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author | Quincey Koziol <koziol@koziol.gov> | 2019-08-21 20:36:17 (GMT) |
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committer | Quincey Koziol <koziol@koziol.gov> | 2019-08-21 20:36:17 (GMT) |
commit | 5d6f27b32be6919ab64046bd8ff27c69d84a2c17 (patch) | |
tree | 3774e701d57114cafa7bc4ab400e0fdb054472e6 /test/tselect.c | |
parent | 0b85fa6004cb96d222329614fa446b98cfcc06ea (diff) | |
parent | f0272e4945f047f17043b484db594df131222f1e (diff) | |
download | hdf5-5d6f27b32be6919ab64046bd8ff27c69d84a2c17.zip hdf5-5d6f27b32be6919ab64046bd8ff27c69d84a2c17.tar.gz hdf5-5d6f27b32be6919ab64046bd8ff27c69d84a2c17.tar.bz2 |
Merge branch 'develop' into shared_file_ptr
Diffstat (limited to 'test/tselect.c')
-rw-r--r-- | test/tselect.c | 2394 |
1 files changed, 1197 insertions, 1197 deletions
diff --git a/test/tselect.c b/test/tselect.c index 4a47929..9cfa922 100644 --- a/test/tselect.c +++ b/test/tselect.c @@ -13,50 +13,50 @@ /*********************************************************** * -* Test program: tselect +* Test program: tselect * * Test the Dataspace selection functionality * *************************************************************/ -#define H5S_FRIEND /*suppress error about including H5Spkg */ +#define H5S_FRIEND /*suppress error about including H5Spkg */ /* Define this macro to indicate that the testing APIs should be available */ #define H5S_TESTING #include "testhdf5.h" #include "hdf5.h" -#include "H5Spkg.h" /* Dataspaces */ +#include "H5Spkg.h" /* Dataspaces */ #define FILENAME "tselect.h5" /* 3-D dataset with fixed dimensions */ #define SPACE1_NAME "Space1" -#define SPACE1_RANK 3 -#define SPACE1_DIM1 3 -#define SPACE1_DIM2 15 -#define SPACE1_DIM3 13 +#define SPACE1_RANK 3 +#define SPACE1_DIM1 3 +#define SPACE1_DIM2 15 +#define SPACE1_DIM3 13 /* 2-D dataset with fixed dimensions */ #define SPACE2_NAME "Space2" -#define SPACE2_RANK 2 -#define SPACE2_DIM1 30 -#define SPACE2_DIM2 26 -#define SPACE2A_RANK 1 -#define SPACE2A_DIM1 (SPACE2_DIM1*SPACE2_DIM2) +#define SPACE2_RANK 2 +#define SPACE2_DIM1 30 +#define SPACE2_DIM2 26 +#define SPACE2A_RANK 1 +#define SPACE2A_DIM1 (SPACE2_DIM1*SPACE2_DIM2) /* 2-D dataset with fixed dimensions */ #define SPACE3_NAME "Space3" -#define SPACE3_RANK 2 -#define SPACE3_DIM1 15 -#define SPACE3_DIM2 26 +#define SPACE3_RANK 2 +#define SPACE3_DIM1 15 +#define SPACE3_DIM2 26 /* 3-D dataset with fixed dimensions */ #define SPACE4_NAME "Space4" -#define SPACE4_RANK 3 -#define SPACE4_DIM1 11 -#define SPACE4_DIM2 13 -#define SPACE4_DIM3 17 +#define SPACE4_RANK 3 +#define SPACE4_DIM1 11 +#define SPACE4_DIM2 13 +#define SPACE4_DIM3 17 /* Number of random hyperslabs to test */ #define NHYPERSLABS 10 @@ -66,22 +66,22 @@ /* 5-D dataset with fixed dimensions */ #define SPACE5_NAME "Space5" -#define SPACE5_RANK 5 -#define SPACE5_DIM1 10 -#define SPACE5_DIM2 10 -#define SPACE5_DIM3 10 -#define SPACE5_DIM4 10 -#define SPACE5_DIM5 10 +#define SPACE5_RANK 5 +#define SPACE5_DIM1 10 +#define SPACE5_DIM2 10 +#define SPACE5_DIM3 10 +#define SPACE5_DIM4 10 +#define SPACE5_DIM5 10 /* 1-D dataset with same size as 5-D dataset */ -#define SPACE6_RANK 1 -#define SPACE6_DIM1 (SPACE5_DIM1*SPACE5_DIM2*SPACE5_DIM3*SPACE5_DIM4*SPACE5_DIM5) +#define SPACE6_RANK 1 +#define SPACE6_DIM1 (SPACE5_DIM1*SPACE5_DIM2*SPACE5_DIM3*SPACE5_DIM4*SPACE5_DIM5) /* 2-D dataset with easy dimension sizes */ #define SPACE7_NAME "Space7" -#define SPACE7_RANK 2 -#define SPACE7_DIM1 10 -#define SPACE7_DIM2 10 +#define SPACE7_RANK 2 +#define SPACE7_DIM1 10 +#define SPACE7_DIM2 10 #define SPACE7_FILL 254 #define SPACE7_CHUNK_DIM1 5 #define SPACE7_CHUNK_DIM2 5 @@ -89,16 +89,16 @@ /* 4-D dataset with fixed dimensions */ #define SPACE8_NAME "Space8" -#define SPACE8_RANK 4 -#define SPACE8_DIM1 11 -#define SPACE8_DIM2 13 -#define SPACE8_DIM3 17 -#define SPACE8_DIM4 19 +#define SPACE8_RANK 4 +#define SPACE8_DIM1 11 +#define SPACE8_DIM2 13 +#define SPACE8_DIM3 17 +#define SPACE8_DIM4 19 /* Another 2-D dataset with easy dimension sizes */ -#define SPACE9_RANK 2 -#define SPACE9_DIM1 12 -#define SPACE9_DIM2 12 +#define SPACE9_RANK 2 +#define SPACE9_DIM1 12 +#define SPACE9_DIM2 12 /* Element selection information */ #define POINT1_NPOINTS 10 @@ -125,13 +125,13 @@ #define SPACE10_CHUNK_SIZE 12 /* Information for bounds checking test */ -#define SPACE11_RANK 2 +#define SPACE11_RANK 2 #define SPACE11_DIM1 100 #define SPACE11_DIM2 100 #define SPACE11_NPOINTS 4 /* Information for offsets w/chunks test #2 */ -#define SPACE12_RANK 1 +#define SPACE12_RANK 1 #define SPACE12_DIM0 25 #define SPACE12_CHUNK_DIM0 5 @@ -164,10 +164,10 @@ #define SPACEUD3_DIM2 13 /* #defines for shape same / different rank tests */ -#define SS_DR_MAX_RANK 5 +#define SS_DR_MAX_RANK 5 /* Information for regular hyperslab query test */ -#define SPACE13_RANK 3 +#define SPACE13_RANK 3 #define SPACE13_DIM1 50 #define SPACE13_DIM2 50 #define SPACE13_DIM3 50 @@ -215,21 +215,21 @@ test_select_hyper_iter1(void *_elem, hid_t H5_ATTR_UNUSED type_id, unsigned H5_A static void test_select_hyper(hid_t xfer_plist) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ H5S_class_t ext_type; /* Extent type */ /* Output message about test being performed */ @@ -380,7 +380,7 @@ test_select_hyper(hid_t xfer_plist) } /* test_select_hyper() */ struct pnt_iter { - hsize_t coord[POINT1_NPOINTS*2][SPACE2_RANK]; /* Coordinates for point selection */ + hsize_t coord[POINT1_NPOINTS*2][SPACE2_RANK]; /* Coordinates for point selection */ uint8_t *buf; /* Buffer the points are in */ int offset; /* Which point we are looking at */ }; @@ -417,24 +417,24 @@ test_select_point_iter1(void *_elem, hid_t H5_ATTR_UNUSED type_id, unsigned H5_A static void test_select_point(hid_t xfer_plist) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ - hsize_t temp_coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ - hsize_t coord2[POINT1_NPOINTS][SPACE2_RANK]; /* Coordinates for point selection */ - hsize_t temp_coord2[POINT1_NPOINTS][SPACE2_RANK]; /* Coordinates for point selection */ - hsize_t coord3[POINT1_NPOINTS][SPACE3_RANK]; /* Coordinates for point selection */ - hsize_t temp_coord3[POINT1_NPOINTS][SPACE3_RANK]; /* Coordinates for point selection */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ + hsize_t temp_coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ + hsize_t coord2[POINT1_NPOINTS][SPACE2_RANK]; /* Coordinates for point selection */ + hsize_t temp_coord2[POINT1_NPOINTS][SPACE2_RANK]; /* Coordinates for point selection */ + hsize_t coord3[POINT1_NPOINTS][SPACE3_RANK]; /* Coordinates for point selection */ + hsize_t temp_coord3[POINT1_NPOINTS][SPACE3_RANK]; /* Coordinates for point selection */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf; /* temporary buffer pointer */ int i,j; /* Counters */ struct pnt_iter pi; /* Custom Pointer iterator struct */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Element Selection Functions\n")); @@ -703,15 +703,15 @@ test_select_none_iter1(void H5_ATTR_UNUSED *_elem, hid_t H5_ATTR_UNUSED type_id, static void test_select_all(hid_t xfer_plist) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1; /* Dataspace ID */ - hsize_t dims1[] = {SPACE4_DIM1, SPACE4_DIM2, SPACE4_DIM3}; + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1; /* Dataspace ID */ + hsize_t dims1[] = {SPACE4_DIM1, SPACE4_DIM2, SPACE4_DIM3}; uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf; /* temporary buffer pointer */ int i,j,k; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ H5S_class_t ext_type; /* Extent type */ /* Output message about test being performed */ @@ -784,21 +784,21 @@ test_select_all(hid_t xfer_plist) static void test_select_all_hyper(hid_t xfer_plist) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ H5S_class_t ext_type; /* Extent type */ /* Output message about test being performed */ @@ -925,23 +925,23 @@ test_select_all_hyper(hid_t xfer_plist) static void test_select_combo(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ - hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ + hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Combination of Hyperslab & Element Selection Functions\n")); @@ -1069,16 +1069,16 @@ compare_size_t(const void *s1, const void *s2) static void test_select_hyper_stride(hid_t xfer_plist) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ uint16_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf, /* temporary buffer pointer */ @@ -1108,7 +1108,7 @@ test_select_hyper_stride(hid_t xfer_plist) 220,221,222,246,247,248, /* Block #12 */ }; int i,j; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Hyperslabs with Strides Functionality\n")); @@ -1188,8 +1188,8 @@ test_select_hyper_stride(hid_t xfer_plist) tbuf=wbuf+loc1[i]; tbuf2=rbuf+loc2[i]; if(*tbuf!=*tbuf2) { - printf("%d: hyperslab values don't match!, loc1[%d]=%d, loc2[%d]=%d\n",__LINE__,i,(int)loc1[i],i,(int)loc2[i]); - printf("wbuf=%p, tbuf=%p, rbuf=%p, tbuf2=%p\n",(void *)wbuf,(void *)tbuf,(void *)rbuf,(void *)tbuf2); + HDprintf("%d: hyperslab values don't match!, loc1[%d]=%d, loc2[%d]=%d\n",__LINE__,i,(int)loc1[i],i,(int)loc2[i]); + HDprintf("wbuf=%p, tbuf=%p, rbuf=%p, tbuf2=%p\n",(void *)wbuf,(void *)tbuf,(void *)rbuf,(void *)tbuf2); TestErrPrintf("*tbuf=%u, *tbuf2=%u\n",(unsigned)*tbuf,(unsigned)*tbuf2); } /* end if */ } /* end for */ @@ -1224,19 +1224,19 @@ test_select_hyper_stride(hid_t xfer_plist) static void test_select_hyper_contig(hid_t dset_type, hid_t xfer_plist) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims2[] = {SPACE2_DIM2, SPACE2_DIM1}; - hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims2[] = {SPACE2_DIM2, SPACE2_DIM1}; + hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ uint16_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Contiguous Hyperslabs Functionality\n")); @@ -1350,17 +1350,17 @@ test_select_hyper_contig(hid_t dset_type, hid_t xfer_plist) static void test_select_hyper_contig2(hid_t dset_type, hid_t xfer_plist) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims2[] = {SPACE8_DIM4, SPACE8_DIM3, SPACE8_DIM2, SPACE8_DIM1}; - hsize_t start[SPACE8_RANK]; /* Starting location of hyperslab */ - hsize_t count[SPACE8_RANK]; /* Element count of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims2[] = {SPACE8_DIM4, SPACE8_DIM3, SPACE8_DIM2, SPACE8_DIM1}; + hsize_t start[SPACE8_RANK]; /* Starting location of hyperslab */ + hsize_t count[SPACE8_RANK]; /* Element count of hyperslab */ uint16_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf; /* temporary buffer pointer */ int i,j,k,l; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing More Contiguous Hyperslabs Functionality\n")); @@ -1471,17 +1471,17 @@ test_select_hyper_contig2(hid_t dset_type, hid_t xfer_plist) static void test_select_hyper_contig3(hid_t dset_type, hid_t xfer_plist) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims2[] = {SPACE8_DIM4, SPACE8_DIM3, SPACE8_DIM2, SPACE8_DIM1}; - hsize_t start[SPACE8_RANK]; /* Starting location of hyperslab */ - hsize_t count[SPACE8_RANK]; /* Element count of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims2[] = {SPACE8_DIM4, SPACE8_DIM3, SPACE8_DIM2, SPACE8_DIM1}; + hsize_t start[SPACE8_RANK]; /* Starting location of hyperslab */ + hsize_t count[SPACE8_RANK]; /* Element count of hyperslab */ uint16_t *wbuf, /* Buffer to write to disk */ *rbuf, /* Buffer read from disk */ *tbuf, *tbuf2; /* Temporary buffer pointers */ unsigned i,j,k,l; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Yet More Contiguous Hyperslabs Functionality\n")); @@ -1565,13 +1565,13 @@ test_select_hyper_contig3(hid_t dset_type, hid_t xfer_plist) (k>=start[2] && k<(start[2]+count[2])) && (l>=start[3] && l<(start[3]+count[3])) ) { if(*tbuf!=*tbuf2) { - printf("Error: hyperslab values don't match!\n"); + HDprintf("Error: hyperslab values don't match!\n"); TestErrPrintf("Line: %d, i=%u, j=%u, k=%u, l=%u, *tbuf=%u,*tbuf2=%u\n",__LINE__,i,j,k,l,(unsigned)*tbuf,(unsigned)*tbuf2); } /* end if */ } /* end if */ else { if(*tbuf2!=0) { - printf("Error: invalid data in read buffer!\n"); + HDprintf("Error: invalid data in read buffer!\n"); TestErrPrintf("Line: %d, i=%u, j=%u, k=%u, l=%u, *tbuf=%u,*tbuf2=%u\n",__LINE__,i,j,k,l,(unsigned)*tbuf,(unsigned)*tbuf2); } /* end if */ } /* end else */ @@ -1597,7 +1597,7 @@ test_select_hyper_contig3(hid_t dset_type, hid_t xfer_plist) HDfree(rbuf); } /* test_select_hyper_contig3() */ - + /**************************************************************** ** ** verify_select_hyper_contig_dr__run_test(): Verify data from @@ -1609,10 +1609,10 @@ verify_select_hyper_contig_dr__run_test(const uint16_t *cube_buf, size_t cube_size, unsigned edge_size, unsigned cube_rank) { const uint16_t *cube_ptr; /* Pointer into the cube buffer */ - uint16_t expected_value; /* Expected value in dataset */ + uint16_t expected_value; /* Expected value in dataset */ unsigned i, j, k, l, m; /* Local index variables */ size_t s; /* Local index variable */ - hbool_t mis_match; /* Flag to indicate mis-match in expected value */ + hbool_t mis_match; /* Flag to indicate mis-match in expected value */ HDassert(cube_buf); HDassert(cube_size > 0); @@ -1656,14 +1656,14 @@ verify_select_hyper_contig_dr__run_test(const uint16_t *cube_buf, TestErrPrintf("Initial cube data don't match! Line = %d\n", __LINE__); } /* verify_select_hyper_contig_dr__run_test() */ - + /**************************************************************** ** ** test_select_hyper_contig_dr__run_test(): Test H5S (dataspace) -** selection code with contiguous source and target having -** different ranks but the same shape. We have already -** tested H5Sselect_shape_same in isolation, so now we try to do -** I/O. +** selection code with contiguous source and target having +** different ranks but the same shape. We have already +** tested H5Sselect_shape_same in isolation, so now we try to do +** I/O. ** ****************************************************************/ static void @@ -1671,37 +1671,37 @@ test_select_hyper_contig_dr__run_test(int test_num, const uint16_t *cube_buf, const uint16_t *zero_buf, unsigned edge_size, unsigned chunk_edge_size, unsigned small_rank, unsigned large_rank, hid_t dset_type, hid_t xfer_plist) { - hbool_t mis_match; /* Flag indicating a value read in wasn't what was expected */ + hbool_t mis_match; /* Flag indicating a value read in wasn't what was expected */ hid_t fapl; /* File access property list */ - hid_t fid1; /* File ID */ - hid_t small_cube_sid; /* Dataspace ID for small cube in memory & file */ - hid_t mem_large_cube_sid; /* Dataspace ID for large cube in memory */ - hid_t file_large_cube_sid; /* Dataspace ID for large cube in file */ - hid_t small_cube_dcpl_id = H5P_DEFAULT; /* DCPL for small cube dataset */ - hid_t large_cube_dcpl_id = H5P_DEFAULT; /* DCPL for large cube dataset */ - hid_t small_cube_dataset; /* Dataset ID */ - hid_t large_cube_dataset; /* Dataset ID */ + hid_t fid1; /* File ID */ + hid_t small_cube_sid; /* Dataspace ID for small cube in memory & file */ + hid_t mem_large_cube_sid; /* Dataspace ID for large