109 lines
3.8 KiB
Java
109 lines
3.8 KiB
Java
package com.jwetherell.algorithms.mathematics;
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import java.util.LinkedList;
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import java.util.List;
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/**
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* In mathematics, the notion of permutation relates to the act of arranging all the members of a set into some sequence
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* or order, or if the set is already ordered, rearranging (reordering) its elements, a process called permuting.
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* <p>
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* http://en.wikipedia.org/wiki/Permutation
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* <br>
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* @author Justin Wetherell <phishman3579@gmail.com>
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* @author Lucjan Roslanowski <lucjanroslanowski@gmail.com>
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*/
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public class Permutations {
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private Permutations() { }
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/**
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* N! permutation of the characters in the string (in order)
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*/
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public static String[] permutations(String stringToGeneratePermutationsFrom) {
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final int size = numberOfPermutations(stringToGeneratePermutationsFrom.length());
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final String[] list = new String[size];
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final char[] prefix = new char[0];
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final char[] chars = stringToGeneratePermutationsFrom.toCharArray();
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permutations(list, 0, prefix, chars, 0, chars.length);
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return list;
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}
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private static final int numberOfPermutations(int N) {
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// factorial
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int result = N;
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while (N > 1)
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result *= --N;
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return result;
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}
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private static final int permutations(String[] list, int index, char[] prefix, char[] remaining, int prefixLength, int remainingLength) {
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final int N = remainingLength-prefixLength;
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if (N == 0) {
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list[index]=new String(prefix);
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index++;
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} else {
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for (int i=0; i<N; i++) {
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final char[] prefChars = new char[prefixLength+1];
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System.arraycopy(prefix, 0, prefChars, 0, prefixLength);
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System.arraycopy(remaining, i, prefChars, prefixLength, 1);
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final char[] restChars = new char[N-1];
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System.arraycopy(remaining, 0, restChars, 0, i);
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System.arraycopy(remaining, i+1, restChars, i, N-(i+1));
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index = permutations(list, index, prefChars, restChars, remainingLength-(N-1), remainingLength);
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}
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}
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return index;
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}
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/**
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* Permutations of numbers in an array using recursion
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* <br>
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* int numbers[] = {7,5,3};
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* LinkedList<LinkedList<Integer>> result = getAllPermutations(numbers);
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*/
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public static final <N extends Number> List<List<N>> getAllPermutations(final N[] numbers){
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final List<List<N>> result = new LinkedList<List<N>>();
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return getAllPermutations(numbers, result);
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}
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private static final <N extends Number> List<List<N>> getAllPermutations(final N[] numbers, List<List<N>> result){
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//numbers given in an array are also a permutation
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LinkedList<N> firstPermutation = new LinkedList<N>();
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for (N el : numbers)
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firstPermutation.add(el);
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result.add(firstPermutation);
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//let's permute all elements in array starting from index 0
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return permute(numbers, 0, result);
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}
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private static final <N extends Number> List<List<N>> permute(final N[] numbers, int currentElementIndex, List<List<N>> result){
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if(currentElementIndex == numbers.length - 1)
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return result;
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for(int i = currentElementIndex; i < numbers.length; ++i){
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//swapping two elements
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N temp = numbers[i];
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numbers[i] = numbers[currentElementIndex];
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numbers[currentElementIndex] = temp;
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permute(numbers, currentElementIndex + 1,result);
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//all next permutation found
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if(i != currentElementIndex){
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LinkedList<N> nextPermutation = new LinkedList<N>();
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for(int j = 0; j < numbers.length; j++)
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nextPermutation.add(numbers[j]);
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result.add(nextPermutation);
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}
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//swapping back two elements
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temp = numbers[i];
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numbers[i] = numbers[currentElementIndex];
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numbers[currentElementIndex] = temp;
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}
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return result;
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}
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}
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