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I'm looking at Functional Java and I don't understand what a P1 is. Could anyone explain and/or give an example?

(background: I do know what currying and closures are)

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3 Answers 3

up vote 6 down vote accepted

This is taken straight from the Google Code project for Functional Java:

Joint union types (tuples) are products of other types. Products of arities 1-8 are provided (fj.P1 - fj.P8). These are useful for when you want to return more than one value from a function, or when you want to accept several values when implementing an interface method that accepts only one argument. They can also be used to get products over other datatypes, such as lists (zip function).
// Regular Java
public Integer albuquerqueToLA(Map<String, Map<String, Integer>> map) {
  Map m = map.get("Albuquerque");
  if (m != null)
     return m.get("Los Angeles"); // May return null.
}

// Functional Java with product and option types.
public Option<Integer> albuquerqueToLA(TreeMap<P2<String, String>, Integer>() map) {
  return m.get(p("Albuquerque", "Los Angeles"));
}
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1  
OH, they're TUPLES! I was so confused, the P1 javadoc listed an abstract method and it confused the heck out of me. –  Jason S Apr 24 '11 at 22:24
    
Wait: why the heck would you bother using a P1? I can see why you'd use a P2, P3, etc. –  Jason S Apr 24 '11 at 22:26
    
....and is the p() method you describe something that's built into fj? –  Jason S Apr 24 '11 at 22:32
    
@Jason S: the p method is built into the P class. If you look at the documentation, they overloaded the p method to accept 1-8 arguments and return the corresponding product type. They probably did import static fj.P to avoid having to use fj.P.p(...). –  Cristian Sanchez Apr 24 '11 at 22:41
    
OK, that makes sense. –  Jason S Apr 24 '11 at 22:50

P1 looks like the 1-element, trivial product type. In Haskell it would be written as:

data P1 a = P1 a

(the Identity type in Haskell).

that is, it is a container that holds some other type a.

This type also implements the simplest monad, Identity, which allows for functions to be opaquely applied to the contents of the box.

Computationally, there is no reason to use the Identity monad instead of the much simpler act of simply applying functions to their arguments, however, it can be useful in the design of monad transformer stacks.

The monad implementation of the identity monad is trivial,

return a     = P1 a
(P1 m) >>= k = k m

As you can see, this is just function application.

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that's a little helpful, but I don't understand Haskell at all (or monads, for that matter). –  Jason S Apr 24 '11 at 22:40
    
You might want to read a tutorial on functional programming, to really understand it. In the Java setting, it is especially hard to see what is going on. –  Don Stewart Apr 24 '11 at 22:53
    
I'd like to -- is there any based upon Java, though? My brain's pretty full as it is, + I'd rather not learn Haskell just to learn some new paradigms for using Java. –  Jason S Apr 24 '11 at 22:54
    
Almost certainly not. –  Don Stewart Apr 25 '11 at 8:06

aha, found this post:

>>> Also, P1 is potentially lazy. We use it for the implementation of
>>> Stream, for example. 

So instead of returning type T directly, I can have something that returns P1<T>, much like Google Collections Supplier<T>, and have it compute the contained value only when P1._1() is called.

(huh, this blog post Lazy Error Handling in Java was interesting too.....)

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