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|
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the COPYING file, which can be found at the root of the source code *
* distribution tree, or in https://www.hdfgroup.org/licenses. *
* If you do not have access to either file, you may request a copy from *
* help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
* This file is modified based on earray.c.
*/
#include "h5test.h"
/*
* This file needs to access private datatypes from the H5FA package.
* This file also needs to access the fixed array testing code.
*/
#define H5FA_FRIEND /*suppress error about including H5FApkg */
#define H5FA_TESTING
#include "H5FApkg.h" /* Fixed Arrays */
/* Other private headers that this test requires */
#include "H5CXprivate.h" /* API Contexts */
#include "H5Iprivate.h" /* IDs */
#include "H5VMprivate.h" /* Vectors and arrays */
#include "H5VLprivate.h" /* Virtual Object Layer */
/* Local macros */
/* Max. testfile name length */
#define FARRAY_FILENAME_LEN 1024
/* Fixed array creation values */
#define ELMT_SIZE sizeof(uint64_t)
#define MAX_DBLOCK_PAGE_NELMTS_BITS 10 /* 2^10 = 1024 elements per data block page */
/* Testing # of elements in the Fixed Array */
#define TEST_NELMTS 20000
/* Convenience macros for computing earray state */
#define FA_HDR_SIZE 28 /* hard-coded */
#define DBLOCK_PREFIX 18 /* hard-coded */
/* 4 giga-elements: max chunk size */
#define MAX_NELMTS ((unsigned long long)4 * 1024 * 1024 * 1024) /* 4 giga-elements */
/* Iterator parameter values */
#define FA_CYC_COUNT 4
/* Local typedefs */
/* Types of tests to perform */
typedef enum {
FARRAY_TEST_NORMAL, /* "Normal" test, with no testing parameters set */
FARRAY_TEST_REOPEN, /* Set the reopen_array flag */
FARRAY_TEST_NTESTS /* The number of test types, must be last */
} farray_test_type_t;
/* Types of iteration to perform */
typedef enum {
FARRAY_ITER_FW, /* "Forward" iteration */
FARRAY_ITER_RV, /* "Reverse" iteration */
FARRAY_ITER_RND, /* "Random" iteration */
FARRAY_ITER_CYC, /* "Cyclic" iteration */
FARRAY_ITER_NITERS /* The number of iteration types, must be last */
} farray_iter_type_t;
/* Fixed array state information */
typedef struct farray_state_t {
hsize_t hdr_size; /* Size of header */
hsize_t dblk_size; /* Size of data block */
hsize_t nelmts; /* # of elements */
} farray_state_t;
/* Forward decl. */
typedef struct farray_test_param_t farray_test_param_t;
/* Fixed array iterator class */
typedef struct farray_iter_t {
void *(*init)(const H5FA_create_t *cparam, const farray_test_param_t *tparam,
hsize_t cnt); /* Initialize/allocate iterator private info */
hssize_t (*next)(void *info); /* Get the next element to test */
herr_t (*term)(void *info); /* Shutdown/free iterator private info */
} farray_iter_t;
/* Testing parameters */
struct farray_test_param_t {
farray_test_type_t reopen_array; /* Whether to re-open the array during the test */
hsize_t nelmts; /* # of elements to set for the fixed array */
const farray_iter_t *fiter; /* Iterator to use for this test */
};
/* Local variables */
static const char *FILENAME[] = {"farray", "farray_tmp", NULL};
/* Filename to use for all tests */
char filename_g[FARRAY_FILENAME_LEN];
/* Empty file size */
h5_stat_size_t empty_size_g;
/*-------------------------------------------------------------------------
* Function: init_cparam
*
* Purpose: Initialize array creation parameter structure
*
* Return: SUCCEED/FAIL
*
*-------------------------------------------------------------------------
*/
static herr_t
init_cparam(H5FA_create_t *cparam, farray_test_param_t *tparam)
{
/* Wipe out background */
HDmemset(cparam, 0, sizeof(*cparam));
cparam->cls = H5FA_CLS_TEST;
cparam->raw_elmt_size = ELMT_SIZE;
cparam->max_dblk_page_nelmts_bits = MAX_DBLOCK_PAGE_NELMTS_BITS;
cparam->nelmts = tparam->nelmts;
return SUCCEED;
} /* init_cparam() */
/*-------------------------------------------------------------------------
* Function: create_file
*
* Purpose: Create file and retrieve pointer to internal file object
*
* Return: SUCCEED/FAIL
*
*-------------------------------------------------------------------------
*/
static herr_t
create_file(hid_t fapl_id, hid_t *fid, H5F_t **f)
{
/* Create the file to work on */
if ((*fid = H5Fcreate(filename_g, H5F_ACC_TRUNC, H5P_DEFAULT, fapl_id)) < 0)
FAIL_STACK_ERROR;
/* Get a pointer to the internal file object */
if (NULL == (*f = (H5F_t *)H5VL_object(*fid)))
FAIL_STACK_ERROR;
/* Ignore metadata tags in the file's cache */
if (H5AC_ignore_tags(*f) < 0)
FAIL_STACK_ERROR;
/* Success */
return SUCCEED;
error:
return FAIL;
} /* create_file() */
/*-------------------------------------------------------------------------
* Function: check_stats
*
* Purpose: Verify stats for a fixed array
*
* Return: SUCCEED/FAIL
*
*-------------------------------------------------------------------------
*/
static herr_t
check_stats(const H5FA_t *fa, const farray_state_t *state)
{
H5FA_stat_t farray_stats; /* Statistics about the array */
/* Get statistics for fixed array and verify they are correct */
if (H5FA_get_stats(fa, &farray_stats) < 0)
FAIL_STACK_ERROR;
/* Compare information */
if (farray_stats.hdr_size != state->hdr_size) {
HDfprintf(stdout, "farray_stats.hdr_size = %" PRIuHSIZE ", state->hdr_size = %" PRIuHSIZE "\n",
farray_stats.hdr_size, state->hdr_size);
TEST_ERROR;
}
if (farray_stats.dblk_size != state->dblk_size) {
HDfprintf(stdout, "farray_stats.dblk_size = %" PRIuHSIZE ", state->dblk_size = %" PRIuHSIZE "\n",
farray_stats.dblk_size, state->dblk_size);
TEST_ERROR;
}
if (farray_stats.nelmts != state->nelmts) {
HDfprintf(stdout, "farray_stats.nelmts = %" PRIuHSIZE ", state->nelmts = %" PRIuHSIZE "\n",
farray_stats.nelmts, state->nelmts);
TEST_ERROR;
}
