There are a number of special features that I believe together make this book a unique approach to covering the subject of data structures and algorithms:
Every chapter (excluding those in the first part of the book) follows a consistent format. This format allows most of the book to be read as a textbook or a reference, whichever is needed at the moment.
Each chapter (except Chapter 1) begins with a brief introduction, followed by a list of clearly identified topics and their relevance to real applications.
An analysis is provided for every operation of abstract datatypes, every algorithm in the algorithms chapters, and every example throughout the book. Each analysis uses the techniques presented in Chapter 4.
All examples are from real applications, not just trivial exercises. Examples like these are exciting and teach more than just the topic being demonstrated.
All implementations are written in C, not pseudocode. The benefit of this is that when implementing many data structures and algorithms, there are considerable details pseudocode does not address.
At the end of each chapter (except Chapter 1), there is a series of questions along with their answers. These emphasize important ideas from the chapter and touch on additional topics.
At the end of each chapter (except Chapter 1), there is a list of related topics for further exploration. Each topic is presented with a brief description.
Cross references and call-outs mark topics mentioned in one place that are introduced elsewhere. Thus, it is easy to locate additional information.
Many of the data structures or algorithms in one chapter use data structures and algorithms presented elsewhere in the book. Thus, they serve as examples of how to use other data structures and algorithms themselves. All dependencies are carefully marked with a cross reference or call-out.
This book covers the fundamental data structures and algorithms of computer science. It also covers several topics not normally addressed in books on the subject. These include numerical methods, data compression (in more detail), data encryption, and geometric algorithms.