cube in memory */ + hid_t file_large_cube_sid; /* Dataspace ID for large cube in file */ + hid_t small_cube_dcpl_id = H5P_DEFAULT; /* DCPL for small cube dataset */ + hid_t large_cube_dcpl_id = H5P_DEFAULT; /* DCPL for large cube dataset */ + hid_t small_cube_dataset; /* Dataset ID */ + hid_t large_cube_dataset; /* Dataset ID */ size_t start_index; /* Offset within buffer to begin inspecting */ size_t stop_index; /* Offset within buffer to end inspecting */ - uint16_t expected_value; /* Expected value in dataset */ - uint16_t * small_cube_buf_1; /* Buffer for small cube data */ - uint16_t * large_cube_buf_1; /* Buffer for large cube data */ - uint16_t * ptr_1; /* Temporary pointer into cube data */ - hsize_t dims[SS_DR_MAX_RANK]; /* Dataspace dimensions */ - hsize_t start[SS_DR_MAX_RANK]; /* Shared hyperslab start offset */ - hsize_t stride[SS_DR_MAX_RANK]; /* Shared hyperslab stride */ - hsize_t count[SS_DR_MAX_RANK]; /* Shared hyperslab count */ - hsize_t block[SS_DR_MAX_RANK]; /* Shared hyperslab block size */ - hsize_t * start_ptr; /* Actual hyperslab start offset */ - hsize_t * stride_ptr; /* Actual hyperslab stride */ - hsize_t * count_ptr; /* Actual hyperslab count */ - hsize_t * block_ptr; /* Actual hyperslab block size */ + uint16_t expected_value; /* Expected value in dataset */ + uint16_t * small_cube_buf_1; /* Buffer for small cube data */ + uint16_t * large_cube_buf_1; /* Buffer for large cube data */ + uint16_t * ptr_1; /* Temporary pointer into cube data */ + hsize_t dims[SS_DR_MAX_RANK]; /* Dataspace dimensions */ + hsize_t start[SS_DR_MAX_RANK]; /* Shared hyperslab start offset */ + hsize_t stride[SS_DR_MAX_RANK]; /* Shared hyperslab stride */ + hsize_t count[SS_DR_MAX_RANK]; /* Shared hyperslab count */ + hsize_t block[SS_DR_MAX_RANK]; /* Shared hyperslab block size */ + hsize_t * start_ptr; /* Actual hyperslab start offset */ + hsize_t * stride_ptr; /* Actual hyperslab stride */ + hsize_t * count_ptr; /* Actual hyperslab count */ + hsize_t * block_ptr; /* Actual hyperslab block size */ size_t small_cube_size; /* Number of elements in small cube */ size_t large_cube_size; /* Number of elements in large cube */ unsigned u, v, w, x; /* Local index variables */ size_t s; /* Local index variable */ - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ MESSAGE(7, ("\tn-cube slice through m-cube I/O test %d.\n", test_num)); MESSAGE(7, ("\tranks = %u/%u, edge_size = %u, chunk_edge_size = %u.\n", small_rank, large_rank, edge_size, chunk_edge_size)); @@ -1770,10 +1770,10 @@ test_select_hyper_contig_dr__run_test(int test_num, const uint16_t *cube_buf, * datasets. */ if(chunk_edge_size > 0) { - hsize_t chunk_dims[SS_DR_MAX_RANK]; /* Chunk dimensions */ + hsize_t chunk_dims[SS_DR_MAX_RANK]; /* Chunk dimensions */ chunk_dims[0] = chunk_dims[1] = - chunk_dims[2] = chunk_dims[3] = chunk_dims[4] = (hsize_t)chunk_edge_size; + chunk_dims[2] = chunk_dims[3] = chunk_dims[4] = (hsize_t)chunk_edge_size; small_cube_dcpl_id = H5Pcreate(H5P_DATASET_CREATE); CHECK(small_cube_dcpl_id, FAIL, "H5Pcreate"); @@ -2093,7 +2093,7 @@ test_select_hyper_contig_dr__run_test(int test_num, const uint16_t *cube_buf, VERIFY(check, TRUE, "H5Sselect_shape_same"); - /* write the slice from the in memory large cube to the on disk small cube */ + /* write the slice from the in memory large cube to the on disk small cube */ ret = H5Dwrite(small_cube_dataset, H5T_NATIVE_UINT16, mem_large_cube_sid, @@ -2203,7 +2203,7 @@ test_select_hyper_contig_dr__run_test(int test_num, const uint16_t *cube_buf, VERIFY(check, TRUE, "H5Sselect_shape_same"); - /* write the cube from memory to the target slice of the disk cube */ + /* write the cube from memory to the target slice of the disk cube */ ret = H5Dwrite(large_cube_dataset, H5T_NATIVE_UINT16, small_cube_sid, @@ -2299,14 +2299,14 @@ test_select_hyper_contig_dr__run_test(int test_num, const uint16_t *cube_buf, } /* test_select_hyper_contig_dr__run_test() */ - + /**************************************************************** ** ** test_select_hyper_contig_dr(): Test H5S (dataspace) -** selection code with contiguous source and target having -** different ranks but the same shape. We have already -** tested H5Sselect_shape_same in isolation, so now we try to do -** I/O. +** selection code with contiguous source and target having +** different ranks but the same shape. We have already +** tested H5Sselect_shape_same in isolation, so now we try to do +** I/O. ** ****************************************************************/ static void @@ -2367,25 +2367,25 @@ test_select_hyper_contig_dr(hid_t dset_type, hid_t xfer_plist) } /* test_select_hyper_contig_dr() */ - + /**************************************************************** ** ** test_select_hyper_checker_board_dr__select_checker_board(): -** Given an n-cube dataspace with each edge of length -** edge_size, and a checker_edge_size either select a checker -** board selection of the entire cube(if sel_rank == n), -** or select a checker board selection of a -** sel_rank dimensional slice through n-cube parallel to the +** Given an n-cube dataspace with each edge of length +** edge_size, and a checker_edge_size either select a checker +** board selection of the entire cube(if sel_rank == n), +** or select a checker board selection of a +** sel_rank dimensional slice through n-cube parallel to the ** sel_rank fastest changing indices, with origin (in the -** higher indices) as indicated by the start array. +** higher indices) as indicated by the start array. ** -** Note that this function, like all its relatives, is -** hard coded to presume a maximum n-cube rank of 5. -** While this maximum is declared as a constant, increasing -** it will require extensive coding in addition to changing +** Note that this function, like all its relatives, is +** hard coded to presume a maximum n-cube rank of 5. +** While this maximum is declared as a constant, increasing +** it will require extensive coding in addition to changing ** the value of the constant. ** -** JRM -- 9/9/09 +** JRM -- 9/9/09 ** ****************************************************************/ static void @@ -2393,18 +2393,18 @@ test_select_hyper_checker_board_dr__select_checker_board(hid_t tgt_n_cube_sid, unsigned tgt_n_cube_rank, unsigned edge_size, unsigned checker_edge_size, unsigned sel_rank, hsize_t sel_start[]) { - hbool_t first_selection = TRUE; - unsigned n_cube_offset; - unsigned sel_offset; - hsize_t base_count; + hbool_t first_selection = TRUE; + unsigned n_cube_offset; + unsigned sel_offset; + hsize_t base_count; hsize_t offset_count; - hsize_t start[SS_DR_MAX_RANK]; /* Offset of hyperslab selection */ - hsize_t stride[SS_DR_MAX_RANK]; /* Stride of hyperslab selection */ - hsize_t count[SS_DR_MAX_RANK]; /* Count of hyperslab selection */ - hsize_t block[SS_DR_MAX_RANK]; /* Block size of hyperslab selection */ + hsize_t start[SS_DR_MAX_RANK]; /* Offset of hyperslab selection */ + hsize_t stride[SS_DR_MAX_RANK]; /* Stride of hyperslab selection */ + hsize_t count[SS_DR_MAX_RANK]; /* Count of hyperslab selection */ + hsize_t block[SS_DR_MAX_RANK]; /* Block size of hyperslab selection */ unsigned i, j, k, l, m; /* Local index variable */ unsigned u; /* Local index variables */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ HDassert(edge_size >= 6); HDassert(0 < checker_edge_size); @@ -2578,47 +2578,47 @@ test_select_hyper_checker_board_dr__select_checker_board(hid_t tgt_n_cube_sid, CHECK(ret, FAIL, "H5Sselect_hyperslab"); } /* test_select_hyper_checker_board_dr__select_checker_board() */ - + /**************************************************************** ** ** test_select_hyper_checker_board_dr__verify_data(): ** -** Examine the supplied buffer to see if it contains the -** expected data. Return TRUE if it does, and FALSE +** Examine the supplied buffer to see if it contains the +** expected data. Return TRUE if it does, and FALSE ** otherwise. ** -** The supplied buffer is presumed to contain the results -** of read or writing a checkerboard selection of an -** n-cube, or a checkerboard selection of an m (1 <= m < n) -** dimensional slice through an n-cube parallel to the +** The supplied buffer is presumed to contain the results +** of read or writing a checkerboard selection of an +** n-cube, or a checkerboard selection of an m (1 <= m < n) +** dimensional slice through an n-cube parallel to the ** fastest changing indices. ** -** It is further presumed that the buffer was zeroed before -** the read, and that the n-cube was initialize with the +** It is further presumed that the buffer was zeroed before +** the read, and that the n-cube was initialize with the ** natural numbers listed in order from the origin along ** the fastest changing axis. ** ** Thus for a 10x10x10 3-cube, the value stored in location -** (x, y, z) (assuming that z is the fastest changing index -** and x the slowest) is assumed to be: +** (x, y, z) (assuming that z is the fastest changing index +** and x the slowest) is assumed to be: ** -** (10 * 10 * x) + (10 * y) + z +** (10 * 10 * x) + (10 * y) + z ** -** Thus, if the buffer contains the result of reading a -** checker board selection of a 10x10x10 3-cube, location -** (x, y, z) will contain zero if it is not in a checker, -** and 100x + 10y + z if (x, y, z) is in a checker. +** Thus, if the buffer contains the result of reading a +** checker board selection of a 10x10x10 3-cube, location +** (x, y, z) will contain zero if it is not in a checker, +** and 100x + 10y + z if (x, y, z) is in a checker. ** -** If the buffer contains the result of reading a 3 -** dimensional slice (parallel to the three fastest changing -** indices) through an n cube (n > 3), then the expected -** values in the buffer will be the same, save that we will -** add a constant determined by the origin of the 3-cube -** in the n-cube. +** If the buffer contains the result of reading a 3 +** dimensional slice (parallel to the three fastest changing +** indices) through an n cube (n > 3), then the expected +** values in the buffer will be the same, save that we will +** add a constant determined by the origin of the 3-cube +** in the n-cube. ** -** Finally, the function presumes that the first element -** of the buffer resides either at the origin of either -** a selected or an unselected checker. +** Finally, the function presumes that the first element +** of the buffer resides either at the origin of either +** a selected or an unselected checker. ** ****************************************************************/ H5_ATTR_PURE static hbool_t @@ -2722,14 +2722,14 @@ test_select_hyper_checker_board_dr__verify_data(uint16_t * buf_ptr, return(good_data); } /* test_select_hyper_checker_board_dr__verify_data() */ - + /**************************************************************** ** ** test_select_hyper_checker_board_dr__run_test(): Test H5S ** (dataspace) selection code with checker board source and -** target selections having different ranks but the same -** shape. We have already tested H5Sselect_shape_same in -** isolation, so now we try to do I/O. +** target selections having different ranks but the same +** shape. We have already tested H5Sselect_shape_same in +** isolation, so now we try to do I/O. ** ****************************************************************/ static void @@ -2738,36 +2738,36 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_ unsigned chunk_edge_size, unsigned small_rank, unsigned large_rank, hid_t dset_type, hid_t xfer_plist) { - hbool_t data_ok; + hbool_t data_ok; hid_t fapl; /* File access property list */ - hid_t fid; /* HDF5 File IDs */ - hid_t full_small_cube_sid; /* Dataspace for small cube w/all selection */ - hid_t mem_small_cube_sid; - hid_t file_small_cube_sid; - hid_t full_large_cube_sid; /* Dataspace for large cube w/all selection */ - hid_t mem_large_cube_sid; - hid_t file_large_cube_sid; - hid_t small_cube_dcpl_id = H5P_DEFAULT; /* DCPL for small cube dataset */ - hid_t large_cube_dcpl_id = H5P_DEFAULT; /* DCPL for large cube dataset */ - hid_t small_cube_dataset; /* Dataset ID */ - hid_t large_cube_dataset; /* Dataset ID */ - unsigned small_rank_offset; /* Rank offset of slice */ - const unsigned test_max_rank = 5; /* must update code if this changes */ + hid_t fid; /* HDF5 File IDs */ + hid_t full_small_cube_sid; /* Dataspace for small cube w/all selection */ + hid_t mem_small_cube_sid; + hid_t file_small_cube_sid; + hid_t full_large_cube_sid; /* Dataspace for large cube w/all selection */ + hid_t mem_large_cube_sid; + hid_t file_large_cube_sid; + hid_t small_cube_dcpl_id = H5P_DEFAULT; /* DCPL for small cube dataset */ + hid_t large_cube_dcpl_id = H5P_DEFAULT; /* DCPL for large cube dataset */ + hid_t small_cube_dataset; /* Dataset ID */ + hid_t large_cube_dataset; /* Dataset ID */ + unsigned small_rank_offset; /* Rank offset of slice */ + const unsigned test_max_rank = 5; /* must update code if this changes */ size_t start_index; /* Offset within buffer to begin inspecting */ size_t stop_index; /* Offset within buffer to end inspecting */ - uint16_t expected_value; - uint16_t * small_cube_buf_1; - uint16_t * large_cube_buf_1; - uint16_t * ptr_1; + uint16_t expected_value; + uint16_t * small_cube_buf_1; + uint16_t * large_cube_buf_1; + uint16_t * ptr_1; size_t small_cube_size; /* Number of elements in small cube */ size_t large_cube_size; /* Number of elements in large cube */ - hsize_t dims[SS_DR_MAX_RANK]; - hsize_t chunk_dims[SS_DR_MAX_RANK]; - hsize_t sel_start[SS_DR_MAX_RANK]; + hsize_t dims[SS_DR_MAX_RANK]; + hsize_t chunk_dims[SS_DR_MAX_RANK]; + hsize_t sel_start[SS_DR_MAX_RANK]; unsigned u, v, w, x; /* Local index variables */ size_t s; /* Local index variable */ - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ MESSAGE(7, ("\tn-cube slice through m-cube I/O test %d.\n", test_num)); MESSAGE(7, ("\tranks = %d/%d, edge_size = %d, checker_edge_size = %d, chunk_edge_size = %d.