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I need to write a generic class where the type parameter must be something implementing ICollection<T>. Inside of MyClass I need the collection's item type (in the code snippet marked as ???).

class MyClass<TCollection> where TCollection : ICollection<???>
{
  // ...

  public void store(??? obj) { /* put obj into collection */ }

  // ...
}

Often the collection will actually be a dictionary. Sometimes, it will be something simple as a list.

I know exactly how to do this in C++. How would I do this is C#?

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As others have mentioned, you need an extra generic parameters. Are you sure you won't get away with just passing a collection to the constructor though? Does the class really need the type of the collection? –  SoftMemes Oct 29 '09 at 10:43
    
@Freed: Do you mean something like the following: class MyClass { private ICollection<T> _data; public MyClass(ICollection<T> collection) { _data = collection; } }? –  sbi Oct 29 '09 at 10:46
    
@sbi, yes, as long as you only need a collection of unknown runtime type and don't need to, for example, create new instances of the collection or expose it as a public property of a type other than ICollection<T>, there's really no need to use generics for the type of the collection. –  SoftMemes Oct 29 '09 at 10:55
    
A dictionary and a list are radically different; you are never going to be able to treat them interchangeably –  Marc Gravell Oct 29 '09 at 12:21
    
A Dictionary<K,V> is not all that different from a List<KeyValuePair<K,V>>. Why shouldn't that class allow clients to have it manage either one? –  sbi Oct 29 '09 at 12:35

5 Answers 5

up vote 3 down vote accepted

The simplest thing to do is just specify the element type only and hard-code ICollection<T> wherever you need it, e.g.

class MyClass<T> {

    private ICollection<T> _items;

    public MyClass(ICollection<T> items) {
        _items = items;
    }

    public void Store(T obj) {
        _items.Add(obj);
    }

    public ICollection<T> Items {
        get {
            return _items;
        }
    }
}

I recommend that you pass in a collection instance to the constructor rather than create one internally. It makes the class simpler and more "generic" (excuse the pun), and allows you to construct collection instances with non-default constructors, e.g. a dictionary with a non-default comparator.

RE-EDIT (3rd attempt): Using class inheritance and namespace aliasing to simulate typedef are both OK up to a point, but both abstractions break down under certain circumstances. This code is the simplest I have found that actually compiles.

Step 1 - Define these classes:

// This KeyValuePair was being used to simulate a tuple. We don't need to simulate a tuple when we have a concrete class.
class BazAndListOfWrgl {
    Baz Baz { get; set; }
    List<Wrgl> Wrgls { get; set; }
}

// Simple typedef.
class BazAndListOfWrglDictionary : Dictionary<Bar, BazAndListOfWrgl> { }

Step 2 - Define these namespace aliases. All identifiers must be fully qualified. All types referenced must already be defined in a different physical file (since namespace aliases have to come before all code in a file).

using OuterDictionary = System.Collections.Generic.Dictionary<MyNamespace.Foo, MyNamespace.BazAndListOfWrglDictionary>;
using OuterDictionaryItem = System.Collections.Generic.KeyValuePair<MyNamespace.Foo, MyNamespace.BazAndListOfWrglDictionary>;

Step 3 - Use them like this:

class Program {

    static void Main() {

        // List-based example.
        var listWrapper = new MyClass<BazAndListOfWrgl>(new List<BazAndListOfWrgl>());
        listWrapper.Store(new BazAndListOfWrgl());
        Console.WriteLine(listWrapper.Items.Count);

        // Dictionary-based example.
        var dictionaryWrapper = new MyClass<OuterDictionaryItem>(new OuterDictionary());
        dictionaryWrapper.Store(new OuterDictionaryItem(new Foo(), new BazAndListOfWrglDictionary()));
        Console.WriteLine(dictionaryWrapper.Items.Count);

    }
}

The reasoning being: BazAndListOfWrglDictionary cannot be a namespace alias because namespace aliases cannot depend on each other. OuterDictionary and OuterDictionaryItem cannot be derived classes because otherwise the compiler does not recognise one as being the element of the other.

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This class will need to store different types of collections. I'd like to do this as simple as possible - I just don't know how to do that in C#. :-x –  sbi Oct 29 '09 at 10:48
    
The ICollection<T> _items field will store all types of collection. I think you are confusing generics with plain interfaces. –  Christian Hayter Oct 29 '09 at 11:00
    
@Christian: This is what Freed already suggested in his comments. Yes, this would work, but it also suffers from the need to spell out T twice - which isn't nice if ICollection<T> actually is three nested dictionaries. I guess I'm spoiled by C++' powerful templates... –  sbi Oct 29 '09 at 11:07
    
Sorry, but I don't understand you. Why would you have to spell out T twice? What difference would it make if ICollection<T> is three nested dictionaries? By treating three nested dictionaries as a collection interface you are hiding all that complex functionality and pretending that it's a simple list of KeyValuePair. If you want to access the dictionary inside your class, don't make it generic because anything you do won't be valid for non-dictionary collections. –  Christian Hayter Oct 29 '09 at 11:33
    
How about you give us an actual example of (a) a non-generic class that handles a list, and (b) a non-generic class that handles a dictionary. We can then suggest how you can refactor the two classes into one generic class. –  Christian Hayter Oct 29 '09 at 11:35

Well, you'd normally do this using another type parameter:

class MyClass<TCollection, TElement> where TCollection : ICollection<TElement>
{
  // ...

  public void store(TElement obj) { }

  // ...
}

Do you actually need TCollection in this case? Could you just make do with TElement?

