1] = 1; - stride[0] = (hsize_t) ONE_CHUNK_FILTERED_DATASET_CH_NROWS; - stride[1] = (hsize_t) ONE_CHUNK_FILTERED_DATASET_CH_NCOLS; + stride[0] = (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NROWS; + stride[1] = (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS; block[0] = sel_dims[0]; block[1] = sel_dims[1]; - offset[0] = ((hsize_t) mpi_rank * sel_dims[0]); - offset[1] = 0; + start[0] = ((hsize_t) mpi_rank * sel_dims[0]); + start[1] = 0; - if (VERBOSE_MED) - printf("Process %d: count[ %llu, %llu ], stride[ %llu, %llu ], offset[ %llu, %llu ], block size[ %llu, %llu ]\n", - mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + if (VERBOSE_MED) { + printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), "Hyperslab selection succeeded"); /* Fill data buffer */ - data_size = (hsize_t) ONE_CHUNK_FILTERED_DATASET_CH_NROWS * (hsize_t) ONE_CHUNK_FILTERED_DATASET_NCOLS * sizeof(*data); + data_size = (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NROWS + * (hsize_t) WRITE_ONE_CHUNK_FILTERED_DATASET_NCOLS * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); data = (C_DATATYPE *) calloc(1, data_size); @@ -180,16 +226,18 @@ test_one_chunk_filtered_dataset(void) data[i] = (C_DATATYPE) GEN_DATA(i); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) - correct_buf[i] = ((C_DATATYPE) i % (ONE_CHUNK_FILTERED_DATASET_CH_NROWS / mpi_size * ONE_CHUNK_FILTERED_DATASET_CH_NCOLS)) - + ((C_DATATYPE) i / (ONE_CHUNK_FILTERED_DATASET_CH_NROWS / mpi_size * ONE_CHUNK_FILTERED_DATASET_CH_NCOLS)); + correct_buf[i] = ((C_DATATYPE) i % (WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NROWS / mpi_size * WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS)) + + ((C_DATATYPE) i / (WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NROWS / mpi_size * WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS)); /* Create property list for collective dataset write */ plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -199,12 +247,14 @@ test_one_chunk_filtered_dataset(void) read_buf = (C_DATATYPE *) calloc(1, correct_buf_size); VRFY((NULL != read_buf), "calloc succeeded"); - dset_id = H5Dopen2(file_id, "/" ONE_CHUNK_FILTERED_DATASET_NAME, H5P_DEFAULT); + dset_id = H5Dopen2(file_id, "/" WRITE_ONE_CHUNK_FILTERED_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -228,18 +278,18 @@ test_one_chunk_filtered_dataset(void) * 02/01/2017 */ static void -test_filtered_dataset_no_overlap(void) +test_write_filtered_dataset_no_overlap(void) { C_DATATYPE *data = NULL; C_DATATYPE *read_buf = NULL; C_DATATYPE *correct_buf = NULL; - hsize_t dataset_dims[UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t chunk_dims[UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t sel_dims[UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t count[UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t stride[UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t block[UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t offset[UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t start[WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t stride[WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t count[WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t block[WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; size_t i, data_size, correct_buf_size; hid_t file_id = -1, dset_id = -1, plist_id = -1; hid_t filespace = -1, memspace = -1; @@ -250,9 +300,11 @@ test_filtered_dataset_no_overlap(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -260,29 +312,30 @@ test_filtered_dataset_no_overlap(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_NROWS; - dataset_dims[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_NCOLS; - chunk_dims[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_CH_NROWS; - chunk_dims[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_CH_NCOLS; - sel_dims[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_CH_NROWS; - sel_dims[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_NCOLS; - - filespace = H5Screate_simple(UNSHARED_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + dataset_dims[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_NCOLS; + chunk_dims[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_CH_NCOLS; + sel_dims[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_CH_NROWS; + sel_dims[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_NCOLS; + + filespace = H5Screate_simple(WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(UNSHARED_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, UNSHARED_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); - dset_id = H5Dcreate2(file_id, UNSHARED_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + dset_id = H5Dcreate2(file_id, WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -293,23 +346,26 @@ test_filtered_dataset_no_overlap(void) * it to the hyperslab in the file */ count[0] = 1; - count[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_NCOLS / (hsize_t) UNSHARED_FILTERED_CHUNKS_CH_NCOLS; - stride[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_CH_NROWS; - stride[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_CH_NCOLS; - block[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_CH_NROWS; - block[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_CH_NCOLS; - offset[0] = ((hsize_t) mpi_rank * (hsize_t) UNSHARED_FILTERED_CHUNKS_CH_NROWS * count[0]); - offset[1] = 0; - - if (VERBOSE_MED) - printf("Process %d: count[ %llu, %llu ], stride[ %llu, %llu ], offset[ %llu, %llu ], block size[ %llu, %llu ]\n", - mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + count[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_NCOLS / (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_CH_NCOLS; + stride[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_CH_NROWS; + stride[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_CH_NCOLS; + block[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_CH_NROWS; + block[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_CH_NCOLS; + start[0] = ((hsize_t) mpi_rank * (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_CH_NROWS * count[0]); + start[1] = 0; + + if (VERBOSE_MED) { + printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((dset_id >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), + "Hyperslab selection succeeded"); /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); @@ -325,16 +381,21 @@ test_filtered_dataset_no_overlap(void) data[i] = (C_DATATYPE) GEN_DATA(i); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) - correct_buf[i] = (C_DATATYPE) ( (i % (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) - + (i / (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1]))); + correct_buf[i] = + (C_DATATYPE) ( + (i % (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) + + (i / (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) + ); /* Create property list for collective dataset write */ plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -344,12 +405,14 @@ test_filtered_dataset_no_overlap(void) read_buf = (C_DATATYPE *) calloc(1, correct_buf_size); VRFY((NULL != read_buf), "calloc succeeded"); - dset_id = H5Dopen2(file_id, "/" UNSHARED_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + dset_id = H5Dopen2(file_id, "/" WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -374,18 +437,18 @@ test_filtered_dataset_no_overlap(void) * 02/01/2017 */ static void -test_filtered_dataset_overlap(void) +test_write_filtered_dataset_overlap(void) { C_DATATYPE *data = NULL; C_DATATYPE *read_buf = NULL; C_DATATYPE *correct_buf = NULL; - hsize_t dataset_dims[SHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t chunk_dims[SHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t sel_dims[SHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t count[SHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t stride[SHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t block[SHARED_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t offset[SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t start[WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t stride[WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t count[WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t block[WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; size_t i, data_size, correct_buf_size; hid_t file_id = -1, dset_id = -1, plist_id = -1; hid_t filespace = -1, memspace = -1; @@ -396,9 +459,11 @@ test_filtered_dataset_overlap(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -406,29 +471,30 @@ test_filtered_dataset_overlap(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) SHARED_FILTERED_CHUNKS_NROWS; - dataset_dims[1] = (hsize_t) SHARED_FILTERED_CHUNKS_NCOLS; - chunk_dims[0] = (hsize_t) SHARED_FILTERED_CHUNKS_CH_NROWS; - chunk_dims[1] = (hsize_t) SHARED_FILTERED_CHUNKS_CH_NCOLS; + dataset_dims[0] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_NCOLS; + chunk_dims[0] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_CH_NCOLS; sel_dims[0] = (hsize_t) DIM0_SCALE_FACTOR; - sel_dims[1] = (hsize_t) SHARED_FILTERED_CHUNKS_CH_NCOLS * (hsize_t) DIM1_SCALE_FACTOR; + sel_dims[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_CH_NCOLS * (hsize_t) DIM1_SCALE_FACTOR; - filespace = H5Screate_simple(SHARED_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + filespace = H5Screate_simple(WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(SHARED_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, SHARED_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); - dset_id = H5Dcreate2(file_id, SHARED_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + dset_id = H5Dcreate2(file_id, WRITE_SHARED_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -438,24 +504,27 @@ test_filtered_dataset_overlap(void) /* Each process defines the dataset selection in memory and writes * it to the hyperslab in the file */ - count[0] = (hsize_t) SHARED_FILTERED_CHUNKS_NROWS / (hsize_t) SHARED_FILTERED_CHUNKS_CH_NROWS; - count[1] = (hsize_t) SHARED_FILTERED_CHUNKS_NCOLS / (hsize_t) SHARED_FILTERED_CHUNKS_CH_NCOLS; - stride[0] = (hsize_t) SHARED_FILTERED_CHUNKS_CH_NROWS; - stride[1] = (hsize_t) SHARED_FILTERED_CHUNKS_CH_NCOLS; - block[0] = (hsize_t) SHARED_FILTERED_CHUNKS_CH_NROWS / (hsize_t) mpi_size; - block[1] = (hsize_t) SHARED_FILTERED_CHUNKS_CH_NCOLS; - offset[0] = (hsize_t) mpi_rank * block[0]; - offset[1] = 0; - - if (VERBOSE_MED) - printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], offset[ %llu, %llu ], block size[ %llu, %llu ]\n", - mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + count[0] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_NROWS / (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_CH_NROWS; + count[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_NCOLS / (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_CH_NCOLS; + stride[0] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_CH_NROWS; + stride[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_CH_NCOLS; + block[0] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_CH_NROWS / (hsize_t) mpi_size; + block[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_CH_NCOLS; + start[0] = (hsize_t) mpi_rank * block[0]; + start[1] = 0; + + if (VERBOSE_MED) { + printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), + "Hyperslab selection succeeded"); /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); @@ -471,17 +540,21 @@ test_filtered_dataset_overlap(void) data[i] = (C_DATATYPE) GEN_DATA(i); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) - correct_buf[i] = (C_DATATYPE) ((dataset_dims[1] * (i / ((hsize_t) mpi_size * dataset_dims[1]))) - + (i % dataset_dims[1]) - + (((i % ((hsize_t) mpi_size * dataset_dims[1])) / dataset_dims[1]) % dataset_dims[1])); + correct_buf[i] = (C_DATATYPE) ( + (dataset_dims[1] * (i / ((hsize_t) mpi_size * dataset_dims[1]))) + + (i % dataset_dims[1]) + + (((i % ((hsize_t) mpi_size * dataset_dims[1])) / dataset_dims[1]) % dataset_dims[1]) + ); /* Create property list for collective dataset write */ plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -491,12 +564,14 @@ test_filtered_dataset_overlap(void) read_buf = (C_DATATYPE *) calloc(1, correct_buf_size); VRFY((NULL != read_buf), "calloc succeeded"); - dset_id = H5Dopen2(file_id, "/" SHARED_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + dset_id = H5Dopen2(file_id, "/" WRITE_SHARED_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -523,18 +598,18 @@ test_filtered_dataset_overlap(void) * 02/01/2017 */ static void -test_filtered_dataset_single_no_selection(void) +test_write_filtered_dataset_single_no_selection(void) { C_DATATYPE *data = NULL; C_DATATYPE *read_buf = NULL; C_DATATYPE *correct_buf = NULL; - hsize_t dataset_dims[SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t chunk_dims[SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t sel_dims[SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t count[SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t stride[SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t block[SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t offset[SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t start[WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t stride[WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t count[WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t block[WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; size_t i, data_size, correct_buf_size; size_t segment_length; hid_t file_id = -1, dset_id = -1, plist_id = -1; @@ -546,9 +621,11 @@ test_filtered_dataset_single_no_selection(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -556,32 +633,33 @@ test_filtered_dataset_single_no_selection(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_NROWS; - dataset_dims[1] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS; - chunk_dims[0] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; - chunk_dims[1] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; - sel_dims[0] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; - sel_dims[1] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS; - - if (mpi_rank == SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC) + dataset_dims[0] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS; + chunk_dims[0] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + sel_dims[0] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + sel_dims[1] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS; + + if (mpi_rank == WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC) sel_dims[0] = sel_dims[1] = 0; - filespace = H5Screate_simple(SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + filespace = H5Screate_simple(WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); - dset_id = H5Dcreate2(file_id, SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + dset_id = H5Dcreate2(file_id, WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -592,26 +670,29 @@ test_filtered_dataset_single_no_selection(void) * it to the hyperslab in the file */ count[0] = 1; - count[1] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS / (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; - stride[0] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; - stride[1] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; - block[0] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; - block[1] = (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; - offset[0] = (hsize_t) mpi_rank * (hsize_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * count[0]; - offset[1] = 0; - - if (VERBOSE_MED) - printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], offset[ %llu, %llu ], block size[ %llu, %llu ]\n", - mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + count[1] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS / (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + stride[0] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + stride[1] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + block[0] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + block[1] = (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + start[0] = (hsize_t) mpi_rank * (hsize_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * count[0]; + start[1] = 0; + + if (VERBOSE_MED) { + printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - if (mpi_rank == SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC) + if (mpi_rank == WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC) VRFY((H5Sselect_none(filespace) >= 0), "Select none succeeded"); else - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), + "Hyperslab selection succeeded"); /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); @@ -627,20 +708,26 @@ test_filtered_dataset_single_no_selection(void) data[i] = (C_DATATYPE) GEN_DATA(i); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) - correct_buf[i] = (C_DATATYPE) ( (i % (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) - + (i / (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1]))); + correct_buf[i] = + (C_DATATYPE) ( + (i % (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) + + (i / (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) + ); /* Compute the correct offset into the buffer for the process having no selection and clear it */ segment_length = dataset_dims[0] * dataset_dims[1] / (hsize_t) mpi_size; - HDmemset(correct_buf + ((size_t) SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC * segment_length), 0, segment_length * sizeof(*data)); + HDmemset(correct_buf + ((size_t) WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC * segment_length), + 0, segment_length * sizeof(*data)); /* Create property list for collective dataset write */ plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -650,12 +737,14 @@ test_filtered_dataset_single_no_selection(void) read_buf = (C_DATATYPE *) calloc(1, correct_buf_size); VRFY((NULL != read_buf), "calloc succeeded"); - dset_id = H5Dopen2(file_id, "/" SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + dset_id = H5Dopen2(file_id, "/" WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -683,14 +772,14 @@ test_filtered_dataset_single_no_selection(void) * 02/02/2017 */ static void -test_filtered_dataset_all_no_selection(void) +test_write_filtered_dataset_all_no_selection(void) { C_DATATYPE *data = NULL; C_DATATYPE *read_buf = NULL; C_DATATYPE *correct_buf = NULL; - hsize_t dataset_dims[ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t chunk_dims[ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t sel_dims[ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; size_t i, data_size, correct_buf_size; hid_t file_id = -1, dset_id = -1, plist_id = -1; hid_t filespace = -1, memspace = -1; @@ -701,9 +790,11 @@ test_filtered_dataset_all_no_selection(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -711,28 +802,29 @@ test_filtered_dataset_all_no_selection(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) ALL_NO_SELECTION_FILTERED_CHUNKS_NROWS; - dataset_dims[1] = (hsize_t) ALL_NO_SELECTION_FILTERED_CHUNKS_NCOLS; - chunk_dims[0] = (hsize_t) ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; - chunk_dims[1] = (hsize_t) ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + dataset_dims[0] = (hsize_t) WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_NCOLS; + chunk_dims[0] = (hsize_t) WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; sel_dims[0] = sel_dims[1] = 0; - filespace = H5Screate_simple(ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + filespace = H5Screate_simple(WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); - dset_id = H5Dcreate2(file_id, ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + dset_id = H5Dcreate2(file_id, WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -761,9 +853,11 @@ test_filtered_dataset_all_no_selection(void) plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -773,12 +867,14 @@ test_filtered_dataset_all_no_selection(void) read_buf = (C_DATATYPE *) calloc(1, correct_buf_size); VRFY((NULL != read_buf), "calloc succeeded"); - dset_id = H5Dopen2(file_id, "/" ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + dset_id = H5Dopen2(file_id, "/" WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -800,15 +896,15 @@ test_filtered_dataset_all_no_selection(void) * 02/02/2017 */ static void -test_filtered_dataset_point_selection(void) +test_write_filtered_dataset_point_selection(void) { C_DATATYPE *data = NULL; C_DATATYPE *correct_buf = NULL; C_DATATYPE *read_buf = NULL; hsize_t *coords = NULL; - hsize_t dataset_dims[POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t chunk_dims[POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; - hsize_t sel_dims[POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; size_t i, j, data_size, correct_buf_size; size_t num_points; hid_t file_id = -1, dset_id = -1, plist_id = -1; @@ -820,9 +916,11 @@ test_filtered_dataset_point_selection(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -830,29 +928,30 @@ test_filtered_dataset_point_selection(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_NROWS; - dataset_dims[1] = (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_NCOLS; - chunk_dims[0] = (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_CH_NROWS; - chunk_dims[1] = (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_CH_NCOLS; - sel_dims[0] = (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_NROWS / (hsize_t) mpi_size; - sel_dims[1] = (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_NCOLS; - - filespace = H5Screate_simple(POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + dataset_dims[0] = (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_NCOLS; + chunk_dims[0] = (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + sel_dims[0] = (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_NROWS / (hsize_t) mpi_size; + sel_dims[1] = (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_NCOLS; + + filespace = H5Screate_simple(WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims,NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); - dset_id = H5Dcreate2(file_id, POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + dset_id = H5Dcreate2(file_id, WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -863,16 +962,17 @@ test_filtered_dataset_point_selection(void) filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - num_points = (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_NROWS * (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_NCOLS / (hsize_t) mpi_size; + num_points = (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_NROWS * (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_NCOLS / (hsize_t) mpi_size; coords = (hsize_t *) calloc(1, 2 * num_points * sizeof(*coords)); VRFY((NULL != coords), "Coords calloc succeeded"); for (i = 0; i < num_points; i++) - for (j = 0; j < POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS; j++) - coords[(i * POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS) + j] = (j > 0) ? (i % (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_NCOLS) - : ((hsize_t) mpi_rank + ((hsize_t) mpi_size * (i / (hsize_t) POINT_SELECTION_FILTERED_CHUNKS_NCOLS))); + for (j = 0; j < WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS; j++) + coords[(i * WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS) + j] = + (j > 0) ? (i % (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_NCOLS) + : ((hsize_t) mpi_rank + ((hsize_t) mpi_size * (i / (hsize_t) WRITE_POINT_SELECTION_FILTERED_CHUNKS_NCOLS))); - VRFY((H5Sselect_elements(filespace, H5S_SELECT_SET, (hsize_t) num_points, (const hsize_t *) coords) >= 0), + VRFY((H5Sselect_elements(filespace, H5S_SELECT_SET, (hsize_t ) num_points, (const hsize_t * ) coords) >= 0), "Point selection succeeded"); /* Fill data buffer */ @@ -889,17 +989,21 @@ test_filtered_dataset_point_selection(void) data[i] = (C_DATATYPE) GEN_DATA(i); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) - correct_buf[i] = (C_DATATYPE) ((dataset_dims[1] * (i / ((hsize_t) mpi_size * dataset_dims[1]))) - + (i % dataset_dims[1]) - + (((i % ((hsize_t) mpi_size * dataset_dims[1])) / dataset_dims[1]) % dataset_dims[1])); + correct_buf[i] = (C_DATATYPE) ( + (dataset_dims[1] * (i / ((hsize_t) mpi_size * dataset_dims[1]))) + + (i % dataset_dims[1]) + + (((i % ((hsize_t) mpi_size * dataset_dims[1])) / dataset_dims[1]) % dataset_dims[1]) + ); /* Create property list for collective dataset write */ plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -909,12 +1013,14 @@ test_filtered_dataset_point_selection(void) read_buf = (C_DATATYPE *) calloc(1, correct_buf_size); VRFY((NULL != read_buf), "calloc succeeded"); - dset_id = H5Dopen2(file_id, "/" POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + dset_id = H5Dopen2(file_id, "/" WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (coords) free(coords); if (correct_buf) free(correct_buf); @@ -941,7 +1047,7 @@ test_filtered_dataset_point_selection(void) * 02/02/2017 */ static void -test_filtered_dataset_interleaved_write(void) +test_write_filtered_dataset_interleaved_write(void) { C_DATATYPE *data = NULL; C_DATATYPE *read_buf = NULL; @@ -949,10 +1055,10 @@ test_filtered_dataset_interleaved_write(void) hsize_t dataset_dims[INTERLEAVED_WRITE_FILTERED_DATASET_DIMS]; hsize_t chunk_dims[INTERLEAVED_WRITE_FILTERED_DATASET_DIMS]; hsize_t sel_dims[INTERLEAVED_WRITE_FILTERED_DATASET_DIMS]; - hsize_t count[INTERLEAVED_WRITE_FILTERED_DATASET_DIMS]; + hsize_t start[INTERLEAVED_WRITE_FILTERED_DATASET_DIMS]; hsize_t stride[INTERLEAVED_WRITE_FILTERED_DATASET_DIMS]; + hsize_t count[INTERLEAVED_WRITE_FILTERED_DATASET_DIMS]; hsize_t block[INTERLEAVED_WRITE_FILTERED_DATASET_DIMS]; - hsize_t offset[INTERLEAVED_WRITE_FILTERED_DATASET_DIMS]; size_t i, data_size, correct_buf_size; hid_t file_id = -1, dset_id = -1, plist_id = -1; hid_t filespace = -1, memspace = -1; @@ -963,9 +1069,11 @@ test_filtered_dataset_interleaved_write(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -990,7 +1098,8 @@ test_filtered_dataset_interleaved_write(void) plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, INTERLEAVED_WRITE_FILTERED_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, INTERLEAVED_WRITE_FILTERED_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); @@ -1011,18 +1120,21 @@ test_filtered_dataset_interleaved_write(void) stride[1] = (hsize_t) INTERLEAVED_WRITE_FILTERED_DATASET_CH_NCOLS; block[0] = 1; block[1] = (hsize_t) INTERLEAVED_WRITE_FILTERED_DATASET_CH_NCOLS; - offset[0] = (hsize_t) mpi_rank; - offset[1] = 0; + start[0] = (hsize_t) mpi_rank; + start[1] = 0; - if (VERBOSE_MED) - printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], offset[ %llu, %llu ], block size[ %llu, %llu ]\n", - mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + if (VERBOSE_MED) { + printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), + "Hyperslab selection succeeded"); /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); @@ -1038,22 +1150,27 @@ test_filtered_dataset_interleaved_write(void) data[i] = (C_DATATYPE) GEN_DATA(i); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) - /* Add Column Index */ - correct_buf[i] = (C_DATATYPE) ( (i % (hsize_t) INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS) + /* Add Column Index */ + correct_buf[i] = + (C_DATATYPE) ( + (i % (hsize_t) INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS) - /* Add the Row Index */ - + ((i % (hsize_t) (mpi_size * INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS)) / (hsize_t) INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS) + /* Add the Row Index */ + + ((i % (hsize_t) (mpi_size * INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS)) / (hsize_t) INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS) - /* Add the amount that gets added when a rank moves down to its next section vertically in the dataset */ - + ((hsize_t) INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS * (i / (hsize_t) (mpi_size * INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS)))); + /* Add the amount that gets added when a rank moves down to its next section vertically in the dataset */ + + ((hsize_t) INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS * (i / (hsize_t) (mpi_size * INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS))) + ); /* Create property list for collective dataset write */ plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -1066,9 +1183,11 @@ test_filtered_dataset_interleaved_write(void) dset_id = H5Dopen2(file_id, "/" INTERLEAVED_WRITE_FILTERED_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -1091,18 +1210,18 @@ test_filtered_dataset_interleaved_write(void) * 02/06/2017 */ static void -test_3d_filtered_dataset_no_overlap_separate_pages(void) +test_write_3d_filtered_dataset_no_overlap_separate_pages(void) { C_DATATYPE *data = NULL; C_DATATYPE *read_buf = NULL; C_DATATYPE *correct_buf = NULL; - hsize_t dataset_dims[UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; - hsize_t chunk_dims[UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; - hsize_t sel_dims[UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; - hsize_t count[UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; - hsize_t stride[UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; - hsize_t block[UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; - hsize_t offset[UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; + hsize_t sel_dims[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; + hsize_t count[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; + hsize_t stride[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; + hsize_t block[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; + hsize_t offset[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS]; size_t i, data_size, correct_buf_size; hid_t file_id = -1, dset_id = -1, plist_id = -1; hid_t filespace = -1, memspace = -1; @@ -1113,9 +1232,11 @@ test_3d_filtered_dataset_no_overlap_separate_pages(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -1123,32 +1244,33 @@ test_3d_filtered_dataset_no_overlap_separate_pages(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS; - dataset_dims[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS; - dataset_dims[2] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DEPTH; - chunk_dims[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS; - chunk_dims[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS; + dataset_dims[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS; + dataset_dims[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS; + dataset_dims[2] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DEPTH; + chunk_dims[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS; chunk_dims[2] = 1; - sel_dims[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS; - sel_dims[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS; + sel_dims[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS; + sel_dims[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS; sel_dims[2] = 1; - filespace = H5Screate_simple(UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS, dataset_dims, NULL); + filespace = H5Screate_simple( WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple( WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); - dset_id = H5Dcreate2(file_id, UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + dset_id = H5Dcreate2(file_id, WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -1158,28 +1280,31 @@ test_3d_filtered_dataset_no_overlap_separate_pages(void) /* Each process defines the dataset selection in memory and writes * it to the hyperslab in the file */ - count[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS / (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS; - count[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS / (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS; + count[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS / (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS; + count[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS / (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS; count[2] = 1; - stride[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS; - stride[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS; + stride[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS; + stride[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS; stride[2] = 1; - block[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS; - block[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS; + block[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS; + block[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS; block[2] = 1; offset[0] = 0; offset[1] = 0; offset[2] = (hsize_t) mpi_rank; - if (VERBOSE_MED) + if (VERBOSE_MED) { printf("Process %d is writing with count[ %llu, %llu, %llu ], stride[ %llu, %llu, %llu ], offset[ %llu, %llu, %llu ], block size[ %llu, %llu, %llu ]\n", - mpi_rank, count[0], count[1], count[2], stride[0], stride[1], stride[2], offset[0], offset[1], offset[2], block[0], block[1], block[2]); + mpi_rank, count[0], count[1], count[2], stride[0], stride[1], stride[2], offset[0], offset[1], offset[2], block[0], block[1], block[2]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), + "Hyperslab selection succeeded"); /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sel_dims[2] * sizeof(*data); @@ -1201,9 +1326,11 @@ test_3d_filtered_dataset_no_overlap_separate_pages(void) plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -1213,12 +1340,14 @@ test_3d_filtered_dataset_no_overlap_separate_pages(void) read_buf = (C_DATATYPE *) calloc(1, correct_buf_size); VRFY((NULL != read_buf), "calloc succeeded"); - dset_id = H5Dopen2(file_id, "/" UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_NAME, H5P_DEFAULT); + dset_id = H5Dopen2(file_id, "/" WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -1242,18 +1371,18 @@ test_3d_filtered_dataset_no_overlap_separate_pages(void) * 02/06/2017 */ static void -test_3d_filtered_dataset_no_overlap_same_pages(void) +test_write_3d_filtered_dataset_no_overlap_same_pages(void) { C_DATATYPE *data = NULL; C_DATATYPE *read_buf = NULL; C_DATATYPE *correct_buf = NULL; - hsize_t dataset_dims[UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; - hsize_t chunk_dims[UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; - hsize_t sel_dims[UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; - hsize_t count[UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; - hsize_t stride[UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; - hsize_t block[UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; - hsize_t offset[UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; + hsize_t sel_dims[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; + hsize_t count[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; + hsize_t stride[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; + hsize_t block[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; + hsize_t offset[WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS]; size_t i, data_size, correct_buf_size; hid_t file_id, dset_id, plist_id; hid_t filespace, memspace; @@ -1264,9 +1393,11 @@ test_3d_filtered_dataset_no_overlap_same_pages(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -1274,32 +1405,33 @@ test_3d_filtered_dataset_no_overlap_same_pages(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NROWS; - dataset_dims[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS; - dataset_dims[2] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DEPTH; - chunk_dims[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS; - chunk_dims[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS; + dataset_dims[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NROWS; + dataset_dims[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS; + dataset_dims[2] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DEPTH; + chunk_dims[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS; chunk_dims[2] = 1; - sel_dims[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS; - sel_dims[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS; - sel_dims[2] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DEPTH; + sel_dims[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS; + sel_dims[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS; + sel_dims[2] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DEPTH; - filespace = H5Screate_simple(UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS, dataset_dims, NULL); + filespace = H5Screate_simple(WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); - dset_id = H5Dcreate2(file_id, UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + dset_id = H5Dcreate2(file_id, WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -1310,27 +1442,30 @@ test_3d_filtered_dataset_no_overlap_same_pages(void) * it to the hyperslab in the file */ count[0] = 1; - count[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS / (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS; + count[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS / (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS; count[2] = (hsize_t) mpi_size; - stride[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS; - stride[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS; + stride[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS; + stride[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS; stride[2] = 1; - block[0] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS; - block[1] = (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS; + block[0] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS; + block[1] = (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS; block[2] = 