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-rw-r--r--test/fheap.c1084
1 files changed, 315 insertions, 769 deletions
diff --git a/test/fheap.c b/test/fheap.c
index 24ba033..aff2441 100644
--- a/test/fheap.c
+++ b/test/fheap.c
@@ -50,6 +50,8 @@
/* Heap metadata */
#define DBLOCK_OVERHEAD 32 /* # of bytes in direct block overhead */
+#define OBJ_PREFIX_LEN 1 /* # of bytes in object prefix overhead */
+#define HEAP_ID_LEN 12 /* # of bytes to use for heap ID */
const char *FILENAME[] = {
"fheap",
@@ -206,14 +208,13 @@ fill_heap(H5F_t *f, hid_t dxpl, haddr_t fh_addr, const H5HF_create_t *cparam,
unsigned start_nobjs, unsigned *nobjs_ptr)
{
H5HF_stat_t heap_stats; /* Statistics about the heap */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
unsigned nobjs = 0; /* Number of objects inserted */
- unsigned alloc_ids = 0; /* # of heap IDs allocated in array */
- hsize_t *ids = NULL; /* Array of heap IDs */
+ size_t alloc_ids = 0; /* # of heap IDs allocated in array */
+ unsigned char *ids = NULL; /* Array of heap IDs */
size_t data_size; /* Size of data portion of heap block */
- size_t obj_overhead; /* Size of overhead for each object */
size_t free_overhead; /* Size of free space overhead for each object */
unsigned free_frag_size; /* Size of free space fragment */
size_t last_obj_len; /* Size of last object inserted into heap */
@@ -222,12 +223,10 @@ fill_heap(H5F_t *f, hid_t dxpl, haddr_t fh_addr, const H5HF_create_t *cparam,
/* Initialize variables */
if(block_size <= (64 * 1024)) {
data_size = block_size - (DBLOCK_OVERHEAD + cparam->managed.max_index / 8); /* '28' is the size of the direct block's overhead */
- obj_overhead = 3;
free_overhead = 4;
} /* end if */
else {
data_size = block_size - (DBLOCK_OVERHEAD + 1 + cparam->managed.max_index / 8); /* '29' is the size of the direct block's overhead */
- obj_overhead = 4; /* Will handle blocks up to 2^24 */
free_overhead = 6;
} /* end else */
@@ -236,8 +235,8 @@ fill_heap(H5F_t *f, hid_t dxpl, haddr_t fh_addr, const H5HF_create_t *cparam,
obj[u] = u;
/* Insert first object */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
@@ -246,12 +245,12 @@ fill_heap(H5F_t *f, hid_t dxpl, haddr_t fh_addr, const H5HF_create_t *cparam,
/* Check for needing to increase size of heap ID array */
if(nobjs > alloc_ids) {
alloc_ids = MAX(1024, (alloc_ids * 2));
- if(NULL == (ids = H5MM_realloc(ids, sizeof(hsize_t) * alloc_ids)))
+ if(NULL == (ids = H5MM_realloc(ids, HEAP_ID_LEN * alloc_ids)))
FAIL_STACK_ERROR
} /* end if */
- ids[nobjs - 1] = heap_id;
+ HDmemcpy(&ids[(nobjs - 1) * HEAP_ID_LEN], heap_id, HEAP_ID_LEN);
- if(check_stats(f, dxpl, fh_addr, heap_size, heap_size, (hsize_t)0, (hsize_t)(data_size - (nobjs * (sizeof(obj) + obj_overhead))), (hsize_t)(start_nobjs + nobjs)))
+ if(check_stats(f, dxpl, fh_addr, heap_size, heap_size, (hsize_t)0, (hsize_t)(data_size - (nobjs * (sizeof(obj) + OBJ_PREFIX_LEN))), (hsize_t)(start_nobjs + nobjs)))
FAIL_STACK_ERROR
/* Get statistics for heap */
@@ -260,13 +259,13 @@ fill_heap(H5F_t *f, hid_t dxpl, haddr_t fh_addr, const H5HF_create_t *cparam,
/* Loop over inserting objects into the root direct block, until there's no more space */
free_frag_size = 0;
- while(heap_stats.man_free_space > (sizeof(obj) + obj_overhead)) {
+ while(heap_stats.man_free_space > (sizeof(obj) + OBJ_PREFIX_LEN)) {
/* Initialize object buffer */
for(u = 0; u < sizeof(obj); u++)
obj[u] = u + nobjs;
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
@@ -275,15 +274,15 @@ fill_heap(H5F_t *f, hid_t dxpl, haddr_t fh_addr, const H5HF_create_t *cparam,
/* Check for needing to increase size of heap ID array */
if(nobjs > alloc_ids) {
alloc_ids = MAX(1024, (alloc_ids * 2));
- if(NULL == (ids = H5MM_realloc(ids, sizeof(hsize_t) * alloc_ids)))
+ if(NULL == (ids = H5MM_realloc(ids, HEAP_ID_LEN * alloc_ids)))
FAIL_STACK_ERROR
} /* end if */
- ids[nobjs - 1] = heap_id;
+ HDmemcpy(&ids[(nobjs - 1) * HEAP_ID_LEN], heap_id, HEAP_ID_LEN);
/* Check stats for heap */
- if((heap_stats.man_free_space - (sizeof(obj) + obj_overhead)) <= free_overhead)
- free_frag_size = heap_stats.man_free_space - (sizeof(obj) + obj_overhead);
- if(check_stats(f, dxpl, fh_addr, heap_size, heap_size, (hsize_t)0, (hsize_t)(data_size - ((nobjs * (sizeof(obj) + obj_overhead)) + free_frag_size)), (hsize_t)(start_nobjs + nobjs)))
+ if((heap_stats.man_free_space - (sizeof(obj) + OBJ_PREFIX_LEN)) <= free_overhead)
+ free_frag_size = heap_stats.man_free_space - (sizeof(obj) + OBJ_PREFIX_LEN);
+ if(check_stats(f, dxpl, fh_addr, heap_size, heap_size, (hsize_t)0, (hsize_t)(data_size - ((nobjs * (sizeof(obj) + OBJ_PREFIX_LEN)) + free_frag_size)), (hsize_t)(start_nobjs + nobjs)))
FAIL_STACK_ERROR
/* Get statistics for heap */
@@ -293,15 +292,15 @@ fill_heap(H5F_t *f, hid_t dxpl, haddr_t fh_addr, const H5HF_create_t *cparam,
