Solution: Binary Tree Cameras

Understand how to determine the least number of cameras required to cover every node in a binary tree. Explore a dynamic programming approach that classifies node states and uses post-order traversal to compute optimal camera placement efficiently in C++.

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Statement
Solution
- Time complexity
- Space complexity

Statement

You are given the root of a binary tree. Cameras can be installed on any node, and each camera can monitor itself, its parent, and its immediate children.

Your task is to determine the minimum number of cameras required to monitor every node in the tree.

Constraints:

The number of nodes in the tree is in the range $[1, 1000]$ .
Node.data $== 0$

Solution

Each node in the tree can be in one of three possible states, based on how it's monitored:

State 0 (Not covered): All the nodes below this node are monitored, but this node is not. ...