It's common knowledge in the F# community that the PowerPack's quotation compiling facility produces very slow code, so slow in fact that it performs even worse than naive interpretation. I've been looking into the reasons for this, but I haven't been able to find a convincing answer so far. There have been claims that this happens either because of inefficient representation of things like pattern matches in quotations or because of an inherent inefficiency with Expression Trees used by the library. I'd like to illustrate why I think neither is true with a simple example:
#r "FSharp.Powerpack.Linq.dll" open System open System.Linq.Expressions open Microsoft.FSharp.Quotations.Patterns let powerpack = Microsoft.FSharp.Linq.QuotationEvaluator.Compile <@ 1 + 1 @> // explicitly rewrite above quotation with expression trees let expressionTree = let (Call(_,addM,_)) = <@ 1 + 1 @> let constExpr (x : 'T) = Expression.Constant(box x, typeof<'T>) let eval = Expression.Call(addM, constExpr 1, constExpr 1) let lambda = Expression.Lambda<Func<int>>(eval) lambda.Compile() // reflection - based evaluation let reflection = let (Call(_,addM,_)) = <@ 1 + 1 @> fun () -> addM.Invoke(null, [| 1 :> obj ; 1 :> obj |]) :?> int #time // QuotationEvaluator ~ 2.5 secs for i in 1 .. 1000000 do powerpack () |> ignore // native evaluation ~ 1 msec for i in 1 .. 1000000 do (fun () -> 1 + 1) () |> ignore // reflection evaluation ~ 700 msec for i in 1 .. 1000000 do reflection () |> ignore // naive expression tree ~ 19 msec for i in 1 .. 1000000 do expressionTree.Invoke () |> ignore
Something is clearly going wrong here. The question is, what?
EDIT: the same behaviour also occurs with the FSharpx.Linq compiler