数据结构-线性表-创新互联
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静态顺序表
当前标题:数据结构-线性表-创新互联
本文来源:http://ybzwz.com/article/hhgse.html
SqList.c
//
// Created by jimeng on 2022/12/27.
//
#include#include// 静态分配
#define MaxSize 50
typedef struct {
int data[MaxSize];
int length;
}SqList;
// 初始化静态顺序表
SqList* InitSqList() {
SqList* list = (SqList*) malloc(sizeof(SqList));
list->length = 0;
return list;
}
// 静态顺序表插入数据
int SqListInsert(SqList * sqList, int i, int e) {
if(i< 1 || i >sqList->length+1) {
return 0;
}
if(sqList->length >= MaxSize) {
return 0;
}
for(int j = sqList->length; j>=i;j--) {
sqList->data[j] = sqList->data[j-1];
}
sqList->data[i-1] = e;
sqList->length++;
return 1;
}
// 静态顺序表打印数据
void SqListPrint(SqList* sqList) {
int length = sqList->length;
printf("length: %d\n", length);
printf("elements: { ");
for (int i = 0; i< length; ++i) {
printf("%d ", sqList->data[i]);
}
printf("}\n");
}
// 静态顺序表删除操作
int SqListDelete(SqList* sqList, int i, int* e) {
if(i<1||i>sqList->length) {
return 0;
}
*e = sqList->data[i-1];
for(int j = i;jlength;j++) {
sqList->data[i-1] = sqList->data[i];
}
sqList->length--;
return 1;
}
int SqListLocateElem(SqList* sqList, int e) {
int i;
for(i = 0;ilength; i++) {
if(sqList->data[0] == e) {
return i+1;
break;
}
}
return 0;
}
main.c
#include#include "SqList/SqList.c"
int main() {
printf("静态顺序表\n");
SqList* sqList = SqListInit();
SqListInsert(sqList, 1, 1);
SqListPrint(sqList);
SqListInsert(sqList, 2, 2);
SqListPrint(sqList);
int deldata = 0;
SqListDelete(sqList, 1, &deldata);
SqListPrint(sqList);
int index = 0;
index = SqListLocateElem(sqList, 2);
printf("2 ->%d\n", index);
printf("动态顺序表\n");
return 0;
}
动态顺序表// 动态分配
#define InitSize 100
typedef struct {
int * data;
int ListMaxSize, length;
}SeqList;
// 动态顺序表初始化
SeqList* SeqListInit() {
SeqList* list = (SeqList*) malloc(sizeof(SeqList));
list->data = (int*) malloc(sizeof(int)*InitSize);
list->ListMaxSize = InitSize;
list->length = 0;
return list;
}
// 动态顺序表插入数据
int SeqListInsert(SeqList* list, int i, int e) {
if(i<1 || i>list->length) {
return 0;
}
if(list->length >= list->ListMaxSize) {
int* newArray = (int*) malloc(sizeof(int)*(list->ListMaxSize+InitSize));
int j;
for(j = 0; jlength;j++) {
newArray[j] = list->data[j];
}
newArray[j] = e;
list->data = newArray;
list->ListMaxSize +=InitSize;
}
for(int j = list->length; j>=i;j--) {
list->data[j] = list->data[j-1];
}
list->data[i-1] = e;
list->length++;
return 1;
}
链表
单链表LinkList.c
//
// Created by jihuaixi on 22-12-27.
