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-rw-r--r--testpar/t_span_tree.c704
1 files changed, 351 insertions, 353 deletions
diff --git a/testpar/t_span_tree.c b/testpar/t_span_tree.c
index a42df95..20bc4ac 100644
--- a/testpar/t_span_tree.c
+++ b/testpar/t_span_tree.c
@@ -23,17 +23,15 @@
2) We will read two datasets with the same hyperslab selection settings,
1. independent read to read independent output,
independent read to read collecive output,
- Compare the result,
- If the result is the same, then collective write succeeds.
+ Compare the result,
+ If the result is the same, then collective write succeeds.
2. collective read to read independent output,
independent read to read independent output,
- Compare the result,
- If the result is the same, then collective read succeeds.
+ Compare the result,
+ If the result is the same, then collective read succeeds.
*/
-#include "hdf5.h"
-#include "H5private.h"
#include "testphdf5.h"
@@ -42,17 +40,17 @@ static void coll_read_test(int chunk_factor);
/*-------------------------------------------------------------------------
- * Function: coll_irregular_cont_write
+ * Function: coll_irregular_cont_write
*
- * Purpose: Wrapper to test the collectively irregular hyperslab write in
+ * Purpose: Wrapper to test the collectively irregular hyperslab write in
contiguous storage
*
- * Return: Success: 0
+ * Return: Success: 0
*
- * Failure: -1
+ * Failure: -1
*
- * Programmer: Unknown
- * Dec 2nd, 2004
+ * Programmer: Unknown
+ * Dec 2nd, 2004
*
* Modifications:
*
@@ -69,17 +67,17 @@ coll_irregular_cont_write(void)
/*-------------------------------------------------------------------------
- * Function: coll_irregular_cont_read
+ * Function: coll_irregular_cont_read
*
- * Purpose: Wrapper to test the collectively irregular hyperslab read in
+ * Purpose: Wrapper to test the collectively irregular hyperslab read in
contiguous storage
*
- * Return: Success: 0
+ * Return: Success: 0
*
- * Failure: -1
+ * Failure: -1
*
- * Programmer: Unknown
- * Dec 2nd, 2004
+ * Programmer: Unknown
+ * Dec 2nd, 2004
*
* Modifications:
*
@@ -95,17 +93,17 @@ coll_irregular_cont_read(void)
/*-------------------------------------------------------------------------
- * Function: coll_irregular_simple_chunk_write
+ * Function: coll_irregular_simple_chunk_write
*
- * Purpose: Wrapper to test the collectively irregular hyperslab write in
+ * Purpose: Wrapper to test the collectively irregular hyperslab write in
chunk storage(1 chunk)
*
- * Return: Success: 0
+ * Return: Success: 0
*
- * Failure: -1
+ * Failure: -1
*
- * Programmer: Unknown
- * Dec 2nd, 2004
+ * Programmer: Unknown
+ * Dec 2nd, 2004
*
* Modifications:
*
@@ -122,17 +120,17 @@ coll_irregular_simple_chunk_write(void)
/*-------------------------------------------------------------------------
- * Function: coll_irregular_simple_chunk_read
+ * Function: coll_irregular_simple_chunk_read
*
- * Purpose: Wrapper to test the collectively irregular hyperslab read in chunk
+ * Purpose: Wrapper to test the collectively irregular hyperslab read in chunk
storage(1 chunk)
*
- * Return: Success: 0
+ * Return: Success: 0
*
- * Failure: -1
+ * Failure: -1
*
- * Programmer: Unknown
- * Dec 2nd, 2004
+ * Programmer: Unknown
+ * Dec 2nd, 2004
*
* Modifications:
*
@@ -147,17 +145,17 @@ coll_irregular_simple_chunk_read(void)
}
/*-------------------------------------------------------------------------
- * Function: coll_irregular_complex_chunk_write
+ * Function: coll_irregular_complex_chunk_write
*
- * Purpose: Wrapper to test the collectively irregular hyperslab write in chunk
+ * Purpose: Wrapper to test the collectively irregular hyperslab write in chunk
storage(4 chunks)
*
- * Return: Success: 0
+ * Return: Success: 0
*
- * Failure: -1
+ * Failure: -1
*
- * Programmer: Unknown
- * Dec 2nd, 2004
+ * Programmer: Unknown
+ * Dec 2nd, 2004
*
* Modifications:
*
@@ -174,17 +172,17 @@ coll_irregular_complex_chunk_write(void)
/*-------------------------------------------------------------------------
- * Function: coll_irregular_complex_chunk_read
+ * Function: coll_irregular_complex_chunk_read
*
- * Purpose: Wrapper to test the collectively irregular hyperslab read in chunk
+ * Purpose: Wrapper to test the collectively irregular hyperslab read in chunk
storage(1 chunk)
*
- * Return: Success: 0
+ * Return: Success: 0
*
- * Failure: -1
+ * Failure: -1
*
- * Programmer: Unknown
- * Dec 2nd, 2004
+ * Programmer: Unknown
+ * Dec 2nd, 2004
*
* Modifications:
*
@@ -200,18 +198,18 @@ coll_irregular_complex_chunk_read(void)
/*-------------------------------------------------------------------------
