`==`

is **symmetric**; that is to say, for any values `x`

and `y`

, `(x == y) == (y == x)`

. This is a guarantee provided to us by the JLS §15.21.1 for numbers, and §15.21.3 for reference types (or everything that isn't a primitive value).

It could also be seen as **transitive**, in that if three values `x, y, z`

exist, and `x == y && y == z`

, then `x == z`

. This is again provided by the same JLS specification - merely repeated to mitigate the issue of the common variable `y`

.

The **real** problem here comes with regards to autoboxing; when you go to unbox `null`

, then by the JLS, you're going to get a `NullPointerException`

- independent of the comparison operation you're going to do next.

Effectively:

You have a boxed primitive type on one side of the comparison, and a primitive on the other. The value of either isn't yet considered.

Given that the value of the primitive will force numerical comparison due to it being a boxed primitive, Java will then try to unbox the boxed value.

You can't unbox `null`

, hence `NullPointerException`

.

This is (kind of) where `equals()`

steps in - by its contract, two non-null instances must be equivalent to each other if they are indeed the same thing. If either (but not both) of these values are `null`

, then they're not the same instances.

I say "kind of" since there's really nothing to enforce the supposed contract on `Object#equals`

; you could (with some effort) write an asymmetric `equals()`

method, although one would wonder why you would want to.

`false`

if the argument is`null`

.) – Dennis Meng Feb 8 '14 at 5:36see the answertherein - it contains much information. – user2864740 Feb 8 '14 at 5:37