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usr/share/bison/glr.c 0000644 00000245107 14711201224 0010524 0 ustar 00 -*- C -*- # GLR skeleton for Bison # Copyright (C) 2002-2015 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. # If we are loaded by glr.cc, do not override c++.m4 definitions by # those of c.m4. m4_if(b4_skeleton, ["glr.c"], [m4_include(b4_pkgdatadir/[c.m4])]) ## ---------------- ## ## Default values. ## ## ---------------- ## # Stack parameters. m4_define_default([b4_stack_depth_max], [10000]) m4_define_default([b4_stack_depth_init], [200]) ## ------------------------ ## ## Pure/impure interfaces. ## ## ------------------------ ## b4_define_flag_if([pure]) # If glr.cc is including this file and thus has already set b4_pure_flag, # do not change the value of b4_pure_flag, and do not record a use of api.pure. m4_ifndef([b4_pure_flag], [b4_percent_define_default([[api.pure]], [[false]]) m4_define([b4_pure_flag], [b4_percent_define_flag_if([[api.pure]], [[1]], [[0]])])]) # b4_user_formals # --------------- # The possible parse-params formal arguments preceded by a comma. # # This is not shared with yacc.c in c.m4 because GLR relies on ISO C # formal argument declarations. m4_define([b4_user_formals], [m4_ifset([b4_parse_param], [, b4_formals(b4_parse_param)])]) # b4_yyerror_args # --------------- # Optional effective arguments passed to yyerror: user args plus yylloc, and # a trailing comma. m4_define([b4_yyerror_args], [b4_pure_if([b4_locations_if([yylocp, ])])dnl m4_ifset([b4_parse_param], [b4_args(b4_parse_param), ])]) # b4_lyyerror_args # ---------------- # Same as above, but on the lookahead, hence &yylloc instead of yylocp. m4_define([b4_lyyerror_args], [b4_pure_if([b4_locations_if([&yylloc, ])])dnl m4_ifset([b4_parse_param], [b4_args(b4_parse_param), ])]) # b4_pure_args # ------------ # Same as b4_yyerror_args, but with a leading comma. m4_define([b4_pure_args], [b4_pure_if([b4_locations_if([, yylocp])])[]b4_user_args]) # b4_lpure_args # ------------- # Same as above, but on the lookahead, hence &yylloc instead of yylocp. m4_define([b4_lpure_args], [b4_pure_if([b4_locations_if([, &yylloc])])[]b4_user_args]) # b4_pure_formals # --------------- # Arguments passed to yyerror: user formals plus yylocp with leading comma. m4_define([b4_pure_formals], [b4_pure_if([b4_locations_if([, YYLTYPE *yylocp])])[]b4_user_formals]) # b4_locuser_formals(LOC = yylocp) # -------------------------------- m4_define([b4_locuser_formals], [b4_locations_if([, YYLTYPE *m4_default([$1], [yylocp])])[]b4_user_formals]) # b4_locuser_args(LOC = yylocp) # ----------------------------- m4_define([b4_locuser_args], [b4_locations_if([, m4_default([$1], [yylocp])])[]b4_user_args]) ## ----------------- ## ## Semantic Values. ## ## ----------------- ## # b4_lhs_value([TYPE]) # -------------------- # Expansion of $<TYPE>$. m4_define([b4_lhs_value], [b4_symbol_value([(*yyvalp)], [$1])]) # b4_rhs_data(RULE-LENGTH, NUM) # ----------------------------- # Expand to the semantic stack place that contains value and location # of symbol number NUM in a rule of length RULE-LENGTH. m4_define([b4_rhs_data], [((yyGLRStackItem const *)yyvsp)@{YYFILL (b4_subtract([$2], [$1]))@}.yystate]) # b4_rhs_value(RULE-LENGTH, NUM, [TYPE]) # -------------------------------------- # Expansion of $<TYPE>NUM, where the current rule has RULE-LENGTH # symbols on RHS. m4_define([b4_rhs_value], [b4_symbol_value([b4_rhs_data([$1], [$2]).yysemantics.yysval], [$3])]) ## ----------- ## ## Locations. ## ## ----------- ## # b4_lhs_location() # ----------------- # Expansion of @$. m4_define([b4_lhs_location], [(*yylocp)]) # b4_rhs_location(RULE-LENGTH, NUM) # --------------------------------- # Expansion of @NUM, where the current rule has RULE-LENGTH symbols # on RHS. m4_define([b4_rhs_location], [(b4_rhs_data([$1], [$2]).yyloc)]) ## -------------- ## ## Declarations. ## ## -------------- ## # b4_shared_declarations # ---------------------- # Declaration that might either go into the header (if --defines) # or open coded in the parser body. glr.cc has its own definition. m4_if(b4_skeleton, ["glr.c"], [m4_define([b4_shared_declarations], [b4_declare_yydebug[ ]b4_percent_code_get([[requires]])[ ]b4_token_enums[ ]b4_declare_yylstype[ ]b4_function_declare(b4_prefix[parse], [int], b4_parse_param)[ ]b4_percent_code_get([[provides]])[]dnl ]) ]) ## -------------- ## ## Output files. ## ## -------------- ## # Unfortunately the order of generation between the header and the # implementation file matters (for glr.c) because of the current # implementation of api.value.type=union. In that case we still use a # union for YYSTYPE, but we generate the contents of this union when # setting up YYSTYPE. This is needed for other aspects, such as # defining yy_symbol_value_print, since we need to now the name of the # members of this union. # # To avoid this issue, just generate the header before the # implementation file. But we should also make them more independant. # ----------------- # # The header file. # # ----------------- # # glr.cc produces its own header. m4_if(b4_skeleton, ["glr.c"], [b4_defines_if( [b4_output_begin([b4_spec_defines_file]) b4_copyright([Skeleton interface for Bison GLR parsers in C], [2002-2015])[ ]b4_cpp_guard_open([b4_spec_defines_file])[ ]b4_shared_declarations[ ]b4_cpp_guard_close([b4_spec_defines_file])[ ]b4_output_end() ])]) # ------------------------- # # The implementation file. # # ------------------------- # b4_output_begin([b4_parser_file_name]) b4_copyright([Skeleton implementation for Bison GLR parsers in C], [2002-2015])[ /* C GLR parser skeleton written by Paul Hilfinger. */ ]b4_identification b4_percent_code_get([[top]])[ ]m4_if(b4_api_prefix, [yy], [], [[/* Substitute the type names. */ #define YYSTYPE ]b4_api_PREFIX[STYPE]b4_locations_if([[ #define YYLTYPE ]b4_api_PREFIX[LTYPE]])])[ ]m4_if(b4_prefix, [yy], [], [[/* Substitute the variable and function names. */ #define yyparse ]b4_prefix[parse #define yylex ]b4_prefix[lex #define yyerror ]b4_prefix[error #define yydebug ]b4_prefix[debug ]]b4_pure_if([], [[ #define yylval ]b4_prefix[lval #define yychar ]b4_prefix[char #define yynerrs ]b4_prefix[nerrs]b4_locations_if([[ #define yylloc ]b4_prefix[lloc]])]))[ /* First part of user declarations. */ ]b4_user_pre_prologue[ ]b4_null_define[ ]b4_defines_if([[#include "@basename(]b4_spec_defines_file[@)"]], [b4_shared_declarations])[ /* Enabling verbose error messages. */ #ifdef YYERROR_VERBOSE # undef YYERROR_VERBOSE # define YYERROR_VERBOSE 1 #else # define YYERROR_VERBOSE ]b4_error_verbose_if([1], [0])[ #endif /* Default (constant) value used for initialization for null right-hand sides. Unlike the standard yacc.c template, here we set the default value of $$ to a zeroed-out value. Since the default value is undefined, this behavior is technically correct. */ static YYSTYPE yyval_default;]b4_locations_if([[ static YYLTYPE yyloc_default][]b4_yyloc_default;])[ /* Copy the second part of user declarations. */ ]b4_user_post_prologue b4_percent_code_get[]dnl [#include <stdio.h> #include <stdlib.h> #include <string.h> #ifndef YY_ # if defined YYENABLE_NLS && YYENABLE_NLS # if ENABLE_NLS # include <libintl.h> /* INFRINGES ON USER NAME SPACE */ # define YY_(Msgid) dgettext ("bison-runtime", Msgid) # endif # endif # ifndef YY_ # define YY_(Msgid) Msgid # endif #endif #ifndef YYFREE # define YYFREE free #endif #ifndef YYMALLOC # define YYMALLOC malloc #endif #ifndef YYREALLOC # define YYREALLOC realloc #endif #define YYSIZEMAX ((size_t) -1) #ifdef __cplusplus typedef bool yybool; #else typedef unsigned char yybool; #endif #define yytrue 1 #define yyfalse 0 #ifndef YYSETJMP # include <setjmp.h> # define YYJMP_BUF jmp_buf # define YYSETJMP(Env) setjmp (Env) /* Pacify clang. */ # define YYLONGJMP(Env, Val) (longjmp (Env, Val), YYASSERT (0)) #endif ]b4_attribute_define[ #ifndef YYASSERT # define YYASSERT(Condition) ((void) ((Condition) || (abort (), 0))) #endif /* YYFINAL -- State number of the termination state. */ #define YYFINAL ]b4_final_state_number[ /* YYLAST -- Last index in YYTABLE. */ #define YYLAST ]b4_last[ /* YYNTOKENS -- Number of terminals. */ #define YYNTOKENS ]b4_tokens_number[ /* YYNNTS -- Number of nonterminals. */ #define YYNNTS ]b4_nterms_number[ /* YYNRULES -- Number of rules. */ #define YYNRULES ]b4_rules_number[ /* YYNRULES -- Number of states. */ #define YYNSTATES ]b4_states_number[ /* YYMAXRHS -- Maximum number of symbols on right-hand side of rule. */ #define YYMAXRHS ]b4_r2_max[ /* YYMAXLEFT -- Maximum number of symbols to the left of a handle accessed by $0, $-1, etc., in any rule. */ #define YYMAXLEFT ]b4_max_left_semantic_context[ /* YYTRANSLATE(X) -- Bison symbol number corresponding to X. */ #define YYUNDEFTOK ]b4_undef_token_number[ #define YYMAXUTOK ]b4_user_token_number_max[ #define YYTRANSLATE(YYX) \ ((unsigned int) (YYX) <= YYMAXUTOK ? yytranslate[YYX] : YYUNDEFTOK) /* YYTRANSLATE[YYLEX] -- Bison symbol number corresponding to YYLEX. */ static const ]b4_int_type_for([b4_translate])[ yytranslate[] = { ]b4_translate[ }; #if ]b4_api_PREFIX[DEBUG /* YYRLINE[YYN] -- source line where rule number YYN was defined. */ static const ]b4_int_type_for([b4_rline])[ yyrline[] = { ]b4_rline[ }; #endif #if ]b4_api_PREFIX[DEBUG || YYERROR_VERBOSE || ]b4_token_table_flag[ /* YYTNAME[SYMBOL-NUM] -- String name of the symbol SYMBOL-NUM. First, the terminals, then, starting at YYNTOKENS, nonterminals. */ static const char *const yytname[] = { ]b4_tname[ }; #endif #define YYPACT_NINF ]b4_pact_ninf[ #define YYTABLE_NINF ]b4_table_ninf[ ]b4_parser_tables_define[ /* YYDPREC[RULE-NUM] -- Dynamic precedence of rule #RULE-NUM (0 if none). */ static const ]b4_int_type_for([b4_dprec])[ yydprec[] = { ]b4_dprec[ }; /* YYMERGER[RULE-NUM] -- Index of merging function for rule #RULE-NUM. */ static const ]b4_int_type_for([b4_merger])[ yymerger[] = { ]b4_merger[ }; /* YYIMMEDIATE[RULE-NUM] -- True iff rule #RULE-NUM is not to be deferred, as in the case of predicates. */ static const yybool yyimmediate[] = { ]b4_immediate[ }; /* YYCONFLP[YYPACT[STATE-NUM]] -- Pointer into YYCONFL of start of list of conflicting reductions corresponding to action entry for state STATE-NUM in yytable. 0 means no conflicts. The list in yyconfl is terminated by a rule number of 0. */ static const ]b4_int_type_for([b4_conflict_list_heads])[ yyconflp[] = { ]b4_conflict_list_heads[ }; /* YYCONFL[I] -- lists of conflicting rule numbers, each terminated by 0, pointed into by YYCONFLP. */ ]dnl Do not use b4_int_type_for here, since there are places where dnl pointers onto yyconfl are taken, whose type is "short int *". dnl We probably ought to introduce a type for confl. [static const short int yyconfl[] = { ]b4_conflicting_rules[ }; /* Error token number */ #define YYTERROR 1 ]b4_locations_if([[ ]b4_yylloc_default_define[ # define YYRHSLOC(Rhs, K) ((Rhs)[K].yystate.yyloc) ]])[ ]b4_pure_if( [ #undef yynerrs #define yynerrs (yystackp->yyerrcnt) #undef yychar #define yychar (yystackp->yyrawchar) #undef yylval #define yylval (yystackp->yyval) #undef yylloc #define yylloc (yystackp->yyloc) m4_if(b4_prefix[], [yy], [], [#define b4_prefix[]nerrs yynerrs #define b4_prefix[]char yychar #define b4_prefix[]lval yylval #define b4_prefix[]lloc yylloc])], [YYSTYPE yylval;]b4_locations_if([[ YYLTYPE yylloc;]])[ int yynerrs; int yychar;])[ static const int YYEOF = 0; static const int YYEMPTY = -2; typedef enum { yyok, yyaccept, yyabort, yyerr } YYRESULTTAG; #define YYCHK(YYE) \ do { \ YYRESULTTAG yychk_flag = YYE; \ if (yychk_flag != yyok) \ return yychk_flag; \ } while (0) #if ]b4_api_PREFIX[DEBUG # ifndef YYFPRINTF # define YYFPRINTF fprintf # endif ]b4_yy_location_print_define[ # define YYDPRINTF(Args) \ do { \ if (yydebug) \ YYFPRINTF Args; \ } while (0) ]b4_yy_symbol_print_define[ # define YY_SYMBOL_PRINT(Title, Type, Value, Location) \ do { \ if (yydebug) \ { \ YYFPRINTF (stderr, "%s ", Title); \ yy_symbol_print (stderr, Type, Value]b4_locuser_args([Location])[); \ YYFPRINTF (stderr, "\n"); \ } \ } while (0) /* Nonzero means print parse trace. It is left uninitialized so that multiple parsers can coexist. */ int yydebug; struct yyGLRStack; static void yypstack (struct yyGLRStack* yystackp, size_t yyk) YY_ATTRIBUTE_UNUSED; static void yypdumpstack (struct yyGLRStack* yystackp) YY_ATTRIBUTE_UNUSED; #else /* !]b4_api_PREFIX[DEBUG */ # define YYDPRINTF(Args) # define YY_SYMBOL_PRINT(Title, Type, Value, Location) #endif /* !]b4_api_PREFIX[DEBUG */ /* YYINITDEPTH -- initial size of the parser's stacks. */ #ifndef YYINITDEPTH # define YYINITDEPTH ]b4_stack_depth_init[ #endif /* YYMAXDEPTH -- maximum size the stacks can grow to (effective only if the built-in stack extension method is used). Do not make this value too large; the results are undefined if SIZE_MAX < YYMAXDEPTH * sizeof (GLRStackItem) evaluated with infinite-precision integer arithmetic. */ #ifndef YYMAXDEPTH # define YYMAXDEPTH ]b4_stack_depth_max[ #endif /* Minimum number of free items on the stack allowed after an allocation. This is to allow allocation and initialization to be completed by functions that call yyexpandGLRStack before the stack is expanded, thus insuring that all necessary pointers get properly redirected to new data. */ #define YYHEADROOM 2 #ifndef YYSTACKEXPANDABLE # define YYSTACKEXPANDABLE 1 #endif #if YYSTACKEXPANDABLE # define YY_RESERVE_GLRSTACK(Yystack) \ do { \ if (Yystack->yyspaceLeft < YYHEADROOM) \ yyexpandGLRStack (Yystack); \ } while (0) #else # define YY_RESERVE_GLRSTACK(Yystack) \ do { \ if (Yystack->yyspaceLeft < YYHEADROOM) \ yyMemoryExhausted (Yystack); \ } while (0) #endif #if YYERROR_VERBOSE # ifndef yystpcpy # if defined __GLIBC__ && defined _STRING_H && defined _GNU_SOURCE # define yystpcpy stpcpy # else /* Copy YYSRC to YYDEST, returning the address of the terminating '\0' in YYDEST. */ static char * yystpcpy (char *yydest, const char *yysrc) { char *yyd = yydest; const char *yys = yysrc; while ((*yyd++ = *yys++) != '\0') continue; return yyd - 1; } # endif # endif # ifndef yytnamerr /* Copy to YYRES the contents of YYSTR after stripping away unnecessary quotes and backslashes, so that it's suitable for yyerror. The heuristic is that double-quoting is unnecessary unless the string contains an apostrophe, a comma, or backslash (other than backslash-backslash). YYSTR is taken from yytname. If YYRES is null, do not copy; instead, return the length of what the result would have been. */ static size_t yytnamerr (char *yyres, const char *yystr) { if (*yystr == '"') { size_t yyn = 0; char const *yyp = yystr; for (;;) switch (*++yyp) { case '\'': case ',': goto do_not_strip_quotes; case '\\': if (*++yyp != '\\') goto do_not_strip_quotes; /* Fall through. */ default: if (yyres) yyres[yyn] = *yyp; yyn++; break; case '"': if (yyres) yyres[yyn] = '\0'; return yyn; } do_not_strip_quotes: ; } if (! yyres) return strlen (yystr); return yystpcpy (yyres, yystr) - yyres; } # endif #endif /* !YYERROR_VERBOSE */ /** State numbers, as in