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authorQuincey Koziol <koziol@lbl.gov>2019-02-14 00:13:18 (GMT)
committerQuincey Koziol <koziol@lbl.gov>2019-02-14 00:13:18 (GMT)
commit10cdff5ca45786832bf5e6c3e3408bc725464fd6 (patch)
treec94b2c6f2f6475a836a99e509833c7046b0df28c /test
parent40589e28d8bd98a1af906e34c56b8b908a7eddab (diff)
parentfb5d1a37c11bca613175a48262a2147e99c9dede (diff)
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Merge pull request #1540 in HDFFV/hdf5 from merge_hyperslab_changes_01 to develop
* commit 'fb5d1a37c11bca613175a48262a2147e99c9dede': Align develop with incoming hyperslab_updates branch changes.
Diffstat (limited to 'test')
-rw-r--r--test/objcopy.c4
-rw-r--r--test/tselect.c1214
2 files changed, 612 insertions, 606 deletions
diff --git a/test/objcopy.c b/test/objcopy.c
index eb4927f..4055781 100644
--- a/test/objcopy.c
+++ b/test/objcopy.c
@@ -1167,7 +1167,7 @@ compare_data(hid_t parent1, hid_t parent2, hid_t pid, hid_t tid, size_t nelmts,
if((obj2_sid = H5Rget_region(parent2, H5R_DATASET_REGION, ref_buf2)) < 0) TEST_ERROR
/* Check if dataspaces are the same shape */
- if(H5S_select_shape_same_test(obj1_sid, obj2_sid) < 0) TEST_ERROR
+ if(H5S__select_shape_same_test(obj1_sid, obj2_sid) < 0) TEST_ERROR
/* Close dataspaces */
if(H5Sclose(obj1_sid) < 0) TEST_ERROR
@@ -2136,9 +2136,7 @@ test_copy_dataset_versionbounds(hid_t fcpl_src, hid_t fapl_src)
char src_fname[NAME_BUF_SIZE]; /* Name of source file */
char dst_fname[NAME_BUF_SIZE]; /* Name of destination file */
H5F_libver_t low, high; /* File format bounds */
- H5F_libver_t low_src, high_src; /* Source file format bounds */
unsigned srcdset_fillversion; /* Fill version of source dataset */
- hbool_t valid_high = FALSE; /* TRUE if high bound is valid */
int i, j; /* Local index variables */
H5D_t *dsetp = NULL; /* Pointer to internal dset structure */
herr_t ret; /* Generic return value */
diff --git a/test/tselect.c b/test/tselect.c
index bcc2a5b..9150b11 100644
--- a/test/tselect.c
+++ b/test/tselect.c
@@ -1888,9 +1888,9 @@ test_select_hyper_contig_dr__run_test(int test_num, const uint16_t *cube_buf,
/* verify that H5S_select_shape_same() reports the two
* selections as having the same shape.
*/
- check = H5S_select_shape_same_test(small_cube_sid,
+ check = H5S__select_shape_same_test(small_cube_sid,
file_large_cube_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Read selection from disk */
ret = H5Dread(large_cube_dataset,
@@ -1965,9 +1965,9 @@ test_select_hyper_contig_dr__run_test(int test_num, const uint16_t *cube_buf,
/* verify that H5S_select_shape_same() reports the two
* selections as having the same shape.
*/
- check = H5S_select_shape_same_test(small_cube_sid,
+ check = H5S__select_shape_same_test(small_cube_sid,
mem_large_cube_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Read selection from disk */
@@ -2082,9 +2082,9 @@ test_select_hyper_contig_dr__run_test(int test_num, const uint16_t *cube_buf,
* memory slice through the cube selection and the
* on disk full small cube selections as having the same shape.
*/
- check = H5S_select_shape_same_test(small_cube_sid,
+ check = H5S__select_shape_same_test(small_cube_sid,
mem_large_cube_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* write the slice from the in memory large cube to the on disk small cube */
@@ -2193,9 +2193,9 @@ test_select_hyper_contig_dr__run_test(int test_num, const uint16_t *cube_buf,
* on disk slice through the large cube selection
* as having the same shape.
*/
- check = H5S_select_shape_same_test(small_cube_sid,
+ check = H5S__select_shape_same_test(small_cube_sid,
file_large_cube_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* write the cube from memory to the target slice of the disk cube */
@@ -2998,9 +2998,9 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_
/* verify that H5S_select_shape_same() reports the two
* selections as having the same shape.
*/
- check = H5S_select_shape_same_test(mem_small_cube_sid,
+ check = H5S__select_shape_same_test(mem_small_cube_sid,
file_large_cube_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* zero the buffer that we will be using for reading */
HDmemset(small_cube_buf_1, 0, sizeof(*small_cube_buf_1) * small_cube_size);
@@ -3105,9 +3105,9 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_
/* verify that H5S_select_shape_same() reports the two
* selections as having the same shape.
*/
- check = H5S_select_shape_same_test(file_small_cube_sid,
+ check = H5S__select_shape_same_test(file_small_cube_sid,
mem_large_cube_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* zero out the in memory large cube */
@@ -3258,9 +3258,9 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_
/* verify that H5S_select_shape_same() reports the two
* selections as having the same shape.
*/
- check = H5S_select_shape_same_test(file_small_cube_sid,
+ check = H5S__select_shape_same_test(file_small_cube_sid,
mem_large_cube_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* write the slice from the in memory large cube to the
@@ -3390,9 +3390,9 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_
/* verify that H5S_select_shape_same() reports the two
* selections as having the same shape.
*/
- check = H5S_select_shape_same_test(file_large_cube_sid,
+ check = H5S__select_shape_same_test(file_large_cube_sid,
mem_small_cube_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* write the checker board selection of the in memory
@@ -3525,13 +3525,13 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_
/****************************************************************
**
-** test_select_hyper_checker_board_dr(): Test H5S (dataspace)
-** selection code with checkerboard source and target having
+** test_select_hyper_checker_board_dr(): Test H5S (dataspace)
