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I'm trying to find a way to handle several bitfield cases that include optional, required, and not allowed positions.





In these four cases, the ? indicates that the bit can be either 1 or 0 while y indicates a 1 is required and n indicates that a 0 is required. The bits to the left/right of the required bits can be anything and the remaining bits must be 0. Is there a masking method I can use to test if an input bit set satisfies one of these cases?

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That reminds me of the bitwise domain described in this paper –  harold Aug 22 '14 at 21:15
Check my solution, it works with your masks right out of the box: stackoverflow.com/a/25455747/2583484 –  Adam Aug 22 '14 at 22:32

2 Answers 2

up vote 0 down vote accepted

Absolutely, but of course it depends on how you represent the "templates".

For example, say you represent them as a pair (z, o) where z has a 1 for every bit that is allowed to be 0 and o has a 1 for every bit that is allowed to be 1 (as in the paper I linked to in the comments). Then to test x against it you could do:

if ((x | z) == -1 && (x & o) == x)
    passes test

You could also represent the templates as a pair (mask, bits), where mask is a mask of all bits that have to match (ie 0 means ?, 1 means a fixed bit) and bits is the values of the fixed bits. Then you could test x like:

if ((x & mask) == bits)
    passes test

That's in general. If your problem has a special form, as it does in your question, you could use specialized tests.

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Try something like this (using C/C++ notation):

(input & mask) == mask && (input & ~(mask | mask<<1 | mask>>1)) == 0
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