Stone Game, Why are you always there?
Time Limit: 2000/1000 MS (Java/Others) Memory Limit: 32768/32768 K (Java/Others)
Total Submission(s): 142 Accepted Submission(s): 53
Problem Description
“Alice and Bob are playing stone game...”
“Err.... Feel bored about the stone game? Don’t be so, because stone game changes all the time!”
“What the hell are they thinking for?”
“You know, whenever Alice is trying to make fun of Bob, she asked him to play stone game with him.”
“Poor Bob... What’s the rule today?”
“It seems Alice only allows some fixed numbers of continuous stones can be taken each time. And they begin with one string of stones.”
“A string? Formed as a circle or a line?”
“A line.”
“Well, I think I may help Bob with that.”
“How?”
“I may tell him to skip this round if he has no chance to win.”
“Good idea maybe, I mean, Alice always let Bob play first, because she think herself is smart enough to beat Bob no matter how.”
“Yes, she’s actually right about herself. Let me see if Bob has a chance to win...”
......
“Err.... Feel bored about the stone game? Don’t be so, because stone game changes all the time!”
“What the hell are they thinking for?”
“You know, whenever Alice is trying to make fun of Bob, she asked him to play stone game with him.”
“Poor Bob... What’s the rule today?”
“It seems Alice only allows some fixed numbers of continuous stones can be taken each time. And they begin with one string of stones.”
“A string? Formed as a circle or a line?”
“A line.”
“Well, I think I may help Bob with that.”
“How?”
“I may tell him to skip this round if he has no chance to win.”
“Good idea maybe, I mean, Alice always let Bob play first, because she think herself is smart enough to beat Bob no matter how.”
“Yes, she’s actually right about herself. Let me see if Bob has a chance to win...”
......
Input
There are multiple test cases, for each test case:
The first line has a positive integer N (1<=N<=100).
The second line contains N positive integers, a1, a2 ... an, separated by spaces, which indicate the fixed numbers Alice gives.
The third line, a positive integer M. (M<=1000)
Following M lines, one positive integer K (K<=1000) each line. K means in this round, the length of the stone string.
The first line has a positive integer N (1<=N<=100).
The second line contains N positive integers, a1, a2 ... an, separated by spaces, which indicate the fixed numbers Alice gives.
The third line, a positive integer M. (M<=1000)
Following M lines, one positive integer K (K<=1000) each line. K means in this round, the length of the stone string.
Output
For each K, output “1” if Bob has a chance to win, output “2” if Bob has no chance, or “0” if it’s undeterminable.
Sample Input
3 1 5 1 1 1
Sample Output
1
Source
Recommend
chenrui
时间很紧~~~
#include<iostream>
#include<cstdlib>
#include<stdio.h>
#include<memory.h>
#include<algorithm>
using namespace std;
int fibo[110];
int sg[1010];
int num[1010],n;
int solve(int x)
{
if(sg[x]>=0) return sg[x];
memset(num,-1,sizeof(num));
for(int i=0;i<n;i++)
for(int j=x-fibo[i];j>=0;j--)
{
num[solve(j)^solve(x-fibo[i]-j)]=1;
}
for(int i=0;;i++)
if(num[i]==-1) return sg[x]=i;
}
int main()
{
int m,k;
while(scanf("%d",&n)!=EOF)
{
for(int i=0;i<n;i++)scanf("%d",&fibo[i]);
sort(fibo,fibo+n);
scanf("%d",&m);
memset(sg,-1,sizeof(sg));
sg[0]=0;
while(m--)
{
scanf("%d",&k);
if(solve(k)) puts("1");
else puts("2");
}
}
return 0;
}