LALR(1) machine */ typedef int yyStateNum; /** Rule numbers, as in LALR(1) machine */ typedef int yyRuleNum; /** Grammar symbol */ typedef int yySymbol; /** Item references, as in LALR(1) machine */ typedef short int yyItemNum; typedef struct yyGLRState yyGLRState; typedef struct yyGLRStateSet yyGLRStateSet; typedef struct yySemanticOption yySemanticOption; typedef union yyGLRStackItem yyGLRStackItem; typedef struct yyGLRStack yyGLRStack; struct yyGLRState { /** Type tag: always true. */ yybool yyisState; /** Type tag for yysemantics. If true, yysval applies, otherwise * yyfirstVal applies. */ yybool yyresolved; /** Number of corresponding LALR(1) machine state. */ yyStateNum yylrState; /** Preceding state in this stack */ yyGLRState* yypred; /** Source position of the last token produced by my symbol */ size_t yyposn; union { /** First in a chain of alternative reductions producing the * non-terminal corresponding to this state, threaded through * yynext. */ yySemanticOption* yyfirstVal; /** Semantic value for this state. */ YYSTYPE yysval; } yysemantics;]b4_locations_if([[ /** Source location for this state. */ YYLTYPE yyloc;]])[ }; struct yyGLRStateSet { yyGLRState** yystates; /** During nondeterministic operation, yylookaheadNeeds tracks which * stacks have actually needed the current lookahead. During deterministic * operation, yylookaheadNeeds[0] is not maintained since it would merely * duplicate yychar != YYEMPTY. */ yybool* yylookaheadNeeds; size_t yysize, yycapacity; }; struct yySemanticOption { /** Type tag: always false. */ yybool yyisState; /** Rule number for this reduction */ yyRuleNum yyrule; /** The last RHS state in the list of states to be reduced. */ yyGLRState* yystate; /** The lookahead for this reduction. */ int yyrawchar; YYSTYPE yyval;]b4_locations_if([[ YYLTYPE yyloc;]])[ /** Next sibling in chain of options. To facilitate merging, * options are chained in decreasing order by address. */ yySemanticOption* yynext; }; /** Type of the items in the GLR stack. The yyisState field * indicates which item of the union is valid. */ union yyGLRStackItem { yyGLRState yystate; yySemanticOption yyoption; }; struct yyGLRStack { int yyerrState; ]b4_locations_if([[ /* To compute the location of the error token. */ yyGLRStackItem yyerror_range[3];]])[ ]b4_pure_if( [ int yyerrcnt; int yyrawchar; YYSTYPE yyval;]b4_locations_if([[ YYLTYPE yyloc;]])[ ])[ YYJMP_BUF yyexception_buffer; yyGLRStackItem* yyitems; yyGLRStackItem* yynextFree; size_t yyspaceLeft; yyGLRState* yysplitPoint; yyGLRState* yylastDeleted; yyGLRStateSet yytops; }; #if YYSTACKEXPANDABLE static void yyexpandGLRStack (yyGLRStack* yystackp); #endif static _Noreturn void yyFail (yyGLRStack* yystackp]b4_pure_formals[, const char* yymsg) { if (yymsg != YY_NULLPTR) yyerror (]b4_yyerror_args[yymsg); YYLONGJMP (yystackp->yyexception_buffer, 1); } static _Noreturn void yyMemoryExhausted (yyGLRStack* yystackp) { YYLONGJMP (yystackp->yyexception_buffer, 2); } #if ]b4_api_PREFIX[DEBUG || YYERROR_VERBOSE /** A printable representation of TOKEN. */ static inline const char* yytokenName (yySymbol yytoken) { if (yytoken == YYEMPTY) return ""; return yytname[yytoken]; } #endif /** Fill in YYVSP[YYLOW1 .. YYLOW0-1] from the chain of states starting * at YYVSP[YYLOW0].yystate.yypred. Leaves YYVSP[YYLOW1].yystate.yypred * containing the pointer to the next state in the chain. */ static void yyfillin (yyGLRStackItem *, int, int) YY_ATTRIBUTE_UNUSED; static void yyfillin (yyGLRStackItem *yyvsp, int yylow0, int yylow1) { int i; yyGLRState *s = yyvsp[yylow0].yystate.yypred; for (i = yylow0-1; i >= yylow1; i -= 1) { #if ]b4_api_PREFIX[DEBUG yyvsp[i].yystate.yylrState = s->yylrState; #endif yyvsp[i].yystate.yyresolved = s->yyresolved; if (s->yyresolved) yyvsp[i].yystate.yysemantics.yysval = s->yysemantics.yysval; else /* The effect of using yysval or yyloc (in an immediate rule) is * undefined. */ yyvsp[i].yystate.yysemantics.yyfirstVal = YY_NULLPTR;]b4_locations_if([[ yyvsp[i].yystate.yyloc = s->yyloc;]])[ s = yyvsp[i].yystate.yypred = s->yypred; } } /* Do nothing if YYNORMAL or if *YYLOW <= YYLOW1. Otherwise, fill in * YYVSP[YYLOW1 .. *YYLOW-1] as in yyfillin and set *YYLOW = YYLOW1. * For convenience, always return YYLOW1. */ static inline int yyfill (yyGLRStackItem *, int *, int, yybool) YY_ATTRIBUTE_UNUSED; static inline int yyfill (yyGLRStackItem *yyvsp, int *yylow, int yylow1, yybool yynormal) { if (!yynormal && yylow1 < *yylow) { yyfillin (yyvsp, *yylow, yylow1); *yylow = yylow1; } return yylow1; } /** Perform user action for rule number YYN, with RHS length YYRHSLEN, * and top stack item YYVSP. YYLVALP points to place to put semantic * value ($$), and yylocp points to place for location information * (@@$). Returns yyok for normal return, yyaccept for YYACCEPT, * yyerr for YYERROR, yyabort for YYABORT. */ static YYRESULTTAG yyuserAction (yyRuleNum yyn, size_t yyrhslen, yyGLRStackItem* yyvsp, yyGLRStack* yystackp, YYSTYPE* yyvalp]b4_locuser_formals[) { yybool yynormal YY_ATTRIBUTE_UNUSED = (yystackp->yysplitPoint == YY_NULLPTR); int yylow; ]b4_parse_param_use([yyvalp], [yylocp])dnl [ YYUSE (yyrhslen); # undef yyerrok # define yyerrok (yystackp->yyerrState = 0) # undef YYACCEPT # define YYACCEPT return yyaccept # undef YYABORT # define YYABORT return yyabort # undef YYERROR # define YYERROR return yyerrok, yyerr # undef YYRECOVERING # define YYRECOVERING() (yystackp->yyerrState != 0) # undef yyclearin # define yyclearin (yychar = YYEMPTY) # undef YYFILL # define YYFILL(N) yyfill (yyvsp, &yylow, N, yynormal) # undef YYBACKUP # define YYBACKUP(Token, Value) \ return yyerror (]b4_yyerror_args[YY_("syntax error: cannot back up")), \ yyerrok, yyerr yylow = 1; if (yyrhslen == 0) *yyvalp = yyval_default; else *yyvalp = yyvsp[YYFILL (1-yyrhslen)].yystate.yysemantics.yysval;]b4_locations_if([[ YYLLOC_DEFAULT ((*yylocp), (yyvsp - yyrhslen), yyrhslen); yystackp->yyerror_range[1].yystate.yyloc = *yylocp; ]])[ switch (yyn) { ]b4_user_actions[ default: break; } return yyok; # undef yyerrok # undef YYABORT # undef YYACCEPT # undef YYERROR # undef YYBACKUP # undef yyclearin # undef YYRECOVERING } static void yyuserMerge (int yyn, YYSTYPE* yy0, YYSTYPE* yy1) { YYUSE (yy0); YYUSE (yy1); switch (yyn) { ]b4_mergers[ default: break; } } /* Bison grammar-table manipulation. */ ]b4_yydestruct_define[ /** Number of symbols composing the right hand side of rule #RULE. */ static inline int yyrhsLength (yyRuleNum yyrule) { return yyr2[yyrule]; } static void yydestroyGLRState (char const *yymsg, yyGLRState *yys]b4_user_formals[) { if (yys->yyresolved) yydestruct (yymsg, yystos[yys->yylrState], &yys->yysemantics.yysval]b4_locuser_args([&yys->yyloc])[); else { #if ]b4_api_PREFIX[DEBUG if (yydebug) { if (yys->yysemantics.yyfirstVal) YYFPRINTF (stderr, "%s unresolved", yymsg); else YYFPRINTF (stderr, "%s incomplete", yymsg); YY_SYMBOL_PRINT ("", yystos[yys->yylrState], YY_NULLPTR, &yys->yyloc); } #endif if (yys->yysemantics.yyfirstVal) { yySemanticOption *yyoption = yys->yysemantics.yyfirstVal; yyGLRState *yyrh; int yyn; for (yyrh = yyoption->yystate, yyn = yyrhsLength (yyoption->yyrule); yyn > 0; yyrh = yyrh->yypred, yyn -= 1) yydestroyGLRState (yymsg, yyrh]b4_user_args[); } } } /** Left-hand-side symbol for rule #YYRULE. */ static inline yySymbol yylhsNonterm (yyRuleNum yyrule) { return yyr1[yyrule]; } #define yypact_value_is_default(Yystate) \ ]b4_table_value_equals([[pact]], [[Yystate]], [b4_pact_ninf])[ /** True iff LR state YYSTATE has only a default