+** selection code with checkerboard source and target having
** different ranks but the same shape. We have already
-** tested H5S_shape_same in isolation, so now we try to do
+** tested H5S_shape_same in isolation, so now we try to do
** I/O.
**
-** This is just an initial smoke check, so we will work
+** This is just an initial smoke check, so we will work
** with a slice through a cube only.
**
****************************************************************/
@@ -5902,6 +5902,10 @@ test_select_hyper_union_random_5d(hid_t read_plist)
/* Select hyperslab */
ret = H5Sselect_hyperslab(sid1, (i == 0 ? H5S_SELECT_SET : H5S_SELECT_OR), start, NULL, count, NULL);
CHECK(ret, FAIL, "H5Sselect_hyperslab");
+ if(ret < 0) {
+ TestErrPrintf("Random hyperslabs for seed %u failed!\n", seed);
+ break;
+ } /* end if */
} /* end for */
/* Get the number of elements selected */
@@ -5920,14 +5924,18 @@ test_select_hyper_union_random_5d(hid_t read_plist)
/* Read selection from disk */
ret=H5Dread(dataset,H5T_NATIVE_INT,sid2,sid1,read_plist,rbuf);
CHECK(ret, FAIL, "H5Dread");
+ if(ret < 0) {
+ TestErrPrintf("Random hyperslabs for seed %u failed!\n", seed);
+ break;
+ } /* end if */
/* Compare data read with data written out */
tbuf=rbuf;
ret = H5Diterate(wbuf,H5T_NATIVE_INT,sid1,test_select_hyper_iter2,&tbuf);
- if(ret<0) {
- TestErrPrintf("Random hyperslabs for seed %u failed!\n",seed);
+ if(ret < 0) {
+ TestErrPrintf("Random hyperslabs for seed %u failed!\n", seed);
break;
- }
+ } /* end if */
/* Set the read buffer back to all zeroes */
HDmemset(rbuf, 0, (size_t)SPACE6_DIM1);
@@ -6585,7 +6593,7 @@ test_select_combine(void)
hsize_t dims[SPACE7_RANK]={SPACE7_DIM1,SPACE7_DIM2}; /* Dimensions of dataspace */
H5S_sel_type sel_type; /* Selection type */
hssize_t nblocks; /* Number of hyperslab blocks */
- hsize_t blocks[128][2][SPACE7_RANK]; /* List of blocks */
+ hsize_t blocks[16][2][SPACE7_RANK]; /* List of blocks */
herr_t error;
/* Output message about test being performed */
@@ -8087,290 +8095,290 @@ test_shape_same(void)
/* Compare "all" selection to all the selections created */
/* Compare against itself */
- check=H5S_select_shape_same_test(all_sid,all_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,all_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid=H5Scopy(all_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check=H5S_select_shape_same_test(all_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "none" selection */
- check=H5S_select_shape_same_test(all_sid,none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check=H5S_select_shape_same_test(all_sid,single_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,single_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check=H5S_select_shape_same_test(all_sid,mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check=H5S_select_shape_same_test(all_sid,single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check=H5S_select_shape_same_test(all_sid,single_hyper_all_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,single_hyper_all_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check=H5S_select_shape_same_test(all_sid,single_hyper_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,single_hyper_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check=H5S_select_shape_same_test(all_sid,regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check=H5S_select_shape_same_test(all_sid,irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check=H5S_select_shape_same_test(all_sid,none_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid,none_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(all_sid, scalar_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid, scalar_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(all_sid, scalar_none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(all_sid, scalar_none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare "none" selection to all the selections created */
/* Compare against itself */
- check=H5S_select_shape_same_test(none_sid,none_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,none_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid=H5Scopy(none_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check=H5S_select_shape_same_test(none_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check=H5S_select_shape_same_test(none_sid,all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check=H5S_select_shape_same_test(none_sid,single_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,single_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check=H5S_select_shape_same_test(none_sid,mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check=H5S_select_shape_same_test(none_sid,single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check=H5S_select_shape_same_test(none_sid,single_hyper_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,single_hyper_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check=H5S_select_shape_same_test(none_sid,single_hyper_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,single_hyper_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check=H5S_select_shape_same_test(none_sid,regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check=H5S_select_shape_same_test(none_sid,irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check=H5S_select_shape_same_test(none_sid,none_hyper_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid,none_hyper_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(none_sid, scalar_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid, scalar_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(none_sid, scalar_none_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(none_sid, scalar_none_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare single point selection to all the selections created */
/* Compare against itself */
- check=H5S_select_shape_same_test(single_pt_sid,single_pt_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,single_pt_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid=H5Scopy(single_pt_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check=H5S_select_shape_same_test(single_pt_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check=H5S_select_shape_same_test(single_pt_sid,all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "none" selection */
- check=H5S_select_shape_same_test(single_pt_sid,none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check=H5S_select_shape_same_test(single_pt_sid,mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check=H5S_select_shape_same_test(single_pt_sid,single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check=H5S_select_shape_same_test(single_pt_sid,single_hyper_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,single_hyper_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check=H5S_select_shape_same_test(single_pt_sid,single_hyper_pt_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,single_hyper_pt_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check=H5S_select_shape_same_test(single_pt_sid,regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check=H5S_select_shape_same_test(single_pt_sid,irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check=H5S_select_shape_same_test(single_pt_sid,none_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid,none_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(single_pt_sid, scalar_all_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid, scalar_all_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(single_pt_sid, scalar_none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_pt_sid, scalar_none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare multiple point selection to all the selections created */
/* Compare against itself */
- check=H5S_select_shape_same_test(mult_pt_sid,mult_pt_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,mult_pt_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid=H5Scopy(mult_pt_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check=H5S_select_shape_same_test(mult_pt_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check=H5S_select_shape_same_test(mult_pt_sid,all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "none" selection */
- check=H5S_select_shape_same_test(mult_pt_sid,none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check=H5S_select_shape_same_test(mult_pt_sid,single_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,single_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check=H5S_select_shape_same_test(mult_pt_sid,single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check=H5S_select_shape_same_test(mult_pt_sid,single_hyper_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,single_hyper_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check=H5S_select_shape_same_test(mult_pt_sid,single_hyper_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,single_hyper_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check=H5S_select_shape_same_test(mult_pt_sid,regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check=H5S_select_shape_same_test(mult_pt_sid,irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check=H5S_select_shape_same_test(mult_pt_sid,none_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid,none_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(mult_pt_sid, scalar_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid, scalar_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(mult_pt_sid, scalar_none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(mult_pt_sid, scalar_none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare single "normal" hyperslab selection to all the selections created */
/* Compare against itself */
- check=H5S_select_shape_same_test(single_hyper_sid,single_hyper_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,single_hyper_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid=H5Scopy(single_hyper_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check=H5S_select_shape_same_test(single_hyper_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check=H5S_select_shape_same_test(single_hyper_sid,all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "none" selection */
- check=H5S_select_shape_same_test(single_hyper_sid,none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check=H5S_select_shape_same_test(single_hyper_sid,single_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,single_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check=H5S_select_shape_same_test(single_hyper_sid,mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_sid,single_hyper_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,single_hyper_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_sid,single_hyper_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,single_hyper_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_sid,regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_sid,irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_sid,none_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,none_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
#ifdef NOT_YET
/* In theory, these two selections are the same shape, but the
@@ -8394,8 +8402,8 @@ test_shape_same(void)
} /* end for */
/* Compare against hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
@@ -8421,70 +8429,70 @@ test_shape_same(void)
} /* end for */
/* Compare against hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(single_hyper_sid, scalar_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid, scalar_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(single_hyper_sid, scalar_none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_sid, scalar_none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare single "all" hyperslab selection to all the selections created */
/* Compare against itself */
- check=H5S_select_shape_same_test(single_hyper_all_sid,single_hyper_all_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,single_hyper_all_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid=H5Scopy(single_hyper_all_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check=H5S_select_shape_same_test(single_hyper_all_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,all_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,all_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against "none" selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,single_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,single_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,single_hyper_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,single_hyper_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,none_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,none_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
#ifdef NOT_YET
/* In theory, these two selections are the same shape, but the
@@ -8508,8 +8516,8 @@ test_shape_same(void)
} /* end for */
/* Compare against hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
@@ -8535,129 +8543,129 @@ test_shape_same(void)
} /* end for */
/* Compare against hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_all_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(single_hyper_all_sid, scalar_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid, scalar_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(single_hyper_all_sid, scalar_none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_all_sid, scalar_none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare single "point" hyperslab selection to all the selections created */
