Description
The ministers of the cabinet were quite upset by the message from the Chief of Security stating that they would all have to change the four-digit room numbers on their offices. — It is a matter of security to change such things every now and then, to keep the enemy in the dark. — But look, I have chosen my number 1033 for good reasons. I am the Prime minister, you know! — I know, so therefore your new number 8179 is also a prime. You will just have to paste four new digits over the four old ones on your office door. — No, it’s not that simple. Suppose that I change the first digit to an 8, then the number will read 8033 which is not a prime! — I see, being the prime minister you cannot stand having a non-prime number on your door even for a few seconds. — Correct! So I must invent a scheme for going from 1033 to 8179 by a path of prime numbers where only one digit is changed from one prime to the next prime. Now, the minister of finance, who had been eavesdropping, intervened.
— No unnecessary expenditure, please! I happen to know that the price of a digit is one pound. — Hmm, in that case I need a computer program to minimize the cost. You don't know some very cheap software gurus, do you? — In fact, I do. You see, there is this programming contest going on... Help the prime minister to find the cheapest prime path between any two given four-digit primes! The first digit must be nonzero, of course. Here is a solution in the case above.
1033 1733 3733 3739 3779 8779 8179The cost of this solution is 6 pounds. Note that the digit 1 which got pasted over in step 2 can not be reused in the last step – a new 1 must be purchased.
Input
One line with a positive number: the number of test cases (at most 100). Then for each test case, one line with two numbers separated by a blank. Both numbers are four-digit primes (without leading zeros).
Output
One line for each case, either with a number stating the minimal cost or containing the word Impossible.
Sample Input
3 1033 8179 1373 8017 1033 1033
Sample Output
6 7 0
题意:给你两个四位数m和n,求m变到n至少需要几步;每次只能从个十百千上改变一位数字,并且改变后的数要是素数;
我们可以用优先对列做;
#include<iostream> #include<stdio.h> #include<string.h> #include<queue> #include<cmath> #define N 11000 using namespace std; int prime(int n) { int i,k; k=(int)sqrt(n); for(i=2;i<=k;i++) if(n%i==0) return 0; return 1; } struct node { int x,step; friend bool operator<(node a,node b) { return a.step>b.step; } }; int bfs(int m,int n) { int a[4]={1,10,100,1000}; int vis[N]; priority_queue<node>Q; node q,p; memset(vis,0,sizeof(vis)); vis[m]=1; q.x=m; q.step=0; Q.push(q); while(!Q.empty()) { q=Q.top(); Q.pop(); if(q.x==n) return q.step; for(int i=0;i<4;i++)//控制改变的哪一位 { for(int j=0;j<10;j++)//把相对应的那一位变成j; { int L=q.x/(a[i]*10); int R=q.x%(a[i]); p.x=L*(a[i]*10)+j*a[i]+R;//重新组成的数; if(p.x>=1000&&vis[p.x]==0&&prime(p.x)==1) { vis[p.x]=1; p.step=q.step+1; Q.push(p); } } } } return -1; } int main() { int T,m,n,ans; scanf("%d",&T); while(T--) { scanf("%d%d",&m,&n); ans=bfs(m,n); if(ans==-1) printf("Impossible "); else printf("%d ",ans); } return 0; }