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/*
* librdkafka - Apache Kafka C library
*
* Copyright (c) 2012-2015, Magnus Edenhill
* All rights reserved.
*
* 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 THE COPYRIGHT HOLDERS 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 THE COPYRIGHT OWNER 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.
*/
#include "rd.h"
#include "rdlist.h"
void rd_list_dump(const char *what, const rd_list_t *rl) {
int i;
printf("%s: (rd_list_t*)%p cnt %d, size %d, elems %p:\n", what, rl,
rl->rl_cnt, rl->rl_size, rl->rl_elems);
for (i = 0; i < rl->rl_cnt; i++)
printf(" #%d: %p at &%p\n", i, rl->rl_elems[i],
&rl->rl_elems[i]);
}
void rd_list_grow(rd_list_t *rl, size_t size) {
rd_assert(!(rl->rl_flags & RD_LIST_F_FIXED_SIZE));
rl->rl_size += (int)size;
if (unlikely(rl->rl_size == 0))
return; /* avoid zero allocations */
rl->rl_elems =
rd_realloc(rl->rl_elems, sizeof(*rl->rl_elems) * rl->rl_size);
}
rd_list_t *
rd_list_init(rd_list_t *rl, int initial_size, void (*free_cb)(void *)) {
memset(rl, 0, sizeof(*rl));
if (initial_size > 0)
rd_list_grow(rl, initial_size);
rl->rl_free_cb = free_cb;
return rl;
}
rd_list_t *rd_list_init_copy(rd_list_t *dst, const rd_list_t *src) {
if (src->rl_flags & RD_LIST_F_FIXED_SIZE) {
/* Source was preallocated, prealloc new dst list */
rd_list_init(dst, 0, src->rl_free_cb);
rd_list_prealloc_elems(dst, src->rl_elemsize, src->rl_size,
1 /*memzero*/);
} else {
/* Source is dynamic, initialize dst the same */
rd_list_init(dst, rd_list_cnt(src), src->rl_free_cb);
}
return dst;
}
static RD_INLINE rd_list_t *rd_list_alloc(void) {
return rd_malloc(sizeof(rd_list_t));
}
rd_list_t *rd_list_new(int initial_size, void (*free_cb)(void *)) {
rd_list_t *rl = rd_list_alloc();
rd_list_init(rl, initial_size, free_cb);
rl->rl_flags |= RD_LIST_F_ALLOCATED;
return rl;
}
void rd_list_prealloc_elems(rd_list_t *rl,
size_t elemsize,
size_t cnt,
int memzero) {
size_t allocsize;
char *p;
size_t i;
rd_assert(!rl->rl_elems);
/* Allocation layout:
* void *ptrs[cnt];
* elems[elemsize][cnt];
*/
allocsize = (sizeof(void *) * cnt) + (elemsize * cnt);
if (memzero)
rl->rl_elems = rd_calloc(1, allocsize);
else
rl->rl_elems = rd_malloc(allocsize);
/* p points to first element's memory, unless elemsize is 0. */
if (elemsize > 0)
p = rl->rl_p = (char *)&rl->rl_elems[cnt];
else
p = rl->rl_p = NULL;
/* Pointer -> elem mapping */
for (i = 0; i < cnt; i++, p += elemsize)
rl->rl_elems[i] = p;
rl->rl_size = (int)cnt;
rl->rl_cnt = 0;
rl->rl_flags |= RD_LIST_F_FIXED_SIZE;
rl->rl_elemsize = (int)elemsize;
}
void rd_list_set_cnt(rd_list_t *rl, size_t cnt) {
rd_assert(rl->rl_flags & RD_LIST_F_FIXED_SIZE);
rd_assert((int)cnt <= rl->rl_size);
rl->rl_cnt = (int)cnt;
}
void rd_list_free_cb(rd_list_t *rl, void *ptr) {
if (rl->rl_free_cb && ptr)
rl->rl_free_cb(ptr);
}
void *rd_list_add(rd_list_t *rl, void *elem) {
if (rl->rl_cnt == rl->rl_size)
rd_list_grow(rl, rl->rl_size ? rl->rl_size * 2 : 16);
rl->rl_flags &= ~RD_LIST_F_SORTED;
if (elem)
rl->rl_elems[rl->rl_cnt] = elem;
return rl->rl_elems[rl->rl_cnt++];
}
void rd_list_set(rd_list_t *rl, int idx, void *ptr) {
if (idx >= rl->rl_size)
rd_list_grow(rl, idx + 1);
if (idx >= rl->rl_cnt) {
memset(&rl->rl_elems[rl->rl_cnt], 0,
sizeof(*rl->rl_elems) * (idx - rl->rl_cnt));
rl->rl_cnt = idx + 1;
} else {
/* Not allowed to replace existing element. */
rd_assert(!rl->rl_elems[idx]);
}
rl->rl_elems[idx] = ptr;
}
void rd_list_remove_elem(rd_list_t *rl, int idx) {
rd_assert(idx < rl->rl_cnt);
if (idx + 1 < rl->rl_cnt)
memmove(&rl->rl_elems[idx], &rl->rl_elems[idx + 1],
sizeof(*rl->rl_elems) * (rl->rl_cnt - (idx + 1)));
rl->rl_cnt--;
}
void *rd_list_remove(rd_list_t *rl, void *match_elem) {
void *elem;
int i;
RD_LIST_FOREACH(elem, rl, i) {
if (elem == match_elem) {
rd_list_remove_elem(rl, i);
return elem;
}
}
return NULL;
}
void *rd_list_remove_cmp(rd_list_t *rl,
void *match_elem,
int (*cmp)(void *_a, void *_b)) {
void *elem;
int i;
RD_LIST_FOREACH(elem, rl, i) {
if (elem == match_elem || !cmp(elem, match_elem)) {
