package Sorts; /* Java program for Bitonic Sort. Note that this program works only when size of input is a power of 2. */ public class BitonicSort { /* The parameter dir indicates the sorting direction, ASCENDING or DESCENDING; if (a[i] > a[j]) agrees with the direction, then a[i] and a[j] are interchanged. */ void compAndSwap(int a[], int i, int j, int dir) { if ((a[i] > a[j] && dir == 1) || (a[i] < a[j] && dir == 0)) { // Swapping elements int temp = a[i]; a[i] = a[j]; a[j] = temp; } } /* It recursively sorts a bitonic sequence in ascending order, if dir = 1, and in descending order otherwise (means dir=0). The sequence to be sorted starts at index position low, the parameter cnt is the number of elements to be sorted.*/ void bitonicMerge(int a[], int low, int cnt, int dir) { if (cnt > 1) { int k = cnt / 2; for (int i = low; i < low + k; i++) compAndSwap(a, i, i + k, dir); bitonicMerge(a, low, k, dir); bitonicMerge(a, low + k, k, dir); } } /* This funcion first produces a bitonic sequence by recursively sorting its two halves in opposite sorting orders, and then calls bitonicMerge to make them in the same order */ void bitonicSort(int a[], int low, int cnt, int dir) { if (cnt > 1) { int k = cnt / 2; // sort in ascending order since dir here is 1 bitonicSort(a, low, k, 1); // sort in descending order since dir here is 0 bitonicSort(a, low + k, k, 0); // Will merge wole sequence in ascending order // since dir=1. bitonicMerge(a, low, cnt, dir); } } /*Caller of bitonicSort for sorting the entire array of length N in ASCENDING order */ void sort(int a[], int N, int up) { bitonicSort(a, 0, N, up); } /* A utility function to print array of size n */ static void printArray(int arr[]) { int n = arr.length; for (int i = 0; i < n; ++i) System.out.print(arr[i] + " "); System.out.println(); } public static void main(String args[]) { int a[] = {3, 7, 4, 8, 6, 2, 1, 5}; int up = 1; BitonicSort ob = new BitonicSort(); ob.sort(a, a.length, up); System.out.println("\nSorted array"); printArray(a); } }