跟线性数组和链表不同。HashTable是高速查找的数据结构。本文中的HashTable使用链表处理数组。

该HashTable能够指定table的长度。提供了遍历的方法。

包含table的长度的选择也比較讲究。

其它c的数据结构实现。dyArray參考点击打开链接  treeStruct參考点击打开链接

	cp_int32 nPrime[MAX_HASH_PRIME_ARRAY_NUM] = {
17,
37,
79,
163,
331,
673,
1361
};

就是说table的长度来取自上面这个数组。比方用户设定了200。那么table的长度就是331,找到第一次比输入值大的数值。能够注意到上面的都是素数。

以下是详细的代码贴出来。共大家參考。

代码中有个接口是查到多个key使用到了动态数组dyArray。參考上一篇点击打开链接

//
// cpPlatform.h
// dataStruct
//
// Created by hherima on 14-7-29.
// Copyright (c) 2014年 . All rights reserved.
// #ifndef dataStruct_cpPlatform_h
#define dataStruct_cpPlatform_h enum
{
CP_FALSE = 0,
CP_TRUE = !CP_FALSE
}; #define F_MALLOC_TYPE(s) (s*)f_malloc(sizeof(s))
#define FREEFUN free
#define MIN_PRE_ALLOCATE_SIZE 10 //The initial size of the dynamic array.
#define MEMSETFUN memset
#define REALLOCFUN realloc
#define MALLOCFUN malloc
#define MEMCMPFUN memcmp
#define MEMCPYFUN memcpy typedef unsigned char cp_bool;
typedef signed int cp_int32;
typedef char cp_int8;
typedef unsigned int cp_uint32; #endif

上面是数据类型的定义。为了跨平台使用

以下是hashtable的数据结构头文件

//
// hashStruct.h
// dataStruct
//
// Created by hherima on 14-7-29.
// Copyright (c) 2014年 . All rights reserved.
// #ifndef dataStruct_hashStruct_h
#define dataStruct_hashStruct_h
#include <stdlib.h>
#include "cpPlatform.h"
#include "dyArray.h" struct Node
{
cp_int8* m_pKey; //the hash key.
cp_int32 m_nKeyLength; // the length of the hash key in bytes.
void* m_pVal;//hash_node value
struct Node* m_pNext;
};//hash table,use link list to process conflict struct HashTable
{
cp_int32 m_nLength; //hash table's length.
cp_int32 m_nEleNum; //hash table's element count.
struct Node **m_ppHead;//the hash table's array to record all key's value.
}; cp_int32 GetHashFileNum(cp_int8* pKey, cp_int32 nKeyLength); struct Node* HashFindOne(cp_int8* pKey,cp_int32 nKeyLength,struct HashTable *pTable);//search cp_int32 HashFindMultkeyredund(cp_int8* pKey,cp_int32 nKeyLength,struct HashTable *pTable,struct DynamicArray *pdestArray);
void HashInsertOne(cp_int8* pKey,cp_int32 nKeyLength,void* pVal,struct HashTable *pTable);//insert
void HashInsertOneKeyredund(char* pKey,cp_int32 nKeyLength,void* pVal,struct HashTable *pTable); void HashDelOne(struct HashTable * pTable,void (*pFreeFunc) (void *),cp_int8 *pKey,cp_int32 nKeyLength); struct HashTable * HashTableCreate(cp_int32 nKeyNum);
struct Node* HashGetFirst(struct HashTable *pTable);
struct Node* HashGetNext(struct HashTable *pTable,cp_int8* pKey,cp_int32 nKeyLength); cp_int32 HashGetLength(struct HashTable *pTable);
void HashTableVisit(struct HashTable * pTable,void (*pVisitFunc) (void *,void *),void *pAgent);
void HashTableReset(struct HashTable * pTable,void (*pFreeFunc) (void *)); void HashTableDestroy(struct HashTable * pTable,void (*pFreeFunc) (void *)); cp_int32 HashGetValue(cp_int8* pKey,cp_int32 nKeyLength,cp_int32 nTableLength); #endif

