Lets say that I have an array of 4 32bit integers which I use to store the 128bit number
How can I perform left and right shift on this 128bit number?
Thanks!
Lets say that I have an array of 4 32bit integers which I use to store the 128bit number How can I perform left and right shift on this 128bit number? Thanks! 




Instead of using a 128 bit number why not use a bitset? Using a bitset, you can adjust how big you want it to be. Plus you can perform quite a few operations on it. You can find more information on these here: http://www.cppreference.com/wiki/utility/bitset/start?do=backlink 


Working with uint128? If you can, use the x86 SSE instructions, which were designed for exactly that. (Then, when you've bitshifted your value, you're ready to do other 128bit operations ...) SSE2 bit shifts takes ~4 instructions on average, with one branch (a case statement). No issues with shifting more than 32 bits, either. The full code for doing this is, using gcc intrinsics rather than raw assembler, is in sseutil.c (github: "Unusual uses of SSE2")  and it's a bit bigger than makes sense to paste here. The hurdle for many people in using SSE2 is that shift ops take immediate (constant) shift counts. You can solve that with a bit of C preprocessor twiddling (wordpress: C preprocessor tricks). After that, you have op sequences like: LeftShift(uint128 x, int n) = _mm_slli_epi64(_mm_slli_si128(x, n/8), n%8) for n=65..71, 73..79, … 121..127 ... doing the whole shift in two instructions. 


First, if you're shifting by For each integer you'll need to shift by the remaining 


Since you mentioned you're storing your 128bit value in an array of 4 integers, you could do the following:



int64_t
? It'll make things much simpler than 4int32_t
– Lưu Vĩnh Phúc Jan 21 at 10:57