Programming Language Design Concepts
(Sprache: Englisch)
The study of programming languages consists of designing language features that can support clear expression, facilitate special and specific purposes, and appropriately use those features for the clear expression of algorithms.
- This book explains the...
- This book explains the...
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Produktinformationen zu „Programming Language Design Concepts “
The study of programming languages consists of designing language features that can support clear expression, facilitate special and specific purposes, and appropriately use those features for the clear expression of algorithms.
- This book explains the concepts underlying programming languages and shows how these concepts are synthesized in the major paradigms: imperative, object-oriented, concurrent, functional, logic, and scripting
- Examines the genesis and purpose of programming languages-not just their features
- Includes numerous examples, case studies of several major programming languages, and end-of-chapter exercises
- The companion Web site provides sample solutions to most of the exercises
- This book explains the concepts underlying programming languages and shows how these concepts are synthesized in the major paradigms: imperative, object-oriented, concurrent, functional, logic, and scripting
- Examines the genesis and purpose of programming languages-not just their features
- Includes numerous examples, case studies of several major programming languages, and end-of-chapter exercises
- The companion Web site provides sample solutions to most of the exercises
Klappentext zu „Programming Language Design Concepts “
Explains the concepts underlying programming languages, and demonstrates how these concepts are synthesized in the major paradigms: imperative, OO, concurrent, functional, logic and with recent scripting languages. It gives greatest prominence to the OO paradigm.* Includes numerous examples using C, Java and C++ as exmplar languages
* Additional case-study languages: Python, Haskell, Prolog and Ada
* Extensive end-of-chapter exercises with sample solutions on the companion Web site
* Deepens study by examining the motivation of programming languages not just their features
Inhaltsverzeichnis zu „Programming Language Design Concepts “
Preface.PART I: INTRODUCTION.
1. Programming Languages.
1.1 Programming linguistics.
1.2 Historical development.
Summary.
Further reading.
Exercises.
PART II: BASIC CONCEPTS
2. Values and Types.
2.1 Types.
2.2 Primitive types.
2.3 Composite types.
2.4 Recursive types.
2.5 Type systems.
2.6 Expressions.
2. 6.2 Constructions.
2.7 Implementation notes.
Summary.
Further reading.
Exercises.
3. Variables and Storage.
3.1 Variables and storage.
3.2 Simple variables.
3.3 Composite variables.
3.4 Copy semantics vs reference semantics.
3.5 Lifetime.
3.6 Pointers.
3.7 Commands.
3.8 Expressions with side effects.
3.9 Implementation notes
Summary.
Further reading.
Exercises.
4. Bindings and Scope.
4.1 Bindings and environments.
4.2 Scope.
4.3 Declarations.
4.4 Blocks.
Summary.
Further reading.
Exercises.
5. Procedural Abstraction.
5.1 Function procedures and proper procedures.
5.2 Parameters and arguments.
5.3 Implementation notes
Summary.
Further reading.
Exercises.
PART III: ADVANCED CONCEPTS.
6. Data Abstraction.
6.1 Program units, packages, and encapsulation.
6.2 Abstract types.
6.3 Objects and classes.
6.4 Implementation notes.
Summary.
Further reading
Exercises.
7. Generic Abstraction.
7.1 Generic units and instantiation.
7.2 Type and class parameters.
7.3 Implementation notes
Summary.
Further reading.
Exercises
8. Type Systems.
8.1 Inclusion polymorphism.
8.2 Parametric polymorphism.
8.3 Overloading.
8.4 Type conversions.
8.5 Implementation notes
Summary.
Further reading.
Exercises.
9. Control Flow.
9.1 Sequencers.
9.2 Jumps.
9.3 Escapes.
9.4 Exceptions.
9.5 Implementation notes
Summary.
Further reading.
Exercises.
10. Concurrency (by William Findlay).
10.1 Why concurrency?.
10.2 Programs and processes.
10.3 Problems
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with concurrency.
