Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

[ Updated 25 May 2010 ] I've recently upgraded from VS2008 to VS2010, and at the same time upgraded to .Net 4.

I've recompiled an existing solution of mine and I'm encountering a Cast exception I did not have before.

The structure of the code is simple (although the actual implementation somewhat more complicated).

Basically I have:

public class SomeClass : ISomeClass
 // Stuff

public static class ClassFactory
  public static IInterface GetClassInstance<IInterface>(Type classType)
     return (IInterface)Activator.CreateInstance(classType); // This throws a cast exception

// Call the factory with:

ISomeClass anInstance = ClassFactory.GetClassInstance<ISomeClass>(typeof(SomeClass));

Ignore the 'sensibleness' of the above - its provides just a representation of the issue rather than the specifics of what I'm doing (e.g. constructor parameters have been removed).

The marked line throws the exception:

Unable to cast object of type 'Namespace.SomeClass' to type 'Namespace.ISomeClass'.

I suspect it may have something to do with the additional DotNet security (and in particular, explicit loading of assemblies, as this is something my app does).

The reason I suspect this is that I have had to add to the config file the setting:

    <loadFromRemoteSources enabled="true" />

.. but I'm unsure if this is related.


I see (from comments) that my basic code does not reproduce the issue by itself. Not surprising I suppose. It's going to be tricky to identify which part of a largish 3-tier CQS system is relevant to this problem.

One issue might be that there are multiple assemblies involved. My static class is actually a factory provider, and the 'SomeClass' is a class factory (relevant in that the factories are 'registered' within the app via explicit assembly/type loading - see below) .

Upfront I use reflection to 'register' all factories (i.e. classes that implement a particular interface) and that I do this when the app starts by identifying the relevant assemblies, loading them and adding them to a cache using (in essence):

Loop over (file in files)
    Assembly assembly = Assembly.LoadFile(file);

Then I cache the available types in these assemblies with:

foreach (Assembly assembly in _loadedAssemblyList)
  Type[] assemblyTypes = assembly.GetTypes();

And then I use this cache to do a variety of reflection operations, including 'registering' of factories, which involves looping through all loaded (cached) types and finding those that implement the (base) Factory interface.

I've experienced what may be a similar problem in the past (.Net 3.5, so not exactly the same) with an architecture that involved dynamically creating classes on the server and streaming the compiled binary of those classes to the client app. The problem came when trying to deserialize an instance of the dynamic class on the client from a remote call: the exception said the class type was not know, even though the source and destination types were exactly the same name (including namespace). Basically the cross boundry versions of the class were not recognised as being the same. I solved that by intercepting the deserialization process and explicitly defining the deseriazation class type in the context of the local assemblies.

This experience is what makes me think the types are considered mismatched because (somehow) the interface of the actual SomeClass object, and the interface of passed into the Generic method are not considered the same type.

So (possibly) my question for those more knowledgable about C#/DotNet is: How does the class loading work that somehow my app thinks there are two versions/types of the interface type and how can I fix that (keeping in mind its a DotNet 3.5 vs 4 issue as it worked before my upgrade) ?

[ whew ... anyone who got here is quite patient .. thanks ]

share|improve this question
Check that you don't have two classes named SomeClass, but only one implements ISomeClass... –  Thomas Levesque May 25 '10 at 12:07
... or there are two ISomeClass interfaces (in different assemblies). –  Richard May 25 '10 at 12:19
Not explicitly. I've updated the main question with details but I do suspect DotNet thinks there are two types with exactly the same name (I'm guess it's the interface type), somehow caused by my explicit loading of assemblies and their types. Question is: How to avoid this? –  Trevor May 25 '10 at 13:59
Riiight. Oddly, the issue is intermittent. This suggested to me that it might be caused by a residual (pre DotNet upgrade/rebuild) DLL lying around in a BIN directory. I've deleted all such DLLs and run the app - with no error. But, as I said, the problem is intermittent so it may just be in remission. –  Trevor May 25 '10 at 15:16
Not solved. Still occurs intermittently, which is suspicious in its own right. –  Trevor May 25 '10 at 15:30
show 5 more comments

2 Answers 2

I would say yes that it has something to do either with the runtime loading of assemblies, or with the upgrade conversion, I used this code in a new project and had no issues. Can you provide more code to replicate the error?

share|improve this answer
Thanks for the effort :) [ Obviously I didn't try this exact code outside my real problem code ] I'm about to add more info to the main post. –  Trevor May 25 '10 at 13:38
add comment

The 'quick' (ITO implementation, not ITO finding it) solution was to stop the shadow copy of my app's DLLs. This is done by modifying the ASP.Net app's Web.Config file as follows:

In section 'configuration/web.settings', add setting:

<hostingEnvironment shadowCopyBinAssemblies="false" />
share|improve this answer
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.