\n", small_rank, large_rank, edge_size, checker_edge_size, chunk_edge_size)); @@ -2858,7 +2858,7 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_ */ if(chunk_edge_size > 0) { chunk_dims[0] = chunk_dims[1] = - chunk_dims[2] = chunk_dims[3] = chunk_dims[4] = chunk_edge_size; + chunk_dims[2] = chunk_dims[3] = chunk_dims[4] = chunk_edge_size; small_cube_dcpl_id = H5Pcreate(H5P_DATASET_CREATE); CHECK(small_cube_dcpl_id, FAIL, "H5Pcreate"); @@ -3265,7 +3265,7 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_ VERIFY(check, TRUE, "H5Sselect_shape_same"); - /* write the slice from the in memory large cube to the + /* write the slice from the in memory large cube to the * on disk small cube */ ret = H5Dwrite(small_cube_dataset, @@ -3396,7 +3396,7 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_ VERIFY(check, TRUE, "H5Sselect_shape_same"); - /* write the checker board selection of the in memory + /* write the checker board selection of the in memory * small cube to a slice through the on disk large * cube. */ @@ -3523,17 +3523,17 @@ test_select_hyper_checker_board_dr__run_test(int test_num, const uint16_t *cube_ } /* test_select_hyper_checker_board_dr__run_test() */ - + /**************************************************************** ** ** 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 H5Sselect_shape_same in isolation, so now we try to do -** I/O. +** selection code with checkerboard source and target having +** different ranks but the same shape. We have already +** tested H5Sselect_shape_same in isolation, so now we try to do +** I/O. ** -** This is just an initial smoke check, so we will work -** with a slice through a cube only. +** This is just an initial smoke check, so we will work +** with a slice through a cube only. ** ****************************************************************/ static void @@ -3608,7 +3608,7 @@ test_select_hyper_checker_board_dr(hid_t dset_type, hid_t xfer_plist) } /* test_select_hyper_checker_board_dr() */ - + /**************************************************************** ** ** test_select_hyper_copy(): Test H5S (dataspace) selection code. @@ -3618,22 +3618,22 @@ test_select_hyper_checker_board_dr(hid_t dset_type, hid_t xfer_plist) static void test_select_hyper_copy(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t data1,data2; /* Dataset IDs */ - hid_t sid1,sid2,sid3; /* Dataspace IDs */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t data1,data2; /* Dataset IDs */ + hid_t sid1,sid2,sid3; /* Dataspace IDs */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ uint16_t *wbuf, /* buffer to write to disk */ *rbuf, /* 1st buffer read from disk */ *rbuf2, /* 2nd buffer read from disk */ *tbuf; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Hyperslabs with Strides Functionality\n")); @@ -3774,21 +3774,21 @@ test_select_hyper_copy(void) static void test_select_point_copy(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t data1,data2; /* Dataset IDs */ - hid_t sid1,sid2,sid3; /* Dataspace IDs */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ - hsize_t coord2[POINT1_NPOINTS][SPACE2_RANK]; /* Coordinates for point selection */ - hsize_t coord3[POINT1_NPOINTS][SPACE3_RANK]; /* Coordinates for point selection */ + hid_t fid1; /* HDF5 File IDs */ + hid_t data1,data2; /* Dataset IDs */ + hid_t sid1,sid2,sid3; /* Dataspace IDs */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ + hsize_t coord2[POINT1_NPOINTS][SPACE2_RANK]; /* Coordinates for point selection */ + hsize_t coord3[POINT1_NPOINTS][SPACE3_RANK]; /* Coordinates for point selection */ uint16_t *wbuf, /* buffer to write to disk */ *rbuf, /* 1st buffer read from disk */ *rbuf2, /* 2nd buffer read from disk */ *tbuf; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Hyperslabs with Strides Functionality\n")); @@ -3948,24 +3948,24 @@ test_select_point_copy(void) static void test_select_hyper_offset(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ - hssize_t offset[SPACE1_RANK]; /* Offset of selection */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ + hssize_t offset[SPACE1_RANK]; /* Offset of selection */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ - htri_t valid; /* Generic boolean return value */ + herr_t ret; /* Generic return value */ + htri_t valid; /* Generic boolean return value */ H5S_class_t ext_type; /* Extent type */ /* Output message about test being performed */ @@ -4110,21 +4110,21 @@ test_select_hyper_offset(void) static void test_select_hyper_offset2(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; - hsize_t dims2[] = {SPACE7_DIM1, SPACE7_DIM2}; - hsize_t start[SPACE7_RANK]; /* Starting location of hyperslab */ - hsize_t count[SPACE7_RANK]; /* Element count of hyperslab */ - hssize_t offset[SPACE7_RANK]; /* Offset of selection */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; + hsize_t dims2[] = {SPACE7_DIM1, SPACE7_DIM2}; + hsize_t start[SPACE7_RANK]; /* Starting location of hyperslab */ + hsize_t count[SPACE7_RANK]; /* Element count of hyperslab */ + hssize_t offset[SPACE7_RANK]; /* Offset of selection */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ - htri_t valid; /* Generic boolean return value */ + herr_t ret; /* Generic return value */ + htri_t valid; /* Generic boolean return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing More Hyperslab Selection Functions with Offsets\n")); @@ -4231,23 +4231,23 @@ test_select_hyper_offset2(void) static void test_select_point_offset(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ - hsize_t coord2[POINT1_NPOINTS][SPACE2_RANK]; /* Coordinates for point selection */ - hsize_t coord3[POINT1_NPOINTS][SPACE3_RANK]; /* Coordinates for point selection */ - hssize_t offset[SPACE1_RANK]; /* Offset of selection */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t coord1[POINT1_NPOINTS][SPACE1_RANK]; /* Coordinates for point selection */ + hsize_t coord2[POINT1_NPOINTS][SPACE2_RANK]; /* Coordinates for point selection */ + hsize_t coord3[POINT1_NPOINTS][SPACE3_RANK]; /* Coordinates for point selection */ + hssize_t offset[SPACE1_RANK]; /* Offset of selection */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ - htri_t valid; /* Generic boolean return value */ + herr_t ret; /* Generic return value */ + htri_t valid; /* Generic boolean return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Element Selection Functions\n")); @@ -4403,17 +4403,17 @@ test_select_point_offset(void) static void test_select_hyper_union(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hid_t xfer; /* Dataset Transfer Property List ID */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hid_t xfer; /* Dataset Transfer Property List ID */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ size_t begin[SPACE2_DIM1]= /* Offset within irregular block */ {0,0,0,0,0,0,0,0,0,0, /* First ten rows start at offset 0 */ 5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5}; /* Next eighteen rows start at offset 5 */ @@ -4426,8 +4426,8 @@ test_select_hyper_union(void) *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ - hssize_t npoints; /* Number of elements in selection */ + herr_t ret; /* Generic return value */ + hssize_t npoints; /* Number of elements in selection */ /* Output message about test being performed */ MESSAGE(5, ("Testing Hyperslab Selection Functions with unions of hyperslabs\n")); @@ -5037,10 +5037,10 @@ test_select_hyper_union_stagger(void) /* Verify input data */ for(i=0; i<8; i++) { if(data[input_loc[i][0]][input_loc[i][1]]!=data_out[output_loc[i][0]][output_loc[i][1]]) { - printf("input data #%d is wrong!\n",i); - printf("input_loc=[%d][%d]\n",input_loc[i][0],input_loc[i][1]); - printf("output_loc=[%d][%d]\n",output_loc[i][0],output_loc[i][1]); - printf("data=%d\n",data[input_loc[i][0]][input_loc[i][1]]); + HDprintf("input data #%d is wrong!\n",i); + HDprintf("input_loc=[%d][%d]\n",input_loc[i][0],input_loc[i][1]); + HDprintf("output_loc=[%d][%d]\n",output_loc[i][0],output_loc[i][1]); + HDprintf("data=%d\n",data[input_loc[i][0]][input_loc[i][1]]); TestErrPrintf("data_out=%d\n",data_out[output_loc[i][0]][output_loc[i][1]]); } /* end if */ } /* end for */ @@ -5070,18 +5070,18 @@ test_select_hyper_union_stagger(void) static void test_select_hyper_union_3d(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hid_t tmp_space; /* Temporary Dataspace ID */ - hid_t tmp2_space; /* Another temporary Dataspace ID */ - hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; - hsize_t dims2[] = {SPACE4_DIM1, SPACE4_DIM2, SPACE4_DIM3}; - hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; - hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hid_t tmp_space; /* Temporary Dataspace ID */ + hid_t tmp2_space; /* Another temporary Dataspace ID */ + hsize_t dims1[] = {SPACE1_DIM1, SPACE1_DIM2, SPACE1_DIM3}; + hsize_t dims2[] = {SPACE4_DIM1, SPACE4_DIM2, SPACE4_DIM3}; + hsize_t dims3[] = {SPACE3_DIM1, SPACE3_DIM2}; + hsize_t start[SPACE1_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE1_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE1_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE1_RANK]; /* Block size of hyperslab */ struct row_list { size_t z; size_t y; @@ -5142,8 +5142,8 @@ test_select_hyper_union_3d(void) *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j,k; /* Counters */ - herr_t ret; /* Generic return value */ - hsize_t npoints; /* Number of elements in selection */ + herr_t ret; /* Generic return value */ + hsize_t npoints; /* Number of elements in selection */ /* Output message about test being performed */ MESSAGE(5, ("Testing Hyperslab Selection Functions with unions of 3-D hyperslabs\n")); @@ -5278,20 +5278,20 @@ test_select_hyper_union_3d(void) static void test_select_hyper_valid_combination(void) { - hid_t single_pt_sid; /* Dataspace ID with single point selection */ - hid_t single_hyper_sid; /* Dataspace ID with single block hyperslab selection */ - hid_t regular_hyper_sid; /* Dataspace ID with regular hyperslab selection */ - hid_t non_existent_sid = -1; /* A non-existent space id */ - hid_t tmp_sid; /* Temporary dataspace ID */ - hsize_t dims2D[] = {SPACE9_DIM1, SPACE9_DIM2}; - hsize_t dims3D[] = {SPACE4_DIM1, SPACE4_DIM2, SPACE4_DIM3}; - - hsize_t coord1[1][SPACE2_RANK]; /* Coordinates for single point selection */ + hid_t single_pt_sid; /* Dataspace ID with single point selection */ + hid_t single_hyper_sid; /* Dataspace ID with single block hyperslab selection */ + hid_t regular_hyper_sid; /* Dataspace ID with regular hyperslab selection */ + hid_t non_existent_sid = -1; /* A non-existent space id */ + hid_t tmp_sid; /* Temporary dataspace ID */ + hsize_t dims2D[] = {SPACE9_DIM1, SPACE9_DIM2}; + hsize_t dims3D[] = {SPACE4_DIM1, SPACE4_DIM2, SPACE4_DIM3}; + + hsize_t coord1[1][SPACE2_RANK]; /* Coordinates for single point selection */ hsize_t start[SPACE4_RANK]; /* Hyperslab start */ hsize_t stride[SPACE4_RANK]; /* Hyperslab stride */ hsize_t count[SPACE4_RANK]; /* Hyperslab block count */ hsize_t block[SPACE4_RANK]; /* Hyperslab block size */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(6, ("Testing Selection Combination Validity\n")); @@ -5333,35 +5333,35 @@ test_select_hyper_valid_combination(void) /* Test all the selections created */ - /* Test the invalid combinations between point and hyperslab */ - tmp_sid = H5Scombine_select(single_pt_sid, H5S_SELECT_AND, single_hyper_sid); - VERIFY(tmp_sid, FAIL, "H5Scombine_select"); + /* Test the invalid combinations between point and hyperslab */ + tmp_sid = H5Scombine_select(single_pt_sid, H5S_SELECT_AND, single_hyper_sid); + VERIFY(tmp_sid, FAIL, "H5Scombine_select"); - tmp_sid = H5Smodify_select(single_pt_sid, H5S_SELECT_AND, single_hyper_sid); - VERIFY(tmp_sid, FAIL, "H5Smodify_select"); + tmp_sid = H5Smodify_select(single_pt_sid, H5S_SELECT_AND, single_hyper_sid); + VERIFY(tmp_sid, FAIL, "H5Smodify_select"); - /* Test the invalid combination between two hyperslab but of different dimension size */ - tmp_sid = H5Scombine_select(single_hyper_sid, H5S_SELECT_AND, regular_hyper_sid); - VERIFY(tmp_sid, FAIL, "H5Scombine_select"); + /* Test the invalid combination between two hyperslab but of different dimension size */ + tmp_sid = H5Scombine_select(single_hyper_sid, H5S_SELECT_AND, regular_hyper_sid); + VERIFY(tmp_sid, FAIL, "H5Scombine_select"); - tmp_sid = H5Smodify_select(single_hyper_sid, H5S_SELECT_AND, regular_hyper_sid); - VERIFY(tmp_sid, FAIL, "H5Smodify_select"); + tmp_sid = H5Smodify_select(single_hyper_sid, H5S_SELECT_AND, regular_hyper_sid); + VERIFY(tmp_sid, FAIL, "H5Smodify_select"); - /* Test invalid operation inputs to the two functions */ - tmp_sid = H5Scombine_select(single_hyper_sid, H5S_SELECT_SET, single_hyper_sid); - VERIFY(tmp_sid, FAIL, "H5Scombine_select"); + /* Test invalid operation inputs to the two functions */ + tmp_sid = H5Scombine_select(single_hyper_sid, H5S_SELECT_SET, single_hyper_sid); + VERIFY(tmp_sid, FAIL, "H5Scombine_select"); - tmp_sid = H5Smodify_select(single_hyper_sid, H5S_SELECT_SET, single_hyper_sid); - VERIFY(tmp_sid, FAIL, "H5Smodify_select"); + tmp_sid = H5Smodify_select(single_hyper_sid, H5S_SELECT_SET, single_hyper_sid); + VERIFY(tmp_sid, FAIL, "H5Smodify_select"); - /* Test inputs in case of non-existent space ids */ - tmp_sid = H5Scombine_select(single_hyper_sid, H5S_SELECT_AND, non_existent_sid); - VERIFY(tmp_sid, FAIL, "H5Scombine_select"); + /* Test inputs in case of non-existent space ids */ + tmp_sid = H5Scombine_select(single_hyper_sid, H5S_SELECT_AND, non_existent_sid); + VERIFY(tmp_sid, FAIL, "H5Scombine_select"); - tmp_sid = H5Smodify_select(single_hyper_sid, H5S_SELECT_AND, non_existent_sid); - VERIFY(tmp_sid, FAIL, "H5Smodify_select"); + tmp_sid = H5Smodify_select(single_hyper_sid, H5S_SELECT_AND, non_existent_sid); + VERIFY(tmp_sid, FAIL, "H5Smodify_select"); - /* Close dataspaces */ + /* Close dataspaces */ ret = H5Sclose(single_pt_sid); CHECK(ret, FAIL, "H5Sclose"); ret = H5Sclose(single_hyper_sid); @@ -5380,22 +5380,22 @@ test_select_hyper_valid_combination(void) static void test_select_hyper_and_2d(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims2[] = {SPACE2A_DIM1}; - hsize_t start[SPACE2_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE2_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE2_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE2_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims2[] = {SPACE2A_DIM1}; + hsize_t start[SPACE2_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE2_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE2_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE2_RANK]; /* Block size of hyperslab */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ - hssize_t npoints; /* Number of elements in selection */ + herr_t ret; /* Generic return value */ + hssize_t npoints; /* Number of elements in selection */ /* Output message about test being performed */ MESSAGE(5, ("Testing Hyperslab Selection Functions with intersection of 2-D hyperslabs\n")); @@ -5470,12 +5470,12 @@ test_select_hyper_and_2d(void) for(j=0; j<SPACE2_DIM2; j++, tbuf++) { if((i>=5 && i<=9) && (j>=5 && j<=9)) { if(*tbuf!=*tbuf2) - printf("%d: hyperslab values don't match!, i=%d, j=%d, *tbuf=%d, *tbuf2=%d\n",__LINE__,i,j,(int)*tbuf,(int)*tbuf2); + HDprintf("%d: hyperslab values don't match!, i=%d, j=%d, *tbuf=%d, *tbuf2=%d\n",__LINE__,i,j,(int)*tbuf,(int)*tbuf2); tbuf2++; } /* end if */ else { if(*tbuf!=0) - printf("%d: hyperslab element has wrong value!, i=%d, j=%d, *tbuf=%d\n",__LINE__,i,j,(int)*tbuf); + HDprintf("%d: hyperslab element has wrong value!, i=%d, j=%d, *tbuf=%d\n",__LINE__,i,j,(int)*tbuf); } /* end else */ } /* end for */ @@ -5509,22 +5509,22 @@ test_select_hyper_and_2d(void) static void test_select_hyper_xor_2d(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims2[] = {SPACE2A_DIM1}; - hsize_t start[SPACE2_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE2_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE2_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE2_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims2[] = {SPACE2A_DIM1}; + hsize_t start[SPACE2_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE2_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE2_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE2_RANK]; /* Block size of hyperslab */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ - hssize_t npoints; /* Number of elements in selection */ + herr_t ret; /* Generic return value */ + hssize_t npoints; /* Number of elements in selection */ /* Output message about test being performed */ MESSAGE(5, ("Testing Hyperslab Selection Functions with XOR of 2-D hyperslabs\n")); @@ -5601,12 +5601,12 @@ test_select_hyper_xor_2d(void) ((i>=5 && i<=9) && ((j>=0 && j<=4) || (j>=10 && j<=14))) || ((i>=10 && i<=14) && (j>=5 && j<=14))) { if(*tbuf!