Commit 7e429177 authored by Rich Prohaska's avatar Rich Prohaska

tree cursors that can walk the tree

git-svn-id: file:///svn/tokudb@170 c7de825b-a66e-492c-adef-691d508d4ae1
parent 0bf72887
...@@ -36,6 +36,7 @@ struct brtnode { ...@@ -36,6 +36,7 @@ struct brtnode {
HASHTABLE htables[TREE_FANOUT+1]; HASHTABLE htables[TREE_FANOUT+1];
unsigned int n_bytes_in_hashtable[TREE_FANOUT+1]; /* how many bytes are in each hashtable (including overheads) */ unsigned int n_bytes_in_hashtable[TREE_FANOUT+1]; /* how many bytes are in each hashtable (including overheads) */
unsigned int n_bytes_in_hashtables; unsigned int n_bytes_in_hashtables;
unsigned int n_cursors[TREE_FANOUT+1];
} n; } n;
struct leaf { struct leaf {
PMA buffer; PMA buffer;
...@@ -92,3 +93,47 @@ void brtnode_free (BRTNODE *node); ...@@ -92,3 +93,47 @@ void brtnode_free (BRTNODE *node);
#define DEADBEEF ((void*)0xDEADBEEFDEADBEEF) #define DEADBEEF ((void*)0xDEADBEEFDEADBEEF)
#endif #endif
#define CURSOR_PATHLEN_LIMIT 256
struct brt_cursor {
BRT brt;
int path_len; /* -1 if the cursor points nowhere. */
BRTNODE path[CURSOR_PATHLEN_LIMIT]; /* Include the leaf (last). These are all pinned. */
int pathcnum[CURSOR_PATHLEN_LIMIT]; /* which child did we descend to from here? */
PMA_CURSOR pmacurs; /* The cursor into the leaf. NULL if the cursor doesn't exist. */
BRT_CURSOR prev,next;
};
/* print the cursor path */
void brt_cursor_print(BRT_CURSOR cursor);
/* is the cursor path empty? */
static inline int brt_cursor_path_empty(BRT_CURSOR cursor) {
return cursor->path_len == 0;
}
/*is the cursor path full? */
static inline int brt_cursor_path_full(BRT_CURSOR cursor) {
return cursor->path_len == CURSOR_PATHLEN_LIMIT;
}
static inline int brt_cursor_active(BRT_CURSOR cursor) {
return cursor->path_len > 0;
}
/* brt has a new root. add the root to this cursor. */
void brt_cursor_new_root(BRT_CURSOR cursor, BRT t, BRTNODE newroot, BRTNODE left, BRTNODE right);
/* a brt leaf has split. modify this cursor if it includes the old node in its path. */
void brt_cursor_leaf_split(BRT_CURSOR cursor, BRT t, BRTNODE oldnode, BRTNODE left, BRTNODE right);
/* a brt internal node has expanded. modify this cursor if it includes the old node in its path. */
void brt_cursor_nonleaf_expand(BRT_CURSOR cursor, BRT t, BRTNODE oldnode, int childnum, BRTNODE left, BRTNODE right);
/* a brt internal node has split. modify this cursor if it includes the old node in its path. */
void brt_cursor_nonleaf_split(BRT_CURSOR cursor, BRT t, BRTNODE oldnode, BRTNODE left, BRTNODE right);
void brt_update_cursors_new_root(BRT t, BRTNODE newroot, BRTNODE left, BRTNODE right);
void brt_update_cursors_leaf_split(BRT t, BRTNODE oldnode, BRTNODE left, BRTNODE right);
void brt_update_cursors_nonleaf_expand(BRT t, BRTNODE oldnode, int childnum, BRTNODE left, BRTNODE right);
void brt_update_cursors_nonleaf_split(BRT t, BRTNODE oldnode, BRTNODE left, BRTNODE right);
...@@ -176,8 +176,16 @@ int deserialize_brtnode_from (int fd, diskoff off, BRTNODE *brtnode, int nodesiz ...@@ -176,8 +176,16 @@ int deserialize_brtnode_from (int fd, diskoff off, BRTNODE *brtnode, int nodesiz
//printf("height==%d\n", result->height); //printf("height==%d\n", result->height);
if (result->height>0) { if (result->height>0) {
result->u.n.totalchildkeylens=0; result->u.n.totalchildkeylens=0;
for (i=0; i<TREE_FANOUT; i++) { result->u.n.childkeys[i]=0; result->u.n.childkeylens[i]=0; } for (i=0; i<TREE_FANOUT; i++) {
for (i=0; i<TREE_FANOUT+1; i++) { result->u.n.children[i]=0; result->u.n.htables[i]=0; result->u.n.n_bytes_in_hashtable[i]=0; } result->u.n.childkeys[i]=0;
result->u.n.childkeylens[i]=0;
}
for (i=0; i<TREE_FANOUT+1; i++) {
result->u.n.children[i]=0;
result->u.n.htables[i]=0;
result->u.n.n_bytes_in_hashtable[i]=0;
result->u.n.n_cursors[i]=0;
}
result->u.n.n_children = rbuf_int(&rc); result->u.n.n_children = rbuf_int(&rc);
//printf("n_children=%d\n", result->n_children); //printf("n_children=%d\n", result->n_children);
assert(result->u.n.n_children>=0 && result->u.n.n_children<=TREE_FANOUT); assert(result->u.n.n_children>=0 && result->u.n.n_children<=TREE_FANOUT);
......
