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This question already has an answer here:

We have a very simple program invoking the Type.GetType static method. Both examples should return a valid type instance. Only the second one actually is. Looks like something odd is happening with the stack crawl used by GetType, but what exactly is the issue here? Is it bug or some obscure feature?

public class TestClass { }

class Program
{
    static void Main(string[] args)
    {
        var fullName = typeof(TestClass).FullName;
        Console.WriteLine("Full name: {0}", fullName);

        new[] { fullName }.Select(Type.GetType).ToList().ForEach(t => Console.WriteLine("Method group: '{0}'", t));
        new[] { fullName }.Select(t => Type.GetType(t)).ToList().ForEach(t => Console.WriteLine("Closure: '{0}'", t));
    }
}

Running:

Full name: GetTypeBeingWeird.TestClass
Method group: ''
Closure: 'GetTypeBeingWeird.TestClass'
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marked as duplicate by nawfal c# Mar 24 at 6:36

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
May be I should close the older one? Not sure, welcoming opinions on this... – nawfal Mar 24 at 6:36
up vote 163 down vote accepted

This is really interesting. It's a mixture of the behaviour of Type.GetType(string) in terms of the calling assembly, and how method group conversions work.

First, the Type.GetType documentation includes this:

If typeName includes the namespace but not the assembly name, this method searches only the calling object's assembly and Mscorlib.dll, in that order.

In your first call, you're passing in a delegate which calls Type.GetType... but it isn't particularly called from your assembly. It's effectively called directly from the Select method in LINQ... if you looked at the stack trace from within Type.GetType, you'd see Select as the direct caller, I believe.

In your second call, you're passing in a closure which calls Type.GetType, and that call is within your assembly.

That's why it finds the type in the second case but not the first. This is further validated by specifying a type which is in the LINQ assembly:

var fullName = typeof(Enumerable).FullName;

Then the results are the opposite way round:

Full name: System.Linq.Enumerable
Method group: 'System.Linq.Enumerable'
Closure: ''

If you specify something in mscorlib (e.g. typeof(string).FullName) then both approaches work:

Full name: System.String
Method group: 'System.String'
Closure: 'System.String'

The way to get around this oddity when looking for your class, still using a method group, is simply to supply the assembly-qualified name instead:

var fullName = typeof(TestClass).AssemblyQualifiedName;
share|improve this answer
16  
Wow, using the calling assembly as a hidden input is hideous. Fun bug, though. – usr Feb 29 at 16:19
5  
Use of calling assembly instead of entry or executing as default may be (and I am sure is indeed) a deliberate decision. One reason I can think of is to avoid type spoofing in mscorelib calls to Type.GetType() if entry/executing assembly has declared same namespace and type name matching mscorelib's. One man's "hideos" is another man's not having his ass handed back to him via std library hijacking. – takiysobi Feb 29 at 17:08
5  
The API should not take any assembly as a hidden input. It should be specified by the caller. Using the entry assembly would be almost as bad. A type name without an assembly name is simply ambiguous. There is no good disambiguation strategy possible. – usr Feb 29 at 21:27
1  
@Jon did you really mean ? That's why it finds the type in the first case but not the second or you mean was : second case but not the first, i am confused – Ehsan Sajjad Mar 1 at 8:10
1  
@EʜsᴀɴSᴀᴊᴊᴀᴅ: For this particular call, if you're only specifying a namespace-qualified type name, yes. For most methods, which don't care about the calling assembly, or if you're specifying an assembly-qualified name, it's fine. – Jon Skeet Mar 1 at 8:17

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