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authorRobb Matzke <matzke@llnl.gov>1998-09-28 14:20:21 (GMT)
committerRobb Matzke <matzke@llnl.gov>1998-09-28 14:20:21 (GMT)
commitc0941f01e38812435e8dd2052d3d7b5deab045dc (patch)
tree0d8a314e12f0f26ebb1cb1326ed5169fa09fab53 /src/H5B.c
parentb1df4a74cd6a4e620a7f73cedce611988ca151d8 (diff)
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[svn-r726] Changes since 19980924
---------------------- ./MANIFEST ./src/H5B.c ./src/H5Bprivate.h ./src/H5G.c ./src/H5Gnode.c ./src/H5Gprivate.h ./test/Makefile.in ./test/unlink.c [NEW] Finished H5Gunlink() and H5Grename(). ./src/H5F.c ./src/H5Fistore.c ./src/H5Fprivate.h Removed the last memcpy() from the chunk cache. ./src/H5Fistore.c The offset of a chunk within a dataset is an 8-byte quantity per dimension instead of 4 bytes. ./src/H5HL.c Fixed infinite loops in H5HL_remove().
Diffstat (limited to 'src/H5B.c')
-rw-r--r--src/H5B.c224
1 files changed, 177 insertions, 47 deletions
diff --git a/src/H5B.c b/src/H5B.c
index 49b1f17..5546140 100644
--- a/src/H5B.c
+++ b/src/H5B.c
@@ -426,7 +426,7 @@ H5B_flush(H5F_t *f, hbool_t destroy, const haddr_t *addr, H5B_t *bt)
H5F_addr_encode(f, &p, &(bt->right));
/* child keys and pointers */
- for (i = 0; i <= bt->nchildren; i++) {
+ for (i=0; i<=bt->nchildren; i++) {
/* encode the key */
assert(bt->key[i].rkey == p);
@@ -456,7 +456,7 @@ H5B_flush(H5F_t *f, hbool_t destroy, const haddr_t *addr, H5B_t *bt)
* for the final unchanged children.
*/
#ifdef HAVE_PARALLEL
- H5F_mpio_tas_allsame( f->shared->lf, TRUE ); /* only p0 will write */
+ H5F_mpio_tas_allsame(f->shared->lf, TRUE); /* only p0 will write */
#endif /* HAVE_PARALLEL */
if (H5F_block_write(f, addr, (hsize_t)size, H5D_XFER_DFLT,
bt->page) < 0) {
@@ -475,6 +475,7 @@ H5B_flush(H5F_t *f, hbool_t destroy, const haddr_t *addr, H5B_t *bt)
}
FUNC_LEAVE(SUCCEED);
}
+
/*-------------------------------------------------------------------------
* Function: H5B_find
@@ -981,7 +982,7 @@ H5B_insert_child(H5F_t *f, const H5B_class_t *type, H5B_t *bt,
bt->native + idx * type->sizeof_nkey,
((bt->nchildren - idx) + 1) * type->sizeof_nkey);
- for (i = bt->nchildren; i >= idx; --i) {
+ for (i=bt->nchildren; i>=idx; --i) {
bt->key[i+1].dirty = bt->key[i].dirty;
if (bt->key[i].nkey) {
bt->key[i+1].nkey = bt->native + (i+1) * type->sizeof_nkey;
@@ -1524,13 +1525,14 @@ H5B_iterate (H5F_t *f, const H5B_class_t *type, const haddr_t *addr,
*/
static H5B_ins_t
H5B_remove_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
- uint8 *lt_key/*out*/, hbool_t *lt_key_changed/*out*/,
- uint8 *md_key/*out*/, void *udata, uint8 *rt_key/*out*/,
- hbool_t *rt_key_changed/*out*/)
+ intn level, uint8 *lt_key/*out*/,
+ hbool_t *lt_key_changed/*out*/, void *udata,
+ uint8 *rt_key/*out*/, hbool_t *rt_key_changed/*out*/)
{
- H5B_t *bt = NULL;
+ H5B_t *bt = NULL, *sibling = NULL;
H5B_ins_t ret_value = H5B_INS_ERROR;
- intn idx=-1, lt=0, rt, cmp=1;
+ intn idx=-1, lt=0, rt, cmp=1, i;
+ size_t sizeof_rkey, sizeof_node, sizeof_rec;
FUNC_ENTER(H5B_remove_helper, FAIL);
assert(f);
@@ -1540,7 +1542,6 @@ H5B_remove_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
assert(type->cmp3);
assert(type->found);
assert(lt_key && lt_key_changed);
- assert(md_key);
assert(udata);
assert(rt_key && rt_key_changed);
@@ -1576,12 +1577,13 @@ H5B_remove_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
*/
assert(idx>=0 && idx<bt->nchildren);
if (bt->level>0) {
+ /* We're at an internal node -- call recursively */
if ((ret_value=H5B_remove_helper(f,
bt->child+idx,
type,
+ level+1,
bt->key[idx].nkey/*out*/,
lt_key_changed/*out*/,
- md_key/*out*/,
udata,
bt->key[idx+1].nkey/*out*/,
rt_key_changed/*out*/))<0) {
@@ -1589,17 +1591,30 @@ H5B_remove_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
"key not found in subtree");
}
} else if (type->remove) {
+ /*
+ * We're at a leave node but the leave node points to an object that
+ * has a removal method. Pass the removal request to the pointed-to
+ * object and let it decide how to progress.
