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import java.nio.ByteBuffer;/** Max-heap implementation */public class MaxHeap {private LRUBuffer Heap; // Pointer to the heap arrayprivate long size; // Number of things in heapprivate byte[] record1 = new byte[4];private byte[] record2 = new byte[4];private ByteBuffer buff1;private ByteBuffer buff2;/** Constructor supporting preloading of heap contents */public MaxHeap(LRUBuffer buf, long size) {this.Heap = buf;this.size = size;}/** @return True if pos a leaf position, false otherwise */public boolean isLeaf(long pos) {return (pos >= size / 2) && (pos < size);}/** @return Position for left child of pos */public long leftchild(long pos) {assert pos < size / 2 : "Position has no left child";return 2 * pos + 1;}/** @return Position for right child of pos */public long rightchild(long pos) {assert pos < (size - 1) / 2 : "Position has no right child";return 2 * pos + 2;}/** @return Position for parent */public long parent(long pos) {assert pos > 0 : "Position has no parent";return (pos - 1) / 2;}/** Heapify contents of Heap */public void buildheap() {for (long i = size / 2 - 1; i >= 0; i--)siftdown(i);}/** Put element in its correct place */private void siftdown(long pos) {assert (pos >= 0) && (pos < size) : "Illegal heap position";while (!isLeaf(pos)) {long j = leftchild(pos);// if ((j < (size - 1)) && (Heap[j].compareTo(Heap[j + 1]) < 0))// j++; // j is now index of child with greater valueif (j < (size-1)) {Heap.getBytes(record1, j);buff1 = ByteBuffer.wrap(record1);short val1 = buff1.getShort();Heap.getBytes(record2, j+1);buff2 = ByteBuffer.wrap(record2);short val2 = buff2.getShort();if (val1 < val2) {j++; // j is now index of child with greater value}}// if (Heap[pos].compareTo(Heap[j]) >= 0)// return;Heap.getBytes(record2, j);Heap.getBytes(record1, pos);buff1 = ByteBuffer.wrap(record1);buff2 = ByteBuffer.wrap(record2);short val1 = buff1.getShort();short val2 = buff2.getShort();if (val1 >= val2)return;// DSutil.swap(Heap, pos, j);Heap.putBytes(record2, pos);Heap.putBytes(record1, j);pos = j; // Move down}}/** Remove and return maximum value */public void removemax() {assert size > 0 : "Removing from empty heap";//DSutil.swap(Heap, 0, --size); // Swap maximum with last valueHeap.getBytes(record1, 0);Heap.getBytes(record2, size-1);Heap.putBytes(record1, size-1);Heap.putBytes(record2, 0);size = size - 1;if (size != 0) // Not on last elementsiftdown(0); // Put new heap root val in correct place}// /** @return Current size of the heap */// public long heapsize() {// return size;// }// /** Insert val into heap */// public void insert(E val) {// assert n < size : "Heap is full";// int curr = n++;// Heap[curr] = val; // Start at end of heap// // Now sift up until curr's parent's key > curr's key// while ((curr != 0) && (Heap[curr].compareTo(Heap[parent(curr)]) > 0)) {// DSutil.swap(Heap, curr, parent(curr));// curr = parent(curr);// }// }// /** Remove and return element at specified position */// public E remove(int pos) {// assert (pos >= 0) && (pos < n) : "Illegal heap position";// if (pos == (n - 1))// n--; // Last element, no work to be done// else {// DSutil.swap(Heap, pos, --n); // Swap with last value// // If we just swapped in a big value, push it up// while ((pos > 0) && (Heap[pos].compareTo(Heap[parent(pos)]) > 0)) {// DSutil.swap(Heap, pos, parent(pos));// pos = parent(pos);// }// if (n != 0)// siftdown(pos); // If it is little, push down// }// return Heap[n];// }}