Given any permutation of the numbers {0, 1, 2,..., N-1}, it is easy to sort them in increasing order. But what if Swap(0, *) is the ONLY operation that is allowed to use? For example, to sort {4, 0, 2, 1, 3} we may apply the swap operations in the following way:

Swap(0, 1) => {4, 1, 2, 0, 3}
Swap(0, 3) => {4, 1, 2, 3, 0}
Swap(0, 4) => {0, 1, 2, 3, 4}

Now you are asked to find the minimum number of swaps need to sort the given permutation of the first N nonnegative integers.

Input Specification:

Each input file contains one test case, which gives a positive N (<=10⁵) followed by a permutation sequence of {0, 1, ..., N-1}. All the numbers in a line are separated by a space.

Output Specification:

For each case, simply print in a line the minimum number of swaps need to sort the given permutation.

Sample Input:

10 3 5 7 2 6 4 9 0 8 1

Sample Output:

9

一开始按照选择排序做了， 结果有两个测试点超时， 看看网上的思路基本上都是判断是否被访问的算法，想了想这个应该是表排序的变形，就按照表排序方式做了，花了一下午调试 果然AC了， 特地来交流 ^_^!

 #include <stdio.h>

 #include <stdlib.h>

 typedef int ElementType;

 void Swap(ElementType *a, ElementType *b);

 void PrintA(ElementType A[], int N);

 int IsSort( ElementType A[], int m, int N);

 void SwapZero( ElementType A[], ElementType B[], int N);

 typedef struct {

     int index;//0元素所在下标

     int count;//记录交换次数

 }Zero;

 Zero zero;

 int main(){

     int N, i;

     zero.count = ;

     //freopen("C:\\in.txt","r", stdin);

     scanf("%d", &N);

     ElementType* A;//这个是原来的数组

     A = (ElementType*)malloc(N*sizeof(ElementType));

     ElementType* B;//这个是表

     B = (ElementType*)malloc(N*sizeof(ElementType));

     for( i=; i<N; i++){

         scanf("%d", &A[i]);

         B[A[i]] = i;//记录A[i]所在的位置

         if(A[i] == )

             zero.index = i;

     }

     SwapZero(A, B, N);

     printf("%d\n", zero.count);

     return ;

 }

 int IsSort( ElementType A[], int m, int N){

     int i;

     int flag = ;

     for(; m<N; m++ ){

         if( m != A[m] ) {

             flag = m;

             break;

         }

     }

     return flag;

 }

 void SwapZero( ElementType A[], ElementType B[], int N){

     int i, m = ;

     for( ; ; ){

         if( zero.index !=  ){//交换swap(0,i);

             Swap( &A[zero.index], &A[B[zero.index]]);

             B[] = B[zero.index];

             B[A[zero.index]] = zero.index;//更新表

             zero.index = B[];

             zero.count++;

         } else if( m=IsSort(A, m, N)){  //找到第一个位置不对的数字交换

             Swap( &A[zero.index], &A[m]);//交换，更新表

             B[zero.index] = m;

             B[A[zero.index]] = ;

             zero.index = B[zero.index];

             zero.count++;

         } else break;

     }

 }

 void Swap(ElementType *a, ElementType *b){

     int tmp;

      tmp = *a;

      *a = *b;

      *b = tmp;

 }