数据结构之排序查找算法

      前段时间找实习的时候，为了学习算法和数据结构，自己总结和其他渠道得来了一些基本的排序和查找算法，使用C++的模板实现，在此不进行复杂度分析只作为日后使用作参考，直接上代码。

      一、排序

      1.直接插入 

 template<typename Type> void InsertionSort(Type Array[],int length)

{ 
  int index,j;
  Type temp;
  for(index = 1;index < length;index++)
  {
      j = index;
      temp = Array[index];
      while(j>0 && temp<Array[j-1];
      {
          Array[j] = Array[j-1];
          j--;
      }
      Array[j] = temp;
  }
}

      2.简单选择排序

 template <typename Type> void SelectionSort(Type Array[],int length)

{
    int index,j;
    int smallIndex;
    Type temp;
    for(index = 0;index<length-1;index++)
    {
        smallIndex = index;
        for(j=smallIndex+1;j<length;j++)
        {
            if(Array[j]<Array[smallIndex])
                smallIndex = j;
        }
        temp = Array[index];
        Array[index] = A[smallIndex];
        A[smallIndex] = temp;
    }    
}

      3.冒泡排序

 template<typename Type> void BubbleSort(Type Array[],int length)

{
    int index,j;
    int lastExchangeIndex;
    Type temp;
    for(index = length-1;index>0;)
    {
        lastExchangeIndex = 0;
        for( j = 0;j<index;j++)
        {
            if(Array[j+1]<Array[j])
                {
                    temp = Array[j];
                    Array[j]= Array[j+1];
                    Array[j+1]=temp;
                    lastExchangeIndex = j;
                }
        }
        index = lastExchangeIndex;
    }
}

      4.希尔（Shell）排序

 template<typename Type> void ShellInsert(Type Array[],int dk,int length)

{
    Type temp;
    int index = 0,j = 0;
    for(index=dk;index<length;index++)
    {
        if(Array[index]<Array[index-dk]
            {
                temp = Array[index];
                for(j=index-dk;j>=0&&temp<Array[j];j-=dk)
                {
                    Array[j+dk] = Array[j];
                }
                Array[j+dk] = temp;
            }
    }
}

template<typename Type> void ShellSort(Type Array[],int dlta[],int length1,int length2)
{
    int k;
    for(k = 0;k<length2;k++)
    {
        ShellInsert(Array,dlta[k],length1);
    }
}

      5.堆排序

template<typename Type> void HeapAdjust(Type Array[],int start ,int size)
{
    int j;
    Type temp = Array[start];
    for(j= 2*start;j<=size;j*=2)
    {
        if(j<size && Array[j]<Array[j+1])  ++j;
        if(!(temp<Array[j]) break;
        Array[start] = Array[j];
        start = j;
    }
    Array[start] = temp;
}

template<typename Type> void HeapSort(Type Array[],int n)
{
    int i,j;
    Type temp;
    for( i = n/2;i>0;i--)
    HeapAdjust(Array,i,n);
    for(j=n;j>1;j--)
    {
        temp = Array[j];
        Array[j]= Array[i];
        Array[i]=temp;
        HeapAdjust(Array,1,j-1);
    }

} 

      6.快速排序

 template<typename Type> int Partition(Type Array[],int low,int high)

{
    Type temp = Array[low];
    while(low < high)
    {
        while(low<high && temp<=Array[high]) --high;
        Array[low] = Array[high];
        while(low<high && temp>=Array[low]) ++low;
        Array[high] = Array[low];
    }
    Array[low] = temp;
    return low;
}

template<typename Type> void QuickSort(Type Array[],int low,int high)
{
    int pivotloc = 0;
    if(low <high)
        {
            pivotloc = Partition(Array,low,high);
            QuickSort(Array,low,pivotloc-1);
            QuickSort(Array,pivotloc+1,high);
        }
}

      7.归并排序（链表和数组）

 void Merge(LinkList La,LinkList Lb,LinkList Lc)