- * Function: coll_write_test
+ * Function: coll_write_test
*
- * Purpose: To test the collectively irregular hyperslab write in chunk
+ * Purpose: To test the collectively irregular hyperslab write in chunk
storage
* Input: number of chunks on each dimension
if number is equal to 0, contiguous storage
- * Return: Success: 0
+ * Return: Success: 0
*
- * Failure: -1
+ * Failure: -1
*
- * Programmer: Unknown
- * Dec 2nd, 2004
+ * Programmer: Unknown
+ * Dec 2nd, 2004
*
* Modifications: Oct 18th, 2005
*
@@ -229,14 +227,14 @@ void coll_write_test(int chunk_factor)
#if 0
hsize_t mdim1[] = {MSPACE1_DIM}; /* Dimension size of the first dataset
- (in memory) */
+ (in memory) */
hsize_t fsdim[] = {FSPACE_DIM1, FSPACE_DIM2}; /* Dimension sizes of the dataset
(on disk) */
hsize_t mdim[] = {MSPACE_DIM1, MSPACE_DIM2}; /* Dimension sizes of the
- dataset in memory when we
- read selection from the
- dataset on the disk */
+ dataset in memory when we
+ read selection from the
+ dataset on the disk */
#endif
hsize_t start[2]; /* Start of hyperslab */
@@ -252,7 +250,7 @@ void coll_write_test(int chunk_factor)
#if 0
int matrix_out[MSPACE_DIM1][MSPACE_DIM2];
int matrix_out1[MSPACE_DIM1][MSPACE_DIM2]; /* Buffer to read from the
- dataset */
+ dataset */
int vector[MSPACE1_DIM];
#endif
@@ -616,12 +614,12 @@ void coll_write_test(int chunk_factor)
*/
ret = H5Dread(datasetc, H5T_NATIVE_INT, mspaceid, fspaceid,
- H5P_DEFAULT, matrix_out);
+ H5P_DEFAULT, matrix_out);
VRFY((ret >= 0),"H5D independent read succeed");
ret = H5Dread(dataseti, H5T_NATIVE_INT, mspaceid, fspaceid,
- H5P_DEFAULT, matrix_out1);
+ H5P_DEFAULT, matrix_out1);
VRFY((ret >= 0),"H5D independent read succeed");
ret = 0;
@@ -668,18 +666,18 @@ void coll_write_test(int chunk_factor)
}
/*-------------------------------------------------------------------------
- * Function: coll_read_test
+ * Function: coll_read_test
*
- * Purpose: To test the collectively irregular hyperslab read in chunk
+ * Purpose: To test the collectively irregular hyperslab read in chunk
storage
* Input: number of chunks on each dimension
if number is equal to 0, contiguous storage
- * Return: Success: 0
+ * Return: Success: 0
*
- * Failure: -1
+ * Failure: -1
*
- * Programmer: Unknown
- * Dec 2nd, 2004
+ * Programmer: Unknown
+ * Dec 2nd, 2004
*
* Modifications: Oct 18th, 2005
* Note: This test must be used with the correpsonding
@@ -699,9 +697,9 @@ coll_read_test(int chunk_factor)
/* Dimension sizes of the dataset (on disk) */
#if 0
hsize_t mdim[] = {MSPACE_DIM1, MSPACE_DIM2}; /* Dimension sizes of the
- dataset in memory when we
- read selection from the
- dataset on the disk */
+ dataset in memory when we
+ read selection from the
+ dataset on the disk */
#endif
hsize_t mdim[2];
@@ -718,7 +716,7 @@ coll_read_test(int chunk_factor)
#if 0
int matrix_out[MSPACE_DIM1][MSPACE_DIM2];
int matrix_out1[MSPACE_DIM1][MSPACE_DIM2]; /* Buffer to read from the
- dataset */
+ dataset */
#endif
int mpi_size,mpi_rank;
@@ -882,7 +880,7 @@ coll_read_test(int chunk_factor)
/* Collective read */
ret = H5Dread(dataseti, H5T_NATIVE_INT, mspaceid, fspaceid1,
- dxfer_plist, matrix_out);
+ dxfer_plist, matrix_out);
VRFY((ret >= 0),"H5D collecive read succeed");
ret = H5Pclose(dxfer_plist);
@@ -890,7 +888,7 @@ coll_read_test(int chunk_factor)
/* Independent read */
ret = H5Dread(dataseti, H5T_NATIVE_INT, mspaceid, fspaceid1,
- H5P_DEFAULT, matrix_out1);
+ H5P_DEFAULT, matrix_out1);
VRFY((ret >= 0),"H5D independent read succeed");
ret = 0;
@@ -933,30 +931,30 @@ coll_read_test(int chunk_factor)
/****************************************************************
**
-** lower_dim_size_comp_test__select_checker_board():
+** lower_dim_size_comp_test__select_checker_board():
**
-** Given a data space of tgt_rank, and dimensions:
+** Given a data space of tgt_rank, and dimensions:
**
-** (mpi_size + 1), edge_size, ... , edge_size
+** (mpi_size + 1), edge_size, ... , edge_size
**
-** edge_size, and a checker_edge_size, select a checker
-** board selection of a sel_rank (sel_rank < tgt_rank)
-** dimensional slice through the data space parallel to the
+** edge_size, and a checker_edge_size, select a checker
+** board selection of a sel_rank (sel_rank < tgt_rank)
+** dimensional slice through the data space parallel to the
** sel_rank fastest changing indicies, with origin (in the
-** higher indicies) as indicated by the start array.
+** higher indicies) as indicated by the start array.
**
-** Note that this function, is hard coded to presume a
-** maximum data space rank of 5.
+** Note that this function, is hard coded to presume a
+** maximum data space rank of 5.
