顺序表操作
2021-04-15 本文已影响0人
徐凯_xp
#include <stdio.h>
#include <stdlib.h>
#define ERROR 0
#define OK 1
typedef struct Vector {
int size, length;//size 顺序表大小,length现有长度
int *data;
} Vector;
void init(Vector *vector, int size) {
vector->size = size;
vector->length = 0;
vector->data = (int *)malloc(sizeof(int) * size);
}
int insert(Vector *vector, int loc, int value) {
if(loc < 0 || loc > vector->length){
return ERROR;//判断插入位置是否合法
}
if(vector->length >= vector->size){
return ERROR;//判断顺序表的元素是否已经到达上限
}
for(int i = vector->length ; i > loc ; i--){
vector->data[i] = vector->data[i-1];//每次向指定位置loc插入一个元素之前,都要将loc之后的所有元素顺次向后移动,从而给新的元素腾出一个空间。
}
vector->data[loc] = value;
vector->length++;
return OK;
}
void clear(Vector *vector) {
free(vector->data);
free(vector);
}
int main() {
Vector *a = (Vector *)malloc(sizeof(Vector));
init(a, 100);
printf("%d\n", insert(a, 1, 0));
printf("%d\n", insert(a, 0, 1));
printf("%d\n", insert(a, 2, 1));
printf("%d\n", insert(a, 1, 2));
printf("%d\n", insert(a, 0, 3));
clear(a);
return 0;
}
增加扩容函数
#include <stdio.h>
#include <stdlib.h>
#define ERROR 0
#define OK 1
typedef struct Vector {
int size, length;
int *data;
} Vector;
void init(Vector *vector, int size) {
vector->size = size;
vector->length = 0;
vector->data = (int *)malloc(sizeof(int) * size);
}
// 扩容函数 expand
void expand(Vector *vector){
int *old_data = vector->data;
vector->size = vector->size * 2;
vector->data = (int *)malloc(sizeof(int) * vector->size );
for(int i = 0 ;i < vector->length ; i++){
vector->data[i] = old_data[i];
}
free(old_data);
}
int insert(Vector *vector, int loc, int value) {
if (loc < 0 || loc > vector->length) {
return ERROR;
}
if (vector->length >= vector->size) {
// return ERROR;
expand(vector);
}
for (int i = vector->length; i > loc; --i) {
vector->data[i] = vector->data[i - 1];
}
vector->data[loc] = value;
vector->length++;
return OK;
}
void clear(Vector *vector) {
free(vector->data);
free(vector);
}
int main() {
Vector *a = (Vector *)malloc(sizeof(Vector));
init(a, 100);
printf("%d\n", insert(a, 1, 0));
printf("%d\n", insert(a, 0, 1));
printf("%d\n", insert(a, 2, 1));
printf("%d\n", insert(a, 1, 2));
printf("%d\n", insert(a, 0, 3));
clear(a);
return 0;
}
增加插入和查找函数
#include <stdio.h>
#include <stdlib.h>
#define ERROR 0
#define OK 1
typedef struct Vector {
int size, length;
int *data;
} Vector;
void init(Vector *vector, int size) {
vector->size = size;
vector->length = 0;
vector->data = (int *)malloc(sizeof(int) * size);
}
void expand(Vector *vector) {
int *old_data = vector->data;
vector->size = vector->size * 2;
vector->data = (int *)malloc(sizeof(int) * vector->size);
for (int i = 0; i < vector->length; ++i) {
vector->data[i] = old_data[i];
}
free(old_data);
}
int insert(Vector *vector, int loc, int value) {
if (loc < 0 || loc > vector->length) {
return ERROR;
}
if (vector->length >= vector->size) {
//return ERROR;
expand(vector);
}
for (int i = vector->length; i > loc; --i) {
vector->data[i] = vector->data[i - 1];
}
vector->data[loc] = value;
vector->length++;
return OK;
}
