What is the difference between returning IList vs List, or IEnumerable vs List.

I want to know which is better to return.

When we need to use one, what effect will it have on performance?

  • Basically, if you use IList or IEnumerable as return type, you can return ANY object that implements these interfaces. If you specify a concrete class, then you can return only that specific type. – Thangadurai Jan 21 '15 at 6:42
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    There are some guidelines. And the best way to write performant code is to write simple, understandable code, and to have actual performance goals. Once everything is written, measure the performance, and only if things aren't performing well enough should you consider avoiding "simple, understandable" - but make sure you've also measured where the performance is poor and focus attention there. I've never had a situation where changing the return data type would make a significant difference. – Damien_The_Unbeliever Jan 21 '15 at 7:23
  • In terms of performance, it doesn't matter which type you allow your function to return, but what concrete object you are returning. – Jcl Jan 21 '15 at 9:11
  • Thanks Damien for share "Guidelines for Collections" its really great article. – virender Jan 21 '15 at 10:37

There is no such a type that is always better to return. It's a decision you should make based on your design/performance/etc goals.

IEnumerable<T> is nice to use when you want to represent sequence of items, that you can iterate over, but you don't want to allow modifications(Add, Delete etc).

IList<T> gives you everything you could get using IEnumerable<T>, plus operations that give you more control over a collection: Add, Delete, Count, Index access etc.

List<T> is a concrete implementation of IList<T>. I would say that almost always it's better to expose IList<T> interface from your methods rather that List<T> implementation. And it's not just about lists - it's a basic design principle to prefer interfaces over concrete implementations.

Ok, now about non-generic versions IEnumerable, IList, List: They actually came from very early versions of .NET framework, and life is much better using generic equivalents.

And few words about performance: IEnumerable<T>(with IEnumerator<T>) is actually an iterator which allows you to defer some computations until later. It means that there is no need to allocate memory right away for storing amounts of data(of course, it's not the case when you have, say, array behind iterator). You can compute data gradually as needed. But it means that these computations might be performed over and over again(say, with every foreach loop). On the other hand, with List you have fixed data in memory, with cheap Index and Count operations. As you see, it's all about compromise.

  • If client code calls a method that returns an IEnumerable<T>, the client code must now avoid multiple enumeration (e.g. by calling ToList()), because it is possible that (now or in the future) the method returns a sequence with deferred execution - potentially of the slow, expensive kind. Much better, methods should prefer to return IReadOnlyCollection<T>, which is basically IEnumerable<T> with an additional Count property, and the implication that there is no deferred execution. Related (but lacking interfaces): msdn.microsoft.com/en-us/library/dn169389(v=vs.110).aspx. – Timo Jan 10 '17 at 12:36

Using concrete classes in parameters and results of methods makes a strong dependency, while using interfaces don't. What it mean?

If in the future you'll change the implementation of your class, and will use SynchroinizedCollection, LinkedList, or something other instead of List, then you have to change your methods signature, exactly the type of return value.

After that you have to not only rebuild assemblies that used this class, but may have to rewrite them.

However, if you're using one of IEnumerable, IReadonlyCollection, ICollection, IList interfaces, you'll not have to rewrite and recompile client assemblies. Thus, interfaces always preferred classes in parameters and results. (But remember, we're talking about dependencies between different assemblies. With the same assembly this rule is not so important.)

The question is, what interface to use? It depends on requirements of client classes (use cases). F.e. if you're processing elements one by one, use IEnumerable<T>, and if you need a count of elements, use IReadonlyCollection<T>. Both of these interfaces are co-variance that is convenient for a type-casting.

If you need write abilities (Add, Remove, Clear) or non co-variance read only abilities (Contains), use ICollection<T>. Finally, if you need a random indexed access, use IList<T>.

As for performance, the invocation of interface's method a bit slower, but it's insignificant difference. You shouldn't care about this.

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