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Find the maximum element per level in a BST .?

[1] In O(n) time and O(1) space
[2] In O(logn) time and O(n) space

Edit: The solution posted by @Imposter works fine for [1] Here is the solution for [1]

private int level = 0;
private int VisitedLevels = -1;

public void findLargestByLevel(AvlNode root)
    if(root == null) return;

        if(level > VisitedLevels)
            System.out.println(root.data + " @ Level = " + level);



but I am still not able to work out a solution for [2]

The approaches that I have thought : If we preprocess the tree and flatten it like serialization of the tree,

             50         200
         20      75

#L0, 100, #L1, 50, 200, #L2, 20, 75, #L3

Where the #L is a marker for the levels:

then we can easily answer the queries for the level's highest and lowest in O(1) time, Also if the tree get modified we can perform the insertion and deletion from the serialized data in LogN time. Please suggest someone for the [2], though in my opinion zit looks impossible to achieve [2] but I would like hear other's suggestions

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closed as not a real question by Michael Petrotta, rkosegi, PaulG, Mark, ЯegDwight Sep 21 '12 at 14:14

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

Looks like homework, doesn't it? And [2] is impossible without some preprocessing (if you try to find algorithm filling O(n) memory cells in O(log n) you are doomed to fail). –  KCH Sep 21 '12 at 0:41
That's nice. What has been tried? What resources have been consulter? –  user166390 Sep 21 '12 at 0:41
And what if I don't? ;) –  MAK Sep 21 '12 at 0:57
Not a homework, but a interview question, An why voted it down?? –  Astric Star Sep 21 '12 at 3:04
@KCH i think there are only log(n) levels so it seems feasible to me. –  FUD Sep 21 '12 at 5:39

2 Answers 2

up vote 6 down vote accepted

If the BST is Full BST then it can be done in log(N) time because all you need to do is traverse towards right all the time (since elements on right side are always grater than left side.) If it is not full BST then we have to traverse all the elements because we are not sure that height of right sub tree is always greater than left sub tree.

Example : If right sub tree has two level and left sub tree has three levels then using above approach we are able to print max value till two level but we missed out third level which is not present in right sub tree .

So time complexity will be minimum O(n) if it is not Full BST and may be more if no extra space is given .

If you do BFS it takes only O(n) time complexity and O(n) space complexity . If you want it using DFS then following algorithm would help you in O(n) time complexity and and O(h) where h is height of tree .

Take global variable counter which indicates max number of levels so far while traversing .

Take two variables L and R when ever you make recursive call to left sub tree increment L

similarly when ever you make recursive call to right sub-tree increment R .

Find maximum of L and R for each node which gives level number .

When ever there is increment in max(L,R) for a node while traversing check this with counter if counter is less than max(L,R) then allocate memory and intialize to zero and increment counter.(That means we are actually creating variable for each level in tree).

while traversing we will check for height or level variable every time and compare it with present node that is being considered if present node is bigger than Level variable then update level variable with node that is being considered .

After traversal print height or level variables .

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I have edited the question to post the answer for [1] –  Astric Star Sep 24 '12 at 6:46

[1] This can be done by iteratively by going though each level and keeping record of maximum. This can be done by a simple BFS ( assuming you dont count recursion level variables also in storage ). For eg. a recursion replaced by a simple queue will cost more than O(1) storage, In which case this seems impossible to me unless the nodes are sorted level wise.

[2] Binary Tree has property of right child being greater then left so if you just traverse to the right most child everytime ( except if it doesnt exist, then take left child ) you can get the maximum in log(n) time. I am not sure if it needs a O(n) storage.

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point [2] mentioned, will not work if the BST is left heavy : means if the the left subtree of the given BST has more height than its right subtree, just work out an example –  Astric Star Sep 24 '12 at 2:52
BFS is O(N) Space and O(n) time, ... so it seems to be the worst solution for the given requirement in the question –  Astric Star Sep 24 '12 at 6:47

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