DOMAIN-SPECIFIC MODELING -- CONTENTS -- FOREWORD -- PREFACE -- ACKNOWLEDGMENTS -- PART I: BACKGROUND AND MOTIVATION -- 1 INTRODUCTION -- 1.1 Seeking a Better Level of Abstraction -- 1.2 Code-Driven and Model-Driven Development -- 1.3 An Example: Modeling with a General-Purpose Language and a Domain-Specific Language -- 1.4 What is DSM? -- 1.5 When to Use DSM? -- 1.6 Summary -- 2 BUSINESS VALUE -- 2.1 Productivity -- 2.2 Quality -- 2.3 Leverage Expertise -- 2.4 The Economics of DSM -- 2.5 Summary -- PART II: FUNDAMENTALS -- 3 DSM DEFINED -- 3.1 DSM Characteristics -- 3.2 Implications of DSM for Users -- 3.3 Difference from Other Modeling Approaches -- 3.4 Tooling for DSM -- 3.5 Summary -- 4 ARCHITECTURE OF DSM -- 4.1 Introduction -- 4.2 Language -- 4.3 Models -- 4.4 Code Generator -- 4.5 Domain Framework and Target Environment -- 4.6 DSM Organization and Process -- 4.7 Summary -- PART III: DSM EXAMPLES -- 5 IP TELEPHONY AND CALL PROCESSING -- 5.1 Introduction and Objectives -- 5.2 Development Process -- 5.3 Language for Modeling Call Processing Services -- 5.4 Modeling IP Telephony Services -- 5.5 Generator for XML -- 5.6 Framework Support -- 5.7 Main Results -- 5.8 Summary -- 6 INSURANCE PRODUCTS -- 6.1 Introduction and Objectives -- 6.2 Development Process -- 6.3 Language for Modeling Insurances -- 6.4 Modeling Insurance Products -- 6.5 Generator for Java -- 6.6 Framework Support -- 6.7 Main Results -- 6.8 Summary -- 7 HOME AUTOMATION -- 7.1 Introduction and Objectives -- 7.2 Development Process -- 7.3 Home Automation Modeling Language -- 7.4 Home Automation Modeling Language in Use -- 7.5 Generator -- 7.6 Main Results -- 7.7 Summary -- 8 MOBILE PHONE APPLICATIONS USING A PYTHON FRAMEWORK -- 8.1 Introduction and Objectives -- 8.2 Development Process -- 8.3 Language for Application Modeling -- 8.4 Modeling Phone Applications.

8.5 Generator for Python -- 8.6 Framework Support -- 8.7 Main Results -- 8.8 Extending the Solution to Native S60 C++ -- 8.9 Summary -- 9 DIGITAL WRISTWATCH -- 9.1 Introduction and Objectives -- 9.2 Development Process -- 9.3 Modeling Language -- 9.4 Models -- 9.5 Code Generation for Watch Models -- 9.6 The Domain Framework -- 9.7 Main Results -- 9.8 Summary -- PART IV: CREATING DSM SOLUTIONS -- 10 DSM LANGUAGE DEFINITION -- 10.1 Introduction and Objectives -- 10.2 Identifying and Defining Modeling Concepts -- 10.3 Formalizing Languages with Metamodeling -- 10.4 Defining Language Rules -- 10.5 Integrating Multiple Languages -- 10.6 Notation for the Language -- 10.7 Testing the Languages -- 10.8 Maintaining the Languages -- 10.9 Summary -- 11 GENERATOR DEFINITION -- 11.1 ''Here's One I Made Earlier'' -- 11.2 Types of Generator Facilities -- 11.3 Generator Output Patterns -- 11.4 Generator Structure -- 11.5 Process -- 11.6 Summary -- 12 DOMAIN FRAMEWORK -- 12.1 Removing Duplication from Generated Code -- 12.2 Hiding Platform Details -- 12.3 Providing an Interface for the Generator -- 12.4 Summary -- 13 DSM DEFINITION PROCESS -- 13.1 Choosing Among Possible Candidate Domains -- 13.2 Organizing for DSM -- 13.3 Proof of Concept -- 13.4 Defining the DSM Solution -- 13.5 Pilot Project -- 13.6 DSM Deployment -- 13.7 DSM as a Continuous Process in the Real World -- 13.8 Summary -- 14 TOOLS FOR DSM -- 14.1 Different Approaches to Building Tool Support -- 14.2 A Brief History of Tools -- 14.3 What is Needed in a DSM Environment -- 14.4 Current Tools -- 14.5 Summary -- 15 DSM IN USE -- 15.1 Model Reuse -- 15.2 Model Sharing and Splitting -- 15.3 Model Versioning -- 15.4 Summary -- 16 CONCLUSION -- 16.1 No Sweat Shops-But no Fritz Lang's Metropolis Either -- 16.2 The Onward March of DSM -- APPENDIX A: METAMODELING LANGUAGE -- REFERENCES -- INDEX.