Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Alright... this question is more or less related to one I've asked earlier today (F# - "Not a valid property expression"), which @Tomas Petricek answer perfectly - however it seems my lack of knowledge and the DLR, requires me to ask once again (been trying for quite a while to mix something up without luck at all).

I'm having this function (stolen from the example Tomas gave in the previous thread):

let hasSeq (e:Expr<'a -> seq<'b>>) =
  match e with
  | Patterns.Lambda(v, Patterns.PropertyGet(Some instance, propInfo, [])) ->
      printfn "Get property %s of %A" propInfo.Name instance
      // TODO: Use 'Expr.Lambda' & 'Expr.PropGet' to construct
      // an expression tree in the expected format
  | _ -> failwith "Not a lambda!"

How would I reconstruct the expression tree with Expr.Lambda and Expr.PropGet? - I need to make the seq<'b> to ICollection<'b> instead, so that the expression in the end is like: 'a -> ICollection<'b>

share|improve this question
    
You should also add that you don't want to get the same quotation as the result of reconstruction. You need a different one (as pointed out in your earlier question that is also related stackoverflow.com/questions/5759332/…). –  Tomas Petricek Apr 25 '11 at 20:50
add comment

2 Answers

Well, if you've already decomposed quotation, then maybe you can create required expression tree by yourself without ToLinqExpression from PowerPack?

type A = 
    member this.Values : int[] = failwith "" 

open Microsoft.FSharp.Quotations

type F<'T, 'R> = System.Func<'T, 'R>
type E = System.Linq.Expressions.Expression
type IC<'T> = System.Collections.Generic.ICollection<'T> 

let toLinqPropGet (e : Expr<'T -> #seq<'R>>) = 
    match e with
    | Patterns.Lambda(_, Patterns.PropertyGet(Some _, pi, [])) 
          when typeof<IC<'R>>.IsAssignableFrom(pi.PropertyType) ->
        let p = E.Parameter(typeof<'T>)
        let propGet = E.Property(p :> E, pi)
        E.Lambda<F<'T, IC<'R>>>(propGet, p) :> E
    | _ -> failwith "PropGet expected"

let r = toLinqPropGet <@ fun (x : A) -> x.Values @>        
printfn "%A" r    
share|improve this answer
    
@desco, forgive my stupidness - the toLinqPropGet will return E and what I need is Expr<'a -> ICollection<'b>>, can I achieve that somehow with your code? –  ebb Apr 25 '11 at 20:47
    
@desco: This is a part of a longer series of questions by the OP. I suggested using ToLinqExpression earlier. If I understand him correctly, he wants to build a different quotation tree (so I suggested transforming the quotation and then transforming that to LINQ expression trees). However, I'm not quite sure what quotation he wants to get. –  Tomas Petricek Apr 25 '11 at 20:52
    
@Tomas, I want to rebuild the expression so that I dont need to cast Expr<'a -> seq<'b>> in order to transform it to Expr<'a -> ICollection<'b>>, because that would mess up the ToLinq function since UnboxGeneric will be added when casted. So in short: I need to rebuild the expression and avoid including the UnboxGeneric (not sure whether that made any sense... I'm having a hard time to explain). –  ebb Apr 25 '11 at 20:57
    
@ebb That's not possible. See my answer. –  Tomas Petricek Apr 25 '11 at 20:59
    
(Or maybe I recommended using ToLinqExpression in some other question - getting a bit confused!) –  Tomas Petricek Apr 25 '11 at 21:07
show 3 more comments

This isn't going to work.

You want to build a quotation of type Entity -> ICollection<Something> and you have a quotation of type Entity -> seq<Something>. However, entity framework only supports simple lambda functions that get some property (e.g. x => x.SomeProperty).

If your Entity has only a property Foo of type seq<Something>, then there is no way you could build a quotation with the required structure (lambda that just gets a property) and of the required type (Entity -> ICollection<Something>), because the type of the property doesn't match!

What I suggested earlier is to change the entity to also have a property FooInternal of the right type (ICollection<Something>). Then you could build a quotation x => x.FooInternal, which would work fine with entity framework.

Perhaps you could give more details about what you're actually trying to achieve? We can try to help with technical details, but it seems that you may need to adjust your design a bit (to actually work with the ICollection type as required by EF).

share|improve this answer
    
@Tomas Petricek, The actually reason for not using Expr<'a -> ICollection<'b>> as parameter instead of Expr<'a -> seq<'b>> is that I'm trying to make it possible for users to use sequences instead of ICollections, since ICollections isnt very... how should I explain it.. well most people who use f# arent gonna use ICollections at any point, and therefore I thought it would be a good idea to make up functions that took expressions with seq<'b>, 'b list and array<'b>, which would make the process more "natural" for the user... But it seems to be a bit harder than I thought. –  ebb Apr 25 '11 at 21:03
2  
@ebb I see your motivation, using sequences would be nicer. However, Entity Framework obviously requires using ICollection and there is not much you could do about that. Unless you wanted to have both Foo : seq<T> (for user) and FooInternal : ICollection<T> (for EF methods). Then you could build expression tree that uses the other property. –  Tomas Petricek Apr 25 '11 at 21:09
    
@Tomas Petricek, Oh god... I would wish I knew this stuff a bit more so I didnt had to ask all the time, but here it goes: How would you build an expression tree that uses another property? –  ebb Apr 25 '11 at 21:18
    
@ebb Find the property using propInfo and .NET reflection and then write something like Expr.Lambda(v, Expr.PropertyGet(instance, newlyFoundPropInfo)) –  Tomas Petricek Apr 25 '11 at 22:12
    
@ebb Alternatively, you can do what @desco suggests in his answer (to use standard .NET methods that construct C# expression tree directly - there should be plenty of information about that on the internet). –  Tomas Petricek Apr 25 '11 at 22:17
show 1 more comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.