448 lines
17 KiB
C
448 lines
17 KiB
C
/*-
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* Copyright 1997-1999, 2001, John-Mark Gurney.
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* 2008-2009, Attractive Chaos <attractor@live.co.uk>
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*/
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// Gotchas
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// -------
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//
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// if you delete from a kbtree while iterating over it you must use
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// kb_del_itr and not kb_del otherwise the iterator might point to freed memory.
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#ifndef NVIM_LIB_KBTREE_H
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#define NVIM_LIB_KBTREE_H
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#include <stdlib.h>
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#include <string.h>
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#include <stdint.h>
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#include <assert.h>
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#include "nvim/memory.h"
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#define KB_MAX_DEPTH 64
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#define __KB_KEY(type, x) (x->key)
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#define __KB_PTR(btr, x) (x->ptr)
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#define __KB_TREE_T(name,key_t,T) \
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typedef struct kbnode_##name##_s kbnode_##name##_t; \
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struct kbnode_##name##_s { \
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int32_t n; \
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bool is_internal; \
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key_t key[2*T-1]; \
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kbnode_##name##_t *ptr[]; \
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} ; \
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\
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typedef struct { \
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kbnode_##name##_t *root; \
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int n_keys, n_nodes; \
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} kbtree_##name##_t; \
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\
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typedef struct { \
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kbnode_##name##_t *x; \
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int i; \
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} kbpos_##name##_t; \
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typedef struct { \
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kbpos_##name##_t stack[KB_MAX_DEPTH], *p; \
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} kbitr_##name##_t; \
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#define __kb_destroy(kbnode_t,b) do { \
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int i; \
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unsigned int max = 8; \
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kbnode_t *x, **top, **stack = 0; \
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if (b->root) { \
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top = stack = (kbnode_t**)xcalloc(max, sizeof(kbnode_t*)); \
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*top++ = (b)->root; \
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while (top != stack) { \
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x = *--top; \
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if (x->is_internal == 0) { XFREE_CLEAR(x); continue; } \
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for (i = 0; i <= x->n; ++i) \
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if (__KB_PTR(b, x)[i]) { \
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if (top - stack == (int)max) { \
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max <<= 1; \
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stack = (kbnode_t**)xrealloc(stack, max * sizeof(kbnode_t*)); \
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top = stack + (max>>1); \
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} \
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*top++ = __KB_PTR(b, x)[i]; \
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} \
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XFREE_CLEAR(x); \
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} \
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} \
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XFREE_CLEAR(stack); \
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} while (0)
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#define __KB_GET_AUX1(name, key_t, kbnode_t, __cmp) \
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static inline int __kb_getp_aux_##name(const kbnode_t * __restrict x, key_t * __restrict k, int *r) \
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{ \
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int tr, *rr, begin = 0, end = x->n; \
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if (x->n == 0) return -1; \
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rr = r? r : &tr; \
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while (begin < end) { \
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int mid = (begin + end) >> 1; \
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if (__cmp(__KB_KEY(key_t, x)[mid], *k) < 0) begin = mid + 1; \
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else end = mid; \
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} \
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if (begin == x->n) { *rr = 1; return x->n - 1; } \
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if ((*rr = __cmp(*k, __KB_KEY(key_t, x)[begin])) < 0) --begin; \
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return begin; \
