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I use g++ 4.6.3, (currently default package for ubuntu 12.04) with the flag c++0x, and I stumble across this:

template <typename T>
inline T getValue(AnObject&)
    static_assert(false , "this function has to be implemented for desired type");

with the compilation error:

static_assertion failed "this function has to be implemented for the desired type"

even though I don't call this function anywhere yet.

Is it a g++ bug ? Shouldn't this function be instanciated only if it is called somewhere in the code.

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3 Answers 3

up vote 12 down vote accepted

That's because the condition does not depend in any way on the template parameters. Therefore, the compiler can evaluate it even before instantiating that template, and produces the associated compilation error message if it the evaluation yields false.

In other words, this is not a bug. Although many things can only be checked once a template is instantiated, there are other validity checks that a compiler can perform even before. This is why C++ has a two-phase name lookup, for instance. The compiler is just trying to help you finding errors that are 100% likely to occur.

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Can you confirm that this function is instanciated even though I call it nowhere in the code ? Is that what you said ? –  Stephane Rolland Jan 31 '13 at 23:59
too bad, under VS2010 it compiled really fine, I took a wrong habit... –  Stephane Rolland Feb 1 '13 at 0:00
@StephaneRolland: I do not remember how Alexandrescu defined it, but that's very likely. After all, this is a new language feature, not just a library. Similarly, if you write a function call to foo() in your template function getValue(), and no function foo() exist, your code won't compile, because the compiler knows that there is no way you could instantiate that template in a way that it would compile. –  Andy Prowl Feb 1 '13 at 0:10
@StephaneRolland: then use static_assert(), but make the condition dependent on some template argument. Make it such that it will always yield false for the arguments you are going to instantiate it with (e.g. static_assert(typename is_same<T, type_false>::value), "Error!"), but do mention the template argument in the condition. This will tell the compiler: "Hey, this is a dependent name, so wait until instantiation before judging..." –  Andy Prowl Feb 1 '13 at 0:16
@StephaneRolland: Note that static_assert(sizeof(T) == 0, "Error!") is usually brought up as another solution, but I think the concensus is that this can fail "early" as well, because the compiler can know the size is never less than 1 without even looking at T. Just to keep that out there. –  GManNickG Feb 1 '13 at 0:38

The standard says in [temp.res]/8

No diagnostic shall be issued for a template definition for which a valid specialization can be generated. If no valid specialization can be generated for a template definition, and that template is not instantiated, the template definition is ill-formed, no diagnostic required. ... [ Note: If a template is instantiated, errors will be diagnosed according to the other rules in this Standard. Exactly when these errors are diagnosed is a quality of implementation issue. — end note ]

There is no possible way to instantiate your function template that will compile, so the template definition is ill-formed and so the compiler is allowed (but not required) to reject it even if it isn't instantiated.

You could make it work like this:

template<typename T>
struct foobar : std::false_type
{ };

template <typename T>
inline T getValue(AnObject&)
    static_assert( foobar<T>::value , "this function has to be implemented for desired type");

Now the compiler cannot reject the function template immediately, because until it is instantiated it doesn't know whether there will be a specialization of foobar that has value == true. When instantiated the relevant specialization of foobar<T> will be instantiated and the static assertion will still fail, as desired.

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This is really a comment, but requiring a code example.

The holy standard's wording for static_assert does not limit its effect to instantiated code.

However, the code

template <typename T>
inline T getValue(int&)
    typedef char blah[-1];  // Common C++03 static assert, no special semantics.

int main()

also fails to compile with MinGW g++ 4.7.2, which accentuates the question.

I think the answer is that g++ is right, and that Visual C++ 11.0, which does not produce a compilation error for this, is wrong, but I'd be hard pressed to provide the relevant analysis in terms of the Holy Standard's verses.

A practical consequence of the compiler difference is that presently you can not rely on the behavior.

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+1, you'll repeat twenty Father Stroustrup before sleeping. –  Stephane Rolland Feb 1 '13 at 0:11
The template definition is ill-formed, but I think it's a "no diagnostic required" case, so both compilers are right. –  Jonathan Wakely Feb 1 '13 at 0:12
@JonathanWakely: sorry, forgot to mention, Visual C++ also ignores a static_assert in there. –  Cheers and hth. - Alf Feb 1 '13 at 0:13
See the quote in my answer, it's allowed to if the template is not instantiated –  Jonathan Wakely Feb 1 '13 at 0:14

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