Author: Richard L. Wexelblat
Publisher: Academic Press
ISBN: 1483266168
Category : Reference
Languages : en
Pages : 784
Book Description
History of Programming Languages presents information pertinent to the technical aspects of the language design and creation. This book provides an understanding of the processes of language design as related to the environment in which languages are developed and the knowledge base available to the originators. Organized into 14 sections encompassing 77 chapters, this book begins with an overview of the programming techniques to use to help the system produce efficient programs. This text then discusses how to use parentheses to help the system identify identical subexpressions within an expression and thereby eliminate their duplicate calculation. Other chapters consider FORTRAN programming techniques needed to produce optimum object programs. This book discusses as well the developments leading to ALGOL 60. The final chapter presents the biography of Adin D. Falkoff. This book is a valuable resource for graduate students, practitioners, historians, statisticians, mathematicians, programmers, as well as computer scientists and specialists.
History of Programming Languages
Author: Richard L. Wexelblat
Publisher: Academic Press
ISBN: 1483266168
Category : Reference
Languages : en
Pages : 784
Book Description
History of Programming Languages presents information pertinent to the technical aspects of the language design and creation. This book provides an understanding of the processes of language design as related to the environment in which languages are developed and the knowledge base available to the originators. Organized into 14 sections encompassing 77 chapters, this book begins with an overview of the programming techniques to use to help the system produce efficient programs. This text then discusses how to use parentheses to help the system identify identical subexpressions within an expression and thereby eliminate their duplicate calculation. Other chapters consider FORTRAN programming techniques needed to produce optimum object programs. This book discusses as well the developments leading to ALGOL 60. The final chapter presents the biography of Adin D. Falkoff. This book is a valuable resource for graduate students, practitioners, historians, statisticians, mathematicians, programmers, as well as computer scientists and specialists.
Publisher: Academic Press
ISBN: 1483266168
Category : Reference
Languages : en
Pages : 784
Book Description
History of Programming Languages presents information pertinent to the technical aspects of the language design and creation. This book provides an understanding of the processes of language design as related to the environment in which languages are developed and the knowledge base available to the originators. Organized into 14 sections encompassing 77 chapters, this book begins with an overview of the programming techniques to use to help the system produce efficient programs. This text then discusses how to use parentheses to help the system identify identical subexpressions within an expression and thereby eliminate their duplicate calculation. Other chapters consider FORTRAN programming techniques needed to produce optimum object programs. This book discusses as well the developments leading to ALGOL 60. The final chapter presents the biography of Adin D. Falkoff. This book is a valuable resource for graduate students, practitioners, historians, statisticians, mathematicians, programmers, as well as computer scientists and specialists.
Programming Languages: History and Fundamentals
Author: Jean E. Sammet
Publisher: Prentice Hall
ISBN:
Category : Mathematics
Languages : en
Pages : 830
Book Description
Monograph comprising fundamental information on the history and characteristics of approximately 120 programming languages for computer usage - covers technical aspects, language structure, etc. Bibliography at the end of each chapter.
Publisher: Prentice Hall
ISBN:
Category : Mathematics
Languages : en
Pages : 830
Book Description
Monograph comprising fundamental information on the history and characteristics of approximately 120 programming languages for computer usage - covers technical aspects, language structure, etc. Bibliography at the end of each chapter.
Organization of Programming Languages
Author: Bernd Teufel
Publisher: Springer Science & Business Media
ISBN: 3709191866
Category : Computers
Languages : en
Pages : 218
Book Description
Beside the computers itself, programming languages are the most important tools of a computer scientist, because they allow the formulation of algorithms in a way that a computer can perform the desired actions. Without the availability of (high level) languages it would simply be impossible to solve complex problems by using computers. Therefore, high level programming languages form a central topic in Computer Science. It should be a must for every student of Computer Science to take a course on the organization and structure of programming languages, since the knowledge about the design of the various programming languages as well as the understanding of certain compilation techniques can support the decision to choose the right language for a particular problem or application. This book is about high level programming languages. It deals with all the major aspects of programming languages (including a lot of examples and exercises). Therefore, the book does not give an detailed introduction to a certain program ming language (for this it is referred to the original language reports), but it explains the most important features of certain programming languages using those pro gramming languages to exemplify the problems. The book was outlined for a one session course on programming languages. It can be used both as a teacher's ref erence as well as a student text book.
