# What does this boolean "(number & 1) == 0" mean?

On CodeReview I posted a working piece of code and asked for tips to improve it. One I got was to use a boolean method to check if an ArrayList had an even number of indices (which was required). This was the code that was suggested:

``````private static boolean isEven(int number)
{
return (number & 1) == 0;
}
``````

As I've already pestered that particular user for a lot of help, I've decided it's time I pestered the SO community! I don't really understand how this works. The method is called and takes the size of the ArrayList as a parameter (i.e. ArrayList has ten elements, number = 10).

I know a single `&` runs the comparison of both number and 1, but I got lost after that.

The way I read it, it is saying return true if `number == 0` and `1 == 0`. I know the first isn't true and the latter obviously doesn't make sense. Could anybody help me out?

Edit: I should probably add that the code does work, in case anyone is wondering.

• Anybody know who linked this to that other post (which has nothing to do with this stuff)? Can I remove it somehow? Commented Feb 16, 2013 at 10:59
• Damn this is actually really smart! Commented Feb 16, 2013 at 11:04
• This was featured on Twitter. Commented Feb 16, 2013 at 15:05
• @AndrewMartin twitter.com/StackExchange/status/302768803719286785 Commented Feb 16, 2013 at 17:24
• @GrijeshChauhan Could you please elaborate as to how is this faster than `number % 2 == 0` ?? Commented Feb 20, 2013 at 2:55

Keep in mind that "&" is a bitwise operation. You are probably aware of this, but it's not totally clear to me based on the way you posed the question.

That being said, the theoretical idea is that you have some int, which can be expressed in bits by some series of 1s and 0s. For example:

``````...10110110
``````

In binary, because it is base 2, whenever the bitwise version of the number ends in 0, it is even, and when it ends in 1 it is odd.

Therefore, doing a bitwise & with 1 for the above is:

``````...10110110 & ...00000001
``````

Of course, this is 0, so you can say that the original input was even.

Alternatively, consider an odd number. For example, add 1 to what we had above. Then

``````...10110111 & ...00000001
``````

Is equal to 1, and is therefore, not equal to zero. Voila.

• Thanks - your explanation makes it very clear. Plus any answer which ends in a Voila deserves an upvote. Commented Feb 16, 2013 at 1:05
• Should probably also be aware of negative numbers in this answer. Commented Feb 16, 2013 at 5:04
• Also, I'd possibly amend this answer to include the factoid that `n%k == n&(k-1)` for all `k` which are a positive power of 2. It might not be what the asker asked but it's a handy thing to know. Commented Feb 16, 2013 at 7:07
• @fluffy not saying that it wouldn't work, but not everyone knows two's complement. Commented Feb 16, 2013 at 7:07
• @fluffy shouldn't there be a `log` or `2^` somewhere in that expression? Commented Feb 16, 2013 at 7:58

You can determine the number either is even or odd by the last bit in its binary representation:

``````1 -> 00000000000000000000000000000001 (odd)
2 -> 00000000000000000000000000000010 (even)
3 -> 00000000000000000000000000000011 (odd)
4 -> 00000000000000000000000000000100 (even)
5 -> 00000000000000000000000000000101 (odd)
6 -> 00000000000000000000000000000110 (even)
7 -> 00000000000000000000000000000111 (odd)
8 -> 00000000000000000000000000001000 (even)
``````

`&` between two integers is bitwise AND operator:

``````0 & 0 = 0
0 & 1 = 0
1 & 0 = 0
1 & 1 = 1
``````

So, if `(number & 1) == 0` is `true`, this means `number` is even.

Let's assume that `number == 6`, then:

``````6 -> 00000000000000000000000000000110 (even)

&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&

1 -> 00000000000000000000000000000001

-------------------------------------

0 -> 00000000000000000000000000000000
``````

and when `number == 7`:

``````7 -> 00000000000000000000000000000111 (odd)

&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&

1 -> 00000000000000000000000000000001

-------------------------------------

1 -> 00000000000000000000000000000001
``````

`&` is the bitwise AND operator. `&&` is the logical AND operator

In binary, if the digits bit is set (i.e one), the number is odd.

In binary, if the digits bit is zero , the number is even.

`(number & 1)` is a bitwise AND test of the digits bit.

Another way to do this (and possibly less efficient but more understandable) is using the modulus operator `%`:

``````private static boolean isEven(int number)
{
if (number < 0)
throw new ArgumentOutOfRangeException();

return (number % 2) == 0;
}
``````
• `&` is also logical AND. `&&` short circuits while `&` does not. Commented Feb 16, 2013 at 1:55
• `number % 2` is not the same as `number & 1` if `number` is negative. Commented Feb 16, 2013 at 2:06
• if you are being passed a negative length, then you have bigger problems! ;) Commented Feb 16, 2013 at 2:16
• @RyanAmos "Iterate each bit?" Bitwise AND is a single operation in every CPU I've ever seen - it's among the easiest things to do in parallel. Commented Feb 16, 2013 at 7:05
• @MitchWheat There is no reason to throw on the `number < 0` case - while an odd negative number mod 2 is -1, an even one mod 2 is still 0. Commented Feb 16, 2013 at 7:08

This expression means "the integer represents an even number".

Here is the reason why: the binary representation of decimal `1` is `00000000001`. All odd numbers end in a `1` in binary (this is easy to verify: suppose the number's binary representation does not end in `1`; then it's composed of non-zero powers of two, which is always an even number). When you do a binary `AND` with an odd number, the result is `1`; when you do a binary `AND` with an even number, the result is `0`.

This used to be the preferred method of deciding odd/even back at the time when optimizers were poor to nonexistent, and `%` operators required twenty times the number of cycles taken by an `&` operator. These days, if you do `number % 2 == 0`, the compiler is likely to generate code that executes as quickly as `(number & 1) == 0` does.

Single `&` means bit-wise `and` operator not comparison

So this code checks if the first `bit` (least significant/most right) is set or not, which indicates if the number is `odd` or not; because all odd numbers will end with `1` in the least significant bit e.g. `xxxxxxx1`

• Note that a single `&` can be used as a logical `and` if you want to keep side effects from expressions like `f(x) & g(x)` Commented Feb 16, 2013 at 8:03

`&` is a bitwise `AND` operation.

For number = 8:

``````  1000
0001
& ----
0000
``````

The result is that `(8 & 1) == 0`. This is the case for all even numbers, since they are multiples of 2 and the first binary digit from the right is always 0. 1 has a binary value of 1 with leading 0s, so when we `AND` it with an even number we're left with 0.

The `&` operator in Java is the bitwise-and operator. Basically, `(number & 1)` performs a bitwise-and between `number` and `1`. The result is either 0 or 1, depending on whether it's even or odd. Then the result is compared with 0 to determine if it's even.

Here's a page describing bitwise operations.

It is performing a binary and against 1, which returns 0 if the least significant bit is not set

00001010 (10)

00000001 (1)

===========

00000000 (0)

This is Logical design concept bitwise & (AND)operater.

return ( 2 & 1 ); means- convert the value to bitwise numbers and comapre the (AND) feature and returns the value.