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I have zero experience with F#. I started reading F# for C# Developers this weekend.

I had a problem recently (C# Code) where I had to search a list of .NET objects for subsets of objects that matched a certain pattern.

I described it as "regex style matching for objects" in the question. And I did get a great solution that I was happy with, and which seems to perform quite well.

But my recent interest in F# lead me to wonder whether functional programming might have an even better solution.

How would you solve this problem in F#?

Regex Style Pattern Matching in .NET Object Lists

  • Can you phrase your question more precisely? As is, it is way too broad. – Anton Schwaighofer May 10 '16 at 13:48
  • I'm really not sure how I can phrase the question any differently than I have.... I had a problem in C#, I got a good solution (all the detail on the above link). What's the equivalent F# solution? Just trying to learn about F# and how it lends itself to problems like this.... – reach4thelasers May 10 '16 at 13:53
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    I've read the linked question, but could you share the vocabulary you'd like to apply? Is R+B{3}D+ the only sort of pattern you'd like to match, or do you need a richer vocabulary (e.g. grouping, alternates, etc.)? – Mark Seemann May 10 '16 at 14:15
  • Of interest: How to implement simple finite state machines in F# This will give you an example of how much is involved. The significant change is adding quantification – Guy Coder May 10 '16 at 15:08
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One interesting functional concept that might be useful here is parser combinators. The idea is that you use composable functions that describe how to read some input and then compose parsers for complex patterns from a couple of primitives.

Parsers normally work over strings, but there is no reason why you couldn't use the same method to read a sequence of chromosomes.

With parser combinators, you would rewrite the "regex" as a composition of F# functions. Something like:

sequence [ 
  zeroOrMore (chromosomeType R)
  repeat 3 (chromosomeType B)
  zeroOrMore (chromosomeType D) ]

This would give you a function that takes a list of chromosome objects and returns the parsed result - the subset of the list. The idea is that functions like zeroOrMore build parsers that detect certain patterns and you compose functions to build a parser - you get a function that you can just run on the input to parse it.

Explaining parser combinators is a bit too long for a SO answer, but it would probably be the most idiomatic F# approach to solving the problem.

  • Nice variation, however doesn't this still require the user to write and compile a separate sequence for each different input? The reason I suggested the OP stay with the RegEx version was so that they would not have to write and recompile code for each different input. – Guy Coder May 10 '16 at 22:59
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    Was that a part of the question? Generally speaking, this looks a lot like scientific application, where the natural way of doing this in F# would be to use F# interactive & edit the code in a script file, rather than building some application for it. – Tomas Petricek May 11 '16 at 1:25
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    OK. I can see a typical F# user doing that. Since the OP stated they just started with F# a few days ago maybe that should be in the answer. :) – Guy Coder May 11 '16 at 1:39
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This is a comment posted as an answer because it is to long for a comment.

Since it seems that Regular Expressions are working for your problem and that you might suspect that F# pattern matching or active patterns might be a better solution I will add some understanding.

The input R+B{3}D+ as I see it is a formal grammar, and as such will require a parser and evaluation engine, or the creation of something like a finite state machine. Since you know already that .Net Regex can solve this problem, why go through all of the trouble to recreate this with F#. Even using F# pattern matching and active patterns will not be easier than using RegEx.

Thus the problem is basically to convert the C# code to F# code and make use of RegEx. So you are asking us to translate your C# to F# and that is not a valid SO question.

EDIT

As Mark Seemann noted in a comment the only input we have is R+B{3}D+. So if your actual grammar is more complicated than what RegEx can handle then there might be a better solution in F#.

Hopefully this helps you understand what you are asking.

2

Building on the other answers: Start by implementing a parser combinator allowing composition of the type Parser<'a list>. Add parsers for the minimal grammar required by R+B{3}D+.

type Result<'T> = Success of 'T | Failure
type Parser<'T> = Parser of ('T -> Result<'T * 'T>)

module ListParser =
    let (.>>.) (Parser f1) (Parser f2) =
        Parser <| fun input ->
            match f1 input with
            | Failure -> Failure
            | Success(value1, rest1) ->
                match f2 rest1 with
                | Failure -> Failure
                | Success(value2, rest2) -> 
                    Success(value1 @ value2, rest2)

    let oneOrMore what =
        let rec aux gotOne acc = function
        | x::xs when what = x -> aux true (x::acc) xs
        | xss when gotOne -> Success(List.rev acc, xss)
        | _ -> Failure
        Parser <| aux false []

    let exactly what n =
        let rec aux i acc = function
        | xss when i = 0 -> Success(List.rev acc, xss)
        | x::xs when what = x -> aux (i - 1) (x::acc) xs
        | _ -> Failure
        Parser <| aux n []

Finally create a function which will run the parser repeatedly until the input list is exhausted.

open ListParser
let runForall (Parser f) xss =
    let rec aux n acc xss =
        match xss, f xss with
        | [], _ -> List.rev acc
        | _::xs, Failure -> aux (n + 1) acc xs
        | _, Success(value, rest) ->
            aux (n + List.length value) ((n + 1, value)::acc) rest
    aux 0 [] xss

type ChromosomeType = R | B | D

[D;R;R;B;B;B;D;D;B;R;R;B;B;B;D;D;R;R;B;B;B;D;D]
|> runForall (oneOrMore R .>>. exactly B 3 .>>. oneOrMore D)
// val it : (int * ChromosomeType list) list =
//   [(2, [R; R; B; B; B; D; D]); (10, [R; R; B; B; B; D; D]);
//    (17, [R; R; B; B; B; D; D])]
  • A better way to read the input is to input it as a string then explode it into a string list. let explode (s : string) : string list = let rec exap n l = if n < 0 then l else exap (n - 1) ((s.[n].ToString()) :: l) exap (String.length s - 1) [] – Guy Coder May 12 '16 at 10:16
  • Yowzer this is gonna take some figuring out!! Thanks for the answer!! – reach4thelasers May 12 '16 at 10:22

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