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/* Hash Tables Implementation.
*
* This file implements in-memory hash tables with insert/del/replace/find/
* get-random-element operations. Hash tables will auto-resize if needed
* tables of power of two in size are used, collisions are handled by
* chaining. See the source code for more information... :)
*
* Copyright (c) 2006-2012, Salvatore Sanfilippo <antirez at gmail dot com>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * 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.
* * Neither the name of Redis nor the names of its contributors may be used
* to endorse or promote products derived from this software without
* specific prior written permission.
*
* 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.
*/
#ifndef __DICT_H
#define __DICT_H
#include "mt19937-64.h"
#include <limits.h>
#include <stdint.h>
#include <stdlib.h>
#define DICT_OK 0
#define DICT_ERR 1
typedef struct dictEntry {
void *key;
union {
void *val;
uint64_t u64;
int64_t s64;
double d;
} v;
struct dictEntry *next; /* Next entry in the same hash bucket. */
void *metadata[]; /* An arbitrary number of bytes (starting at a
* pointer-aligned address) of size as returned
* by dictType's dictEntryMetadataBytes(). */
} dictEntry;
typedef struct dict dict;
typedef struct dictType {
uint64_t (*hashFunction)(const void *key);
void *(*keyDup)(dict *d, const void *key);
void *(*valDup)(dict *d, const void *obj);
int (*keyCompare)(dict *d, const void *key1, const void *key2);
void (*keyDestructor)(dict *d, void *key);
void (*valDestructor)(dict *d, void *obj);
int (*expandAllowed)(size_t moreMem, double usedRatio);
/* Allow a dictEntry to carry extra caller-defined metadata. The
* extra memory is initialized to 0 when a dictEntry is allocated. */
size_t (*dictEntryMetadataBytes)(dict *d);
} dictType;
#define DICTHT_SIZE(exp) ((exp) == -1 ? 0 : (unsigned long)1<<(exp))
#define DICTHT_SIZE_MASK(exp) ((exp) == -1 ? 0 : (DICTHT_SIZE(exp))-1)
struct dict {
dictType *type;
dictEntry **ht_table[2];
unsigned long ht_used[2];
long rehashidx; /* rehashing not in progress if rehashidx == -1 */
/* Keep small vars at end for optimal (minimal) struct padding */
int16_t pauserehash; /* If >0 rehashing is paused (<0 indicates coding error) */
signed char ht_size_exp[2]; /* exponent of size. (size = 1<<exp) */
};
/* If safe is set to 1 this is a safe iterator, that means, you can call
* dictAdd, dictFind, and other functions against the dictionary even while
* iterating. Otherwise it is a non safe iterator, and only dictNext()
* should be called while iterating. */
typedef struct dictIterator {
dict *d;
long index;
int table, safe;
dictEntry *entry, *nextEntry;
/* unsafe iterator fingerprint for misuse detection. */
unsigned long long fingerprint;
} dictIterator;
typedef void (dictScanFunction)(void *privdata, const dictEntry *de);
typedef void (dictScanBucketFunction)(dict *d, dictEntry **bucketref);
/* This is the initial size of every hash table */
#define DICT_HT_INITIAL_EXP 2
#define DICT_HT_INITIAL_SIZE (1<<(DICT_HT_INITIAL_EXP))
/* ------------------------------- Macros ------------------------------------*/
#define dictFreeVal(d, entry) \
if ((d)->type->valDestructor) \
(d)->type->valDestructor((d), (entry)->v.val)
#define dictSetVal(d, entry, _val_) do { \
if ((d)->type->valDup) \
(entry)->v.val = (d)->type->valDup((d), _val_); \
else \
(entry)->v.val = (_val_); \
} while(0)
