public class Main{

public static void main(String[] args) {

    final Pair<Integer> p = new DefaultPair<>(3,5);
    final Pair<Integer> q = new DefaultPair<>(5,3);


public interface Pair<F> {
    F first();
    F second();
    F reverse();

public class DefaultPair<F> implements Pair<F> {
    private final F first; 
    private final F second; 
    private F reverseFirst; 
    private F reverseSecond; 

  public DefaultPair(F first, F second){//constructor 
  this.first = first; 
  this.second = second; 

// method that is not working    
  public F reverse() {

    this.reverseFirst = second; 
    this.reverseSecond = first; 

    return (F)this; 

 public int hashCode() {
    final int prime = 31;
    int result = 1;
    result = prime * result + ((first == null) ? 0 : first.hashCode());
    result = prime * result + ((second == null) ? 0 : second.hashCode());
    return result;

public boolean equals(Object obj) {
    if (this == obj)
        return true;
    if (obj == null)
        return false;
    if (!(obj instanceof DefaultPair))
        return false;
    DefaultPair<F> other = (DefaultPair) obj;
    if (first == null) {
        if (other.first != null)
            return false;
    } else if (!first.equals(other.first))
        return false;
    if (second == null) {
        if (other.second != null)
            return false;
    } else if (!second.equals(other.second))
        return false;
    return true;

  public F first(){
      return first;

  public F second(){
      return second; 

 public String toString() {
      return "<" + first + ", " + second + ">";


import static org.junit.Assert.*;

import org.junit.Test;

public class TestDefaultPair {

    public void test() {
        final Pair<Integer> p = new DefaultPair<>(3, 5);
        final Pair<Integer> q = new DefaultPair<>(5, 3);
         assertEquals(3, p.first().intValue());
         assertEquals(5, p.second().intValue());
         assertEquals("<3, 5>", p.toString());
         assertTrue(p.equals(q.reverse()));//test that is not passing


I need to have all of the test cases pass. All of them pass besides the last one where I have to invoke the reverse method. The receiver of the reverse method should not be mutated. For example, I should not put in p(3,5) to be reversed. Everything else works besides the reverse method. If i call p.reverse(); and print out p, it prints in the original order.

  • as a sidenote (obj instanceof DefaultPair) has an inbuild null check, so the previous null check is unnecessary. – SomeJavaGuy Oct 27 '16 at 7:46
  • 3
    Remove the reverseFirst and reverseSecond fields. – Marko Topolnik Oct 27 '16 at 7:47
  • also you could remove the final modifier from your first and second fields, as they are logically unchangeble aswell, since there is no setter method. – SomeJavaGuy Oct 27 '16 at 7:50
  • @KevinEsche There are known advantages to adding final, why should OP remove it? – Marko Topolnik Oct 27 '16 at 8:08
  • @MarkoTopolnik i didn´t read the non mutable part at first and thought he wanted to just swap first and second on the DefaultPair instance (which this implementation kind of made me think). As first and second weren´t touched anywhere else and as there are no getter and setter i thought he could omit the final to achive this. But i guess that´s irrelevant now. – SomeJavaGuy Oct 27 '16 at 8:11

Your equals() implementation in DefaultPair checks first and second field values for equality. But your reverse() method only changes the values of reverseFirst and reverseSecond fields.

Either you need to use reverseFirst and reverseSecond in equals() or change the values of first and second in reverse()

  • Also I would reccommend to remove reverseFirst and reverseSecond, and design the metohd reverse to return a new instance of Pair with first and second swapped – Wallkan Oct 27 '16 at 7:54

I think what's wrong is here: F reverse(), in your situation, F is Integer, but Integer is not what you should return, you should return Pair.

p.equals(q.reverse()) is like: pair.equals(Integer)

Hopefully i did understand everything correctly, but i think your reverse method should be looking like this:

public DefaultPair<F> reverse() {
   return new DefaultPair<F>(second,first);
   // Here you should return a new instance of `DefaultPair<F>`, 
   // which uses second as first and first as second.
   // Now you are left with an non mutable reversed new instance of DefaultPair


In the end this would logically also make reverseFirst and reverseSecond useless in your class, and as though they should be removed.

  • I think this did guide me in the right direction, but the test still isn't passing. When I invoke reverse and print after that it still gives me the original pair. – ASS466uiuc Oct 27 '16 at 8:22
  • @ASS466uiuc because you need to store the new instance generated here into a variable. As you mentioned that DefaultPair shouldn´t be mutable it is now returning a new reversed instance, which should be a different pair now. Try out just printing p.reverse() and you´ll see the new instance beeing different. – SomeJavaGuy Oct 27 '16 at 8:25
  • System.out.println(q.reverse()); i did, this was my print line, but moreover the jUnit test still isn't passing – ASS466uiuc Oct 27 '16 at 8:31
  • @ASS466uiuc what should be the result here? That the reversed Pairs are equal to each other? That´s not what you equals method does imply – SomeJavaGuy Oct 27 '16 at 8:34
  • the result should be that when q is reversed, it should be equal to the p original. Do you think the problem may be with my equals method? – ASS466uiuc Oct 27 '16 at 8:39

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