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How would you go about implementing a priority queue by using a linked list in C. The typical linked list consists of head pointing to an element which points to another element(s), which eventually ends by NULL or the linked list's tail. Example:

(Linked List | Head) ----> (Element | Next) ----> (Element | Next) ----> Null

In the basic scenario, new elements are added to the list by using the first-in (add to the end of the list), first-out (remove from the front of the list) approach.

In my case however, a priority value must be taken into consideration. More specifically, each element can be assigned priority of 1, 2 or 3. Elements with the highest priority are added to the front while those with lower priority are added to the back. So, if one is to enqueue the following elements:

a 3, b 1, c 2, d 3, e 2

The output should be: a 3, d 3, c 2, e 2, b 1 (instead of the standard first-in approach/output)

Here is what I have, but it DOES NOT feature priority. How would you go about implementing a priority queue?


One way would be to use a sorting/priority algorithm. Besides the algorithm, some of the major unknowns/confusion for me is how and where the priority would be stored, would it be within the actual element such as:

(Linked List | Head) ----> (a | 1 | Next) ----> (b | 2 | Next) ----> Null


q_enqueue(&q, "a", "1"); q_enqueue(&q, "b", "2");

and how would I go about comparing the priorities while working with the pointers to create the sorting algorithm.

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Perhaps this is overly pedantic, but a pointer doesn't "point to NULL", it has a NULL value (and points to nothing). –  Chris Lutz Sep 12 '11 at 5:48
@Chris-Lutz A ptr points to NULL if and only if the address of memory it points to == 0. It is possible –  Avery3R Sep 12 '11 at 5:51
Correct. NULL value at the end pointing to... nothing :D. –  John Sep 12 '11 at 5:52
You seem to have implemented a regular queue rather than a priority queue. –  Pavan Yalamanchili Sep 12 '11 at 5:56
@MMavipc - I thought about that but I figured the OP wasn't using any double pointers, so it was probably not important. –  Chris Lutz Sep 12 '11 at 6:35

3 Answers 3

up vote 4 down vote accepted

If you have only three values of priority (or in more general - fixed range of priorities) why can't you implement three separate queues and write a wrapper functions that depending on the priority add/remove the element to certain queue?

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+1: This is by far the most efficient even if you have dozens of priorities. –  Peter Lawrey Sep 12 '11 at 7:39
Interesting idea. So, this would be a queue of O(1) queues allowing the quickest insert? Would it be possible for you to go a step further and demonstrate the approach with code? –  John Sep 12 '11 at 13:01
Sorry, I have no time for writing such code. I am at work :-) I do not think that it must be queue of queues. If you have fixed set of priorities I would go with an array of queues. –  Patryk Sep 13 '11 at 7:36

Whenever you add/move an element within the list, using a sorting algorithm to reorder the elements in the list based on their priority. It may be slow, but it works.

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You should consider implementing a double linked list.

Basically this is like a simple linked list, but there is also a tail node that points to the end of the list, and every element in the list has a pointer forwards and backwards in the list.

So high priority nodes get added to the front,and low priority nodes get added to the end. Both these operations are very efficient with this data structure.

I am not sure where priority 2 nodes get added :)

The overhead above a normal linked list should be negligible.

Doubly linked list - Wikipedia

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I see. The priority 2 should be in the middle :D. –  John Sep 12 '11 at 6:05

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