/* Compare against itself */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,single_hyper_pt_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,single_hyper_pt_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid=H5Scopy(single_hyper_pt_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check=H5S_select_shape_same_test(single_hyper_pt_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "none" selection */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,single_pt_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,single_pt_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,single_hyper_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,single_hyper_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check=H5S_select_shape_same_test(single_hyper_pt_sid,none_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid,none_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(single_hyper_pt_sid, scalar_all_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid, scalar_all_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(single_hyper_pt_sid, scalar_none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(single_hyper_pt_sid, scalar_none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare regular, strided hyperslab selection to all the selections created */
/* Compare against itself */
- check=H5S_select_shape_same_test(regular_hyper_sid,regular_hyper_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,regular_hyper_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid=H5Scopy(regular_hyper_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check=H5S_select_shape_same_test(regular_hyper_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "none" selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,single_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,single_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,single_hyper_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,single_hyper_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,single_hyper_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,single_hyper_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,none_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,none_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Construct point selection which matches regular, strided hyperslab selection */
/* Create dataspace for point selection */
@@ -8674,8 +8682,8 @@ test_shape_same(void)
} /* end for */
/* Compare against hyperslab selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
@@ -8700,8 +8708,8 @@ test_shape_same(void)
} /* end for */
/* Compare against hyperslab selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
@@ -8720,70 +8728,70 @@ test_shape_same(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
/* Compare against hyperslab selection */
- check=H5S_select_shape_same_test(regular_hyper_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(regular_hyper_sid, scalar_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid, scalar_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(regular_hyper_sid, scalar_none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(regular_hyper_sid, scalar_none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare irregular hyperslab selection to all the selections created */
/* Compare against itself */
- check=H5S_select_shape_same_test(irreg_hyper_sid,irreg_hyper_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,irreg_hyper_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid=H5Scopy(irreg_hyper_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check=H5S_select_shape_same_test(irreg_hyper_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "none" selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,single_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,single_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,single_hyper_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,single_hyper_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,single_hyper_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,single_hyper_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,none_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,none_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Construct hyperslab selection which matches irregular hyperslab selection */
/* Create dataspace for hyperslab selection */
@@ -8808,141 +8816,141 @@ test_shape_same(void)
} /* end for */
/* Compare against hyperslab selection */
- check=H5S_select_shape_same_test(irreg_hyper_sid,tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid,tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(irreg_hyper_sid, scalar_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid, scalar_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(irreg_hyper_sid, scalar_none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(irreg_hyper_sid, scalar_none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare scalar "all" dataspace with all selections created */
/* Compare against itself */
- check = H5S_select_shape_same_test(scalar_all_sid, scalar_all_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, scalar_all_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid = H5Scopy(scalar_all_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check = H5S_select_shape_same_test(scalar_all_sid, tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check = H5S_select_shape_same_test(scalar_all_sid, all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "none" selection */
- check = H5S_select_shape_same_test(scalar_all_sid, none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check = H5S_select_shape_same_test(scalar_all_sid, single_pt_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, single_pt_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check = H5S_select_shape_same_test(scalar_all_sid, mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check = H5S_select_shape_same_test(scalar_all_sid, single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check = H5S_select_shape_same_test(scalar_all_sid, single_hyper_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, single_hyper_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check = H5S_select_shape_same_test(scalar_all_sid, single_hyper_pt_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, single_hyper_pt_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check = H5S_select_shape_same_test(scalar_all_sid, regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check = H5S_select_shape_same_test(scalar_all_sid, irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check = H5S_select_shape_same_test(scalar_all_sid, none_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, none_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against scalar "none" hyperslab selection */
- check = H5S_select_shape_same_test(scalar_all_sid, scalar_none_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_all_sid, scalar_none_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare scalar "none" dataspace with all selections created */
/* Compare against itself */
- check = H5S_select_shape_same_test(scalar_none_sid, scalar_none_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, scalar_none_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against copy of itself */
tmp_sid = H5Scopy(scalar_none_sid);
CHECK(tmp_sid, FAIL, "H5Scopy");
- check = H5S_select_shape_same_test(scalar_none_sid, tmp_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, tmp_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
ret = H5Sclose(tmp_sid);
CHECK(ret, FAIL, "H5Sclose");
/* Compare against "all" selection */
- check = H5S_select_shape_same_test(scalar_none_sid, all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "none" selection */
- check = H5S_select_shape_same_test(scalar_none_sid, none_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, none_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against single point selection */
- check = H5S_select_shape_same_test(scalar_none_sid, single_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, single_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against multiple point selection */
- check = H5S_select_shape_same_test(scalar_none_sid, mult_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, mult_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "plain" single hyperslab selection */
- check = H5S_select_shape_same_test(scalar_none_sid, single_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, single_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "all" single hyperslab selection */
- check = H5S_select_shape_same_test(scalar_none_sid, single_hyper_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, single_hyper_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "single point" single hyperslab selection */
- check = H5S_select_shape_same_test(scalar_none_sid, single_hyper_pt_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, single_hyper_pt_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against regular, strided hyperslab selection */
- check = H5S_select_shape_same_test(scalar_none_sid, regular_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, regular_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against irregular hyperslab selection */
- check = H5S_select_shape_same_test(scalar_none_sid, irreg_hyper_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, irreg_hyper_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "no" hyperslab selection */
- check = H5S_select_shape_same_test(scalar_none_sid, none_hyper_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, none_hyper_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Compare against scalar "all" hyperslab selection */
- check = H5S_select_shape_same_test(scalar_none_sid, scalar_all_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(scalar_none_sid, scalar_all_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Close dataspaces */
@@ -8974,27 +8982,27 @@ test_shape_same(void)
/****************************************************************
**
-** test_shape_same_dr__smoke_check_1():
+** test_shape_same_dr__smoke_check_1():
**
-** Create a square, 2 D data space (10 X 10), and select
+** Create a square, 2 D data space (10 X 10), and select
** all of it.
**
-** Similarly, create nine, 3 D data spaces (10 X 10 X 10),
-** and select (10 X 10 X 1) hyper slabs in each, three with
-** the slab parallel to the xy plane, three parallel to the
+** Similarly, create nine, 3 D data spaces (10 X 10 X 10),
+** and select (10 X 10 X 1) hyper slabs in each, three with
+** the slab parallel to the xy plane, three parallel to the
** xz plane, and three parallel to the yz plane.
**
-** Assuming that z is the fastest changing dimension,
-** H5S_select_shape_same() should return TRUE when comparing
-** the full 2 D space against any hyperslab parallel to the
-** yz plane in the 3 D space, and FALSE when comparing the
+** Assuming that z is the fastest changing dimension,
+** H5S_select_shape_same() should return TRUE when comparing
+** the full 2 D space against any hyperslab parallel to the
+** yz plane in the 3 D space, and FALSE when comparing the
** full 2 D space against the other two hyper slabs.
**
-** Also create two additional 3 D data spaces (10 X 10 X 10),
-** and select a (10 X 10 X 2) hyper slab parallel to the yz
-** axis in one of them, and two parallel (10 X 10 X 1) hyper
-** slabs parallel to the yz axis in the other.
-** H5S_select_shape_same() should return FALSE when comparing
+** Also create two additional 3 D data spaces (10 X 10 X 10),
+** and select a (10 X 10 X 2) hyper slab parallel to the yz
+** axis in one of them, and two parallel (10 X 10 X 1) hyper
+** slabs parallel to the yz axis in the other.
+** H5S_select_shape_same() should return FALSE when comparing
** each to the 2 D selection.
**
****************************************************************/
@@ -9183,42 +9191,42 @@ test_shape_same_dr__smoke_check_1(void)
/* setup is done -- run the tests: */
/* Compare against "xy" selection */
- check = H5S_select_shape_same_test(small_cube_xy_slice_0_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xy_slice_0_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xy_slice_1_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xy_slice_1_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xy_slice_2_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xy_slice_2_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "xz" selection */
- check = H5S_select_shape_same_test(small_cube_xz_slice_0_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xz_slice_0_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xz_slice_1_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xz_slice_1_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xz_slice_2_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xz_slice_2_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "yz" selection */
- check = H5S_select_shape_same_test(small_cube_yz_slice_0_sid, small_square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_0_sid, small_square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_yz_slice_1_sid, small_square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_1_sid, small_square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_yz_slice_2_sid, small_square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_2_sid, small_square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_yz_slice_3_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_3_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_yz_slice_4_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_4_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Close dataspaces */
@@ -9265,9 +9273,9 @@ test_shape_same_dr__smoke_check_1(void)
/****************************************************************
**
-** test_shape_same_dr__smoke_check_2():
+** test_shape_same_dr__smoke_check_2():
**
-** Create a square, 2 D data space (10 X 10), and select
+** Create a square, 2 D data space (10 X 10), and select
** a "checker board" hyper slab as follows:
**
** * * - - * * - - * *
@@ -9281,27 +9289,27 @@ test_shape_same_dr__smoke_check_1(void)