Publisher: Springer Science & Business Media
ISBN: 3709191866
Category : Computers
Languages : en
Pages : 218
Book Description
Beside the computers itself, programming languages are the most important tools of a computer scientist, because they allow the formulation of algorithms in a way that a computer can perform the desired actions. Without the availability of (high level) languages it would simply be impossible to solve complex problems by using computers. Therefore, high level programming languages form a central topic in Computer Science. It should be a must for every student of Computer Science to take a course on the organization and structure of programming languages, since the knowledge about the design of the various programming languages as well as the understanding of certain compilation techniques can support the decision to choose the right language for a particular problem or application. This book is about high level programming languages. It deals with all the major aspects of programming languages (including a lot of examples and exercises). Therefore, the book does not give an detailed introduction to a certain program ming language (for this it is referred to the original language reports), but it explains the most important features of certain programming languages using those pro gramming languages to exemplify the problems. The book was outlined for a one session course on programming languages. It can be used both as a teacher's ref erence as well as a student text book.
Hello, World!
Author: James Steinberg
Publisher: Createspace Independent Publishing Platform
ISBN: 9781481277150
Category : Computer programming
Languages : en
Pages : 0
Book Description
"Hello, World!" looks at the history of programming from the conceptual days of the 19th Century, through the invention of modern computing to the dawn of the 21st Century. As well as a detailed journey through the programming languages developed during the 20th and 21st centuries, this book provides a valuable comparison of the syntax of a number of the influential programming languages, using the famous "Hello, World!" code.
Publisher: Createspace Independent Publishing Platform
ISBN: 9781481277150
Category : Computer programming
Languages : en
Pages : 0
Book Description
"Hello, World!" looks at the history of programming from the conceptual days of the 19th Century, through the invention of modern computing to the dawn of the 21st Century. As well as a detailed journey through the programming languages developed during the 20th and 21st centuries, this book provides a valuable comparison of the syntax of a number of the influential programming languages, using the famous "Hello, World!" code.
A Brief History of Computing
Author: Gerard O'Regan
Publisher: Springer Science & Business Media
ISBN: 144712359X
Category : Computers
Languages : en
Pages : 284
Book Description
This lively and fascinating text traces the key developments in computation – from 3000 B.C. to the present day – in an easy-to-follow and concise manner. Topics and features: ideal for self-study, offering many pedagogical features such as chapter-opening key topics, chapter introductions and summaries, exercises, and a glossary; presents detailed information on major figures in computing, such as Boole, Babbage, Shannon, Turing, Zuse and Von Neumann; reviews the history of software engineering and of programming languages, including syntax and semantics; discusses the progress of artificial intelligence, with extension to such key disciplines as philosophy, psychology, linguistics, neural networks and cybernetics; examines the impact on society of the introduction of the personal computer, the World Wide Web, and the development of mobile phone technology; follows the evolution of a number of major technology companies, including IBM, Microsoft and Apple.
Publisher: Springer Science & Business Media
ISBN: 144712359X
Category : Computers
Languages : en
Pages : 284
Book Description
This lively and fascinating text traces the key developments in computation – from 3000 B.C. to the present day – in an easy-to-follow and concise manner. Topics and features: ideal for self-study, offering many pedagogical features such as chapter-opening key topics, chapter introductions and summaries, exercises, and a glossary; presents detailed information on major figures in computing, such as Boole, Babbage, Shannon, Turing, Zuse and Von Neumann; reviews the history of software engineering and of programming languages, including syntax and semantics; discusses the progress of artificial intelligence, with extension to such key disciplines as philosophy, psychology, linguistics, neural networks and cybernetics; examines the impact on society of the introduction of the personal computer, the World Wide Web, and the development of mobile phone technology; follows the evolution of a number of major technology companies, including IBM, Microsoft and Apple.
Masterminds of Programming
Author: Federico Biancuzzi
Publisher: "O'Reilly Media, Inc."