源文件

//
// hashStruct.c
// dataStruct
//
// Created by hherima on 14-7-29.
// Copyright (c) 2014年 . All rights reserved.
//
#include "hashStruct.h" #define MAX_HASH_PRIME_ARRAY_NUM 7
/**************************************************************************************************
function name:
HashGetValue
description:
the hash arithmetic to get the position of the certain key.
parameter:
pKey: the exclusive symbol which is related to a data block in hash table.
nKeyLength: the key string's length.
nTableLength: the hash table's length.
return value:
the position of the certain key.
***************************************************************************************************/ cp_int32 HashGetValue(cp_int8* pKey,cp_int32 nKeyLength,cp_int32 nTableLength)
{
cp_uint32 h = 0;
cp_uint32 g = 0; if(!pKey || nKeyLength<1 || nTableLength<1) //if the input parameter is invalid, return.
{
return -1;
}
while(nKeyLength--) // get each charactor and use it to compute hash value.
{
h = (h<<4) + *pKey++;
g = h & 0xF0000000L;
if(g)
{
h ^= g>>24;
}
h &= ~g;
}
return h % nTableLength;
} /**************************************************************************************************
function name:
HashFindOne
description:
search the position's node of the certain key.
parameter:
pKey: the exclusive symbol which is related to a data block in hash table.
nKeyLength: the key string's length.
pTable: the hash table.
return value:
the node pointer or null.
***************************************************************************************************/ struct Node* HashFindOne(cp_int8* pKey,cp_int32 nKeyLength,struct HashTable *pTable)//search
{
cp_int32 nPos = 0;
struct Node* pCur = NULL; //if the input parameter is invalid, return.
if(!pTable || !pKey || nKeyLength<1)
{
return NULL;
}
nPos = HashGetValue(pKey,nKeyLength,pTable->m_nLength);
if(nPos>=0)
pCur = pTable->m_ppHead[nPos];
//cur = table->head[hash_get_value(key,key_length,table->length)];
while(pCur) // if has link list, visit all the list to find the right one.
{
if(pCur->m_nKeyLength == nKeyLength && MEMCMPFUN(pCur->m_pKey,pKey,nKeyLength) == 0)
{
return pCur;
}
pCur = pCur->m_pNext;
}
return NULL;
} /**************************************************************************************************
function name:
HashFindMultkeyredund
description:
search the node of the certain key, there will be several one.
parameter:
pKey: the exclusive symbol which is related to several data block in hash table.
nKeyLength: the key string's length.
pTable: the hash table.
pdestArray: the dynamic array which is used to save results and need be initilalized.
return value:
the node pointer or null.
***************************************************************************************************/ cp_int32 HashFindMultkeyredund(cp_int8* pKey,cp_int32 nKeyLength,struct HashTable *pTable,struct DynamicArray *pDestArray) //search ,the key is redundant.
{
int nResNum = 0;
struct Node* pCur = NULL; //if the input parameter is invalid, return.
if(!pTable || !pKey || nKeyLength<1 || !pDestArray)
{
return -1;
}
pCur = pTable->m_ppHead[HashGetValue(pKey,nKeyLength,pTable->m_nLength)];
while(pCur) //if has link list, visit all the list and find the right one.
{
if(pCur->m_nKeyLength == nKeyLength && MEMCMPFUN(pCur->m_pKey,pKey,nKeyLength) == 0)
{
DyArrayAppend(pDestArray, pCur->m_pVal); // put the right one to array.
nResNum++;
//return cur;
}
pCur = pCur->m_pNext;
}
return nResNum;
} /**************************************************************************************************
function name:
hashExpand
description:
expand the array when it's too small.THIS FUNCTION CAN'T BE USED BECAUSE HASH VALUE IS
