C封装单链表对象
2018-08-28 本文已影响6人
Mr_Bluyee
SingleLinkedList(单链表)
github源码
特点:
1.用一组任意的存储单元存储数据元素,逻辑上相邻的两个数据元素其存储的物理位置不要求紧邻,由此,这种存储结构为非顺序映像或链式映像。
2.存储节点包含两个域:其中存储数据元素信息的域称为数据域,存储直接后继存储位置的域称为指针域。
3.整个链表的存取必须从头指针开始,头指针表示链表中第一个节点的存储位置。同时,由于最后一个数据元素没有直接后继,则线性链表中最后一个结点的指针为空(NULL)。
4.在单链表中,取得第i个元素必须从头指针出发寻找,因此单链表是非随机存取的存储结构。
5.在单链表中插入节点temp:
temp->next = p->next;
p->next = temp;
6.在单链表中删除节点temp:
temp = p->next;
p->next = temp->next;
free(temp);
7.在单链表中插入或删除一个节点时,仅需修改指针而不需要移动元素。
8.单链表获取、插入、删除元素的时间复杂度均为O(n),因为找到第i个结点都必须首先找到第i-1个结点,while循环环体中的语句频度与被查元素在表中位置有关,若1<=i<=n,则频度为i-1,否则频度为n。
SingleLinkedList.c文件
#include <stdio.h>
#include <malloc.h>
#include "SingleLinkedList.h"
static void clear(SingleLinkedList *This);
static int isEmpty(SingleLinkedList *This);
static int length(SingleLinkedList *This);
static void print(SingleLinkedList *This);
static int indexElem(SingleLinkedList *This, ElemType* x);
static int getElem(SingleLinkedList *This, int index, ElemType *e);
static int modifyElem(SingleLinkedList *This, int index, ElemType* e);
static int deleteElem(SingleLinkedList *This, int index, ElemType* e);
static int appendElem(SingleLinkedList *This, ElemType *e);
static int insertElem(SingleLinkedList *This, int index, ElemType *e);
static int popElem(SingleLinkedList *This, ElemType* e);
SingleLinkedList *InitSingleLinkedList(){
SingleLinkedList *L = (SingleLinkedList *)malloc(sizeof(SingleLinkedList));
Node *p = (Node *)malloc(sizeof(Node));
L->This = p;
p->next = NULL;
L->clear = clear;
L->isEmpty = isEmpty;
L->length = length;
L->print = print;
L->indexElem = indexElem;
L->getElem = getElem;
L->modifyElem = modifyElem;
L->deleteElem = deleteElem;
L->appendElem = appendElem;
L->insertElem = insertElem;
L->popElem = popElem;
return L;
}
void DestroySingleLinkedList(SingleLinkedList *L){
L->clear(L);
free(L->This);
free(L);
L = NULL;
}
static void clear(SingleLinkedList *This){
Node *p = This->This->next;
Node *temp = NULL;
while(p){
temp = p;
p = p->next;
free(temp);
}
p = This->This;
p->next = NULL;
}
static int isEmpty(SingleLinkedList *This){
Node *p = This->This;
if(p->next){
return 0;
}else{
return 1;
}
}
static int length(SingleLinkedList *This){
int j = 0;
Node *p = This->This->next;
while(p){
j++;
p = p->next;
}
return j;
}
static void print(SingleLinkedList *This){
Node *p = This->This->next;
while(p){
printf("%d ", p->elem);
p = p->next;
}
printf("\n");
}
static int indexElem(SingleLinkedList *This, ElemType* e){
Node *p = This->This->next;
int pos = -1;
int j = 0;
while(p){
if(*e == p->elem){
pos = j;
}
p = p->next;
j++;
}
return pos;
}
static int getElem(SingleLinkedList *This, int index, ElemType *e){
Node *p = This->This->next;
int j = 0;
while(p && j < index){
p = p->next;
j++;
}
if(!p || j > index) return -1;
*e = p->elem;
return 0;
}
static int modifyElem(SingleLinkedList *This, int index, ElemType* e){
Node *p = This->This->next;
int j = 0;
while(p && j < index){
p = p->next;
j++;
}
if(!p || j > index) return -1;
p->elem = *e;
return 0;
}
static int insertElem(SingleLinkedList *This, int index, ElemType *e){
Node *p = This->This;
int j = 0;
Node *temp = (Node *)malloc(sizeof(Node));
if(!temp) return -1;
while(p && j < index){
p = p->next;
j++;
}
if(!p || j > index) return -1;
temp->elem = *e;
temp->next = p->next;
p->next = temp;
return 0;
}
static int deleteElem(SingleLinkedList *This, int index, ElemType* e){
Node *p = This->This;
Node *temp = NULL;
int j = 0;
while(p->next && j < index){
p = p->next;
j++;
}