=*tbuf2) - printf("%d: hyperslab values don't match!, i=%d, j=%d, *tbuf=%d, *tbuf2=%d\n",__LINE__,i,j,(int)*tbuf,(int)*tbuf2); + HDprintf("%d: hyperslab values don't match!, i=%d, j=%d, *tbuf=%d, *tbuf2=%d\n",__LINE__,i,j,(int)*tbuf,(int)*tbuf2); tbuf2++; } /* end if */ else { if(*tbuf!=0) - printf("%d: hyperslab element has wrong value!, i=%d, j=%d, *tbuf=%d\n",__LINE__,i,j,(int)*tbuf); + HDprintf("%d: hyperslab element has wrong value!, i=%d, j=%d, *tbuf=%d\n",__LINE__,i,j,(int)*tbuf); } /* end else */ } /* end for */ @@ -5640,22 +5640,22 @@ test_select_hyper_xor_2d(void) static void test_select_hyper_notb_2d(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims2[] = {SPACE2A_DIM1}; - hsize_t start[SPACE2_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE2_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE2_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE2_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims2[] = {SPACE2A_DIM1}; + hsize_t start[SPACE2_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE2_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE2_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE2_RANK]; /* Block size of hyperslab */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ - hssize_t npoints; /* Number of elements in selection */ + herr_t ret; /* Generic return value */ + hssize_t npoints; /* Number of elements in selection */ /* Output message about test being performed */ MESSAGE(5, ("Testing Hyperslab Selection Functions with NOTB of 2-D hyperslabs\n")); @@ -5731,12 +5731,12 @@ test_select_hyper_notb_2d(void) if(((i>=0 && i<=4) && (j>=0 && j<=9)) || ((i>=5 && i<=9) && (j>=0 && j<=4))) { if(*tbuf!=*tbuf2) - printf("%d: hyperslab values don't match!, i=%d, j=%d, *tbuf=%d, *tbuf2=%d\n",__LINE__,i,j,(int)*tbuf,(int)*tbuf2); + HDprintf("%d: hyperslab values don't match!, i=%d, j=%d, *tbuf=%d, *tbuf2=%d\n",__LINE__,i,j,(int)*tbuf,(int)*tbuf2); tbuf2++; } /* end if */ else { if(*tbuf!=0) - printf("%d: hyperslab element has wrong value!, i=%d, j=%d, *tbuf=%d\n",__LINE__,i,j,(int)*tbuf); + HDprintf("%d: hyperslab element has wrong value!, i=%d, j=%d, *tbuf=%d\n",__LINE__,i,j,(int)*tbuf); } /* end else */ } /* end for */ @@ -5770,22 +5770,22 @@ test_select_hyper_notb_2d(void) static void test_select_hyper_nota_2d(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE2_DIM1, SPACE2_DIM2}; - hsize_t dims2[] = {SPACE2A_DIM1}; - hsize_t start[SPACE2_RANK]; /* Starting location of hyperslab */ - hsize_t stride[SPACE2_RANK]; /* Stride of hyperslab */ - hsize_t count[SPACE2_RANK]; /* Element count of hyperslab */ - hsize_t block[SPACE2_RANK]; /* Block size of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE2_DIM1, SPACE2_DIM2}; + hsize_t dims2[] = {SPACE2A_DIM1}; + hsize_t start[SPACE2_RANK]; /* Starting location of hyperslab */ + hsize_t stride[SPACE2_RANK]; /* Stride of hyperslab */ + hsize_t count[SPACE2_RANK]; /* Element count of hyperslab */ + hsize_t block[SPACE2_RANK]; /* Block size of hyperslab */ uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf, /* temporary buffer pointer */ *tbuf2; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ - hssize_t npoints; /* Number of elements in selection */ + herr_t ret; /* Generic return value */ + hssize_t npoints; /* Number of elements in selection */ /* Output message about test being performed */ MESSAGE(5, ("Testing Hyperslab Selection Functions with NOTA of 2-D hyperslabs\n")); @@ -5905,14 +5905,14 @@ test_select_hyper_iter2(void *_elem, hid_t H5_ATTR_UNUSED type_id, unsigned ndim if(*tbuf!=**tbuf2) { TestErrPrintf("Error in hyperslab iteration!\n"); - printf("location: { "); + HDprintf("location: { "); for(u=0; u<ndim; u++) { - printf("%2d",(int)point[u]); + HDprintf("%2d",(int)point[u]); if(u<(ndim-1)) - printf(", "); + HDprintf(", "); } /* end for */ - printf("}\n"); - printf("*tbuf=%d, **tbuf2=%d\n",*tbuf,**tbuf2); + HDprintf("}\n"); + HDprintf("*tbuf=%d, **tbuf2=%d\n",*tbuf,**tbuf2); return(-1); } /* end if */ else { @@ -5930,20 +5930,20 @@ test_select_hyper_iter2(void *_elem, hid_t H5_ATTR_UNUSED type_id, unsigned ndim static void test_select_hyper_union_random_5d(hid_t read_plist) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE5_DIM1, SPACE5_DIM2, SPACE5_DIM3, SPACE5_DIM4, SPACE5_DIM5}; - hsize_t dims2[] = {SPACE6_DIM1}; - hsize_t start[SPACE5_RANK]; /* Starting location of hyperslab */ - hsize_t count[SPACE5_RANK]; /* Element count of hyperslab */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE5_DIM1, SPACE5_DIM2, SPACE5_DIM3, SPACE5_DIM4, SPACE5_DIM5}; + hsize_t dims2[] = {SPACE6_DIM1}; + hsize_t start[SPACE5_RANK]; /* Starting location of hyperslab */ + hsize_t count[SPACE5_RANK]; /* Element count of hyperslab */ int *wbuf, /* buffer to write to disk */ *rbuf, /* buffer read from disk */ *tbuf; /* temporary buffer pointer */ int i,j,k,l,m; /* Counters */ - herr_t ret; /* Generic return value */ - hssize_t npoints, /* Number of elements in file selection */ - npoints2; /* Number of elements in memory selection */ + herr_t ret; /* Generic return value */ + hssize_t npoints, /* Number of elements in file selection */ + npoints2; /* Number of elements in memory selection */ unsigned seed; /* Random number seed for each test */ unsigned test_num; /* Count of tests being executed */ @@ -6112,8 +6112,8 @@ test_select_hyper_chunk(hid_t fapl_plist, hid_t xfer_plist) */ tmpdata = data; for (j = 0; j < X; j++) - for (i = 0; i < Y; i++) - for (k = 0; k < Z; k++) + for (i = 0; i < Y; i++) + for (k = 0; k < Z; k++) *tmpdata++ = (short)((k+1)%256); /* @@ -6275,8 +6275,8 @@ test_select_hyper_chunk(hid_t fapl_plist, hid_t xfer_plist) tmpdata = data; tmpdata_out = data_out; for (j = 0; j < X; j++) - for (i = 0; i < Y; i++) - for (k = 0; k < Z; k++,tmpdata++,tmpdata_out++) { + for (i = 0; i < Y; i++) + for (k = 0; k < Z; k++,tmpdata++,tmpdata_out++) { if(*tmpdata!=*tmpdata_out) TestErrPrintf("Line %d: Error! j=%d, i=%d, k=%d, *tmpdata=%x, *tmpdata_out=%x\n",__LINE__,j,i,k,(unsigned)*tmpdata,(unsigned)*tmpdata_out); } /* end for */ @@ -6323,7 +6323,7 @@ test_select_point_chunk(void) hid_t dcpl; herr_t ret; /* Generic return value */ - unsigned *data_out; /* output buffer */ + unsigned *data_out; /* output buffer */ hsize_t start[SPACE7_RANK]; /* hyperslab offset */ hsize_t count[SPACE7_RANK]; /* size of the hyperslab */ @@ -6344,7 +6344,7 @@ test_select_point_chunk(void) */ tmpdata = data; for (i = 0; i < SPACE7_DIM1; i++) - for (j = 0; j < SPACE7_DIM1; j++) + for (j = 0; j < SPACE7_DIM1; j++) *tmpdata++ = ((i*SPACE7_DIM2)+j)%256; /* @@ -7081,15 +7081,15 @@ test_select_hyper_iter3(void *_elem, hid_t H5_ATTR_UNUSED type_id, unsigned ndim static void test_select_fill_all(void) { - hid_t sid1; /* Dataspace ID */ - hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; + hid_t sid1; /* Dataspace ID */ + hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; unsigned fill_value; /* Fill value */ fill_iter_info iter_info; /* Iterator information structure */ hsize_t points[SPACE7_DIM1*SPACE7_DIM2][SPACE7_RANK]; /* Coordinates of selection */ unsigned *wbuf, /* buffer to write to disk */ *tbuf; /* temporary buffer pointer */ unsigned u, v; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Filling 'all' Selections\n")); @@ -7155,8 +7155,8 @@ test_select_fill_all(void) static void test_select_fill_point(hssize_t *offset) { - hid_t sid1; /* Dataspace ID */ - hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; + hid_t sid1; /* Dataspace ID */ + hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; hssize_t real_offset[SPACE7_RANK]; /* Actual offset to use */ hsize_t points[5][SPACE7_RANK] = {{2,4}, {3,8}, {8,4}, {7,5}, {7,7}}; size_t num_points = 5; /* Number of points selected */ @@ -7165,7 +7165,7 @@ test_select_fill_point(hssize_t *offset) unsigned *wbuf, /* buffer to write to disk */ *tbuf; /* temporary buffer pointer */ unsigned u, v, w; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Filling 'point' Selections\n")); @@ -7250,8 +7250,8 @@ test_select_fill_point(hssize_t *offset) static void test_select_fill_hyper_simple(hssize_t *offset) { - hid_t sid1; /* Dataspace ID */ - hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; + hid_t sid1; /* Dataspace ID */ + hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; hssize_t real_offset[SPACE7_RANK]; /* Actual offset to use */ hsize_t start[SPACE7_RANK]; /* Hyperslab start */ hsize_t count[SPACE7_RANK]; /* Hyperslab block size */ @@ -7262,7 +7262,7 @@ test_select_fill_hyper_simple(hssize_t *offset) unsigned *wbuf, /* buffer to write to disk */ *tbuf; /* temporary buffer pointer */ unsigned u, v; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Filling Simple 'hyperslab' Selections\n")); @@ -7350,8 +7350,8 @@ test_select_fill_hyper_simple(hssize_t *offset) static void test_select_fill_hyper_regular(hssize_t *offset) { - hid_t sid1; /* Dataspace ID */ - hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; + hid_t sid1; /* Dataspace ID */ + hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; hssize_t real_offset[SPACE7_RANK]; /* Actual offset to use */ hsize_t start[SPACE7_RANK]; /* Hyperslab start */ hsize_t stride[SPACE7_RANK]; /* Hyperslab stride size */ @@ -7369,7 +7369,7 @@ test_select_fill_hyper_regular(hssize_t *offset) unsigned *wbuf, /* buffer to write to disk */ *tbuf; /* temporary buffer pointer */ unsigned u, v, w; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Filling Regular 'hyperslab' Selections\n")); @@ -7458,8 +7458,8 @@ test_select_fill_hyper_regular(hssize_t *offset) static void test_select_fill_hyper_irregular(hssize_t *offset) { - hid_t sid1; /* Dataspace ID */ - hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; + hid_t sid1; /* Dataspace ID */ + hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; hssize_t real_offset[SPACE7_RANK]; /* Actual offset to use */ hsize_t start[SPACE7_RANK]; /* Hyperslab start */ hsize_t count[SPACE7_RANK]; /* Hyperslab block count */ @@ -7488,7 +7488,7 @@ test_select_fill_hyper_irregular(hssize_t *offset) unsigned *wbuf, /* buffer to write to disk */ *tbuf; /* temporary buffer pointer */ unsigned u, v, w; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Filling Irregular 'hyperslab' Selections\n")); @@ -7581,16 +7581,16 @@ test_select_fill_hyper_irregular(hssize_t *offset) static void test_select_none(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; - hsize_t dims2[] = {SPACE7_DIM1, SPACE7_DIM2}; + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims1[] = {SPACE7_DIM1, SPACE7_DIM2}; + hsize_t dims2[] = {SPACE7_DIM1, SPACE7_DIM2}; uint8_t *wbuf, /* buffer to write to disk */ *rbuf, /* buffer to read from disk */ *tbuf; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing I/O on 0-sized Selections\n")); @@ -7679,11 +7679,11 @@ test_select_none(void) static void test_scalar_select(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims2[] = {SPACE7_DIM1, SPACE7_DIM2}; - hsize_t coord1[SPACE7_RANK]; /* Coordinates for point selection */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims2[] = {SPACE7_DIM1, SPACE7_DIM2}; + hsize_t coord1[SPACE7_RANK]; /* Coordinates for point selection */ hsize_t start[SPACE7_RANK]; /* Hyperslab start */ hsize_t count[SPACE7_RANK]; /* Hyperslab block count */ uint8_t *wbuf_uint8, /* buffer to write to disk */ @@ -7693,7 +7693,7 @@ test_scalar_select(void) rval_ushort, /* value read back in */ *tbuf_ushort; /* temporary buffer pointer */ int i,j; /* Counters */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing I/O on Selections in Scalar Dataspaces\n")); @@ -7825,18 +7825,18 @@ test_scalar_select(void) /**************************************************************** ** ** test_scalar_select2(): Tests selections on scalar dataspace, -** verify H5Sselect_hyperslab and H5Sselect_elements fails for -** scalar dataspace. +** verify H5Sselect_hyperslab and H5Sselect_elements fails for +** scalar dataspace. ** ****************************************************************/ static void test_scalar_select2(void) { - hid_t sid; /* Dataspace ID */ - hsize_t coord1[1]; /* Coordinates for point selection */ + hid_t sid; /* Dataspace ID */ + hsize_t coord1[1]; /* Coordinates for point selection */ hsize_t start[1]; /* Hyperslab start */ hsize_t count[1]; /* Hyperslab block count */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(6, ("Testing Selections in Scalar Dataspaces\n")); @@ -7848,7 +7848,7 @@ test_scalar_select2(void) /* Select one element in memory with a point selection */ coord1[0]=0; H5E_BEGIN_TRY { - ret = H5Sselect_elements(sid, H5S_SELECT_SET, (size_t)1, (const hsize_t *)&coord1); + ret = H5Sselect_elements(sid, H5S_SELECT_SET, (size_t)1, (const hsize_t *)&coord1); } H5E_END_TRY; VERIFY(ret, FAIL, "H5Sselect_elements"); @@ -7856,7 +7856,7 @@ test_scalar_select2(void) start[0]=0; count[0]=0; H5E_BEGIN_TRY { - ret = H5Sselect_hyperslab(sid,H5S_SELECT_SET,start,NULL,count,NULL); + ret = H5Sselect_hyperslab(sid,H5S_SELECT_SET,start,NULL,count,NULL); } H5E_END_TRY; VERIFY(ret, FAIL, "H5Sselect_hyperslab"); @@ -7882,18 +7882,18 @@ test_scalar_select2(void) static void test_scalar_select3(void) { - hid_t fid1; /* HDF5 File IDs */ - hid_t dataset; /* Dataset ID */ - hid_t sid1,sid2; /* Dataspace ID */ - hsize_t dims2[] = {SPACE7_DIM1, SPACE7_DIM2}; - hsize_t coord1[SPACE7_RANK]; /* Coordinates for point selection */ + hid_t fid1; /* HDF5 File IDs */ + hid_t dataset; /* Dataset ID */ + hid_t sid1,sid2; /* Dataspace ID */ + hsize_t dims2[] = {SPACE7_DIM1, SPACE7_DIM2}; + hsize_t coord1[SPACE7_RANK]; /* Coordinates for point selection */ hsize_t start[SPACE7_RANK]; /* Hyperslab start */ hsize_t count[SPACE7_RANK]; /* Hyperslab block count */ uint8_t wval_uint8, /* Value written out */ rval_uint8; /* Value read in */ unsigned short wval_ushort, /* Another value written out */ rval_ushort; /* Another value read in */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing I/O on Selections in Scalar Dataspaces in Memory\n")); @@ -8016,40 +8016,40 @@ test_scalar_select3(void) /**************************************************************** ** ** test_shape_same(): Tests selections on dataspace, verify that -** "shape same" routine is working correctly. +** "shape same" routine is working correctly. ** ****************************************************************/ static void test_shape_same(void) { - hid_t all_sid; /* Dataspace ID with "all" selection */ - hid_t none_sid; /* Dataspace