+ */
if ((ret_value=(type->remove)(f,
bt->child+idx,
bt->key[idx].nkey,
lt_key_changed,
- md_key,
udata,
bt->key[idx+1].nkey,
rt_key_changed))<0) {
HGOTO_ERROR(H5E_BTREE, H5E_NOTFOUND, FAIL,
"key not found in leaf node");
}
+ } else {
+ /*
+ * We're at a leaf node which points to an object that has no removal
+ * method. The best we can do is to leave the object alone but
+ * remove the B-tree reference to the object.
+ */
+ *lt_key_changed = FALSE;
+ *rt_key_changed = FALSE;
+ ret_value = H5B_INS_REMOVE;
}
/*
@@ -1621,6 +1636,7 @@ H5B_remove_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
}
if (*rt_key_changed) {
bt->dirty = TRUE;
+ bt->key[idx+1].dirty = TRUE;
if (idx+1<bt->nchildren) {
*rt_key_changed = FALSE;
} else {
@@ -1631,42 +1647,135 @@ H5B_remove_helper(H5F_t *f, const haddr_t *addr, const H5B_class_t *type,
/*
* If the subtree returned H5B_INS_REMOVE then we should remove the
* subtree entry from the current node. There are four cases:
- *
- * 1: If the subtree is the only child of this node then remove both
- * keys and the subtree and return H5B_INS_REMOVE.
- *
- * 2: If the subtree is the left-most child of this node then we
- * discard the left-most key and the left-most child (the child has
- * already been freed) and shift everything down by one. We copy
- * the new left-most key into lt_key and notify the caller that the
- * left key has changed. Return H5B_INS_NOOP.
- *
- * 3: If the subtree is the right-most child of this node then we
- * discard the right-most key and the right-most child (the child
- * has already been freed). We copy the new right-most key into
- * rt_key and notify the caller that the right key has changed.
- * Return H5B_INS_NOOP.
- *
- * 4: There are subtrees out of this node to both the left and right of
- * the subtree being removed. The key to the left of the subtree
- * and the subtree are removed from this node and all keys and nodes
- * to the right are shifted left by one place. The subtree has
- * already been freed). Return H5B_INS_NOOP.
*/
- if (1==bt->nchildren) {
- HGOTO_ERROR(H5E_BTREE, H5E_UNSUPPORTED, FAIL,
- "not implemented yet (all node removal)");
- } else if (0==idx) {
- HGOTO_ERROR(H5E_BTREE, H5E_UNSUPPORTED, FAIL,
- "not implemented yet (first node removal)");
- } else if (idx+1==bt->nchildren) {
- HGOTO_ERROR(H5E_BTREE, H5E_UNSUPPORTED, FAIL,
- "not implemented yet (last node removal)");
+ sizeof_rec = bt->sizeof_rkey + H5F_SIZEOF_ADDR(f);
+ if (H5B_INS_REMOVE==ret_value && 1==bt->nchildren) {
+ /*
+ * The subtree is the only child of this node. Discard both
+ * keys and the subtree pointer. Free this node (unless it's the
+ * root node) and return H5B_INS_REMOVE.
