# How to match mutiple copies of a value?

F#'s pattern matching is very powerful so it felt natural to write:

``````match (tuple1, tuple2) with
| ((a, a), (a, a)) -> "all values are the same"
| ((a, b), (a, b)) -> "tuples are the same"
| ((a, b), (a, c)) -> "first values are the same"
// etc
``````

However, the first pattern match gives a compiler error:

``````'a' is bound twice in this pattern
``````

Is there a cleaner way to do it than the following?

``````match (tuple1, tuple2) with
| ((a, b), (c, d)) when a = b && b = c && c = d -> "all values are the same"
| ((a, b), (c, d)) when a = c && b = d -> "tuples are the same"
| ((a, b), (c, d)) when a = c -> "first values are the same"
// etc
``````
-
For anyone who is interested: "F#'s pattern matching is very powerful". The ML style of pattern matching that F# inherits from is actually deliberately not so powerful. Specifically, ML restricts patterns to so-called linear patterns in order to guarantee that the amount of time taken to match a pattern is bounded by the size of the pattern. In F#, active patterns circumvent this and let you do anything in the middle of pattern matching. The disadvantage is that performance is less predictable. Mathematica takes this to the extreme. –  Jon Harrop Jan 31 '13 at 17:44

This is a perfect use case for F#'s "active patterns". You can define a couple of them like this:

``````let (|Same|_|) (a, b) =
if a = b then Some a else None

let (|FstEqual|_|) ((a, _), (c, _)) =
if a = c then Some a else None
``````

And then clean up your pattern matching with them; note how the first case (where all values are equal) uses the nested `Same` pattern to check that the first and second elements of the tuple are equal:

``````match tuple1, tuple2 with
| Same (Same x) ->
"all values are the same"
| Same (x, y) ->
"tuples are the same"
| FstEqual a ->
"first values are the same"
| _ ->
failwith "TODO"
``````

Performance tip: I like to mark simple active patterns like these with `inline` -- since the logic within the active patterns is simple (just a few IL instructions), it makes sense to inline them and avoid the overhead of a function call.

-

You can use parameterized active patterns to remedy the issue.

``````let (|TuplePairPattern|_|) ((p1, p2), (p3, p4)) ((a, b), (c, d)) =
let matched =
[(p1, a); (p2, b); (p3, c); (p4, d)]
|> Seq.groupBy fst
|> Seq.map (snd >> Set.ofSeq)
|> Seq.forall (fun s -> Set.count s = 1)
if matched then Some () else None
``````

Particularly, you should define a pattern in a form of literals (chars, strings, etc).

``````match tuple1, tuple2 with
| TuplePairPattern(('a', 'a'), ('a', 'a')) -> "all values are the same"
| TuplePairPattern(('a', 'b'), ('a', 'b')) -> "tuples are the same"
| TuplePairPattern(("a", "b"), ("a", "c")) -> "first values are the same"
// etc
``````
-
That's a lot of overhead to introduce just to eliminate a few equality checks. It may not be noticeable if you only execute this `match` once or twice, but if you use this when looping over some data (for example) it will definitely impact performance. –  Jack P. Jan 28 '13 at 13:18
Agree. This is a good approach when readability is the key and performance isn't a critical issue. –  pad Jan 28 '13 at 13:23
Very interesting generalised approach, thanks. –  Mark Pattison Jan 28 '13 at 13:50

I think, the most elegant way can be accomplished by combining two excellent answers provided by @Stephen Swensen and @pad.

The first idea is that the structure (a tuple containing two tuples) can be unpacked once, instead of doing it in every `match` case.
The second idea is working with sequences of values, all of which must be equal to each other.

Here's the code:

``````let comparer ((a,b),(c,d)) =
let same = Set.ofSeq >> Set.count >> ((=) 1)
if   same[a; b; c; d]         then "all values are the same"
elif same[a; c] && same[b; d] then "tuples are the same"
elif same[a; c]               then "first values are the same"
else                                "none of above"
``````

You may change `elif`'s into a `match`, but does not seem feasible to me.

-
Downvoted as (IMO at least), ditching the elegance of F#'s pattern matching in favour of imperitive style chained if, else if's, completely misses the point of functional programming. –  David Arno Dec 19 '14 at 11:48
@DavidArno Thank you for the feedback, but `if-then-else` concept even exists in category theory and lambda calculus. Can you please expand why and how it harms the functional paradigm? Also, the `match` is nothing else but an ordered sequence of `if-then`'s. –  bytebuster Dec 19 '14 at 12:52

In practice, I would probably unpack the tuples up-front and then do a series of if / then / else expressions:

``````let a,b = tuple1
let c,d = tuple2

if a = b && b = c && c = d then "all values are the same"
elif a = c && b = d then "tuples are the same"
elif a = c then "first values are the same"
...
``````

If you find yourself doing this frequently, an active pattern might be warranted (and in the case of 2-tuples, a complete active pattern would be doable and likely preferable - exhaustive matches are "safer" than non-exhaustive matches). Or, perhaps you need a more sophisticated data structure.

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Downvoted as (IMO at least), ditching the elegance of F#'s pattern matching in favour of imperitive style chained if, else if's, completely misses the point of functional programming. –  David Arno Dec 19 '14 at 11:49
@DavidArno note that in F# `if-then-else` constructs are functional expressions not statements like in imperative languages. –  Stephen Swensen Dec 19 '14 at 18:53