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I hope this question isn't deemed too subjective - I don't really expect a definitive answer, but I hope that everyone's opinion will at least help me form my own.

I'm implementing a custom type system, that is a superset of the classical OOP type system. In this type system, object instances may be combined at runtime to form new instances, while retaining individual identities.

This code:

var p = new Person();
var pa = new Partner(p);

...results in a single combined object, with "p" and "pa" being different OOP-conforming views on it. IOW, changing a property value on one of the views is immediately reflected on any other view that also contains this property.

This all works fine and well, but it's missing two key API's for querying type identities. I would really like to be able to write such code:

if (p is Partner)
{
    (p as Partner).SomePartnerProperty = "...";
}

This of course doesn't work, because the behaviour of "is" and "as" operators can't be overloaded/extended beyond what .NET's OOP rules dictate. Nontheless, I still need this feature in my type system.

My first thought was to use generic extension methods that would attach to all instances of my type system:

public static bool Is<T>(this BaseType target) where T : BaseType { ... }
public static T As<T>(this BaseType target) where T : BaseType { ... }

Ignoring the issue of name conflict in case-insensitive languages, this seems OK in terms of functionality:

if (p.Is<Partner>())
{
    p.As<Partner>().SomePartnerProperty = "...";
}

However, I can't help but wonder - is this really the nicest, most convenient API one can come up with?

How would you advise I implement these two operators so they feel natural to use in application code?

UPDATE: For anyone that is wondering about the purpose of such type system... Basically, each type falls into one of two categories: Identity or Role. In the example I gave above, Person is an Identity (by design), while Partner is a Role (again, by design - it could have been designed differently). The ground rule of this type system is that any number of Roles may be composed with any given Identity, while Identity itself may only be composed with a higher Identity (e.g. a Person may become a Contact, but can never become a Company). Such type system enables applications to transparently deal with e.g. Partner objects, regardless of what Identity they have (e.g. Person, Company, Bank, etc.).

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1  
Wild stab here, but I wonder if you could do this in IronPython easier that in C#? You could still write a bunch of code in C#, just using IronPython where necessary. Maybe someone knowledgeable of OO Python can chime in. –  Josh Pearce Nov 23 '09 at 15:40
    
Could this be described as per-instance (rather than per-type) inheritance? Also, what happens to the underlying p object when you apply pa-specific values? –  Blixt Nov 25 '09 at 7:55
    
You mustn’t ignore case-insensitive languages if you want your library to succeed – but the good news is that case-insensitive languages (at least VB!) can work with such code very well, even though Is and As are reserved words here. The context (i.e. as methods) make this usage feasible. –  Konrad Rudolph Nov 25 '09 at 18:49
    
Yes -- both Python and Ruby can implement a mixin strategy. In the Iron* variants, if each mixin implements an actual C# interface, you should be able to expose the combined object back to the C# layer as an instance of the interface. –  Steve Gilham Nov 26 '09 at 20:04
    
@Blixt: It could. I'd rather say composition though, as there is no real "inheritance" here, at least not in the OOP sense. As to your question... The p is not really the underlying object to pa. They are both just views on a third, composite object hiding behind the scene. In that regard, p and pa don't hold any data by themselves - their properties delegate everything to the hidden object. If one were to say "if (a == pa)", the answer would be "true". –  aoven Nov 27 '09 at 9:41

8 Answers 8

I'd suggest to use two simple functions.

The first one would (at least for me) be intuitive with a name like:

p.IsType(typeHere)
p.IsPartner()

and the second a simple To-Call:

p.ToPartner()

I wouldn't implement those as generics (just doesn't feel right for me), especially the last one not.

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1  
Bobby, how do you feel about the OfType<T>() method in Linq? Generics seems like a good fit here to me... –  Rob Fonseca-Ensor Nov 23 '09 at 15:59
1  
I think he's looking to implement an actual type system, not particular concrete classes like Partner and Person. I don't think this approach will work in that scenario. –  Adam Robinson Nov 23 '09 at 16:00
    
@Rob: That's something I'd expect to be generic (or at least with one argument (the type)). ;) Though, I've never worked with Linq. –  Bobby Nov 23 '09 at 16:05

My reading of what the question is after would be a mixin system for C# -- as discussed at http://stackoverflow.com/questions/255553/is-it-possible-to-implement-mixins-in-c. Bottom line is that there are some ways of getting most of what a proper mixin syntax would permit -- though personally I've never found these workrounds to give a good cost/benefit result.