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Yes, users of MyClass need to be able to specify the collection used. - Given your class definition, would users have to specify both TCollection and TElement or can TElement be automagically deduced from the collection passed? (I ask this because often those collections will be nested dictionaries which are quite something to type.) –  sbi Oct 29 '09 at 10:42
    
You'd have to specify both type arguments explicitly. You could write a helper method to utilise generic type inference in some cases though. It depends on the exact use case. –  Jon Skeet Oct 29 '09 at 10:54
    
Given that the class is used as member of other classes, I suppose there is no way to use generic type inference? –  sbi Oct 29 '09 at 11:03
    
If you have an instance of the relevant type, you could use generic type inference via a generic method (which could then create an instance of the generic type). –  Jon Skeet Oct 29 '09 at 11:13
    
@Jon: Only one instance of every instantiation of MyClass will be needed, but there are many different instances of them and the data structures are still changed. :( –  sbi Oct 29 '09 at 11:17

Can't you just do this?:

class MyClass<T, TCollection>  where T: YourTypeOrInterface
                               where TCollection : ICollection<T>
{
    public void store(T obj) { }
}

And, not tested, but the only other way I could think to do it would be to specify the type when storing the item:

class MyClass<TCollection> where TCollection : System.Collections.ICollection
{

    TCollection Collection;

    public void Store<T>(T obj) 
    {
        ((ICollection<T>)this.Collection).Add(obj);
    }

}
share|improve this answer

This works for me:

class MyClass<TCollection,T> where TCollection : ICollection<T> , new()
{
    private TCollection collection;           

    public MyClass()
    {
        collection = new TCollection();
    }

    public void Store(T obj)
    {
        collection.Add(obj);
    }

    public TCollection Items
    {
        get { return collection; }
    }
}

Usage:

MyClass<List<string>, string> myclass = new MyClass<List<string>, string>();
myclass.Store("First element");
myclass.Store("Second element");
myclass.Items.ForEach(s => Console.WriteLine(s));

EDIT: When T is getting more complicated, you might want to take a look at the using directive, you can (mis)use it as a typedef.

using HugeType = System.Collections.Generic.Dictionary<int, string>; // Example 'typedef'
...

//Create class, note the 'typedef' HugeType
MyClass<List<HugeType>, HugeType> myclass = new MyClass<List<HugeType>, HugeType>();
//Fill it
HugeType hugeType1 = new HugeType();
hugeType1.Add(1, "First");
hugeType1.Add(2, "Second");
HugeType hugeType2 = new HugeType();
hugeType1.Add(3, "Third");
hugeType1.Add(4, "Fourth");
myclass.Store(hugeType1);
myclass.Store(hugeType2);
//Show it's values.
myclass.Items.ForEach(element => element.Values.ToList().ForEach(val => Console.WriteLine(val)));
share|improve this answer
1  
This is what I'm currently doing, except that where you have MyClass<List<string, string> I have things like MyClass<Dictionary< foo, Dictionary<bar, KeyValuePair<baz, List<wrgl>>>>, <bar, KeyValuePair<baz, List<wrgl>>>>. (Have I said I'm missing typedef badly? No? Well, so: I am missing typedef badly. Very badly. In fact, it's one of the main annoyances of C# that it misses typedef.) –  sbi Oct 29 '09 at 12:16
    
I understand you concerns, edited my answer, not sure whether this solution is recommended, but it seems to work in my example. –  Rob van Groenewoud Oct 29 '09 at 13:04
    
@Rob: Yes, I had found the using directive a while ago. However, IIRC, it can only appear at namespace scope, not, for example, within classes. That's quite annoying. –  sbi Oct 30 '09 at 8:50
1  
@sbi: you're right about the scope. Besides that, VS auto completion also inserts the complete string again instead of the 'alias', which is quite annoying too. –  Rob van Groenewoud Oct 30 '09 at 9:17

Are there any public members which expose the type TCollection?

If there are any such members, do you gain any value exposing the direct type TCollection where you could expose ICollection<T>?

Your clients are expected to implement the ICollection<T> interface, so it doesn't really affect your object; you will only ever be making calls to that interface, not their specific type. As such, your object only needs to know the type of element being stored in the collection.

Under this premise, the class can be written like this:

public class MyClass<T>
{
    public MyClass(ICollection<T> collection) 
    { 
        /* store reference to collection */ 
    }

    // ...

    public void store(T obj) 
    { 
        /* put obj into collection */ 
    }

    // ...
}
share|improve this answer
    
"Are there any public members which expose the type TCollection?" Yes, there are. I could get away with just ICollection<T>, but it results in ugly and probably error-prone code. –  sbi Oct 30 '09 at 19:32

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