**
-** While this maximum is declared as a constant, increasing
-** it will require extensive coding in addition to changing
+** While this maximum is declared as a constant, increasing
+** it will require extensive coding in addition to changing
** the value of the constant.
**
-** JRM -- 11/11/09
+** JRM -- 11/11/09
**
****************************************************************/
-#define LDSCT_DS_RANK 5
+#define LDSCT_DS_RANK 5
#define LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK 0
#define LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG 0
@@ -971,32 +969,32 @@ lower_dim_size_comp_test__select_checker_board(
const int sel_rank,
hsize_t sel_start[])
{
-#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
- const char * fcnName =
- "lower_dim_size_comp_test__select_checker_board():";
-#endif
- hbool_t first_selection = TRUE;
+#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
+ const char * fcnName =
+ "lower_dim_size_comp_test__select_checker_board():";
+#endif
+ hbool_t first_selection = TRUE;
int i, j, k, l, m;
- int ds_offset;
- int sel_offset;
- const int test_max_rank = LDSCT_DS_RANK; /* must update code if */
+ int ds_offset;
+ int sel_offset;
+ const int test_max_rank = LDSCT_DS_RANK; /* must update code if */
/* this changes */
- hsize_t base_count;
+ hsize_t base_count;
hsize_t offset_count;
- hsize_t start[LDSCT_DS_RANK];
- hsize_t stride[LDSCT_DS_RANK];
- hsize_t count[LDSCT_DS_RANK];
- hsize_t block[LDSCT_DS_RANK];
- herr_t ret; /* Generic return value */
+ hsize_t start[LDSCT_DS_RANK];
+ hsize_t stride[LDSCT_DS_RANK];
+ hsize_t count[LDSCT_DS_RANK];
+ hsize_t block[LDSCT_DS_RANK];
+ herr_t ret; /* Generic return value */
-#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s:%d: dims/checker_edge_size = %d %d %d %d %d / %d\n",
fcnName, mpi_rank, (int)dims[0], (int)dims[1], (int)dims[2],
(int)dims[3], (int)dims[4], checker_edge_size);
}
-#endif /* LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG */
+#endif /* LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG */
HDassert( 0 < checker_edge_size );
HDassert( 0 < sel_rank );
@@ -1014,14 +1012,14 @@ lower_dim_size_comp_test__select_checker_board(
HDassert( (hsize_t)checker_edge_size <= dims[sel_offset] );
HDassert( dims[sel_offset] == 10 );
-#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout, "%s:%d: sel_rank/sel_offset = %d/%d.\n",
+ HDfprintf(stdout, "%s:%d: sel_rank/sel_offset = %d/%d.\n",
fcnName, mpi_rank, sel_rank, sel_offset);
- HDfprintf(stdout, "%s:%d: tgt_rank/ds_offset = %d/%d.\n",
+ HDfprintf(stdout, "%s:%d: tgt_rank/ds_offset = %d/%d.\n",
fcnName, mpi_rank, tgt_rank, ds_offset);
}
-#endif /* LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG */
+#endif /* LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG */
/* First, compute the base count (which assumes start == 0
* for the associated offset) and offset_count (which
@@ -1043,25 +1041,25 @@ lower_dim_size_comp_test__select_checker_board(
base_count++;
}
- offset_count =
- (hsize_t)((dims[sel_offset] - (hsize_t)checker_edge_size) /
+ offset_count =
+ (hsize_t)((dims[sel_offset] - (hsize_t)checker_edge_size) /
((hsize_t)(checker_edge_size * 2)));
- if ( ((dims[sel_rank] - (hsize_t)checker_edge_size) %
+ if ( ((dims[sel_rank] - (hsize_t)checker_edge_size) %
((hsize_t)(checker_edge_size * 2))) > 0 ) {
offset_count++;
}
-#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout, "%s:%d: base_count/offset_count = %d/%d.\n",
+ HDfprintf(stdout, "%s:%d: base_count/offset_count = %d/%d.\n",
fcnName, mpi_rank, base_count, offset_count);
}
-#endif /* LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG */
+#endif /* LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG */
/* Now set up the stride and block arrays, and portions of the start
- * and count arrays that will not be altered during the selection of
+ * and count arrays that will not be altered during the selection of
* the checker board.
*/
i = 0;
@@ -1093,7 +1091,7 @@ lower_dim_size_comp_test__select_checker_board(
i++;
}
-
+
i = 0;
do {