if(!p->next || j > index) return -1;
temp = p->next;
p->next = temp->next;
*e = temp->elem;
free(temp);
return 0;
}
static int appendElem(SingleLinkedList *This, ElemType *e){
Node *p = This->This;
Node *temp = (Node *)malloc(sizeof(Node));
if(!temp) return -1;
while(p){
if(NULL == p->next){
temp->elem = *e;
p->next = temp;
temp->next = NULL;
}
p = p->next;
}
return 0;
}
static int popElem(SingleLinkedList *This, ElemType* e){
Node *p = This->This;
Node *temp = NULL;
while(p->next->next){
p = p->next;
}
temp = p->next;
if(!temp) return -1;
*e = temp->elem;
free(temp);
p->next = NULL;
return 0;
}
SingleLinkedList.h文件
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __SINGLELINKEDLIST_H
#define __SINGLELINKEDLIST_H
/* Includes ------------------------------------------------------------------*/
/* Exported types ------------------------------------------------------------*/
typedef int ElemType; //数据元素的类型,假设是int型的
typedef struct Node{
ElemType elem; //存储空间
struct Node *next;
}Node;
typedef struct SingleLinkedList{
Node *This;
void (*clear)(struct SingleLinkedList *This);
int (*isEmpty)(struct SingleLinkedList *This);
int (*length)(struct SingleLinkedList *This);
void (*print)(struct SingleLinkedList *This);
int (*indexElem)(struct SingleLinkedList *This, ElemType* x);
int (*getElem)(struct SingleLinkedList *This, int index, ElemType *e);
int (*modifyElem)(struct SingleLinkedList *This, int index, ElemType* e);
int (*deleteElem)(struct SingleLinkedList *This, int index, ElemType* e);
int (*appendElem)(struct SingleLinkedList *This, ElemType *e);
int (*insertElem)(struct SingleLinkedList *This, int index, ElemType *e);
int (*popElem)(struct SingleLinkedList *This, ElemType* e);
}SingleLinkedList;
/* Exported macro ------------------------------------------------------------*/
SingleLinkedList *InitSingleLinkedList();
void DestroySingleLinkedList(SingleLinkedList *L);
#endif
testSingleLinkedList.c文件
#include <stdio.h>
#include <malloc.h>
#include "SingleLinkedList.h"
int main(void){
int i;
ElemType elem,elem1;
SingleLinkedList *list = InitSingleLinkedList();
printf("list is empty:%d\n",list->isEmpty(list));
for(i=0;i<10;i++){
list->appendElem(list,&i);
}
list->print(list);
printf("list is empty:%d\n",list->isEmpty(list));
printf("list length:%d\n",list->length(list));
list->clear(list);
for (i = 10; i < 20; i++){
list->appendElem(list,&i);
}
list->print(list);
list->getElem(list,3,&elem1);
printf("the elem of index 3 is %d\n",elem1);
elem = 31;
list->modifyElem(list,3,&elem);
list->getElem(list,3,&elem1);
printf("modify the elem of index 3 to %d\n",elem1);
list->print(list);
elem = 25;
list->insertElem(list,5,&elem);
printf("insert elem %d to index 5\n",elem);
list->print(list);
list->deleteElem(list,7,&elem);
printf("delete elem %d of index 7\n",elem);
list->print(list);
elem = 14;
printf("the index of 14 is %d\n",list->indexElem(list,&elem));
list->popElem(list,&elem);
printf("pop elem %d\n",elem);
list->print(list);
DestroySingleLinkedList(list);
return 0;
}
编译:
gcc SingleLinkedList.c SingleLinkedList.h testSingleLinkedList.c -o testSingleLinkedList
运行testSingleLinkedList
输出:
list is empty:1
0 1 2 3 4 5 6 7 8 9
list is empty:0
list length:10
10 11 12 13 14 15 16 17 18 19
the elem of index 3 is 13
modify the elem of index 3 to 31
10 11 12 31 14 15 16 17 18 19
insert elem 25 to index 5
10 11 12 31 14 25 15 16 17 18 19
delete elem 16 of index 7
10 11 12 31 14 25 15 17 18 19
the index of 14 is 4
pop elem 19
10 11 12 31 14 25 15 17 18
