先按照王道系列的伪代码,写了一下常见的排序算法。代码先放这儿,先不做算法分析,回头再来分析消化。
// 排序算法.cpp : 定义控制台应用程序的入口点。
// #include "stdafx.h"
#include<iostream>
#include<vector>
using namespace std;
//插入排序——直接插入排序
void InsertSort(vector<int>&vctArray)
{
if (vctArray.size() <= )
return;
int i, j, tmp;
for ( i = ; i < vctArray.size(); ++i)
{
if (vctArray[i] < vctArray[i - ])
{
tmp = vctArray[i];
for ( j = i-; j >= && tmp<vctArray[j]; --j)
vctArray[j + ] = vctArray[j];
vctArray[j+] = tmp;
}
}
}
//插入排序——折半插入排序(算法复杂度:仅仅改变比较次数,移动次数仍然不变)
void HalfInsertSort(vector<int>&vctArray)
{
if (vctArray.size() <= )
return;
int i, j, tmp;
for (i = ; i < vctArray.size(); ++i)
{
if (vctArray[i] < vctArray[i - ])
{
int begin = , end = i - , mid;
tmp = vctArray[i];
while (begin<=end)
{
mid = (begin + end) / ;
if (vctArray[mid] > tmp)
end = mid -= ;
else
begin = mid + ;
}
for (j = i - ; j >end; --j)
vctArray[j + ] = vctArray[j];
vctArray[end+] = tmp;
}
}
}
//插入排序——希尔排序
void ShellSort(vector<int>&vctArray)
{
int dk,i,j,tmp;
for (dk = vctArray.size() / ; dk >= ; dk = dk / )
{
for (i = dk + ; i < vctArray.size(); ++i)
{
if (vctArray[i] < vctArray[i - dk])
{
tmp = vctArray[i];
for (j = i - dk; j >= && vctArray[j] > tmp; j -= dk)
vctArray[j + dk] = vctArray[j];
vctArray[j + dk] = tmp;
}
}
}
}
//交换排序——冒泡排序
void BubbleSort(vector<int>& vctArray)
{
int i, j, tmp;
bool flag = true;
for (i = ; i < vctArray.size()&&flag; ++i)
{
flag = false;
for (j = vctArray.size() - ; j > i; --j)
{
if (vctArray[j] < vctArray[j - ])
{
tmp = vctArray[j - ];
vctArray[j - ] = vctArray[j];
vctArray[j] = tmp;
flag = true;
}
}
}
}
//交换排序——快速排序
int Partition(vector<int>&vctArray, int low, int high);
void QuickSort(vector<int>& vctArray,int low,int high)
{
if (low < high)
{
int mid=Partition(vctArray,low,high);
QuickSort(vctArray,low, mid - );
QuickSort(vctArray, mid + ,high);
}
}
int Partition(vector<int>&vctArray, int low, int high)
{
int pivot=vctArray[low];
while (low < high)
{
while (low < high&&vctArray[high] >= pivot)
--high;
vctArray[low] = vctArray[high];
while (low < high&&vctArray[low] <= pivot)
++low;
vctArray[high] = vctArray[low];
}
vctArray[low] = pivot;
return low;
} //选择排序——简单排序
void SelectSort(vector<int>& vctArray)
{
int minIndex = -;
for (int i = ; i < vctArray.size()-; ++i)
{
minIndex = i;
for (int j = i + ; j < vctArray.size(); ++j)
{
if (vctArray[j] < vctArray[minIndex])
minIndex = j;
}
if (minIndex != i)
{
int tmp = vctArray[minIndex];
vctArray[minIndex] = vctArray[i];
vctArray[i] = tmp;
}
}
}
//选择排序——堆排序
void BuildMaxHeap(vector<int>&vctArray, int len);
void AdjustDown(vector<int>&vctArray,int k,int len);
void MaxHeapSort(vector<int>& vctArray)
{
BuildMaxHeap(vctArray,vctArray.size()-);
for (int i = vctArray.size()-; i >=; --i)
{
vctArray[] = vctArray[];
vctArray[] = vctArray[i];
vctArray[i] = vctArray[];
AdjustDown(vctArray,,i-);
}
}
void BuildMaxHeap(vector<int>&vctArray,int len)
{
for (int i = len / ; i > ; --i)
AdjustDown(vctArray,i,len);
