I came across with the following program in C++:

template <class T>
class Val {
    T x0, x;
    Val(T t = 1) : x0(t), x(1) {}
    T val() { return x; }
    void promote() { this->promote_value(); }

For some reason Val<int>(4).val(); works fine even though there is no method promote_value(). I tried to remove the templates:

class OtherVal {
    int x0, x;
    OtherVal (int t = 1) : x0(t), x(1) {}
    int val() { return x; }
    void promote() { this->promote_value(); }

But now I get an error:

error: ‘class OtherVal’ has no member named ‘promote_value’; did you mean ‘promote’?

Why does C++ behave like this?

2 Answers 2


Template class methods are not instantiated until they are used. Once you try calling promote() or even get its address like this &Val<int>::promote then you'll get an error.

From the C++ standard:

§ An implementation shall not implicitly instantiate a function template, a variable template, a member template, a non-virtual member function, a member class, a static data member of a class template, or a substatement of a constexpr if statement (9.4.1), unless such instantiation is required.

  • Thank you. Are there any checks at all that the compiler does on promote()? I guess syntax errors.
    – vesii
    Commented Jul 4, 2019 at 16:28
  • @vesil, AFAIK the compiler is obligated by the standard to parse the non-instantiated method definition and check it for correctness as much as it can without knowing the T. However the MSVC is known for violating that requirement and not bothering to check anything thus allowing a complete nonsense in method definition which will only be discovered when the method is actually used.
    – r3mus n0x
    Commented Jul 4, 2019 at 16:34
  • So if the method promote() is virtual it will fail in compilation?
    – vesii
    Commented Jul 4, 2019 at 21:12
  • @vesii, yes, actually it will, because making it virtual will make the compiler implicitly take its address in order to put it into a virtual table.
    – r3mus n0x
    Commented Jul 5, 2019 at 5:41

Templates have always worked this way, principally to facilitate their use.

Because Val<int>(4).val(); doesn't call promote, that function is not compiled for your particular instantiation of that template so the compiler does not issue a diagnostic.

Many metaprogramming techniques depend on this behaviour.

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