ISBN: 0596555504
Category : Computers
Languages : en
Pages : 498
Book Description
Masterminds of Programming features exclusive interviews with the creators of several historic and highly influential programming languages. In this unique collection, you'll learn about the processes that led to specific design decisions, including the goals they had in mind, the trade-offs they had to make, and how their experiences have left an impact on programming today. Masterminds of Programming includes individual interviews with: Adin D. Falkoff: APL Thomas E. Kurtz: BASIC Charles H. Moore: FORTH Robin Milner: ML Donald D. Chamberlin: SQL Alfred Aho, Peter Weinberger, and Brian Kernighan: AWK Charles Geschke and John Warnock: PostScript Bjarne Stroustrup: C++ Bertrand Meyer: Eiffel Brad Cox and Tom Love: Objective-C Larry Wall: Perl Simon Peyton Jones, Paul Hudak, Philip Wadler, and John Hughes: Haskell Guido van Rossum: Python Luiz Henrique de Figueiredo and Roberto Ierusalimschy: Lua James Gosling: Java Grady Booch, Ivar Jacobson, and James Rumbaugh: UML Anders Hejlsberg: Delphi inventor and lead developer of C# If you're interested in the people whose vision and hard work helped shape the computer industry, you'll find Masterminds of Programming fascinating.
Publisher: "O'Reilly Media, Inc."
ISBN: 0596555504
Category : Computers
Languages : en
Pages : 498
Book Description
Masterminds of Programming features exclusive interviews with the creators of several historic and highly influential programming languages. In this unique collection, you'll learn about the processes that led to specific design decisions, including the goals they had in mind, the trade-offs they had to make, and how their experiences have left an impact on programming today. Masterminds of Programming includes individual interviews with: Adin D. Falkoff: APL Thomas E. Kurtz: BASIC Charles H. Moore: FORTH Robin Milner: ML Donald D. Chamberlin: SQL Alfred Aho, Peter Weinberger, and Brian Kernighan: AWK Charles Geschke and John Warnock: PostScript Bjarne Stroustrup: C++ Bertrand Meyer: Eiffel Brad Cox and Tom Love: Objective-C Larry Wall: Perl Simon Peyton Jones, Paul Hudak, Philip Wadler, and John Hughes: Haskell Guido van Rossum: Python Luiz Henrique de Figueiredo and Roberto Ierusalimschy: Lua James Gosling: Java Grady Booch, Ivar Jacobson, and James Rumbaugh: UML Anders Hejlsberg: Delphi inventor and lead developer of C# If you're interested in the people whose vision and hard work helped shape the computer industry, you'll find Masterminds of Programming fascinating.
Concepts in Programming Languages
Author: John C. Mitchell
Publisher: Cambridge University Press
ISBN: 9780521780988
Category : Computers
Languages : en
Pages : 546
Book Description
A comprehensive undergraduate textbook covering both theory and practical design issues, with an emphasis on object-oriented languages.
Publisher: Cambridge University Press
ISBN: 9780521780988
Category : Computers
Languages : en
Pages : 546
Book Description
A comprehensive undergraduate textbook covering both theory and practical design issues, with an emphasis on object-oriented languages.
Principles of Programming Languages
Author: Gilles Dowek
Publisher: Springer Science & Business Media
ISBN: 1848820321
Category : Computers
Languages : en
Pages : 167
Book Description
By introducing the principles of programming languages, using the Java language as a support, Gilles Dowek provides the necessary fundamentals of this language as a first objective. It is important to realise that knowledge of a single programming language is not really enough. To be a good programmer, you should be familiar with several languages and be able to learn new ones. In order to do this, you’ll need to understand universal concepts, such as functions or cells, which exist in one form or another in all programming languages. The most effective way to understand these universal concepts is to compare two or more languages. In this book, the author has chosen Caml and C. To understand the principles of programming languages, it is also important to learn how to precisely define the meaning of a program, and tools for doing so are discussed. Finally, there is coverage of basic algorithms for lists and trees. Written for students, this book presents what all scientists and engineers should know about programming languages.