}
void AdjustDown(vector<int>&vctArray,int k,int len)
{
vctArray[] = vctArray[k];
for (int i = * k; i <= len; i*=)
{
if (i < len&& vctArray[i] < vctArray[i + ])
++i;
if (vctArray[] >= vctArray[i])
break;
else
{
vctArray[k] = vctArray[i];
k = i;
}
}
vctArray[k]= vctArray[];
}
//归并排序
void Merge(vector<int>&vctArray, int low, int mid, int high);
void MergeSort(vector<int>&vctArray, int low, int high)
{
if (low < high)
{
int mid = (low + high) / ;
MergeSort(vctArray,low,mid);
MergeSort(vctArray,mid+,high);
Merge(vctArray,low,mid,high);
}
}
void Merge(vector<int>&vctArray, int low, int mid, int high)
{
vector<int> vctTmp = vctArray;
int i, j, k;
for (i = low, j = mid + , k = i; i <= mid&&j <= high; ++k)
{
if (vctTmp[i] <= vctTmp[j])
vctArray[k] = vctTmp[i++];
else
vctArray[k] = vctTmp[j++];
}
while (i<=mid)
vctArray[k++] = vctTmp[i++];
while (j <= high)
vctArray[k++] = vctTmp[j++];
} void PrintArray(vector<int>& vctArray,int k)
{
for (int i = k; i < vctArray.size(); ++i)
{
cout << vctArray[i] << " ";
}
cout << endl;
}
int main()
{
vector<int> vctArray = { ,,,,,,,,,, };
// vector<int> vctArray = { 3,6,1,8,3,6,2,8,4,5,9 };
vector<int> tmpArray = vctArray;
cout << endl;
cout << "..........插入排序——直接插入排序..........." << endl;
cout << "排序前:";
PrintArray(vctArray,);
InsertSort(vctArray);
cout << "排序后:";
PrintArray(vctArray, ); cout << endl;
vctArray = tmpArray;
cout << endl; cout << "..........插入排序——折半插入排序..........." << endl;
cout << "排序前:";
PrintArray(vctArray, );
InsertSort(vctArray);
cout << "排序后:";
PrintArray(vctArray, ); cout << endl;
vctArray = tmpArray;
cout << endl; cout << "............插入排序——希尔排序............." << endl;
cout << "排序前:";
PrintArray(vctArray, );
ShellSort(vctArray);
cout << "排序后:";
PrintArray(vctArray, ); cout << endl;
vctArray = tmpArray;
cout << endl; cout << "............交换排序——冒泡排序............." << endl;
cout << "排序前:";
PrintArray(vctArray, );
BubbleSort(vctArray);
cout << "排序后:";
PrintArray(vctArray, ); cout << endl;
vctArray = tmpArray;
cout << endl; cout << "............交换排序——快速排序............." << endl;
cout << "排序前:";
PrintArray(vctArray, );
QuickSort(vctArray,,vctArray.size()-);
cout << "排序后:";
PrintArray(vctArray, ); cout << endl;
vctArray = tmpArray;
cout << endl; cout << "..........选择排序——简单选择排序..........." << endl;
cout << "排序前:";
PrintArray(vctArray, );
SelectSort(vctArray);
cout << "排序后:";
PrintArray(vctArray, ); cout << endl;
vctArray = tmpArray;
cout << endl; cout << ".............选择排序——最大堆排序..........." << endl;
cout << "排序前:";
PrintArray(vctArray, );
//为了方便操作,从1开始存放元素,即下标1为跟节点,将第0个元素设为哨兵
vctArray.push_back(vctArray[]);
MaxHeapSort(vctArray);
cout << "排序后:";
PrintArray(vctArray, ); cout << endl;
vctArray = tmpArray;
cout << endl; cout << "...................归并排序...................." << endl;
cout << "排序前:";
PrintArray(vctArray, );
MergeSort(vctArray,,vctArray.size()-);
cout << "排序后:";
PrintArray(vctArray, );
cout << endl; return ;
}