5

I have class template with single type param and const char* type full specialization, simplified example below:

template <typename T>
struct PrettyPrint {
    PrettyPrint(const T& value) : value(value) {}
    const T& value;
    friend std::ostream& operator << (std::ostream& os, const PrettyPrint& pp) {
        return os << "(" << pp.value << ")";
    }
};
template <>
struct PrettyPrint<const char*> {
    PrettyPrint(const char* value) : value(value) {}
    const char* value;
    friend std::ostream& operator << (std::ostream& os, const PrettyPrint& pp) {
        return os << "\"" << pp.value << "\"";
    }
};

In short - to print char strings like "abc" and all other values like (123) ("" vs ())

So, I added, as a replacement of additional partial specialization for all char[N] types a deduction guide:

template <std::size_t N>
PrettyPrint(char(&)[N]) -> PrettyPrint<const char*>; //deduction guide

Unfortunately it does not work:

 std::cout << PrettyPrint(7) << PrettyPrint("aaa") << PrettyPrint((const char*)"bbb");

(7)(aaa)"bbb"

Expected output:

(7)"aaa""bbb"

But, surprisingly, this works:

template <typename T, std::size_t N>
PrettyPrinter(T(&)[N]) -> PrettyPrinter<const T*>; //deduction guide

 std::cout << PrettyPrint(7) << PrettyPrint("aaa") << PrettyPrint((const char*)"bbb");

(7)"aaa""bbb"

So the questions:

  1. Is that correct (then why) or this is a bug in compilers (tested with gcc/clang - newest versions)
  2. If that is correct - then how to limit this template deduction guide to char only?
7

This is expected. A string literal has type const char[N]. Note the const. A const value cannot bind to a non-const reference, so your deduction guide is effectively not chosen and the primary template gets instantiated instead.

template <std::size_t N>
PrettyPrint(const char(&)[N]) -> PrettyPrint<const char*>;

Your second deduction guide works because here, T is deduced to be const char, which is perfectly fine.

7

The issue here is a string literal is a const char[N], not a char[N]. Changing the guide to

template <std::size_t N>
PrettyPrint(const char(&)[N]) -> PrettyPrint<const char*>; //deduction guide

will give you the expected results.

  • It works, Just to explain myself - I checked with this trick template <typename T> class WhatIsT; WhatIsT<decltype(PrettyPrint("aa"))> dummy; and it gives me "implicit instantiation of undefined template 'WhatIsT<PrettyPrint<char [3]> >'" - note char[3] - not const char[3]) ... so I tried char[N] ... Thanks. – PiotrNycz May 30 '18 at 15:12
  • 1
    @PiotrNycz That's because your constructor takes a const T&, there is no need to deduce the const because it's already there :D – Rakete1111 May 30 '18 at 15:15
  • @Rakete1111 Do you think shall I use T&& instead in my general template version like PrettyPrint(T&& value) : value(std::forward<T>(value)) {} T&& value; . It works - but I am not sure here. – PiotrNycz May 30 '18 at 15:21
  • @PiotrNycz Can't say. I also don't see a difference between the two, so I'd say whatever you want :) – Rakete1111 May 30 '18 at 15:24

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