1; - offset[0] = ((hsize_t) mpi_rank * (hsize_t) UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS * count[0]); + offset[0] = ((hsize_t) mpi_rank * (hsize_t) WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS * count[0]); offset[1] = 0; offset[2] = 0; - if (VERBOSE_MED) + if (VERBOSE_MED) { printf("Process %d is writing with count[ %llu, %llu, %llu ], stride[ %llu, %llu, %llu ], offset[ %llu, %llu, %llu ], block size[ %llu, %llu, %llu ]\n", - mpi_rank, count[0], count[1], count[2], stride[0], stride[1], stride[2], offset[0], offset[1], offset[2], block[0], block[1], block[2]); + mpi_rank, count[0], count[1], count[2], stride[0], stride[1], stride[2], offset[0], offset[1], offset[2], block[0], block[1], block[2]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), + "Hyperslab selection succeeded"); /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sel_dims[2] * sizeof(*data); @@ -1346,15 +1481,20 @@ test_3d_filtered_dataset_no_overlap_same_pages(void) data[i] = (C_DATATYPE) GEN_DATA(i); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) - correct_buf[i] = (C_DATATYPE) ((i % (dataset_dims[0] * dataset_dims[1])) + (i / (dataset_dims[0] * dataset_dims[1]))); + correct_buf[i] = (C_DATATYPE) ( + (i % (dataset_dims[0] * dataset_dims[1])) + + (i / (dataset_dims[0] * dataset_dims[1])) + ); /* Create property list for collective dataset write */ plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -1364,12 +1504,14 @@ test_3d_filtered_dataset_no_overlap_same_pages(void) read_buf = (C_DATATYPE *) calloc(1, correct_buf_size); VRFY((NULL != read_buf), "calloc succeeded"); - dset_id = H5Dopen2(file_id, "/" UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_NAME, H5P_DEFAULT); + dset_id = H5Dopen2(file_id, "/" WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -1393,18 +1535,18 @@ test_3d_filtered_dataset_no_overlap_same_pages(void) * 02/06/2017 */ static void -test_3d_filtered_dataset_overlap(void) +test_write_3d_filtered_dataset_overlap(void) { C_DATATYPE *data = NULL; C_DATATYPE *read_buf = NULL; C_DATATYPE *correct_buf = NULL; - hsize_t dataset_dims[SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; - hsize_t chunk_dims[SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; - hsize_t sel_dims[SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; - hsize_t count[SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; - hsize_t stride[SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; - hsize_t block[SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; - hsize_t offset[SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; + hsize_t sel_dims[WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; + hsize_t count[WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; + hsize_t stride[WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; + hsize_t block[WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; + hsize_t offset[WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS]; size_t i, data_size, correct_buf_size; hid_t file_id = -1, dset_id = -1, plist_id = -1; hid_t filespace = -1, memspace = -1; @@ -1415,9 +1557,11 @@ test_3d_filtered_dataset_overlap(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -1425,32 +1569,33 @@ test_3d_filtered_dataset_overlap(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_NROWS; - dataset_dims[1] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_NCOLS; - dataset_dims[2] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_DEPTH; - chunk_dims[0] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_CH_NROWS; - chunk_dims[1] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_CH_NCOLS; + dataset_dims[0] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_NROWS; + dataset_dims[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_NCOLS; + dataset_dims[2] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_DEPTH; + chunk_dims[0] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NCOLS; chunk_dims[2] = 1; - sel_dims[0] = (hsize_t) (SHARED_FILTERED_CHUNKS_3D_NROWS / mpi_size); - sel_dims[1] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_NCOLS; - sel_dims[2] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_DEPTH; + sel_dims[0] = (hsize_t) (WRITE_SHARED_FILTERED_CHUNKS_3D_NROWS / mpi_size); + sel_dims[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_NCOLS; + sel_dims[2] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_DEPTH; - filespace = H5Screate_simple(SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS, dataset_dims, NULL); + filespace = H5Screate_simple(WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); - dset_id = H5Dcreate2(file_id, SHARED_FILTERED_CHUNKS_3D_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + dset_id = H5Dcreate2(file_id, WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -1460,28 +1605,31 @@ test_3d_filtered_dataset_overlap(void) /* Each process defines the dataset selection in memory and writes * it to the hyperslab in the file */ - count[0] = (hsize_t) (SHARED_FILTERED_CHUNKS_3D_NROWS / SHARED_FILTERED_CHUNKS_3D_CH_NROWS); - count[1] = (hsize_t) (SHARED_FILTERED_CHUNKS_3D_NCOLS / SHARED_FILTERED_CHUNKS_3D_CH_NCOLS); - count[2] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_DEPTH; - stride[0] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_CH_NROWS; - stride[1] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_CH_NCOLS; + count[0] = (hsize_t) (WRITE_SHARED_FILTERED_CHUNKS_3D_NROWS / WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NROWS); + count[1] = (hsize_t) (WRITE_SHARED_FILTERED_CHUNKS_3D_NCOLS / WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NCOLS); + count[2] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_DEPTH; + stride[0] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NROWS; + stride[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NCOLS; stride[2] = 1; block[0] = 1; - block[1] = (hsize_t) SHARED_FILTERED_CHUNKS_3D_CH_NCOLS; + block[1] = (hsize_t) WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NCOLS; block[2] = 1; offset[0] = (hsize_t) mpi_rank; offset[1] = 0; offset[2] = 0; - if (VERBOSE_MED) + if (VERBOSE_MED) { printf("Process %d is writing with count[ %llu, %llu, %llu ], stride[ %llu, %llu, %llu ], offset[ %llu, %llu, %llu ], block size[ %llu, %llu, %llu ]\n", - mpi_rank, count[0], count[1], count[2], stride[0], stride[1], stride[2], offset[0], offset[1], offset[2], block[0], block[1], block[2]); + mpi_rank, count[0], count[1], count[2], stride[0], stride[1], stride[2], offset[0], offset[1], offset[2], block[0], block[1], block[2]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, + count, block) >= 0), "Hyperslab selection succeeded"); /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sel_dims[2] * sizeof(*data); @@ -1497,22 +1645,29 @@ test_3d_filtered_dataset_overlap(void) data[i] = (C_DATATYPE) GEN_DATA(i); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) - /* Add the Column Index */ - correct_buf[i] = (C_DATATYPE) ( (i % (hsize_t) (SHARED_FILTERED_CHUNKS_3D_DEPTH * SHARED_FILTERED_CHUNKS_3D_NCOLS)) + /* Add the Column Index */ + correct_buf[i] = + (C_DATATYPE) ( + (i % (hsize_t) (WRITE_SHARED_FILTERED_CHUNKS_3D_DEPTH * WRITE_SHARED_FILTERED_CHUNKS_3D_NCOLS)) - /* Add the Row Index */ - + ((i % (hsize_t) (mpi_size * SHARED_FILTERED_CHUNKS_3D_DEPTH * SHARED_FILTERED_CHUNKS_3D_NCOLS)) / (hsize_t) (SHARED_FILTERED_CHUNKS_3D_DEPTH * SHARED_FILTERED_CHUNKS_3D_NCOLS)) + /* Add the Row Index */ + + ((i % (hsize_t) (mpi_size * WRITE_SHARED_FILTERED_CHUNKS_3D_DEPTH * WRITE_SHARED_FILTERED_CHUNKS_3D_NCOLS)) + / (hsize_t) (WRITE_SHARED_FILTERED_CHUNKS_3D_DEPTH * WRITE_SHARED_FILTERED_CHUNKS_3D_NCOLS)) - /* Add the amount that gets added when a rank moves down to its next section vertically in the dataset */ - + ((hsize_t) (SHARED_FILTERED_CHUNKS_3D_DEPTH * SHARED_FILTERED_CHUNKS_3D_NCOLS) * (i / (hsize_t) (mpi_size * SHARED_FILTERED_CHUNKS_3D_DEPTH * SHARED_FILTERED_CHUNKS_3D_NCOLS)))); + /* Add the amount that gets added when a rank moves down to its next section vertically in the dataset */ + + ((hsize_t) (WRITE_SHARED_FILTERED_CHUNKS_3D_DEPTH * WRITE_SHARED_FILTERED_CHUNKS_3D_NCOLS) + * (i / (hsize_t) (mpi_size * WRITE_SHARED_FILTERED_CHUNKS_3D_DEPTH * WRITE_SHARED_FILTERED_CHUNKS_3D_NCOLS))) + ); /* Create property list for collective dataset write */ plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -1522,12 +1677,14 @@ test_3d_filtered_dataset_overlap(void) read_buf = (C_DATATYPE *) calloc(1, correct_buf_size); VRFY((NULL != read_buf), "calloc succeeded"); - dset_id = H5Dopen2(file_id, "/" SHARED_FILTERED_CHUNKS_3D_DATASET_NAME, H5P_DEFAULT); + dset_id = H5Dopen2(file_id, "/" WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -1551,16 +1708,16 @@ test_3d_filtered_dataset_overlap(void) */ /* JTH: This test currently cannot be data-verified due to the floating-point data involved */ static void -test_cmpd_filtered_dataset_no_conversion_unshared(void) +test_write_cmpd_filtered_dataset_no_conversion_unshared(void) { cmpd_filtered_t *data = NULL; - hsize_t dataset_dims[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t chunk_dims[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t sel_dims[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t count[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t stride[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t block[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t offset[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t sel_dims[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t count[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t stride[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t block[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t offset[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS]; size_t i; hid_t file_id = -1, dset_id = -1, plist_id = -1, memtype = -1; hid_t filespace = -1, memspace = -1; @@ -1571,9 +1728,11 @@ test_cmpd_filtered_dataset_no_conversion_unshared(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -1581,24 +1740,25 @@ test_cmpd_filtered_dataset_no_conversion_unshared(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NROWS; - dataset_dims[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NCOLS; - chunk_dims[0] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS; - chunk_dims[1] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS; - sel_dims[0] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS; - sel_dims[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC; - - filespace = H5Screate_simple(COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS, dataset_dims, NULL); + dataset_dims[0] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NROWS; + dataset_dims[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NCOLS; + chunk_dims[0] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS; + chunk_dims[1] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS; + sel_dims[0] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS; + sel_dims[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC; + + filespace = H5Screate_simple(WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); @@ -1607,12 +1767,16 @@ test_cmpd_filtered_dataset_no_conversion_unshared(void) memtype = H5Tcreate(H5T_COMPOUND, sizeof(cmpd_filtered_t)); VRFY((memtype >= 0), "Datatype creation succeeded"); - VRFY((H5Tinsert(memtype, "ShortData", HOFFSET(cmpd_filtered_t, field1), H5T_NATIVE_SHORT) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "IntData", HOFFSET(cmpd_filtered_t, field2), H5T_NATIVE_INT) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "LongData", HOFFSET(cmpd_filtered_t, field3), H5T_NATIVE_LONG) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "DoubleData", HOFFSET(cmpd_filtered_t, field4), H5T_NATIVE_DOUBLE) >= 0), "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "ShortData", HOFFSET(cmpd_filtered_t, field1), H5T_NATIVE_SHORT) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "IntData", HOFFSET(cmpd_filtered_t, field2), H5T_NATIVE_INT) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "LongData", HOFFSET(cmpd_filtered_t, field3), H5T_NATIVE_LONG) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "DoubleData", HOFFSET(cmpd_filtered_t, field4), H5T_NATIVE_DOUBLE) >= 0), + "Datatype insertion succeeded"); - dset_id = H5Dcreate2(file_id, COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_NAME, memtype, filespace, + dset_id = H5Dcreate2(file_id, WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_NAME, memtype, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -1623,30 +1787,33 @@ test_cmpd_filtered_dataset_no_conversion_unshared(void) * it to the hyperslab in the file */ count[0] = 1; - count[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC; - stride[0] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS; - stride[1] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS; - block[0] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS; - block[1] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS; + count[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC; + stride[0] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS; + stride[1] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS; + block[0] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS; + block[1] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS; offset[0] = 0; - offset[1] = ((hsize_t) mpi_rank * COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS); + offset[1] = ((hsize_t) mpi_rank * WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS); - if (VERBOSE_MED) + if (VERBOSE_MED) { printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], offset[ %llu, %llu ], block size[ %llu, %llu ]\n", mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), + "Hyperslab selection succeeded"); - data = (COMPOUND_C_DATATYPE *) calloc(1, (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC * sizeof(*data)); + data = (COMPOUND_C_DATATYPE *) calloc(1, (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC * sizeof(*data)); VRFY((NULL != data), "calloc succeeded"); /* Fill data buffer */ - memset(data, 0, sizeof(cmpd_filtered_t) * (size_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC); - for (i = 0; i < (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC; i++) { + memset(data, 0, sizeof(cmpd_filtered_t) * (size_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC); + for (i = 0; i < (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC; i++) { data[i].field1 = (short) GEN_DATA(i); data[i].field2 = (int) GEN_DATA(i); data[i].field3 = (long) GEN_DATA(i); @@ -1657,9 +1824,11 @@ test_cmpd_filtered_dataset_no_conversion_unshared(void) plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, memtype, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, memtype, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -1683,16 +1852,16 @@ test_cmpd_filtered_dataset_no_conversion_unshared(void) */ /* JTH: This test currently cannot be data-verified due to the floating-point data involved */ static void -test_cmpd_filtered_dataset_no_conversion_shared(void) +test_write_cmpd_filtered_dataset_no_conversion_shared(void) { cmpd_filtered_t *data = NULL; - hsize_t dataset_dims[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t chunk_dims[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t sel_dims[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t count[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t stride[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t block[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t offset[COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t sel_dims[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t count[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t stride[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t block[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t offset[WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS]; size_t i; hid_t file_id, dset_id, plist_id, memtype; hid_t filespace, memspace; @@ -1701,11 +1870,13 @@ test_cmpd_filtered_dataset_no_conversion_shared(void) /* Set up file access property list with parallel I/O access */ plist_id = H5Pcreate(H5P_FILE_ACCESS); - VRFY((plist_id>= 0), "FAPL creation succeeded"); + VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -1713,24 +1884,25 @@ test_cmpd_filtered_dataset_no_conversion_shared(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NROWS; - dataset_dims[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NCOLS; - chunk_dims[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS; - chunk_dims[1] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NCOLS; - sel_dims[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS / (hsize_t) mpi_size; - sel_dims[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC; - - filespace = H5Screate_simple(COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS, dataset_dims, NULL); + dataset_dims[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NROWS; + dataset_dims[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NCOLS; + chunk_dims[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS; + chunk_dims[1] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NCOLS; + sel_dims[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS / (hsize_t) mpi_size; + sel_dims[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC; + + filespace = H5Screate_simple(WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); @@ -1739,12 +1911,16 @@ test_cmpd_filtered_dataset_no_conversion_shared(void) memtype = H5Tcreate(H5T_COMPOUND, sizeof(cmpd_filtered_t)); VRFY((memtype >= 0), "Datatype creation succeeded"); - VRFY((H5Tinsert(memtype, "ShortData", HOFFSET(cmpd_filtered_t, field1), H5T_NATIVE_SHORT) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "IntData", HOFFSET(cmpd_filtered_t, field2), H5T_NATIVE_INT) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "LongData", HOFFSET(cmpd_filtered_t, field3), H5T_NATIVE_LONG) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "DoubleData", HOFFSET(cmpd_filtered_t, field4), H5T_NATIVE_DOUBLE) >= 0), "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "ShortData", HOFFSET(cmpd_filtered_t, field1), H5T_NATIVE_SHORT) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "IntData", HOFFSET(cmpd_filtered_t, field2), H5T_NATIVE_INT) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "LongData", HOFFSET(cmpd_filtered_t, field3), H5T_NATIVE_LONG) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "DoubleData", HOFFSET(cmpd_filtered_t, field4), H5T_NATIVE_DOUBLE) >= 0), + "Datatype insertion succeeded"); - dset_id = H5Dcreate2(file_id, COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_NAME, memtype, filespace, + dset_id = H5Dcreate2(file_id, WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_NAME, memtype, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -1755,30 +1931,33 @@ test_cmpd_filtered_dataset_no_conversion_shared(void) * it to the hyperslab in the file */ count[0] = 1; - count[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC; - stride[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS; - stride[1] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NCOLS; - block[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS / (hsize_t) mpi_size; - block[1] = COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NCOLS; + count[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC; + stride[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS; + stride[1] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NCOLS; + block[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS / (hsize_t) mpi_size; + block[1] = WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NCOLS; offset[0] = (hsize_t) mpi_rank; offset[1] = 0; - if (VERBOSE_MED) + if (VERBOSE_MED) { printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], offset[ %llu, %llu ], block size[ %llu, %llu ]\n", - mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), + "Hyperslab selection succeeded"); - data = (COMPOUND_C_DATATYPE *) calloc(1, (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC * sizeof(*data)); + data = (COMPOUND_C_DATATYPE *) calloc(1, (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC * sizeof(*data)); VRFY((NULL != data), "calloc succeeded"); /* Fill data buffer */ - memset(data, 0, sizeof(cmpd_filtered_t) * (size_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC); - for (i = 0; i < (hsize_t) COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC; i++) { + memset(data, 0, sizeof(cmpd_filtered_t) * (size_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC); + for (i = 0; i < (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC; i++) { data[i].field1 = (short) GEN_DATA(i); data[i].field2 = (int) GEN_DATA(i); data[i].field3 = (long) GEN_DATA(i); @@ -1789,9 +1968,11 @@ test_cmpd_filtered_dataset_no_conversion_shared(void) plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, memtype, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, memtype, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -1820,16 +2001,16 @@ test_cmpd_filtered_dataset_no_conversion_shared(void) */ /* JTH: This test currently cannot be data-verified due to the floating-point data involved */ static void -test_cmpd_filtered_dataset_type_conversion_unshared(void) +test_write_cmpd_filtered_dataset_type_conversion_unshared(void) { cmpd_filtered_t *data = NULL; - hsize_t dataset_dims[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t chunk_dims[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t sel_dims[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t count[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t stride[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t block[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; - hsize_t offset[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t sel_dims[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t count[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t stride[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t block[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; + hsize_t offset[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS]; size_t i; hid_t file_id = -1, dset_id = -1, plist_id = -1, filetype = -1, memtype = -1; hid_t filespace = -1, memspace = -1; @@ -1840,9 +2021,11 @@ test_cmpd_filtered_dataset_type_conversion_unshared(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -1850,24 +2033,25 @@ test_cmpd_filtered_dataset_type_conversion_unshared(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NROWS; - dataset_dims[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NCOLS; - chunk_dims[0] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS; - chunk_dims[1] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS; - sel_dims[0] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS; - sel_dims[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC; - - filespace = H5Screate_simple(COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS, dataset_dims, NULL); + dataset_dims[0] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NROWS; + dataset_dims[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NCOLS; + chunk_dims[0] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS; + chunk_dims[1] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS; + sel_dims[0] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS; + sel_dims[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC; + + filespace = H5Screate_simple(WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); @@ -1876,22 +2060,30 @@ test_cmpd_filtered_dataset_type_conversion_unshared(void) memtype = H5Tcreate(H5T_COMPOUND, sizeof(cmpd_filtered_t)); VRFY((memtype >= 0), "Datatype creation succeeded"); - VRFY((H5Tinsert(memtype, "ShortData", HOFFSET(cmpd_filtered_t, field1), H5T_NATIVE_SHORT) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "IntData", HOFFSET(cmpd_filtered_t, field2), H5T_NATIVE_INT) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "LongData", HOFFSET(cmpd_filtered_t, field3), H5T_NATIVE_LONG) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "DoubleData", HOFFSET(cmpd_filtered_t, field4), H5T_NATIVE_DOUBLE) >= 0), "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "ShortData", HOFFSET(cmpd_filtered_t, field1), H5T_NATIVE_SHORT) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "IntData", HOFFSET(cmpd_filtered_t, field2), H5T_NATIVE_INT) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "LongData", HOFFSET(cmpd_filtered_t, field3), H5T_NATIVE_LONG) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "DoubleData", HOFFSET(cmpd_filtered_t, field4), H5T_NATIVE_DOUBLE) >= 0), + "Datatype insertion succeeded"); /* Create the compound type for file. */ filetype = H5Tcreate(H5T_COMPOUND, 32); VRFY((filetype >= 0), "Datatype creation succeeded"); - VRFY((H5Tinsert(filetype, "ShortData", 0, H5T_STD_I64BE) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(filetype, "IntData", 8, H5T_STD_I64BE) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(filetype, "LongData", 16, H5T_STD_I64BE) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(filetype, "DoubleData", 24, H5T_IEEE_F64BE) >= 0), "Datatype insertion succeeded"); - - dset_id = H5Dcreate2(file_id, COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_NAME, filetype, filespace, - H5P_DEFAULT, plist_id, H5P_DEFAULT); + VRFY((H5Tinsert(filetype, "ShortData", 0, H5T_STD_I64BE) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(filetype, "IntData", 8, H5T_STD_I64BE) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(filetype, "LongData", 16, H5T_STD_I64BE) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(filetype, "DoubleData", 24, H5T_IEEE_F64BE) >= 0), + "Datatype insertion succeeded"); + + dset_id = H5Dcreate2(file_id, WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_NAME, filetype, filespace, + H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); @@ -1901,30 +2093,33 @@ test_cmpd_filtered_dataset_type_conversion_unshared(void) * it to the hyperslab in the file */ count[0] = 1; - count[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC; - stride[0] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS; - stride[1] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS; - block[0] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS; - block[1] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS; + count[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC; + stride[0] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS; + stride[1] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS; + block[0] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS; + block[1] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS; offset[0] = 0; - offset[1] = ((hsize_t) mpi_rank * COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS); + offset[1] = ((hsize_t) mpi_rank * WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS); - if (VERBOSE_MED) + if (VERBOSE_MED) { printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], offset[ %llu, %llu ], block size[ %llu, %llu ]\n", - mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), + "Hyperslab selection succeeded"); - data = (COMPOUND_C_DATATYPE *) calloc(1, (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC * sizeof(*data)); + data = (COMPOUND_C_DATATYPE *) calloc(1, (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC * sizeof(*data)); VRFY((NULL != data), "calloc succeeded"); /* Fill data buffer */ - memset(data, 0, sizeof(cmpd_filtered_t) * (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC); - for (i = 0; i < (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC; i++) { + memset(data, 0, sizeof(cmpd_filtered_t) * (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC); + for (i = 0; i < (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC; i++) { data[i].field1 = (short) GEN_DATA(i); data[i].field2 = (int) GEN_DATA(i); data[i].field3 = (long) GEN_DATA(i); @@ -1935,11 +2130,13 @@ test_cmpd_filtered_dataset_type_conversion_unshared(void) plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); /* Ensure that this test currently fails since type conversions break collective mode */ H5E_BEGIN_TRY { - VRFY((H5Dwrite(dset_id, memtype, memspace, filespace, plist_id, data) < 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, memtype, memspace, filespace, plist_id, data) < 0), + "Dataset write succeeded"); } H5E_END_TRY; if (data) free(data); @@ -1970,16 +2167,16 @@ test_cmpd_filtered_dataset_type_conversion_unshared(void) */ /* JTH: This test currently cannot be data-verified due to the floating-point data involved */ static void -test_cmpd_filtered_dataset_type_conversion_shared(void) +test_write_cmpd_filtered_dataset_type_conversion_shared(void) { cmpd_filtered_t *data = NULL; - hsize_t dataset_dims[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t chunk_dims[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t sel_dims[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t count[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t stride[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t block[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; - hsize_t offset[COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t dataset_dims[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t chunk_dims[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t sel_dims[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t count[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t stride[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t block[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; + hsize_t offset[WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS]; size_t i; hid_t file_id, dset_id, plist_id, filetype, memtype; hid_t filespace, memspace; @@ -1990,9 +2187,11 @@ test_cmpd_filtered_dataset_type_conversion_shared(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -2000,24 +2199,25 @@ test_cmpd_filtered_dataset_type_conversion_shared(void) VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); /* Create the dataspace for the dataset */ - dataset_dims[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NROWS; - dataset_dims[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NCOLS; - chunk_dims[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS; - chunk_dims[1] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NCOLS; - sel_dims[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS / (hsize_t) mpi_size; - sel_dims[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC; - - filespace = H5Screate_simple(COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS, dataset_dims, NULL); + dataset_dims[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NROWS; + dataset_dims[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NCOLS; + chunk_dims[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS; + chunk_dims[1] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NCOLS; + sel_dims[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS / (hsize_t) mpi_size; + sel_dims[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC; + + filespace = H5Screate_simple(WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); - memspace = H5Screate_simple(COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS, sel_dims, NULL); + memspace = H5Screate_simple(WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS, sel_dims, NULL); VRFY((memspace >= 0), "Memory dataspace creation succeeded"); /* Create chunked dataset */ plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); @@ -2026,21 +2226,29 @@ test_cmpd_filtered_dataset_type_conversion_shared(void) memtype = H5Tcreate(H5T_COMPOUND, sizeof(cmpd_filtered_t)); VRFY((memtype >= 0), "Datatype creation succeeded"); - VRFY((H5Tinsert(memtype, "ShortData", HOFFSET(cmpd_filtered_t, field1), H5T_NATIVE_SHORT) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "IntData", HOFFSET(cmpd_filtered_t, field2), H5T_NATIVE_INT) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "LongData", HOFFSET(cmpd_filtered_t, field3), H5T_NATIVE_LONG) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(memtype, "DoubleData", HOFFSET(cmpd_filtered_t, field4), H5T_NATIVE_DOUBLE) >= 0), "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "ShortData", HOFFSET(cmpd_filtered_t, field1), H5T_NATIVE_SHORT) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "IntData", HOFFSET(cmpd_filtered_t, field2), H5T_NATIVE_INT) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "LongData", HOFFSET(cmpd_filtered_t, field3), H5T_NATIVE_LONG) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(memtype, "DoubleData", HOFFSET(cmpd_filtered_t, field4), H5T_NATIVE_DOUBLE) >= 0), + "Datatype insertion succeeded"); /* Create the compound type for file. */ filetype = H5Tcreate(H5T_COMPOUND, 32); VRFY((filetype >= 0), "Datatype creation succeeded"); - VRFY((H5Tinsert(filetype, "ShortData", 0, H5T_STD_I64BE) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(filetype, "IntData", 8, H5T_STD_I64BE) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(filetype, "LongData", 16, H5T_STD_I64BE) >= 0), "Datatype insertion succeeded"); - VRFY((H5Tinsert(filetype, "DoubleData", 24, H5T_IEEE_F64BE) >= 0), "Datatype insertion succeeded"); + VRFY((H5Tinsert(filetype, "ShortData", 0, H5T_STD_I64BE) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(filetype, "IntData", 8, H5T_STD_I64BE) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(filetype, "LongData", 16, H5T_STD_I64BE) >= 0), + "Datatype insertion succeeded"); + VRFY((H5Tinsert(filetype, "DoubleData", 24, H5T_IEEE_F64BE) >= 0), + "Datatype insertion succeeded"); - dset_id = H5Dcreate2(file_id, COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_NAME, filetype, filespace, + dset_id = H5Dcreate2(file_id, WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_NAME, filetype, filespace, H5P_DEFAULT, plist_id, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset creation succeeded"); @@ -2051,30 +2259,33 @@ test_cmpd_filtered_dataset_type_conversion_shared(void) * it to the hyperslab in the file */ count[0] = 1; - count[1] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC; - stride[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS; - stride[1] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NCOLS; - block[0] = (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS / (hsize_t) mpi_size; - block[1] = COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NCOLS; + count[1] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC; + stride[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS; + stride[1] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NCOLS; + block[0] = (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS / (hsize_t) mpi_size; + block[1] = WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NCOLS; offset[0] = (hsize_t) mpi_rank; offset[1] = 0; - if (VERBOSE_MED) + if (VERBOSE_MED) { printf("Process %d is writing with count[ %llu, %llu ], stride[ %llu, %llu ], offset[ %llu, %llu ], block size[ %llu, %llu ]\n", - mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + mpi_rank, count[0], count[1], stride[0], stride[1], offset[0], offset[1], block[0], block[1]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), + "Hyperslab selection succeeded"); - data = (COMPOUND_C_DATATYPE *) calloc(1, (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC * sizeof(*data)); + data = (COMPOUND_C_DATATYPE *) calloc(1, (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC * sizeof(*data)); VRFY((NULL != data), "calloc succeeded"); /* Fill data buffer */ - memset(data, 0, sizeof(cmpd_filtered_t) * (size_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC); - for (i = 0; i < (hsize_t) COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC; i++) { + memset(data, 0, sizeof(cmpd_filtered_t) * (size_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC); + for (i = 0; i < (hsize_t) WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC; i++) { data[i].field1 = (short) GEN_DATA(i); data[i].field2 = (int) GEN_DATA(i); data[i].field3 = (long) GEN_DATA(i); @@ -2085,11 +2296,13 @@ test_cmpd_filtered_dataset_type_conversion_shared(void) plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); /* Ensure that this test currently fails since type conversions break collective mode */ H5E_BEGIN_TRY { - VRFY((H5Dwrite(dset_id, memtype, memspace, filespace, plist_id, data) < 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, memtype, memspace, filespace, plist_id, data) < 0), + "Dataset write succeeded"); } H5E_END_TRY; if (data) free(data); @@ -2106,6 +2319,1430 @@ test_cmpd_filtered_dataset_type_conversion_shared(void) } /* + * Tests parallel read of filtered data in the special + * case where a dataset is composed of a single chunk. + * + * The MAINPROCESS rank will first write out all of the + * data to the dataset. Then, each rank reads a part of + * the singular chunk and contributes its piece to a + * global buffer that is checked for consistency. + * + * Programmer: Jordan Henderson + * 05/14/2018 + */ +static void +test_read_one_chunk_filtered_dataset(void) +{ + C_DATATYPE *read_buf = NULL; + C_DATATYPE *correct_buf = NULL; + C_DATATYPE *global_buf = NULL; + hsize_t dataset_dims[READ_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t chunk_dims[READ_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t sel_dims[READ_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t start[READ_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t stride[READ_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t count[READ_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t