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This simple piece of code is my problem:

Extended asm (gcc); Intel syntax (-masm=intel); Platform - x86

What it should do: Return a float with length of one and the sign (+-) the same as x's.

    float signf(float x)
      float r = 1;
      asm volatile (
            "and %1,0x80000000;"
            "or %0,%1;"
      return r;

Calling it with an arbitrary random number chosen by a fair dice roll gives:

    signf of -1352353.3253: -5.60519e-045
share|improve this question
It would probably be most useful if you looked at the bit representation of all the numbers that are involved (including the one you are attempting to generate) – PlasmaHH Jan 11 '13 at 15:25
@PlasmaHH, a good place to go for that is – Mark Ransom Jan 11 '13 at 15:32
-1352353.3253: 11001001101001010001010100001011 -5.60519e-045: 10000000000000000000000000000100 1: 00111111100000000000000000000000 That's what the binary looks for those numbers. No idea on the problem though. – Eximius Jan 11 '13 at 15:33
@Eximius: obviously the returned value contains garbage from somewhere else, so your assembly doesn't do what you think it does. Looking at the disassembled function might show how it deviates from what you think you gave it. – PlasmaHH Jan 11 '13 at 16:34

The actual problem with your inline asm is that you declare r as output only, so the compiler will optimize away the initialization. You should use "+r" constraint instead of "=r" and it should work.

A better optimized version could look like:

float signf(float x)
    float r;
    __asm__  __volatile__ (
            "and %0, 0x80000000;"
            "or %0, 0x3f800000;"
    return r;

Note that this function involves float->int->float conversion (through memory) which may affect performance.

The C version of the above code is:

float signf(float x)
    union { float f; int i; } tmp, res;
    tmp.f = x;
    res.f = 1;
    res.i |= tmp.i & 0x80000000;
    return res.f;

This generates identical code for me (using gcc 4.4.5).

The simple C approach return x < 0 ? -1 : 1; generates full FPU code without conversion or memory accesses (except for loading the operand) so might perform better. It also uses fcmov if available to avoid branching. Needs some benchmarking.

share|improve this answer
+1 for using assembly may affect performance [negatively]. Comes as a surprise to many users. – Bo Persson Jan 11 '13 at 17:27
@BoPersson: Thanks. And we haven't even looked at inlined performance where the compiler may further optimize the C code, while it must treat the asm as an unchangeable black box. As an extreme example, fabs(signf(x)) can be optimized to constant 1 but not when using the asm version. – Jester Jan 11 '13 at 18:26

There are two C++ functions for this in C++11:

bool std::signbit (x);


float f = std::copysign (1.0f, x);

share|improve this answer
I did know about them, but the first one is a bool ( so not much better than just if(myfloat < 0 ) and second one takes a 'magnitude' argument which is superfluous. (Also copy_sign doesn't seem to reside on the gcc that I have (it's not old)) – Eximius Jan 11 '13 at 15:40
@Eximius the comparison to zero does not capture the special floating point value of -0.0f although it does work with -INFINITY and is a bit bogus with NAN. – Steve-o Jan 11 '13 at 15:44

This seems to work well (AT&T syntax):

float signf(float x)
  float r = 1;
  asm ("andl $0x80000000, %1\n"
       "\torl %1, %0\n"
  return r;

TBH, I would use copysignf() as suggested by others. What you are trying to do is unportable both because it is tied only to IA-32 platform and C++ compilers that can do this asm() statement.


BTW, the following version works the same (and generates pretty much the same instructions as the above asm() statement) and is free of non-portable stuff and type aliasing issues (unlike the union based or reinterpret_cast<> based versions suggested by others).

float signf3(float x)
  unsigned u;
  std::memcpy(&u, &x, sizeof (u)) ;

  float r = 1.f;
  unsigned uone;
  std::memcpy(&uone, &r, sizeof (uone));

  uone |= u & 0x80000000;

  std::memcpy(&r, &uone, sizeof (r));
  return r;
share|improve this answer

This question is tagged C++ so I'll offer two C++ suggestions that you can let your compiler optimize:

  • return x < 0.0f ? -1.0f : 1.0f;
  • return x / std::abs(x); // I believe self-division shouldn't cause 'almost 1.0' numbers to be genereated
share|improve this answer
Do these both capture -0.0f? – Steve-o Jan 11 '13 at 15:35
Do either capture the sign of -0.0f? I don't think so: for -0.0, the first will return 1.0f, and the second NaN. – James Kanze Jan 11 '13 at 15:41

You do not need to use asm for this. The following does what you tried to do (even the correct result for -0.0f).

float signf(float x) {
    bool sign=(0!=(*(reinterpret_cast<uint32_t *>(&x)) & 0x80000000));
    return sign? -1.0f : 1.0f;
share|improve this answer
even though "std::signbit" should work as well. if you need a float just use "std::signbit(x)? -1.0f : 1.0f". std::signbit should do exactly what my first line does and return true if the sign is set, be it -0.0 or any other number. – example Jan 11 '13 at 16:46
-1 because float is not 64 bits wide on most systems. and because it breaks aliasing rules, AFAIK. – wilx Jan 12 '13 at 19:46
@wilx you are right. i fixed the 64bits to 32bits (which is the most common size of a float afaik). Don't see any problem with it then (on the contrary, it does exactly what the asm code of eximius was supposed to do, including the same limitation to 32bit floats due to the 0x80000000 constant). – example Jan 12 '13 at 21:21

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