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Hiii ...

If we are given two linked lists (may be of different length) such that a few nodes from the end are common ... How do we find the first common node in least time as possible ... ?

The lists are singly linked . Some nodes are common from the end and we need to find the first common one for both among them FROM THE END.

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Is this homework - it certainly sounds like it. Please tag as such. –  Will A Sep 18 '10 at 4:32
Not enough information. Are the lists singly or doubly linked? Do you have a tail pointer? What does "a few nodes from the end are common" mean exactly? Does "first common" mean closest to the head or closest to the tail? –  Matthew Flaschen Sep 18 '10 at 4:32
At least try and come up with an answer to your homework first, before you post here. –  Shaggy Frog Sep 18 '10 at 5:24
@Will: Why? How does the tag help you to better answer the question? –  Roger Pate Sep 19 '10 at 20:09
@Will: I'm confused. "No," it doesn't help give a better answer, but it helps give a better answer? Couldn't you tell from the way the question was asked that a particular approach might be appropriate? (Isn't this what we automatically do for any question?) How does the tag help? Use tags for the question's content, not to identify properties of the asker, such as "assigned by a teacher". –  Roger Pate Sep 19 '10 at 22:05

3 Answers 3

  • Count both lists - O(n)
  • Skip the difference between the lists length on the longer list
  • Iterate simultaneously over lists until a common node found - O(n)

Total complexity: O(n)

For example:


We expect to get 7 since it's the first common node.

  1. Counting the lists - first = 6, second = 4.
  2. Skipping two (6-4=2) elements in the first (longer) list.
  3. Iterating simultaneously
    3.1. 3==5 is false
    3.2. 4==6 is false
    3.3. 7==7 is true then 7 is the common node
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what about if both list have same no of elements –  TalentTuner Sep 18 '10 at 4:58
@saurabh, do you mean they have no common elements at all? Or they have common elements that followed by non-common elements? –  Elisha Sep 18 '10 at 5:11
@saurabh: then you skip zero elements before searching for the first common element (remembering to check that the following ones also match). –  Jonathan Leffler Sep 18 '10 at 5:39
Don't forget that if you have list 1 as 1-2-3-4-7-8 and list 2 as 3-6-7-8, the common tail is 7-8 and does not start at 3 (though that is the first element in common). –  Jonathan Leffler Sep 18 '10 at 5:40
@Jonathan Leffler, that's true. It can be fixed by remembering the last common node preceded by non-common node. It doesn't change much the algorithm and the complexity remains the same. –  Elisha Sep 18 '10 at 5:45

Assuming each linked list has a completely unique set, the only method I see is to use a nested for loop which would be terribly inefficient. If the data sets are not unique you could use a third (linked) list as a cache of only unique nodes but your still looking at a worst case of O(n²)

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+1....we should help by giving for theory for theory, Not code for every theory. He might never try to understand if he gets the cooked up code for his homework question. –  loxxy Sep 18 '10 at 5:29
I guess I was allowing for unsorted lists and matches that aren't at the same "index." This would require O(n²) –  Puddingfox Sep 18 '10 at 14:55

An O(n) solution to find the first node in one of the lists with the same value. You can then extract the value from that node.

All code sections (comments) are O(1) unless otherwise specified and there are no nested O(n) operations. Hence the entire solution is O(n).

It works by counting the elements in each list then advancing the pointer for the longest list so that the ends are aligned.

Then it steps through both lists in a synchronised fashion. If the nodes match and haven't previously matched, it saves that node (not just if they match since you want the earliest match in a sequence).

If they don't match, you save that fact so that a subsequent match will be considered the earliest in the sequence.

By the time you get to the end of both lists, you either have an indication that there was no match (if the final node of both lists are different) or the earliest match in the sequence.

Pseudo-code only of course, since it's homework:

def findCommonNode (head1, head2):

    # Work out sizes O(n)

    set count1 and count2 to 0

    set ptr1 to head1
    while ptr1 is not equal to NULL:
        increment count1
        set ptr1 to ptr1->next

    set ptr2 to head2
    while ptr2 is not equal to NULL:
        increment count2
        set ptr2 to ptr2->next

    # If either size is 0, no match possible.

    if count1 == 0 or count2 = 0:
        return NULL

    # Make the first list longer (or same size).

    if count1 < count2:
        swap count1 and count2
        swap head1 and head2 (local copies only)

    # Move through longest list until they're aligned O(n).

    set ptr1 to head1
    set ptr2 to head2

    while count1 is greater than count2:
        decrement count1
        set ptr1 to ptr1->next

    # Initially mark as non-match.

    set retptr to NULL

    # Process both (aligned) lists O(n).

    while ptr1 is not equal to NULL:
        # If equal and if first match after non-match, save position.

        if ptr1->data is equal to  ptr2.data:
            if retptr is equal to NULL:
                set retptr to ptr1
            # If not equal, mark as non-match.

            set retptr to NULL

        # Advance to next element in both lists.

        set ptr1 to ptr1->next
        set ptr2 to ptr2->next

    # Return the earliest match.

    return retptr

Let's say you have the two lists 1,2,3,4,5,5,6,7,8,9 and 0,6,9,8,9. Aligning these and advancing the list 1 pointer based on the size difference, you'll get:

1 2 3 4 5 5 6 7 8 9
          0 6 9 8 9

Then you set match to NULL and start processing. They don't match (5/0) so you set the first matching node to NULL (even though it's already NULL) and advance to 6/6.

These (6/6) do match (and the current match is NULL) so you save the address of one of them as the match, and advance.

7/9 does not match so you once again set the match to NULL, then advance.

8/8 matches and the match is NULL so you once again set the match to one of them, then advance.

9/9 also matches but match is already set so you don't change it. Advance then and your out of elements in both lists.

You then return the match with is one of the 8 nodes. And that's your earliest match for a common trailing section.

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