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}
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#define __KB_GET(name, key_t, kbnode_t) \
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static key_t *kb_getp_##name(kbtree_##name##_t *b, key_t * __restrict k) \
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{ \
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if (!b->root) { \
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return 0; \
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} \
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int i, r = 0; \
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kbnode_t *x = b->root; \
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while (x) { \
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i = __kb_getp_aux_##name(x, k, &r); \
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if (i >= 0 && r == 0) return &__KB_KEY(key_t, x)[i]; \
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if (x->is_internal == 0) return 0; \
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x = __KB_PTR(b, x)[i + 1]; \
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} \
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return 0; \
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} \
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static inline key_t *kb_get_##name(kbtree_##name##_t *b, key_t k) \
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{ \
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return kb_getp_##name(b, &k); \
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}
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#define __KB_INTERVAL(name, key_t, kbnode_t) \
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static inline void kb_intervalp_##name(kbtree_##name##_t *b, key_t * __restrict k, key_t **lower, key_t **upper) \
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{ \
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if (!b->root) { \
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return; \
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} \
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int i, r = 0; \
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kbnode_t *x = b->root; \
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*lower = *upper = 0; \
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while (x) { \
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i = __kb_getp_aux_##name(x, k, &r); \
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if (i >= 0 && r == 0) { \
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*lower = *upper = &__KB_KEY(key_t, x)[i]; \
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return; \
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} \
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if (i >= 0) *lower = &__KB_KEY(key_t, x)[i]; \
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if (i < x->n - 1) *upper = &__KB_KEY(key_t, x)[i + 1]; \
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if (x->is_internal == 0) return; \
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x = __KB_PTR(b, x)[i + 1]; \
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} \
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} \
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static inline void kb_interval_##name(kbtree_##name##_t *b, key_t k, key_t **lower, key_t **upper) \
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{ \
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kb_intervalp_##name(b, &k, lower, upper); \
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}
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#define __KB_PUT(name, key_t, kbnode_t, __cmp, T, ILEN) \
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/* x must be an internal node */ \
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static inline void __kb_split_##name(kbtree_##name##_t *b, kbnode_t *x, int i, kbnode_t *y) \
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{ \
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kbnode_t *z; \
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z = (kbnode_t*)xcalloc(1, y->is_internal? ILEN : sizeof(kbnode_##name##_t)); \
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++b->n_nodes; \
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z->is_internal = y->is_internal; \
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z->n = T - 1; \
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memcpy(__KB_KEY(key_t, z), &__KB_KEY(key_t, y)[T], sizeof(key_t) * (T - 1)); \
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if (y->is_internal) memcpy(__KB_PTR(b, z), &__KB_PTR(b, y)[T], sizeof(void*) * T); \
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y->n = T - 1; \
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memmove(&__KB_PTR(b, x)[i + 2], &__KB_PTR(b, x)[i + 1], sizeof(void*) * (unsigned int)(x->n - i)); \
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__KB_PTR(b, x)[i + 1] = z; \
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memmove(&__KB_KEY(key_t, x)[i + 1], &__KB_KEY(key_t, x)[i], sizeof(key_t) * (unsigned int)(x->n - i)); \
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__KB_KEY(key_t, x)[i] = __KB_KEY(key_t, y)[T - 1]; \
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++x->n; \
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} \
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static inline key_t *__kb_putp_aux_##name(kbtree_##name##_t *b, kbnode_t *x, key_t * __restrict k) \
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{ \
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int i = x->n - 1; \
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key_t *ret; \
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if (x->is_internal == 0) { \
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i = __kb_getp_aux_##name(x, k, 0); \
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if (i != x->n - 1) \
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memmove(&__KB_KEY(key_t, x)[i + 2], &__KB_KEY(key_t, x)[i + 1], (unsigned int)(x->n - i - 1) * sizeof(key_t)); \
