C++ is a programming language that supports multiple paradigms: classes, overloaded functions, templates, modules, procedural programming, and more. Despite the language's flexibility and richness, however, there has previously been little effort to create a design method that supports the use of multiple paradigms within a single application. This book presents a coherent framework for approaching multi-paradigm design, offering an advanced set of design practices that form the foundation for a formal multi-paradigm design method. 'Multi-Paradigm Design for C++' offers insight into an analysis and design process that takes advantage of C++'s multiple paradigm capability. It uses understandable notation and readable explanations to help all C++ programmers--not just system architects and designers--combine multiple paradigms in their application development for more effective, efficient, portable, robust, and reusable software. Readers will gain an understanding of domain engineering methods that support multi-paradigm design. This book reveals how to analyze the application domain, using principles of commonality and variation, to define subdomains according to the most appropriate paradigm for each. Multi-paradigm design digs deeper than any single technology or technique to address fundamental questions of software abstraction and design. All of the concepts and techniques that form the groundwork for domain engineering are presented. These concepts include an in-depth look at commonality and variability analysis, how domain engineering interacts with commonly used design patterns, how to find abstractions in the application domain, and how the principles of domain engineering can be used as a basis for the abstraction techniques of the object paradigm. Most important, this book discusses how to apply analysis techniques that are the most appropriate paradigm to be implemented during the design phase. 0201824671B04062001 Coplien provides invaluable advice on design ing complex, multiparadigm programs. He describes each parad igm and explains how it solves design problems at hand and h ow it applies to C++. '