CHANGED WHEN TABLE LENGTH CHANGED.
parameter:
pTable: the hash table.
nNeed: the needed new size.
return value:
if succeed,return the true, else, return false.
***************************************************************************************************/ cp_bool HashExpand(struct HashTable * pTable, cp_int32 nNeed)
{
cp_int32 i;
struct Node ** pData = NULL;
cp_int32 nAllocSize = 0;
cp_int32 nPrime[MAX_HASH_PRIME_ARRAY_NUM] = {
17, //0
37, //1
79, //2 163, //3
331, //4
673, //5 1361 //6
};//The prime table used to be the length of hash table to decrease conflict. //if the input parameter is invalid, return.
if(!pTable || nNeed<1)
{
return CP_FALSE;
}
//if need, expand to one and half times of original size.
if(((pTable->m_nEleNum + nNeed) + ((pTable->m_nEleNum + nNeed)>>1) ) > pTable->m_nLength)
{
nAllocSize = pTable->m_nLength + (pTable->m_nLength>>1);
for(i=0; i<MAX_HASH_PRIME_ARRAY_NUM; i++) //find the nearest one of prime array.
{
if(nPrime[i] > nAllocSize)
{
nAllocSize = nPrime[i];
break;
}
}
pData = (struct Node **)REALLOCFUN(pTable->m_ppHead, sizeof(struct Node *) * nAllocSize);
if(pData != NULL)
{
// clear the expanded space.
MEMSETFUN(pData+pTable->m_nLength,0,(nAllocSize-pTable->m_nLength)*sizeof(struct Node *));
pTable->m_ppHead = pData;
pTable->m_nLength = nAllocSize;
}
}
return ((pTable->m_nEleNum + nNeed) + ((pTable->m_nEleNum + nNeed)>>1) <= pTable->m_nLength) ? CP_TRUE : CP_FALSE;
} /**************************************************************************************************
function name:
HashInsertOne
description:
insert the node of the certain key.
parameter:
pKey: the exclusive symbol which is related to a data block in hash table.
nKeyLength: the key string's length.
pVal: the node pointer of the certain key.
pTable: the hash table.
return value:
none.
***************************************************************************************************/ void HashInsertOne(cp_int8* pKey,cp_int32 nKeyLength,void* pVal,struct HashTable *pTable)//insert
{
cp_int32 nPos = 0;
struct Node** pNode = NULL;
struct Node* pTmp = NULL; //if the input parameter is invalid, return.
if(!pTable || !pKey || nKeyLength<1)
{
return ;
}
//comment it because when it expands, the same key's position changed and the original key position CAN'T be found.
/*if((pTable->m_EleNum + 1) + ((pTable->m_EleNum + 1)>>1) > pTable->m_nLength)
{
HashExpand(pTable, 1);
}*/
//compute the hash position.
pTable->m_nEleNum++;
nPos = HashGetValue(pKey,nKeyLength,pTable->m_nLength);
pNode = &pTable->m_ppHead[nPos]; //if this key is NOT exist, insert it.
if(HashFindOne(pKey,nKeyLength,pTable) == NULL)
{
//malloc a new node and set the value.
pTmp=(struct Node*)MALLOCFUN(sizeof(struct Node));
MEMSETFUN(pTmp,0,sizeof(struct Node));
pTmp->m_pKey = (char*)MALLOCFUN(nKeyLength+2);//for Unicode, two bytes zero is needed.
MEMSETFUN(pTmp->m_pKey,0,nKeyLength+2);
MEMCPYFUN(pTmp->m_pKey,pKey,nKeyLength);
pTmp->m_nKeyLength = nKeyLength;
pTmp->m_pVal = pVal;
pTmp->m_pNext=NULL;
//if there is a list, then insert to the tail.
while(*pNode)
{
pNode = &((*pNode)->m_pNext);
}
*pNode = pTmp;
}
} /**************************************************************************************************
function name:
HashInsertOneKeyredund
description:
insert the node of the certain key.
parameter:
pKey: the symbol which is related to a data block in hash table.
nKeyLength: the key string's length.
pVal: the node pointer of the certain key.
pTable: the hash table.
return value:
none.
***************************************************************************************************/ void HashInsertOneKeyredund(cp_int8* pKey,cp_int32 nKeyLength,void* pVal,struct HashTable *pTable) //insert,key is redundant.
{
