package Sorts; import static Sorts.SortUtils.print; /** * This method implements the Generic Merge Sort * * @author Varun Upadhyay (https://github.com/varunu28) * @author Podshivalov Nikita (https://github.com/nikitap492) * @see SortAlgorithm */ class MergeSort implements SortAlgorithm { /** * This method implements the Generic Merge Sort * * @param unsorted the array which should be sorted * @param Comparable class * @return sorted array */ @Override public > T[] sort(T[] unsorted) { doSort(unsorted, 0, unsorted.length - 1); return unsorted; } /** * @param arr The array to be sorted * @param left The first index of the array * @param right The last index of the array * Recursively sorts the array in increasing order **/ private static > void doSort(T[] arr, int left, int right) { if (left < right) { int mid = left + (right - left) / 2; doSort(arr, left, mid); doSort(arr, mid + 1, right); merge(arr, left, mid, right); } } /** * This method implements the merge step of the merge sort * * @param arr The array to be sorted * @param left The first index of the array * @param mid The middle index of the array * @param right The last index of the array * merges two parts of an array in increasing order **/ private static > void merge(T[] arr, int left, int mid, int right) { int length = right - left + 1; T[] temp = (T[]) new Comparable[length]; int i = left; int j = mid + 1; int k = 0; while (i <= mid && j <= right) { if (arr[i].compareTo(arr[j]) <= 0) { temp[k++] = arr[i++]; } else { temp[k++] = arr[j++]; } } while (i <= mid) { temp[k++] = arr[i++]; } while (j <= right) { temp[k++] = arr[j++]; } System.arraycopy(temp, 0, arr, left, length); } // Driver program public static void main(String[] args) { // Integer Input Integer[] arr = {4, 23, 6, 78, 1, 54, 231, 9, 12}; MergeSort mergeSort = new MergeSort(); mergeSort.sort(arr); // Output => 1 4 6 9 12 23 54 78 231 print(arr); // String Inpu String[] stringArray = {"c", "a", "e", "b", "d"}; mergeSort.sort(stringArray); //Output => a b c d e print(stringArray); } }