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Is there some idiomatic, performance or design philosophy reason why C#'s LinkedList's RemoveFirst() and RemoveLast() operations don't return the value removed?

Right now, if I want to read and remove the first value, I believe the incantation is:

LinkedList<string> list = ...;
string removed = list.First.Value;

In Java, it would be:

LinkedList<String> list = ...;
String removed = list.removeFirst();

Don't get me wrong; I am not trying to say Java is better. C#'s LinkedList has many more affordances, simply by exposing the Node as a public construct. I am trying to understand the design choices.

share|improve this question
To me, it seems like it comes down to precision in method naming. The method should do exactly what it says. What if it were easy to remove the first item but difficult to read its value? (We know that's not the case here, but it could be so in a RemoveFirst method in a different case, like a hypothetical Directory.RemoveFirst). – Justin May 12 '11 at 18:40
well i think you can Override these methods and build you're own. – Burimi May 12 '11 at 18:46
I have not checked, but I doubt very much that you can override these methods. In C#, unlike Java, methods are not virtual by default -- you have to declare them with the virtual keyword if you want to allow them to be overridden. Also, even still, when overriding a method, you can't change its return type. – Charlie Kilian May 12 '11 at 18:48
Because its return type is void ☺ – Larry May 12 '11 at 18:48
Although you CAN declare the method any way you want to if you use the new keyword. However, the new keyword does not automatically make a non-virtual method into a virtual one; instead it replaces the method. Any parent classes of the class you are overriding will not correctly call the new version of your "overriden" method. They will call the method in the parent class. – Charlie Kilian May 12 '11 at 18:50
up vote 8 down vote accepted

I can't really give a definitive answer, as I can't read the minds of the designers of LinkedList<T>. What I can say is this.

In Java, the LinkedList<E> class implements the Queue<E> interface, which reflects a decision on the designers' part: "You know what? A linked list can easily be used as a queue, so we might as well have it implement that interface." And the way you interact with a queue is by popping items off the end, and then, you know, using them for something (which means it's natural for a Pop-like operation to return the element popped).

In .NET, there is no IQueue<T> interface. Basically, the designers made a different decision: "The most efficient implementation of queue-like behavior we know of is a simple array-based circular queue. So if developers want a queue, they should use the Queue<T> class, which is exactly that."

If a developer wants to use a LinkedList<T> as a queue (or a deque for that matter), chances are he/she is picking the wrong implementation for the data structure he/she actually needs (from the .NET point of view).

Thus, in the spirit of "a proper function should do exactly one thing," the BCL folks opted to make LinkedList<T>.RemoveFirst do just that: remove the first element (similar to how List<T>.RemoveAt just removes the element at the specified index and returns nothing).

I'm not saying either decision is right or wrong. I think the different interfaces of the standard linked list class in Java and .NET simply reflect different views of what a linked list is and how it should be used within the two frameworks.

share|improve this answer
very well thought out answer. thanks. – Jeff May 12 '11 at 18:49

The programmer may not always want to return the first node when removing it. If RemoveFirst returned the node and the programmer did not need it, it would still require memory allocation and disposal. Optionally storing the first node (using the First property) and having a separate remove function seems more flexible, in my opinion.

share|improve this answer
I had not considered the value type argument. In Java, the returned value would be an object reference; somewhere between 4 and 8 bytes. But since C# allows much larger value types, I can see how that may incur some non-negligible penalty. – Dilum Ranatunga May 12 '11 at 20:27

Have you considered using a Queue or a Stack collection instead of a LinkedList? you can then push and pop and get the behavior you desire.

share|improve this answer
Yes, and that's what I am using. But I was still curious about this API design choice. Seems like returning a void is a 'waste' of an opportunity. – Dilum Ranatunga May 12 '11 at 20:25

The reason that RemoveFirst and RemoveLast doesn't actually return the value is that internally the LinkedList<T> stores nodes as LinkedListNode<T>. The LinkedListNode object has a concept of Next and Previous but if you remove the object from the parent collection where would these properties point?

share|improve this answer
Just because the value is wrapped in a node doesn't mean the API cannot return the value. Furthermore, returning the node itself is an alternative to returning null. – Dilum Ranatunga May 12 '11 at 20:28
@Dilum Ranatunga, I agree that it could and probably should return the node's Value property. I think the reason that they (Microsoft) didn't do it that way was because it would be inconsistent with the rest of the methods such as Find and Add which all return nodes. – Chris Haas May 12 '11 at 20:38
But returning the node would have been OK too... The more I think about it, the more I think the decision was driven by some design philosophy. – Dilum Ranatunga May 13 '11 at 15:41
I totally agree that it was a design philosophy. However, if it returned a node would you expect Next and Previous to be null then? This is where I think it broke down when designing it. A removed node pretty much only has a Value property, everything else is worthless. So MS decided it wouldn't make sense to return a worthless object. But, they also didn't want to change the pattern of methods turning nodes so they couldn't just return the raw value. So instead they took the road that works for nobody and returned nothing. That's just my guess. I would have returned the Value. – Chris Haas May 13 '11 at 16:51

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