reduction (regardless * of token). */ static inline yybool yyisDefaultedState (yyStateNum yystate) { return yypact_value_is_default (yypact[yystate]); } /** The default reduction for YYSTATE, assuming it has one. */ static inline yyRuleNum yydefaultAction (yyStateNum yystate) { return yydefact[yystate]; } #define yytable_value_is_error(Yytable_value) \ ]b4_table_value_equals([[table]], [[Yytable_value]], [b4_table_ninf])[ /** Set *YYACTION to the action to take in YYSTATE on seeing YYTOKEN. * Result R means * R < 0: Reduce on rule -R. * R = 0: Error. * R > 0: Shift to state R. * Set *YYCONFLICTS to a pointer into yyconfl to a 0-terminated list * of conflicting reductions. */ static inline void yygetLRActions (yyStateNum yystate, int yytoken, int* yyaction, const short int** yyconflicts) { int yyindex = yypact[yystate] + yytoken; if (yypact_value_is_default (yypact[yystate]) || yyindex < 0 || YYLAST < yyindex || yycheck[yyindex] != yytoken) { *yyaction = -yydefact[yystate]; *yyconflicts = yyconfl; } else if (! yytable_value_is_error (yytable[yyindex])) { *yyaction = yytable[yyindex]; *yyconflicts = yyconfl + yyconflp[yyindex]; } else { *yyaction = 0; *yyconflicts = yyconfl + yyconflp[yyindex]; } } /** Compute post-reduction state. * \param yystate the current state * \param yysym the nonterminal to push on the stack */ static inline yyStateNum yyLRgotoState (yyStateNum yystate, yySymbol yysym) { int yyr = yypgoto[yysym - YYNTOKENS] + yystate; if (0 <= yyr && yyr <= YYLAST && yycheck[yyr] == yystate) return yytable[yyr]; else return yydefgoto[yysym - YYNTOKENS]; } static inline yybool yyisShiftAction (int yyaction) { return 0 < yyaction; } static inline yybool yyisErrorAction (int yyaction) { return yyaction == 0; } /* GLRStates */ /** Return a fresh GLRStackItem in YYSTACKP. The item is an LR state * if YYISSTATE, and otherwise a semantic option. Callers should call * YY_RESERVE_GLRSTACK afterwards to make sure there is sufficient * headroom. */ static inline yyGLRStackItem* yynewGLRStackItem (yyGLRStack* yystackp, yybool yyisState) { yyGLRStackItem* yynewItem = yystackp->yynextFree; yystackp->yyspaceLeft -= 1; yystackp->yynextFree += 1; yynewItem->yystate.yyisState = yyisState; return yynewItem; } /** Add a new semantic action that will execute the action for rule * YYRULE on the semantic values in YYRHS to the list of * alternative actions for YYSTATE. Assumes that YYRHS comes from * stack #YYK of *YYSTACKP. */ static void yyaddDeferredAction (yyGLRStack* yystackp, size_t yyk, yyGLRState* yystate, yyGLRState* yyrhs, yyRuleNum yyrule) { yySemanticOption* yynewOption = &yynewGLRStackItem (yystackp, yyfalse)->yyoption; YYASSERT (!yynewOption->yyisState); yynewOption->yystate = yyrhs; yynewOption->yyrule = yyrule; if (yystackp->yytops.yylookaheadNeeds[yyk]) { yynewOption->yyrawchar = yychar; yynewOption->yyval = yylval;]b4_locations_if([ yynewOption->yyloc = yylloc;])[ } else yynewOption->yyrawchar = YYEMPTY; yynewOption->yynext = yystate->yysemantics.yyfirstVal; yystate->yysemantics.yyfirstVal = yynewOption; YY_RESERVE_GLRSTACK (yystackp); } /* GLRStacks */ /** Initialize YYSET to a singleton set containing an empty stack. */ static yybool yyinitStateSet (yyGLRStateSet* yyset) { yyset->yysize = 1; yyset->yycapacity = 16; yyset->yystates = (yyGLRState**) YYMALLOC (16 * sizeof yyset->yystates[0]); if (! yyset->yystates) return yyfalse; yyset->yystates[0] = YY_NULLPTR; yyset->yylookaheadNeeds = (yybool*) YYMALLOC (16 * sizeof yyset->yylookaheadNeeds[0]); if (! yyset->yylookaheadNeeds) { YYFREE (yyset->yystates); return yyfalse; } return yytrue; } static void yyfreeStateSet (yyGLRStateSet* yyset) { YYFREE (yyset->yystates); YYFREE (yyset->yylookaheadNeeds); } /** Initialize *YYSTACKP to a single empty stack, with total maximum * capacity for all stacks of YYSIZE. */ static yybool yyinitGLRStack (yyGLRStack* yystackp, size_t yysize) { yystackp->yyerrState = 0; yynerrs = 0; yystackp->yyspaceLeft = yysize; yystackp->yyitems = (yyGLRStackItem*) YYMALLOC (yysize * sizeof yystackp->yynextFree[0]); if (!yystackp->yyitems) return yyfalse; yystackp->yynextFree = yystackp->yyitems; yystackp->yysplitPoint = YY_NULLPTR; yystackp->yylastDeleted = YY_NULLPTR; return yyinitStateSet (&yystackp->yytops); } #if YYSTACKEXPANDABLE # define YYRELOC(YYFROMITEMS,YYTOITEMS,YYX,YYTYPE) \ &((YYTOITEMS) - ((YYFROMITEMS) - (yyGLRStackItem*) (YYX)))->YYTYPE /** If *YYSTACKP is expandable, extend it. WARNING: Pointers into the stack from outside should be considered invalid after this call. We always expand when there are 1 or fewer items left AFTER an allocation, so that we can avoid having external pointers exist across an allocation. */ static void yyexpandGLRStack (yyGLRStack* yystackp) { yyGLRStackItem* yynewItems; yyGLRStackItem* yyp0, *yyp1; size_t yynewSize; size_t yyn; size_t yysize = yystackp->yynextFree - yystackp->yyitems; if (YYMAXDEPTH - YYHEADROOM < yysize) yyMemoryExhausted (yystackp); yynewSize = 2*yysize; if (YYMAXDEPTH < yynewSize) yynewSize = YYMAXDEPTH; yynewItems = (yyGLRStackItem*) YYMALLOC (yynewSize * sizeof yynewItems[0]); if (! yynewItems) yyMemoryExhausted (yystackp); for (yyp0 = yystackp->yyitems, yyp1 = yynewItems, yyn = yysize; 0 < yyn; yyn -= 1, yyp0 += 1, yyp1 += 1) { *yyp1 = *yyp0; if (*(yybool *) yyp0) { yyGLRState* yys0 = &yyp0->yystate; yyGLRState* yys1 = &yyp1->yystate; if (yys0->yypred != YY_NULLPTR) yys1->yypred = YYRELOC (yyp0, yyp1, yys0->yypred, yystate); if (! yys0->yyresolved && yys0->yysemantics.yyfirstVal != YY_NULLPTR) yys1->yysemantics.yyfirstVal = YYRELOC (yyp0, yyp1, yys0->yysemantics.yyfirstVal, yyoption); } else { yySemanticOption* yyv0 = &yyp0->yyoption; yySemanticOption* yyv1 = &yyp1->yyoption; if (yyv0->yystate != YY_NULLPTR) yyv1->yystate = YYRELOC (yyp0, yyp1, yyv0->yystate, yystate); if (yyv0->yynext != YY_NULLPTR) yyv1->yynext = YYRELOC (yyp0, yyp1, yyv0->yynext, yyoption); } } if (yystackp->yysplitPoint != YY_NULLPTR) yystackp->yysplitPoint = YYRELOC (yystackp->yyitems, yynewItems, yystackp->yysplitPoint, yystate); for (yyn = 0; yyn < yystackp->yytops.yysize; yyn += 1) if (yystackp->yytops.yystates[yyn] != YY_NULLPTR) yystackp->yytops.yystates[yyn] = YYRELOC (yystackp->yyitems, yynewItems, yystackp->yytops.yystates[yyn], yystate); YYFREE (yystackp->yyitems); yystackp->yyitems = yynewItems; yystackp->yynextFree = yynewItems + yysize; yystackp->yyspaceLeft = yynewSize - yysize; } #endif static void yyfreeGLRStack (yyGLRStack* yystackp) { YYFREE (yystackp->yyitems); yyfreeStateSet (&yystackp->yytops); } /** Assuming that YYS is a GLRState somewhere on *YYSTACKP, update the * splitpoint of *YYSTACKP, if needed, so that it is at least as deep as * YYS. */ static inline void yyupdateSplit (yyGLRStack* yystackp, yyGLRState* yys) { if (yystackp->yysplitPoint != YY_NULLPTR && yystackp->yysplitPoint > yys) yystackp->yysplitPoint = yys; } /** Invalidate stack #YYK in *YYSTACKP. */ static inline void yymarkStackDeleted (yyGLRStack* yystackp, size_t yyk) { if (yystackp->yytops.yystates[yyk] != YY_NULLPTR) yystackp->yylastDeleted = yystackp->yytops.yystates[yyk]; yystackp->yytops.yystates[yyk] = YY_NULLPTR; } /** Undelete the last stack in *YYSTACKP that was marked as deleted. Can only be done once after a deletion, and only when all other stacks have been deleted. */ static void yyundeleteLastStack (yyGLRStack* yystackp) { if (yystackp->yylastDeleted == YY_NULLPTR || yystackp->yytops.yysize != 0) return; yystackp->yytops.yystates[0] = yystackp->yylastDeleted; yystackp->yytops.yysize = 1; YYDPRINTF ((stderr, "Restoring last deleted stack as stack #0.