/* Check for adding smaller last object to heap block */
if(heap_stats.man_free_space > 0) {
- last_obj_len = (size_t)(heap_stats.man_free_space - obj_overhead);
+ last_obj_len = (size_t)(heap_stats.man_free_space - OBJ_PREFIX_LEN);
/* Initialize object buffer */
for(u = 0; u < sizeof(obj); u++)
obj[u] = u + nobjs;
/* Insert last object into the heap, using the remaining free space */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, last_obj_len, obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, last_obj_len, obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
@@ -310,10 +309,10 @@ fill_heap(H5F_t *f, hid_t dxpl, haddr_t fh_addr, const H5HF_create_t *cparam,
/* Check for needing to increase size of heap ID array */
if(nobjs > alloc_ids) {
alloc_ids = MAX(1024, (alloc_ids * 2));
- if(NULL == (ids = H5MM_realloc(ids, sizeof(hsize_t) * alloc_ids)))
+ if(NULL == (ids = H5MM_realloc(ids, HEAP_ID_LEN * alloc_ids)))
FAIL_STACK_ERROR
} /* end if */
- ids[nobjs - 1] = heap_id;
+ HDmemcpy(&ids[(nobjs - 1) * HEAP_ID_LEN], heap_id, HEAP_ID_LEN);
/* Verify that the heap is full */
if(check_stats(f, dxpl, fh_addr, heap_size, heap_size, (hsize_t)0, (hsize_t)0, (hsize_t)(start_nobjs + nobjs)))
@@ -329,7 +328,7 @@ fill_heap(H5F_t *f, hid_t dxpl, haddr_t fh_addr, const H5HF_create_t *cparam,
obj[u] = u + v;
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &ids[v], robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, &ids[v * HEAP_ID_LEN], robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, (v == (nobjs - 1) ? last_obj_len : sizeof(obj))))
FAIL_STACK_ERROR
@@ -371,6 +370,7 @@ test_create(hid_t fapl, H5HF_create_t *cparam)
H5F_t *f = NULL; /* Internal file object pointer */
H5HF_create_t test_cparam; /* Creation parameters for heap */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
/* Set the filename to use for this test (dependent on fapl) */
h5_fixname(FILENAME[0], fapl, filename, sizeof(filename));
@@ -387,10 +387,12 @@ test_create(hid_t fapl, H5HF_create_t *cparam)
* Test fractal heap creation (w/absolute address mapping)
*/
TESTING("fractal heap creation (w/absolute address mapping)");
- if(H5HF_create(f, H5P_DATASET_XFER_DEFAULT, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, H5P_DATASET_XFER_DEFAULT, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)0, (hsize_t)0, (hsize_t)0, (hsize_t)0, (hsize_t)0))
FAIL_STACK_ERROR
PASSED()
@@ -441,9 +443,10 @@ test_abs_insert_first(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for object to read */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned u; /* Local index variable */
@@ -459,10 +462,12 @@ test_abs_insert_first(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)0, (hsize_t)0, (hsize_t)0, (hsize_t)0, (hsize_t)0))
FAIL_STACK_ERROR
@@ -474,15 +479,15 @@ test_abs_insert_first(hid_t fapl, H5HF_create_t *cparam)
* Test inserting first (small) object into absolute heap
*/
TESTING("inserting first (small) object into absolute heap");
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)cparam->managed.start_block_size, (hsize_t)cparam->managed.start_block_size, (hsize_t)0, free_space, (hsize_t)1))
FAIL_STACK_ERROR
/* Check reading back in the object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -526,11 +531,12 @@ test_abs_insert_second(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for first object to insert */
unsigned char robj[10]; /* Buffer for reading first object */
unsigned char obj2[20]; /* Buffer for second object to insert */
unsigned char robj2[20]; /* Buffer for reading second object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned u; /* Local index variable */
@@ -546,10 +552,12 @@ test_abs_insert_second(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/* Initialize object buffers */
for(u = 0; u < sizeof(obj); u++)
@@ -561,28 +569,28 @@ test_abs_insert_second(hid_t fapl, H5HF_create_t *cparam)
* Test inserting first (small) object into absolute heap
*/
TESTING("inserting two (small) objects into absolute heap");
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)cparam->managed.start_block_size, (hsize_t)cparam->managed.start_block_size, (hsize_t)0, free_space, (hsize_t)1))
FAIL_STACK_ERROR
/* Check reading back in the first object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj2), obj2, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj2), obj2, heap_id) < 0)
FAIL_STACK_ERROR
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + (sizeof(obj2) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + (sizeof(obj2) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)cparam->managed.start_block_size, (hsize_t)cparam->managed.start_block_size, (hsize_t)0, free_space, (hsize_t)2))
FAIL_STACK_ERROR
/* Check reading back in the second object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj2) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj2) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj2, robj2, sizeof(obj2)))