/* Success */
return SUCCEED;
error:
return FAIL;
} /* check_stats() */
/*-------------------------------------------------------------------------
* Function: set_fa_state
*
* Purpose: Set the state of the Fixed Array
*
* Return: SUCCEED/FAIL
*
*-------------------------------------------------------------------------
*/
static herr_t
set_fa_state(const H5FA_create_t *cparam, farray_state_t *state)
{
size_t dblk_page_nelmts; /* # of elements per page */
/* Sanity check */
HDassert(cparam);
HDassert(state);
/* Compute the state of the fixed array */
state->hdr_size = FA_HDR_SIZE;
state->nelmts = cparam->nelmts;
dblk_page_nelmts = (size_t)1 << cparam->max_dblk_page_nelmts_bits;
if (state->nelmts > dblk_page_nelmts) {
size_t npages = (size_t)(((state->nelmts + dblk_page_nelmts) - 1) / dblk_page_nelmts);
size_t dblk_page_init_size = (npages + 7) / 8;
hsize_t checksum_size = npages * 4;
state->dblk_size =
DBLOCK_PREFIX + dblk_page_init_size + checksum_size + state->nelmts * cparam->raw_elmt_size;
}
else
state->dblk_size = DBLOCK_PREFIX + state->nelmts * cparam->raw_elmt_size;
return SUCCEED;
} /* end set_fa_state() */
/*-------------------------------------------------------------------------
* Function: reopen_file
*
* Purpose: Perform common "re-open" operations on file & array for testing
*
* Return: SUCCEED/FAIL
*
*-------------------------------------------------------------------------
*/
static int
reopen_file(hid_t *fid, H5F_t **f, hid_t fapl_id, H5FA_t **fa, haddr_t fa_addr,
const farray_test_param_t *tparam)
{
/* Check for closing & re-opening the array */
/* (actually will close & re-open the file as well) */
if (tparam->reopen_array) {
/* Close array, if given */
if (fa && *fa) {
if (H5FA_close(*fa) < 0)
FAIL_STACK_ERROR;
*fa = NULL;
}
/* Close file */
if (*fid) {
if (H5Fclose(*fid) < 0)
FAIL_STACK_ERROR;
*fid = H5I_INVALID_HID;
*f = NULL;
}
/* Re-open the file */
if ((*fid = H5Fopen(filename_g, H5F_ACC_RDWR, fapl_id)) < 0)
FAIL_STACK_ERROR;
/* Get a pointer to the internal file object */
if (NULL == (*f = (H5F_t *)H5VL_object(*fid)))
FAIL_STACK_ERROR;
/* Ignore metadata tags in the file's cache */
if (H5AC_ignore_tags(*f) < 0)
FAIL_STACK_ERROR;
/* Re-open array, if given */
if (fa)
if (NULL == (*fa = H5FA_open(*f, fa_addr, NULL)))
FAIL_STACK_ERROR;
}
/* Success */
return SUCCEED;
error:
return FAIL;
} /* reopen_file() */
/*-------------------------------------------------------------------------
* Function: create_array
*
* Purpose: Create a fixed array and perform initial checks
*
* Return: SUCCEED/FAIL
*
*-------------------------------------------------------------------------
*/
static herr_t
create_array(H5F_t *f, const H5FA_create_t *cparam, H5FA_t **fa, haddr_t *fa_addr)
{
farray_state_t state; /* State of extensible array */
/* Create array */
if (NULL == (*fa = H5FA_create(f, cparam, NULL)))
FAIL_STACK_ERROR;
/* Check status of array */
if (H5FA_get_addr(*fa, fa_addr) < 0)
FAIL_STACK_ERROR;
if (!H5_addr_defined(*fa_addr))
TEST_ERROR;
/* Check array stats */
HDmemset(&state, 0, sizeof(state));
state.hdr_size = FA_HDR_SIZE;
state.nelmts = cparam->nelmts;
if (check_stats(*fa, &state))
TEST_ERROR;
/* Success */
return SUCCEED;
error:
return FAIL;
} /* create_array() */
/*-------------------------------------------------------------------------
* Function: verify_cparam
*
* Purpose: Verify creation parameters are correct
*
* Return: SUCCEED/FAIL
*
*-------------------------------------------------------------------------
*/
static herr_t
verify_cparam(const H5FA_t *fa, const H5FA_create_t *cparam)
{
H5FA_create_t test_cparam; /* Creation parameters for array */
/* Retrieve creation parameters */
HDmemset(&test_cparam, 0, sizeof(H5FA_create_t));
if (H5FA__get_cparam_test(fa, &test_cparam) < 0)
FAIL_STACK_ERROR;
/* Verify creation parameters */
if (H5FA__cmp_cparam_test(cparam, &test_cparam))
TEST_ERROR;
/* Success */
return SUCCEED;
error:
return FAIL;
} /* verify_cparam() */
/*-------------------------------------------------------------------------
* Function: finish
*
* Purpose: Close array, delete array, close file and verify that file
* is empty size
*
* Return: SUCCEED/FAIL
*
*-------------------------------------------------------------------------
*/
static herr_t
finish(hid_t fid, hid_t fapl_id, H5F_t *f, H5FA_t *fa, haddr_t fa_addr)
{
h5_stat_size_t file_size; /* File size, after deleting array */
/* Close the fixed array */
if (H5FA_close(fa) < 0)
FAIL_STACK_ERROR;
/* Delete array */
if (H5FA_delete(f, fa_addr, NULL) < 0)
FAIL_STACK_ERROR;
/* Close the file */
if (H5Fclose(fid) < 0)
FAIL_STACK_ERROR;
/* Get the size of the file */
if ((file_size = h5_get_file_size(filename_g, fapl_id)) < 0)
TEST_ERROR;
/* Verify the file is correct size */
if (file_size != empty_size_g)
TEST_ERROR;
/* Success */
return SUCCEED;
error:
return FAIL;
} /* finish() */
/*-------------------------------------------------------------------------
* Function: test_create
*
* Purpose: Test creating fixed array
*
* Return: Success: 0
* Failure: 1
*
*-------------------------------------------------------------------------
*/
static unsigned
test_create(hid_t fapl, H5FA_create_t *cparam, farray_test_param_t H5_ATTR_UNUSED *tparam)
{
hid_t file = -1; /* File ID */
H5F_t *f = NULL; /* Internal file object pointer */
H5FA_t *fa = NULL; /* Fixed array wrapper */
haddr_t fa_addr = HADDR_UNDEF; /* Array address in file */
/* Create file & retrieve pointer to internal file object */
if (create_file(fapl, &file, &f) < 0)
TEST_ERROR;
/*
* Display testing message
*/
TESTING("invalid fixed array creation parameters");
#ifndef NDEBUG
{
H5FA_create_t test_cparam; /* Creation parameters for array */
/* Set invalid element size */
HDmemcpy(&test_cparam, cparam, sizeof(test_cparam));
