Intro to compiler construction, interpreters and other tools
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About This Presentation
Basic intro of construction of compiler
Slide Content
Introduction to Compiler
Construction
Robert van Engelen
http://www.cs.fsu.edu/~engelen/courses/COP5621
COP5621 Compiler Construction
Copyright Robert van Engelen, Florida State University, 2007
Construction
Robert van Engelen
http://www.cs.fsu.edu/~engelen/courses/COP5621
COP5621 Compiler Construction
Copyright Robert van Engelen, Florida State University, 2007
Syllabus
•Prerequisites: COP4020
•Textbook: “Compilers: Principles, Techniques,
and Tools” by Aho, Sethi, and Ullman, 1
st
or 2
nd
edition
•Other material: “The Java
TM
Virtual Machine
Specification”, 2
nd
edition and class handouts
•Four exams (60%) and continuous programming
assignments (40%)
•For up-to-date info visit:
http://www.cs.fsu.edu/~engelen/courses/COP5621
•Prerequisites: COP4020
•Textbook: “Compilers: Principles, Techniques,
and Tools” by Aho, Sethi, and Ullman, 1
st
or 2
nd
edition
•Other material: “The Java
TM
Virtual Machine
Specification”, 2
nd
edition and class handouts
•Four exams (60%) and continuous programming
assignments (40%)
•For up-to-date info visit:
http://www.cs.fsu.edu/~engelen/courses/COP5621
Assignments and Schedule
http://www.cs.fsu.edu/~engelen/courses/COP5621/assign.html
http://www.cs.fsu.edu/~engelen/courses/COP5621/assign.html
Objectives
•Be able to build a compiler for a (simplified)
(programming) language
•Know how to use compiler construction tools, such as
generators of scanners and parsers
•Be familiar with virtual machines, such as the JVM and
Java bytecode
•Be able to define LL(1), LR(1), and LALR(1) grammars
•Be familiar with compiler analysis and optimization
techniques
•… learn how to work on a larger software project!
•Be able to build a compiler for a (simplified)
(programming) language
•Know how to use compiler construction tools, such as
generators of scanners and parsers
•Be familiar with virtual machines, such as the JVM and
Java bytecode
•Be able to define LL(1), LR(1), and LALR(1) grammars
•Be familiar with compiler analysis and optimization
techniques
•… learn how to work on a larger software project!
Compilers and Interpreters
•“Compilation”
–Translation of a program written in a source
language into a semantically equivalent
program written in a target language
Compiler
Error messages
Source
Program
Target
Program
Input
Output
•“Compilation”
–Translation of a program written in a source
language into a semantically equivalent
program written in a target language
Compiler
Error messages
Source
Program
Target
Program
Input
Output
Compilers and Interpreters
(cont’d)
Interpreter
Source
Program
Input
Output
Error messages
•“Interpretation”
–Performing the operations implied by the
source program
(cont’d)
Interpreter
Source
Program
Input
Output
Error messages
•“Interpretation”
–Performing the operations implied by the
source program
The Analysis-Synthesis Model of
Compilation
•There are two parts to compilation:
–Analysis determines the operations implied by
the source program which are recorded in a tree
structure
–Synthesis takes the tree structure and translates
the operations therein into the target program
Compilation
•There are two parts to compilation:
–Analysis determines the operations implied by
the source program which are recorded in a tree
structure
–Synthesis takes the tree structure and translates
the operations therein into the target program
Other Tools that Use the
Analysis-Synthesis Model
•Editors (syntax highlighting)
•Pretty printers (e.g. Doxygen)
•Static checkers (e.g. Lint and Splint)
•Interpreters
•Text formatters (e.g. TeX and LaTeX)
•Silicon compilers (e.g. VHDL)
•Query interpreters/compilers (Databases)
Analysis-Synthesis Model
•Editors (syntax highlighting)
•Pretty printers (e.g. Doxygen)
•Static checkers (e.g. Lint and Splint)
•Interpreters
