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Let's consider the following Point record type:

type Point = { x:int; y:int }

I'd like to make a predicate that tells me whether a given Point is in a valid region.

let insideBounds p =
  let notInside c = c < 0 || c > 100
  match p with
  | {x=i; y=_} when notInside i -> false
  | {x=_; y=j} when notInside j -> false
  | _                           -> true

This works, yet I wonder if there's an alternative way of achieving the same result having as insideBounds signature

let insideBounds {x=i; y=j}

instead, still making use of pattern matching?

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up vote 5 down vote accepted

You can define an active pattern that tests whether a value is inside a range specified as an argument:

let (|InRange|_|) (min, max) v = 
  if v >= min && v <= max then Some () else None

Then you can define insideBounds like this:

let insideBounds = function
  | { x = InRange (0, 100); y = InRange (0, 100) } -> true
  | _ -> false

The first case matches when both x anad y members are in the specified range. The active pattern returns option unit, which means that it doesn't bind any values. The (0, 100) is an input argument and the pattern matches when the value (x or y) is in the range.

(In other context `match 10 with InRange (0

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Which can then be handily rewritten in function-esque style: let insideBounds {x=i; y=j} = let inRange = ((|InRange|_|) (0, 100) >> Option.isSome); inRange i && inRange j :-) – Daniel Aug 18 '11 at 20:22
@Tomas That's cool. The pattern matching statement is acting like a Maybe pattern. – gradbot Aug 18 '11 at 23:40


type Point = { x:int; y:int }

let insideBounds {x=i; y=j} =
  let notInside c = c < 0 || c > 100
  not (notInside i || notInside j)

I'd recommend inverting your logic to make it clearer:

let insideBounds {x=i; y=j} =
  let isInside c = c >= 0 && c <= 100
  isInside i && isInside j

As a general rule, it's better for boolean functions/properties, etc to be affirmative. That way, negation retains it's negativity, so to speak.

share|improve this answer
I am sorry I wasn't clear enough. Your solution is way better than what I've shown above (I was actually using exactly the same solution as you've shown in my own code). I was only trying to understand how to accomplish the pattern matching with that function signature. – devoured elysium Aug 18 '11 at 15:47
The important bit is that pattern matching occurs in many places, including function arguments. (see Remarks) – Daniel Aug 18 '11 at 15:57

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