** * * - - * * - - * *
** * * - - * * - - * *
**
-** where asterisks indicate selected elements, and dashes
+** where asterisks indicate selected elements, and dashes
** indicate unselected elements.
**
-** Similarly, create nine, 3 D data spaces (10 X 10 X 10),
-** and select similar (10 X 10 X 1) checker board hyper
-** slabs in each, three with the slab parallel to the xy
-** plane, three parallel to the xz plane, and three parallel
+** Similarly, create nine, 3 D data spaces (10 X 10 X 10),
+** and select similar (10 X 10 X 1) checker board hyper
+** slabs in each, three with the slab parallel to the xy
+** plane, three parallel to the xz plane, and three parallel
** to the yz plane.
**
-** Assuming that z is the fastest changing dimension,
-** H5S_select_shape_same() should return TRUE when comparing
-** the 2 D space checker board selection against a checker
-** board hyperslab parallel to the yz plane in the 3 D
-** space, and FALSE when comparing the 2 D checkerboard
-** selection against two hyper slabs parallel to the xy
+** Assuming that z is the fastest changing dimension,
+** H5S_select_shape_same() should return TRUE when comparing
+** the 2 D space checker board selection against a checker
+** board hyperslab parallel to the yz plane in the 3 D
+** space, and FALSE when comparing the 2 D checkerboard
+** selection against two hyper slabs parallel to the xy
** or xz planes.
**
-** Also create an additional 3 D data spaces (10 X 10 X 10),
-** and select a checker board parallel with the yz axis,
-** save with some squares being on different planes.
-** H5S_select_shape_same() should return FALSE when
+** Also create an additional 3 D data spaces (10 X 10 X 10),
+** and select a checker board parallel with the yz axis,
+** save with some squares being on different planes.
+** H5S_select_shape_same() should return FALSE when
** comparing this selection to the 2 D selection.
**
****************************************************************/
@@ -9584,7 +9592,7 @@ test_shape_same_dr__smoke_check_2(void)
start[0] = 4;
/* This test gets the right answer, but it fails the shape same
- * test in an unexpected point. Bring this up with Quincey, as
+ * test in an unexpected point. Bring this up with Quincey, as
* the oddness looks like it is not related to my code.
* -- JRM
*/
@@ -9596,39 +9604,39 @@ test_shape_same_dr__smoke_check_2(void)
/* setup is done -- run the tests: */
/* Compare against "xy" selection */
- check = H5S_select_shape_same_test(small_cube_xy_slice_0_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xy_slice_0_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xy_slice_1_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xy_slice_1_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xy_slice_2_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xy_slice_2_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "xz" selection */
- check = H5S_select_shape_same_test(small_cube_xz_slice_0_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xz_slice_0_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xz_slice_1_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xz_slice_1_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xz_slice_2_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xz_slice_2_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "yz" selection */
- check = H5S_select_shape_same_test(small_cube_yz_slice_0_sid, small_square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_0_sid, small_square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_yz_slice_1_sid, small_square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_1_sid, small_square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_yz_slice_2_sid, small_square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_2_sid, small_square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_yz_slice_3_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_3_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Close dataspaces */
@@ -9673,9 +9681,9 @@ test_shape_same_dr__smoke_check_2(void)
/****************************************************************
**
-** test_shape_same_dr__smoke_check_3():
+** test_shape_same_dr__smoke_check_3():
**
-** Create a square, 2 D data space (10 X 10), and select an
+** Create a square, 2 D data space (10 X 10), and select an
** irregular hyper slab as follows:
**
** y
@@ -9691,22 +9699,22 @@ test_shape_same_dr__smoke_check_2(void)
** 0 - - - - - - - - - -
** 0 1 2 3 4 5 6 7 8 9 x
**
-** where asterisks indicate selected elements, and dashes
+** where asterisks indicate selected elements, and dashes
** indicate unselected elements.
**
-** Similarly, create nine, 3 D data spaces (10 X 10 X 10),
-** and select similar irregular hyper slabs in each, three
-** with the slab parallel to the xy plane, three parallel
-** to the xz plane, and three parallel to the yz plane.
-** Further, translate the irregular slab in 2/3rds of the
+** Similarly, create nine, 3 D data spaces (10 X 10 X 10),
+** and select similar irregular hyper slabs in each, three
+** with the slab parallel to the xy plane, three parallel
+** to the xz plane, and three parallel to the yz plane.
+** Further, translate the irregular slab in 2/3rds of the
** cases.
**
-** Assuming that z is the fastest changing dimension,
-** H5S_select_shape_same() should return TRUE when
-** comparing the 2 D irregular hyperslab selection
-** against the irregular hyperslab selections parallel
-** to the yz plane in the 3 D space, and FALSE when
-** comparing it against the irregular hyper slabs
+** Assuming that z is the fastest changing dimension,
+** H5S_select_shape_same() should return TRUE when
+** comparing the 2 D irregular hyperslab selection
+** against the irregular hyperslab selections parallel
+** to the yz plane in the 3 D space, and FALSE when
+** comparing it against the irregular hyper slabs
** selections parallel to the xy or xz planes.
**
****************************************************************/
@@ -10119,36 +10127,36 @@ test_shape_same_dr__smoke_check_3(void)
/* setup is done -- run the tests: */
/* Compare against "xy" selection */
- check = H5S_select_shape_same_test(small_cube_xy_slice_0_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xy_slice_0_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xy_slice_1_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xy_slice_1_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xy_slice_2_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xy_slice_2_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "xz" selection */
- check = H5S_select_shape_same_test(small_cube_xz_slice_0_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xz_slice_0_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xz_slice_1_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xz_slice_1_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_xz_slice_2_sid, small_square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_xz_slice_2_sid, small_square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Compare against "yz" selection */
- check = H5S_select_shape_same_test(small_cube_yz_slice_0_sid, small_square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_0_sid, small_square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_yz_slice_1_sid, small_square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_1_sid, small_square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(small_cube_yz_slice_2_sid, small_square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(small_cube_yz_slice_2_sid, small_square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
/* Close dataspaces */
@@ -10190,9 +10198,9 @@ test_shape_same_dr__smoke_check_3(void)
/****************************************************************
**
-** test_shape_same_dr__smoke_check_4():
+** test_shape_same_dr__smoke_check_4():
**
-** Create a square, 2 D data space (10 X 10), and select
+** Create a square, 2 D data space (10 X 10), and select
** the entire space.
**
** Similarly, create 3 D and 4 D data spaces:
@@ -10213,7 +10221,7 @@ test_shape_same_dr__smoke_check_3(void)
** And select these entire spaces as well.
**
** Compare the 2 D space against all the other spaces
-** with H5S_select_shape_same(). The (1 X 10 X 10) &
+** with H5S_select_shape_same(). The (1 X 10 X 10) &
** (1 X 1 X 10 X 10) should return TRUE. All others
** should return FALSE.
**
@@ -10331,39 +10339,39 @@ test_shape_same_dr__smoke_check_4(void)
/* setup is done -- run the tests: */
- check = H5S_select_shape_same_test(three_d_space_0_sid, square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(three_d_space_0_sid, square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(three_d_space_1_sid, square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(three_d_space_1_sid, square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(three_d_space_2_sid, square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(three_d_space_2_sid, square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(three_d_space_3_sid, square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(three_d_space_3_sid, square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(four_d_space_0_sid, square_sid);
- VERIFY(check, TRUE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(four_d_space_0_sid, square_sid);
+ VERIFY(check, TRUE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(four_d_space_1_sid, square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(four_d_space_1_sid, square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(four_d_space_2_sid, square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(four_d_space_2_sid, square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(four_d_space_3_sid, square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(four_d_space_3_sid, square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(four_d_space_4_sid, square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(four_d_space_4_sid, square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(four_d_space_5_sid, square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(four_d_space_5_sid, square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
- check = H5S_select_shape_same_test(four_d_space_6_sid, square_sid);
- VERIFY(check, FALSE, "H5S_select_shape_same_test");
+ check = H5S__select_shape_same_test(four_d_space_6_sid, square_sid);
+ VERIFY(check, FALSE, "H5S__select_shape_same_test");
/* Close dataspaces */
@@ -10410,12 +10418,12 @@ test_shape_same_dr__smoke_check_4(void)
/****************************************************************
**
** test_shape_same_dr__full_space_vs_slice(): Tests selection
-** of a full n-cube data space vs an n-dimensional slice of
-** of an m-cube (m > n) in a call to H5S_select_shape_same().
