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Extreme C

You're reading from   Extreme C Taking you to the limit in Concurrency, OOP, and the most advanced capabilities of C

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Product type Paperback
Published in Oct 2019
Publisher Packt
ISBN-13 9781789343625
Length 822 pages
Edition 1st Edition
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Concepts
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Author (1):
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Kamran Amini Kamran Amini
Author Profile Icon Kamran Amini
Kamran Amini
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Toc

Table of Contents (27) Chapters Close

Preface 1. Essential Features FREE CHAPTER 2. From Source to Binary 3. Object Files 4. Process Memory Structure 5. Stack and Heap 6. OOP and Encapsulation 7. Composition and Aggregation 8. Inheritance and Polymorphism 9. Abstraction and OOP in C++ 10. Unix – History and Architecture 11. System Calls and Kernels 12. The Most Recent C 13. Concurrency 14. Synchronization 15. Thread Execution 16. Thread Synchronization 17. Process Execution 18. Process Synchronization 19. Single-Host IPC and Sockets 20. Socket Programming 21. Integration with Other Languages 22. Unit Testing and Debugging 23. Build Systems 24. Other Books You May Enjoy
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26. Index

Named POSIX semaphores

As you saw in Chapter 16, Thread Synchronization, semaphores are the main tool to synchronize a number of concurrent tasks. We saw them in multi-threaded programs and saw how they help to overcome the concurrency issues.

In this section, we are going to show how they can be used among some processes. Example 18.1 shows how to use a POSIX semaphore to solve the data races we encountered in examples 17.6 and 17.7 given in the previous chapter, Process Execution. The example is remarkably similar to example 17.6, and it again uses a shared memory region for storing the shared counter variable. But it uses named semaphores to synchronize the access to the shared counter.

The following code boxes show the way that we use a named semaphore to synchronize two processes while accessing a shared variable. The following code box shows the global declarations of example 18.1:

#include <stdio.h>
...
#include <semaphore.h>  // For using semaphores
#define...
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