Binary Tree Operations
Explore fundamental binary tree operations like searching, inserting, and deleting nodes in C#. Learn how to traverse trees using depth-first and breadth-first search methods, and understand how to maintain tree structure efficiently during these operations. This lesson builds essential skills for managing hierarchical data structures.
Binary trees store data in a hierarchical structure. Unlike binary search trees (BSTs), they do not follow any ordering rules, so we cannot directly determine where to go when searching or inserting.
Because of this, most operations rely on traversing the tree.
In this lesson, we study three fundamental operations:
Searching
Insertion
Deletion
Searching in a binary tree
Searching in a binary tree means checking whether a given value exists in the tree. As there is no ordering property, we cannot skip parts of the tree. In the worst case, we may need to visit every node.
A common approach is to use depth-first search (DFS). We start at the root, check its value, and if it does not match, we recursively search the left subtree and then the right subtree.
How this algorithm works
Start at the root node.
If the current node is
null, returnfalsebecause the value is not found.Check if the current nodeās value matches the target:
If yes, return
true
If not, recursively search the left subtree.
If the value is not found in the left subtree, search the right subtree.
Return
trueif the value is found in either subtree, otherwise returnfalse.
C# implementation
Below is the C# ...
public bool Search(TreeNode root, string target){// Base case: if the current node is null, the value is not foundif (root == null){return false;}// Check if the current node's value matches the targetif (root.Data == target){return true;}// Recursively search in the left subtree OR right subtree// If found in either, return truereturn Search(root.Left, target) || Search(root.Right, target);}
Time complexity: