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C++ Programming for Linux Systems

You're reading from   C++ Programming for Linux Systems Create robust enterprise software for Linux and Unix-based operating systems

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Product type Paperback
Published in Sep 2023
Publisher Packt
ISBN-13 9781805129004
Length 288 pages
Edition 1st Edition
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Authors (2):
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Stanimir Lukanov Stanimir Lukanov
Author Profile Icon Stanimir Lukanov
Stanimir Lukanov
Desislav Andreev Desislav Andreev
Author Profile Icon Desislav Andreev
Desislav Andreev
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Toc

Table of Contents (15) Chapters Close

Preface 1. Part 1:Securing the Fundamentals FREE CHAPTER
2. Chapter 1: Getting Started with Linux Systems and the POSIX Standard 3. Chapter 2: Learning More about Process Management 4. Chapter 3: Navigating through the Filesystems 5. Chapter 4: Diving Deep into the C++ Object 6. Chapter 5: Handling Errors with C++ 7. Part 2:Advanced Techniques for System Programming
8. Chapter 6: Concurrent System Programming with C++ 9. Chapter 7: Proceeding with Inter-Process Communication 10. Chapter 8: Using Clocks, Timers, and Signals in Linux 11. Chapter 9: Understanding the C++ Memory Model 12. Chapter 10: Using Coroutines in C++ for System Programming 13. Index 14. Other Books You May Enjoy

Getting to know smart pointers and optionals in C++

In Chapter 4, we revisited the C++ fundamentals in order to be on the same page when it comes to the language. One instrument that is also considered a must is smart pointers. Through these, we are able to improve the safety of the program and also manage our resources more effectively. And as discussed in the earlier chapters, this is one of our main goals as system programmers. Remember the RAII principle? Smart pointers are based on this, helping the C++ developer reduce and even eliminate memory leaks. They could also help with shared memory management as you will see later in the chapter.

Memory leaks appear when we allocate memory but fail to free it. This could happen not only because we forgot to call the object’s destructor, but also when we lose the pointer to that memory address. In addition to these, there are also the wild and dangling pointers to consider as well. The first one happens when the pointer is there...

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