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Why is disabled types like

type t = A of int | B of string * mutable int

while such types are allowed:

type t = A of int | B of string * int ref
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2 Answers 2

up vote 7 down vote accepted

The question is, how would you modify the value of a mutable element of discriminated union case? For ref types, this is quite easy, because ref is a reference cell (a record actually) which contains the mutable value:

match tval with
| B(str, refNum) -> refNum := 4

We extract the reference cell and assign it to a new symbol (or a new variable) refNum. Then we modify the value inside the ref cell, which also modifies tval, because the two references to the cell (from discriminated union case and from refNum variable) are aliased.

On the other hand, when you write let mutable n = 0, you're creating a variable, which can be directly mutated, but there is no cell holding the mutable value - the variable n is directly mutable. This shows the difference:

let mutable a = 10
let mutable b = a
b <- 5   // a = 10, b = 5

let a = ref 10
let b = a
b := 5   // a = 5, b = 5 (because of aliasing!)

So, to answer your question - there is no way to directly refer to the value stored inside the discriminated union case. You can only extract it using pattern matching, but that copies the value to a new variable. This means that there isn't any way you could modify the mutable value.

EDIT To demonstrate limitations of mutable values in F#, here is one more example - you cannot capture mutable values inside a closure:

let foo() = 
  let mutable n = 0
  (fun () -> n <- n + 1; n) // error FS0407

I think the reason is same as with discriminated union cases (even though it's not as obvious in this case). The compiler needs to copy the variable - it is stored as a local variable and as a field in the generated closure. And when copying, you want to modify the same variable from multiple references, so aliasing semantics is the only reasonable thing to do...

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By creating variable typed as discriminated union as record we already holding some memory cells, isn't it? I suppose, by using pattern matching we create yet another binding to existing memory cell, nor creating new direcly mutable variable, isn't? On other side, your arguments seems reasonable, but Leroy while described ZINC shows such syntax is possible. –  ssp Feb 8 '10 at 14:40
    
I checked ZINC and it really uses mutable inside discriminated unions. Though it's not clear to me whether it follows the aliasing semantics or whether you can change the value only via the symbol bound in pattern matching (if that's the case, it seems a bit inconsistent to me - because pattern matching already copied the value from union case to a symbol...) –  Tomas Petricek Feb 9 '10 at 12:22
    
As far as i understend ZINC's code Leroy just bind an name used into pattern matching to the label of DU or record's member (and the label is just index into table of offsets to DU member). So, in case F# compiler creates local copy of DU member it's really impossible. Thank you very much! –  ssp Feb 9 '10 at 14:42
    
Tomas, Hi! I do really apologize, but could you check the case with closure in the latest version of F# or FSI. I did really write a program, which mutated a variable inside a closure. Then, as far as I can remember it was even mutated in the parent scope. I guess F# uses the same preprocessor trick as C# does moving enclosed symbols from stack to heap - you could google for "What's in closures" (I don't actually remember, cuz I'm on work now and don't even have VS2008/10 here. Eclipse only :)) –  Bubba88 May 25 '10 at 13:49
    
@Tomas: Here's the link I wrote about: <diditwith.net/2007/02/09/WhatsInAClosure.aspx>; –  Bubba88 May 25 '10 at 13:51

Ref is a type (int ref = ref<int>). Mutable is not a type, it's a keyword that allows you to update a value.

Example:

let (bla:ref<int>) = ref 0 //yup
let (bla:mutable<int>) = 3 //no!
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Your example just shows there isn't such type as mutable. Yes, i agree: mutable is just mark to compiler to use some syntax sugar. I can imagine why that mark not allowed to be included to environment and so we can't use mutable variables with closures. IMHO, by creating variable typed as discriminated union as record we already eat some memory cells (f.e. ref is no more then {mutable 'a val}). So why discriminated union can't hold mutable? –  ssp Feb 8 '10 at 14:18

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