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I have a collection (or list or array list) in which I want to put both String values and double values. I decided to make it a collection of objects and using overloading ond polymorphism, but I did something wrong.

I run a little test:

public class OOP {
    void prova(Object o){
        System.out.println("object");
    }

    void prova(Integer i){
    System.out.println("integer");
    }

    void prova(String s){
        System.out.println("string");
    }

    void test(){
        Object o = new String("  ");
        this.prova(o); // Prints 'object'!!! Why?!?!?
    }

    public static void main(String[] args) {
        OOP oop = new OOP();
        oop.test(); // Prints 'object'!!! Why?!?!?
    }
}

In the test seems like the argument type is decided at compile time and not at runtime. Why is that?

This question is related to:

Polymorphism vs Overriding vs Overloading
Try to describe polymorphism as easy as you can

EDIT:

Ok the method to be called is decided at compile time. Is there a workaround to avoid using the instanceof operator?

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Because that's how Java overloading works. –  Oliver Charlesworth Mar 18 '12 at 14:35
    
But that object is a String at runtime, and there is a method defined for strings. What am I doing wrong? –  Vitalij Zadneprovskij Mar 18 '12 at 14:36
1  
You are assuming that the choice of which overload to call is made at runtime. It's not; it's decided at compile-time, based on the static type of the argument. –  Oliver Charlesworth Mar 18 '12 at 14:37
    
Overriding is dynamic, but overloading is static. It's design choice. –  user802421 Mar 18 '12 at 14:39
2  
Use polymorphism :) or visitor pattern for multiple dispatch. –  user802421 Mar 18 '12 at 14:47

5 Answers 5

up vote 7 down vote accepted

This post seconds voo's answer, and gives details about/alternatives to late binding.

General JVMs only use single dispatch: the runtime type is only considered for the receiver object; for the method's parameters, the static type is considered. An efficient implementation with optimizations is quite easy using method tables (which are similar to C++'s virtual tables). You can find details e.g. in the HotSpot Wiki.

If you want multiple dispatch for your parameters, take a look at

  • groovy. But to my latest knowledge, that has an outdated, slow multiple dispatch implementation (see e.g. this performance comparison), e.g. without caching.
  • clojure, but that is quite different to Java.
  • MultiJava, which offers multiple dispatch for Java. Additionally, you can use
    • this.resend(...) instead of super(...) to invoke the most-specific overridden method of the enclosing method;
    • value dispatching (code example below).

If you want to stick with Java, you can

  • redesign your application by moving overloaded methods over a finer grained class hierarchy. An example is given in Josh Bloch's Effective Java, Item 41 (Use overloading judiciously);
  • use some design patterns, such as Strategy, Visitor, Observer. These can often solve the same problems as multiple dispatch (i.e. in those situations you have trivial solutions for those patterns using multiple dispatch).

Value dispatching:

class C {
  static final int INITIALIZED = 0;
  static final int RUNNING = 1;
  static final int STOPPED = 2;
  void m(int i) {
    // the default method
  }
  void m(int@@INITIALIZED i) {
    // handle the case when we're in the initialized `state'
  }
  void m(int@@RUNNING i) {
    // handle the case when we're in the running `state'
  }
  void m(int@@STOPPED i) {
    // handle the case when we're in the stopped `state'
  }
}
share|improve this answer
    
Multijava is very interesting, but the last version is of the year 2006. Josh Bloch's Effective Java just says that you have to create many classes with just one method, that is something I would avoid. Patterns are the way to go. –  Vitalij Zadneprovskij Mar 18 '12 at 16:45
    
Oh - interesting and sad that Multijava is no longer maintained. I guess the guys are more focusing on other projects like the Java Modeling Language. About the example from Effective Java: can't you transfer that to more general cases? E.g. if you need to distinct 3 behaviors in your example, use a GeneralDecorator and two subclasses NumberDecorator and TextualDecorator? Then you only need OOP.prova(GeneralDecorator), which calls someMethod() from GeneralDecorator, which is single dispatched. Or would you call that a pattern already (e.g. inversion of control)? –  DaveFar Mar 18 '12 at 17:54
    
Btw, here is a blog post on how to solve your problem in Scala‌​, which only has single dispatch, too. The solution is not possible in Java, though, since it uses Scala's traits. –  DaveFar Mar 18 '12 at 18:05
    
One further problem comes to my mind: I would have thought that Java's generics with type erasure are incompatible with multiple dispatching. Glancing over plrg.kaist.ac.kr/_media/research/publications/oopsla11.pdf, it somehow seems to work :-0 –  DaveFar Mar 18 '12 at 18:58
    
Yes I think that Decorator Pattern is what I need. :) Scala is a very good language and I hope that it will become more mainstream. About generics and type erasure, I don't know type erasure, I would have to study a little bit to understand that article. –  Vitalij Zadneprovskij Mar 18 '12 at 19:46

What you want is double or more general multiple dispatch, something that is actually implemented in other languages (common lisp comes to mind)

Presumably the main reason java doesn't have it, is because it comes at a performance penalty because overload resolution has to be done at runtime and not compile time. The usual way around this is the visitor pattern - pretty ugly, but that's how it is.

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I second your answer (+1), though I'm not sure today's compiler techniques are much slower for multiple dispatch (see my answer below). Do you happen to have any current statistics on that? –  DaveFar Mar 18 '12 at 16:42
    
@DaveBall Haven't run any tests and I certainly doubt that it's "much slower" in most situations. But it certainly adds an additional level of complexity to the optimization and I can think of common situations where we'd get a virtual call instead of a direct call. Lots of Java classes implement an interface as the only class - that allows the usual optimization. This relies on the fact that lots of interfaces are implemented by only one class. Contrary to this, most methods take rather general parameters where there exist more than one applicable subclass (eg all collection classes) –  Voo Mar 18 '12 at 18:08
    
cont. So we do get some overhead, it basically boils down to some if cascade and loading the class for all parameters (that's rather cheap though) at runtime. I don't think it affects the general case though where we don't need multiple dispatch and in cases where we do it avoids an annoying class of bugs and I really abhor the visitor pattern.. –  Voo Mar 18 '12 at 18:12

When calling a method that is overloaded, Java picks the most restrictive type based on the type of the variable passed to the function. It does not use the type of the actual instance.

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this isn't polymoprhism, you've simply overloaded a method and called it with parameter of object type

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Everything in java is a Objekt (without the primitives). You store the strings and integers as object and then as you call the prove methode they are still refered to as objects. You should have a look at the instanceof keyword. Check this link

void prova(Object o){
   if (o instanceof String)
    System.out.println("String");
   ....
}
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