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The striped-down version of my problem:

I want to merge these two functions:

void Bar(const std::string &s);
void Bar(const std::wstring &s);

..into one templated function:

template <class CharType>
void Foo(const std::basic_string<CharType> &s);

And I thought I will be be able to call Foo like (1) and (2), but to my surprise not even (3) works.

(1) Foo("my string");
(2) Foo(std::string("my string"));
(3) Foo(std::basic_string<char>("my string"));

I tried removing the const qualifier for parameter s and even dropping the reference (&), or calling with lvalues instead of rvalues, but all with the same result.

The compiler (both gcc and VS - so I am pretty sure it's a standard compliant behaviour) can't deduce the template argument for Foo. Of course it works if I call Foo like Foo<char>(...).

So I would like to understand why this is, especially since the call (3) is a one-to-one type between the type of the calling parameter object and the function argument type.

Secondly, I would like a workaround to this: to be able to use one templated function, and to be able to call it like (1) and (2).


(2) and (3) do work. I was declaring it wrong in my compiler (not like in my question):

template <class CharType>
    void Foo(const std::basic_string<char> &s);

Sorry about that.

share|improve this question
As far as i can see in VS's implementation std::string is not really basic_string<char> is basic_string<char,char_traits<char>,allocator<char> > so i think it does not work because it is missing some template arguments. – Raxvan Jan 8 '14 at 14:04
Edited my answer, might suit your needs now – Marco A. Jan 8 '14 at 14:18
up vote 3 down vote accepted

1) won't work because you're trying to use a const char[10] instead of a std::string

2) should work and so should 3) since default template parameters should ensure you're using defaults

#include <iostream>
using namespace std;

template <class CharType>
void Foo(const std::basic_string<CharType> &s)
    cout << s.c_str(); // TODO: Handle cout for wstring!!!

void Foo(const char *s)

int main()
    std::wstring mystr(L"hello");



    Foo(std::basic_string<char>("so happy"));

    return 0;

Careful when dealing with template parameters. I also provided a small overload for wstring, see if that fits you.

share|improve this answer
God, I was declaring it like template <class CharType> void Foo(const std::basic_string<char> &s). I will edit my question. Thank you. – bolov Jan 8 '14 at 14:15
That's ok, I don't use my function to write to streams. In my real function I have more string arguments and I generate and return a new string. – bolov Jan 8 '14 at 14:22

The basic string template looks like:

    class CharT, 
    class Traits = std::char_traits<CharT>, 
    class Allocator = std::allocator<CharT>
> class basic_string;

so you need to declare your function as

template <typename  CharType, typename CharTrait, typename Allocator>
void Foo(const std::basic_string<CharType, CharTrait, Allocator> &s);

for it to match (all the template type parameters can be deduced, so I don't think you need to replicate the defaults in your function).

share|improve this answer
I confirm that replicating the defaults in the function is useless; when the argument s is deduced to match the pattern std::basic_string<...> const& then all the template parameters are deduced as well. – Matthieu M. Jan 8 '14 at 14:36

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