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Alright, so as you probably know, static inheritance is impossible in C#. I understand that, however I'm stuck with the development of my program.

I will try to make it as simple as possible. Lets say our code needs to manage objects that are presenting aircrafts in some airport. The requirements are as follows:

  • There are members and methods that are shared for all aircrafts

  • There are many types of aircrafts, each type may have its own extra methods and members. There can be many instances for each aircraft type.

  • Every aircraft type must have a friendly name for this type, and more details about this type. For example a class named F16 will have a static member FriendlyName with the value of "Lockheed Martin F-16 Fighting Falcon".

  • Other programmers should be able to add more aircrafts, although they must be enforced to create the same static details about the types of the aircrafts.

  • In some GUI, there should be a way to let the user see the list of available types (with the details such as FriendlyName) and add or remove instances of the aircrafts, saved, lets say, to some XML file.

So, basically, if I could enforce inherited classes to implement static members and methods, I would enforce the aircraft types to have static members such as FriendlyName. Sadly I cannot do that.

So, what would be the best design for this scenario?

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Note: Since every type can have different members, the GUI may look different for each type. That's why every type of aircraft should have a static method (or something else) that returns a set of elements (textboxes, checkboxes, etc - nvm how it is packed up). Again - I don't want to create empty instances for all of the types every time I want to read their details or get the GUI elements. –  yellowblood Apr 9 '10 at 0:48

7 Answers 7

up vote 8 down vote accepted

One answer is to decorate each class with attributes (metadata):

[Description("Lockheed Martin F-16 Fighting Falcon")]
public class F16 : Aircraft
    // ...

This is using the DescriptionAttribute already in System.ComponentModel.

You can get the metadata like this:

Type t = typeof(F16);
DescriptionAttribute attr = (DescriptionAttribute)Attribute.GetCustomAttribute(t,
string description = (attr != null) ? attr.Description : t.Name;

This will get you the description text from a reference to the F16 class.

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Note: If you find yourself doing this type of thing frequently, you can create an extension method that will allow you to just write typeof(F16).GetDescription(). –  Aaronaught Apr 9 '10 at 0:28
Thanks, this look like a good way, but you can't really enforce it, am I right? I mean, a developer could create an aircraft type that does not have this attribute - and I really wanted to find a way to enforce it. –  yellowblood Apr 9 '10 at 0:32
@yellowblood: Yes, a developer could create a type without the attribute. If it were theoretically possible to have overridable static methods, a developer could also choose to return an empty string or null from it or even throw an exception. Either way, you want to code defensively and use good defaults - in my example I've defaulted to using the class name if a description is not available. I do understand that there's a semantic difference, but unfortunately you cannot force attributes to be defined. What you could do is create an FxCop rule that would identify the missing ones. –  Aaronaught Apr 9 '10 at 0:55
Yet again thanks a lot for your help. I will use attributes and at least one custom attribute which the developers will have to write in addition of the aircraft type (I will supply the base-class attribute of course). I just read about FxCop and I don't think I will need it. I will just write a simple validator for the attributes. Case closed I guess, thank you! –  yellowblood Apr 9 '10 at 1:03

Why do you need these properties to be static?

public class Aircraft
protected string AircraftName { get; protected set; }

public class F16 : Aircraft
   public F16()
     AircraftName="F16 Falcon";
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Don't use static methods. use instance methods instead.

Also the top abstract may expose an abstract method that will return the aircraft specific name.

public abstract class Aircraft
    public abstract string Name { get; }
    public abstract string FriendlyName { get; }
share|improve this answer
Generally, yes, but he does clearly explain the use case in his question - he needs to be able to provide a list of available types without actually creating them first. Very common in plugin-like architectures. Creating an instance might be expensive, and if there are 100 different types, it doesn't make sense to create them all just to get a description for each. –  Aaronaught Apr 9 '10 at 0:23
@Aaronaught - to list he can use attributes as you suggested, and to instantiate - either code generation or have hashtable where key = Type and Value = Delegate to constructor. Running delegate is cheaper then Reflection. –  Vitaly Apr 9 '10 at 0:30
Couldn't explain it better, thanks Aaronaught (and to Mendy and David for their answers) –  yellowblood Apr 9 '10 at 0:34
I'm going to use reflection anyway, I kinda forgot to say that new types of aircraft will be included in the software as DLLs, which I will have to parse and present in the GUI. –  yellowblood Apr 9 '10 at 0:36
Could you separate instantiation from construction? If you had a method 'initialize' that was distinct from building the actual object, then you could do use abstraction to enforce your description requirements. –  mmr Apr 9 '10 at 1:24

This is a case where you may benefit from a Factory pattern. Instead of importing specific types of Aircraft, provide a standard IAircraftFactory interface that defines what every Aircraft Factory needs to do for you. This is where you can return descriptions, UI information, etc. The Aircraft Factory is then responsible for creating the particular Aircraft. Because your clients must create a custom Factory in order to expose their Aircraft, they are forced to implement the interface and reminded (via its members) that they have a contract to fulfill.

Something like:

public interface IAircraft
    //Aircraft instance details...

public interface IAircraftFactory
    //Can include parameters if needed...
    IAircraft BuildAircraft();

    //And other useful meta-data...
    string GetDescription();

//In some other Client-provided DLL...
public class MyAircraftFactory : IAircraftFactory
    IAircraft BuildAircraft()
        return new MyAircraft();

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Thank you for the answer. Although Factory Pattern will help me split the meta-data from the instance details, I will still have to create an instance (of MyAircraftFactory) in order to read the meta-data. Assuming I'm already using reflection to read the DLL, shouldn't I avoid it (creating an instance for each type)? –  yellowblood Apr 9 '10 at 1:27
The idea here is that you only ever create one Factory instance for each type of aircraft. You only have to use Reflection to find the factory. Incidentally, this fits very naturally with extension systems like MEF, where you can find all implementations of a specific interface and instantiate them auto-magically. –  Dan Bryant Apr 9 '10 at 1:31
Another advantage of this approach is that your clients have more control over the construction process of the Aircraft, giving them the flexibility to do things behind the scenes, like perhaps cache subsystems that multiple Aircraft use, without having to rely on static state. Any shared state can be nicely encapsulated in the factory or its members. –  Dan Bryant Apr 9 '10 at 1:35
Come thinking of it, if I use the attributes solution I will end up creating instances too - after all attributes ARE instances. The Factory solution gives me more control over the clients, as it is simple as inheritance. Would love to see Aaronaught's reply :) –  yellowblood Apr 9 '10 at 1:37
I actually prefer Attributes if the meta-data is simple (like a description or display name), but you mentioned a more complex requirement involving UI layout. This is crossing into the realm of asking the client to do something, which is beyond what Attributes were really intended to perform. –  Dan Bryant Apr 9 '10 at 1:42

Use an enumeration for the friendly names, and create an instance member of that type for the friendly name. Require the initialization of this member during construction.

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@Aaronaught hit the nail on the head with the plugin-like architecture comment.

What I did the last time I encountered this, was to have a "Descriptor" type that was not terribly expensive to create, and keep the meta data in an instance field.

public class F16Descriptor : AircraftDescriptor
    public override string Name { get { return "Lockheed Martin F-16 Fighting Falcon"; } }
    public override Type AircraftType { get { return typeof(F16); } }

public class F16 : AircraftBase
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An interesting way to solve this problem is to recognize that aircraft types are also an important concept in the design and create them as separate classes, whose instances act as types of aircrafts. This is known as the type object pattern (pdf), and it allows for very flexible designs.

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