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README

3D Graphics Rendering Cookbook

A comprehensive guide to exploring rendering algorithms in modern OpenGL and Vulkan

by Sergey Kosarevsky & Viktor Latypov

Book Name

This is the code repository for 3D Graphics Rendering Cookbook, published by Packt.

What is this book about?

OpenGL is a popular cross-language, cross-platform application programming interface (API) used for rendering 2D and 3D graphics, while Vulkan is a low-overhead, cross-platform 3D graphics API that targets high-performance applications. 3D Graphics Rendering Cookbook helps you learn about modern graphics rendering algorithms and techniques using C++ programming along with OpenGL and Vulkan APIs.

This book covers the following exciting features:

  • Improve the performance of legacy OpenGL applications
  • Manage a substantial amount of content in real-time 3D rendering engines
  • Discover how to debug and profile graphics applications
  • Understand how to use the Approaching Zero Driver Overhead (AZDO) philosophy in OpenGL
  • Integrate various rendering techniques into a single application
  • Find out how to develop Vulkan applications
  • Implement a physically based rendering pipeline from scratch
  • Integrate a physics library with your rendering engine

If you feel this book is for you, get your copy today!

Software and Hardware List

Chapter Software required OS required
1-10 Microsoft Visual Studio 2019 Windows
1-10 GCC 8 Linux
1-10 Python 3.x Windows, Linux
1-10 Vulkan SDK Windows, Linux

The code runs on graphics cards as old as GeForce 740M. However, GeForce GTX 1060 or newer is strongly recommended.

Instructions and Navigations

All of the code is organized into folders. For example, Chapter01.

The code will look like the following:

macro(SETUP_GROUPS src_files)
foreach(FILE ${src_files})
get_filename_component(PARENT_DIR "${FILE}" PATH)

Following is what you need for this book: This book is for 3D graphics developers who are familiar with the mathematical fundamentals of 3D rendering and want to gain expertise in writing fast rendering engines with advanced techniques using C++ libraries and APIs. A solid understanding of C++ and basic linear algebra, as well as experience in creating custom 3D applications without using premade rendering engines is required.

With the following software and hardware list you can run all code files present in the book (Chapter 1-10).

Downloading assets and dependencies:

Run the bootstrap.py script from the root folder of this repository. Make sure you have ~15Gb of free space before you download the assets and build the source code.

Models downloaded from Morgan McGuire's Computer Graphics Archive

Windows build instructions:

mkdir build
cd build
cmake .. -G "Visual Studio 16 2019" -A x64
start RenderingCookbook.sln

Linux build instructions:

mkdir build
cd build
cmake ..
cd ..

Running the demos:

Run compiled demos from the root folder of this repository

Demo applications from this book require .obj/.gltf2 assets to be converted to our run-time loadable formats. Make sure you run Chapter5/MeshConvert before running anything else from chapters 5-10, and Chapter7/SceneConverter before running demos from chapters 7-10.

Chapter1

  • 1_Bootstrap
  • 2_CMake

Chapter2

  • 01_GLFW

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  • 02_GLM

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  • 03_STB

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  • 04_ImGui

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  • 05_EasyProfiler
  • 06_Optick

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  • 07_Assimp

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  • 08_ETC2Comp
  • 09_Taskflow
  • 10_MeshOptimizer

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Chapter3

  • GL01_APIWrapping
  • GL02_VtxPulling

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  • GL03_CubeMap

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  • VK01_GLSLang
  • VK02_DemoApp

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Chapter4

  • GL01_Camera

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  • GL02_FPS
  • VK01_DemoApp

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Chapter5

  • GL01_Grid

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  • GL02_Tessellation

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  • GL03_MeshRenderer

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  • MeshConvert
  • VK01_MultiMeshDraw

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Chapter6

  • GL01_PBR

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  • Util01_FilterEnvmap

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  • VK01_BRDF_LUT

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  • VK02_DescriptorIndexing

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  • VK03_ComputeTexture

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  • VK04_ComputeMesh

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  • VK05_PBR

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Chapter7

  • GL01_LargeScene

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  • SceneConverter
  • VK01_SceneGraph

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  • VK02_LargeScene

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Chapter8

  • GL01_ShadowMapping

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  • GL02_SSAO

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  • GL03_HDR

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  • GL04_HDR_Adaptation

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  • VK01_ShadowMapping

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  • VK02_SSAO

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  • VK03_HDR

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Chapter9

  • VK01_Physics

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Chapter10

  • GL01_CullingCPU

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  • GL02_CullingGPU

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  • GL03_OITransparency

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  • GL04_LazyLoading

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  • GL05_Final

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  • VK01_AtomicsTest

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  • VK02_Final

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We also provide a PDF file that has color images of the screenshots/diagrams used in this book. Click here to download it.

Related products

Get to Know the Authors

Sergey Kosarevsky Sergey Kosarevsky is a software engineer with experience in C++ and 3D graphics. He worked for mobile industry companies and was involved in 3D graphics projects at SPB Software, Yandex, Layar and Blippar, TWNKLS, and DAQRI, where he designed and implemented real-time rendering technology. He has more than 17 years of software development experience and more than 10 years of mobile and embedded 3D graphics experience. In his Ph.D. thesis, Sergey employed computer vision to solve mechanical engineering problems. He has co-authored several books on mobile software development in C++.

Viktor Latypov Viktor Latypov is a software engineer specializing in embedded C/C++, 3D graphics, and computer vision. With more than 15 years of software development experience and a Ph.D. in Applied Mathematics, he has implemented a number of real-time renderers for medical and automotive applications over the last 10 years. Together with Sergey, he has co-authored two books on mobile software development in C++

Other books by the authors

Android NDK Game Development Cookbook

Mastering Android NDK

Core symbols most depended-on inside this repo

Shape

Function 602
Method 401
Class 400
Enum 89

Languages

C++95%
C3%
Python2%

Modules by API surface

deps/glad/include/glad/vulkan.h265 symbols
Chapter3/GL01_APIWrapping/src/GLAPITrace.h217 symbols
shared/UtilsVulkan.cpp95 symbols
shared/vkFramework/VulkanResources.cpp28 symbols
shared/Camera.h28 symbols
deps/glad/src/gl.c28 symbols
shared/scene/Scene.cpp22 symbols
shared/vkFramework/VulkanResources.h21 symbols
shared/vkFramework/VulkanApp.h21 symbols
shared/UtilsVulkan.h21 symbols
deps/bootstrap.py21 symbols
Chapter7/SceneConverter/src/main.cpp19 symbols

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