...@@ -809,7 +809,386 @@ static void test_wrongendian_compare (int wrong_p, unsigned int N) { ...@@ -809,7 +809,386 @@ static void test_wrongendian_compare (int wrong_p, unsigned int N) {
memory_check_all_free(); memory_check_all_free();
} }
void assert_tree_first(BRT brt, long long firstv __attribute__((unused)), long long lastv __attribute__((unused))) {
BRT_CURSOR cursor;
int r;
DBT kbt, vbt;
long long v;
r = brt_cursor(brt, &cursor);
assert(r==0);
#if 1
printf("first key: ");
init_dbt(&kbt); kbt.flags = DB_DBT_MALLOC;
init_dbt(&vbt); vbt.flags = DB_DBT_MALLOC;
r = brt_c_get(cursor, &kbt, &vbt, DB_FIRST);
assert(r == 0);
printf("%s ", (char*)kbt.data);
assert(vbt.size == sizeof v);
memcpy(&v, vbt.data, vbt.size);
assert(v == firstv);
toku_free(kbt.data);
toku_free(vbt.data);
printf("\n");
#endif
#if 0
printf("last key:");
init_dbt(&kbt); kbt.flags = DB_DBT_MALLOC;
init_dbt(&vbt); vbt.flags = DB_DBT_MALLOC;
r = brt_c_get(cursor, &kbt, &vbt, DB_LAST);
assert(r == 0);
printf("%s ", (char*)kbt.data);
assert(vbt.size == sizeof v);
memcpy(&v, vbt.data, vbt.size);
assert(v == lastv);
toku_free(kbt.data);
toku_free(vbt.data);
printf("\n");
#endif
r = brt_cursor_close(cursor);
assert(r==0);
}
void test_brt_cursor_first(int n) {
const char *fname="testbrt.brt";
CACHETABLE ct;
BRT brt;
int r;
int i;
printf("test_brt_cursor_first:%d\n", n);
unlink(fname);
r = brt_create_cachetable(&ct, 0);
assert(r==0);
r = open_brt(fname, 0, 1, &brt, 1<<12, ct, default_compare_fun);
assert(r==0);
/* insert a bunch of kv pairs */
for (i=0; i<n; i++) {
char key[8]; long long v;
DBT kbt, vbt;
snprintf(key, sizeof key, "%4.4d", i);
fill_dbt(&kbt, key, strlen(key)+1);
v = i;
fill_dbt(&vbt, &v, sizeof v);
r = brt_insert(brt, &kbt, &vbt, 0);
assert(r==0);
}
assert_tree_first(brt, 0, n-1);
r = close_brt(brt);
assert(r==0);
r = cachetable_close(&ct);
assert(r==0);
}
void test_brt_cursor_rfirst(int n) {
const char *fname="testbrt.brt";
CACHETABLE ct;
BRT brt;
int r;
int i;
printf("test_brt_cursor_rfirst:%d\n", n);
unlink(fname);
r = brt_create_cachetable(&ct, 0);
assert(r==0);
r = open_brt(fname, 0, 1, &brt, 1<<12, ct, default_compare_fun);
assert(r==0);
/* insert a bunch of kv pairs */
for (i=n-1; i>=0; i--) {
char key[8]; long long v;
DBT kbt, vbt;
snprintf(key, sizeof key, "%4.4d", i);
fill_dbt(&kbt, key, strlen(key)+1);
v = i;
fill_dbt(&vbt, &v, sizeof v);
r = brt_insert(brt, &kbt, &vbt, 0);
assert(r==0);
}
assert_tree_first(brt, 0, n-1);
r = close_brt(brt);
assert(r==0);
r = cachetable_close(&ct);
assert(r==0);
}
void assert_tree_walk(BRT brt, int n) {
BRT_CURSOR cursor;
int i;
int r;
