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In my project, I am creating generic interfaces to be used by a number of classes. This includes some properties that must always be present.

Some of the classes will be generic, and therefore the property must be changeable at run-time. Some of the classes will be highly specialized, and therefore, the value of the property will be hard-coded. I would like to be able to use Bindings in the user interface to display and, where possible, edit the values. Also, I can imagine that at some point, I would want to use reflection to determine if the properly is settable.

What is the best way to accomplish this?

1) Define the properties as read-write in the interface, but have an empty setter in the specialized classes. This appears to be a somewhat common practice, but I am concerned with how binding and reflection would work. A UI control would still appear editable, just that the change by a user would not take, right?

2) Define the properties as read-only in the interface, but provide a setter in the generic classes. I would expect that the UI, bound to use the interface, would still see the property as read-only, and not allow editing.

3) Define the properties as read-only in the interface, but provide some other function to change the value in generic classes. This clearly breaks the property paradigm, and a binding wouldn't know about it to allow editing.

Is there some other way to enable or disable the setters that would be recognized by bindings and reflection?

share|improve this question
up vote 2 down vote accepted

OK, here my 2 cents - you might not like what I am going to say.

If you have a property that is read-only sometimes and read-write other times and constant in the rest, you are having a leaky abstraction here were polymorphism probably will only result in confusion to the clients of your classes.

So either I would have 2 interfaces one with read-write the other read-only, or just abandon polymorphism for such properties.

share|improve this answer
    
I actually agree with the leaky abstraction here, which was the reason for my question. Would I have IMyInterface with the read-only property, and IMyEditableInterface with the same property as read-write, and then implement IMyEditableInterface where I need it? For the UI, I would probably need to have a different control for the two versions, but that might no be so bad... – mbmcavoy Mar 22 '11 at 21:22
    
It is very difficult to say without knowing the detail of the Domain. The point is not which abstraction to use, but to use an abstraction which represents your model best. I would say if two interfaces work, then use it. In fact one interface could only contain write-only so if an object implements both then it is read-write... – Aliostad Mar 22 '11 at 23:48
    
Thinking about this more, the read-only use case and read-write use cases are different. The property is always used for calculation; in certain classes this will be fixed hard or calculated based on other properties. In the read-write case is to support other cases where the value is constant for calculation purposes, but may be changed by the user. So, having one standard interface (including the read-only property) for calculation, and a different highly variable interface to support user changes makes sense now. In this simple case, the two properties could share a backing field. – mbmcavoy Mar 24 '11 at 16:50

You should definitely only have a getter on the properties in your interface. Having a setter that is not always implemented will only lead to confusion.

You can then implement a setter in the appropriate classes. Depending on your application, you might want to create an extended interface that allows for your property to be set.

Example:

    public interface ITest
    {
        int Test { get; }
    }

    public interface ITestExtended : ITest
    {
        new int Test { get; set; }
    }

    public class Monkey : ITestExtended
    {
        public int Test { get; set; }

        // Be carefull to explicitly implement the original interface
        int ITest.Test
        {
            get
            {
                return 7;
            }
        }
    }

    public class MonkeySimple : ITest
    {
        public int Test
        {
            get { return 10; }
        }
    }

    class Program
    {
        static void Main(string[] args)
        {
            ITestExtended monkey = new Monkey() { Test = 5 };
            ITest monkeySimple = monkey;

            Console.WriteLine(monkeySimple.Test);
            Console.WriteLine(monkey.Test);

            // Compiler error
            //monkeySimple.Test = 6;

            Console.ReadKey();
        }
    }
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Note: Both this answer and the one from Aliostad are very similar. I selected this as the answer for two reasons: 1) It is more concise and 2) it suggests an extended interface – mbmcavoy Mar 22 '11 at 23:33
    
I originally accepted this answer, but after progressing, I found some problems. Perhaps other languages are different, but at least in C# it seems that a setter cannot just be added to an existing read-only property. Extending this on a subclass leads to problems with polymorphism, as I must define a new getter, and I cannot override the one in the parent class; in some cases I want to. If I am using the object as the parent type, the getter on the parent class code is called instead getter on the subclass. This is potentially very dangerous! – mbmcavoy Mar 24 '11 at 16:41
    
FYI, I still think this was a helpful answer, and I learned a lot from exploring it. Mainly, I did not realize that interfaces can inherit and be polymorphic - this is incredibly powerful (even though this is evident in the .NET framework). However, in C# a read-only property cannot be extended to read-write without hiding the original property, and this causes problems. – mbmcavoy Mar 24 '11 at 16:58

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