Permutations
| Time Limit: 1000MS | Memory Limit: 65536K | |
| Total Submissions: 3245 | Accepted: 1766 |
Description
We remind that the permutation of some final set is a one-to-one mapping of the set onto itself. Less formally, that is a way to reorder elements of the set. For example, one can define a permutation of the set {1,2,3,4,5} as follows:
This record defines a permutation P as follows: P(1) = 4, P(2) = 1, P(3) = 5, etc.
What is the value of the expression P(P(1))? It’s clear, that P(P(1)) = P(4) = 2. And P(P(3)) = P(5) = 3. One can easily see that if P(n) is a permutation then P(P(n)) is a permutation as well. In our example (believe us)
It is natural to denote this permutation by P2(n) = P(P(n)). In a general form the defenition is as follows: P(n) = P1(n), Pk(n) = P(Pk-1(n)). Among the permutations there is a very important one — that moves nothing:
It is clear that for every k the following relation is satisfied: (EN)k = EN. The following less trivial statement is correct (we won't prove it here, you may prove it yourself incidentally): Let P(n) be some permutation of an N elements set. Then there exists a natural number k, that Pk = EN. The least natural k such that Pk = EN is called an order of the permutation P.
The problem that your program should solve is formulated now in a very simple manner: "Given a permutation find its order."
This record defines a permutation P as follows: P(1) = 4, P(2) = 1, P(3) = 5, etc.
What is the value of the expression P(P(1))? It’s clear, that P(P(1)) = P(4) = 2. And P(P(3)) = P(5) = 3. One can easily see that if P(n) is a permutation then P(P(n)) is a permutation as well. In our example (believe us)
It is natural to denote this permutation by P2(n) = P(P(n)). In a general form the defenition is as follows: P(n) = P1(n), Pk(n) = P(Pk-1(n)). Among the permutations there is a very important one — that moves nothing:
It is clear that for every k the following relation is satisfied: (EN)k = EN. The following less trivial statement is correct (we won't prove it here, you may prove it yourself incidentally): Let P(n) be some permutation of an N elements set. Then there exists a natural number k, that Pk = EN. The least natural k such that Pk = EN is called an order of the permutation P.
The problem that your program should solve is formulated now in a very simple manner: "Given a permutation find its order."
Input
In the first line of the standard input an only natural number N (1 <= N <= 1000) is contained, that is a number of elements in the set that is rearranged by this permutation. In the second line there are N natural numbers of the range from 1 up to N, separated by a space, that define a permutation — the numbers P(1), P(2),…, P(N).
Output
You should write an only natural number to the standard output, that is an order of the permutation. You may consider that an answer shouldn't exceed 10
9.
Sample Input
5 4 1 5 2 3
Sample Output
6
Source
Ural State University Internal Contest October'2000 Junior Session
解题思路:一个数在置换过程中不断变化,进过若干步之后肯定会变成原来的值,所以我们求出每个数置换为原来的值得循环节,然后对这些循环节求一个最小公倍数就行。
#include <iostream>
#include <stdio.h>
#include <algorithm>
#include <cstring>
using namespace std;
typedef long long LL;
const int maxn = 1000 + 10;
int N;
int p[maxn];
int a[maxn];
int cir[maxn];
LL gcd(LL x, LL y)
{
return x == 0 ? y : gcd(y % x, x);
}
LL lcm(LL x, LL y)
{
return (x * y) / gcd(x, y);
}
int main()
{
scanf("%d", &N);
for(int i = 1; i <= N; i++)
{
scanf("%d", &p[i]);
a[i] = i;
}
for(int i = 1; i <= N; i++)
{
int ans = 1;
while(p[a[i]] != i)
{
a[i] = p[a[i]];
ans++;
}
cir[i] = ans;
}
LL ans = 1;
for(int i = 1; i <= N; i++)
{
ans = lcm(ans, (LL)cir[i]);
}
printf("%lld\n", ans);
return 0;
}
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