FAIL_STACK_ERROR
@@ -627,6 +635,7 @@ test_abs_insert_root_mult(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
/* Set the filename to use for this test (dependent on fapl) */
h5_fixname(FILENAME[0], fapl, filename, sizeof(filename));
@@ -640,10 +649,12 @@ test_abs_insert_root_mult(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) object into absolute heap
@@ -695,8 +706,9 @@ test_abs_insert_force_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for first object to insert */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned u; /* Local index variable */
@@ -713,10 +725,12 @@ test_abs_insert_force_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test forcing creation of indirect root block & second direct block
@@ -734,14 +748,14 @@ test_abs_insert_force_indirect(hid_t fapl, H5HF_create_t *cparam)
obj[u] = u + nobjs;
/* Insert another object, forcing the creation of an indirect block for the root block */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
nobjs++;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)(2 * cparam->managed.start_block_size), (hsize_t)(2 * cparam->managed.start_block_size), (hsize_t)0, free_space, (hsize_t)nobjs))
FAIL_STACK_ERROR
@@ -786,6 +800,7 @@ test_abs_insert_fill_second(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -801,10 +816,12 @@ test_abs_insert_fill_second(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill second direct block
@@ -862,9 +879,10 @@ test_abs_insert_third_direct(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for first object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -882,10 +900,12 @@ test_abs_insert_third_direct(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to create third direct block
@@ -909,19 +929,19 @@ test_abs_insert_third_direct(hid_t fapl, H5HF_create_t *cparam)
obj[u] = u + nobjs;
/* Insert another object, forcing the creation of the third direct block */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
tot_nobjs++;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)(3 * cparam->managed.start_block_size), (hsize_t)(3 * cparam->managed.start_block_size), (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -967,6 +987,7 @@ test_abs_fill_first_row(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
unsigned u; /* Local index variable */
@@ -983,10 +1004,12 @@ test_abs_fill_first_row(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill first row in root indirect block
@@ -1042,9 +1065,10 @@ test_abs_start_second_row(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -1062,10 +1086,12 @@ test_abs_start_second_row(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to start second row in root indirect block
@@ -1087,19 +1113,19 @@ test_abs_start_second_row(hid_t fapl, H5HF_create_t *cparam)
obj[u] = u + tot_nobjs;
/* Insert another object, forcing the creation of an indirect block for the root block */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
tot_nobjs++;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)((cparam->managed.width + 1) * cparam->managed.start_block_size), (hsize_t)((cparam->managed.width + 1) * cparam->managed.start_block_size), (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -1145,6 +1171,7 @@ test_abs_fill_second_row(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
unsigned u; /* Local index variable */
@@ -1161,10 +1188,12 @@ test_abs_fill_second_row(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to start second row in root indirect block
@@ -1229,9 +1258,10 @@ test_abs_start_third_row(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -1250,10 +1280,12 @@ test_abs_start_third_row(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to start third row in root indirect block
@@ -1283,8 +1315,8 @@ test_abs_start_third_row(hid_t fapl, H5HF_create_t *cparam)
obj[u] = u + tot_nobjs;
/* Insert object */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
@@ -1292,12 +1324,12 @@ test_abs_start_third_row(hid_t fapl, H5HF_create_t *cparam)
heap_size = (2 * cparam->managed.width) * cparam->managed.start_block_size +
(2 * cparam->managed.start_block_size);
- free_space = (2 * cparam->managed.start_block_size) - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = (2 * cparam->managed.start_block_size) - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, heap_size, heap_size, (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -1343,6 +1375,7 @@ test_abs_fill_fourth_row(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -1361,10 +1394,12 @@ test_abs_fill_fourth_row(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill four rows in root indirect block
@@ -1430,6 +1465,7 @@ test_abs_fill_all_root_direct(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -1449,10 +1485,12 @@ test_abs_fill_all_root_direct(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct rows in root indirect block
