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I have a template function in C++ that basically writes values to an XML file, for validation purposes I wish to write out the variable type as well as its value. I am currently using typeid(T).name() which works great for int, double etc but I want a special case for char arrays and std::string so that it always writes out "string" or something more meaningful than:

class std::basic_string<char,struct std::char_traits<char>,class std::allocator<char> >


char const  [2]

Any ideas on how I can do this in an elegant way?

My code (cut down) looks like this (not the function is template only)

  template <typename T> bool SetValue(const std::string &sectionName, const std::string &valueName, const T &value)
      return true;
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2 Answers 2

up vote 10 down vote accepted

You can use a traits class for this:

template<class T>
class type_name {
    static std::string get() { return typeid(T).name(); }

This template implements the default-case. Now you can specialize it for types that should have special names:

class type_name<std::string> {
    static std::string get() { return "string"; }

class type_name<const char *> {
    static std::string get() { return "string"; }

template<int N>
class type_name<const char[N]> {
    static std::string get() { return "string"; }

Your code would then look like this:

template <typename T> bool SetValue(const std::string &sectionName, 
                                    const std::string &valueName, const T &value)
      myXMl->AddAttribute(TYPE_DEF, type_name<T>::get());
      return true;
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simple yet elegant +1 –  David Feurle Jan 17 '12 at 10:26
I'm not sure I follow, how do I add this to my code? I updated my question with my example code. –  Chris Jan 17 '12 at 10:27
@Chris: I added the necessary modification of your code. –  Björn Pollex Jan 17 '12 at 10:31
Ahhhh. I understand now, thanks this is great! –  Chris Jan 17 '12 at 10:33

You can wrap your type inside shim functions. These functions don't actually have to be defined, since they won't be ever executed; you only need declarations to employ overloading resolution to pick the right function for you, so you can take the type of its result with typeid() expression.

Remember that template functions are only selected for perfect match, whilst overloading of non-template functions allows for implicit conversions.


#include <string>
#include <iostream>
#include <typeinfo>

struct string{};

template <typename T> T shim(T);
// Not needed, literals will be matched by (const char*) below
// template <size_t S> string shim(const char (&)[S]);
string shim(const char*);
string shim(const std::string&);

int main()
  std::cout << typeid(shim(1.0)).name() << "\n"
            << typeid(shim(true)).name() << "\n"
            << typeid(shim(0)).name() << "\n"
            << typeid(shim((void *)NULL)).name() << "\n"
            << typeid(shim("hello there")).name() << "\n"
            << typeid(shim((const char*)"hello there")).name() << "\n"
            << typeid(shim(std::string("hello there"))).name() << std::endl;
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You still need a version for char [N], because if the template the OP has there is instantiated with a char [N], then it will not be a literal inside that functino, and the template-version of shim will be selected. –  Björn Pollex Jan 17 '12 at 11:01
Yes indeed. I like your solution better, though :D I think mine could be used to "enhance" yours by employing overloading thus avoiding defining as many template classes. –  bronekk Jan 17 '12 at 11:24

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