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/*
* Copyright (C) 2010 Mail.RU
* Copyright (C) 2010 Teodor Sigaev
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#ifndef _SPTREE_H_
#define _SPTREE_H_
#include <sys/types.h>
#include <string.h>
#include <stdlib.h>
#include <math.h>
#include <third_party/qsort_arg.h>
#ifndef SPTREE_NODE_SELF
/*
* user could suggest pointer's storage himself
*/
typedef u_int32_t spnode_t;
#define SPNIL (0xffffffff)
typedef struct sptree_node_pointers {
u_int32_t left; /* sizeof(spnode_t) >= sizeof(sptree_node_pointers.left) !!! */
u_int32_t right;
} sptree_node_pointers;
#define GET_SPNODE_LEFT(snp) ( (snp)->left )
#define SET_SPNODE_LEFT(snp, v) (snp)->left = (v)
#define GET_SPNODE_RIGHT(snp) ( (snp)->right )
#define SET_SPNODE_RIGHT(snp, v) (snp)->right = (v)
#endif /* SPTREE_NODE_SELF */
#ifndef alpha
#define alpha ((double)0.75)
#endif
#define COUNTALPHA(size) floor(log((double)(size))/log((double)1.0/alpha))
#define _GET_SPNODE_LEFT(n) GET_SPNODE_LEFT( t->lrpointers + (n) )
#define _SET_SPNODE_LEFT(n, v) SET_SPNODE_LEFT( t->lrpointers + (n), (v) )
#define _GET_SPNODE_RIGHT(n) GET_SPNODE_RIGHT( t->lrpointers + (n) )
#define _SET_SPNODE_RIGHT(n, v) SET_SPNODE_RIGHT( t->lrpointers + (n), (v) )
#define ITHELEM(t, i) ( (t)->members + (t)->elemsize * (i) )
/*
* makes definition of tree with methods, name should
* be unique across all definitions.
*
* Methods:
* void sptree_NAME_init(sptree_NAME *tree, size_t elemsize, void *array,
* spnode_t array_len, spnode_t array_size,
* int (*compar)(const void *, const void *, void *), void *arg)
* void* sptree_NAME_find(sptree_NAME *tree, void *key)
* void sptree_NAME_insert(sptree_NAME *tree, void *value)
* void sptree_NAME_delete(sptree_NAME *tree, void *value)
* spnode_t sptree_NAME_walk(sptree_NAME *t, void* array, spnode_t limit, spnode_t offset)
* sptree_NAME_walk_cb(sptree_NAME *t, int (*cb)(void* cb_arg, void* elem), void *cb_arg )
* sptree_NAME_iterator* sptree_NAME_iterator_init(sptree_NAME *t)
* void sptree_NAME_iterator_init_set(sptree_NAME *t, sptree_NAME_iterator **iterator, void *start)
* void* sptree_NAME_iterator_next(sptree_NAME_iterator *i)
* void sptree_NAME_iterator_free(sptree_NAME_iterator *i)
*/
sptree_node_pointers *lrpointers; \
\
spnode_t nmember; \
spnode_t ntotal; \
\
int (*compare)(const void *, const void *, void *); \
void* arg; \
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\
spnode_t root; \
spnode_t garbage_head; \
spnode_t size; \
spnode_t max_size; \
spnode_t max_depth; \
} sptree_##name; \
\
static spnode_t \
sptree_##name##_mktree(sptree_##name *t, spnode_t depth, \
spnode_t start, spnode_t end) { \
spnode_t half = ( (end + start) >> 1 ), tmp; \
\
if (depth > t->max_depth) t->max_depth = depth; \
\
if ( half == start || \
( tmp = sptree_##name##_mktree(t, depth+1, start, half)) == half ) \
_SET_SPNODE_LEFT(half, SPNIL); \
else \
_SET_SPNODE_LEFT(half, tmp); \
if ( half+1 >= end || \
( tmp = sptree_##name##_mktree(t, depth+1, half+1, end)) == half ) \
_SET_SPNODE_RIGHT(half, SPNIL); \
else \
_SET_SPNODE_RIGHT(half, tmp); \
\
return half; \
} \
\
static inline void \
sptree_##name##_init(sptree_##name *t, size_t elemsize, void *m, \
spnode_t nm, spnode_t nt, \
