/* perly.y * * Copyright (c) 1991-2002, 2003, 2004, 2005, 2006 Larry Wall * Copyright (c) 2007, 2008, 2009, 2010, 2011 by Larry Wall and others * * You may distribute under the terms of either the GNU General Public * License or the Artistic License, as specified in the README file. * */ /* * 'I see,' laughed Strider. 'I look foul and feel fair. Is that it? * All that is gold does not glitter, not all those who wander are lost.' * * [p.171 of _The Lord of the Rings_, I/x: "Strider"] */ /* * This file holds the grammar for the Perl language. If edited, you need * to run regen_perly.pl, which re-creates the files perly.h, perly.tab * and perly.act which are derived from this. * * The main job of this grammar is to call the various newFOO() * functions in op.c to build a syntax tree of OP structs. * It relies on the lexer in toke.c to do the tokenizing. * * Note: due to the way that the cleanup code works WRT to freeing ops on * the parse stack, it is dangerous to assign to the $n variables within * an action. */ /* Make the parser re-entrant. */ %define api.pure %start grammar %union { I32 ival; /* __DEFAULT__ (marker for regen_perly.pl; must always be 1st union member) */ char *pval; OP *opval; GV *gvval; } %token GRAMPROG GRAMEXPR GRAMBLOCK GRAMBARESTMT GRAMFULLSTMT GRAMSTMTSEQ GRAMSUBSIGNATURE %token PERLY_AMPERSAND %token PERLY_BRACE_OPEN %token PERLY_BRACE_CLOSE %token PERLY_BRACKET_OPEN %token PERLY_BRACKET_CLOSE %token PERLY_COMMA %token PERLY_DOLLAR %token PERLY_DOT %token PERLY_EQUAL_SIGN %token PERLY_MINUS %token PERLY_PERCENT_SIGN %token PERLY_PLUS %token PERLY_SEMICOLON %token PERLY_SLASH %token PERLY_SNAIL %token PERLY_STAR %token BAREWORD METHOD FUNCMETH THING PMFUNC PRIVATEREF QWLIST %token FUNC0OP FUNC0SUB UNIOPSUB LSTOPSUB %token PLUGEXPR PLUGSTMT %token LABEL %token FORMAT SUB SIGSUB ANONSUB ANON_SIGSUB PACKAGE USE %token WHILE UNTIL IF UNLESS ELSE ELSIF CONTINUE FOR %token GIVEN WHEN DEFAULT %token TRY CATCH FINALLY %token LOOPEX DOTDOT YADAYADA %token FUNC0 FUNC1 FUNC UNIOP LSTOP %token MULOP ADDOP %token DOLSHARP DO HASHBRACK NOAMP %token LOCAL MY REQUIRE %token COLONATTR FORMLBRACK FORMRBRACK %token SUBLEXSTART SUBLEXEND %token DEFER %type grammar remember mremember %type startsub startanonsub startformsub %type mintro %type stmtseq fullstmt labfullstmt barestmt block mblock else finally %type expr term subscripted scalar ary hsh arylen star amper sideff %type condition %type sliceme kvslice gelem %type listexpr nexpr texpr iexpr mexpr mnexpr %type optlistexpr optexpr optrepl indirob listop method %type formname subname proto cont my_scalar my_var %type list_of_scalars my_list_of_scalars refgen_topic formblock %type subattrlist myattrlist myattrterm myterm %type termbinop termunop anonymous termdo %type termrelop relopchain termeqop eqopchain %type sigslurpsigil %type sigvarname sigdefault sigscalarelem sigslurpelem %type sigelem siglist siglistornull subsigguts subsignature optsubsignature %type subbody optsubbody sigsubbody optsigsubbody %type formstmtseq formline formarg %nonassoc PREC_LOW %nonassoc LOOPEX %left OROP %left ANDOP %right NOTOP %nonassoc LSTOP LSTOPSUB %left PERLY_COMMA %right ASSIGNOP %right PERLY_QUESTION_MARK PERLY_COLON %nonassoc DOTDOT %left OROR DORDOR %left ANDAND %left BITOROP %left BITANDOP %left CHEQOP NCEQOP %left CHRELOP NCRELOP %nonassoc UNIOP UNIOPSUB %nonassoc REQUIRE %left SHIFTOP %left ADDOP %left MULOP %left MATCHOP %right PERLY_EXCLAMATION_MARK PERLY_TILDE UMINUS REFGEN %right POWOP %nonassoc PREINC PREDEC POSTINC POSTDEC POSTJOIN %left ARROW %nonassoc PERLY_PAREN_CLOSE %left PERLY_PAREN_OPEN %left PERLY_BRACKET_OPEN PERLY_BRACE_OPEN %% /* RULES */ /* Top-level choice of what kind of thing yyparse was called to parse */ grammar : GRAMPROG { parser->expect = XSTATE; $$ = 0; } remember stmtseq { newPROG(block_end($remember,$stmtseq)); PL_compiling.cop_seq = 0; $$ = 0; } | GRAMEXPR { parser->expect = XTERM; $$ = 0; } optexpr { PL_eval_root = $optexpr; $$ = 0; } | GRAMBLOCK { parser->expect = XBLOCK; $$ = 0; } block { PL_pad_reset_pending = TRUE; PL_eval_root = $block; $$ = 0; yyunlex(); parser->yychar = yytoken = YYEOF; } | GRAMBARESTMT { parser->expect = XSTATE; $$ = 0; } barestmt { PL_pad_reset_pending = TRUE; PL_eval_root = $barestmt; $$ = 0; yyunlex(); parser->yychar = yytoken = YYEOF; } | GRAMFULLSTMT { parser->expect = XSTATE; $$ = 0; } fullstmt { PL_pad_reset_pending = TRUE; PL_eval_root = $fullstmt; $$ = 0; yyunlex(); parser->yychar = yytoken = YYEOF; } | GRAMSTMTSEQ { parser->expect = XSTATE; $$ = 0; } stmtseq { PL_eval_root = $stmtseq; $$ = 0; } | GRAMSUBSIGNATURE { parser->expect = XSTATE; $$ = 0; } subsigguts { PL_eval_root = $subsigguts; $$ = 0; } ; /* An ordinary block */ block : PERLY_BRACE_OPEN remember