-** Note that this test does not require the n-cube and the
+** of a full n-cube data space vs an n-dimensional slice of
+** of an m-cube (m > n) in a call to H5S_select_shape_same().
+** Note that this test does not require the n-cube and the
** n-dimensional slice to have the same rank (although
-** H5S_select_shape_same() should always return FALSE if
-** they don't).
+** H5S_select_shape_same() should always return FALSE if
+** they don't).
**
** Per Quincey's suggestion, only test up to 5 dimensional
** spaces.
@@ -10452,16 +10460,16 @@ test_shape_same_dr__full_space_vs_slice(int test_num,
HDassert( large_rank <= SS_DR_MAX_RANK );
HDassert( 0 <= offset );
HDassert( offset < large_rank );
- HDassert( edge_size > 0 );
- HDassert( edge_size <= 1000 );
+ HDassert( edge_size > 0 );
+ HDassert( edge_size <= 1000 );
- sprintf(test_desc_0,
- "\tn-cube slice through m-cube (n <= m) test %d.\n",
+ sprintf(test_desc_0,
+ "\tn-cube slice through m-cube (n <= m) test %d.\n",
test_num);
MESSAGE(7, (test_desc_0));
/* This statement must be updated if SS_DR_MAX_RANK is changed */
- sprintf(test_desc_1,
+ sprintf(test_desc_1,
"\t\tranks: %d/%d offset: %d dim_selected: %d/%d/%d/%d/%d.\n",
small_rank, large_rank, offset,
(int)dim_selected[0],
@@ -10526,7 +10534,7 @@ test_shape_same_dr__full_space_vs_slice(int test_num,
/* setup is done -- run the test: */
- check = H5S_select_shape_same_test(n_cube_0_sid, n_cube_1_sid);
+ check = H5S__select_shape_same_test(n_cube_0_sid, n_cube_1_sid);
VERIFY(check, expected_result, "test_shape_same_dr__full_space_vs_slice");
@@ -10542,27 +10550,27 @@ test_shape_same_dr__full_space_vs_slice(int test_num,
/****************************************************************
**
-** test_shape_same_dr__run_full_space_vs_slice_tests():
+** test_shape_same_dr__run_full_space_vs_slice_tests():
**
** Run the est_shape_same_dr__full_space_vs_slice() test
** over a variety of ranks and offsets.
**
-** At present, we test H5S_select_shape_same() with
+** At present, we test H5S_select_shape_same() with
** fully selected 1, 2, 3, and 4 cubes as one parameter, and
** 1, 2, 3, and 4 dimensional slices through a n-cube of rank
-** no more than 5 (and at least the rank of the slice).
-** We stop at rank 5, as Quincey suggested that it would be
+** no more than 5 (and at least the rank of the slice).
+** We stop at rank 5, as Quincey suggested that it would be
** sufficient.
**
-** All the n-cubes will have lengths of the same size, so
+** All the n-cubes will have lengths of the same size, so
** H5S_select_shape_same() should return true iff:
**
-** 1) the rank for the fully selected n cube equals the
+** 1) the rank for the fully selected n cube equals the
** number of dimensions selected in the slice through the
** m-cube (m >= n).
**
** 2) The dimensions selected in the slice through the m-cube
-** are the dimesnions with the most quickly changing
+** are the dimesnions with the most quickly changing
** indices.
**
****************************************************************/
@@ -10668,7 +10676,7 @@ test_shape_same_dr__run_full_space_vs_slice_tests(void)
dim_selected,
expected_result
);
-
+
z++;
} while((z < 2) && (large_rank >= 1));
@@ -10691,15 +10699,15 @@ test_shape_same_dr__run_full_space_vs_slice_tests(void)
/****************************************************************
**
-** test_shape_same_dr__checkerboard(): Tests selection of a
-** "checker board" subset of a full n-cube data space vs
+** test_shape_same_dr__checkerboard(): Tests selection of a
+** "checker board" subset of a full n-cube data space vs
** a "checker board" n-dimensional slice of an m-cube (m > n).
-** in a call to H5S_select_shape_same().
+** in a call to H5S_select_shape_same().
**
-** Note that this test does not require the n-cube and the
+** Note that this test does not require the n-cube and the
** n-dimensional slice to have the same rank (although
-** H5S_select_shape_same() should always return FALSE if
-** they don't).
+** H5S_select_shape_same() should always return FALSE if
+** they don't).
**
** Per Quincey's suggestion, only test up to 5 dimensional
** spaces.
@@ -10719,11 +10727,11 @@ test_shape_same_dr__checkerboard(int test_num,
char test_desc_1[128];
int i;
int dims_selected = 0;
- hid_t n_cube_0_sid; /* the checker board selected
- * hyper cube
+ hid_t n_cube_0_sid; /* the checker board selected
+ * hyper cube
*/
- hid_t n_cube_1_sid; /* the hyper cube in which a
- * checkerboard slice is selected
+ hid_t n_cube_1_sid; /* the hyper cube in which a
+ * checkerboard slice is selected
*/
hsize_t dims[SS_DR_MAX_RANK];
hsize_t base_start[2];
@@ -10745,8 +10753,8 @@ test_shape_same_dr__checkerboard(int test_num,
HDassert( small_rank <= large_rank );
HDassert( large_rank <= SS_DR_MAX_RANK );
HDassert( 0 < checker_size );
- HDassert( checker_size <= edge_size );
- HDassert( edge_size <= 1000 );
+ HDassert( checker_size <= edge_size );
+ HDassert( edge_size <= 1000 );
HDassert( 0 <= offset );
HDassert( offset < (int)edge_size );
@@ -10757,13 +10765,13 @@ test_shape_same_dr__checkerboard(int test_num,
HDassert( dims_selected >= 0 );
HDassert( dims_selected <= large_rank );
- sprintf(test_desc_0,
- "\tcheckerboard n-cube slice through m-cube (n <= m) test %d.\n",
+ sprintf(test_desc_0,
+ "\tcheckerboard n-cube slice through m-cube (n <= m) test %d.\n",
test_num);
MESSAGE(7, (test_desc_0));
/* This statement must be updated if SS_DR_MAX_RANK is changed */
- sprintf(test_desc_1,
+ sprintf(test_desc_1,
"\tranks: %d/%d edge/chkr size: %d/%d offset: %d dim_selected: %d/%d/%d/%d/%d:%d.\n",
small_rank, large_rank,
(int)edge_size, (int)checker_size,
@@ -10803,17 +10811,17 @@ test_shape_same_dr__checkerboard(int test_num,
* * * - - * * - - * *
* * * - - * * - - * *
*
- * In both cases, asterisks indicate selected elements,
+ * In both cases, asterisks indicate selected elements,
* and dashes indicate unselected elements.
*
* 3-D and 4-D ascii art is somewhat painful, so I'll
* leave those selections to your imagination. :-)
*
* Note, that since the edge_size and checker_size are
- * parameters that are passed in, the selection need
+ * parameters that are passed in, the selection need
* not look exactly like the selection shown above.
- * At present, the function allows checker sizes that
- * are not even divisors of the edge size -- thus
+ * At present, the function allows checker sizes that
+ * are not even divisors of the edge size -- thus
* something like the following is also possible:
*
* * * * - - - * * * -
@@ -10827,14 +10835,14 @@ test_shape_same_dr__checkerboard(int test_num,
* * * * - - - * * * -
* - - - * * * - - - *
*
- * As the above pattern can't be selected in one
+ * As the above pattern can't be selected in one
* call to H5Sselect_hyperslab(), and since the
* values in the start, stride, count, and block
- * arrays will be repeated over all entries in
+ * arrays will be repeated over all entries in
* the selected space case, and over all selected
* dimensions in the selected hyperslab case, we
- * compute these values first and store them in
- * in the base_start, base_stride, base_count,
+ * compute these values first and store them in
+ * in the base_start, base_stride, base_count,
* and base_block arrays.
