Formal Syntax and Semantics of Java [electronic resource] /
edited by Jim Alves-Foss.
- Berlin, Heidelberg : Springer Berlin Heidelberg, 1999.
- X, 410 p. online resource.
- Lecture Notes in Computer Science, 1523 0302-9743 ; .
- Lecture Notes in Computer Science, 1523 .
Formal Grammar for Java -- Formal Grammar for Java -- Type Soundness -- Describing the Semantics of Java and Proving Type Soundness -- Proving Java Type Soundness -- Machine-Checking the Java Specification: Proving Type-Safety -- Semantic Approaches -- An Event-Based Structural Operational Semantics of Multi-threaded Java -- Dynamic Denotational Semantics of Java -- A Programmer’s Reduction Semantics for Classes and Mixins -- A Formal Specification of Java? Virtual Machine Instructions for Objects, Methods and Subroutines -- The Operational Semantics of a Java Secure Processor -- A Programmer Friendly Modular Definition of the Semantics of Java.
Java, undoubtedly, has its roots in embedded systems and the Web. Nevertheless, it is a fully functional high-level programming language that can provide users with a wide range of functionality and versatility. This thoroughly cross-reviewed state-of-the-art survey is devoted to the study of the syntax and semantics of Java from a formal-methods point of view. It consists of the following chapters by leading researchers: Formal Grammar for Java; Describing the Semantics of Java and Proving Type Soundness; Proving Java Type Soundness; Machine-Checking the Java Specification: Proving Type-Safety; An Event-Based Structural Operational Semantics of Multi-Threaded Java Dynamic Denotational Semantics of Java; A Programmer's Reduction Semantics for Classes and Mixins; A Formal Specification of Java Virtual Machine Instructions for Objects, Methods and Subroutines; The Operational Semantics of a Java Secure Processor; A Programmer Friendly Modular Definition of the Semantics of Java.
9783540487371
10.1007/3-540-48737-9 doi
Computer science.
Software engineering.
Logic design.
Computer Science.
Programming Languages, Compilers, Interpreters.
Logics and Meanings of Programs.
Software Engineering.
QA76.7-76.73 QA76.76.C65
005.13
Formal Grammar for Java -- Formal Grammar for Java -- Type Soundness -- Describing the Semantics of Java and Proving Type Soundness -- Proving Java Type Soundness -- Machine-Checking the Java Specification: Proving Type-Safety -- Semantic Approaches -- An Event-Based Structural Operational Semantics of Multi-threaded Java -- Dynamic Denotational Semantics of Java -- A Programmer’s Reduction Semantics for Classes and Mixins -- A Formal Specification of Java? Virtual Machine Instructions for Objects, Methods and Subroutines -- The Operational Semantics of a Java Secure Processor -- A Programmer Friendly Modular Definition of the Semantics of Java.
Java, undoubtedly, has its roots in embedded systems and the Web. Nevertheless, it is a fully functional high-level programming language that can provide users with a wide range of functionality and versatility. This thoroughly cross-reviewed state-of-the-art survey is devoted to the study of the syntax and semantics of Java from a formal-methods point of view. It consists of the following chapters by leading researchers: Formal Grammar for Java; Describing the Semantics of Java and Proving Type Soundness; Proving Java Type Soundness; Machine-Checking the Java Specification: Proving Type-Safety; An Event-Based Structural Operational Semantics of Multi-Threaded Java Dynamic Denotational Semantics of Java; A Programmer's Reduction Semantics for Classes and Mixins; A Formal Specification of Java Virtual Machine Instructions for Objects, Methods and Subroutines; The Operational Semantics of a Java Secure Processor; A Programmer Friendly Modular Definition of the Semantics of Java.
9783540487371
10.1007/3-540-48737-9 doi
Computer science.
Software engineering.
Logic design.
Computer Science.
Programming Languages, Compilers, Interpreters.
Logics and Meanings of Programs.
Software Engineering.
QA76.7-76.73 QA76.76.C65
005.13