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authorRobb Matzke <matzke@llnl.gov>1998-09-30 18:50:49 (GMT)
committerRobb Matzke <matzke@llnl.gov>1998-09-30 18:50:49 (GMT)
commitbeab7f66e5dd260732fad34b9c26ccb0d8d580a5 (patch)
treed4513e30c4d6b722d466b295e6d009272e937d54 /src/H5B.c
parent8460a082a4e1fc9ea9be15cfb6bbdd866ebf9f4b (diff)
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[svn-r730] Changes since 19980928
---------------------- ./MANIFEST Changed freebsd2.2.1 to freebsd2.2.7 to match change in file name. Added a few missing files. Are all of these supposed to be distributed? ./tools/testfiles/h5dumptst.c + ./tools/testfiles/tall-1.ddl + ./tools/testfiles/tall-2.ddl + ./tools/testfiles/tall-3.ddl ./tools/testfiles/tall.ddl ./tools/testfiles/tall.h5 + ./tools/testfiles/tattr-1.ddl + ./tools/testfiles/tattr-2.ddl + ./tools/testfiles/tattr-3.ddl + ./tools/testfiles/tattr-4.ddl ./tools/testfiles/tattr.ddl ./tools/testfiles/tattr.h5 + ./tools/testfiles/tdset-1.ddl + ./tools/testfiles/tdset-2.ddl + ./tools/testfiles/tdset-3.ddl + ./tools/testfiles/tdset-4.ddl ./tools/testfiles/tdset.ddl ./tools/testfiles/tdset.h5 + ./tools/testfiles/tgroup-1.ddl + ./tools/testfiles/tgroup-2.ddl + ./tools/testfiles/tgroup-3.ddl ./tools/testfiles/tgroup.ddl ./tools/testfiles/tgroup.h5 + ./tools/testfiles/tslink-1.ddl + ./tools/testfiles/tslink-2.ddl ./tools/testfiles/tslink.ddl ./tools/testfiles/tslink.h5 ./src/H5B.c ./src/H5Bprivate.h ./src/H5D.c ./src/H5Dprivate.h ./src/H5Farray.c ./src/H5Fistore.c ./src/H5Fprivate.h ./src/H5Gstab.c ./src/H5P.c ./src/H5Ppublic.h ./src/H5Sall.c ./src/H5Shyper.c ./src/H5Spoint.c ./src/H5Sprivate.h ./test/istore.c Implemented split ratios as documented in previous e-mails. Frank, the new API functions are H5Pget_btree_ratios() and H5Pset_btree_ratios(). ./src/H5Sall.c ./src/H5Shyper.c ./src/H5Spoint.c ./src/H5Sprivate.h Added more type checking for the data transfer property list passed to these functions. ./src/H5D.c Added a dataset transfer property list as an argument to H5D_allocate() for the parallel version in order to pass split ratios down to H5F_istore_lock(). Eventually we won't need the split ratios for H5D_allocate() because we'll build a completely full B-tree from the leaves up, but it might be useful to have other transfer properties at that level anyway. I always caled H5D_allocate() with &H5D_dflt_xfer. ./MANIFEST ./test/Makefile.in ./test/overhead.c [NEW] Added an `overhead' test run by `make timings'.
