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How to Solve Maximize the Number of Target Nodes After Connecting Trees II Problem

Master the Maximize the Number of Target Nodes After Connecting Trees II LeetCode problem with undetectable real-time assistance. Get instant solutions and explanations during your coding interviews.

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Hard#3373

LeetCode Problem

Maximize the Number of Target Nodes After Connecting Trees II

There exist two undirected trees with n and m nodes, labeled from [0, n - 1] and [0, m - 1], respectively. You are given two 2D integer arrays edges1 and edges2 of lengths n - 1 and m - 1, respectively, where edges1[i] = [ai, bi] indicates that there is an edge between nodes ai and bi in the first tree and edges2[i] = [ui, vi] indicates that there is an edge between nodes ui and vi in the second tree. Node u is target to node v if the number of edges on the path from u to v is even. Note that a node is always target to itself. Return an array of n integers answer, where answer[i] is the maximum possible number of nodes that are target to node i of the first tree if you had to connect one node from the first tree to another node in the second tree. Note that queries are independent from each other. That is, for every query you will remove the added edge before proceeding to the next query.

TreeDepth-First SearchBreadth-First Search

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Problem Breakdown

Understanding the Maximize the Number of Target Nodes After Connecting Trees II Problem

Let's break down this LeetCode problem and understand what makes it challenging in interview settings.

Problem Statement

HardProblem #3373

LeetCode

Maximize the Number of Target Nodes After Connecting Trees II

How Phantom Code Helps

Get real-time assistance for Maximize the Number of Target Nodes After Connecting Trees II problems during coding interviews. Phantom Code provides instant solutions and explanations.

Examples

# Example 1

Input

edges1 = [[0,1],[0,2],[2,3],[2,4]], edges2 = [[0,1],[0,2],[0,3],[2,7],[1,4],[4,5],[4,6]]

Output

[8,7,7,8,8]

# Example 2

Input

edges1 = [[0,1],[0,2],[0,3],[0,4]], edges2 = [[0,1],[1,2],[2,3]]

Output

[3,6,6,6,6]

Constraints

2 <= n, m <= 105

edges1.length == n - 1

edges2.length == m - 1

edges1[i].length == edges2[i].length == 2

edges1[i] = [ai, bi]

0 <= ai, bi < n

edges2[i] = [ui, vi]

0 <= ui, vi < m

The input is generated such that edges1 and edges2 represent valid trees.

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Solve Maximize the Number of Target Nodes After Connecting Trees II — There exist two undirected trees with n and m nodes, labeled from [0, n - 1] and...

Here's the optimal approach using Tree:

def solve(input):

# Optimal O(n) solution

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Frequently Asked Questions

Common questions about solving Maximize the Number of Target Nodes After Connecting Trees II and using Phantom Code during coding interviews.

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Phantom Code generates complete solutions instantly with proper complexity analysis, letting you focus on explaining your approach and demonstrating problem-solving skills rather than getting stuck on implementation details during high-pressure situations.

What if the interviewer asks follow-up questions or modifications to problems like Maximize the Number of Target Nodes After Connecting Trees II?

Phantom Code adapts in real-time. Screenshot the modified problem or use audio mode to capture the interviewer's follow-up, and get an updated solution within seconds — including edge cases and optimizations.

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Yes. Phantom Code provides step-by-step approach explanations with 3 progressive thoughts, so you can walk through your solution naturally. It also provides time and space complexity analysis to discuss trade-offs.

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Phantom Code supports 11 programming languages including Python, Java, C++, JavaScript, TypeScript, Go, Rust, Ruby, Swift, Kotlin, and C#. Set your preferred language and get idiomatic solutions.

What coding mistakes does Phantom Code help me avoid during Maximize the Number of Target Nodes After Connecting Trees II interviews?

Phantom Code catches common mistakes like off-by-one errors, missing edge cases, incorrect base conditions, and suboptimal approaches. It provides clean, well-structured code that handles all edge cases.

Is Phantom Code detectable when solving problems like Maximize the Number of Target Nodes After Connecting Trees II during live interviews?

No. Phantom Code runs as an invisible desktop overlay that doesn't appear in screen shares, recordings, or proctoring software. It works with Zoom, HackerRank, CodeSignal, CoderPad, and all major platforms.

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The AI provides structured guidance: first the approach (what algorithm/data structure to use and why), then the implementation with clean code, and finally complexity analysis. This helps you think clearly even under pressure.

Does Phantom Code work for the coding platforms used in Maximize the Number of Target Nodes After Connecting Trees II interviews?

Yes. Phantom Code works with all major coding platforms including LeetCode, HackerRank, CodeSignal, CoderPad, HackerEarth, and any browser-based coding environment.

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