I'm a bit confused about the way Java treats `==`

and `equals()`

when it comes to `int`

, `Integer`

and other types of numbers. For example:

```
Integer X = 9000;
int x = 9000;
Short Y = 9000;
short y = 9000;
List<Boolean> results = new ArrayList<Boolean>();
// results.add(X == Y); DOES NOT COMPILE 1)
results.add(Y == 9000); // 2)
results.add(X == y); // 3)
results.add(X.equals(x)); // 4)
results.add(X.equals(Y)); // 5)
results.add(X.equals(y)); // 6)
System.out.println(results);
```

outputs (maybe you should make your guess first):

```
[true, true, true, false, false]
```

- That
`X == Y`

does not compile is to be expected, being different objects. - I'm a little surprised that
`Y == 9`

is`true`

, given that 9 is by default an`int`

, and given that 1) didn't even compile. Note that you can't put an`int`

into a method expecting a`Short`

, yet here they are equal. - This is surprising for the same reason as two, but it seems worse.
- Not surprising, as
`x`

is autoboxed to and`Integer`

. - Not surprising, as objects in different classes should not be
`equal()`

. - What??
`X == y`

is`true`

but`X.equals(y)`

is`false`

? Shouldn't`==`

always be stricter than`equals()`

?

I'd appreciate it if anyone can help me make sense of this. For what reason do == and equals() behave this way?

**Edit:** I have changed 9 to 9000 to show that this behavior is not related to the any unusual ways that the integers from -128 to 127 behave.

**2 ^{nd} Edit:** OK, if you think you understand this stuff, you should consider the following, just to make sure:

```
Integer X = 9000;
Integer Z = 9000;
short y = 9000;
List<Boolean> results = new ArrayList<Boolean>();
results.add(X == Z); // 1)
results.add(X == y); // 2)
results.add(X.equals(Z)); // 3)
results.add(X.equals(y)); // 4)
System.out.println(results);
```

outputs:

```
[false, true, true, false]
```

The reason, as best as I understand it:

- Different instance, so different.
`X`

unboxed, then same value, so equal.- Same value, so equal.
`y`

cannot be boxed to an`Integer`

so cannot be equal.