Diffstat (limited to 'src/H5B.c')
-rw-r--r--src/H5B.c207
1 files changed, 140 insertions, 67 deletions
diff --git a/src/H5B.c b/src/H5B.c
index 5546140..0bab777 100644
--- a/src/H5B.c
+++ b/src/H5B.c
@@ -102,6 +102,7 @@
/* PRIVATE PROTOTYPES */
static H5B_ins_t H5B_insert_helper(H5F_t *f, const haddr_t *addr,
const H5B_class_t *type,
+ const double split_ratios[],
uint8 *lt_key,
hbool_t *lt_key_changed,
uint8 *md_key, void *udata,
@@ -121,8 +122,9 @@ static herr_t H5B_decode_keys(H5F_t *f, H5B_t *bt, intn idx);
static size_t H5B_nodesize(H5F_t *f, const H5B_class_t *type,
size_t *total_nkey_size, size_t sizeof_rkey);
static herr_t H5B_split(H5F_t *f, const H5B_class_t *type,
- H5B_t *old_bt, const haddr_t *old_addr,
- void *udata, haddr_t *new_addr /*out*/ );
+ H5B_t *old_bt, const haddr_t *old_addr, intn idx,
+ const double split_ratios[], void *udata,
+ haddr_t *new_addr/*out*/);
#ifdef H5B_DEBUG
static herr_t H5B_assert(H5F_t *f, const haddr_t *addr,
const H5B_class_t *type, void *udata);
@@ -259,6 +261,7 @@ H5B_create(H5F_t *f, const H5B_class_t *type, void *udata,
FUNC_LEAVE(ret_value);
}
+
/*-------------------------------------------------------------------------
* Function: H5B_load
@@ -280,12 +283,12 @@ H5B_create(H5F_t *f, const H5B_class_t *type, void *udata,
static H5B_t *
H5B_load(H5F_t *f, const haddr_t *addr, const void *_type, void *udata)
{
- const H5B_class_t *type = (const H5B_class_t *) _type;
- size_t size, total_nkey_size;
- H5B_t *bt = NULL;
- intn i;
- uint8 *p;
- H5B_t *ret_value = NULL;
+ const H5B_class_t *type = (const H5B_class_t *) _type;
+ size_t size, total_nkey_size;
+ H5B_t *bt = NULL;
+ intn i;
+ uint8 *p;
+ H5B_t *ret_value = NULL;
FUNC_ENTER(H5B_load, NULL);
@@ -391,9 +394,9 @@ H5B_load(H5F_t *f, const haddr_t *addr, const void *_type, void *udata)
static herr_t
H5B_flush(H5F_t *f, hbool_t destroy, const haddr_t *addr, H5B_t *bt)
{
- intn i;
- size_t size = 0;
- uint8 *p = bt->page;
+ intn i;
+ size_t size = 0;
+ uint8 *p = bt->page;
FUNC_ENTER(H5B_flush, FAIL);
@@ -506,9 +509,9 @@ H5B_flush(H5F_t *f, hbool_t destroy, const haddr_t *addr, H5B_t *bt)
herr_t
H5B_find(H5F_t *f, const H5B_class_t *type, const haddr_t *addr, void *udata)
{
- H5B_t *bt = NULL;
- intn idx = -1, lt = 0, rt, cmp = 1;
- int ret_value = FAIL;
+ H5B_t *bt = NULL;
+ intn idx = -1, lt = 0, rt, cmp = 1;
+ int ret_value = FAIL;
FUNC_ENTER(H5B_find, FAIL);
@@ -605,12 +608,13 @@ H5B_find(H5F_t *f, const H5B_class_t *type, const haddr_t *addr, void *udata)
*/
static herr_t
H5B_split(H5F_t *f, const H5B_class_t *type, H5B_t *old_bt,
- const haddr_t *old_addr, void *udata, haddr_t *new_addr /*out */ )
+ const haddr_t *old_addr, intn idx, const double split_ratios[],
+ void *udata, haddr_t *new_addr/*out*/)
{
- H5B_t *new_bt = NULL, *tmp_bt = NULL;
- herr_t ret_value = FAIL;
- intn i, k;
- size_t recsize = 0;
+ H5B_t *new_bt = NULL, *tmp_bt = NULL;
+ herr_t ret_value = FAIL;
+ intn i, k, nleft, nright;
+ size_t recsize = 0;
FUNC_ENTER(H5B_split, FAIL);
@@ -628,6 +632,53 @@ H5B_split(H5F_t *f, const H5B_class_t *type, H5B_t *old_bt,
recsize = old_bt->sizeof_rkey + H5F_SIZEOF_ADDR(f);
k = H5B_K(f, type);
+#ifdef H5B_DEBUG
+ if (H5DEBUG(B)) {
+ const char *side;
+ if (!H5F_addr_defined(&(old_bt->left)) &&
+ !H5F_addr_defined(&(old_bt->right))) {
+ side = "ONLY";
+ } else if (!H5F_addr_defined(&(old_bt->right))) {
+ side = "RIGHT";
+ } else if (!H5F_addr_defined(&(old_bt->left))) {
+ side = "LEFT";
+ } else {
+ side = "MIDDLE";
+ }
+ fprintf(H5DEBUG(B), "H5B_split: %3d {%5.3f,%5.3f,%5.3f} %6s",
+ 2*k, split_ratios[0], split_ratios[1], split_ratios[2], side);
+ }
+#endif
+
+ /*
+ * Decide how to split the children of the old node among the old node
+ * and the new node.
