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I can use function pointer as template argument as the following

template<class R, class T, R (*Fun)(T)>
class MyClass;

Any way to make it is easy as

MyClass<&MyFun> a;
share|improve this question
I could imagine a helper template class (/struct) that just provides a public typedef for the function pointer signature. – πάντα ῥεῖ Jan 1 '13 at 17:40
I'm sure I saw this asked yesterday. – PreferenceBean Jan 1 '13 at 17:41
@LightnessRacesinOrbit Me too, the OP uses the same code. But the questions context was different, it goes to the crucial point now I guess. – πάντα ῥεῖ Jan 1 '13 at 17:43
I realized this is exactly the same problem (conceptually) I have posted here : Pretty-print types ... – Nawaz Jan 1 '13 at 17:57
Extend the C++ standard to allow auto template parameters with specialization? – Yakk Jan 1 '13 at 18:26

There's already std::ptr_fun. With C++11, you can use it as

auto a = std::ptr_fun(&MyFun);


As the other attempts, and non attempts BTW, have shown, isn't it possible with your kind of template, least of all "as easy as" ;-). What you can do however, is sort of reimplement the existing standard template function pattern (std::ptr_fun, std::make_pair and the like) to return the desired type, if your main goal is "as easy as".

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-1. This in no way answers the question. – Nawaz Jan 1 '13 at 18:05
@Nawaz "Any way to make it as easy as" is clear enough, at least for me. – Olaf Dietsche Jan 1 '13 at 18:10
He has a class template to which he wants to pass function-pointer as template argument in a easy way. Your answer doesn't address his problem. – Nawaz Jan 1 '13 at 18:19
Decltype with a subclass template might help, for certain values of help. – Yakk Jan 1 '13 at 18:46

It's not possible exactly as in the question, but yes it's possible if you flex your design a little bit. Let's take an example:
Suppose you have below function:

int foo (int i) { return i; }

Now you want to write:

MyClass<&foo> a; // instead of `Myclass<int, int, &foo> a;

Here how you will achieve it. First change the simple function:

int foo (int i) { return i; }

to encapsulated function object:

struct foo { // <--- function name here
  int operator () (int i) { return i; } // <--- function body here

Both are almost same (in the case of function object an extra this pointer is passed which doesn't happen in the free function case):

int x = foo(2); // 1st case
int x = foo_(2); // 2nd case where `foo_` is an object of `struct foo`

Now you can use simply as you want!

template<class Func>
class MyClass {...}
MyClass<foo> a;

Here is a working demo.

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Also note that foo()(2) works for the struct case. Sadly (?), there is no static operator() syntax that lets you do foo(2) where foo is a struct (ie, replace constructor syntax with one that returns a type of your choice). – Yakk Jan 1 '13 at 20:30

Here is a horrible answer, but I cannot think of a better one.

template<typename R, typename Arg, R(*Fun)(Arg)>
class MyClass {};

template<typename R, typename Arg>
struct MyClassHelper {
  struct Class {
    typedef MyClass<R, Arg, Fun> type;

template<typename R, typename Arg>
MyClassHelper<R, Arg> GetMyClass(R(*Fun)(Arg)); // no impl

void MyFun(int) {}

int main() {
  typedef decltype( GetMyClass(&MyFun) ) A;
  typedef A::Class<&MyFun> B;
  typedef B::type a;
  // or, in one line:
  decltype( GetMyClass(&MyFun) )::Class<&MyFun>::type b;

which is ugly as sin. But at least it extracts the argument types of MyFun without repeating them...

share|improve this answer
Is that easier than what the OP already has which is just MyClass<R, T, &MyFun> obj;? – Nawaz Jan 1 '13 at 19:42
@Nawaz Sort of. You don't need to know the return type and argument types of MyFun. That's about the only advantage. Well, and you could do #define MYCLASS(x) decltype( GetMyClass(x) )::Class<x>::type if you wanted to be crude... – Yakk Jan 1 '13 at 20:07
I think if a programmer knows the function-name, he also knows (or can know) the return type and parameter types, without much effort. That is not a problem. The problem I think is too-much-typing, IMHO. – Nawaz Jan 1 '13 at 20:12

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