C++实现排序算法

稳定性:快速 希尔 选择 堆排序不稳定

时间复杂度:平均情况下,快速、希尔、归并和堆排序的时间复杂度均为O(nlog2(n)),其他都是O(n^2)。最坏情况下,快排的时间复杂度为O(n^2)

  1 #include <iostream>
  2 #include <stdlib.h>
  3 #include <time.h>
  4 #define N 1000
  5 using namespace std;
  6 
  7 //输出
  8 void output(int a[], int num){
  9     for(int i=0;i<num;i++){
 10         cout<<a[i]<<" ";
 11     }
 12     cout<<endl;
 13 }
 14 
 15 //交换元素位置
 16 void swap(int a[], int index1, int index2){
 17     int tmp = a[index1];
 18     a[index1] = a[index2];
 19     a[index2] = tmp;
 20 }
 21 
 22 //快速排序
 23 void quickSort(int a[], int l, int r, int num){
 24     if(l<r){
 25         int left = l;
 26         int right = r;
 27         int tmp = a[l];
 28         while(left<right){
 29             while(left<right && a[right]>=tmp){
 30                 right--;
 31             }
 32             if(left<right){
 33                 a[left++] = a[right];
 34             }
 35             while(left<right && a[left]<=tmp){
 36                 left++;
 37             }
 38             if(left<right){
 39                 a[right--] = a[left];
 40             }
 41         }
 42         a[left] = tmp;
 43         //output(a,num);
 44         quickSort(a,l,left-1,num);
 45         quickSort(a,left+1,r,num);
 46     }
 47 }
 48 
 49 //冒泡排序
 50 void bubbleSort(int a[], int num){
 51     int i,j;
 52     int flag = 0;
 53     for(i=num-1;i>0;i--){
 54         flag = 0;
 55         for(j=0;j<i;j++){
 56             if(a[j]>a[j+1]){
 57                 swap(a,j,j+1);
 58                 flag=1;
 59             }
 60         }
 61         if(flag==0){
 62             break;
 63         }
 64     }
 65 }
 66 
 67 //选择排序
 68 void selectSort(int a[], int num){
 69     int right,i;
 70     int maxIndex;
 71     for(right=num-1;right>0;right--){
 72         maxIndex = 0;
 73         for(i=0;i<right;i++){
 74             if(a[maxIndex]<a[i]){
 75                 maxIndex = i;
 76             }
 77         }
 78         swap(a,maxIndex,right);
 79     }
 80         
 81 }
 82 
 83 //建立大顶堆
 84 void buildHeap(int a[], int index, int len){
 85     int curParent = a[index];
 86     int child = index * 2 +1;
 87     while(child<len){
 88         if(child+1<len && a[child]<a[child+1]){
 89             child++;
 90         }
 91         if(curParent < a[child]){
 92             a[index] = a[child];
 93             //这里不用把curParent赋值给child,因为还要迭代子树,如果孩子中有更大的,会上移,curParent还要继续下移
 94             index = child;
 95             child = child * 2 +1;
 96         } else {
 97             break;
 98         }
 99     }
100     a[index] = curParent;
101 }
102 
103 /*
104 void buildHeap(int a[], int i, int len){
105     int parent = a[i];
106     int left = i*2+1;
107     while(child < len){
108         if(child+1<len && a[child]<a[child+1]){
109             child++;
110         }
111         if(parent<a[child]){
112             a[i] = child;
113             child = 2*i+1;
114         } else {
115             break;
116         }
117     }
118     a[p] = parent;
119 }*/
120 
121 
122 //堆排序
123 void heapSort(int a[], int num){
124     int i;
125     for(i=num/2-1;i>=0;i--){
126         buildHeap(a, i, num);
127     }
128     for(i=num-1;i>=0;i--){
129         int max = a[0];
130         a[0] = a[i];
131         a[i] = max;
132         buildHeap(a,0,i);
133     }
134 
135 }
136 //插入排序
137 void insertSort(int a[], int num){
138     int i,j,tmp;
139     for(i=1;i<num;i++){
140         tmp = a[i];
141         for(j=i-1;j>=0;j--){
142             if(a[j]>tmp){
143                 a[j+1] = a[j];
144             } else {
145                 break;
146             }
147         }
148         a[j+1] = tmp;
149     }
150 }
151 
152 void merge(int a[], int first, int mid, int last){
153     int *tmp = (int *)malloc((last-first+1)*sizeof(int));
154     int i = first;
155     int j = mid+1;
156     int k = 0;
157     while(i<=mid && j<=last){
158         if(a[i]<=a[j]){
159             tmp[k++] = a[i++];
160         } else {
161             tmp[k++] = a[j++];
162         }
163     }
164     while(i<=mid){
165         tmp[k++] = a[i++];
166     }
167     while(j<=last){
168         tmp[k++] = a[j++];
169     }
170     for(i=first;i<=last;i++){
171         a[i] = tmp[i-first];
172     }
173     free(tmp);
174 }
175 
176 void mergeSort(int a[], int first, int last){
177     int mid = (first+last)/2;
178     if(first<last){
179         mergeSort(a,first,mid);
180         mergeSort(a,mid+1,last);
181         merge(a,first,mid,last);
182     }
183 }
184 
185 int main(){
186     int num;
187     while(cin>>num){
188         int i;
189         start = clock();
190         int *arr = new int[num];
191         for(int i=0; i<num; i++){
192             arr[i] = rand()%1000;
193             //cin>>arr[i];
194         }
195         cout<<"待排序数组为:"<<endl;
196         output(arr,num);
197 
198         //quickSort(arr,0,num-1,num);            //快速排序
199         //bubbleSort(arr,num);                    //冒泡排序
200         //selectSort(arr,num);                    //归并排序
201         //insertSort(arr,num);                    //插入排序
202         //heapSort(arr,num);                    //堆排序
203         //mergeSort(arr,0,num-1);                //归并排序
204         stop = clock();
205         cout<<stop-start<<endl;
206 
207         cout<<"排序后的数组为:"<<endl;
208         output(arr,num);
209 
210     }
211     return 0;
212 }

 

posted on 2016-08-05 16:53  杠子  阅读(216)  评论(0编辑  收藏  举报

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