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I'm attempting to make a class that will convert ArrayLists of objects into ArrayLists of other objects. i.e.

ArrayList<Foo> convert(ArrayList<Bar> input){
     //conversion logic
}

ArrayList<Bar> convert(ArrayList<Foo> input){
     //conversion logic
}

Unfortunately Java doesn't want to have two functions with the same name and what it believes to be the same inputs and outputs.

I'm attempting to go a different route. Instead of multiple functions with the same name, I want to make one function that accepts an ArrayList, determines which type of object is inside, does the proper conversion, and returns an ArrayList:

ArrayList convert(ArrayList input){
     //conversion logic for Foo

     //conversion logic for Bar
}

Is something like this possible?

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Is there any subtype relationship between Bar and Foo for your purposes? –  notnoop Jun 24 '09 at 18:56
    
Side issue: For flexibility the input should be an interface, such as List or even better Collection. Actually the return type should also be an interface. –  Steve Kuo Jun 24 '09 at 19:07
    
Could you please clarify your goal? Do you want to create a generic converter or conversion between few types? In the latter case, you could just include the source or target type name in the method name. –  kd304 Jun 24 '09 at 19:23
    
I'm using GWT and google app engine, since GWT doesn't play nicely with GAE I need to have two copies of my entities: One for GWT (just pojo), one for GAE (with annotations). My end goal is to make converting the objects as easy as possible, since there will be A LOT of converting back and forth. –  KevMo Jun 24 '09 at 20:07
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3 Answers

up vote 4 down vote accepted

How about an interface:

public class Converter<From, To> {
    List<To> convert(List<From> input);
}

And then have as many implementations as you want. For example:

private static final Converter<Foo, Bar> fooToBarConverter = new Converter<Foo, Bar>() {
    public List<Bar> convert(List<Foo> input) {
        ...
    }
}
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Try:

public <T, U> ArrayList<U> convert(Class<T> typeIn, ArrayList<T> input){     
    // dispatch on typeIn
}

Or better yet

public <T, U, V extends ArrayList<U>> V convert(Class<T> typeIn, 
Class<V> typeOut, ArrayList<T> input){     
    // dispatch on typeIn
    return typeOut.cast(yourConversionResult);
}

Because you might return ArrayList<Foo> or ArrayList<Bar> within the same method and having the proper cast will help you return them without compiler warnings.

Edit: The return type cast for the second sample wasn't going to work. Tried to fix it

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I'm thinking this might be better than my answer. (By the way, you can add a "public" in there to get the syntax highlighting off of XML mode). –  Michael Myers Jun 24 '09 at 18:46
    
I'm not familiar with the <T, U> syntax. Could you provide a more verbose example, or perhaps a link? –  KevMo Jun 24 '09 at 18:57
    
@KevMo: It means the method is generic, even though the containing class might not be. –  Michael Myers Jun 24 '09 at 18:58
    
Thanks. Not sure about the return type cast though. –  kd304 Jun 24 '09 at 19:01
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You are basically describing a "map" in terms of functional programming. Take a list of objects, apply some operation to each object and accumulate the results in another list. There are libraries out there that implement this stuff already, although i haven't looked recently. I know commons collections has this for pre-generics collections.

the gist of the solution is (similar to mmeyers solution):

public interface Function<From,To> {
  public To apply(From);
}

public <From,To> List<To> map(List<From> fromList, Function<From,To> fun)  {
  // call fun.apply() on every element in fromList and return a new result list ...
}
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You are #18 to misspell my name on SO. Congratulations. ;) –  Michael Myers Jun 24 '09 at 20:05
    
heh, my bad. :) –  james Jun 25 '09 at 13:30
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