\n")); yystackp->yylastDeleted = YY_NULLPTR; } static inline void yyremoveDeletes (yyGLRStack* yystackp) { size_t yyi, yyj; yyi = yyj = 0; while (yyj < yystackp->yytops.yysize) { if (yystackp->yytops.yystates[yyi] == YY_NULLPTR) { if (yyi == yyj) { YYDPRINTF ((stderr, "Removing dead stacks.\n")); } yystackp->yytops.yysize -= 1; } else { yystackp->yytops.yystates[yyj] = yystackp->yytops.yystates[yyi]; /* In the current implementation, it's unnecessary to copy yystackp->yytops.yylookaheadNeeds[yyi] since, after yyremoveDeletes returns, the parser immediately either enters deterministic operation or shifts a token. However, it doesn't hurt, and the code might evolve to need it. */ yystackp->yytops.yylookaheadNeeds[yyj] = yystackp->yytops.yylookaheadNeeds[yyi]; if (yyj != yyi) { YYDPRINTF ((stderr, "Rename stack %lu -> %lu.\n", (unsigned long int) yyi, (unsigned long int) yyj)); } yyj += 1; } yyi += 1; } } /** Shift to a new state on stack #YYK of *YYSTACKP, corresponding to LR * state YYLRSTATE, at input position YYPOSN, with (resolved) semantic * value *YYVALP and source location *YYLOCP. */ static inline void yyglrShift (yyGLRStack* yystackp, size_t yyk, yyStateNum yylrState, size_t yyposn, YYSTYPE* yyvalp]b4_locations_if([, YYLTYPE* yylocp])[) { yyGLRState* yynewState = &yynewGLRStackItem (yystackp, yytrue)->yystate; yynewState->yylrState = yylrState; yynewState->yyposn = yyposn; yynewState->yyresolved = yytrue; yynewState->yypred = yystackp->yytops.yystates[yyk]; yynewState->yysemantics.yysval = *yyvalp;]b4_locations_if([ yynewState->yyloc = *yylocp;])[ yystackp->yytops.yystates[yyk] = yynewState; YY_RESERVE_GLRSTACK (yystackp); } /** Shift stack #YYK of *YYSTACKP, to a new state corresponding to LR * state YYLRSTATE, at input position YYPOSN, with the (unresolved) * semantic value of YYRHS under the action for YYRULE. */ static inline void yyglrShiftDefer (yyGLRStack* yystackp, size_t yyk, yyStateNum yylrState, size_t yyposn, yyGLRState* yyrhs, yyRuleNum yyrule) { yyGLRState* yynewState = &yynewGLRStackItem (yystackp, yytrue)->yystate; YYASSERT (yynewState->yyisState); yynewState->yylrState = yylrState; yynewState->yyposn = yyposn; yynewState->yyresolved = yyfalse; yynewState->yypred = yystackp->yytops.yystates[yyk]; yynewState->yysemantics.yyfirstVal = YY_NULLPTR; yystackp->yytops.yystates[yyk] = yynewState; /* Invokes YY_RESERVE_GLRSTACK. */ yyaddDeferredAction (yystackp, yyk, yynewState, yyrhs, yyrule); } #if !]b4_api_PREFIX[DEBUG # define YY_REDUCE_PRINT(Args) #else # define YY_REDUCE_PRINT(Args) \ do { \ if (yydebug) \ yy_reduce_print Args; \ } while (0) /*----------------------------------------------------------------------. | Report that stack #YYK of *YYSTACKP is going to be reduced by YYRULE. | `----------------------------------------------------------------------*/ static inline void yy_reduce_print (int yynormal, yyGLRStackItem* yyvsp, size_t yyk, yyRuleNum yyrule]b4_user_formals[) { int yynrhs = yyrhsLength (yyrule);]b4_locations_if([ int yylow = 1;])[ int yyi; YYFPRINTF (stderr, "Reducing stack %lu by rule %d (line %lu):\n", (unsigned long int) yyk, yyrule - 1, (unsigned long int) yyrline[yyrule]); if (! yynormal) yyfillin (yyvsp, 1, -yynrhs); /* The symbols being reduced. */ for (yyi = 0; yyi < yynrhs; yyi++) { YYFPRINTF (stderr, " $%d = ", yyi + 1); yy_symbol_print (stderr, yystos[yyvsp[yyi - yynrhs + 1].yystate.yylrState], &yyvsp[yyi - yynrhs + 1].yystate.yysemantics.yysval ]b4_locations_if([, &]b4_rhs_location(yynrhs, yyi + 1))[]dnl b4_user_args[); if (!yyvsp[yyi - yynrhs + 1].yystate.yyresolved) YYFPRINTF (stderr, " (unresolved)"); YYFPRINTF (stderr, "\n"); } } #endif /** Pop the symbols consumed by reduction #YYRULE from the top of stack * #YYK of *YYSTACKP, and perform the appropriate semantic action on their * semantic values. Assumes that all ambiguities in semantic values * have been previously resolved. Set *YYVALP to the resulting value, * and *YYLOCP to the computed location (if any). Return value is as * for userAction. */ static inline YYRESULTTAG yydoAction (yyGLRStack* yystackp, size_t yyk, yyRuleNum yyrule, YYSTYPE* yyvalp]b4_locuser_formals[) { int yynrhs = yyrhsLength (yyrule); if (yystackp->yysplitPoint == YY_NULLPTR) { /* Standard special case: single stack. */ yyGLRStackItem* yyrhs = (yyGLRStackItem*) yystackp->yytops.yystates[yyk]; YYASSERT (yyk == 0); yystackp->yynextFree -= yynrhs; yystackp->yyspaceLeft += yynrhs; yystackp->yytops.yystates[0] = & yystackp->yynextFree[-1].yystate; YY_REDUCE_PRINT ((1, yyrhs, yyk, yyrule]b4_user_args[)); return yyuserAction (yyrule, yynrhs, yyrhs, yystackp, yyvalp]b4_locuser_args[); } else { int yyi; yyGLRState* yys; yyGLRStackItem yyrhsVals[YYMAXRHS + YYMAXLEFT + 1]; yys = yyrhsVals[YYMAXRHS + YYMAXLEFT].yystate.yypred = yystackp->yytops.yystates[yyk];]b4_locations_if([[ if (yynrhs == 0) /* Set default location. */ yyrhsVals[YYMAXRHS + YYMAXLEFT - 1].yystate.yyloc = yys->yyloc;]])[ for (yyi = 0; yyi < yynrhs; yyi += 1) { yys = yys->yypred; YYASSERT (yys); } yyupdateSplit (yystackp, yys); yystackp->yytops.yystates[yyk] = yys; YY_REDUCE_PRINT ((0, yyrhsVals + YYMAXRHS + YYMAXLEFT - 1, yyk, yyrule]b4_user_args[)); return yyuserAction (yyrule, yynrhs, yyrhsVals + YYMAXRHS + YYMAXLEFT - 1, yystackp, yyvalp]b4_locuser_args[); } } /** Pop items off stack #YYK of *YYSTACKP according to grammar rule YYRULE, * and push back on the resulting nonterminal symbol. Perform the * semantic action associated with YYRULE and store its value with the * newly pushed state, if YYFORCEEVAL or if *YYSTACKP is currently * unambiguous. Otherwise, store the deferred semantic action with * the new state. If the new state would have an identical input * position, LR state, and predecessor to an existing state on the stack, * it is identified with that existing state, eliminating stack #YYK from * *YYSTACKP. In this case, the semantic value is * added to the options for the existing state's semantic value. */ static inline YYRESULTTAG yyglrReduce (yyGLRStack* yystackp, size_t yyk, yyRuleNum yyrule, yybool yyforceEval]b4_user_formals[) { size_t yyposn = yystackp->yytops.yystates[yyk]->yyposn; if (yyforceEval || yystackp->yysplitPoint == YY_NULLPTR) { YYSTYPE yysval;]b4_locations_if([[ YYLTYPE yyloc;]])[ YYRESULTTAG yyflag = yydoAction (yystackp, yyk, yyrule, &yysval]b4_locuser_args([&yyloc])[); if (yyflag == yyerr && yystackp->yysplitPoint != YY_NULLPTR) { YYDPRINTF ((stderr, "Parse on stack %lu rejected by rule #%d.\n", (unsigned long int) yyk, yyrule - 1)); } if (yyflag != yyok) return yyflag; YY_SYMBOL_PRINT ("-> $$ =", yyr1[yyrule], &yysval, &yyloc); yyglrShift (yystackp, yyk, yyLRgotoState (yystackp->yytops.yystates[yyk]->yylrState, yylhsNonterm (yyrule)), yyposn, &yysval]b4_locations_if([, &yyloc])[); } else { size_t yyi; int yyn; yyGLRState* yys, *yys0 = yystackp->yytops.yystates[yyk]; yyStateNum yynewLRState; for (yys = yystackp->yytops.yystates[yyk], yyn = yyrhsLength (yyrule); 0 < yyn; yyn -= 1) { yys = yys->yypred; YYASSERT (yys); } yyupdateSplit (yystackp, yys); yynewLRState = yyLRgotoState (yys->yylrState, yylhsNonterm (yyrule)); YYDPRINTF ((stderr, "Reduced stack %lu by rule #%d; action deferred. " "Now in state %d.