# How to make a hashcode(integer value) positive

``````int x = 10; int y = (x.hashcode() & 0xfffffff);
``````

How does the above code always make `y` positive? Thanks!

• If it's meant to be a hash code, why do you want to ensure it's positive? As for why it's doing that already - you're keeping the bottom 32 bits; the top 4 bits will always be cleared. Any `int` with the top bit clear is non-negative. You could achieve this without losing as much information by using `x.hashCode() & 0x7fffffff`(aka `x.hashCode() & Integer.MAX_VALUE`) – Jon Skeet Oct 19 '15 at 16:44
• @JonSkeet I think he is asking why the bitwise operation will get you a positive value. – Sleiman Jneidi Oct 19 '15 at 16:46
• @SleimanJneidi: Well that's what the body of the question says (and I explain in the comment) but the title of the question asks how to get a positive value. – Jon Skeet Oct 19 '15 at 16:47
• @JonSkeet: `If it's meant to be a hash code, why do you want to ensure it's positive?` I don't know the OP's motivation, but a common reason would be to use the hash value as an index into a table (i.e. a hash table). – LarsH Jul 26 '17 at 21:33
• @LarsH: That's normally done with a bitmask for the table length (which is typically a power of 2). You're not going to use the hash code directly as an index unless you've really got a table with 2^31 entries... – Jon Skeet Jul 26 '17 at 21:34

`x.hashcode() & 0xfffffff` will turn the sign bit off. `Math.abs` is not used here because it returns negative if `x.hashCode` is equal to `Integer.MIN_VALUE` which will make the `hashtable's` array throw an `ArrayOutOfBoundException` which is not fun.

From @JonSkeet comment: It doesn't just turn the sign bit off, it clears the next three bits as well.

But with hash codes we deal with collisions all the time, so it is considered fine.

• It doesn't just turn the sign bit off, mind you - it clears the next three bits as well... – Jon Skeet Oct 19 '15 at 16:47
• @JonSkeet very true. – Sleiman Jneidi Oct 19 '15 at 16:48
• Sleiman, could you explain a bit more about the inner workings of that `x.hashcode() & 0xfffffff` statement? What is happening exactly under the hood? – Sahand Feb 5 '18 at 15:24
• @Sahand see D. Kalb's answer below explaining bitwise AND and what's happening particularly in this case in a bit more detail – GKruger yesterday

The `&` will perform a bitwise AND comparison. That means it will take the bits of the first number, in your case the hashcode, and the second number, in your case `0xFFFFFFF` and will compare them. If both compared bits are set to `1`, the rsult will be a one, else it will be `0`.

To give you short example: if we perform this comparison between `1011` and `1100`, the result would be `1000` because just the left bit is `1` for both numbers. Coming back to `0xFFFFFFF`, the binary presentation of this number is consisting of just 28 bits. An integer like the one returned by the hashfunction is consisting of 32 bits.

If you now perform a bitwise AND comparison, the left 4 bits are ignored because `0xFFFFFFF` is missing the first 4 bits and therefore they filled with zeros and the result of the comparison will be `0`. The rest stays the same since there is always a one in the second number. The first bit is used to indicate whether the number is positive or negative and this value gets lost. So it's set to `0` and therefore the whole number is positive.

The disadvantage here is that the following three bits are also lost. If you want to keep them, you would have to set the first number to `0` and the rest to `1`, so instead of `0xFFFFFFF` you would use `0x7FFFFFFF`.