Course details

Formal Languages and Compilers

IFJ Acad. year 2004/2005 Winter semester 5 credits

This course discusses formal languages and their models. Based on these models, it explains the construction of compilers. The lectures are organized as follows: (I) Basic notions: formal languages and their models, grammars, automata; compilers. (II) Regular languages and lexical analysis: regular languages and expressions, finite automata and transducers, lexical analyzer; Lex; symbol table. (III) Context-free languages and syntax analysis: context-free grammars, pushdown automata and transducers, deterministic top-down syntax analysis (recursive descent), the essence of deterministic bottom-up syntax analysis; Yacc. (IV) Semantic analysis and code generation: intermediate code generation, optimization, code generation.

Guarantor

Meduna Alexandr, prof. RNDr., CSc. (DIFS)

Language of instruction

Czech, English

Completion

Credit+Examination

Time span

39 hrs lectures
13 hrs projects

Department

Department of Information Systems (UIFS)

Subject specific learning outcomes and competences

Fundamental familiarity with the theory of formal languages. Ability of a compiler construction.

Learning objectives

Familiarity with formal languages and their models. Grasp of compiler construction.

Prerequisite knowledge and skills

There are no prerequisites

Study literature

kopie přednášek (elektronické i papírové)
Meduna, A.: Automata and Languages. London, Springer, 2000.
Meduna, A.: Elements of Compiler Design. New York, US, Tailor & Francis, 2008.

Fundamental literature

Parsons, T. W.: Introduction to Compiler Construction. Freeman, New York, 1992.

Syllabus of lectures

Formal languages: introduction.
Translation of languages and the structure of a compiler.
Regular languages and their models: regular expressions and finite automata.
Lexical analysis: lexical analyzer; Lex; symbol table.
Context-free languages and their models: context-free grammars and pushdown automata.
Syntax analysis: deterministic syntax analysis, FIRST and FOLLOW, LL and LR grammars.
Deterministic top-down syntax analysis: recursive descent, predictive analysis.
Deterministic bottom-up syntax analysis: simple precedence analysis, LR analysis; Yacc.
Semantic analysis and intermediate form generation.
Optimazation.
Code generation.
Turing machine. Computability and decidability: basic ideas.
Chomsky hierarchy and the corresponding models
Remarks and summary. Preliminary discussion of the VYP contents.

Progress assessment

Obtaining five or more points for the programming part of the project.

Controlled instruction

There are no checked study.