\n", (unsigned long int) yyk, yyrule - 1, yynewLRState)); for (yyi = 0; yyi < yystackp->yytops.yysize; yyi += 1) if (yyi != yyk && yystackp->yytops.yystates[yyi] != YY_NULLPTR) { yyGLRState *yysplit = yystackp->yysplitPoint; yyGLRState *yyp = yystackp->yytops.yystates[yyi]; while (yyp != yys && yyp != yysplit && yyp->yyposn >= yyposn) { if (yyp->yylrState == yynewLRState && yyp->yypred == yys) { yyaddDeferredAction (yystackp, yyk, yyp, yys0, yyrule); yymarkStackDeleted (yystackp, yyk); YYDPRINTF ((stderr, "Merging stack %lu into stack %lu.\n", (unsigned long int) yyk, (unsigned long int) yyi)); return yyok; } yyp = yyp->yypred; } } yystackp->yytops.yystates[yyk] = yys; yyglrShiftDefer (yystackp, yyk, yynewLRState, yyposn, yys0, yyrule); } return yyok; } static size_t yysplitStack (yyGLRStack* yystackp, size_t yyk) { if (yystackp->yysplitPoint == YY_NULLPTR) { YYASSERT (yyk == 0); yystackp->yysplitPoint = yystackp->yytops.yystates[yyk]; } if (yystackp->yytops.yysize >= yystackp->yytops.yycapacity) { yyGLRState** yynewStates; yybool* yynewLookaheadNeeds; yynewStates = YY_NULLPTR; if (yystackp->yytops.yycapacity > (YYSIZEMAX / (2 * sizeof yynewStates[0]))) yyMemoryExhausted (yystackp); yystackp->yytops.yycapacity *= 2; yynewStates = (yyGLRState**) YYREALLOC (yystackp->yytops.yystates, (yystackp->yytops.yycapacity * sizeof yynewStates[0])); if (yynewStates == YY_NULLPTR) yyMemoryExhausted (yystackp); yystackp->yytops.yystates = yynewStates; yynewLookaheadNeeds = (yybool*) YYREALLOC (yystackp->yytops.yylookaheadNeeds, (yystackp->yytops.yycapacity * sizeof yynewLookaheadNeeds[0])); if (yynewLookaheadNeeds == YY_NULLPTR) yyMemoryExhausted (yystackp); yystackp->yytops.yylookaheadNeeds = yynewLookaheadNeeds; } yystackp->yytops.yystates[yystackp->yytops.yysize] = yystackp->yytops.yystates[yyk]; yystackp->yytops.yylookaheadNeeds[yystackp->yytops.yysize] = yystackp->yytops.yylookaheadNeeds[yyk]; yystackp->yytops.yysize += 1; return yystackp->yytops.yysize-1; } /** True iff YYY0 and YYY1 represent identical options at the top level. * That is, they represent the same rule applied to RHS symbols * that produce the same terminal symbols. */ static yybool yyidenticalOptions (yySemanticOption* yyy0, yySemanticOption* yyy1) { if (yyy0->yyrule == yyy1->yyrule) { yyGLRState *yys0, *yys1; int yyn; for (yys0 = yyy0->yystate, yys1 = yyy1->yystate, yyn = yyrhsLength (yyy0->yyrule); yyn > 0; yys0 = yys0->yypred, yys1 = yys1->yypred, yyn -= 1) if (yys0->yyposn != yys1->yyposn) return yyfalse; return yytrue; } else return yyfalse; } /** Assuming identicalOptions (YYY0,YYY1), destructively merge the * alternative semantic values for the RHS-symbols of YYY1 and YYY0. */ static void yymergeOptionSets (yySemanticOption* yyy0, yySemanticOption* yyy1) { yyGLRState *yys0, *yys1; int yyn; for (yys0 = yyy0->yystate, yys1 = yyy1->yystate, yyn = yyrhsLength (yyy0->yyrule); yyn > 0; yys0 = yys0->yypred, yys1 = yys1->yypred, yyn -= 1) { if (yys0 == yys1) break; else if (yys0->yyresolved) { yys1->yyresolved = yytrue; yys1->yysemantics.yysval = yys0->yysemantics.yysval; } else if (yys1->yyresolved) { yys0->yyresolved = yytrue; yys0->yysemantics.yysval = yys1->yysemantics.yysval; } else { yySemanticOption** yyz0p = &yys0->yysemantics.yyfirstVal; yySemanticOption* yyz1 = yys1->yysemantics.yyfirstVal; while (yytrue) { if (yyz1 == *yyz0p || yyz1 == YY_NULLPTR) break; else if (*yyz0p == YY_NULLPTR) { *yyz0p = yyz1; break; } else if (*yyz0p < yyz1) { yySemanticOption* yyz = *yyz0p; *yyz0p = yyz1; yyz1 = yyz1->yynext; (*yyz0p)->yynext = yyz; } yyz0p = &(*yyz0p)->yynext; } yys1->yysemantics.yyfirstVal = yys0->yysemantics.yyfirstVal; } } } /** Y0 and Y1 represent two possible actions to take in a given * parsing state; return 0 if no combination is possible, * 1 if user-mergeable, 2 if Y0 is preferred, 3 if Y1 is preferred. */ static int yypreference (yySemanticOption* y0, yySemanticOption* y1) { yyRuleNum r0 = y0->yyrule, r1 = y1->yyrule; int p0 = yydprec[r0], p1 = yydprec[r1]; if (p0 == p1) { if (yymerger[r0] == 0 || yymerger[r0] != yymerger[r1]) return 0; else return 1; } if (p0 == 0 || p1 == 0) return 0; if (p0 < p1) return 3; if (p1 < p0) return 2; return 0; } static YYRESULTTAG yyresolveValue (yyGLRState* yys, yyGLRStack* yystackp]b4_user_formals[); /** Resolve the previous YYN states starting at and including state YYS * on *YYSTACKP. If result != yyok, some states may have been left * unresolved possibly with empty semantic option chains. Regardless * of whether result = yyok, each state has been left with consistent * data so that yydestroyGLRState can be invoked if necessary. */ static YYRESULTTAG yyresolveStates (yyGLRState* yys, int yyn, yyGLRStack* yystackp]b4_user_formals[) { if (0 < yyn) { YYASSERT (yys->yypred); YYCHK (yyresolveStates (yys->yypred, yyn-1, yystackp]b4_user_args[)); if (! yys->yyresolved) YYCHK (yyresolveValue (yys, yystackp]b4_user_args[)); } return yyok; } /** Resolve the states for the RHS of YYOPT on *YYSTACKP, perform its * user action, and return the semantic value and location in *YYVALP * and *YYLOCP. Regardless of whether result = yyok, all RHS states * have been destroyed (assuming the user action destroys all RHS * semantic values if invoked). */ static YYRESULTTAG yyresolveAction (yySemanticOption* yyopt, yyGLRStack* yystackp, YYSTYPE* yyvalp]b4_locuser_formals[) { yyGLRStackItem yyrhsVals[YYMAXRHS + YYMAXLEFT + 1]; int yynrhs = yyrhsLength (yyopt->yyrule); YYRESULTTAG yyflag = yyresolveStates (yyopt->yystate, yynrhs, yystackp]b4_user_args[); if (yyflag != yyok) { yyGLRState *yys; for (yys = yyopt->yystate; yynrhs > 0; yys = yys->yypred, yynrhs -= 1) yydestroyGLRState ("Cleanup: popping", yys]b4_user_args[); return yyflag; } yyrhsVals[YYMAXRHS + YYMAXLEFT].yystate.yypred = yyopt->yystate;]b4_locations_if([[ if (yynrhs == 0) /* Set default location. */ yyrhsVals[YYMAXRHS + YYMAXLEFT - 1].yystate.yyloc = yyopt->yystate->yyloc;]])[ { int yychar_current = yychar; YYSTYPE yylval_current = yylval;]b4_locations_if([ YYLTYPE yylloc_current = yylloc;])[ yychar = yyopt->yyrawchar; yylval = yyopt->yyval;]b4_locations_if([ yylloc = yyopt->yyloc;])[ yyflag = yyuserAction (yyopt->yyrule, yynrhs, yyrhsVals + YYMAXRHS + YYMAXLEFT - 1, yystackp, yyvalp]b4_locuser_args[); yychar = yychar_current; yylval = yylval_current;]b4_locations_if([ yylloc = yylloc_current;])[ } return yyflag; } #if ]b4_api_PREFIX[DEBUG static void yyreportTree (yySemanticOption* yyx, int yyindent) { int yynrhs = yyrhsLength (yyx->yyrule); int yyi; yyGLRState* yys; yyGLRState* yystates[1 + YYMAXRHS]; yyGLRState yyleftmost_state; for (yyi = yynrhs, yys = yyx->yystate; 0 < yyi; yyi -= 1, yys = yys->yypred) yystates[yyi] = yys; if (yys == YY_NULLPTR) { yyleftmost_state.yyposn = 0; yystates[0] = &yyleftmost_state; } else yystates[0] = yys; if (yyx->yystate->yyposn < yys->yyposn + 1) YYFPRINTF (stderr, "%*s%s -> <Rule %d, empty>\n", yyindent, "", yytokenName (yylhsNonterm (yyx->yyrule)), yyx->yyrule - 1); else YYFPRINTF (stderr, "%*s%s -> <Rule %d, tokens %lu .. %lu>\n", yyindent, "", yytokenName (yylhsNonterm (yyx->yyrule)), yyx->yyrule - 1, (unsigned long int) (yys->yyposn + 1), (unsigned long int) yyx->yystate->yyposn); for (yyi = 1; yyi <= yynrhs; yyi += 1) { if (yystates[yyi]->yyresolved) { if (yystates[yyi-1]->yyposn+1 > yystates[yyi]->yyposn) YYFPRINTF (stderr, "%*s%s <empty>\n", yyindent+2, "", yytokenName (yystos[yystates[yyi]->yylrState])); else YYFPRINTF (stderr, "%*s%s <tokens %lu .. %lu>\n", yyindent+2, "", yytokenName (yystos[yystates[yyi]->yylrState]), (unsigned long int) (yystates[yyi-1]->yyposn + 1), (unsigned long int) yystates[yyi]->yyposn); } else yyreportTree (yystates[yyi]->yysemantics.yyfirstVal, yyindent+2); } } #endif static YYRESULTTAG yyreportAmbiguity (yySemanticOption* yyx0, yySemanticOption* yyx1]b4_pure_formals[) { YYUSE (yyx0); YYUSE (yyx1); #if ]b4_api_PREFIX[DEBUG YYFPRINTF (stderr, "Ambiguity detected.