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I'm working in a C# web service with a generic static class that takes a type. I was wondering why this does not compile:

Type type1 = typeof(MySnazzyType);
Assert.AreEqual(0, ConnectionPool_Accessor<type1>._pool.Count);

It gives this error:

The type or namespace name 'type1' could not be found (are you missing a using directive or an assembly reference?)

And ReSharper, when I hover over type1 in that second line of code, says "Type or namespace name expected". Well, type1 is a type! It's a variable of type Type! It also doesn't work if I do:

Type type1 = typeof(MySnazzyType);
Assert.AreEqual(0, ConnectionPool_Accessor<typeof(type1)>._pool.Count);

I was hoping to assign my types to a couple of different Type variables and just use those in testing the different generic static classes, instead of typing out MySnazzyType each time. Any ideas, or am I stuck with doing:

Assert.AreEqual(0, ConnectionPool_Accessor<MySnazzyType>._pool.Count);

Edit: to clarify, MySnazzyType is not a generic class, nor does it inherit from a generic class. The only generic class here is ConnectionPool_Accessor.

Thanks to Pavel's comment "Essentially, your problem is that C# is a statically typed language", I now know that Ruby has spoiled me. ;)

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s/spoiled me/taught me bad manners/ ;-) –  Thorarin Jul 23 '09 at 21:56

3 Answers 3

up vote 3 down vote accepted

First of all, ReSharper is actually correct. It isn't a type, it's a variable. Granted, it's a variable that is holding the reflection object that corresponds to a type, but that isn't enough.

Between the <...> brackets, you have to write the name of a type, not the name of any other identifier.

You can construct generic objects through reflection, however, and access their properties, even static ones, so you should be able to rewrite the code to do that, however, have you looked at NUnit 2.5?

From the latest release notes, it appears that unit test classes can now be generic, and you can specify with an attribute on the test class which types to test it with.

This would allow you to write something like this (note, I have not tested this, I only looked up the names of the new attributes in the documentation):

[TestFixture(typeof(MySnazzyType))]
[TestFixture(typeof(MyOtherSnazzyType))]
public class Tests<T>
{
    [Test]
    public void PoolCount_IsZero()
    {
        Assert.AreEqual(0, ConnectionPool_Accessor<T>._pool.Count);
    }
}
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Generic types are evaluated at compile time, not in runtime. Since it cannot be determined at runtime time what type1 will be, this construct is not allowed.

This is actually what Resharper says: type1 is not a Type, it's a variable of the type Type, (just as it could be an object of the type String).

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Er, did you swap what you meant to say? Maybe "Generic types are evaluated at runtime, not in compile time." –  Sarah Vessels Jul 23 '09 at 21:42
    
Also, why is it unable to determine at compile type what type1 will be, since it is written out to be typeof(MySnazzyType)? –  Sarah Vessels Jul 23 '09 at 21:43
1  
No, he wrote it correctly. Generic type in your case is ConnectionPool_Accessor<>, and it is indeed resolved at compile time. And at that point there's no way of telling what type will type1 resolve to. Essentially, your problem is that C# is a statically typed language. –  Pavel Minaev Jul 23 '09 at 21:44
1  
To repeat: type1 is a variable of type "reference to System.Type. The latter is not a type! It's a class, instances of which describe a type. –  Pavel Minaev Jul 23 '09 at 21:45
    
@Sarah: it was the other occurence of the term compile time that was wrong. Corrected that. Regarding why it can't figure out what type1 will be, I guess the compiler doesn't go that far. Even if it did, type1 would still be a variable, not a type. –  Fredrik Mörk Jul 23 '09 at 21:47

The TestFixture attribute should set you up, but just for the heck of it: if you wanted to do all this at runtime, you could do so using reflection.

Type poolType = typeof(ConnectionPool_Accessor<>);
Type snazzyType = typeof(MySnazzyType); // Or however you want to get the appropriate Type
poolType.MakeGenericType(snazzyType);

You could then proceed to do whatever you want using reflection on poolType. Of course, that will be a major pain in the butt unless you use C# 4.0 dynamic typing.

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