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kavl.h
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kavl.h
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/* The MIT License
Copyright (c) 2018 by Attractive Chaos <[email protected]>
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*/
/* An example:
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include "kavl.h"
struct my_node {
char key;
KAVL_HEAD(struct my_node) head;
};
#define my_cmp(p, q) (((q)->key < (p)->key) - ((p)->key < (q)->key))
KAVL_INIT(my, struct my_node, head, my_cmp)
int main(void) {
const char *str = "MNOLKQOPHIA"; // from wiki, except a duplicate
struct my_node *root = 0;
int i, l = strlen(str);
for (i = 0; i < l; ++i) { // insert in the input order
struct my_node *q, *p = malloc(sizeof(*p));
p->key = str[i];
q = kavl_insert(my, &root, p, 0);
if (p != q) free(p); // if already present, free
}
kavl_itr_t(my) itr;
kavl_itr_first(my, root, &itr); // place at first
do { // traverse
const struct my_node *p = kavl_at(&itr);
putchar(p->key);
free((void*)p); // free node
} while (kavl_itr_next(my, &itr));
putchar('\n');
return 0;
}
*/
#ifndef KAVL_H
#define KAVL_H
#ifdef __STRICT_ANSI__
#define inline __inline__
#endif
#define KAVL_MAX_DEPTH 64
#define kavl_size(head, p) ((p)? (p)->head.size : 0)
#define kavl_size_child(head, q, i) ((q)->head.p[(i)]? (q)->head.p[(i)]->head.size : 0)
#define KAVL_HEAD(__type) \
struct { \
__type *p[2]; \
signed char balance; /* balance factor */ \
unsigned size; /* #elements in subtree */ \
}
#define __KAVL_FIND(suf, __scope, __type, __head, __cmp) \
__scope __type *kavl_find_##suf(const __type *root, const __type *x, unsigned *cnt_) { \
const __type *p = root; \
unsigned cnt = 0; \
while (p != 0) { \
int cmp; \
cmp = __cmp(x, p); \
if (cmp >= 0) cnt += kavl_size_child(__head, p, 0) + 1; \
if (cmp < 0) p = p->__head.p[0]; \
else if (cmp > 0) p = p->__head.p[1]; \
else break; \
} \
if (cnt_) *cnt_ = cnt; \
return (__type*)p; \
}
#define __KAVL_ROTATE(suf, __type, __head) \
/* one rotation: (a,(b,c)q)p => ((a,b)p,c)q */ \
static inline __type *kavl_rotate1_##suf(__type *p, int dir) { /* dir=0 to left; dir=1 to right */ \
int opp = 1 - dir; /* opposite direction */ \
__type *q = p->__head.p[opp]; \
unsigned size_p = p->__head.size; \
p->__head.size -= q->__head.size - kavl_size_child(__head, q, dir); \
q->__head.size = size_p; \
p->__head.p[opp] = q->__head.p[dir]; \
q->__head.p[dir] = p; \
return q; \
} \
/* two consecutive rotations: (a,((b,c)r,d)q)p => ((a,b)p,(c,d)q)r */ \
static inline __type *kavl_rotate2_##suf(__type *p, int dir) { \
int b1, opp = 1 - dir; \
__type *q = p->__head.p[opp], *r = q->__head.p[dir]; \
unsigned size_x_dir = kavl_size_child(__head, r, dir); \
r->__head.size = p->__head.size; \
p->__head.size -= q->__head.size - size_x_dir; \
q->__head.size -= size_x_dir + 1; \
p->__head.p[opp] = r->__head.p[dir]; \
r->__head.p[dir] = p; \
q->__head.p[dir] = r->__head.p[opp]; \
r->__head.p[opp] = q; \
b1 = dir == 0? +1 : -1; \
if (r->__head.balance == b1) q->__head.balance = 0, p->__head.balance = -b1; \
else if (r->__head.balance == 0) q->__head.balance = p->__head.balance = 0; \
else q->__head.balance = b1, p->__head.balance = 0; \
r->__head.balance = 0; \
return r; \
}
#define __KAVL_INSERT(suf, __scope, __type, __head, __cmp) \
__scope __type *kavl_insert_##suf(__type **root_, __type *x, unsigned *cnt_) { \
unsigned char stack[KAVL_MAX_DEPTH]; \
__type *path[KAVL_MAX_DEPTH]; \
__type *bp, *bq; \
__type *p, *q, *r = 0; /* _r_ is potentially the new root */ \
int i, which = 0, top, b1, path_len; \
unsigned cnt = 0; \
bp = *root_, bq = 0; \
/* find the insertion location */ \
for (p = bp, q = bq, top = path_len = 0; p; q = p, p = p->__head.p[which]) { \
int cmp; \
cmp = __cmp(x, p); \
if (cmp >= 0) cnt += kavl_size_child(__head, p, 0) + 1; \
