Introduction: 


Dive into the fascinating world of 3D geometry creation and manipulation! This tutorial offers a unique journey through the construction and transformation of fundamental 3D shapes. You'll gain a deep understanding of the algorithms that bring these shapes to life, all through the power of Python and mathematical concepts.

Tutorial Overview:

  1. Constructing Basic Primitives: Unveil the secrets behind crafting classic 3D forms such as cones, planes, spheres, and more. We'll guide you step-by-step in defining their essential attributes and meticulously assembling their faces using Python.

  2. Understanding USD File Structure: Reverse engineer the USD files to learn how these files store geometrical data.

  3. Geometry Manipulation Techniques: Elevate your skills by implementing a straightforward yet powerful extrusion function. This hands-on experience will show you how to modify and reshape your 3D creations dynamically.

  4. Developing Python Geometry Exporters: Bridge the gap between theory and application by creating custom Python geometry exporters. We'll cover how to extract geometry data using APIs from leading 3D applications like Maya and Houdini.

  5. Final Project - Crafting and Exporting 3D Models: Put your knowledge into practice! We'll conclude with an exciting project where you'll generate your own 3D models and save them into USD files, ready for use in various applications.

Who This Tutorial is For: 

Whether you're a budding 3D artist, a seasoned developer, or somewhere in between, this tutorial is designed to enrich your understanding of 3D geometry. A basic familiarity with Python is recommended to get the most out of this learning experience.


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