Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

In Introduction to Algorithm Ed 3, I read pseudo code algo for inserting element in a linkedlist, and i do not understand the middle step.

x.prev = L.head
if L.head != NIL
    L.head.prev = x
L.head = x
x.prev = NIL

and if my original linked list is HEAD -- 4 -- 24, I understand that the steps are the following:

  1. HEAD -- 4 -- 24

  2. x -- 4 -- 24

  3. HEAD -- x -- 4 -- 24

with 2. corresponding to

x.prev = L.head

Why do we have to insert x before head with

 if L.head != NIL
        L.head.prev = x


Could smbdy clarify ?

share|improve this question
You have changed the pseudo code from CLRS, was it intentional? First line should be = L.head not x.prev = L.head – sowrov Mar 27 '13 at 9:52
yes thanks a lot – user2015146 Mar 27 '13 at 10:46
up vote 1 down vote accepted

Lets say, Initially Head is pointing to node [Y], that means [Y] is the current head. We are going insert new node [X], which will become head node of our list, so head pointer will point to [X].

Here remember that, at the beginning of time (before inserting anything to the list) Head will point to NiL.

Now lets go step by step with the pseudo code to see what is going on:

Current situation of our list is: Head -> [Y], [Y].prev -> NiL, as head is pointing to [Y], so until we change the Head pointer, whenever we use Head you can think/read it as [Y]. Now current head node [Y] will go after [X], so lets set next of [X] = [Y]

1. = L.head  

After the fist statement, we have [X].next->[Y], Head->[Y], [Y].prev->NiL

2. if (L.head != NIL) //At the beginning Head might be pointing to NiL, and of course NiL.prev does not exist and we do not want to access illegal location.
    3. L.head.prev = x //if head is not pointing to Nil then it is pointing to [Y],
                       //in that case [X] will be the prev node of [Y], 
                    //so after this line, have Head->[Y], [X].next->[Y], [Y].prev->[X]  

After 3rd line, we can safely set our list Head pointer to point [X]

4. L.head = x    
5. x.prev = NIL //You can write L.head.prev = NIL, as [X] is now the new head
share|improve this answer

Hint is that

L:head:pre denotes the pre attribute of the object that L:head points to

Then, algo goes as follows

    //HEAD -- 4 -- 24 = l.head
    if L.head != NIL
        L.head.prev = x

    //x -- 4 -- 24

    L.head = x
    x.prev = NIL

   //HEAD -- x -- 4 --24
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.