Shape and Texture Recognition in Large Vision-Language Models

Shapes and textures are the basic building blocks of visual perception. The ability to identify shapes regardless of orientation, texture, or context, and to recognize textures and materials independently of their associated objects, is essential for a general visual understanding of the world. This work introduces the Large Shape and Textures dataset (LAS&T), a giant collection of highly diverse shapes and textures, created by unsupervised extraction of patterns from natural images. This dataset is used to benchmark how effectively leading Large Vision-Language Models (LVLMs) understand shapes, textures, and materials in 2D and 3D scenes. For shape recognition, we test the models' ability to match images of identical shapes that differ in orientation, texture, color, or environment. Our results show that the shape recognition capabilities of the LVLMs remain significantly below human performance. LVLMs rely predominantly on high-level and semantic features and struggle with abstract shapes lacking clear class associations. For texture and material recognition, we evaluated the models' ability to identify images with identical textures and materials across different objects and environments. Interestingly, leading LVLMs approach human-level performance in recognizing materials in 3D scenes, yet substantially underperform humans when identifying simpler more abstract 2D textures. These results are consistent across a wide range of leading VLMs (GPT/Gemini/LLama/Qwen) and foundation vision models (DINO/CLIP), exposing major deficiencies in the ability of leading models to understand fundamental visual concepts. In contrast, simple nets trained directly for these tasks achieve high accuracy. The LAS&T dataset has been made available.

@article{eppel2025_2503.23062,
  title={ Shape and Texture Recognition in Large Vision-Language Models },
  author={ Sagi Eppel and Mor Bismut and Alona Faktor-Strugatski },
  journal={arXiv preprint arXiv:2503.23062},
  year={ 2025 }
}