290 lines
8.7 KiB
C
290 lines
8.7 KiB
C
/* Licensed under LGPLv2+ - see LICENSE file for details */
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#ifndef CCAN_HTABLE_H
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#define CCAN_HTABLE_H
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#include "config.h"
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#include <ccan/str/str.h>
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#include <stdint.h>
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#include <stdbool.h>
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#include <stdlib.h>
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/* Define CCAN_HTABLE_DEBUG for expensive debugging checks on each call. */
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#define HTABLE_LOC __FILE__ ":" stringify(__LINE__)
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#ifdef CCAN_HTABLE_DEBUG
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#define htable_debug(h, loc) htable_check((h), loc)
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#else
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#define htable_debug(h, loc) ((void)loc, h)
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#endif
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/**
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* struct htable - private definition of a htable.
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*
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* It's exposed here so you can put it in your structures and so we can
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* supply inline functions.
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*/
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struct htable {
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size_t (*rehash)(const void *elem, void *priv);
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void *priv;
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unsigned int bits, perfect_bitnum;
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size_t elems, deleted;
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/* These are the bits which are the same in all pointers. */
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uintptr_t common_mask, common_bits;
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uintptr_t *table;
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};
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/**
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* HTABLE_INITIALIZER - static initialization for a hash table.
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* @name: name of this htable.
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* @rehash: hash function to use for rehashing.
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* @priv: private argument to @rehash function.
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*
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* This is useful for setting up static and global hash tables.
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*
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* Example:
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* // For simplicity's sake, say hash value is contents of elem.
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* static size_t rehash(const void *elem, void *unused)
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* {
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* (void)unused;
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* return *(size_t *)elem;
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* }
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* static struct htable ht = HTABLE_INITIALIZER(ht, rehash, NULL);
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*/
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#define HTABLE_INITIALIZER(name, rehash, priv) \
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{ rehash, priv, 0, 0, 0, 0, -1, 0, &name.common_bits }
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/**
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* htable_init - initialize an empty hash table.
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* @ht: the hash table to initialize
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* @rehash: hash function to use for rehashing.
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* @priv: private argument to @rehash function.
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*/
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void htable_init(struct htable *ht,
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size_t (*rehash)(const void *elem, void *priv), void *priv);
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/**
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* htable_init_sized - initialize an empty hash table of given size.
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* @ht: the hash table to initialize
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* @rehash: hash function to use for rehashing.
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* @priv: private argument to @rehash function.
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* @size: the number of element.
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*
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* If this returns false, @ht is still usable, but may need to do reallocation
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* upon an add. If this returns true, it will not need to reallocate within
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* @size htable_adds.
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*/
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bool htable_init_sized(struct htable *ht,
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size_t (*rehash)(const void *elem, void *priv),
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void *priv, size_t size);
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/**
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* htable_count - count number of entries in a hash table.
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* @ht: the hash table
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*/
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static inline size_t htable_count(const struct htable *ht)
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{
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return ht->elems;
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}
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/**
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* htable_clear - empty a hash table.
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* @ht: the hash table to clear
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*
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* This doesn't do anything to any pointers left in it.
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*/
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void htable_clear(struct htable *ht);
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/**
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* htable_check - check hash table for consistency
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* @ht: the htable
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* @abortstr: the location to print on aborting, or NULL.
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*
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* Because hash tables have redundant information, consistency checking that
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* each element is in the correct location can be done. This is useful as a
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* debugging check. If @abortstr is non-NULL, that will be printed in a
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* diagnostic if the htable is inconsistent, and the function will abort.
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*
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* Returns the htable if it is consistent, NULL if not (it can never return
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* NULL if @abortstr is set).
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*/
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struct htable *htable_check(const struct htable *ht, const char *abortstr);
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/**
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* htable_copy - duplicate a hash table.
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* @dst: the hash table to overwrite
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* @src: the hash table to copy
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*
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* Only fails on out-of-memory.
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*
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* Equivalent to (but faster than):
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* if (!htable_init_sized(dst, src->rehash, src->priv, 1U << src->bits))
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* return false;
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* v = htable_first(src, &i);
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* while (v) {
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* htable_add(dst, v);
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* v = htable_next(src, i);
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* }
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* return true;
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*/
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#define htable_copy(dst, src) htable_copy_(dst, htable_debug(src, HTABLE_LOC))
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bool htable_copy_(struct htable *dst, const struct htable *src);
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/**
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* htable_add - add a pointer into a hash table.
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* @ht: the htable
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* @hash: the hash value of the object
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* @p: the non-NULL pointer (also cannot be (void *)1).
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*
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* Also note that this can only fail due to allocation failure. Otherwise, it
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* returns true.
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*/
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#define htable_add(ht, hash, p) \
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htable_add_(htable_debug(ht, HTABLE_LOC), hash, p)
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bool htable_add_(struct htable *ht, size_t hash, const void *p);
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/**
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* htable_del - remove a pointer from a hash table
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* @ht: the htable
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* @hash: the hash value of the object
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* @p: the pointer
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*
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* Returns true if the pointer was found (and deleted).
