A Framework for Creating Non-Regressive Test Cases via Branch Consistency Analysis Driven by Descriptions

Abstract: Automated test-generation research overwhelmingly assumes the correctness of focal methods, yet practitioners routinely face non-regression scenarios where the focal method may be defective. A baseline evaluation of EvoSuite and two leading LLM-based generators, namely ChatTester and ChatUniTest, on defective focal methods reveals that despite achieving up to 83% of branch coverage, none of the generated tests expose defects. To resolve this problem, we first construct two new benchmarks, namely Defects4J-Desc and QuixBugs-Desc, for experiments. In particular, each focal method is equipped with an extra Natural Language Description (NLD) for code functionality understanding. Subsequently, we propose DISTINCT, a Description-guided, branch-consistency analysis framework that transforms LLMs into fault-aware test generators. DISTINCT carries three iterative components: (1) a Generator that derives initial tests based on the NLDs and the focal method, (2) a Validator that iteratively fixes uncompilable tests using compiler diagnostics, and (3) an Analyzer that iteratively aligns test behavior with NLD semantics via branch-level analysis. Extensive experiments confirm the effectiveness of our approach. Compared to state-of-the-art methods, DISTINCT achieves an average improvement of 14.64% in Compilation Success Rate (CSR) and 6.66% in Passing Rate (PR) across both benchmarks. It notably enhances Defect Detection Rate (DDR) on both benchmarks, with a particularly significant gain of 149.26% observed on Defects4J-Desc. In terms of code coverage, DISTINCT improves Statement Coverage (SC) by an average of 3.77% and Branch Coverage (BC) by 5.36%. These results set a new baseline for non-regressive test generation and highlight how description-driven reasoning enables LLMs to move beyond coverage chasing toward effective defect detection.