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And right you'd be! It's basically mixins, with some special constraints on valid compositions sprinkled on top. Thanks for the link - I somehow missed that thread. –  aoven Nov 26 '09 at 16:07

For maintaining complete control over the conversion process (and ensuring that your code is actually run), your approach seems to be the most sensible. You can use explicit and implicit operators to control type conversion (either through implicit conversions or explicit via casting), but there are enough "gotchas" in those systems to make them a less-than-desirable choice for what it looks like you're attempting to architect.

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For C# I think your 'first thought' (e.g. x.Is<T>()) looks fine (offhand I think it's what I would do).

If you go the F# route, you could use active patterns, e.g.

match p with
| IsPartner pa -> DoPartnerStuff(pa)
| _ -> JustPersonStuff(p)
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1  
While in the case of just two alternatives the F# pattern matching is just a fancy if/else, should the full model include multiple possible mutually exclusive roles, this approach gives you much a more "switch"-like style. –  Steve Gilham Nov 25 '09 at 7:57
    
Nice. Using a language that offers greater syntax flexibility would sure solve the problem. :) Unfortunately, I already know that most consumers of this API will be members of the C# and VB croud. –  aoven Nov 26 '09 at 16:03

just some online brainstorming...

class Role {
    public Role(Person p) { p.liRoles.Add(this); }
}
class Partner : Role {
    public Partner(Person p) : base(p) {}
}
class Person { 
    List<IRole> liRoles;
    public T As<T>() { 
        foreach(IRole r in liRoles){ if r is T return r; }
        return null;
    }
    public bool Is<T>() { return As<T>() != null; }
}
var p = new Person();
var pa = new Partner(p);

this should allow something like

if (p is Partner)
   (p as Partner).PartnerMethod();

I haven't run this through a compiler though, so it might be completely wrong ;)

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Thanks, but you missed the point. The problem is not the implementation of IS and AS - I've got that covered just fine. What I'm looking for is the API signature for IS and AS. IOW, how one uses them in app code. And in this regard, your suggestion yields the same effect as my original one. It also retains the same problem: i.e. the slight abuse of generic methods (the argument T in Is<T> is not really used in the signature), which is, naturally, picked up by FxCop. –  aoven Nov 26 '09 at 15:58

Wait... I don't see what's wrong with normal OO code is (unless you have tons of class)

interface IPartner {...}
interface IPerson {...}
interface ICompany {...}

class Person : IPerson {...}
class PersonPartner : Person, IPartner {...}
class Company : ICompany {...}
class CompanyPartner : Company, IPartner {...}

Or course this would be easier with multiple inheritance...

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The actual hierarchies in my type system result in large numbers of possible combinations. Having to declare a class for every combination is not the desired outcome. If it was, there would be no need for a custom type system. :) –  aoven Nov 26 '09 at 16:12

I've been thinking a lot lately about these concepts, and about traits in C#. I think the idea that you have for the type test extension methods doesn't get much better than that (it's almost exactly what I have come up with). Borrowing some terminology from Perl 6 roles, I'd call your Is method Does instead. But I'd leave As unchanged.

But, I don't think that this usage feels natural for what you're trying to achieve:

var p = new Person(); 
var pa = new Partner(p); 

It doesn't look like they'll point to the same instance. Now borrowing from Scala, maybe something like this instead?

var p = new Person(); 
var pa = p.With<Partner>(); 

Anyway, did you finish your API? Is it open-source?

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To me it looks like a Partner is not a Person, but a Partner does have a Person. To me the interface would make sense as

var p = new Person();
var pa = new Partner(p);

pa.SomePartnerProperty = "...";
pa.Person.SomePersonProperty = "...";
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I was expecting such an answer. :) This is the classic OOP solution to my design problem. But it is less than ideal, and I can explain why. When Partner becomes a property of Person ("has a"), this is a one-way relationship, which doesn't work well with terms of a particular domain, where each Partner is considered to be a Person or a Company. It is impossible to have application deal with Partners and still be able to access the data of the Person beneath without some form of a back-reference. A custom type system solves this without "everything having to be a property of everything" mess. –  aoven Nov 23 '09 at 16:18
    
Interesting... I see what you are trying to do. I can't think of a solution that I like which doesn't maintain a "back-reference" –  Bob Nov 23 '09 at 16:29

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