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*/
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#define htable_del(ht, hash, p) \
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htable_del_(htable_debug(ht, HTABLE_LOC), hash, p)
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bool htable_del_(struct htable *ht, size_t hash, const void *p);
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/**
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* struct htable_iter - iterator or htable_first or htable_firstval etc.
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*
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* This refers to a location inside the hashtable.
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*/
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struct htable_iter {
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size_t off;
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};
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/**
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* htable_firstval - find a candidate for a given hash value
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* @htable: the hashtable
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* @i: the struct htable_iter to initialize
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* @hash: the hash value
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*
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* You'll need to check the value is what you want; returns NULL if none.
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* See Also:
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* htable_delval()
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*/
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#define htable_firstval(htable, i, hash) \
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htable_firstval_(htable_debug(htable, HTABLE_LOC), i, hash)
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void *htable_firstval_(const struct htable *htable,
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struct htable_iter *i, size_t hash);
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/**
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* htable_nextval - find another candidate for a given hash value
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* @htable: the hashtable
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* @i: the struct htable_iter to initialize
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* @hash: the hash value
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*
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* You'll need to check the value is what you want; returns NULL if no more.
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*/
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#define htable_nextval(htable, i, hash) \
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htable_nextval_(htable_debug(htable, HTABLE_LOC), i, hash)
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void *htable_nextval_(const struct htable *htable,
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struct htable_iter *i, size_t hash);
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/**
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* htable_get - find an entry in the hash table
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* @ht: the hashtable
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* @h: the hash value of the entry
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* @cmp: the comparison function
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* @ptr: the pointer to hand to the comparison function.
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*
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* Convenient inline wrapper for htable_firstval/htable_nextval loop.
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*/
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static inline void *htable_get(const struct htable *ht,
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size_t h,
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bool (*cmp)(const void *candidate, void *ptr),
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const void *ptr)
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{
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struct htable_iter i;
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void *c;
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for (c = htable_firstval(ht,&i,h); c; c = htable_nextval(ht,&i,h)) {
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if (cmp(c, (void *)ptr))
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return c;
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}
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return NULL;
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}
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/**
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* htable_first - find an entry in the hash table
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* @ht: the hashtable
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* @i: the struct htable_iter to initialize
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*
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* Get an entry in the hashtable; NULL if empty.
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*/
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#define htable_first(htable, i) \
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htable_first_(htable_debug(htable, HTABLE_LOC), i)
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void *htable_first_(const struct htable *htable, struct htable_iter *i);
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/**
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* htable_next - find another entry in the hash table
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* @ht: the hashtable
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* @i: the struct htable_iter to use
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*
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* Get another entry in the hashtable; NULL if all done.
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* This is usually used after htable_first or prior non-NULL htable_next.
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*/
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#define htable_next(htable, i) \
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htable_next_(htable_debug(htable, HTABLE_LOC), i)
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void *htable_next_(const struct htable *htable, struct htable_iter *i);
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/**
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* htable_prev - find the previous entry in the hash table
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* @ht: the hashtable
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* @i: the struct htable_iter to use
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*
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* Get previous entry in the hashtable; NULL if all done.
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*
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* "previous" here only means the item that would have been returned by
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* htable_next() before the item it returned most recently.
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*
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* This is usually used in the middle of (or after) a htable_next iteration and
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* to "unwind" actions taken.
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*/
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#define htable_prev(htable, i) \
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htable_prev_(htable_debug(htable, HTABLE_LOC), i)
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void *htable_prev_(const struct htable *htable, struct htable_iter *i);
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/**
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* htable_delval - remove an iterated pointer from a hash table
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* @ht: the htable
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* @i: the htable_iter
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*
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* Usually used to delete a hash entry after it has been found with
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* htable_firstval etc.
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*/
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#define htable_delval(htable, i) \
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htable_delval_(htable_debug(htable, HTABLE_LOC), i)
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void htable_delval_(struct htable *ht, struct htable_iter *i);
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/**
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* htable_pick - set iterator to a random valid entry.
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* @ht: the htable
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* @seed: a random number to use.
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* @i: the htable_iter which is output (or NULL).
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*
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* Usually used with htable_delval to delete a random entry. Returns
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* NULL iff the table is empty, otherwise a random entry.
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*/
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#define htable_pick(htable, seed, i) \
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htable_pick_(htable_debug(htable, HTABLE_LOC), seed, i)
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void *htable_pick_(const struct htable *ht, size_t seed, struct htable_iter *i);
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/**
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* htable_set_allocator - set calloc/free functions.
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* @alloc: allocator to use, must zero memory!
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* @free: unallocator to use (@p is NULL or a return from @alloc)
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*/
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void htable_set_allocator(void *(*alloc)(struct htable *, size_t len),
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void (*free)(struct htable *, void *p));
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#endif /* CCAN_HTABLE_H */
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