A Neurosymbolic Approach to Loop Invariant Generation via Weakest Precondition Reasoning

Abstract

Loop invariant generation remains a critical bottleneck in automated program verification. Recent work has begun to explore the use of Large Language Models (LLMs) in this area, yet these approaches tend to lack a reliable and structured methodology, with little reference to existing program verification theory. This paper presents NeuroInv, a neurosymbolic approach to loop invariant generation. NeuroInv comprises two key modules: (1) a neural reasoning module that leverages LLMs and Hoare logic to derive and refine candidate invariants via backward-chaining weakest precondition reasoning, and (2) a verification-guided symbolic module that iteratively repairs invariants using counterexamples from OpenJML. We evaluate NeuroInv on a comprehensive benchmark of 150 Java programs, encompassing single and multiple (sequential) loops, multiple arrays, random branching, and noisy code segments. NeuroInv achieves a 99.5\% success rate, substantially outperforming the other evaluated approaches. Additionally, we introduce a hard benchmark of 10 larger multi-loop programs (with an average of 7 loops each); NeuroInv's performance in this setting demonstrates that it can scale to more complex verification scenarios.

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