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