The D Programming Language

Auteur

Andrei Alexandrescu, Ph.D., is the author of the award-winning books Modern C++ Design (Addison-Wesley, 2001) and, with Herb Sutter, C++ Coding Standards (Addison-Wesley, 2005). Through his work, Andrei has garnered a solid reputation as a leading innovator in programming languages and methods. Since 2006, he has collaborated closely with Walter Bright—the original designer and implementer of D—on designing and implementing the language and its standard library.

Texte du rabat

"To the best of my knowledge, D offers an unprecedentedly adroit integration of several powerful programming paradigms: imperative, object-oriented, functional, and meta."

-From the foreword by Walter Bright

"This is a book by a skilled author describing an interesting programming language. I'm sure you'll find the read rewarding."

-From the foreword by Scott Meyers

D is a programming language built to help programmers address the challenges of modern software development. It does so by fostering modules interconnected through precise interfaces, a federation of tightly integrated programming paradigms, language-enforced thread isolation, modular type safety, an efficient memory model, and more.

The D Programming Language is an authoritative and comprehensive introduction to D. It covers all aspects of the language (such as expressions, statements, types, functions, contracts, and modules), but it is much more than an enumeration of features. Reflecting the author's signature style, the writing is casual and conversational, but never at the expense of focus and precision.

Inside the book you will find

• In-depth explanations, with idiomatic examples, for all language features
• How feature groups support major programming paradigms
• The rationale and best-use advice for each major feature
• Discussion of cross-cutting issues, such as error handling, contract programming, and concurrency

• Tables, figures, and "cheat sheets" that serve as a handy quick reference for day-to-day problem solving with D Written for the working programmer, The D Programming Language not only introduces the D language-it presents a compendium of good practices and idioms to help both your coding with D and your coding in general.

Contenu

Foreword by Walter Bright xv

Foreword by Scott Meyers xix

Preface xxiii

Chapter 1: “D”iving In 1

1.1 Numbers and Expressions 3

1.2 Statements 5

1.3 Function Basics 6

1.4 Arrays and Associative Arrays 7

1.5 Basic Data Structures 14

1.6 Interfaces and Classes 20

1.7 Values versus References 25

1.8 Summary 27

Chapter 2: Basic Types. Expressions 29

2.1 Symbols 30

2.2 Literals 32

2.3 Operators 42

2.4 Summary and Quick Reference 61

Chapter 3: Statements 65

3.1 The Expression Statement 65

3.2 The Compound Statement 66

3.3 The if Statement 67

3.4 The static if Statement 68

3.5 The switch Statement 71

3.6 The final switch Statement 72

3.7 Looping Statements 73

3.8 The goto Statement 78

3.9 The with Statement 80

3.10 The return Statement 81

3.11 The throw and try Statements 81

3.12 The mixin Statement 82

3.13 The scope Statement 84

3.14 The synchronized Statement 88

3.15 The asm Statement 89

3.16 Summary and Quick Reference 89

Chapter 4: Arrays, Associative Arrays, and Strings 93

4.1 Dynamic Arrays 93

4.2 Fixed-Size Arrays 107

4.3 Multidimensional Arrays 111

4.4 Associative Arrays 114

4.5 Strings 118

4.6 Arrays’ Maverick Cousin: The Pointer 124

4.7 Summary and Quick Reference 126

Chapter 5: Data and Functions. Functional Style 131

5.1 Writing and unittesting a Simple Function 131

5.2 Passing Conventions and Storage Classes 134

5.3 Type Parameters 138

5.4 Signature Constraints 140

5.5 Overloading 142

5.6 Higher-Order Functions. Function Literals 148

5.7 Nested Functions 150

5.8 Closures 152

5.9 Beyond Arrays. Ranges. Pseudo Members 154

5.10 Variadic Functions 159

5.11 Function Attributes 165

5.12 Compile-Time Evaluation 169

Chapter 6: Classes. Object-Oriented Style 175

6.1 Classes 175

6.2 Object Names Are References 177

6.3 It’s an Object’s Life 181

6.4 Methods and Inheritance 190

6.5 Class-Level Encapsulation with static Members 196

6.6 Curbing Extensibility with final Methods 197

6.7 Encapsulation 199

6.8 One Root to Rule Them All 203

6.9 Interfaces 212

6.10 Abstract Classes 218

6.11 Nested Classes 222

6.12 Multiple Inheritance 226

6.13 Multiple Subtyping 230

6.14 Parameterized Classes and Interfaces 233

6.15 Summary 237

Chapter 7: Other User-Defined Types 239

7.1 structs 240

7.2 unions 270

7.3 Enumerated Values 272

7.4 alias 276

7.5 Parameterized Scopes with template 278

7.6 Injecting Code with mixin templates 282

7.7 Summary and Reference 285

Chapter 8: Type Qualifiers 287

8.1 The immutable Qualifier 288

8.2 Composing with immutable 291

8.3 immutable Parameters and Methods 292

8.4 immutable Constructors 293

8.5 Conversions involving immutable 295

8.6 The const Qualifier 297

8.7 Interaction between const and immutable 298

8.8 Propagating a Qualifier from Parameter to Result 299

8.9 Summary 300

Chapter 9: Error Handling 301

9.1 throwing and catching 301

9.2 Types 302

9.3 finally clauses 306

9.4 nothrow Functions and the Special Nature of Throwable 307

9.5 Collateral Exceptions 307

9.6 Stack Unwinding and Exception-Safe Code 309

9.7 Uncaught Exceptions 312

Chapter 10: Contract Programming 313

10.1 Contracts 314

10.2 Assertions 316

10.3 Preconditions 317

10.4 Postconditions 319

10.5 Invariants 321

10.6 Skipping Contract Checks. Release Builds 324

10.7 Contracts: Not for Scrubbing Input 327

10.8 Contracts and Inheritance 329

10.9 Contracts in Interfaces 334

Chapter 11: Scaling Up 337

11.1 Packages and Modules 337

11.2 Safety 353

11.3 Module Constructors and Destructors 356

11.4 Documentation Comments 358

11.5 Interfacing with C and C++ 359

11.6 deprecated 359

11.7 version Declarations 360

11.8 debug Declarations 361

11.9 D’s Standard Library 361

Chapter 12: Operator Overloading 365

12.1 Overloading Operators 366

12.2 Overloading Unary Operators 367

12.3 Overloading Binary Operators 371

12.4 Overloading Comparison Operators 375

12.5 Overloading Assignment Operators 376

12.6 Overloading Indexing Operators 377

12.7 Overloading Slicing Operators 379

12.8 The $ Operator 379

12.9 Overloading foreach 380

12.10 Defining Overloaded Operators in Classes 383

12.11 And Now for Something Completely Different: opDispatch 384

12.12 Summary and Quick Reference 388

Chapter 13: Concurrency 391

13.1 Concurrentgate 392

13.2 A Brief History of Data Sharing 394

13.3 Look, Ma, No (Default) Sharing 397

13.4 Starting a Thread 399

13.5 Exchanging Messages between Threads 401

13.6 Pattern Matching with receive 403

13.7 File Copying—with a Twist 406

13.8 Thread Termination 407

13.9 Out-of-Band Communication 409

13.10 Mailbox Crowding 410

13.11 The shared Type Qualifier 411

13.12 Operations with shared Data and Their Effects 413

13.13 Lock-Based Synchronization with synchronized classes 414

13.14 Field Typing in synchronized classes 419

13.15 Deadlocks and the synchronized Statement 424

13.16 Lock-Free Coding with shared classes 426

13.17 Summary 431

Bibliography 433

Index 439