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Commit 220cadc2 authored by Yoni Fogel's avatar Yoni Fogel
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Addresses #479 

Initial version of range tree wrapper for redblacklib

This includes some notes, but nothing is really implemented.
The customized redblacklib does not yet exist for this.

git-svn-id: file:///svn/tokudb@2631 c7de825b-a66e-492c-adef-691d508d4ae1
parent ddf39c0a
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Showing with 346 additions and 51 deletions
src/range_tree/linear.c
View file @ 220cadc2
...@@ -24,22 +24,11 @@ struct __toku_range_tree_local { ...@@ -24,22 +24,11 @@ struct __toku_range_tree_local {
}; };
#include "rangetree-internal.h" #include "rangetree-internal.h"
static const u_int32_t minlen = 64; static const u_int32_t minlen = 64;
/* static inline int toku__rt_decrease_capacity(toku_range_tree* tree,
* Returns: u_int32_t _num) {
* 0: Point \in range
* < 0: Point strictly less than the range.
* > 0: Point strictly greater than the range.
*/
static int toku__rt_p_cmp(toku_range_tree* tree,
toku_point* point, toku_range* range) {
if (tree->end_cmp(point, range->left) < 0) return -1;
if (tree->end_cmp(point, range->right) > 0) return 1;
return 0;
}
static int toku__rt_decrease_capacity(toku_range_tree* tree, u_int32_t _num) {
//TODO: SOME ATTRIBUTE TO REMOVE NEVER EXECUTABLE ERROR: assert(tree); //TODO: SOME ATTRIBUTE TO REMOVE NEVER EXECUTABLE ERROR: assert(tree);
u_int32_t num = _num < minlen ? minlen : _num; u_int32_t num = _num < minlen ? minlen : _num;
...@@ -56,7 +45,8 @@ static int toku__rt_decrease_capacity(toku_range_tree* tree, u_int32_t _num) { ...@@ -56,7 +45,8 @@ static int toku__rt_decrease_capacity(toku_range_tree* tree, u_int32_t _num) {
return 0; return 0;
} }
static int toku__rt_increase_capacity(toku_range_tree* tree, u_int32_t num) { static inline int toku__rt_increase_capacity(toku_range_tree* tree,
u_int32_t num) {
//TODO: SOME ATTRIBUTE TO REMOVE NEVER EXECUTABLE ERROR: assert(tree); //TODO: SOME ATTRIBUTE TO REMOVE NEVER EXECUTABLE ERROR: assert(tree);
if (tree->i.ranges_len < num) { if (tree->i.ranges_len < num) {
u_int32_t temp_len = tree->i.ranges_len; u_int32_t temp_len = tree->i.ranges_len;
...@@ -70,24 +60,8 @@ static int toku__rt_increase_capacity(toku_range_tree* tree, u_int32_t num) { ...@@ -70,24 +60,8 @@ static int toku__rt_increase_capacity(toku_range_tree* tree, u_int32_t num) {
return 0; return 0;
} }
static int toku__rt_increase_buffer(toku_range_tree* tree, toku_range** buf, static inline BOOL toku__rt_overlap(toku_range_tree* tree,
u_int32_t* buflen, u_int32_t num) { toku_range* a, toku_range* b) {
assert(buf);
//TODO: SOME ATTRIBUTE TO REMOVE NEVER EXECUTABLE ERROR: assert(buflen);
if (*buflen < num) {
u_int32_t temp_len = *buflen;
while (temp_len < num) temp_len *= 2;
toku_range* temp_buf =
tree->realloc(*buf, temp_len * sizeof(toku_range));
if (!temp_buf) return errno;
*buf = temp_buf;
*buflen = temp_len;
}
return 0;
}
static BOOL toku__rt_overlap(toku_range_tree* tree,
toku_range* a, toku_range* b) {
assert(tree); assert(tree);
assert(a); assert(a);
assert(b); assert(b);
...@@ -96,8 +70,8 @@ static BOOL toku__rt_overlap(toku_range_tree* tree, ...@@ -96,8 +70,8 @@ static BOOL toku__rt_overlap(toku_range_tree* tree,
tree->end_cmp(b->left, a->right) <= 0); tree->end_cmp(b->left, a->right) <= 0);
} }
static BOOL toku__rt_exact(toku_range_tree* tree, static inline BOOL toku__rt_exact(toku_range_tree* tree,
toku_range* a, toku_range* b) { toku_range* a, toku_range* b) {
assert(tree); assert(tree);
assert(a); assert(a);
assert(b); assert(b);
...@@ -116,29 +90,21 @@ int toku_rt_create(toku_range_tree** ptree, ...@@ -116,29 +90,21 @@ int toku_rt_create(toku_range_tree** ptree,
void* (*user_realloc)(void*, size_t)) { void* (*user_realloc)(void*, size_t)) {
int r; int r;
toku_range_tree* temptree; toku_range_tree* temptree;
if (!ptree || !end_cmp || !data_cmp ||
!user_malloc || !user_free || !user_realloc) return EINVAL; r = toku_rt_super_create(&temptree, end_cmp, data_cmp, allow_overlaps,
user_malloc, user_free, user_realloc);
temptree = (toku_range_tree*)user_malloc(sizeof(toku_range_tree));
if (0) { if (0) {
died1: died1:
user_free(temptree); user_free(temptree);
return r; return r;
} }
if (!temptree) return errno; if (r!=0) return r;
//Any initializers go here. //Any local initializers go here.
