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I am experimenting with mixin interfaces that add additional functionality to existing interfaces. E.g. I have an interface Filtering

interface Filtering<T, E>{

    T filter(Filter<E> f);

}

I can easily add that to existing interfaces:

interface Container<E> extends Filter<Container<E>, E>{
    // translated type: Container<E> filter(Filter<E> f);
}

Now I'd also like to have a transforming behavior, that transforms Container<E> to Container<X> with the syntax

Container<X> transform(Transformer<E,X> transformer)

Is there any way I can define this functionality as a Mix-in interface, so that I can transform Container<E> to Container<X> but also SomeOtherContainer<E> to SomeOtherContainer<X>?

interface Transforming< /* what goes in here? >{

    < /* and what goes in here? */ > X transform(Transformer<S,T> transformer);
}

interface Container<E> extends Transforming<Container<E>, /* and in here? */ >{
}

Personally, I don't think it's possible, I think I need to add the transform method to each of the target interfaces, but I haven't quite lost hope yet. Can anybody help?

Clarification: The Transformer function converts the individual E elements to X elements. I do not want Transformer to convert from Container<E> to Container<X>, that would be completely useless.

This is how I'd like to use it:

Container<Integer> intVersion = // initialize it
Container<String> hexVersion =
    intVersion.transform(new Transformer<Integer,String>(){
       public String apply(Integer input){
           return Integer.toHexString(input);
       }
});

BTW: I know I can do similar stuff in Guava. Let's ignore that fact for this question, this is not so much about the functionality (which I can easily implement), but about generics usage.

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1  
I'm confused what Transforming gives you that Transformer doesn't. –  corsiKa Feb 17 '11 at 6:40
    
@glowcoder Let's say I want to convert a basket of apples to a basket of oranges. Transformer converts a single apple to a single orange. I'm looking for a way to specify that, given a Transformer<I,O>, I can return a basket of any type of fruit –  Sean Patrick Floyd Feb 17 '11 at 7:16
    
@Sean so you want to turn basket = {apple, orange, pear, glowcoder} // yeah I'm a fruit! and turn them all into apples or all into pears? –  corsiKa Feb 17 '11 at 7:21
    
I am little bit confused but what about generic methods? One generic parameter can be given within the interface and another one is specified for method only. But I am not sure that it is what you want –  Gaim Feb 17 '11 at 7:25
    
A problem I would see is that you would need some kind of registry that allows you to get the Transformer for a given object. Perhaps getTransformer(X destinationType) needs to go into your Transformable interface –  corsiKa Feb 17 '11 at 7:31
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2 Answers

up vote 1 down vote accepted

Unfortunately, Java doesn't allow this:

interface Transforming<E, X>
    <T> X<T> transform(Transformer<E,T> transformer);

interface Container<E> extends Transforming<E, Container>

Even if it did, it's not general enough; we want a function mapping T to another type containing T

interface Transforming<E, f>
    <T> f(T) transform(Transformer<E,T> transformer);

interface Container<E> extends Transforming<E, {T->Container<T>} >

But enough of fantasies. The best you can do, is to be very vague on return type:

interface Transforming<E>
    <X,T> X transform(Transformer<E,T> transformer);

interface Container<E> extends Transforming<E>

Note, we are unable to express any constraint between X and T.

Now your sample code compiles, without any warning!! There is a type inference based on the assignment, and X is infered to be Container<String>.

On one hand, the type safety of this inference entirely depends on programmer supplying the correct target type. If he had put Container<Rope> on the left hand, it will compile too without warning.

On the other hand, if Java does not do such inference, then we must return Object instead of X, and do manual cast on return object; the safety of the manual cast of course also depends entirely on programmer supplying correct target type. Some people therefore argue, why are we punishing ourselves? If I assign A to B, of course A is a B, don't force me to write it out, infer it!

Nonetheless, such inference may give false sense of security to casual observers. There is a manual cast, in spirit, but not in writting. Personally I'm quite concerned with this inference rule. It is against the very point of static typing, that is, we want to write down all the types explicitly.

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Yes, this is what I was afraid (and almost certain) of, but I had to ask anyway. It means that I will have to clutter several interfaces with transform() methods with different return values, instead of mixing in Transforming. Thanks for your time. –  Sean Patrick Floyd Feb 18 '11 at 5:51
    
so you don't like the X return type? –  irreputable Feb 18 '11 at 7:39
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You could try (I'm not completely confident in the syntax, but I think it's close):

interface Transforming<X> {
    <Y> Y transform(Transformer<X, Y> transformer);
}

interface Container<E> extends Transforming<Container<E>> {
}

Then your Container will have the Transforming functionality. The type Y will be determined at the actual call to transform, based on what Y is for the Transformer object passes to transform.

This will not guarentee the Y is necessarily a Container type, but maybe something in Transformer can give that restriction.

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This is obvious, yes. But it's also totally useless, as it doesn't let me reuse Transformer objects for different Transforming implementations. Transformer should operate on E, not on Container<E> –  Sean Patrick Floyd Feb 17 '11 at 7:19
    
If you want to restrict Y use <Y extends Container<?>>. Not sure what to use for the ? though. –  whiskeysierra Feb 17 '11 at 7:23
    
@Willi exactly. I would like the transform method to be compile-time safe, so the return value for Container<E>.transform(Transformer<E,X>) would be Container<X>. Returning Container<?>is not a problem, but also not desirable. –  Sean Patrick Floyd Feb 17 '11 at 7:31
    
As far as using the same Transformer object for multiple Transforming implementations, this simply doesn't make sense. It's always possible to make more Transforming classes, each requiring its own specific conversion from/to every other implementation. It's impossible to 100% ensure that the Transformer can know about each and every implementation. –  Ken Wayne VanderLinde Feb 17 '11 at 7:56
    
So, what about <Y extends Container<X>> Y transform(Transformer<X,Y> transformer)? Would that solve your problem? Beware, I havn´t tested this. –  jmg Feb 17 '11 at 8:33
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