How would you do that in C? (Example: 10110001 becomes 10001101 if we had to mirror 8 bits). Are there any instructions on certain processors that would simplify this task?

Sean Eron Anderson presents several techniques to revert the sequence of bits: 


It's actually called "bit reversal", and is commonly done in FFT scrambling. The O(log N) way is (for up to 32 bits):



Per Rich Schroeppel in this MIT memo (if you can read past the assembler), the following will reverse the bits in an 8bit byte providing that you have 64bit arithmetic available:
Which sort of fans the bits out (the multiply), selects them (the and) and then shrinks them back down (the modulus). Is it actually an 8bit quantity that you have? 


That is:



I think I would make a lookup table of bitpatterns 0255. Read each byte and with the lookup table reverse that byte and afterwards arrange the resulting bytes appropriately. 


Fastest approach is almost sure to be a lookup table:
Or if you can afford 128k of table data (by afford, I mean cpu cache utilization, not main memory or virtual memory utilization), use 16bit units:



quint64 mirror(quint64 a,quint8 l=64) This function mirroring less then 64 bits. For instance it can mirroring 12 bits. quint64 and quint8 are defined in Qt. But it possible redefine it in anyway. 


I've also just figured out a minimal solution for mirroring 4 bits (a nibble) in only 16 bits temporary space.


