Compiler construction
著者
書誌事項
Compiler construction
(Texts and monographs in computer science)
Springer-Verlag, c1984
- : U.S.
- : Germany
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注記
Bibliography: p. 415-433
Includes index
内容説明・目次
内容説明
Compilers and operating systems constitute the basic interfaces between a programmer and the machine for which he is developing software. In this book we are concerned with the construction of the former. Our intent is to provide the reader with a firm theoretical basis for compiler construction and sound engineering principles for selecting alternate methods, imple- menting them, and integrating them into a reliable, economically viable product. The emphasis is upon a clean decomposition employing modules that can be re-used for many compilers, separation of concerns to facilitate team programming, and flexibility to accommodate hardware and system constraints. A reader should be able to understand the questions he must ask when designing a compiler for language X on machine Y, what tradeoffs are possible, and what performance might be obtained. He should not feel that any part of the design rests on whim; each decision must be based upon specific, identifiable characteristics of the source and target languages or upon design goals of the compiler. The vast majority of computer professionals will never write a compiler. Nevertheless, study of compiler technology provides important benefits for almost everyone in the field . * It focuses attention on the basic relationships between languages and machines. Understanding of these relationships eases the inevitable tran- sitions to new hardware and programming languages and improves a person's ability to make appropriate tradeoft's in design and implementa- tion .
目次
1 Introduction and Overview.- 1.1 Translation and Interpretation.- 1.2 The Tasks of a Compiler.- 1.3 Data Management in a Compiler.- 1.4 Compiler Structure.- 1.5 Notes and References.- 2 Properties of Programming Languages.- 2.1 Overview.- 2.2 Data Objects and Operations.- 2.3 Expressions.- 2.4 Control Structures.- 2.5 Program Environments and Abstract Machine States.- 2.6 Notes and References.- 3 Properties of Real and Abstract Machines.- 3.1 Basic Characteristics.- 3.2 Representation of Language Elements.- 3.3 Storage Management.- 3.4 Mapping Specifications.- 3.5 Notes and References.- 4 Abstract Program Representations.- 4.1 Intermediate Languages.- 4.2 Global Tables.- 4.3 Notes and References.- 5 Elements of Formal Systems.- 5.1 Descriptive Tools.- 5.2 Regular Grammars and Finite Automata.- 5.3 Context-Free Grammars and Pushdown Automata.- 5.4 Notes and References.- 6 Lexical Analysis.- 6.1 Modules and Interfaces.- 6.2 Construction.- 6.3 Notes and References.- 7 Parsing.- 7.1 Design.- 7.2 LL(1) Parsers.- 7.3 LR Parsers.- 7.4 Notes and References.- 8 Attribute Grammars.- 8.1 Basic Concepts of Attribute Grammars.- 8.2 Traversal Strategies.- 8.3 Implementation Considerations.- 8.4 Notes and References.- 9 Semantic Analysis.- 9.1 Description of Language Properites via Attribute Grammars.- 9.2 Implementation of Semantic Analysis.- 9.3 Notes and References.- 10 Code Generation.- 10.1 Memory Mapping.- 10.2 Target Attribution.- 10.3 Code Selection.- 10.4 Notes and References.- 11 Assembly.- 11.1 Internal Address Resolution.- 11.2 External Address Resolution.- 11.3 Instruction Encoding.- 11.4 Notes and References.- 12 Error Handling.- 12.1 General Principles.- 12.2 Compiler Error Recovery.- 12.3 Run-Time Errors.- 12.4 Notes and References.- 13 Optimization.- 13.1 The Computation Graph.- 14.2 Local Optimization.- 13.3 Global Optimization.- 13.4 Efficacy and Cost.- 14 Implementing the Compiler.- 14.1 Implementation Decisions.- 14.2 Case Studies.- 14.3 Notes and References.- Appendix A: Sample Programming Language LAX.- A.1 Basic Symbols.- A.2 Program Structure.- A.3 Declarations.- A.4 Expressions.- Appendix B: Useful Algorithms for Directed Graphs.- B.1 Terminology.- B.2 Directed Graphs as Data Structures.- B.3 Partitioning Algorithms.- B.4 Notes and References.
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