*/
@@ -10844,9 +10852,9 @@ test_shape_same_dr__checkerboard(int test_num,
base_stride[0] = 2 * checker_size;
base_stride[1] = 2 * checker_size;
- /* Note that the following computation depends on the C99
- * requirement that integer division discard any fraction
- * (truncation towards zero) to function correctly. As we
+ /* Note that the following computation depends on the C99
+ * requirement that integer division discard any fraction
+ * (truncation towards zero) to function correctly. As we
* now require C99, this shouldn't be a problem, but noting
* it may save us some pain if we are ever obliged to support
* pre-C99 compilers again.
@@ -10863,7 +10871,7 @@ test_shape_same_dr__checkerboard(int test_num,
base_block[0] = checker_size;
base_block[1] = checker_size;
- /* now setup start, stride, count, and block arrays for
+ /* now setup start, stride, count, and block arrays for
* the first call to H5Sselect_hyperslab().
*/
for(i = 0; i < SS_DR_MAX_RANK; i++) {
@@ -10877,10 +10885,10 @@ test_shape_same_dr__checkerboard(int test_num,
start, stride, count, block);
CHECK(ret, FAIL, "H5Sselect_hyperslab");
- /* if small_rank == 1, or if edge_size == checker_size, we
+ /* if small_rank == 1, or if edge_size == checker_size, we
* are done, as either there is no added dimension in which
* to place offset selected "checkers".
- *
+ *
* Otherwise, set up start, stride, count and block, and
* make the additional selection.
*/
@@ -10900,7 +10908,7 @@ test_shape_same_dr__checkerboard(int test_num,
/* Wierdness alert:
*
- * Some how, it seems that selections can extend beyond the
+ * Some how, it seems that selections can extend beyond the
* boundaries of the target data space -- hence the following
* code to manually clip the selection back to the data space
* proper.
@@ -10923,8 +10931,8 @@ test_shape_same_dr__checkerboard(int test_num,
/* Now select the checkerboard selection in the (possibly larger) n-cube.
- *
- * Since we have already calculated the base start, stride, count,
+ *
+ * Since we have already calculated the base start, stride, count,
* and block, re-use the values in setting up start, stride, count,
* and block.
*/
@@ -10968,10 +10976,10 @@ test_shape_same_dr__checkerboard(int test_num,
start_ptr, stride_ptr, count_ptr, block_ptr);
CHECK(ret, FAIL, "H5Sselect_hyperslab");
- /* As before, if the number of dimensions selected is less than or
- * equal to 1, or if edge_size == checker_size, we are done, as
- * either there is no added dimension in which to place offset selected
- * "checkers", or the hyperslab is completely occupied by one
+ /* As before, if the number of dimensions selected is less than or
+ * equal to 1, or if edge_size == checker_size, we are done, as
+ * either there is no added dimension in which to place offset selected
+ * "checkers", or the hyperslab is completely occupied by one
* "checker".
*
* Otherwise, set up start, stride, count and block, and
@@ -11001,7 +11009,7 @@ test_shape_same_dr__checkerboard(int test_num,
/* Wierdness alert:
*
- * Again, it seems that selections can extend beyond the
+ * Again, it seems that selections can extend beyond the
* boundaries of the target data space -- hence the following
* code to manually clip the selection back to the data space
* proper.
@@ -11018,7 +11026,7 @@ test_shape_same_dr__checkerboard(int test_num,
CHECK(ret, FAIL, "H5Sselect_hyperslab");
/* setup is done -- run the test: */
- check = H5S_select_shape_same_test(n_cube_0_sid, n_cube_1_sid);
+ check = H5S__select_shape_same_test(n_cube_0_sid, n_cube_1_sid);
VERIFY(check, expected_result, "test_shape_same_dr__checkerboard");
@@ -11034,23 +11042,23 @@ test_shape_same_dr__checkerboard(int test_num,
/****************************************************************
**
-** test_shape_same_dr__run_checkerboard_tests():
+** test_shape_same_dr__run_checkerboard_tests():
**
-** In this set of tests, we test H5S_select_shape_same()
-** with a "checkerboard" selection of 1, 2, 3, and 4 cubes as
-** one parameter, and 1, 2, 3, and 4 dimensional checkerboard
-** slices through a n-cube of rank no more than 5 (and at
-** least the rank of the slice).
+** In this set of tests, we test H5S_select_shape_same()
+** with a "checkerboard" selection of 1, 2, 3, and 4 cubes as
+** one parameter, and 1, 2, 3, and 4 dimensional checkerboard
+** slices through a n-cube of rank no more than 5 (and at
+** least the rank of the slice).
**
-** All the n-cubes will have lengths of the same size, so
+** All the n-cubes will have lengths of the same size, so
** H5S_select_shape_same() should return true iff:
**
-** 1) the rank of the n cube equals the number of dimensions
-** selected in the checker board slice through the m-cube
+** 1) the rank of the n cube equals the number of dimensions
+** selected in the checker board slice through the m-cube
** (m >= n).
**
-** 2) The dimensions selected in the checkerboard slice
-** through the m-cube are the dimensions with the most
+** 2) The dimensions selected in the checkerboard slice
+** through the m-cube are the dimensions with the most
** quickly changing indices.
**
****************************************************************/
@@ -11101,7 +11109,7 @@ test_shape_same_dr__run_checkerboard_tests(void)
dim_selected[4] = FALSE;
else
dim_selected[4] = TRUE;
-
+
/* compute the expected result: */
i = 0;
@@ -11305,17 +11313,17 @@ test_shape_same_dr__run_checkerboard_tests(void)
/****************************************************************
**
-** test_shape_same_dr__irregular():
+** test_shape_same_dr__irregular():
**
-** Tests selection of an "irregular" subset of a full
+** Tests selection of an "irregular" subset of a full
** n-cube data space vs an identical "irregular" subset
** of an n-dimensional slice of an m-cube (m > n).
-** in a call to H5S_select_shape_same().
+** in a call to H5S_select_shape_same().
**
-** Note that this test does not require the n-cube and the
+** Note that this test does not require the n-cube and the
** n-dimensional slice to have the same rank (although
-** H5S_select_shape_same() should always return FALSE if
-** they don't).
+** H5S_select_shape_same() should always return FALSE if
+** they don't).
**
****************************************************************/
static void
@@ -11337,7 +11345,7 @@ test_shape_same_dr__irregular(int test_num,
hid_t n_cube_0_sid; /* the hyper cube containing
* an irregular selection
*/
- hid_t n_cube_1_sid; /* the hyper cube in which a
+ hid_t n_cube_1_sid; /* the hyper cube in which a
* slice contains an irregular
* selection.
