Following is my code to reverse a linked list:

``````public LinkedList reverse() {
while(temp!= null) {
m.insertFirst(temp.getElement());
temp = temp.getNext();
}
m.getTailNode().setNext(null);
return m;
}
``````

For the local variable LinkedList m i declared in my function, does that mean i am using O(n) amount of additional space or is it considered constant amount of space?

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since you're creating new instance of linked list - you will have 2 copies of list in memory. The list will contain references to objects, so if you want to count instances of objects - then you are safe and amount of additional memory is O(1). But list itself takes some memory, so if you count number of "cells" in lists - then yes, you have O(N) additional memory being used.

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any suggestions on how to implement function in linear time and constant space? –  ueg1990 Sep 11 '12 at 4:13

hi I think one better approach could be reversing the link list without creating the secondary list .

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thats what im trying to figure out....any suggestions? –  ueg1990 Sep 11 '12 at 4:31
i posted a solution above be4 u posted ur answer...can u have a quick look? –  ueg1990 Sep 11 '12 at 4:48

just take three pointer initialize all three at start suppose these pointer are x,y,z then move y=x->next,z=y->next ,y->next=x,x=y; do this until x reaches end of the list .

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this is what i did:

``````public LinkedList reverse1() {
Node temp1 = tail;
Node temp3 = new Node(this.removeFirst());
temp1.setNext(temp3);
temp3.setNext(null);
tail = temp3;
temp2 = new Node(this.removeFirst());
temp2.setNext(temp3);
temp1.setNext(temp2);
temp3 = temp2;
}
return this;
}
``````

is this good enough?

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no need to create new node inside while just exchange the direction pointer of list as I did in my answer posted below . –  birubisht Sep 11 '12 at 7:13
so we do not need to remove nodes?? just change references?? –  ueg1990 Sep 11 '12 at 15:18