\n"); YYFPRINTF (stderr, "Option 1,\n"); yyreportTree (yyx0, 2); YYFPRINTF (stderr, "\nOption 2,\n"); yyreportTree (yyx1, 2); YYFPRINTF (stderr, "\n"); #endif yyerror (]b4_yyerror_args[YY_("syntax is ambiguous")); return yyabort; }]b4_locations_if([[ /** Resolve the locations for each of the YYN1 states in *YYSTACKP, * ending at YYS1. Has no effect on previously resolved states. * The first semantic option of a state is always chosen. */ static void yyresolveLocations (yyGLRState* yys1, int yyn1, yyGLRStack *yystackp]b4_user_formals[) { if (0 < yyn1) { yyresolveLocations (yys1->yypred, yyn1 - 1, yystackp]b4_user_args[); if (!yys1->yyresolved) { yyGLRStackItem yyrhsloc[1 + YYMAXRHS]; int yynrhs; yySemanticOption *yyoption = yys1->yysemantics.yyfirstVal; YYASSERT (yyoption != YY_NULLPTR); yynrhs = yyrhsLength (yyoption->yyrule); if (yynrhs > 0) { yyGLRState *yys; int yyn; yyresolveLocations (yyoption->yystate, yynrhs, yystackp]b4_user_args[); for (yys = yyoption->yystate, yyn = yynrhs; yyn > 0; yys = yys->yypred, yyn -= 1) yyrhsloc[yyn].yystate.yyloc = yys->yyloc; } else { /* Both yyresolveAction and yyresolveLocations traverse the GSS in reverse rightmost order. It is only necessary to invoke yyresolveLocations on a subforest for which yyresolveAction would have been invoked next had an ambiguity not been detected. Thus the location of the previous state (but not necessarily the previous state itself) is guaranteed to be resolved already. */ yyGLRState *yyprevious = yyoption->yystate; yyrhsloc[0].yystate.yyloc = yyprevious->yyloc; } { int yychar_current = yychar; YYSTYPE yylval_current = yylval; YYLTYPE yylloc_current = yylloc; yychar = yyoption->yyrawchar; yylval = yyoption->yyval; yylloc = yyoption->yyloc; YYLLOC_DEFAULT ((yys1->yyloc), yyrhsloc, yynrhs); yychar = yychar_current; yylval = yylval_current; yylloc = yylloc_current; } } } }]])[ /** Resolve the ambiguity represented in state YYS in *YYSTACKP, * perform the indicated actions, and set the semantic value of YYS. * If result != yyok, the chain of semantic options in YYS has been * cleared instead or it has been left unmodified except that * redundant options may have been removed. Regardless of whether * result = yyok, YYS has been left with consistent data so that * yydestroyGLRState can be invoked if necessary. */ static YYRESULTTAG yyresolveValue (yyGLRState* yys, yyGLRStack* yystackp]b4_user_formals[) { yySemanticOption* yyoptionList = yys->yysemantics.yyfirstVal; yySemanticOption* yybest = yyoptionList; yySemanticOption** yypp; yybool yymerge = yyfalse; YYSTYPE yysval; YYRESULTTAG yyflag;]b4_locations_if([ YYLTYPE *yylocp = &yys->yyloc;])[ for (yypp = &yyoptionList->yynext; *yypp != YY_NULLPTR; ) { yySemanticOption* yyp = *yypp; if (yyidenticalOptions (yybest, yyp)) { yymergeOptionSets (yybest, yyp); *yypp = yyp->yynext; } else { switch (yypreference (yybest, yyp)) { case 0:]b4_locations_if([[ yyresolveLocations (yys, 1, yystackp]b4_user_args[);]])[ return yyreportAmbiguity (yybest, yyp]b4_pure_args[); break; case 1: yymerge = yytrue; break; case 2: break; case 3: yybest = yyp; yymerge = yyfalse; break; default: /* This cannot happen so it is not worth a YYASSERT (yyfalse), but some compilers complain if the default case is omitted. */ break; } yypp = &yyp->yynext; } } if (yymerge) { yySemanticOption* yyp; int yyprec = yydprec[yybest->yyrule]; yyflag = yyresolveAction (yybest, yystackp, &yysval]b4_locuser_args[); if (yyflag == yyok) for (yyp = yybest->yynext; yyp != YY_NULLPTR; yyp = yyp->yynext) { if (yyprec == yydprec[yyp->yyrule]) { YYSTYPE yysval_other;]b4_locations_if([ YYLTYPE yydummy;])[ yyflag = yyresolveAction (yyp, yystackp, &yysval_other]b4_locuser_args([&yydummy])[); if (yyflag != yyok) { yydestruct ("Cleanup: discarding incompletely merged value for", yystos[yys->yylrState], &yysval]b4_locuser_args[); break; } yyuserMerge (yymerger[yyp->yyrule], &yysval, &yysval_other); } } } else yyflag = yyresolveAction (yybest, yystackp, &yysval]b4_locuser_args([yylocp])[); if (yyflag == yyok) { yys->yyresolved = yytrue; yys->yysemantics.yysval = yysval; } else yys->yysemantics.yyfirstVal = YY_NULLPTR; return yyflag; } static YYRESULTTAG yyresolveStack (yyGLRStack* yystackp]b4_user_formals[) { if (yystackp->yysplitPoint != YY_NULLPTR) { yyGLRState* yys; int yyn; for (yyn = 0, yys = yystackp->yytops.yystates[0]; yys != yystackp->yysplitPoint; yys = yys->yypred, yyn += 1) continue; YYCHK (yyresolveStates (yystackp->yytops.yystates[0], yyn, yystackp ]b4_user_args[)); } return yyok; } static void yycompressStack (yyGLRStack* yystackp) { yyGLRState* yyp, *yyq, *yyr; if (yystackp->yytops.yysize != 1 || yystackp->yysplitPoint == YY_NULLPTR) return; for (yyp = yystackp->yytops.yystates[0], yyq = yyp->yypred, yyr = YY_NULLPTR; yyp != yystackp->yysplitPoint; yyr = yyp, yyp = yyq, yyq = yyp->yypred) yyp->yypred = yyr; yystackp->yyspaceLeft += yystackp->yynextFree - yystackp->yyitems; yystackp->yynextFree = ((yyGLRStackItem*) yystackp->yysplitPoint) + 1; yystackp->yyspaceLeft -= yystackp->yynextFree - yystackp->yyitems; yystackp->yysplitPoint = YY_NULLPTR; yystackp->yylastDeleted = YY_NULLPTR; while (yyr != YY_NULLPTR) { yystackp->yynextFree->yystate = *yyr; yyr = yyr->yypred; yystackp->yynextFree->yystate.yypred = &yystackp->yynextFree[-1].yystate; yystackp->yytops.yystates[0] = &yystackp->yynextFree->yystate; yystackp->yynextFree += 1; yystackp->yyspaceLeft -= 1; } } static YYRESULTTAG yyprocessOneStack (yyGLRStack* yystackp, size_t yyk, size_t yyposn]b4_pure_formals[) { while (yystackp->yytops.yystates[yyk] != YY_NULLPTR) { yyStateNum yystate = yystackp->yytops.yystates[yyk]->yylrState; YYDPRINTF ((stderr, "Stack %lu Entering state %d\n", (unsigned long int) yyk, yystate)); YYASSERT (yystate != YYFINAL); if (yyisDefaultedState (yystate)) { YYRESULTTAG yyflag; yyRuleNum yyrule = yydefaultAction (yystate); if (yyrule == 0) { YYDPRINTF ((stderr, "Stack %lu dies.\n", (unsigned long int) yyk)); yymarkStackDeleted (yystackp, yyk); return yyok; } yyflag = yyglrReduce (yystackp, yyk, yyrule, yyimmediate[yyrule]]b4_user_args[); if (yyflag == yyerr) { YYDPRINTF ((stderr, "Stack %lu dies " "(predicate failure or explicit user error).\n", (unsigned long int) yyk)); yymarkStackDeleted (yystackp, yyk); return yyok; } if (yyflag != yyok) return yyflag; } else { yySymbol yytoken; int yyaction; const short int* yyconflicts; yystackp->yytops.yylookaheadNeeds[yyk] = yytrue; if (yychar == YYEMPTY) { YYDPRINTF ((stderr, "Reading a token: ")); yychar = ]b4_lex[; } if (yychar <= YYEOF) { yychar = yytoken = YYEOF; YYDPRINTF ((stderr, "Now at end of input.\n")); } else { yytoken = YYTRANSLATE (yychar); YY_SYMBOL_PRINT ("Next token is", yytoken, &yylval, &yylloc); } yygetLRActions (yystate, yytoken, &yyaction, &yyconflicts); while (*yyconflicts != 0) { YYRESULTTAG yyflag; size_t yynewStack = yysplitStack (yystackp, yyk); YYDPRINTF ((stderr, "Splitting off stack %lu from %lu.\n", (unsigned long int) yynewStack, (unsigned long int) yyk)); yyflag = yyglrReduce (yystackp, yynewStack, *yyconflicts, yyimmediate[*yyconflicts]]b4_user_args[); if (yyflag == yyok) YYCHK (yyprocessOneStack (yystackp, yynewStack, yyposn]b4_pure_args[)); else if (yyflag == yyerr) { YYDPRINTF ((stderr, "Stack %lu dies.