if ( 0 >= sel_offset ) {
@@ -1112,7 +1110,7 @@ lower_dim_size_comp_test__select_checker_board(
}
j = 0;
- do {
+ do {
if ( 1 >= sel_offset ) {
if ( j == 0 ) {
@@ -1181,78 +1179,78 @@ lower_dim_size_comp_test__select_checker_board(
if ( ((i + j + k + l + m) % 2) == 0 ) {
-#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
- if ( mpi_rank ==
+#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
+ if ( mpi_rank ==
LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout,
- "%s%d: *** first_selection = %d ***\n",
+ HDfprintf(stdout,
+ "%s%d: *** first_selection = %d ***\n",
fcnName, mpi_rank, (int)first_selection);
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s:%d: i/j/k/l/m = %d/%d/%d/%d/%d\n",
fcnName, mpi_rank, i, j, k, l, m);
- HDfprintf(stdout,
- "%s:%d: start = %d %d %d %d %d.\n",
- fcnName, mpi_rank,
- (int)start[0], (int)start[1],
- (int)start[2], (int)start[3],
+ HDfprintf(stdout,
+ "%s:%d: start = %d %d %d %d %d.\n",
+ fcnName, mpi_rank,
+ (int)start[0], (int)start[1],
+ (int)start[2], (int)start[3],
(int)start[4]);
- HDfprintf(stdout,
- "%s:%d: stride = %d %d %d %d %d.\n",
- fcnName, mpi_rank,
- (int)stride[0], (int)stride[1],
- (int)stride[2], (int)stride[3],
+ HDfprintf(stdout,
+ "%s:%d: stride = %d %d %d %d %d.\n",
+ fcnName, mpi_rank,
+ (int)stride[0], (int)stride[1],
+ (int)stride[2], (int)stride[3],
(int)stride[4]);
- HDfprintf(stdout,
- "%s:%d: count = %d %d %d %d %d.\n",
- fcnName, mpi_rank,
- (int)count[0], (int)count[1],
- (int)count[2], (int)count[3],
+ HDfprintf(stdout,
+ "%s:%d: count = %d %d %d %d %d.\n",
+ fcnName, mpi_rank,
+ (int)count[0], (int)count[1],
+ (int)count[2], (int)count[3],
(int)count[4]);
- HDfprintf(stdout,
- "%s:%d: block = %d %d %d %d %d.\n",
- fcnName, mpi_rank,
- (int)block[0], (int)block[1],
- (int)block[2], (int)block[3],
+ HDfprintf(stdout,
+ "%s:%d: block = %d %d %d %d %d.\n",
+ fcnName, mpi_rank,
+ (int)block[0], (int)block[1],
+ (int)block[2], (int)block[3],
(int)block[4]);
- HDfprintf(stdout,
- "%s:%d: n-cube extent dims = %d.\n",
+ HDfprintf(stdout,
+ "%s:%d: n-cube extent dims = %d.\n",
fcnName, mpi_rank,
H5Sget_simple_extent_ndims(tgt_sid));
- HDfprintf(stdout,
- "%s:%d: selection rank = %d.\n",
+ HDfprintf(stdout,
+ "%s:%d: selection rank = %d.\n",
fcnName, mpi_rank, sel_rank);
}
#endif
if ( first_selection ) {
- first_selection = FALSE;
+ first_selection = FALSE;
ret = H5Sselect_hyperslab
(
- tgt_sid,
+ tgt_sid,
H5S_SELECT_SET,
- &(start[ds_offset]),
- &(stride[ds_offset]),
- &(count[ds_offset]),
+ &(start[ds_offset]),
+ &(stride[ds_offset]),
+ &(count[ds_offset]),
&(block[ds_offset])
);
-
+
VRFY((ret != FAIL), "H5Sselect_hyperslab(SET) succeeded");
} else {
ret = H5Sselect_hyperslab
(
- tgt_sid,
+ tgt_sid,
H5S_SELECT_OR,
- &(start[ds_offset]),
- &(stride[ds_offset]),
- &(count[ds_offset]),
+ &(start[ds_offset]),
+ &(stride[ds_offset]),
+ &(count[ds_offset]),
&(block[ds_offset])
);
-
+
VRFY((ret != FAIL), "H5Sselect_hyperslab(OR) succeeded");
}
@@ -1284,7 +1282,7 @@ lower_dim_size_comp_test__select_checker_board(
} while ( ( i <= 1 ) &&
( 0 >= sel_offset ) );
-#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s%d: H5Sget_select_npoints(tgt_sid) = %d.\n",
fcnName, mpi_rank, (int)H5Sget_select_npoints(tgt_sid));
@@ -1306,7 +1304,7 @@ lower_dim_size_comp_test__select_checker_board(
VRFY((ret != FAIL), "H5Sselect_hyperslab(AND) succeeded");
-#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__SELECT_CHECKER_BOARD__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s%d: H5Sget_select_npoints(tgt_sid) = %d.\n",
fcnName, mpi_rank, (int)H5Sget_select_npoints(tgt_sid));
@@ -1321,57 +1319,57 @@ lower_dim_size_comp_test__select_checker_board(
/****************************************************************
**
-** lower_dim_size_comp_test__verify_data():
+** lower_dim_size_comp_test__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 this process's slice
-** of the target data set. Each such slice will be an
-** n-cube of rank (rank -1) and the supplied edge_size with
-** origin (mpi_rank, 0, ... , 0) in the target data set.
