Ok - this may be a very stupid question, but it's been bothering me.

Is there a language where

class Animal;
class Ape : public Animal

void doStuff(Animal* animalPtr)
    cout << "doing animal stuff" << endl;

void doStuff(Ape* apePtr)
    cout << "doing ape stuff" << endl;

Animal *ape = new Ape();

would yield "doing ape stuff"? (please bear with me using C++ syntax) To clarify, I want "a function that accepts an argument and acts on it according to the type of the argument".

And would it make sense? Of course, as a developer you'd need to take care since instances that look just like an Animal pointer might actually call Ape code, because at runtime it's an Ape instance being pointed to.


Yes, there are! This is called multiple dispatch. The Wikipedia article is very good. Sadly, it seem to only be supported via language extensions for most popular languages, but there are a few (mostly esoteric) languages which support it natively.

  • Common LISP... Why that's a surprise (not!) ;) Thank you for term clarification and the Wikipedia link! – msi Jan 30 '10 at 21:30
  • I'll second common lisp. – Demosthenex Jan 30 '10 at 23:59
  • It's almost sad to have to classify it as esoteric :-p – Steven Schlansker Jan 31 '10 at 3:01

Take a look at the Visitor pattern

  • For languages that don't support multiple dispatch and/or pattern matching Visitor pattern is probably the best solution. – Evan Jan 30 '10 at 22:18

Potentially, but it would not be C++ since the function overloading lookups in C++ are done at compile-time, not runtime as would be required here. It would require a dynamic language that allows type-hinting and overloading.

  • Well, I know that C++ does not support the feature I am "sorta" looking for. Thought just came to me when coding in C++. Is this what make the difference between dynamic / static languages? – msi Jan 30 '10 at 21:23
  • Yes. Dynamic languages do their type checks/attribute lookups at runtime instead of compile-time. It slows down their operation a bit, but allows for greater flexibility. – Ignacio Vazquez-Abrams Jan 30 '10 at 21:27
  • No no no - you can have a very dynamic language (say Python) which does not support this out of the box... you have to use a special "multimethods" addon. – Steven Schlansker Jan 30 '10 at 21:29
  • C++ could support lookup on function parameters. It does not, partly because of performance reasons. – ebo Jan 30 '10 at 21:30
  • @Steven: Python supports neither type-hinting nor overloading, so I am not surprised. – Ignacio Vazquez-Abrams Jan 30 '10 at 21:31

There is some inconsistency here that is confusing. Do you want a function that accepts an argument and acts on it according to the type of the argument? This wouldn't really be polymorphism as the functions are on their lonesome, they aren't methods belonging to a class or interface hierarchy. In other words, its kindof like mixing OO paradigms with procedural paradigms.

If it is the type you want to parameterize and not the variable, you would use something like Java Generics. With generics you can inform a method that the type of the parameter coming in will also be variable. The method acts on the variable type in a generic fashion.

  • Nice description of the feature I am searching for - I was so bold to put it in an edit of my issue. You're right - polymorphism probably is a bad term, but none other came across my mind. – msi Jan 30 '10 at 21:28

Open Multi-Methods for C++, by Peter Pirkelbauer, Yuriy Solodkyy, and Bjarne Stroustrup.

This paper discusses a language extention to integrate multi-methods into C++ along with some very interesting implementation details, such as dealing with dynamically loaded libraries and the actual layout for dispatching properly. Note that it is not yet part of the C++ standard, and probably not a part of any major compiler.

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