An Overview to Compiler Design. 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 1
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1 An Overview to Compiler Design 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 1
2 Outline An Overview of Compiler Structure Front End Middle End Back End 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 2
3 Reading Slides and Lecture Notes Aho,Lam,Sethi,Ullman: Chapter 1.4 ~ 1.5 Chapter 2.1 ~ 2.7 Chapter 3.1 ~ 3.5 Chapter 4.1 ~ /2/14 \course\cpeg421-08s\topic-1a.ppt 3
4 A Review on Compiler Structure/Design Overall structure Front-end: lexical and syntax analysis Middle-end: machine independent code analysis and (scalar, and sometimes loop nest ) optimization Back-end: Machine dependent code analysis and optimization 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 4
5 Motivation for Compiler optimization Source Program COMPILER Machine Code Input program example: int foo( ) { int x; return (x + x) ; } 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 5
6 Output Assembly Code (non-optimized) optimized) foo: sub $sp, $sp, 8 sw $fp, 8($sp) add $fp, $sp, 8 sw $ra, -4($fp) add $t0, $a0 $a0 move $v0, $t0 lw $ra, -4($fp) lw $fp, 0($fp) add $sp, $sp, 8 jr $ra 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 6
7 Output Assembly Code (non-optimized) optimized) foo: sub $sp, $sp, 8 % Push stack frame sw $fp, 8($sp) % Save old frame pointer add $fp, $sp, 8 % Set new frame pointer sw $ra, -4($fp) % Save return address add $t0, $a0 $a0 % Addition move $v0, $t0 % Copy return value lw $ra, -4($fp) % Restore return address lw $fp, 0($fp) % Restore frame pointer add $sp, $sp, 8 % Pop stack frame jr $ra % Jump to return address 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 7
8 Output Assembly Code -- Revisited (non-optimized) optimized) foo: sub $sp, $sp, 8 % Push stack frame (for what?) sw $fp, 8($sp) % Save old frame pointer (for what?) add $fp, $sp, 8 % Set new frame pointer sw $ra, -4($fp) % Save return address (for what?) add $t0, $a0, $a0 % Addition move $v0, $t0 % Copy return value lw $ra, -4($fp) % Restore return address lw $fp, 0($fp) % Restore frame pointer add $sp, $sp, 8 % Pop stack frame jr $ra % Jump to return address 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 8
9 Output Assembly Code (optimized) foo: add $v0, $a0, $a0 % Set result jr $ra % Jump to return address 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 9
10 Runtime Memory Organization Entry point for procedure 1 Entry point for procedure 2 Entry point for procedure n code for procedure 1 code for procedure 2 code for procedure n Code memory code area global/static area stack free space heap frame-1 frame-2 frame-3 Runtime stack Space for arguments (parameters) Space for bookkeeping Information, including Return address Space in local data Space for local temporaries A stack frame Address space 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 10
11 Phases of a Compiler Source program Lexical Analyzer (Scanner) Tokens Syntax Analyzer (Parser) Parse tree Semantic Analyzer Abstract Syntax Tree w/ Attributes Intermediate-code Generator Non-optimized Intermediate Code Intermediate-code Optimizer Optimized Intermediate Code Target-code Generator/Opt Target machine code 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 11
12 Low-level Model Lexical analyzer Parser Semantic analyzer Translator Optimizer String of characters String of tokens Parse tree Abstract syntax tree Low-level intermediate code Low-level intermediate code Final assembly Relocatable object module or runnable machine code Two models of compiler structures (Muchnick, pp. 08) Mixed-level Model Lexical analyzer Parser Parse tree Semantic analyzer Abstract Syntax tree Intermediate-code generator Optimizer Code generator Postpass optimizer String of characters String of tokens Medium-level intermediate code Medium-level intermediate code Low-level intermediate code Relocatable object module or runnable machine code 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 12
13 A Good Compiler Infrastructure Needed A modern View Front end Interprocedural Analysis and Optimization Good IR Loop Nest Optimization and Parallelization Global (Scalar) Optimization Middle-End Backend Code Generation 2008/2/14 \course\cpeg421-08s\topic-1a.ppt 13
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