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I have an assembly containing types that have a common ancestor class (defined within the assembly. The common ancestor is in most cases not the class's immediate basetype.

I need to be able to filter out, from all the types in this assembly, those with this common ancestor. For various reasons I can't instantiate the types (they do not as a rule have a common constructor signature) so I have to start with myAssenbly.GetTypes() and examine the properties of the types themselves. In other words I have to work with classes, not instances of the classes.

How do I examine each Type in this collection to find if it inherits from the desired common ancestor or not?

Later: no worries, I have it now. The trick is to instantiate a type object that is the ancestor type from the assembly, eg

Type ancestor = assy.getType("myAncestorClassName", true, true); Type[] interestingClasses = assy.GetTYypes().Where(t => t.IsSubclassOf(ancestor));

However this will not work: .... Type[] interestingClasses = assy.GetTYypes().Where(t => t.IsSubclassOf(typeof(AncestorClass)));

because, I think, the ancestor type is defined in the other assembly and not in the main assembly.

Much, much later....Thanks to everyone who contributed answers to this. I was diverted to something else along the way, but I now have a neat solution (and have learned something new).

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you just build a tree of Types linked via their direct BaseType which itself is a Type again... at the root there is only one node - it is the Type object from all and everything inherits... –  Yahia Feb 9 '12 at 12:42

4 Answers 4

up vote 3 down vote accepted

For each type in your collection, you can see if they derive from this ancestor by using Type.IsAssignableFrom.

For example:

var types = assembly.GetTypes().Exclude(t => typeof(CommonAncestor).IsAssignableFrom(t));

This should get all types in the assembly which aren't derived from CommonAncestor.

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Thanks - the problem I overlooked is that the type in question must be 'extracted'from the loaded assembly. I was referencing it directly (from the referenced assembly) and that does not work. –  haughtonomous Feb 9 '12 at 13:09
    
It should still work, as typeof(AncestorClass) will be the type from whatever assembly it was loaded from. Are you sure you were using the correct definition of AncestorClass from the correct assembly? –  Lukazoid Feb 9 '12 at 13:38

Use Type.IsAssignableFrom to find out if one type is assignable from an instance of another type.

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Assuming you're using C#

Type[] types = myAssenbly.GetTypes();

foreach(Type t in types)
{
    // Is a Common Ancestor subclass
    bool isString = t.IsAssignableFrom(typeof(CommonAncestor));
}
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Check out this snippet:

var commonAncestor = typeof(object);
var descendants =
    Assembly.GetExecutingAssembly().GetTypes().Where(
    type => commonAncestor.IsAssignableFrom(type));

This will fetch all types in the current assembly that are descended from object. Naturally, replace it with your own common ancestor type.

The Type.IsAssignableFrom() method checks if you can do something like:

MyType b = new MyType();
object a = b;

without errors.

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