int (*compare)(const void *, const void *, void *), void *arg) { \
memset(t, 0, sizeof(*t)); \
t->members = m; \
t->max_size = t->size = t->nmember = nm; \
t->ntotal = (nt==0) ? nm : nt; \
t->compare = compare; \
t->arg = arg; \
t->garbage_head = t->root = SPNIL; \
\
if (t->ntotal == 0 || t->members == NULL) { /* from scratch */ \
if (t->ntotal == 0) { \
t->members = NULL; \
t->ntotal = 64; \
} \
\
if (t->members == NULL) \
} \
t->lrpointers = realloc(NULL, sizeof(sptree_node_pointers) * t->ntotal); \
\
if (t->nmember == 1) { \
t->root = 0; \
_SET_SPNODE_RIGHT(0, SPNIL); \
_SET_SPNODE_LEFT(0, SPNIL); \
qsort_arg(t->members, t->nmember, elemsize, t->compare, t->arg); \
/* create tree */ \
t->root = sptree_##name##_mktree(t, 1, 0, t->nmember); \
} \
} \
\
static inline void* \
sptree_##name##_find(sptree_##name *t, void *k) { \
spnode_t node = t->root; \
while(node != SPNIL) { \
if (r > 0) { \
node = _GET_SPNODE_RIGHT(node); \
} else if (r < 0) { \
node = _GET_SPNODE_LEFT(node); \
} else { \
} \
} \
return NULL; \
} \
\
static inline spnode_t \
sptree_##name##_size_of_subtree(sptree_##name *t, spnode_t node) { \
if (node == SPNIL) \
return 0; \
return 1 + \
sptree_##name##_size_of_subtree(t, _GET_SPNODE_LEFT(node)) + \
sptree_##name##_size_of_subtree(t, _GET_SPNODE_RIGHT(node)); \
} \
\
static inline spnode_t \
sptree_##name##_get_place(sptree_##name *t) { \
spnode_t node; \
if (t->garbage_head != SPNIL) { \
node = t->garbage_head; \
t->garbage_head = _GET_SPNODE_LEFT(t->garbage_head); \
} else { \
if (t->nmember >= t->ntotal) { \
t->ntotal *= 2; \
t->members = realloc(t->members, t->ntotal * t->elemsize); \
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t->lrpointers = realloc(t->lrpointers, \
t->ntotal * sizeof(sptree_node_pointers)); \
} \
\
node = t->nmember; \
t->nmember++; \
} \
_SET_SPNODE_LEFT(node, SPNIL); \
_SET_SPNODE_RIGHT(node, SPNIL); \
return node; \
} \
\
static inline spnode_t \
sptree_##name##_flatten_tree(sptree_##name *t, spnode_t root, spnode_t head){ \
spnode_t node; \
if (root == SPNIL) \
return head; \
node = sptree_##name##_flatten_tree(t, _GET_SPNODE_RIGHT(root), head); \
_SET_SPNODE_RIGHT(root, node); \
return sptree_##name##_flatten_tree(t, _GET_SPNODE_LEFT(root), root); \
} \
\
static inline spnode_t \
sptree_##name##_build_tree(sptree_##name *t, spnode_t node, spnode_t size) { \
spnode_t tmp; \
if (size == 0) { \
_SET_SPNODE_LEFT(node, SPNIL); \
return node; \
} \
spnode_t root = sptree_##name##_build_tree(t, \
node, ceil(((double)size-1.0)/2.0)); \
spnode_t list = sptree_##name##_build_tree(t, \
_GET_SPNODE_RIGHT(root), floor(((double)size-1.0)/2.0)); \
tmp = _GET_SPNODE_LEFT(list); \
_SET_SPNODE_RIGHT(root, tmp); \
_SET_SPNODE_LEFT(list, root); \
\
return list; \
} \
\
static inline spnode_t \
sptree_##name##_balance(sptree_##name *t, spnode_t node, spnode_t size) { \
spnode_t fake = sptree_##name##_get_place(t); \
spnode_t z; \
\
z = sptree_##name##_flatten_tree(t, node, fake); \
sptree_##name##_build_tree(t, z, size); \
\
z = _GET_SPNODE_LEFT(fake); \
_SET_SPNODE_LEFT(fake, t->garbage_head); \
t->garbage_head = fake; \
return z; \
} \
\
static inline void \
spnode_t node, depth = 0; \
spnode_t path[ t->max_depth + 2]; \
\
if (t->root == SPNIL) { \
_SET_SPNODE_LEFT(0, SPNIL); \
_SET_SPNODE_RIGHT(0, SPNIL); \