+** The supplied buffer is presumed to this process's slice
+** of the target data set. Each such slice will be an
+** n-cube of rank (rank -1) and the supplied edge_size with
+** origin (mpi_rank, 0, ... , 0) in the target data set.
**
-** Further, the buffer is presumed to be the result of reading
-** or writing a checker board selection of an m (1 <= m <
+** Further, the buffer is presumed to be the result of reading
+** or writing a checker board selection of an m (1 <= m <
** rank) dimensional slice through this processes slice
-** of the target data set. Also, this slice must be parallel
-** to the fastest changing indicies.
+** of the target data set. Also, this slice must be parallel
+** to the fastest changing indicies.
**
-** It is further presumed that the buffer was zeroed before
-** the read/write, and that the full target data set (i.e.
-** the buffer/data set for all processes) was initialized
-** with the natural numbers listed in order from the origin
-** along the fastest changing axis.
+** It is further presumed that the buffer was zeroed before
+** the read/write, and that the full target data set (i.e.
+** the buffer/data set for all processes) was initialized
+** with the natural numbers listed in order from the origin
+** along the fastest changing axis.
**
** Thus for a 20x10x10 dataset, 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
**
-** Further, supposing that this is process 10, this process's
-** slice of the dataset would be a 10 x 10 2-cube with origin
-** (10, 0, 0) in the data set, and would be initialize (prior
-** to the checkerboard selection) as follows:
+** Further, supposing that this is process 10, this process's
+** slice of the dataset would be a 10 x 10 2-cube with origin
+** (10, 0, 0) in the data set, and would be initialize (prior
+** to the checkerboard selection) as follows:
**
-** 1000, 1001, 1002, ... 1008, 1009
-** 1010, 1011, 1012, ... 1018, 1019
-** . . . . .
-** . . . . .
-** . . . . .
-** 1090, 1091, 1092, ... 1098, 1099
+** 1000, 1001, 1002, ... 1008, 1009
+** 1010, 1011, 1012, ... 1018, 1019
+** . . . . .
+** . . . . .
+** . . . . .
+** 1090, 1091, 1092, ... 1098, 1099
**
-** In the case of a read from the processors slice of another
-** data set of different rank, the values expected will have
-** to be adjusted accordingly. This is done via the
-** first_expected_val parameter.
+** In the case of a read from the processors slice of another
+** data set of different rank, the values expected will have
+** to be adjusted accordingly. This is done via the
+** first_expected_val parameter.
**
-** Finally, the function presumes that the first element
-** of the buffer resides either at the origin of either
-** a selected or an unselected checker. (Translation:
-** if partial checkers appear in the buffer, they will
-** intersect the edges of the n-cube oposite the origin.)
+** Finally, the function presumes that the first element
+** of the buffer resides either at the origin of either
+** a selected or an unselected checker. (Translation:
+** if partial checkers appear in the buffer, they will
+** intersect the edges of the n-cube oposite the origin.)
**
****************************************************************/
@@ -1379,7 +1377,7 @@ lower_dim_size_comp_test__select_checker_board(
static hbool_t
lower_dim_size_comp_test__verify_data(uint32_t * buf_ptr,
-#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
const int mpi_rank,
#endif /* LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG */
const int rank,
@@ -1389,8 +1387,8 @@ lower_dim_size_comp_test__verify_data(uint32_t * buf_ptr,
hbool_t buf_starts_in_checker)
{
#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
- const char * fcnName =
- "lower_dim_size_comp_test__verify_data():";
+ const char * fcnName =
+ "lower_dim_size_comp_test__verify_data():";
#endif
hbool_t good_data = TRUE;
hbool_t in_checker;
@@ -1409,16 +1407,16 @@ lower_dim_size_comp_test__verify_data(uint32_t * buf_ptr,
HDassert( checker_edge_size <= edge_size );
HDassert( test_max_rank <= LDSCT_DS_RANK );
-#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s mpi_rank = %d.\n", fcnName, mpi_rank);
HDfprintf(stdout, "%s rank = %d.\n", fcnName, rank);
HDfprintf(stdout, "%s edge_size = %d.\n", fcnName, edge_size);
- HDfprintf(stdout, "%s checker_edge_size = %d.\n",
+ HDfprintf(stdout, "%s checker_edge_size = %d.\n",
fcnName, checker_edge_size);
- HDfprintf(stdout, "%s first_expected_val = %d.\n",
+ HDfprintf(stdout, "%s first_expected_val = %d.\n",
fcnName, (int)first_expected_val);
- HDfprintf(stdout, "%s starts_in_checker = %d.\n",
+ HDfprintf(stdout, "%s starts_in_checker = %d.\n",
fcnName, (int)buf_starts_in_checker);
}
#endif
@@ -1463,7 +1461,7 @@ lower_dim_size_comp_test__verify_data(uint32_t * buf_ptr,
y = 0;
start_in_checker[3] = start_in_checker[2];
do
- {
+ {
if ( y >= checker_edge_size ) {
start_in_checker[3] = ! start_in_checker[3];
@@ -1472,8 +1470,8 @@ lower_dim_size_comp_test__verify_data(uint32_t * buf_ptr,
m = 0;
z = 0;
-#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
- if ( mpi_rank ==
+#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
+ if ( mpi_rank ==
LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%d, %d, %d, %d, %d:", i, j, k, l, m);
}
@@ -1481,8 +1479,8 @@ lower_dim_size_comp_test__verify_data(uint32_t * buf_ptr,
in_checker = start_in_checker[3];
do
{
-#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
- if ( mpi_rank ==
+#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
+ if ( mpi_rank ==
LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, " %d", (int)(*val_ptr));
}
@@ -1492,21 +1490,21 @@ lower_dim_size_comp_test__verify_data(uint32_t * buf_ptr,
in_checker = ! in_checker;
z = 0;
}
-
+
if ( in_checker ) {
-
+
if ( *val_ptr != expected_value ) {
good_data = FALSE;
}
-
+
/* zero out buffer for re-use */
*val_ptr = 0;
} else if ( *val_ptr != 0 ) {
good_data = FALSE;
-
+
/* zero out buffer for re-use */
*val_ptr = 0;
@@ -1516,11 +1514,11 @@ lower_dim_size_comp_test__verify_data(uint32_t * buf_ptr,
expected_value++;
m++;
z++;
-
+
} while ( ( rank >= (test_max_rank - 4) ) &&
( m < edge_size ) );
-#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
- if ( mpi_rank ==
+#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
+ if ( mpi_rank ==
LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "\n");
}
@@ -1548,22 +1546,22 @@ lower_dim_size_comp_test__verify_data(uint32_t * buf_ptr,
/*-------------------------------------------------------------------------
- * Function: lower_dim_size_comp_test__run_test()
+ * Function: lower_dim_size_comp_test__run_test()
*
- * Purpose: Verify that a bug in the computation of the size of the
- * lower dimensions of a data space in H5S_obtain_datatype()
- * has been corrected.
+ * Purpose: Verify that a bug in the computation of the size of the
+ * lower dimensions of a data space in H5S_obtain_datatype()
+ * has been corrected.
*
- * Return: void
+ * Return: void
*
- * Programmer: JRM -- 11/11/09
+ * Programmer: JRM -- 11/11/09
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
-#define LDSCT_DS_RANK 5
+#define LDSCT_DS_RANK 5
#define LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG 0
static void
@@ -1571,21 +1569,21 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
const hbool_t use_collective_io,