stmtseq PERLY_BRACE_CLOSE { if (parser->copline > (line_t)$PERLY_BRACE_OPEN) parser->copline = (line_t)$PERLY_BRACE_OPEN; $$ = block_end($remember, $stmtseq); } ; /* format body */ formblock: PERLY_EQUAL_SIGN remember PERLY_SEMICOLON FORMRBRACK formstmtseq PERLY_SEMICOLON PERLY_DOT { if (parser->copline > (line_t)$PERLY_EQUAL_SIGN) parser->copline = (line_t)$PERLY_EQUAL_SIGN; $$ = block_end($remember, $formstmtseq); } ; remember: %empty /* start a full lexical scope */ { $$ = block_start(TRUE); parser->parsed_sub = 0; } ; mblock : PERLY_BRACE_OPEN mremember stmtseq PERLY_BRACE_CLOSE { if (parser->copline > (line_t)$PERLY_BRACE_OPEN) parser->copline = (line_t)$PERLY_BRACE_OPEN; $$ = block_end($mremember, $stmtseq); } ; mremember: %empty /* start a partial lexical scope */ { $$ = block_start(FALSE); parser->parsed_sub = 0; } ; /* A sequence of statements in the program */ stmtseq : %empty { $$ = NULL; } | stmtseq[list] fullstmt { $$ = op_append_list(OP_LINESEQ, $list, $fullstmt); PL_pad_reset_pending = TRUE; if ($list && $fullstmt) PL_hints |= HINT_BLOCK_SCOPE; } ; /* A sequence of format lines */ formstmtseq: %empty { $$ = NULL; } | formstmtseq[list] formline { $$ = op_append_list(OP_LINESEQ, $list, $formline); PL_pad_reset_pending = TRUE; if ($list && $formline) PL_hints |= HINT_BLOCK_SCOPE; } ; /* A statement in the program, including optional labels */ fullstmt: barestmt { $$ = $barestmt ? newSTATEOP(0, NULL, $barestmt) : NULL; } | labfullstmt { $$ = $labfullstmt; } ; labfullstmt: LABEL barestmt { SV *label = cSVOPx_sv($LABEL); $$ = newSTATEOP(SvFLAGS(label) & SVf_UTF8, savepv(SvPVX_const(label)), $barestmt); op_free($LABEL); } | LABEL labfullstmt[list] { SV *label = cSVOPx_sv($LABEL); $$ = newSTATEOP(SvFLAGS(label) & SVf_UTF8, savepv(SvPVX_const(label)), $list); op_free($LABEL); } ; /* A bare statement, lacking label and other aspects of state op */ barestmt: PLUGSTMT { $$ = $PLUGSTMT; } | FORMAT startformsub formname formblock { CV *fmtcv = PL_compcv; newFORM($startformsub, $formname, $formblock); $$ = NULL; if (CvOUTSIDE(fmtcv) && !CvEVAL(CvOUTSIDE(fmtcv))) { pad_add_weakref(fmtcv); } parser->parsed_sub = 1; } | SUB subname startsub /* sub declaration or definition not within scope of 'use feature "signatures"'*/ { init_named_cv(PL_compcv, $subname); parser->in_my = 0; parser->in_my_stash = NULL; } proto subattrlist optsubbody { SvREFCNT_inc_simple_void(PL_compcv); $subname->op_type == OP_CONST ? newATTRSUB($startsub, $subname, $proto, $subattrlist, $optsubbody) : newMYSUB($startsub, $subname, $proto, $subattrlist, $optsubbody) ; $$ = NULL; intro_my(); parser->parsed_sub = 1; } | SIGSUB subname startsub /* sub declaration or definition under 'use feature * "signatures"'. (Note that a signature isn't * allowed in a declaration) */ { init_named_cv(PL_compcv, $subname); parser->in_my = 0; parser->in_my_stash = NULL; } subattrlist optsigsubbody { SvREFCNT_inc_simple_void(PL_compcv); $subname->op_type == OP_CONST ? newATTRSUB($startsub, $subname, NULL, $subattrlist, $optsigsubbody) : newMYSUB( $startsub, $subname, NULL, $subattrlist, $optsigsubbody) ; $$ = NULL; intro_my(); parser->parsed_sub = 1; } | PACKAGE BAREWORD[version] BAREWORD[package] PERLY_SEMICOLON { package($package); if ($version) package_version($version); $$ = NULL; } | USE startsub { CvSPECIAL_on(PL_compcv); /* It's a BEGIN {} */ } BAREWORD[version] BAREWORD[module] optlistexpr PERLY_SEMICOLON { SvREFCNT_inc_simple_void(PL_compcv); utilize($USE, $startsub, $version, $module, $optlistexpr); parser->parsed_sub = 1; $$ = NULL; } | IF PERLY_PAREN_OPEN remember mexpr PERLY_PAREN_CLOSE mblock else { $$ = block_end($remember, newCONDOP(0, $mexpr, op_scope($mblock), $else)); parser->copline = (line_t)$IF; } | UNLESS PERLY_PAREN_OPEN remember mexpr PERLY_PAREN_CLOSE mblock else { $$ = block_end($remember, newCONDOP(0, $mexpr, $else, op_scope($mblock))); parser->copline = (line_t)$UNLESS; } | GIVEN PERLY_PAREN_OPEN remember mexpr PERLY_PAREN_CLOSE mblock { $$ = block_end($remember, newGIVENOP($mexpr, op_scope($mblock), 0)); parser->copline = (line_t)$GIVEN; } | WHEN PERLY_PAREN_OPEN remember mexpr PERLY_PAREN_CLOSE mblock { $$ = block_end($remember, newWHENOP($mexpr, op_scope($mblock))); } | DEFAULT block { $$ = newWHENOP(0, op_scope($block)); } | WHILE PERLY_PAREN_OPEN remember texpr PERLY_PAREN_CLOSE mintro mblock cont { $$ = block_end($remember, newWHILEOP(0, 1, NULL, $texpr, $mblock, $cont, $mintro)); parser->copline = (line_t)$WHILE; } | UNTIL PERLY_PAREN_OPEN remember iexpr PERLY_PAREN_CLOSE mintro mblock cont { $$ = block_end($remember, newWHILEOP(0, 1, NULL, $iexpr, $mblock, $cont, $mintro)); parser->copline = (line_t)$UNTIL; } | FOR PERLY_PAREN_OPEN remember mnexpr[init_mnexpr] PERLY_SEMICOLON { parser->expect = XTERM; } texpr PERLY_SEMICOLON { parser->expect = XTERM; } mintro mnexpr[iterate_mnexpr] PERLY_PAREN_CLOSE mblock { OP *initop = $init_mnexpr; OP *forop = newWHILEOP(0, 1, NULL, scalar($texpr), $mblock, $iterate_mnexpr, $mintro); if (initop) { forop = op_prepend_elem(OP_LINESEQ, initop, op_append_elem(OP_LINESEQ, newOP(OP_UNSTACK, OPf_SPECIAL), forop)); } PL_hints |= HINT_BLOCK_SCOPE; $$ = block_end($remember, forop); parser->copline = (line_t)$FOR; } | FOR MY remember my_scalar PERLY_PAREN_OPEN mexpr PERLY_PAREN_CLOSE mblock cont { $$ = block_end($remember, newFOROP(0, $my_scalar, $mexpr, $mblock, $cont)); parser->copline = (line_t)$FOR; } | FOR MY remember PERLY_PAREN_OPEN my_list_of_scalars PERLY_PAREN_CLOSE PERLY_PAREN_OPEN mexpr PERLY_PAREN_CLOSE mblock cont { $$ = block_end($remember, newFOROP(0, $my_list_of_scalars, $mexpr, $mblock, $cont)); parser->copline = (line_t)$FOR; } | FOR scalar PERLY_PAREN_OPEN remember mexpr PERLY_PAREN_CLOSE mblock cont { $$ = block_end($remember, newFOROP(0, op_lvalue($scalar, OP_ENTERLOOP), $mexpr, $mblock, $cont)); parser->copline = (line_t)$FOR; } | FOR my_refgen remember my_var { parser->in_my = 0; $$ = my($my_var); }[variable] PERLY_PAREN_OPEN mexpr PERLY_PAREN_CLOSE mblock cont { $$ = block_end( $remember, newFOROP(0, op_lvalue( newUNOP(OP_REFGEN, 0, $variable), OP_ENTERLOOP), $mexpr, $mblock, $cont) ); parser->copline = (line_t)$FOR; } | FOR REFGEN refgen_topic PERLY_PAREN_OPEN remember mexpr PERLY_PAREN_CLOSE mblock cont { $$ = block_end($remember, newFOROP( 0, op_lvalue(newUNOP(OP_REFGEN, 0, $refgen_topic), OP_ENTERLOOP), $mexpr, $mblock, $cont)); parser->copline = (line_t)$FOR; } | FOR PERLY_PAREN_OPEN remember mexpr PERLY_PAREN_CLOSE mblock cont { $$ = block_end($remember, newFOROP(0, NULL, $mexpr, $mblock, $cont)); parser->copline = (line_t)$FOR; } | TRY mblock[try] CATCH PERLY_PAREN_OPEN { parser->in_my = 1; } remember scalar { parser->in_my = 0; intro_my(); } PERLY_PAREN_CLOSE mblock[catch] finally { $$ = newTRYCATCHOP(0, $try, $scalar, block_end($remember, op_scope($catch))); if($finally) $$ = op_wrap_finally($$, $finally); parser->copline = (line_t)$TRY; } | block cont { /* a block is a loop that happens once */ $$ = newWHILEOP(0, 1, NULL, NULL, $block, $cont, 0); } | PACKAGE BAREWORD[version] BAREWORD[package] PERLY_BRACE_OPEN remember { package($package); if ($version) { package_version($version); } } stmtseq PERLY_BRACE_CLOSE { /* a block is a loop that happens once */ $$ = newWHILEOP(0, 1, NULL, NULL, block_end($remember, $stmtseq), NULL, 0); if (parser->copline > (line_t)$PERLY_BRACE_OPEN) parser->copline = (line_t)$PERLY_BRACE_OPEN; } | sideff PERLY_SEMICOLON { $$ = $sideff; } | DEFER mblock { $$ = newDEFEROP(0, op_scope($2)); } | YADAYADA PERLY_SEMICOLON { $$ = newLISTOP(OP_DIE, 0, newOP(OP_PUSHMARK, 0), newSVOP(OP_CONST, 0, newSVpvs("Unimplemented"))); } | PERLY_SEMICOLON { $$ = NULL; parser->copline = NOLINE; } ; /* Format line */ formline: THING formarg { OP *list; if ($formarg) { OP *term = $formarg; list = op_append_elem(OP_LIST, $THING, term); } else { list = $THING; } if (parser->copline == NOLINE) parser->copline = CopLINE(PL_curcop)-1; else parser->copline--; $$ = newSTATEOP(0, NULL, op_convert_list(OP_FORMLINE, 0, list)); } ; formarg : %empty { $$ = NULL; } | FORMLBRACK stmtseq FORMRBRACK { $$ = op_unscope($stmtseq); } ; condition: expr ; /* An expression which may have a side-effect */ sideff : error { $$ = NULL; } | expr[body] { $$ = $body; } | expr[body] IF condition { $$ = newLOGOP(OP_AND, 0, $condition, $body); } | expr[body] UNLESS condition { $$ = newLOGOP(OP_OR, 0, $condition, $body); } | expr[body] WHILE condition { $$ = newLOOPOP(OPf_PARENS, 1, scalar($condition), $body); } | expr[body] UNTIL iexpr { $$ = newLOOPOP(OPf_PARENS, 1, $iexpr, $body); } | expr[body] FOR condition { $$ = newFOROP(0, NULL, $condition, $body, NULL); parser->copline = (line_t)$FOR; } | expr[body] WHEN condition { $$ = newWHENOP($condition, op_scope($body)); } ; /* else and elsif blocks */ else : %empty { $$ = NULL; } | ELSE mblock { ($mblock)->op_flags |= OPf_PARENS; $$ = op_scope($mblock); } | ELSIF PERLY_PAREN_OPEN mexpr PERLY_PAREN_CLOSE mblock else[else.recurse] { parser->copline = (line_t)$ELSIF; $$ = newCONDOP(0, newSTATEOP(OPf_SPECIAL,NULL,$mexpr), op_scope($mblock), $[else.recurse]); PL_hints |= HINT_BLOCK_SCOPE; } ; /* Continue blocks */ cont : %empty { $$ = NULL; } | CONTINUE block { $$ = op_scope($block); } ; /* Finally blocks */ finally : %empty { $$ = NULL; } | FINALLY block { $$ = op_scope($block); } ; /* determine whether there are any new my declarations */ mintro : %empty { $$ = (PL_min_intro_pending && PL_max_intro_pending >= PL_min_intro_pending); intro_my(); } /* Normal expression */ nexpr : %empty { $$ = NULL; } | sideff ; /* Boolean expression */ texpr : %empty /* NULL means true */ { YYSTYPE tmplval; (void)scan_num("1", &tmplval); $$ = tmplval.opval; } | expr ; /* Inverted boolean expression */ iexpr : expr { $$ = invert(scalar($expr)); } ; /* Expression with its own lexical scope */ mexpr : expr { $$ = $expr; intro_my(); } ; mnexpr : nexpr { $$ = $nexpr; intro_my(); } ; formname: BAREWORD { $$ = $BAREWORD; } | %empty { $$ = NULL; } ; startsub: %empty /* start a regular subroutine scope */ { $$ = start_subparse(FALSE, 0); SAVEFREESV(PL_compcv); } ; startanonsub: %empty /* start an anonymous subroutine scope */ { $$ = start_subparse(FALSE, CVf_ANON); SAVEFREESV(PL_compcv); } ; startformsub: %empty /* start a format subroutine scope */ { $$ = start_subparse(TRUE, 0); SAVEFREESV(PL_compcv); } ; /* Name of a subroutine - must be a bareword, could be special */ subname : BAREWORD | PRIVATEREF ; /* Subroutine prototype */ proto : %empty { $$ = NULL; } | THING ; /* Optional list of subroutine attributes */ subattrlist: %empty { $$ = NULL; } | COLONATTR THING { $$ = $THING; } | COLONATTR { $$ = NULL; } ; /* List of attributes for a "my" variable declaration */ myattrlist: COLONATTR THING { $$ = $THING; } | COLONATTR { $$ = NULL; } ; /* -------------------------------------- * subroutine signature parsing */ /* the '' or 'foo' part of a '$' or '@foo' etc signature variable */ sigvarname: %empty { parser->in_my = 0; $$ = NULL; } | PRIVATEREF { parser->in_my = 0; $$ = $PRIVATEREF; } ; sigslurpsigil: PERLY_SNAIL { $$ = '@'; } | PERLY_PERCENT_SIGN { $$ = '%'; } /* @, %, @foo, %foo */ sigslurpelem: sigslurpsigil sigvarname sigdefault/* def only to catch errors */ { I32 sigil = $sigslurpsigil; OP *var = $sigvarname; OP *defexpr = $sigdefault; if (parser->sig_slurpy) yyerror("Multiple slurpy parameters not allowed"); parser->sig_slurpy = (char)sigil; if (defexpr) yyerror("A slurpy parameter may not have " "a default value"); $$ = var ? newSTATEOP(0, NULL, var) : NULL; } ; /* default part of sub signature scalar element: i.e. '= default_expr' */ sigdefault: %empty { $$ = NULL; } | ASSIGNOP { $$ = newOP(OP_NULL, 0); } | ASSIGNOP term { $$ = $term; } /* subroutine signature scalar element: e.g. '$x', '$=', '$x = $default' */ sigscalarelem: PERLY_DOLLAR sigvarname sigdefault { OP *var = $sigvarname; OP *defexpr = $sigdefault; if (parser->sig_slurpy) yyerror("Slurpy parameter not last"); parser->sig_elems++; if (defexpr) { parser->sig_optelems++; if ( defexpr->op_type == OP_NULL && !(defexpr->op_flags & OPf_KIDS)) { /* handle '$=' special case */ if (var) yyerror("Optional parameter " "lacks default expression"); op_free(defexpr); } else { /* a normal '=default' expression */ OP *defop = (OP*)alloc_LOGOP(OP_ARGDEFELEM, defexpr, LINKLIST(defexpr)); /* re-purpose op_targ to hold @_ index */ defop->op_targ = (PADOFFSET)(parser->sig_elems - 1); if (var) { var->op_flags |= OPf_STACKED; (void)op_sibling_splice(var, NULL, 0, defop); scalar(defop); } else var = newUNOP(OP_NULL, 0, defop); LINKLIST(var); /* NB: normally the first child of a * logop is executed before the logop, * and it pushes a boolean result * ready for the logop. For ARGDEFELEM, * the op itself does the boolean * calculation, so set the first op to * it instead. */ var->op_next = defop; defexpr->op_next = var; } } else { if (parser->sig_optelems) yyerror("Mandatory parameter " "follows optional parameter"); } $$ = var ? newSTATEOP(0, NULL, var) : NULL; } ; /* subroutine signature element: e.g. '$x = $default' or '%h' */ sigelem: sigscalarelem { parser->in_my = KEY_sigvar; $$ = $sigscalarelem; } | sigslurpelem { parser->in_my = KEY_sigvar; $$ = $sigslurpelem; } ; /* list of subroutine signature elements */ siglist: siglist[list] PERLY_COMMA { $$ = $list; } | siglist[list] PERLY_COMMA sigelem[element] { $$ = op_append_list(OP_LINESEQ, $list, $element); } | sigelem[element] %prec PREC_LOW { $$ = $element; } ; /* () or (....) */ siglistornull: %empty { $$ = NULL; } | siglist { $$ = $siglist; } /* optional subroutine signature */ optsubsignature: %empty { $$ = NULL; } | subsignature { $$ = $subsignature; } /* Subroutine signature */ subsignature: PERLY_PAREN_OPEN subsigguts PERLY_PAREN_CLOSE { $$ = $subsigguts; } subsigguts: { ENTER; SAVEIV(parser->sig_elems); SAVEIV(parser->sig_optelems); SAVEI8(parser->sig_slurpy); parser->sig_elems = 0; parser->sig_optelems = 0; parser->sig_slurpy = 0; parser->in_my = KEY_sigvar; } siglistornull { OP *sigops = $siglistornull; struct op_argcheck_aux *aux; OP *check; if (!FEATURE_SIGNATURES_IS_ENABLED) Perl_croak(aTHX_ "Experimental " "subroutine signatures not enabled"); /* We shouldn't get here otherwise */ Perl_ck_warner_d(aTHX_ packWARN(WARN_EXPERIMENTAL__SIGNATURES), "The