t->root = 0; \
t->garbage_head = SPNIL; \
t->nmember = 1; \
t->size=1; \
return; \
} else { \
spnode_t parent = t->root; \
\
for(;;) { \
return; \
} \
path[depth] = parent; \
depth++; \
if (r>0) { \
if (_GET_SPNODE_RIGHT(parent) == SPNIL) { \
node = sptree_##name##_get_place(t); \
_SET_SPNODE_RIGHT(parent, node); \
break; \
} else { \
parent = _GET_SPNODE_RIGHT(parent); \
} \
} else { \
if (_GET_SPNODE_LEFT(parent) == SPNIL) { \
node = sptree_##name##_get_place(t); \
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_SET_SPNODE_LEFT(parent, node); \
break; \
} else { \
parent = _GET_SPNODE_LEFT(parent); \
} \
} \
} \
} \
\
t->size++; \
if ( t->size > t->max_size ) \
t->max_size = t->size; \
if ( depth > t->max_depth ) \
t->max_depth = depth; \
\
if ( (double)depth > COUNTALPHA(t->size)) { \
spnode_t parent; \
spnode_t i, size = 1 ; \
\
path[depth] = node; \
\
for (i = 1; ; i++) { \
if (i < depth) { \
parent = path[ depth - i ]; \
size += 1 + sptree_##name##_size_of_subtree( t, \
_GET_SPNODE_RIGHT(parent) == path[depth - i + 1] ? \
_GET_SPNODE_LEFT(parent) : _GET_SPNODE_RIGHT(parent)); \
if ((double)i > COUNTALPHA(size)) { \
spnode_t n = sptree_##name##_balance(t, parent, size); \
spnode_t pp = path[ depth - i - 1 ]; \
if (_GET_SPNODE_LEFT(pp) == parent) \
_SET_SPNODE_LEFT(pp, n); \
else \
_SET_SPNODE_RIGHT(pp, n); \
break; \
} \
} else { \
t->root = sptree_##name##_balance(t, t->root, t->size); \
t->max_size = t->size; \
break; \
} \
} \
} \
} \
\
static inline void \
spnode_t node = t->root; \
spnode_t parent = SPNIL; \
int lr = 0; \
while(node != SPNIL) { \
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if (r > 0) { \
parent = node; \
node = _GET_SPNODE_RIGHT(node); \
lr = +1; \
} else if (r < 0) { \
parent = node; \
node = _GET_SPNODE_LEFT(node); \
lr = -1; \
} else {/* found */ \
if (_GET_SPNODE_LEFT(node) == SPNIL && _GET_SPNODE_RIGHT(node) == SPNIL) { \
if ( parent == SPNIL ) \
t->root = SPNIL; \
else if (lr <0) \
_SET_SPNODE_LEFT(parent, SPNIL); \
else \
_SET_SPNODE_RIGHT(parent, SPNIL); \
} else if (_GET_SPNODE_LEFT(node) == SPNIL) { \
spnode_t child = _GET_SPNODE_RIGHT(node); \
if (parent == SPNIL) t->root = child; \
else if (lr <0) _SET_SPNODE_LEFT(parent, child); \
else _SET_SPNODE_RIGHT(parent, child); \
} else if (_GET_SPNODE_RIGHT(node) == SPNIL) { \
spnode_t child = _GET_SPNODE_LEFT(node); \
if (parent == SPNIL) t->root = child; \
else if (lr <0) _SET_SPNODE_LEFT(parent, child); \
else _SET_SPNODE_RIGHT(parent, child); \
} else { \
spnode_t todel = _GET_SPNODE_LEFT(node); \
\
parent = SPNIL; \
for(;;) { \
if ( _GET_SPNODE_RIGHT(todel) != SPNIL ) { \
parent = todel; \
todel = _GET_SPNODE_RIGHT(todel); \
} else \
break; \
} \
memcpy(ITHELEM(t, node), ITHELEM(t, todel), t->elemsize); \
if (parent != SPNIL) \
_SET_SPNODE_RIGHT(parent, _GET_SPNODE_LEFT(todel)); \
else \
_SET_SPNODE_LEFT(node, _GET_SPNODE_LEFT(todel)); \
node = todel; /* node to delete */ \
} \
\
_SET_SPNODE_LEFT(node, t->garbage_head); \
t->garbage_head = node; \
\
break; \
} \
} \
\
if (node == SPNIL) /* not found */ \
return; \
\
t->size --; \
if ( t->size > 0 && (double)t->size < alpha * t->max_size ) { \
t->root = sptree_##name##_balance(t, t->root, t->size); \
t->max_size = t->size; \
} \
} \
\