cp_int32 nPos = 0;
struct Node** pNode = NULL;
struct Node* pTmp = NULL; //if the input parameter is invalid, return.
if(!pTable || !pKey || nKeyLength<1)
{
return ;
}
//comment it because when it expands, the same key's position changed and the original key position CAN'T be found.
/*if((table->ele_num + 1) + ((table->ele_num + 1)>>1) > table->length)
{
hash_expand(table, 1);
}*/
//compute the hash position.
pTable->m_nEleNum++;
nPos= HashGetValue(pKey,nKeyLength,pTable->m_nLength);
pNode = &pTable->m_ppHead[nPos]; //compare with HashInsertOne, comment this line. if(hash_find_one(key,key_length,table) == NULL)
{
//malloc a new node and set the value.
pTmp=(struct Node*)MALLOCFUN(sizeof(struct Node));
MEMSETFUN(pTmp,0,sizeof(struct Node));
pTmp->m_pKey = (char*)MALLOCFUN(nKeyLength+2);//for Unicode, two bytes zero is needed.
MEMSETFUN(pTmp->m_pKey,0,nKeyLength+2);
MEMCPYFUN(pTmp->m_pKey,pKey,nKeyLength);
pTmp->m_nKeyLength = nKeyLength;
pTmp->m_pVal = pVal;
pTmp->m_pNext=NULL;
//if has a link list, then insert the new node to the tail.
while(*pNode)
{
pNode = &((*pNode)->m_pNext);
}
*pNode = pTmp;
}
} /**************************************************************************************************
function name:
HashTableCreate
description:
create the hash table when the program starts.
parameter:
nKeyNum: the key count of the program's data.
return value:
the hash table.
***************************************************************************************************/ struct HashTable * HashTableCreate(cp_int32 nKeyNum)
{
struct HashTable * pTable = NULL;
cp_int32 i;
cp_int32 nPrime[MAX_HASH_PRIME_ARRAY_NUM] = {
17, //0
37, //1
79, //2 163, //3
331, //4
673, //5 1361 //6
};//The prime table used to be the length of hash table to decrease conflict. //if the input parameter is invalid, return.
if(nKeyNum < 1)
{
return NULL;
}
pTable = (struct HashTable *)MALLOCFUN(sizeof(struct HashTable));
if(!pTable)
{
return NULL;
}
MEMSETFUN(pTable,0,sizeof(struct HashTable));
//The default length is 1.5 times of key's number.
pTable->m_nLength = nKeyNum + (nKeyNum<<1);
//find the nearest size of prime array.
for(i=0; i<MAX_HASH_PRIME_ARRAY_NUM; i++)
{
if(nPrime[i] > pTable->m_nLength)
{
pTable->m_nLength = nPrime[i];
break;
}
}
pTable->m_ppHead = (struct Node **) MALLOCFUN(sizeof(struct Node *)*pTable->m_nLength);
if(!pTable->m_ppHead)
{
FREEFUN(pTable);
return NULL;
}
MEMSETFUN(pTable->m_ppHead,0,sizeof(struct Node *)*pTable->m_nLength);
return pTable;
}
/**************************************************************************************************
function name:
HashTableVisit
description:
visit all the elements of the hash table.
parameter:
pTable: the hash table.
pVisitFunc: the visit function for each element of the hash table, the first parameter is hash's element,
the second parameter is 'agent' which is to pass to caller.
pAgent: used to pass to the call back funtion.
return value:
none
***************************************************************************************************/ void HashTableVisit(struct HashTable * pTable,void (*pVisitFunc) (void *,void *),void *pAgent)
{
cp_int32 i;
struct Node * pTmp = NULL; //if the input parameter is invalid, return.
if(!pTable)
{
return ;
}
//visit each position if it's not null.
for(i=0; i<pTable->m_nLength; i++)
{
if(pTable->m_ppHead[i] == NULL)
{
continue;
}
if(pTable->m_ppHead[i]->m_pKey)
{
if(pVisitFunc)
{
pVisitFunc(pTable->m_ppHead[i]->m_pVal,pAgent);
}
pTmp = pTable->m_ppHead[i]->m_pNext;
//if has link list, then visit the whole list.
while(pTmp)
{
if(pVisitFunc)
{
