If I make any mistakes/mistypes in the following code, please don't get irrate, just drop a comment on here and I'll fix immediately - thanks


Re-map Expression<TDelegate> from one EntityA to a EntityB.

I suspect this kind of thing has been done before but I haven't found any particularly useful links so feel free to point me in the right direction.

What I have so far is a selection of classes that combine to allow for mappings to be created between Entity Members on two given classes. As an example, the surface API might have the following signature:

public void AddMemberBinding<TEntityA, TEntityB, TMember>(Func<TEntityA, TMember> entityAMemberSelector, Func<TEntityB, TMember> entityBMemberSelector)
    // does some magic, eventually storing the necessary MemberInfo details required to
    // "remap" MemberExpressions (MemberAccess) from TEntityA to TEntityB

Given the following classes...

public class EntityA
    public long Id { get; set; }
    public string Name { get; set ;}
public class EntityB
    public long MyId { get; set; }
    public string MyName { get; set; }

You would be able to create bindings with something along the lines of...

public static void AddBindings()
    AddMemberBinding((EntityA n) => n.Id, (EntityB n) => n.MyId);
    AddMemberBinding((EntityA n) => n.Name, (EntityB n) => n.MyName);

In my case, I have Assembly1 that knows what EntityA is, but does not know EntityB. I have Assembly2 which knows what both EntityA and EntityB are, and is visible to Assembly1. Assembly2 provides a method to Assembly1 which might look as follows:

public static IEnumerable<EntityA> GetData<TResult>(Expression<Func<EntityA, bool>> criteria, Expression<Func<EntityA, TResult>> selector)
    // EntityB's are stored in a database, I could do one of two things here...
    // 1) Return all EntitieB's and then apply criteria and selector through the IEnumerable extensions
    //    this would be sub-optimal - particularly if there are millions of EntityB's!
    // 2) "Transmute" (for lack of a better word) the expressions provided, using the keymappings
    //    specified earlier, to derive expressions that can be passed through to the QueryableProvider
    // ... as you might have guessed, I opted for #2

I'm using a derived version of the ExpressionTree Visitor, with the following overridden methods:

protected override Expression VisitLambda(LambdaExpression lambda)
    Type targetParameterType = lambda.Parameters[0].Type;
    Type targetExpressionType = lambda.Type;
    If (lambda.Parameters.Count = 1 && lambda.Parameters(0).Type == EntityA)
        targetParameterType = EntityB;
        // the `GetResultType` method called gets the TResult type from Func<T, TResult>
        Type targetExpressionResultType = GetResultType(lambda);
        targetExpressionType = gettype(Func<EntityB, targetExpressionResultType>) 
    // this is probably wrong, but maintains the current (last) parameter instance
    // I started doing this after reading about a similar issue to mine found:
    // https://stackoverflow.com/questions/411738/expression-or-the-parameter-item-is-not-in-scope
    this.CurrentLambdaParameters = lambda.Parameters.Select(x => Expression.Parameter(targetParameterType, x.Name));
    Expression body = this.Visit(lambda.Body);
    If (body != lambda.Body)
        return Expression.Lambda(targetExpressionType, body, this.CurrentLambdaParameters);
    return lambda;

protected override Expression VisitMemberAccess(MemberExpression m)
    // at this point I go off and look at key mappings, fetch the mapping required, etc
    // the entity I retrieve has a `TargetMemberInfo` property which is a `MemberInfo` for the
    // member on the target entity - speaks for itself I guess...
    return Expression.MakeMemberAccess(this.CurrentParameters.Single(), myMappingClassThing.TargetMemberInfo);

The Problem

With all that said and done, when I run through the code with a test case, I get the error in the title... I can see it's a parameter issue from the description, but having read about a similiar issue I had hoped I had accounted for the problem in the VisitMemberAccess method by using the parameter I created when modifying the root lambda expression - same instance of ParameterExpression fixed the linked questions problem I think?

It seems I didn't understand that part of the process very well. The question is, where did I go wrong!? What is it I need to do with these ParameterExpressions for them to be ""in scope""?

Thanks in advance for your answers, and if you read this far, kudos to you!!

  • This reminds me of a similar question I had in the past. See if that one helps you. Note: the end result was much more complex to automatically account for several cases, but the core idea is the same. – Jon Sep 7 '11 at 10:43
  • That looks perfect Jon. I'll let you know how I get on shortly. I just wish your question came up in the search when I started mine!! – Smudge202 Sep 7 '11 at 10:49
  • @Jon - it turns out the answer for me was MUCH simpler. My overridden method VisitMemberAccess was not continuing the recursion, instead treating MemberAccess as a leaf. =/ Probably not obvious in my question due to the code omittions. Your question/answer was very useful though, refactoring to use some of your better practices lead me straight to it. Thanks! – Smudge202 Sep 7 '11 at 12:30

Whilst looking over Jon's remarkably similiar question and refactoring to incorporate a couple of his practices I preferred to my own implementation, I stumbled across the answer. I noticed that VisitParameter was never called, the reason for which is that my override of VisitMemberAccess discontinued the recursion through the expression tree.

It should have looked like (using a different overload):

protected override Expression VisitMemberAccess(MemberExpression m) 
    return Expression.MakeMemberAccess(Visit(m.Expression), myMappingClassThing.TargetMemberInfo); 

Combine that with ensuring you don't create multiple instances of the same parameter and everything slots together nicely.

Thanks again to Jon! =)

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