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ret = &__KB_KEY(key_t, x)[i + 1]; \
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*ret = *k; \
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++x->n; \
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} else { \
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i = __kb_getp_aux_##name(x, k, 0) + 1; \
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if (__KB_PTR(b, x)[i]->n == 2 * T - 1) { \
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__kb_split_##name(b, x, i, __KB_PTR(b, x)[i]); \
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if (__cmp(*k, __KB_KEY(key_t, x)[i]) > 0) ++i; \
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} \
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ret = __kb_putp_aux_##name(b, __KB_PTR(b, x)[i], k); \
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} \
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return ret; \
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} \
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static inline key_t *kb_putp_##name(kbtree_##name##_t *b, key_t * __restrict k) \
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{ \
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if (!b->root) { \
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b->root = (kbnode_t*)xcalloc(1, ILEN); \
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++b->n_nodes; \
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} \
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kbnode_t *r, *s; \
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++b->n_keys; \
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r = b->root; \
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if (r->n == 2 * T - 1) { \
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++b->n_nodes; \
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s = (kbnode_t*)xcalloc(1, ILEN); \
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b->root = s; s->is_internal = 1; s->n = 0; \
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__KB_PTR(b, s)[0] = r; \
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__kb_split_##name(b, s, 0, r); \
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r = s; \
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} \
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return __kb_putp_aux_##name(b, r, k); \
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} \
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static inline void kb_put_##name(kbtree_##name##_t *b, key_t k) \
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{ \
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kb_putp_##name(b, &k); \
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}
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#define __KB_DEL(name, key_t, kbnode_t, T) \
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static inline key_t __kb_delp_aux_##name(kbtree_##name##_t *b, kbnode_t *x, key_t * __restrict k, int s) \
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{ \
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int yn, zn, i, r = 0; \
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kbnode_t *xp, *y, *z; \
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key_t kp; \
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if (x == 0) return *k; \
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if (s) { /* s can only be 0, 1 or 2 */ \
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r = x->is_internal == 0? 0 : s == 1? 1 : -1; \
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i = s == 1? x->n - 1 : -1; \
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} else i = __kb_getp_aux_##name(x, k, &r); \
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if (x->is_internal == 0) { \
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if (s == 2) ++i; \
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kp = __KB_KEY(key_t, x)[i]; \
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memmove(&__KB_KEY(key_t, x)[i], &__KB_KEY(key_t, x)[i + 1], (unsigned int)(x->n - i - 1) * sizeof(key_t)); \
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--x->n; \
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return kp; \
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} \
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if (r == 0) { \
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if ((yn = __KB_PTR(b, x)[i]->n) >= T) { \
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xp = __KB_PTR(b, x)[i]; \
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kp = __KB_KEY(key_t, x)[i]; \
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__KB_KEY(key_t, x)[i] = __kb_delp_aux_##name(b, xp, 0, 1); \
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return kp; \
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} else if ((zn = __KB_PTR(b, x)[i + 1]->n) >= T) { \
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xp = __KB_PTR(b, x)[i + 1]; \
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kp = __KB_KEY(key_t, x)[i]; \
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__KB_KEY(key_t, x)[i] = __kb_delp_aux_##name(b, xp, 0, 2); \
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return kp; \
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} else if (yn == T - 1 && zn == T - 1) { \
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y = __KB_PTR(b, x)[i]; z = __KB_PTR(b, x)[i + 1]; \
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__KB_KEY(key_t, y)[y->n++] = *k; \
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memmove(&__KB_KEY(key_t, y)[y->n], __KB_KEY(key_t, z), (unsigned int)z->n * sizeof(key_t)); \
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if (y->is_internal) memmove(&__KB_PTR(b, y)[y->n], __KB_PTR(b, z), (unsigned int)(z->n + 1) * sizeof(void*)); \
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y->n += z->n; \
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memmove(&__KB_KEY(key_t, x)[i], &__KB_KEY(key_t, x)[i + 1], (unsigned int)(x->n - i - 1) * sizeof(key_t)); \
