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I have a bunch of classes that all contain a Shared ReadOnly Dictionary. If I want to access that Dictionary when the class is a generic type (such as when I have a wrapper function that takes T as an interface that all of these classes implement), what's the way to do it?

Basic research suggests I want to do something like GetType(T).GetMember("Dict"), but that will return a MemberInfo type, and that cannot be cast to a Dictionary of my defined type(s). For calling functions this way, one can use a delegate + CreateDelegate + GetMethod. But there doesn't seem to be an equivalent Create*for GetMember stuff. Or am I missing something?

If I plug the GetMember call into the immediate window, and then use a subscript as if it is an array, then the debug output says I am getting a Dictionary back. But if I use that same approach in the actual function that I am trying to write, then I get an error about System.Reflection.MemberInfo cannot be converted to Dictionary(X, Y)

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2 Answers 2

up vote 2 down vote accepted

You're nearly there.

GetMember returns an array of all the members with the name you pass (you can pass a string containing a wildcard * and get back multiple members). So in this case, you must index into the return value to get the actual MemberInfo you want.

Then in order to do anything with it, you'll need to cast it to the actual -Info type that it is, in this case a FieldInfo.

Once you've got a FieldInfo, you can call GetValue on it to get the actual value of the field. You'll need to pass Nothing to GetValue, since the field is shared, so the 'instance' you want to get this field's value for isn't an instance at all.

Finally you'll need to cast the return value of GetValue to your actual dictionary type, since it's typed as Object.

Then you can look in your dictionary.

This might seem long winded but only because I have spelled it out - if you are happy to go without error checking (which you should be, once it works), this will be a couple of lines at most.

The reason the Immediate Window 'just works' is because the debugger is doing all this for you behind the scenes. It's very helpful like that.

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Okay, this works. It's some ugly-looking code, but it works. But it is also slow... This is likely because of the use of Reflection, which is always a performance hog. Is there a way to cache part of the lookup so that future calls while the program is running for that particular dictionary won't have to perform reflection again? An idea similar to this is in another question that I asked here, which used a delegate to cache the function pointer. – Kumba Nov 4 '11 at 23:30
PS, one idea I haven't explored yet is defining another stub function in each subclass within the base class (see my comment to @competent_tech on what these classes all are), slap an interface on that subclass, and have that class tie into the higher parent class to call the main code. If I cannot cache the reflected lookup, or such caching is still slow, this may be an alternate route that still doesn't incur too much function call overhead. Really, the real purpose of this is to avoid multiple statements to .ContainsKey followed up by .Item within the Dictionary all over my project. – Kumba Nov 4 '11 at 23:39
Okay, I just benchmarked the stub function idea, and it totally smokes my original implementation, even though at heart, it is adding two function calls and still doing a .ContainsKey followed by .Item on the Dictionary. In a tight timing loop of 100,000 times, it's about 200ms faster than straight up calling .ContainsKey and .Item independently. I wonder if by moving those calls up to the containing subclass, I somehow activated a caching mechanism inside .NET that's giving me the performance boost? – Kumba Nov 4 '11 at 23:49
If you do want to go back, one option would be to take the reflection hit once to build a Dictionary<Type, Dictionary> - then finding a particular type's dictionary is a lookup in that. Additionally I note that calling TryGetValue is far preferable to ContainsKey-then-Item, if you are often looking up keys that aren't in the dictionary. – AakashM Nov 5 '11 at 9:22
Well, one performance boost I found was to use a Dictionary(Of Int32, T) versus Dictionary(Of String, T), and simply populate the key via the string's GetHashCode. That netted me a fair speedup. I'll try TryGetValue, too, and see if that further speeds things up. Still puzzled how the stub function approach sliced 200ms off, though. It must've been some overhead of the object dereferencing when called from outside the Enums class. – Kumba Nov 5 '11 at 10:53

I am not sure whether or not your original request is possible, but the solution I would take would be to create an Interface to retrieve the property and have each of the classes implement this Interface to return the property. We use this mechanism extensively in our generic classes.

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That's what I do for a lot of things, too. In a few cases, I implement extensions that fetch a method by using delegates. In this case, the dictionary is Shared, so I can't use an interface declaration on it (Why MS doesn't allow a type of shared/static set of interfaces for classes that only use shared/static members baffles me). – Kumba Nov 4 '11 at 22:15
You actually can use an interface to provide this information, we do it all the time. You won't create the interface directly on the dictionary, you will use an instance member (property or function) that implements the interface, then use that to return the shared member. The only drawback is if you don't already have an instance of the class that implements the interface when you are retrieving the data through the interface, but it should be easy enough to create a throwaway instance in order to access the interface. – competent_tech Nov 4 '11 at 22:30
Except my classes here are never used as instances. Everything in them is Shared, and only their shared members are ever referenced. It's a hack to do better Enums, which I documented in another question I opened a while back here. They've evolved a lot since then, and I've even developed bitwise functions for a select few with very minimal performance penalties. Hence why I cannot use interfaces as contracts for these classes (only the Enums sub-class defined in each base-level Enum class). – Kumba Nov 4 '11 at 23:35

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