signatures feature is experimental"); aux = (struct op_argcheck_aux*) PerlMemShared_malloc( sizeof(struct op_argcheck_aux)); aux->params = parser->sig_elems; aux->opt_params = parser->sig_optelems; aux->slurpy = parser->sig_slurpy; check = newUNOP_AUX(OP_ARGCHECK, 0, NULL, (UNOP_AUX_item *)aux); sigops = op_prepend_elem(OP_LINESEQ, check, sigops); sigops = op_prepend_elem(OP_LINESEQ, newSTATEOP(0, NULL, NULL), sigops); /* a nextstate at the end handles context * correctly for an empty sub body */ sigops = op_append_elem(OP_LINESEQ, sigops, newSTATEOP(0, NULL, NULL)); /* wrap the list of arg ops in a NULL aux op. This serves two purposes. First, it makes the arg list a separate subtree from the body of the sub, and secondly the null op may in future be upgraded to an OP_SIGNATURE when implemented. For now leave it as ex-argcheck */ $$ = newUNOP_AUX(OP_ARGCHECK, 0, sigops, NULL); op_null($$); parser->in_my = 0; /* tell the toker that attrributes can follow * this sig, but only so that the toker * can skip through any (illegal) trailing * attribute text then give a useful error * message about "attributes before sig", * rather than falling over ina mess at * unrecognised syntax. */ parser->expect = XATTRBLOCK; parser->sig_seen = TRUE; LEAVE; } ; /* Optional subroutine body (for named subroutine declaration) */ optsubbody: subbody { $$ = $subbody; } | PERLY_SEMICOLON { $$ = NULL; } ; /* Subroutine body (without signature) */ subbody: remember PERLY_BRACE_OPEN stmtseq PERLY_BRACE_CLOSE { if (parser->copline > (line_t)$PERLY_BRACE_OPEN) parser->copline = (line_t)$PERLY_BRACE_OPEN; $$ = block_end($remember, $stmtseq); } ; /* optional [ Subroutine body with optional signature ] (for named * subroutine declaration) */ optsigsubbody: sigsubbody { $$ = $sigsubbody; } | PERLY_SEMICOLON { $$ = NULL; } /* Subroutine body with optional signature */ sigsubbody: remember optsubsignature PERLY_BRACE_OPEN stmtseq PERLY_BRACE_CLOSE { if (parser->copline > (line_t)$PERLY_BRACE_OPEN) parser->copline = (line_t)$PERLY_BRACE_OPEN; $$ = block_end($remember, op_append_list(OP_LINESEQ, $optsubsignature, $stmtseq)); } ; /* Ordinary expressions; logical combinations */ expr : expr[lhs] ANDOP expr[rhs] { $$ = newLOGOP(OP_AND, 0, $lhs, $rhs); } | expr[lhs] OROP[operator] expr[rhs] { $$ = newLOGOP($operator, 0, $lhs, $rhs); } | listexpr %prec PREC_LOW ; /* Expressions are a list of terms joined by commas */ listexpr: listexpr[list] PERLY_COMMA { $$ = $list; } | listexpr[list] PERLY_COMMA term { OP* term = $term; $$ = op_append_elem(OP_LIST, $list, term); } | term %prec PREC_LOW ; /* List operators */ listop : LSTOP indirob listexpr /* map {...} @args or print $fh @args */ { $$ = op_convert_list($LSTOP, OPf_STACKED, op_prepend_elem(OP_LIST, newGVREF($LSTOP,$indirob), $listexpr) ); } | FUNC PERLY_PAREN_OPEN indirob expr PERLY_PAREN_CLOSE /* print ($fh @args */ { $$ = op_convert_list($FUNC, OPf_STACKED, op_prepend_elem(OP_LIST, newGVREF($FUNC,$indirob), $expr) ); } | term ARROW method PERLY_PAREN_OPEN optexpr PERLY_PAREN_CLOSE /* $foo->bar(list) */ { $$ = op_convert_list(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, op_prepend_elem(OP_LIST, scalar($term), $optexpr), newMETHOP(OP_METHOD, 0, $method))); } | term ARROW method /* $foo->bar */ { $$ = op_convert_list(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, scalar($term), newMETHOP(OP_METHOD, 0, $method))); } | METHOD indirob optlistexpr /* new Class @args */ { $$ = op_convert_list(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, op_prepend_elem(OP_LIST, $indirob, $optlistexpr), newMETHOP(OP_METHOD, 0, $METHOD))); } | FUNCMETH indirob PERLY_PAREN_OPEN optexpr PERLY_PAREN_CLOSE /* method $object (@args) */ { $$ = op_convert_list(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, op_prepend_elem(OP_LIST, $indirob, $optexpr), newMETHOP(OP_METHOD, 0, $FUNCMETH))); } | LSTOP optlistexpr /* print @args */ { $$ = op_convert_list($LSTOP, 0, $optlistexpr); } | FUNC PERLY_PAREN_OPEN optexpr PERLY_PAREN_CLOSE /* print (@args) */ { $$ = op_convert_list($FUNC, 0, $optexpr); } | FUNC SUBLEXSTART optexpr SUBLEXEND /* uc($arg) from "\U..." */ { $$ = op_convert_list($FUNC, 0, $optexpr); } | LSTOPSUB startanonsub block /* sub f(&@); f { foo } ... */ { SvREFCNT_inc_simple_void(PL_compcv); $$ = newANONATTRSUB($startanonsub, 0, NULL, $block); }[anonattrsub] optlistexpr %prec LSTOP /* ... @bar */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, op_prepend_elem(OP_LIST, $anonattrsub, $optlistexpr), $LSTOPSUB)); } ; /* Names of methods. May use $object->$methodname */ method : METHOD | scalar ; /* Some kind of subscripted expression */ subscripted: gelem PERLY_BRACE_OPEN expr PERLY_SEMICOLON PERLY_BRACE_CLOSE /* *main::{something} */ /* In this and