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Using the code below I'm trying to get the override correct for BindConverter to allow casting to the interface T

class DynamicProxy<T> : DynamicObject
{
    private T t;
    public DynamicProxy(T t)
    {
        this.t = t;
    }
    public override DynamicMetaObject GetMetaObject(Expression parameter)
    {
        return new DynamicProxyMetaObject(parameter, this);
    }
    class DynamicProxyMetaObject : DynamicMetaObject
    {
        public DynamicProxyMetaObject(Expression expression, DynamicObject value)
            : base(expression, BindingRestrictions.Empty, (object)value)
        {                
        }
        public override DynamicMetaObject BindConvert(ConvertBinder binder)
        {
            return base.BindConvert(binder);
        }
    }
}
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I suspect you can't do this - based on the fact that custom conversions to interface types aren't permitted anyway. I could be wrong though - and the code generated when casting a dynamic value to an interface definitely does use the normal dynamic conversion route. What happens with the code you've tried? –  Jon Skeet Mar 13 '13 at 9:17
    
This article seems to appear to allude it might be possible but I have to admit it goes much deeper into dynamic that I wanted. I just wanted to use a simple DynamicObject. msdn.microsoft.com/en-us/vstudio/ff800651.aspx –  Aaron Stainback Mar 13 '13 at 9:22
    
@Jon Skeet, I've never implemented a BindConvert override so I don't have any idea how one would go about customizing this. The code above is as far as I got. –  Aaron Stainback Mar 13 '13 at 9:32
1  
Ah, okay. I'd assumed you really wanted to use the meta object... there may be a simpler option. –  Jon Skeet Mar 13 '13 at 9:46
1  
As per your comment on my question a moment ago @AaronStainback, I'll put together an example implementation for you. –  Andras Zoltan Mar 13 '13 at 9:48
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1 Answer

Here's a working implementation of BindConvert:

public override DynamicMetaObject BindConvert(ConvertBinder binder)
{
    BindingRestrictions restrictions 
        = BindingRestrictions.GetTypeRestriction(Expression, LimitType);
    //if the type requested is compatible with the 
    //instance, there's no conversion to be done.
    if (binder.Type.IsAssignableFrom(LimitType))
        return binder.FallbackConvert(
            new DynamicMetaObject(Expression, restrictions, Value));

    if (LimitType.IsGenericType && 
        LimitType.GetGenericTypeDefinition().Equals(typeof(DynamicProxy<>)))
    {
        //get the type parameter for T
        Type proxiedType = LimitType.GetGenericArguments()[0];
        //now check that the proxied type is compatible 
        //with the desired conversion type
        if(binder.ReturnType.IsAssignableFrom(proxiedType))
        {
            //this FieldInfo lookup can be cached by 
            //proxiedType in a static ConcurrentDictionary
            //to cache the reflection for future use
            FieldInfo tField = LimitType.GetField("t", 
                BindingFlags.Instance | BindingFlags.NonPublic);
            //return a field expression that retrieves the 
            //private 't' field of the DynamicProxy
            //note that we also have to convert 'Expression'
            //to the proxy type - which we've already ascertained
            //is the LimitType for this dynamic operation.
            var fieldExpr = Expression.Field(
                Expression.Convert(Expression, LimitType), tField);
            //but because we're allowing bases or interfaces of 'T',
            //it's a good idea to chuck in a 'Convert'
            return new DynamicMetaObject(
                Expression.Convert(fieldExpr, binder.ReturnType),
                restrictions);
        }
    }

    return base.BindConvert(binder);
}

And here's a test:

[TestMethod]
public void TestConvert()
{
    List<string> myList = new List<string>() { "Hello", "World" };
    //proxy a List<string>
    DynamicProxy<List<string>> proxy1 =
        new DynamicProxy<List<string>>(myList);

    dynamic proxyDynamic = proxy1;
    //dynamic 'cast' to List<string> (the actual 'T')
    //should return same instance, because the conversion
    //simply gets the private 't' field.
    List<string> fromDynamic1 = (List<string>)proxyDynamic;
    Assert.AreSame(myList, fromDynamic1);
    //dynamic 'cast' to a base or interface of T
    //In this case, IEnumerable<string>
    IEnumerable<string> fromDynamic2 = (IEnumerable<string>)proxyDynamic;
    Assert.AreSame(myList, fromDynamic2);
}

And a test for exactly what you've asked for - i.e. where T is an interface - also works just as well:

[TestMethod]
public void TestConvert2()
{
  List<string> myList = new List<string>() { "Hello", "World" };
  DynamicProxy<IEnumerable<string>> proxy =
    new DynamicProxy<IEnumerable<string>>(myList);

  dynamic proxyDynamic = proxy;
  var fromDynamic = (IEnumerable<string>)proxyDynamic;
  Assert.AreSame(myList, fromDynamic);      
}

As the tests show, you not only get a dynamic cast to T, but also to any base or interface of T. However, note that the implementation first does a check to see if the target type is a base/interface of the DynamicProxy<T> - so a dynamic cast to object (although why you'd do that I don't know) will actually return the proxy instance. You can disable that behaviour by getting rid of the first if statement after the first line of BindConvert.

The use of LimitType in the BindConvert method is crucial, as it gives you the runtime type of the object hiding behind the dynamic expression. The Expression property of the meta object will typically only have a type of Object - which is no good for fishing into the object and calling methods or reading properties/fields, which is what we need to do to support dynamic casting.

So, using LimitType enables us to peer inside actual DynamicProxy<T> instance, getting both it's T but also access to the instance field t (it's private, but the expression compiler can cope with that). After confirming that the desired target type of the conversion is compatible with the T of the DynamicProxy<T>, we emit an expression that reads that field and returns the object as the result of the conversion.

Incidentally - in the second test we can't currently do a dynamic cast to List<string>, even though the proxied object we pass in is List<string> - because that would require a slight change to the initial type-checking logic, and then introspection on the instance stored in the field 't' to check that it's actual type is compatible with the requested conversion type. I haven't done the implementation that way because I think it's much less likely that you'd want to do that.

share|improve this answer
    
Thanks so much for your comments they have helped my understanding of dynamic a lot but this is not quite what I'm looking for. When I cast to type of (Interface) and then I make calls to that interface I'm wanting to still go through the proxy for those calls and not the underlying type. I don't want the cast to return the private t. I want the cast to return the actual DynamicObject. –  Aaron Stainback Mar 14 '13 at 2:56
    
Ah... You're going to need to do some IL emit stuff then to generate a class in memory at runtime - C# and .Net in general doesn't allow dynamic implementation of interfaces or bases for that matter (I believe there are one or two languages built on the runtime that do - but they do a lot of work at runtime). I think you might be better off looking at Castle's DynamicProxy –  Andras Zoltan Mar 14 '13 at 7:49
    
I'm trying to find an alternative to Castle's DynamicProxy that is easy and somewhat efficient, easy being the big part. –  Aaron Stainback Mar 14 '13 at 7:57
    
Yeah I can understand - but unfortunately there's no way around runtime IL emit - and it's not trivial to do either. I wrote a library that dynamic implemented bases/abstracts/interfaces (you could dynamically build implementations from other types and static methods, add cross-cutting, argument inspection and auto exception handling) and it was quite a bit of work! It was also not easy to use either :( ! –  Andras Zoltan Mar 14 '13 at 9:00
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