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I have an interface

get_string(Source const &s, std::string const &d);
get_int(Source const &s, int const &d);
get_bool(Source const &s, bool const &d);

which I'd like to change to

template<class T>
get(Source const &s, T const &d);

But there's no sensible base template, so the actual base definition is a legal but useless (return d;). What can I do to force compile-time failure if the base is instantiated? Is there an idiomatic solution for this situation?

share|improve this question
What do you mean by base template? Also remember that function templates don't specialize, but overload. – Nikolai N Fetissov Jan 12 '10 at 17:30
"base template" as opposed to a "specialization" – just somebody Jan 12 '10 at 18:14
If you don't want to define a "base template" anyway, there is no point in adding templates into the mix. Your initial thought of providing overloads for the various types is correct. – Terry Mahaffey Jan 12 '10 at 19:00
@Terry Mahaffey: I dunno. This is straightforward compile-time polymorphism, my question is about compile-time pure virtual methods. Would you say that purely virtual methods in runtime polymorphism are pointless? – just somebody Jan 12 '10 at 19:29
up vote 10 down vote accepted

Don't define the template, just declare it and define the three specializations.

template <typename T>
T get(Source const &, T const &);

std::string get(Source const &s, std::string const &d) {
    return d + s.stringval(); // or whatever

[Edit: removed stuff about overloads - just for once, template function specialization does actually seem to be better. Who woulda thunk?]

share|improve this answer
implicit conversions are the reason to go for a template – just somebody Jan 12 '10 at 17:44
Do you mean the caller is expected always to specify the type, rather than ever allowing it to be inferred from the parameters? – Steve Jessop Jan 12 '10 at 18:00
I mean that I want the selected function to exactly match actual types – just somebody Jan 12 '10 at 18:12
... and no conversions on the values passed to the selected function – just somebody Jan 12 '10 at 18:12
Oh, I get it. For example if you define it with overloads and call get(Source(), "hello"), you get the bool version of the function, which probably isn't what you wanted. If you define it with templates and do the same, you get an error because there's no template instantiation for that char array type. – Steve Jessop Jan 12 '10 at 18:28

just do

string get(source, string);
int get (source, int);
bool get(source, bool);
share|improve this answer
that opens a can of worms since bool and int are implicitly convertible back and forth. – just somebody Jan 12 '10 at 17:48
It'll be fine, the compiler won't implicitly convert them when the correct unconverted overload is available. – Terry Mahaffey Jan 12 '10 at 18:59

If you are willing to pay for run-time polymorphism, you can do this...

template <typename T>
class Interface
   virtual T get(Source const &s, T const &d) = 0;

class StringInterface : public Interface<std::string>
   virtual std::string get(Source const& s, std::string const& d);

// etc.

Since your base is an abstract class, you will get a compile-time failure if you try to instantiate it directly.

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Declare the baseclass (t) as abstract, that way an instance can never be created of that class.

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the question is about free functions, not classes – just somebody Jan 12 '10 at 17:50

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