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Compilers (Computer programs) --- Compilateurs (Logiciels)

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Programming --- Programming languages (Electronic computers) --- Langages de programmation --- 681.3*D32 --- Computer languages --- Computer program languages --- Computer programming languages --- Machine language --- Electronic data processing --- Languages, Artificial --- language classifications: applicative languages; data-flow languages; design languages; extensible languages; macro and assembly languages; nonprocedural languages; specialized application and very high-level languages (Programminglanguages) --- 681.3*D32 language classifications: applicative languages; data-flow languages; design languages; extensible languages; macro and assembly languages; nonprocedural languages; specialized application and very high-level languages (Programminglanguages)

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Parsing, also referred to as syntax analysis, has been and continues to be an essential part of computer science and linguistics. Today, parsing is also applied in other disciplines; some examples are document preparation and conversion, chemical formulae typesetting, and chromosome recognition. In addition to the traditional parsing techniques, this second edition presents new developments and discoveries: generalized deterministic parsing, linear-time substring parsing, parallel parsing, parsing as intersection, non-canonical methods, non-Chomsky systems, and many more. Parsing techniques provide a solid basis for compiler construction and linguistics, and contribute to all existing software: they enable Web browsers to analyze HTML pages and PostScript printers to analyze PostScript, and some of the more advanced techniques are used in code generation in compilers and in data compression. Also their importance as general pattern recognizers is slowly being acknowledged. To provide readers with low-threshold access to the full field of parsing techniques, this book uses a two-tiered structure. The basic ideas behind the existing parsing techniques are explained in an intuitive and narrative style, starting from the first principles of data structures and algorithms; this provides breadth and accessibility. The hundreds of realizations and improvements of these basic ideas are explained in an extensive annotated bibliography, in a much terser, yet still informal style; this provides depth. The reader should have an understanding of algorithmic thinking, especially recursion; however, knowledge of any particular programming language is not required.

Parsing (Computer grammar) --- Formal languages. --- Formalization (Linguistics) --- Language and languages --- Machine theory --- Parsers (Computer grammar) --- Computational linguistics --- Formal languages --- Generative grammar --- Grammar, Comparative and general --- Information Technology --- Computer Science (Hardware & Networks) --- Software engineering. --- Natural language processing (Computer science). --- Computer science. --- Software Engineering/Programming and Operating Systems. --- Natural Language Processing (NLP). --- Programming Techniques. --- Programming Languages, Compilers, Interpreters. --- Informatics --- Science --- NLP (Computer science) --- Artificial intelligence --- Electronic data processing --- Human-computer interaction --- Semantic computing --- Computer software engineering --- Engineering --- Computer programming. --- Programming languages (Electronic computers). --- Computer languages --- Computer program languages --- Computer programming languages --- Machine language --- Languages, Artificial --- Computers --- Electronic computer programming --- Electronic digital computers --- Programming (Electronic computers) --- Coding theory --- Programming

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Graphics industry --- Programming --- Computer. Automation --- Translation science --- Linguistics --- grafische technieken --- vertalen --- computerbesturingssystemen --- linguïstiek --- programmeren (informatica) --- programmeertalen

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"Modern Compiler Design" makes the topic of compiler design more accessible by focusing on principles and techniques of wide application. By carefully distinguishing between the essential (material that has a high chance of being useful) and the incidental (material that will be of benefit only in exceptional cases) much useful information was packed in this comprehensive volume. The student who has finished this book can expect to understand the workings of and add to a language processor for each of the modern paradigms, and be able to read the literature on how to proceed. The first provides a firm basis, the second potential for growth.

Compilers (Computer programs). --- Compilers (Computer programs) --- Engineering & Applied Sciences --- Computer Science --- Compiling (Electronic computers) --- Compiling programs (Computer programs) --- Computer science. --- Microprocessors. --- Computer programming. --- Programming languages (Electronic computers). --- Computer Science. --- Programming Languages, Compilers, Interpreters. --- Processor Architectures. --- Programming Techniques. --- Automatic programming (Computer science) --- Electronic data processing --- Assembling (Electronic computers) --- Macro processors --- Computer programs --- Programming software --- Systems software --- Informatics --- Science --- Computers --- Electronic computer programming --- Electronic digital computers --- Programming (Electronic computers) --- Coding theory --- Minicomputers --- Computer languages --- Computer program languages --- Computer programming languages --- Machine language --- Languages, Artificial --- Programming