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It seems I'm using over and over a pattern that I would like to abstract as a function. The idea behind the pattern is that maybe I have something and if not I can try to produce it. Here is some OCaml code for the function I'm interested in naming, but the problem isn't OCaml specific. I looked for a Haskell precedent but I haven't seen such a function in the Data.Maybe module and hoogle didn't help: http://www.haskell.org/hoogle/?hoogle=Maybe+b+-%3E+%28a+-%3E+Maybe+b%29+-%3E+a+-%3E+Maybe+b.

let my_function a f arg = match a with
  | None -> f arg
  | Some _ -> a

This is almost like having a default potential value, but it avoid the need for generating the default if we have a value already.

Edit:

The reason I need this type is that I have a combinatorial problem to solve and a set of heuristics to solve it (say h1 and h2). h1 is faster than h2. None of these heuristics is guaranteed to find a solution, though. So I chain them and try them in order. Something like

match my_function (h1 problem) h2 problem with
| None -> "bad luck"
| Some solution -> "hurray"
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4 Answers 4

up vote 10 down vote accepted

Sounds like Alternative pattern:

a <|> f arg

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In Haskell notation, your function is essentially

func :: Maybe a -> (b -> Maybe a) -> b -> Maybe a
func a f arg = case a of
  Nothing -> f arg
  Just _  -> a

Notice that you only ever use the inputs f and arg in the combination f arg, so you can simplify to

helper :: Maybe a -> Maybe a -> Maybe a
helper a b = case a of
  Nothing -> b
  _       -> a

func a f arg = helper a (f arg)

That is, your helper produces a if it has a value, otherwise it produces b. But you can write that in terms of maybe from Data.Maybe

helper :: Maybe a -> Maybe a -> Maybe a
helper a b = maybe b id a

func a f arg = helper a (f arg)

and then if you wanted you could inline the definition of helper

func a f arg = maybe (f arg) id a

So I don't think you have a pattern that already exists, but it's a simple variation on the maybe function, that does already exist.

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FWIW, this will work well in Haskell because (f arg) is evaluated lazily. In OCaml you'll have to be more careful. Additionally it would be neater to use fromMaybe, as another answer notes. –  Tom Ellis Sep 27 '13 at 8:26
    
fromMaybe is too restrictive - its type is fromMaybe :: a -> Maybe a -> a so to get the behaviour the OP wants, you would have to define func a f arg = fromMaybe (f arg) (Just a), i.e. wrapping your argument a :: Maybe a in another layer of Maybe, which seems terribly ugly to me. –  Chris Taylor Sep 27 '13 at 8:30
    
Ah yes, you're right. –  Tom Ellis Sep 27 '13 at 9:12

How about:

fromMaybe (f arg) a

See: http://www.haskell.org/hoogle/?hoogle=fromMaybe

Also, in Haskell, f arg only has a chance of being computed when a is Nothing due to Haskell being lazy, unlike OCaml.

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2  
See the comments on my answer; this doesn't have the correct type. The OP requested a function with type Maybe b -> (a -> Maybe b) -> a -> Maybe b whereas this has type Maybe b -> (a -> b) -> a -> b. You could correct it by writing fromMaybe (f arg) (Just a) instead. Now, I can't really fathom why the OP wants something with that type (I think your version is far more sensible), but the fact remains that that is what they asked for! –  Chris Taylor Sep 27 '13 at 8:34

Looking at the general problem as described in your edit, maybe you'd be interested in something like (Uses OCaml Core library):

let heuristics = [lazy(h0 "problem"); lazy(h1 "problem"); lazy(h2 "problem")];;
let result = List.find heuristics (fun z -> Option.is_some (Lazy.force z));;

Just create a list of your heuristics up front and then find the first one that generates a valid solution.

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