r = brt_cursor(brt, &cursor);
assert(r==0);
printf("key: ");
for (i=0; ; i++) {
DBT kbt, vbt;
long long v;
init_dbt(&kbt); kbt.flags = DB_DBT_MALLOC;
init_dbt(&vbt); vbt.flags = DB_DBT_MALLOC;
r = brt_c_get(cursor, &kbt, &vbt, DB_NEXT);
if (r != 0)
break;
printf("%s ", (char*)kbt.data);
assert(vbt.size == sizeof v);
memcpy(&v, vbt.data, vbt.size);
assert(v == i);
toku_free(kbt.data);
toku_free(vbt.data);
}
printf("\n");
assert(i == n);
r = brt_cursor_close(cursor);
assert(r==0);
}
void test_brt_cursor_walk(int n) {
const char *fname="testbrt.brt";
CACHETABLE ct;
BRT brt;
int r;
int i;
printf("test_brt_cursor_walk:%d\n", n);
unlink(fname);
r = brt_create_cachetable(&ct, 0);
assert(r==0);
r = open_brt(fname, 0, 1, &brt, 1<<12, ct, default_compare_fun);
assert(r==0);
/* insert a bunch of kv pairs */
for (i=0; i<n; i++) {
char key[8]; long long v;
DBT kbt, vbt;
snprintf(key, sizeof key, "%4.4d", i);
fill_dbt(&kbt, key, strlen(key)+1);
v = i;
fill_dbt(&vbt, &v, sizeof v);
r = brt_insert(brt, &kbt, &vbt, 0);
assert(r==0);
}
/* walk the tree */
assert_tree_walk(brt, n);
r = close_brt(brt);
assert(r==0);
r = cachetable_close(&ct);
assert(r==0);
}
void assert_tree_walk_inorder(BRT brt, int n) {
BRT_CURSOR cursor;
int i;
int r;
char *prevkey;
r = brt_cursor(brt, &cursor);
assert(r==0);
prevkey = 0;
printf("key: ");
for (i=0; ; i++) {
DBT kbt, vbt;
long long v;
init_dbt(&kbt); kbt.flags = DB_DBT_MALLOC;
init_dbt(&vbt); vbt.flags = DB_DBT_MALLOC;
r = brt_c_get(cursor, &kbt, &vbt, DB_NEXT);
if (r != 0)
break;
printf("%s ", (char*)kbt.data);
assert(vbt.size == sizeof v);
memcpy(&v, vbt.data, vbt.size);
if (i != 0) {
assert(strcmp(prevkey, kbt.data) < 0);
toku_free(prevkey);
}
prevkey = kbt.data;
toku_free(vbt.data);
}
if (prevkey) toku_free(prevkey);
printf("\n");
assert(i == n);
r = brt_cursor_close(cursor);
assert(r==0);
}
void test_brt_cursor_rand(int n) {
const char *fname="testbrt.brt";
CACHETABLE ct;
BRT brt;
int r;
int i;
printf("test_brt_cursor_rand:%d\n", n);
unlink(fname);
r = brt_create_cachetable(&ct, 0);
assert(r==0);
r = open_brt(fname, 0, 1, &brt, 1<<12, ct, default_compare_fun);
assert(r==0);
/* insert a bunch of kv pairs */
for (i=0; i<n; i++) {
char key[8]; long long v;
DBT kbt, vbt;
for (;;) {
v = ((long long) random() << 32) + random();
snprintf(key, sizeof key, "%lld", v);
fill_dbt(&kbt, key, strlen(key)+1);
v = i;
fill_dbt(&vbt, &v, sizeof v);
r = brt_lookup(brt, &kbt, &vbt, 0);
if (r == 0) {
printf("dup");
continue;
}
r = brt_insert(brt, &kbt, &vbt, 0);
assert(r==0);
break;
}
}
/* walk the tree */
assert_tree_walk_inorder(brt, n);
r = close_brt(brt);
assert(r==0);
