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HeapSort.java
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HeapSort.java
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/*
* Following is the implementation of HeapSort algorithm.
* It will sort the input array with time complexity O(N*logN)
* N being the size of array.
* Space complexity is O(1).
*/
public class HeapSort {
public static void maxHeapify(int[] arr, int size, int parent) { // Build max-heap of subtree of parent index
int left = 2 * parent;
int right = left + 1;
int largest = parent; // Initially considering parent as largest
if (left < size && arr[left] > arr[largest]) // Left child is greater than parent
largest = left;
if (right < size && arr[right] > arr[largest]) // Right child is greater than parent
largest = right;
if (largest != parent) { // If parent is largest then subtree is max-heap
int temp = arr[parent];
arr[parent] = arr[largest]; // Swap largest child with parent
arr[largest] = temp;
maxHeapify(arr, size, largest); // Convert upper subtree to max-heap
}
}
public static void heapSort(int[] arr) {
for (int i = arr.length / 2 - 1; i >= 0; --i)
maxHeapify(arr, arr.length, i); // Create max-heap
for (int i = arr.length - 1; i >= 0; --i) {
int temp = arr[0]; // Swap first and last element
arr[0] = arr[i];
arr[i] = temp;
maxHeapify(arr, i, 0); // Create Max-Heap on reduced array
}
}
public static void main(String[] args) {
int[] arr = new int[] {10, 4, 3, 13, 1, 123}; // Creating Test array
heapSort(arr); // Sort the array
for (int element : arr) // Printing sorted array
System.out.print(element + " ");
}
}