test_cparam.raw_elmt_size = 0;
H5E_BEGIN_TRY
{
fa = H5FA_create(f, &test_cparam, NULL);
}
H5E_END_TRY
if (fa) {
/* Close opened fixed array */
H5FA_close(fa);
fa = NULL;
/* Indicate error */
TEST_ERROR;
} /* end if */
/* Set invalid max. # of elements bits */
HDmemcpy(&test_cparam, cparam, sizeof(test_cparam));
test_cparam.max_dblk_page_nelmts_bits = 0;
H5E_BEGIN_TRY
{
fa = H5FA_create(f, &test_cparam, NULL);
}
H5E_END_TRY
if (fa) {
/* Close opened fixed array */
H5FA_close(fa);
fa = NULL;
/* Indicate error */
TEST_ERROR;
} /* end if */
/* Set invalid max. # of elements */
HDmemcpy(&test_cparam, cparam, sizeof(test_cparam));
test_cparam.nelmts = 0;
H5E_BEGIN_TRY
{
fa = H5FA_create(f, &test_cparam, NULL);
}
H5E_END_TRY
if (fa) {
/* Close opened fixed array */
H5FA_close(fa);
fa = NULL;
/* Indicate error */
TEST_ERROR;
} /* end if */
PASSED();
}
#else /* NDEBUG */
SKIPPED();
HDputs(" Not tested when assertions are disabled");
#endif /* NDEBUG */
/*
* Display testing message
*/
TESTING("fixed array creation");
/* Create array */
if (create_array(f, cparam, &fa, &fa_addr) < 0)
TEST_ERROR;
PASSED();
/* Verify the creation parameters */
TESTING("verify array creation parameters");
/* Verify the creation parameters */
if (verify_cparam(fa, cparam) < 0)
TEST_ERROR;
/* Close array, delete array, close file & verify file is empty */
if (finish(file, fapl, f, fa, fa_addr) < 0)
TEST_ERROR;
/* All tests passed */
PASSED();
return 0;
error:
H5E_BEGIN_TRY
{
if (fa)
H5FA_close(fa);
H5Fclose(file);
}
H5E_END_TRY
return 1;
} /* end test_create() */
/*-------------------------------------------------------------------------
* Function: test_reopen
*
* Purpose: Create & reopen a fixed array
*
* Return: Success: 0
* Failure: 1
*
*-------------------------------------------------------------------------
*/
static unsigned
test_reopen(hid_t fapl, H5FA_create_t *cparam, farray_test_param_t *tparam)
{
hid_t file = -1; /* File ID */
H5F_t *f = NULL; /* Internal file object pointer */
H5FA_t *fa = NULL; /* Fixed array wrapper */
haddr_t fa_addr = HADDR_UNDEF; /* Array address in file */
/* Create file & retrieve pointer to internal file object */
if (create_file(fapl, &file, &f) < 0)
TEST_ERROR;
/*
* Display testing message
*/
TESTING("create, close & reopen fixed array");
/* Create array */
if (create_array(f, cparam, &fa, &fa_addr) < 0)
TEST_ERROR;
/* Close the fixed array */
if (H5FA_close(fa) < 0)
FAIL_STACK_ERROR;
/* Check for closing & re-opening the file */
if (reopen_file(&file, &f, fapl, NULL, HADDR_UNDEF, tparam) < 0)
TEST_ERROR;
/* Re-open the array */
if (NULL == (fa = H5FA_open(f, fa_addr, NULL)))
FAIL_STACK_ERROR;
/* Verify the creation parameters */
if (verify_cparam(fa, cparam) < 0)
TEST_ERROR;
/* Close array, delete array, close file & verify file is empty */
if (finish(file, fapl, f, fa, fa_addr) < 0)
TEST_ERROR;
/* All tests passed */
PASSED();
return 0;
error:
H5E_BEGIN_TRY
{
if (fa)
H5FA_close(fa);
H5Fclose(file);
}
H5E_END_TRY
return 1;
} /* test_reopen() */
/*-------------------------------------------------------------------------
* Function: test_open_twice
*
* Purpose: Open an extensible array twice
*
* Return: Success: 0
* Failure: 1
*
*-------------------------------------------------------------------------
*/
static unsigned
test_open_twice(hid_t fapl_id, H5FA_create_t *cparam, farray_test_param_t *tparam)
{
hid_t fid = H5I_INVALID_HID; /* File ID */
hid_t fid2 = H5I_INVALID_HID; /* File ID */
H5F_t *f = NULL; /* Internal file object pointer */
H5F_t *f2 = NULL; /* Internal file object pointer */
H5FA_t *fa = NULL; /* Fixed array wrapper */
H5FA_t *fa2 = NULL; /* Fixed array wrapper */
haddr_t fa_addr = HADDR_UNDEF; /* Array address in file */
/* Create file & retrieve pointer to internal file object */
if (create_file(fapl_id, &fid, &f) < 0)
TEST_ERROR;
/* Display testing message */
TESTING("open fixed array twice");
/* Create array */
if (create_array(f, cparam, &fa, &fa_addr) < 0)
TEST_ERROR;
/* Open the array again, through the first file handle */
if (NULL == (fa2 = H5FA_open(f, fa_addr, NULL)))
FAIL_STACK_ERROR;
/* Verify the creation parameters */
if (verify_cparam(fa, cparam) < 0)
TEST_ERROR;
if (verify_cparam(fa2, cparam) < 0)
TEST_ERROR;
/* Close the second fixed array wrapper */
if (H5FA_close(fa2) < 0)
FAIL_STACK_ERROR;
fa2 = NULL;
/* Check for closing & re-opening the file */
if (reopen_file(&fid, &f, fapl_id, &fa, fa_addr, tparam) < 0)
TEST_ERROR;
/* Re-open the file */
if ((fid2 = H5Freopen(fid)) < 0)
FAIL_STACK_ERROR;
/* Get a pointer to the internal file object */
if (NULL == (f2 = (H5F_t *)H5VL_object(fid2)))
FAIL_STACK_ERROR;
/* Open the fixed array through the second file handle */
if (NULL == (fa2 = H5FA_open(f2, fa_addr, NULL)))
FAIL_STACK_ERROR;
/* Verify the creation parameters */
if (verify_cparam(fa, cparam) < 0)
TEST_ERROR;
/* Close the first extensible array wrapper */
if (H5FA_close(fa) < 0)
FAIL_STACK_ERROR;
fa = NULL;
/* Close the first file */
/* (close before second file, to detect error on internal array header's
* shared file information)
*/
if (H5Fclose(fid) < 0)
FAIL_STACK_ERROR;
/* Close array, delete array, close file & verify file is empty */
if (finish(fid2, fapl_id, f2, fa2, fa_addr) < 0)
TEST_ERROR;
/* All tests passed */
PASSED();
return 0;
error:
H5E_BEGIN_TRY
{
if (fa)
H5FA_close(fa);
if (fa2)
H5FA_close(fa2);
H5Fclose(fid);
H5Fclose(fid2);
}
H5E_END_TRY
return 1;
} /* test_open_twice() */
/*-------------------------------------------------------------------------
* Function: test_open_twice_diff
*
* Purpose: Open a fixed array twice, through different "top" file
* handles, with an intermediate file open that takes the "shared"
* file handle from the first fixed array's file pointer.
