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This article explores the differences between cognitive complexity and cyclomatic complexity, analyzes the causes of high-complexity code, and demonstrates through practical examples how to reduce cognitive complexity from 21 to 11 using refactoring techniques such as extract method, duplication elimination, and guard clauses. It explains SonarQube's scoring mechanism in detail, provides step-by-step refactoring guidance, and emphasizes the importance of code readability and maintainability.

This article systematically categorizes and applies static analysis tools for C#, covering code standard checks, quality metrics, duplication detection, and multithreading issue testing. Based on community best practices, it details the functionality and integration of mainstream tools like FxCop, StyleCop, and NDepend, and discusses scenarios for commercial and open-source options. Through case studies, it helps developers build efficient code quality assurance systems.

This article explores practical approaches to testing the main class (the starter class annotated with @SpringBootApplication) in Spring Boot applications. Addressing issues where tools like SonarQube report low coverage for the main class, it analyzes the costs of over-testing and proposes two solutions: refactoring code structure with coverage exclusion rules, and creating dedicated integration tests. Emphasizing that testing should serve quality improvement rather than merely meeting metrics, the article provides concrete code examples and best practices to help developers optimize workflows while ensuring code quality.