75

I don't get it, it seems to me that the call to f is completely unambiguous, but it fails to compile with expected primary-expression before ‘int’. If I comment out the line with the call to f, it compiles fine.

template<typename T>
struct A {
    template<typename S>
    void f() { }
};

template<typename T>
struct B : A<T> {
    void g() {
        this->f<int>();
    }
};
1
  • 31
    I applaud you for not only finding this unholy problem but for never swearing once while describing it.
    – user34537
    Feb 9, 2011 at 10:15

1 Answer 1

139

This is due to a really obscure provision of the standard in which if you have a template that tries to access a template function in an object whose type depends on a template argument, you have to use the template keyword in a weird way:

this->template f<int>();

This is similar to the weirdness with typename that comes up with dependent types, except as applied to functions. In particular, if you leave out the template keyword, there's a parsing ambiguity between

this->f<int>()

(what you intended), and

((this->f) < int) > ()

which makes no sense (hence your error). The use of the keyword template here disambiguates and forces the compiler to recognize that it's looking at a perfectly valid call to a templated member function rather than a garbled mass of symbols.

Hope this helps!

15
  • 3
    I already knew a few syntax weirdnesses with templates, but I had never heard this one before.
    – Gorpik
    Feb 9, 2011 at 8:50
  • 73
    Not only the answer is good, but it has the added bonus that it has been provided by a user named templatetypedef :-) He surely knows what he's talking about...
    – Francesco
    Feb 9, 2011 at 9:34
  • 3
    Visual Studio is a bit lax on some template features. For example, it lets you omit typename in a few contexts where is technically required, and automatically imports names from template bases where it's not supposed to. I'd be surprised if this was in C++0x and not just a quirk in VS. Feb 9, 2011 at 10:44
  • 2
    @Pedro: it hasn't, Visual C++ is non compliant because it only checks the template at instantiation instead of two-phases look-up. Feb 9, 2011 at 10:46
  • 3
    @James: you lose early diagnosis of obvious errors (lack of ;, name typo, etc...) and you get a mess in overload resolution (normally, only functions declared prior to the template should be considered, but with this VC++ you can have functions declared afterward taken into account which the writer of the template may not have anticipated)... I would say it definitely does not work better. However it's pretty stupid for a compiler to issue such a stupid warning (it makes no sense to compare with a type...), but then gcc has never been reknown for its user friendliness :/ Feb 16, 2011 at 7:11

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