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let inline f< ^T when ^T : (static member (<<<) : ^T * int -> ^T) > (x : ^T) = x <<< 1

Does not compile:

let inline f< ^T when ^T : (static member (>>>) : ^T * int -> ^T) > (x : ^T) = x >>> 1


  1. Attempted to parse this as an operator name, but failed
  2. Unexpected symbol '>' in member signature. Expected ')' or other token.
  3. A type parameter is missing a constraint 'when ^T : (static member ( >>> ) : ^T * int32 -> ^T)'

Adding spaces doesn't help; this line yields the same compiler errors:

let inline f< ^T when ^T : (static member ( >>> ) : ^T * int -> ^T) > (x : ^T) = x >>> 1

I've searched both the documentation and the specification, to no avail. Is this a bug? Is there some way to include the > characters in the member signature?

share|improve this question
Looks like a bug to me... – kvb Feb 20 '13 at 21:28
up vote 8 down vote accepted

Sure looks like a bug. It's ugly, but one workaround is to use the long form of the operator name:

let inline f< ^T when ^T : (static member op_RightShift : ^T * int -> ^T)> (x : ^T) =
    x >>> 1
share|improve this answer
Ah, thanks. I thought I had tried that without success, but obviously there was something else wrong, because this works just fine. – phoog Feb 21 '13 at 21:46
@phoog - you might have used op_GreaterGreaterGreater instead, which can't actually be used symbolicly. – kvb Feb 21 '13 at 21:54
No, I definitely used op_RightShift, and the compiler seemed not to recognize >>> with that constraint. Maybe I typed op_LeftShift instead of op_RightShift, though, or something else was wrong. – phoog Feb 21 '13 at 22:34

Do you even need an explicit constraint? This works just as well:

let inline f (x: ^T) : ^T = x >>> 1
share|improve this answer
Yes, thanks for your answer; I forgot to include that in the question. It was actually in an earlier, much longer version of the question, but I decided in favor of brevity before posting. I did have a reason to use the explicit constraint. I don't remember what it was, exactly; in the end I decided to solve my problem entirely differently. The problem was to write code to generically decompose either IEEE single or IEEE double into sign, exponent, and mantissa parts; for now I'm just using a type alias that I can change as needed. I may return to the generic approach later. – phoog Feb 21 '13 at 21:52

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