all the hash accessors, PERLY_SEMICOLON is * provided by the tokeniser */ { $$ = newBINOP(OP_GELEM, 0, $gelem, scalar($expr)); } | scalar[array] PERLY_BRACKET_OPEN expr PERLY_BRACKET_CLOSE /* $array[$element] */ { $$ = newBINOP(OP_AELEM, 0, oopsAV($array), scalar($expr)); } | term[array_reference] ARROW PERLY_BRACKET_OPEN expr PERLY_BRACKET_CLOSE /* somearef->[$element] */ { $$ = newBINOP(OP_AELEM, 0, ref(newAVREF($array_reference),OP_RV2AV), scalar($expr)); } | subscripted[array_reference] PERLY_BRACKET_OPEN expr PERLY_BRACKET_CLOSE /* $foo->[$bar]->[$baz] */ { $$ = newBINOP(OP_AELEM, 0, ref(newAVREF($array_reference),OP_RV2AV), scalar($expr)); } | scalar[hash] PERLY_BRACE_OPEN expr PERLY_SEMICOLON PERLY_BRACE_CLOSE /* $foo{bar();} */ { $$ = newBINOP(OP_HELEM, 0, oopsHV($hash), jmaybe($expr)); } | term[hash_reference] ARROW PERLY_BRACE_OPEN expr PERLY_SEMICOLON PERLY_BRACE_CLOSE /* somehref->{bar();} */ { $$ = newBINOP(OP_HELEM, 0, ref(newHVREF($hash_reference),OP_RV2HV), jmaybe($expr)); } | subscripted[hash_reference] PERLY_BRACE_OPEN expr PERLY_SEMICOLON PERLY_BRACE_CLOSE /* $foo->[bar]->{baz;} */ { $$ = newBINOP(OP_HELEM, 0, ref(newHVREF($hash_reference),OP_RV2HV), jmaybe($expr)); } | term[code_reference] ARROW PERLY_PAREN_OPEN PERLY_PAREN_CLOSE /* $subref->() */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, newCVREF(0, scalar($code_reference))); if (parser->expect == XBLOCK) parser->expect = XOPERATOR; } | term[code_reference] ARROW PERLY_PAREN_OPEN expr PERLY_PAREN_CLOSE /* $subref->(@args) */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, $expr, newCVREF(0, scalar($code_reference)))); if (parser->expect == XBLOCK) parser->expect = XOPERATOR; } | subscripted[code_reference] PERLY_PAREN_OPEN expr PERLY_PAREN_CLOSE /* $foo->{bar}->(@args) */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, $expr, newCVREF(0, scalar($code_reference)))); if (parser->expect == XBLOCK) parser->expect = XOPERATOR; } | subscripted[code_reference] PERLY_PAREN_OPEN PERLY_PAREN_CLOSE /* $foo->{bar}->() */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, newCVREF(0, scalar($code_reference))); if (parser->expect == XBLOCK) parser->expect = XOPERATOR; } | PERLY_PAREN_OPEN expr[list] PERLY_PAREN_CLOSE PERLY_BRACKET_OPEN expr[slice] PERLY_BRACKET_CLOSE /* list slice */ { $$ = newSLICEOP(0, $slice, $list); } | QWLIST PERLY_BRACKET_OPEN expr PERLY_BRACKET_CLOSE /* list literal slice */ { $$ = newSLICEOP(0, $expr, $QWLIST); } | PERLY_PAREN_OPEN PERLY_PAREN_CLOSE PERLY_BRACKET_OPEN expr PERLY_BRACKET_CLOSE /* empty list slice! */ { $$ = newSLICEOP(0, $expr, NULL); } ; /* Binary operators between terms */ termbinop: term[lhs] ASSIGNOP term[rhs] /* $x = $y, $x += $y */ { $$ = newASSIGNOP(OPf_STACKED, $lhs, $ASSIGNOP, $rhs); } | term[lhs] POWOP term[rhs] /* $x ** $y */ { $$ = newBINOP($POWOP, 0, scalar($lhs), scalar($rhs)); } | term[lhs] MULOP term[rhs] /* $x * $y, $x x $y */ { if ($MULOP != OP_REPEAT) scalar($lhs); $$ = newBINOP($MULOP, 0, $lhs, scalar($rhs)); } | term[lhs] ADDOP term[rhs] /* $x + $y */ { $$ = newBINOP($ADDOP, 0, scalar($lhs), scalar($rhs)); } | term[lhs] SHIFTOP term[rhs] /* $x >> $y, $x << $y */ { $$ = newBINOP($SHIFTOP, 0, scalar($lhs), scalar($rhs)); } | termrelop %prec PREC_LOW /* $x > $y, etc. */ { $$ = $termrelop; } | termeqop %prec PREC_LOW /* $x == $y, $x cmp $y */ { $$ = $termeqop; } | term[lhs] BITANDOP term[rhs] /* $x & $y */ { $$ = newBINOP($BITANDOP, 0, scalar($lhs), scalar($rhs)); } | term[lhs] BITOROP term[rhs] /* $x | $y */ { $$ = newBINOP($BITOROP, 0, scalar($lhs), scalar($rhs)); } | term[lhs] DOTDOT term[rhs] /* $x..$y, $x...$y */ { $$ = newRANGE($DOTDOT, scalar($lhs), scalar($rhs)); } | term[lhs] ANDAND term[rhs] /* $x && $y */ { $$ = newLOGOP(OP_AND, 0, $lhs, $rhs); } | term[lhs] OROR term[rhs] /* $x || $y */ { $$ = newLOGOP(OP_OR, 0, $lhs, $rhs); } | term[lhs] DORDOR term[rhs] /* $x // $y */ { $$ = newLOGOP(OP_DOR, 0, $lhs, $rhs); } | term[lhs] MATCHOP term[rhs] /* $x =~ /$y/ */ { $$ = bind_match($MATCHOP, $lhs, $rhs); } ; termrelop: relopchain %prec PREC_LOW { $$ = cmpchain_finish($relopchain); } | term[lhs] NCRELOP term[rhs] { $$ = newBINOP($NCRELOP, 0, scalar($lhs), scalar($rhs)); } | termrelop NCRELOP { yyerror("syntax error"); YYERROR; } | termrelop CHRELOP { yyerror("syntax error"); YYERROR; } ; relopchain: term[lhs] CHRELOP term[rhs] { $$ = cmpchain_start($CHRELOP, $lhs, $rhs); } | relopchain[lhs] CHRELOP term[rhs] { $$ = cmpchain_extend($CHRELOP, $lhs, $rhs); } ; termeqop: eqopchain %prec PREC_LOW { $$ = cmpchain_finish($eqopchain); } | term[lhs] NCEQOP term[rhs] { $$ = newBINOP($NCEQOP, 0, scalar($lhs), scalar($rhs)); } | termeqop NCEQOP { yyerror("syntax error"); YYERROR; } | termeqop CHEQOP { yyerror("syntax error"); YYERROR; } ; eqopchain: term[lhs] CHEQOP term[rhs] { $$ = cmpchain_start($CHEQOP, $lhs, $rhs); } | eqopchain[lhs] CHEQOP term[rhs] { $$ = cmpchain_extend($CHEQOP, $lhs, $rhs); } ; /* Unary operators and terms */ termunop : PERLY_MINUS term %prec UMINUS /* -$x */ { $$ = newUNOP(OP_NEGATE, 0, scalar($term)); } | PERLY_PLUS term %prec UMINUS /* +$x */ { $$ = $term; } | PERLY_EXCLAMATION_MARK term /* !