const hid_t dset_type)
{
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
const char *fcnName = "lower_dim_size_comp_test__run_test()";
- int rank;
- hsize_t dims[32];
- hsize_t max_dims[32];
+ int rank;
+ hsize_t dims[32];
+ hsize_t max_dims[32];
#endif /* LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG */
const char *filename;
- hbool_t data_ok = FALSE;
- hbool_t mis_match = FALSE;
+ hbool_t data_ok = FALSE;
+ hbool_t mis_match = FALSE;
int i;
int start_index;
int stop_index;
- int mrc;
- int mpi_rank;
- int mpi_size;
+ int mrc;
+ int mpi_rank;
+ int mpi_size;
MPI_Comm mpi_comm = MPI_COMM_NULL;
MPI_Info mpi_info = MPI_INFO_NULL;
hid_t fid; /* HDF5 file ID */
@@ -1635,7 +1633,7 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
mpi_comm = MPI_COMM_WORLD;
mpi_info = MPI_INFO_NULL;
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s:%d: chunk_edge_size = %d.\n",
fcnName, mpi_rank, (int)chunk_edge_size);
@@ -1650,13 +1648,13 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
large_ds_size = (size_t)((mpi_size + 1) * 10 * 10 * 10 * 10);
large_ds_slice_size = (size_t) (10 * 10 * 10 * 10);
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s:%d: small ds size / slice size = %d / %d.\n",
- fcnName, mpi_rank,
+ fcnName, mpi_rank,
(int)small_ds_size, (int)small_ds_slice_size);
HDfprintf(stdout, "%s:%d: large ds size / slice size = %d / %d.\n",
- fcnName, mpi_rank,
+ fcnName, mpi_rank,
(int)large_ds_size, (int)large_ds_slice_size);
}
#endif /* LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG */
@@ -1739,7 +1737,7 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
large_dims[3] = 10;
large_dims[4] = 10;
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s:%d: small_dims[] = %d %d %d %d %d\n",
fcnName, mpi_rank, (int)small_dims[0], (int)small_dims[1],
@@ -1748,41 +1746,41 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
fcnName, mpi_rank, (int)large_dims[0], (int)large_dims[1],
(int)large_dims[2], (int)large_dims[3], (int)large_dims[4]);
}
-#endif
+#endif
/* create data spaces */
full_mem_small_ds_sid = H5Screate_simple(5, small_dims, NULL);
- VRFY((full_mem_small_ds_sid != 0),
+ VRFY((full_mem_small_ds_sid != 0),
"H5Screate_simple() full_mem_small_ds_sid succeeded");
full_file_small_ds_sid = H5Screate_simple(5, small_dims, NULL);
- VRFY((full_file_small_ds_sid != 0),
+ VRFY((full_file_small_ds_sid != 0),
"H5Screate_simple() full_file_small_ds_sid succeeded");
mem_small_ds_sid = H5Screate_simple(5, small_dims, NULL);
- VRFY((mem_small_ds_sid != 0),
+ VRFY((mem_small_ds_sid != 0),
"H5Screate_simple() mem_small_ds_sid succeeded");
file_small_ds_sid = H5Screate_simple(5, small_dims, NULL);
- VRFY((file_small_ds_sid != 0),
+ VRFY((file_small_ds_sid != 0),
"H5Screate_simple() file_small_ds_sid succeeded");
full_mem_large_ds_sid = H5Screate_simple(5, large_dims, NULL);
- VRFY((full_mem_large_ds_sid != 0),
+ VRFY((full_mem_large_ds_sid != 0),
"H5Screate_simple() full_mem_large_ds_sid succeeded");
full_file_large_ds_sid = H5Screate_simple(5, large_dims, NULL);
- VRFY((full_file_large_ds_sid != 0),
+ VRFY((full_file_large_ds_sid != 0),
"H5Screate_simple() full_file_large_ds_sid succeeded");
mem_large_ds_sid = H5Screate_simple(5, large_dims, NULL);
- VRFY((mem_large_ds_sid != 0),
+ VRFY((mem_large_ds_sid != 0),
"H5Screate_simple() mem_large_ds_sid succeeded");
file_large_ds_sid = H5Screate_simple(5, large_dims, NULL);
- VRFY((file_large_ds_sid != 0),
+ VRFY((file_large_ds_sid != 0),
"H5Screate_simple() file_large_ds_sid succeeded");
@@ -1812,14 +1810,14 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
small_chunk_dims[1] = small_chunk_dims[2] = (hsize_t)1;
small_chunk_dims[3] = small_chunk_dims[4] = (hsize_t)chunk_edge_size;
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s:%d: small chunk dims[] = %d %d %d %d %d\n",
- fcnName, mpi_rank, (int)small_chunk_dims[0],
- (int)small_chunk_dims[1], (int)small_chunk_dims[2],
+ fcnName, mpi_rank, (int)small_chunk_dims[0],
+ (int)small_chunk_dims[1], (int)small_chunk_dims[2],
(int)small_chunk_dims[3], (int)small_chunk_dims[4]);
}
-#endif
+#endif
small_ds_dcpl_id = H5Pcreate(H5P_DATASET_CREATE);
VRFY((ret != FAIL), "H5Pcreate() small_ds_dcpl_id succeeded");
@@ -1831,18 +1829,18 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
VRFY((ret != FAIL), "H5Pset_chunk() small_ds_dcpl_id succeeded");
large_chunk_dims[0] = (hsize_t)(1);
- large_chunk_dims[1] = large_chunk_dims[2] =
- large_chunk_dims[3] = large_chunk_dims[4] = (hsize_t)chunk_edge_size;
+ large_chunk_dims[1] = large_chunk_dims[2] =
+ large_chunk_dims[3] = large_chunk_dims[4] = (hsize_t)chunk_edge_size;
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s:%d: large chunk dims[] = %d %d %d %d %d\n",
- fcnName, mpi_rank, (int)large_chunk_dims[0],
- (int)large_chunk_dims[1], (int)large_chunk_dims[2],
+ fcnName, mpi_rank, (int)large_chunk_dims[0],
+ (int)large_chunk_dims[1], (int)large_chunk_dims[2],
(int)large_chunk_dims[3], (int)large_chunk_dims[4]);
}
-#endif
+#endif
large_ds_dcpl_id = H5Pcreate(H5P_DATASET_CREATE);
VRFY((ret != FAIL), "H5Pcreate() large_ds_dcpl_id succeeded");
@@ -1868,11 +1866,11 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
large_ds_dcpl_id, H5P_DEFAULT);
VRFY((ret >= 0), "H5Dcreate2() large_dataset succeeded");
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout,
- "%s:%d: small/large ds id = %d / %d.\n",
- fcnName, mpi_rank, (int)small_dataset,
+ HDfprintf(stdout,
+ "%s:%d: small/large ds id = %d / %d.\n",
+ fcnName, mpi_rank, (int)small_dataset,
(int)large_dataset);
}
#endif /* LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG */
@@ -1906,10 +1904,10 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
block[0] = block[1] = block[2] = 1;
block[3] = block[4] = 10;
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout,
- "%s:%d: settings for small data set initialization.\n",
+ HDfprintf(stdout,
+ "%s:%d: settings for small data set initialization.\n",
fcnName, mpi_rank);
HDfprintf(stdout, "%s:%d: start[] = %d %d %d %d %d\n",
fcnName, mpi_rank, (int)start[0], (int)start[1],
@@ -1947,10 +1945,10 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
start[0] = 0;
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout,
- "%s:%d: added settings for main process.\n",
+ HDfprintf(stdout,
+ "%s:%d: added settings for main process.\n",
fcnName, mpi_rank);
HDfprintf(stdout, "%s:%d: start[] = %d %d %d %d %d\n",
fcnName, mpi_rank, (int)start[0], (int)start[1],
@@ -1992,23 +1990,23 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
/* write the initial value of the small data set to file */
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s:%d: writing init value of small ds to file.\n",
fcnName, mpi_rank);
}
#endif /* LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG */
- ret = H5Dwrite(small_dataset,
- dset_type,
- mem_small_ds_sid,
+ ret = H5Dwrite(small_dataset,
+ dset_type,
+ mem_small_ds_sid,
file_small_ds_sid,
- xfer_plist,
+ xfer_plist,
small_ds_buf_0);
VRFY((ret >= 0), "H5Dwrite() small_dataset initial write succeeded");
- /* read the small data set back to verify that it contains the
- * expected data. Note that each process reads in the entire
+ /* read the small data set back to verify that it contains the
+ * expected data. Note that each process reads in the entire
* data set and verifies it.