memset(temptree, 0, sizeof(*temptree)); temptree->i.ranges_len = minlen;
temptree->end_cmp = end_cmp; temptree->i.ranges = (toku_range*)
temptree->data_cmp = data_cmp; user_malloc(temptree->i.ranges_len * sizeof(toku_range));
temptree->allow_overlaps = allow_overlaps;
temptree->i.ranges_len = minlen;
temptree->i.ranges = (toku_range*)
user_malloc(temptree->i.ranges_len * sizeof(toku_range));
if (!temptree->i.ranges) { r = errno; goto died1; } if (!temptree->i.ranges) { r = errno; goto died1; }
temptree->malloc = user_malloc;
temptree->free = user_free;
temptree->realloc = user_realloc;
*ptree = temptree; *ptree = temptree;
return 0; return 0;
......
src/range_tree/log_nooverlap.c 0 → 100644
View file @ 220cadc2
/* -*- mode: C; c-basic-offset: 4 -*- */
#ident "Copyright (c) 2007-8 Tokutek Inc. All rights reserved."
#ident "The technology is licensed by the Massachusetts Institute of Technology, Rutgers State University of New Jersey, and the Research Foundation of State University of New York at Stony Brook under United States of America Serial No. 11/760379 and to the patents and/or patent applications resulting from it."
/**
\file linear.c
\brief Range tree implementation
See rangetree.h for documentation on the following. */
//Currently this is a stub implementation just so we can write and compile tests
//before actually implementing the range tree.
#include "rangetree.h"
#include <errno.h>
#include <assert.h>
#include <stdlib.h>
#include <string.h>
struct __toku_range_tree_local {
//Logarithmic non-overlapping version only fields:
toku_rbt* rbt;
};
#include "rangetree-internal.h"
/*
Changes required in red black tree for max performance:
Add finger object.. or keep track of it local?
(or keep it local?)
Finger ops:
New Finger.. or equivalent.
These overwrite the finger:
FINGER_FIND_LESS_THAN_OR_EQUAL
FINGER_FIND_EQUAL
FINGER_FIND_LESS_THAN
FINGER_FIND_GREATER_THAN
These use the finger, with boolean (overwrite or leave alone)
FINGER_NEXT
FINGER_PREV
These use the finger
FINGER_INSERT
FINGER_DELETE
Subset of this that would just support FindOverlaps:
These overwrite the finger:
FINGER_FIND_LESS_THAN_OR_EQUAL
FINGER_NEXT
Almost for free:
FINGER_FIND_LESS_THAN_OR_EQUAL
FINGER_FIND_EQUAL
FINGER_FIND_LESS_THAN
FINGER_FIND_GREATER_THAN
FINGER_NEXT
FINGER_PREV
Not for free:
FINGER_INSERT
FINGER_DELETE
Things to add if we want to be nice to redblacklib
FINGER_FIND_GREATER_THAN_OR_EQUAL
Finger usefulness:
1- Insert
O(lg N) CMPs We do a find <=. If found and overlaps (found.right >= query.left) return error
Next op is either NO_UPDATE, or alternatively, use a copy of the finger. (Return to original finger for INSERT)
(0+1) CMPs Do a FINGER_NEXT_NO_UPDATE. If found and overlaps (found.left <= query.right) return error
(0) CMPs Do a FINGER_INSERT
2- Delete
O(lg N) CMPs We do a find ==. If !found return error.
(== already checks for left end point)
Data cmp is free (pointer)
(0+1) CMPs if (found.right != to_insert.data || found.data != to_delete.data), return error.
(0) CMPs Do a FINGER_DELETE
3- Predecessor:
O(lg N) CMPs Do a find <
If !found return not found
(0+1) CMPs If overlaps (found.right >= query)
(0) CMPs Do a FINGER_PREV. If found return it.
Return not found.
return it.
4- Successor:
O(lg N) CMPs Do a find >.
If found, return it.
return not found.
