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What is a Level Order Traversal in Binary Tree and What it's application?

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What is a Level Order Traversal in Binary Tree and What it's application?
posted Jun 9, 2016 by Shahsikant Dwivedi

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2 Answers

+2 votes

Level Order Traversal In Binary Tree:We visit every node on a level before going to a lower level.
Applications:
1. Level order traversal is actually a BFS .We visit every node on a level before going to a lower level. So , to find nodes at a distance X units from a given node , you don't need to travel full graph (which can be very large ) ,but just need to traverse all nodes at distance <=X , consider the case when X is very small compared to height of tree . Example: GPS
2.Breadth-first search can be used to solve many problems in graph theory, For example:
a.Finding all nodes within one connected component
b.Copying Collection, Cheney's algorithm
c.Finding the shortest path between two nodes u and - v (with path length measured by number of edges)
d.Testing a graph for bipartiteness
e.(Reverse) Cuthill–McKee mesh numbering
f.Ford–Fulkerson method for computing the maximum flow in a flow network
g. Serialization/Deserialization of a binary tree vs serialization in sorted order, allows the tree to be re-constructed in an efficient manner.
you can find source code here : http://tech.queryhome.com/26866/print-a-binary-tree-from-top-to-bottom-in-level-order

answer Jul 12, 2016 by Shivam Kumar Pandey
+1 vote

Level order traversal of a tree is breadth first traversal for the tree.
enter image description here

Level order traversal of the above tree is 1 2 3 4 5

METHOD 1 (Use function to print a given level)

Algorithm:

There are basically two functions in this method. One is to print all nodes at a given level (printGivenLevel), and other is to print level order traversal of the tree (printLevelorder). printLevelorder makes use of printGivenLevel to print nodes at all levels one by one starting from root.

/*Function to print level order traversal of tree*/
printLevelorder(tree)
for d = 1 to height(tree)
   printGivenLevel(tree, d);

/*Function to print all nodes at a given level*/
printGivenLevel(tree, level)
if tree is NULL then return;
if level is 1, then
    print(tree->data);
else if level greater than 1, then
    printGivenLevel(tree->left, level-1);
    printGivenLevel(tree->right, level-1);

Implementation:

// Recursive C program for level order traversal of Binary Tree

#include <stdio.h>
#include <stdlib.h>

/* A binary tree node has data, pointer to left child
   and a pointer to right child */
struct node
{
    int data;
    struct node* left, *right;
};

/* Function protoypes */
void printGivenLevel(struct node* root, int level);
int height(struct node* node);
struct node* newNode(int data);

/* Function to print level order traversal a tree*/
void printLevelOrder(struct node* root)
{
    int h = height(root);
    int i;
    for (i=1; i<=h; i++)
        printGivenLevel(root, i);
}

/* Print nodes at a given level */
void printGivenLevel(struct node* root, int level)
{
    if (root == NULL)
        return;
    if (level == 1)
        printf("%d ", root->data);
    else if (level > 1)
    {
        printGivenLevel(root->left, level-1);
        printGivenLevel(root->right, level-1);
    }
}

/* Compute the "height" of a tree -- the number of
    nodes along the longest path from the root node
    down to the farthest leaf node.*/
int height(struct node* node)
{
    if (node==NULL)
        return 0;
    else
    {
        /* compute the height of each subtree */
        int lheight = height(node->left);
        int rheight = height(node->right);

        /* use the larger one */
        if (lheight > rheight)
            return(lheight+1);
        else return(rheight+1);
    }
}

/* Helper function that allocates a new node with the
   given data and NULL left and right pointers. */
struct node* newNode(int data)
{
    struct node* node = (struct node*)
                        malloc(sizeof(struct node));
    node->data = data;
    node->left = NULL;
    node->right = NULL;

    return(node);
}

/* Driver program to test above functions*/
int main()
{
    struct node *root = newNode(1);
    root->left        = newNode(2);
    root->right       = newNode(3);
    root->left->left  = newNode(4);
    root->left->right = newNode(5);

    printf("Level Order traversal of binary tree is \n");
    printLevelOrder(root);

    return 0;
}

Output:

Level order traversal of binary tree is

1 2 3 4 5

Time Complexity: O(n^2) in worst case. For a skewed tree, printGivenLevel() takes O(n) time where n is the number of nodes in the skewed tree. So time complexity of printLevelOrder() is O(n) + O(n-1) + O(n-2) + .. + O(1) which is O(n^2).

answer Jun 22, 2016 by Manikandan J
Similar Questions
+6 votes

Given binary tree is:

        1
     /     \
    2        3
  /  \        \
 4   5         6
             /   \
            7     8

The output should be 1, 2, 3, 4, 5, 6, 7, 8

+3 votes

Given a binary tree print it in inward spiral order i.e first print level 1, then level n, then level 2, then n-1 and so on.

For Ex -

         1 
   2           3 
 4    5       6     7 
8 9  10 11  12 13  14 15 

Print- 1 15 14 13 12 11 10 9 8 2 3 7 6 5 4

...