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Introduction to Programming with C++ for Engineers.
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ISBN
9781119431176
-- 9781119431107
Author
Cyganek, Boguslaw
Title
Introduction to Programming with C++ for Engineers.
1st ed.
Description
1 online resource (659 pages)
Contents
Cover -- Title Page -- Copyright -- Dedication -- Contents -- Preface -- Acknowledgments -- Abbreviations -- About the Companion Website -- Chapter 1 Introduction -- 1.1 Structure of the Book -- 1.2 Format Conventions -- 1.3 About the Code and Projects -- Chapter 2 Introduction to Programming -- 2.1 Hardware Model -- 2.2 Software Development Ecosystem -- 2.3 Software Development Steps -- 2.4 Representing and Running Algorithms -- 2.4.1 Representing Algorithms -- 2.4.2 Using Online Compilers -- 2.4.3 Structure of a C++ Program -- 2.4.4 Code Analysis -- 2.4.5 ( ) Building a Linux Executable -- 2.5 ExampleProject - Compound Interest Calculator -- 2.5.1 Compound Interest Analysis -- 2.5.2 Implementation of the Interest Calculator -- 2.5.3 Building and Running the Software -- 2.6 Example Project - Counting Occurrences of Characters in Text -- 2.6.1 Problem Analysis and Implementation -- 2.6.2 Running the C++ Code with the Online Compiler -- 2.6.3 Histogram Code, Explained -- 2.7 Summary -- Questions and Exercises -- Chapter 3 C++ Basics -- 3.1 Constants and Variables - Built-In Data Types, Their Range, and Initialization -- 3.2 Example Project - Collecting Student Grades -- 3.3 OurFriend the Debugger -- 3.4 The Basic Data Structure - std : : vector -- 3.5 Example Project - Implementing a Matrix as a Vector of Vectors -- 3.6 Special Vector to Store Text - std : : string -- 3.7 Using the auto Keyword and decltype for Automatic Type Deduction -- 3.8 Common Standard Algorithms -- 3.9 Structures: Collecting Objects of Various Types -- 3.10 ( ) Fixed-Size Arrays -- 3.10.1 Multidimensional Fixed-Size Arrays -- 3.11 References -- 3.12 ( ) Pointers -- 3.12.1 Object Access with Pointers -- 3.13 Statements -- 3.13.1 Blocks of Statements and Access to Variables - The Role of Braces -- 3.13.2 C++ Statements -- 3.13.2.1 Conditional Statements.
3.13.2.3 Auxiliary Statements - continue and break -- 3.13.2.4 The goto Statement -- 3.13.2.5 Structural Exception Handling - The try-catch Statement -- 3.14 Functions -- 3.14.1 Anatomy of a Function in C++ -- 3.14.2 Passing Arguments to and from a Function -- 3.14.2.1 Argument Passing by Copy (Value Semantics -- 3.14.2.2 Indirect Argument Passing by Reference -- 3.14.2.3 ( ) Passing by Pointer -- 3.14.3 Function Call Mechanism and Inline Functions -- 3.14.4 Recursive Functions and the Call Stack -- 3.14.5 Function Overloading - Resolving Visibility with Namespaces -- 3.14.6 Lambda Functions -- 3.14.7 ( ) More on Lambda Functions -- 3.14.8 ( ) Function Pointers -- 3.14.9 ( ) Functions in an Object-Oriented Framework -- 3.15 Example Project - Wrapping Objects in a Structure with a Constructor -- 3.15.1 EMatrix in an Object-Oriented Environment -- 3.15.2 Basic Operations with EMatrix -- 3.15.3 Input and Output Operations on EMatrix -- 3.15.4 Basic Mathematical Operations on EMatrix -- 3.15.5 Organizing the Project Files and Running the Application -- 3.15.6 Extending Matrix Initialization with a Simple Random Number Generator -- 3.16 Example Project - Representing Quadratic Equations -- 3.16.1 Definition of a Class to Represent Quadratic Polynomials -- 3.16.2 TQuadEq Member Implementation -- 3.16.3 TQuadEq in Action -- 3.17 Example Project - Tuples and Structured Bindings for Converting Roman Numerals -- 3.17.1 More on std : : tuple and the Structured Binding -- 3.17.2 How to Write a Software Unit Test -- 3.17.3 Automating Unit Tests - Using the Standard Random Number Library -- 3.18 Example Project - Building a Currency Calculator Component -- 3.18.1 Currency Exchange Problem Analysis -- 3.18.2 CurrencyCalc Software Design -- 3.18.3 TCurrency Class Representing Currency Records -- 3.18.3.1 C++ Input/Output Manipulators.
3.18.4 TCurrencyExchanger Class for Exchanging Currency -- 3.18.5 Putting It All Together - The Complete Currency Exchange Program -- 3.19 Operators -- 3.19.1 Summary of the C++ Operators -- 3.19.2 Further Notes on Operators -- 3.20 Summary -- Chapter 4 Delving into Object-Oriented Programming -- 4.1 Basic Rules and Philosophy of Object-Oriented Design and Programming -- 4.2 Anatomy of a Class -- 4.2.1 Naming Conventions and Self-Documenting Code -- 4.3 Rules for Accessing Class Members -- 4.4 Example Project - TComplex Class for Operator Overloading -- 4.4.1 Definition of the TComplex Class -- 4.4.2 Definition of the TComplex Class Members -- 4.4.3 Test Functions for the TComplex Class -- 4.5 Moreon References -- 4.5.1 Right and Forward References -- 4.5.2 References vs. Pointers -- 4.5.3 Pitfalls with References -- 4.6 Example Project - Mastering Class Members with the TheCube Class -- 4.6.1 Automatic vs. Explicit Definition of the Constructors -- 4.6.2 TheCube Object Layout and Semantics -- 4.6.3 Shallow vs. Deep Copy Semantics -- 4.6.4 Move Constructor and Move Assignment Semantics -- 4.6.5 Implementation of the TheCube Streaming Operators -- 4.6.6 Validation of TheCube -- 4.7 Example Project - Moving EMatrix to the Class -- 4.7.1 Definition of the EMatrix Class -- 4.7.2 Implementation of the Class Streaming Operators -- 4.7.3 Implementation of the Arithmetic Operators -- 4.7.4 Testing Matrix Operations -- 4.8 Introduction to Templates and Generic Programming -- 4.8.1 Generalizing a Class with Templates -- 4.8.2 (@) Template Specializations -- 4.8.3 Template Functions and Type Checking -- 4.8.4 Example Project - Designing Template Classes with TStack -- 4.8.4.1 Design and Implementation of the TStackFor Class -- 4.8.4.2 Testing TStack -- 4.8.5 Template Member Functions -- 4.9 Class Relations - "Know," "Has-A," and "Is-A.