if (cmp == 0) { \
if (cnt_) *cnt_ = cnt; \
return p; \
} \
if (p->__head.balance != 0) \
bq = q, bp = p, top = 0; \
stack[top++] = which = (cmp > 0); \
path[path_len++] = p; \
} \
if (cnt_) *cnt_ = cnt; \
x->__head.balance = 0, x->__head.size = 1, x->__head.p[0] = x->__head.p[1] = 0; \
if (q == 0) *root_ = x; \
else q->__head.p[which] = x; \
if (bp == 0) return x; \
for (i = 0; i < path_len; ++i) ++path[i]->__head.size; \
for (p = bp, top = 0; p != x; p = p->__head.p[stack[top]], ++top) /* update balance factors */ \
if (stack[top] == 0) --p->__head.balance; \
else ++p->__head.balance; \
if (bp->__head.balance > -2 && bp->__head.balance < 2) return x; /* no re-balance needed */ \
/* re-balance */ \
which = (bp->__head.balance < 0); \
b1 = which == 0? +1 : -1; \
q = bp->__head.p[1 - which]; \
if (q->__head.balance == b1) { \
r = kavl_rotate1_##suf(bp, which); \
q->__head.balance = bp->__head.balance = 0; \
} else r = kavl_rotate2_##suf(bp, which); \
if (bq == 0) *root_ = r; \
else bq->__head.p[bp != bq->__head.p[0]] = r; \
return x; \
}
#define __KAVL_ERASE(suf, __scope, __type, __head, __cmp) \
__scope __type *kavl_erase_##suf(__type **root_, const __type *x, unsigned *cnt_) { \
__type *p, *path[KAVL_MAX_DEPTH], fake; \
unsigned char dir[KAVL_MAX_DEPTH]; \
int i, d = 0, cmp; \
unsigned cnt = 0; \
fake.__head.p[0] = *root_, fake.__head.p[1] = 0; \
if (cnt_) *cnt_ = 0; \
if (x) { \
for (cmp = -1, p = &fake; cmp; cmp = __cmp(x, p)) { \
int which = (cmp > 0); \
if (cmp > 0) cnt += kavl_size_child(__head, p, 0) + 1; \
dir[d] = which; \
path[d++] = p; \
p = p->__head.p[which]; \
if (p == 0) { \
if (cnt_) *cnt_ = 0; \
return 0; \
} \
} \
cnt += kavl_size_child(__head, p, 0) + 1; /* because p==x is not counted */ \
} else { \
for (p = &fake, cnt = 1; p; p = p->__head.p[0]) \
dir[d] = 0, path[d++] = p; \
p = path[--d]; \
} \
if (cnt_) *cnt_ = cnt; \
for (i = 1; i < d; ++i) --path[i]->__head.size; \
if (p->__head.p[1] == 0) { /* ((1,.)2,3)4 => (1,3)4; p=2 */ \
path[d-1]->__head.p[dir[d-1]] = p->__head.p[0]; \
} else { \
__type *q = p->__head.p[1]; \
if (q->__head.p[0] == 0) { /* ((1,2)3,4)5 => ((1)2,4)5; p=3 */ \
q->__head.p[0] = p->__head.p[0]; \
q->__head.balance = p->__head.balance; \
path[d-1]->__head.p[dir[d-1]] = q; \
path[d] = q, dir[d++] = 1; \
q->__head.size = p->__head.size - 1; \
} else { /* ((1,((.,2)3,4)5)6,7)8 => ((1,(2,4)5)3,7)8; p=6 */ \
__type *r; \
int e = d++; /* backup _d_ */\
for (;;) { \
dir[d] = 0; \
path[d++] = q; \
r = q->__head.p[0]; \
if (r->__head.p[0] == 0) break; \
q = r; \
} \
r->__head.p[0] = p->__head.p[0]; \
q->__head.p[0] = r->__head.p[1]; \
r->__head.p[1] = p->__head.p[1]; \
r->__head.balance = p->__head.balance; \
path[e-1]->__head.p[dir[e-1]] = r; \
path[e] = r, dir[e] = 1; \
for (i = e + 1; i < d; ++i) --path[i]->__head.size; \
r->__head.size = p->__head.size - 1; \
} \
} \
while (--d > 0) { \
__type *q = path[d]; \
int which, other, b1 = 1, b2 = 2; \
which = dir[d], other = 1 - which; \
if (which) b1 = -b1, b2 = -b2; \
q->__head.balance += b1; \
if (q->__head.balance == b1) break; \
else if (q->__head.balance == b2) { \
__type *r = q->__head.p[other]; \
if (r->__head.balance == -b1) { \
path[d-1]->__head.p[dir[d-1]] = kavl_rotate2_##suf(q, which); \
} else { \
path[d-1]->__head.p[dir[d-1]] = kavl_rotate1_##suf(q, which); \
if (r->__head.balance == 0) { \
r->__head.balance = -b1; \
q->__head.balance = b1; \
break; \
} else r->__head.balance = q->__head.balance = 0; \
} \
} \
} \
*root_ = fake.__head.p[0]; \
return p; \
}
#define kavl_free(__type, __head, __root, __free) do { \
__type *_p, *_q; \
for (_p = __root; _p; _p = _q) { \
if (_p->__head.p[0] == 0) { \
_q = _p->__head.p[1]; \
__free(_p); \
} else { \
_q = _p->__head.p[0]; \
_p->__head.p[0] = _q->__head.p[1]; \
_q->__head.p[1] = _p; \
} \
} \