block[READ_ONE_CHUNK_FILTERED_DATASET_DIMS]; + hsize_t flat_dims[1]; + size_t i, read_buf_size, correct_buf_size; + hid_t file_id = -1, dset_id = -1, plist_id = -1; + hid_t filespace = -1, memspace = -1; + int *recvcounts = NULL; + int *displs = NULL; + + dataset_dims[0] = (hsize_t) READ_ONE_CHUNK_FILTERED_DATASET_NROWS; + dataset_dims[1] = (hsize_t) READ_ONE_CHUNK_FILTERED_DATASET_NCOLS; + + /* Setup the buffer for writing and for comparison */ + correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); + + correct_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); + + for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) + correct_buf[i] = ((C_DATATYPE) i % (READ_ONE_CHUNK_FILTERED_DATASET_CH_NROWS / mpi_size * READ_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS)) + + ((C_DATATYPE) i / (READ_ONE_CHUNK_FILTERED_DATASET_CH_NROWS / mpi_size * READ_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS)); + + if (MAINPROCESS) { + puts("Testing read from one-chunk filtered dataset"); + + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + /* Create the dataspace for the dataset */ + filespace = H5Screate_simple(READ_ONE_CHUNK_FILTERED_DATASET_DIMS, dataset_dims, NULL); + VRFY((filespace >= 0), "File dataspace creation succeeded"); + + /* Create chunked dataset */ + chunk_dims[0] = (hsize_t) READ_ONE_CHUNK_FILTERED_DATASET_CH_NROWS; + chunk_dims[1] = (hsize_t) READ_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS; + + plist_id = H5Pcreate(H5P_DATASET_CREATE); + VRFY((plist_id >= 0), "DCPL creation succeeded"); + + VRFY((H5Pset_chunk(plist_id, READ_ONE_CHUNK_FILTERED_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); + + /* Add test filter to the pipeline */ + VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); + + dset_id = H5Dcreate2(file_id, READ_ONE_CHUNK_FILTERED_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + H5P_DEFAULT, plist_id, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset creation succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, correct_buf) >= 0), + "Dataset write succeeded"); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + } + + /* Set up file access property list with parallel I/O access */ + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDONLY, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + dset_id = H5Dopen2(file_id, "/" READ_ONE_CHUNK_FILTERED_DATASET_NAME, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset open succeeded"); + + sel_dims[0] = (hsize_t) READ_ONE_CHUNK_FILTERED_DATASET_NROWS / (hsize_t) mpi_size; + sel_dims[1] = (hsize_t) READ_ONE_CHUNK_FILTERED_DATASET_NCOLS; + + /* Setup one-dimensional memory dataspace for reading the dataset data into a contiguous buffer */ + flat_dims[0] = sel_dims[0] * sel_dims[1]; + + memspace = H5Screate_simple(1, flat_dims, NULL); + VRFY((memspace >= 0), "Memory dataspace creation succeeded"); + + /* Select hyperslab in the file */ + filespace = H5Dget_space(dset_id); + VRFY((filespace >= 0), "File dataspace retrieval succeeded"); + + /* + * Each process defines the dataset selection in the file and + * reads it to the selection in memory + */ + count[0] = 1; + count[1] = 1; + stride[0] = (hsize_t) READ_ONE_CHUNK_FILTERED_DATASET_CH_NROWS; + stride[1] = (hsize_t) READ_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS; + block[0] = sel_dims[0]; + block[1] = sel_dims[1]; + start[0] = ((hsize_t) mpi_rank * sel_dims[0]); + start[1] = 0; + + if (VERBOSE_MED) { + printf("Process %d is reading with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } + + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), + "Hyperslab selection succeeded"); + + /* Create property list for collective dataset read */ + plist_id = H5Pcreate(H5P_DATASET_XFER); + VRFY((plist_id >= 0), "DXPL creation succeeded"); + + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); + + read_buf_size = flat_dims[0] * sizeof(*read_buf); + + read_buf = (C_DATATYPE *) calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); + + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, read_buf) >= 0), + "Dataset read succeeded"); + + global_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != global_buf), "calloc succeeded"); + + /* Collect each piece of data from all ranks into a global buffer on all ranks */ + recvcounts = (int *) calloc(1, (size_t) mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); + + for (i = 0; i < (size_t) mpi_size; i++) + recvcounts[i] = (int) flat_dims[0]; + + displs = (int *) calloc(1, (size_t) mpi_size * sizeof(*displs)); + VRFY((NULL != displs), "calloc succeeded"); + + for (i = 0; i < (size_t) mpi_size; i++) + displs[i] = (int) (i * flat_dims[0]); + + VRFY((MPI_SUCCESS == MPI_Allgatherv(read_buf, (int) flat_dims[0], C_DATATYPE_MPI, global_buf, recvcounts, displs, C_DATATYPE_MPI, comm)), + "MPI_Allgatherv succeeded"); + + VRFY((0 == memcmp(global_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); + + if (displs) free(displs); + if (recvcounts) free(recvcounts); + if (global_buf) free(global_buf); + if (read_buf) free(read_buf); + if (correct_buf) free(correct_buf); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + VRFY((H5Sclose(memspace) >= 0), "Memory dataspace close succeeded"); + VRFY((H5Pclose(plist_id) >= 0), "DXPL close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + + return; +} + +/* + * Tests parallel read of filtered data in the case where only + * one process is reading from a particular chunk in the operation. + * + * The MAINPROCESS rank will first write out all of the + * data to the dataset. Then, each rank reads a part of + * the dataset and contributes its piece to a global buffer + * that is checked for consistency. + * + * Programmer: Jordan Henderson + * 05/15/2018 + */ +static void +test_read_filtered_dataset_no_overlap(void) +{ + C_DATATYPE *read_buf = NULL; + C_DATATYPE *correct_buf = NULL; + C_DATATYPE *global_buf = NULL; + hsize_t dataset_dims[READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t start[READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t stride[READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t count[READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t block[READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t flat_dims[1]; + size_t i, read_buf_size, correct_buf_size; + hid_t file_id = -1, dset_id = -1, plist_id = -1; + hid_t filespace = -1, memspace = -1; + int *recvcounts = NULL; + int *displs = NULL; + + dataset_dims[0] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_NCOLS; + + /* Setup the buffer for writing and for comparison */ + correct_buf_size = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_NROWS * (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_NCOLS * sizeof(*correct_buf); + + correct_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); + + for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) + correct_buf[i] = (C_DATATYPE) ( + (i % (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) + + (i / (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) + ); + + if (MAINPROCESS) { + puts("Testing read from unshared filtered chunks"); + + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + /* Create the dataspace for the dataset */ + filespace = H5Screate_simple(READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + VRFY((filespace >= 0), "File dataspace creation succeeded"); + + /* Create chunked dataset */ + chunk_dims[0] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_CH_NCOLS; + + plist_id = H5Pcreate(H5P_DATASET_CREATE); + VRFY((plist_id >= 0), "DCPL creation succeeded"); + + VRFY((H5Pset_chunk(plist_id, READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); + + /* Add test filter to the pipeline */ + VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); + + dset_id = H5Dcreate2(file_id, READ_UNSHARED_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + H5P_DEFAULT, plist_id, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset creation succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, correct_buf) >= 0), + "Dataset write succeeded"); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + } + + /* Set up file access property list with parallel I/O access */ + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDONLY, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + dset_id = H5Dopen2(file_id, "/" READ_UNSHARED_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset open succeeded"); + + sel_dims[0] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_CH_NROWS; + sel_dims[1] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_NCOLS; + + /* Setup one-dimensional memory dataspace for reading the dataset data into a contiguous buffer */ + flat_dims[0] = sel_dims[0] * sel_dims[1]; + + memspace = H5Screate_simple(1, flat_dims, NULL); + VRFY((memspace >= 0), "Memory dataspace creation succeeded"); + + /* Select hyperslab in the file */ + filespace = H5Dget_space(dset_id); + VRFY((filespace >= 0), "File dataspace retrieval succeeded"); + + /* + * Each process defines the dataset selection in the file and reads + * it to the selection in memory + */ + count[0] = 1; + count[1] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_NCOLS / (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_CH_NCOLS; + stride[0] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_CH_NROWS; + stride[1] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_CH_NCOLS; + block[0] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_CH_NROWS; + block[1] = (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_CH_NCOLS; + start[0] = ((hsize_t) mpi_rank * (hsize_t) READ_UNSHARED_FILTERED_CHUNKS_CH_NROWS * count[0]); + start[1] = 0; + + if (VERBOSE_MED) { + printf("Process %d is reading with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } + + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), + "Hyperslab selection succeeded"); + + /* Create property list for collective dataset read */ + plist_id = H5Pcreate(H5P_DATASET_XFER); + VRFY((plist_id >= 0), "DXPL creation succeeded"); + + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); + + read_buf_size = flat_dims[0] * sizeof(*read_buf); + + read_buf = (C_DATATYPE *) calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); + + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, read_buf) >= 0), + "Dataset read succeeded"); + + global_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != global_buf), "calloc succeeded"); + + /* Collect each piece of data from all ranks into a global buffer on all ranks */ + recvcounts = (int *) calloc(1, (size_t) mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); + + for (i = 0; i < (size_t) mpi_size; i++) + recvcounts[i] = (int) flat_dims[0]; + + displs = (int *) calloc(1, (size_t) mpi_size * sizeof(*displs)); + VRFY((NULL != displs), "calloc succeeded"); + + for (i = 0; i < (size_t) mpi_size; i++) + displs[i] = (int) (i * flat_dims[0]); + + VRFY((MPI_SUCCESS == MPI_Allgatherv(read_buf, (int) flat_dims[0], C_DATATYPE_MPI, global_buf, recvcounts, displs, C_DATATYPE_MPI, comm)), + "MPI_Allgatherv succeeded"); + + VRFY((0 == memcmp(global_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); + + if (displs) free(displs); + if (recvcounts) free(recvcounts); + if (global_buf) free(global_buf); + if (read_buf) free(read_buf); + if (correct_buf) free(correct_buf); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + VRFY((H5Sclose(memspace) >= 0), "Memory dataspace close succeeded"); + VRFY((H5Pclose(plist_id) >= 0), "DXPL close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + + return; +} + +/* + * Tests parallel read of filtered data in the case where + * more than one process is reading from a particular chunk + * in the operation. + * + * The MAINPROCESS rank will first write out all of the + * data to the dataset. Then, each rank reads a part of + * each chunk of the dataset and contributes its pieces + * to a global buffer that is checked for consistency. + * + * Programmer: Jordan Henderson + * 05/15/2018 + */ +static void +test_read_filtered_dataset_overlap(void) +{ + C_DATATYPE *read_buf = NULL; + C_DATATYPE *correct_buf = NULL; + C_DATATYPE *global_buf = NULL; + hsize_t dataset_dims[READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t start[READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t stride[READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t count[READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t block[READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t flat_dims[1]; + size_t i, read_buf_size, correct_buf_size; + hid_t file_id = -1, dset_id = -1, plist_id = -1; + hid_t filespace = -1, memspace = -1; + int *recvcounts = NULL; + int *displs = NULL; + + dataset_dims[0] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_NCOLS; + + /* Setup the buffer for writing and for comparison */ + correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); + + correct_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); + + for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) + correct_buf[i] = (C_DATATYPE) ( + (dataset_dims[1] * (i / ((hsize_t) mpi_size * dataset_dims[1]))) + + (i % dataset_dims[1]) + + (((i % ((hsize_t) mpi_size * dataset_dims[1])) / dataset_dims[1]) % dataset_dims[1]) + ); + + if (MAINPROCESS) { + puts("Testing read from shared filtered chunks"); + + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + /* Create the dataspace for the dataset */ + filespace = H5Screate_simple(READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + VRFY((filespace >= 0), "File dataspace creation succeeded"); + + /* Create chunked dataset */ + chunk_dims[0] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_CH_NCOLS; + + plist_id = H5Pcreate(H5P_DATASET_CREATE); + VRFY((plist_id >= 0), "DCPL creation succeeded"); + + VRFY((H5Pset_chunk(plist_id, READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); + + /* Add test filter to the pipeline */ + VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); + + dset_id = H5Dcreate2(file_id, READ_SHARED_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + H5P_DEFAULT, plist_id, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset creation succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, correct_buf) >= 0), + "Dataset write succeeded"); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + } + + /* Set up file access property list with parallel I/O access */ + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDONLY, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + dset_id = H5Dopen2(file_id, "/" READ_SHARED_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset open succeeded"); + + sel_dims[0] = (hsize_t) DIM0_SCALE_FACTOR; + sel_dims[1] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_CH_NCOLS * (hsize_t) DIM1_SCALE_FACTOR; + + /* Setup one-dimensional memory dataspace for reading the dataset data into a contiguous buffer */ + flat_dims[0] = sel_dims[0] * sel_dims[1]; + + memspace = H5Screate_simple(1, flat_dims, NULL); + VRFY((memspace >= 0), "Memory dataspace creation succeeded"); + + /* Select hyperslab in the file */ + filespace = H5Dget_space(dset_id); + VRFY((filespace >= 0), "File dataspace retrieval succeeded"); + + /* + * Each process defines the dataset selection in the file and + * reads it to the selection in memory + */ + count[0] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_NROWS / (hsize_t) READ_SHARED_FILTERED_CHUNKS_CH_NROWS; + count[1] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_NCOLS / (hsize_t) READ_SHARED_FILTERED_CHUNKS_CH_NCOLS; + stride[0] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_CH_NROWS; + stride[1] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_CH_NCOLS; + block[0] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_CH_NROWS / (hsize_t) mpi_size; + block[1] = (hsize_t) READ_SHARED_FILTERED_CHUNKS_CH_NCOLS; + start[0] = (hsize_t) mpi_rank * block[0]; + start[1] = 0; + + if (VERBOSE_MED) { + printf("Process %d is reading with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } + + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), + "Hyperslab selection succeeded"); + + /* Create property list for collective dataset read */ + plist_id = H5Pcreate(H5P_DATASET_XFER); + VRFY((plist_id >= 0), "DXPL creation succeeded"); + + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); + + read_buf_size = flat_dims[0] * sizeof(*read_buf); + + read_buf = (C_DATATYPE *) calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); + + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, read_buf) >= 0), + "Dataset read succeeded"); + + global_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != global_buf), "calloc succeeded"); + + /* + * Since these chunks are shared, run multiple rounds of MPI_Allgatherv + * to collect all of the pieces into their appropriate locations. The + * number of times MPI_Allgatherv is run should be equal to the number + * of chunks in the first dimension of the dataset. + */ + { + size_t loop_count = count[0]; + size_t total_recvcounts = 0; + + recvcounts = (int *) calloc(1, (size_t) mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); + + displs = (int *) calloc(1, (size_t) mpi_size * sizeof(*displs)); + VRFY((NULL != displs), "calloc succeeded"); + + for (i = 0; i < (size_t) mpi_size; i++) { + recvcounts[i] = (int) dataset_dims[1]; + total_recvcounts += (size_t) recvcounts[i]; + } + + for (i = 0; i < (size_t) mpi_size; i++) + displs[i] = (int) (i * dataset_dims[1]); + + for (; loop_count; loop_count--) { + VRFY((MPI_SUCCESS == MPI_Allgatherv(&read_buf[(count[0] - loop_count) * dataset_dims[1]], recvcounts[mpi_rank], C_DATATYPE_MPI, + &global_buf[(count[0] - loop_count) * total_recvcounts], recvcounts, displs, C_DATATYPE_MPI, comm)), + "MPI_Allgatherv succeeded"); + } + } + + VRFY((0 == memcmp(global_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); + + if (displs) free(displs); + if (recvcounts) free(recvcounts); + if (global_buf) free(global_buf); + if (read_buf) free(read_buf); + if (correct_buf) free(correct_buf); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + VRFY((H5Sclose(memspace) >= 0), "Memory dataspace close succeeded"); + VRFY((H5Pclose(plist_id) >= 0), "DXPL close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + + return; +} + +/* + * Tests parallel read of filtered data in the case where + * a single process in the read operation has no selection + * in the dataset's dataspace. + * + * The MAINPROCESS rank will first write out all of the + * data to the dataset. Then, each rank (except for one) + * reads a part of the dataset and contributes its piece + * to a global buffer that is checked for consistency. + * + * Programmer: Jordan Henderson + * 05/15/2018 + */ +static void +test_read_filtered_dataset_single_no_selection(void) +{ + C_DATATYPE *read_buf = NULL; + C_DATATYPE *correct_buf = NULL; + C_DATATYPE *global_buf = NULL; + hsize_t dataset_dims[READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t start[READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t stride[READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t count[READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t block[READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t flat_dims[1]; + size_t i, read_buf_size, correct_buf_size; + size_t segment_length; + hid_t file_id = -1, dset_id = -1, plist_id = -1; + hid_t filespace = -1, memspace = -1; + int *recvcounts = NULL; + int *displs = NULL; + + dataset_dims[0] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS; + + /* Setup the buffer for writing and for comparison */ + correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); + + correct_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); + + for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) + correct_buf[i] = + (C_DATATYPE) ( + (i % (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) + + (i / (dataset_dims[0] / (hsize_t) mpi_size * dataset_dims[1])) + ); + + /* Compute the correct offset into the buffer for the process having no selection and clear it */ + segment_length = dataset_dims[0] * dataset_dims[1] / (hsize_t) mpi_size; + HDmemset(correct_buf + ((size_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC * segment_length), + 0, segment_length * sizeof(*correct_buf)); + + if (MAINPROCESS) { + puts("Testing read from filtered chunks with a single process having no selection"); + + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + /* Create the dataspace for the dataset */ + filespace = H5Screate_simple(READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + VRFY((filespace >= 0), "File dataspace creation succeeded"); + + /* Create chunked dataset */ + chunk_dims[0] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + + plist_id = H5Pcreate(H5P_DATASET_CREATE); + VRFY((plist_id >= 0), "DCPL creation succeeded"); + + VRFY((H5Pset_chunk(plist_id, READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); + + /* Add test filter to the pipeline */ + VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); + + dset_id = H5Dcreate2(file_id, READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + H5P_DEFAULT, plist_id, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset creation succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, correct_buf) >= 0), + "Dataset write succeeded"); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + } + + /* Set up file access property list with parallel I/O access */ + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDONLY, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + dset_id = H5Dopen2(file_id, "/" READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset open succeeded"); + + sel_dims[0] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + sel_dims[1] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS; + + if (mpi_rank == READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC) + sel_dims[0] = sel_dims[1] = 0; + + /* Setup one-dimensional memory dataspace for reading the dataset data into a contiguous buffer */ + flat_dims[0] = sel_dims[0] * sel_dims[1]; + + memspace = H5Screate_simple(1, flat_dims, NULL); + VRFY((memspace >= 0), "Memory dataspace creation succeeded"); + + /* Select hyperslab in the file */ + filespace = H5Dget_space(dset_id); + VRFY((filespace >= 0), "File dataspace retrieval succeeded"); + + /* + * Each process defines the dataset selection in the file and + * reads it to the selection in memory + */ + count[0] = 1; + count[1] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS / (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + stride[0] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + stride[1] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + block[0] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + block[1] = (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + start[0] = (hsize_t) mpi_rank * (hsize_t) READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * count[0]; + start[1] = 0; + + if (VERBOSE_MED) { + printf("Process %d is reading with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } + + if (mpi_rank == READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC) + VRFY((H5Sselect_none(filespace) >= 0), "Select none succeeded"); + else + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), + "Hyperslab selection succeeded"); + + /* Create property list for collective dataset read */ + plist_id = H5Pcreate(H5P_DATASET_XFER); + VRFY((plist_id >= 0), "DXPL creation succeeded"); + + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); + + read_buf_size = flat_dims[0] * sizeof(*read_buf); + + read_buf = (C_DATATYPE *) calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); + + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, read_buf) >= 0), + "Dataset read succeeded"); + + global_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != global_buf), "calloc succeeded"); + + /* Collect each piece of data from all ranks into a global buffer on all ranks */ + recvcounts = (int *) calloc(1, (size_t) mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); + + for (i = 0; i < (size_t) mpi_size; i++) + recvcounts[i] = (int) (READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS); + recvcounts[READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC] = 0; + + displs = (int *) calloc(1, (size_t) mpi_size * sizeof(*displs)); + VRFY((NULL != displs), "calloc succeeded"); + + for (i = 0; i < (size_t) mpi_size; i++) + displs[i] = (int) (i * (size_t) (READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS)); + + if (mpi_rank == READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC) + VRFY((MPI_SUCCESS == MPI_Allgatherv(read_buf, 0, C_DATATYPE_MPI, global_buf, recvcounts, displs, C_DATATYPE_MPI, comm)), + "MPI_Allgatherv succeeded"); + else + VRFY((MPI_SUCCESS == MPI_Allgatherv(read_buf, (int) flat_dims[0], C_DATATYPE_MPI, global_buf, recvcounts, displs, C_DATATYPE_MPI, comm)), + "MPI_Allgatherv succeeded"); + + VRFY((0 == memcmp(global_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); + + if (displs) free(displs); + if (recvcounts) free(recvcounts); + if (global_buf) free(global_buf); + if (read_buf) free(read_buf); + if (correct_buf) free(correct_buf); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + VRFY((H5Sclose(memspace) >= 0), "Memory dataspace close succeeded"); + VRFY((H5Pclose(plist_id) >= 0), "DXPL close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + + return; +} + +/* + * Tests parallel read of filtered data in the case where + * no process in the read operation has a selection in the + * dataset's dataspace. This test is to ensure that there + * are no assertion failures or similar issues due to size + * 0 allocations and the like. + * + * The MAINPROCESS rank will first write out all of the + * data to the dataset. Then, each rank will simply issue + * a no-op read. + * + * Programmer: Jordan Henderson + * 05/15/2018 + */ +static void +test_read_filtered_dataset_all_no_selection(void) +{ + C_DATATYPE *read_buf = NULL; + C_DATATYPE *correct_buf = NULL; + hsize_t dataset_dims[READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + size_t read_buf_size, correct_buf_size; + hid_t file_id = -1, dset_id = -1, plist_id = -1; + hid_t filespace = -1, memspace = -1; + + dataset_dims[0] = (hsize_t) READ_ALL_NO_SELECTION_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) READ_ALL_NO_SELECTION_FILTERED_CHUNKS_NCOLS; + + /* Setup the buffer for writing and for comparison */ + correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); + + correct_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); + + if (MAINPROCESS) { + puts("Testing read from filtered chunks with all processes having no selection"); + + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + /* Create the dataspace for the dataset */ + filespace = H5Screate_simple(READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + VRFY((filespace >= 0), "File dataspace creation succeeded"); + + /* Create chunked dataset */ + chunk_dims[0] = (hsize_t) READ_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) READ_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + + plist_id = H5Pcreate(H5P_DATASET_CREATE); + VRFY((plist_id >= 0), "DCPL creation succeeded"); + + VRFY((H5Pset_chunk(plist_id, READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); + + /* Add test filter to the pipeline */ + VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); + + dset_id = H5Dcreate2(file_id, READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + H5P_DEFAULT, plist_id, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset creation succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, correct_buf) >= 0), + "Dataset write succeeded"); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + } + + /* Set up file access property list with parallel I/O access */ + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDONLY, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + dset_id = H5Dopen2(file_id, "/" READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset open succeeded"); + + sel_dims[0] = sel_dims[1] = 0; + + memspace = H5Screate_simple(READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, sel_dims, NULL); + VRFY((memspace >= 0), "Memory dataspace creation succeeded"); + + /* Select hyperslab in the file */ + filespace = H5Dget_space(dset_id); + VRFY((filespace >= 0), "File dataspace retrieval succeeded"); + + VRFY((H5Sselect_none(filespace) >= 0), "Select none succeeded"); + + /* Create property list for collective dataset read */ + plist_id = H5Pcreate(H5P_DATASET_XFER); + VRFY((plist_id >= 0), "DXPL creation succeeded"); + + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); + + read_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*read_buf); + + read_buf = (C_DATATYPE *) calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); + + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, read_buf) >= 0), + "Dataset read succeeded"); + + if (read_buf) free(read_buf); + if (correct_buf) free(correct_buf); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + VRFY((H5Sclose(memspace) >= 0), "Memory dataspace close succeeded"); + VRFY((H5Pclose(plist_id) >= 0), "DXPL close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + + return; +} + +/* + * Tests parallel read of filtered data by using point + * selections instead of hyperslab selections. + * + * The MAINPROCESS rank will first write out all of the + * data to the dataset. Then, each rank will read part + * of the dataset using a point selection and will + * contribute its piece to a global buffer that is + * checked for consistency. + * + * Programmer: Jordan Henderson + * 05/15/2018 + */ +static void +test_read_filtered_dataset_point_selection(void) +{ + C_DATATYPE *correct_buf = NULL; + C_DATATYPE *read_buf = NULL; + C_DATATYPE *global_buf = NULL; + hsize_t *coords = NULL; + hsize_t dataset_dims[READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t chunk_dims[READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t sel_dims[READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS]; + hsize_t flat_dims[1]; + size_t i, j, read_buf_size, correct_buf_size; + size_t num_points; + hid_t file_id = -1, dset_id = -1, plist_id = -1; + hid_t filespace = -1, memspace = -1; + int *recvcounts = NULL; + int *displs = NULL; + + dataset_dims[0] = (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_NROWS; + dataset_dims[1] = (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_NCOLS; + + /* Setup the buffer for writing and for comparison */ + correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); + + correct_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); + + for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) + correct_buf[i] = (C_DATATYPE) ( + (dataset_dims[1] * (i / ((hsize_t) mpi_size * dataset_dims[1]))) + + (i % dataset_dims[1]) + + (((i % ((hsize_t) mpi_size * dataset_dims[1])) / dataset_dims[1]) % dataset_dims[1]) + ); + + if (MAINPROCESS) { + puts("Testing read from filtered chunks with point selection"); + + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + /* Create the dataspace for the dataset */ + filespace = H5Screate_simple(READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, dataset_dims, NULL); + VRFY((filespace >= 0), "File dataspace creation succeeded"); + + /* Create chunked dataset */ + chunk_dims[0] = (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_CH_NROWS; + chunk_dims[1] = (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_CH_NCOLS; + + plist_id = H5Pcreate(H5P_DATASET_CREATE); + VRFY((plist_id >= 0), "DCPL creation succeeded"); + + VRFY((H5Pset_chunk(plist_id, READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); + + /* Add test filter to the pipeline */ + VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); + + dset_id = H5Dcreate2(file_id, READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + H5P_DEFAULT, plist_id, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset creation succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, correct_buf) >= 0), + "Dataset write succeeded"); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + } + + /* Set up file access property list with parallel I/O access */ + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDONLY, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + dset_id = H5Dopen2(file_id, "/" READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset open succeeded"); + + sel_dims[0] = (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_NROWS / (hsize_t) mpi_size; + sel_dims[1] = (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_NCOLS; + + /* Setup one-dimensional memory dataspace for reading the dataset data into a contiguous buffer */ + flat_dims[0] = sel_dims[0] * sel_dims[1]; + + memspace = H5Screate_simple(1, flat_dims, NULL); + VRFY((memspace >= 0), "Memory dataspace creation succeeded"); + + /* Set up point selection */ + filespace = H5Dget_space(dset_id); + VRFY((filespace >= 0), "File dataspace retrieval succeeded"); + + num_points = (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_NROWS * (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_NCOLS / (hsize_t) mpi_size; + coords = (hsize_t *) calloc(1, 2 * num_points * sizeof(*coords)); + VRFY((NULL != coords), "Coords calloc succeeded"); + + for (i = 0; i < num_points; i++) + for (j = 0; j < READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS; j++) + coords[(i * READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS) + j] = + (j > 0) ? (i % (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_NCOLS) + : ((hsize_t) mpi_rank + ((hsize_t) mpi_size * (i / (hsize_t) READ_POINT_SELECTION_FILTERED_CHUNKS_NCOLS))); + + VRFY((H5Sselect_elements(filespace, H5S_SELECT_SET, (hsize_t ) num_points, (const hsize_t * ) coords) >= 0), + "Point selection succeeded"); + + /* Create property list for collective dataset read */ + plist_id = H5Pcreate(H5P_DATASET_XFER); + VRFY((plist_id >= 0), "DXPL creation succeeded"); + + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); + + read_buf_size = flat_dims[0] * sizeof(*read_buf); + + read_buf = (C_DATATYPE *) calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); + + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, read_buf) >= 0), + "Dataset read succeeded"); + + global_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != global_buf), "calloc succeeded"); + + /* + * Since these chunks are shared, run multiple rounds of MPI_Allgatherv + * to collect all of the pieces into their appropriate locations. The + * number of times MPI_Allgatherv is run should be equal to the number + * of chunks in the first dimension of the dataset. + */ + { + size_t original_loop_count = dataset_dims[0] / (hsize_t) mpi_size; + size_t cur_loop_count = original_loop_count; + size_t total_recvcounts = 0; + + recvcounts = (int *) calloc(1, (size_t) mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); + + displs = (int *) calloc(1, (size_t) mpi_size * sizeof(*displs)); + VRFY((NULL != displs), "calloc succeeded"); + + for (i = 0; i < (size_t) mpi_size; i++) { + recvcounts[i] = (int) dataset_dims[1]; + total_recvcounts += (size_t) recvcounts[i]; + } + + for (i = 0; i < (size_t) mpi_size; i++) + displs[i] = (int) (i * dataset_dims[1]); + + for (; cur_loop_count; cur_loop_count--) { + VRFY((MPI_SUCCESS == MPI_Allgatherv(&read_buf[(original_loop_count - cur_loop_count) * dataset_dims[1]], recvcounts[mpi_rank], C_DATATYPE_MPI, + &global_buf[(original_loop_count - cur_loop_count) * total_recvcounts], recvcounts, displs, C_DATATYPE_MPI, comm)), + "MPI_Allgatherv succeeded"); + } + } + + VRFY((0 == memcmp(global_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); + + if (displs) free(displs); + if (recvcounts) free(recvcounts); + if (global_buf) free(global_buf); + if (read_buf) free(read_buf); + if (correct_buf) free(correct_buf); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + VRFY((H5Sclose(memspace) >= 0), "Memory dataspace close succeeded"); + VRFY((H5Pclose(plist_id) >= 0), "DXPL close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + + return; +} + +/* + * Tests parallel read of filtered data in the case where + * each process reads an equal amount of data from each + * chunk in the dataset. + * + * The MAINPROCESS rank will first write out all of the + * data to the dataset. Then, each rank will read part + * of each chunk of the dataset and will contribute its + * pieces to a global buffer that is checked for consistency. + * + * Programmer: Jordan Henderson + * 05/15/2018 + */ +static void +test_read_filtered_dataset_interleaved_read(void) +{ + C_DATATYPE *read_buf = NULL; + C_DATATYPE *correct_buf = NULL; + C_DATATYPE *global_buf = NULL; + hsize_t dataset_dims[INTERLEAVED_READ_FILTERED_DATASET_DIMS]; + hsize_t chunk_dims[INTERLEAVED_READ_FILTERED_DATASET_DIMS]; + hsize_t sel_dims[INTERLEAVED_READ_FILTERED_DATASET_DIMS]; + hsize_t start[INTERLEAVED_READ_FILTERED_DATASET_DIMS]; + hsize_t stride[INTERLEAVED_READ_FILTERED_DATASET_DIMS]; + hsize_t count[INTERLEAVED_READ_FILTERED_DATASET_DIMS]; + hsize_t block[INTERLEAVED_READ_FILTERED_DATASET_DIMS]; + hsize_t flat_dims[1]; + size_t i, read_buf_size, correct_buf_size; + hid_t file_id = -1, dset_id = -1, plist_id = -1; + hid_t filespace = -1, memspace = -1; + int *recvcounts = NULL; + int *displs = NULL; + + dataset_dims[0] = (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_NROWS; + dataset_dims[1] = (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_NCOLS; + + /* Setup the buffer for writing and for comparison */ + correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); + + correct_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); + + for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) + /* Add