pVisitFunc(pTmp->m_pVal,pAgent);
}
pTmp = pTmp->m_pNext;
}
}
}
return ;
} /**************************************************************************************************
function name:
HashGetFirst
description:
get the first element of the hash table.
parameter:
pTable: the hash table.
return value:
the first element
***************************************************************************************************/ struct Node* HashGetFirst(struct HashTable *pTable)
{
cp_int32 i; //if the input parameter is invalid, return.
if(!pTable)
{
return NULL;
}
//find the first not null element of head array.
for(i=0; i<pTable->m_nLength; i++)
{
if(pTable->m_ppHead[i] == NULL)
{
continue;
}
if(pTable->m_ppHead[i]->m_pKey)
{
return pTable->m_ppHead[i];
}
}
return NULL;
} /**************************************************************************************************
function name:
HashGetNext
description:
get the next element of the current node which key is given.
parameter:
pTable: the hash table.
pKey: the exclusive symbol which is related to a data block in hash table.
nKeyLength: the key string's length.
return value:
the next element
***************************************************************************************************/ struct Node* HashGetNext(struct HashTable *pTable,cp_int8* pKey,cp_int32 nKeyLength)
{
struct Node* pNext = NULL;
struct Node* pCur = NULL;
cp_int32 nPos;
cp_int32 i; //if the input parameter is invalid, return.
if(!pTable)
{
return NULL;
}
//get the position of the key.
nPos = HashGetValue(pKey,nKeyLength,pTable->m_nLength);
if(nPos == -1)
{
return NULL;
}
pCur = pTable->m_ppHead[nPos];
if(!pCur)
{
return NULL;//the related node of the pKey is NOT exist, so return null.
}
//find the right one whose key is same with pKey.
while(pCur)
{
if(pCur->m_nKeyLength == nKeyLength && MEMCMPFUN(pCur->m_pKey,pKey,nKeyLength) == 0)
{
break;
}
pCur = pCur->m_pNext;
}
//get the next pointer directly.
if(pCur && pCur->m_pNext)
{
pNext = pCur->m_pNext;
}
else
{
//get the next not null one from the head array.
nPos++;
for(i=nPos; i<pTable->m_nLength; i++)
{
if(pTable->m_ppHead[i] == NULL)
{
continue;
}
if(pTable->m_ppHead[i]->m_pKey)
{
pNext = pTable->m_ppHead[i];
break;
}
}
}
return pNext;
} /**************************************************************************************************
function name:
HashTableReset
description:
clear the hash table.
parameter:
pTable: the hash table.
pFreeFunc: the free function for hash data "val" which is given by caller.
return value:
none
***************************************************************************************************/ void HashTableReset(struct HashTable * pTable,void (*pFreeFunc) (void *))
{
cp_int32 i;
struct Node * pTmp = NULL;
struct Node * pTmp1 = NULL; //if the input parameter is invalid, return.
if(!pTable)
{
return;
}
//reset each element of the head array and free related memory.
for(i=0; i<pTable->m_nLength; i++)
{
if(pTable->m_ppHead[i] == NULL)
{
continue;
}
if(pTable->m_ppHead[i]->m_pKey)
{
FREEFUN(pTable->m_ppHead[i]->m_pKey);
if(pFreeFunc)
{
pFreeFunc(pTable->m_ppHead[i]->m_pVal);
}
pTmp = pTable->m_ppHead[i]->m_pNext;
FREEFUN(pTable->m_ppHead[i]);
pTable->m_ppHead[i] = NULL;
//free all the link list.
while(pTmp)
{
FREEFUN(pTmp->m_pKey);
if(pFreeFunc)
{
pFreeFunc(pTmp->m_pVal);
}
pTmp1 = pTmp;
pTmp = pTmp->m_pNext;
FREEFUN(pTmp1);
}
}
}
//clear the table.
MEMSETFUN(pTable->m_ppHead,0,sizeof(struct Node *)*pTable->m_nLength);
pTable->m_nEleNum = 0;
return ;
} /**************************************************************************************************
function name:
HashTableDestroy
description:
destroy the hash table when the program exits.