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memmove(&__KB_PTR(b, x)[i + 1], &__KB_PTR(b, x)[i + 2], (unsigned int)(x->n - i - 1) * sizeof(void*)); \
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--x->n; \
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XFREE_CLEAR(z); \
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return __kb_delp_aux_##name(b, y, k, s); \
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} \
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} \
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++i; \
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if ((xp = __KB_PTR(b, x)[i])->n == T - 1) { \
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if (i > 0 && (y = __KB_PTR(b, x)[i - 1])->n >= T) { \
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memmove(&__KB_KEY(key_t, xp)[1], __KB_KEY(key_t, xp), (unsigned int)xp->n * sizeof(key_t)); \
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if (xp->is_internal) memmove(&__KB_PTR(b, xp)[1], __KB_PTR(b, xp), (unsigned int)(xp->n + 1) * sizeof(void*)); \
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__KB_KEY(key_t, xp)[0] = __KB_KEY(key_t, x)[i - 1]; \
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__KB_KEY(key_t, x)[i - 1] = __KB_KEY(key_t, y)[y->n - 1]; \
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if (xp->is_internal) __KB_PTR(b, xp)[0] = __KB_PTR(b, y)[y->n]; \
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--y->n; ++xp->n; \
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} else if (i < x->n && (y = __KB_PTR(b, x)[i + 1])->n >= T) { \
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__KB_KEY(key_t, xp)[xp->n++] = __KB_KEY(key_t, x)[i]; \
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__KB_KEY(key_t, x)[i] = __KB_KEY(key_t, y)[0]; \
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if (xp->is_internal) __KB_PTR(b, xp)[xp->n] = __KB_PTR(b, y)[0]; \
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--y->n; \
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memmove(__KB_KEY(key_t, y), &__KB_KEY(key_t, y)[1], (unsigned int)y->n * sizeof(key_t)); \
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if (y->is_internal) memmove(__KB_PTR(b, y), &__KB_PTR(b, y)[1], (unsigned int)(y->n + 1) * sizeof(void*)); \
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} else if (i > 0 && (y = __KB_PTR(b, x)[i - 1])->n == T - 1) { \
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__KB_KEY(key_t, y)[y->n++] = __KB_KEY(key_t, x)[i - 1]; \
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memmove(&__KB_KEY(key_t, y)[y->n], __KB_KEY(key_t, xp), (unsigned int)xp->n * sizeof(key_t)); \
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if (y->is_internal) memmove(&__KB_PTR(b, y)[y->n], __KB_PTR(b, xp), (unsigned int)(xp->n + 1) * sizeof(void*)); \
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y->n += xp->n; \
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memmove(&__KB_KEY(key_t, x)[i - 1], &__KB_KEY(key_t, x)[i], (unsigned int)(x->n - i) * sizeof(key_t)); \
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memmove(&__KB_PTR(b, x)[i], &__KB_PTR(b, x)[i + 1], (unsigned int)(x->n - i) * sizeof(void*)); \
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--x->n; \
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XFREE_CLEAR(xp); \
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xp = y; \
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} else if (i < x->n && (y = __KB_PTR(b, x)[i + 1])->n == T - 1) { \
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__KB_KEY(key_t, xp)[xp->n++] = __KB_KEY(key_t, x)[i]; \
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memmove(&__KB_KEY(key_t, xp)[xp->n], __KB_KEY(key_t, y), (unsigned int)y->n * sizeof(key_t)); \
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if (xp->is_internal) memmove(&__KB_PTR(b, xp)[xp->n], __KB_PTR(b, y), (unsigned int)(y->n + 1) * sizeof(void*)); \
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xp->n += y->n; \
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memmove(&__KB_KEY(key_t, x)[i], &__KB_KEY(key_t, x)[i + 1], (unsigned int)(x->n - i - 1) * sizeof(key_t)); \
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memmove(&__KB_PTR(b, x)[i + 1], &__KB_PTR(b, x)[i + 2], (unsigned int)(x->n - i - 1) * sizeof(void*)); \
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--x->n; \
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XFREE_CLEAR(y); \
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} \
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} \
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return __kb_delp_aux_##name(b, xp, k, s); \
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} \
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static inline key_t kb_delp_##name(kbtree_##name##_t *b, key_t * __restrict k) \
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{ \
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kbnode_t *x; \
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key_t ret; \
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ret = __kb_delp_aux_##name(b, b->root, k, 0); \
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--b->n_keys; \
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if (b->root->n == 0 && b->root->is_internal) { \
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--b->n_nodes; \
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x = b->root; \
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b->root = __KB_PTR(b, x)[0]; \
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XFREE_CLEAR(x); \
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} \
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return ret; \
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} \
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static inline key_t kb_del_##name(kbtree_##name##_t *b, key_t k) \
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{ \
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return kb_delp_##name(b, &k); \
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}
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#define __KB_ITR(name, key_t, kbnode_t) \
