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I have a templated function which I want to specialize foo to const char[N] (hardcoded strings)

    template<typename T>
const std::string foo() ;

    template<typename T,int N>
const std::string foo<T[N]>() { return "T[N]"; } //this doesn't work for const char[12]

const std::string foo<const char*>() { return "Const char"; } //this doesn't work for const char[12]

   template<typename T>
   void someother function(T obj)

   string s = foo<T>(); //I want to overload when T is const chat[N]

   function("Hello World");  //When calling like this the type is const char[12]

I thought I can do something like was done Here.
But it doesn't work as well, because I'm not passing a parameter, just a templated type.
I could do it like that, but there's just no reason to pass a parameter to that function.

The example doesn't work because I'm not passing a variable. Tried a few things, but can't get it to work.

This is the only specialization I'm not able to solve. I've specialized the function for int,string and other types and they work OK.

 error LNK2001: unresolved external symbol "class std::basic_string<char,struct std::char_traits<char>,class std::allocator<char> > const __cdecl foo<char const [12]>(void)" 

The first templated declaration doesn't have any code in purpose... I'm trying to get the right specialization that will be used for my case.

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2 Answers 2

up vote 3 down vote accepted

You have to do it in two steps. Since you can't partially specialize a function, you have to have the function call a class, which can be partially specialized. So the below will work.

#include <typeinfo>
#include <iostream>

namespace detail {

  template <typename T> struct foo_helper {
    static std::string helper() {
      return typeid(T).name();

  template <int N> struct foo_helper<const char [N]> {
    static std::string helper() {
      return "Const Char Array";

template <typename T> std::string foo(T& obj) {
  return detail::foo_helper<T>::helper();

int main() {
  std::string x;
  const char c[] = "hard coded";
  std::cout << foo(x) << std::endl;
  std::cout << foo(c) << std::endl;

This calls the specialization properly for the constant string. I also changed T obj into T& obj, so g++ would pass the static strings as arrays, not pointers. For more detail on partial specialization, look at http://www.gotw.ca/publications/mill17.htm

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Nice solution, thanks. This way I could use the original template specializations I had, and add the structure helper for the default. –  Yochai Timmer Aug 7 '11 at 13:56
I would personally move the existing specializations to match what I've done here, so all of the specializations are done via the helper class, and not some by specializing the function, and the others via the class. That way, you won't have to explain to someone else which specializations have to go in which place. –  Dave S Aug 7 '11 at 16:28

You can't. This is impossible. You would need a partial specialization to specialize for const char(&)[N], but since you can't partially specialize functions, then it is impossible. You can always overload for it.

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So, why does the code in the link example work ? Only difference is that they pass an actual parameter that can be inferred. But there's still specialization –  Yochai Timmer Aug 7 '11 at 13:26
No there is no specialization in that example. Specialzation is not when a template function is called. It's when you write several versions of a template, some of which have specialised types. As DeadMG says you cannot partially specialize a function. –  john Aug 7 '11 at 13:36

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