@@ -1522,9 +1560,10 @@ test_abs_first_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -1545,10 +1584,12 @@ test_abs_first_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to force creation of first recursive indirect block
@@ -1584,20 +1625,20 @@ test_abs_first_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
obj[u] = u + tot_nobjs;
/* Insert object */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
tot_nobjs++;
heap_size += cparam->managed.start_block_size;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, heap_size, heap_size, (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -1644,9 +1685,10 @@ test_abs_second_direct_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -1667,10 +1709,12 @@ test_abs_second_direct_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to force creation of second direct
@@ -1715,20 +1759,20 @@ test_abs_second_direct_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
obj[u] = u + tot_nobjs;
/* Insert object */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
tot_nobjs++;
heap_size += cparam->managed.start_block_size;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, heap_size, heap_size, (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -1775,6 +1819,7 @@ test_abs_fill_first_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -1795,10 +1840,12 @@ test_abs_fill_first_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -1895,9 +1942,10 @@ test_abs_second_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -1919,10 +1967,12 @@ test_abs_second_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -1985,20 +2035,20 @@ test_abs_second_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
obj[u] = u + tot_nobjs;
/* Insert object */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
tot_nobjs++;
heap_size += cparam->managed.start_block_size;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, heap_size, heap_size, (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -2047,6 +2097,7 @@ test_abs_fill_second_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -2067,10 +2118,12 @@ test_abs_fill_second_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -2192,6 +2245,7 @@ test_abs_fill_recursive_indirect_row(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -2212,10 +2266,12 @@ test_abs_fill_recursive_indirect_row(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -2314,9 +2370,10 @@ test_abs_start_2nd_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -2338,10 +2395,12 @@ test_abs_start_2nd_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -2407,20 +2466,20 @@ test_abs_start_2nd_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
obj[u] = u + tot_nobjs;
/* Insert object */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
tot_nobjs++;
heap_size += cparam->managed.start_block_size;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, heap_size, heap_size, (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -2467,6 +2526,7 @@ test_abs_recursive_indirect_two_deep(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -2487,13 +2547,12 @@ test_abs_recursive_indirect_two_deep(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
-#ifdef QAK
-HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
-#endif /* QAK */
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -2506,26 +2565,14 @@ HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
heap_size = 0;
nrows = 0;
while(block_size <= cparam->managed.max_direct_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -2537,43 +2584,22 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -2628,9 +2654,10 @@ test_abs_start_3rd_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -2652,13 +2679,12 @@ test_abs_start_3rd_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
-#ifdef QAK
-HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
-#endif /* QAK */
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -2671,26 +2697,14 @@ HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
heap_size = 0;
nrows = 0;
while(block_size <= cparam->managed.max_direct_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -2702,43 +2716,22 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -2759,20 +2752,20 @@ HDfprintf(stderr, "\n");
obj[u] = u + tot_nobjs;
/* Insert object */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
tot_nobjs++;
heap_size += cparam->managed.start_block_size;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, heap_size, heap_size, (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -2820,6 +2813,7 @@ test_abs_fill_first_3rd_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -2840,13 +2834,12 @@ test_abs_fill_first_3rd_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
-#ifdef QAK
-HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