*/
ret = H5Dread(small_dataset,
@@ -2061,10 +2059,10 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
block[0] = (hsize_t)1;
block[1] = block[2] = block[3] = block[4] = (hsize_t)10;
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout,
- "%s:%d: settings for large data set initialization.\n",
+ HDfprintf(stdout,
+ "%s:%d: settings for large data set initialization.\n",
fcnName, mpi_rank);
HDfprintf(stdout, "%s:%d: start[] = %d %d %d %d %d\n",
fcnName, mpi_rank, (int)start[0], (int)start[1],
@@ -2097,15 +2095,15 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
block);
VRFY((ret >= 0), "H5Sselect_hyperslab(file_large_ds_sid, set) suceeded");
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s%d: H5Sget_select_npoints(mem_large_ds_sid) = %d.\n",
- fcnName, mpi_rank,
+ fcnName, mpi_rank,
(int)H5Sget_select_npoints(mem_large_ds_sid));
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s%d: H5Sget_select_npoints(file_large_ds_sid) = %d.\n",
- fcnName, mpi_rank,
+ fcnName, mpi_rank,
(int)H5Sget_select_npoints(file_large_ds_sid));
}
#endif /* LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG */
@@ -2114,10 +2112,10 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
start[0] = (hsize_t)0;
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout,
- "%s:%d: added settings for main process.\n",
+ HDfprintf(stdout,
+ "%s:%d: added settings for main process.\n",
fcnName, mpi_rank);
HDfprintf(stdout, "%s:%d: start[] = %d %d %d %d %d\n",
fcnName, mpi_rank, (int)start[0], (int)start[1],
@@ -2150,15 +2148,15 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
block);
VRFY((ret>= 0), "H5Sselect_hyperslab(file_large_ds_sid, or) suceeded");
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s%d: H5Sget_select_npoints(mem_large_ds_sid) = %d.\n",
- fcnName, mpi_rank,
+ fcnName, mpi_rank,
(int)H5Sget_select_npoints(mem_large_ds_sid));
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s%d: H5Sget_select_npoints(file_large_ds_sid) = %d.\n",
- fcnName, mpi_rank,
+ fcnName, mpi_rank,
(int)H5Sget_select_npoints(file_large_ds_sid));
}
#endif /* LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG */
@@ -2183,19 +2181,19 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
start, stride, count, block);
VRFY((ret != FAIL),"H5Sselect_hyperslab(file_large_ds_sid, and) succeeded");
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
- if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+ if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
rank = H5Sget_simple_extent_dims(mem_large_ds_sid, dims, max_dims);
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s:%d: mem_large_ds_sid dims[%d] = %d %d %d %d %d\n",
- fcnName, mpi_rank, rank, (int)dims[0], (int)dims[1],
+ fcnName, mpi_rank, rank, (int)dims[0], (int)dims[1],
(int)dims[2], (int)dims[3], (int)dims[4]);
rank = H5Sget_simple_extent_dims(file_large_ds_sid, dims, max_dims);
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s:%d: file_large_ds_sid dims[%d] = %d %d %d %d %d\n",
- fcnName, mpi_rank, rank, (int)dims[0], (int)dims[1],
+ fcnName, mpi_rank, rank, (int)dims[0], (int)dims[1],
(int)dims[2], (int)dims[3], (int)dims[4]);
}
#endif /* LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG */
@@ -2208,26 +2206,26 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
/* write the initial value of the large data set to file */
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
- if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+ if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s:%d: writing init value of large ds to file.\n",
fcnName, mpi_rank);
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s:%d: large_dataset = %d.\n",
- fcnName, mpi_rank,
+ fcnName, mpi_rank,
(int)large_dataset);
- HDfprintf(stdout,
+ HDfprintf(stdout,
"%s:%d: mem_large_ds_sid = %d, file_large_ds_sid = %d.\n",
- fcnName, mpi_rank,
+ fcnName, mpi_rank,
(int)mem_large_ds_sid, (int)file_large_ds_sid);
}
#endif /* LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG */
- ret = H5Dwrite(large_dataset,
- dset_type,
- mem_large_ds_sid,
+ ret = H5Dwrite(large_dataset,
+ dset_type,
+ mem_large_ds_sid,
file_large_ds_sid,
- xfer_plist,
+ xfer_plist,
large_ds_buf_0);
if ( ret < 0 ) H5Eprint2(H5E_DEFAULT, stderr);
@@ -2238,8 +2236,8 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
mrc = MPI_Barrier(MPI_COMM_WORLD);
VRFY((mrc==MPI_SUCCESS), "Sync after large dataset writes");
- /* read the large data set back to verify that it contains the
- * expected data. Note that each process reads in the entire
+ /* read the large data set back to verify that it contains the
+ * expected data. Note that each process reads in the entire
* data set.
*/
ret = H5Dread(large_dataset,
@@ -2278,13 +2276,13 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
/***********************************/
- /* read a checkerboard selection of the process slice of the
- * small on disk data set into the process slice of the large
+ /* read a checkerboard selection of the process slice of the
+ * small on disk data set into the process slice of the large
* in memory data set, and verify the data read.
*/
small_sel_start[0] = (hsize_t)(mpi_rank + 1);
- small_sel_start[1] = small_sel_start[2] =
+ small_sel_start[1] = small_sel_start[2] =
small_sel_start[3] = small_sel_start[4] = 0;
lower_dim_size_comp_test__select_checker_board(mpi_rank,
@@ -2296,9 +2294,9 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
small_sel_start);
expected_value = (uint32_t)
- ((small_sel_start[0] * small_dims[1] * small_dims[2] *
+ ((small_sel_start[0] * small_dims[1] * small_dims[2] *
small_dims[3] * small_dims[4]) +
- (small_sel_start[1] * small_dims[2] * small_dims[3] *
+ (small_sel_start[1] * small_dims[2] * small_dims[3] *
small_dims[4]) +
(small_sel_start[2] * small_dims[3] * small_dims[4]) +
(small_sel_start[3] * small_dims[4]) +
@@ -2335,7 +2333,7 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
VRFY((ret >= 0), "H5Sread() slice from small ds succeeded.");
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s:%d: H5Dread() returns.\n", fcnName, mpi_rank);
}
@@ -2345,9 +2343,9 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
data_ok = TRUE;
- start_index = (int)((large_sel_start[0] * large_dims[1] * large_dims[2] *
+ start_index = (int)((large_sel_start[0] * large_dims[1] * large_dims[2] *
large_dims[3] * large_dims[4]) +
- (large_sel_start[1] * large_dims[2] * large_dims[3] *
+ (large_sel_start[1] * large_dims[2] * large_dims[3] *
large_dims[4]) +
(large_sel_start[2] * large_dims[3] * large_dims[4]) +
(large_sel_start[3] * large_dims[4]) +
@@ -2409,13 +2407,13 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
- /* read a checkerboard selection of a slice of the process slice of
- * the large on disk data set into the process slice of the small
+ /* read a checkerboard selection of a slice of the process slice of
+ * the large on disk data set into the process slice of the small
* in memory data set, and verify the data read.