4.10 Example Project - Extending Functionality Through Class Inheritance with TComplexQuadEq -- 4.11 Virtual Functions and Polymorphism -- 4.12 ( ) More on the Virtual Mechanism -- 4.13 (@) The Curiously Recurring Template Pattern and Static Polymorphism -- 4.14 (@)Mixin Classes -- 4.15 Example Project - The TLongNumberFor Class for Efficient Storage of Numbers of Any Length -- 4.15.1 Binary-Coded Decimal Representation -- 4.15.2 Endianness -- 4.15.3 Definition of the TLongNumberFor Class -- 4.15.3.1 Type-Converting Operations -- 4.15.3.2 TLongNumberFor Test Function -- 4.15.4 Designing Classes for PESEL IDs -- 4.15.4.1 Aggregating PESEL -- 4.15.4.2 Inherited PESEL -- 4.15.4.3 LongNumber Project Organization -- 4.15.5 (@) Extending the Functionality of TLongNumberFor with the Proxy Pattern -- 4.15.5.1 Definition of the Proxy Class -- 4.15.5.2 Testing the Functionality of the TLongNumberFor Class with the Proxy Pattern -- 4.16 Strong Types -- 4.17 Summary -- Questions and Exercises -- Chapter 5 Memory Management -- 5.1 Types of Data Storage -- 5.2 Dynamic Memory Allocation - How to Avoid Memory Leaks -- 5.2.1 Introduction to Smart Pointers and Resource Management -- 5.2.1.1 RAII and Stack Unwinding -- 5.3 SmartPointers - An Overview with Examples -- 5.3.1 ( ) More on std : : unique_ptr -- 5.3.1.1 Context for Using std : : unique_ptr -- 5.3.1.2 Factory Method Design Pattern -- 5.3.1.3 Custom deleter for unique_ptr -- 5.3.1.4 Constructions to Avoid When Using unique_ptr -- 5.3.2 ( ) More on shared_ptr and weak_ptr -- 5.4 Summary -- Questions and Exercises -- Chapter 6 Advanced Object-Oriented Programming -- 6.1 FunctionalObjects -- 6.2 Example Project - Extending the Currency Search in XML Files, and Using State Machine and Regular Expressions with the regex Library -- 6.2.1 Pattern Matching with the Regular Expression Library.
6.2.2 State Machine Pattern -- 6.2.3 Implementing the Extended Class -- 6.2.4 Project Extension - Loading Currency Information from the Internet -- 6.2.5 Launching the Extended Version of CurrencyCalc -- 6.2.6 Building a Static Library and a Terminal Window Application -- 6.2.7 C++ Filesystem -- 6.2.8 User Interface -- 6.2.8.1 Definition of the CC_GUI Class -- 6.2.8.2 Definitions of Members of the CC_GUI Class and the Callback Mechanism -- 6.2.8.3 Launching the GUI-Based Application -- 6.3 System Clocks and Time Measurements -- 6.4 ( ) Time Measurement for Function Execution -- 6.5 Range Class -- 6.5.1 Functional Programming and the Ranges Library -- 6.6 Example Project - Parsing Expressions -- 6.6.1 Defining Language Expressions with Formal Grammar Rules -- 6.6.2 Design of the Expression-Processing Framework -- 6.6.3 The First Expression Interpreter -- 6.6.4 Building the Syntax Tree with the Composite Design Pattern -- 6.6.4.1 The Composite Design Pattern to Define the Nodes of a Tree -- 6.6.4.2 Implementation of the TNode Hierarchy and Cooperation with Visitors -- 6.6.4.3 Implementation of the ValueLeafNode Class -- 6.6.4.4 Implementation of the BinOperator Class -- 6.6.4.5 Implementation of the PlusOperator Class -- 6.6.4.6 Deep Copying Node Objects - The Prototyping Mechanism -- 6.6.5 Interpreter to Build a Syntax Tree -- 6.6.6 Stack for Smart Pointers -- 6.6.7 Traversing Trees with the Visitor Design Pattern -- 6.6.7.1 The Expression-Evaluating Visitor -- 6.6.7.2 The Expression-Printing Visitor -- 6.6.8 Testing the Interpreters -- 6.6.9 Representing Expressions on a Stack in Reverse Polish Notation -- 6.6.9.1 Reverse Polish Notation -- 6.6.9.2 Algorithm for Evaluating an RPN Expression -- 6.7 Summary -- Questions and Exercises -- Chapter 7 Computer Arithmetic -- 7.1 Integer Value Representation -- 7.1.1 Base Conversion Algorithm.
7.1.2 Hexadecimal and Octal Representations.
Subject
C++ (Computer program language)
Engineering Data processing
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C++ (Computer program language)
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Engineering Data processing
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Authors:
Cyganek, Boguslaw
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