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I'm serializing template pack with fold expression using Boost.Serialization:

template <typename ... Args>
std::string toBytes(Args... args)
{
    std::ostringstream buf;
    boost::archive::binary_oarchive arch(buf);
    (arch << ... << args);
    return buf.str();
}

This works nice, but when I try to serialize a pointer to some basic type (say, char*), it chokes on it. I understand that Boost.Serialization doesn't serialize such types out of the box by intent. So, I want to provide a "default" way to serialize them.

To achieve that I want map each args element through some function f, so that f(char*) would return CharPtrWrapper and for other types that f should work as identity function.

My approach was:

template<typename T>
T f(T x) { return x; }

template<>
CharPtrWrapper f(char * x) { return CharPtrWrapper(x); }

but this code gives

error C2912: explicit specialization 'CharPtrWrapper f(char *)' is not a specialization of a function template

What's wrong with that and how do I solve this problem?

  • 5
    A specialisation must come after the main template. Anyway consider using overloading instead. – n. 'pronouns' m. Dec 18 '17 at 10:58
  • CharPtrWrapper f(char * x) doesn't quite match T f (T x) does it? – rustyx Dec 18 '17 at 12:19
1

What's wrong with that and how do I solve this problem?

The problem is that your specialization isn't a specialization.

The generic f<>() is defined as:

template<typename T> 
T f(T x) { return x; }

i.e., a template function that receives type T and returns the same type. So, a specialization of f<>() must return the same type that it receives.

However,

template<>
CharPtrWrapper f(char * x);

is not a valid specialization for f<>() because it receives char * and returns CharPtrWrapper.

A few valid specializations for f<>() are:

template <>
char const * f<char const *>(char const * x) { return x; }

// or

template <>
char const * f(char const * x) { return x; }

A solution, as suggested by n.m., would be to avoid specialization and use overloading instead. That means, from a practical point of view, to delete the "template<>" part and simply write:

CharPtrWrapper f(char * x) { return CharPtrWrapper(x); }

or better yet, receive a char const * instead of a char *.

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