# Why exactly do we need a “Circular Linked List” (singly or doubly) data structure?

Why exactly do we need a "Circular Linked List" (singly or doubly) data structure?

What problem does it solve that is evident with simple Linked Lists (singly or doubly)?

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-1 because wikipedia says it all –  Jens Gustedt Aug 28 '10 at 7:05
+1 because the goal of SO is to be the correct first place to look for an answer to a programming question. –  RBerteig Aug 28 '10 at 7:47

A simple example is keeping track of whose turn it is in a multi-player board game. Put all the players in a circular linked list. After a player takes his turn, advance to the next player in the list. This will cause the program to cycle indefinitely among the players.

To traverse a circular linked list, store a pointer to the first element you see. When you see that element again, you have traversed the entire list.

``````void traverse(CircularList *c) {
CircularList start = c;
do {
operateOnNode(c);
c = c->next;
} while(c != start);
}
``````
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A general traversal also needs `if (!is_empty(c)) {` ... `}` around the whole `do .. while` loop. –  u0b34a0f6ae Nov 10 '11 at 16:30

Two reasons to use them:

1) Some problem domains are inherently circular.

For example, the squares on a Monopoly board can be represented in a circularly linked list, to map to their inherent structure.

2) Some solutions can be mapped to a circularly linked list for efficiency.

For example, a jitter buffer is a type of buffer that takes numbered packets from a network and places them in order, so that (for example) a video or audio player can play them in order. Packets that are too slow (laggy) are discarded.

This can be represented in a circular buffer, without needing to constantly allocate and deallocate memory, as slots can be re-used once they have been played.

It could be implemented with a linked-list, but there would be constant additions and deletions to the list, rather than replacement to the constants (which are cheaper).

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A particle system I wrote for a game uses a circular list for the particles. If we run out of unused particles (limited for performance and memory reasons), then we just overwrite the oldest ones (which will just be at the "start" of the loop, as we write to the back). –  Grant Peters Aug 28 '10 at 7:44
Sorry, I can't provide web-links for my claims. Call it original research. :-) The Monopoly board is an invented example to illustrate the idea. I have never seen the code of a Monopoly implementation. The jitter buffer example is based on a few examples of code that I have developed and/or worked on. –  Oddthinking Aug 28 '10 at 16:03
Can't these problems be solved with just a normal linked list together with a loop? –  day Feb 25 at 17:30

A singly linked circular list is a linked list where the last node in thelist points to the first node in the list. A circular list does not contain NULL pointers.

A good example of an application where circular linked list should be used is a timesharing problem solved by the operating system.

In a timesharing environment, the operating system must maintain a list of present users and must alternately allow each user to use a small slice of CPU time, one user at a time. The operating system will pick a user, let him/her use a small amount of CPU time and then move on to the next user, etc.

For this application, there should be no NULL pointers unless there is absolutely no one requesting CPU time.

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Gah, the syntax highlighting is killing my eyes! –  Zolomon Aug 28 '10 at 8:33
@Zolomon, How do i avoid that? I use the editing options given by default. –  Praveen S Aug 29 '10 at 18:14

A circular linked list can be effectively used to create a queue (FIFO) or a deque (efficient insert and remove from front and back). See http://en.wikipedia.org/wiki/Linked_list#Circularly-linked_vs._linearly-linked

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Applications

1) We can use circular linked list any application where the entries appear in a rotating manner.
2) Circular linked list is the basic idea of round robin scheduling algorithm.

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A circular list is simpler than a normal doubly-linked list. Append is just prepend and shift forward once, Pop back is just shift back once and pop front. By tying the two ends together, you get a double-ended list for the cost of just implementing the operations of a one-ended list.

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We can use circularly linked list in resource pooling. If many users want to use a shared resource, we can allocate that resource using circularly linked list.

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