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Say I have a function template func and it gets instantiated several times with the same template parameter. The individual instances with the same template parameter should be counted (from 0 on) and the instance count should be accessible from func's implementation. Clearly, a static member is not what I am searching for. Instead, it looks to me that instance counting needs to be implemented with compile-time type computation.

Example (user code):

{
  for(int i=0;i<10;i++) {
    func<float>();           // This should be instance number 0
  }
  func<float>();             // This should be instance number 1
}

Despite the runtime loop the first instance of func gets the number 0. That is over all loop iterations the instance number should not change. Only when the loop exits and the function is called again, the number should be incremented, namely to 1.

Original template:

template<class T> void func() {}

Possible ways to access the instance count:

template<class T,int COUNT> void func() {}   // instance number as template parameter
template<class T> void func(int count) {}    // or as function argument

Can this be done with some fancy call wrapper? If so, how?

I fear it's not possible... But, right now I have a good use for it ..

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5  
What is the problem you are solving where this is your solution? –  GManNickG Feb 7 '13 at 22:45
1  
@Frank: Don't avoid the runtime check. Really. Computer time (like checking a pointer) is really, really, really cheap. –  thiton Feb 7 '13 at 23:01
1  
@Frank: This sounds like premature optimization, which is generally a bad idea. (Just adding to thiton's advice.) –  Kleist Feb 7 '13 at 23:03
1  
@Frank, definitely most likely not possible ;) (You can't exclude for definite the possibility that some mp guru will stumble into this and decide to show how it's done..) For us mere mortals, stick to the obivous way... –  Nim Feb 7 '13 at 23:15
1  
Can you show us the runtime solution that you want to avoid so we know what your goal is? –  Eric Feb 7 '13 at 23:19

3 Answers 3

An instantiated function template is a function. Each function only exists once in your program. Therefore, you cannot count instantiations, because there is only a single instantiation of func<float>.

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Agreed there is only 1 instance of func<float> but therefore I said you can add another integral template parameter func<int,float>. That is a different function template instance. –  wpunkt Feb 7 '13 at 22:58
    
Except this is a populated function template. Your point still stands - the compiler has emitted one and only one implementation of func in this example code. –  Eric Feb 7 '13 at 23:00
    
Yes, but can't func be a wrapper that instantiates func_impl<count,float>() and forward the arguments (if there are any)? –  wpunkt Feb 7 '13 at 23:02
    
@Frank, nope, the template parameter has to be a compile time constant, there is no way to increment a compile time constant (unless you use something like __COUNTER__ but that is per translation unit) –  Nim Feb 7 '13 at 23:03
    
Again agreed, compile time numbers are constant but you can instantiate a new one out of it adding to it 1, can't you? –  wpunkt Feb 7 '13 at 23:05
template<class T> class impl {
    template<int count>
    static void funcImpl() {}
}

#define func funcImpl<__COUNTER__>

...

impl<float>::func()
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Thanks for the answer. This is not an option (see main comments). –  wpunkt Feb 7 '13 at 23:07
    
Why do you have T? What is it supposed to do in your code? –  André Puel Feb 7 '13 at 23:08
    
T is a type representing an expression (ET). –  wpunkt Feb 7 '13 at 23:13

What you explain in your comment is that you want to cache the function results. This is called memoization. You should perhaps create a full class to handle the function's memoization for each template argument.

If you expect the function to reduce to the same value each time, perhaps check first if the compiler does that by itself (g++ -S -g shouldn't be too unreadable...).

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