Generic Heap
a
T
R
S
package com.thealgorithms.datastructures.heaps;
import java.util.*;
public class GenericHeap<T extends Comparable<T>> {
ArrayList<T> data = new ArrayList<>();
HashMap<T, Integer> map = new HashMap<>();
public void add(T item) {
this.data.add(item);
map.put(item, this.data.size() - 1); //
upHeapify(this.data.size() - 1);
}
private void upHeapify(int ci) {
int pi = (ci - 1) / 2;
if (isLarger(this.data.get(ci), this.data.get(pi)) > 0) {
swap(pi, ci);
upHeapify(pi);
}
}
public void display() {
System.out.println(this.data);
}
public int size() {
return this.data.size();
}
public boolean isEmpty() {
return this.size() == 0;
}
public T remove() {
this.swap(0, this.size() - 1);
T rv = this.data.remove(this.size() - 1);
downHeapify(0);
map.remove(rv);
return rv;
}
private void downHeapify(int pi) {
int lci = 2 * pi + 1;
int rci = 2 * pi + 2;
int mini = pi;
if (
lci < this.size() &&
isLarger(this.data.get(lci), this.data.get(mini)) > 0
) {
mini = lci;
}
if (
rci < this.size() &&
isLarger(this.data.get(rci), this.data.get(mini)) > 0
) {
mini = rci;
}
if (mini != pi) {
this.swap(pi, mini);
downHeapify(mini);
}
}
public T get() {
return this.data.get(0);
}
//t has higher property then return +ve
private int isLarger(T t, T o) {
return t.compareTo(o);
}
private void swap(int i, int j) {
T ith = this.data.get(i);
T jth = this.data.get(j);
this.data.set(i, jth);
this.data.set(j, ith);
map.put(ith, j);
map.put(jth, i);
}
public void updatePriority(T item) {
int index = map.get(item);
//because we enter lesser value then old vale
upHeapify(index);
}
}