5- FindOverlaps
O(lg N+1) CMPs Do a find <=. If found (test for overlap (if found.right >= query.left) if so, Increaes buffer, add to buffer)
while (Do a FINGER_NEXT_AND_UPDATE) {
If not found, DONE (return what we've found)
if not overlap (if found.left > query.right) then DONE (return what we've found)
Increase buffer
Add to buffer
}
*/
static BOOL toku__rt_overlap(toku_range_tree* tree,
toku_range* a, toku_range* b) {
assert(tree);
assert(a);
assert(b);
//a->left <= b->right && b->left <= a->right
return (tree->end_cmp(a->left, b->right) <= 0 &&
tree->end_cmp(b->left, a->right) <= 0);
}
static BOOL toku__rt_exact(toku_range_tree* tree,
toku_range* a, toku_range* b) {
assert(tree);
assert(a);
assert(b);
return (tree->end_cmp (a->left, b->left) == 0 &&
tree->end_cmp (a->right, b->right) == 0 &&
tree->data_cmp(a->data, b->data) == 0);
}
int toku_rt_create(toku_range_tree** ptree,
int (*end_cmp)(toku_point*,toku_point*),
int (*data_cmp)(DB_TXN*,DB_TXN*),
BOOL allow_overlaps,
void* (*user_malloc) (size_t),
void (*user_free) (void*),
void* (*user_realloc)(void*, size_t)) {
int r;
toku_range_tree* temptree;
if (allow_overlaps) return ENOSYS;
r = toku_rt_super_create(&temptree, end_cmp, data_cmp, allow_overlaps,
user_malloc, user_free, user_realloc);
if (0) {
died1:
user_free(temptree);
return r;
}
if (r!=0) return r;
//Any local initializers go here.
temptree->rbt = toku_rbt_init(void);
if (!temptree->rbt) { r = errno; goto died1; }
*ptree = temptree;
return 0;
}
int toku_rt_close(toku_range_tree* tree) {
if (!tree) return EINVAL;
toku_rbt_destroy(tree->rbt);
tree->free(tree);
return 0;
}
int toku_rt_find(toku_range_tree* tree, toku_range* query, u_int32_t k,
toku_range** buf, u_int32_t* buflen, u_int32_t* numfound) {
/* TODO: RED BLACK TREE does not support partial scan.
*/
if (!tree || !query || !buf || !buflen || !numfound) return EINVAL;
if (query->data != NULL) return EINVAL;
if (*buflen == 0) return EINVAL;
assert(!tree->allow_overlaps);
u_int32_t temp_numfound = 0;
int r;
u_int32_t i;
for (i = 0; i < tree->numelements; i++) {
if (toku__rt_overlap(tree, query, &tree->ranges[i])) {
r = toku__rt_increase_buffer(tree, buf, buflen, temp_numfound + 1);
if (r != 0) return r;
(*buf)[temp_numfound++] = tree->ranges[i];
//k == 0 means limit of infinity, this is not a bug.
if (temp_numfound == k) break;
}
}
*numfound = temp_numfound;
return 0;
}
int toku_rt_insert(toku_range_tree* tree, toku_range* range) {
/* TODO: */
if (!tree || !range) return EINVAL;
assert(!tree->allow_overlaps);
u_int32_t i;
int r;
//EDOM cases
if (tree->allow_overlaps) {
for (i = 0; i < tree->numelements; i++) {
if (toku__rt_exact (tree, range, &tree->ranges[i])) return EDOM;
}
}
else {
for (i = 0; i < tree->numelements; i++) {
if (toku__rt_overlap(tree, range, &tree->ranges[i])) return EDOM;
}
}
r = toku__rt_increase_capacity(tree, tree->numelements + 1);
if (r != 0) return r;
tree->ranges[tree->numelements++] = *range;
return 0;
}
int toku_rt_delete(toku_range_tree* tree, toku_range* range) {
/* TODO: */
if (!tree || !range) return EINVAL;
u_int32_t i;
assert(!tree->allow_overlaps);
for (i = 0;
i < tree->numelements &&
!toku__rt_exact(tree, range, &(tree->ranges[i]));
i++) {}
//EDOM case: Not Found
if (i == tree->numelements) return EDOM;
if (i < tree->numelements - 1) {
tree->ranges[i] = tree->ranges[tree->numelements - 1];
}
toku__rt_decrease_capacity(tree, --tree->numelements);
return 0;
}
int toku_rt_predecessor (toku_range_tree* tree, toku_point* point,
toku_range* pred, BOOL* wasfound) {
/* TODO: */
if (!tree || !point || !pred || !wasfound) return EINVAL;
if (tree->allow_overlaps) return EINVAL;
toku_range* best = NULL;
u_int32_t i;
for (i = 0; i < tree->numelements; i++) {
