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CMake Best Practices

You're reading from   CMake Best Practices Upgrade your C++ builds with CMake for maximum efficiency and scalability

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Product type Paperback
Published in Aug 2024
Publisher Packt
ISBN-13 9781835880647
Length 356 pages
Edition 2nd Edition
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Authors (2):
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Mustafa Kemal Gilor Mustafa Kemal Gilor
Author Profile Icon Mustafa Kemal Gilor
Mustafa Kemal Gilor
Dominik Berner Dominik Berner
Author Profile Icon Dominik Berner
Dominik Berner
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Table of Contents (22) Chapters Close

Preface 1. Part 1 – The Basics FREE CHAPTER
2. Chapter 1: Kickstarting CMake 3. Chapter 2: Accessing CMake in the Best Ways 4. Chapter 3: Creating a CMake Project 5. Part 2 – Practical CMake – Getting Your Hands Dirty with CMake
6. Chapter 4: Packaging, Deploying, and Installing a CMake Project 7. Chapter 5: Integrating Third-Party Libraries and Dependency Management 8. Chapter 6: Automatically Generating Documentation 9. Chapter 7: Seamlessly Integrating Code Quality Tools with CMake 10. Chapter 8: Executing Custom Tasks with CMake 11. Chapter 9: Creating Reproducible Build Environments 12. Chapter 10: Handling Distributed Repositories and Dependencies in a Super-Build 13. Chapter 11: Creating Software for Apple Systems 14. Part 3 – Mastering the Details
15. Chapter 12: Cross-Platform-Compiling Custom Toolchains 16. Chapter 13: Reusing CMake Code 17. Chapter 14: Optimizing and Maintaining CMake Projects 18. Chapter 15: Migrating to CMake 19. Index 20. Other Books You May Enjoy Appendix: Contributing to CMake and Further Reading Material

Optimizing build performance

Apart from raw compilation time, the main driver for long build times in C++ projects is often unnecessary dependencies between targets or files. If targets have unnecessary linking requirements between each other, the build system will be limited in executing build tasks in parallel, and some of the targets will be frequently relinked. Creating a dependency graph of the targets, as described in Chapter 6, Automatically Generating Documentation, will help identify dependencies. If the resulting graph looks more like a snarl of rope than a tree, optimizing and refactoring the project structure might bring a lot of performance gains. Tools such as include what you use and link what you use, as described in Chapter 7, Seamlessly Integrating Code Quality Tools with CMake, may further help identify unnecessary dependencies. Another common theme is C or C++ projects that expose too much private information in public headers, often causing frequent rebuilds and...

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