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I was just trying to hack up a binary literal operator ""_b, but got stuck trying to terminate the recursion. How to define a function which can be called using an empty explicit template parameter list, which doesn't conflict with a parameter pack overload? Then, inspiration: match the empty pack expansion to something wacky.

But GCC complains that the nonexistent types of the empty argument list don't agree with not-explicitly-required types of the parameter list. Is it supposed to work this way?

template< char head, char ... tail >
constexpr unsigned long long parse_binary() {
    return ( ( head - '0' ) << sizeof ... (tail) )
        + parse_binary< tail ... >(); // Error: no overload for termination.
}

template< typename = void > // I want this to match an empty pack of chars.
// template< short = 0 > // even this would do.
constexpr unsigned long long parse_binary() {
    return 0;
}

template< char ... digits >
constexpr unsigned long long operator ""_b() {
    return parse_binary< digits ... >();
}

#include <iostream>

int main() {
    std::cout << 010101_b << '\n';
}

Note: The question isn't implementing operator ""_b. That problem can be solved by expanding the pack into the parameter list, and passing std::integral_constant types around.

Note 2: This code actually does work with a minor adjustment; see my answer below. But that doesn't directly address the question. Hmm, maybe I should have edited this instead of answering…

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In general you can terminate the recursion by making the original template template<char head, char first, char ... tail>, and the use template<char head, char first> for termination - but I guess that is not what you are asking. –  Björn Pollex Feb 29 '12 at 14:14
1  
@BjörnPollex No, then passing two arguments would be ambiguous. Packs are allowed to be empty. A template< char head > and a template< char head, char second, char ... tail > would do the trick, but yeah, that's not the question. –  Potatoswatter Feb 29 '12 at 14:19

2 Answers 2

Wouldn't it be better to terminate the recursion at one character?

template<char Ch>
constexpr unsigned long long parse_binary(){
  return Ch - '0';
};

// second head to disambiguate
template< char head1, char head2, char ... tail >
constexpr unsigned long long parse_binary() {
    return ( ( head1 - '0' ) << sizeof ... (tail)+1 ) + parse_binary< head2, tail ... >();
}

In any case, the problem is that parse_binary for zero chars needs to be declared before the variadic version, as Clang nicely points out:

error: call to function 'parse_binary' that is neither visible in
      the template definition nor found by argument-dependent lookup

// call trace...

note: 'parse_binary' should be declared prior to the call site
      constexpr unsigned long long parse_binary() {
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LOL. I just wrote my reply to Björn before scrolling down to this. As I said in the note, this is a question about parameter packs, not implementing binary literals. The elegant solution is to expand the pack in the function parameter list. –  Potatoswatter Feb 29 '12 at 14:21
    
Ah, yes, you're not allowed to expand the overload candidate set unless the overloaded name is ADL dependent on a template parameter. Aha, combined with Luc's comment in chat, I think I understand now. –  Potatoswatter Feb 29 '12 at 14:26
up vote 0 down vote accepted

No official word on the compliance of such tricky matching, but the given code does work if the two overloads are transposed.

The second, terminating overload is not visible to the first because the first resolves the name at template-definition time. Only function calls dependent on a template parameter have lookup deferred until instantiation time.

Just to be clear, this works:

template< typename = void > // Define this one first!
constexpr unsigned long long parse_binary() {
    return 0;
}

template< char head, char ... tail >
constexpr unsigned long long parse_binary() {
    return ( ( head - '0' ) << sizeof ... (tail) )
        + parse_binary< tail ... >(); // Bingo: overload found.
}
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iirc in c++11 we have an explicit bullet that a function name is dependent if it is a template id and one of the template arguments is dependent. now in order to know that it is a template id the compiler first has to look it up to a template but that i zhink soesnt preclude a second instantiation time lookup. –  Johannes Schaub - litb Mar 1 '12 at 8:45
    
yep I verified that this is a GCC bug: "parse_binary< tail ... >()" should do instantiation-dependent lookup of "parse_binary" too. –  Johannes Schaub - litb Mar 1 '12 at 20:42
    
@JohannesSchaub-litb: Interesting! Did you file the bug? –  Potatoswatter Mar 2 '12 at 5:19
    
no didnt file it –  Johannes Schaub - litb Mar 2 '12 at 6:44

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