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In Class A(What will output the List if it is not empty):

private List<int> _myList = new List<int>
public List<int> MyList {get{return _myList;} set{_myList = value;}}

In Class B:

public bool MyClassBMethod(stuff)
         return false;
     return true;

Is editing a List like this bad practice? Or is it okay?

Edit: I am only adding to the list as such when my method needs to return something else(bool, object, string, etc).

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Looks OK to me. What are you concerned about? –  jrummell May 22 '12 at 20:43
What do you mean "like this". From another class? Via a property? Via the Add method? –  Steven Doggart May 22 '12 at 20:43
Is Class A a public static class? Or how else are you accessing MyList in Class B? –  Nick Babcock May 22 '12 at 20:43
use auto getters and setters public List<int> MyList {get;set;} There isn't a reason to declare the public/private variables like the old days. –  Mr. Manager May 22 '12 at 20:45
Well, looking at your edit ... things change. This code is REALLY ugly. One of the things, don't return true or false to handle errors, use try/catch ... –  Ignacio Soler Garcia May 22 '12 at 21:03

5 Answers 5

up vote 2 down vote accepted

In general, a class should be responsible for managing its own internal state. By giving full public access to a member like this, you are basically saying that Class A is giving up responsibility of that part of its state. It cannot make assumptions about what _myList contains because anyone could change that at any time.

Whether that's good or not depends on what your intent is, but it certainly runs contrary to the ideas of decoupling and encapsulation. Again, whether you want decoupling and encapsulation is up to you.

A better question would be to determine what sort of decoupling between classes A and B would be most beneficial to your design, and then you'd be able to decide what member to expose and how.

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You shouldn't normally do that.

You are exposing a very large interface to the clients of your class, making it difficult to test that your class works in all situations. What happens if someone removes values when you aren't expecting it? Or what if they add a value that is out of range? You can't validate it at the time they call the method on your List, so your class might just suddenly break at some later point in time when it might be difficult to trace where the bad data came from.

It's better to have an Add method on your class that calls the list's Add, and keep the list private. Then you can control what your clients do, and only expose the functionality they need to use (and that you've tested).

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Don't agree at all. This is a really common way of interacting with lists in the .Net framework. –  Ignacio Soler Garcia May 22 '12 at 20:44
@SoMoS: Can you give an example of a class in the .NET framework that exposes a List<T> as a public property? –  Mark Byers May 22 '12 at 20:45
WPF Observable collections. You're always showing them in this way. –  Ignacio Soler Garcia May 22 '12 at 20:46
Not a list but a IList, a IEnumerable or a ICollection, in the context of the question is the same. –  Ignacio Soler Garcia May 22 '12 at 20:47
Exposing an IEnumerable<T> is not at all the same as exposing a List<T>. I wouldn't have a problem with IEnumerable<T>, as long as it makes sense for the situation of course. –  Mark Byers May 22 '12 at 20:56

This is a pretty common practice. What is not so common is to have the set public. Make it private, initialize the list on the A constuctor and you're all set.

public ObservableCollection<int> MyPublicList {get; private set;}

WPF is full of declarations like this one.

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It depends on whether you care about whether the list is exposed or not. By exposing & accessing a public, concrete type, you are exposing an implementation detail and increasing the coupling between the class and its consumers. You are also limiting ClassA's opportunities to enforce data consistency, since its implementations details are no longer encapsulated properly.

Sometimes, this is perfectly acceptable, sometimes, it is not.

I'd say it's acceptable in cases where the object model is dumb. By dumb, I mean that it just contains data. Situations like this often occur when parsing JSON / XML to objects -- things are structured to mirror the data, and behaviour doesn't really matter much, as there's very little of it. It's also more acceptable if you're just hacking away in a small codebase and/or there is limited scope for change, or there is very little behaviour involved.

I'd usually avoid it, though.

Firstly, imagine that the items you add to ClassA's list must be prime numbers. You could easily enforce this check if you write an AddItem() method, but it becomes much harder to do effectively if the list is publicly exposed.

Secondly, suppose you decide to change the list to be a dictionary. You will now likely break the calling code sites (ClassB, for one), as they were previously relying on an implementation detail of ClassA. If, instead, you created methods called AddItem() and RemoveItem() or similar for ClassA, ClassB wouldn't care whether the internal implementation is a Set, Dictionary or List etc, nor would it break when the changes are made.

Guidelines surrounding 'Dotting into things' (like blah.List[3].GetProduct(3).Reviews.First()) has a name: The Law of Demeter.

The salient point of The Law of Demeter is:

The fundamental notion is that a given object should assume as little as possible about the structure or properties of anything else (including its subcomponents).

You often have to write more code, but it insulates against change.

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As always, it depends. If the list is intended to be edited outside of the class (it is part of the interface for that class) and all of the regular list operations are allowed, it is OK. If only a subset of operations are allowed then you should't use it like this - use a custom list (or wrapper around your list) that enforces all of the constraints. For example, if the list must be read-only outside of the class then you could provide a ReadOnlyCollection wrapper outside of the class. It all comes down to enforcing data integrity.

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