# How to write new value to individual bit without (if/else) operator

I know that I can set bit N by:

``````VALUE |= 1 << N;
``````

Or clear bit N by:

``````VALUE &= ~(1 << N);
``````

But what is the most efficient way to "write" (not set or clear) bit N? For example, I have a function:

``````__inline void writeBit(char &value, int N, bool state)
{
if(state)
value |= 1 << N;
else
value &= ~(1 << N);
}
``````

Can I somehow get rid of if/else statements and instead do this only using binary and shift operators?

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The page of Bit Hacks suggests using the following formula:

``````value ^= (-state ^ value) & (1 << N);
``````

The declaration of `state` needs to change from `bool` to an `int`.

This trick works on computers with twos complement representation of negative numbers, because unary minus `-state` changes the state `1` to a number composed of ones, and leaves zero unchanged.

An alternative for superscalar CPUs looks like this:

``````value = (value & ~(1 << N)) | (-state & (1 << N));
``````
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Ok but if I try formula for superscalar CPU on "non superscalar", would it work? –  minyor Oct 7 '13 at 0:33
@minyor Absolutely, it will work. It just wouldn't be as fast as the first formula. –  dasblinkenlight Oct 7 '13 at 0:34

I'd go for the simple solution:

``````inline void writeBit(char &value, int N, bool state)
{
value &= ~(1 << N); // Unconditional clear. We don't care about old value.
value |= char(state) << N; // Unconditional set to intended value.
}
``````

Since this is so clear and common, any decent optimizer will recognize the intent and use the best solution. Either of the two instructions will be useless, depending on `state`, but also harmless. That's better than the branch you have in your code.

I expect this to be better than either of dasblinkenlight's methods, unless an optimizer optimizes them all to the same.

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