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I have a method with the signature

public void Foo(IDictionary<string, IEnumerable<string>> data)
{
}

and wish to pass in

private Dictionary<string, HashSet<string>> myInput = 
    new Dictionary<string, HashSet<string>>()
{
};      

The line

Foo(myInput);

yields the compiler error:

Argument 1: cannot convert from System.Collections.Generic.Dictionary<string,System.Collections.Generic.HashSet<string>> to System.Collections.Generic.IDictionary<string,System.Collections.Generic.IEnumerable<string>>

Dictionary<K,V> implements IDictionary<K,V> and HashSet<T> implements IEnumerable<T>.

  • Why is the compiler unable to perform the conversion?
  • How can I create an instance of data that I can pass to Foo?

NOTE

If I change the signature to

public void Foo(IDictionary<string, HashSet<string>> data)

the compilation succeeds. However, I do not need any knowledge that a concrete type such as HashSet<T> is being passed in. Any IEnumerable<T> will do.

UPDATE

The following compiles:

public void Foo(IDictionary<string, IEnumerable<string>> data)
{
    List<string> item = new List<string>() { "foo", "bar", "baz" };
    data.Add("key", item);
    HashSet<string> item2 = new HashSet<string>() { "quu" };
    data.Add("key2", item2);
}

so clearly data can accept mixed-type values that all implement IEnumerable<T>

share|improve this question
    
    
@poke: I have read that before but don't understand how it applies in this situation. The answer is probably lurking there somewhere (question is tagged covariance). – Eric J. Apr 29 '14 at 0:46
    
The problem here is with the IDictionary<TKey, TValue> interface. Neither of its type parameters are covariant. So that keeps anything that's not exactly of that type from being assigned. Period. – Jesse C. Slicer Apr 29 '14 at 1:47
up vote 4 down vote accepted

The reason why this isn’t work is because of restrictions about covariance and contravariance in generics. The best way to explain this is to show an example of why this has to fail.

Assuming Foo has a valid signature, the type system promises that the following works:

var myInput = new Dictionary<string, HashSet<string>>();

// assuming a valid signature for `Foo`
Foo(myInput);

// according to the type of `myInput` the following MUST work
HashSet<string> item = myInput["foo"];
item.Add("baz");

That is what absolutely has to work. So anything Foo does has to make sure that this still works.

So ignoring above for a moment, let’s assume the following valid implemention for Foo:

public void Foo (IDictionary<string, IEnumerable<string>> data)
{
    List<string> item = new List<string>(){ "foo", "bar" };
    data.Add("foo", item);
}

Because List<string> implements IEnumerable<string>, adding a list object to the dictionary that stores IEnumerable<string>s absolutely works. Again: Above is a valid implementation of Foo for its signature.

However, if we now combine both code segments, it falls apart: The object stored at key "foo" is not a HashSet<string> but a List<string>. So the assignment at HashSet<string> item = myInput["foo"] would fail. But here is a conflict! The type system should ensure that the assignment works no matter what happens inside Foo; but the implementation of Foo is also completely valid for its signature.

So instead of making some arbitrary and intransparent rules here, this is simply not allowed. The type system just prevents such calls of Foo with an incompatible parameter. And no, because IDictionary is invariant, it isn’t possible to work around this restriction.

share|improve this answer
    
OK, so part 2 - how can I instantiate data that I can pass to Foo? Or is that principally impossible? – Eric J. Apr 29 '14 at 1:06
    
Have a look at my edit. It turns out, you can add both a List<string> and a HashSet<string> to IDictionary<string, IEnumerable<string>> data – Eric J. Apr 29 '14 at 1:12
    
Yes, the implementation of Foo isn’t the problem. My implementation above is valid, just like your implementation in your question is. But passing a more specific type to the function will fail because its original type cannot be enforced any longer (see my edit for an example). – poke Apr 29 '14 at 1:16
    
Regarding you edit Because then something like this would be the case - I don't see that. data's values only implement IEnumerable<string>. You would have to attempt to cast to HashSet<string> in HashSet<string> item = myInput["key"];. The cast would fail for the List<string>. – Eric J. Apr 29 '14 at 1:16
    
But the type system promises me that it works. If I have a dictionary that stores hash sets, and anything happens to the dictionary (inside Foo), then I can still get items from it which are of type HashSet. That’s irrelevant of what happens inside Foo. – poke Apr 29 '14 at 1:18

@poke's answer gives you the why, so I won't spend much time on that.

You can manage this restriction by using a generic method with a where restriction like this:

public void Foo<T>(IDictionary<string, T> data)
    where T : IEnumerable<string>
{
}

Now your Foo method accepts any type of object that implements IEnumerable<string>, regardless of the solid type of the enumerable. You can do anything you like to the dictionary apart from add items with content.

But let's say that you do want to add some items:

public void Foo<T>(IDictionary<string, T> data)
    where T : ICollection<string>, new()
{
    var col = new T();
    col.Add("bar");

    data["col"] = col;
}

Here's a quick test:

var a = new Dictionary<string, HashSet<string>>();
var b = new Dictionary<string, List<string>>();
var c = new Dictionary<string, LinkedList<string>>();

Foo(a);
Foo(b);
Foo(c);

Compiles and runs fine. All three dictionaries end up with a new collection of the appropriate solid type containing the string bar.

What you can't do is add a collection of the wrong type to the Dictionary. Ever. Whatever operation you try to perform on the object must be consistent with the solid type of that object. Which is why the Foo method needs to be generic in this case.

share|improve this answer
    
Certainly answers Part 2 of the question. – Eric J. Apr 29 '14 at 17:17

As per my comment, here's the way to make your call work with a little help from LINQ:

Foo(myInput.ToDictionary(kvp => kvp.Key, kvp => kvp.Value.AsEnumerable()));
share|improve this answer
2  
While this allows you to call Foo with the contents of myInput transformed to an appropriate format, the desired side-effects of Foo will now operate on the temporary Dictionary<string, IEnumerable<string>> instead of on myInput itself. – Corey Apr 29 '14 at 2:57

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