Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I want a function that returns -1 for negative numbers and +1 for positive numbers. http://en.wikipedia.org/wiki/Sign%5Ffunction It's easy enough to write my own, but it seems like something that ought to be in a standard library somewhere.

Edit: Specifically, I was looking for a function working on floats.

share|improve this question
7  
What should it return for 0? –  Craig McQueen Dec 14 '09 at 23:26
34  
@Craig McQueen; that depends on if it is a positive zero or negative zero. –  ysth Dec 15 '09 at 5:53
1  
I noticed that you specified the return value as an integer. Are you looking for a solution that takes integers or floating point numbers? –  Mark Byers Dec 15 '09 at 9:56
12  
Amazing. Most of these solutions say to write your own function, even though this question specifically asks whether there is a function in the std lib... –  allyourcode Feb 11 '13 at 23:31
1  
@ysth @Craig McQueen, false for floats too, no? sgn(x)'s definition says to return 0 if x==0. According to IEEE 754, negative zero and positive zero should compare as equal. –  RJFalconer Jun 4 '14 at 11:28

17 Answers 17

up vote 238 down vote accepted

Surprised no one has posted the branchless, type-safe C++ version yet:

template <typename T> int sgn(T val) {
    return (T(0) < val) - (val < T(0));
}

Benefits:

  • Actually implements signum (-1, 0, or 1). Implementations here using copysign only return -1 or 1, which is not signum. Also, some implementations here are returning a float (or T) rather than an int, which seems wasteful.
  • Works for ints, floats, doubles, unsigned shorts, or any custom types constructible from integer 0 and orderable.
  • Fast! copysign is slow, especially if you need to promote and then narrow again. This is branchless and optimizes excellently
  • Standards-compliant! The bitshift hack is neat, but only works for some bit representations, and doesn't work when you have an unsigned type. It could be provided as a manual specialization when appropriate.
  • Accurate! Simple comparisons with zero can maintain the machine's internal high-precision representation (e.g. 80 bit on x87), and avoid a premature round to zero.

Caveats:

  • It's a template so it'll take forever to compile.
  • Apparently some people think use of a new, somewhat esoteric, and very slow standard library function that doesn't even really implement signum is more understandable.
  • The < 0 part of the check triggers GCC's -Wtype-limits warning when instantiated for an unsigned type. You can avoid this by using some overloads:

    template <typename T> inline constexpr
    int signum(T x, std::false_type is_signed) {
        return T(0) < x;
    }
    
    template <typename T> inline constexpr
    int signum(T x, std::true_type is_signed) {
        return (T(0) < x) - (x < T(0));
    }
    
    template <typename T> inline constexpr
    int signum(T x) {
        return signum(x, std::is_signed<T>());
    }
    

    (Which is a good example of the first caveat.)

share|improve this answer
11  
@GMan: GCC only just now (4.5) stopped having cost quadratic to the number of instantiations for template functions, and they are still drastically more expensive to parse and instantiate than manually written functions or the standard C preprocessor. The linker also has to do more work to remove duplicate instantiations. Templates also encourage #includes-in-#includes, which makes dependency calculation take longer and small (often implementation, not interface) changes to force more files to be recompiled. –  user79758 Jan 5 '11 at 22:42
10  
@Joe: Yes, and there's still no noticeable cost. C++ uses templates, that's just something we all have to understand, accept, and get over. –  GManNickG Jan 5 '11 at 22:54
18  
Wait, what's this "copysign is slow" business...? Using current compilers (g++ 4.6+, clang++ 3.0), std::copysign seems to result in excellent code for me: 4 instructions (inlined), no branching, entirely using the FPU. The recipe given in this answer, by contrast, generates much worse code (many more instructions, including a multiply, moving back and forth between integer unit and FPU)... –  snogglethorpe Jan 23 '12 at 6:35
9  
@snogglethorpe: If you're calling copysign on an int it promotes to float/double, and must narrow again on return. Your compiler may optimize that promotion out but I can't find anything suggesting that's guaranteed by the standard. Also to implement signum via copysign you need to manually handle the 0 case - please make sure you include that in any performance comparison. –  user79758 Jan 23 '12 at 9:31
19  
The first version is not branchless. Why do people think that a comparison used in an expression will not generate a branch? It will on most architectures. Only processors that have a cmove (or predication) will generate branchless code, but they'll do it also for ternaries or if/else if it is a win. –  Patrick Schlüter Mar 12 '12 at 15:41

I don't know of a standard function for it. Here's an interesting way to write it though:

(x > 0) - (x < 0)

Here's a more readable way to do it:

if (x > 0) return 1;
if (x < 0) return -1;
return 0;

If you like the ternary operator you can do this:

(x > 0) ? 1 : ((x < 0) ? -1 : 0)
share|improve this answer
5  
Also one that works without branches. Nice. –  Joey Dec 14 '09 at 22:31
5  
My hat's off to you -- very nice. –  Jerry Coffin Dec 14 '09 at 22:35
9  
@Svante: not exactly. A value of 0 is "false"; any other value is "true"; however, the relational and equality operators always return 0 or 1 (see Standard 6.5.8 and 6.5.9). -- the value of the expression a * (x == 42) is either 0 or a. –  pmg Dec 14 '09 at 23:21
18  
High-Performance Mark, I'm amazed that you missed the C++ tag. This answer is very much valid and doesn't deserve a down-vote. Moreover, I wouldn't use copysign for integral x even if I had it available. –  avakar Dec 15 '09 at 8:39
4  
Has anyone actually checked what code GCC/G++/any other compiler emits on a real platform? My guess is that the "branchless" version uses two branches instead of one. Bitshifting is probably a lot faster - and more portable in terms of performance. –  Jørgen Fogh Sep 2 '11 at 11:29

There is a C99 math library function called copysign(), which takes the sign from one argument and the absolute value from the other:

result = copysign(1.0, value) // double
result = copysignf(1.0, value) // float
result = copysignl(1.0, value) // long double

will give you a result of +/- 1.0, depending on the sign of value. Note that floating point zeroes are signed: (+0) will yield +1, and (-0) will yield -1.

share|improve this answer
30  
Upvoted this one, downvoted most popular answer. Left reeling in amazement that SO community seems to prefer a hack to use of a standard library function. May the gods of programming condemn you all to trying to decipher hacks used by clever programmers unfamiliar with language standards. Yeah, I know this is going to cost me a ton of rep on SO, but I'd rather side with comingstorm than the rest of you ... –  High Performance Mark Dec 15 '09 at 7:42
18  
This is close, but it gives the wrong answer for zero (according to the Wikipedia article in the question at least). Nice suggestion though. +1 anyway. –  Mark Byers Dec 15 '09 at 8:25
2  
If you want an integer, or if you want the exact signum result for zeros, I like Mark Byers' answer, which is fiendishly elegant! If you don't care about the above, copysign() might have a performance advanage, depending on the application -- if I were optimizing a critical loop, I would try both. –  comingstorm Dec 16 '09 at 10:08
7  
1) C99 is not fully supported everywhere (consider VC++); 2) this is also a C++ question. This is a good answer, but the upvoted one also works, and is more widely applicable. –  Pavel Minaev Dec 31 '09 at 9:17
3  
Savior! Needed a way to determine between -0.0 and 0.0 –  Ólafur Waage May 14 '11 at 13:32

Apparently, the answer to the original poster's question is no. There is no standard C++ sgn function.

share|improve this answer

Faster than the above solutions, including the highest rated one:

(x < 0) ? -1 : (x > 0)
share|improve this answer
    
What type is x? Or are you using a #define? –  Chance Feb 20 '12 at 18:11
3  
Your type is not faster. It will cause a cache miss quite often. –  drakej Dec 30 '12 at 3:19
11  
Cache miss? I'm not sure how. Perhaps you meant branch misprediction? –  Catskul Jun 1 '13 at 5:10

It seems that most of the answers missed the original question.

Is there a standard sign function (signum, sgn) in C/C++?

Not in the standard library, but there is in boost, which might as well be part of the standard.

    #include <boost/math/special_functions/sign.hpp>

    //Returns 1 if x > 0, -1 if x < 0, and 0 if x is zero.
    template <class T>
    inline int sign (const T& z);

http://www.boost.org/doc/libs/1_47_0/libs/math/doc/sf_and_dist/html/math_toolkit/utils/sign_functions.html

share|improve this answer
2  
This should be the most top-voted answer, as it gives the closest possible solution to what's asked in the question. –  BartoszKP Mar 20 at 14:20

There's a way to do it without branching, but it's not very pretty.

sign = -(int)((unsigned int)((int)v) >> (sizeof(int) * CHAR_BIT - 1));

http://graphics.stanford.edu/~seander/bithacks.html

Lots of other interesting, overly-clever stuff on that page, too...

share|improve this answer
    
If I read the link correctly that only returns -1 or 0. If you want -1, 0, or +1 then it's sign = (v != 0) | -(int)((unsigned int)((int)v) >> (sizeof(int) * CHAR_BIT - 1)); or sign = (v > 0) - (v < 0);. –  Z boson Apr 21 at 7:58

If all you want is to test the sign, use signbit (returns true if its argument has a negative sign). Not sure why you would particularly want -1 or +1 returned; copysign is more convenient for that, but it sounds like it will return +1 for negative zero on some platforms with only partial support for negative zero, where signbit presumably would return true.

share|improve this answer
5  
There's many mathematical applications in which the sign(x) is necessary. Otherwise I'd just do if (x < 0). –  Chance Mar 9 '12 at 16:42

My copy of C in a Nutshell reveals the existence of a standard function called copysign which might be useful. It looks as if copysign(1.0, -2.0) would return -1.0 and copysign(1.0, 2.0) would return +2.0.