•Text formatters (e.g. TeX and LaTeX)
•Silicon compilers (e.g. VHDL)
•Query interpreters/compilers (Databases)
Preprocessors, Compilers,
Assemblers, and Linkers
Preprocessor
Compiler
Assembler
Linker
Skeletal Source Program
Source Program
Target Assembly Program
Relocatable Object Code
Absolute Machine Code
Libraries and
Relocatable Object Files
Try for example:
gcc -v myprog.c
Assemblers, and Linkers
Preprocessor
Compiler
Assembler
Linker
Skeletal Source Program
Source Program
Target Assembly Program
Relocatable Object Code
Absolute Machine Code
Libraries and
Relocatable Object Files
Try for example:
gcc -v myprog.c
The Phases of a Compiler
Phase Output Sample
Programmer (source code producer)Source string A=B+C;
Scanner (performs lexical analysis)Token string ‘A’, ‘=’, ‘B’, ‘+’, ‘C’, ‘;’
And symbol table with names
Parser (performs syntax analysis
based on the grammar of the
programming language)
Parse tree or abstract syntax tree
;
|
=
/ \
A +
/ \
B C
Semantic analyzer (type checking,
etc)
Annotated parse tree or abstract
syntax tree
Intermediate code generator Three-address code, quads, or
RTL
int2fp B t1
+ t1 C t2
:= t2 A
Optimizer Three-address code, quads, or
RTL
int2fp B t1
+ t1 #2.3 A
Code generator Assembly code MOVF #2.3,r1
ADDF2 r1,r2
MOVF r2,A
Peephole optimizer Assembly code ADDF2 #2.3,r2
MOVF r2,A
Phase Output Sample
Programmer (source code producer)Source string A=B+C;
Scanner (performs lexical analysis)Token string ‘A’, ‘=’, ‘B’, ‘+’, ‘C’, ‘;’
And symbol table with names
Parser (performs syntax analysis
based on the grammar of the
programming language)
Parse tree or abstract syntax tree
;
|
=
/ \
A +
/ \
B C
Semantic analyzer (type checking,
etc)
Annotated parse tree or abstract
syntax tree
Intermediate code generator Three-address code, quads, or
RTL
int2fp B t1
+ t1 C t2
:= t2 A
Optimizer Three-address code, quads, or
RTL
int2fp B t1
+ t1 #2.3 A
Code generator Assembly code MOVF #2.3,r1
ADDF2 r1,r2
MOVF r2,A
Peephole optimizer Assembly code ADDF2 #2.3,r2
MOVF r2,A
The Grouping of Phases
•Compiler front and back ends:
–Front end: analysis (machine independent)
–Back end: synthesis (machine dependent)
•Compiler passes:
–A collection of phases is done only once (single pass)
or multiple times (multi pass)
•Single pass: usually requires everything to be defined before
being used in source program
•Multi pass: compiler may have to keep entire program
representation in memory
•Compiler front and back ends:
–Front end: analysis (machine independent)
–Back end: synthesis (machine dependent)
•Compiler passes:
–A collection of phases is done only once (single pass)
or multiple times (multi pass)
•Single pass: usually requires everything to be defined before
being used in source program
•Multi pass: compiler may have to keep entire program
representation in memory
Compiler-Construction Tools
•Software development tools are available to
implement one or more compiler phases
–Scanner generators
–Parser generators
–Syntax-directed translation engines
–Automatic code generators
–Data-flow engines
•Software development tools are available to
implement one or more compiler phases
–Scanner generators
–Parser generators
–Syntax-directed translation engines
–Automatic code generators
–Data-flow engines
Outline
•Ch. 1: Introduction
•Ch. 2: A simple One-Pass Compiler for the JVM
•Ch. 3: Lexical Analysis and Lex/Flex
•Ch. 4: Syntax Analysis and Yacc/Bison
•Ch. 5: Syntax-Directed Translation
•Ch. 6: Type Checking
•Ch. 7: Run-Time Environments
•Ch. 8: Intermediate Code Generation
•Ch. 9: Code Generation
•Ch.10: Code Optimization
•Ch. 1: Introduction
•Ch. 2: A simple One-Pass Compiler for the JVM
•Ch. 3: Lexical Analysis and Lex/Flex
•Ch. 4: Syntax Analysis and Yacc/Bison
•Ch. 5: Syntax-Directed Translation
•Ch. 6: Type Checking
•Ch. 7: Run-Time Environments
•Ch. 8: Intermediate Code Generation
•Ch. 9: Code Generation
•Ch.10: Code Optimization
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