I'm writing up a generic method that needs to internally use a Dictionary keyed by the generic parameter.

I don't want to impose any constraint on the generic parameter itself, in particular no notnull constraint. However, the method would be capable of handling nulls explicitly, and of course not adding any null keys to the dictionary it's using.

Is there any best practice for doing so?

By default, the compiler warns that the generic key type doesn't match the notnull constraint of Dictionary<,>.

See an example below. Unless I'm missing something, this should be perfectly safe. But how can I best convey this to the compiler? Is there any way other than suppressing the compiler warning here?

public static int CountMostFrequentItemOrItems<T>(params T[] values)
    var counts = new Dictionary<T, int>();  // The type 'T' cannot be used as type parameter 'TKey' in the generic type or method 'Dictionary<TKey, TValue>'
    var nullCount = 0;
    foreach(var value in values)
        if (value is null)
        else if (counts.TryGetValue(value, out var count))
            counts[value] = count+1;
            counts[value] = 1;

    // ... combine results etc ...
  • 6
    @CthenB Neither of those answer the question. OP knows that dictionaries don't support null keys -- the question is very clear on this. The question is about now to structure NRT annotations to tell the compiler that even though T is nullable, the dictionary will never be given a null key
    – canton7
    Nov 23, 2022 at 10:10
  • 3
    @canton7 I think suppressing by "#pragma warning disable/restore CS8714" works .. but is a little ugly!
    – Bogey
    Nov 23, 2022 at 10:16
  • 2
    As a side note, the CountMostFrequentItemOrItems method could be optimized with the CollectionsMarshal.GetValueRefOrAddDefault API (usage example). Nov 23, 2022 at 10:18
  • 2
    @MatthiasAuswöger the GroupBy is an inefficient solution for this problem. What you need is the CountBy, which is currently just a proposal. Nov 23, 2022 at 10:21
  • 2
    The "proper" solution would be to support some variation of MaybeNull/NotNull on the type parameter itself (so not as a constraint), as that's the usual way to work around situations where you know better than the compiler, but .NET doesn't currently offer this (support for attributes on type parameters was added at some point, though, so this could be done). Suppressing the warning is the correct approach here -- that's why nullability analysis is warnings in the first place, since we know the compiler can't do this perfectly with the approach C# has chosen. Nov 23, 2022 at 11:16


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