ID with "none" selection */ - hid_t single_pt_sid; /* Dataspace ID with single point selection */ - hid_t mult_pt_sid; /* Dataspace ID with multiple point selection */ - hid_t single_hyper_sid; /* Dataspace ID with single block hyperslab selection */ - hid_t single_hyper_all_sid; /* Dataspace ID with single block hyperslab + hid_t all_sid; /* Dataspace ID with "all" selection */ + hid_t none_sid; /* Dataspace ID with "none" selection */ + hid_t single_pt_sid; /* Dataspace ID with single point selection */ + hid_t mult_pt_sid; /* Dataspace ID with multiple point selection */ + hid_t single_hyper_sid; /* Dataspace ID with single block hyperslab selection */ + hid_t single_hyper_all_sid; /* Dataspace ID with single block hyperslab * selection that is the entire dataspace */ - hid_t single_hyper_pt_sid; /* Dataspace ID with single block hyperslab + hid_t single_hyper_pt_sid; /* Dataspace ID with single block hyperslab * selection that is the same as the single * point selection */ - hid_t regular_hyper_sid; /* Dataspace ID with regular hyperslab selection */ - hid_t irreg_hyper_sid; /* Dataspace ID with irregular hyperslab selection */ - hid_t none_hyper_sid; /* Dataspace ID with "no hyperslabs" selection */ - hid_t scalar_all_sid; /* ID for scalar dataspace with "all" selection */ - hid_t scalar_none_sid; /* ID for scalar dataspace with "none" selection */ - hid_t tmp_sid; /* Temporary dataspace ID */ - hsize_t dims[] = {SPACE9_DIM1, SPACE9_DIM2}; - hsize_t coord1[1][SPACE2_RANK]; /* Coordinates for single point selection */ - hsize_t coord2[SPACE9_DIM2][SPACE9_RANK]; /* Coordinates for multiple point selection */ + hid_t regular_hyper_sid; /* Dataspace ID with regular hyperslab selection */ + hid_t irreg_hyper_sid; /* Dataspace ID with irregular hyperslab selection */ + hid_t none_hyper_sid; /* Dataspace ID with "no hyperslabs" selection */ + hid_t scalar_all_sid; /* ID for scalar dataspace with "all" selection */ + hid_t scalar_none_sid; /* ID for scalar dataspace with "none" selection */ + hid_t tmp_sid; /* Temporary dataspace ID */ + hsize_t dims[] = {SPACE9_DIM1, SPACE9_DIM2}; + hsize_t coord1[1][SPACE2_RANK]; /* Coordinates for single point selection */ + hsize_t coord2[SPACE9_DIM2][SPACE9_RANK]; /* Coordinates for multiple point selection */ hsize_t start[SPACE9_RANK]; /* Hyperslab start */ hsize_t stride[SPACE9_RANK]; /* Hyperslab stride */ hsize_t count[SPACE9_RANK]; /* Hyperslab block count */ hsize_t block[SPACE9_RANK]; /* Hyperslab block size */ unsigned u,v; /* Local index variables */ - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(6, ("Testing Same Shape Comparisons\n")); @@ -9087,52 +9087,52 @@ test_shape_same(void) ** ** test_shape_same_dr__smoke_check_1(): ** -** Create a square, 2-D dataspace (10 X 10), and select -** all of it. +** Create a square, 2-D dataspace (10 X 10), and select +** all of it. ** ** Similarly, create nine, 3-D dataspaces (10 X 10 X 10), -** and select (10 X 10 X 1) hyperslabs 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, -** H5Sselect_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 hyperslabs. -** -** Also create two additional 3-D dataspaces (10 X 10 X 10), -** and select a (10 X 10 X 2) hyperslab 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. -** H5Sselect_shape_same() should return FALSE when comparing -** each to the 2-D selection. +** and select (10 X 10 X 1) hyperslabs 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, +** H5Sselect_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 hyperslabs. +** +** Also create two additional 3-D dataspaces (10 X 10 X 10), +** and select a (10 X 10 X 2) hyperslab 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. +** H5Sselect_shape_same() should return FALSE when comparing +** each to the 2-D selection. ** ****************************************************************/ static void test_shape_same_dr__smoke_check_1(void) { - hid_t small_square_sid; - hid_t small_cube_xy_slice_0_sid; - hid_t small_cube_xy_slice_1_sid; - hid_t small_cube_xy_slice_2_sid; - hid_t small_cube_xz_slice_0_sid; - hid_t small_cube_xz_slice_1_sid; - hid_t small_cube_xz_slice_2_sid; - hid_t small_cube_yz_slice_0_sid; - hid_t small_cube_yz_slice_1_sid; - hid_t small_cube_yz_slice_2_sid; - hid_t small_cube_yz_slice_3_sid; - hid_t small_cube_yz_slice_4_sid; - hsize_t small_cube_dims[] = {10, 10, 10}; - hsize_t start[3]; - hsize_t stride[3]; - hsize_t count[3]; - hsize_t block[3]; - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ - - MESSAGE(7, (" Smoke check 1: Slices through a cube.\n")); + hid_t small_square_sid; + hid_t small_cube_xy_slice_0_sid; + hid_t small_cube_xy_slice_1_sid; + hid_t small_cube_xy_slice_2_sid; + hid_t small_cube_xz_slice_0_sid; + hid_t small_cube_xz_slice_1_sid; + hid_t small_cube_xz_slice_2_sid; + hid_t small_cube_yz_slice_0_sid; + hid_t small_cube_yz_slice_1_sid; + hid_t small_cube_yz_slice_2_sid; + hid_t small_cube_yz_slice_3_sid; + hid_t small_cube_yz_slice_4_sid; + hsize_t small_cube_dims[] = {10, 10, 10}; + hsize_t start[3]; + hsize_t stride[3]; + hsize_t count[3]; + hsize_t block[3]; + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ + + MESSAGE(7, (" Smoke check 1: Slices through a cube.\n")); /* Create the 10 x 10 dataspace */ small_square_sid = H5Screate_simple(2, small_cube_dims, NULL); @@ -9148,24 +9148,24 @@ test_shape_same_dr__smoke_check_1(void) small_cube_xy_slice_2_sid = H5Screate_simple(3, small_cube_dims, NULL); CHECK(small_cube_xy_slice_2_sid, FAIL, "H5Screate_simple"); - start[0] = 0; /* x */ - start[1] = 0; /* y */ - start[2] = 0; /* z */ + start[0] = 0; /* x */ + start[1] = 0; /* y */ + start[2] = 0; /* z */ /* stride is a bit silly here, since we are only selecting a single */ /* contiguous plane, but include it anyway, with values large enough */ /* to ensure that we will only get the single block selected. */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 10; /* x */ - block[1] = 10; /* y */ - block[2] = 1; /* z */ + block[0] = 10; /* x */ + block[1] = 10; /* y */ + block[2] = 1; /* z */ ret = H5Sselect_hyperslab(small_cube_xy_slice_0_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9191,24 +9191,24 @@ test_shape_same_dr__smoke_check_1(void) small_cube_xz_slice_2_sid = H5Screate_simple(3, small_cube_dims, NULL); CHECK(small_cube_xz_slice_2_sid, FAIL, "H5Screate_simple"); - start[0] = 0; /* x */ - start[1] = 0; /* y */ - start[2] = 0; /* z */ + start[0] = 0; /* x */ + start[1] = 0; /* y */ + start[2] = 0; /* z */ /* stride is a bit silly here, since we are only selecting a single */ /* contiguous chunk, but include it anyway, with values large enough */ /* to ensure that we will only get the single chunk. */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 10; /* x */ - block[1] = 1; /* y */ - block[2] = 10; /* z */ + block[0] = 10; /* x */ + block[1] = 1; /* y */ + block[2] = 10; /* z */ ret = H5Sselect_hyperslab(small_cube_xz_slice_0_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9240,24 +9240,24 @@ test_shape_same_dr__smoke_check_1(void) small_cube_yz_slice_4_sid = H5Screate_simple(3, small_cube_dims, NULL); CHECK(small_cube_yz_slice_4_sid, FAIL, "H5Screate_simple"); - start[0] = 0; /* x */ - start[1] = 0; /* y */ - start[2] = 0; /* z */ + start[0] = 0; /* x */ + start[1] = 0; /* y */ + start[2] = 0; /* z */ /* stride is a bit silly here, since we are only selecting a single */ /* contiguous chunk, but include it anyway, with values large enough */ /* to ensure that we will only get the single chunk. */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 1; /* x */ - block[1] = 10; /* y */ - block[2] = 10; /* z */ + block[0] = 1; /* x */ + block[1] = 10; /* y */ + block[2] = 10; /* z */ ret = H5Sselect_hyperslab(small_cube_yz_slice_0_sid, H5S_SELECT_SET, start, stride, count, block); @@ -9378,98 +9378,98 @@ test_shape_same_dr__smoke_check_1(void) ** ** test_shape_same_dr__smoke_check_2(): ** -** Create a square, 2-D dataspace (10 X 10), and select -** a "checker board" hyperslab as follows: +** Create a square, 2-D dataspace (10 X 10), and select +** a "checker board" hyperslab as follows: ** -** * * - - * * - - * * +** * * - - * * - - * * ** * * - - * * - - * * ** - - * * - - * * - - ** - - * * - - * * - - -** * * - - * * - - * * +** * * - - * * - - * * ** * * - - * * - - * * ** - - * * - - * * - - ** - - * * - - * * - - -** * * - - * * - - * * +** * * - - * * - - * * ** * * - - * * - - * * ** -** where asterisks indicate selected elements, and dashes -** indicate unselected elements. -** -** Similarly, create nine, 3-D dataspaces (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, -** H5Sselect_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 hyperslabs parallel to the xy -** or xz planes. -** -** Also create an additional 3-D dataspaces (10 X 10 X 10), -** and select a checker board parallel with the yz axis, -** save with some squares being on different planes. -** H5Sselect_shape_same() should return FALSE when -** comparing this selection to the 2-D selection. +** where asterisks indicate selected elements, and dashes +** indicate unselected elements. +** +** Similarly, create nine, 3-D dataspaces (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, +** H5Sselect_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 hyperslabs parallel to the xy +** or xz planes. +** +** Also create an additional 3-D dataspaces (10 X 10 X 10), +** and select a checker board parallel with the yz axis, +** save with some squares being on different planes. +** H5Sselect_shape_same() should return FALSE when +** comparing this selection to the 2-D selection. ** ****************************************************************/ static void test_shape_same_dr__smoke_check_2(void) { - hid_t small_square_sid; - hid_t small_cube_xy_slice_0_sid; - hid_t small_cube_xy_slice_1_sid; - hid_t small_cube_xy_slice_2_sid; - hid_t small_cube_xz_slice_0_sid; - hid_t small_cube_xz_slice_1_sid; - hid_t small_cube_xz_slice_2_sid; - hid_t small_cube_yz_slice_0_sid; - hid_t small_cube_yz_slice_1_sid; - hid_t small_cube_yz_slice_2_sid; - hid_t small_cube_yz_slice_3_sid; - hsize_t small_cube_dims[] = {10, 10, 10}; - hsize_t start[3]; - hsize_t stride[3]; - hsize_t count[3]; - hsize_t block[3]; - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ - - MESSAGE(7, (" Smoke check 2: Checker board slices through a cube.\n")); + hid_t small_square_sid; + hid_t small_cube_xy_slice_0_sid; + hid_t small_cube_xy_slice_1_sid; + hid_t small_cube_xy_slice_2_sid; + hid_t small_cube_xz_slice_0_sid; + hid_t small_cube_xz_slice_1_sid; + hid_t small_cube_xz_slice_2_sid; + hid_t small_cube_yz_slice_0_sid; + hid_t small_cube_yz_slice_1_sid; + hid_t small_cube_yz_slice_2_sid; + hid_t small_cube_yz_slice_3_sid; + hsize_t small_cube_dims[] = {10, 10, 10}; + hsize_t start[3]; + hsize_t stride[3]; + hsize_t count[3]; + hsize_t block[3]; + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ + + MESSAGE(7, (" Smoke check 2: Checker board slices through a cube.\n")); /* Create the 10 x 10 dataspace */ small_square_sid = H5Screate_simple(2, small_cube_dims, NULL); CHECK(small_square_sid, FAIL, "H5Screate_simple"); - start[0] = 0; /* x */ - start[1] = 0; /* y */ + start[0] = 0; /* x */ + start[1] = 0; /* y */ - stride[0] = 4; /* x */ - stride[1] = 4; /* y */ + stride[0] = 4; /* x */ + stride[1] = 4; /* y */ - count[0] = 3; /* x */ - count[1] = 3; /* y */ + count[0] = 3; /* x */ + count[1] = 3; /* y */ - block[0] = 2; /* x */ - block[1] = 2; /* y */ + block[0] = 2; /* x */ + block[1] = 2; /* y */ ret = H5Sselect_hyperslab(small_square_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 2; /* x */ - start[1] = 2; /* y */ + start[0] = 2; /* x */ + start[1] = 2; /* y */ - stride[0] = 4; /* x */ - stride[1] = 4; /* y */ + stride[0] = 4; /* x */ + stride[1] = 4; /* y */ - count[0] = 2; /* x */ - count[1] = 2; /* y */ + count[0] = 2; /* x */ + count[1] = 2; /* y */ - block[0] = 2; /* x */ - block[1] = 2; /* y */ + block[0] = 2; /* x */ + block[1] = 2; /* y */ ret = H5Sselect_hyperslab(small_square_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9486,21 +9486,21 @@ test_shape_same_dr__smoke_check_2(void) CHECK(small_cube_xy_slice_2_sid, FAIL, "H5Screate_simple"); - start[0] = 0; /* x */ - start[1] = 0; /* y */ - start[2] = 0; /* z */ + start[0] = 0; /* x */ + start[1] = 0; /* y */ + start[2] = 0; /* z */ - stride[0] = 4; /* x */ - stride[1] = 4; /* y */ - stride[2] = 20; /* z -- large enough that there will only be one slice */ + stride[0] = 4; /* x */ + stride[1] = 4; /* y */ + stride[2] = 20; /* z -- large enough that there will only be one slice */ - count[0] = 3; /* x */ - count[1] = 3; /* y */ - count[2] = 1; /* z */ + count[0] = 3; /* x */ + count[1] = 3; /* y */ + count[2] = 1; /* z */ - block[0] = 2; /* x */ - block[1] = 2; /* y */ - block[2] = 1; /* z */ + block[0] = 2; /* x */ + block[1] = 2; /* y */ + block[2] = 1; /* z */ ret = H5Sselect_hyperslab(small_cube_xy_slice_0_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9516,21 +9516,21 @@ test_shape_same_dr__smoke_check_2(void) CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 2; /* x */ - start[1] = 2; /* y */ - start[2] = 0; /* z */ + start[0] = 2; /* x */ + start[1] = 2; /* y */ + start[2] = 0; /* z */ - stride[0] = 4; /* x */ - stride[1] = 4; /* y */ - stride[2] = 20; /* z -- large enough that there will only be one slice */ + stride[0] = 4; /* x */ + stride[1] = 4; /* y */ + stride[2] = 20; /* z -- large enough that there will only be one slice */ - count[0] = 2; /* x */ - count[1] = 2; /* y */ - count[2] = 1; /* z */ + count[0] = 2; /* x */ + count[1] = 2; /* y */ + count[2] = 1; /* z */ - block[0] = 2; /* x */ - block[1] = 2; /* y */ - block[2] = 1; /* z */ + block[0] = 2; /* x */ + block[1] = 2; /* y */ + block[2] = 1; /* z */ ret = H5Sselect_hyperslab(small_cube_xy_slice_0_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9557,21 +9557,21 @@ test_shape_same_dr__smoke_check_2(void) CHECK(small_cube_xz_slice_2_sid, FAIL, "H5Screate_simple"); - start[0] = 0; /* x */ - start[1] = 0; /* y */ - start[2] = 0; /* z */ + start[0] = 0; /* x */ + start[1] = 0; /* y */ + start[2] = 0; /* z */ - stride[0] = 4; /* x */ - stride[1] = 20; /* y -- large enough that there will only be one slice */ - stride[2] = 4; /* z */ + stride[0] = 4; /* x */ + stride[1] = 20; /* y -- large enough that there will only be one slice */ + stride[2] = 4; /* z */ - count[0] = 3; /* x */ - count[1] = 1; /* y */ - count[2] = 3; /* z */ + count[0] = 3; /* x */ + count[1] = 1; /* y */ + count[2] = 3; /* z */ - block[0] = 2; /* x */ - block[1] = 1; /* y */ - block[2] = 2; /* z */ + block[0] = 2; /* x */ + block[1] = 1; /* y */ + block[2] = 2; /* z */ ret = H5Sselect_hyperslab(small_cube_xz_slice_0_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9586,21 +9586,21 @@ test_shape_same_dr__smoke_check_2(void) start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 2; /* x */ - start[1] = 0; /* y */ - start[2] = 2; /* z */ + start[0] = 2; /* x */ + start[1] = 0; /* y */ + start[2] = 2; /* z */ - stride[0] = 