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I have a general state which is essentially a 3-tuple, and a number of functions which each concern themselves with parts of that state. I'm trying to work out a set of generic adapters for such functions, so that I can use them in a State monad pipeline.

This is possibly entirely wrongheaded; feel free to make that case.

I apologize in advance for mix of Java and pidgin Scala. I'm actually doing this in Java as a learning exercise, but nobody has time to read all that. I've elided a lot of uninteresting complexity for the sake of discussion; don't worry about the domain modeling.

The state in question is this:

ImportState(row:CsvRow, contact:Contact, result:ImportResult)

ImportResult is one of ADD, MERGE, or REJECT.

The functions I've defined are these:

def rowToContact: ImportRow => Contact

def findMergeCandidates: Contact => (Contact, List[Contact])

// merges, or declines to merge, setting the result
def merge: (Contact, List[Contact]) => (Contact, ImportResult)  

def persist: Contact => ImportResult

def commitOrRollback: ImportState => ImportState

def notifyListener: ImportState => Nothing

The adapters I've defined so far are pretty simple, and deal with individual properties of ImportState:

def getRow: ImportState => ImportRow

def getContact: ImportState => Contact

def setRow(f: _ => ImportRow): ImportState => ImportState

def setContact(f: _ => Contact): ImportState => ImportState

def setResult(f: _ => ImportResult): ImportState => ImportState

The (broken) pipeline looks something like this (in Java):

    .map( setRow( constant(row) ) )
    .map( setContact( getRow.andThen(rowToContact) ) )
    .map( getContact.andThen(findMergeCandidates).andThen(merge) ) // this is where it falls apart
    .map( setResult( getContact.andThen(persist) ) )
    // ... lots of further processing of the persisted contact

The immediate problem is that merge returns a tuple (Contact, ImportResult), which I'd like to apply to two properties of the state (contact and result), while keeping the third property, row.

So far, I've come up with a couple of approaches to adaptation of merge that both suck:

  1. Define some functions that pack and unpack tuples, and use them directly in the pipeline. This option is extremely noisy.

  2. Define a one-off adapter for ImportState and merge. This option feels like giving up.

Is there a better way?

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3 Answers 3

up vote 7 down vote accepted

Your question is tagged Haskell - I'm hoping that means you can read Haskell, and not that someone saw 'monads' and added it. On that assumption, I'll be speaking Haskell in this answer, since it's the language I think in these days ;)

There's a useful concept called "functional lenses" with a couple Haskell library implementations. The core idea is that a "lens" is a pair of functions:

data Lens a b = Lens { extract :: (a -> b), update :: (a -> b -> a) }

This represents a functional way of getting and updating "parts" of a structure. With a type like this, you can write a function such as:

subState :: Lens a b -> State a t -> State b t
subState lens st = do
    outer <- get
    let (inner, result) = runState st (extract lens outer)
    put (update lens outer inner)
    return result

Translating that into Java sounds like an interesting (and possibly quite challenging) exercise!

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Thanks! I tagged it Haskell because I can more or less read Haskell, with the aid of a Haskell-English dictionary. – loganj Nov 18 '10 at 15:50
This looks like it pairs up my get/set functions. For a state with n fields, is there a Haskell idiom for composing extract and update functions so that you don't need n^2-1 of each? – loganj Nov 18 '10 at 16:03
@loganj: yes, in the fclabels package for example, the lens type is an instance of "Data.Category.Category", which means it defines an "identity lens" id :: Lens a a and a "lens composition" (.) :: Lens b c -> Lens a b -> Lens a c. The definition is pretty straightforward - the new get is just the composition of the old ones, and with an auxiliary function modify :: Lens a b -> (b -> b) -> a -> a., the new 'set' is something like: modify lens1 outer (\inner -> update lens2 inner x). This is kinda ugly due to my choice of argument order in update, but hopefully it makes sense anyway. – mokus Nov 18 '10 at 16:28
@loganj: or it occurs to me you might have wanted a "horizontal" composition such as "pair :: Lens a b -> Lens a c -> Lens a (b,c)"? There is something like that in the fclabels package too. I would recommend looking through the source of that package, it's a pretty good read and introduces a lot of potentially useful idioms. – mokus Nov 18 '10 at 16:32
the "horizontal" composition is exactly what I'm after. Thanks, I'll go dig through fclabels. See, this is why I tagged it haskell... I knew a Haskell programmer would have the answer! – loganj Nov 18 '10 at 16:36

Interesting I wrote this exact operation last night using fclabels:

withGame :: (r :-> r', s :-> s') -> GameMonad r' s' a -> GameMonad r s a
withGame (l1,l2) act = do
    (r,s) <- (,) <$> askM l1 <*> getM l2
    (a, s') <- liftIO $ runGame r s act
    setM l2 s'
    return a

GameMonad is a new type that is a monad transformer stack of state, reader, IO. I'm also using a bit of applicative functor style code don't let it put you off, it's pretty much the same as mokus.

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Take a look at replacing the tuple approach with case classes. You get a lot for free in a structure that is virtually as easy to define, in particular a compiler generated copy method which allows you to create a copy of an instance, changing only the fields you want to change.

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