10.4 Process interactions.
10.5 Concurrency primitives.
10.6 Concurrent control abstractions.
Summary.
Further reading.
Exercises.
PART IV: PARADIGMS
11. Imperative Programming.
11.1 Key concepts.
11.2 Pragmatics.
11.3 Case study: C.
11.4 Case study: ADA.
Summary.
Further reading.
Exercises.
12. Object-Oriented Programming.
12.1 Key Concepts.
12.2 Pragmatics.
12.3 Case study: C++.
12.4 Case study: JAVA.
12.5 Case study: ADA95.
Summary.
Further reading.
Exercises.
13. Concurrent Programming (by William Findlay).
13.1 Key concepts.
13.2 Pragmatics.
13.3 Case study: ADA95.
13.4 Case study: JAVA.
Summary.
Further reading.
Exercises.
14. Functional Programming.
14.1 Key concepts.
14.2 Pragmatics.
14.3 Case study: HASKELL.
Summary.
Further reading.
Exercises.
15. Logic Programming.
15.1 Key concepts.
15.2 Pragmatics.
15.3 Case study: PROLOG.
Summary.
Further reading.
Exercises
16. Scripting.
16.1 Pragmatics.
16.2 Case study: PYTHON.
Summary.
Further reading.
Exercises.
PART V: CONCLUSION.
17. Language Selection.
17.1 Criteria.
17.2 Evaluation.
Summary.
Exercises.
18. Language Design.
18.1 Selection of concepts.
18.2 Regularity.
18.3 Simplicity.
18.4 Efficiency.
18.5 Syntax.
18.6 Language life cycles.
18.7 The future.
Summary.
Further reading.
Exercises.
Bibliography.
Glossary.
Index., 20040513
10.4 Process interactions.
10.5 Concurrency primitives.
10.6 Concurrent control abstractions.
Summary.
Further reading.
Exercises.
PART IV: PARADIGMS
11. Imperative Programming.
11.1 Key concepts.
11.2 Pragmatics.
11.3 Case study: C.
11.4 Case study: ADA.
Summary.
Further reading.
Exercises.
12. Object-Oriented Programming.
12.1 Key Concepts.
12.2 Pragmatics.
12.3 Case study: C++.
12.4 Case study: JAVA.
12.5 Case study: ADA95.
Summary.
Further reading.
Exercises.
13. Concurrent Programming (by William Findlay).
13.1 Key concepts.
13.2 Pragmatics.
13.3 Case study: ADA95.
13.4 Case study: JAVA.
Summary.
Further reading.
Exercises.
14. Functional Programming.
14.1 Key concepts.
14.2 Pragmatics.
14.3 Case study: HASKELL.
Summary.
Further reading.
Exercises.
15. Logic Programming.
15.1 Key concepts.
15.2 Pragmatics.
15.3 Case study: PROLOG.
Summary.
Further reading.
Exercises
16. Scripting.
16.1 Pragmatics.
16.2 Case study: PYTHON.
Summary.
Further reading.
Exercises.
PART V: CONCLUSION.
17. Language Selection.
17.1 Criteria.
17.2 Evaluation.
Summary.
Exercises.
18. Language Design.
18.1 Selection of concepts.
18.2 Regularity.
18.3 Simplicity.
18.4 Efficiency.
18.5 Syntax.
18.6 Language life cycles.
18.7 The future.
Summary.
Further reading.
Exercises.
Bibliography.
Glossary.
Index., 20040513
... weniger
Autoren-Porträt von David A. Watt
David Watt is a Professor of Computing Science at Glasgow University. His research interests include the design, specification, and implementation of programming languages, and he has published several books on the topic. He has many years of teaching experience on this and other programming subjects.
Bibliographische Angaben
- Autor: David A. Watt
- 2004, 1. Auflage, 492 Seiten, Maße: 23,6 cm, Kartoniert (TB), Englisch
- Verlag: Wiley & Sons
- ISBN-10: 0470853204
- ISBN-13: 9780470853207
Sprache:
Englisch
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