Book Image

The C++ Workshop

By : Dale Green, Kurt Guntheroth, Shaun Ross Mitchell
Book Image

The C++ Workshop

By: Dale Green, Kurt Guntheroth, Shaun Ross Mitchell

Overview of this book

C++ is the backbone of many games, GUI-based applications, and operating systems. Learning C++ effectively is more than a matter of simply reading through theory, as the real challenge is understanding the fundamentals in depth and being able to use them in the real world. If you're looking to learn C++ programming efficiently, this Workshop is a comprehensive guide that covers all the core features of C++ and how to apply them. It will help you take the next big step toward writing efficient, reliable C++ programs. The C++ Workshop begins by explaining the basic structure of a C++ application, showing you how to write and run your first program to understand data types, operators, variables and the flow of control structures. You'll also see how to make smarter decisions when it comes to using storage space by declaring dynamic variables during program runtime. Moving ahead, you'll use object-oriented programming (OOP) techniques such as inheritance, polymorphism, and class hierarchies to make your code structure organized and efficient. Finally, you'll use the C++ standard library?s built-in functions and templates to speed up different programming tasks. By the end of this C++ book, you will have the knowledge and skills to confidently tackle your own ambitious projects and advance your career as a C++ developer.
Table of Contents (15 chapters)

7. Ownership and Lifetime of Dynamic Variables

Overview

This chapter provides tools and strategies to make the use of pointers and dynamic variables in C++ programs safer and easier to understand. By the end of this chapter, you will be able to describe the weaknesses of C++ with respect to dynamic variable ownership and lifetime; explain the use of owned and unowned pointers; embed pointers into class instances to establish ownership and control the lifetime of dynamic variables; use smart pointer classes unique_ptr<> and shared_ptr<> to automate the ownership and lifetime of dynamic variables.