选择排序O(n^2)与快速排序O(nlogn)的优越性代码体现

时间:2023-03-08 23:19:10
选择排序O(n^2)与快速排序O(nlogn)的优越性代码体现

随机函数生成一个超大数组:

【code】:

 #include <iostream>

 #include <stdio.h>

 #include<time.h>

 #include<stdlib.h>

 #include<dos.h>

 using namespace std;

 int main()

 {

     freopen("random.txt","w",stdout);

     int n;

     scanf("%d",&n);

     int i;

     srand(time(NULL));

     printf("%d\n",n);

     for(i=;i<n;i++)

     {

         printf("%d ",rand());

     }

     printf("\n");

     fclose(stdout);

     return ;

 }

 /*

     time_t sTime,fTime;

     fTime=clock();

     _sleep(1000);

     sTime=clock(); //获取查找完成后的时间

     double duration=(double)(sTime-fTime)/CLOCKS_PER_SEC; //计算查找用时

     printf("此查询用时%lf秒\n\n",duration);

 */

快速排序(文件输入输出):
【code】:

 #include<iostream>

 #include<stdio.h>

 #include<algorithm>

 #include<time.h>

 using namespace std;

 int partition(int *a,int left,int right)

 {

     a[] = a[left];  //设置a[left]为主键值,存于a[0],即以a[left]值将[left,right]区间一分为二

     while(left<right)

     {

         while(left<right&&a[right]>=a[]) right--;  //从右边开始找到比主键值a[0]小的值,移到左边

         a[left]=a[right];

         while(left<right&&a[left]<=a[]) left++;    //从左边开始找到比主键值a[0]大的值,移到右边

         a[right]=a[left];

     }

     a[left] = a[];  //跳出while循环后的left==right,此时,区间已经一分为二了,将a[left]的值还原

     return left;

 }

 void QuickSort(int *a,int left,int right)

 {

     if(left<right)  //快拍区间要大于1

     {

         int mid = partition(a,left,right);  //进行一次划分,以a[left]划分区间为左右两个区间

         QuickSort(a,left,mid-);   //对左区间进行进一步划分

         QuickSort(a,mid+,right);  //对左区间进行进一步划分

     }

 }

 int a[];

 int main()

 {

     int n;

     freopen("random.txt","r",stdin);

     freopen("quicksortout.txt","w",stdout);

     scanf("%d",&n);

     int i;

     for(i=;i<=n;i++)

     {

         scanf("%d",a+i);

     }

     time_t ftime,stime;

     ftime = clock();  //获取排序前的时间

     QuickSort(a,,n);

     stime = clock();  //获取排序后的时间

     double duration=(double)(stime-ftime)/CLOCKS_PER_SEC; //计算排序用时

     for(i=;i<=n;i++)

     {

         printf("%d ",a[i]);

     }

     putchar();

     freopen("CON","w",stdout);

     printf("快速排序用时%lf\n",duration);

     return ;

 }

选择排序:

【code】:

 #include <iostream>

 #include <stdio.h>

 #include <time.h>

 #include <algorithm>

 using namespace std;

 void ChooseSort(int *a,int l,int r)

 {

     int i,j;

     for(i=l;i<=r;i++)

     {

         for(j=i+;j<=r;j++)

         {

             if(a[i]>a[j])

             {

                 swap(a[i],a[j]);

             }

         }

     }

 }

 int a[];

 int main()

 {

     int n;

     freopen("random.txt","r",stdin);

     freopen("choosesortout.txt","w",stdout);

     scanf("%d",&n);

     int i;

     for(i=;i<=n;i++)

     {

         scanf("%d",a+i);

     }

     time_t ftime,stime;

     ftime = clock();  //获取排序前的时间

     ChooseSort(a,,n);

     stime = clock();  //获取排序后的时间

     double duration=(double)(stime-ftime)/CLOCKS_PER_SEC; //计算排序用时

     for(i=;i<=n;i++)

     {

         printf("%d ",a[i]);

     }

     putchar();

     fclose(stdin);

     fclose(stdout);

     freopen("CON","w",stdout);

     printf("选择排序用时%lf\n",duration);

     fclose(stdout);

     return ;

 }

随机生成50000的随机数据
对比两种排序的时间优越性:

快速排序:选择排序O(n^2)与快速排序O(nlogn)的优越性代码体现

选择排序:选择排序O(n^2)与快速排序O(nlogn)的优越性代码体现