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static inline void kb_itr_first_##name(kbtree_##name##_t *b, kbitr_##name##_t *itr) \
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{ \
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itr->p = NULL; \
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if (b->n_keys == 0) return; \
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itr->p = itr->stack; \
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itr->p->x = b->root; itr->p->i = 0; \
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while (itr->p->x->is_internal && __KB_PTR(b, itr->p->x)[0] != 0) { \
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kbnode_t *x = itr->p->x; \
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++itr->p; \
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itr->p->x = __KB_PTR(b, x)[0]; itr->p->i = 0; \
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} \
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} \
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static inline int kb_itr_next_##name(kbtree_##name##_t *b, kbitr_##name##_t *itr) \
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{ \
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if (itr->p == NULL) return 0; \
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for (;;) { \
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++itr->p->i; \
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assert(itr->p->i <= 21); \
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while (itr->p->x && itr->p->i <= itr->p->x->n) { \
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itr->p[1].i = 0; \
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itr->p[1].x = itr->p->x->is_internal? __KB_PTR(b, itr->p->x)[itr->p->i] : 0; \
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++itr->p; \
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} \
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if (itr->p == itr->stack) { \
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itr->p = NULL; \
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return 0; \
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} \
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--itr->p; \
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if (itr->p->x && itr->p->i < itr->p->x->n) return 1; \
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} \
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} \
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static inline int kb_itr_prev_##name(kbtree_##name##_t *b, kbitr_##name##_t *itr) \
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{ \
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if (itr->p == NULL) return 0; \
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for (;;) { \
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while (itr->p->x && itr->p->i >= 0) { \
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itr->p[1].x = itr->p->x->is_internal? __KB_PTR(b, itr->p->x)[itr->p->i] : 0; \
|
|
itr->p[1].i = itr->p[1].x ? itr->p[1].x->n : -1; \
|
|
++itr->p; \
|
|
} \
|
|
if (itr->p == itr->stack) { \
|
|
itr->p = NULL; \
|
|
return 0; \
|
|
} \
|
|
--itr->p; \
|
|
--itr->p->i; \
|
|
if (itr->p->x && itr->p->i >= 0) return 1; \
|
|
} \
|
|
} \
|
|
static inline int kb_itr_getp_##name(kbtree_##name##_t *b, key_t * __restrict k, kbitr_##name##_t *itr) \
|
|
{ \
|
|
if (b->n_keys == 0) { \
|
|
itr->p = NULL; \
|
|
return 0; \
|
|
} \
|
|
int i, r = 0; \
|
|
itr->p = itr->stack; \
|
|
itr->p->x = b->root; \
|
|
while (itr->p->x) { \
|
|
i = __kb_getp_aux_##name(itr->p->x, k, &r); \
|
|
itr->p->i = i; \
|
|
if (i >= 0 && r == 0) return 1; \
|
|
++itr->p->i; \
|
|
assert(itr->p->i <= 21); \
|
|
itr->p[1].x = itr->p->x->is_internal? __KB_PTR(b, itr->p->x)[i + 1] : 0; \
|
|
++itr->p; \
|
|
} \
|
|
itr->p->i = 0; \
|
|
return 0; \
|
|
} \
|
|
static inline int kb_itr_get_##name(kbtree_##name##_t *b, key_t k, kbitr_##name##_t *itr) \
|
|
{ \
|
|
return kb_itr_getp_##name(b,&k,itr); \
|
|
} \
|
|
static inline void kb_del_itr_##name(kbtree_##name##_t *b, kbitr_##name##_t *itr) \
|
|
{ \
|
|
key_t k = kb_itr_key(itr); \
|
|
kb_delp_##name(b, &k); \
|
|
kb_itr_getp_##name(b, &k, itr); \
|
|
}
|
|
|
|
#define KBTREE_INIT(name, key_t, __cmp, T) \
|
|
KBTREE_INIT_IMPL(name, key_t, kbnode_##name##_t, __cmp, T, (sizeof(kbnode_##name##_t)+(2*T)*sizeof(void *)))
|
|
|
|
#define KBTREE_INIT_IMPL(name, key_t, kbnode_t, __cmp, T, ILEN) \
|
|
__KB_TREE_T(name, key_t, T) \
|
|
__KB_GET_AUX1(name, key_t, kbnode_t, __cmp) \
|
|
__KB_GET(name, key_t, kbnode_t) \
|
|
__KB_INTERVAL(name, key_t, kbnode_t) \
|
|
__KB_PUT(name, key_t, kbnode_t, __cmp, T, ILEN) \
|
|
__KB_DEL(name, key_t, kbnode_t, T) \
|
|
__KB_ITR(name, key_t, kbnode_t)
|
|
|
|
#define KB_DEFAULT_SIZE 512
|
|
|
|
#define kbtree_t(name) kbtree_##name##_t
|
|
#define kbitr_t(name) kbitr_##name##_t
|
|
#define kb_init(b) ((b)->n_keys = (b)->n_nodes = 0, (b)->root = 0)
|
|
#define kb_destroy(name, b) __kb_destroy(kbnode_##name##_t, b)
|
|
#define kb_get(name, b, k) kb_get_##name(b, k)
|
|
#define kb_put(name, b, k) kb_put_##name(b, k)
|
|
#define kb_del(name, b, k) kb_del_##name(b, k)
|
|
#define kb_interval(name, b, k, l, u) kb_interval_##name(b, k, l, u)
|
|
#define kb_getp(name, b, k) kb_getp_##name(b, k)
|
|
#define kb_putp(name, b, k) kb_putp_##name(b, k)
|
|
#define kb_delp(name, b, k) kb_delp_##name(b, k)
|
|
#define kb_intervalp(name, b, k, l, u) kb_intervalp_##name(b, k, l, u)
|
|
|
|
#define kb_itr_first(name, b, i) kb_itr_first_##name(b, i)
|
|
#define kb_itr_get(name, b, k, i) kb_itr_get_##name(b, k, i)
|
|
#define kb_itr_getp(name, b, k, i) kb_itr_getp_##name(b, k, i)
|
|
#define kb_itr_next(name, b, i) kb_itr_next_##name(b, i)
|
|
#define kb_itr_prev(name, b, i) kb_itr_prev_##name(b, i)
|
|
#define kb_del_itr(name, b, i) kb_del_itr_##name(b, i)
|
|
#define kb_itr_key(itr) __KB_KEY(dummy, (itr)->p->x)[(itr)->p->i]
|
|
#define kb_itr_valid(itr) ((itr)->p >= (itr)->stack)
|
|
|
|
#define kb_size(b) ((b)->n_keys)
|
|
|
|
#define kb_generic_cmp(a, b) (((b) < (a)) - ((a) < (b)))
|
|
#define kb_str_cmp(a, b) strcmp(a, b)
|
|
|
|
#endif // NVIM_LIB_KBTREE_H
|