M - 搜索
Crawling in process... Crawling failed Time Limit:2000MS Memory Limit:65536KB 64bit IO Format:%I64d & %I64u
Description
Farmer John has been informed of the location of a fugitive cow and wants to catch her immediately. He starts at a point N (0 ≤ N ≤ 100,000) on a number line and the cow is at a point K (0 ≤ K ≤ 100,000) on the same number line. Farmer John has two modes of transportation: walking and teleporting.
* Walking: FJ can move from any point X to the points X - 1 or X + 1 in a single minute
* Teleporting: FJ can move from any point X to the point 2 × X in a single minute.
If the cow, unaware of its pursuit, does not move at all, how long does it take for Farmer John to retrieve it?
Input
Line 1: Two space-separated integers: N and K
Output
Line 1: The least amount of time, in minutes, it takes for Farmer John to catch the fugitive cow.
Sample Input
5 17
Sample Output
4
Hint
The fastest way for Farmer John to reach the fugitive cow is to move along the following path: 5-10-9-18-17, which takes 4 minutes.
题目大意:农夫去追他跑丢的牛,题目给出了他和牛的位置,用数字N和K表示,假定牛不动,问农夫移动到牛的位置的最小步数,农夫每次的移动有三种选择:位置加1,位置减1,位置乘2.
思路分析:求最小步数,用BFS即可水过,不过由于本弱BFS刚刚入门,在做题的时候还是出现了很多问题,BFS一般要采用队列来进行实现,刚开始使用的是queue<int>队列,但是在对步数的保存上出现了问题,这时候我选择了queue<pair <int,int> >来记录位置和步数,每次将n+1,n-1,n*2都压入到队列当中去,直到n==m,结束。程序可以运行,样例的输出答案也是正确的,但是提交的时候MLE了,这让我明白了剪枝的重要性,最后程序在两个方面进行了剪枝,一个是建立一个标记数组,对搜索到的每一点都进行标记,避免重复搜索,第二就是对于n>m的情况,毫无疑问应该采取n-1。应用了这两点剪枝策略以后,成功A掉。
代码:#include <iostream>
#include <cstdio>
#include <cstring>
#include <algorithm>
#include <queue>
#include <stack>
using namespace std;
const int maxn=4e5+5;
int n,m;
queue<pair<int,int> >q;
bool hash[maxn];
int main()
{
int m,n;
while(cin>>n>>m)
{
memset(hash,false,sizeof(hash));
pair<int,int> p;
p.first=n;
p.second=0;
hash[n]=true;
q.push(p);
while(!q.empty())
{
pair<int,int> a,b;
a=q.front();
if(a.first==m)
{
cout<<a.second<<endl;
break;
}
a.second++;
b=a;
if(b.first>m)
{
b.first=a.first-1;
if(hash[b.first]==false)
{
hash[b.first]=true;//标记该点,表示已经走过
q.push(b);
}
}
if(b.first<m)
{
b.first=a.first+1;
if(hash[b.first]==false)
{
hash[b.first]=true;//标记该点,表示已经走过
q.push(b);
}
b.first=a.first*2;
if(hash[b.first]==false)
{
hash[b.first]=true;
q.push(b);
}
b.first=a.first-1;
if(hash[b.first]==false)
{
hash[b.first]=true;
q.push(b);
}
}
q.pop();//弹出队列第一个元素
}
while(!q.empty())
q.pop();//注意清空队列
}
return 0;
}
#include <cstdio>
#include <cstring>
#include <algorithm>
#include <queue>
#include <stack>
using namespace std;
const int maxn=4e5+5;
int n,m;
queue<pair<int,int> >q;
bool hash[maxn];
int main()
{
int m,n;
while(cin>>n>>m)
{
memset(hash,false,sizeof(hash));
pair<int,int> p;
p.first=n;
p.second=0;
hash[n]=true;
q.push(p);
while(!q.empty())
{
pair<int,int> a,b;
a=q.front();
if(a.first==m)
{
cout<<a.second<<endl;
break;
}
a.second++;
b=a;
if(b.first>m)
{
b.first=a.first-1;
if(hash[b.first]==false)
{
hash[b.first]=true;//标记该点,表示已经走过
q.push(b);
}
}
if(b.first<m)
{
b.first=a.first+1;
if(hash[b.first]==false)
{
hash[b.first]=true;//标记该点,表示已经走过
q.push(b);
}
b.first=a.first*2;
if(hash[b.first]==false)
{
hash[b.first]=true;
q.push(b);
}
b.first=a.first-1;
if(hash[b.first]==false)
{
hash[b.first]=true;
q.push(b);
}
}
q.pop();//弹出队列第一个元素
}
while(!q.empty())
q.pop();//注意清空队列
}
return 0;
}
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