本文探讨了如何使用排序算法来对DNA序列进行排序,从最有序到最混乱,以此来评估序列的'有序性'。通过实例分析,展示了算法在实际生物学研究中的应用。
Description
One measure of ``unsortedness'' in a sequence is the number of pairs of entries that are out of order with respect to each other. For instance, in the letter sequence ``DAABEC'', this measure is 5, since D is greater than four letters to its right and E is
greater than one letter to its right. This measure is called the number of inversions in the sequence. The sequence ``AACEDGG'' has only one inversion (E and D)---it is nearly sorted---while the sequence ``ZWQM'' has 6 inversions (it is as unsorted as can
be---exactly the reverse of sorted).
You are responsible for cataloguing a sequence of DNA strings (sequences containing only the four letters A, C, G, and T). However, you want to catalog them, not in alphabetical order, but rather in order of ``sortedness'', from ``most sorted'' to ``least sorted''. All the strings are of the same length.
You are responsible for cataloguing a sequence of DNA strings (sequences containing only the four letters A, C, G, and T). However, you want to catalog them, not in alphabetical order, but rather in order of ``sortedness'', from ``most sorted'' to ``least sorted''. All the strings are of the same length.
Input
The first line contains two integers: a positive integer n (0 < n <= 50) giving the length of the strings; and a positive integer m (0 < m <= 100) giving the number of strings. These are followed by m lines, each containing a string of length n.
Output
Output the list of input strings, arranged from ``most sorted'' to ``least sorted''. Since two strings can be equally sorted, then output them according to the orginal order.
Sample Input
10 6 AACATGAAGG TTTTGGCCAA TTTGGCCAAA GATCAGATTT CCCGGGGGGA ATCGATGCAT
Sample Output
CCCGGGGGGA AACATGAAGG GATCAGATTT ATCGATGCAT TTTTGGCCAA TTTGGCCAAA
简单的排序
import java.io.BufferedInputStream;
import java.util.Scanner;
import java.util.TreeSet;
public class POJ1007 {
static Scanner s = new Scanner(new BufferedInputStream(System.in));
public static void main(String[] args) {
int n = s.nextInt();
int m = s.nextInt();
TreeSet<Str> set = new TreeSet<Str>();
int index = 0;
for(int i=0; i<m; i++)
set.add(new Str(s.next(),index++));
for(Str str:set)
System.out.println(str.str);
}
}
class Str implements Comparable<Str>{
public Str(String str, int index) {
this.str = str;
this.index = index;
}
String str;
int index;
public int getMeasure(){
char arr[] = str.toCharArray();
int len = arr.length;
int sum = 0;
for(int i=0; i<len-1; i++){
for(int j=i; j<len; j++){
if(arr[i] > arr[j])
sum++;
}
}
return sum;
}
public int compareTo(Str o) {
if(this.getMeasure() > o.getMeasure())
return 1;
else if(this.getMeasure() < o.getMeasure())
return -1;
else{
return this.index - o.index;
}
}
}第二种方法:
import java.util.*;
class DNA
{
private String str = null;
private int sortNum = 0;
public DNA(String input)
{
str = input;
int num = 0;
for(int i = 0; i < str.length()-1; i++)
{
for(int j = i+1; j < str.length(); j++)
if(str.charAt(i) > str.charAt(j))
num++;
}
sortNum = num;
}
public int getSortNum()
{
return sortNum;
}
public String toString()
{
return str;
}
}
class DNAComparator implements Comparator
{
public int compare(Object o1, Object o2)
{
DNA d1 = (DNA)o1;
DNA d2 = (DNA)o2;
if(d1.getSortNum() > d2.getSortNum())
return 1;
else if(d1.getSortNum() == d2.getSortNum())
return 0;
else
return -1;
}
}
public class Main {
public static void main(String[] args) {
Scanner cin = new Scanner(System.in);
String[] str = cin.nextLine().split(" ");
int col = Integer.valueOf(str[0]).intValue();
int row = Integer.valueOf(str[1]).intValue();
List list = new ArrayList();
for(int i = 0; i < row; i++)
{
DNA dna = new DNA(cin.nextLine());
list.add(dna);
}
Collections.sort(list, new DNAComparator());
print(list);
}
private static void print(List list)
{
Iterator iter = list.iterator();
while(iter.hasNext())
{
System.out.println(iter.next());
}
}
}
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