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Lecture # 4

Lecture # 4. Chapter 1 (Left over Topics) Chapter 3 (continue). Left over Topics of Chapter 1. What is Analysis /Synthesis Model of Compilation? Symbol Table Management Error Detection and Reporting What is meant by grouping of compilation phases into Front End and Back End?

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Lecture # 4

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  1. Lecture # 4 Chapter 1 (Left over Topics) Chapter 3 (continue)

  2. Left over Topics of Chapter 1 • What is Analysis /Synthesis Model of Compilation? • Symbol Table Management • Error Detection and Reporting • What is meant by grouping of compilation phases into Front End and Back End? • What is meant by Single / Multiple Passes? • What are the Compiler Construction Tools available?

  3. 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

  4. Another way.. • Analysis: breaks the source program into constituent pieces and creates intermediate representation • Synthesis: constructs target program from the intermediate representation • The first three phases namely: Lexical Analysis, Syntax Analysis and Semantic Analysis form the analysis part • The last three phases form the Synthesis part

  5. Symbol Table Management • An essential function of a compiler is to record the identifiers used in the source program and to collect information about various attributes of each identifier • A symbol table is a data structure containing an entry for each identifier with fields for the attributes of the identifier

  6. Error Detection and Reporting • Each phase of the compiler can encounter error. • After detecting error the compiler must deal with that error so that compilation can proceed. • A lexical analyzer will detect errors where characters do not form a token • Errors where token violates the syntax are determined by syntax analysis • If the compiler tries to add two variables one of which is the name of a function and another is an array then Symantic Analysis will throw error

  7. Section 1.5: The Grouping of Phases • Compiler phases are grouped into front and backends: • Front end:analysis (machine independent) • Back end: synthesis (machine dependent) • Front End focuses on understanding the source program and the backend focuses on mapping programs to the target machine.

  8. Compiler Passes • 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

  9. Section 1.6: Compiler-Construction Tools • Software development tools are available to implement one or more compiler phases • Scanner generators (Lex and Flex) • Parser generators (Yacc and Bison) • Syntax-directed translation engines • Automatic code generators • Data-flow engines For further details this webpage would be sufficient http://dinosaur.compilertools.net/ COP5621 Fall 2009

  10. ANTLR 3.x Project for Compiler Construction • This is a project that is built using Eclipse and the source code along with all the class files are available in Java. This aids the students in creating compiler project on a fly. • Its C# libraries are also available that can be used. • I would try to take a lab and discuss it • It tutorials and videos are available at the following address: http://www.vimeo.com/groups/29150/videos

  11. Recap of the last lecture • Difference: Skeletal Source Program Preprocessor Source Program Compiler Target Assembly Program Assembler Relocatable Object Code Libraries and Relocatable Object Files Linker Absolute Machine Code

  12. Recap We discussed: • What are Regular Expressions ? How to write ? • RE→NFA (Thompson’s construction) • NFA →DFA (Subset construction)

  13. The Subset Construction Algorithm Initially, -closure(s0) is the only state in Dstates and it is unmarkedwhile there is an unmarked state T in Dstatesdo mark Tfor each input symbol a  doU := -closure(move(T,a))ifU is not in Dstatesthen add U as an unmarked state to Dstatesend ifDtran[T,a] := Uend doend do

  14. Subset Construction Example a a1 1 2  start  a b b a2 3 0 4 5 6 a b  a3 7 8 b b DstatesA = {0,1,3,7}B = {2,4,7}C = {8}D = {7}E = {5,8}F = {6,8} a3 C a b b b start A D a a b b B E F a1 a3 a2 a3

  15. Today’s Lecture • How can we minimize a DFA? (Hopcroft’s Algorithm)

  16. Section 3.9: Minimization of DFA • What do we want to achieve?

  17. Hopcroft’s Algorithm Pg 142 • Input: A DFA M with set of states S, set of inputs , transition function defined, start state So and set of accepting states F • Output: A DFA M’ accepting the same language as M and having fewer states as possible

  18. Algorithm 3.6 • Method: Step1:Construct an initial partition P of the states with two groups : the accepting states (F) and the non accepting states (S-F) Step2:Apply the following procedure (Construction of Pnew) to construct a new partition (Pnew)

  19. Procedure for Pnew construction • For each group G of P do partition G into subgroups such that two states s and t are in the same subgroup if and only if for all input symbols a, states s and t have transitions on a to states in the same group of P • Replace G in Pnew by the set of all subgroups formed

  20. Algorithm 3.6(continue..) • Step3: If Pnew = P and proceed to step 4 . Otherwise repeat step 2 with P=Pnew • Step4:Choose one state as the state representative and add these states in M’ • Step5: If M’ has a dead state and unreachable state then remove those states (A dead state is a non accepting state that has transitions to itself on all inputs. An unreachable state is any state not reachable from the start state ) • Step6: Complete

  21. Example # 1 • The DFA for (a|b) *abb

  22. Example # 1 (Applying Minimization)

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