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Application: Yacc A parser generator A context-free grammar An LR parser Yacc Yacc input file:... definitions... %... production rules... %... user-defined.

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Presentation on theme: "Application: Yacc A parser generator A context-free grammar An LR parser Yacc Yacc input file:... definitions... %... production rules... %... user-defined."— Presentation transcript:

1 Application: Yacc A parser generator A context-free grammar An LR parser Yacc Yacc input file:... definitions... %... production rules... %... user-defined functions...

2 Definitions Anything enclosed between %{... %} in this section will be copied straight into y.tab.h (the C source for the parser). All #include and #define statements, all variable declarations, all function declarations and any comments should be placed here. Any terminal symbols which will be used in the grammar must be declared in this section as a token. E.g. %token VERB_T %token NOUN_T Convention: tokens will be written as upper case, ending in "_T", while non-terminals will be written in mixed case. Non-terminals do not need to be pre-declared.

3 Productions To specify productions A -> a b c | e f g we write A : a b c | e f g ; Use lots of white space for readability: A_nt : A_T B_T C_T | E_T F_T G_T ; Comments can be included in C syntax: /* A rewrites to abc or efg */

4 Functions Section This section contains the user-defined main() routine, plus any other required functions. It is usual to include: lexerr() - to be called if the lexical analyser finds an undefined token. The default case in the lexical analyser must therefore call this function. yyerror(char*) - to be called if the parser cannot recognise the syntax of part of the input. The parser will pass a string describing the type of error. The line number of the input when the error occurs is held in yylineno. The last token read is held in yytext.

5 Running Yacc % yacc -d -v my_prog.y % cc y.tab.c -ly The -d option creates a file " y.tab.h ", which contains a #define statement for each terminal declared. Place #include "y.tab.h" in between the %{ and %} to use the tokens in the functions section. The -v option creates a file " y.output ", which contains useful information on debugging. We can use Lex to create the lexical analyser. If so, we should also place #include "y.tab.h" in Lex's definitions section, and we must link the parser and lexer together with both libraries ( -ly and -ll ).

6 Errors Yacc can not accept ambiguous grammars, nor can it accept grammars requiring two or more symbols of lookahead. The two most common error messages are: shift-reduce conflict reduce-reduce conflict The first case is where the parser would have a choice as to whether it shifts the next symbol from the input, or reduces the current symbols on the top of the stack. The second case is where the parser has a choice of rules to reduce the stack.

7 Example Errors Expr : INT_T | Expr + Expr ; causes a shift-reduce error, because INT_T + INT_T + INT_T can be parsed in two ways. Animal : Dog | Cat ; Dog : FRED_T; Cat : FRED_T; causes a reduce-reduce error, because FRED_T can be parsed in two ways.

8 errors (cont.) Do not let errors go uncorrected. A parser will be generated, but it may produce unexpected results. Study the file "y.output" to find out when the errors occur. It is very unlikely that you are trying to define a language that is not suitable. The SUN C compiler and the Berkeley PASCAL compiler are both written in Yacc. You should be able to change your grammar rules to get an unambiguous grammar.

9 Example Yacc Script S -> NP VP NP -> Det NP1 | PN NP1 -> Adj NP1| N Det -> a | the PN -> peter | paul | mary Adj -> large | grey N -> dog | cat | male | female VP -> V NP V -> is | likes | hates We want to write a Yacc script which will handle files with multiple sentences from this grammar. Each sentence will be delimited by a ".". Change the first production to S -> NP VP. and add D -> S D | S

10 The Lex Script %{ /* simple part of speech lexer */ #include "y.tab.h" %} L [a-zA-Z] % [ \t\n]+/* ignore space */ is|likes|hatesreturn VERB_T; a|thereturn DET_T; dog | cat | male | femalereturn NOUN_T; peter|paul|maryreturn PROPER_T; large|greyreturn ADJ_T; \.return PERIOD_T; {L}+lexerr();.lexerr(); %

11 Yacc Definitions %{ /* simple natural language grammar */ #include #include "y.tab.h" extern in yyleng; extern char yytext[]; extern int yylineno; extern int yyval; extern int yyparse(); %} %token DET_T %token NOUN_T %token PROPER_T %token VERB_T %token ADJ_T %token PERIOD_T %

12 Yacc rules /* a document is a sentence followed by a document, or is empty */ Doc : Sent Doc | /* empty */ ; Sent : NounPhrase VerbPhrase PERIOD_T ; NounPhrase : DET_T NounPhraseUn | PROPER_T ; NounPhraseUn : ADJ_T NounPhraseUn | NOUN_T ; VerbPhrase : VERB_T NounPhrase ; %

13 User-defined functions void lexerr() { printf("Invalid input '%s' at line%i\n", yytext,yylineno); exit(1); } void yyerror(s) char *s; { (void)fprintf(stderr, "%s at line %i, last token: %s\n", s, yylineno, yytext); } void main() { if (yyparse() == 0) printf("Parse OK\n"); else printf("Parse Failed\n"); }

14 Running the example % yacc -d -v parser.y % cc -c y.tab.c % lex parser.l % cc -c lex.yy.c % cc y.tab.o lex.yy.o -o parser -ly -ll peter is a large grey cat. the dog is a female. paul is peter. the cat is mary. a dogcat is a male. peter is male. mary is a female. % parser < file1 Parse OK % parser < file2 Invalid input 'dogcat' at line 2 % parser < file3 syntax error at line 1, last token: male file1 file2 file3

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