r = cachetable_close(&ct);
assert(r==0);
}
void test_brt_cursor_split(int n) {
const char *fname="testbrt.brt";
CACHETABLE ct;
BRT brt;
BRT_CURSOR cursor;
int r;
int keyseqnum;
int i;
DBT kbt, vbt;
printf("test_brt_cursor_split:%d\n", n);
unlink(fname);
r = brt_create_cachetable(&ct, 0);
assert(r==0);
r = open_brt(fname, 0, 1, &brt, 1<<12, ct, default_compare_fun);
assert(r==0);
/* insert a bunch of kv pairs */
for (keyseqnum=0; keyseqnum < n/2; keyseqnum++) {
char key[8]; long long v;
snprintf(key, sizeof key, "%4.4d", keyseqnum);
fill_dbt(&kbt, key, strlen(key)+1);
v = keyseqnum;
fill_dbt(&vbt, &v, sizeof v);
r = brt_insert(brt, &kbt, &vbt, 0);
assert(r==0);
}
r = brt_cursor(brt, &cursor);
assert(r==0);
printf("key: ");
for (i=0; i<n/2; i++) {
init_dbt(&kbt); kbt.flags = DB_DBT_MALLOC;
init_dbt(&vbt); vbt.flags = DB_DBT_MALLOC;
r = brt_c_get(cursor, &kbt, &vbt, DB_NEXT);
assert(r==0);
printf("%s ", (char*)kbt.data);
toku_free(kbt.data);
toku_free(vbt.data);
}
printf("\n");
for (; keyseqnum<n; keyseqnum++) {
char key[8]; long long v;
snprintf(key, sizeof key, "%4.4d", keyseqnum);
fill_dbt(&kbt, key, strlen(key)+1);
v = keyseqnum;
fill_dbt(&vbt, &v, sizeof v);
r = brt_insert(brt, &kbt, &vbt, 0);
assert(r==0);
}
printf("key: ");
for (;;) {
init_dbt(&kbt); kbt.flags = DB_DBT_MALLOC;
init_dbt(&vbt); vbt.flags = DB_DBT_MALLOC;
r = brt_c_get(cursor, &kbt, &vbt, DB_NEXT);
if (r != 0)
break;
printf("%s ", (char*)kbt.data);
toku_free(kbt.data);
toku_free(vbt.data);
}
printf("\n");
r = brt_cursor_close(cursor);
assert(r==0);
r = close_brt(brt);
assert(r==0);
r = cachetable_close(&ct);
assert(r==0);
}
void test_brt_cursor() {
int n;
if (1) for (n=100; n<10000; n += 100) {
test_brt_cursor_first(n); memory_check_all_free();
}
if (1) for (n=100; n<10000; n += 100) {
test_brt_cursor_rfirst(n); memory_check_all_free();
}
if (1) for (n=100; n<10000; n += 100) {
test_brt_cursor_walk(n); memory_check_all_free();
}
if (1) for (n=100; n<10000; n += 100) {
test_brt_cursor_split(n); memory_check_all_free();
}
if (1) for (n=100; n<10000; n += 100) {
test_brt_cursor_rand(n); memory_check_all_free();
}
}
static void brt_blackbox_test (void) { static void brt_blackbox_test (void) {
test_brt_cursor();
test_wrongendian_compare(0, 2); memory_check_all_free(); test_wrongendian_compare(0, 2); memory_check_all_free();
test_wrongendian_compare(1, 2); memory_check_all_free(); test_wrongendian_compare(1, 2); memory_check_all_free();
test_wrongendian_compare(1, 257); memory_check_all_free(); test_wrongendian_compare(1, 257); memory_check_all_free();
......
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