Как написать код в F # для каких функторов в OCaml?

Ответ 1

Как вы заметили, F # не имеет функторов - модули F # не могут быть параметризованы типами. Вы можете получить аналогичные результаты в F #, используя объектно-ориентированные части языка - интерфейсы, общие классы и наследование.

Здесь вы подходите к подражанию вашему примеру.

type Comparison = Less | Equal | Greater

/// Interface corresponding to ORDERED_TYPE signature
type IOrderedType<'a> = 
    abstract Value: 'a
    abstract Compare: IOrderedType<'a> -> Comparison

/// Type that implements ORDERED_TYPE signature, different instantiations
/// of this type correspond to your OrderedInt/OrderedString modules.
/// The 't: comparison constraint comes from the fact that (<) operator 
/// is used in the body of Compare.
type Ordered<'t when 't: comparison> (t: 't) =
    interface IOrderedType<'t> with
        member this.Value = t
        member this.Compare (other: IOrderedType<'t>) = 
            if t = other.Value then Equal else if t < other.Value then Less else Greater

/// A generic type that works over instances of IOrderedType interface.
type Set<'t, 'ot when 't: comparison and 'ot :> IOrderedType<'t>> (coll: IOrderedType<'t> list) =

    member this.Values = 
        coll |> List.map (fun x -> x.Value)

    member this.Add(x: 't) = 
        let rec add (x: IOrderedType<'t>) s = 
            match coll with
            | [] -> [x]
            | hd::tl ->
                match x.Compare(hd) with
                | Equal   -> s         (* x is already in s *)
                | Less    -> x :: s    (* x is smaller than all elements of s *)
                | Greater -> hd :: add x tl
        Set<'t, 'ot>(add (Ordered(x)) coll)

    static member Empty = Set<'t, 'ot>(List.empty)

/// A helper function for Set.Add. Useful in pipelines. 
module Set =     
    let add x (s: Set<_,_>) =
       s.Add(x)

/// Type aliases for different instantiations of Set 
/// (these could have easily been subtypes of Set as well)
type StringSet = Set<string, Ordered<string>>
type IntSet = Set<int, Ordered<int>>

let try1 () = Set.add "foo" StringSet.Empty
let try2 () = Set.add 2 IntSet.Empty

try1().Values
try2().Values

Ответ 2

Вот немного другой подход, который достигает такого же результата, используя общий класс и один объект для каждого типа.

type Comparison = Less | Equal | Greater

type Set<'a>(compare : 'a -> 'a -> Comparison) =

    member this.Empty : 'a list = []

    member this.Add x s = 
         match s with
         | [] -> [x]
         | hd::tl ->
             match compare x hd with
             | Equal   -> s         (* x is already in s *)
             | Less    -> x :: s    (* x is smaller than all elements of s *)
             | Greater -> hd :: this.Add x tl


let compare x y = if x = y then Equal else if x < y then Less else Greater

let compareFloats (x : float) (y : float) = if x = y then Equal else if x < y then Less else Greater

// Note that same generic compare function can be used for stringSet and intSet
// as long as the type parameter is explicitly given
let stringSet = Set<string>(compare)
let intSet = Set<int>(compare)

// Type parameter not needed, because compareFloats is not generic
let floatSet = Set(compareFloats)

let try1 () = stringSet.Add "foo" stringSet.Empty   // -> ["foo"]
let try2 () = intSet.Add 2 intSet.Empty             // -> [2]
let try3 () = floatSet.Add 3.0 floatSet.Empty       // -> [3.0]