What is the implementation of GCC's (4.6+) __builtin_clz
? Does it correspond to some CPU instruction on Intel x86_64 (AVX)
?
It should translate to a Bit Scan Reverse instruction and a subtract. The BSR gives the index of the leading 1, and then you can subtract that from the word size to get the number of leading zeros. Edit: if your CPU supports LZCNT (Leading Zero Count), then that will probably do the trick too, but not all x8664 chips have that instruction. 


Yes, and no. CLZ (count leading zero) and BSR (bitscan reverse) are related but different. CLZ equals (type bit width less one)  BSR. CTZ (count trailing zero), also know as FFS (find first set) is the same as BSF (bitscan forward.) Note that all of these are undefined when operating on zero! In answer to your question, most of the time on x86 and x86_64, __builtin_clz generates BSR operation subtracted from 31 (or whatever your type width is), and __builting_ctz generates a BSF operation. If you want to know what assembler GCC is generating, the best way to know is to see. The S flag will have gcc output the assembler it generated for the given input:
Consider:
On x86 for clz gcc (O2) generates:
and for ctz:
Note that if you really want bsr, and not clz, you need to do 31  clz (for 32bit integers.) This explains the XOR 31, as x XOR 31 == 31  x (this identity is only true for numbers of the from 2^y  1) So:
yields



Yes, it corresponds to CPU instruction BSR (bit scan reverse). Here is a sample code that can hep you:



LZCNT
seems like a likely candidate. (See en.wikipedia.org/wiki/SSE4) – reuben Feb 19 '12 at 22:40