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is there any possibility to have a generic List<System.Type> and to have a constraint on the type? I want to store types in a list for a lookup, but only types where the class of this type implements a specific interface.

Something like this:

List<Type> : where typeof(Type) is IMyClass

Is that possible? If not do you have any suggestion on how to solve this issue?

Any help appreciated !

EDIT:

Sorry I haven't been clearer on the subject, but Sign's comment below is correct, I don't have instances available, just types.

Assume the following:

class PluginA : IPlugin { } 
class PluginB : IPlugin { } 
class PluginC : ISomeOtherInterface { } 

var pluginTypes = new List<Type>()
pluginTypes.Add(typeof(PluginA) --> OK
pluginTypes.Add(typeof(PluginB) --> OK
pluginTypes.Add(typeof(PluginC) --> should fail

Yes I could wrap this, but hoped that there would be a better variant which checks during compiletime or hints with intellisense what types are allowed.

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2  
Why not use List<IMyClass> ? –  eandersson Mar 2 '12 at 15:35
4  
Funny that a moderator would post an answer as a comment. +1 anyways. Also never understood the reason people phrase they answers as "Why not just do such and such". Usually my response is, because I didn't know I could do that, which is obviously why I am here in the first place. –  AaronLS Mar 2 '12 at 15:36
2  
I think he means he wants a List<Type> where the contents is limited to type instances of types that implement IMyClass –  Sign Mar 2 '12 at 15:36
2  
@AaronLS not really... Understanding why that doesn't suffice may be key to proving the most suitable answer. It is a request for clarification, not an answer. –  Marc Gravell Mar 2 '12 at 15:36
    
See, I'm reading this as if he wants to store Type, as in metadata, but only for classes with the common ancestor. –  Anthony Pegram Mar 2 '12 at 15:45

7 Answers 7

up vote 6 down vote accepted

if I understood you correctly, you want a list of System.Type which checks that its elements implement a certain interface. This is easy to accomplish. Just implement IList<Type> by wrapping most the List<Type> functionality and add a couple of checkups.

public class TypeFilteredList : IList<Type>
{
    private Type filterType;
    private List<Type> types = new List<Type>();

    public TypeFilteredList(Type filterType)
    {
        this.filterType = filterType;
    }

    private void CheckType(Type item)
    {
        if (item != null && !filterType.IsAssignableFrom(item))
            throw new ArgumentException("item");
    }

    public void Add(Type item)
    {
        CheckType(item);
        types.Add(item);
    }

    public void Insert(int index, Type item)
    {
        CheckType(item);
        types.Insert(index, item);
    }

...

}

this code will work for base classes as well as interfaces.

Example usage:

TypeFilteredList list = new TypeFilteredList(typeof(IInterface));
list.Add(typeof(Implementation));
list.Add(typeof(int)); // ArgumentException

If you however don't need IList functionality, you can implement IEnumerable<Type> or ISet<Type> (wrapping HashSet<T>). List leaves an option to add the same type several times, which it seems to me is something, you don't want.

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+1 It's a shame you have to implement all of IList to achieve this but since all constraints do would say T was Type and not what subset of classes the Type represents... –  kaj Mar 2 '12 at 16:16
    
Thanks for all suggestions, I decided for this solution, but it was a close one between this and Viacheslav Smityukh's answer .. –  SvenG Mar 6 '12 at 8:02

Well you could write your own wrapper:

public class ConstrainedList<T> where T : IMyClass
{
    private List<T> list;

    // Access the list however you want
}

You can't add constraints to List<T> itself though.

You might want to expose the wrapped list directly, or you might want to implement IList<T> and just delegate each member to the list. It's hard to say without knowing more about what you're trying to achieve.

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Okay, I normally wouldn't do this (the answer is so trivial), but as nobody has suggested the most obvious answer... Inheritance.

public sealed class IMyClassList : List<IMyClass> { }

Done and done.

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You can specify any type for the List, so yes:

List<IMyClass> myClassList = new List<IMyClass>();
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You can try using generics like this:

 class EmployeeList<T> where T : IMyClass
 {
     // ...
 }
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Yes - make it a List<IMyClass> then you can store any instance that implements that interface.

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I see only one way to check it at compile time. You can create class derived from the List and write custom generic Add method to do it.

Something like this:

class PlugginsList : List<Type>
{
  public void Add<T>()
    where T : IPlugin
  {
    Add(typeof(T));
  }
}

var plugginList = new PlugginsList();
plugginList.Add<PluginA>() --> OK
plugginList.Add<PluginB>() --> OK
plugginList.Add<PluginC>() --> will fail

You will achive all your goals by using generic method i.e. compile time time checkings, intellisense and all other type cheking tools provided by Visual Studio and C# compiler

share|improve this answer
    
This solution is of course possible and compile time checking is nice. But it still leaves an option to call Add and Insert (non-generic), where incorrect types might be added. –  Primary Key Mar 2 '12 at 16:36
    
This is just a sample to show how to add strong type cheking to solve a current task. –  Viacheslav Smityukh Mar 2 '12 at 17:20

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