# Unary negation of unsigned integer

I'm looking to convert this line of C code to C#:

``````const u64 a = 1, b = -a;
``````

So my understanding is that both constants are unsigned 64-bit integers. If so, what is the result going to look like?

Or is the second constant actually promoted and therefore defined as a signed integer?

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Are you asking what the result of running this will be in C, or what the equivalent C# should be? – Chris Shain Feb 8 '12 at 2:26
Why do you want to negate an unsigned int? Doesn't that defeat the purpose? – jb. Feb 8 '12 at 2:27
@jb: This is a line of code from somebody else's C program - I'm looking to convert the line to C#. – RoadWarrior Feb 8 '12 at 2:28

Due to the behaviour of negating unsigned integers, the representation of `-(u64)1` is all 1s. So, after the following:

``````const u64 a = 1, b = -a;

// a is now 0x0000000000000001
// b is now 0xffffffffffffffff
``````

Of course, `0xffffffffffffffff` is also `(2^64) -1`, which is 18446744073709551615.

In my opinion, it would have been clearer for the original programmer to instead write:

``````const u64 a = 1, b = ~(u64)0;
``````

I'm not a C# programmer, but I suspect the following will work for you:

``````const ulong b = ~(ulong)0;
``````
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I think `~0` depends on the same undefined behavior as `-1` (casting `int` to `uint64`). `~(u64)0` should solve this. – Banthar Feb 8 '12 at 2:48
@Banthar: Thanks, updated :) – Timothy Jones Feb 8 '12 at 2:54
It's not UD in C. The standard clearly defines the result of conversion of signed negative integers to unsigned integers. But we don't even have that here. `1` is signed positive that is converted to unsigned (to type of `a`) without change. `a` is unsigned because it's defined as unsigned. And so is `-a`. See this question and answers to it – Alexey Frunze Feb 8 '12 at 2:57
@Alex Thanks, I'll remove the answer shortly. Can you tell me where the C standard defines the result of conversion from signed negative to unsigned? If I'm reading it correctly, in your question you say it doesn't? – Timothy Jones Feb 8 '12 at 3:09
@Alex: Updated answer to remove the comments about UB. Thanks for the feedback! – Timothy Jones Feb 8 '12 at 3:22

This would be the equivalent C#:

``````const ulong a = 1, b = unchecked((ulong)-1);
``````

Or more simply:

``````const ulong a = 1, b = 18446744073709551615;
``````
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Aha - many thanks! So the C code actually results in an overflow to (in C#) UInt64.MaxValue? – RoadWarrior Feb 8 '12 at 2:33
If you want the max value `const ulong b = ~(ulong)0;` also works – PostMan Feb 8 '12 at 2:36
@RoadWarrior - the result isn't due to an overflow, just the conversion to an unsigned 64 bit int. See my answer for details. – Timothy Jones Feb 8 '12 at 2:37
@TimothyJones: The value already has type `u64` when the negation operator is applied, so the huge value is due to reduction of arithmetic results modulo 2^64, not anything about conversion. – R.. Feb 8 '12 at 4:34

The C# compiler will try to protect you from accidentally negiting an unsigned integer, but you can force it like this:

``````ulong a = 1;
ulong b = (ulong)-(long)a;
``````

The result will be exactly the same bunch of bits as when negating a signed integer (i.e. two's complement), the only difference is how these bits are interpreted.

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