rd_list_remove_elem(rl, i);
return elem;
}
}
return NULL;
}
int rd_list_remove_multi_cmp(rd_list_t *rl,
void *match_elem,
int (*cmp)(void *_a, void *_b)) {
void *elem;
int i;
int cnt = 0;
/* Scan backwards to minimize memmoves */
RD_LIST_FOREACH_REVERSE(elem, rl, i) {
if (match_elem == cmp || !cmp(elem, match_elem)) {
rd_list_remove_elem(rl, i);
cnt++;
}
}
return cnt;
}
void *rd_list_pop(rd_list_t *rl) {
void *elem;
int idx = rl->rl_cnt - 1;
if (idx < 0)
return NULL;
elem = rl->rl_elems[idx];
rd_list_remove_elem(rl, idx);
return elem;
}
/**
* Trampoline to avoid the double pointers in callbacks.
*
* rl_elems is a **, but to avoid having the application do the cumbersome
* ** -> * casting we wrap this here and provide a simple * pointer to the
* the callbacks.
*
* This is true for all list comparator uses, i.e., both sort() and find().
*/
static RD_TLS int (*rd_list_cmp_curr)(const void *, const void *);
static RD_INLINE int rd_list_cmp_trampoline(const void *_a, const void *_b) {
const void *a = *(const void **)_a, *b = *(const void **)_b;
return rd_list_cmp_curr(a, b);
}
void rd_list_sort(rd_list_t *rl, int (*cmp)(const void *, const void *)) {
if (unlikely(rl->rl_elems == NULL))
return;
rd_list_cmp_curr = cmp;
qsort(rl->rl_elems, rl->rl_cnt, sizeof(*rl->rl_elems),
rd_list_cmp_trampoline);
rl->rl_flags |= RD_LIST_F_SORTED;
}
static void rd_list_destroy_elems(rd_list_t *rl) {
int i;
if (!rl->rl_elems)
return;
if (rl->rl_free_cb) {
/* Free in reverse order to allow deletions */
for (i = rl->rl_cnt - 1; i >= 0; i--)
if (rl->rl_elems[i])
rl->rl_free_cb(rl->rl_elems[i]);
}
rd_free(rl->rl_elems);
rl->rl_elems = NULL;
rl->rl_cnt = 0;
rl->rl_size = 0;
rl->rl_flags &= ~RD_LIST_F_SORTED;
}
void rd_list_clear(rd_list_t *rl) {
rd_list_destroy_elems(rl);
}
void rd_list_destroy(rd_list_t *rl) {
rd_list_destroy_elems(rl);
if (rl->rl_flags & RD_LIST_F_ALLOCATED)
rd_free(rl);
}
void rd_list_destroy_free(void *rl) {
rd_list_destroy((rd_list_t *)rl);
}
void *rd_list_elem(const rd_list_t *rl, int idx) {
if (likely(idx < rl->rl_cnt))
return (void *)rl->rl_elems[idx];
return NULL;
}
int rd_list_index(const rd_list_t *rl,
const void *match,
int (*cmp)(const void *, const void *)) {
int i;
const void *elem;
RD_LIST_FOREACH(elem, rl, i) {
if (!cmp(match, elem))
return i;
}
return -1;
}
void *rd_list_find(const rd_list_t *rl,
const void *match,
int (*cmp)(const void *, const void *)) {
int i;
const void *elem;
if (rl->rl_flags & RD_LIST_F_SORTED) {
void **r;
rd_list_cmp_curr = cmp;
r = bsearch(&match /*ptrptr to match elems*/, rl->rl_elems,
rl->rl_cnt, sizeof(*rl->rl_elems),
rd_list_cmp_trampoline);
return r ? *r : NULL;
}
RD_LIST_FOREACH(elem, rl, i) {
if (!cmp(match, elem))
return (void *)elem;
}
return NULL;
}
void *rd_list_first(const rd_list_t *rl) {
if (rl->rl_cnt == 0)
return NULL;
return rl->rl_elems[0];
}
void *rd_list_last(const rd_list_t *rl) {
if (rl->rl_cnt == 0)
return NULL;
return rl->rl_elems[rl->rl_cnt - 1];
}
void *rd_list_find_duplicate(const rd_list_t *rl,
int (*cmp)(const void *, const void *)) {
int i;
rd_assert(rl->rl_flags & RD_LIST_F_SORTED);
for (i = 1; i < rl->rl_cnt; i++) {
if (!cmp(rl->rl_elems[i - 1], rl->rl_elems[i]))
return rl->rl_elems[i];
}
return NULL;
}
int rd_list_cmp(const rd_list_t *a,
const rd_list_t *b,
int (*cmp)(const void *, const void *)) {
int i;
i = RD_CMP(a->rl_cnt, b->rl_cnt);
if (i)
return i;
for (i = 0; i < a->rl_cnt; i++) {
int r = cmp(a->rl_elems[i], b->rl_elems[i]);
if (r)
return r;
}
return 0;
}
/**
* @brief Simple element pointer comparator
*/
int rd_list_cmp_ptr(const void *a, const void *b) {
return RD_CMP(a, b);
}
int rd_list_cmp_str(const void *a, const void *b) {
return strcmp((const char *)a, (const char *)b);
}
void rd_list_apply(rd_list_t *rl,
int (*cb)(void *elem, void *opaque),
void *opaque) {
void *elem;
int i;
RD_LIST_FOREACH(elem, rl, i) {
if (!cb(elem, opaque)) {
rd_list_remove_elem(rl, i);
i--;
}
}
return;
}
/**
* @brief Default element copier that simply assigns the original pointer.
