After reading F# Component Design Guidelines, I don't see any comment whether I should declare module & its type to have the same name.

Usually my projects don't have any cyclic dependency, so I don't need to make a new module (e.g. InfrastructureTypes or DomainTypes) to put every types in one place.

For example, if I have a record type System and a bunch of its functions, should I put everything inside one module file? This is my attempt:

// System.fs
module System

type rec System =
    { name : string
      children : System list }

let init () = { name = ""; children = [] }

let addChild system child =
    { system with system.children = child :: system.children }

let removeChild system child =
    let rec removeChild children acc child =
        match children with
        | c :: children ->
            if c <> child then removeChild children (c :: acc) child
            else removeChild children acc child
        | [] -> List.rev acc

    let children = removeChild system.Children [] child
    { system with system.children = children }

It is a common approach in the F# core library itself to have a module and type with the same name at the same level (as opposed to having the type inside the module like in your example). For example, there is a List<'a> type and a List module that contains the function that contains functions for working with it. Similarly with Option, Set, Result etc.

If you already had a type with a given name, there is an attribute you can add to to allow creating a module with the same name without a compiler error: [<CompilationRepresentation(CompilationRepresentationFlags.ModuleSuffix)>]

However, since F# 4.1, this is implicit. So defining a module with the same name as the type just works, and the word Module will be at the end of the module name when the code is compiled.

type System =
    { name : string
      children : System list }

module System =
    let init () = { name = ""; children = [] }

I think all this implies that this can be a valid pattern to use in F#. Particularly when you have a good abstraction. You might want to look up "abstract data types" as I think they apply here.

Looking at the examples I've given above, this is normally more of a library-level pattern, but I've heard the argument that it can be applied to good effect in application code too. I can imagine that it could help you to think about and enforce abstraction boundaries and keep code organised.

  • 2
    @MiP - Do note that the type and the module are defined at the same level. In your example, your file starts with module System, which is shorthand for "the entire rest of this file is inside the module named System". Whereas the right way to go about it is to have both the type and the module defined at the same level. I can't make that clear enough in a comment box, so I'll post an answer expanding on this. – rmunn Jun 12 '17 at 8:33
  • @TheQuickBrownFox By your solution, I need to make a master module to have these modules and types be at the same level, don't I? – MiP Jun 12 '17 at 12:51
  • @MiP In an FS file, yes, these need to go inside another module or a namespace. – TheQuickBrownFox Jun 12 '17 at 12:57
  • Won't it bring another problem? For example, inside module Computer, there are a type Kernel and a type Userland with the same access level, which is clearly wrong. But I think your answer may be the best case though. – MiP Jun 12 '17 at 13:11
  • @MiP I'm not sure I follow. You can always have another module level if that's necessary to control access to the level required. I think you're better off using this pattern in a way that access control isn't important. E.g. if I make a List then I can put my private data in it. Other code that uses List can't necessarily access that data. – TheQuickBrownFox Jun 12 '17 at 14:10

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