*/
small_sel_start[0] = (hsize_t)(mpi_rank + 1);
- small_sel_start[1] = small_sel_start[2] =
+ small_sel_start[1] = small_sel_start[2] =
small_sel_start[3] = small_sel_start[4] = 0;
lower_dim_size_comp_test__select_checker_board(mpi_rank,
@@ -2456,7 +2454,7 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
VRFY((ret >= 0), "H5Sread() slice from large ds succeeded.");
-#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
+#if LOWER_DIM_SIZE_COMP_TEST__RUN_TEST__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
HDfprintf(stdout, "%s:%d: H5Dread() returns.\n", fcnName, mpi_rank);
}
@@ -2467,9 +2465,9 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
data_ok = TRUE;
expected_value = (uint32_t)
- ((large_sel_start[0] * large_dims[1] * large_dims[2] *
+ ((large_sel_start[0] * large_dims[1] * large_dims[2] *
large_dims[3] * large_dims[4]) +
- (large_sel_start[1] * large_dims[2] * large_dims[3] *
+ (large_sel_start[1] * large_dims[2] * large_dims[3] *
large_dims[4]) +
(large_sel_start[2] * large_dims[3] * large_dims[4]) +
(large_sel_start[3] * large_dims[4]) +
@@ -2522,7 +2520,7 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
#if LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG
if ( mpi_rank == LOWER_DIM_SIZE_COMP_TEST_DEBUG_TARGET_RANK ) {
- HDfprintf(stdout, "%s:%d: unexpected value at index %d: %d.\n",
+ HDfprintf(stdout, "%s:%d: unexpected value at index %d: %d.\n",
fcnName, mpi_rank, (int)i, (int)(*ptr_1));
}
#endif /* LOWER_DIM_SIZE_COMP_TEST__VERIFY_DATA__DEBUG */
@@ -2590,15 +2588,15 @@ lower_dim_size_comp_test__run_test(const int chunk_edge_size,
/*-------------------------------------------------------------------------
- * Function: lower_dim_size_comp_test()
+ * Function: lower_dim_size_comp_test()
*
- * Purpose: Test to see if an error in the computation of the size
- * of the lower dimensions in H5S_obtain_datatype() has
- * been corrected.
+ * Purpose: Test to see if an error in the computation of the size
+ * of the lower dimensions in H5S_obtain_datatype() has
+ * been corrected.
*
- * Return: void
+ * Return: void
*
- * Programmer: JRM -- 11/11/09
+ * Programmer: JRM -- 11/11/09
*
* Modifications:
*
@@ -2609,15 +2607,15 @@ void
lower_dim_size_comp_test(void)
{
/* const char *fcnName = "lower_dim_size_comp_test()"; */
- int chunk_edge_size = 0;
- int use_collective_io = 1;
- hid_t dset_type = H5T_NATIVE_UINT;
+ int chunk_edge_size = 0;
+ int use_collective_io = 1;
+ hid_t dset_type = H5T_NATIVE_UINT;
#if 0
HDsleep(60);
#endif
HDcompile_assert(sizeof(uint32_t) == sizeof(unsigned));
- for ( use_collective_io = (hbool_t)0;
- (int)use_collective_io <= 1;
+ for ( use_collective_io = (hbool_t)0;
+ (int)use_collective_io <= 1;
(hbool_t)(use_collective_io++) ) {
chunk_edge_size = 0;
@@ -2638,37 +2636,37 @@ lower_dim_size_comp_test(void)
/*-------------------------------------------------------------------------
- * Function: link_chunk_collective_io_test()
+ * Function: link_chunk_collective_io_test()
*
- * Purpose: Test to verify that an error in MPI type management in
- * H5D_link_chunk_collective_io() has been corrected.
- * In this bug, we used to free MPI types regardless of
- * whether they were basic or derived.
+ * Purpose: Test to verify that an error in MPI type management in
+ * H5D_link_chunk_collective_io() has been corrected.
+ * In this bug, we used to free MPI types regardless of
+ * whether they were basic or derived.
*
- * This test is based on a bug report kindly provided by
- * Rob Latham of the MPICH team and ANL.
+ * This test is based on a bug report kindly provided by
+ * Rob Latham of the MPICH team and ANL.
*
- * The basic thrust of the test is to cause a process
- * to participate in a collective I/O in which it:
+ * The basic thrust of the test is to cause a process
+ * to participate in a collective I/O in which it:
*
- * 1) Reads or writes exactly one chunk,
+ * 1) Reads or writes exactly one chunk,
*
- * 2) Has no in memory buffer for any other chunk.
+ * 2) Has no in memory buffer for any other chunk.
*
- * The test differers from Rob Latham's bug report in
- * that is runs with an arbitrary number of proceeses,
- * and uses a 1 dimensional dataset.
+ * The test differers from Rob Latham's bug report in
+ * that is runs with an arbitrary number of proceeses,
+ * and uses a 1 dimensional dataset.
*
- * Return: void
+ * Return: void
*
- * Programmer: JRM -- 12/16/09
+ * Programmer: JRM -- 12/16/09
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
-#define LINK_CHUNK_COLLECTIVE_IO_TEST_CHUNK_SIZE 16
+#define LINK_CHUNK_COLLECTIVE_IO_TEST_CHUNK_SIZE 16
void
link_chunk_collective_io_test(void)
@@ -2676,8 +2674,8 @@ link_chunk_collective_io_test(void)
/* const char *fcnName = "link_chunk_collective_io_test()"; */
const char *filename;
hbool_t mis_match = FALSE;
- int i;
- int mrc;
+ int i;
+ int mrc;
int mpi_rank;
int mpi_size;
MPI_Comm mpi_comm = MPI_COMM_WORLD;
@@ -2767,8 +2765,8 @@ link_chunk_collective_io_test(void)
for ( i = 0; i < LINK_CHUNK_COLLECTIVE_IO_TEST_CHUNK_SIZE; i++ ) {
local_data_written[i] = expected_value;
- local_data_read[i] = 0.0;
- expected_value += 1.0;
+ local_data_read[i] = 0.0;
+ expected_value += 1.0;
}
/* select the file and mem spaces */
@@ -2794,15 +2792,15 @@ link_chunk_collective_io_test(void)
VRFY((ret >= 0), "H5Pset_dxpl_mpio succeeded");
/* write the data set */
- ret = H5Dwrite(dset_id,
- H5T_NATIVE_DOUBLE,
- write_mem_ds_sid,
+ ret = H5Dwrite(dset_id,
+ H5T_NATIVE_DOUBLE,
+ write_mem_ds_sid,
file_ds_sid,
- xfer_plist,
+ xfer_plist,
local_data_written);
VRFY((ret >= 0), "H5Dwrite() dataset initial write succeeded");
-
+
/* sync with the other processes before checking data */
mrc = MPI_Barrier(MPI_COMM_WORLD);
VRFY((mrc==MPI_SUCCESS), "Sync after dataset write");
@@ -2830,7 +2828,7 @@ link_chunk_collective_io_test(void)
if ( diff >= 0.001 ) {
mis_match = TRUE;
- }
+ }
}
VRFY( (mis_match == FALSE), "dataset data good.");