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What is the implementation of GCC's (4.6+) __builtin_clz? Does it correspond to some CPU instruction on Intel x86_64 (AVX)?

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Did you try it? – Carl Norum Feb 19 '12 at 22:39
I don't know, but if it's available, LZCNT seems like a likely candidate. (See – reuben Feb 19 '12 at 22:40
up vote 11 down vote accepted

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 x86-64 chips have that instruction.

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Yes, and no.

CLZ (count leading zero) and BSR (bit-scan 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 (bit-scan 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:

gcc -S -o test.S test.c


unsigned int clz(unsigned int num) {
    return __builtin_clz(num);

unsigned int ctz(unsigned int num) {
    return __builtin_ctz(num);

On x86 for clz gcc (-O2) generates:

bsrl    %edi, %eax
xorl    $31, %eax

and for ctz:

bsfl    %edi, %eax

Note that if you really want bsr, and not clz, you need to do 31 - clz (for 32-bit 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:

num = __builtin_clz(num) ^ 31;


bsrl    %edi, %eax
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Yes, it corresponds to CPU instruction BSR (bit scan reverse).

Here is a sample code that can hep you:

int a=20; //10100

//trailing zeroes
cout<<__builtin_ctz(a)<<endl;   //gives 2
cout<<__builtin_ctz(a<<4)<<endl;    //gives 6

//leading zeroes
cout<<__builtin_clz(a)<<endl;   //gives 27
cout<<__builtin_clz(a>>4)<<endl;    //gives 31

cout<<__builtin_clz(0)<<endl;   //gives 32
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That's wrong. It corresponds to bsr and a subtraction. Also, the example adds nothing to the claim. And also also, the question is clearly tagged C and a particular compiler (gcc) has been mentioned. The example code would not work. – hroptatyr Jan 15 at 10:15

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