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The problem:

class StatesChain : IState, IHasStateList {
    private TasksChain tasks = new TasksChain();

     ...

    public IList<IState> States {
        get { return _taskChain.Tasks; }
    }

    IList<ITask> IHasTasksCollection.Tasks {
        get { return _taskChain.Tasks; } <-- ERROR! You can't do this in C#!
                                             I want to return an IList<ITask> from
                                             an IList<IStates>.
    }
}

Assuming the IList returned will be read-only, I know that what I'm trying to achieve is safe (or is it not?). Is there any way I can accomplish what I'm trying? I wouldn't want to try to implement myself the TasksChain algorithm (again!), as it would be error prone and would lead to code duplication. Maybe I could just define an abstract Chain and then implement both TasksChain and StatesChain from there? Or maybe implementing a Chain<T> class?

How would you approach this situation?

The Details: I have defined an ITask interface:

public interface ITask {
    bool Run();
    ITask FailureTask { get; }
}

and a IState interface that inherits from ITask:

public interface IState : ITask {
    IState FailureState { get; }
}

I have also defined an IHasTasksList interface:

interface IHasTasksList {
    List<Tasks> Tasks { get; }
}

and an IHasStatesList:

interface IHasTasksList {
    List<Tasks> States { get; }
}

Now, I have defined a TasksChain, that is a class that has some code logic that will manipulate a chain of tasks (beware that TasksChain is itself a kind of ITask!):

class TasksChain : ITask, IHasTasksList {
    IList<ITask> tasks = new List<ITask>();

    ...

    public List<ITask> Tasks { get { return _tasks; } }

    ...
}

I am implementing a State the following way:

public class State : IState {
    private readonly TaskChain _taskChain = new TaskChain();

    public State(Precondition precondition, Execution execution) {
        _taskChain.Tasks.Add(precondition);
        _taskChain.Tasks.Add(execution);
    }

    public bool Run() {
        return _taskChain.Run();
    }

    public IState FailureState {
        get { return (IState)_taskChain.Tasks[0].FailureTask; }
    }

    ITask ITask.FailureTask {
        get { return FailureState; }
    }
}

which, as you can see, makes use of explicit interface implementations to "hide" FailureTask and instead show FailureState property.

The problem comes from the fact that I also want to define a StatesChain, that inherits both from IState and IHasStateList (and that also imples ITask and IHasTaskList, implemented as explicit interfaces) and I want it to also hide IHasTaskList's Tasks and only show IHasStateList's States. (What is contained in "The problem" section should really be after this, but I thought puting it first would be way more reader friendly).

(pff..long text) Thanks!

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2 Answers 2

up vote 1 down vote accepted

On the line where you get an error, you're trying to return IList<IStates> as if it was an instance of type IList<ITask>. This doesn't work automtaically, because the two types are different (no matter that the generic parameters are related).

In C# 3.0 or older, there is no way to achieve that automatically. C# 4.0 adds support for covariance and contravariance, which serves exactly this purpose. But as you noted, this works only when the returned collection is read-only. The IList<T> type doesn't guarantee that, so it isn't annotated as covariant in .NET 4.0.

To make this work using C# 4.0, you'll need to use truly read-only type, which has covariant annotation in the framework - the best option in your case is IEnumerable<T> (although you could define your own using the out T modifier).

To add more details, in C# 4.0, you can declare an interface as either covariant or contra-variant. The first case means that the compiler will allow you to perform the conversion you needed in your example (the other case is useful for write-only classes). This is done by adding explicit annotations to the interface declaration (these are already available for .NET 4.0 types). For example, the declaration of IEnumerable<T> has the out annotation meaning that it supports covariance:

public interface IEnumerable<out T> : IEnumerable { /* ... */ }

Now, the compiler will allow you to write:

IEnumerable<IState> states = ...
IEnumerable<ITask> tasks = states;
share|improve this answer
    
Thanks by the answer. What defines what is a truly read-only type in the eyes of C#? What is the mechanism behind allowing IEnumerable<T> and not IList<T>? –  devoured elysium Apr 26 '10 at 23:41
1  
It's explicit (defining in or out notation on the type parameter), not implicit. Google returns a bunch of great results for the following query: google.ch/search?q=covariant+contravariant+in+out –  Lucero Apr 26 '10 at 23:46
    
Sorry, I don't understand what you mean. Is it something new to C# 4.0? Thanks –  devoured elysium Apr 26 '10 at 23:48
1  
Yes, older C# versions did not allow co- and/or contravariance on anything but arrays and type references (even tough the .NET Framework runtime is said to have been supporting it since the introduction of generics V2). –  Lucero Apr 26 '10 at 23:50
1  
I added some more details - I wasn't sure if you're already talking about C# 4.0 or not (since your question explicitly mentioned variance - which is generally quite unfamiliar concept!) –  Tomas Petricek Apr 27 '10 at 0:22

In short, no it is not safe, since a "read-only" IList<> doesn't exist (contract-wise). It's only the implementation which will reject entries, but that's too late, as the call itself would require the interface type parameter to be both co- and contravariant at the same time.

You could, however, return an IEnumerable<> instead, which is covariant in C# 4. Since this is enough to use LINQ, that shouldn't be too much of a drawback and expresses the read-only nature better.

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I've long wished that the hierarchy of Collections.Generic interfaces included read-only variants. Covariance is yet another reason why that would have been great. But because almost all collection interfaces are writable we can't get covariance. Gah!... –  romkyns May 5 '10 at 15:45
    
@romkyns, there are several other "missing" interfaces in the BCL, such as IArithmetic<> on numeric primitives (which would enable generic math operations by using the interface as type constraint), ICharSequence (or similar to enable any char sequence to be used for instance as Regex or StringReader source instead of a string) and so on... –  Lucero May 5 '10 at 22:44

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