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Object-Oriented Computation in C++ and Java: A Practical Guide to Design Patterns for Object-Oriented Computing

Computers


by
Conrad Weisert

Book Details

Format: EPUB

Page count: 208 pages

File size: 8 MB

Protection: DRM

Language: English

Virtually all business, scientific, and engineering applications are heavily reliant on numeric data items. C++ and Java offer object-oriented programmers unique flexibility and control over the computations required within such applications.

However, most books on object-oriented programming gloss over such numeric data items, emphasizing instead one-dimensional containers or collections and components of the graphical user interface.

Object-Oriented Computation in C++ and Java fills the gap left by such books.

Drawing on more than twenty years’ experience as a software developer, tester, consultant, and professor, Conrad Weisert shows readers how to use numeric objects effectively.

Not limited to any language or methodology, the concepts and techniques discussed in this book are entirely independent of one’s choice of design and coding methodology.

Practitioners of Extreme Programming, UML-driven design, agile methods, incremental development, and so on will all develop these same data classes.

Whether you are a seasoned professional or an advanced computer science student, this book can teach you techniques that will improve the quality of your programming and the efficiency of your applications. The exercises (and answers) presented in this book with teach you new ways to implement the computational power of C++, Java, and numeric data items.

Topics include

taxonomy of data types

developing and using object-oriented classes for numeric data

design patterns for commonly occurring numeric data types

families of interacting numeric data types

choosing efficient and flexible internal data representations

techniques for exploiting pattern reuse in C++

conventions for arithmetic operations in Java

numeric vectors and matrices

Virtually all business, scientific, and engineering applications are heavily reliant on numeric data items. C++ and Java offer object-oriented programmers unique flexibility and control over the computations required within such applications.

However, most books on object-oriented programming gloss over such numeric data items, emphasizing instead one-dimensional containers or collections and components of the graphical user interface.

Object-Oriented Computation in… (more)

Virtually all business, scientific, and engineering applications are heavily reliant on numeric data items. C++ and Java offer object-oriented programmers unique flexibility and control over the computations required within such applications.

However, most books on object-oriented programming gloss over such numeric data items, emphasizing instead one-dimensional containers or collections and components of the graphical user interface.

Object-Oriented Computation in C++ and Java fills the gap left by such books.

Drawing on more than twenty years’ experience as a software developer, tester, consultant, and professor, Conrad Weisert shows readers how to use numeric objects effectively.

Not limited to any language or methodology, the concepts and techniques discussed in this book are entirely independent of one’s choice of design and coding methodology.

Practitioners of Extreme Programming, UML-driven design, agile methods, incremental development, and so on will all develop these same data classes.

Whether you are a seasoned professional or an advanced computer science student, this book can teach you techniques that will improve the quality of your programming and the efficiency of your applications. The exercises (and answers) presented in this book with teach you new ways to implement the computational power of C++, Java, and numeric data items.

Topics include

taxonomy of data types

developing and using object-oriented classes for numeric data

design patterns for commonly occurring numeric data types

families of interacting numeric data types

choosing efficient and flexible internal data representations

techniques for exploiting pattern reuse in C++

conventions for arithmetic operations in Java

numeric vectors and matrices

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