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I have a issue to define the Type in my code. Let's start from Abc.

public partial class Abc {
    public static String AbcName="wtf";

    public String Name {
        get;
        set;
    }
}

Okay, Abc is done. It's a class for test afterwards. And I have the requirment to return objects or types with a instance of MyClass, here it is

    public partial class MyClass {
        public const BindingFlags
            Universal=BindingFlags.NonPublic|BindingFlags.Public,
            WithObject=Universal|BindingFlags.Instance,
            WithClass=WithObject|BindingFlags.Static,
            ForGive=Universal|BindingFlags.SetProperty|BindingFlags.SetField,
            ForGet=Universal|BindingFlags.GetProperty|BindingFlags.GetField,
            ForDo=BindingFlags.InvokeMethod|WithObject|WithClass;

        public MyClass GetTypeImpl() {
            if(null!=target)
#if TARGET_AS_TYPE
                return new MyClass(target as Type??target.GetType());
#else
                return new MyClass(target.GetType());
#endif
            else
                return new MyClass(typeof(object));
        }

        public object GetValue(String name) {
            var invokeAttr=ForGet|WithClass;
            var type=(Type)this.GetTypeImpl().target;
            return type.InvokeMember(name, invokeAttr, default(Binder), target, default(object[]));
        }

        public MyClass(object x) {
            this.target=x;
        }

        public object target;
    }

Notice that the code is for representing of my class. GetValue in real code is called internally, and consuming code will never get a object other than the type of MyClass. That is, in the real code, every method in MyClass is actually return a instance of MyClass. Here we see the conditional compilation, with TARGET_AS_TYPE, that is the point of this question.

Consider the following test code

    public partial class TestClass {
        public static void TestMethod() {
            var abc=
                new Abc {
                    Name="xyz"
                };

            var x=new MyClass(abc);
            var abcName=x.GetValue("Name");
            var y=new MyClass(x.GetTypeImpl().target);

#if TARGET_AS_TYPE
            var wtf=y.GetValue("AbcName");
            var fullName=y.GetValue("FullName"); // exception thrown
#else
            var fullName=y.GetValue("FullName"); 
            var wtf=y.GetValue("AbcName"); // exception thrown
#endif
        }
    }

Whether we define TARGET_AS_TYPE or not, the test always throws exception with the second line with #if or #elseif block. I think it is because of the Type or RuntimeType, but I cannot define it. So, how to correct it(in GetTypeImpl) and let it always work without conditional compilation?

Following ways are restricted or I've done with no effect.

  • use of BindingFlags.FlattenHierarchy - not working
  • declaration of generic MyClass<T> - not working
  • don't warp types or objects with instance of MyClass - you must be kidding me ...
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closed as too localized by horgh, brian d foy, John Koerner, PKM97693321, Ken Kin Jan 29 '13 at 4:15

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@KenKin: Doh! So it is - thx :) –  500 - Internal Server Error Jan 28 '13 at 23:49
2  
An exception is thrown there, because y represents the Type object, which does not contain AbcName. To access it you should use x probably. However try to think what line var y=new MyClass(x.GetTypeImpl().target); does...at the very least it creates an unnecessary instance of MyClass within GetTypeImpl method...while y in the end appears to be a MyClass wrapper around MyClass which is a wrapper around the Type object. –  horgh Jan 28 '13 at 23:53
    
may help to post the exception being thrown. –  Sorceri Jan 28 '13 at 23:54
    
Is GetValue supposed to return the value of a property of the wrapped object or the wrapped object's type? You're using it for both in your example ("AbcName" is on Abc and "FullName" is on Type)... –  Patrick Quirk Jan 28 '13 at 23:54
    
You are specifying the target in InvokeMember even if you are trying to retrieve static field value. I think that this makes a problem and that you must pass null in that situation! –  Dusan Jan 28 '13 at 23:59

1 Answer 1

up vote 3 down vote accepted

Consider the following code:

Abc a = new Abc { Name = "a" };

Type t = a.GetType();

BindingFlags staticField = BindingFlags.Static | 
                           BindingFlags.Public | 
                           BindingFlags.GetField;
BindingFlags instanceProperty = BindingFlags.Instance | 
                                BindingFlags.Public | 
                                BindingFlags.GetProperty;

//prints a
t.InvokeMember("Name", instanceProperty, default(Binder), a, null);
//prints wtf
t.InvokeMember("AbcName", staticField, default(Binder), a, null);
//throws an exception as there is no member FullName in MyClass
t.InvokeMember("FullName", instanceProperty, default(Binder), a, null);

Type tt = t.GetType();
//prints t.FullName, that is YourNamespace.Abc
tt.InvokeMember("FullName", instanceProperty, default(Binder), t, null);

It shows the problem, that you IMO have. You cannot access members of class Type through an object of type Type describing class MyClass via reflection, as MyClass does not have those members.

You need to use the Type object describing class Type (i.e. a.GetType().GetType()) to access its members (FullName here) through reflection and pass an object of type Type describing class MyClass to InvokeMember.


Based on comments, I'd like to post the same example over an object of type System.Object:

object o = new object();
Type ot = o.GetType();

BindingFlags instanceMethod = BindingFlags.Instance | 
                                BindingFlags.Public | 
                                BindingFlags.InvokeMethod;

//prints System.Object
ot.InvokeMember("ToString", instanceMethod, default(Binder), o, null);
//throws an exception, 
//as there is obviously also no FullName in class System.Object
ot.InvokeMember("FullName", instanceProperty, default(Binder), o, null);
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2  
@KenKin There isn't any way to, I guess. MyClass and Type are two separate objects, so they have absolutely separate Type objects describing them. You cannot union these two infos into one object. Except, probably searching for all the members within a.GetType() and if nothing has been found, search for the member in a.GetType().GetType(). –  horgh Jan 29 '13 at 0:33
1  
@KenKin it's just absolutely the same with System.Object. –  horgh Jan 29 '13 at 0:42

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