$x */ { $$ = newUNOP(OP_NOT, 0, scalar($term)); } | PERLY_TILDE term /* ~$x */ { $$ = newUNOP($PERLY_TILDE, 0, scalar($term)); } | term POSTINC /* $x++ */ { $$ = newUNOP(OP_POSTINC, 0, op_lvalue(scalar($term), OP_POSTINC)); } | term POSTDEC /* $x-- */ { $$ = newUNOP(OP_POSTDEC, 0, op_lvalue(scalar($term), OP_POSTDEC));} | term POSTJOIN /* implicit join after interpolated ->@ */ { $$ = op_convert_list(OP_JOIN, 0, op_append_elem( OP_LIST, newSVREF(scalar( newSVOP(OP_CONST,0, newSVpvs("\"")) )), $term )); } | PREINC term /* ++$x */ { $$ = newUNOP(OP_PREINC, 0, op_lvalue(scalar($term), OP_PREINC)); } | PREDEC term /* --$x */ { $$ = newUNOP(OP_PREDEC, 0, op_lvalue(scalar($term), OP_PREDEC)); } ; /* Constructors for anonymous data */ anonymous: PERLY_BRACKET_OPEN expr PERLY_BRACKET_CLOSE { $$ = newANONLIST($expr); } | PERLY_BRACKET_OPEN PERLY_BRACKET_CLOSE { $$ = newANONLIST(NULL);} | HASHBRACK expr PERLY_SEMICOLON PERLY_BRACE_CLOSE %prec PERLY_PAREN_OPEN /* { foo => "Bar" } */ { $$ = newANONHASH($expr); } | HASHBRACK PERLY_SEMICOLON PERLY_BRACE_CLOSE %prec PERLY_PAREN_OPEN /* { } (PERLY_SEMICOLON by tokener) */ { $$ = newANONHASH(NULL); } | ANONSUB startanonsub proto subattrlist subbody %prec PERLY_PAREN_OPEN { SvREFCNT_inc_simple_void(PL_compcv); $$ = newANONATTRSUB($startanonsub, $proto, $subattrlist, $subbody); } | ANON_SIGSUB startanonsub subattrlist sigsubbody %prec PERLY_PAREN_OPEN { SvREFCNT_inc_simple_void(PL_compcv); $$ = newANONATTRSUB($startanonsub, NULL, $subattrlist, $sigsubbody); } ; /* Things called with "do" */ termdo : DO term %prec UNIOP /* do $filename */ { $$ = dofile($term, $DO);} | DO block %prec PERLY_PAREN_OPEN /* do { code */ { $$ = newUNOP(OP_NULL, OPf_SPECIAL, op_scope($block));} ; term[product] : termbinop | termunop | anonymous | termdo | term[condition] PERLY_QUESTION_MARK term[then] PERLY_COLON term[else] { $$ = newCONDOP(0, $condition, $then, $else); } | REFGEN term[operand] /* \$x, \@y, \%z */ { $$ = newUNOP(OP_REFGEN, 0, $operand); } | MY REFGEN term[operand] { $$ = newUNOP(OP_REFGEN, 0, localize($operand,1)); } | myattrterm %prec UNIOP { $$ = $myattrterm; } | LOCAL term[operand] %prec UNIOP { $$ = localize($operand,0); } | PERLY_PAREN_OPEN expr PERLY_PAREN_CLOSE { $$ = sawparens($expr); } | QWLIST { $$ = $QWLIST; } | PERLY_PAREN_OPEN PERLY_PAREN_CLOSE { $$ = sawparens(newNULLLIST()); } | scalar %prec PERLY_PAREN_OPEN { $$ = $scalar; } | star %prec PERLY_PAREN_OPEN { $$ = $star; } | hsh %prec PERLY_PAREN_OPEN { $$ = $hsh; } | ary %prec PERLY_PAREN_OPEN { $$ = $ary; } | arylen %prec PERLY_PAREN_OPEN /* $#x, $#{ something } */ { $$ = newUNOP(OP_AV2ARYLEN, 0, ref($arylen, OP_AV2ARYLEN));} | subscripted { $$ = $subscripted; } | sliceme PERLY_BRACKET_OPEN expr PERLY_BRACKET_CLOSE /* array slice */ { $$ = op_prepend_elem(OP_ASLICE, newOP(OP_PUSHMARK, 0), newLISTOP(OP_ASLICE, 0, list($expr), ref($sliceme, OP_ASLICE))); if ($$ && $sliceme) $$->op_private |= $sliceme->op_private & OPpSLICEWARNING; } | kvslice PERLY_BRACKET_OPEN expr PERLY_BRACKET_CLOSE /* array key/value slice */ { $$ = op_prepend_elem(OP_KVASLICE, newOP(OP_PUSHMARK, 0), newLISTOP(OP_KVASLICE, 0, list($expr), ref(oopsAV($kvslice), OP_KVASLICE))); if ($$ && $kvslice) $$->op_private |= $kvslice->op_private & OPpSLICEWARNING; } | sliceme PERLY_BRACE_OPEN expr PERLY_SEMICOLON PERLY_BRACE_CLOSE /* @hash{@keys} */ { $$ = op_prepend_elem(OP_HSLICE, newOP(OP_PUSHMARK, 0), newLISTOP(OP_HSLICE, 0, list($expr), ref(oopsHV($sliceme), OP_HSLICE))); if ($$ && $sliceme) $$->op_private |= $sliceme->op_private & OPpSLICEWARNING; } | kvslice PERLY_BRACE_OPEN expr PERLY_SEMICOLON PERLY_BRACE_CLOSE /* %hash{@keys} */ { $$ = op_prepend_elem(OP_KVHSLICE, newOP(OP_PUSHMARK, 0), newLISTOP(OP_KVHSLICE, 0, list($expr), ref($kvslice, OP_KVHSLICE))); if ($$ && $kvslice) $$->op_private |= $kvslice->op_private & OPpSLICEWARNING; } | THING %prec PERLY_PAREN_OPEN { $$ = $THING; } | amper /* &foo; */ { $$ = newUNOP(OP_ENTERSUB, 0, scalar($amper)); } | amper PERLY_PAREN_OPEN PERLY_PAREN_CLOSE /* &foo() or foo() */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, scalar($amper)); } | amper PERLY_PAREN_OPEN expr PERLY_PAREN_CLOSE /* &foo(@args) or foo(@args) */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, $expr, scalar($amper))); } | NOAMP subname optlistexpr /* foo @args (no