+ */
+ if (!H5F_addr_defined(&(old_bt->right))) {
+ nleft = 2 * k * split_ratios[2]; /*right*/
+ } else if (!H5F_addr_defined(&(old_bt->left))) {
+ nleft = 2 * k * split_ratios[0]; /*left*/
+ } else {
+ nleft = 2 * k * split_ratios[1]; /*middle*/
+ }
+
+ /*
+ * Keep the new child in the same node as the child that split. This can
+ * result in nodes that have an unused child when data is written
+ * sequentially, but it simplifies stuff below.
+ */
+ if (idx<nleft && nleft==2*k) {
+ --nleft;
+ } else if (idx>=nleft && 0==nleft) {
+ nleft++;
+ }
+ nright = 2*k - nleft;
+#ifdef H5B_DEBUG
+ if (H5DEBUG(B)) {
+ fprintf(H5DEBUG(B), " split %3d/%-3d\n", nleft, nright);
+ }
+#endif
+
/*
* Create the new B-tree node.
*/
@@ -645,31 +696,32 @@ H5B_split(H5F_t *f, const H5B_class_t *type, H5B_t *old_bt,
* Copy data from the old node to the new node.
*/
HDmemcpy(new_bt->page + H5B_SIZEOF_HDR(f),
- old_bt->page + H5B_SIZEOF_HDR(f) + k * recsize,
- k * recsize + new_bt->sizeof_rkey);
+ old_bt->page + H5B_SIZEOF_HDR(f) + nleft * recsize,
+ nright * recsize + new_bt->sizeof_rkey);
HDmemcpy(new_bt->native,
- old_bt->native + k * type->sizeof_nkey,
- (k+1) * type->sizeof_nkey);
+ old_bt->native + nleft * type->sizeof_nkey,
+ (nright+1) * type->sizeof_nkey);
- for (i = 0; i <= k; i++) {
+ for (i=0; i<=nright; i++) {
/* key */
- new_bt->key[i].dirty = old_bt->key[k+i].dirty;
- if (old_bt->key[k+i].nkey) {
+ new_bt->key[i].dirty = old_bt->key[nleft+i].dirty;
+ if (old_bt->key[nleft+i].nkey) {
new_bt->key[i].nkey = new_bt->native + i * type->sizeof_nkey;
}
/* child */
- if (i < k) {
- new_bt->child[i] = old_bt->child[k+i];
+ if (i < nright) {
+ new_bt->child[i] = old_bt->child[nleft+i];
}
}
- new_bt->ndirty = new_bt->nchildren = k;
+ new_bt->ndirty = new_bt->nchildren = nright;
/*
* Truncate the old node.
*/
old_bt->dirty = TRUE;
- old_bt->ndirty = old_bt->nchildren = k;
-
+ old_bt->nchildren = nleft;
+ old_bt->ndirty = MIN(old_bt->ndirty, old_bt->nchildren);
+
/*
* Update sibling pointers.
*/
@@ -782,11 +834,21 @@ H5B_decode_keys(H5F_t *f, H5B_t *bt, intn idx)
*
* Modifications:
*
+ * Robb Matzke, 28 Sep 1998
+ * The optional SPLIT_RATIOS[] indicates what percent of the child
+ * pointers should go in the left node when a node splits. There are
+ * three possibilities and a separate split ratio can be specified for
+ * each: [0] The node that split is the left-most node at its level of
+ * the tree, [1] the node that split has left and right siblings, [2]
+ * the node that split is the right-most node at its level of the tree.
+ * When a node is an only node at its level then we use the right-most
+ * rule. If SPLIT_RATIOS is null then default values are used.
+ *
*-------------------------------------------------------------------------
*/
herr_t
H5B_insert(H5F_t *f, const H5B_class_t *type, const haddr_t *addr,
- void *udata)
+ const double split_ratios[], void *udata)
{
/*
* These are defined this way to satisfy alignment constraints.
