Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

This part of the CryENGINE SDK headers caught my attention:



// helper functions for branch elimination
// msb/lsb - most/less significant byte
// mask - 0xFFFFFFFF
// nz   - not zero
// zr   - is zero

ILINE const uint32 nz2msb(const uint32 x)
    return -(int32)x | x;

ILINE const uint32 msb2mask(const uint32 x)
    return (int32)(x) >> 31;

ILINE const uint32 nz2one(const uint32 x)
    return nz2msb(x) >> 31; // int((bool)x);

ILINE const uint32 nz2mask(const uint32 x)
    return (int32)msb2mask(nz2msb(x)); // -(int32)(bool)x;

ILINE const uint32 iselmask(const uint32 mask, uint32 x, const uint32 y)// select integer with mask (0xFFFFFFFF or 0x0 only!!!)
    return (x & mask) | (y & ~mask);

ILINE const uint32 mask_nz_nz(const uint32 x, const uint32 y)// mask if( x != 0 && y != 0)
    return msb2mask(nz2msb(x) & nz2msb(y));

ILINE const uint32 mask_nz_zr(const uint32 x, const uint32 y)// mask if( x != 0 && y == 0)
    return msb2mask(nz2msb(x) & ~nz2msb(y));

ILINE const uint32 mask_zr_zr(const uint32 x, const uint32 y)// mask if( x == 0 && y == 0)
    return ~nz2mask(x | y);


Could someone throw a short explanation how exactly are these functions intended to be used to reduce branches? ILINE I suppose is predefined force inline or something like that. I searched Google about it, but all I found were copies of the CryENGINE headers uploaded in different sites, but no discussions about this specific one.

share|improve this question
with a better branch prediction I guess – user1849534 Dec 15 '12 at 17:16
@didierc Or rather, these examples completely remove the branches. – Mysticial Dec 15 '12 at 18:04

1 Answer 1

up vote 12 down vote accepted

These functions return bit-masks that can be and'd with results in other calculations, in order to perform operations without conditionals, and thus without introducing branches.

For example:

  • nz2mask returns 0 if the argument is 0, and 0xffffffff otherwise.
  • msb2mask returns 0 if the top bit of the argument is 0, and 0xffffffff if it is 1.

So if you have code like (with x86 instructions for reference):

if(a != 0) x += y;
    //  test        ebx,ebx  
    //  je          skip  
    //  add         dword ptr [x],eax  
    // skip:

You can replace it with:

x += y & (nz2mask(a));
    //  mov     ecx,ebx  
    //  neg     ecx  
    //  or      ecx,ebx  
    //  sar     ecx,1Fh  
    //  and     ecx,eax  
    //  add     ecx,dword ptr [x]  

It produces more instructions (at least on x86), but it avoids a branch.

Then there are additional functions like iselmask() which allow the selection of either input based on the mask provided, so you could replace:

x = (a != 0) ? r1 : r2;


x = iselmask(nz2mask(a), r1, r2);

Again, these functions should inline and compile down to relatively efficient assembler, trading off a bit of extra maths for no branching.

share|improve this answer
upvoted. In the first example, we can see that there's a test (the if instruction), which at machine code level is translated to a conditional branch. In the replacement instruction, no more test is found, and the machine code won't contain a branch. – didierc Dec 15 '12 at 18:35
thanks for the answers,I guess I'll be replacing my if elses with this now :D – ulak blade Dec 16 '12 at 8:58
Definitely profile the results before blindly doing this kind of stuff - it's not always a win. You have to know that branching is costing you performance before trying to eliminate it. – JasonD Dec 16 '12 at 9:00
I did a small test,the result is: Enter execution count 10000 execution speed with branching was:2926 execution speed without branching was:2929 Press any key to continue . . . however all the program did in the if'else brackets was just do a huge amount of int operations,maybe I should try something more complex? EDIT: with 100k executions branching is almost 1000 msec faster o_O – ulak blade Dec 16 '12 at 10:01

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.