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Need to have a type-safe bag of items that all implement a generic interface.

The desire is to do something like:

var stringItem = new IItem<string>();
var numberItem = new IItem<int>();
var items = new List<IItem<T>>(); //T of course doesn't accomplish what I want


Something like:

interface IItem
   object Value { get; set; }

//Update: 2009-03-19 03:08 PM MST
//Added the following interface for clarity of my question

interface IItem<T> : IItem
   new T Value { get; set; }

Then, I could:

var items = new List<IItem>();

But, I lose type safety in my bag. So, I thought of Dictionary:

var dict = new Dictionary<Type, List<IItem<T>>>(); //T is wrong again

dict.Add(typeof(string), new List<IItem<string>>); //that sure looks nice
share|improve this question
I know a more elegant solution exists. After all, generics themselves were added to .NET. Perhaps dynamics in C# 4.0 will give us a clearer path to this answer. I'm assuming we're all just not smart enough to figure out the type-safe answer today. :) – Eric Swanson Mar 19 '09 at 22:03
It might help if you outlined what do you intend to do with your mixed bag. – Anton Tykhyy Mar 19 '09 at 22:24
I am going with the nasty object-vs-type-safe-generic interface inheritance. For my bag, I added a neat LINQ query to get a sub-set of type-specific items: public IEnumerable<IItem<T>> GetItems<T>() { Type t = typeof(T); return (IEnumerable<IItem<T>>)Items.Where(i => i.Value.GetType() == t); } – Eric Swanson Mar 19 '09 at 23:49
up vote 5 down vote accepted

I don't think you can escape the fact that IItem<int> and IItem<string> are different; the usual approach is a base-interface:

interface IItem {
   object Value {get;}
interface IItem<T> : IItem {
   new T Value {get;}

That way, you code against IItem, but the actual instances (that typically implement IItem<T> for some T) are stll strongly-typed internally.

share|improve this answer
In Protocol Buffers I do something similar, but avoid reusing names - I have "WeakFoo()" in the weak type, and "Foo()" in the strong type. This particularly helps when WeakFoo() returns an IItem and Foo() returns an IItem<T>. – Jon Skeet Mar 19 '09 at 21:53
I wrote the base-interface in my question. :) – Eric Swanson Mar 19 '09 at 22:04
@ericis - IMO, the key thing is the fact that IItem<T> : IItem; if you already had that, then fine - but it wasn't stated AFAIK – Marc Gravell Mar 19 '09 at 22:06
No worries. Thanks Marc! – Eric Swanson Mar 19 '09 at 22:11

Check out the PolyDictionary implementation here.

class Key<T> { public Key() { } }

class PolyDictionary {
    private Dictionary<object, object> _table;

    public PolyDictionary() {
        _table = new Dictionary<object, object>();

    public void Add<T>(Key<T> key, T value) {
        _table.Add(key, value);

    public bool Contains<T>(Key<T> key) {
        return _table.ContainsKey(key);

    public void Remove<T>(Key<T> key) {

    public bool TryGetValue<T>(Key<T> key, out T value) {
        object objValue;
        if (_table.TryGetValue(key, out objValue)) {
            value = (T)objValue;
            return true;
        value = default(T);
        return false;

    public T Get<T>(Key<T> key) {
        T value;
        if (!TryGetValue(key, out value))
            throw new KeyNotFoundException();
        return value;

    public void Set<T>(Key<T> key, T value) {
        _table[key] = value;
share|improve this answer
not intrinsically type-safe - which is the goal. – Eric Swanson Mar 19 '09 at 22:05
You cannot avoid casting in any answer to your problem, it has to be somewhere. You could have PolyDictionary cast NodeBase to Node<T> instead of object to T, but does this improve matters any? – Anton Tykhyy Mar 19 '09 at 22:18
Besides, this PolyDictionary is type-safe. It stores data as object internally, so what? Ultimately, data is stored in non-typed memory cells as a chunk of bytes :) – Anton Tykhyy Mar 19 '09 at 22:19
@ericis please educate me on how this is not type-safe. This is perfectly type-safe to use. The internal storage mechanism, may cast to object, but that is encapsulated and hidden from the user. From the user's, perspective it is type-safe. – Dustin Campbell Mar 20 '09 at 3:31
@Dustin - You are correct. This is type-safe to the public and I suppose some good unit test coverage would make this even more reliable. I say "intrinsically", because internally it could be corrupted and you're always having to "guard" against type evils in this code. – Eric Swanson Mar 20 '09 at 16:14

You should be able to get away with doing something like the following

interface IItem { object Value {get; set;}}

interface IItem<T> : IItem { T Value {get; set;}}

var items = new List<IItem>();

items.add(new IItem<string>());
items.add(new IItem<int>());

But you'll still have to do some casting when you pull it out.

share|improve this answer
I wrote the base-interface in my question. :) Oh, and I believe IItem<T> would need to inherit from IItem and override the Value... – Eric Swanson Mar 19 '09 at 22:06
Fixed the code sample, the IItem<T> was supposed to inherit from IItem – Gregg Mar 19 '09 at 23:24

I was thinking about exactly this same problem a few weeks ago. Think about what you're trying to do: store different types in the same collection. Even generics aren't going to help you out here.

The only solution (that I know of) is to use List<Object> and cast when you pull the items out.

share|improve this answer
Yes, I am aware of object. Object is not an answer for intrinsic type-safety in my question. – Eric Swanson Mar 19 '09 at 22:06
Unfortunately, as the other answerers have pointed out, I don't think you're ever going to get it. The polydictionary looks to be the closest to what you want. – Paul Suart Mar 19 '09 at 22:26

Make a new class which has the sole purpose of boxing the values you are interested in. - This class should accept either a StringItem, OR a NumberItem. - The class should allow you access to the string or number item member.

WHen you a dd your objects to the list, you will need to box your objects, and then unbox them when you take them out again.

If this was C++, then the overhead of this design should not be more than an additional pointer dereference, depending on how you implement it, however the key phrases here are "boxing" and "unboxing".

share|improve this answer
public class GrabBag<T>
    private ArrayList inner = new ArrayList();

    public void Add(T item)

    public IEnumerable<U> Get<U>() where U : T
        return inner.OfType<U>();

Or, you could just use the generic List and call OfType. That makes more sense.

share|improve this answer

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