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I want to specialize a template function declared as:

template<typename Type> Type read(std::istream& is);

I then have a lot of static implementations

static int read_integer(std::istream& is);

a.s.o. Now I'd like to do a macro so that specialization of read is as simple as:


So I figured I'd go the boost::function_traits way and declare SPECIALIZE_READ as:

#define SPECIALIZE_READ(read_function) \
   template<> boost::function_traits<read_function>::result_type read(std::istream& is) { \
      return read_function(is); \

but VC++ (2008) compiler complains with: 'boost::function_traits' : 'read_integer' is not a valid template type argument for parameter 'Function'

Ideas ?

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That's because you are passing a value (read_function) as a type. It won't work like that in C++03. In C++0x you can use decltype(read_function). –  ltjax Jan 10 '11 at 15:27
Well yes ? What else should I pass ? I've used function_traits successfully with class methods in the past, and I've used it also with functions but I don't know why it doesn't work in this case... –  Robert Jan 10 '11 at 19:07

2 Answers 2

up vote 0 down vote accepted

To my knowledge, there is no mechanism (other than decltype in C++0x) to obtain the return type from a function pointer, without passing that same function pointer as a parameter.

The easiest way is to accept the duplication of the return types:

#define SPECIALIZE_READ(type, read_function) \
   template<> type read(std::istream& is) { \
      return read_function(is); \

SPECIALIZE_READ(int, read_integer)
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Yes, this was my plan B. I'll go with this even though it's not as "neat" ;) –  Robert Jan 10 '11 at 21:06

Maybe I am wrong but if I remember well what I've experienced during my C++ programming carrier, functions may not be overloaded by differing in the return type only. I guess the stuff will work if you do this:

template<typename Type> void read(std::istream& is, Type& objectToRead);

And use the Type as an argument. This has to do with the way compilers usually decorate c++ names if I recall well.

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Actually, function templates are overloaded based only on the return type quite frequently, for example when using the enable_if idiom on the return type. –  ltjax Jan 10 '11 at 15:24
Yes, there is no problem with the overloading, I simple use read<int> read<double> etc. where its needed. The problem seems to be that boost::function_traits doesn't recognize the static function I pass to it... –  Robert Jan 10 '11 at 15:28
Yup, overloads on return type are a problem for non-template functions, because in that case you have no method left to select the right one. With template functions, you can just pick the right instantiation (e.g. read<int> - no need for overload resolution) –  MSalters Jan 10 '11 at 16:22

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