-#endif /* QAK */
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -2859,26 +2852,14 @@ HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
heap_size = 0;
nrows = 0;
while(block_size <= cparam->managed.max_direct_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -2890,43 +2871,22 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -2961,39 +2921,21 @@ HDfprintf(stderr, "\n");
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2((2 * cparam->managed.max_direct_size) / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3047,6 +2989,7 @@ test_abs_fill_3rd_recursive_indirect_row(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -3067,13 +3010,12 @@ test_abs_fill_3rd_recursive_indirect_row(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
-#ifdef QAK
-HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
-#endif /* QAK */
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -3086,26 +3028,14 @@ HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
heap_size = 0;
nrows = 0;
while(block_size <= cparam->managed.max_direct_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3117,43 +3047,22 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3190,39 +3099,21 @@ HDfprintf(stderr, "\n");
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2((2 * cparam->managed.max_direct_size) / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3277,6 +3168,7 @@ test_abs_fill_all_3rd_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -3297,13 +3189,12 @@ test_abs_fill_all_3rd_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
-#ifdef QAK
-HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
-#endif /* QAK */
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -3316,26 +3207,14 @@ HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
heap_size = 0;
nrows = 0;
while(block_size <= cparam->managed.max_direct_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3347,43 +3226,22 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3397,15 +3255,9 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 3rd level deep indirect blocks */
for(y = 0; y < (H5V_log2_of2(cparam->managed.width) + 1); y++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect row # = %u\n", y);
-#endif /* QAK */
/* Loop over row of 3rd level deep indirect blocks */
for(x = 0; x < cparam->managed.width; x++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect block # = %u\n", x);
-#endif /* QAK */
/* Loop over direct block rows in third level indirect block */
block_size = cparam->managed.start_block_size;
@@ -3430,45 +3282,24 @@ HDfprintf(stderr, "3rd indirect block # = %u\n", x);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (y + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3526,9 +3357,10 @@ test_abs_start_4th_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -3550,13 +3382,12 @@ test_abs_start_4th_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
-#ifdef QAK
-HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
-#endif /* QAK */
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -3569,26 +3400,14 @@ HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
heap_size = 0;
nrows = 0;
while(block_size <= cparam->managed.max_direct_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3600,43 +3419,22 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3650,15 +3448,9 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 3rd level deep indirect blocks */
for(y = 0; y < (H5V_log2_of2(cparam->managed.width) + 1); y++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect row # = %u\n", y);
-#endif /* QAK */
/* Loop over row of 3rd level deep indirect blocks */
for(x = 0; x < cparam->managed.width; x++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect block # = %u\n", x);
-#endif /* QAK */
/* Loop over direct block rows in third level indirect block */
block_size = cparam->managed.start_block_size;
@@ -3683,45 +3475,24 @@ HDfprintf(stderr, "3rd indirect block # = %u\n", x);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (y + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3744,20 +3515,20 @@ HDfprintf(stderr, "\n");
obj[u] = u + tot_nobjs;
/* Insert object */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
tot_nobjs++;
heap_size += cparam->managed.start_block_size;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, heap_size, heap_size, (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -3806,6 +3577,7 @@ test_abs_fill_first_4th_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -3826,13 +3598,12 @@ test_abs_fill_first_4th_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
-#ifdef QAK
-HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
-#endif /* QAK */
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -3845,26 +3616,14 @@ HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
heap_size = 0;
nrows = 0;
