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Consider the following Expression:

class A {
    int x;
    public void Method(int y) {
        Expression<Func<bool>> expr=() => x == y;

Here, the expression involves an automatically created closure for y, and a reference to this of type A for the (implicit) this.x. Both will be represented as a MemberExpression on a ConstantExpression in the expression tree. Given an expression such as expr or a more complicated expression with a this reference and/or a closure, I want identify that a particular ConstantExpression is actually "this" or an implicitly constructed closure to be able to regenerate C# from an expression tree (ExpressionToCode).

I built a "solution" using some heuristics since there doesn't seem to be a perfect solution.

  • Closures and this in lambda's are always in ConstantExpressions.
  • Closures and this are never null.
  • Both are classes, not value types - you cannot capture a reference to this from a struct. That's quite fortunate, because telling default(StructType).Method() from this.Method() would otherwise be impossible whenever this == default(StructType).
  • Builtin types (string, Enums, decimal, Type, all primitives) are actually real constants, not this or a closure
  • Closures and Anonymous types start with < and are annotated with CompilerGeneratedAttribute
    • Closure names contain the string DisplayClass, anonymous types contain AnonymousType
    • Anonymous types are generic, closures are not.
    • Closures are nested classes, anonymous types are not.
  • this must be a normal type: not CompilerGenerated and does not start with <

Are the above heuristics sufficient to distinguish between real constants, this, closures and anonymous types? I.e. are there cases where these heuristics fail, or am I missing any? Is this likely to break in future .NET versions?

Edit: I first asked this question in an open-ended fashion, without result; I rewrote the question to include what I've come up so far. Any suggestions much appreciated - the bounty's expiring tomorrow, any idea at all is welcome...

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Are you sure your assumption is correct? In my opinion (i'm not an expert ;)), the x in the expression could just be a 'reference' to a int without any knowledge of the A (and no way to find about an A from the expression) –  Guillaume86 Jan 20 '11 at 19:57
ok i'm wrong it's possible with expression trees (and it's obvious ^^) –  Guillaume86 Jan 20 '11 at 20:11
I'm sure it's possible to get close to an answer. I'm not sure it's possible - I've added my current thoughts on the matter, which are that you'll need to detect and differentiate between compiler generated types, real constants, and user types - and note that the compiler also generates anonymous types that aren't for closures. –  Eamon Nerbonne Jan 21 '11 at 11:10
Anonymous types use properties, closures use fields: that might be a path to differentiate those two, anyhow. –  Eamon Nerbonne Jan 21 '11 at 11:13

1 Answer 1

Ok, I manage to find about the A Type from the expression:

class Program
    class A
        int x;
        public Expression<Func<bool>> Method(int y)
            Expression<Func<bool>> expr = () => x == y;
            return expr;

    static void Main(string[] args)
        var expr = new A().Method(10);

        dynamic body = expr.Body;

        A instance = body.Left.Expression.Value;



The dynamic is just to go fast.

edit 2: got it

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What you're doing here works in this precise example - but it won't work in general. I bolded the relevant part of the question concerning the fact that it's an arbitrary expression, and added a clarifying bit as to the why's and how's that this might be achieved - thanks for looking! –  Eamon Nerbonne Jan 21 '11 at 10:53
i'm afraid what you want to do is impossible, from the expression point of view, there's no difference between an 'implicit' closure and a 'explicit' one... –  Guillaume86 Jan 21 '11 at 14:40
What do you mean - explicit closure? Closures are always implicit; and AFAIK they generate classes with DisplayClass in the name - at least that's part of the heuristic I'm using so far. –  Eamon Nerbonne Jan 23 '11 at 0:15
I was thinking closures with 'this' in opposition with closures with any other local object. –  Guillaume86 Jan 24 '11 at 14:11
Ah, well, closures are actually implemented as independent objects to this. So local variables and the like get hoisted to closure objects, but class variables are simply referenced using this - it's not that this is a field or property of the closure, but simply an independent object in a ConstantExpression. That's also why closures are nested, probably: they need to be able to access private members of the surrounding class. –  Eamon Nerbonne Jan 24 '11 at 21:48

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