diff options
Diffstat (limited to 'testpar/t_filters_parallel.c')
| -rw-r--r-- | testpar/t_filters_parallel.c | 900 |
1 files changed, 450 insertions, 450 deletions
diff --git a/testpar/t_filters_parallel.c b/testpar/t_filters_parallel.c index 4024c34..8933e3a 100644 --- a/testpar/t_filters_parallel.c +++ b/testpar/t_filters_parallel.c @@ -490,11 +490,11 @@ test_write_one_chunk_filtered_dataset(const char *parent_group, H5Z_filter_t fil (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 *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -512,13 +512,13 @@ test_write_one_chunk_filtered_dataset(const char *parent_group, H5Z_filter_t fil verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_ONE_CHUNK_FILTERED_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -529,9 +529,9 @@ test_write_one_chunk_filtered_dataset(const char *parent_group, H5Z_filter_t fil VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -645,11 +645,11 @@ test_write_filtered_dataset_no_overlap(const char *parent_group, H5Z_filter_t fi data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -665,13 +665,13 @@ test_write_filtered_dataset_no_overlap(const char *parent_group, H5Z_filter_t fi verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_UNSHARED_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -682,9 +682,9 @@ test_write_filtered_dataset_no_overlap(const char *parent_group, H5Z_filter_t fi VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -792,11 +792,11 @@ test_write_filtered_dataset_no_overlap_partial(const char *parent_group, H5Z_fil data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -821,13 +821,13 @@ test_write_filtered_dataset_no_overlap_partial(const char *parent_group, H5Z_fil verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_UNSHARED_FILTERED_CHUNKS_PARTIAL_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -838,9 +838,9 @@ test_write_filtered_dataset_no_overlap_partial(const char *parent_group, H5Z_fil VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -953,11 +953,11 @@ test_write_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t filte data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -975,13 +975,13 @@ test_write_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t filte verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_SHARED_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -992,9 +992,9 @@ test_write_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t filte VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -1077,11 +1077,11 @@ test_write_filtered_dataset_single_unlim_dim_no_overlap(const char *parent_group /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - read_buf = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != read_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -1148,9 +1148,9 @@ test_write_filtered_dataset_single_unlim_dim_no_overlap(const char *parent_group } if (data) - HDfree(data); + free(data); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -1231,11 +1231,11 @@ test_write_filtered_dataset_single_unlim_dim_overlap(const char *parent_group, H /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - read_buf = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != read_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -1301,9 +1301,9 @@ test_write_filtered_dataset_single_unlim_dim_overlap(const char *parent_group, H } if (data) - HDfree(data); + free(data); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -1394,12 +1394,12 @@ test_write_filtered_dataset_multi_unlim_dim_no_overlap(const char *parent_group, /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); - tmp_realloc = (C_DATATYPE *)HDrealloc(data, data_size); - VRFY((NULL != tmp_realloc), "HDrealloc succeeded"); + tmp_realloc = (C_DATATYPE *)realloc(data, data_size); + VRFY((NULL != tmp_realloc), "realloc succeeded"); data = tmp_realloc; - tmp_realloc = (C_DATATYPE *)HDrealloc(read_buf, data_size); - VRFY((NULL != tmp_realloc), "HDrealloc succeeded"); + tmp_realloc = (C_DATATYPE *)realloc(read_buf, data_size); + VRFY((NULL != tmp_realloc), "realloc succeeded"); read_buf = tmp_realloc; for (j = 0; j < data_size / sizeof(*data); j++) @@ -1470,9 +1470,9 @@ test_write_filtered_dataset_multi_unlim_dim_no_overlap(const char *parent_group, } if (data) - HDfree(data); + free(data); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -1561,12 +1561,12 @@ test_write_filtered_dataset_multi_unlim_dim_overlap(const char *parent_group, H5 /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); - tmp_realloc = (C_DATATYPE *)HDrealloc(data, data_size); - VRFY((NULL != tmp_realloc), "HDrealloc succeeded"); + tmp_realloc = (C_DATATYPE *)realloc(data, data_size); + VRFY((NULL != tmp_realloc), "realloc succeeded"); data = tmp_realloc; - tmp_realloc = (C_DATATYPE *)HDrealloc(read_buf, data_size); - VRFY((NULL != tmp_realloc), "HDrealloc succeeded"); + tmp_realloc = (C_DATATYPE *)realloc(read_buf, data_size); + VRFY((NULL != tmp_realloc), "realloc succeeded"); read_buf = tmp_realloc; for (j = 0; j < data_size / sizeof(*data); j++) @@ -1633,9 +1633,9 @@ test_write_filtered_dataset_multi_unlim_dim_overlap(const char *parent_group, H5 } if (data) - HDfree(data); + free(data); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -1758,15 +1758,15 @@ test_write_filtered_dataset_single_no_selection(const char *parent_group, H5Z_fi correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); if (mpi_rank != WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC) { - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); } - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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])) + @@ -1785,13 +1785,13 @@ test_write_filtered_dataset_single_no_selection(const char *parent_group, H5Z_fi verify_space_alloc_status(dset_id, plist_id, (mpi_size > 1 ? SOME_CHUNKS_WRITTEN : NO_CHUNKS_WRITTEN)); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_SINGLE_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -1802,9 +1802,9 @@ test_write_filtered_dataset_single_no_selection(const char *parent_group, H5Z_fi VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -1894,11 +1894,11 @@ test_write_filtered_dataset_all_no_selection(const char *parent_group, H5Z_filte data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -1910,13 +1910,13 @@ test_write_filtered_dataset_all_no_selection(const char *parent_group, H5Z_filte verify_space_alloc_status(dset_id, plist_id, NO_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_ALL_NO_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -1927,9 +1927,9 @@ test_write_filtered_dataset_all_no_selection(const char *parent_group, H5Z_filte VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -2013,8 +2013,8 @@ test_write_filtered_dataset_point_selection(const char *parent_group, H5Z_filter 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 *)HDcalloc(1, 2 * num_points * sizeof(*coords)); - VRFY((NULL != coords), "Coords HDcalloc succeeded"); + 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 < WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_DIMS; j++) @@ -2030,11 +2030,11 @@ test_write_filtered_dataset_point_selection(const char *parent_group, H5Z_filter data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -2052,13 +2052,13 @@ test_write_filtered_dataset_point_selection(const char *parent_group, H5Z_filter verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_POINT_SELECTION_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -2069,11 +2069,11 @@ test_write_filtered_dataset_point_selection(const char *parent_group, H5Z_filter VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (coords) - HDfree(coords); + free(coords); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -2190,11 +2190,11 @@ test_write_filtered_dataset_interleaved_write(const char *parent_group, H5Z_filt data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -2220,13 +2220,13 @@ test_write_filtered_dataset_interleaved_write(const char *parent_group, H5Z_filt verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, INTERLEAVED_WRITE_FILTERED_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -2237,9 +2237,9 @@ test_write_filtered_dataset_interleaved_write(const char *parent_group, H5Z_filt VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -2361,11 +2361,11 @@ test_write_transformed_filtered_dataset_no_overlap(const char *parent_group, H5Z data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -2385,13 +2385,13 @@ test_write_transformed_filtered_dataset_no_overlap(const char *parent_group, H5Z "Dataset write succeeded"); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_UNSHARED_TRANSFORMED_FILTERED_CHUNKS_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -2409,9 +2409,9 @@ test_write_transformed_filtered_dataset_no_overlap(const char *parent_group, H5Z verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -2534,11 +2534,11 @@ test_write_3d_filtered_dataset_no_overlap_separate_pages(const char *parent_grou data_size = sel_dims[0] * sel_dims[1] * sel_dims[2] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * dataset_dims[2] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -2553,13 +2553,13 @@ test_write_3d_filtered_dataset_no_overlap_separate_pages(const char *parent_grou verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_UNSHARED_FILTERED_CHUNKS_3D_SEP_PAGE_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -2570,9 +2570,9 @@ test_write_3d_filtered_dataset_no_overlap_separate_pages(const char *parent_grou VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -2696,11 +2696,11 @@ test_write_3d_filtered_dataset_no_overlap_same_pages(const char *parent_group, H data_size = sel_dims[0] * sel_dims[1] * sel_dims[2] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * dataset_dims[2] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -2716,13 +2716,13 @@ test_write_3d_filtered_dataset_no_overlap_same_pages(const char *parent_group, H verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_UNSHARED_FILTERED_CHUNKS_3D_SAME_PAGE_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -2733,9 +2733,9 @@ test_write_3d_filtered_dataset_no_overlap_same_pages(const char *parent_group, H VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -2857,11 +2857,11 @@ test_write_3d_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t fi data_size = sel_dims[0] * sel_dims[1] * sel_dims[2] * sizeof(*data); correct_buf_size = dataset_dims[0] * dataset_dims[1] * dataset_dims[2] * sizeof(*correct_buf); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -2891,13 +2891,13 @@ test_write_3d_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t fi verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_SHARED_FILTERED_CHUNKS_3D_DATASET_NAME, H5P_DEFAULT); VRFY((dset_id >= 0), "Dataset open succeeded"); @@ -2908,9 +2908,9 @@ test_write_3d_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t fi VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -3041,14 +3041,14 @@ test_write_cmpd_filtered_dataset_no_conversion_unshared(const char *parent_group VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), "Hyperslab selection succeeded"); - data = (COMPOUND_C_DATATYPE *)HDcalloc( + data = (COMPOUND_C_DATATYPE *)calloc( 1, (hsize_t)WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC * sizeof(*data)); - VRFY((NULL != data), "HDcalloc succeeded"); + VRFY((NULL != data), "calloc succeeded"); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(COMPOUND_C_DATATYPE); - correct_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (COMPOUND_C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); /* Fill data buffer */ for (i = 0; i < (hsize_t)WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_ENTRIES_PER_PROC; i++) { @@ -3071,13 +3071,13 @@ test_write_cmpd_filtered_dataset_no_conversion_unshared(const char *parent_group verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (COMPOUND_C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_UNSHARED_DATASET_NAME, H5P_DEFAULT); @@ -3088,9 +3088,9 @@ test_write_cmpd_filtered_dataset_no_conversion_unshared(const char *parent_group VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -3222,14 +3222,14 @@ test_write_cmpd_filtered_dataset_no_conversion_shared(const char *parent_group, VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), "Hyperslab selection succeeded"); - data = (COMPOUND_C_DATATYPE *)HDcalloc( + data = (COMPOUND_C_DATATYPE *)calloc( 1, (hsize_t)WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC * sizeof(*data)); - VRFY((NULL != data), "HDcalloc succeeded"); + VRFY((NULL != data), "calloc succeeded"); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(COMPOUND_C_DATATYPE); - correct_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (COMPOUND_C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); /* Fill data buffer */ for (i = 0; i < (hsize_t)WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_ENTRIES_PER_PROC; i++) { @@ -3258,13 +3258,13 @@ test_write_cmpd_filtered_dataset_no_conversion_shared(const char *parent_group, verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); /* Verify the correct data was written */ - read_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (COMPOUND_C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_COMPOUND_FILTERED_CHUNKS_NO_CONVERSION_SHARED_DATASET_NAME, H5P_DEFAULT); @@ -3275,9 +3275,9 @@ test_write_cmpd_filtered_dataset_no_conversion_shared(const char *parent_group, VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -3429,14 +3429,14 @@ test_write_cmpd_filtered_dataset_type_conversion_unshared(const char *parent_gro VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), "Hyperslab selection succeeded"); - data = (COMPOUND_C_DATATYPE *)HDcalloc( + data = (COMPOUND_C_DATATYPE *)calloc( 1, (hsize_t)WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC * sizeof(*data)); - VRFY((NULL != data), "HDcalloc succeeded"); + VRFY((NULL != data), "calloc succeeded"); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(COMPOUND_C_DATATYPE); - correct_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (COMPOUND_C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); /* Fill data buffer */ for (i = 0; i < (hsize_t)WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_ENTRIES_PER_PROC; i++) { @@ -3456,13 +3456,13 @@ test_write_cmpd_filtered_dataset_type_conversion_unshared(const char *parent_gro verify_space_alloc_status(dset_id, plist_id, NO_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); /* Verify that no data was written */ VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); - read_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (COMPOUND_C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_UNSHARED_DATASET_NAME, H5P_DEFAULT); @@ -3473,9 +3473,9 @@ test_write_cmpd_filtered_dataset_type_conversion_unshared(const char *parent_gro VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -3628,14 +3628,14 @@ test_write_cmpd_filtered_dataset_type_conversion_shared(const char *parent_group VRFY((H5Sselect_hyperslab(filespace, H5S_SELECT_SET, start, stride, count, block) >= 0), "Hyperslab selection succeeded"); - data = (COMPOUND_C_DATATYPE *)HDcalloc( + data = (COMPOUND_C_DATATYPE *)calloc( 1, (hsize_t)WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC * sizeof(*data)); - VRFY((NULL != data), "HDcalloc succeeded"); + VRFY((NULL != data), "calloc succeeded"); correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(COMPOUND_C_DATATYPE); - correct_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (COMPOUND_C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); /* Fill data buffer */ for (i = 0; i < (hsize_t)WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_ENTRIES_PER_PROC; i++) { @@ -3655,13 +3655,13 @@ test_write_cmpd_filtered_dataset_type_conversion_shared(const char *parent_group verify_space_alloc_status(dset_id, plist_id, NO_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); /* Verify that no data was written */ VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); - read_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (COMPOUND_C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); dset_id = H5Dopen2(group_id, WRITE_COMPOUND_FILTERED_CHUNKS_TYPE_CONVERSION_SHARED_DATASET_NAME, H5P_DEFAULT); @@ -3672,9 +3672,9 @@ test_write_cmpd_filtered_dataset_type_conversion_shared(const char *parent_group VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -3732,8 +3732,8 @@ test_read_one_chunk_filtered_dataset(const char *parent_group, H5Z_filter_t filt /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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 * @@ -3842,24 +3842,24 @@ test_read_one_chunk_filtered_dataset(const char *parent_group, H5Z_filter_t filt read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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++) displs[i] = (int)(i * flat_dims[0]); @@ -3871,15 +3871,15 @@ test_read_one_chunk_filtered_dataset(const char *parent_group, H5Z_filter_t filt VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -3934,8 +3934,8 @@ test_read_filtered_dataset_no_overlap(const char *parent_group, H5Z_filter_t fil correct_buf_size = (hsize_t)READ_UNSHARED_FILTERED_CHUNKS_NROWS * (hsize_t)READ_UNSHARED_FILTERED_CHUNKS_NCOLS * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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])) + @@ -4042,24 +4042,24 @@ test_read_filtered_dataset_no_overlap(const char *parent_group, H5Z_filter_t fil read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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++) displs[i] = (int)(i * flat_dims[0]); @@ -4071,15 +4071,15 @@ test_read_filtered_dataset_no_overlap(const char *parent_group, H5Z_filter_t fil VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -4134,8 +4134,8 @@ test_read_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t filter /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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] = @@ -4244,14 +4244,14 @@ test_read_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t filter read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc 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 @@ -4263,11 +4263,11 @@ test_read_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t filter size_t loop_count = count[0]; size_t total_recvcounts = 0; - recvcounts = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + recvcounts = (int *)calloc(1, (size_t)mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); - displs = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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]; @@ -4289,15 +4289,15 @@ test_read_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t filter VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -4353,8 +4353,8 @@ test_read_filtered_dataset_single_no_selection(const char *parent_group, H5Z_fil /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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])) + @@ -4474,8 +4474,8 @@ test_read_filtered_dataset_single_no_selection(const char *parent_group, H5Z_fil read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); if (mpi_rank == READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_NO_SELECT_PROC) { VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, NULL) >= 0), @@ -4486,20 +4486,20 @@ test_read_filtered_dataset_single_no_selection(const char *parent_group, H5Z_fil "Dataset read succeeded"); } - global_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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++) displs[i] = (int)(i * (size_t)(READ_SINGLE_NO_SELECTION_FILTERED_CHUNKS_CH_NROWS * @@ -4517,15 +4517,15 @@ test_read_filtered_dataset_single_no_selection(const char *parent_group, H5Z_fil VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -4573,8 +4573,8 @@ test_read_filtered_dataset_all_no_selection(const char *parent_group, H5Z_filter /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); if (MAINPROCESS) { plist_id = H5Pcreate(H5P_FILE_ACCESS); @@ -4651,8 +4651,8 @@ test_read_filtered_dataset_all_no_selection(const char *parent_group, H5Z_filter read_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); @@ -4660,9 +4660,9 @@ test_read_filtered_dataset_all_no_selection(const char *parent_group, H5Z_filter VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -4715,8 +4715,8 @@ test_read_filtered_dataset_point_selection(const char *parent_group, H5Z_filter_ /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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] = @@ -4801,8 +4801,8 @@ test_read_filtered_dataset_point_selection(const char *parent_group, H5Z_filter_ 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 *)HDcalloc(1, 2 * num_points * sizeof(*coords)); - VRFY((NULL != coords), "Coords HDcalloc succeeded"); + 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++) @@ -4816,14 +4816,14 @@ test_read_filtered_dataset_point_selection(const char *parent_group, H5Z_filter_ read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc 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 @@ -4836,11 +4836,11 @@ test_read_filtered_dataset_point_selection(const char *parent_group, H5Z_filter_ size_t cur_loop_count = original_loop_count; size_t total_recvcounts = 0; - recvcounts = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + recvcounts = (int *)calloc(1, (size_t)mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); - displs = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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]; @@ -4863,17 +4863,17 @@ test_read_filtered_dataset_point_selection(const char *parent_group, H5Z_filter_ VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); - HDfree(coords); + free(coords); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -4931,8 +4931,8 @@ test_read_filtered_dataset_interleaved_read(const char *parent_group, H5Z_filter /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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 */ @@ -5051,14 +5051,14 @@ test_read_filtered_dataset_interleaved_read(const char *parent_group, H5Z_filter read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc 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 @@ -5070,11 +5070,11 @@ test_read_filtered_dataset_interleaved_read(const char *parent_group, H5Z_filter size_t loop_count = count[0]; size_t total_recvcounts = 0; - recvcounts = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + recvcounts = (int *)calloc(1, (size_t)mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); - displs = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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]; @@ -5096,15 +5096,15 @@ test_read_filtered_dataset_interleaved_read(const char *parent_group, H5Z_filter VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -5160,8 +5160,8 @@ test_read_3d_filtered_dataset_no_overlap_separate_pages(const char *parent_group /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * dataset_dims[2] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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 % (hsize_t)mpi_size) + (i / (hsize_t)mpi_size)); @@ -5277,14 +5277,14 @@ test_read_3d_filtered_dataset_no_overlap_separate_pages(const char *parent_group read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc succeeded"); + global_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != global_buf), "calloc succeeded"); /* * Due to the nature of 3-dimensional reading, create an MPI vector type that allows each @@ -5312,11 +5312,11 @@ test_read_3d_filtered_dataset_no_overlap_separate_pages(const char *parent_group VRFY((MPI_SUCCESS == MPI_Type_free(&resized_vector_type)), "MPI_Type_free succeeded"); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -5379,8 +5379,8 @@ test_read_transformed_filtered_dataset_no_overlap(const char *parent_group, H5Z_ correct_buf_size = (hsize_t)READ_UNSHARED_TRANSFORMED_FILTERED_CHUNKS_NROWS * (hsize_t)READ_UNSHARED_TRANSFORMED_FILTERED_CHUNKS_NCOLS * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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])) + @@ -5509,24 +5509,24 @@ test_read_transformed_filtered_dataset_no_overlap(const char *parent_group, H5Z_ read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + 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 *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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++) displs[i] = (int)(i * flat_dims[0]); @@ -5538,15 +5538,15 @@ test_read_transformed_filtered_dataset_no_overlap(const char *parent_group, H5Z_ VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -5604,8 +5604,8 @@ test_read_3d_filtered_dataset_no_overlap_same_pages(const char *parent_group, H5 /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * dataset_dims[2] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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] * dataset_dims[1])) + @@ -5721,24 +5721,24 @@ test_read_3d_filtered_dataset_no_overlap_same_pages(const char *parent_group, H5 read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + 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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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++) displs[i] = (int)(i * flat_dims[0]); @@ -5750,15 +5750,15 @@ test_read_3d_filtered_dataset_no_overlap_same_pages(const char *parent_group, H5 VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -5815,8 +5815,8 @@ test_read_3d_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t fil /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * dataset_dims[2] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + 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 the Column Index */ @@ -5943,14 +5943,14 @@ test_read_3d_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t fil read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc succeeded"); + global_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != