UPDATE 2: Well, you say in a comment that you have not defined a non-generic
CacheCollection type; but then you go on to say that you have a
Dictionary<Type, CacheCollection>. These statements cannot both be true, so I am guessing that by
CacheCollection you mean
Now here's the problem: a
X<Derived> cannot be cast to a
X<Base> if the
X<T> type is not covariant. That is, in your case, just because
T derives from
EntityBase does not mean that
CacheCollection<T> derives from
For a concrete illustration of why this is, consider the
List<T> type. Say you have a
List<string> and a
string derives from
object, but it does not follow that
List<string> derives from
List<object>; if it did, then you could have code like this:
var strings = new List<string>();
// If this cast were possible...
var objects = (List<object>)strings;
// ...crap! then you could add a DateTime to a List<string>!
objects.Add(new DateTime(2010, 8, 23));
Fortunately, the way around this (in my view) is pretty straightforward. Basically, go with my original suggestion by defining a non-generic base class from which
CacheCollection<T> will derive. Better yet, go with a simple non-generic interface.
EntityBase Item(int id);
(Take a look at my updated code below to see how you can implement this interface in your generic type).
Then for your dictionary, instead of a
Dictionary<Type, CacheCollection<EntityBase>>, define it as a
Dictionary<Type, ICacheCollection> and the rest of your code should come together.
UPDATE: It seems that you were withholding from us! So you have a non-generic
CacheCollection base class from which
CacheCollection<T> derives, am I right?
If my understanding of your latest comment to this answer is correct, here's my advice to you. Write a class to provide indirect access to this
Dictionary<Type, CacheCollection> of yours. This way you can have many
CacheCollection<T> instances without sacrificing type safety.
Something like this (note: code modified based on new update above):
private Dictionary<Type, ICacheCollection> _collections;
_collections = new Dictionary<Type, ICacheCollection>();
public T GetOrAddItem<T>(int id, Func<int, T> factory) where T : EntityBase
Type t = typeof(T);
if (!_collections.TryGetValue(t, out collection))
collection = _collections[t] = new CacheCollection<T>(factory);
CacheCollection<T> stronglyTyped = (CacheCollection<T>)collection;
This would allow you to write code like the following:
var cache = new GeneralCache();
RedEntity red = cache.GetOrAddItem<RedEntity>(1, id => new RedEntity(id));
BlueEntity blue = cache.GetOrAddItem<BlueEntity>(2, id => new BlueEntity(id));
T derives from
EntityBase but does not have a parameterless constructor, your best bet is going to be to specify a factory method that will generate a
T for the appropriate parameters in your
Like this (note: code modified based on new update above):
public class CacheCollection<T> : List<CacheItem<T>>, ICacheCollection where T : EntityBase
private Func<int, T> _factory;
public CacheCollection(Func<int, T> factory)
_factory = factory;
// Here you can define the Item method to return a more specific type
// than is required by the ICacheCollection interface. This is accomplished
// by defining the interface explicitly below.
public T Item(int id)
// Note: use FirstOrDefault, as First will throw an exception
// if the item does not exist.
CacheItem<T> result = this.Where(t => t.Entity.Id == id)
if (result == null) //item not yet in cache, load it!
T entity = _factory(id);
// Note: it looks like you forgot to instantiate your result variable
// in this case.
result = new CacheItem<T>(entity);
// Here you are explicitly implementing the ICacheCollection interface;
// this effectively hides the interface's signature for this method while
// exposing another signature with a more specific return type.
EntityBase ICacheCollection.Item(int id)
// This calls the public version of the method.
I would also recommend, if your items are going to have unique IDs, to use a
Dictionary<int, CacheItem<T>> as your backing store instead of a
List<CacheItem<T>> as it will make your item lookup O(1) instead of O(N).
(I would also recommend implementing this class using a private member to hold the collection itself rather than inheriting from the collection directly, as using inheritance exposes functionality you probably want hidden such as