{
    LinkList pa = La->next,pb = Lb->next,pc = Lc->next;
    while(pa && pb)
    {
        if(pa->data <= pb->data)
            {
                pc->next = pa;
                pc = pa;
                pa = pa->next;
            }else{
                pc->next = pb;
                pc = pb;
                pb = pb->next;
            }
    }
    pc->next = pa?pa:pb;
    free(Lb);
}
/////////////////////////////////////////////////////////
void TwoMerge(int ArrayA[],int ArrayB[],int s,int m,int e)
{
    int i = s, j = m+1 , k = s;
    while(i<=m && j<=e)
    {
        if(ArrayA[i] <= ArrayA[j])
            {
                ArrayB[k] = ArrayA[i];
                i++; k++;
            }else{
                ArrayB[k] = ArrayA[j];
                j++; k++;
            }
    }
    while(i<=m)
    {
        ArrayB[k] = ArrayA[i];
        i++; k++;
    }
    while(j<=e)
    {
        ArrayB[k] = Array[j];
        j++; k++;
    }
}
void TwoMergeSort(int ArrayA[],int left,int right)
{
  int Temp[NUM];
    if(left >=right)
        {
            return;
        }else if(left + 1 == right)
          {  

               if(ArrayA[left]>ArrayA[right])
                {
                    int temp = ArrayA[left];
                    ArrayA[left]=ArrayA[right];
                    ArrayA[right] = temp;
                 }
           }else{
                int mid = (left + right)/2;
                TwoMergeSort(Array,left,mid);
                TwoMergeSort(Array,mid+1,right);
                TwoMergeSort(Array,Temp,left,mid, right);
            }
}

      8.折半插入排序

 template<typename Type> void BinInsertionSort(Type Array[],int length+1)

{
    int index,j;
    Type temp;
    int low,hign,mid;
    for(index = 2;index<=length;i++)
    {
        Array[0] = Array[index];
        low = 1;
        high = index -1;
        while(low <= high)
        {
            mid = (low+high)/2;
            if(Array[0] <Array[mid])
                high = mid - 1;
            else
                low = mid + 1;
        }
        for(j = index -1;j>=high+1;j--)
            Array[j+1]= Array[j];
        Array[high+1]=Array[0];
    }
}

      9.奇偶排序

 template<typename Type> void OESort(Type Array[],int length)

{
    int change = 1;
    int OddIndex,EvenIndex;
    Type temp;
    while(change)
    {
        change = 0;
        for(OddIndex =1;OddIndex<length-1;OddIndex +=2)
        {
            if(Array[OddIndex]>Array[OddIndex+1])
                {
                    temp = Array[OddIndex];
                    Array[OddIndex] = Array[OddIndex+1];
                    Array[OddIndex+1] = temp;
                    change = 1;
                }
        }
        for(EvenIndex = 0;EvenIndex <length-1;EvenIndex +=2)
        {
            if(Array[EvenIndex] > Array[EvenIndex+1])
                {
                    temp = Array[EvenIndex];
                    Array[EvenIndex] = Array[EvenIndex+1];
                    Array[EvenIndex +1] = temp;
                    change =1;
                }
        }
    }
}

      10.两端冒泡排序

template<typename Type> void DubBubble(Type Array[],int length)
{
    int index = 0,j;
    int sorted = 0;
    Type temp;
    while(!sorted)
    {
        sorted = 1;
        for(j=length-index-1;j>index;j--)
        {
            if(Array[j] <Array[j-1])
                {
                    sorted = 0;
                    temp=Array[j];Array[j]=Array[j-1];Array[j-1]=temp;
                }
        }
        for(j = index;j<length-index-2;j++)
        {
            if(Array[j]>Array[j+1]
            {
                sorted = 0;
                temp=Array[j];Array[j]=Array[j+1];Array[j+1]=temp;
            }
        }
        index++;
    }

} 

       二、查找

       1.顺序查找

template<typename Type> int SeqSearch(Type list[],int length,Type key)

{
    for(int index = 0;index <length;index++)
    {
        if(list[index] ==key)
            return index;
    }
    return -1;

} 

       2.折半查找

template<typename Type> int BinSearch(Type list[],int length,Type key)

{
    int mid,low,high;
    low = 0;
    high = length-1;
    while(low<high)
    {
        mid = (low + high)/2;
        if(key == list[mid];
            return mid;
        else if(key<list[mid]);
            high = mid -1;
            else
                low = mid + 1;
    }
    return -1;
}