# Overflowing of Unsigned Int

What will the `unsigned int` contain when I overflow it? To be specific, I want to do a multiplication with two `unsigned int`s and want to know what will be in the `unsigned int` after the multiplication is finished?

``````unsigned int someint = 253473829*13482018273;
``````
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This seems to be a duplicate of stackoverflow.com/questions/199333/… –  Niklas B. Feb 8 '12 at 13:12
Why not try it and see what you get? In general, when an unsigned int overflows, it rolls over to zero. So `UINT_MAX + 5` rolls over and becomes 4. –  Joachim Pileborg Feb 8 '12 at 13:15
It would be the difference between the max uint value and the value of what would have been the overflow value. Lets make it simple. Lets say the max uint is 5. You want to add 2 * 4 so this makes the final value 3 instead of 8. –  Ramhound Feb 8 '12 at 13:17

`unsigned` numbers can't overflow, but instead wrap around using the properties of modulo.

For instance, when `unsigned int` is 32 bits, the result would be: `(a * b) mod 2^32`.

As CharlesBailey pointed out, `253473829*13482018273` may use signed multiplication before being converted, and so you should be explicit about `unsigned` before the multiplication:

``````unsigned int someint = 253473829U * 13482018273U;
``````
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is that a part of a standard? –  Zhenya Feb 8 '12 at 13:15
@Zhenya Yes, in both C and C++. –  Pubby Feb 8 '12 at 13:17
@Zhenya - Does it matter? The answer is 100% correct. Its a more technical way of saying UINT_MAX + 5 is 4. This likely would remain true in both .NET languages and Java. At least in the case of .NET NaN is limited to types like double where the value ( most of the time ) is not represented exactly. –  Ramhound Feb 8 '12 at 13:18
@Ramhound: Of course it matters. If the standard didn't define this behaviour (like it doesn't for signed integer types), then you couldn't rely on it. –  Mike Seymour Feb 8 '12 at 13:25
@Mr.Anubis: No, only unsigned integer types. Signed and floating point overflows give undefined behaviour. –  Mike Seymour Feb 8 '12 at 13:26

It probably depends a bit on your compiler. I had errors like this years ago, and sometimes you would get runtime error, other times it would basically "wrap" back to a really small number that would result from chopping off the highest level bits and leaving the remainder, i.e if it's a 32 bit unsigned int, and the result of your multiplication would be a 34 bit number, it would chop off the high order 2 bits and give you the remainder. You would probably have to try it on your compiler to see exactly what you get, which may not be the same thing you would get with a different compiler, especially if the overflow happens in the middle of an expression where the end result is within the range of an unsigned int.

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Unsigned integer overflow, unlike its signed counterpart, exhibits well-defined behaviour.

Values basically "wrap" around. It's safe and commonly used for counting down, or hashing/mod functions.

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Unsigned doesn't overflow –  skwllsp Feb 8 '12 at 13:19
I meant that as a comparison to try explain it by relating to something similar. I did qualify my statement later with the wrap around bit. Ah technicalities. –  evandrix Feb 8 '12 at 13:21