Publisher: Springer Science & Business Media
ISBN: 1848820321
Category : Computers
Languages : en
Pages : 167
Book Description
By introducing the principles of programming languages, using the Java language as a support, Gilles Dowek provides the necessary fundamentals of this language as a first objective. It is important to realise that knowledge of a single programming language is not really enough. To be a good programmer, you should be familiar with several languages and be able to learn new ones. In order to do this, you’ll need to understand universal concepts, such as functions or cells, which exist in one form or another in all programming languages. The most effective way to understand these universal concepts is to compare two or more languages. In this book, the author has chosen Caml and C. To understand the principles of programming languages, it is also important to learn how to precisely define the meaning of a program, and tools for doing so are discussed. Finally, there is coverage of basic algorithms for lists and trees. Written for students, this book presents what all scientists and engineers should know about programming languages.
Introduction to the Theory of Programming Languages
Author: Gilles Dowek
Publisher: Springer Science & Business Media
ISBN: 0857290762
Category : Computers
Languages : en
Pages : 102
Book Description
The design and implementation of programming languages, from Fortran and Cobol to Caml and Java, has been one of the key developments in the management of ever more complex computerized systems. Introduction to the Theory of Programming Languages gives the reader the means to discover the tools to think, design, and implement these languages. It proposes a unified vision of the different formalisms that permit definition of a programming language: small steps operational semantics, big steps operational semantics, and denotational semantics, emphasising that all seek to define a relation between three objects: a program, an input value, and an output value. These formalisms are illustrated by presenting the semantics of some typical features of programming languages: functions, recursivity, assignments, records, objects, ... showing that the study of programming languages does not consist of studying languages one after another, but is organized around the features that are present in these various languages. The study of these features leads to the development of evaluators, interpreters and compilers, and also type inference algorithms, for small languages.
Publisher: Springer Science & Business Media
ISBN: 0857290762
Category : Computers
Languages : en
Pages : 102
Book Description
The design and implementation of programming languages, from Fortran and Cobol to Caml and Java, has been one of the key developments in the management of ever more complex computerized systems. Introduction to the Theory of Programming Languages gives the reader the means to discover the tools to think, design, and implement these languages. It proposes a unified vision of the different formalisms that permit definition of a programming language: small steps operational semantics, big steps operational semantics, and denotational semantics, emphasising that all seek to define a relation between three objects: a program, an input value, and an output value. These formalisms are illustrated by presenting the semantics of some typical features of programming languages: functions, recursivity, assignments, records, objects, ... showing that the study of programming languages does not consist of studying languages one after another, but is organized around the features that are present in these various languages. The study of these features leads to the development of evaluators, interpreters and compilers, and also type inference algorithms, for small languages.
Abstracting Away the Machine
Author: Mark Jones Lorenzo
Publisher: Independently Published
ISBN: 9781082395949
Category :
Languages : en
Pages : 326
Book Description
At the dawn of the computer age, an elite development team at IBM built the most influential computer programming language in history: FORTRAN. Abstracting Away the Machine tells the epic story of how they did it--and what happened next. Over the past six decades, programming languages like ALGOL, BASIC, C/C++, COBOL, Java, LISP, LOGO, Pascal, PL/I, Python, Visual Basic, and many others opened up the field of computer science, and of computer programming in general, to the masses. But all of these high-level languages (HLLs)--computer languages that automate, hide, or otherwise abstract away the underlying operations of the machine--owe a huge debt of gratitude to FORTRAN (FORmula TRANslation), the first HLL to achieve widespread adoption. Many programming practices that we take for granted now came about as a result of FORTRAN. Created over a three-year period at IBM by a development team led by a brilliant but wayward mathematician named John W. Backus, FORTRAN was implemented initially on the IBM 704 mainframe computer in the mid-1950s, with dialects of the language quickly spreading thereafter to other platforms. FORTRAN's powerful compiler, which translated human-readable code into code a computer could understand, produced incredibly clean and optimized standalone executable programs, all of which could be run independently of the compiler, setting the standard for decades to come--and overcoming the doubts of many skeptics along the way, who thought the FORTRAN project would never succeed. In the 1960s the language was standardized, with machine-dependent commands excised, and many platform-independent implementations followed. With the language now portable, able to run on any computer (at least in theory), FORTRAN, almost by accident, secured a stranglehold in the fields of science and engineering. The language also came to dominate in the supercomputing industry. But FORTRAN, a blue-collar workhorse more concerned with results than with style, was a victim of its own success--the language sowed the seeds of its own demise. New high-level languages sprouted up, stealing the good bits from FORTRAN while simultaneously defining themselves in opposition to it. FORTRAN had become the foil. As these new languages pierced the cutting edge of the programming landscape, they redefined computing paradigms (e.g., with structured programming, object-oriented programming, and the like), and FORTRAN--though eventually (and repeatedly) modernized and formally renamed Fortran--struggled to keep up through multiple standardization efforts, finally ceding significant ground to its successors as it slowly withdrew from the spotlight. To add insult to injury, even John Backus eventually turned against his creation. This is not a book on how to program in FORTRAN, nor is it a technical manual. Rather, the focus in Abstracting Away the Machine, which chronicles the complete history and development of the FORTRAN programming language, is set squarely on telling three interlocking stories: (1) How an elite group of computing trailblazers built FORTRAN, (2) Why the conditions at the time were ripe for them to succeed, and (3) What happened after they did. Tracing the long arc of FORTRAN's development and maturation is integral to understanding not only the history of programming but also the state of computer science today. The birth of FORTRAN planted a seed that led to the full flowering of high-level languages, since FORTRAN overcame initial skepticism by demonstrating to the world that a well-made HLL really could abstract away the machine.
