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Do not expose generic lists

IF all my methods, need to expose a collection, then I need to user the Linq Extension .ToList(), almost everywhere I need to use lists, or user Collections in all my code.

If that’s the case, .ToList() is ignoring the rule right? Or is there a technique like copying the list o something to fix the violation and still return a list?

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3 Answers 3

up vote 6 down vote accepted

I disable that rule because I don't feel like it's a valid one. In you want to return a collection which contains a O(1) count and is not a direct reference to an internal field, List<T> is the best choice.

I don't deeply understand your case here but it sounds like you have a method which returns a LINQ query over some internal data. If that's the case then using a .ToList() on the data is appropriate since you likely don't want future modifications of your internal fields to affect the return value of a method. In that case there is no reason to not expose it as a List<T>.

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@Fraga, Nope it's not cheating and a I frequently disable certain rules for varying reasons. They are not universal truths and often get in the way of designing quality libraries. –  JaredPar Jun 15 '10 at 14:42
They're more like "guidelines" anyway. –  Anthony Pegram Jun 15 '10 at 14:45
IList<T> is preferable as the return type if you do want to return a list. I generally still use IEnumerable<T> as the return type (even if I call .ToList() or .ToArray()), as this gives the implementing method more flexibility. Most LINQ functions are smart enough to optimize access when the underlying object is IList<T>. In particular, .Count() and .ElementAt() are both still O(1) operations, so you don't take a major performance hit by returning IEnumerable<T>. –  Dan Bryant Jun 15 '10 at 14:49
@ R. Bemrose, The concern, I believe, is that you're exposing an implementation detail if you return a List<T>. If your function later uses some different data structure, changing the return type would be a breaking change, so you could end up creating a copy or wrapper in order to maintain the public interface. You have to decide how much information you wish to guarantee in your public contract and the less, the better. –  Dan Bryant Jun 15 '10 at 14:54
@Fraga, Microsoft's own assemblies don't obey this rule (see System.Core) so it's definitely not an immutable truth. –  JaredPar Jun 15 '10 at 14:57

This rule can indeed be noisy, but there are some very valid reasons to avoid List<T> in library code. It all depends on the context. Here are a few things to consider before disabling the rule or suppressing a given occurrence:

  • List<T> is often a poor choice for input parameters as it forces callers to copy data unnecessarily. I have seen lots of code that declares parameters as List<T> or T[] when IEnumerable<T> would suffice.

  • List<T> can be a poor choice for properties as well. Consider the following alternatives:

    public class Course {
        public List<Course> Prerequisites { get; }
    public class Course {
        public Collection<Course> Prerequisites { get; }

    The intention is that the caller can change a course's prerequistes by modifying the collection. In that case, if we use List<Course>, there is no way for the Course class to be notified when the prerequisites change since List<T> does not provide any modification callbacks. As such, using List<T> in this context is like having arbitrarily many public fields. On the other hand, we can subclass Collection<T> and override its virtuals to be notified of changes.

List<T> works best as a return value when complete ownership of the collection is transferred to the caller. This is why Enumerable.ToList() is actually perfectly reasonable and it does not violate the spirit of the rule.

Now that I think about it, allowing List<T> as a return value from methods, but continuing to flag List<T> properties and parameters would probably greatly improve the rule's signal to noise ratio...

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If Course simply wants to be notified when its prerequisites change, then BindingList<Course> would be a good option. It has events you can subscribe to, instead of having to derive a new class as with Collection<Course> –  Ben Voigt Jul 13 '10 at 1:19
@Ben Voigt Indeed. There is also ObservableCollection<T>. My point was not that Collection<Course> is necessarily the best choice, just that List<Course> is a poor choice in this context. –  Nick Guerrera Jul 13 '10 at 1:26

Remember that all these rules were written for framework developers. Many of them are likely to be unsuitable unless you're also writing a framework.

You'll have to make a judgement call for every rule to see if it's valid for your circumstances. I like to use the analysis since it does find some bugs sometimes, but I always end up disabling certain rules (for example, I quite often have a catch Exception as a final catch-all just because I need to log all kinds of errors even if they can't be handled).

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