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The IDictionary<TKey, TValue> in .NET 4 / Silverlight 4 does not support covariance, i.e. I can't do a

IDictionary<string, object> myDict = new Dictionary<string, string>();

analog to what I can do with IEnumerable<T>s now.

Probably boils down to the KeyValuePair<TKey, TValue> not being covariant either. I feel that covariance should be allowed in dictionaries at least for the values.

So is that a bug or a feature? Will it ever come, maybe in .NET 37.4?

UPDATE (2 years later):

There will be an IReadOnlyDictionary<TKey, TValue> in .NET 4.5, but it won't be covariant either :·/, because it derives from IEnumerable<KeyValuePair<TKey, TValue>>, and KeyValuePair<TKey, TValue> is not an interface and thus cannot be covariant.

The BCL team would have to redesign a lot to come up and use some ICovariantPair<TKey, TValue> instead. Also strongly-typed indexers á la this[TKey key] aren't possible for covariant interfaces. A similar end can only be achieved by placing an extension method GetValue<>(this IReadOnlyDictionary<TKey, TValue> self, TKey key) somewhere which would somehow internally have to call an an actual implementation, which arguably looks like a quite messy approach.

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4  
Thanks for providing the update on .NET 4.5. IMHO it would be useful to have covariance on a read-only dictionary so it's too bad that it's not looking like it will be supported. –  dcstraw Mar 21 '12 at 20:12

4 Answers 4

up vote 34 down vote accepted

It's a feature. .NET 4.0 only supports safe covariance. The cast you mentioned is potentially dangerous as you could add a non-string element to the dictionary if that was possible:

IDictionary<string, object> myDict = new Dictionary<string, string>();
myDict["hello"] = 5; // not an string

On the other hand, IEnumerable<T> is a read-only interface. The T type parameter is only in its output positions (return type of the Current property) so it's safe to treat IEnumerable<string> as an IEnumerable<object>.

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Ahh ok, of course, I indeed was intending for read-only use. The .NET library surely does miss a read-only Dictionary type. Someone should post another question about that issue one of these days. ;-) –  herzmeister Jan 27 '10 at 19:11
1  
In theory covariance is safe, but a quirk from .Net 1.0 may throw a slight spanner in the works. Because Derived[] is considered to inherit from Base[], a Derived[] will implement IList<Base>; such an IList<Base> will work correctly for reading, but will throw an exception when written to. –  supercat Dec 3 '12 at 18:01

But then you could say

myDict.Add("Hello, world!", new DateTime(2010, 1, 27));

which would fail miserably. The issue is that the TValue in IDictionary<TKey, TValue> is used in both input and output positions. To wit:

myDict.Add(key, value);   

and

TValue value = myDict[key];

So is that a bug or a feature?

It's by design.

Will it ever come, maybe in .NET 37.4?

No, it's inherently unsafe.

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.NET 4 only supports out covariance not in. It works with IEnumerable because IEnumerable is read only.

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6  
"in covariance" is a misnomer. That would be contravariance, and it is supported in .NET 4 and is useful in certain scenarios. –  dcstraw Mar 21 '12 at 20:08

A work around for a specific type of useful covariance on idictionary

public static class DictionaryExtensions
    {
        public static IReadOnlyDictionary<TKey, IEnumerable<TValue>> ToReadOnlyDictionary<TKey, TValue>(
            this IDictionary<TKey, List<TValue>> toWrap)
        {
            var intermediate = toWrap.ToDictionary(a => a.Key, a =>a.Value!=null? a.Value.ToArray().AsEnumerable():null);
            var wrapper = new ReadOnlyDictionary<TKey, IEnumerable<TValue>>(intermediate);
            return wrapper;
        }   
    }
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