*
* Return: Success: 0
* Failure: 1
*
* Programmer: Quincey Koziol
* Friday, December 18, 2015
*
*-------------------------------------------------------------------------
*/
static unsigned
test_open_twice_diff(hid_t fapl_id, H5FA_create_t *cparam, farray_test_param_t *tparam)
{
char filename_tmp[FARRAY_FILENAME_LEN]; /* Temporary file name */
hid_t fid = H5I_INVALID_HID; /* File ID */
hid_t fid2 = H5I_INVALID_HID; /* File ID */
hid_t fid0 = H5I_INVALID_HID; /* File ID */
hid_t fid00 = H5I_INVALID_HID; /* File ID */
H5F_t *f = NULL; /* Internal file object pointer */
H5F_t *f2 = NULL; /* Internal file object pointer */
H5FA_t *fa = NULL; /* Fixed array wrapper */
H5FA_t *fa2 = NULL; /* Fixed array wrapper */
haddr_t fa_addr = HADDR_UNDEF; /* Array address in file */
/* Display testing message */
TESTING("open fixed array twice, through different file handles");
/* Create file & retrieve pointer to internal file object */
if (create_file(fapl_id, &fid, &f) < 0)
TEST_ERROR;
/* Create array */
if (create_array(f, cparam, &fa, &fa_addr) < 0)
TEST_ERROR;
/* Open the array again, through the first file handle */
if (NULL == (fa2 = H5FA_open(f, fa_addr, NULL)))
FAIL_STACK_ERROR;
/* Verify the creation parameters */
if (verify_cparam(fa, cparam) < 0)
TEST_ERROR;
if (verify_cparam(fa2, cparam) < 0)
TEST_ERROR;
/* Close the second fixed array wrapper */
if (H5FA_close(fa2) < 0)
FAIL_STACK_ERROR;
fa2 = NULL;
/* Re-open the file */
/* (So that there is something holding the file open when the extensible
* array is closed)
*/
if ((fid0 = H5Fopen(filename_g, H5F_ACC_RDWR, fapl_id)) < 0)
FAIL_STACK_ERROR;
/* Check for closing & re-opening the file */
if (reopen_file(&fid, &f, fapl_id, &fa, fa_addr, tparam) < 0)
TEST_ERROR;
/* Close the first fixed array wrapper */
if (H5FA_close(fa) < 0)
FAIL_STACK_ERROR;
fa = NULL;
/* Close the first file */
/* (close before second file, to detect error on internal array header's
* shared file information)
*/
if (H5Fclose(fid) < 0)
FAIL_STACK_ERROR;
fid = H5I_INVALID_HID;
/* Open a different file */
/* (This re-allocates the 'top' file pointer and assigns it a different
* 'shared' file pointer, making the file pointer in the fixed array's
* header stale)
*/
h5_fixname(FILENAME[1], fapl_id, filename_tmp, sizeof(filename_tmp));
if ((fid00 = H5Fcreate(filename_tmp, H5F_ACC_TRUNC, H5P_DEFAULT, fapl_id)) < 0)
FAIL_STACK_ERROR;
/* Re-open the file with the fixed array */
if ((fid2 = H5Fopen(filename_g, H5F_ACC_RDWR, fapl_id)) < 0)
FAIL_STACK_ERROR;
/* Get a pointer to the internal file object */
if (NULL == (f2 = (H5F_t *)H5VL_object(fid2)))
FAIL_STACK_ERROR;
/* Open the fixed array through the second file handle */
if (NULL == (fa2 = H5FA_open(f2, fa_addr, NULL)))
FAIL_STACK_ERROR;
/* Verify the creation parameters */
if (verify_cparam(fa2, cparam) < 0)
TEST_ERROR;
/* Close the extra file handles */
if (H5Fclose(fid0) < 0)
FAIL_STACK_ERROR;
if (H5Fclose(fid00) < 0)
FAIL_STACK_ERROR;
/* Close array, delete array, close file & verify file is empty */
if (finish(fid2, fapl_id, f2, fa2, fa_addr) < 0)
TEST_ERROR;
/* All tests passed */
PASSED();
return 0;
error:
H5E_BEGIN_TRY
{
if (fa)
H5FA_close(fa);
if (fa2)
H5FA_close(fa2);
H5Fclose(fid);
H5Fclose(fid2);
H5Fclose(fid0);
H5Fclose(fid00);
}
H5E_END_TRY
return 1;
} /* test_open_twice_diff() */
/*-------------------------------------------------------------------------
* Function: test_delete_open
*
* Purpose: Delete opened fixed array (& open deleted array)
*
* Return: Success: 0
* Failure: 1
*
*-------------------------------------------------------------------------
*/
static unsigned
test_delete_open(hid_t fapl, H5FA_create_t *cparam, farray_test_param_t *tparam)
{
hid_t file = -1; /* File ID */
H5F_t *f = NULL; /* Internal file object pointer */
H5FA_t *fa = NULL; /* Fixed array wrapper */
H5FA_t *fa2 = NULL; /* Fixed array wrapper */
haddr_t fa_addr = HADDR_UNDEF; /* Array address in file */
h5_stat_size_t file_size; /* File size, after deleting array */
/* Create file & retrieve pointer to internal file object */
if (create_file(fapl, &file, &f) < 0)
TEST_ERROR;
/*
* Display testing message
*/
TESTING("deleting open fixed array");
/* Create array */
if (create_array(f, cparam, &fa, &fa_addr) < 0)
TEST_ERROR;
/* Open the array again */
if (NULL == (fa2 = H5FA_open(f, fa_addr, NULL)))
FAIL_STACK_ERROR;
/* Request that the array be deleted */
if (H5FA_delete(f, fa_addr, NULL) < 0)
FAIL_STACK_ERROR;
/* Verify the creation parameters */
if (verify_cparam(fa, cparam) < 0)
TEST_ERROR;
if (verify_cparam(fa2, cparam) < 0)
TEST_ERROR;
/* Close the second fixed array wrapper */
if (H5FA_close(fa2) < 0)
FAIL_STACK_ERROR;
fa2 = NULL;
/* Try re-opening the array again (should fail, as array will be deleted) */
H5E_BEGIN_TRY
{
fa2 = H5FA_open(f, fa_addr, NULL);
}
H5E_END_TRY
if (fa2) {
/* Close opened array */
H5FA_close(fa2);
/* Indicate error */
TEST_ERROR;
} /* end if */
/* Close the first fixed array wrapper */
if (H5FA_close(fa) < 0)
FAIL_STACK_ERROR;
fa = NULL;
/* Check for closing & re-opening the file */
if (reopen_file(&file, &f, fapl, NULL, HADDR_UNDEF, tparam) < 0)
TEST_ERROR;
/* Try re-opening the array again (should fail, as array is now deleted) */
H5E_BEGIN_TRY
{
fa = H5FA_open(f, fa_addr, NULL);
}
H5E_END_TRY
if (fa) {
/* Close opened array */
H5FA_close(fa);
/* Indicate error */
TEST_ERROR;
} /* end if */
/* Close the file */
if (H5Fclose(file) < 0)
FAIL_STACK_ERROR;