@@ -815,9 +877,10 @@ H5B_insert(H5F_t *f, const H5B_class_t *type, const haddr_t *addr,
assert(type->sizeof_nkey <= sizeof _lt_key);
assert(addr && H5F_addr_defined(addr));
- if ((my_ins = H5B_insert_helper(f, addr, type, lt_key, &lt_key_changed,
- md_key, udata, rt_key, &rt_key_changed,
- &child/*out*/ )) < 0 || my_ins < 0) {
+ if ((my_ins = H5B_insert_helper(f, addr, type, split_ratios, lt_key,
+ &lt_key_changed, md_key, udata, rt_key,
+ &rt_key_changed, &child/*out*/))<0 ||
+ my_ins<0) {
HGOTO_ERROR(H5E_BTREE, H5E_CANTINIT, FAIL,
"unable to insert key");
}
@@ -934,14 +997,14 @@ H5B_insert(H5F_t *f, const H5B_class_t *type, const haddr_t *addr,
buf = H5MM_xfree(buf);
FUNC_LEAVE(ret_value);
}
-
+
/*-------------------------------------------------------------------------
* Function: H5B_insert_child
*
- * Purpose: Insert a child at the specified address with the
- * specified left or right key. The BT argument is a pointer
- * to a protected B-tree node.
+ * Purpose: Insert a child to the left or right of child[IDX] depending
+ * on whether ANCHOR is H5B_INS_LEFT or H5B_INS_RIGHT. The BT
+ * argument is a pointer to a protected B-tree node.
*
* Return: Success: SUCCEED
*
@@ -960,12 +1023,13 @@ H5B_insert_child(H5F_t *f, const H5B_class_t *type, H5B_t *bt,
intn idx, const haddr_t *child, H5B_ins_t anchor,
void *md_key)
{
- size_t recsize;
- intn i;
+ size_t recsize;
+ intn i;
FUNC_ENTER(H5B_insert_child, FAIL);
assert(bt);
assert(child);
+ assert(bt->nchildren<2*H5B_K(f, type));
bt->dirty = TRUE;
recsize = bt->sizeof_rkey + H5F_SIZEOF_ADDR(f);
@@ -974,6 +1038,8 @@ H5B_insert_child(H5F_t *f, const H5B_class_t *type, H5B_t *bt,
/*
* The MD_KEY is the left key of the new node.
*/
+ idx++;
+
HDmemmove(bt->page + H5B_SIZEOF_HDR(f) + (idx+1) * recsize,
bt->page + H5B_SIZEOF_HDR(f) + idx * recsize,
(bt->nchildren - idx) * recsize + bt->sizeof_rkey);
@@ -1060,20 +1126,30 @@ H5B_insert_child(H5F_t *f, const H5B_class_t *type, H5B_t *bt,
*
* Modifications:
*
+ * Robb Matzke, 28 Sep 1998
+ * The optional SPLIT_RATIOS[] indicates what percent of the child
+ * pointers should go in the left node when a node splits. There are
+ * three possibilities and a separate split ratio can be specified for
+ * each: [0] The node that split is the left-most node at its level of
+ * the tree, [1] the node that split has left and right siblings, [2]
+ * the node that split is the right-most node at its level of the tree.
+ * When a node is an only node at its level then we use the right-most
+ * rule. If SPLIT_RATIOS is null then default values are used.
