I'm interested in using/overloading the "range step" operator (.. ..), but I can't for the life of me find out how to use it.

In the documentation it says

``````// Usage:
start .. step .. finish
``````

but trying that in the F# shell gives errors:

``````> let x = 1 .. 2 .. 7;;

let x = 1 .. 2 .. 7;;
----------^^

stdin(54,11): error FS0010: Unexpected symbol '..' in binding. Expected incomplete structured construct at or before this point or other token.
``````

However, calling it "explicitly" is possible:

``````> let x = (.. ..) 1 2 7;;

val x : seq<int>
``````

Is it only possible to use this operator for list/seq construction such as `[1..2..7]` and `seq {1..2..7}`?

-

The spec § 6.3.12 isn't explicit about it, but the only examples given are within sequence expressions. That, along with the fact that nothing else works, seems to confirm your conclusion.

FYI - Here are the relevant docs for the range operators.

Section 3.8.2 also mentions special handling of `(.. ..)`, so it's safe to assume it's subject to limitations/behavior apart from those of typical functions/operators.

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Marking this as the accepted answer since it was the fastest and all others didn't add more relevant information. Seems that `(.. ..)` can only live within `seq {...}`. -- Thanks for reading the spec for me ;-) –  uhrm Jan 14 '12 at 14:10

The uses of this operator are covered by section 6.3.12 of the spec (Range Expressions). The built-in `(.. ..)` operator works on any type with appropriate `(+)` and `Zero` members, but you can redefine it to do something else (note that this example is nonsensical):

``````let (.. ..) x y z =
Seq.map (fun (s:string) -> s.[z] + y) x

let result = seq { ["test"; "func"] .. (char 1) .. 2 } // contains 't' 'o'
``````
-

Overriding (.. ..) operator

If you redefine `(.. ..)` operator as in @kvb's answer, it will override that operator of any type. Since you probably want to make `(.. ..)` operator work for a custom datatype, overriding static `(+)` and `One` members is enough. For example, here's a custom numeric type for modular arithmetic taken from @Tomas's blog:

``````  type IntegerZ5 =
| Z5 of int
member z.ToInt32() =
let (Z5 n) = z in n
override z.ToString() =
sprintf "%d (mod 5)" (z.ToInt32())

static member Create(n) =
let z5 = n % 5
Z5(max ((z5 + 5) % 5) z5)
static member (+) (Z5 a, Z5 b) = IntegerZ5.Create(a + b)
static member (-) (Z5 a, Z5 b) = IntegerZ5.Create(a - b)
static member (*) (Z5 a, Z5 b) = IntegerZ5.Create(a * b)
static member Zero = Z5 0
static member One  = Z5 1

let inline z5 a = IntegerZ5.Create(a)
``````

While constructing a range starting from the lower bound, `(+)` and `One` are used to find the next element. The construction finishes when the next element equals to or exceeds the range's upper bound. Now you can employ `IntegerZ5` in any range expression:

``````  let s1 = seq{z5 37..z5 3};; // seq [Z5 2; Z5 3]
let s2 = seq{z5 10..z5 22..z5 4};; // seq [Z5 0; Z5 2; Z5 4]
``````

Using (.. ..) operator

Another use of range expression is in `for` loops. I find it helpful in many cases:

``````let sum =
let mutable s = 0L
for i in 1L..1000L do (* or 1L..1L..1000L with an explicit step *)
s <- s + i
s
``````

because it is more flexible than `for...to..do` which is restricted to `int` only and implies a range with a step of `1`:

``````let sum =
let mutable s = 0L
for i = 1L to 1000L do (* doesn't work *)
s <- s + i
s
``````
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That's a nice use, especially since, according to the spec, it's translated into a simple for loop in many cases. –  Daniel Jan 13 '12 at 16:00
...and it works for range expressions with explicit step not equal to 1 as well, like in `for i in 1I..2I..100I do printf "%A " i` –  Gene Belitski Jan 13 '12 at 17:02
Sure it does. That's why I said it's more flexible. –  pad Jan 13 '12 at 17:39