global_buf), "calloc succeeded"); { size_t run_length = @@ -5987,11 +5987,11 @@ test_read_3d_filtered_dataset_overlap(const char *parent_group, H5Z_filter_t fil VRFY((MPI_SUCCESS == MPI_Type_free(&resized_vector_type)), "MPI_Type_free succeeded"); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -6055,8 +6055,8 @@ test_read_cmpd_filtered_dataset_no_conversion_unshared(const char *parent_group, /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (COMPOUND_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].field1 = (short)((i % dataset_dims[1]) + (i / dataset_dims[1])); @@ -6181,23 +6181,23 @@ test_read_cmpd_filtered_dataset_no_conversion_unshared(const char *parent_group, read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (COMPOUND_C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, memtype, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc succeeded"); + global_buf = (COMPOUND_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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + 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] * sizeof(*read_buf)); - displs = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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++) displs[i] = (int)(i * flat_dims[0] * sizeof(*read_buf)); @@ -6209,15 +6209,15 @@ test_read_cmpd_filtered_dataset_no_conversion_unshared(const char *parent_group, VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -6282,8 +6282,8 @@ test_read_cmpd_filtered_dataset_no_conversion_shared(const char *parent_group, H /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (COMPOUND_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].field1 = @@ -6414,23 +6414,23 @@ test_read_cmpd_filtered_dataset_no_conversion_shared(const char *parent_group, H read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (COMPOUND_C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, memtype, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc succeeded"); + global_buf = (COMPOUND_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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + 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] * sizeof(*read_buf)); - displs = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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++) displs[i] = (int)(i * flat_dims[0] * sizeof(*read_buf)); @@ -6442,15 +6442,15 @@ test_read_cmpd_filtered_dataset_no_conversion_shared(const char *parent_group, H VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -6515,8 +6515,8 @@ test_read_cmpd_filtered_dataset_type_conversion_unshared(const char *parent_grou /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (COMPOUND_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].field1 = (short)((i % dataset_dims[1]) + (i / dataset_dims[1])); @@ -6649,23 +6649,23 @@ test_read_cmpd_filtered_dataset_type_conversion_unshared(const char *parent_grou read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (COMPOUND_C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, memtype, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc succeeded"); + global_buf = (COMPOUND_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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + 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] * sizeof(*read_buf)); - displs = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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++) displs[i] = (int)(i * flat_dims[0] * sizeof(*read_buf)); @@ -6677,15 +6677,15 @@ test_read_cmpd_filtered_dataset_type_conversion_unshared(const char *parent_grou VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -6751,8 +6751,8 @@ test_read_cmpd_filtered_dataset_type_conversion_shared(const char *parent_group, /* Setup the buffer for writing and for comparison */ correct_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*correct_buf); - correct_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (COMPOUND_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].field1 = @@ -6891,23 +6891,23 @@ test_read_cmpd_filtered_dataset_type_conversion_shared(const char *parent_group, read_buf_size = flat_dims[0] * sizeof(*read_buf); - read_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (COMPOUND_C_DATATYPE *)calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); VRFY((H5Dread(dset_id, memtype, memspace, filespace, dxpl_id, read_buf) >= 0), "Dataset read succeeded"); - global_buf = (COMPOUND_C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != global_buf), "HDcalloc succeeded"); + global_buf = (COMPOUND_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 *)HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + 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] * sizeof(*read_buf)); - displs = (int *)HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc 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++) displs[i] = (int)(i * flat_dims[0] * sizeof(*read_buf)); @@ -6919,15 +6919,15 @@ test_read_cmpd_filtered_dataset_type_conversion_shared(const char *parent_group, VRFY((0 == HDmemcmp(global_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (global_buf) - HDfree(global_buf); + free(global_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -7016,8 +7016,8 @@ test_write_serial_read_parallel(const char *parent_group, H5Z_filter_t filter_id data_size = dataset_dims[0] * dataset_dims[1] * dataset_dims[2] * sizeof(*data); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -7029,7 +7029,7 @@ test_write_serial_read_parallel(const char *parent_group, H5Z_filter_t filter_id verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -7039,11 +7039,11 @@ test_write_serial_read_parallel(const char *parent_group, H5Z_filter_t filter_id correct_buf_size = dataset_dims[0] * dataset_dims[1] * dataset_dims[2] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); for (i = 0; i < correct_buf_size / sizeof(*correct_buf); i++) correct_buf[i] = (long)i; @@ -7064,9 +7064,9 @@ test_write_serial_read_parallel(const char *parent_group, H5Z_filter_t filter_id VRFY((0 == HDmemcmp(read_buf, correct_buf, correct_buf_size)), "Data verification succeeded"); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); VRFY((H5Gclose(group_id) >= 0), "Group close succeeded"); @@ -7186,8 +7186,8 @@ test_write_parallel_read_serial(const char *parent_group, H5Z_filter_t filter_id /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sel_dims[2] * sizeof(*data); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -7199,7 +7199,7 @@ test_write_parallel_read_serial(const char *parent_group, H5Z_filter_t filter_id verify_space_alloc_status(dset_id, plist_id, ALL_CHUNKS_WRITTEN); if (data) - HDfree(data); + free(data); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -7228,11 +7228,11 @@ test_write_parallel_read_serial(const char *parent_group, H5Z_filter_t filter_id correct_buf_size = dataset_dims[0] * dataset_dims[1] * dataset_dims[2] * sizeof(*correct_buf); - correct_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); - read_buf = (C_DATATYPE *)HDcalloc(1, correct_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, correct_buf_size); + 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])) + @@ -7247,8 +7247,8 @@ test_write_parallel_read_serial(const char *parent_group, H5Z_filter_t filter_id VRFY((H5Gclose(group_id) >= 0), "Group close succeeded"); VRFY((H5Fclose(file_id) >= 0), "File close succeeded"); - HDfree(correct_buf); - HDfree(read_buf); + free(correct_buf); + free(read_buf); } return; @@ -7352,11 +7352,11 @@ test_shrinking_growing_chunks(const char *parent_group, H5Z_filter_t filter_id, data_size = sel_dims[0] * sel_dims[1] * sizeof(double); - data = (double *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (double *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - read_buf = (double *)HDcalloc(1, data_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (double *)calloc(1, data_size); + VRFY((NULL != read_buf), "calloc succeeded"); for (i = 0; i < SHRINKING_GROWING_CHUNKS_NLOOPS; i++) { /* Continually write random float data, followed by zeroed-out data */ @@ -7389,9 +7389,9 @@ test_shrinking_growing_chunks(const char *parent_group, H5Z_filter_t filter_id, } if (read_buf) - HDfree(read_buf); + free(read_buf); if (data) - HDfree(data); + free(data); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -7501,11 +7501,11 @@ test_edge_chunks_no_overlap(const char *parent_group, H5Z_filter_t filter_id, hi /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - read_buf = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != read_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -7592,9 +7592,9 @@ test_edge_chunks_no_overlap(const char *parent_group, H5Z_filter_t filter_id, hi VRFY((0 == HDmemcmp(read_buf, data, data_size)), "Data verification succeeded"); if (data) - HDfree(data); + free(data); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -7704,11 +7704,11 @@ test_edge_chunks_overlap(const char *parent_group, H5Z_filter_t filter_id, hid_t /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); - read_buf = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != read_buf), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -7796,9 +7796,9 @@ test_edge_chunks_overlap(const char *parent_group, H5Z_filter_t filter_id, hid_t VRFY((0 == HDmemcmp(read_buf, data, data_size)), "Data verification succeeded"); if (data) - HDfree(data); + free(data); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Sclose(filespace) >= 0), "File dataspace close succeeded"); @@ -7900,11 +7900,11 @@ test_fill_values(const char *parent_group, H5Z_filter_t filter_id, hid_t fapl_id /* Allocate buffer for reading entire dataset */ read_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*read_buf); - read_buf = HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); - correct_buf = HDcalloc(1, read_buf_size); - VRFY((NULL != correct_buf), "HDcalloc succeeded"); + correct_buf = calloc(1, read_buf_size); + VRFY((NULL != correct_buf), "calloc succeeded"); /* Read entire dataset and verify that the fill value is returned */ VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, dxpl_id, read_buf) >= 0), @@ -7949,8 +7949,8 @@ test_fill_values(const char *parent_group, H5Z_filter_t filter_id, hid_t fapl_id /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -7974,11 +7974,11 @@ test_fill_values(const char *parent_group, H5Z_filter_t filter_id, hid_t fapl_id * Each MPI rank communicates their written piece of data * into each other rank's correctness-checking buffer */ - recvcounts = HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + recvcounts = calloc(1, (size_t)mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); - displs = HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc succeeded"); + displs = 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)(count[1] * block[1]); @@ -8174,15 +8174,15 @@ test_fill_values(const char *parent_group, H5Z_filter_t filter_id, hid_t fapl_id VRFY((read_buf[i] != FILL_VALUES_TEST_FILL_VAL), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (data) - HDfree(data); + free(data); if (read_buf) - HDfree(read_buf); + free(read_buf); if (correct_buf) - HDfree(correct_buf); + free(correct_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -8263,8 +8263,8 @@ test_fill_value_undefined(const char *parent_group, H5Z_filter_t filter_id, hid_ /* Allocate buffer for reading entire dataset */ read_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*read_buf); - read_buf = HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); /* * Read entire dataset - nothing to verify since there's no fill value. @@ -8316,8 +8316,8 @@ test_fill_value_undefined(const char *parent_group, H5Z_filter_t filter_id, hid_ /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -8380,9 +8380,9 @@ test_fill_value_undefined(const char *parent_group, H5Z_filter_t filter_id, hid_ "Dataset read succeeded"); if (data) - HDfree(data); + free(data); if (read_buf) - HDfree(read_buf); + free(read_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); @@ -8486,11 +8486,11 @@ test_fill_time_never(const char *parent_group, H5Z_filter_t filter_id, hid_t fap /* Allocate buffer for reading entire dataset */ read_buf_size = dataset_dims[0] * dataset_dims[1] * sizeof(*read_buf); - read_buf = HDcalloc(1, read_buf_size); - VRFY((NULL != read_buf), "HDcalloc succeeded"); + read_buf = calloc(1, read_buf_size); + VRFY((NULL != read_buf), "calloc succeeded"); - fill_buf = HDcalloc(1, read_buf_size); - VRFY((NULL != fill_buf), "HDcalloc succeeded"); + fill_buf = calloc(1, read_buf_size); + VRFY((NULL != fill_buf), "calloc succeeded"); /* Read entire dataset and verify that the fill value isn't returned */ VRFY((H5Dread(dset_id, HDF5_DATATYPE_NAME, H5S_ALL, H5S_ALL, dxpl_id, read_buf) >= 0), @@ -8540,8 +8540,8 @@ test_fill_time_never(const char *parent_group, H5Z_filter_t filter_id, hid_t fap /* Fill data buffer */ data_size = sel_dims[0] * sel_dims[1] * sizeof(*data); - data = (C_DATATYPE *)HDcalloc(1, data_size); - VRFY((NULL != data), "HDcalloc succeeded"); + data = (C_DATATYPE *)calloc(1, data_size); + VRFY((NULL != data), "calloc succeeded"); for (i = 0; i < data_size / sizeof(*data); i++) data[i] = (C_DATATYPE)GEN_DATA(i); @@ -8565,11 +8565,11 @@ test_fill_time_never(const char *parent_group, H5Z_filter_t filter_id, hid_t fap * Each MPI rank communicates their written piece of data * into each other rank's correctness-checking buffer */ - recvcounts = HDcalloc(1, (size_t)mpi_size * sizeof(*recvcounts)); - VRFY((NULL != recvcounts), "HDcalloc succeeded"); + recvcounts = calloc(1, (size_t)mpi_size * sizeof(*recvcounts)); + VRFY((NULL != recvcounts), "calloc succeeded"); - displs = HDcalloc(1, (size_t)mpi_size * sizeof(*displs)); - VRFY((NULL != displs), "HDcalloc succeeded"); + displs = 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)(count[1] * block[1]); @@ -8634,15 +8634,15 @@ test_fill_time_never(const char *parent_group, H5Z_filter_t filter_id, hid_t fap VRFY((read_buf[i] != FILL_TIME_NEVER_TEST_FILL_VAL), "Data verification succeeded"); if (displs) - HDfree(displs); + free(displs); if (recvcounts) - HDfree(recvcounts); + free(recvcounts); if (data) - HDfree(data); + free(data); if (read_buf) - HDfree(read_buf); + free(read_buf); if (fill_buf) - HDfree(fill_buf); + free(fill_buf); VRFY((H5Pclose(plist_id) >= 0), "DCPL close succeeded"); VRFY((H5Dclose(dset_id) >= 0), "Dataset close succeeded"); 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