Softwares are developed through a series of iterative steps, including editing, unit testing, fixing build errors, and code reviews until the product is good enough to be added to a repository. GoogleAI researchers introduced DIDACT (Dynamic Integrated Developer ACTivity) to enhance developers’ experience of fixing build errors, focusing on Java development. Build errors are not only time-consuming but can also be complex, involving issues like generics or cryptic error messages. The frustration of developers in resolving such errors leads them to propose a machine learning (ML) solution to automate the process of identifying and fixing build errors.
Currently, developers spend significant time debugging build errors, ranging from simple typos to complex issues like generics or template errors. DIDACT ML resolves this issue by leveraging ML models trained on historical data of developers’ code changes and build logs. The key idea is the use of resolution sessions (chronological sequences capturing the evolution of code from the occurrence of a build error to its resolution). DIDACT ML can predict patches to fix build errors based on the code state at the time of the error and the subsequent fix. These fixes are then suggested to developers in real-time within their Integrated Development Environment (IDE), allowing for immediate action.
The DIDACT ML model is trained on a comprehensive dataset of resolution sessions, encompassing various types of build errors and their corresponding fixes. At serving time, the model takes as input the current code state and the build errors encountered, then generates a patch with a confidence score as a suggested fix. Post-processing steps such as auto-formatting and heuristic filters are applied to ensure the quality and safety of the suggested fixes. The experiments suggest a statistically significant productivity improvement, including a reduced active coding time per change-list, shepherding time per change-list, and an increase in change-list throughput. The study also finds no observable increase in safety risks or bugs when ML-generated fixes are applied, demonstrating the effectiveness and safety of the proposed approach.
In conclusion, the paper presents a compelling solution to the problem of improving developers’ experience in fixing build errors through the use of ML-powered automated repair. By leveraging historical data and real-time suggestions within the IDE, developers can more efficiently address build failures, leading to increased productivity and developer satisfaction. Overall, the approach helps reduce developer toil and frees up time for more creative problem-solving tasks in software development.
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