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I'm working on a small class library at work, and it naturally involves using generics for this task. But there is this thing that I don't really understand with generics: Why would I need to use generic type parameters, and then constrain the the type parameter to a specific base class or interface.

Here's an example to what I mean:

public class MyGenericClass<T> where T : SomeBaseClass
    private T data;

And here's the implementation without generics

public class MyClass
    private SomeBaseClass data;

Are these two definitions the same (if yes, then i don't see the advatage of using generics here)?

If not, what do we benefit from using generics here?

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5 Answers 5

up vote 7 down vote accepted

As with almost all uses of generics, the benefit comes to the consumer. Constraining the type gives you the same advantages that you get by strongly typing your parameter (or you can do other things like ensure that there's a public parameterless constructor or ensure that it's either a value or reference type) while still retaining the niceties of generics for the consumer of your class or function.

Using generics also, for example, allows you to obtain the actual type that was specified, if that's of any particular value.

This example is a little contrived, but look at this:

public class BaseClass
    public void FunctionYouNeed();

public class Derived : BaseClass
    public void OtherFunction();

public class MyGenericClass<T> where T: BaseClass
    public MyGenericClass(T wrappedValue)
        WrappedValue = wrappedValue;

    public T WrappedValue { get; set; }

    public void Foo()


var MyGenericClass bar = new MyGenericClass<Derived>(new Derived());


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I see. But as far as the generic class is concerned, there is no real difference.... OK, i get it thanks! – Avi Shilon Apr 30 '12 at 13:48
@AviShilon: For the most part, no. The only difference between generic type constraints and normal static typing is that a generic type constraint can specify the class and struct keywords to constrain to any reference or value type, respectively. That can't be expressed in normal static typing syntax. You can also do something like typeof(T) to get the specific type without resorting to GetType() (which could be more derived than T or wouldn't work at all if the value is null). – Adam Robinson Apr 30 '12 at 14:09

The difference is that the former defines the new class as a specific type; the latter simply defines a plain class with a field of that type.

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It's all about type safety. Using generics you can return a concrete type (T) instead of some base type which defines the API you need in your generic class. Therefore, the caller of your method won't have to cast the result to the concrete type (which is an error-prone operation).

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Great Marek. Thanks a lot for the kind help. – Avi Shilon Apr 30 '12 at 13:59

The main difference is in usage. In the first case, the usage can have:

MyGenericClass<SomeDerivedClass> Variable = X

And so that when you use that class, you can still access anything from SomeDerivedClass without casting back to it.

The second example will not allow this. = SomeDerivedClassInstance = X //Compile Error
((SomeDerivedClass) = X //Ewwwww

You will have to cast back up to the SomeDerivedClass (which is unsafe) to use something specific to the derived class.

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Excellent example. As other have specified this answer, I guess that this really is the main difference between the two definitions. And the one that can benefit from it is the consumer. Less so the generice/non generic original class. Thanks! – Avi Shilon Apr 30 '12 at 13:57

I don't think that there is a huge amount of difference except that the generic version is constraining your Class, whereas the second is just a constraint on a member of the class. If you added more members and methods to your first Class, you would have the same constraint in place.

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