Column Index */ + correct_buf[i] = + (C_DATATYPE) ( + (i % (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_NCOLS) + + /* Add the Row Index */ + + ((i % (hsize_t) (mpi_size * INTERLEAVED_READ_FILTERED_DATASET_NCOLS)) / (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_NCOLS) + + /* Add the amount that gets added when a rank moves down to its next section vertically in the dataset */ + + ((hsize_t) INTERLEAVED_READ_FILTERED_DATASET_NCOLS * (i / (hsize_t) (mpi_size * INTERLEAVED_READ_FILTERED_DATASET_NCOLS))) + ); + + if (MAINPROCESS) { + puts("Testing interleaved read from filtered chunks"); + + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + /* Create the dataspace for the dataset */ + filespace = H5Screate_simple(INTERLEAVED_READ_FILTERED_DATASET_DIMS, dataset_dims, NULL); + VRFY((filespace >= 0), "File dataspace creation succeeded"); + + /* Create chunked dataset */ + chunk_dims[0] = (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_CH_NROWS; + chunk_dims[1] = (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_CH_NCOLS; + + plist_id = H5Pcreate(H5P_DATASET_CREATE); + VRFY((plist_id >= 0), "DCPL creation succeeded"); + + VRFY((H5Pset_chunk(plist_id, INTERLEAVED_READ_FILTERED_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); + + /* Add test filter to the pipeline */ + VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); + + dset_id = H5Dcreate2(file_id, INTERLEAVED_READ_FILTERED_DATASET_NAME, HDF5_DATATYPE_NAME, filespace, + H5P_DEFAULT, plist_id, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset creation succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, correct_buf) >= 0), + "Dataset write succeeded"); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + } + + /* Set up file access property list with parallel I/O access */ + plist_id = H5Pcreate(H5P_FILE_ACCESS); + VRFY((plist_id >= 0), "FAPL creation succeeded"); + + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); + + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); + + file_id = H5Fopen(filenames[0], H5F_ACC_RDONLY, plist_id); + VRFY((file_id >= 0), "Test file open succeeded"); + + VRFY((H5Pclose(plist_id) >= 0), "FAPL close succeeded"); + + dset_id = H5Dopen2(file_id, "/" INTERLEAVED_READ_FILTERED_DATASET_NAME, H5P_DEFAULT); + VRFY((dset_id >= 0), "Dataset open succeeded"); + + sel_dims[0] = (hsize_t) (INTERLEAVED_READ_FILTERED_DATASET_NROWS / mpi_size); + sel_dims[1] = (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_NCOLS; + + /* Setup one-dimensional memory dataspace for reading the dataset data into a contiguous buffer */ + flat_dims[0] = sel_dims[0] * sel_dims[1]; + + memspace = H5Screate_simple(1, flat_dims, NULL); + VRFY((memspace >= 0), "Memory dataspace creation succeeded"); + + /* Select hyperslab in the file */ + filespace = H5Dget_space(dset_id); + VRFY((filespace >= 0), "File dataspace retrieval succeeded"); + + /* + * Each process defines the dataset selection in the file and + * reads it to the selection in memory + */ + count[0] = (hsize_t) (INTERLEAVED_READ_FILTERED_DATASET_NROWS / INTERLEAVED_READ_FILTERED_DATASET_CH_NROWS); + count[1] = (hsize_t) (INTERLEAVED_READ_FILTERED_DATASET_NCOLS / INTERLEAVED_READ_FILTERED_DATASET_CH_NCOLS); + stride[0] = (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_CH_NROWS; + stride[1] = (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_CH_NCOLS; + block[0] = 1; + block[1] = (hsize_t) INTERLEAVED_READ_FILTERED_DATASET_CH_NCOLS; + start[0] = (hsize_t) mpi_rank; + start[1] = 0; + + if (VERBOSE_MED) { + printf("Process %d is reading with count[ %llu, %llu ], stride[ %llu, %llu ], start[ %llu, %llu ], block size[ %llu, %llu ]\n", + mpi_rank, count[0], count[1], stride[0], stride[1], start[0], start[1], block[0], block[1]); + fflush(stdout); + } + + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), + "Hyperslab selection succeeded"); + + /* Create property list for collective dataset read */ + plist_id = H5Pcreate(H5P_DATASET_XFER); + VRFY((plist_id >= 0), "DXPL creation succeeded"); + + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); + + read_buf_size = flat_dims[0] * sizeof(*read_buf); + + read_buf = (C_DATATYPE *) calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); + + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, read_buf) >= 0), + "Dataset read succeeded"); + + global_buf = (C_DATATYPE *) calloc(1, correct_buf_size); + VRFY((NULL != global_buf), "calloc succeeded"); + + /* + * Since these chunks are shared, run multiple rounds of MPI_Allgatherv + * to collect all of the pieces into their appropriate locations. The + * number of times MPI_Allgatherv is run should be equal to the number + * of chunks in the first dimension of the dataset. + */ + { + size_t loop_count = count[0]; + size_t total_recvcounts = 0; + + recvcounts = (int *) calloc(1, (size_t) mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); + + displs = (int *) calloc(1, (size_t) mpi_size * sizeof(*displs)); + VRFY((NULL != displs), "calloc succeeded"); + + for (i = 0; i < (size_t) mpi_size; i++) { + recvcounts[i] = (int) dataset_dims[1]; + total_recvcounts += (size_t) recvcounts[i]; + } + + for (i = 0; i < (size_t) mpi_size; i++) + displs[i] = (int) (i * dataset_dims[1]); + + for (; loop_count; loop_count--) { + VRFY((MPI_SUCCESS == MPI_Allgatherv(&read_buf[(count[0] - loop_count) * dataset_dims[1]], recvcounts[mpi_rank], C_DATATYPE_MPI, + &global_buf[(count[0] - loop_count) * total_recvcounts], recvcounts, displs, C_DATATYPE_MPI, comm)), + "MPI_Allgatherv succeeded"); + } + } + + VRFY((0 == memcmp(global_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); + + if (displs) free(displs); + if (recvcounts) free(recvcounts); + if (global_buf) free(global_buf); + if (read_buf) free(read_buf); + if (correct_buf) free(correct_buf); + + VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); + VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); + VRFY((H5Sclose(memspace) >= 0), "Memory dataspace close succeeded"); + VRFY((H5Pclose(plist_id) >= 0), "DXPL close succeeded"); + VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); + + return; +} + +static void +test_read_3d_filtered_dataset_no_overlap_separate_pages(void) +{ + +} + +static void +test_read_3d_filtered_dataset_no_overlap_same_pages(void) +{ + +} + +static void +test_read_3d_filtered_dataset_overlap(void) +{ + +} + +static void +test_read_cmpd_filtered_dataset_no_conversion_unshared(void) +{ + +} + +static void +test_read_cmpd_filtered_dataset_no_conversion_shared(void) +{ + +} + +static void +test_read_cmpd_filtered_dataset_type_conversion_unshared(void) +{ + +} + +static void +test_read_cmpd_filtered_dataset_type_conversion_shared(void) +{ + +} + +/* * Tests write of filtered data to a dataset * by a single process. After the write has * succeeded, the dataset is closed and then @@ -2139,7 +3776,8 @@ test_write_serial_read_parallel(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -2158,7 +3796,8 @@ test_write_serial_read_parallel(void) plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, WRITE_SERIAL_READ_PARALLEL_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_SERIAL_READ_PARALLEL_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); @@ -2178,7 +3817,8 @@ test_write_serial_read_parallel(void) for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE) GEN_DATA(i); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -2201,9 +3841,11 @@ test_write_serial_read_parallel(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -2216,11 +3858,14 @@ test_write_serial_read_parallel(void) plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, plist_id, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); if (correct_buf) free(correct_buf); if (read_buf) free(read_buf); @@ -2265,9 +3910,11 @@ test_write_parallel_read_serial(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), "Set FAPL MPIO succeeded"); + VRFY((H5Pset_fapl_mpio(plist_id, comm, info) >= 0), + "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -2278,12 +3925,12 @@ test_write_parallel_read_serial(void) dataset_dims[0] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_NROWS; dataset_dims[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_NCOLS; dataset_dims[2] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_DEPTH; - chunk_dims[0] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NROWS; - chunk_dims[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NCOLS; - chunk_dims[2] = 1; - sel_dims[0] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NROWS; - sel_dims[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_NCOLS; - sel_dims[2] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_DEPTH; + chunk_dims[0] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NROWS; + chunk_dims[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NCOLS; + chunk_dims[2] = 1; + sel_dims[0] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NROWS; + sel_dims[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_NCOLS; + sel_dims[2] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_DEPTH; filespace = H5Screate_simple(WRITE_PARALLEL_READ_SERIAL_DATASET_DIMS, dataset_dims, NULL); VRFY((filespace >= 0), "File dataspace creation succeeded"); @@ -2295,7 +3942,8 @@ test_write_parallel_read_serial(void) plist_id = H5Pcreate(H5P_DATASET_CREATE); VRFY((plist_id >= 0), "DCPL creation succeeded"); - VRFY((H5Pset_chunk(plist_id, WRITE_PARALLEL_READ_SERIAL_DATASET_DIMS, chunk_dims) >= 0), "Chunk size set"); + VRFY((H5Pset_chunk(plist_id, WRITE_PARALLEL_READ_SERIAL_DATASET_DIMS, chunk_dims) >= 0), + "Chunk size set"); /* Add test filter to the pipeline */ VRFY((SET_FILTER(plist_id) >= 0), "Filter set"); @@ -2310,28 +3958,31 @@ test_write_parallel_read_serial(void) /* Each process defines the dataset selection in memory and writes * it to the hyperslab in the file */ - count[0] = 1; - count[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_NCOLS / (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NCOLS; - count[2] = (hsize_t) mpi_size; + count[0] = 1; + count[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_NCOLS / (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NCOLS; + count[2] = (hsize_t) mpi_size; stride[0] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NROWS; stride[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NCOLS; stride[2] = 1; - block[0] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NROWS; - block[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NCOLS; - block[2] = 1; + block[0] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NROWS; + block[1] = (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NCOLS; + block[2] = 1; offset[0] = ((hsize_t) mpi_rank * (hsize_t) WRITE_PARALLEL_READ_SERIAL_CH_NROWS * count[0]); offset[1] = 0; offset[2] = 0; - if (VERBOSE_MED) + if (VERBOSE_MED) { printf("Process %d is writing with count[ %llu, %llu, %llu ], stride[ %llu, %llu, %llu ], offset[ %llu, %llu, %llu ], block size[ %llu, %llu, %llu ]\n", - mpi_rank, count[0], count[1], count[2], stride[0], stride[1], stride[2], offset[0], offset[1], offset[2], block[0], block[1], block[2]); + mpi_rank, count[0], count[1], count[2], stride[0], stride[1], stride[2], offset[0], offset[1], offset[2], block[0], block[1], block[2]); + fflush(stdout); + } /* Select hyperslab in the file */ filespace = H5Dget_space(dset_id); VRFY((filespace >= 0), "File dataspace retrieval succeeded"); - VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, count, block) >= 0), "Hyperslab selection succeeded"); + VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, offset, stride, + count, block) >= 0), "Hyperslab selection succeeded"); /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sel_dims[2] * sizeof(*data); @@ -2346,9 +3997,11 @@ test_write_parallel_read_serial(void) plist_id = H5Pcreate(H5P_DATASET_XFER); VRFY((plist_id >= 0), "DXPL creation succeeded"); - VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), "Set DXPL MPIO succeeded"); + VRFY((H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_COLLECTIVE) >= 0), + "Set DXPL MPIO succeeded"); - VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), "Dataset write succeeded"); + VRFY((H5Dwrite(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, plist_id, data) >= 0), + "Dataset write succeeded"); if (data) free(data); @@ -2362,7 +4015,8 @@ test_write_parallel_read_serial(void) plist_id = H5Pcreate(H5P_FILE_ACCESS); VRFY((plist_id >= 0), "FAPL creation succeeded"); - VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(plist_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); file_id = H5Fopen(filenames[0], H5F_ACC_RDWR, plist_id); VRFY((file_id >= 0), "Test file open succeeded"); @@ -2381,11 +4035,16 @@ test_write_parallel_read_serial(void) VRFY((NULL != read_buf), "calloc succeeded"); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) - correct_buf[i] = (C_DATATYPE) ((i % (dataset_dims[0] * dataset_dims[1])) + (i / (dataset_dims[0] * dataset_dims[1])));; + correct_buf[i] = (C_DATATYPE) ( + (i % (dataset_dims[0] * dataset_dims[1])) + + (i / (dataset_dims[0] * dataset_dims[1])) + ); - VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, read_buf) >= 0), "Dataset read succeeded"); + VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, H5P_DEFAULT, read_buf) >= 0), + "Dataset read succeeded"); - VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); + VRFY((0 == memcmp(read_buf, correct_buf, correct_buf_size)), + "Data verification succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); @@ -2416,7 +4075,9 @@ main(int argc, char** argv) } if (H5dont_atexit() < 0) { - printf("Failed to turn off atexit processing. Continue.\n"); + if (MAINPROCESS) { + printf("Failed to turn off atexit processing. Continue.\n"); + } } H5open(); @@ -2437,9 +4098,11 @@ main(int argc, char** argv) VRFY((H5Pset_fapl_mpio(fapl, comm, info) >= 0), "Set FAPL MPIO succeeded"); - VRFY((H5Pset_libver_bounds(fapl, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), "Set libver bounds succeeded"); + VRFY((H5Pset_libver_bounds(fapl, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) >= 0), + "Set libver bounds succeeded"); - VRFY((h5_fixname(FILENAME[0], fapl, filenames[0], sizeof(filenames[0])) != NULL), "Test file name created"); + VRFY((h5_fixname(FILENAME[0], fapl, filenames[0], sizeof(filenames[0])) != NULL), + "Test file name created"); file_id = H5Fcreate(filenames[0], H5F_ACC_TRUNC, H5P_DEFAULT, fapl); VRFY((file_id >= 0), "Test file creation succeeded"); @@ -2449,7 +4112,8 @@ main(int argc, char** argv) for (i = 0; i < ARRAY_SIZE(tests); i++) { if (MPI_SUCCESS == (mpi_code = MPI_Barrier(comm))) { (*tests[i])(); - } else { + } + else { if (MAINPROCESS) MESG("MPI_Barrier failed"); nerrors++; } @@ -2461,7 +4125,9 @@ main(int argc, char** argv) exit: if (nerrors) - if (MAINPROCESS) printf("*** %d TEST ERROR%s OCCURRED ***\n", nerrors, nerrors > 1 ? "S" : ""); + if (MAINPROCESS) + printf("*** %d TEST ERROR%s OCCURRED ***\n", nerrors, + nerrors > 1 ? "S" : ""); ALARM_OFF; diff --git a/testpar/t_filters_parallel.h b/testpar/t_filters_parallel.h index cb9a1ab..43d471a 100644 --- a/testpar/t_filters_parallel.h +++ b/testpar/t_filters_parallel.h @@ -43,16 +43,19 @@ size_t cd_nelmts = FILTER_NUM_CDVALUES; /* Common defines for all tests */ #define C_DATATYPE long +#define C_DATATYPE_MPI MPI_LONG #define COMPOUND_C_DATATYPE cmpd_filtered_t #define C_DATATYPE_STR(type) STRINGIFY(type) #define HDF5_DATATYPE_NAME H5T_NATIVE_LONG +/* Macro used to generate data for datasets for later verification */ #define GEN_DATA(i) INCREMENTAL_DATA(i) -#define INCREMENTAL_DATA(i) ((size_t) mpi_rank + i) /* Generates incremental test data */ /* For experimental purposes only, will cause tests to fail data verification phase - JTH */ /* #define GEN_DATA(i) RANK_DATA(i) */ /* Given an index value i, generates test data based upon selected mode */ -#define RANK_DATA(i) (mpi_rank) /* Generates test data to visibly show which rank wrote to which parts of the dataset */ + +#define INCREMENTAL_DATA(i) ((size_t) mpi_rank + i) /* Generates incremental test data */ +#define RANK_DATA(i) (mpi_rank) /* Generates test data to visibly show which rank wrote to which parts of the dataset */ #ifdef DYNAMIC_FILTER #define SET_FILTER(dcpl) H5Pset_filter(dcpl, filter_id, flags, FILTER_NUM_CDVALUES, cd_values) /* Test other filter in parallel */ @@ -63,57 +66,57 @@ size_t cd_nelmts = FILTER_NUM_CDVALUES; #define DIM0_SCALE_FACTOR 4 #define DIM1_SCALE_FACTOR 2 -/* Defines for the one-chunk filtered dataset test */ -#define ONE_CHUNK_FILTERED_DATASET_NAME "one_chunk_filtered_dataset" -#define ONE_CHUNK_FILTERED_DATASET_DIMS 2 -#define ONE_CHUNK_FILTERED_DATASET_NROWS (mpi_size * DIM0_SCALE_FACTOR) /* Must be an even multiple of the number of ranks to avoid issues */ -#define ONE_CHUNK_FILTERED_DATASET_NCOLS (mpi_size * DIM1_SCALE_FACTOR) /* Must be an even multiple of the number of ranks to avoid issues */ -#define ONE_CHUNK_FILTERED_DATASET_CH_NROWS ONE_CHUNK_FILTERED_DATASET_NROWS -#define ONE_CHUNK_FILTERED_DATASET_CH_NCOLS ONE_CHUNK_FILTERED_DATASET_NCOLS +/* Defines for the one-chunk filtered dataset write test */ +#define WRITE_ONE_CHUNK_FILTERED_DATASET_NAME "one_chunk_filtered_dataset_write" +#define WRITE_ONE_CHUNK_FILTERED_DATASET_DIMS 2 +#define WRITE_ONE_CHUNK_FILTERED_DATASET_NROWS (mpi_size * DIM0_SCALE_FACTOR) /* Must be an even multiple of the number of ranks to avoid issues */ +#define WRITE_ONE_CHUNK_FILTERED_DATASET_NCOLS (mpi_size * DIM1_SCALE_FACTOR) /* Must be an even multiple of the number of ranks to avoid issues */ +#define WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NROWS WRITE_ONE_CHUNK_FILTERED_DATASET_NROWS +#define WRITE_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS WRITE_ONE_CHUNK_FILTERED_DATASET_NCOLS /* Defines for the unshared filtered chunks write test */ -#define UNSHARED_FILTERED_CHUNKS_DATASET_NAME "unshared_filtered_chunks" -#define UNSHARED_FILTERED_CHUNKS_DATASET_DIMS 2 -#define UNSHARED_FILTERED_CHUNKS_NROWS (mpi_size * DIM0_SCALE_FACTOR) -#define UNSHARED_FILTERED_CHUNKS_NCOLS (mpi_size * DIM1_SCALE_FACTOR) -#define UNSHARED_FILTERED_CHUNKS_CH_NROWS (UNSHARED_FILTERED_CHUNKS_NROWS / mpi_size) -#define UNSHARED_FILTERED_CHUNKS_CH_NCOLS (UNSHARED_FILTERED_CHUNKS_NCOLS / mpi_size) +#define WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_NAME "unshared_filtered_chunks_write" +#define WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS 2 +#define WRITE_UNSHARED_FILTERED_CHUNKS_NROWS (mpi_size * DIM0_SCALE_FACTOR) +#define WRITE_UNSHARED_FILTERED_CHUNKS_NCOLS (mpi_size * DIM1_SCALE_FACTOR) +#define WRITE_UNSHARED_FILTERED_CHUNKS_CH_NROWS (WRITE_UNSHARED_FILTERED_CHUNKS_NROWS / mpi_size) +#define WRITE_UNSHARED_FILTERED_CHUNKS_CH_NCOLS (WRITE_UNSHARED_FILTERED_CHUNKS_NCOLS / mpi_size) /* Defines for the