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Learning UML / Sinan Si Alhir.

By: Material type: TextTextPublication details: Sebastopol, CA ; Farnham : O\'Reilly, 2003.Edition: 1st edDescription: xvi, 234 p. : ill. ; 23 cmISBN:
  • 0596003447
Other title:
  • Learning Unified Modeling Language
Subject(s): DDC classification:
  • 005.117 ALH
Holdings
Item type Current library Call number Copy number Status Date due Barcode
Standard Loan Moylish Library Main Collection 005.117 ALH (Browse shelf(Opens below)) 1 Available 39002000349432

Enhanced descriptions from Syndetics:

Since the dawn of computing, software designers and developers have searched for ways to describe the systems they worked so hard to create. Flowcharts enabled the concise documentation of program-flow and algorithms. Entity-relationship diagrams enabled database designers to convey the structure underlying the collection of tables and columns that made up a schema. From the beginning, technologists recognized the descriptive power inherent in visual representations of a system, yet it wasn't until 1997 that the first attempt to create a visual language that could be used across all aspects of a system development project came to fruition. Unified Modeling Language (UML) was born.UML has taken the software development industry by storm. Widely supported by development and documentation tools, UML can be used on the one hand by programmers to record such things as the detailed design of classes in an object-oriented system and on the other hand by business analysts to give the broad-brush picture of how a system interacts with users and other systems. UML has become the lingua franca of software development, and no one in the software industry can afford to be without knowledge of this powerfully expressive visual language. Learning UML introduces UML and places it in perspective, then leads you through an orderly progress towards mastery of the language. You'll begin by learning how UML is used to model the structure of a system. Many key UML concepts, especially that of the general (classes) versus the specific (objects), are illustrated in the chapter on class and object diagrams. Next, you'll learn how to use use-case diagrams to model the functionality of a system. Finally, you'll see how component and deployment diagrams are used to model the way in which a system is deployed in a physical environment.Structural modeling answers the "who" and "what" questions of systems development. Behavioral modeling addresses the questions of "when," "how," and "why." You'll learn how to use sequence and collaboration, to model the interaction over time between system components, how to use state diagrams to describe the life cycle of system components, and how to use activity diagrams to document control-flow and responsibility.Throughout this book, author Sinan Si Alhir maintains a clear focus on UML the language and avoids getting caught up in the cobwebs of methodology. His presentation is direct and to-the-point. Each chapter ends with a set of exercises that you can use to test your growing knowledge of UML and its concepts. As you work your way through the book, you'll find yourself warming up to the simple yet expressive language that is UML, and using it to communicate effectively and professionally about all aspects of system design.

Communication software design graphically--Cover.

Includes index.

Table of contents provided by Syndetics

  • Preface (p. xi)
  • Part I. Fundamentals
  • 1. Introduction (p. 3)
  • What Is the UML? (p. 4)
  • The UML and Process (p. 8)
  • Learning the UML (p. 13)
  • 2. Object-Oriented Modeling (p. 15)
  • Project Management System Requirements (p. 15)
  • Alphabets, Words, and Sentences (p. 16)
  • The Object-Oriented Paradigm (p. 19)
  • Paragraphs (p. 26)
  • Sections (p. 39)
  • Documents (p. 40)
  • Part II. Structural Modeling
  • 3. Class and Object Diagrams (p. 43)
  • Classes and Objects (p. 44)
  • Associations and Links (p. 55)
  • Types, Implementation Classes, and Interfaces (p. 69)
  • Generalizations, Realizations, and Dependencies (p. 72)
  • Packages and Subsystems (p. 79)
  • Exercises (p. 86)
  • 4. Use-Case Diagrams (p. 91)
  • Actors (p. 92)
  • Use Cases (p. 94)
  • Communicate Associations (p. 96)
  • Dependencies (p. 98)
  • Generalizations (p. 102)
  • Exercises (p. 106)
  • 5. Component and Deployment Diagrams (p. 108)
  • Components (p. 108)
  • Nodes (p. 110)
  • Dependencies (p. 112)
  • Communication Associations (p. 116)
  • Exercises (p. 117)
  • Part III. Behavioral Modeling
  • 6. Sequence and Collaboration Diagrams (p. 121)
  • Roles (p. 122)
  • Messages and Stimuli (p. 128)
  • Interactions and Collaborations (p. 128)
  • Sequence Diagrams (p. 129)
  • Collaboration Diagrams (p. 138)
  • Exercises (p. 143)
  • 7. State Diagrams (p. 147)
  • States (p. 147)
  • Transitions (p. 149)
  • Advanced State Diagrams (p. 152)
  • Exercises (p. 154)
  • 8. Activity Diagrams (p. 156)
  • Action States (p. 156)
  • Flow Transitions (p. 157)
  • Swimlanes (p. 160)
  • Decisions (p. 161)
  • Concurrency (p. 162)
  • Exercises (p. 162)
  • Part IV. Beyond the Unified Modeling Language
  • 9. Extension Mechanisms (p. 167)
  • Language Architecture (p. 167)
  • Stereotypes (p. 169)
  • Properties (p. 171)
  • Profiles (p. 173)
  • Exercises (p. 175)
  • 10. The Object Constraint Language (p. 177)
  • Expressions (p. 177)
  • Simple Constraints (p. 180)
  • Complex Constraints (p. 184)
  • Exercises (p. 187)
  • Part V. Appendixes
  • A. References (p. 191)
  • B. Exercise Solutions (p. 193)
  • Index (p. 225)

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