Here's what can be done in C# -

var two = 2;
System.Linq.Expressions.Expression<System.Func<int, int>> expr = x => x * two;
expr.Compile().Invoke(4); // returns 8

I wish to do the precise equivalent in F#. Here's what I tried, but did not compile -

let two = 2
let expr = (fun x -> x * two) : System.Linq.Expressions.Expression<System.Func<int, int>>
expr.Compile().Invoke(4) // desired to return 8

Perhaps predictably, compilation fails on line 2 with the following error -

"This function takes too many arguments, or is used in a context where a function is not expected."
let expr = (fun x -> x * two) : System.Linq.Expressions.Expression<System.Func<int, int>>
up vote 17 down vote accepted

I'm not sure why you want to avoid using F# quotations - under the cover, they are pretty much the same thing as C# expression trees and if you want to create an expression tree in F#, the compiler will be using quotations under the cover in any case...

Anyway, you can do this without writing explicit <@ .. @> because the compiler can automatically quote a function when it is passed as an argument to a method. So you can do:

type Expr = 
  static member Quote(e:Expression<System.Func<int, int>>) = e

let two = 2
let expr = Expr.Quote(fun x -> x * two) 
expr.Compile().Invoke(4) // desired to return 8

EDIT: However, this really compiles to an F# quotation wrapped in a call that converts it to C# expression tree. So, in the end, you'll get the same thing as if you wrote:

open Microsoft.FSharp.Linq.RuntimeHelpers

let two = 2
let expr = 
  <@ System.Func<_, _>(fun x -> x * two) @>
  |> LeafExpressionConverter.QuotationToExpression 
  |> unbox<Expression<Func<int, int>>>
expr.Compile().Invoke(4) // desired to return 8
  • Thank you for your answer! It's nice, though it seems a tiny, tiny bit work-aroundy :) However, to answer your question - I wanted to avoid code quotations because, AFAIK, they do not allow capturing variables from the lexical environment (such as the two variable). Please correct me however if that is wrong, though! – Bryan Edds Apr 18 '14 at 2:53
  • 1
    It behaves the same in both cases. Local let bound variables are not captured by the quotation - it will include just the value of the variable. Public variables exposed by a module will be captured as a reference (to a property getter). – Tomas Petricek Apr 18 '14 at 2:57
  • Follow up to your edit - so will this not work predictably if the expression tree itself mutates references pulled from its surrounding context? Some of the lambdas I intend to use this with could be mutating the wider program state. – Bryan Edds Apr 18 '14 at 2:58
  • Well, this is not allowed for mutable variables - for example the following gives an error let mutable two = 2 in <@ two <- 10 @> – Tomas Petricek Apr 18 '14 at 2:59
  • 2
    1) F# quotations cannot be invoked directly - so you'll have to convert it to C# expression tree and invoke that. 2) It will be slower than ordinary F#, because the conversion to expression tree adds some overhead. I do not know how much exactly - have not done any measurements. 3) Not sure - depends on whether C# expression eval is available there. – Tomas Petricek Apr 18 '14 at 3:48

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