Validity-Preserving Delta Debugging via Generator Trace Reduction
February 07, 2024 Β· Declared Dead Β· π ACM Transactions on Software Engineering and Methodology
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Authors
Luyao Ren, Xing Zhang, Ziyue Hua, Yanyan Jiang, Xiao He, Yingfei Xiong, Tao Xie
arXiv ID
2402.04623
Category
cs.SE: Software Engineering
Citations
3
Venue
ACM Transactions on Software Engineering and Methodology
Last Checked
4 months ago
Abstract
Reducing test inputs that trigger bugs is crucial for efficient debugging. Delta debugging is the most popular approach for this purpose. When test inputs need to conform to certain specifications, existing delta debugging practice encounters a validity problem: it blindly applies reduction rules, producing a large number of invalid test inputs that do not satisfy the required specifications. This overall diminishing effectiveness and efficiency becomes even more pronounced when the specifications extend beyond syntactical structures. Our key insight is that we should leverage input generators, which are aware of these specifications, to generate valid reduced inputs, rather than straightforwardly performing reduction on test inputs. In this paper, we propose a generator-based delta debugging method, namely GReduce, which derives validity-preserving reducers. Specifically, given a generator and its execution, demonstrating how the bug-inducing test input is generated, GReduce searches for other executions on the generator that yield reduced, valid test inputs. The evaluation results on five benchmarks (i.e., graphs, DL models, JavaScript programs, SymPy, and algebraic data types) show that GReduce substantially outperforms state-of-the-art syntax-based reducers including Perses and T-PDD, and also outperforms QuickCheck, SmartCheck, as well as the state-of-the-art choice-sequence-based reducer Hypothesis, demonstrating the effectiveness, efficiency, and versatility of GReduce.
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