*/
@@ -11373,7 +11381,7 @@ test_shape_same_dr__irregular(int test_num,
hsize_t clip_block[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10};
- hsize_t *(starts[SS_DR_MAX_RANK]) =
+ hsize_t *(starts[SS_DR_MAX_RANK]) =
{start_0, start_1, start_2, start_3, start_4};
hsize_t *(strides[SS_DR_MAX_RANK]) =
{stride_0, stride_1, stride_2, stride_3, stride_4};
@@ -11396,8 +11404,8 @@ test_shape_same_dr__irregular(int test_num,
HDassert( 0 < small_rank );
HDassert( small_rank <= large_rank );
HDassert( large_rank <= SS_DR_MAX_RANK );
- HDassert( 9 <= edge_size );
- HDassert( edge_size <= 1000 );
+ HDassert( 9 <= edge_size );
+ HDassert( edge_size <= 1000 );
HDassert( 0 <= slice_offset );
HDassert( slice_offset < edge_size );
HDassert( -2 <= pattern_offset );
@@ -11410,16 +11418,16 @@ test_shape_same_dr__irregular(int test_num,
HDassert( dims_selected >= 0 );
HDassert( dims_selected <= large_rank );
- sprintf(test_desc_0,
- "\tirregular sub set of n-cube slice through m-cube (n <= m) test %d.\n",
+ sprintf(test_desc_0,
+ "\tirregular sub set of n-cube slice through m-cube (n <= m) test %d.\n",
test_num);
MESSAGE(7, (test_desc_0));
/* This statement must be updated if SS_DR_MAX_RANK is changed */
- sprintf(test_desc_1,
+ sprintf(test_desc_1,
"\tranks: %d/%d edge: %d s/p offset: %d/%d dim_selected: %d/%d/%d/%d/%d:%d.\n",
small_rank, large_rank,
- edge_size,
+ edge_size,
slice_offset, pattern_offset,
(int)dim_selected[0],
(int)dim_selected[1],
@@ -11438,11 +11446,11 @@ test_shape_same_dr__irregular(int test_num,
CHECK(n_cube_0_sid, FAIL, "H5Screate_simple");
/* Select an "irregular" pattern in the small n-cube. This
- * pattern can be though of a set of four 3 x 2 x 2 X 2
- * four dimensional prisims, each parallel to one of the
- * axies and none of them intersecting with the other.
+ * pattern can be though of a set of four 3 x 2 x 2 X 2
+ * four dimensional prisims, each parallel to one of the
+ * axies and none of them intersecting with the other.
*
- * In the lesser dimensional cases, this 4D pattern is
+ * In the lesser dimensional cases, this 4D pattern is
* projected onto the lower dimensional space.
*
* In the 1-D case, the projection of the pattern looks
@@ -11467,12 +11475,12 @@ test_shape_same_dr__irregular(int test_num,
* 0 - - - - - - - - - -
* 0 1 2 3 4 5 6 7 8 9 x
*
- * In both cases, asterisks indicate selected elements,
+ * In both cases, asterisks indicate selected elements,
* and dashes indicate unselected elements.
*
* Note that is this case, since the edge size is fixed,
- * the pattern does not change. However, we do use the
- * displacement parameter to allow it to be moved around
+ * the pattern does not change. However, we do use the
+ * displacement parameter to allow it to be moved around
* within the n-cube or hyper slab.
*/
@@ -11487,7 +11495,7 @@ test_shape_same_dr__irregular(int test_num,
CHECK(ret, FAIL, "H5Sselect_hyperslab");
} /* end for */
- /* finally, clip the selection to ensure that it lies fully
+ /* finally, clip the selection to ensure that it lies fully
* within the n-cube.
*/
ret = H5Sselect_hyperslab(n_cube_0_sid, H5S_SELECT_AND,
@@ -11526,8 +11534,8 @@ test_shape_same_dr__irregular(int test_num,
/* Now select the irregular selection in the (possibly larger) n-cube.
- *
- * Basic idea is to project the pattern used in the smaller n-cube
+ *
+ * Basic idea is to project the pattern used in the smaller n-cube
* onto the dimensions selected in the larger n-cube, with the displacement
* specified.
*/
@@ -11564,7 +11572,7 @@ test_shape_same_dr__irregular(int test_num,
/* setup is done -- run the test: */
- check = H5S_select_shape_same_test(n_cube_0_sid, n_cube_1_sid);
+ check = H5S__select_shape_same_test(n_cube_0_sid, n_cube_1_sid);
VERIFY(check, expected_result, "test_shape_same_dr__checkerboard");
@@ -11580,25 +11588,25 @@ test_shape_same_dr__irregular(int test_num,
/****************************************************************
**
-** test_shape_same_dr__run_irregular_tests():
+** test_shape_same_dr__run_irregular_tests():
**
-** In this set of tests, we test H5S_select_shape_same()
-** with an "irregular" subselection of 1, 2, 3, and 4 cubes as
-** one parameter, and irregular subselections of 1, 2, 3,
-** and 4 dimensional slices through a n-cube of rank no more
-** than 5 (and at least the rank of the slice) as the other.
-** Note that the "irregular" selection may be offset between
+** In this set of tests, we test H5S_select_shape_same()
+** with an "irregular" subselection of 1, 2, 3, and 4 cubes as
+** one parameter, and irregular subselections of 1, 2, 3,
+** and 4 dimensional slices through a n-cube of rank no more
+** than 5 (and at least the rank of the slice) as the other.
+** Note that the "irregular" selection may be offset between
** the n-cube and the slice.
**
** All the irregular selections will be identical (modulo rank)
** so H5S_select_shape_same() should return true iff:
**
-** 1) the rank of the n cube equals the number of dimensions
-** selected in the irregular slice through the m-cube
+** 1) the rank of the n cube equals the number of dimensions
+** selected in the irregular slice through the m-cube
** (m >= n).
**
-** 2) The dimensions selected in the irregular slice
-** through the m-cube are the dimensions with the most
+** 2) The dimensions selected in the irregular slice
+** through the m-cube are the dimensions with the most
** quickly changing indices.
**
****************************************************************/
@@ -11649,7 +11657,7 @@ test_shape_same_dr__run_irregular_tests(void)
dim_selected[4] = FALSE;
else
dim_selected[4] = TRUE;
-
+
/* compute the expected result: */
i = 0;
@@ -11795,8 +11803,8 @@ test_shape_same_dr__run_irregular_tests(void)
