4

I have some constants named like this:

template<int n> class usart {
private:
    usart();
public:
    enum class tx {};
    enum class rx {};
    enum class ck {};
};

template<> class usart<1> {
public:
    enum class tx { A9  = gpio::A9,  C4 = gpio::C4 };
    enum class rx { A10 = gpio::A10, C5 = gpio::C5 };
    enum class ck { A8  = gpio::A8 };
};

// two more of these

where gpio is just a simple integer enum.

I'd like to enforce some type safety on my class in another file:

class USART {
public:
    template<int N>
    USART(typename usart<N>::tx pin_tx, typename usart<N>::rx pin_rx) {
        //This signature enforces correct pins with types, doesn't it?
    }
};

However, when I use this with

USART us = USART(usart<1>::tx::A9, usart<1>::rx::A10);

I get the error

error: expected ')' before 'pin_tx'

Why is this syntax illegal? EDIT: typename

This now gives me this error when I try and instantiate the class:

error: no matching function for call to 'USART::USART(usart<1>::tx, usart<1>::rx)'
note: template<int N> USART::USART(typename usart<N>::tx, typename usart<N>::rx)
note:   template argument deduction/substitution failed:
note:   couldn't deduce template parameter 'N'
10
  • Yep, adding typenmae fixes that error, but now I get no matching function for call to 'USART::USART(usart<1>::tx, usart<1>::rx)'
    – Eric
    Jan 28, 2013 at 9:54
  • @sbi: I'm not immediately seeing the connection between that and my question
    – Eric
    Jan 28, 2013 at 9:56
  • Um. Since nobody answered yet, why don't you change your question accordingly? Please indicate where exactly which exact error message occures. I am sorry for the close vote now. I'd take it back if I could.
    – sbi
    Jan 28, 2013 at 9:56
  • 2
    This is non-deduced context. Basically, you cannot expect to retrieve X from Foo<X>::Y. Jan 28, 2013 at 10:08
  • 1
    @R.MartinhoFernandes: maybe usart<N> could contain a friend free function that takes usart<N>::tx and returns type usart<N>. Then if USART does decltype(that_function(pin_tx)), it gets a type from which N can be deduced. And if someone does the thing in your answer then either 1 is deduced (if they don't also define the friend) or the call is ambiguous (if they do), which diagnoses their error. I'm not quite sure off hand how to put all that together, though, it might require an extra level of indirection for USART. Jan 28, 2013 at 10:19

1 Answer 1

15

The template parameters used in the function arguments are not deducible because the the arguments are of dependent types.

"But that's silly!" you would say; "It is obvious that N is 1! Why can't the compiler have the smarts to deduce that?"

Consider the following:

template<> class usart<4321> {
public:
    typedef usart<1>::tx tx;
    typedef usart<1>::rx rx;
    typedef usart<1>::ck ck;
};

Should N be 1 or 4321? After all, usart<4321>::tx and usart<1>::tx are the same type.

The compiler cannot know what N should be without checking that only one instantiation of usart has that exact type as the tx member. This would either require too many instantiations or way too complex logic to prove that no instantiation would result in that in the general case. Sure, it might be simple to implement something for this particular case, but that isn't terribly useful for all other cases. The C++ committee simply decided to not require this of compiler writers.

1
  • That makes a lot of sense. I think I'll resort to overloading for usart1::tx, usart2:tx etc, since I don't really gain anything from the template parameters here.
    – Eric
    Jan 28, 2013 at 16:34

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