/* Get the size of the file */
if ((file_size = h5_get_file_size(filename_g, fapl)) < 0)
TEST_ERROR;
/* Verify the file is correct size */
if (file_size != empty_size_g)
TEST_ERROR;
/* All tests passed */
PASSED();
return 0;
error:
H5E_BEGIN_TRY
{
if (fa)
H5FA_close(fa);
if (fa2)
H5FA_close(fa2);
H5Fclose(file);
}
H5E_END_TRY
return 1;
} /* test_delete_open() */
/* Fixed array iterator info for forward iteration */
typedef struct fiter_fw_t {
hsize_t idx; /* Index of next array location */
} fiter_fw_t;
/*-------------------------------------------------------------------------
* Function: fiter_fw_init
*
* Purpose: Initialize element iterator (forward iteration)
*
* Return: Success: Pointer to iteration status object
* Failure: NULL
*
*-------------------------------------------------------------------------
*/
static void *
fiter_fw_init(const H5FA_create_t H5_ATTR_UNUSED *cparam, const farray_test_param_t H5_ATTR_UNUSED *tparam,
hsize_t H5_ATTR_UNUSED cnt)
{
fiter_fw_t *fiter; /* Forward element iteration object */
/* Allocate space for the element iteration object */
fiter = (fiter_fw_t *)HDmalloc(sizeof(fiter_fw_t));
HDassert(fiter);
/* Initialize the element iteration object */
fiter->idx = 0;
/* Return iteration object */
return (fiter);
} /* end fiter_fw_init() */
/*-------------------------------------------------------------------------
* Function: fiter_fw_next
*
* Purpose: Get next element index (forward iteration)
*
* Return: Success: Non-negative
* Failure: Negative
*
*-------------------------------------------------------------------------
*/
static hssize_t
fiter_fw_next(void *_fiter)
{
fiter_fw_t *fiter = (fiter_fw_t *)_fiter;
hssize_t ret_val;
/* Sanity check */
HDassert(fiter);
/* Get the next array index to test */
ret_val = (hssize_t)fiter->idx++;
return (ret_val);
} /* end fiter_fw_next() */
/*-------------------------------------------------------------------------
* Function: fiter_term
*
* Purpose: Shut down element iterator (simple iterators)
*
* Return: Success: 0
* Failure: -1
*
*-------------------------------------------------------------------------
*/
static int
fiter_term(void *fiter)
{
/* Sanity check */
HDassert(fiter);
/* Free iteration object */
HDfree(fiter);
return (0);
} /* end fiter_term() */
/* Fixed array iterator class for forward iteration */
static const farray_iter_t fa_iter_fw = {
fiter_fw_init, /* Iterator init */
fiter_fw_next, /* Next array index */
fiter_term /* Iterator term */
};
/* Fixed array iterator info for reverse iteration */
typedef struct fiter_rv_t {
hsize_t idx; /* Index of next array location */
} fiter_rv_t;
/*-------------------------------------------------------------------------
* Function: fiter_rv_init
*
* Purpose: Initialize element iterator (reverse iteration)
*
* Return: Success: Pointer to iteration status object
* Failure: NULL
*
*-------------------------------------------------------------------------
*/
static void *
fiter_rv_init(const H5FA_create_t *cparam, const farray_test_param_t H5_ATTR_UNUSED *tparam,
hsize_t H5_ATTR_UNUSED cnt)
{
fiter_rv_t *fiter; /* Reverse element iteration object */
/* Allocate space for the element iteration object */
fiter = (fiter_rv_t *)HDmalloc(sizeof(fiter_rv_t));
HDassert(fiter);
/* Initialize reverse iteration info */
fiter->idx = cparam->nelmts - 1;
/* Return iteration object */
return (fiter);
} /* end fiter_rv_init() */
/*-------------------------------------------------------------------------
* Function: fiter_rv_next
*
* Purpose: Get next element index (reverse iteration)
*
* Return: Success: Non-negative
* Failure: Negative
*
*-------------------------------------------------------------------------
*/
static hssize_t
fiter_rv_next(void *_fiter)
{
fiter_rv_t *fiter = (fiter_rv_t *)_fiter;
hssize_t ret_val;
/* Sanity check */
HDassert(fiter);
/* Get the next array index to test */
ret_val = (hssize_t)fiter->idx--;
return (ret_val);
} /* end fiter_rv_next() */
/* Fixed array iterator class for reverse iteration */
static const farray_iter_t fa_iter_rv = {
fiter_rv_init, /* Iterator init */
fiter_rv_next, /* Next array index */
fiter_term /* Iterator term */
};
/* Fixed array iterator info for random iteration */
typedef struct fiter_rnd_t {
hsize_t pos; /* Position in shuffled array */
hsize_t *idx; /* Array of shuffled indices */
} fiter_rnd_t;
/*-------------------------------------------------------------------------
* Function: fiter_rnd_init
*
* Purpose: Initialize element iterator (random iteration)
*
* Return: Success: Pointer to iteration status object
* Failure: NULL
*
*-------------------------------------------------------------------------
*/
static void *
fiter_rnd_init(const H5FA_create_t H5_ATTR_UNUSED *cparam, const farray_test_param_t H5_ATTR_UNUSED *tparam,
hsize_t cnt)
{
fiter_rnd_t *fiter; /* Random element iteration object */
size_t u; /* Local index variable */
/* Allocate space for the element iteration object */
fiter = (fiter_rnd_t *)HDmalloc(sizeof(fiter_rnd_t));
HDassert(fiter);
/* Allocate space for the array of shuffled indices */
fiter->idx = (hsize_t *)HDmalloc(sizeof(hsize_t) * (size_t)cnt);
HDassert(fiter->idx);
/* Initialize reverse iteration info */
fiter->pos = 0;
for (u = 0; u < (size_t)cnt; u++)
fiter->idx[u] = (hsize_t)u;
/* Randomly shuffle array indices */
if (cnt > 1) {
for (u = 0; u < (size_t)cnt; u++) {
size_t swap_idx; /* Location to swap with when shuffling */