while(block_size <= cparam->managed.max_direct_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3876,43 +3635,22 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -3926,15 +3664,9 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 3rd level deep indirect blocks */
for(y = 0; y < (H5V_log2_of2(cparam->managed.width) + 1); y++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect row # = %u\n", y);
-#endif /* QAK */
/* Loop over row of 3rd level deep indirect blocks */
for(x = 0; x < cparam->managed.width; x++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect block # = %u\n", x);
-#endif /* QAK */
/* Loop over direct block rows in third level indirect block */
block_size = cparam->managed.start_block_size;
@@ -3959,45 +3691,24 @@ HDfprintf(stderr, "3rd indirect block # = %u\n", x);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (y + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4034,45 +3745,24 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4086,9 +3776,6 @@ HDfprintf(stderr, "\n");
/* Loop over row of 3rd level deep indirect blocks */
for(x = 0; x < cparam->managed.width; x++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect block # = %u\n", x);
-#endif /* QAK */
/* Loop over direct block rows in third level indirect block */
block_size = cparam->managed.start_block_size;
@@ -4113,45 +3800,24 @@ HDfprintf(stderr, "3rd indirect block # = %u\n", x);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < 1; w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4208,6 +3874,7 @@ test_abs_fill_4th_recursive_indirect_row(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -4228,13 +3895,12 @@ test_abs_fill_4th_recursive_indirect_row(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
-#ifdef QAK
-HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
-#endif /* QAK */
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -4247,26 +3913,14 @@ HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
heap_size = 0;
nrows = 0;
while(block_size <= cparam->managed.max_direct_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4278,43 +3932,22 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4328,15 +3961,9 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 3rd level deep indirect blocks */
for(y = 0; y < (H5V_log2_of2(cparam->managed.width) + 1); y++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect row # = %u\n", y);
-#endif /* QAK */
/* Loop over row of 3rd level deep indirect blocks */
for(x = 0; x < cparam->managed.width; x++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect block # = %u\n", x);
-#endif /* QAK */
/* Loop over direct block rows in third level indirect block */
block_size = cparam->managed.start_block_size;
@@ -4361,45 +3988,24 @@ HDfprintf(stderr, "3rd indirect block # = %u\n", x);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (y + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4415,9 +4021,6 @@ HDfprintf(stderr, "\n");
/* Loop over row of 4th level indirect blocks */
for(z = 0; z < cparam->managed.width; z++) {
-#ifdef QAK
-HDfprintf(stderr, "4th indirect block # = %u\n", z);
-#endif /* QAK */
/* Loop over direct block rows in fourth level indirect block */
block_size = cparam->managed.start_block_size;
@@ -4442,45 +4045,24 @@ HDfprintf(stderr, "4th indirect block # = %u\n", z);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4494,15 +4076,9 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 3rd level deep indirect blocks */
for(y = 0; y < 1; y++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect row # = %u\n", y);
-#endif /* QAK */
/* Loop over row of 3rd level deep indirect blocks */
for(x = 0; x < cparam->managed.width; x++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect block # = %u\n", x);
-#endif /* QAK */
/* Loop over direct block rows in third level indirect block */
block_size = cparam->managed.start_block_size;
@@ -4527,45 +4103,24 @@ HDfprintf(stderr, "3rd indirect block # = %u\n", x);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (y + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4624,6 +4179,7 @@ test_abs_fill_all_4th_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
size_t block_size; /* Size of block added */
@@ -4644,13 +4200,12 @@ test_abs_fill_all_4th_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
-#ifdef QAK
-HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
-#endif /* QAK */
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
/*
* Test inserting mult. (small) objects to fill all direct
@@ -4663,26 +4218,14 @@ HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
heap_size = 0;
nrows = 0;
while(block_size <= cparam->managed.max_direct_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4694,43 +4237,22 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4744,15 +4266,9 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 3rd level deep indirect blocks */