parameter:
pTable: the hash table.
pFreeFunc: the free function for hash data "val" which is given by caller.
return value:
none
***************************************************************************************************/ void HashTableDestroy(struct HashTable * pTable,void (*pFreeFunc) (void *))
{
cp_int32 i;
struct Node * pTmp = NULL;
struct Node * pTmp1 = NULL; //if the input parameter is invalid, return.
if(!pTable)
{
return;
}
//clear each element and free its memory.
for(i=0; i<pTable->m_nLength; i++)
{
if(pTable->m_ppHead[i] == NULL)
{
continue;
}
if(pTable->m_ppHead[i]->m_pKey)
{
FREEFUN(pTable->m_ppHead[i]->m_pKey);
if(pFreeFunc)
{
pFreeFunc(pTable->m_ppHead[i]->m_pVal);
}
pTmp = pTable->m_ppHead[i]->m_pNext;
FREEFUN(pTable->m_ppHead[i]);
pTable->m_ppHead[i] = NULL;
//free the link list.
while(pTmp)
{
FREEFUN(pTmp->m_pKey);
if(pFreeFunc)
{
pFreeFunc(pTmp->m_pVal);
}
pTmp1 = pTmp;
pTmp = pTmp->m_pNext;
FREEFUN(pTmp1);
}
}
}
//free the table.
FREEFUN(pTable->m_ppHead);
pTable->m_ppHead = NULL;
FREEFUN(pTable);
return ;
} /**************************************************************************************************
function name:
HashDelOne
description:
delete one node of hash table.
parameter:
pTable: the hash table.
pFreeFunc: the free function for hash data "val" which is given by caller.
pKey: the exclusive symbol which is related to a data block in hash table.
nKeyLength: the key string's length.
return value:
none
***************************************************************************************************/ void HashDelOne(struct HashTable * pTable,void (*pFreeFunc) (void *),char *pKey,cp_int32 nKeyLength)
{
cp_int32 nPos = 0;
struct Node *pTmp = NULL;
struct Node **pTmp1 = NULL;
struct Node *pTmp2 = NULL; //if the input parameter is invalid, return.
if(!pTable || !pKey || nKeyLength<1)
{
return;
}
//compute the hash position.
nPos = HashGetValue(pKey,nKeyLength,pTable->m_nLength);
if(!pTable->m_ppHead[nPos])
{
return;//the related node of the key is NOT exist, return.
}
//the first one is the right one.
if(pTable->m_ppHead[nPos]->m_nKeyLength == nKeyLength && MEMCMPFUN(pTable->m_ppHead[nPos]->m_pKey,pKey,nKeyLength) == 0)
{
pTable->m_nEleNum--;
FREEFUN(pTable->m_ppHead[nPos]->m_pKey);
pTable->m_ppHead[nPos]->m_pKey = NULL;
if(pFreeFunc)
pFreeFunc(pTable->m_ppHead[nPos]->m_pVal);
pTable->m_ppHead[nPos]->m_pVal = NULL;
if(pTable->m_ppHead[nPos]->m_pNext)
{
pTmp = pTable->m_ppHead[nPos];
pTable->m_ppHead[nPos] = pTable->m_ppHead[nPos]->m_pNext;
FREEFUN(pTmp);
}
else
{
FREEFUN(pTable->m_ppHead[nPos]);
pTable->m_ppHead[nPos] = NULL;
}
}
else
{
//find the right one in the link list.
pTmp1 = &(pTable->m_ppHead[nPos]->m_pNext);
while(*pTmp1)
{
if((*pTmp1)->m_nKeyLength == nKeyLength && MEMCMPFUN((*pTmp1)->m_pKey,pKey,nKeyLength) == 0)
{
//find it, free it and relink the link list.
pTable->m_nEleNum--;
FREEFUN((*pTmp1)->m_pKey);
(*pTmp1)->m_pKey = NULL;
if(pFreeFunc)
pFreeFunc((*pTmp1)->m_pVal);
(*pTmp1)->m_pVal = NULL;
if((*pTmp1)->m_pNext)
{
pTmp2 = *pTmp1;
*pTmp1 = (*pTmp1)->m_pNext;
FREEFUN(pTmp2);
}
else
{
FREEFUN(*pTmp1);
*pTmp1 = NULL;
}
break;
}
else
{
pTmp1 = &((*pTmp1)->m_pNext);
}
}
}
return ;
} /**************************************************************************************************
function name:
HashGetLength
description:
get the total length of the hash table.
parameter:
pTable: the hash table.
return value:
none
***************************************************************************************************/ cp_int32 HashGetLength(struct HashTable *pTable)
{
return pTable ? pTable->m_nEleNum : -1;
}
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