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I'm curious if there is a technique that allows a user to easily configure access to an object passed to a function. Specifically, is there a technique for writing classes + functions so that they support any form of accessing a parameter, be it a copy, reference, pointer, or smart pointer?

For example, suppose I had a simple function increment()

// direct increment
template<typename T>
void increment(T obj){

increment() will work for parameters that are both copies and references to objects, but not pointers or smart pointers.

Of course, I could overload increment() with a pointer based version as follows:

// pointer increment
template<typename T>
void increment(T obj){

But then I have to implement every function twice, or provide a pointer version wrapper that calls the reference version.

Or I could even implement increment as a functor:

// functor increment
template <typename T>
struct increment {
  increment(T& obj):m_obj(obj){}
  operator()(){ m_obj++; }
  T& m_obj;

Of course, the functor increment() can be imitated by applying boost::bind() to direct increment(). If it is implemented with a reference to the object, then users must further be aware of the reference to a reference problem, although it can be avoided with judicious application of boost::call_traits.

The obvious answer is that the user could call *obj and pass a reference to obj to direct increment(), but then they would lose reference counting functionality that is both important and useful for object lifetimes, particularly if increment() may be called in a threaded scenario. The same applies for passing &obj to pointer increment(), because the user may have a specific situation where direct increment() is preferable. A user could likely write a proxy object in either case to wrap the functionality they really want, but that seems like overkill for a problem that I hope can be solved by the function implementer.

Please keep in mind that this is a simplified example to illustrate how a function could handle access and allow the user to leverage that in their specific problem domain.

So, is there any way to get elegant, fast, and expressive C++ in one package, or am I stuck with picking any two? Maybe it is possible with template metaprogramming? If there isn't a generalization, which design choice is superior?

Note: Here is the question more specific to what I am designing: Reusable design for processing input and output data with various sources and types

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How would you distinguish whether it is the pointer which should be incremented, or the object pointed to? And what if the object pointed to is itself a pointer? –  celtschk Apr 10 '12 at 20:03
One option is not to pass pointers unless forced to. That would limit the problem to just a few places. –  Bo Persson Apr 10 '12 at 20:15
@celschk Good question. If it can be user defined, I think that would be the best answer. Your question helped me refine my own question. I know that the various versions of increment() can be adapted to each other in many cases. Thus, if I must choose one, I would like to know which one to choose. –  Andrew Hundt Apr 10 '12 at 20:16
You can use a template specialization, overloads, etc but perhaps you are over complicating things? Often you do not want any and every form of access. –  AJG85 Apr 10 '12 at 20:26
@AJG85 I'm attempting to write a generic library, so unfortunately I don't get to choose how users implement their classes. Hopefully I can avoid placing restrictions on them, but if I must I would like to make the best choice now. –  Andrew Hundt Apr 10 '12 at 20:39

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