int search(Vector *vector, int value) {
for (int i = 0; i < vector->length; ++i) {
if (vector->data[i] == value) {
return i;
}
}
return -1;
}
int delete_node(Vector *vector, int index) {
//合法性进行判断
if(index < 0 || index >= vector->length){
return ERROR;
}
for(int i = index + 1; i < vector->length; i++){
vector->data[i-1] = vector->data[i];
}
vector->length--;
return OK;
}
void clear(Vector *vector) {
free(vector->data);
free(vector);
}
int main() {
Vector *a = (Vector *)malloc(sizeof(Vector));
init(a, 100);
printf("%d\n", insert(a, 0, 1));
printf("%d\n", insert(a, 0, 2));
printf("%d\n", delete_node(a, 1));
printf("%d\n", search(a, 0));
printf("%d\n", search(a, 1));
clear(a);
return 0;
}
输入格式
第一行输入一个正整数 mm(1 \leq m \leq 1001≤m≤100),代表一共有 mm 个操作。
接下来输入 mm 行,每行首先输入一个整数 tt,分别代表以下操作:
t = 1,代表插入操作,输入两个整数 a 和 b(1000≤a,b≤100),表示在 a 的位置上擦入元素 b,如果插入成功输出success,否则输出failed。
t=2,代表删除操作,输入一个整数 a(1000≤a≤100),删除位置 a上的元素,如果删除成功输出success,否则输出failed。
t=3,代表查找操作,输入一个整数 a(1000≤a≤100),查找元素值为 a 的元素,如果查找成功输出success,否则输出failed。
t=4,代表遍历操作,输出当前顺序表的所有元素。
输出格式
对应每个操作,输出结果。对于前三个操作,如果操作成功输出success,否则输出failed;对于第四个操作,从下标为 00 的位置开始输出当前顺序表的所有元素,每两个整数之间一个空格,最后一个整数后面没有空格。
#include <stdio.h>
#include <stdlib.h>
#define ERROR 0
#define OK 1
typedef struct Vector {
int size, length;
int *data;
} Vector;
void init(Vector *vector, int size) {
vector->size = size;
vector->length = 0;
vector->data = (int *)malloc(sizeof(int) * vector->size);
}
void expand(Vector *vector) {
int *old_data = vector->data;
vector->size = 2 * vector->size;
vector->data = (int *)malloc(sizeof(int) * vector->size);
for(int i = 0 ; i < vector->length; i++){
vector->data[i] = old_data[i];
}
free(old_data);
}
int insert(Vector *vector, int loc, int val) {
//判断插入位置合法性
if(loc < 0 || loc > vector->length){
printf("failed\n");
return ERROR;
}
if(vector->length >= vector->size){
expand(vector);
}
for(int i = vector->length; i > loc; --i){
vector->data[i] = vector->data[i - 1];
}
vector->data[loc] = val;
vector->length++;
printf("success\n");
return OK;
}
int search(Vector *vector, int val) {
for(int i = 0; i < vector->length; i++){
if(val == vector->data[i]){
printf("success\n");
return OK;
}
}
printf("failed\n");
return -1;
}
int delete_node(Vector *vector, int loc) {
//判断删除的合法性
if(loc < 0 || loc > vector->length){
printf("failed\n");
return ERROR;
}
for(int i = loc + 1; i < vector->length; i++){
vector->data[i-1] = vector->data[i];
}
vector->length --;
printf("success\n");
return OK;
}
void print(Vector *vector) {
for(int i = 0 ;i < vector->length; i++){
if(i > 0){
printf(" ");
}
printf("%d", vector->data[i]);
}
printf("\n");
}
void clear(Vector *vector) {
free(vector->data);
free(vector);
}
int main() {
Vector *a = (Vector *)malloc(sizeof(Vector));
init(a, 20);
int m;
scanf("%d",&m);
for(int i = 0; i < m; i++){
int t, loc, val;
scanf("%d",&t);
switch(t){
case 1:
scanf("%d %d", &loc, &val);
insert(a, loc, val);
break;
case 2:
scanf("%d", &loc);
delete_node(a, loc);
break;
case 3:
scanf("%d", &val);
search(a, val);
break;
case 4:
print(a);
break;
}
}
return 0;
}
