%{ /* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END * * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * * escparse.y -- parser for esc * * this is the yacc-based parser for Eversholt. the syntax is simple * and is defined by the LALR(1) grammar described by this file. there * should be no shift/reduce or reduce/reduce messages when building this * file. * * as the input is parsed, a parse tree is built by calling the * tree_X() functions defined in tree.c. any syntax errors cause * us to skip to the next semicolon, achieved via the "error" clause * in the stmt rule below. the yacc state machine code will call * yyerror() in esclex.c and that will keep count of the errors and * display the filename, line number, and current input stream of tokens * to help the user figure out the problem. the -Y flag to this program * turns on the yacc debugging output which is quite large. you probably * only need to do that if you're debugging the grammar below. * */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include "out.h" #include "stable.h" #include "literals.h" #include "lut.h" #include "esclex.h" #include "tree.h" %} %union { struct tokstr tok; struct node *np; } %right '=' /* * make sure ':' comes immediately after '?' in precedence declarations */ %right '?' %nonassoc ':' %left OR %left AND %left '|' %left '^' %left '&' %left EQ NE %left LE GE '<' '>' %left LSHIFT RSHIFT %left '-' '+' %left '*' '%' DIV '/' %right '!' '~' %left '.' %token PROP MASK ARROW EVENT ENGINE ASRU FRU COUNT CONFIG %token ID QUOTE NUMBER IF PATHFUNC %type enameid %type root stmtlist stmt nvpairlist nvpair nvname nvexpr %type exprlist expr iterid ename pname epname eexprlist ipname iname %type numexpr cexpr func pfunc parglist parg %type eventlist event nork norkexpr globid propbody %% root : stmtlist { (void)tree_root($1); } ; stmtlist : /*empty*/ { $$ = NULL; } | stmtlist stmt { $$ = tree_expr(T_LIST, $1, $2); } ; stmt : error ';' { $$ = tree_nothing(); } | IF '(' expr ')' stmt { $$ = $5; } | IF '(' expr ')' '{' stmtlist '}' { $$ = $6; } | EVENT event nvpairlist ';' { $$ = tree_decl(T_EVENT, $2, $3, $1.file, $1.line); } | ENGINE event nvpairlist ';' { $$ = tree_decl(T_ENGINE, $2, $3, $1.file, $1.line); } | PROP propbody ';' { $$ = tree_stmt(T_PROP, $2, $1.file, $1.line); } | MASK propbody ';' { $$ = tree_stmt(T_MASK, $2, $1.file, $1.line); } | ASRU pname nvpairlist ';' { $$ = tree_decl(T_ASRU, $2, $3, $1.file, $1.line); } | FRU pname nvpairlist ';' { $$ = tree_decl(T_FRU, $2, $3, $1.file, $1.line); } | CONFIG ipname nvpairlist ';' { $$ = tree_decl(T_CONFIG, $2, $3, $1.file, $1.line); } | /*superfluous semicolons are ignored*/ ';' { $$ = tree_nothing(); } ; propbody: eventlist nork ARROW nork eventlist { $$ = tree_arrow($1, $2, $4, $5); } | propbody nork ARROW nork eventlist { $$ = tree_arrow($1, $2, $4, $5); } ; nork : /* empty */ { $$ = NULL; } | '(' norkexpr ')' { $$ = $2; } ; norkexpr: NUMBER { $$ = tree_num($1.s, $1.file, $1.line); } | ID /* really can only be 'A', enforced by check_arrow() later */ { $$ = tree_name($1.s, IT_NONE, $1.file, $1.line); } | '(' norkexpr ')' { $$ = $2; } | norkexpr '-' norkexpr { $$ = tree_expr(T_SUB, $1, $3); } | norkexpr '+' norkexpr { $$ = tree_expr(T_ADD, $1, $3); } | norkexpr '*' norkexpr { $$ = tree_expr(T_MUL, $1, $3); } | norkexpr DIV norkexpr { $$ = tree_expr(T_DIV, $1, $3); } | norkexpr '%' norkexpr { $$ = tree_expr(T_MOD, $1, $3); } ; nvpairlist: /* empty */ { $$ = NULL; } | nvpair | nvpairlist ',' nvpair { $$ = tree_expr(T_LIST, $1, $3); } ; nvpair : nvname '=' nvexpr { $$ = tree_expr(T_NVPAIR, $1, $3); } | ENGINE '=' nvexpr /* "engine" is a reserved word, but a valid property name */ { $$ = tree_expr(T_NVPAIR, tree_name($1.s, IT_NONE, $1.file, $1.line), $3); } | COUNT '=' nvexpr /* "count" is a reserved word, but a valid property name */ { $$ = tree_expr(T_NVPAIR, tree_name($1.s, IT_NONE, $1.file, $1.line), $3); } ; nvname : ID { $$ = tree_name($1.s, IT_NONE, $1.file, $1.line); } | nvname '-' ID { /* hack to allow dashes in property names */ $$ = tree_name_repairdash($1, $3.s); } ; /* the RHS of an nvpair can be a value, or an ename, or an ename@pname */ nvexpr : numexpr | ename epname { $$ = tree_event($1, $2, NULL); } | pname | globid | func | NUMBER ID /* * ID must be timevals only ("ms", "us", etc.). * enforced by tree_timeval(). */ { $$ = tree_timeval($1.s, $2.s, $1.file, $1.line); } | QUOTE { $$ = tree_quote($1.s, $1.file, $1.line); } ; /* arithmetic operations, no variables or symbols */ numexpr : numexpr '-' numexpr { $$ = tree_expr(T_SUB, $1, $3); } | numexpr '+' numexpr { $$ = tree_expr(T_ADD, $1, $3); } | numexpr '*' numexpr { $$ = tree_expr(T_MUL, $1, $3); } | numexpr DIV numexpr { $$ = tree_expr(T_DIV, $1, $3); } | numexpr '/' numexpr { $$ = tree_expr(T_DIV, $1, $3); } | numexpr '%' numexpr { $$ = tree_expr(T_MOD, $1, $3); } | '(' numexpr ')' { $$ = $2; } | NUMBER { $$ = tree_num($1.s, $1.file, $1.line); } ; eventlist: event | eventlist ',' event { $$ = tree_expr(T_LIST, $1, $3); } ; event : ename epname eexprlist { $$ = tree_event($1, $2, $3); } ; epname : /* empty */ { $$ = NULL; } | '@' pname { $$ = $2; } ; eexprlist: /* empty */ { $$ = NULL; } | '{' exprlist '}' { $$ = $2; } ; exprlist: expr | exprlist ',' expr { $$ = tree_expr(T_LIST, $1, $3); } ; /* * note that expr does not include pname, to avoid reduce/reduce * conflicts between cexpr and iterid involving the use of ID */ expr : cexpr | NUMBER ID /* * ID must be timevals only ("ms", "us", etc.). * enforced by tree_timeval(). */ { $$ = tree_timeval($1.s, $2.s, $1.file, $1.line); } ; cexpr : cexpr '=' cexpr { $$ = tree_expr(T_ASSIGN, $1, $3); } | cexpr '?' cexpr { $$ = tree_expr(T_CONDIF, $1, $3); } | cexpr ':' cexpr { $$ = tree_expr(T_CONDELSE, $1, $3); } | cexpr OR cexpr { $$ = tree_expr(T_OR, $1, $3); } | cexpr AND cexpr { $$ = tree_expr(T_AND, $1, $3); } | cexpr '|' cexpr { $$ = tree_expr(T_BITOR, $1, $3); } | cexpr '^' cexpr { $$ = tree_expr(T_BITXOR, $1, $3); } | cexpr '&' cexpr { $$ = tree_expr(T_BITAND, $1, $3); } | cexpr EQ cexpr { $$ = tree_expr(T_EQ, $1, $3); } | cexpr NE cexpr { $$ = tree_expr(T_NE, $1, $3); } | cexpr '<' cexpr { $$ = tree_expr(T_LT, $1, $3); } | cexpr LE cexpr { $$ = tree_expr(T_LE, $1, $3); } | cexpr '>' cexpr { $$ = tree_expr(T_GT, $1, $3); } | cexpr GE cexpr { $$ = tree_expr(T_GE, $1, $3); } | cexpr LSHIFT cexpr { $$ = tree_expr(T_LSHIFT, $1, $3); } | cexpr RSHIFT cexpr { $$ = tree_expr(T_RSHIFT, $1, $3); } | cexpr '-' cexpr { $$ = tree_expr(T_SUB, $1, $3); } | cexpr '+' cexpr { $$ = tree_expr(T_ADD, $1, $3); } | cexpr '*' cexpr { $$ = tree_expr(T_MUL, $1, $3); } | cexpr DIV cexpr { $$ = tree_expr(T_DIV, $1, $3); } | cexpr '/' cexpr { $$ = tree_expr(T_DIV, $1, $3); } | cexpr '%' cexpr { $$ = tree_expr(T_MOD, $1, $3); } | '!' cexpr { $$ = tree_expr(T_NOT, $2, NULL); } | '~' cexpr { $$ = tree_expr(T_BITNOT, $2, NULL); } | '(' cexpr ')' { $$ = $2; } | func | NUMBER { $$ = tree_num($1.s, $1.file, $1.line); } | ID { /* iteration variable */ $$ = tree_name($1.s, IT_NONE, $1.file, $1.line); } | globid | QUOTE { $$ = tree_quote($1.s, $1.file, $1.line); } ; func : ID '(' ')' { $$ = tree_func($1.s, NULL, $1.file, $1.line); } | ID '(' exprlist ')' { $$ = tree_func($1.s, $3, $1.file, $1.line); } | PATHFUNC '(' parglist ')' { $$ = tree_func($1.s, $3, $1.file, $1.line); } | pfunc ; parglist: parg | parglist ',' parg { $$ = tree_expr(T_LIST, $1, $3); } ; parg : pfunc | pname { $$ = tree_pname($1); } | QUOTE { $$ = tree_quote($1.s, $1.file, $1.line); } ; /* * these functions are in the grammar so we can force the arg to be * a path or an event. they show up as functions in the parse tree. */ pfunc : ASRU '(' pname ')' { $$ = tree_func($1.s, tree_pname($3), $1.file, $1.line); } | FRU '(' pname ')' { $$ = tree_func($1.s, tree_pname($3), $1.file, $1.line); } | COUNT '(' event ')' { $$ = tree_func($1.s, $3, $1.file, $1.line); } ; globid : '$' ID { $$ = tree_globid($2.s, $2.file, $2.line); } ; iterid : ID { $$ = tree_name($1.s, IT_VERTICAL, $1.file, $1.line); } | ID '[' ']' { $$ = tree_name($1.s, IT_VERTICAL, $1.file, $1.line); } | ID '[' cexpr ']' { $$ = tree_name_iterator( tree_name($1.s, IT_VERTICAL, $1.file, $1.line), $3); } | ID '<' '>' { $$ = tree_name($1.s, IT_HORIZONTAL, $1.file, $1.line); } | ID '<' ID '>' { $$ = tree_name_iterator( tree_name($1.s, IT_HORIZONTAL, $1.file, $1.line), tree_name($3.s, IT_NONE, $3.file, $3.line)); } | ID '-' iterid { /* hack to allow dashes in path name components */ $$ = tree_name_repairdash2($1.s, $3); } ; /* iname is an ID where we can peel numbers off the end */ iname : ID { $$ = tree_iname($1.s, $1.file, $1.line); } ; /* base case of ID.ID instead of just ID requires ename to contain one dot */ ename : ID '.' enameid { $$ = tree_name_append( tree_name($1.s, IT_ENAME, $1.file, $1.line), tree_name($3.s, IT_NONE, $3.file, $3.line)); } | ename '.' enameid { $$ = tree_name_append($1, tree_name($3.s, IT_NONE, $3.file, $3.line)); } | ename '-' enameid { /* * hack to allow dashes in class names. when we * detect the dash here, we know we're in a class * name because the left recursion of this rule * means we've already matched at least: * ID '.' ID * so the ename here has an incomplete final * component (because the lexer stopped at the * dash). so we repair that final component here. */ $$ = tree_name_repairdash($1, $3.s); } ; /* like an ID, but we let reserved words act unreserved in enames */ enameid : ID | PROP | MASK | EVENT | ENGINE | ASRU | FRU | CONFIG | IF ; /* pname is a pathname, like x/y, x/y[0], etc */ pname : iterid | pname '/' iterid { $$ = tree_name_append($1, $3); } ; /* ipname is an "instanced" pathname, like x0/y1 */ ipname : iname | ipname '/' iname { $$ = tree_name_append($1, $3); } ; %%