How do I make the following code work properly?

The non-template version compiles perfectly but the template version fails miserably. Why template version fails to figure out which function version to call and how to fix it? I thought about adding to template class AT operator that implicitly converts to BT but it doesn't work either.

class A {};

class B

void func(B){};

template<typename T>
class AT {};

template<typename T>
class BT

template<typename T>
void funcT(BT<T>){};

int main()
    funcT(AT<int>{}); // unable to deduce the funcT template argument
    funcT<int>(AT<int>{}); // compiles but I don't want to write that

    return 0;

There are dumb fixes like writing function version that accepts AT<T> and casts it to BT<T>. But I don't want to write a bunch of functions when everything should work as is. I could understand it if it was an ambiguous call...

  • Whereas in your current case AT<int> can only construct BT<int>, but in general case, it is more complicated (And think about specializing BT<char> to take AT<int> as constructor, or add CT deriving from BT<T> declaring its own constructor). – Jarod42 Feb 14 at 15:47
  • Another work around to have only one funcT. – Jarod42 Feb 14 at 15:55

Implicit conversion won't be considered in template argument deduction:

Type deduction does not consider implicit conversions (other than type adjustments listed above): that's the job for overload resolution, which happens later.

That means, for funcT which expects a BT<T> but passed a AT<int>, T can't be deduced and the fails to be called.

The workaround, as you showed, is to specify template argument explicitly to bypass the template argument deduction.

Non-template functions don't have such issue; they don't require template argument deduction.


The other answer explained what was going on, but there is a way around this

template<class T, template<class>class Temp, typename std::enable_if<std::is_convertible< Temp<T>, BT<T>>::value, bool>::type = true>
void funcT(Temp<T> t) { 
    auto bt = static_cast<BT<T>>(t);

This can be called by fooT(A<int>{}); as well as fooT(B<int>{}); having the same behavior.

  • OP already suggested template<typename T> void funcT(AT<T> a){ funcT(BT<T>{a}); } – Jarod42 Feb 14 at 23:36
  • Yes, and their problem was to write "a bunch of functions". This is one function for an arbitrary number of templates convertible to BT. – n314159 Feb 14 at 23:45

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