//
#include#includetypedef struct LNode {
int data;
struct LNode* next;
}LNode, *LinkList;
// 头插法建立单链表
LinkList List_HeadInsert(LinkList list) {
LNode* s;
int x;
list = (LinkList) malloc(sizeof(LNode));
list->next = NULL;
scanf("%d", &x);
while (x != 9999) {
s = (LNode*) malloc(sizeof(LNode));
s->data = x;
s->next = list->next;
list->next = s;
scanf("%d", &x);
}
return list;
}
// 尾插法建立单链表
LinkList List_TailInsert(LinkList list) {
int x;
list = (LinkList) malloc(sizeof(LNode));
LNode *s, *r = list;
scanf("%d", &x);
while (x != 9999) {
s = (LNode*) malloc(sizeof(LNode));
s->data = x;
r->next = s;
r = s;
scanf("%d", &x);
}
r->next = NULL;
return list;
}
// 打印链表的值
void List_Print(LinkList list) {
LNode* s = list->next;
printf("{ ");
while (s != NULL) {
printf("%d ", s->data);
s = s->next;
}
printf("}\n");
}
// 按序号查找值
LNode* getElem(LinkList list, int i) {
int j = 1;
LNode *p = list->next;
if(i == 0) {
return list;
}
if(i< 1) {
return NULL;
}
while (p&&jnext;
j++;
}
return p;
}
// 按值查找节点
LNode* getElemByValue(LinkList list, int e) {
LNode *p = list->next;
while (p!=NULL&&p->data!=e) {
p = p->next;
}
return p;
}
// 获取表长
int List_GetLength(LinkList list) {
int length = 0;
LNode *p = list;
while (p->next != NULL) {
p = p->next;
length++;
}
return length;
}
// 插入节点
int List_Insert(LinkList list, int i, int e) {
int length = List_GetLength(list);
if(i< 1 || i >length) {
return 0;
}
LNode *priv = getElem(list, i-1);
LNode *p = (LNode*) malloc(sizeof(LNode));
p->data = e;
p->next = priv->next;
priv->next = p;
return 1;
}
// 删除节点
int List_Delete(LinkList list, int i) {
int length = List_GetLength(list);
if(i< 1 || i >length) {
return 0;
}
LNode *priv = getElem(list, i-1);
LNode *q = priv->next;
priv->next = priv->next->next;
free(q);
return 1;
}
main.c
#include#include "LinkList/LinkList.c"
int main() {
printf("单链表\n");
LinkList list;
// list = List_HeadInsert(list);
list = List_TailInsert(list);
List_Print(list);
LNode *e = getElem(list, 2);
printf("2 ->value: %d\n", e->data);
LNode *e2 = getElemByValue(list, 3);
printf("3 ->index: %d\n", e2->data);
List_Insert(list, 2, 10);
List_Print(list);
List_Delete(list, 3);
List_Print(list);
int length = List_GetLength(list);
printf("length: %d\n", length);
return 0;
}
双链表DLinkList.c
//
// Created by jihuaixi on 22-12-27.
//
typedef int ElemType;
typedef struct DNode {
ElemType data;
struct DNode *prior, *next;
}DNode, *DLinkList;
//创建双链表
DLinkList DLinkList_Creat(DLinkList list) {
ElemType x;
DNode *p = (DNode*) malloc(sizeof(DNode)); // 头结点
list = p;
scanf("%d", &x);
DNode *q;
while (x!=9999) {
q = (DNode*) malloc(sizeof(DNode));
q->prior = p;
q->data = x;
p->next = q;
p = q;
scanf("%d", &x);
}
q->next = NULL;
return list;
}
//打印双链表
void DLinkList_Print(DLinkList list) {
printf("{ ");
DNode *p = list->next;
while (p) {
printf("%d ", p->data);
p = p->next;
}
printf("}\n");
}
//获取双链表长度
int DLinkList_GetLength(DLinkList list) {
int length = 0;
DNode *p = list->next;
while (p) {
p = p->next;
length++;
}
return length;
}
//插入双链表元素
int DLinkList_Insert(DLinkList list, int i, ElemType e) {
if(i< 1 || i >DLinkList_GetLength(list)) {
return 0;
}
DNode *p = list->next;
int j = 1;
while (p!=NULL && jnext;
j++;
}
DNode *q = (DNode*) malloc(sizeof(DNode));
q->data = e;
q->next = p->next;
q->prior = p;
p->next = q;
q->next->prior = q;
return 1;
}
//删除双链表元素
int DLinkList_Delete(DLinkList list, int i) {
if(i< 1 || i >DLinkList_GetLength(list)) {
return 0;
}
DNode *p = list->next;
int j = 1;
while (p!=NULL && jnext;
j++;
}
DNode *q = p->next;
p->next = q->next;
q->next->prior = p;
free(q);
return 1;
}
main.c
#include#include "DLinkList/DLinkList.c"
int main() {
printf("双链表: \n");
DLinkList list;
list = DLinkList_Creat(list);
DLinkList_Print(list);
DLinkList_Insert(list, 2, 999);
DLinkList_Print(list);
DLinkList_Delete(list, 3);
DLinkList_Print(list);
return 0;
}
循环单链表尾节点的next指向头结点
循环双链表头结点的prior指向尾节点
尾节点的next指向头结点
静态链表//
// Created by jihuaixi on 22-12-28.
//
#define MaxSize 50
typedef struct {
int data;
int next;
}SLinkList[MaxSize];
next=-1作为结束标志
对于不支持指针的编程语言中,可采用静态链表的方式。
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当前标题:数据结构-线性表-创新互联
本文来源:http://ybzwz.com/article/hhgse.html