4; /* x */ - stride[1] = 20; /* y -- large enough that there will only be one slice */ - stride[2] = 4; /* z */ + stride[0] = 4; /* x */ + stride[1] = 20; /* y -- large enough that there will only be one slice */ + stride[2] = 4; /* z */ - count[0] = 2; /* x */ - count[1] = 1; /* y */ - count[2] = 2; /* z */ + count[0] = 2; /* x */ + count[1] = 1; /* y */ + count[2] = 2; /* z */ - block[0] = 2; /* x */ - block[1] = 1; /* y */ - block[2] = 2; /* z */ + block[0] = 2; /* x */ + block[1] = 1; /* y */ + block[2] = 2; /* z */ ret = H5Sselect_hyperslab(small_cube_xz_slice_0_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9629,21 +9629,21 @@ test_shape_same_dr__smoke_check_2(void) small_cube_yz_slice_3_sid = H5Screate_simple(3, small_cube_dims, NULL); CHECK(small_cube_yz_slice_3_sid, FAIL, "H5Screate_simple"); - start[0] = 0; /* x */ - start[1] = 0; /* y */ - start[2] = 0; /* z */ + start[0] = 0; /* x */ + start[1] = 0; /* y */ + start[2] = 0; /* z */ - stride[0] = 20; /* x -- large enough that there will only be one slice */ - stride[1] = 4; /* y */ - stride[2] = 4; /* z */ + stride[0] = 20; /* x -- large enough that there will only be one slice */ + stride[1] = 4; /* y */ + stride[2] = 4; /* z */ - count[0] = 1; /* x */ - count[1] = 3; /* y */ - count[2] = 3; /* z */ + count[0] = 1; /* x */ + count[1] = 3; /* y */ + count[2] = 3; /* z */ - block[0] = 1; /* x */ - block[1] = 2; /* y */ - block[2] = 2; /* z */ + block[0] = 1; /* x */ + block[1] = 2; /* y */ + block[2] = 2; /* z */ ret = H5Sselect_hyperslab(small_cube_yz_slice_0_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9664,21 +9664,21 @@ test_shape_same_dr__smoke_check_2(void) CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 0; /* x */ - start[1] = 2; /* y */ - start[2] = 2; /* z */ + start[0] = 0; /* x */ + start[1] = 2; /* y */ + start[2] = 2; /* z */ - stride[0] = 20; /* x -- large enough that there will only be one slice */ - stride[1] = 4; /* y */ - stride[2] = 4; /* z */ + stride[0] = 20; /* x -- large enough that there will only be one slice */ + stride[1] = 4; /* y */ + stride[2] = 4; /* z */ - count[0] = 1; /* x */ - count[1] = 2; /* y */ - count[2] = 2; /* z */ + count[0] = 1; /* x */ + count[1] = 2; /* y */ + count[2] = 2; /* z */ - block[0] = 1; /* x */ - block[1] = 2; /* y */ - block[2] = 2; /* z */ + block[0] = 1; /* x */ + block[1] = 2; /* y */ + block[2] = 2; /* z */ ret = H5Sselect_hyperslab(small_cube_yz_slice_0_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9786,109 +9786,109 @@ test_shape_same_dr__smoke_check_2(void) ** ** test_shape_same_dr__smoke_check_3(): ** -** Create a square, 2-D dataspace (10 X 10), and select an -** irregular hyperslab as follows: -** -** y -** 9 - - - - - - - - - - -** 8 - - - - - - - - - - -** 7 - - - * * * * - - - -** 6 - - * * * * * - - - -** 5 - - * * - - - - - - -** 4 - - * * - * * - - - -** 3 - - * * - * * - - - -** 2 - - - - - - - - - - -** 1 - - - - - - - - - - -** 0 - - - - - - - - - - +** Create a square, 2-D dataspace (10 X 10), and select an +** irregular hyperslab as follows: +** +** y +** 9 - - - - - - - - - - +** 8 - - - - - - - - - - +** 7 - - - * * * * - - - +** 6 - - * * * * * - - - +** 5 - - * * - - - - - - +** 4 - - * * - * * - - - +** 3 - - * * - * * - - - +** 2 - - - - - - - - - - +** 1 - - - - - - - - - - +** 0 - - - - - - - - - - ** 0 1 2 3 4 5 6 7 8 9 x ** -** where asterisks indicate selected elements, and dashes -** indicate unselected elements. +** where asterisks indicate selected elements, and dashes +** indicate unselected elements. ** -** Similarly, create nine, 3-D dataspaces (10 X 10 X 10), -** and select similar irregular hyperslabs 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. +** Similarly, create nine, 3-D dataspaces (10 X 10 X 10), +** and select similar irregular hyperslabs 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, -** H5Sselect_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 hyperslabs -** selections parallel to the xy or xz planes. +** Assuming that z is the fastest changing dimension, +** H5Sselect_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 hyperslabs +** selections parallel to the xy or xz planes. ** ****************************************************************/ static void test_shape_same_dr__smoke_check_3(void) { - hid_t small_square_sid; - hid_t small_cube_xy_slice_0_sid; - hid_t small_cube_xy_slice_1_sid; - hid_t small_cube_xy_slice_2_sid; - hid_t small_cube_xz_slice_0_sid; - hid_t small_cube_xz_slice_1_sid; - hid_t small_cube_xz_slice_2_sid; - hid_t small_cube_yz_slice_0_sid; - hid_t small_cube_yz_slice_1_sid; - hid_t small_cube_yz_slice_2_sid; - hsize_t small_cube_dims[] = {10, 10, 10}; - hsize_t start[3]; - hsize_t stride[3]; - hsize_t count[3]; - hsize_t block[3]; - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ - - MESSAGE(7, (" Smoke check 3: Offset subsets of slices through a cube.\n")); + hid_t small_square_sid; + hid_t small_cube_xy_slice_0_sid; + hid_t small_cube_xy_slice_1_sid; + hid_t small_cube_xy_slice_2_sid; + hid_t small_cube_xz_slice_0_sid; + hid_t small_cube_xz_slice_1_sid; + hid_t small_cube_xz_slice_2_sid; + hid_t small_cube_yz_slice_0_sid; + hid_t small_cube_yz_slice_1_sid; + hid_t small_cube_yz_slice_2_sid; + hsize_t small_cube_dims[] = {10, 10, 10}; + hsize_t start[3]; + hsize_t stride[3]; + hsize_t count[3]; + hsize_t block[3]; + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ + + MESSAGE(7, (" Smoke check 3: Offset subsets of slices through a cube.\n")); /* Create the 10 x 10 dataspace */ small_square_sid = H5Screate_simple(2, small_cube_dims, NULL); CHECK(small_square_sid, FAIL, "H5Screate_simple"); - start[0] = 2; /* x */ - start[1] = 3; /* y */ + start[0] = 2; /* x */ + start[1] = 3; /* y */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ - block[0] = 2; /* x */ - block[1] = 4; /* y */ + block[0] = 2; /* x */ + block[1] = 4; /* y */ ret = H5Sselect_hyperslab(small_square_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 3; /* x */ - start[1] = 6; /* y */ + start[0] = 3; /* x */ + start[1] = 6; /* y */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ - block[0] = 4; /* x */ - block[1] = 2; /* y */ + block[0] = 4; /* x */ + block[1] = 2; /* y */ ret = H5Sselect_hyperslab(small_square_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 5; /* x */ - start[1] = 3; /* y */ + start[0] = 5; /* x */ + start[1] = 3; /* y */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ - block[0] = 2; /* x */ - block[1] = 2; /* y */ + block[0] = 2; /* x */ + block[1] = 2; /* y */ ret = H5Sselect_hyperslab(small_square_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -9905,101 +9905,101 @@ test_shape_same_dr__smoke_check_3(void) CHECK(small_cube_xy_slice_2_sid, FAIL, "H5Screate_simple"); - start[0] = 2; /* x */ - start[1] = 3; /* y */ - start[2] = 5; /* z */ + start[0] = 2; /* x */ + start[1] = 3; /* y */ + start[2] = 5; /* z */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 2; /* x */ - block[1] = 4; /* y */ - block[2] = 1; /* z */ + block[0] = 2; /* x */ + block[1] = 4; /* y */ + block[2] = 1; /* z */ ret = H5Sselect_hyperslab(small_cube_xy_slice_0_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the starting point to the origin */ - start[0] -= 1; /* x */ - start[1] -= 2; /* y */ + start[0] -= 1; /* x */ + start[1] -= 2; /* y */ ret = H5Sselect_hyperslab(small_cube_xy_slice_1_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the irregular selection to the upper right hand corner */ - start[0] += 5; /* x */ - start[1] += 5; /* y */ + start[0] += 5; /* x */ + start[1] += 5; /* y */ ret = H5Sselect_hyperslab(small_cube_xy_slice_2_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 3; /* x */ - start[1] = 6; /* y */ - start[2] = 5; /* z */ + start[0] = 3; /* x */ + start[1] = 6; /* y */ + start[2] = 5; /* z */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 4; /* x */ - block[1] = 2; /* y */ - block[2] = 1; /* z */ + block[0] = 4; /* x */ + block[1] = 2; /* y */ + block[2] = 1; /* z */ ret = H5Sselect_hyperslab(small_cube_xy_slice_0_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the starting point to the origin */ - start[0] -= 1; /* x */ - start[1] -= 2; /* y */ + start[0] -= 1; /* x */ + start[1] -= 2; /* y */ ret = H5Sselect_hyperslab(small_cube_xy_slice_1_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the irregular selection to the upper right hand corner */ - start[0] += 5; /* x */ - start[1] += 5; /* y */ + start[0] += 5; /* x */ + start[1] += 5; /* y */ ret = H5Sselect_hyperslab(small_cube_xy_slice_2_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 5; /* x */ - start[1] = 3; /* y */ - start[2] = 5; /* z */ + start[0] = 5; /* x */ + start[1] = 3; /* y */ + start[2] = 5; /* z */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 2; /* x */ - block[1] = 2; /* y */ - block[2] = 1; /* z */ + block[0] = 2; /* x */ + block[1] = 2; /* y */ + block[2] = 1; /* z */ ret = H5Sselect_hyperslab(small_cube_xy_slice_0_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the starting point to the origin */ - start[0] -= 1; /* x */ - start[1] -= 2; /* y */ + start[0] -= 1; /* x */ + start[1] -= 2; /* y */ ret = H5Sselect_hyperslab(small_cube_xy_slice_1_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the irregular selection to the upper right hand corner */ - start[0] += 5; /* x */ - start[1] += 5; /* y */ + start[0] += 5; /* x */ + start[1] += 5; /* y */ ret = H5Sselect_hyperslab(small_cube_xy_slice_2_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -10015,101 +10015,101 @@ test_shape_same_dr__smoke_check_3(void) small_cube_xz_slice_2_sid = H5Screate_simple(3, small_cube_dims, NULL); CHECK(small_cube_xz_slice_2_sid, FAIL, "H5Screate_simple"); - start[0] = 2; /* x */ - start[1] = 5; /* y */ - start[2] = 3; /* z */ + start[0] = 2; /* x */ + start[1] = 5; /* y */ + start[2] = 3; /* z */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 2; /* x */ - block[1] = 1; /* y */ - block[2] = 4; /* z */ + block[0] = 2; /* x */ + block[1] = 1; /* y */ + block[2] = 4; /* z */ ret = H5Sselect_hyperslab(small_cube_xz_slice_0_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the starting point to the origin */ - start[0] -= 1; /* x */ - start[2] -= 2; /* y */ + start[0] -= 1; /* x */ + start[2] -= 2; /* y */ ret = H5Sselect_hyperslab(small_cube_xz_slice_1_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the irregular selection to the upper right hand corner */ - start[0] += 5; /* x */ - start[2] += 5; /* y */ + start[0] += 5; /* x */ + start[2] += 5; /* y */ ret = H5Sselect_hyperslab(small_cube_xz_slice_2_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 3; /* x */ - start[1] = 5; /* y */ - start[2] = 6; /* z */ + start[0] = 3; /* x */ + start[1] = 5; /* y */ + start[2] = 6; /* z */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 4; /* x */ - block[1] = 1; /* y */ - block[2] = 2; /* z */ + block[0] = 4; /* x */ + block[1] = 1; /* y */ + block[2] = 2; /* z */ ret = H5Sselect_hyperslab(small_cube_xz_slice_0_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the starting point to the origin */ - start[0] -= 1; /* x */ - start[2] -= 2; /* y */ + start[0] -= 1; /* x */ + start[2] -= 2; /* y */ ret = H5Sselect_hyperslab(small_cube_xz_slice_1_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the irregular selection to the upper right hand corner */ - start[0] += 5; /* x */ - start[2] += 5; /* y */ + start[0] += 5; /* x */ + start[2] += 5; /* y */ ret = H5Sselect_hyperslab(small_cube_xz_slice_2_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 5; /* x */ - start[1] = 5; /* y */ - start[2] = 3; /* z */ + start[0] = 5; /* x */ + start[1] = 5; /* y */ + start[2] = 3; /* z */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 2; /* x */ - block[1] = 1; /* y */ - block[2] = 2; /* z */ + block[0] = 2; /* x */ + block[1] = 1; /* y */ + block[2] = 2; /* z */ ret = H5Sselect_hyperslab(small_cube_xz_slice_0_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the starting point to the origin */ - start[0] -= 1; /* x */ - start[2] -= 2; /* y */ + start[0] -= 1; /* x */ + start[2] -= 2; /* y */ ret = H5Sselect_hyperslab(small_cube_xz_slice_1_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the irregular selection to the upper right hand corner */ - start[0] += 5; /* x */ - start[2] += 5; /* y */ + start[0] += 5; /* x */ + start[2] += 5; /* y */ ret = H5Sselect_hyperslab(small_cube_xz_slice_2_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -10127,101 +10127,101 @@ test_shape_same_dr__smoke_check_3(void) small_cube_yz_slice_2_sid = H5Screate_simple(3, small_cube_dims, NULL); CHECK(small_cube_yz_slice_2_sid, FAIL, "H5Screate_simple"); - start[0] = 8; /* x */ - start[1] = 2; /* y */ - start[2] = 3; /* z */ + start[0] = 8; /* x */ + start[1] = 2; /* y */ + start[2] = 3; /* z */ - stride[0] = 20; /* x -- large enough that there will only be one slice */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x -- large enough that there will only be one slice */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 1; /* x */ - block[1] = 2; /* y */ - block[2] = 4; /* z */ + block[0] = 1; /* x */ + block[1] = 2; /* y */ + block[2] = 4; /* z */ ret = H5Sselect_hyperslab(small_cube_yz_slice_0_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the starting point to the origin */ - start[1] -= 1; /* x */ - start[2] -= 2; /* y */ + start[1] -= 1; /* x */ + start[2] -= 2; /* y */ ret = H5Sselect_hyperslab(small_cube_yz_slice_1_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the irregular selection to the upper right hand corner */ - start[0] += 5; /* x */ - start[2] += 5; /* y */ + start[0] += 5; /* x */ + start[2] += 5; /* y */ ret = H5Sselect_hyperslab(small_cube_yz_slice_2_sid, H5S_SELECT_SET, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 8; /* x */ - start[1] = 3; /* y */ - start[2] = 6; /* z */ + start[0] = 8; /* x */ + start[1] = 3; /* y */ + start[2] = 6; /* z */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 1; /* x */ - block[1] = 4; /* y */ - block[2] = 2; /* z */ + block[0] = 1; /* x */ + block[1] = 4; /* y */ + block[2] = 2; /* z */ ret = H5Sselect_hyperslab(small_cube_yz_slice_0_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the starting point to the origin */ - start[1] -= 1; /* x */ - start[2] -= 2; /* y */ + start[1] -= 1; /* x */ + start[2] -= 2; /* y */ ret = H5Sselect_hyperslab(small_cube_yz_slice_1_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the irregular selection to the upper right hand corner */ - start[0] += 5; /* x */ - start[2] += 5; /* y */ + start[0] += 5; /* x */ + start[2] += 5; /* y */ ret = H5Sselect_hyperslab(small_cube_yz_slice_2_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); - start[0] = 8; /* x */ - start[1] = 5; /* y */ - start[2] = 3; /* z */ + start[0] = 8; /* x */ + start[1] = 5; /* y */ + start[2] = 3; /* z */ - stride[0] = 20; /* x */ - stride[1] = 20; /* y */ - stride[2] = 20; /* z */ + stride[0] = 20; /* x */ + stride[1] = 20; /* y */ + stride[2] = 20; /* z */ - count[0] = 1; /* x */ - count[1] = 1; /* y */ - count[2] = 1; /* z */ + count[0] = 1; /* x */ + count[1] = 1; /* y */ + count[2] = 1; /* z */ - block[0] = 1; /* x */ - block[1] = 2; /* y */ - block[2] = 2; /* z */ + block[0] = 1; /* x */ + block[1] = 2; /* y */ + block[2] = 2; /* z */ ret = H5Sselect_hyperslab(small_cube_yz_slice_0_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the starting point to the origin */ - start[1] -= 1; /* x */ - start[2] -= 2; /* y */ + start[1] -= 1; /* x */ + start[2] -= 2; /* y */ ret = H5Sselect_hyperslab(small_cube_yz_slice_1_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); /* move the irregular selection to the upper right hand corner */ - start[0] += 5; /* x */ - start[2] += 5; /* y */ + start[0] += 5; /* x */ + start[2] += 5; /* y */ ret = H5Sselect_hyperslab(small_cube_yz_slice_2_sid, H5S_SELECT_OR, start, stride, count, block); CHECK(ret, FAIL, "H5Sselect_hyperslab"); @@ -10302,52 +10302,52 @@ test_shape_same_dr__smoke_check_3(void) ** ** test_shape_same_dr__smoke_check_4(): ** -** Create a square, 2-D dataspace (10 X 10), and select -** the entire space. +** Create a square, 2-D dataspace (10 X 10), and select +** the entire space. ** -** Similarly, create 3-D and 4-D dataspaces: +** Similarly, create 3-D and 4-D dataspaces: ** -** (1 X 10 X 10) -** (10 X 1 X 10) -** (10 X 10 X 1) -** (10 X 10 X 10) +** (1 X 10 X 10) +** (10 X 1 X 10) +** (10 X 10 X 1) +** (10 X 10 X 10) ** -** (1 X 1 X 10 X 10) -** (1 X 10 X 1 X 10) -** (1 X 10 X 10 X 1) -** (10 X 1 X 1 X 10) -** (10 X 1 X 10 X 1) -** (10 X 10 X 1 X 1) -** (10 X 1 X 10 X 10) +** (1 X 1 X 10 X 10) +** (1 X 10 X 1 X 10) +** (1 X 10 X 10 X 1) +** (10 X 1 X 1 X 10) +** (10 X 1 X 10 X 1) +** (10 X 10 X 1 X 1) +** (10 X 1 X 10 X 10) ** -** And select these entire spaces as well. +** And select these entire spaces as well. ** -** Compare the 2-D space against all the other spaces -** with H5Sselect_shape_same(). The (1 X 10 X 10) & -** (1 X 1 X 10 X 10) should return TRUE. All others -** should return FALSE. +** Compare the 2-D space against all the other spaces +** with H5Sselect_shape_same(). The (1 X 10 X 10) & +** (1 X 1 X 10 X 10) should return TRUE. All others +** should return FALSE. ** ****************************************************************/ static void test_shape_same_dr__smoke_check_4(void) { - hid_t square_sid; - hid_t three_d_space_0_sid; - hid_t three_d_space_1_sid; - hid_t three_d_space_2_sid; - hid_t three_d_space_3_sid; - hid_t four_d_space_0_sid; - hid_t four_d_space_1_sid; - hid_t four_d_space_2_sid; - hid_t four_d_space_3_sid; - hid_t four_d_space_4_sid; - hid_t four_d_space_5_sid; - hid_t four_d_space_6_sid; - hsize_t dims[] = {10, 10, 10, 10}; - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ - - MESSAGE(7, (" Smoke check 4: Spaces of different dimension but same size.\n")); + hid_t square_sid; + hid_t three_d_space_0_sid; + hid_t three_d_space_1_sid; + hid_t three_d_space_2_sid; + hid_t three_d_space_3_sid; + hid_t four_d_space_0_sid; + hid_t four_d_space_1_sid; + hid_t four_d_space_2_sid; + hid_t four_d_space_3_sid; + hid_t four_d_space_4_sid; + hid_t four_d_space_5_sid; + hid_t four_d_space_6_sid; + hsize_t dims[] = {10, 10, 10, 10}; + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ + + MESSAGE(7, (" Smoke check 4: Spaces of different dimension but same size.\n")); /* Create the 10 x 10 dataspace */ square_sid = H5Screate_simple(2, dims, NULL); @@ -10519,15 +10519,15 @@ test_shape_same_dr__smoke_check_4(void) /**************************************************************** ** ** test_shape_same_dr__full_space_vs_slice(): Tests selection -** of a full n-cube dataspace vs an n-dimensional slice of -** of an m-cube (m > n) in a call to H5Sselect_shape_same(). -** Note that this test does not require the n-cube and the -** n-dimensional slice to have the same rank (although -** H5Sselect_shape_same() should always return FALSE if -** they don't). +** of a full n-cube dataspace vs an n-dimensional slice of +** of an m-cube (m > n) in a call to H5Sselect_shape_same(). +** Note that this test does not require the n-cube and the +** n-dimensional slice to have the same rank (although +** H5Sselect_shape_same() should always return FALSE if +** they don't). ** -** Per Quincey's suggestion, only test up to 5 dimensional -** spaces. +** Per Quincey's suggestion, only test up to 5 dimensional +** spaces. ** ****************************************************************/ static void @@ -10539,22 +10539,22 @@ test_shape_same_dr__full_space_vs_slice(int test_num, hbool_t dim_selected[], hbool_t expected_result) { - char test_desc_0[128]; - char test_desc_1[256]; + char test_desc_0[128]; + char test_desc_1[256]; int i; - hid_t n_cube_0_sid; /* the fully selected hyper cube */ - hid_t n_cube_1_sid; /* the hyper cube in which a slice is selected */ - hsize_t dims[SS_DR_MAX_RANK]; - hsize_t start[SS_DR_MAX_RANK]; - hsize_t * start_ptr; - hsize_t stride[SS_DR_MAX_RANK]; - hsize_t * stride_ptr; - hsize_t count[SS_DR_MAX_RANK]; - hsize_t * count_ptr; - hsize_t block[SS_DR_MAX_RANK]; - hsize_t * block_ptr; - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ + hid_t n_cube_0_sid; /* the fully selected hyper cube */ + hid_t n_cube_1_sid; /* the hyper cube in which a slice is selected */ + hsize_t dims[SS_DR_MAX_RANK]; + hsize_t start[SS_DR_MAX_RANK]; + hsize_t * start_ptr; + hsize_t stride[SS_DR_MAX_RANK]; + hsize_t * stride_ptr; + hsize_t count[SS_DR_MAX_RANK]; + hsize_t * count_ptr; + hsize_t block[SS_DR_MAX_RANK]; + hsize_t * block_ptr; + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ HDassert( 0 < small_rank ); HDassert( small_rank <= large_rank ); @@ -10564,13 +10564,13 @@ test_shape_same_dr__full_space_vs_slice(int test_num, HDassert( edge_size > 0 ); HDassert( edge_size <= 1000 ); - sprintf(test_desc_0, + HDsprintf(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, + HDsprintf(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], @@ -10652,26 +10652,26 @@ test_shape_same_dr__full_space_vs_slice(int test_num, ** ** test_shape_same_dr__run_full_space_vs_slice_tests(): ** -** Run the test_shape_same_dr__full_space_vs_slice() test -** over a variety of ranks and offsets. +** Run the test_shape_same_dr__full_space_vs_slice() test +** over a variety of ranks and offsets. ** -** At present, we test H5Sselect_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 -** sufficient. +** At present, we test H5Sselect_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 +** sufficient. ** -** All the n-cubes will have lengths of the same size, so -** H5Sselect_shape_same() should return true iff: +** All the n-cubes will have lengths of the same size, so +** H5Sselect_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 -** indices. +** 2) The dimensions selected in the slice through the m-cube +** are the dimesnions with the most quickly changing +** indices. ** ****************************************************************/ static void @@ -10799,17 +10799,17 @@ 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 dataspace vs -** a "checker board" n-dimensional slice of an m-cube (m > n). -** in a call to H5Sselect_shape_same(). +** "checker board" subset of a full n-cube dataspace vs +** a "checker board" n-dimensional slice of an m-cube (m > n). +** in a call to H5Sselect_shape_same(). ** -** Note that this test does not require the n-cube and the -** n-dimensional slice to have the same rank (although -** H5Sselect_shape_same() should always return FALSE if -** they don't). +** Note that this test does not require the n-cube and the +** n-dimensional slice to have the same rank (although +** H5Sselect_shape_same() should always return FALSE if +** they don't). ** -** Per Quincey's suggestion, only test up to 5 dimensional -** spaces. +** Per Quincey's suggestion, only test up to 5 dimensional +** spaces. ** ****************************************************************/ static void @@ -10822,31 +10822,31 @@ test_shape_same_dr__checkerboard(int test_num, hbool_t dim_selected[], hbool_t expected_result) { - char test_desc_0[128]; - char test_desc_1[256]; + char test_desc_0[128]; + char test_desc_1[256]; int i; - int dims_selected = 0; - hid_t n_cube_0_sid; /* the checker board selected + int dims_selected = 0; + hid_t n_cube_0_sid; /* the checker board selected * hyper cube */ - hid_t n_cube_1_sid; /* the hyper cube in which a + 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]; - hsize_t start[SS_DR_MAX_RANK]; - hsize_t * start_ptr; - hsize_t base_stride[2]; - hsize_t stride[SS_DR_MAX_RANK]; - hsize_t * stride_ptr; - hsize_t base_count[2]; - hsize_t count[SS_DR_MAX_RANK]; - hsize_t * count_ptr; - hsize_t base_block[2]; - hsize_t block[SS_DR_MAX_RANK]; - hsize_t * block_ptr; - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ + hsize_t dims[SS_DR_MAX_RANK]; + hsize_t base_start[2]; + hsize_t start[SS_DR_MAX_RANK]; + hsize_t * start_ptr; + hsize_t base_stride[2]; + hsize_t stride[SS_DR_MAX_RANK]; + hsize_t * stride_ptr; + hsize_t base_count[2]; + hsize_t count[SS_DR_MAX_RANK]; + hsize_t * count_ptr; + hsize_t base_block[2]; + hsize_t block[SS_DR_MAX_RANK]; + hsize_t * block_ptr; + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ HDassert( 0 < small_rank ); HDassert( small_rank <= large_rank ); @@ -10864,13 +10864,13 @@ test_shape_same_dr__checkerboard(int test_num, HDassert( dims_selected >= 0 ); HDassert( dims_selected <= large_rank ); - sprintf(test_desc_0, + HDsprintf(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, + HDsprintf(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, @@ -10895,19 +10895,19 @@ test_shape_same_dr__checkerboard(int test_num, * * In the 1-D case, the "checkerboard" would look like this: * - * * * - - * * - - * * + * * * - - * * - - * * * * and in the 2-D case, it would look like this: * - * * * - - * * - - * * + * * * - - * * - - * * * * * - - * * - - * * * - - * * - - * * - - * - - * * - - * * - - - * * * - - * * - - * * + * * * - - * * - - * * * * * - - * * - - * * * - - * * - - * * - - * - - * * - - * * - - - * * * - - * * - - * * + * * * - - * * - - * * * * * - - * * - - * * * * In both cases, asterisks indicate selected elements, @@ -10923,15 +10923,15 @@ test_shape_same_dr__checkerboard(int test_num, * are not even divisors of the edge size -- thus * something like the following is also possible: * - * * * * - - - * * * - - * * * * - - - * * * - - * * * * - - - * * * - + * * * * - - - * * * - + * * * * - - - * * * - + * * * * - - - * * * - * - - - * * * - - - * * - - - * * * - - - * * - - - * * * - - - * - * * * * - - - * * * - - * * * * - - - * * * - - * * * * - - - * * * - + * * * * - - - * * * - + * * * * - - - * * * - + * * * * - - - * * * - * - - - * * * - - - * * * As the above pattern can't be selected in one @@ -10961,7 +10961,7 @@ test_shape_same_dr__checkerboard(int test_num, base_count[0] = edge_size / (checker_size * 2); if((edge_size % (checker_size * 2)) > 0) - base_count[0]++; + base_count[0]++; base_count[1] = (edge_size - checker_size) / (checker_size * 2); if(((edge_size - checker_size) % (checker_size * 2)) > 0) @@ -11142,7 +11142,7 @@ test_shape_same_dr__checkerboard(int test_num, ** ** test_shape_same_dr__run_checkerboard_tests(): ** -** In this set of tests, we test H5Sselect_shape_same() +** In this set of tests, we test H5Sselect_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 @@ -11412,15 +11412,15 @@ test_shape_same_dr__run_checkerboard_tests(void) ** ** 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 dataspace vs an identical "irregular" subset -** of an n-dimensional slice of an m-cube (m > n). -** in a call to H5Sselect_shape_same(). +** of an n-dimensional slice of an m-cube (m > n). +** in a call to H5Sselect_shape_same(). ** -** Note that this test does not require the n-cube and the -** n-dimensional slice to have the same rank (although -** H5Sselect_shape_same() should always return FALSE if -** they don't). +** Note that this test does not require the n-cube and the +** n-dimensional slice to have the same rank (although +** H5Sselect_shape_same() should always return FALSE if +** they don't). ** ****************************************************************/ static void @@ -11432,71 +11432,71 @@ test_shape_same_dr__irregular(int test_num, hbool_t dim_selected[], hbool_t expected_result) { - char test_desc_0[128]; - char test_desc_1[256]; - int edge_size = 10; + char test_desc_0[128]; + char test_desc_1[256]; + int edge_size = 10; int i; int j; int k; - int dims_selected = 0; - hid_t n_cube_0_sid; /* the hyper cube containing + int dims_selected = 0; + 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. */ - hsize_t dims[SS_DR_MAX_RANK]; - hsize_t start_0[SS_DR_MAX_RANK] = { 2, 2, 2, 2, 5}; - hsize_t stride_0[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; - hsize_t count_0[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; + hsize_t dims[SS_DR_MAX_RANK]; + hsize_t start_0[SS_DR_MAX_RANK] = { 2, 2, 2, 2, 5}; + hsize_t stride_0[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; + hsize_t count_0[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; hsize_t block_0[SS_DR_MAX_RANK] = { 2, 2, 2, 2, 3}; - hsize_t start_1[SS_DR_MAX_RANK] = { 2, 2, 2, 5, 2}; - hsize_t stride_1[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; - hsize_t count_1[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; + hsize_t start_1[SS_DR_MAX_RANK] = { 2, 2, 2, 5, 2}; + hsize_t stride_1[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; + hsize_t count_1[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; hsize_t block_1[SS_DR_MAX_RANK] = { 2, 2, 2, 3, 2}; - hsize_t start_2[SS_DR_MAX_RANK] = { 2, 2, 5, 2, 2}; - hsize_t stride_2[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; - hsize_t count_2[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; + hsize_t start_2[SS_DR_MAX_RANK] = { 2, 2, 5, 2, 2}; + hsize_t stride_2[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; + hsize_t count_2[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; hsize_t block_2[SS_DR_MAX_RANK] = { 2, 2, 3, 2, 2}; - hsize_t start_3[SS_DR_MAX_RANK] = { 2, 5, 2, 2, 2}; - hsize_t stride_3[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; - hsize_t count_3[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; + hsize_t start_3[SS_DR_MAX_RANK] = { 2, 5, 2, 2, 2}; + hsize_t stride_3[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; + hsize_t count_3[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; hsize_t block_3[SS_DR_MAX_RANK] = { 2, 3, 2, 2, 2}; - hsize_t start_4[SS_DR_MAX_RANK] = { 5, 2, 2, 2, 2}; - hsize_t stride_4[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; - hsize_t count_4[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; + hsize_t start_4[SS_DR_MAX_RANK] = { 5, 2, 2, 2, 2}; + hsize_t stride_4[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; + hsize_t count_4[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; hsize_t block_4[SS_DR_MAX_RANK] = { 3, 2, 2, 2, 2}; - hsize_t clip_start[SS_DR_MAX_RANK] = { 0, 0, 0, 0, 0}; - hsize_t clip_stride[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; - hsize_t