10. Design Patterns. The most revolutionary advance in programming since objects is the introduction of design patterns. A design pattern is a language-independent codification of a solution to a common programming problem, expressed in such a way that it can apply to many contexts. Patterns such as Singleton, Factory Method, and Visitor now find their way into daily discussions around the keyboard. This chapter shows how to implement and use some of the more useful design patterns in C++.
11. Concurrent Programming. Users have long been used to responsive user interfaces that (seem to) process multiple tasks simultaneously. Modern operating systems allow processes to have multiple threads that share the process address space. Multi-threaded programming requires a different mindset, however, and comes with its own set of «gotchas.» This chapter uses a freely available library (the ZThread library by Eric Crahen of IBM) to show how to effectively manage multi-threaded applications in C++.
Exercises
We have discovered that simple exercises are exceptionally useful during a seminar to complete a student’s understanding, so you’ll find a set at the end of each chapter.
These are fairly simple, so they can be finished in a reasonable amount of time in a classroom situation while the instructor observes, making sure all the students are absorbing the material. Some exercises are a bit more challenging to keep advanced students entertained. They’re all designed to be solved in a short time and are only there to test and polish your knowledge rather than present major challenges (presumably, you’ll find those on your own—or more likely they’ll find you).