shared filtered chunks write test */ -#define SHARED_FILTERED_CHUNKS_DATASET_NAME "shared_filtered_chunks" -#define SHARED_FILTERED_CHUNKS_DATASET_DIMS 2 -#define SHARED_FILTERED_CHUNKS_CH_NROWS (mpi_size) -#define SHARED_FILTERED_CHUNKS_CH_NCOLS (mpi_size) -#define SHARED_FILTERED_CHUNKS_NROWS (SHARED_FILTERED_CHUNKS_CH_NROWS * DIM0_SCALE_FACTOR) -#define SHARED_FILTERED_CHUNKS_NCOLS (SHARED_FILTERED_CHUNKS_CH_NCOLS * DIM1_SCALE_FACTOR) +#define WRITE_SHARED_FILTERED_CHUNKS_DATASET_NAME "shared_filtered_chunks_write" +#define WRITE_SHARED_FILTERED_CHUNKS_DATASET_DIMS 2 +#define WRITE_SHARED_FILTERED_CHUNKS_CH_NROWS (mpi_size) +#define WRITE_SHARED_FILTERED_CHUNKS_CH_NCOLS (mpi_size) +#define WRITE_SHARED_FILTERED_CHUNKS_NROWS (WRITE_SHARED_FILTERED_CHUNKS_CH_NROWS * DIM0_SCALE_FACTOR) +#define WRITE_SHARED_FILTERED_CHUNKS_NCOLS (WRITE_SHARED_FILTERED_CHUNKS_CH_NCOLS * DIM1_SCALE_FACTOR) /* Defines for the filtered chunks write test where a process has no selection */ -#define SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME "single_no_selection_filtered_chunks" -#define SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS 2 -#define SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS (DIM0_SCALE_FACTOR) -#define SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS (DIM1_SCALE_FACTOR) -#define SINGLE_NO_SELECTION_FILTERED_CHUNKS_NROWS (SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * mpi_size) -#define SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS (SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS * mpi_size) -#define SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC (mpi_size - 1) +#define WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME "single_no_selection_filtered_chunks_write" +#define WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS 2 +#define WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS (DIM0_SCALE_FACTOR) +#define WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS (DIM1_SCALE_FACTOR) +#define WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NROWS (WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * mpi_size) +#define WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS (WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS * mpi_size) +#define WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC (mpi_size - 1) /* Defines for the filtered chunks write test where no process has a selection */ -#define ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME "all_no_selection_filtered_chunks" -#define ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS 2 -#define ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS (DIM0_SCALE_FACTOR) -#define ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS (DIM1_SCALE_FACTOR) -#define ALL_NO_SELECTION_FILTERED_CHUNKS_NROWS (ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * mpi_size) -#define ALL_NO_SELECTION_FILTERED_CHUNKS_NCOLS (ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS * mpi_size) +#define WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME "all_no_selection_filtered_chunks_write" +#define WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS 2 +#define WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS (DIM0_SCALE_FACTOR) +#define WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS (DIM1_SCALE_FACTOR) +#define WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_NROWS (WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * mpi_size) +#define WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_NCOLS (WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS * mpi_size) /* Defines for the filtered chunks write test with a point selection */ -#define POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME "point_selection_filtered_chunks" -#define POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS 2 -#define POINT_SELECTION_FILTERED_CHUNKS_CH_NROWS (DIM0_SCALE_FACTOR) -#define POINT_SELECTION_FILTERED_CHUNKS_CH_NCOLS (DIM1_SCALE_FACTOR) -#define POINT_SELECTION_FILTERED_CHUNKS_NROWS (POINT_SELECTION_FILTERED_CHUNKS_CH_NROWS * mpi_size) -#define POINT_SELECTION_FILTERED_CHUNKS_NCOLS (POINT_SELECTION_FILTERED_CHUNKS_CH_NCOLS * mpi_size) +#define WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME "point_selection_filtered_chunks_write" +#define WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS 2 +#define WRITE_POINT_SELECTION_FILTERED_CHUNKS_CH_NROWS (DIM0_SCALE_FACTOR) +#define WRITE_POINT_SELECTION_FILTERED_CHUNKS_CH_NCOLS (DIM1_SCALE_FACTOR) +#define WRITE_POINT_SELECTION_FILTERED_CHUNKS_NROWS (WRITE_POINT_SELECTION_FILTERED_CHUNKS_CH_NROWS * mpi_size) +#define WRITE_POINT_SELECTION_FILTERED_CHUNKS_NCOLS (WRITE_POINT_SELECTION_FILTERED_CHUNKS_CH_NCOLS * mpi_size) /* Defines for the filtered dataset interleaved write test */ -#define INTERLEAVED_WRITE_FILTERED_DATASET_NAME "interleaved_write_filtered_dataset" +#define INTERLEAVED_WRITE_FILTERED_DATASET_NAME "filtered_dataset_interleaved_write" #define INTERLEAVED_WRITE_FILTERED_DATASET_DIMS 2 #define INTERLEAVED_WRITE_FILTERED_DATASET_CH_NROWS (mpi_size) #define INTERLEAVED_WRITE_FILTERED_DATASET_CH_NCOLS (DIM1_SCALE_FACTOR) @@ -121,31 +124,31 @@ size_t cd_nelmts = FILTER_NUM_CDVALUES; #define INTERLEAVED_WRITE_FILTERED_DATASET_NCOLS (INTERLEAVED_WRITE_FILTERED_DATASET_CH_NCOLS * DIM1_SCALE_FACTOR) /* Defines for the 3D unshared filtered dataset separate page write test */ -#define UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_NAME "3D_unshared_filtered_chunks_separate_pages" -#define UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS 3 -#define UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS (mpi_size * DIM0_SCALE_FACTOR) -#define UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS (mpi_size * DIM1_SCALE_FACTOR) -#define UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DEPTH (mpi_size) -#define UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS (UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS / mpi_size) -#define UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS (UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS / mpi_size) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_NAME "3D_unshared_filtered_chunks_separate_pages_write" +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_DIMS 3 +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS (mpi_size * DIM0_SCALE_FACTOR) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS (mpi_size * DIM1_SCALE_FACTOR) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DEPTH (mpi_size) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NROWS (WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NROWS / mpi_size) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_CH_NCOLS (WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_NCOLS / mpi_size) /* Defines for the 3D unshared filtered dataset same page write test */ -#define UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_NAME "3D_unshared_filtered_chunks_same_pages" -#define UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS 3 -#define UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NROWS (mpi_size * DIM0_SCALE_FACTOR) -#define UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS (mpi_size * DIM1_SCALE_FACTOR) -#define UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DEPTH (mpi_size) -#define UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS (UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NROWS / mpi_size) -#define UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS (UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS / mpi_size) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_NAME "3D_unshared_filtered_chunks_same_pages_write" +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_DIMS 3 +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NROWS (mpi_size * DIM0_SCALE_FACTOR) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS (mpi_size * DIM1_SCALE_FACTOR) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DEPTH (mpi_size) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NROWS (WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NROWS / mpi_size) +#define WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_CH_NCOLS (WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_NCOLS / mpi_size) /* Defines for the 3d shared filtered dataset write test */ -#define SHARED_FILTERED_CHUNKS_3D_DATASET_NAME "3D_shared_filtered_chunks" -#define SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS 3 -#define SHARED_FILTERED_CHUNKS_3D_CH_NROWS (mpi_size) -#define SHARED_FILTERED_CHUNKS_3D_CH_NCOLS (DIM1_SCALE_FACTOR) -#define SHARED_FILTERED_CHUNKS_3D_NROWS (SHARED_FILTERED_CHUNKS_3D_CH_NROWS * DIM0_SCALE_FACTOR) -#define SHARED_FILTERED_CHUNKS_3D_NCOLS (SHARED_FILTERED_CHUNKS_3D_CH_NCOLS * DIM1_SCALE_FACTOR) -#define SHARED_FILTERED_CHUNKS_3D_DEPTH (mpi_size) +#define WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_NAME "3D_shared_filtered_chunks_write" +#define WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_DIMS 3 +#define WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NROWS (mpi_size) +#define WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NCOLS (DIM1_SCALE_FACTOR) +#define WRITE_SHARED_FILTERED_CHUNKS_3D_NROWS (WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NROWS * DIM0_SCALE_FACTOR) +#define WRITE_SHARED_FILTERED_CHUNKS_3D_NCOLS (WRITE_SHARED_FILTERED_CHUNKS_3D_CH_NCOLS * DIM1_SCALE_FACTOR) +#define WRITE_SHARED_FILTERED_CHUNKS_3D_DEPTH (mpi_size) /* Struct type for the compound datatype filtered dataset tests */ typedef struct { @@ -156,40 +159,97 @@ typedef struct { } COMPOUND_C_DATATYPE; /* Defines for the compound datatype filtered dataset no conversion write test with unshared chunks */ -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_NAME "compound_unshared_filtered_chunks_no_conversion" -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS 2 -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NROWS 1 -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NCOLS mpi_size -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS 1 -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS 1 -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC (COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NCOLS / mpi_size) +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_NAME "compound_unshared_filtered_chunks_no_conversion_write" +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_DIMS 2 +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NROWS 1 +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NCOLS mpi_size +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NROWS 1 +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_CH_NCOLS 1 +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC (WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_NCOLS / mpi_size) /* Defines for the compound datatype filtered dataset no conversion write test with shared chunks */ -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_NAME "compound_shared_filtered_chunks_no_conversion" -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS 2 -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NROWS mpi_size -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NCOLS mpi_size -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS mpi_size -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NCOLS 1 -#define COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NCOLS +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_NAME "compound_shared_filtered_chunks_no_conversion_write" +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_DIMS 2 +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NROWS mpi_size +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NCOLS mpi_size +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NROWS mpi_size +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_CH_NCOLS 1 +#define WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_NCOLS /* Defines for the compound datatype filtered dataset type conversion write test with unshared chunks */ -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_NAME "compound_unshared_filtered_chunks_type_conversion" -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS 2 -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NROWS 1 -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NCOLS mpi_size -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS 1 -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS 1 -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC (COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NCOLS / mpi_size) +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_NAME "compound_unshared_filtered_chunks_type_conversion_write" +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_DIMS 2 +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NROWS 1 +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NCOLS mpi_size +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NROWS 1 +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_CH_NCOLS 1 +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC (WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_NCOLS / mpi_size) /* Defines for the compound datatype filtered dataset type conversion write test with shared chunks */ -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_NAME "compound_shared_filtered_chunks_type_conversion" -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS 2 -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NROWS mpi_size -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NCOLS mpi_size -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS mpi_size -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NCOLS 1 -#define COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NCOLS +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_NAME "compound_shared_filtered_chunks_type_conversion_write" +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_DIMS 2 +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NROWS mpi_size +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NCOLS mpi_size +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NROWS mpi_size +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_CH_NCOLS 1 +#define WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_NCOLS + +/* Defines for the one-chunk filtered dataset read test */ +#define READ_ONE_CHUNK_FILTERED_DATASET_NAME "one_chunk_filtered_dataset_read" +#define READ_ONE_CHUNK_FILTERED_DATASET_DIMS 2 +#define READ_ONE_CHUNK_FILTERED_DATASET_NROWS (mpi_size * DIM0_SCALE_FACTOR) /* Must be an even multiple of the number of ranks to avoid issues */ +#define READ_ONE_CHUNK_FILTERED_DATASET_NCOLS (mpi_size * DIM1_SCALE_FACTOR) /* Must be an even multiple of the number of ranks to avoid issues */ +#define READ_ONE_CHUNK_FILTERED_DATASET_CH_NROWS READ_ONE_CHUNK_FILTERED_DATASET_NROWS +#define READ_ONE_CHUNK_FILTERED_DATASET_CH_NCOLS READ_ONE_CHUNK_FILTERED_DATASET_NCOLS + +/* Defines for the unshared filtered chunks read test */ +#define READ_UNSHARED_FILTERED_CHUNKS_DATASET_NAME "unshared_filtered_chunks_read" +#define READ_UNSHARED_FILTERED_CHUNKS_DATASET_DIMS 2 +#define READ_UNSHARED_FILTERED_CHUNKS_NROWS (mpi_size * DIM0_SCALE_FACTOR) +#define READ_UNSHARED_FILTERED_CHUNKS_NCOLS (mpi_size * DIM1_SCALE_FACTOR) +#define READ_UNSHARED_FILTERED_CHUNKS_CH_NROWS (READ_UNSHARED_FILTERED_CHUNKS_NROWS / mpi_size) +#define READ_UNSHARED_FILTERED_CHUNKS_CH_NCOLS (READ_UNSHARED_FILTERED_CHUNKS_NCOLS / mpi_size) + +/* Defines for the shared filtered chunks read test */ +#define READ_SHARED_FILTERED_CHUNKS_DATASET_NAME "shared_filtered_chunks_read" +#define READ_SHARED_FILTERED_CHUNKS_DATASET_DIMS 2 +#define READ_SHARED_FILTERED_CHUNKS_CH_NROWS (mpi_size) +#define READ_SHARED_FILTERED_CHUNKS_CH_NCOLS (mpi_size) +#define READ_SHARED_FILTERED_CHUNKS_NROWS (READ_SHARED_FILTERED_CHUNKS_CH_NROWS * DIM0_SCALE_FACTOR) +#define READ_SHARED_FILTERED_CHUNKS_NCOLS (READ_SHARED_FILTERED_CHUNKS_CH_NCOLS * DIM1_SCALE_FACTOR) + +/* Defines for the filtered chunks read test where a process has no selection */ +#define READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME "single_no_selection_filtered_chunks_read" +#define READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS 2 +#define READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS (DIM0_SCALE_FACTOR) +#define READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS (DIM1_SCALE_FACTOR) +#define READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NROWS (READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * mpi_size) +#define READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NCOLS (READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS * mpi_size) +#define READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC (mpi_size - 1) + +/* Defines for the filtered chunks read test where no process has a selection */ +#define READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME "all_no_selection_filtered_chunks_read" +#define READ_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_DIMS 2 +#define READ_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS (DIM0_SCALE_FACTOR) +#define READ_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS (DIM1_SCALE_FACTOR) +#define READ_ALL_NO_SELECTION_FILTERED_CHUNKS_NROWS (READ_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * mpi_size) +#define READ_ALL_NO_SELECTION_FILTERED_CHUNKS_NCOLS (READ_ALL_NO_SELECTION_FILTERED_CHUNKS_CH_NCOLS * mpi_size) + +/* Defines for the filtered chunks read test with a point selection */ +#define READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME "point_selection_filtered_chunks_read" +#define READ_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS 2 +#define READ_POINT_SELECTION_FILTERED_CHUNKS_CH_NROWS (DIM0_SCALE_FACTOR) +#define READ_POINT_SELECTION_FILTERED_CHUNKS_CH_NCOLS (DIM1_SCALE_FACTOR) +#define READ_POINT_SELECTION_FILTERED_CHUNKS_NROWS (READ_POINT_SELECTION_FILTERED_CHUNKS_CH_NROWS * mpi_size) +#define READ_POINT_SELECTION_FILTERED_CHUNKS_NCOLS (READ_POINT_SELECTION_FILTERED_CHUNKS_CH_NCOLS * mpi_size) + +/* Defines for the filtered dataset interleaved read test */ +#define INTERLEAVED_READ_FILTERED_DATASET_NAME "filtered_dataset_interleaved_read" +#define INTERLEAVED_READ_FILTERED_DATASET_DIMS 2 +#define INTERLEAVED_READ_FILTERED_DATASET_CH_NROWS (mpi_size) +#define INTERLEAVED_READ_FILTERED_DATASET_CH_NCOLS (DIM1_SCALE_FACTOR) +#define INTERLEAVED_READ_FILTERED_DATASET_NROWS (INTERLEAVED_READ_FILTERED_DATASET_CH_NROWS * DIM0_SCALE_FACTOR) +#define INTERLEAVED_READ_FILTERED_DATASET_NCOLS (INTERLEAVED_READ_FILTERED_DATASET_CH_NCOLS * DIM1_SCALE_FACTOR) /* Defines for the write file serially/read in parallel test */ #define WRITE_SERIAL_READ_PARALLEL_DATASET_NAME "write_serial_read_parallel" |