CustomCC0-1.0#p0161600

Odd Degree Vertex Removal

Summary

•Phase 1 / graph, parity, dp
•Reasoning-first competitive programming drill

Problem Description

Given an undirected graph with n nodes and m edges, you can remove any set of nodes. What is the minimal number of nodes you need to remove so that all remaining nodes have even degree? How to read this problem in plain language: - This is a Phase 1 reasoning drill focused on graph, parity, dp. - Typical lenses to test first: graph, degree, parity. - Constraints reminder: 1 ≤

n \leq 2 \times 1 0^{5}

, 0 ≤

m \leq 2 \times 1 0^{5}

Mini examples for mental simulation: 1) Boundary example: Describe why this case is tricky. Explain expected behavior and why naive logic may fail. 2) Adversarial example: Adversarial case where naive greedy/local decision looks correct but fails globally. Lite-mode writing target: - Write 1~2 observations that shrink the search space. - Name one final algorithm and state target complexity explicitly. - Validate with at least 2 edge cases and one hand simulation.

Constraints

•
1 ≤ $n \leq 2 \times 1 0^{5}$ , 0 ≤ $m \leq 2 \times 1 0^{5}$

Analysis

Key Insight

Use this hint to refine your reasoning. This step should reduce search space or formalize correctness. State why this insight changes your algorithm choice.

graphdegreeparitydp