for(y = 0; y < (H5V_log2_of2(cparam->managed.width) + 1); y++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect row # = %u\n", y);
-#endif /* QAK */
/* Loop over row of 3rd level deep indirect blocks */
for(x = 0; x < cparam->managed.width; x++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect block # = %u\n", x);
-#endif /* QAK */
/* Loop over direct block rows in third level indirect block */
block_size = cparam->managed.start_block_size;
@@ -4777,45 +4293,24 @@ HDfprintf(stderr, "3rd indirect block # = %u\n", x);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (y + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4831,15 +4326,9 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 2nd level deep indirect blocks */
for(uu = 0; uu < (H5V_log2_of2(cparam->managed.width) + 1); uu++) {
-#ifdef QAK
-HDfprintf(stderr, "4th indirect row # = %u\n", uu);
-#endif /* QAK */
/* Loop over row of 4th level indirect blocks */
for(z = 0; z < cparam->managed.width; z++) {
-#ifdef QAK
-HDfprintf(stderr, "4th indirect block # = %u\n", z);
-#endif /* QAK */
/* Loop over direct block rows in fourth level indirect block */
block_size = cparam->managed.start_block_size;
@@ -4864,45 +4353,24 @@ HDfprintf(stderr, "4th indirect block # = %u\n", z);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (H5V_log2_of2(cparam->managed.width) + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -4916,15 +4384,9 @@ HDfprintf(stderr, "\n");
/* Loop over rows of 3rd level deep indirect blocks */
for(y = 0; y < (uu + 1); y++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect row # = %u\n", y);
-#endif /* QAK */
/* Loop over row of 3rd level deep indirect blocks */
for(x = 0; x < cparam->managed.width; x++) {
-#ifdef QAK
-HDfprintf(stderr, "3rd indirect block # = %u\n", x);
-#endif /* QAK */
/* Loop over direct block rows in third level indirect block */
block_size = cparam->managed.start_block_size;
@@ -4949,45 +4411,24 @@ HDfprintf(stderr, "3rd indirect block # = %u\n", x);
/* Loop over rows of 2nd level deep indirect blocks */
for(w = 0; w < (y + 1); w++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect row # = %u\n", w);
-#endif /* QAK */
/* Loop over row of indirect blocks */
for(v = 0; v < cparam->managed.width; v++) {
-#ifdef QAK
-HDfprintf(stderr, "indirect block # = %u\n", v);
-#endif /* QAK */
/* Loop over direct block rows in first recursive indirect block */
block_size = cparam->managed.start_block_size;
nrows = 0;
max_block_size = block_size * (1 << ((H5V_log2_of2(cparam->managed.max_direct_size / cparam->managed.width) -
(H5V_log2_of2(cparam->managed.start_block_size) +
H5V_log2_of2(cparam->managed.width))) + (w + 1) + 1));
-#ifdef QAK
-HDfprintf(stderr, "max_block_size = %Zu\n", max_block_size);
-#endif /* QAK */
while(block_size <= max_block_size) {
-#ifdef QAK
-HDfprintf(stderr, "block_size = %Zu\n", block_size);
-#endif /* QAK */
/* Loop over filling direct blocks for a row */
-#ifdef QAK
-HDfprintf(stderr, "block number: ");
-#endif /* QAK */
for(u = 0; u < cparam->managed.width; u++) {
-#ifdef QAK
-HDfprintf(stderr, "%u ", u);
-#endif /* QAK */
/* Fill a direct heap block up */
heap_size += block_size;
if(fill_heap(f, dxpl, fh_addr, cparam, heap_size, block_size, tot_nobjs, &nobjs))
FAIL_STACK_ERROR
tot_nobjs += nobjs;
} /* end for */
-#ifdef QAK
-HDfprintf(stderr, "\n");
-#endif /* QAK */
/* Adjust block size for row */
if(nrows > 0)
@@ -5048,9 +4489,10 @@ test_abs_start_5th_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
char filename[1024]; /* Filename to use */
H5F_t *f = NULL; /* Internal file object pointer */
haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
unsigned char obj[10]; /* Buffer for object to insert */
unsigned char robj[10]; /* Buffer for reading object */
- hsize_t heap_id; /* Heap ID for object inserted */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
hsize_t free_space; /* Size of free space in heap */
unsigned nobjs = 0; /* Number of objects inserted */
unsigned tot_nobjs = 0; /* Total number of objects inserted */
@@ -5072,10 +4514,12 @@ test_abs_start_5th_recursive_indirect(hid_t fapl, H5HF_create_t *cparam)
STACK_ERROR
/* Create absolute heap */
- if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/) < 0)
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
FAIL_STACK_ERROR
if(!H5F_addr_defined(fh_addr))
FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
#ifdef QAK
HDfprintf(stderr, "Fractal heap header address = %a\n", fh_addr);
#endif /* QAK */
@@ -5440,20 +4884,20 @@ HDfprintf(stderr, "\n");
obj[u] = u + tot_nobjs;
/* Insert object */
- heap_id = 0;
- if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, &heap_id) < 0)
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, sizeof(obj), obj, heap_id) < 0)
FAIL_STACK_ERROR
/* Increment object count */
tot_nobjs++;
heap_size += cparam->managed.start_block_size;
- free_space = cparam->managed.start_block_size - ((sizeof(obj) + 3) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ free_space = cparam->managed.start_block_size - ((sizeof(obj) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, heap_size, heap_size, (hsize_t)0, free_space, (hsize_t)tot_nobjs))
FAIL_STACK_ERROR
/* Read in object */
- if(H5HF_read(f, dxpl, fh_addr, &heap_id, robj) < 0)
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
FAIL_STACK_ERROR
if(HDmemcmp(obj, robj, sizeof(obj)))
FAIL_STACK_ERROR
@@ -5476,6 +4920,102 @@ error:
/*-------------------------------------------------------------------------
+ * Function: test_abs_skip_start_block
+ *
+ * Purpose: Test inserting object into absolute heap which is too large
+ * for starting block size
+ *
+ * Return: Success: 0
+ *
+ * Failure: 1
+ *
+ * Programmer: Quincey Koziol
+ * Monday, March 27, 2006
+ *
+ *-------------------------------------------------------------------------
+ */
+static int
+test_abs_skip_start_block(hid_t fapl, H5HF_create_t *cparam)
+{
+ hid_t file = -1; /* File ID */
+ hid_t dxpl = H5P_DATASET_XFER_DEFAULT; /* DXPL to use */
+ char filename[1024]; /* Filename to use */
+ H5F_t *f = NULL; /* Internal file object pointer */
+ haddr_t fh_addr; /* Address of fractal heap created */
+ size_t id_len; /* Size of fractal heap IDs */
+ unsigned char *obj = NULL; /* Buffer for object to insert */
+ unsigned char *robj = NULL; /* Buffer for object to read */
+ unsigned char heap_id[HEAP_ID_LEN]; /* Heap ID for object inserted */
+ hsize_t free_space; /* Size of free space in heap */
+ unsigned u; /* Local index variable */
+
+ /* Set the filename to use for this test (dependent on fapl) */
+ h5_fixname(FILENAME[0], fapl, filename, sizeof(filename));
+
+ /* Create the file to work on */
+ if((file = H5Fcreate(filename, H5F_ACC_TRUNC, H5P_DEFAULT, fapl)) < 0)
+ TEST_ERROR
+
+ /* Get a pointer to the internal file object */
+ if(NULL == (f = H5I_object(file)))
+ STACK_ERROR
+
+ /* Create absolute heap */
+ if(H5HF_create(f, dxpl, cparam, &fh_addr/*out*/, &id_len/*out*/) < 0)
+ FAIL_STACK_ERROR
+ if(!H5F_addr_defined(fh_addr))
+ FAIL_STACK_ERROR
+ if(id_len > HEAP_ID_LEN)
+ FAIL_STACK_ERROR
+ if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)0, (hsize_t)0, (hsize_t)0, (hsize_t)0, (hsize_t)0))
+ FAIL_STACK_ERROR
+
+ /* Initialize object buffer */
+ obj = H5MM_malloc(cparam->managed.start_block_size + 1);
+ for(u = 0; u < (cparam->managed.start_block_size + 1); u++)
+ obj[u] = u;
+
+ /*
+ * Test inserting object into absolute heap which doesn't fit into starting
+ * block size
+ */
+ TESTING("inserting object that is too large for starting block");
+ HDmemset(heap_id, 0, sizeof(heap_id));
+ if(H5HF_insert(f, dxpl, fh_addr, (cparam->managed.start_block_size + 1), obj, heap_id) < 0)
+ FAIL_STACK_ERROR
+ free_space = (2 * cparam->managed.width * (cparam->managed.start_block_size - (OBJ_PREFIX_LEN + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8)))) + (2 * cparam->managed.start_block_size) - (((cparam->managed.start_block_size + 1) + OBJ_PREFIX_LEN) + DBLOCK_OVERHEAD + (cparam->managed.max_index / 8));
+ if(check_stats(f, H5P_DATASET_XFER_DEFAULT, fh_addr, (hsize_t)(2 * cparam->managed.start_block_size), (hsize_t)(2 * cparam->managed.start_block_size), (hsize_t)0, free_space, (hsize_t)1))
+ FAIL_STACK_ERROR
+
+ /* Check reading back in the object */
+ robj = H5MM_malloc(cparam->managed.start_block_size + 1);
+ if(H5HF_read(f, dxpl, fh_addr, heap_id, robj) < 0)
+ FAIL_STACK_ERROR
+ if(HDmemcmp(obj, robj, sizeof(obj)))
+ FAIL_STACK_ERROR
+
+ PASSED()
+
+ /* Close the file */
+ if(H5Fclose(file) < 0)
+ TEST_ERROR
+
+ /* All tests passed */
+ H5MM_xfree(obj);
+ H5MM_xfree(robj);
+ return(0);
+
+error:
+ H5E_BEGIN_TRY {
+ H5Fclose(file);
+ H5MM_xfree(obj);
+ H5MM_xfree(robj);
+ } H5E_END_TRY;
+ return(1);
+} /* test_abs_skip_start_block() */
+
+
+/*-------------------------------------------------------------------------
* Function: run_tests
*
* Purpose: Test the fractal heap code, with different file access property
@@ -5532,7 +5072,13 @@ run_tests(hid_t fapl, H5HF_create_t *cparam)
/* If this test fails, uncomment the tests above, which build up to this
* level of complexity gradually. -QAK
*/
+#ifndef QAK
nerrors += test_abs_start_5th_recursive_indirect(fapl, cparam);
+#else /* QAK */
+HDfprintf(stderr, "Uncomment tests!\n");
+#endif /* QAK */
+
+ nerrors += test_abs_skip_start_block(fapl, cparam);
#ifndef QAK
#else /* QAK */
HDfprintf(stderr, "Uncomment tests!\n");
@@ -5588,7 +5134,7 @@ HDfprintf(stderr, "Uncomment tests!\n");
if(nerrors)
goto error;
puts("All fractal heap tests passed.");
-#ifndef QAK
+#ifdef QAK
h5_cleanup(FILENAME, fapl);
#else /* QAK */
HDfprintf(stderr, "Uncomment cleanup!\n");