*/
static void *rd_list_nocopy_ptr(const void *elem, void *opaque) {
return (void *)elem;
}
rd_list_t *
rd_list_copy(const rd_list_t *src, rd_list_copy_cb_t *copy_cb, void *opaque) {
rd_list_t *dst;
dst = rd_list_new(src->rl_cnt, src->rl_free_cb);
rd_list_copy_to(dst, src, copy_cb, opaque);
return dst;
}
void rd_list_copy_to(rd_list_t *dst,
const rd_list_t *src,
void *(*copy_cb)(const void *elem, void *opaque),
void *opaque) {
void *elem;
int i;
rd_assert(dst != src);
if (!copy_cb)
copy_cb = rd_list_nocopy_ptr;
RD_LIST_FOREACH(elem, src, i) {
void *celem = copy_cb(elem, opaque);
if (celem)
rd_list_add(dst, celem);
}
}
/**
* @brief Copy elements of preallocated \p src to preallocated \p dst.
*
* @remark \p dst will be overwritten and initialized, but its
* flags will be retained.
*
* @returns \p dst
*/
static rd_list_t *rd_list_copy_preallocated0(rd_list_t *dst,
const rd_list_t *src) {
int dst_flags = dst->rl_flags & RD_LIST_F_ALLOCATED;
rd_assert(dst != src);
rd_list_init_copy(dst, src);
dst->rl_flags |= dst_flags;
rd_assert((dst->rl_flags & RD_LIST_F_FIXED_SIZE));
rd_assert((src->rl_flags & RD_LIST_F_FIXED_SIZE));
rd_assert(dst->rl_elemsize == src->rl_elemsize &&
dst->rl_size == src->rl_size);
memcpy(dst->rl_p, src->rl_p, src->rl_elemsize * src->rl_size);
dst->rl_cnt = src->rl_cnt;
return dst;
}
void *rd_list_copy_preallocated(const void *elem, void *opaque) {
return rd_list_copy_preallocated0(rd_list_new(0, NULL),
(const rd_list_t *)elem);
}
void rd_list_move(rd_list_t *dst, rd_list_t *src) {
rd_list_init_copy(dst, src);
if (src->rl_flags & RD_LIST_F_FIXED_SIZE) {
rd_list_copy_preallocated0(dst, src);
} else {
memcpy(dst->rl_elems, src->rl_elems,
src->rl_cnt * sizeof(*src->rl_elems));
dst->rl_cnt = src->rl_cnt;
}
src->rl_cnt = 0;
}
/**
* @name Misc helpers for common list types
* @{
*
*/
rd_list_t *rd_list_init_int32(rd_list_t *rl, int max_size) {
int rl_flags = rl->rl_flags & RD_LIST_F_ALLOCATED;
rd_list_init(rl, 0, NULL);
rl->rl_flags |= rl_flags;
rd_list_prealloc_elems(rl, sizeof(int32_t), max_size, 1 /*memzero*/);
return rl;
}
void rd_list_set_int32(rd_list_t *rl, int idx, int32_t val) {
rd_assert((rl->rl_flags & RD_LIST_F_FIXED_SIZE) &&
rl->rl_elemsize == sizeof(int32_t));
rd_assert(idx < rl->rl_size);
memcpy(rl->rl_elems[idx], &val, sizeof(int32_t));
if (rl->rl_cnt <= idx)
rl->rl_cnt = idx + 1;
}
int32_t rd_list_get_int32(const rd_list_t *rl, int idx) {
rd_assert((rl->rl_flags & RD_LIST_F_FIXED_SIZE) &&
rl->rl_elemsize == sizeof(int32_t) && idx < rl->rl_cnt);
return *(int32_t *)rl->rl_elems[idx];
}
/**@}*/
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