There is a related question but I believe it doesn't answer this question.

Looking at std::abs and std::fabs documentation they seems to have exactly the same behaviour. As a personal note, it appears to me that std::fabs is preferable because it mitigates the ambiguity with the std::abs(int) definition in <cstdlib>(See note).

So my question is: besides the std::abs(int) potential ambiguity, is there any difference at all between std::abs and std::fabs when applied to floating point values?


In standard-conforming code that has included cmath and only calls std::abs on floats, doubles, and long doubles, there is no difference. However, it is instructive to look at the types returned by std::abs on various types when you call it with various sets of header files included.

On my system, std::abs(-42) is a double if I've included cmath but not cstdlib, an int if I've included cstdlib, and it produces a compilation error if I've included neither. Conversely, std::abs(-42.0) produces a compilation error (ambiguous overload) if I've included cstdlib but I haven't included cmath or a different compilation error (never heard of std::abs) if I've included neither.

On my platform, std::abs('x') gives me a double if I've included cmath or an int if I've included cstdlib but not cmath. Similar for a short int. Signedness does not appear to matter.

On my platform, the complex header apparently causes both the integral and the floating-point overloads of std::abs to be declared. I'm not certain this is mandated; perhaps you can find an otherwise reasonable platform on which std::abs(1e222) returns infinity with the wrong set of standard headers included.

The usual consequence of "you forgot a header in your program" is a compilation failure complaining of an undefined symbol, not a silent change in behaviour. With std::abs, however, the result can be std::abs(42) returning a double if you forgot cstdlib or std::abs('x') returning an int if you didn't. (Or perhaps you expected std::abs to give you an integral type when you pass it a short? Then, assuming my compiler got its promotion and overload resolution right, you had better make sure you don't include cmath.)

I have also spent too much time in the past trying to work out why code like double precise_sine = std::sin(myfloat) gives imprecise results. Because I don't like wasting my time on these sorts of surprises, I tend to avoid the overloaded variants of standard C functions in namespace std. That is, I use ::fabs when I want a double to be returned, ::fabsf when I want a float out, and ::fabsl when I want a long double out. Similarly for ::abs when I want an int, ::absl when I want a long, and ::absll when I want a long long.


Is there any difference at all between std::abs and std::fabs when applied to floating point values?

No there is not. Nor is there a difference for integral types.

It is idiomatic to use std::abs() because it is closest to the commonly used mathematical nomenclature.

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