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Bibliographic Details
Main Authors: Zhao, Shitian, Zhang, Haoquan, Lin, Shaoheng, Li, Ming, Wu, Qilong, Zhang, Kaipeng, Wei, Chen
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.07998
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Table of Contents:
  • LLMs are increasingly deployed as agents, systems capable of planning, reasoning, and dynamically calling external tools. However, in visual reasoning, prior approaches largely remain limited by predefined workflows and static toolsets. In this report, we present PyVision, an interactive, multi-turn framework that enables MLLMs to autonomously generate, execute, and refine Python-based tools tailored to the task at hand, unlocking flexible and interpretable problem-solving. We develop a taxonomy of the tools created by PyVision and analyze their usage across a diverse set of benchmarks. Quantitatively, PyVision achieves consistent performance gains, boosting GPT-4.1 by +7.8% on V* and Claude-4.0-Sonnet by +31.1% on VLMsAreBlind-mini. These results point to a broader shift: dynamic tooling allows models not just to use tools, but to invent them, advancing toward more agentic visual reasoning.