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.

I'm trying to locate a type at runtime from a list of assemblies; my code is something like this:

foreach (Assembly assembly in assembliesToSearch)
{
    Type t = assembly.GetType(assemblyName);
    if (t != null)
    {
        return t;
    }
}

, and the problem that I have is that t is always coming up as null. Playing around with the debugger and the Intermediate window in VS2010, I noticed the following when I put a breakpoint inside the loop:

Type.GetType(typeof(MyNamespace.MyClass).AssemblyQualifiedName)

works OK, but

assembly.GetType(typeof(MyNamespace.MyClass).AssemblyQualifiedName)

does not (when assembly is the assembly that I know contains the class I'm looking for - in the debugger, I can put a watch on assembly.GetTypes(), browse to the class I'm trying to instantiate, and call assembly.GetType("MyNamespace.MyClass, MyNamespace")).

Does anyone know why searching all assemblies using Type.GetType() works, but searching the assembly that I know contains the type using assembly.GetType() does not?

share|improve this question
add comment

1 Answer

up vote 8 down vote accepted

From the MSDN docs for the two methods, Type.GetType() expects an assembly-qualified name of a type whereas Assembly.GetType() expects the full name of the type. These are not the same thing.

typeof(MyNamespace.MyClass).AssemblyQualifiedName evaluates to an assembly-qualified name of a type (something like MyNamespace.MyClass, MyAssembly, Version=1.0.0.0, Culture=neutral), so it does not work with the Assembly.GetType() call which is expecting a string in the format MyNamespace.MyClass.

This is probably down to the fact that when you pass the assembly-qualified name to the Assembly.GetType() call, it is looking for a type in the assembly whose full name matches what you have supplied. It cannot find one, so you get a null returned. This is not the case with the Type.GetType() call as it expects to get an assembly-qualified name of a type and can locate both the assembly and the type.


Something to note:

If you are "trying to locate a type at runtime from a list of assemblies" as you say, you are probably better off using the Assembly.GetType() call on each assembly in the list and passing in the type's full name. Type.GetType() will most likely be using the references of the currently assembly to resolve the type, so if the type exists in an assembly that is not a reference, it will not be found.

share|improve this answer
    
Thanks for the response; my initial code sample doesn't show it clearly, but inside my loop where I'm calling Type t = assembly.GetType(assemblyName), assemblyName is "MyNamespace.MyClass, MyAssembly", so by my reckoning, it ought to be returning the expect Type. –  David Keaveny Sep 12 '11 at 1:48
    
@David: MyNamespace.MyClass, MyAssembly is still an assembly-qualified type name. You need to drop the assembly name from that string for it to work with Assembly.GetType(). –  adrianbanks Sep 12 '11 at 9:19
    
@adrianbanks - where did you learn "Type.GetType() will most likely be using the references of the currently assembly to resolve the type" - it doesn't seem to be in the MSDN here. Also, what is the "current assembly"? In the case I'm looking at now, the assembly with the type - which is found! - isn't the assembly with the currently executed method and isn't a reference of it ... but it is an assembly on the call stack. (The reason for my question: The Version in my assembly name is wrong but the type is found.) –  davidbak Mar 27 at 21:11
    
I presumed it by thinking about how it might work. It is unlikely that every possible assembly would be searched (e.g. every dll in the GAC plus every dll in the current application's path), so it stands to reason that the assembly's references would be used in the search path. I would take "current assembly" to mean the assembly that contains the type where the Type.GetType() is being used. "but it is an assembly on the call stack" - so you mean a reference of a reference? If so, then I would expect that to be found because the type resolver will be doing a recursive reference walk. –  adrianbanks Mar 27 at 21:58
    
@adrianbanks - Well I mean that the reference goes the wrong way ... the assembly higher on the call stack has a reference to the assembly containing the type that contains the method that is calling Type.GetType() - but not the other way around. I wonder if the answer is in Essential .NET Volume 1? (Isn't it a shame that that book never had a 2nd edition or a Volume 2?) –  davidbak Mar 28 at 17:21
show 1 more comment

Your Answer

 
discard

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.