hsize_t temp_idx; /* Temporary index */
swap_idx = ((size_t)HDrandom() % ((size_t)cnt - u)) + u;
temp_idx = fiter->idx[u];
fiter->idx[u] = fiter->idx[swap_idx];
fiter->idx[swap_idx] = temp_idx;
} /* end for */
} /* end if */
/* Return iteration object */
return (fiter);
} /* end fiter_rnd_init() */
/*-------------------------------------------------------------------------
* Function: fiter_rnd_next
*
* Purpose: Get next element index (random iteration)
*
* Return: Success: Non-negative
* Failure: Negative
*
*-------------------------------------------------------------------------
*/
static hssize_t
fiter_rnd_next(void *_fiter)
{
fiter_rnd_t *fiter = (fiter_rnd_t *)_fiter;
hssize_t ret_val;
/* Sanity check */
HDassert(fiter);
/* Get the next array index to test */
ret_val = (hssize_t)fiter->idx[fiter->pos];
fiter->pos++;
return (ret_val);
} /* end fiter_rnd_next() */
/*-------------------------------------------------------------------------
* Function: fiter_rnd_term
*
* Purpose: Shut down element iterator (random iteration)
*
* Return: Success: 0
* Failure: -1
*
*-------------------------------------------------------------------------
*/
static int
fiter_rnd_term(void *_fiter)
{
fiter_rnd_t *fiter = (fiter_rnd_t *)_fiter;
/* Sanity check */
HDassert(fiter);
HDassert(fiter->idx);
/* Free shuffled index array */
HDfree(fiter->idx);
/* Free iteration object */
HDfree(fiter);
return (0);
} /* end fiter_rnd_term() */
/* Fixed array iterator class for random iteration */
static const farray_iter_t fa_iter_rnd = {
fiter_rnd_init, /* Iterator init */
fiter_rnd_next, /* Next array index */
fiter_rnd_term /* Iterator term */
};
/* Fixed array iterator info for cyclic iteration */
typedef struct fiter_cyc_t {
hsize_t pos; /* Position in shuffled array */
hsize_t cnt; /* # of elements to store */
hsize_t cyc; /* Cycle of elements to choose from */
} fiter_cyc_t;
/*-------------------------------------------------------------------------
* Function: fiter_cyc_init
*
* Purpose: Initialize element iterator (cyclic iteration)
*
* Return: Success: Pointer to iteration status object
* Failure: NULL
*
*-------------------------------------------------------------------------
*/
static void *
fiter_cyc_init(const H5FA_create_t H5_ATTR_UNUSED *cparam, const farray_test_param_t H5_ATTR_UNUSED *tparam,
hsize_t cnt)
{
fiter_cyc_t *fiter; /* Cyclic element iteration object */
/* Allocate space for the element iteration object */
fiter = (fiter_cyc_t *)HDmalloc(sizeof(fiter_cyc_t));
HDassert(fiter);
/* Initialize reverse iteration info */
fiter->pos = 0;
fiter->cnt = cnt;
fiter->cyc = 0;
/* Return iteration object */
return (fiter);
} /* end fiter_cyc_init() */
/*-------------------------------------------------------------------------
* Function: fiter_cyc_next
*
* Purpose: Get next element index (cyclic iteration)
*
* Return: Success: Non-negative
* Failure: Negative
*
*-------------------------------------------------------------------------
*/
static hssize_t
fiter_cyc_next(void *_fiter)
{
fiter_cyc_t *fiter = (fiter_cyc_t *)_fiter;
hssize_t ret_val;
/* Sanity check */
HDassert(fiter);
/* Get the next array index to test */
ret_val = (hssize_t)fiter->pos;
fiter->pos += FA_CYC_COUNT;
if (fiter->pos >= fiter->cnt)
fiter->pos = ++fiter->cyc;
return (ret_val);
} /* end fiter_cyc_next() */
/* Fixed array iterator class for cyclic iteration */
static const farray_iter_t fa_iter_cyc = {
fiter_cyc_init, /* Iterator init */
fiter_cyc_next, /* Next array index */
fiter_term /* Iterator term */
};
/*-------------------------------------------------------------------------
* Function: check_elmt
*
* Purpose: Check whether _relmt is the same as in _welmt
*
* Return: Success: 0
* Failure: 1
*
* Programmer: Vailin Choi; 6th August, 2009
*
*-------------------------------------------------------------------------
*/
static int
check_elmt(void *_relmt, void *_welmt)
{
uint64_t *relmt = (uint64_t *)_relmt;
uint64_t *welmt = (uint64_t *)_welmt;
if (welmt == NULL) { /* check for fill value */
if (*relmt != H5FA_TEST_FILL)
TEST_ERROR;
} /* end if */
else {
if (*relmt != *welmt)
TEST_ERROR;
} /* end else */
return (0);
error:
return (-1);
} /* end check_elmt() */
/*-------------------------------------------------------------------------
* Function: test_set_elmts
*
* Purpose: Set all elements from 0 to ('nelmts' - 1) in fixed array
* ("nelmts" is the # of elements to be set in the fixed array)
*
* Return: Success: 0
* Failure: 1
*
*-------------------------------------------------------------------------
*/
static unsigned
test_set_elmts(hid_t fapl, H5FA_create_t *cparam, farray_test_param_t *tparam, hsize_t nelmts,
const char *test_str)
{
hid_t file = -1; /* File ID */
H5F_t *f = NULL; /* Internal file object pointer */
H5FA_t *fa = NULL; /* Fixed array wrapper */
void *fiter_info; /* Fixed array iterator info */
farray_state_t state; /* State of fixed array */
uint64_t welmt; /* Element to write */
uint64_t relmt; /* Element to read */
hsize_t cnt; /* Count of array indices */
hssize_t sidx; /* Index value of next element in the fixed array */
hsize_t idx; /* Index value of next element in the fixed array */
hsize_t fa_nelmts; /* # of elements in fixed array */
haddr_t fa_addr = HADDR_UNDEF; /* Array address in file */
HDassert(nelmts);
/*
* Display testing message
*/
TESTING(test_str);
/* Create file & retrieve pointer to internal file object */