+ */
+ bt->dirty = TRUE;
+ bt->nchildren = 0;
+ bt->ndirty = 0;
+ if (level>0) {
+ if (H5F_addr_defined(&(bt->left))) {
+ if (NULL==(sibling=H5AC_find(f, H5AC_BT, &(bt->left), type,
+ udata))) {
+ HGOTO_ERROR(H5E_BTREE, H5E_CANTLOAD, FAIL,
+ "unable to unlink node from tree");
+ }
+ sibling->right = bt->right;
+ sibling->dirty = TRUE;
+ }
+ if (H5F_addr_defined(&(bt->right))) {
+ if (NULL==(sibling=H5AC_find(f, H5AC_BT, &(bt->right), type,
+ udata))) {
+ HGOTO_ERROR(H5E_BTREE, H5E_CANTLOAD, FAIL,
+ "unable to unlink node from tree");
+ }
+ sibling->left = bt->left;
+ sibling->dirty = TRUE;
+ }
+ H5F_addr_undef(&(bt->left));
+ H5F_addr_undef(&(bt->right));
+ sizeof_rkey = (type->get_sizeof_rkey)(f, udata);
+ sizeof_node = H5B_nodesize(f, type, NULL, sizeof_rkey);
+ if (H5AC_unprotect(f, H5AC_BT, addr, bt)<0 ||
+ H5AC_flush(f, H5AC_BT, addr, TRUE)<0 ||
+ H5MF_xfree(f, addr, sizeof_node)<0) {
+ bt = NULL;
+ HGOTO_ERROR(H5E_BTREE, H5E_PROTECT, FAIL,
+ "unable to free B-tree node");
+ }
+ bt = NULL;
+ }
+
+ } else if (H5B_INS_REMOVE==ret_value && 0==idx) {
+ /*
+ * The subtree is the left-most child of this node. We discard the
+ * left-most key and the left-most child (the child has already been
+ * freed) and shift everything down by one. We copy the new left-most
+ * key into lt_key and notify the caller that the left key has
+ * changed. Return H5B_INS_NOOP.
+ */
+ bt->dirty = TRUE;
+ bt->nchildren -= 1;
+ bt->ndirty = bt->nchildren;
+
+ HDmemmove(bt->page+H5B_SIZEOF_HDR(f),
+ bt->page+H5B_SIZEOF_HDR(f)+sizeof_rec,
+ bt->nchildren*sizeof_rec + bt->sizeof_rkey);
+ HDmemmove(bt->native,
+ bt->native + type->sizeof_nkey,
+ (bt->nchildren+1) * type->sizeof_nkey);
+ HDmemmove(bt->child,
+ bt->child+1,
+ bt->nchildren * sizeof(haddr_t));
+ for (i=0; i<bt->nchildren; i++) {
+ bt->key[i].dirty = bt->key[i+1].dirty;
+ if (bt->key[i+1].nkey) {
+ bt->key[i].nkey = bt->native + i*type->sizeof_nkey;
+ } else {
+ bt->key[i].nkey = NULL;
+ }
+ }
+ assert(bt->key[0].nkey);
+ HDmemcpy(lt_key, bt->key[0].nkey, type->sizeof_nkey);
+ *lt_key_changed = TRUE;
+ ret_value = H5B_INS_NOOP;
+
+ } else if (H5B_INS_REMOVE==ret_value && idx+1==bt->nchildren) {
+ /*
+ * The subtree is the right-most child of this node. We discard the
+ * right-most key and the right-most child (the child has already been
+ * freed). We copy the new right-most key into rt_key and notify the
+ * caller that the right key has changed. Return H5B_INS_NOOP.
+ */
+ bt->dirty = TRUE;
+ bt->nchildren -= 1;
+ bt->ndirty = MIN(bt->ndirty, bt->nchildren);
+ assert(bt->key[bt->nchildren].nkey);
+ HDmemcpy(rt_key, bt->key[bt->nchildren].nkey, type->sizeof_nkey);
+ *rt_key_changed = TRUE;
+ ret_value = H5B_INS_NOOP;
+
+ } else if (H5B_INS_REMOVE==ret_value) {
+ /*
+ * There are subtrees out of this node to both the left and right of
+ * the subtree being removed. The key to the left of the subtree and
+ * the subtree are removed from this node and all keys and nodes to
+ * the right are shifted left by one place. The subtree has already
+ * been freed). Return H5B_INS_NOOP.
