I want to add another solution that works with quotations for every union case, based on the one desco provided. Here it goes:
let rec isUnionCase = function
| Lambda (_, expr) | Let (_, _, expr) -> isUnionCase expr
| NewTuple exprs ->
let iucs = List.map isUnionCase exprs
fun value -> List.exists ((|>) value) iucs
| NewUnionCase (uci, _) ->
let utr = FSharpValue.PreComputeUnionTagReader uci.DeclaringType
box >> utr >> (=) uci.Tag
| _ -> failwith "Expression is no union case."
Defined this way, isUnionCase works like desco has shown, but even on union cases that are empty or have more than one value. You can also enter a tuple of comma-separated union cases. Consider this:
type SomeType =
| SomeCase2 of int
| SomeCase3 of int * int
| SomeCase4 of int * int * int
| SomeCase5 of int * int * int * int
let list =
SomeCase3 (2, 3)
SomeCase4 (4, 5, 6)
SomeCase5 (7, 8, 9, 10)
|> List.filter (isUnionCase <@ SomeCase4 @>)
|> printfn "Matching SomeCase4: %A"
|> List.filter (isUnionCase <@ SomeCase3, SomeCase4 @>)
|> printfn "Matching SomeCase3 & SomeCase4: %A"
The first isUnionCase I provided only worked for single case checks. I later added the expression check for NewTuple and thought you might like it. Just make sure that if you alter the code the precomputations still work, this is why
iucs is defined outside of the returned anonymous function.