/****************************************************************
**
-** test_shape_same_dr(): Tests selections on dataspace with
-** different ranks, to verify that "shape same" routine
+** test_shape_same_dr(): Tests selections on dataspace with
+** different ranks, to verify that "shape same" routine
** is now handling this case correctly.
**
****************************************************************/
@@ -11913,7 +11921,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = FALSE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_reg1);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_reg1);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be TRUE. */
if(!rebuild_stat){
@@ -11922,7 +11930,7 @@ test_space_rebuild(void)
}
else {
/* In this case, rebuild_check should be TRUE. */
- rebuild_check = H5S_select_shape_same_test(sid_reg1,sid_reg_ori1);
+ rebuild_check = H5S__select_shape_same_test(sid_reg1,sid_reg_ori1);
CHECK(rebuild_check,FALSE,"H5S_hyper_rebuild");
}
@@ -11945,7 +11953,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = TRUE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_irreg1);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_irreg1);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be FALSE. */
if(rebuild_stat){
@@ -11992,7 +12000,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = FALSE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_reg2);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_reg2);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be TRUE. */
if(!rebuild_stat){
@@ -12001,7 +12009,7 @@ test_space_rebuild(void)
}
else {
/* In this case, rebuild_check should be TRUE. */
- rebuild_check = H5S_select_shape_same_test(sid_reg2,sid_reg_ori2);
+ rebuild_check = H5S__select_shape_same_test(sid_reg2,sid_reg_ori2);
CHECK(rebuild_check,FALSE,"H5S_hyper_rebuild");
}
@@ -12029,7 +12037,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = TRUE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_irreg2);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_irreg2);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be FALSE. */
if(rebuild_stat){
@@ -12081,7 +12089,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = FALSE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_reg3);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_reg3);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be TRUE. */
@@ -12091,7 +12099,7 @@ test_space_rebuild(void)
}
else {
/* In this case, rebuild_check should be TRUE. */
- rebuild_check = H5S_select_shape_same_test(sid_reg3,sid_reg_ori3);
+ rebuild_check = H5S__select_shape_same_test(sid_reg3,sid_reg_ori3);
CHECK(rebuild_check,FALSE,"H5S_hyper_rebuild");
}
@@ -12124,7 +12132,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = TRUE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_irreg3);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_irreg3);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be FALSE. */
if(rebuild_stat){
@@ -12184,7 +12192,7 @@ test_space_rebuild(void)
rebuild_stat = FALSE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_reg4);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_reg4);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be TRUE. */
if(!rebuild_stat){
@@ -12193,7 +12201,7 @@ test_space_rebuild(void)
}
else {
/* In this case, rebuild_check should be TRUE. */
- rebuild_check = H5S_select_shape_same_test(sid_reg4,sid_reg_ori4);
+ rebuild_check = H5S__select_shape_same_test(sid_reg4,sid_reg_ori4);
CHECK(rebuild_check,FALSE,"H5S_hyper_rebuild");
}
@@ -12237,7 +12245,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = TRUE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_irreg4);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_irreg4);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be FALSE. */
if(rebuild_stat){
@@ -12301,7 +12309,7 @@ test_space_rebuild(void)
rebuild_stat = FALSE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_reg5);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_reg5);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be TRUE. */
if(!rebuild_stat){
@@ -12310,7 +12318,7 @@ test_space_rebuild(void)
}
else {
/* In this case, rebuild_check should be TRUE. */
- rebuild_check = H5S_select_shape_same_test(sid_reg5,sid_reg_ori5);
+ rebuild_check = H5S__select_shape_same_test(sid_reg5,sid_reg_ori5);
CHECK(rebuild_check,FALSE,"H5S_hyper_rebuild");
}
@@ -12359,7 +12367,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = TRUE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_irreg5);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_irreg5);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be FALSE. */
if(rebuild_stat){
@@ -12400,7 +12408,7 @@ test_space_rebuild(void)
ret = H5Sselect_hyperslab(sid_spec,H5S_SELECT_SET,start5,stride5,count5,block5);
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = FALSE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_spec);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_spec);
/* In this case, rebuild_stat should be TRUE. */
if(!rebuild_stat){
ret = FAIL;
@@ -12422,7 +12430,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = TRUE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_spec);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_spec);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be FALSE. */
if(rebuild_stat){
@@ -12445,7 +12453,7 @@ test_space_rebuild(void)
CHECK(ret, FAIL, "H5Sselect_hyperslab");
rebuild_stat = FALSE;
- rebuild_stat = H5S_get_rebuild_status_test(sid_spec);
+ rebuild_stat = H5S__get_rebuild_status_test(sid_spec);
assert(rebuild_stat!=FAIL);
/* In this case, rebuild_stat should be FALSE. */
if(!rebuild_stat){
@@ -12861,9 +12869,9 @@ test_select_bounds(void)
/* Get bounds for 'none' selection */
H5E_BEGIN_TRY {
ret = H5Sget_select_bounds(sid, low_bounds, high_bounds);
- } H5E_END_TRY;
- VERIFY(ret, FAIL, "H5Sget_select_bo unds");
-
+ } H5E_END_TRY;
+ VERIFY(ret, FAIL, "H5Sget_select_bo unds");
+
/* Set point selection */
coord[0][0] = 3; coord[0][1] = 3;
coord[1][0] = 3; coord[1][1] = 96;
@@ -13040,14 +13048,14 @@ test_hyper_regular(void)
/* Query if 'all' selection is regular hyperslab (should fail) */
H5E_BEGIN_TRY {
is_regular = H5Sis_regular_hyperslab(sid);
- } H5E_END_TRY;
- VERIFY(is_regular, FAIL, "H5Sis_regular_hyperslab");
+ } H5E_END_TRY;
+ VERIFY(is_regular, FAIL, "H5Sis_regular_hyperslab");
/* Query regular hyperslab selection info (should fail) */
H5E_BEGIN_TRY {
ret = H5Sget_regular_hyperslab(sid, q_start, q_stride, q_count, q_block);
- } H5E_END_TRY;
- VERIFY(ret, FAIL, "H5Sget_regular_hyperslab");
+ } H5E_END_TRY;
+ VERIFY(ret, FAIL, "H5Sget_regular_hyperslab");
/* Set 'none' selection */
ret = H5Sselect_none(sid);
@@ -13056,14 +13064,14 @@ test_hyper_regular(void)
/* Query if 'none' selection is regular hyperslab (should fail) */
H5E_BEGIN_TRY {
is_regular = H5Sis_regular_hyperslab(sid);
- } H5E_END_TRY;
- VERIFY(is_regular, FAIL, "H5Sis_regular_hyperslab");
+ } H5E_END_TRY;
+ VERIFY(is_regular, FAIL, "H5Sis_regular_hyperslab");
/* Query regular hyperslab selection info (should fail) */
H5E_BEGIN_TRY {
ret = H5Sget_regular_hyperslab(sid, q_start, q_stride, q_count, q_block);
- } H5E_END_TRY;
- VERIFY(ret, FAIL, "H5Sget_regular_hyperslab");
+ } H5E_END_TRY;
+ VERIFY(ret, FAIL, "H5Sget_regular_hyperslab");
/* Set point selection */
coord[0][0] = 3; coord[0][1] = 3; coord[0][2] = 3;
@@ -13076,14 +13084,14 @@ test_hyper_regular(void)
/* Query if 'point' selection is regular hyperslab (should fail) */
H5E_BEGIN_TRY {
is_regular = H5Sis_regular_hyperslab(sid);
- } H5E_END_TRY;
- VERIFY(is_regular, FAIL, "H5Sis_regular_hyperslab");
+ } H5E_END_TRY;
+ VERIFY(is_regular, FAIL, "H5Sis_regular_hyperslab");
/* Query regular hyperslab selection info (should fail) */
H5E_BEGIN_TRY {
ret = H5Sget_regular_hyperslab(sid, q_start, q_stride, q_count, q_block);
- } H5E_END_TRY;
- VERIFY(ret, FAIL, "H5Sget_regular_hyperslab");
+ } H5E_END_TRY;
+ VERIFY(ret, FAIL, "H5Sget_regular_hyperslab");
/* Set "regular" hyperslab selection */
start[0] = 2; start[1] = 2; start[2] = 2;
@@ -13095,7 +13103,7 @@ test_hyper_regular(void)
/* Query if 'hyperslab' selection is regular hyperslab (should be TRUE) */
is_regular = H5Sis_regular_hyperslab(sid);
- VERIFY(is_regular, TRUE, "H5Sis_regular_hyperslab");
+ VERIFY(is_regular, TRUE, "H5Sis_regular_hyperslab");
/* Retrieve the hyperslab parameters */
ret = H5Sget_regular_hyperslab(sid, q_start, q_stride, q_count, q_block);
@@ -13121,13 +13129,13 @@ test_hyper_regular(void)
/* Query if 'hyperslab' selection is regular hyperslab (should be FALSE) */
is_regular = H5Sis_regular_hyperslab(sid);
- VERIFY(is_regular, FALSE, "H5Sis_regular_hyperslab");
+ VERIFY(is_regular, FALSE, "H5Sis_regular_hyperslab");
/* Query regular hyperslab selection info (should fail) */
H5E_BEGIN_TRY {
ret = H5Sget_regular_hyperslab(sid, q_start, q_stride, q_count, q_block);
- } H5E_END_TRY;
- VERIFY(ret, FAIL, "H5Sget_regular_hyperslab");
+ } H5E_END_TRY;
+ VERIFY(ret, FAIL, "H5Sget_regular_hyperslab");
/* 'XOR' in the point again, to remove it, which should make it regular again */
t_start[0] = 0; t_start[1] = 0; t_start[2] = 0;
@@ -13137,7 +13145,7 @@ test_hyper_regular(void)
/* Query if 'hyperslab' selection is regular hyperslab (should be TRUE) */
is_regular = H5Sis_regular_hyperslab(sid);
- VERIFY(is_regular, TRUE, "H5Sis_regular_hyperslab");
+ VERIFY(is_regular, TRUE, "H5Sis_regular_hyperslab");
/* Retrieve the hyperslab parameters */
ret = H5Sget_regular_hyperslab(sid, q_start, q_stride, q_count, q_block);