# Compare bit with parity

What is the most efficient way to compare a flag (0x00010001) bitwise with an integer and see if both the bit in integer is set ?

In other words what is the most efficient way to perform following ?

``````        bit = (number & 0x001 ) &  (number 0x 0x00010000 )
``````
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I'd go with

``````(number & 0x00010001) == 0x00010001
``````

which will be true if and only if both bits in `number` are set.

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I think this is way clearer than my method. –  nhahtdh Dec 5 '12 at 6:08
Does this one is more expensive than the one suggested by @nhahtdh with respect to performance. All bits needs to be compared after and operation? –  Tectrendz Dec 11 '12 at 22:58
@tectrendz: If there is any difference, it is hardly a problem with today's hardware. –  nhahtdh Dec 12 '12 at 1:56
The computer should perform one integer operation (`&`) and one logical operation (`==`) rather than a bunch of bit operations. @nhahtdh's answer uses two integer operations (`~`, `&`) and one logical operation (`!`). There may be no difference, though, as `!` is likely to be a free byproduct of `&`. –  Joshua Green Dec 13 '12 at 15:28
Thanks @JoshuaGreen –  Tectrendz Dec 19 '12 at 1:26

A succinct solution, which is extensible to any number of bits you want to test simultaneously on:

``````!(~number & 0x00010001)
``````

I invert all the bits of `number` with bitwise NOT. If both bits are set, both bits will now be 0, and bitwise AND `&` with the mask will result in 0. Apply logical NOT to 0 will return non-zero integer.

If any of the bits is 0, inverting the bit will make it 1. So the result after bitwise AND will be non-zero, and logical NOT of non-zero integer will return 0.

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if you choose this method, please put it behind a macro or inline function with a nice name so whoever needs to read it later won't have to puzzle it out. –  Michael Burr Dec 5 '12 at 5:57