+ *
*-------------------------------------------------------------------------
*/
static H5B_ins_t
H5B_insert_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
- uint8 *lt_key, hbool_t *lt_key_changed,
- uint8 *md_key, void *udata,
+ const double split_ratios[], uint8 *lt_key,
+ hbool_t *lt_key_changed, uint8 *md_key, void *udata,
uint8 *rt_key, hbool_t *rt_key_changed,
haddr_t *new_node/*out*/)
{
- H5B_t *bt = NULL, *twin = NULL, *tmp_bt = NULL;
- intn lt = 0, idx = -1, rt, cmp = -1;
- haddr_t child_addr;
- H5B_ins_t my_ins = H5B_INS_ERROR;
- H5B_ins_t ret_value = H5B_INS_ERROR;
+ H5B_t *bt = NULL, *twin = NULL, *tmp_bt = NULL;
+ intn lt = 0, idx = -1, rt, cmp = -1;
+ haddr_t child_addr;
+ H5B_ins_t my_ins = H5B_INS_ERROR;
+ H5B_ins_t ret_value = H5B_INS_ERROR;
FUNC_ENTER(H5B_insert_helper, H5B_INS_ERROR);
@@ -1163,7 +1239,7 @@ H5B_insert_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
HGOTO_ERROR(H5E_BTREE, H5E_CANTDECODE, H5B_INS_ERROR,
"unable to decode key");
}
- if ((my_ins = H5B_insert_helper(f, bt->child+idx, type,
+ if ((my_ins = H5B_insert_helper(f, bt->child+idx, type, split_ratios,
bt->key[idx].nkey, lt_key_changed,
md_key, udata, bt->key[idx+1].nkey,
rt_key_changed,
@@ -1219,7 +1295,7 @@ H5B_insert_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
HGOTO_ERROR(H5E_BTREE, H5E_CANTDECODE, H5B_INS_ERROR,
"unable to decode key");
}
- if ((my_ins = H5B_insert_helper(f, bt->child+idx, type,
+ if ((my_ins = H5B_insert_helper(f, bt->child+idx, type, split_ratios,
bt->key[idx].nkey, lt_key_changed,
md_key, udata, bt->key[idx+1].nkey,
rt_key_changed,
@@ -1278,7 +1354,7 @@ H5B_insert_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
* Follow a branch out of this node to another subtree.
*/
assert(idx >= 0 && idx < bt->nchildren);
- if ((my_ins = H5B_insert_helper(f, bt->child + idx, type,
+ if ((my_ins = H5B_insert_helper(f, bt->child+idx, type, split_ratios,
bt->key[idx].nkey, lt_key_changed,
md_key, udata,
bt->key[idx+1].nkey, rt_key_changed,
@@ -1332,27 +1408,24 @@ H5B_insert_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
ret_value = H5B_INS_NOOP;
} else if (H5B_INS_LEFT == my_ins || H5B_INS_RIGHT == my_ins) {
- /* Make sure IDX is the slot number for the new node. */
- if (H5B_INS_RIGHT == my_ins)
- idx++;
-
/*
* If this node is full then split it before inserting the new child.
*/
if (bt->nchildren == 2 * H5B_K(f, type)) {
- if (H5B_split(f, type, bt, addr, udata, new_node /*out */ ) < 0) {
+ if (H5B_split(f, type, bt, addr, idx, split_ratios, udata,
+ new_node/*out*/)<0) {
HGOTO_ERROR(H5E_BTREE, H5E_CANTSPLIT, H5B_INS_ERROR,
- "can't split node");
+ "unable to split node");
}
if (NULL == (twin = H5AC_protect(f, H5AC_BT, new_node, type,
udata))) {
HGOTO_ERROR(H5E_BTREE, H5E_CANTLOAD, H5B_INS_ERROR,
- "can't load B-tree");
+ "unable to load node");
}
- if (idx <= H5B_K(f, type)) {
+ if (idx<bt->nchildren) {
tmp_bt = bt;
} else {
- idx -= H5B_K(f, type);
+ idx -= bt->nchildren;
tmp_bt = twin;
}
} else {
@@ -1881,7 +1954,7 @@ static size_t
H5B_nodesize(H5F_t *f, const H5B_class_t *type,
size_t *total_nkey_size/*out*/, size_t sizeof_rkey)
{
- size_t size;
+ size_t size;
FUNC_ENTER(H5B_nodesize, (size_t) 0);
@@ -1930,8 +2003,8 @@ herr_t
H5B_debug(H5F_t *f, const haddr_t *addr, FILE *stream, intn indent,
intn fwidth, const H5B_class_t *type, void *udata)
{
- H5B_t *bt = NULL;
- int i;
+ H5B_t *bt = NULL;
+ int i;
FUNC_ENTER(H5B_debug, FAIL);
@@ -2027,10 +2100,10 @@ static herr_t
H5B_assert(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
void *udata)
{
- H5B_t *bt = NULL;
- intn i, ncell, cmp;
- static int ncalls = 0;
- herr_t status;
+ H5B_t *bt = NULL;
+ intn i, ncell, cmp;
+ static int ncalls = 0;
+ herr_t status;
/* A queue of child data */
struct child_t {