clip_count[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; + hsize_t clip_start[SS_DR_MAX_RANK] = { 0, 0, 0, 0, 0}; + hsize_t clip_stride[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; + hsize_t clip_count[SS_DR_MAX_RANK] = { 1, 1, 1, 1, 1}; hsize_t clip_block[SS_DR_MAX_RANK] = {10, 10, 10, 10, 10}; - hsize_t *(starts[SS_DR_MAX_RANK]) = - {start_0, start_1, start_2, start_3, start_4}; + 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}; + {stride_0, stride_1, stride_2, stride_3, stride_4}; hsize_t *(counts[SS_DR_MAX_RANK]) = - {count_0, count_1, count_2, count_3, count_4}; + {count_0, count_1, count_2, count_3, count_4}; hsize_t *(blocks[SS_DR_MAX_RANK]) = - {block_0, block_1, block_2, block_3, block_4}; - - hsize_t start[SS_DR_MAX_RANK]; - hsize_t * start_ptr; - hsize_t stride[SS_DR_MAX_RANK]; - hsize_t * stride_ptr; - hsize_t count[SS_DR_MAX_RANK]; - hsize_t * count_ptr; - hsize_t block[SS_DR_MAX_RANK]; - hsize_t * block_ptr; - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ + {block_0, block_1, block_2, block_3, block_4}; + + hsize_t start[SS_DR_MAX_RANK]; + hsize_t * start_ptr; + hsize_t stride[SS_DR_MAX_RANK]; + hsize_t * stride_ptr; + hsize_t count[SS_DR_MAX_RANK]; + hsize_t * count_ptr; + hsize_t block[SS_DR_MAX_RANK]; + hsize_t * block_ptr; + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ HDassert( 0 < small_rank ); HDassert( small_rank <= large_rank ); @@ -11515,13 +11515,13 @@ test_shape_same_dr__irregular(int test_num, HDassert( dims_selected >= 0 ); HDassert( dims_selected <= large_rank ); - sprintf(test_desc_0, + HDsprintf(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, + HDsprintf(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, @@ -11553,23 +11553,23 @@ test_shape_same_dr__irregular(int test_num, * In the 1-D case, the projection of the pattern looks * like this: * - * - - * * - * * * - - + * - - * * - * * * - - * 0 1 2 3 4 5 6 7 8 9 x * * and in the 2-D case, it would look like this: * * - * y - * 9 - - - - - - - - - - - * 8 - - - - - - - - - - - * 7 - - * * - - - - - - - * 6 - - * * - - - - - - - * 5 - - * * - - - - - - - * 4 - - - - - - - - - - - * 3 - - * * - * * * - - - * 2 - - * * - * * * - - - * 1 - - - - - - - - - - - * 0 - - - - - - - - - - + * y + * 9 - - - - - - - - - - + * 8 - - - - - - - - - - + * 7 - - * * - - - - - - + * 6 - - * * - - - - - - + * 5 - - * * - - - - - - + * 4 - - - - - - - - - - + * 3 - - * * - * * * - - + * 2 - - * * - * * * - - + * 1 - - - - - - - - - - + * 0 - - - - - - - - - - * 0 1 2 3 4 5 6 7 8 9 x * * In both cases, asterisks indicate selected elements, @@ -11686,13 +11686,13 @@ test_shape_same_dr__irregular(int test_num, ** ** test_shape_same_dr__run_irregular_tests(): ** -** In this set of tests, we test H5Sselect_shape_same() +** In this set of tests, we test H5Sselect_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. +** the n-cube and the slice. ** ** All the irregular selections will be identical (modulo rank) ** so H5Sselect_shape_same() should return true iff: @@ -11900,7 +11900,7 @@ 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 -** is now handling this case correctly. +** is now handling this case correctly. ** ****************************************************************/ static void @@ -12644,7 +12644,7 @@ test_space_rebuild(void) CHECK(ret, FAIL, "H5Sclose"); } - + /**************************************************************** ** ** test_space_update_diminfo(): Tests selection diminfo update @@ -13429,7 +13429,7 @@ test_space_update_diminfo(void) CHECK(ret, FAIL, "H5Sclose"); } /* end test_space_update_diminfo() */ - + /**************************************************************** ** ** test_select_hyper_chunk_offset(): Tests selections on dataspace, @@ -14550,33 +14550,33 @@ test_hyper_unlim(void) static void test_internal_consistency(void) { - hid_t all_sid; /* Dataspace ID with "all" selection */ - hid_t none_sid; /* Dataspace ID with "none" selection */ - hid_t single_pt_sid; /* Dataspace ID with single point selection */ - hid_t mult_pt_sid; /* Dataspace ID with multiple point selection */ - hid_t single_hyper_sid; /* Dataspace ID with single block hyperslab selection */ - hid_t single_hyper_all_sid; /* Dataspace ID with single block hyperslab + hid_t all_sid; /* Dataspace ID with "all" selection */ + hid_t none_sid; /* Dataspace ID with "none" selection */ + hid_t single_pt_sid; /* Dataspace ID with single point selection */ + hid_t mult_pt_sid; /* Dataspace ID with multiple point selection */ + hid_t single_hyper_sid; /* Dataspace ID with single block hyperslab selection */ + hid_t single_hyper_all_sid; /* Dataspace ID with single block hyperslab * selection that is the entire dataspace */ - hid_t single_hyper_pt_sid; /* Dataspace ID with single block hyperslab + hid_t single_hyper_pt_sid; /* Dataspace ID with single block hyperslab * selection that is the same as the single * point selection */ - hid_t regular_hyper_sid; /* Dataspace ID with regular hyperslab selection */ - hid_t irreg_hyper_sid; /* Dataspace ID with irregular hyperslab selection */ - hid_t none_hyper_sid; /* Dataspace ID with "no hyperslabs" selection */ - hid_t scalar_all_sid; /* ID for scalar dataspace with "all" selection */ - hid_t scalar_none_sid; /* ID for scalar dataspace with "none" selection */ - hid_t tmp_sid; /* Temporary dataspace ID */ - hsize_t dims[] = {SPACE9_DIM1, SPACE9_DIM2}; - hsize_t coord1[1][SPACE2_RANK]; /* Coordinates for single point selection */ - hsize_t coord2[SPACE9_DIM2][SPACE9_RANK]; /* Coordinates for multiple point selection */ + hid_t regular_hyper_sid; /* Dataspace ID with regular hyperslab selection */ + hid_t irreg_hyper_sid; /* Dataspace ID with irregular hyperslab selection */ + hid_t none_hyper_sid; /* Dataspace ID with "no hyperslabs" selection */ + hid_t scalar_all_sid; /* ID for scalar dataspace with "all" selection */ + hid_t scalar_none_sid; /* ID for scalar dataspace with "none" selection */ + hid_t tmp_sid; /* Temporary dataspace ID */ + hsize_t dims[] = {SPACE9_DIM1, SPACE9_DIM2}; + hsize_t coord1[1][SPACE2_RANK]; /* Coordinates for single point selection */ + hsize_t coord2[SPACE9_DIM2][SPACE9_RANK]; /* Coordinates for multiple point selection */ hsize_t start[SPACE9_RANK]; /* Hyperslab start */ hsize_t stride[SPACE9_RANK]; /* Hyperslab stride */ hsize_t count[SPACE9_RANK]; /* Hyperslab block count */ hsize_t block[SPACE9_RANK]; /* Hyperslab block size */ - htri_t check; /* Shape comparison return value */ - herr_t ret; /* Generic return value */ + htri_t check; /* Shape comparison return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(6, ("Testing Consistency of Internal States\n")); @@ -14721,59 +14721,59 @@ test_internal_consistency(void) /* Test all the selections created */ - /* Test the copy of itself */ - tmp_sid=H5Scopy(all_sid); - CHECK(tmp_sid, FAIL, "H5Scopy"); + /* Test the copy of itself */ + tmp_sid=H5Scopy(all_sid); + CHECK(tmp_sid, FAIL, "H5Scopy"); - check = H5S__internal_consistency_test(tmp_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + check = H5S__internal_consistency_test(tmp_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - ret = H5Sclose(tmp_sid); - CHECK(ret, FAIL, "H5Sclose"); + ret = H5Sclose(tmp_sid); + CHECK(ret, FAIL, "H5Sclose"); - /* Test "none" selection */ - check = H5S__internal_consistency_test(none_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test "none" selection */ + check = H5S__internal_consistency_test(none_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test single point selection */ - check = H5S__internal_consistency_test(single_pt_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test single point selection */ + check = H5S__internal_consistency_test(single_pt_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test multiple point selection */ - check = H5S__internal_consistency_test(mult_pt_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test multiple point selection */ + check = H5S__internal_consistency_test(mult_pt_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test "plain" single hyperslab selection */ - check = H5S__internal_consistency_test(single_hyper_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test "plain" single hyperslab selection */ + check = H5S__internal_consistency_test(single_hyper_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test "all" single hyperslab selection */ - check = H5S__internal_consistency_test(single_hyper_all_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test "all" single hyperslab selection */ + check = H5S__internal_consistency_test(single_hyper_all_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test "single point" single hyperslab selection */ - check = H5S__internal_consistency_test(single_hyper_pt_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test "single point" single hyperslab selection */ + check = H5S__internal_consistency_test(single_hyper_pt_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test regular, strided hyperslab selection */ - check = H5S__internal_consistency_test(regular_hyper_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test regular, strided hyperslab selection */ + check = H5S__internal_consistency_test(regular_hyper_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test irregular hyperslab selection */ - check = H5S__internal_consistency_test(irreg_hyper_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test irregular hyperslab selection */ + check = H5S__internal_consistency_test(irreg_hyper_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test "no" hyperslab selection */ - check = H5S__internal_consistency_test(none_hyper_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test "no" hyperslab selection */ + check = H5S__internal_consistency_test(none_hyper_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test scalar "all" hyperslab selection */ - check = H5S__internal_consistency_test(scalar_all_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test scalar "all" hyperslab selection */ + check = H5S__internal_consistency_test(scalar_all_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); - /* Test scalar "none" hyperslab selection */ - check = H5S__internal_consistency_test(scalar_none_sid); - VERIFY(check, TRUE, "H5S__internal_consistency_test"); + /* Test scalar "none" hyperslab selection */ + check = H5S__internal_consistency_test(scalar_none_sid); + VERIFY(check, TRUE, "H5S__internal_consistency_test"); /* Close dataspaces */ ret = H5Sclose(all_sid); @@ -14816,9 +14816,9 @@ test_irreg_io(void) hid_t dcpl_id; /* Dataset creation property list ID */ hid_t sid; /* File dataspace ID */ hid_t mem_sid; /* Memory dataspace ID */ - hsize_t dims[] = {6, 12}; /* Dataspace dimensions */ - hsize_t chunk_dims[] = {2, 2}; /* Chunk dimensions */ - hsize_t mem_dims[] = {32}; /* Memory dataspace dimensions */ + hsize_t dims[] = {6, 12}; /* Dataspace dimensions */ + hsize_t chunk_dims[] = {2, 2}; /* Chunk dimensions */ + hsize_t mem_dims[] = {32}; /* Memory dataspace dimensions */ hsize_t start[2]; /* Hyperslab start */ hsize_t stride[2]; /* Hyperslab stride */ hsize_t count[2]; /* Hyperslab block count */ @@ -14826,7 +14826,7 @@ test_irreg_io(void) unsigned char wbuf[72]; /* Write buffer */ unsigned char rbuf[32]; /* Read buffer */ unsigned u; /* Local index variable */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(6, ("Testing Irregular Hyperslab I/O\n")); @@ -14909,8 +14909,8 @@ test_sel_iter(void) { hid_t sid; /* Dataspace ID */ hid_t iter_id; /* Dataspace selection iterator ID */ - hsize_t dims1[] = {6, 12}; /* 2-D Dataspace dimensions */ - hsize_t coord1[POINT1_NPOINTS][2]; /* Coordinates for point selection */ + hsize_t dims1[] = {6, 12}; /* 2-D Dataspace dimensions */ + hsize_t coord1[POINT1_NPOINTS][2]; /* Coordinates for point selection */ hsize_t start[2]; /* Hyperslab start */ hsize_t stride[2]; /* Hyperslab stride */ hsize_t count[2]; /* Hyperslab block count */ @@ -14922,7 +14922,7 @@ test_sel_iter(void) H5S_sel_type sel_type; /* Selection type */ unsigned sel_share; /* Whether to share selection with dataspace */ unsigned sel_iter_flags; /* Flags for selection iterator creation */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(6, ("Testing Dataspace Selection Iterators\n")); @@ -15177,26 +15177,26 @@ test_sel_iter(void) /**************************************************************** ** ** test_select_intersect_block(): Test selections on dataspace, -** verify that "intersect block" routine is working correctly. +** verify that "intersect block" routine is working correctly. ** ****************************************************************/ static void test_select_intersect_block(void) { hid_t sid; /* Dataspace ID */ - hsize_t dims1[] = {6, 12}; /* 2-D Dataspace dimensions */ + hsize_t dims1[] = {6, 12}; /* 2-D Dataspace dimensions */ hsize_t block_start[] = {1, 3}; /* Start offset for block */ hsize_t block_end[] = {2, 5}; /* End offset for block */ hsize_t block_end2[] = {0, 5}; /* Bad end offset for block */ hsize_t block_end3[] = {2, 2}; /* Another bad end offset for block */ hsize_t block_end4[] = {1, 3}; /* End offset that makes a single element block */ - hsize_t coord[10][2]; /* Coordinates for point selection */ - hsize_t start[2]; /* Starting location of hyperslab */ - hsize_t stride[2]; /* Stride of hyperslab */ - hsize_t count[2]; /* Element count of hyperslab */ - hsize_t block[2]; /* Block size of hyperslab */ + hsize_t coord[10][2]; /* Coordinates for point selection */ + hsize_t start[2]; /* Starting location of hyperslab */ + hsize_t stride[2]; /* Stride of hyperslab */ + hsize_t count[2]; /* Element count of hyperslab */ + hsize_t block[2]; /* Block size of hyperslab */ htri_t status; /* Intersection status */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(6, ("Testing Dataspace Selection Block Intersection\n")); @@ -15316,7 +15316,7 @@ test_select_intersect_block(void) CHECK(ret, FAIL, "H5Sclose"); } /* test_select_intersect_block() */ - + /**************************************************************** ** ** test_select(): Main H5S selection testing routine. @@ -15332,7 +15332,7 @@ test_select(void) size_t rdcc_nbytes; /* Raw data number of bytes */ double rdcc_w0; /* Raw data write percentage */ hssize_t offset[SPACE7_RANK] = {1, 1}; /* Offset for testing selection offsets */ - herr_t ret; /* Generic return value */ + herr_t ret; /* Generic return value */ /* Output message about test being performed */ MESSAGE(5, ("Testing Selections\n")); @@ -15501,15 +15501,15 @@ test_select(void) test_select_intersect_block(); } /* test_select() */ - + /*------------------------------------------------------------------------- - * Function: cleanup_select + * Function: cleanup_select * - * Purpose: Cleanup temporary test files + * Purpose: Cleanup temporary test files * - * Return: none + * Return: none * - * Programmer: Albert Cheng + * Programmer: Albert Cheng * July 2, 1998 * *------------------------------------------------------------------------- |