The following c++ code does not compile:

int main() {
  double a = abs(5.1);
  return 0;

It complains that abs is not defined, of course. But the following does compile:

#include <iostream>

int main() {
  std::cout << abs(5.1) << std::endl;
  std::cout << abs(-5.1) << std::endl;
  return 0;

It outputs two 5's (not 5.1's). This is bad for lots of reasons. First, abs is such a natural and common function that I use it all the time, but the int part is almost never what I want returned. Second, it's much too easy for me (or people using my code) to just write abs and not notice that it compiles but does the wrong thing, because I'm (they're) really good at overlooking warnings. Third, I just plain don't understand why iostream bothers defining an abs function anyway. Fourth, I really don't understand why it goes into the global namespace.

Is there any way I can prevent this objectionable abs function from going into my global namespace?

If it matters, I'm using

gcc version 4.2.1 (Based on Apple Inc. build 5658) (LLVM build 2335.6)
  • 4
    This is probably because <iostream> is #include-ing <stdlib.h> behind the scenes. Mar 15, 2012 at 17:59
  • 3
    This shouldn't compile. There shouldn't be an abs function in the global namespace when you include <iostream> (doesn't compile in g++ 4.6.2 and ideone.com/QP6cj).
    – Zeta
    Mar 15, 2012 at 18:03
  • 1
    @Zeta - it does compile and import abs to the global namespace using the compiler and OS that he has, I tested it to make sure. That's the current Xcode from Apple, so upgrading isn't straightforward. Mar 15, 2012 at 18:07
  • 1
    Look at the output from g++ -M test.cpp to see if a suspect stdlib.h is getting pulled in for some reason. Maybe you have an include path that causes the wrong one to get processed? Mar 15, 2012 at 18:11
  • @Zeta and Brian -- I agree with both of you. I don't actually use Xcode, but checked with the default compiler because I'd prefer for my code to work correctly as generically as possible. But if I can't hack a workaround, maybe I should just tell my users that gcc 4.3 (or whatever) is the minimal requirement (and figure out the comparable requirements for intel, etc.).
    – Mike
    Mar 15, 2012 at 20:24

3 Answers 3


Most likely iostream includes stdlib.h to do some of its work. This is the C version of the header which declares abs for int only in the global namespace (in C you had to use fabs for double values).

I'm not aware of any specific way to keep abs from being included that way but I do know that g++ 4.5 is much better at not having excess stuff brought in by basic includes like iostream and string.

It may also be possible to get a warning that the double is being truncated to int (EDIT: yes, use -Wconversion to warn).

  • Well, I knew about the warning, but -- as I alluded to in the question -- I'll have users extending my code, and I'm sure they'll turn off warnings, or just ignore them. And then this pernicious little abs issue will slip through and give quietly incorrect results. Ooh, this kind of thing irks me! Anyway, thanks for pointing out the cause.
    – Mike
    Mar 15, 2012 at 20:27
  • 2
    @Mike: when you say, "this kind of thing irks me", you mean it irks you that ignoring warnings leads erroneous code, right? ;-p Mar 15, 2012 at 21:45
  • Well, I guess both irk me. But human nature being what it is, I try to design for idiot-proofness. Things like this quiet abs inclusion are the opposite: they're clevely hidden idiot traps. They're so cleverly hidden that the idiot may never even know he/she was trapped. And to top it off, this one actively prevents me from idiot-proofing! So this irks me more.
    – Mike
    Mar 15, 2012 at 22:48

In C, including one standard header was not allowed to act like it included any other standard header. This avoided the problem you're seeing, at considerable expense in difficulty implementation.

C++ allows any standard header to include any other standard header. This makes implementation considerably easier, but can lead to exactly the sort of problem you're seeing, where including a seemingly-unrelated header has made a function visible that you didn't really want to use, instead of getting an error because the function you used isn't declared at all.

Unfortunately, I don't think there's an easy way to deal with this. Although it's pretty easy to imagine <iostream> being independent of <stdlib.h>, it's much easier to see how it might need/want definitions of things like ios_base. It would take quite a bit of extra work to define things to prohibit the former while allowing the latter.

I should mention, however, that over time this situation does seem to be improving quite a bit. Ten years ago, it was fairly common to get virtually all standard headers from including almost any one of them. Although most still include at least a few that aren't strictly required, they're generally much closer to each defining only what it's required to.

  • 1
    If nothing else, you could hope that iostream includes cstdlib instead of stdlib.h, and that cstdlib either doesn't include stdlib.h at all, or else cleverly does so inside namespace std. But as you say, that's not guaranteed, and manifestly it isn't what GCC 4.2 does. Mar 15, 2012 at 21:47
  • 1
    @SteveJessop: You could hope, but then so many compilers polluted the global namespace when you included the <cwhatever> variant, that in C++11, the restriction against doing so has been removed... Mar 15, 2012 at 21:55

If this is an ongoing maintenance problem, why not add a little code at the beginning of the program which specifically checks for the abs() problem?

// test if abs() is defined incorrectly, as would happen if <stdlib.h> were
// included by <iostream>.  abs() it should return a float/double, not an int
// (put suggestions here how to fix problem)
if (abs(-5.1) == 5)
     std::cerr << "Invalid build:  abs() defined improperly, ..." << std::endl;
     return 2;  // exit program by returning from main

That will make it a lot harder for warnings to be overlooked.

  • Interesting idea. It's pretty ugly, but I think I'd actually do it -- except that much of my code is used as a library. So it's not clear where I'd put such a test and get it actually executed -- at least, not without making this solution far uglier.
    – Mike
    Mar 15, 2012 at 20:30
  • @Mike: The obvious place would be any bit of code which is always called, like the initialization of the library. Does the code base use ASSERT? And/or have a DEBUG mode? Any of these are compatible with such a test.
    – wallyk
    Mar 15, 2012 at 20:35
  • Nope, no such place. It's a very modular library, and doesn't need initialization. What's worse is that the correctness of a particular abs depends on whether or not statements like using namespace std; are used. In that case, this test would presumably have to happen in each compilation unit -- including the user's, where applicable.
    – Mike
    Mar 15, 2012 at 20:41

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