Publisher: Independently Published
ISBN: 9781082395949
Category :
Languages : en
Pages : 326
Book Description
At the dawn of the computer age, an elite development team at IBM built the most influential computer programming language in history: FORTRAN. Abstracting Away the Machine tells the epic story of how they did it--and what happened next. Over the past six decades, programming languages like ALGOL, BASIC, C/C++, COBOL, Java, LISP, LOGO, Pascal, PL/I, Python, Visual Basic, and many others opened up the field of computer science, and of computer programming in general, to the masses. But all of these high-level languages (HLLs)--computer languages that automate, hide, or otherwise abstract away the underlying operations of the machine--owe a huge debt of gratitude to FORTRAN (FORmula TRANslation), the first HLL to achieve widespread adoption. Many programming practices that we take for granted now came about as a result of FORTRAN. Created over a three-year period at IBM by a development team led by a brilliant but wayward mathematician named John W. Backus, FORTRAN was implemented initially on the IBM 704 mainframe computer in the mid-1950s, with dialects of the language quickly spreading thereafter to other platforms. FORTRAN's powerful compiler, which translated human-readable code into code a computer could understand, produced incredibly clean and optimized standalone executable programs, all of which could be run independently of the compiler, setting the standard for decades to come--and overcoming the doubts of many skeptics along the way, who thought the FORTRAN project would never succeed. In the 1960s the language was standardized, with machine-dependent commands excised, and many platform-independent implementations followed. With the language now portable, able to run on any computer (at least in theory), FORTRAN, almost by accident, secured a stranglehold in the fields of science and engineering. The language also came to dominate in the supercomputing industry. But FORTRAN, a blue-collar workhorse more concerned with results than with style, was a victim of its own success--the language sowed the seeds of its own demise. New high-level languages sprouted up, stealing the good bits from FORTRAN while simultaneously defining themselves in opposition to it. FORTRAN had become the foil. As these new languages pierced the cutting edge of the programming landscape, they redefined computing paradigms (e.g., with structured programming, object-oriented programming, and the like), and FORTRAN--though eventually (and repeatedly) modernized and formally renamed Fortran--struggled to keep up through multiple standardization efforts, finally ceding significant ground to its successors as it slowly withdrew from the spotlight. To add insult to injury, even John Backus eventually turned against his creation. This is not a book on how to program in FORTRAN, nor is it a technical manual. Rather, the focus in Abstracting Away the Machine, which chronicles the complete history and development of the FORTRAN programming language, is set squarely on telling three interlocking stories: (1) How an elite group of computing trailblazers built FORTRAN, (2) Why the conditions at the time were ripe for them to succeed, and (3) What happened after they did. Tracing the long arc of FORTRAN's development and maturation is integral to understanding not only the history of programming but also the state of computer science today. The birth of FORTRAN planted a seed that led to the full flowering of high-level languages, since FORTRAN overcame initial skepticism by demonstrating to the world that a well-made HLL really could abstract away the machine.