作者:Sabine【导读】本文介绍了C#的四种排序算法:冒泡排序、选择排序、插入排序和希尔排序
冒泡排序
usingSystem;
namespaceBubbleSorter
{publicclassBubbleSorter
{publicvoidSort(int[]list)
{inti,j,temp;
booldone=false;
j=1;
while((j<list.Length)&&(!done))
{done=true;
for(i=0;i<list.Length-j;i++)
{
if(list[i]>list[i+1])
{
done=false;
temp=list[i];
list[i]=list[i+1];
list[i+1]=temp;
}}
j++;}
}}
publicclassMainClass
{publicstaticvoidMain()
{
int[]iArrary=newint[]{1,5,13,6,10,55,99,2,87,12,34,75,33,47};
BubbleSortersh=newBubbleSorter();
sh.Sort(iArrary);
for(intm=0;m<iArrary.Length;m++)
Console.Write("{0}",iArrary[m]);
Console.WriteLine();
}}
}
选择排序
usingSystem;
namespaceSelectionSorter
{publicclassSelectionSorter
{privateintmin;
publicvoidSort(int[]list)
{for(inti=0;i<list.Length-1;i++)
{min=i;
for(intj=i+1;j<list.Length;j++)
{if(list[j]<list[min])
min=j;
}
intt=list[min];
list[min]=list[i];
list[i]=t;
}}
}
publicclassMainClass
{publicstaticvoidMain()
{
int[]iArrary=newint[]{1,5,3,6,10,55,9,2,87,12,34,75,33,47};
SelectionSorterss=newSelectionSorter();
ss.Sort(iArrary);
for(intm=0;m<iArrary.Length;m++)
Console.Write("{0}",iArrary[m]);
Console.WriteLine();
}}
}
插入排序
usingSystem;
namespaceInsertionSorter
{publicclassInsertionSorter
{publicvoidSort(int[]list)
{for(inti=1;i<list.Length;i++)
{intt=list[i];
intj=i;
while((j>0)&&(list[j-1]>t))
{list[j]=list[j-1];
--j;
}
list[j]=t;}
}
}
publicclassMainClass
{publicstaticvoidMain()
{
int[]iArrary=newint[]{1,13,3,6,10,55,98,2,87,12,34,75,33,47};
InsertionSorterii=newInsertionSorter();
ii.Sort(iArrary);
for(intm=0;m<iArrary.Length;m++)
Console.Write("{0}",iArrary[m]);
Console.WriteLine();
}}
}
希尔排序
希尔排序是将组分段,进行插入排序.
usingSystem;
namespaceShellSorter
{
publicclassShellSorter
{
publicvoidSort(int[]list)
{
intinc;
for(inc=1;inc<=list.Length/9;inc=3*inc+1);
for(;inc>0;inc/=3)
{
for(inti=inc+1;i<=list.Length;i+=inc)
{
intt=list[i-1];
intj=i;
while((j>inc)&&(list[j-inc-1]>t))
{
list[j-1]=list[j-inc-1];
j-=inc;
}
list[j-1]=t;
}}
}}
publicclassMainClass
{publicstaticvoidMain()
{
int[]iArrary=newint[]{1,5,13,6,10,55,99,2,87,12,34,75,33,47};
ShellSortersh=newShellSorter();
sh.Sort(iArrary);
for(intm=0;m<iArrary.Length;m++)
Console.Write("{0}",iArrary[m]);
Console.WriteLine();
}}
}
快速排序
usingSystem;
usingSystem.Collections.Generic;
usingSystem.Text;
namespaceSoloDataStructure
{
classMyQuickSort
{
/**////<summary>
///快速排序算法
///</summary>
///快速排序为不稳定排序,时间复杂度O(nlog2n),为同数量级中最快的排序方法
///<paramname="arr">划分的数组</param>
///<paramname="low">数组低端上标</param>
///<paramname="high">数组高端下标</param>
///<returns></returns>
staticintPartition(int[]arr,intlow,inthigh)
{
//进行一趟快速排序,返回中心轴记录位置
//arr[0]=arr[low];
intpivot=arr[low];//把中心轴置于arr[0]
while(low<high)
{
while(low<high&&arr[high]>=pivot)
--high;
//将比中心轴记录小的移到低端
Swap(refarr[high],refarr[low]);
while(low<high&&arr[low]<=pivot)
++low;
Swap(refarr[high],refarr[low]);
//将比中心轴记录大的移到高端
}
arr[low]=pivot;//中心轴移到正确位置
returnlow;//返回中心轴位置
}
staticvoidSwap(refinti,refintj)
{
intt;
t=i;
i=j;
j=t;
}
staticvoidQuickSort(int[]arr,intlow,inthigh)
{
if(low<high-1)//当arr[low,high]为空或只一个记录无需排序
{
intpivot=Partition(arr,low,high);
QuickSort(arr,low,pivot-1);
QuickSort(arr,pivot+1,high);
}
}
staticvoidMain(string[]args)
{
int[]arr=newint[]{54,62,99,14,28,1,8,77,99,3,110};
QuickSort(arr,0,arr.Length-1);
Console.Write("DataAfterQuickSort:");
foreach(intiinarr)
{
Console.Write(i+",");
}
Console.ReadLine();
}
}
}
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