ARXIV:2604.10800 · AI FOR CODE ANALYSIS · SUBMITTED 14 APR · 20:25 UTC · FRESHNESS STALE

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Verify Before You Fix: Agentic Execution Grounding for Trustworthy Cross-Language Code Analysis

Jugal Gajjar · arXiv

Develop a cross-language code analysis tool using agentic execution to ensure verified vulnerability fixes in Java, Python, and C++.

Ship in 2-4 weeks›Score4.0Evidence unverified

Opportunity summary

Pain Develop a cross-language code analysis tool using agentic execution to ensure verified vulnerability fixes in Java, Python, and C++.

Evidence 0 refs | 3 sources | 50% coverage

Blocker Evidence unverified

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PROBLEM

Develop a cross-language code analysis tool using agentic execution to ensure verified vulnerability fixes in Java, Python, and C++. Software vulnerability analysis makes this cost concrete and measurable.

METHOD

Full abstract

Learned classifiers deployed in agentic pipelines face a fundamental reliability problem: predictions are probabilistic inferences, not verified conclusions, and acting on them without grounding in observable evidence leads to compounding failures across downstream stages. Software vulnerability analysis makes this cost concrete and measurable. We address this through a unified cross-language vulnerability lifecycle framework built around three LLM-driven reasoning stages-hybrid structural-semantic detection, execution-grounded agentic validation, and validation-aware iterative repair-governed by a strict invariant: no repair action is taken without execution-based confirmation of exploitability. Cross-language generalization is achieved via a Universal Abstract Syntax Tree (uAST) normalizing Java, Python, and C++ into a shared structural schema, combined with a hybrid fusion of GraphSAGE and Qwen2.5-Coder-1.5B embeddings through learned two-way gating, whose per-sample weights provide intrinsic explainability at no additional cost. The framework achieves 89.84-92.02% intra-language detection accuracy and 74.43-80.12% zero-shot cross-language F1, resolving 69.74% of vulnerabilities end-to-end at a 12.27% total failure rate. Ablations establish necessity: removing uAST degrades cross-language F1 by 23.42%, while disabling validation increases unnecessary repairs by 131.7%. These results demonstrate that execution-grounded closed-loop reasoning is a principled and practically deployable mechanism for trustworthy LLM-driven agentic AI.

RESULT

ScienceToStartup currently rates this 4.0/10 on the public viability pass. The framework achieves 89.84-92.02% intra-language detection accuracy and 74.43-80.12% zero-shot cross-language F1, resolving 69.74% of vulnerabilities end-to-end at a 12.27% total failure rate. Code…

WHY NOW

AI for Code Analysis moved forward this cycle; last verified April 2026. Public score 4.0/10. Production flags indicate code availability.

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Opportunity summary

Score4.0

PainDevelop a cross-language code analysis tool using agentic execution to ensure verified vulnerability fixes in Java, Python, and C++.

Evidence0 refs | 3 sources | 50% coverage

Blockerno shell-level blocker reported

Analysis summary

Develop a cross-language code analysis tool using agentic execution to ensure verified vulnerability fixes in Java, Python, and C++.

VerifiedSource: PDF linkedVerifiedPaperPack: citation fields availablePartialProof: unverified proof status

Competitive landscape

Develop a cross-language code analysis tool using agentic execution to ensure verified vulnerability fixes in Java, Python, and C++.

Segment

AI for Code Analysis

Adoption evidence

No public code link in the paper record yet

Commercial read

4.0/10 public viability

Direct

not classified

Adjacent

not classified

Substitute

not classified

Unknown

not classified

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Competitive landscape

Develop a cross-language code analysis tool using agentic execution to ensure verified vulnerability fixes in Java, Python, and C++.

Segment

AI for Code Analysis

Adoption evidence

No public code link in the paper record yet

Commercial read

4.0/10 public viability

Direct

not classified

Adjacent

not classified

Substitute

not classified

Unknown

not classified

Verify Before You Fix: Agentic Execution Grounding for Trustworthy Cross-Language Code Analysis

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