I have a LambdaExpression which is of type Expression<Func<T, string>>. The design of the code currently does not allow me to keep T which means that I am forced to use the slower DynamicInvoke instead of Invoke.

Since I know the type of T I want to convert the expression so that it accepts a T object, allowing me to use Invoke. How?

Here's a good start

class Program
    class MyClass
        public string MyProperty => "Foo";

    static LambdaExpression GetExpression(Expression<Func<MyClass, object>> expr)
        return expr;

    static void Main(string[] args)
        var e1 = GetExpression(t => t.MyProperty);
        var e2 = Expression.Lambda<Func<object, object>>(e1, e1.Parameters);

        object myClass = new MyClass();
        string s1 = (string)e1.Compile().DynamicInvoke(myClass);
        object s2 = e2.Compile().Invoke(myClass);
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  • Your question does not match your title. Are you looking to convert Func<T, U> to Func<object, object>, to convert Func<T, object> to Func<object, object>, or to convert Expression<Func<T, object>> to Expression<Func<object, object>>? All three have different answers. – user743382 Apr 13 '17 at 8:35
  • I can write some code to solve this... Only a problem... Do you want to use these expressions for Entity Framework/LINQ to SQL or do you want to simply compile those expressions? Because changing the Expressions to make them Func<object, object> could make them incompatible with EF. – xanatos Apr 13 '17 at 8:58
  • Updated the question. In the end I want to compile the expression to be used as a typed delegate, so that I can use Invoke() instead of DynamicInvoke(). I believe Expression.Convert is needed in some way. – l33t Apr 13 '17 at 9:02

The non-expression version would look like

Func<object, object> Convert<T>(Func<T, object> f) {
  return o => f((T)o);

This is what you need to do in the expression version as well. You're right, Expression.Convert can do that.

Expression<Func<MyClass, object>> e1 = t => t.MyProperty;
var p = Expression.Parameter(typeof(object));
var e2 = Expression.Lambda<Func<object, object>>(
    Expression.Invoke(e1, Expression.Convert(p, typeof(MyClass))), p);

Note: as @xanatos rightly notes, for converting e.g. Expression<Func<T, int>> to Expression<Func<object, object>>, although C# supports an implicit boxing conversion from int to object, expression trees don't. If this is relevant to the question, another Expression.Convert is needed.

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  • Saved my day. Thanks! – l33t Apr 13 '17 at 9:14
  • @hvd I would add another Expression.Convert to object externally to the Expression.Invoke, in the case you have a value type (they aren't implicitly boxed) – xanatos Apr 13 '17 at 9:15
  • @xanatos For Expression<Func<T, U>> to Expression<Func<object, object>>, that could indeed be necessary For Expression<Func<T, object>> to Expression<Func<object, object>>, it's not. I thought the Expression<Func<T, U>> had been edited out and is not relevant to the question, but I see now it hasn't been edited out. You may be right. – user743382 Apr 13 '17 at 9:19
  • @hvd Exactly my thoughts. – xanatos Apr 13 '17 at 9:19

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