归并排序求逆序数
Description
In this problem, you have to analyze a particular sorting algorithm. The algorithm processes a sequence of n distinct integers by swapping two adjacent sequence elements until the sequence is sorted in ascending order. For the input sequence
Ultra-QuickSort produces the output
Your task is to determine how many swap operations Ultra-QuickSort needs to perform in order to sort a given input sequence.
Input
The input contains several test cases. Every test case begins with a line that contains a single integer n < 500,000 -- the length of the input sequence. Each of the the following n lines contains a single integer 0 ≤ a[i] ≤ 999,999,999, the i-th input sequence element. Input is terminated by a sequence of length n = 0. This sequence must not be processed.
Output
For every input sequence, your program prints a single line containing an integer number op, the minimum number of swap operations necessary to sort the given input sequence.
Sample Input
5 9 1 0 5 4 3 1 2 3 0
Sample Output
6 0
题目大意:
给出长度为n的序列,每次只能交换相邻的两个元素,问至少要交换几次才使得该序列为递增序列。
刚刚学了时间复杂度, 用归并排序Mergesort了,O(nlogn),省时,不会超时。
这里用归并排序并不是为了求交换次数,而是为了求序列的逆序数,而一个乱序序列的逆序数 = 在只允许相邻两个元素交换的条件下,得到有序序列的交换次数。
案例中的
9 1 0 5 4
要把它排列为升序0,1,4,5,9
而对于序列9 1 0 5 4
9后面却有4个比9小的元素,因此9的逆序数为4
1后面只有1个比1小的元素0,因此1的逆序数为1
0后面不存在比他小的元素,因此0的逆序数为0
5后面存在1个比他小的元素4, 因此5的逆序数为1
4是序列的最后元素,逆序数为0
因此序列9 1 0 5 4的逆序数 t=4+1+0+1+0 = 6 ,就是交换次数
注意:保存逆序数时,必须要用long long型定义,会WA的。。。
#include<iostream> using namespace std; long long total; int n,a[500005]; int t[500005]; void merge_sort(int *a,int x,int y,int *t) { if(y-x>1) { int m=x+(y-x)/2; int p=x,q=m,i=x; merge_sort(a,x,m,t); merge_sort(a,m,y,t); while(p<m||q<y) { if(q>=y||(p<m&&a[p]<=a[q])) t[i++]=a[p++]; else { t[i++]=a[q++]; total+=m-p;//由于合并操作是从小到大进行的,当右边的a【j】复制到T中时,左边还没来得及复制到T得那些数就是左边所有比a【j】大的数,即a【j】的逆序数 } } for(i=x; i<y; i++) a[i]=t[i]; } } int main() { while(cin>>n&&n) { total=0; for(int i=0; i<n; i++) cin>>a[i]; merge_sort(a,0,n,t); cout<<total<<endl; } return 0; }