Automated Code Review Tool
Mr. V. V. Mangave1, Aditya Kulkarni2, Pallavi Patil3, Tejas Nikam4, Snehal Chikane5, Anuj Gangane6
1 Assistant Professor, Dept. of Computer Science Engineering, D Y Patil College of Engineering and Technology(Autonomous), Kasaba Bawada , Kolhapur, Maharashtra.
23456B. Tech Students, Dept. of Computer Science Engineering, D Y Patil College of Engineering and Technology(Autonomous), Kasaba Bawada, Kolhapur, Maharashtra.
ABSTRACT
As software development undergoes continual evolution, the assurance of code quality remains paramount in the development lifecycle. This research paper introduces an innovative Automated Code Review Tool engineered to augment and streamline the code review process. The tool capitalizes on advanced static code analysis, machine learning algorithms, and industry best practices to automate the detection of code quality issues, security vulnerabilities, and compliance with coding standards.
The Automated Code Review Tool addresses the inherent challenges of manual code reviews, including human error, time constraints, and inconsistencies. Through automation, developers can expedite the identification and resolution of potential issues, thereby enhancing overall code quality and software reliability.
Key features of the tool encompass intelligent pattern recognition, real-time feedback, and customizable rule sets, enabling development teams to tailor the tool to
their project-specific requirements. Leveraging machine learning algorithms facilitates the tool's continuous learning from past reviews, thereby adapting to evolving coding practices and emerging security threats.
This paper presents the architectural framework and design principles underpinning the Automated Code Review Tool, emphasizing its capacity to foster collaboration among development teams, reduce time-to-market, and ultimately contribute to the development of more robust and secure software. A comprehensive evaluation of the tool's efficacy across diverse development environments is conducted, offering insights into the practical implications of embracing automated solutions in real-world contexts.
Keywords: Automated Code Review Tool, Code quality, Static code analysis, Machine learning algorithms, Coding standards, Manual code reviews, Human error, Time constraints, etc.