if (toku__rt_p_cmp(tree, point, &tree->ranges[i]) > 0 &&
(!best || tree->end_cmp(best->left, tree->ranges[i].left) < 0)) {
best = &tree->ranges[i];
}
}
*wasfound = best != NULL;
if (best) *pred = *best;
return 0;
}
int toku_rt_successor (toku_range_tree* tree, toku_point* point,
toku_range* succ, BOOL* wasfound) {
/* TODO: */
if (!tree || !point || !succ || !wasfound) return EINVAL;
if (tree->allow_overlaps) return EINVAL;
toku_range* best = NULL;
u_int32_t i;
for (i = 0; i < tree->numelements; i++) {
if (toku__rt_p_cmp(tree, point, &tree->ranges[i]) < 0 &&
(!best || tree->end_cmp(best->left, tree->ranges[i].left) > 0)) {
best = &tree->ranges[i];
}
}
*wasfound = best != NULL;
if (best) *succ = *best;
return 0;
}
int toku_rt_get_allow_overlaps(toku_range_tree* tree, BOOL* allowed) {
if (!tree || !allowed) return EINVAL;
assert(!tree->allow_overlaps);
*allowed = tree->allow_overlaps;
return 0;
}
int toku_rt_get_size(toku_range_tree* tree, u_int32_t* size) {
/* TODO: */
if (!tree || !size) return EINVAL;
*size = tree->numelements;
return 0;
}
src/range_tree/rangetree-internal.h
View file @ 220cadc2
...@@ -38,4 +38,60 @@ struct __toku_range_tree { ...@@ -38,4 +38,60 @@ struct __toku_range_tree {
toku_range_tree_local i; toku_range_tree_local i;
}; };
/*
* Returns:
* 0: Point \in range
* < 0: Point strictly less than the range.
* > 0: Point strictly greater than the range.
*/
static inline int toku__rt_p_cmp(toku_range_tree* tree,
toku_point* point, toku_range* range) {
if (tree->end_cmp(point, range->left) < 0) return -1;
if (tree->end_cmp(point, range->right) > 0) return 1;
return 0;
}
static inline int toku__rt_increase_buffer(toku_range_tree* tree, toku_range** buf,
u_int32_t* buflen, u_int32_t num) {
assert(buf);
//TODO: SOME ATTRIBUTE TO REMOVE NEVER EXECUTABLE ERROR: assert(buflen);
if (*buflen < num) {
u_int32_t temp_len = *buflen;
while (temp_len < num) temp_len *= 2;
toku_range* temp_buf =
tree->realloc(*buf, temp_len * sizeof(toku_range));
if (!temp_buf) return errno;
*buf = temp_buf;
*buflen = temp_len;
}
return 0;
}
static inline int toku_rt_super_create(toku_range_tree** ptree,
int (*end_cmp)(toku_point*,toku_point*),
int (*data_cmp)(DB_TXN*,DB_TXN*),
BOOL allow_overlaps,
void* (*user_malloc) (size_t),
void (*user_free) (void*),
void* (*user_realloc)(void*, size_t)) {
toku_range_tree* temptree;
if (!ptree || !end_cmp || !data_cmp ||
!user_malloc || !user_free || !user_realloc) return EINVAL;
temptree = (toku_range_tree*)user_malloc(sizeof(toku_range_tree));
if (!temptree) return ENOMEM;
//Any initializers go here.
memset(temptree, 0, sizeof(*temptree));
temptree->end_cmp = end_cmp;
temptree->data_cmp = data_cmp;
temptree->allow_overlaps = allow_overlaps;
temptree->malloc = user_malloc;
temptree->free = user_free;
temptree->realloc = user_realloc;
*ptree = temptree;
return 0;
}
#endif /* #if !defined(TOKU_RANGE_TREE_INTERNAL_H) */ #endif /* #if !defined(TOKU_RANGE_TREE_INTERNAL_H) */
src/range_tree/rangetree.h
View file @ 220cadc2
...@@ -79,6 +79,8 @@ int toku_rt_get_allow_overlaps(toku_range_tree* tree, BOOL* allowed); ...@@ -79,6 +79,8 @@ int toku_rt_get_allow_overlaps(toku_range_tree* tree, BOOL* allowed);
\return \return
- 0: Success. - 0: Success.
- EINVAL: If any pointer argument is NULL. - EINVAL: If any pointer argument is NULL.
- ENOSYS: If allow_overlaps = TRUE and the implementation does
not support overlaps.
- Other exit codes may be forwarded from underlying system calls. */ - Other exit codes may be forwarded from underlying system calls. */
int toku_rt_create(toku_range_tree** ptree, int toku_rt_create(toku_range_tree** ptree,
int (*end_cmp)(toku_point*,toku_point*), int (*end_cmp)(toku_point*,toku_point*),
......
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