static inline spnode_t \
sptree_##name##_walk(sptree_##name *t, void* array, spnode_t limit, spnode_t offset) { \
int level = 0; \
spnode_t count= 0, \
node, \
stack[ t->max_depth + 1 ]; \
\
if (t->root == SPNIL) return 0; \
stack[0] = t->root; \
\
while( (node = _GET_SPNODE_LEFT( stack[level] )) != SPNIL ) { \
level++; \
stack[level] = node; \
} \
\
while( count < offset + limit && level >= 0 ) { \
\
if (count >= offset) \
memcpy(array + (count-offset) * t->elemsize, \
ITHELEM(t, stack[level]), t->elemsize); \
count++; \
\
node = _GET_SPNODE_RIGHT( stack[level] ); \
level--; \
while( node != SPNIL ) { \
level++; \
stack[level] = node; \
node = _GET_SPNODE_LEFT( stack[level] ); \
} \
} \
\
return (count > offset) ? count - offset : 0; \
} \
\
static inline void \
sptree_##name##_walk_cb(sptree_##name *t, int (*cb)(void*, void*), void *cb_arg ) { \
int level = 0; \
spnode_t node, \
stack[ t->max_depth + 1 ]; \
\
if (t->root == SPNIL) return; \
stack[0] = t->root; \
\
while( (node = _GET_SPNODE_LEFT( stack[level] )) != SPNIL ) { \
level++; \
stack[level] = node; \
} \
\
while( level >= 0 ) { \
return; \
\
node = _GET_SPNODE_RIGHT( stack[level] ); \
level--; \
while( node != SPNIL ) { \
level++; \
stack[level] = node; \
node = _GET_SPNODE_LEFT( stack[level] ); \
} \
} \
} \
\
typedef struct sptree_##name##_iterator { \
sptree_##name *t; \
int level; \
int max_depth; \
spnode_t stack[0]; \
} sptree_##name##_iterator; \
\
static inline sptree_##name##_iterator * \
sptree_##name##_iterator_init(sptree_##name *t) { \
sptree_##name##_iterator *i; \
i = realloc(NULL, sizeof(*i) + sizeof(spnode_t) * (t->max_depth + 1)); \
i->t = t; \
i->level = 0; \
i->stack[0] = t->root; \
while( (node = _GET_SPNODE_LEFT( i->stack[i->level] )) != SPNIL ) { \
i->level++; \
i->stack[i->level] = node; \
static inline void \
sptree_##name##_iterator_init_set(sptree_##name *t, sptree_##name##_iterator **i, void *k) { \
spnode_t node; \
int lastLevelEq = -1, cmp; \
\
if ((*i) == NULL || t->max_depth > (*i)->max_depth) \
*i = realloc(*i, sizeof(**i) + sizeof(spnode_t) * (t->max_depth + 1)); \
\
(*i)->t = t; \
(*i)->level = -1; \
if (t->root == SPNIL) return; \
\
(*i)->max_depth = t->max_depth; \
(*i)->stack[0] = t->root; \
\
node = t->root; \
while(node != SPNIL) { \
\
(*i)->level++; \
(*i)->stack[(*i)->level] = node; \
\
if (cmp > 0) { \
(*i)->level--; /* exclude current node from path, ie "mark as visited" */ \
node = _GET_SPNODE_RIGHT(node); \
} else if (cmp < 0) { \
node = _GET_SPNODE_LEFT(node); \
} else { \
lastLevelEq = (*i)->level; \
node = _GET_SPNODE_LEFT(node); /* one way iterator: from left to right */ \
} \
} \
\
if (lastLevelEq >= 0) \
(*i)->level = lastLevelEq; \
} \
\
static inline void \
sptree_##name##_iterator_free(sptree_##name##_iterator *i) { \
if (i == NULL) return; \
free(i); \
} \
\
sptree_##name##_iterator_next(sptree_##name##_iterator *i) { \
sptree_##name *t; \
spnode_t node, returnNode = SPNIL; \
\
t = i->t; \
if ( i->level >= 0 ) { \
returnNode = i->stack[i->level]; \
\
node = _GET_SPNODE_RIGHT( i->stack[i->level] ); \
i->level--; \
while( node != SPNIL ) { \
i->level++; \
i->stack[i->level] = node; \
node = _GET_SPNODE_LEFT( i->stack[i->level] ); \
} \
} \
\
return (returnNode == SPNIL) ? NULL : ITHELEM(t, returnNode); \