UVa1584 - Circular Sequence

最新推荐文章于 2021-12-24 09:56:02 发布

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本文介绍了一种算法，用于从给定的圆周DNA序列中找到字典序最小的线性序列。通过生成所有可能的线性序列并进行排序，最终输出最小的那个。适用于生物信息学中DNA序列的存储与处理。

Some DNA sequences exist in circular forms as in the following figure, which shows a circular sequence ``CGAGTCAGCT", that is, the last symbol ``T" in ``CGAGTCAGCT" is connected to the first symbol ``C". We always read a circular sequence in the clockwise direction.

$\epsfbox{p3225.eps}$

Since it is not easy to store a circular sequence in a computer as it is, we decided to store it as a linear sequence. However, there can be many linear sequences that are obtained from a circular sequence by cutting any place of the circular sequence. Hence, we also decided to store the linear sequence that is lexicographically smallest among all linear sequences that can be obtained from a circular sequence.

Your task is to find the lexicographically smallest sequence from a given circular sequence. For the example in the figure, the lexicographically smallest sequence is ``AGCTCGAGTC". If there are two or more linear sequences that are lexicographically smallest, you are to find any one of them (in fact, they are the same).

Input

The input consists of T test cases. The number of test cases T is given on the first line of the input file. Each test case takes one line containing a circular sequence that is written as an arbitrary linear sequence. Since the circular sequences are DNA sequences, only four symbols, A, C, G and T, are allowed. Each sequence has length at least 2 and at most 100.

Output

Print exactly one line for each test case. The line is to contain the lexicographically smallest sequence for the test case.

The following shows sample input and output for two test cases.

Sample Input

2                                     
CGAGTCAGCT                            
CTCC

Sample Output

AGCTCGAGTC 
CCCT

#include <iostream>
#include <string>
#include <fstream>
#include <vector>
#include <algorithm>

using namespace std;

void solve(string s);

int main()
{
	#ifndef ONLINE_JUDGE
		ifstream fin("d:\\OJ\\uva_in.txt");
		streambuf *old = cin.rdbuf(fin.rdbuf());
	#endif
	
	int t;
	
	cin >> t;
	while (t--) {
		string s;
		cin >> s;
		solve(s);
	}
	
	#ifndef ONLINE_JUDGE
		cin.rdbuf(old);
	#endif
	
	return 0;
}

void solve(string s)
{
	vector<string> vStr;
	
	vStr.push_back(s);
	
	for (size_t i = 1, len = s.length(); i < len; i++) {
		string tmp;
		tmp.append(s, i, len - i);
		tmp.append(s, 0, i);
		vStr.push_back(tmp);
	}
	
	sort(vStr.begin(), vStr.end());
	
	cout << vStr.front() << endl;
}