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I defined the active pattern "Expression" as follows:

let (|Expression|_|) expression _ = Some(expression)

Now I'm trying to use it in this way:

match () with
| Expression((totalWidth - wLeft - wRight) / (float model.Columns.Count - 0.5)) cw
    when cw <= wLeft * 4. && cw <= wRight * 4. ->
        cw
| Expression((totalWidth - wLeft) / (float model.Columns.Count - .25)) cw
    when cw <= wLeft * 4. && cw > wRight * 4. ->
        cw
| Expression((totalWidth - wRight) / (float model.Columns.Count - .25)) cw
    when cw > wLeft * 4. && cw <= wRight * 4. ->
        cw
| Expression(totalWidth / float model.Columns.Count) cw
    when cw > wLeft * 4. && cw > wRight * 4. ->
        cw
| _ -> System.InvalidProgramException() |> raise

But this results in "error FS0010: Unexpected symbol '-' in pattern". Is that fixable?

What am I trying to do is to write clearly a solution to the following equation:

max(wl - cw * .25, 0) + max(wr - cw * .25) + cw * columnCount = ActualWidth

where cw is the only variable.

Can you suggest any better way?

share|improve this question
up vote 6 down vote accepted

The langauge of expressions that can be used as arguments for parameterized active patterns is limited in some ways. As far as I can tell, the F# specification doesn't say that explicitly, but the grammar suggests that it must be possible to parse the argument expression as pat-param (page 90):

pat-param :=
    | const
    | long-ident
    | [ pat-param ; ... ; pat-param ]
    | ( pat-param, ..., pat-param )
    | long-ident pat-param
    | pat-param : type
    | <@ expr @>
    | <@@ expr @@>
    | null

So, I think you'll need to write your pattern matching differently. You could turn the expressions into ordinary arguments of the match construct and write something like this:

match 
  (totalWidth - wLeft - wRight) / (float model.Columns.Count - 0.5),
  (totalWidth - wLeft) / (float model.Columns.Count - .25),
  (totalWidth - wRight) / (float model.Columns.Count - .25)
with
| cw1, _, _ when cw1 <= wLeft * 4. && cw1 <= wRight * 4. -> cw1
| _, cw2, _ when cw2 <= wLeft * 4. && cw2 > wRight * 4. -> cw2
| _, _, cw3 when cw3 > wLeft * 4. && cw3 <= wRight * 4. -> cw3
| _ -> totalWidth / float model.Columns.Count

If the pattern used in the expression is always the same, you could also use active pattern like:

let (|Calculate|) w p _ =
  (totalWidth - w) / (float model.Columns.Count - p)

... and then write something like:

let wDif = wLeft - wRight
match () with
| Calculate wDif 0.5 cw -> cw
| Calculate wLeft 0.25 cw -> cw
// .. etc.
share|improve this answer
    
so is it impossible use composite functions as an argument for the active pattern? e.g. we cannot do | MyActive (myfuna>>myfunb) x -> ... we can only do let myfun = myfuna>>myfunb ... | MyActive myfun x -> ... – colinfang Jan 24 '13 at 21:13
    
Yes, I think that's correct - you cannot directly use any complex expressions. – Tomas Petricek Jan 25 '13 at 0:22

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