parens) */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, $optlistexpr, scalar($subname))); } | term[operand] ARROW PERLY_DOLLAR PERLY_STAR { $$ = newSVREF($operand); } | term[operand] ARROW PERLY_SNAIL PERLY_STAR { $$ = newAVREF($operand); } | term[operand] ARROW PERLY_PERCENT_SIGN PERLY_STAR { $$ = newHVREF($operand); } | term[operand] ARROW PERLY_AMPERSAND PERLY_STAR { $$ = newUNOP(OP_ENTERSUB, 0, scalar(newCVREF($PERLY_AMPERSAND,$operand))); } | term[operand] ARROW PERLY_STAR PERLY_STAR %prec PERLY_PAREN_OPEN { $$ = newGVREF(0,$operand); } | LOOPEX /* loop exiting command (goto, last, dump, etc) */ { $$ = newOP($LOOPEX, OPf_SPECIAL); PL_hints |= HINT_BLOCK_SCOPE; } | LOOPEX term[operand] { $$ = newLOOPEX($LOOPEX,$operand); } | NOTOP listexpr /* not $foo */ { $$ = newUNOP(OP_NOT, 0, scalar($listexpr)); } | UNIOP /* Unary op, $_ implied */ { $$ = newOP($UNIOP, 0); } | UNIOP block /* eval { foo }* */ { $$ = newUNOP($UNIOP, 0, $block); } | UNIOP term[operand] /* Unary op */ { $$ = newUNOP($UNIOP, 0, $operand); } | REQUIRE /* require, $_ implied */ { $$ = newOP(OP_REQUIRE, $REQUIRE ? OPf_SPECIAL : 0); } | REQUIRE term[operand] /* require Foo */ { $$ = newUNOP(OP_REQUIRE, $REQUIRE ? OPf_SPECIAL : 0, $operand); } | UNIOPSUB { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, scalar($UNIOPSUB)); } | UNIOPSUB term[operand] /* Sub treated as unop */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, op_append_elem(OP_LIST, $operand, scalar($UNIOPSUB))); } | FUNC0 /* Nullary operator */ { $$ = newOP($FUNC0, 0); } | FUNC0 PERLY_PAREN_OPEN PERLY_PAREN_CLOSE { $$ = newOP($FUNC0, 0);} | FUNC0OP /* Same as above, but op created in toke.c */ { $$ = $FUNC0OP; } | FUNC0OP PERLY_PAREN_OPEN PERLY_PAREN_CLOSE { $$ = $FUNC0OP; } | FUNC0SUB /* Sub treated as nullop */ { $$ = newUNOP(OP_ENTERSUB, OPf_STACKED, scalar($FUNC0SUB)); } | FUNC1 PERLY_PAREN_OPEN PERLY_PAREN_CLOSE /* not () */ { $$ = ($FUNC1 == OP_NOT) ? newUNOP($FUNC1, 0, newSVOP(OP_CONST, 0, newSViv(0))) : newOP($FUNC1, OPf_SPECIAL); } | FUNC1 PERLY_PAREN_OPEN expr PERLY_PAREN_CLOSE /* not($foo) */ { $$ = newUNOP($FUNC1, 0, $expr); } | PMFUNC /* m//, s///, qr//, tr/// */ { if ( $PMFUNC->op_type != OP_TRANS && $PMFUNC->op_type != OP_TRANSR && (((PMOP*)$PMFUNC)->op_pmflags & PMf_HAS_CV)) { $$ = start_subparse(FALSE, CVf_ANON); SAVEFREESV(PL_compcv); } else $$ = 0; } SUBLEXSTART listexpr optrepl SUBLEXEND { $$ = pmruntime($PMFUNC, $listexpr, $optrepl, 1, $2); } | BAREWORD | listop | PLUGEXPR ; /* "my" declarations, with optional attributes */ myattrterm: MY myterm myattrlist { $$ = my_attrs($myterm,$myattrlist); } | MY myterm { $$ = localize($myterm,1); } | MY REFGEN myterm myattrlist { $$ = newUNOP(OP_REFGEN, 0, my_attrs($myterm,$myattrlist)); } ; /* Things that can be "my"'d */ myterm : PERLY_PAREN_OPEN expr PERLY_PAREN_CLOSE { $$ = sawparens($expr); } | PERLY_PAREN_OPEN PERLY_PAREN_CLOSE { $$ = sawparens(newNULLLIST()); } | scalar %prec PERLY_PAREN_OPEN { $$ = $scalar; } | hsh %prec PERLY_PAREN_OPEN { $$ = $hsh; } | ary %prec PERLY_PAREN_OPEN { $$ = $ary; } ; /* Basic list expressions */ optlistexpr: %empty %prec PREC_LOW { $$ = NULL; } | listexpr %prec PREC_LOW { $$ = $listexpr; } ; optexpr: %empty { $$ = NULL; } | expr { $$ = $expr; } ; optrepl: %empty { $$ = NULL; } | PERLY_SLASH expr { $$ = $expr; } ; /* A little bit of trickery to make "for my $foo (@bar)" actually be lexical */ my_scalar: scalar { parser->in_my = 0; $$ = my($scalar); } ; /* A list of scalars for "for my ($foo, $bar) (@baz)" */ list_of_scalars: list_of_scalars[list] PERLY_COMMA { $$ = $list; } | list_of_scalars[list] PERLY_COMMA scalar { $$ = op_append_elem(OP_LIST, $list, $scalar); } | scalar %prec PREC_LOW ; my_list_of_scalars: list_of_scalars { parser->in_my = 0; $$ = $list_of_scalars; } ; my_var : scalar | ary | hsh ; refgen_topic: my_var | amper ; my_refgen: MY REFGEN | REFGEN MY ; amper : PERLY_AMPERSAND indirob { $$ = newCVREF($PERLY_AMPERSAND,$indirob); } ; scalar : PERLY_DOLLAR indirob { $$ = newSVREF($indirob); } ; ary : PERLY_SNAIL indirob { $$ = newAVREF($indirob); if ($$) $$->op_private |= $PERLY_SNAIL; } ; hsh : PERLY_PERCENT_SIGN indirob { $$ = newHVREF($indirob); if ($$) $$->op_private |= $PERLY_PERCENT_SIGN; } ; arylen : DOLSHARP indirob { $$ = newAVREF($indirob); } | term ARROW DOLSHARP PERLY_STAR { $$ = newAVREF($term); } ; star : PERLY_STAR indirob { $$ = newGVREF(0,$indirob); } ; sliceme : ary | term ARROW PERLY_SNAIL { $$ = newAVREF($term); } ; kvslice : hsh | term ARROW PERLY_PERCENT_SIGN { $$ = newHVREF($term); } ; gelem : star | term ARROW PERLY_STAR { $$ = newGVREF(0,$term); } ; /* Indirect objects */ indirob : BAREWORD { $$ = scalar($BAREWORD); } | scalar %prec PREC_LOW { $$ = scalar($scalar); } | block { $$ = op_scope($block); } | PRIVATEREF { $$ = $PRIVATEREF; } ;