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I would like to declare a property as:

IList<BaseNode and IComplexType> ComplexTypes { get; }

All elements in the list inherit from BaseNode and implement IComplexType. Is there any way to do this? It won't work to create a class BaseNodeComplexType because the nodes in the list are all sub-classes of BaseNode.

Update: I didn't think this through to explain fully. I have sub classes such as XmlNode. XmlNode inherits from BaseNode. I also have XmlComplexNode that inherits from XmlNode and implements IComplexType. But XmlNode does not inherit from IComplexType (and I don't want it to as I use "obj is IComplexType" in places. apologies for not adding this originally.

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Is there a reason that the nodes in the list have to be subclasses of BaseNode, and not a custom type which is both a BaseNode and a IComplexType? –  Matt Ball Jul 17 '12 at 15:24
@MattBall I'd assume that each subclass implements IComplexType differently, though on further reflection I suppose an intermediate base could implement all the interface members as virtual, and throw NotImplementedExceptions... –  Esoteric Screen Name Jul 17 '12 at 15:25
@EsotericScreenName They can each implement IComplexType however they want if the base class which "implements" IComplexType does so using abstract methods. –  KeithS Jul 17 '12 at 15:30

5 Answers 5

up vote 11 down vote accepted

No, but you could solve it with generics?

class CustomObj<T> where T : BaseNode, IComplexType
   IList<T> ComplexTypes { get; }

For more details about the used generic-constraints, see this page.

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+1 This is pretty much what the OP is asking for "only allow types which derive from BaseNode and implement IComplexType". –  James Jul 17 '12 at 15:27
Yes James, but how are you going to create an instance of CustomObj, what are you going to use as type? I'm not sure if this is this the full-solution... –  Kolky Jul 17 '12 at 15:29
Thank you - perfect. (I'm still not using generics regularly - I need to think of them at times like this.) –  David Thielen Jul 17 '12 at 16:33
@Kolky I may have misunderstood the original question, however, I thought the OP has multiple derivations of BaseNode which implement IComplexType therefore my thinking would be T in this scenario could be BaseType. –  James Jul 17 '12 at 18:29

The correct behaviour would be to derive a new class i.e. ComplexBaseNode which has both the inherited features of BaseNode and interface IComplexType, would it not?

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This. Create an abstract ComplexBaseNode which inherits from BaseNode and implements IComplexType with abstract methods. Then, implementations of ComplexBaseNode are guaranteed to be both of the things you need. Provided that you control all implementations of BaseNode it would be trivial to make them derive from ComplexBaseNode instead. –  KeithS Jul 17 '12 at 15:27
I added an update I should have included in the original question. Otherwise this is a very good solution. Thank you. –  David Thielen Jul 17 '12 at 16:35
Ah I gotcha, I take it Kolky's solution worked correctly then? –  KingCronus Jul 17 '12 at 16:55

There's no direct way to do that.

But you can use generics to achieve that: what about a generic type parameter?

public class YourClass<T> 
  where T : BaseNode, IComplexType

... and your property will look like this:

IList<T> ComplexTypes { get; }
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One major limitation with that approach is that it requires that all the objects that will ever be placed in the list derive from a single known base type which satisfies both constraints. Unfortunately, not only is there no general way of finding a suitable base type--there's no guarantee that such a type will even exist. –  supercat Nov 19 '12 at 20:15
@supercat It'll depend on particular case. In what are you based to say there is no general way of finding a suitable base type [...]? –  Matías Fidemraizer Nov 20 '12 at 8:30
The main situation in which it would be useful to specify both a base-type constraint and an interface constraint is when there exist two more more types (e.g. P and Q) such that P and Q both derive from BaseNode, and they both implement IComplexType, but P does not inherit from Q nor from any of Q's ancestors other than BaseNode, and likewise Q does not inherit from P nor its ancestors. While both P and Q satisfy the constraints above, there is no possible type T satisfying both constraints such that objects of both types P and Q could go into a List<T>. –  supercat Nov 20 '12 at 15:40
There are a few ways one can get around this. One which works pretty well is to define an interface ISelf<out T> with a read-only Self property of type T, and for each interface one wants to combine with other constraints (e.g. IComplexType), define an interface IComplexTypeAndSelf<out T> which inherits both IComplexType and ISelf<T>. If each type which implements IComplexType also implements IComplexTypeAndSelf<[itsowntype]>, then every such object which inherits from BaseNode could be cast to IComplexTypeAndSelf<BaseNode>, and thus be stored in a... –  supercat Nov 20 '12 at 15:46
...IList<IComplexTypeAndSelf<BaseNode>>. Any number of constraints may be combined in this fashion, and typecasts may be done in any order. The two biggest problems with this approach are: (1) An object of the aforementioned type can't be used as a BaseNode without either typecasting or using its Self property; (2) if every object which implements ISelf<T>.Self returns a reference to itself, then an IFooAndSelf<IBarAndSelf<BaseType>> may be safely cast to an IBarAndSelf<IFooAndSelf<BaseType>>, or to a BaseType, or an IBar, etc. but nothing would prevent... –  supercat Nov 20 '12 at 15:50

Where's your IList<> residing. If you use a generic parameter xxx (from your title), you can say where xxx : BaseNode, IComplexType.

Also consider if BaseNode could already implement IComplexType, possibly abstractly.

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The definition of IList<T> means that you can only specify one type for the elements in the list.

Create a container class: ComplexNodeContainer<T,U>, that will contain BaseNode objects implementing also IComplexType, when T=BaseNode and U=IComplexType.

When you set the "contained" object(in the constructor preferably, or via a method/property), you can check whether it implements both types or not, and act accordingly.

You can have two properties to retrieve it, one as type T (or BaseNode), one as type U (or IComplexType in this case).

Then you can define your property as: IList<ComplexNodeContainer>

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