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Is there a way to define the type in a generic class like List to have contain objects which only implent multiple interfaces? Possibly class type and interfaces.

For example:

List<myObjectBase, IDisposable, IClonable> myList;
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Are you saying your wanting the option of those three types to be able to be stored in your list? (so you could stuff a myObjectBase a class that implements IDisposable or a class that implements IClonable?) –  M Thelen Apr 19 '11 at 13:09

6 Answers 6

up vote 6 down vote accepted

Not sure if I understood correctly, but how about this:

class MyList<T> : List<T>
  where T : myObjectBase, IDisposable, IClonable
{
}

This way you can only add objects to the list which derive from the base and implement those interfaces.

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This is a great solution. For the record, what does class inheritance actually cost memory and cpu wise? How much more expensive would it be to say have a single non-inherited class compared to one that inherits 5 times? may not be as elegant if I had to make many like this. For my current case though, this is great. –  jsmars Apr 19 '11 at 13:32
    
@jsmars It's cheap enough that you don't need to care. The cost is fixed; it doesn't matter how long the chain of inheritance is. .NET implements this essentially the same way as C++, using a "vtable" - Wikipedia's article on this is not bad. –  romkyns Apr 19 '11 at 13:37
    
Don't like that solution. To introduce a derived List<T> type to express a commonality of the elements in the container "feels" wrong to me. –  Achim Apr 19 '11 at 13:57
    
@Achim for what it's worth, I'm the one who gave your answer that upvote - I really thought that was going to be the accepted answer :) –  romkyns Apr 19 '11 at 13:59
2  
How would you use this? For example, assume Foo and Bar each inherit the base class and interfaces. MyList<Foo> can't hold bar, and MyList<Bar> can't hold foo. You still need a common ancestor to inherit/implement all constrained type parameters so that foo and bar can coexist in the single list. Or did I miss something? –  Anthony Pegram Apr 19 '11 at 15:13

No. In that case you would have to express that in the following way:

public class CommonStuff : MyObjectBase, IDisposable, IClonable {}

Then you can write:

List<CommonStuff> myList;
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No, multiple generic parameters are not supported.

It wouldn't make much sense either. There would be no benefit of using the generic List<T> class over something like an ArrayList. You would lose all of the type safety benefits and you'd wind up still having to cast things all over the place.

The better option would be to create a composite class that handles all of the things you want to do...and then use that:

public class CommonBase : MyBaseClass, ICloneable, IDisposable
{
}

And then use that as your generic parameter:

var newList = new List<CommonBase>();
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1  
In .net is is possible to have a method accept parameters of generic types with multiple constraints. If one could specify that a List&lt;T&gt; will only store objects which implement IFoo and IBar, then one could pass items from that list to a routine needing a type which implements IFoo and IBar. Otherwise, if IFoo and IBar don't have a common ancestor, there's no nice way of casting an object of some unknown type which implements IFoo and IBar in such a fashion as to allow it to be passed to a routine that demands that its passed-in object implement IFoo and IBar. –  supercat Aug 29 '11 at 22:40

One approach that may be helpful is to define an interface ISelf<out T> whose one member, Self, simply returns "this" as a T; then for any interface IWhatever that might be combined, define a generic version IWhatever<out T> which inherits both the IWhatever and ISelf<T>. In that case, a class Whizbang which implements IFoo<Whizbang> and IBar<Whizbang> will implicitly implement ISelf<Whizbang>, IFoo<IBar<Whizbang>>, IBar<IFoo<Whizbang>>, etc. A routine which needs something that implements both IFoo and IBar can accept a parameter of type IFoo<IBar>; that parameter will implement IFoo; its Self property will implement IBar. Any object which implements multiple interfaces using this pattern may be cast to a nested interface type of the given form using some or all of the interfaces, listed in any order.

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Below is the simplest solution for adding multiple interfaces that worked for me.

List<ICommonInterface> myList = new List<ICommonInterface>()

myFirstClass m1C = new myFirstClass();
mySecondClass m2C = new mySecondClass();

myList.Add(m1C);
myList.Add(m2C);

foreach (var item in myList)
{
    item.Clone();
    item.Dispose();
}

class myFirstClass : ICommonInterface  
{  
// implement interface methods  
}  

class mySecondClass : ICommonInterface  
{  
// implement interface methods  
}  


interface ICommonInterface : IDisposable, IClonable  
{  
}  


interface IDisposable  
{  
    void Dispose(){}  
}  

interface IClonable     
{  
    void Clone(){}  
}  
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You can use an ArrayList and can check the Type of an object in this list - maybe it is handier.

if(list[i] is Type)
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3  
The question is about how to increase static type safety checking and your suggestion is to abandon static type safety checking. This seems like a step in the opposite direction, rather than a solution to the problem posed. Also, use List<object>, not ArrayList, if you want a list of arbitrary objects. –  Eric Lippert Apr 19 '11 at 14:14

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