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Asynchronous Programming with C++

You're reading from   Asynchronous Programming with C++ Build blazing-fast software with multithreading and asynchronous programming for ultimate efficiency

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Product type Paperback
Published in Nov 2024
Publisher Packt
ISBN-13 9781835884249
Length 424 pages
Edition 1st Edition
Languages
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Authors (2):
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Javier Reguera Salgado Javier Reguera Salgado
Author Profile Icon Javier Reguera Salgado
Javier Reguera Salgado
Juan Rufes Juan Rufes
Author Profile Icon Juan Rufes
Juan Rufes
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Table of Contents (21) Chapters Close

Preface 1. Part 1:Foundations of Parallel Programming and Process Management FREE CHAPTER
2. Chapter 1: Parallel Programming Paradigms 3. Chapter 2: Processes, Threads, and Services 4. Part 2: Advanced Thread Management and Synchronization Techniques
5. Chapter 3: How to Create and Manage Threads in C++ 6. Chapter 4: Thread Synchronization with Locks 7. Chapter 5: Atomic Operations 8. Part 3: Asynchronous Programming with Promises, Futures, and Coroutines
9. Chapter 6: Promises and Futures 10. Chapter 7: The Async Function 11. Chapter 8: Asynchronous Programming Using Coroutines 12. Part 4: Advanced Asynchronous Programming with Boost Libraries
13. Chapter 9: Asynchronous Programming Using Boost.Asio 14. Chapter 10: Coroutines with Boost.Cobalt 15. Part 5: Debugging, Testing, and Performance Optimization in Asynchronous Programming
16. Chapter 11: Logging and Debugging Asynchronous Software 17. Chapter 12: Sanitizing and Testing Asynchronous Software 18. Chapter 13: Improving Asynchronous Software Performance 19. Index 20. Other Books You May Enjoy

Launch policies

Apart from specifying the function or callable object as an argument when using the std::async function, we can also specify the launch policy. Launch policies control how std::async schedules the execution of asynchronous task. These are defined in the <future> library.

The launch policy must be specified as the first argument when calling std::async. This argument is of the type std::launch, a bitmask value where its bits control the allowed methods of execution, which can be one or more of the following enumeration constants:

  • std::launch::async: The task is executed in a separate thread.
  • std::launch::deferred: Enables lazy evaluation by executing the task in the calling thread the first time its result is requested via the future get() or wait() method. All further accesses to the same std::future will return the result immediately. That means that the task will only be executed when the result is explicitly requested, which can lead to unexpected...
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