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I wrote a very simple c++ code, where I defined a function called sqrt which just calls std::sqrt. Unexpectedly, I got a segmentation fault. The problem doesn't exist if I rename the function sqrt as something else. However, I can not see any naming conflict since the sqrt function I defined is not in the namespace std so the two should be perfectly separated. So what is the real cause of the problem? Thanks!


double sqrt(double d);

double sqrt(double d) {
    return std::sqrt(d);

int main() {
    double x = 3.0;
    std::cout << "The square root of " << x << " is " << sqrt(x) << '\n';
    return 0;
share|improve this question
You sure your function doesn't call itself instead of calling std::sqrt? –  Andy Prowl Mar 24 '13 at 21:19
Yes I am sure. I just attached the code. –  user690421 Mar 24 '13 at 21:20
Try putting an std::cout << "hello" before the call to return std::sqrt(d)... –  Andy Prowl Mar 24 '13 at 21:23
Your function is calling itself. You can see this by doing like @AndyProwl suggested. You can also just change the namespace of your sqrt –  lxop Mar 24 '13 at 21:30
I see it now. The sqrt from cmath is also defined in the default namespace, so I am kind of redefined it? –  user690421 Mar 24 '13 at 21:32

3 Answers 3

up vote 3 down vote accepted

<cmath> is a funny header. It is allowed to (but not required to) make ::sqrt and std::sqrt synonyms. If you include it, it's best to assume that both are present (or just include <math.h>, in which case, ::sqrt is all that you should get). What's probably happening in your case is that 1) std::sqrt is in fact a synonym (via using) for ::sqrt, and 2) the linker is picking up your ::sqrt first, so you end up with endless recursion. The only solution, short of changing the name, is to put your sqrt in a namespace.


Just to be clear: the above is C++11. Earlier versions of C++ did not allow <cmath> to introduce anything into global namespace. All implementations did, however, so the standard was changed to bless the practice. (I guess that's one way of getting compilers to be standard compliant.)


Some additional information as to how a library "picks up" symbols, in response to the question in comments. Formally, according to the C++ standard, you may not have two definitions of the same function (same name, namespace and argument types) in a program. If the two definitions are in separate translation units, the behavior is undefine. With this in mind, there are several practical considerations.

The first can be considered the definition of a library (or at least the traditional definition). A library is a set of modules—translation units, in terms of the standard. (Generally, but not always, the modules consist of compiled object files.) Linking in a library, however, does not bring in all of the modules in it; a module from a library is incorporated into your program only if it resolves an unresolved external. Thus, if ::sqrt is already defined (resolved) before the linker looks at the library, the module containing ::sqrt in the library will not become part of your program.

In practice, the term library has been abused in recent years, to the point where one might say that its meaning has changed. In particular, what Microsoft calls "dynamically loaded libraries" (and what were called "shared objects" in Unix, long before), are not libraries in the traditional sense, and the above doesn't apply to them. Other issues do, however, depending on how the dynamic loader works. In the case of Unix, if several shared objects have the same symbol, all will resolve to the first one loaded (by default—this can be controlled by options passed to dlopen). In the case of Windows, by default, a symbol will be resolved within the DLL if possible; in your case, if std::sqrt is an inline function, or is specified as using ::sqrt, this will be the DLL which calls std::sqrt; if in the header, it is __declspec(dllexport), this will be the DLL that contains the implementation of std::sqrt.

Finally, almost all linkers today support some form of weak references. This is usually used for template instantiations: something like std::vector<int>::vector( size_t, int ) will be instantiated in every translation unit which uses it, but as a "weak" symbol. The linker then chooses one (probably the first it encounters, but it's not specified), and throws out all of the others. While this technique is mainly used for template instantiations, a compiler can define any function using weak references (and will do so if the function is inline). In this case, if the definitions are different (as in your case of ::sqrt), then we can truly say that the program is illegal, since it violates the one definition rule. But the results are undefined behavior, and don't require a diagnostic. It you define an inline function or a function template differently in two different translation units, for example, you will almost never get an error; if the compiler doesn't actually inline them, the linker will choose one, and use it in both translation units. In your case (::sqrt), I doubt that this applies; I would expect this to be a real library function, and not inlined. (If it were inlined, the definition would be in the header <cmath>, and you'd get a duplicate definition error, since both definitions would be in the same translation unit.)

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Very informative answer. Thank you! –  user690421 Mar 24 '13 at 21:35
Just a small question. You said "the linker is picking up your ::sqrt first, so you end up with endless recursion". So you can in fact legally define 2 function with the same name in the same namespace (perhaps in two separate files), and the result depends on which one is picked up by the linker? –  user690421 Mar 24 '13 at 21:38
@user690421 More or less. The issues are fairly complex, so I've edited my answer to try to explain them. But basically, as soon as the definitions are in different translation units, the error results in undefined behavior, and the implementation is not required to diagnose. (What actually happens, on the other hand, depends on whether you're linking statically or dynamically, and how the compiler manages external symbols.) –  James Kanze Mar 25 '13 at 9:06
Just saw this. Thank you! –  user690421 Jan 23 at 21:50

The problem seems to be that <cmath> is bringing in the sqrt name (without the std:: namespace), as well as std::sqrt. I am afraid you need to use another name.

See this example, using a snapshot of GCC 4.8:


int main() {
    double x = 9.0;
    std::cout << sqrt(x) << '\n'; // look, no std::sqrt
share|improve this answer
Thanks @juanchopanza –  user690421 Mar 24 '13 at 21:34

Per Paragraph

Except as noted in Clauses 18 through 30 and Annex D, the contents of each header cname shall be the same as that of the corresponding header name.h, as specified in the C standard library (1.2) or the C Unicode TR, as appropriate, as if by inclusion. In the C++ standard library, however, the declarations (except for names which are defined as macros in C) are within namespace scope (3.3.6) of the namespace std. It is unspecified whether these names are first declared within the global namespace scope and are then injected into namespace std by explicit using-declarations (7.3.3).

Also, per Annex D.5/2:

Every C header, each of which has a name of the form name.h, behaves as if each name placed in the standard library namespace by the corresponding cname header is placed within the global namespace scope. It is unspecified whether these names are first declared or defined within namespace scope (3.3.6) of the namespace std and are then injected into the global namespace scope by explicit using-declarations (7.3.3).

Since the exact technique to be used for making global functions available is left up to implementations, your implementation is probably having a using directive such as the one below inside the std namespace:

namespace std
    using ::sqrt;

    // ...

Which means that std::sqrt actually becomes an alias for ::sqrt, and you are providing a definition of ::sqrt which effectively ends up calling itself recursively.

The only solution is then to pick a different name.

share|improve this answer
Thanks! @Andy Prowl –  user690421 Mar 24 '13 at 21:39

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