if (create_file(fapl, &file, &f) < 0)
TEST_ERROR;
/* Create array */
if (create_array(f, cparam, &fa, &fa_addr) < 0)
TEST_ERROR;
/* Verify the creation parameters */
if (verify_cparam(fa, cparam) < 0)
TEST_ERROR;
/* Check for closing & re-opening the file */
if (reopen_file(&file, &f, fapl, &fa, fa_addr, tparam) < 0)
TEST_ERROR;
if (H5FA_get_nelmts(fa, &fa_nelmts) < 0)
FAIL_STACK_ERROR;
if (nelmts > fa_nelmts)
TEST_ERROR;
/* Verify array state */
HDmemset(&state, 0, sizeof(state));
state.hdr_size = FA_HDR_SIZE;
state.nelmts = cparam->nelmts;
state.dblk_size = 0;
if (check_stats(fa, &state))
TEST_ERROR;
/* Get all elements from empty array */
/* Initialize iterator */
if (NULL == (fiter_info = tparam->fiter->init(cparam, tparam, nelmts)))
TEST_ERROR;
/* Get elements of array */
for (cnt = 0; cnt < nelmts; cnt++) {
/* Get the array index */
if ((sidx = tparam->fiter->next(fiter_info)) < 0)
TEST_ERROR;
idx = (hsize_t)sidx;
/* Retrieve element of array (not set yet) */
relmt = (uint64_t)0;
if (H5FA_get(fa, idx, &relmt) < 0)
FAIL_STACK_ERROR;
/* Verify that the retrieved is correct */
if (check_elmt(&relmt, NULL))
TEST_ERROR;
} /* end for */
/* Shutdown iterator */
if (tparam->fiter->term(fiter_info) < 0)
TEST_ERROR;
/* Set (& get) all elements from empty array */
/* Initialize iterator */
if (NULL == (fiter_info = tparam->fiter->init(cparam, tparam, nelmts)))
TEST_ERROR;
/* Set elements of array */
for (cnt = 0; cnt < nelmts; cnt++) {
/* Get the array index */
if ((sidx = tparam->fiter->next(fiter_info)) < 0)
TEST_ERROR;
idx = (hsize_t)sidx;
relmt = (uint64_t)0;
if (H5FA_get(fa, idx, &relmt) < 0)
FAIL_STACK_ERROR;
/* Verify that the retrieved element is correct */
if (check_elmt(&relmt, NULL))
TEST_ERROR;
/* Set element of array */
welmt = (uint64_t)7 + idx;
if (H5FA_set(fa, idx, &welmt) < 0)
FAIL_STACK_ERROR;
/* Retrieve element of array (set now) */
relmt = (uint64_t)0;
if (H5FA_get(fa, idx, &relmt) < 0)
FAIL_STACK_ERROR;
/* Verify that the retrieved element is correct */
if (check_elmt(&relmt, &welmt))
TEST_ERROR;
} /* end for */
/* Verify array state */
HDmemset(&state, 0, sizeof(state));
set_fa_state(cparam, &state);
if (check_stats(fa, &state))
TEST_ERROR;
/* Shutdown iterator */
if (tparam->fiter->term(fiter_info) < 0)
TEST_ERROR;
/* Close array, delete array, close file & verify file is empty */
if (finish(file, fapl, f, fa, fa_addr) < 0)
TEST_ERROR;
/* All tests passed */
PASSED();
return 0;
error:
H5E_BEGIN_TRY
{
if (fa)
H5FA_close(fa);
H5Fclose(file);
}
H5E_END_TRY
return 1;
} /* test_set_elmts() */
/*-------------------------------------------------------------------------
* Function: test_skip_elmts
*
* Purpose: Set the element "skip_elmts" in the fixed array
* ("skip_elmts" is the index of the fixed array to be set.)
*
* Return: Success: 0
* Failure: 1
*
*-------------------------------------------------------------------------
*/
static unsigned
test_skip_elmts(hid_t fapl, H5FA_create_t *cparam, farray_test_param_t *tparam, hsize_t skip_elmts,
hbool_t check_rest, const char *test_str)
{
hid_t file = -1; /* File ID */
H5F_t *f = NULL; /* Internal file object pointer */
H5FA_t *fa = NULL; /* Extensible array wrapper */
farray_state_t state; /* State of extensible array */
uint64_t welmt; /* Element to write */
uint64_t relmt; /* Element to read */
hsize_t idx; /* Index value of element to get */
hsize_t cnt; /* Count of array indices */
hsize_t fa_nelmts; /* # of elements in fixed array */
haddr_t fa_addr = HADDR_UNDEF; /* Array address in file */
/*
* Display testing message
*/
TESTING(test_str);
/* Create file & retrieve pointer to internal file object */
if (create_file(fapl, &file, &f) < 0)
TEST_ERROR;
/* Create array */
if (create_array(f, cparam, &fa, &fa_addr) < 0)
TEST_ERROR;
/* Verify the creation parameters */
if (verify_cparam(fa, cparam) < 0)
TEST_ERROR;
/* Check for closing & re-opening the file */
if (reopen_file(&file, &f, fapl, &fa, fa_addr, tparam) < 0)
TEST_ERROR;
if (H5FA_get_nelmts(fa, &fa_nelmts) < 0)
FAIL_STACK_ERROR;
if (skip_elmts >= fa_nelmts)
TEST_ERROR;
/* Verify array state */
HDmemset(&state, 0, sizeof(state));
state.hdr_size = FA_HDR_SIZE;
state.nelmts = cparam->nelmts;
state.dblk_size = 0;
if (check_stats(fa, &state))
TEST_ERROR;
/* Set (& get) element after skipping elements */
idx = skip_elmts;
/* Retrieve element of array (not set yet) */
relmt = (uint64_t)0;
if (H5FA_get(fa, idx, &relmt) < 0)
FAIL_STACK_ERROR;
/* Verify that the retrieved is correct */
if (check_elmt(&relmt, NULL))
TEST_ERROR;
/* Set element of array */
welmt = (uint64_t)7 + idx;
if (H5FA_set(fa, idx, &welmt) < 0)
FAIL_STACK_ERROR;
/* Verify array state */
HDmemset(&state, 0, sizeof(state));
set_fa_state(cparam, &state);
if (check_stats(fa, &state))
TEST_ERROR;
/* Retrieve element of array (set now) */
relmt = (uint64_t)0;
if (H5FA_get(fa, idx, &relmt) < 0)
FAIL_STACK_ERROR;
/* Verify that the retrieved is correct */
if (check_elmt(&relmt, &welmt))
TEST_ERROR;
if (check_rest) {
/* Get unset elements of array */
for (cnt = 0; cnt < skip_elmts; cnt++) {
/* Retrieve element of array (not set yet) */
relmt = (uint64_t)0;
if (H5FA_get(fa, cnt, &relmt) < 0)
FAIL_STACK_ERROR;
/* Verify that the retrieved is correct */
if (check_elmt(&relmt, NULL))
TEST_ERROR;
} /* end for */
} /* end if */
/* Close array, delete array, close file & verify file is empty */
if (finish(file, fapl, f, fa, fa_addr) < 0)
TEST_ERROR;
/* All tests passed */
PASSED();