Pretty close huh?

share|improve this answer
    
Not standard, but may be widely available. Microsoft's starts with an underscore, which is the convention they use for non-standard extensions. Not the best choice when you're working with integers, though. –  Mark Ransom Dec 14 '09 at 23:33
2  
copysign is both in the ISO C (C99) and POSIX standards. See opengroup.org/onlinepubs/000095399/functions/copysign.html –  lhf Dec 15 '09 at 1:19
2  
What lhf said. Visual Studio is not a reference for the C standard. –  Stephen Canon Dec 15 '09 at 1:42

No, it doesn't exist in c++, like in matlab. I use a macro in my programs for this.

#define sign(a) ( ( (a) < 0 )  ?  -1   : ( (a) > 0 ) )
share|improve this answer

In general, there is no standard signum function in C/C++, and the lack of such a fundamental function tells you a lot about these languages.

Apart from that, I believe both majority viewpoints about the right approach to define such a function are in a way correct, and the "controversy" about it is actually a non-argument once you take into account two important caveats:

  • A signum function should always return the type of its operand, similarly to an abs() function, because signum is usually used for multiplication with an absolute value after the latter has been processed somehow. Therefore, the major use case of signum is not comparisons but arithmetic, and the latter shouldn't involve any expensive integer-to/from-floating-point conversions.

  • Floating point types do not feature a single exact zero value: +0.0 can be interpreted as "infinitesimally above zero", and -0.0 as "infinitesimally below zero". That's the reason why comparisons involving zero must internally check against both values, and an expression like x == 0.0 can be dangerous.

Regarding C, I think the best way forward with integral types is indeed to use the (x > 0) - (x < 0) expression, as it should be translated in a branch-free fashion, and requires only three basic operations. Best define inline functions that enforce a return type matching the argument type, and add a C11 define _Generic to map these functions to a common name.

With floating point values, I think inline functions based on C11 copysignf(1.0f, x), copysign(1.0, x), and copysignl(1.0l, x) are the way to go, simply because they're also highly likely to be branch-free, and additionally do not require casting the result from integer back into a floating point value. You should probably comment prominently that your floating point implementations of signum will not return zero because of the peculiarities of floating point zero values, processing time considerations, and also because it is often very useful in floating point arithmetic to receive the correct -1/+1 sign, even for zero values.

share|improve this answer

The OP's question was "C/C++" but here is a strictly c++ solution:

template <typename T>
T sign(T t) 
{
    if( t == 0 )
        return T(0);
    else
        return (t < 0) : T(-1) : T(1);
}

which doesn't handle +/- zero, but uses templates nicely to overload for any type for which the compiler can understand 0, 1, and -1. If it's used on a type for which this isn't true, then the compiler will complain so you don't get unexpected behavior. This wont have the speed of some of the earlier posts, but will be handy for many cases still.

share|improve this answer
int sign(float n)
{     
  union { float f; std::uint32_t i; } u { n };
  return 1 - ((u.i >> 31) << 1);
}

This function assumes:

  • binary32 representation of floating point numbers
  • a compiler that make an exception about the strict aliasing rule when using a named union
share|improve this answer
    
There are still some bad assumptions here. For example I don't believe the endianness of the float is guaranteed to be the endianness of the integer. Your check also fails on any architectures using ILP64. Really, you're just reimplementing copysign; if you're using static_assert you've got C++11, and might as well really use copysign. –  user79758 Mar 15 '12 at 18:24
double signof(double a) { return (a == 0) ? 0 : (a<0 ? -1 : 1); }
share|improve this answer

I tend to use the following:

signval = i/abs(i);

That gives +/- 1 although it's likely not very fast.

share|improve this answer
7  
Does i=0 work very well? –  yingted Mar 13 '12 at 22:41
    
This is the correct way to compute "the" complex sign function. For real numbers, this is probably overkill. –  Alexandre C. Mar 15 '12 at 19:12
1  
@Anonymous - no, it doesn't! –  Tom Aug 7 '12 at 17:08

I needed to solve this. This is what I came up with.

int sign(int v){
   return  ((v >> 31) | -(-v >> 31));
}
share|improve this answer
1  
This assumes 32bit ints, and probably has issues even when that's true (specifically I'm not sure it handles MIN_INT) –  Mat Jul 9 '13 at 18:25

The following expression will returns the sign of x (1 if x > 0 positive, -1 if x < 0 negative, or 0 if x equals to 0):

x != 0 ? abs(x) / x : 0;

You can also use the System::Math::Sign method.

share|improve this answer
5  
System::Math::Sign isn't standard C or C++. –  Mat Aug 19 '13 at 18:54

Your Answer

 
discard

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.