标签:排序
#include <iostream> #include <windows.h> using namespace std; void Bubble_Sort(int UnSort[],int length); void Select_Sort(int UnSort[],int length); void Insert_Sort(int UnSort[],int length); void Merge_Sort(int UnSort[],int length); void Quick_Sort(int UnSort[],int length); int main() { int UnSort[10]={5,4,7,12,31,3,8,9,10,2}; cout<<"*****************************Vpoet************************************"<<endl; cout<<"The Unsort Array is: "; for(int i=0;i<10;i++) { cout<<UnSort[i]<<" "; } cout<<endl; cout<<"**********************************************************************"<<endl; cout<<"\t\t\t*********1.Bubble*********\t\t\t"<<endl; cout<<"\t\t\t*********2.Select*********\t\t\t"<<endl; cout<<"\t\t\t*********3.Insert*********\t\t\t"<<endl; cout<<"\t\t\t*********4.Merge *********\t\t\t"<<endl; cout<<"\t\t\t*********5.Quick *********\t\t\t"<<endl; cout<<"\t\t\t*********0.Exit*********\t\t\t"<<endl; cout<<"**********************************************************************"<<endl; int ChooseIndex; cout<<"Please choose the sort Algo:"; cin>>ChooseIndex; switch(ChooseIndex) { case 1: Bubble_Sort(UnSort,10); break; case 2: Select_Sort(UnSort,10); break; case 3: Insert_Sort(UnSort,10); break; case 4: Merge_Sort(UnSort,10); break; case 5: LARGE_INTEGER BegainTime ; LARGE_INTEGER EndTime ; LARGE_INTEGER Frequency ; QueryPerformanceFrequency(&Frequency); QueryPerformanceCounter(&BegainTime) ; Quick_Sort(UnSort,10); QueryPerformanceCounter(&EndTime); cout<<"**********************************************************************"<<endl; cout<<"You choosed Quick sort!"<<endl; cout<<"The Sort Array is: "; for(i=0;i<10;i++) { cout<<UnSort[i]<<" "; } cout<<endl; cout << "Run Time:"<<(double)( EndTime.QuadPart - BegainTime.QuadPart )/ Frequency.QuadPart <<endl; cout<<"**********************************************************************"<<endl; break; case 0: cout<<"You Choose To exit,GoodBye!"<<endl; break; } return 1; } void Bubble_Sort(int UnSort[],int length) { LARGE_INTEGER BegainTime ; LARGE_INTEGER EndTime ; LARGE_INTEGER Frequency ; QueryPerformanceFrequency(&Frequency); QueryPerformanceCounter(&BegainTime) ; for(int i=0;i<9;i++) { for(int j=i+1;j<10;j++) { if(UnSort[i]>UnSort[j]) { int temp=UnSort[i]; UnSort[i]=UnSort[j]; UnSort[j]=temp; } } } QueryPerformanceCounter(&EndTime); cout<<"**********************************************************************"<<endl; cout<<"You choosed Buuble sort!"<<endl; cout<<"The Sort Array is: "; for(i=0;i<10;i++) { cout<<UnSort[i]<<" "; } cout<<endl; cout << "Run Time:"<<(double)( EndTime.QuadPart - BegainTime.QuadPart )/ Frequency.QuadPart <<endl; cout<<"**********************************************************************"<<endl; } void Select_Sort(int UnSort[],int length) { LARGE_INTEGER BegainTime ; LARGE_INTEGER EndTime ; LARGE_INTEGER Frequency ; QueryPerformanceFrequency(&Frequency); QueryPerformanceCounter(&BegainTime) ; int Min; for(int i=0;i<10;i++) { Min=UnSort[i]; int index=i; for(int j=i+1;j<10;j++) { if(Min>UnSort[j]) { Min=UnSort[j]; index=j; } } int temp=UnSort[i]; UnSort[i]=UnSort[index]; UnSort[index]=temp; } QueryPerformanceCounter(&EndTime); cout<<"**********************************************************************"<<endl; cout<<"You choosed Select sort!"<<endl; cout<<"The Sort Array is: "; for(i=0;i<10;i++) { cout<<UnSort[i]<<" "; } cout<<endl; cout << "Run Time:"<<(double)( EndTime.QuadPart - BegainTime.QuadPart )/ Frequency.QuadPart <<endl; cout<<"**********************************************************************"<<endl; } void Insert_Sort(int UnSort[],int length) { LARGE_INTEGER BegainTime ; LARGE_INTEGER EndTime ; LARGE_INTEGER Frequency ; QueryPerformanceFrequency(&Frequency); QueryPerformanceCounter(&BegainTime) ; for(int i=1;i<10;i++) { int j=i; int temp=UnSort[i]; while(j>0&&temp<UnSort[j-1]) { UnSort[j]=UnSort[j-1]; j--; } UnSort[j]=temp; } QueryPerformanceCounter(&EndTime); cout<<"**********************************************************************"<<endl; cout<<"You choosed Select sort!"<<endl; cout<<"The Sort Array is: "; for(i=0;i<10;i++) { cout<<UnSort[i]<<" "; } cout<<endl; cout << "Run Time:"<<(double)( EndTime.QuadPart - BegainTime.QuadPart )/ Frequency.QuadPart <<endl; cout<<"**********************************************************************"<<endl; } void mergesortEnd(int Unsort[],int first,int mid,int last,int temp[]) { int i = first, j = mid + 1; int m = mid, n = last; int k = 0; while (i <= m && j <= n) { if (Unsort[i] <= Unsort[j]) temp[k++] = Unsort[i++]; else temp[k++] = Unsort[j++]; } while (i <= m) temp[k++] = Unsort[i++]; while (j <= n) temp[k++] = Unsort[j++]; for (i = 0; i < k; ++i) Unsort[first + i] = temp[i]; } void mergesortfun(int UnSort[],int first,int last,int temp[]) { if (first < last) { int mid = (first + last) / 2; mergesortfun(UnSort, first, mid, temp); //左边有序 mergesortfun(UnSort, mid + 1, last, temp); //右边有序 mergesortEnd(UnSort, first, mid, last, temp); //再将两个有序数列合并 } } void Merge_Sort(int UnSort[],int length) { int *p = new int[length]; if (p == NULL) return ; LARGE_INTEGER BegainTime ; LARGE_INTEGER EndTime ; LARGE_INTEGER Frequency ; QueryPerformanceFrequency(&Frequency); QueryPerformanceCounter(&BegainTime) ; mergesortfun(UnSort, 0, length - 1, p); QueryPerformanceCounter(&EndTime); delete[] p; cout<<"**********************************************************************"<<endl; cout<<"You choosed Merge sort!"<<endl; cout<<"The Sort Array is: "; for(int i=0;i<10;i++) { cout<<UnSort[i]<<" "; } cout<<endl; cout << "Run Time:"<<(double)( EndTime.QuadPart - BegainTime.QuadPart )/ Frequency.QuadPart <<endl; cout<<"**********************************************************************"<<endl; } void Quick_Sort(int UnSort[],int length) { int i=0; int j=length-1; int key=UnSort[0]; if(length>1) { while(i!=j) { for(;j>i;j--) { if(UnSort[j]<key) { UnSort[i]=UnSort[j]; break; } } for(;i<j;i++) { if(UnSort[i]>key) { UnSort[j]=UnSort[i]; break; } } UnSort[i]=key; } Quick_Sort(UnSort,i); Quick_Sort(UnSort+i+1,length-i-1); } }
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标签:排序
原文地址:http://blog.csdn.net/u013018721/article/details/46786819