Dingle | Object-Oriented Design Choices | Buch | 978-0-367-82018-3 | www.sack.de

Buch, Englisch, 348 Seiten, Format (B × H): 156 mm x 234 mm, Gewicht: 532 g

Dingle

Object-Oriented Design Choices


1. Auflage 2021
ISBN: 978-0-367-82018-3
Verlag: Chapman and Hall/CRC

Buch, Englisch, 348 Seiten, Format (B × H): 156 mm x 234 mm, Gewicht: 532 g

ISBN: 978-0-367-82018-3
Verlag: Chapman and Hall/CRC


Do modern programming languages, IDEs, and libraries make coding easy? Maybe, but coding is not design. Large-scale or expensive apps clearly require evaluation of design choices. Still, software design directly impacts code reuse and longevity even for small-scale apps with limited overhead. This text evaluates and contrasts common object-oriented designs.

A given problem may have many solutions. A developer may employ different design techniques – composition, inheritance, dependency injection, delegation, etc. – to solve a particular problem. A skilled developer can determine the costs and benefits of different design responses, even amid competing concerns. A responsible developer documents design choices as a contract with the client, delineating external and internal responsibilities. To promote effective software design, this book examines contractual, object-oriented designs for immediate and sustained use as well as code reuse. The intent of identifying design variants is to recognize and manage conflicting goals such as short versus long-term utility, stability versus flexibility, and storage versus computation. Many examples are given to evaluate and contrast different solutions and to compare C# and C++ effects. No one has a crystal ball; however, deliberate design promotes software longevity. With the prominence of legacy OO code, a clear understanding of different object-oriented designs is essential.

Design questions abound. Is code reuse better with inheritance or composition? Should composition rely on complete encapsulation? Design choices impact flexibility, efficiency, stability, longevity, and reuse, yet compilers do not enforce design and syntax does not necessarily illustrate design. Through deliberate design, or redesign when refactoring, developers construct sustainable, efficient code.

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Academic and Professional Practice & Development


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Weitere Infos & Material


Preface

Detailed Book Outline

Section I: Stable Type Desig

Contractual Design and the Class Construct

Encapsulation

Explicit Design and Constraints

Class (Type) Functionality

Constructors

Accessors and Mutators

Utility and Public Methods

Destructors

Design as a Contract

Error Handling

Published Assumptions

Invariants

Programming by Contract Example

Contractual Expectations

OO Design Principle

Summary

Design Exercises

Ownership – Abstracted but Tracked

The Abstraction of Memory

Heap Memory

Ownership of Heap Objects

Array Allocation

Design Intervention

Persistent Data

Class Design

Memory Reclamation

C++ Explicit Deallocation

Garbage Collection

Reference Counting

Design: Storage vs Computation

OO Design Principle

Summary

Design Exercise

Data Integrity

Data Corruption

Copying

Shallow versus Deep Copying

C++ Copying of Internal Heap Memory

Unseen Aliasing

C# Cloning to Avoid Aliasing

Move semantics

Handle: C++ Smart Pointers unique_ptr shared_ptr weak_ptr usage

OO Design Principle

Summary

Design Exercises

Section II: Strategic Type Coupling

Composition

Object-oriented Relationships

Containment (Holds-A)

Composition (Has-A)

Modification

Replacement

Postponed instantiation

Echoing an Interface

Interfaces for Design Consistency

Wrappers and Delegates

Dependency Injection

Constructor Injection

Property (Setter) Injection

Method Injection

Dependency Injection Costs and Benefits

OO Design Principle

Summary

Design Exercises

Inheritance

Automate Type Checking

Polymorphism

Overloading

Generics

Subtype polymorphism

Function inlining

Costs and Benefits of Polymorphism

Dynamic Binding

whoami() type identification

Keywords for dynamic binding Heterogeneous Collections

Virtual Function table

Abstract Classes

Inheritance designs

OO Design Principle

Summary

Design Exercises

Inheritance vs Composition

Constrained Inheritance

When Only Composition is Viable

When Inheritance Leaks Memory: C++ destructors

Inconsistent Access:

C++ accessibility and binding

Code Reuse

Class Design: Has-a or Is-a?

Inheritance with and without Composition

5Software Maintainability

OO Design Principle

Summary

Design Exercises

Section III: Effective Type Reuse

Design Longevity

Software Evolution

Disassembler Example

Virtual Function Table

Type Extraction

Problematic Type Extension

Multiple Inheritance and its Simulation

Design difficulties

Single inheritance with composition

Simulation without inheritance

Class Hierarchies Cross-Products

OO Design Principle

Summary

Design Exercises

Operator Overloading

Operators represent functions

Overloading Addition in C++

Client Expectations

Operator Overloading in C#

Operators Overloaded only in C++

Indexing support

I/O via the stream operators

Type conversion

Transparent access

OO Design Principle

Summary

Design Exercise

Appendix A: The Pointer Construct

Pointer definition

Dereferencing pointers

Inappropriate use of pointers

Transient versus persistent memory

References

The this pointer

Arrays

Summary

Appendix B: Design Examples

Contractual Design

Ownership: C++ class memory management

Copying

Composition

Inheritance

Appendix C: Comparative Design Examples

Composition versus Inheritance

Design longevity

Operator overloading

Glossary

References


Adair Dingle, PhD, is a professor of computer science at Seattle University, Washington, USA whose previous text, Software Essentials: Design and Construction, received the 2015 Alpha Sigma Nu Book Award. Teaching and research interests focus on algorithms and software design including efficient memory management, patterns, refactoring and tools for software development and education.



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