+ */
+ bt->dirty = TRUE;
+ bt->nchildren -= 1;
+ bt->ndirty = bt->nchildren;
+
+ HDmemmove(bt->page+H5B_SIZEOF_HDR(f)+idx*sizeof_rec,
+ bt->page+H5B_SIZEOF_HDR(f)+(idx+1)*sizeof_rec,
+ (bt->nchildren-idx)*sizeof_rec + bt->sizeof_rkey);
+ HDmemmove(bt->native + idx * type->sizeof_nkey,
+ bt->native + (idx+1) * type->sizeof_nkey,
+ (bt->nchildren+1-idx) * type->sizeof_nkey);
+ HDmemmove(bt->child+idx,
+ bt->child+idx+1,
+ (bt->nchildren-idx) * sizeof(haddr_t));
+ for (i=idx; i<bt->nchildren; i++) {
+ bt->key[i].dirty = bt->key[i+1].dirty;
+ if (bt->key[i+1].nkey) {
+ bt->key[i].nkey = bt->native + i*type->sizeof_nkey;
+ } else {
+ bt->key[i].nkey = NULL;
+ }
+ }
+ ret_value = H5B_INS_NOOP;
+
} else {
- HGOTO_ERROR(H5E_BTREE, H5E_UNSUPPORTED, FAIL,
- "not implemented yet (middle node removal)");
+ ret_value = H5B_INS_NOOP;
}
+
done:
if (bt && H5AC_unprotect(f, H5AC_BT, addr, bt)<0) {
HRETURN_ERROR(H5E_BTREE, H5E_PROTECT, FAIL,
@@ -1701,25 +1810,46 @@ H5B_remove(H5F_t *f, const H5B_class_t *type, const haddr_t *addr,
void *udata)
{
/* These are defined this way to satisfy alignment constraints */
- uint64 _lt_key[128], _md_key[128], _rt_key[128];
+ uint64 _lt_key[128], _rt_key[128];
uint8 *lt_key = (uint8*)_lt_key; /*left key*/
- uint8 *md_key = (uint8*)_md_key; /*middle key*/
uint8 *rt_key = (uint8*)_rt_key; /*right key*/
hbool_t lt_key_changed = FALSE; /*left key changed?*/
hbool_t rt_key_changed = FALSE; /*right key changed?*/
+ H5B_t *bt = NULL; /*btree node */
+
FUNC_ENTER(H5B_remove, FAIL);
+
+ /* Check args */
assert(f);
assert(type);
assert(type->sizeof_nkey <= sizeof _lt_key);
assert(addr && H5F_addr_defined(addr));
- if (H5B_remove_helper(f, addr, type, lt_key, &lt_key_changed, md_key,
+ /* The actual removal */
+ if (H5B_remove_helper(f, addr, type, 0, lt_key, &lt_key_changed,
udata, rt_key, &rt_key_changed)<0) {
HRETURN_ERROR(H5E_BTREE, H5E_CANTINIT, FAIL,
"unable to remove entry from B-tree");
}
+ /*
+ * If the B-tree is now empty then make sure we mark the root node as
+ * being at level zero
+ */
+ if (NULL==(bt=H5AC_find(f, H5AC_BT, addr, type, udata))) {
+ HRETURN_ERROR(H5E_BTREE, H5E_CANTLOAD, FAIL,
+ "unable to load B-tree root node");
+ }
+ if (0==bt->nchildren && 0!=bt->level) {
+ bt->level = 0;
+ bt->dirty = TRUE;
+ }
+
+
+#ifdef H5B_DEBUG
+ H5B_assert(f, addr, type, udata);
+#endif
FUNC_LEAVE(SUCCEED);
}
@@ -1749,7 +1879,7 @@ H5B_remove(H5F_t *f, const H5B_class_t *type, const haddr_t *addr,
*/
static size_t
H5B_nodesize(H5F_t *f, const H5B_class_t *type,
- size_t *total_nkey_size, size_t sizeof_rkey)
+ size_t *total_nkey_size/*out*/, size_t sizeof_rkey)
{
size_t size;