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I've poked around on stackoverflow for a while, but either I don't understand templates enough to find a solution, or it simply hasn't been answered before.

In this example:

template <typename T> T f();

Is it possible to make the function require type T to be a specialization of the std::basic_string template?

I could have the template defined with T as the type of the std::basic_string as so (using std::basic_string<T> internally, of course):

template <typename T> std::basic_string<T> f();

But then I would not be able to pass std::string or std::wstring to the function (expecting the return type to be std::string and std::wstring, respectively), which is the real aim here (to be able to pass any type which derives from the std::basic_string template).

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@plash please indicate whether you mean "derived from" or "specialization of". In your original post you said "derived from". Potatoswatter changed the title of it to say "specialization of" but left the main text alone. What's your actual intention? Please fix that in your question. Your last paragraph reads to me like "I would not be able to pass std::string because then it looks like std::basic_string<std::string>.". It doesn't necessarily follow from your main text what precisely you mean. –  Johannes Schaub - litb Sep 17 '10 at 11:01
If I understood the terminology, I would have used 'specialization'. Can you even derive from templated classes? –  plash Sep 17 '10 at 12:00
@plash thanks, now it's clear. Well collegially I would interpret "derive from basic_string" as saying the class derives from basic_string<T>. So in some sense, it's ambiguous :) –  Johannes Schaub - litb Sep 17 '10 at 12:09
@plash: yes you can. In fact, you can derive both from a class template (i.e. something without template arguments filled in, such as basic_istream<TElem> ) as well as a class that is a template instantiation (i.e. a concrete class such as basic_istream<char>). –  Konrad Rudolph Sep 17 '10 at 12:11
However, struct A : basic_istream { }; surely is not valid (you have to fill in arguments like basic_istream<T>). In that way, you cannt derive from class templates. As you see, now you, @Konrad and me all have three different interpretations of "deriving from class template", which proves how ambiguous this is :) –  Johannes Schaub - litb Sep 17 '10 at 12:27

3 Answers 3

up vote 8 down vote accepted

Partial specialization allows you to test whether a type is a specialization of a particular template. SFINAE is a trick that can "switch off" a function template declaration. The solution combines these techniques.

template< typename T > // by default,
struct enable_if_basic_string {}; // a type is not a basic_string

template< typename CharT, typename Traits >
struct enable_if_basic_string< basic_string< CharT, Traits > > {
    typedef basic_string< CharT, Traits > type; // same as argument type

// enable_if_basic_string<>::type exists only if T specializes basic_string
// if not, compiler ignores function declaration per SFINAE.
template< typename T >
typename enable_if_basic_string< T >::type
F() {

If you mean derivation as well as specialization, you might take a look at std::tr1::is_convertible and enable_if as well.

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+1 - It definitely solves the problem. Unfortunately it also requires you to decorate functions with useless parameters, though thankfully that can be hidden with default arguments. –  Paul Sep 17 '10 at 6:40
@Paul: No, there is no parameter there. I didn't change the template or runtime arguments of his function at all. –  Potatoswatter Sep 17 '10 at 6:48
@Potatoswatter: Yes, for this application. I was referring to using this idiom when you already have a return type in mind. Sorry I wasn't clearer. –  Paul Sep 17 '10 at 6:54
+1 - I've just thought about it. –  Tomek Sep 17 '10 at 6:55
Which answer is a more correct answer to this question? I'm thinking it's this one, but I won't be using it simply because I won't expect any non basic_string specialized type, and because this one is more complex and I dislike using magic. –  plash Sep 17 '10 at 12:05

Instead of requiring that T be a specialization of std::basic_string, why not just assume that T is a specialization of std::basic_string and let template instantiation fail if it isn't. Just use the things from std::basic_string that you need.

For example,

template <typename T>
T get_first_three_chars(const T& str) { return str.substr(0, 3); }

Here, we assume that T has a member function substr; if it doesn't, then instantiation will fail, resulting in a compilation error.

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Mmm. How does this look? pastebin.com/xiL8TGSn I presume I shouldn't be using string pointers, but.. it compiles. EDIT: Scratch that. This works perfectly for what I needed: pastebin.com/kptMXUPL Anything look wrong with it? –  plash Sep 17 '10 at 6:16
Other than it being pointers rather than references that is.. For some reason I can't edit that comment anymore, so here's what I'm left with: pastebin.com/6yQdTWYV –  plash Sep 17 '10 at 6:31
@plash: You can edit comments only for a grace period of 5mins. –  sbi Sep 17 '10 at 8:12
@Potatoswatter i fixed the obvious so i could upvote it –  Johannes Schaub - litb Sep 17 '10 at 10:58
@Johannes, @Potatoswatter: Oops. Brain compiler fail. Thank you :-) –  James McNellis Sep 17 '10 at 15:20

This is not possible in vanilla C++. There was a language construct proposed for C++0x that would allow for this, unfortunately it was dropped.

You can do this to a certain degree with the Boost Concept Check Library, however: http://www.boost.org/doc/libs/1_44_0/libs/concept_check/concept_check.htm

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I can't comment on James McNellis' post because of some inane reputation requirement so I'll say this here: I'm new to Stack Overflow, and one trend I commonly see in answering questions is to not actually answer the question, but instead ignore the problem. Is this normal for Stack Overflow, or did I simply decide to join at the wrong time? –  Paul Sep 17 '10 at 5:57
Dunno. I'm not around here very often. I know for one that I will never use Boost. Your response does answer my question, but doesn't give me a solution. –  plash Sep 17 '10 at 6:18
@Paul: It is possible in vanilla C++ (no need for concepts). Have a look at Potatoswatter’s answer. Variations of his answer are routinely used in several libraries. –  Konrad Rudolph Sep 17 '10 at 12:08
@plash: In C++, immutability has nothing to do with pass-per-value vs. pass-per-reference. std::basic_string is mutable, you can change a string's content. Independently of that, you are free to pass function parameters any way you like, although there are established patterns for passing objects to functions. –  sbi Sep 17 '10 at 13:01
@Paul: To answer the question in your first comment: a lot of times the OP may not entirely understand that there are other, usually better, and more commonly used alternatives. I might have put my non-direct-answer answer in a comment, but it wouldn't fit in a comment and it's hard to format even small code examples in a comment. Potatoswatter gives a good solution explaining how the OP can do what he asks for, but in most cases, I don't think that's what he really needs: usually, just assuming you have a type that meets certain criteria works just fine. [Also, welcome to Stack Overflow :-)] –  James McNellis Sep 17 '10 at 15:29

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