# Inserting a node into a linked list in constant-time?

I'm working on an assignment that is telling me to assume that I have a singly linked list with a header and tail nodes. It wants me to insert an item y before position p. Can anybody please look over my code and tell me if I'm on the right track? If not, can you provide me with any tips or pointers (no pun intended)?

``````tmp = new Node();
tmp.element = p.element;
tmp.next = p.next;
p.element = y;
p.next = tmp;
``````

I think I may be wrong because I do not utilize the header and tail nodes at all even though they are specifically mentioned in the description of the problem. I was thinking of writing a while loop to traverse the list until it found p and tackle the problem that way but that wouldn't be constant-time, would it?

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Is position 'p' supposed to be an index, or a pointer/reference to a particular node in the list? – Alnitak Nov 16 '08 at 19:17
that actually confused me as well, the problem is very vague and doesn't specify. It just says "Insert item y before position p" – VeePee Nov 16 '08 at 19:23
Assuming p is a pointer to a node, you're nearly there. Sometimes there's extra information in these questions, but in this particular case, there is something you'll have to do with head and or tail... – Blair Conrad Nov 16 '08 at 19:47

Just write it down if you get stuck with an algorithm:

``````// First we have a pointer to a node containing element (elm)
// with possible a next element.
// Graphically drawn as:
// p -> [elm] -> ???

tmp = new Node();
// A new node is created. Variable tmp points to the new node which
// currently has no value.
// p   -> [elm] -> ???
// tmp -> [?]

tmp.element = p.element;

// The new node now has the same element as the original.
// p   -> [elm] -> ???
// tmp -> [elm]

tmp.next = p.next;

// The new node now has the same next node as the original.
// p   -> [elm] -> ???
// tmp -> [elm] -> ???

p.element = y;

// The original node now contains the element y.
// p   -> [y] -> ???
// tmp -> [elm] -> ???

p.next = tmp;

// The new node is now the next node from the following.
// p   -> [y] -> [elm] -> ???
// tmp -> [elm] -> ???
``````

You have the required effect, but it can be more efficient and I bet you can now find out yourself.

It is more clear to write something like:

``````tmp = new Node();
tmp.element = y;
tmp.next = p;
p = tmp;
``````

Which of course does not work if p is not mutable. But your algorithm fails if p == NULL.

But what I meant to say, is, if you have problems with an algorithm, just write the effects out. Especially with trees and linked lists, you need to be sure all pointers are pointing to the righ direction, else you get a big mess.

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wait, so I guess I was a little confused. When I do tmp.element = p.element I don't just make the value data contained in the nodes equal, I also make the pointers point to the same thing as well? – VeePee Nov 16 '08 at 19:16
or am I misunderstanding your visualization – VeePee Nov 16 '08 at 19:18
now I'm confused? why did you retype his code? – warren Nov 16 '08 at 19:22
I retyped, to show the effects. But I think it causes more confusion than clarification, so I'm adding a bit more text. – Toon Krijthe Nov 16 '08 at 19:38

Hint: insertion into a linked list is only constant when position n = 0, or the head of the list. Otherwise, the worst-case complexity is O(n). That's not to say that you cannot create a reasonably efficient algorithm, but it will always have at least linear complexity.

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Not true. It's possible to maintain both a head and tail pointer in a linked list. In this case it's possible to have O(N) insertion to head and tail of the list. – JaredPar Nov 16 '08 at 19:21
@JaredPar - don't you mean O(1) ? – Alnitak Nov 16 '08 at 19:24
@JaredPar: The worst case complexity would still be O(n) – Federico A. Ramponi Nov 16 '08 at 19:39
If you have a reference to the point before or after your intended insertion, you can always do constant time. That's why the question of whether p is an index or a pointer is important. – Blair Conrad Nov 16 '08 at 19:49
For a singlely-linked list, and a pointer p into the list, you can only insert after p, not before it. – Douglas Leeder Nov 16 '08 at 21:12

The reason why the header and tail node is given in the question is to the update the header and tail reference if the the replacement node that your creating happens to become the header or tail. In other is words, the given previous node is either a header or tail.

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What you are not doing is linking the element that was before p prior to insertion of y to y. So while y is inserted before p, no one is pointing to y now (at-least not in the code snipped you showed).

You can only insert in constant time if you know the positions of the elements between which you have to insert y. If you have to search for that position, then you can never have a constant time insertion in a single link list.

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when I do tmp.element I want to change the data portion of the node but not the pointer. Is this not the correct way to do this? Is there such thing as tmp.value in java? – VeePee Nov 16 '08 at 19:31

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``````create a node ptr
ptr->info = item //item is the element to be inserted...
ptr->next = NULL
if (start == NULL) //insertion at the end...
start = ptr
else
temp = ptr
while (temp->next != NULL)
temp = temp->next
end while
end if
if (start == NULL) //insertion at the beginning...
start = ptr
else
temp = start
ptr->info = item
ptr->next = start
start = ptr
end if
temp = start //insertion at specified location...
for (i = 1; i < pos-1; i++)
if (start == NULL)
start = ptr
else
t = temp
temp = temp->next
end if
end for
t->next = ptr->next
t->next = ptr
``````
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In a singly LinkedList only adding a Node to the beginning of the list or creating a List with only one Node would take O(1). OR as they have provided the TailNode also Inserting the Node at End of list would take O(1).

every other inserting operation will take O(n).

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