return 0;
error:
H5E_BEGIN_TRY
{
if (fa)
H5FA_close(fa);
H5Fclose(file);
}
H5E_END_TRY
return 1;
} /* test_skip_elmts() */
/*-------------------------------------------------------------------------
* Function: main
*
* Purpose: Test the fixed array code
*
* Return: Success: 0
* Failure: 1
*
*-------------------------------------------------------------------------
*/
int
main(void)
{
H5FA_create_t cparam; /* Creation parameters for fixed array */
farray_test_param_t tparam; /* Testing parameters */
farray_test_type_t curr_test; /* Current test being worked on */
farray_iter_type_t curr_iter; /* Current iteration type being worked on */
hid_t fapl = -1; /* File access property list for data files */
unsigned nerrors = 0; /* Cumulative error count */
time_t curr_time; /* Current time, for seeding random number generator */
int ExpressMode; /* Test express value */
hbool_t api_ctx_pushed = FALSE; /* Whether API context pushed */
/* Reset library */
h5_reset();
fapl = h5_fileaccess();
ExpressMode = GetTestExpress();
if (ExpressMode > 1)
HDprintf("***Express test mode on. Some tests may be skipped\n");
/* Set the filename to use for this test (dependent on fapl) */
h5_fixname(FILENAME[0], fapl, filename_g, sizeof(filename_g));
/* Push API context */
if (H5CX_push() < 0)
FAIL_STACK_ERROR;
api_ctx_pushed = TRUE;
/* Seed random #'s */
curr_time = HDtime(NULL);
HDsrandom((unsigned)curr_time);
/* Create an empty file to retrieve size */
{
hid_t file; /* File ID */
if ((file = H5Fcreate(filename_g, H5F_ACC_TRUNC, H5P_DEFAULT, fapl)) < 0)
FAIL_STACK_ERROR;
/* Close file */
if (H5Fclose(file) < 0)
FAIL_STACK_ERROR;
/* Get the size of a file w/no array */
if ((empty_size_g = h5_get_file_size(filename_g, fapl)) < 0)
TEST_ERROR;
}
/* Iterate over the testing parameters */
for (curr_test = FARRAY_TEST_NORMAL; curr_test < FARRAY_TEST_NTESTS; curr_test++) {
/* Initialize the testing parameters */
HDmemset(&tparam, 0, sizeof(tparam));
tparam.nelmts = TEST_NELMTS;
/* Set appropriate testing parameters for each test */
switch (curr_test) {
/* "Normal" testing parameters */
case FARRAY_TEST_NORMAL:
HDputs("Testing with NORMAL PARAMETERS");
break;
/* "Re-open array" testing parameters */
case FARRAY_TEST_REOPEN:
HDputs("Testing with reopen array flag set");
tparam.reopen_array = FARRAY_TEST_REOPEN;
break;
/* An unknown test? */
case FARRAY_TEST_NTESTS:
default:
goto error;
} /* end switch */
/* Initialize fixed array creation parameters */
init_cparam(&cparam, &tparam);
/* Basic capability tests */
nerrors += test_create(fapl, &cparam, &tparam);
nerrors += test_reopen(fapl, &cparam, &tparam);
nerrors += test_open_twice(fapl, &cparam, &tparam);
nerrors += test_open_twice_diff(fapl, &cparam, &tparam);
nerrors += test_delete_open(fapl, &cparam, &tparam);
/* Iterate over the type of capacity tests */
for (curr_iter = FARRAY_ITER_FW; curr_iter < FARRAY_ITER_NITERS; curr_iter++) {
/* Set appropriate parameters for each type of iteration */
switch (curr_iter) {
/* "Forward" testing parameters */
case FARRAY_ITER_FW:
HDputs("Testing with forward iteration");
tparam.fiter = &fa_iter_fw;
break;
/* "Reverse" testing parameters */
case FARRAY_ITER_RV:
HDputs("Testing with reverse iteration");
tparam.fiter = &fa_iter_rv;
break;
/* "Random" testing parameters */
case FARRAY_ITER_RND:
HDputs("Testing with random iteration");
tparam.fiter = &fa_iter_rnd;
break;
/* "Cyclic" testing parameters */
case FARRAY_ITER_CYC:
HDputs("Testing with cyclic iteration");
tparam.fiter = &fa_iter_cyc;
break;
/* An unknown iteration? */
case FARRAY_ITER_NITERS:
default:
goto error;
} /* end switch */
/* Basic capacity tests */
nerrors += test_set_elmts(fapl, &cparam, &tparam, (hsize_t)1, "setting 1 element of the array");
nerrors += test_set_elmts(fapl, &cparam, &tparam, (hsize_t)(tparam.nelmts / 2),
"setting half of the array's elements ");
nerrors += test_set_elmts(fapl, &cparam, &tparam, (hsize_t)tparam.nelmts,
"setting all the array elements");
} /* end for */
/* Check skipping elements */
nerrors += test_skip_elmts(fapl, &cparam, &tparam, (hsize_t)1, TRUE, "skipping to first element");
nerrors += test_skip_elmts(fapl, &cparam, &tparam, ((hsize_t)1 << cparam.max_dblk_page_nelmts_bits),
TRUE, "skipping to first element in data block page");
nerrors += test_skip_elmts(fapl, &cparam, &tparam, (hsize_t)(tparam.nelmts - 1), TRUE,
"skipping to last element");
/* Create Fixed Array */
/* MAX_NELMTS succeeds on some platforms buy may fail on others:
*
* "H5FD_sec2_truncate(): unable to extend file properly"
*
* and
*
* "H5FD_sec2_truncate(): File too large"
*
* have both been seen.
*/
tparam.nelmts = MAX_NELMTS / 17;
init_cparam(&cparam, &tparam);
/* Set the last element in the Fixed Array */
nerrors += test_skip_elmts(fapl, &cparam, &tparam, (hsize_t)(tparam.nelmts - 1), FALSE,
"skipping to last element");
} /* end for */
/* Verify symbol table messages are cached */
nerrors += (h5_verify_cached_stabs(FILENAME, fapl) < 0 ? 1 : 0);
/* Pop API context */
if (api_ctx_pushed && H5CX_pop(FALSE) < 0)
FAIL_STACK_ERROR;
api_ctx_pushed = FALSE;
if (nerrors)
goto error;
HDputs("All fixed array tests passed.");
/* Clean up file used */
h5_cleanup(FILENAME, fapl);
HDexit(EXIT_SUCCESS);
error:
HDputs("*** TESTS FAILED ***");
H5E_BEGIN_TRY
{
H5Pclose(fapl);
}
H5E_END_TRY
if (api_ctx_pushed)
H5CX_pop(FALSE);
HDexit(EXIT_FAILURE);
} /* end main() */
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