#define dictSetSignedIntegerVal(entry, _val_) \
do { (entry)->v.s64 = _val_; } while(0)
#define dictSetUnsignedIntegerVal(entry, _val_) \
do { (entry)->v.u64 = _val_; } while(0)
#define dictSetDoubleVal(entry, _val_) \
do { (entry)->v.d = _val_; } while(0)
#define dictFreeKey(d, entry) \
if ((d)->type->keyDestructor) \
(d)->type->keyDestructor((d), (entry)->key)
#define dictSetKey(d, entry, _key_) do { \
if ((d)->type->keyDup) \
(entry)->key = (d)->type->keyDup((d), _key_); \
else \
(entry)->key = (_key_); \
} while(0)
#define dictCompareKeys(d, key1, key2) \
(((d)->type->keyCompare) ? \
(d)->type->keyCompare((d), key1, key2) : \
(key1) == (key2))
#define dictMetadata(entry) (&(entry)->metadata)
#define dictMetadataSize(d) ((d)->type->dictEntryMetadataBytes \
? (d)->type->dictEntryMetadataBytes(d) : 0)
#define dictHashKey(d, key) (d)->type->hashFunction(key)
#define dictGetKey(he) ((he)->key)
#define dictGetVal(he) ((he)->v.val)
#define dictGetSignedIntegerVal(he) ((he)->v.s64)
#define dictGetUnsignedIntegerVal(he) ((he)->v.u64)
#define dictGetDoubleVal(he) ((he)->v.d)
#define dictSlots(d) (DICTHT_SIZE((d)->ht_size_exp[0])+DICTHT_SIZE((d)->ht_size_exp[1]))
#define dictSize(d) ((d)->ht_used[0]+(d)->ht_used[1])
#define dictIsRehashing(d) ((d)->rehashidx != -1)
#define dictPauseRehashing(d) (d)->pauserehash++
#define dictResumeRehashing(d) (d)->pauserehash--
/* If our unsigned long type can store a 64 bit number, use a 64 bit PRNG. */
#if ULONG_MAX >= 0xffffffffffffffff
#define randomULong() ((unsigned long) genrand64_int64())
#else
#define randomULong() random()
#endif
typedef enum {
DICT_RESIZE_ENABLE,
DICT_RESIZE_AVOID,
DICT_RESIZE_FORBID,
} dictResizeEnable;
/* API */
dict *dictCreate(dictType *type);
int dictExpand(dict *d, unsigned long size);
int dictTryExpand(dict *d, unsigned long size);
int dictAdd(dict *d, void *key, void *val);
dictEntry *dictAddRaw(dict *d, void *key, dictEntry **existing);
dictEntry *dictAddOrFind(dict *d, void *key);
int dictReplace(dict *d, void *key, void *val);
int dictDelete(dict *d, const void *key);
dictEntry *dictUnlink(dict *d, const void *key);
void dictFreeUnlinkedEntry(dict *d, dictEntry *he);
void dictRelease(dict *d);
dictEntry * dictFind(dict *d, const void *key);
void *dictFetchValue(dict *d, const void *key);
int dictResize(dict *d);
dictIterator *dictGetIterator(dict *d);
dictIterator *dictGetSafeIterator(dict *d);
dictEntry *dictNext(dictIterator *iter);
void dictReleaseIterator(dictIterator *iter);
dictEntry *dictGetRandomKey(dict *d);
dictEntry *dictGetFairRandomKey(dict *d);
unsigned int dictGetSomeKeys(dict *d, dictEntry **des, unsigned int count);
void dictGetStats(char *buf, size_t bufsize, dict *d);
uint64_t dictGenHashFunction(const void *key, size_t len);
uint64_t dictGenCaseHashFunction(const unsigned char *buf, size_t len);
void dictEmpty(dict *d, void(callback)(dict*));
void dictSetResizeEnabled(dictResizeEnable enable);
int dictRehash(dict *d, int n);
int dictRehashMilliseconds(dict *d, int ms);
void dictSetHashFunctionSeed(uint8_t *seed);
uint8_t *dictGetHashFunctionSeed(void);
unsigned long dictScan(dict *d, unsigned long v, dictScanFunction *fn, dictScanBucketFunction *bucketfn, void *privdata);
uint64_t dictGetHash(dict *d, const void *key);
dictEntry **dictFindEntryRefByPtrAndHash(dict *d, const void *oldptr, uint64_t hash);
#ifdef REDIS_TEST
int dictTest(int argc, char *argv[], int flags);
#endif
#endif /* __DICT_H */
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