} while (0)
#define __KAVL_ITR(suf, __scope, __type, __head, __cmp) \
struct kavl_itr_##suf { \
const __type *stack[KAVL_MAX_DEPTH], **top, *right; /* _right_ points to the right child of *top */ \
}; \
__scope void kavl_itr_first_##suf(const __type *root, struct kavl_itr_##suf *itr) { \
const __type *p; \
for (itr->top = itr->stack - 1, p = root; p; p = p->__head.p[0]) \
*++itr->top = p; \
itr->right = (*itr->top)->__head.p[1]; \
} \
__scope int kavl_itr_find_##suf(const __type *root, const __type *x, struct kavl_itr_##suf *itr) { \
const __type *p = root; \
itr->top = itr->stack - 1; \
while (p != 0) { \
int cmp; \
cmp = __cmp(x, p); \
if (cmp < 0) *++itr->top = p, p = p->__head.p[0]; \
else if (cmp > 0) p = p->__head.p[1]; \
else break; \
} \
if (p) { \
*++itr->top = p; \
itr->right = p->__head.p[1]; \
return 1; \
} else if (itr->top >= itr->stack) { \
itr->right = (*itr->top)->__head.p[1]; \
return 0; \
} else return 0; \
} \
__scope int kavl_itr_next_##suf(struct kavl_itr_##suf *itr) { \
for (;;) { \
const __type *p; \
for (p = itr->right, --itr->top; p; p = p->__head.p[0]) \
*++itr->top = p; \
if (itr->top < itr->stack) return 0; \
itr->right = (*itr->top)->__head.p[1]; \
return 1; \
} \
}
/**
* Insert a node to the tree
*
* @param suf name suffix used in KAVL_INIT()
* @param proot pointer to the root of the tree (in/out: root may change)
* @param x node to insert (in)
* @param cnt number of nodes smaller than or equal to _x_; can be NULL (out)
*
* @return _x_ if not present in the tree, or the node equal to x.
*/
#define kavl_insert(suf, proot, x, cnt) kavl_insert_##suf(proot, x, cnt)
/**
* Find a node in the tree
*
* @param suf name suffix used in KAVL_INIT()
* @param root root of the tree
* @param x node value to find (in)
* @param cnt number of nodes smaller than or equal to _x_; can be NULL (out)
*
* @return node equal to _x_ if present, or NULL if absent
*/
#define kavl_find(suf, root, x, cnt) kavl_find_##suf(root, x, cnt)
/**
* Delete a node from the tree
*
* @param suf name suffix used in KAVL_INIT()
* @param proot pointer to the root of the tree (in/out: root may change)
* @param x node value to delete; if NULL, delete the first node (in)
*
* @return node removed from the tree if present, or NULL if absent
*/
#define kavl_erase(suf, proot, x, cnt) kavl_erase_##suf(proot, x, cnt)
#define kavl_erase_first(suf, proot) kavl_erase_##suf(proot, 0, 0)
#define kavl_itr_t(suf) struct kavl_itr_##suf
/**
* Place the iterator at the smallest object
*
* @param suf name suffix used in KAVL_INIT()
* @param root root of the tree
* @param itr iterator
*/
#define kavl_itr_first(suf, root, itr) kavl_itr_first_##suf(root, itr)
/**
* Place the iterator at the object equal to or greater than the query
*
* @param suf name suffix used in KAVL_INIT()
* @param root root of the tree
* @param x query (in)
* @param itr iterator (out)
*
* @return 1 if find; 0 otherwise. kavl_at(itr) is NULL if and only if query is
* larger than all objects in the tree
*/
#define kavl_itr_find(suf, root, x, itr) kavl_itr_find_##suf(root, x, itr)
/**
* Move to the next object in order
*
* @param itr iterator (modified)
*
* @return 1 if there is a next object; 0 otherwise
*/
#define kavl_itr_next(suf, itr) kavl_itr_next_##suf(itr)
/**
* Return the pointer at the iterator
*
* @param itr iterator
*
* @return pointer if present; NULL otherwise
*/
#define kavl_at(itr) ((itr)->top < (itr)->stack? 0 : *(itr)->top)
#define KAVL_INIT2(suf, __scope, __type, __head, __cmp) \
__KAVL_FIND(suf, __scope, __type, __head, __cmp) \
__KAVL_ROTATE(suf, __type, __head) \
__KAVL_INSERT(suf, __scope, __type, __head, __cmp) \
__KAVL_ERASE(suf, __scope, __type, __head, __cmp) \
__KAVL_ITR(suf, __scope, __type, __head, __cmp)
#define KAVL_INIT(suf, __type, __head, __cmp) \
KAVL_INIT2(suf,, __type, __head, __cmp)
#endif