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I have the following code that compiles and works well:

template<typename T>
T GetGlobal(const char *name);

int GetGlobal<int>(const char *name);

double GetGlobal<double>(const char *name);

However I want to remove the "default" function. That is, I want to make all calls to GetGlobal<t> where 't' is not an int or a double an error.

For example, GetGlobal<char>() should be a compile time error.

I tried to just delete the default function, but, as I imagined, I received a lot of errors.. So is there a way to "disable" it and allow calls only to the specialized versions of the function?


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up vote 20 down vote accepted

To get a compile-time error implement it as:

template<typename T>
T GetGlobal(const char *name) { T::unimplemented_function; }
// `unimplemented_function` identifier should be undefined

If you use Boost you could make it more elegant:

template<typename T>
T GetGlobal(const char *name) { BOOST_STATIC_ASSERT(sizeof(T) == 0); }

C++ Standard guarantees that there is no such type which has sizeof equal to 0, so you'll get a compile-time error.

As sbi suggested in his comments the last could be reduced to:

template<typename T>
T GetGlobal(const char *name) { char X[!sizeof(T)]; }

I prefer the first solution, because it gives more clear error message (at least in Visual C++) than the others.

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In order for the first case to fail at compile-time, Koper would need an undeclared function, not an undefined one. And the only way to get this to compile is to make it dependent on T. Something like T::some_thing_that_is_definitely_undeclared might do. (The second one could probably be mimicked with char dummy[!sizeof(T)];.) – sbi Oct 27 '09 at 8:43
Using unimplemented_function gives more clear error message (at least in Visual C++) than using T::unimplemented_function. – Kirill V. Lyadvinsky Oct 27 '09 at 8:55
@Kirill: Using unimplemented_function won't work in a compiler that does two-phase lookup. (Currently, VC doesn't do this.) Such a compiler won't compile the template definition, even though it's never instantiated. – sbi Oct 27 '09 at 10:27
Fixed, now it works in GNU C++ too. – Kirill V. Lyadvinsky Oct 27 '09 at 12:42
Something like this template<typename T> struct not_defined : mpl::false_ { }; template<typename T> T GetGlobal(char const *name) { BOOST_MPL_ASSERT(( not_defined<T> )); } will give some nice error: . – Johannes Schaub - litb Oct 27 '09 at 14:53

The following are alternative techniques to using boost:

Declare a typedef to a dependent name

This works because name lookup for DONT only occurs when 'T' has been replaced. This is a similar (but legal) version of the example given by Kirill

template <typename T>
T GetGlobal (const char * name) {
    typedef typename T::DONT CALL_THIS_FUNCTION;

Use an incomplete return type

This technique doesn't work for specializations, but it will work for overloads. The idea is that its legal to declare a function which returns an incomplete type, but not to call it:

template <typename T>
class DONT_CALL_THIS_FUNCTION GetGlobal (const char * name);
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If you don't implement it, you'll at least get a linker error. If you want a compile-time error, you could do this with class templates:

template<typename T>
struct GlobalGetter;

struct GlobalGetter<int> {
  static int GetGlobal(const char *name);

struct GlobalGetter<double> {
  static double GetGlobal(const char *name);

template<typename T>
T GetGlobal(const char *name)
  return GlobalGetter<T>::GetGlobal(name);
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Any idea why a template function forward declaration doesn't yield a compiler error, while a template class forward declaration does? – xtofl Oct 27 '09 at 8:44
Too much writings if you have much more specializations than for 'int' and 'double'. – Kirill V. Lyadvinsky Oct 27 '09 at 8:57
What is GlobalGetter<T>(name)? Constructor? There is no constructor with single argument in GlobalGetter<int> and GlobalGetter<double>. – Alexey Malistov Oct 27 '09 at 9:09
@Alexey: It's a brainfart. Sorry, I fixed it. – sbi Oct 27 '09 at 10:24
@xtofl: Because a function template declaration is all that you need to compile calls to a function. (Whereas for classes you need the definition.) – sbi Oct 27 '09 at 10:25

I would suggest not to actually provide an implementation, just a bare declaration of the method.

The other option would be to use a compile-time assert. Boost has a number of such beasts.

namespace mpl = boost::mpl;
BOOST_MPL_ASSERT((mpl::or_< boost::same_type<T, double>,
                            boost::same_type<T, int> >));

There is also its message version counterpart, which would help.

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+1. mpl's asserts are very nice :) – Johannes Schaub - litb Oct 27 '09 at 14:58

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