import edu.princeton.cs.introcs.StdIn; import edu.princeton.cs.introcs.StdOut; /************************************************************************* * Compilation: javac Merge.java * Execution: java Merge < input.txt * Dependencies: StdOut.java StdIn.java * Data files: http://algs4.cs.princeton.edu/22mergesort/tiny.txt * http://algs4.cs.princeton.edu/22mergesort/words3.txt * * Sorts a sequence of strings from standard input using mergesort. * * % more tiny.txt * S O R T E X A M P L E * * % java Merge < tiny.txt * A E E L M O P R S T X [ one string per line ] * * % more words3.txt * bed bug dad yes zoo ... all bad yet * * % java Merge < words3.txt * all bad bed bug dad ... yes yet zoo [ one string per line ] * *************************************************************************/ /** * The Merge class provides static methods for sorting an * array using mergesort. * * For additional documentation, see Section 2.2 of * Algorithms, 4th Edition by Robert Sedgewick and Kevin Wayne. * For an optimized version, see {@link MergeX}. * * @author Robert Sedgewick * @author Kevin Wayne */ public class Merge { // This class should not be instantiated. private Merge() { } // stably merge a[lo .. mid] with a[mid+1 ..hi] using aux[lo .. hi] private static void merge(Comparable[] a, Comparable[] aux, int lo, int mid, int hi) { // precondition: a[lo .. mid] and a[mid+1 .. hi] are sorted subarrays assert isSorted(a, lo, mid); assert isSorted(a, mid+1, hi); // copy to aux[] for (int k = lo; k <= hi; k++) { aux[k] = a[k]; } // merge back to a[] int i = lo, j = mid+1; for (int k = lo; k <= hi; k++) { if (i > mid) a[k] = aux[j++]; // this copying is unnecessary else if (j > hi) a[k] = aux[i++]; else if (less(aux[j], aux[i])) a[k] = aux[j++]; else a[k] = aux[i++]; } // postcondition: a[lo .. hi] is sorted assert isSorted(a, lo, hi); } // mergesort a[lo..hi] using auxiliary array aux[lo..hi] private static void sort(Comparable[] a, Comparable[] aux, int lo, int hi) { if (hi <= lo) return; int mid = lo + (hi - lo) / 2; sort(a, aux, lo, mid); sort(a, aux, mid + 1, hi); merge(a, aux, lo, mid, hi); } /** * Rearranges the array in ascending order, using the natural order. * @param a the array to be sorted */ public static void sort(Comparable[] a) { Comparable[] aux = new Comparable[a.length]; sort(a, aux, 0, a.length-1); assert isSorted(a); } /*********************************************************************** * Helper sorting functions ***********************************************************************/ // is v < w ? private static boolean less(Comparable v, Comparable w) { return (v.compareTo(w) < 0); } // exchange a[i] and a[j] private static void exch(Object[] a, int i, int j) { Object swap = a[i]; a[i] = a[j]; a[j] = swap; } /*********************************************************************** * Check if array is sorted - useful for debugging ***********************************************************************/ private static boolean isSorted(Comparable[] a) { return isSorted(a, 0, a.length - 1); } private static boolean isSorted(Comparable[] a, int lo, int hi) { for (int i = lo + 1; i <= hi; i++) if (less(a[i], a[i-1])) return false; return true; } /*********************************************************************** * Index mergesort ***********************************************************************/ // stably merge a[lo .. mid] with a[mid+1 .. hi] using aux[lo .. hi] private static void merge(Comparable[] a, int[] index, int[] aux, int lo, int mid, int hi) { // copy to aux[] for (int k = lo; k <= hi; k++) { aux[k] = index[k]; } // merge back to a[] int i = lo, j = mid+1; for (int k = lo; k <= hi; k++) { if (i > mid) index[k] = aux[j++]; else if (j > hi) index[k] = aux[i++]; else if (less(a[aux[j]], a[aux[i]])) index[k] = aux[j++]; else index[k] = aux[i++]; } } /** * Returns a permutation that gives the elements in the array in ascending order. * @param a the array * @return a permutation p[] such that a[p[0]] , a[p[1]] , * ..., a[p[N-1]] are in ascending order */ public static int[] indexSort(Comparable[] a) { int N = a.length; int[] index = new int[N]; for (int i = 0; i < N; i++) index[i] = i; int[] aux = new int[N]; sort(a, index, aux, 0, N-1); return index; } // mergesort a[lo..hi] using auxiliary array aux[lo..hi] private static void sort(Comparable[] a, int[] index, int[] aux, int lo, int hi) { if (hi <= lo) return; int mid = lo + (hi - lo) / 2; sort(a, index, aux, lo, mid); sort(a, index, aux, mid + 1, hi); merge(a, index, aux, lo, mid, hi); } // print array to standard output private static void show(Comparable[] a) { for (int i = 0; i < a.length; i++) { StdOut.println(a[i]); } } /** * Reads in a sequence of strings from standard input; mergesorts them; * and prints them to standard output in ascending order. */ public static void main(String[] args) { String[] a = StdIn.readAllStrings(); Merge.sort(a); show(a); } }