\n", (unsigned long int) yynewStack)); yymarkStackDeleted (yystackp, yynewStack); } else return yyflag; yyconflicts += 1; } if (yyisShiftAction (yyaction)) break; else if (yyisErrorAction (yyaction)) { YYDPRINTF ((stderr, "Stack %lu dies.\n", (unsigned long int) yyk)); yymarkStackDeleted (yystackp, yyk); break; } else { YYRESULTTAG yyflag = yyglrReduce (yystackp, yyk, -yyaction, yyimmediate[-yyaction]]b4_user_args[); if (yyflag == yyerr) { YYDPRINTF ((stderr, "Stack %lu dies " "(predicate failure or explicit user error).\n", (unsigned long int) yyk)); yymarkStackDeleted (yystackp, yyk); break; } else if (yyflag != yyok) return yyflag; } } } return yyok; } static void yyreportSyntaxError (yyGLRStack* yystackp]b4_user_formals[) { if (yystackp->yyerrState != 0) return; #if ! YYERROR_VERBOSE yyerror (]b4_lyyerror_args[YY_("syntax error")); #else { yySymbol yytoken = yychar == YYEMPTY ? YYEMPTY : YYTRANSLATE (yychar); size_t yysize0 = yytnamerr (YY_NULLPTR, yytokenName (yytoken)); size_t yysize = yysize0; yybool yysize_overflow = yyfalse; char* yymsg = YY_NULLPTR; enum { YYERROR_VERBOSE_ARGS_MAXIMUM = 5 }; /* Internationalized format string. */ const char *yyformat = YY_NULLPTR; /* Arguments of yyformat. */ char const *yyarg[YYERROR_VERBOSE_ARGS_MAXIMUM]; /* Number of reported tokens (one for the "unexpected", one per "expected"). */ int yycount = 0; /* There are many possibilities here to consider: - If this state is a consistent state with a default action, then the only way this function was invoked is if the default action is an error action. In that case, don't check for expected tokens because there are none. - The only way there can be no lookahead present (in yychar) is if this state is a consistent state with a default action. Thus, detecting the absence of a lookahead is sufficient to determine that there is no unexpected or expected token to report. In that case, just report a simple "syntax error". - Don't assume there isn't a lookahead just because this state is a consistent state with a default action. There might have been a previous inconsistent state, consistent state with a non-default action, or user semantic action that manipulated yychar. - Of course, the expected token list depends on states to have correct lookahead information, and it depends on the parser not to perform extra reductions after fetching a lookahead from the scanner and before detecting a syntax error. Thus, state merging (from LALR or IELR) and default reductions corrupt the expected token list. However, the list is correct for canonical LR with one exception: it will still contain any token that will not be accepted due to an error action in a later state. */ if (yytoken != YYEMPTY) { int yyn = yypact[yystackp->yytops.yystates[0]->yylrState]; yyarg[yycount++] = yytokenName (yytoken); if (!yypact_value_is_default (yyn)) { /* Start YYX at -YYN if negative to avoid negative indexes in YYCHECK. In other words, skip the first -YYN actions for this state because they are default actions. */ int yyxbegin = yyn < 0 ? -yyn : 0; /* Stay within bounds of both yycheck and yytname. */ int yychecklim = YYLAST - yyn + 1; int yyxend = yychecklim < YYNTOKENS ? yychecklim : YYNTOKENS; int yyx; for (yyx = yyxbegin; yyx < yyxend; ++yyx) if (yycheck[yyx + yyn] == yyx && yyx != YYTERROR && !yytable_value_is_error (yytable[yyx + yyn])) { if (yycount == YYERROR_VERBOSE_ARGS_MAXIMUM) { yycount = 1; yysize = yysize0; break; } yyarg[yycount++] = yytokenName (yyx); { size_t yysz = yysize + yytnamerr (YY_NULLPTR, yytokenName (yyx)); yysize_overflow |= yysz < yysize; yysize = yysz; } } } } switch (yycount) { #define YYCASE_(N, S) \ case N: \ yyformat = S; \ break YYCASE_(0, YY_("syntax error")); YYCASE_(1, YY_("syntax error, unexpected %s")); YYCASE_(2, YY_("syntax error, unexpected %s, expecting %s")); YYCASE_(3, YY_("syntax error, unexpected %s, expecting %s or %s")); YYCASE_(4, YY_("syntax error, unexpected %s, expecting %s or %s or %s")); YYCASE_(5, YY_("syntax error, unexpected %s, expecting %s or %s or %s or %s")); #undef YYCASE_ } { size_t yysz = yysize + strlen (yyformat); yysize_overflow |= yysz < yysize; yysize = yysz; } if (!yysize_overflow) yymsg = (char *) YYMALLOC (yysize); if (yymsg) { char *yyp = yymsg; int yyi = 0; while ((*yyp = *yyformat)) { if (*yyp == '%' && yyformat[1] == 's' && yyi < yycount) { yyp += yytnamerr (yyp, yyarg[yyi++]); yyformat += 2; } else { yyp++; yyformat++; } } yyerror (]b4_lyyerror_args[yymsg); YYFREE (yymsg); } else { yyerror (]b4_lyyerror_args[YY_("syntax error")); yyMemoryExhausted (yystackp); } } #endif /* YYERROR_VERBOSE */ yynerrs += 1; } /* Recover from a syntax error on *YYSTACKP, assuming that *YYSTACKP->YYTOKENP, yylval, and yylloc are the syntactic category, semantic value, and location of the lookahead. */ static void yyrecoverSyntaxError (yyGLRStack* yystackp]b4_user_formals[) { size_t yyk; int yyj; if (yystackp->yyerrState == 3) /* We just shifted the error token and (perhaps) took some reductions. Skip tokens until we can proceed. */ while (yytrue) { yySymbol yytoken; if (yychar == YYEOF) yyFail (yystackp][]b4_lpure_args[, YY_NULLPTR); if (yychar != YYEMPTY) {]b4_locations_if([[ /* We throw away the lookahead, but the error range of the shifted error token must take it into account. */ yyGLRState *yys = yystackp->yytops.yystates[0]; yyGLRStackItem yyerror_range[3]; yyerror_range[1].yystate.yyloc = yys->yyloc; yyerror_range[2].yystate.yyloc = yylloc; YYLLOC_DEFAULT ((yys->yyloc), yyerror_range, 2);]])[ yytoken = YYTRANSLATE (yychar); yydestruct ("Error: discarding", yytoken, &yylval]b4_locuser_args([&yylloc])[); } YYDPRINTF ((stderr, "Reading a token: ")); yychar = ]b4_lex[; if (yychar <= YYEOF) { yychar = yytoken = YYEOF; YYDPRINTF ((stderr, "Now at end of input.\n")); } else { yytoken = YYTRANSLATE (yychar); YY_SYMBOL_PRINT ("Next token is", yytoken, &yylval, &yylloc); } yyj = yypact[yystackp->yytops.yystates[0]->yylrState]; if (yypact_value_is_default (yyj)) return; yyj += yytoken; if (yyj < 0 || YYLAST < yyj || yycheck[yyj] != yytoken) { if (yydefact[yystackp->yytops.yystates[0]->yylrState] != 0) return; } else if (! yytable_value_is_error (yytable[yyj])) return; } /* Reduce to one stack. */ for (yyk = 0; yyk < yystackp->yytops.yysize; yyk += 1) if (yystackp->yytops.yystates[yyk] != YY_NULLPTR) break; if (yyk >= yystackp->yytops.yysize) yyFail (yystackp][]b4_lpure_args[, YY_NULLPTR); for (yyk += 1; yyk < yystackp->yytops.yysize; yyk += 1) yymarkStackDeleted (yystackp, yyk); yyremoveDeletes (yystackp); yycompressStack (yystackp); /* Now pop stack until we find a state that shifts the error token. */ yystackp->yyerrState = 3; while (yystackp->yytops.yystates[0] != YY_NULLPTR) { yyGLRState *yys = yystackp->yytops.yystates[0]; yyj = yypact[yys->yylrState]; if (! yypact_value_is_default (yyj)) { yyj += YYTERROR; if (0 <= yyj && yyj <= YYLAST && yycheck[yyj] == YYTERROR && yyisShiftAction (yytable[yyj])) { /* Shift the error token. */]b4_locations_if([[ /* First adjust its location.*/ YYLTYPE yyerrloc; yystackp->yyerror_range[2].yystate.yyloc = yylloc; YYLLOC_DEFAULT (yyerrloc, (yystackp->yyerror_range), 2);]])[ YY_SYMBOL_PRINT ("Shifting", yystos[yytable[yyj]], &yylval, &yyerrloc); yyglrShift (yystackp, 0, yytable[yyj], yys->yyposn, &yylval]b4_locations_if([, &yyerrloc])[); yys = yystackp->yytops.yystates[0]; break; } }]b4_locations_if([[ yystackp->yyerror_range[1].yystate.yyloc = yys->yyloc;]])[ if (yys->yypred != YY_NULLPTR) yydestroyGLRState ("Error: popping", yys]b4_user_args[); yystackp->yytops.yystates[0] = yys->yypred; yystackp->yynextFree -= 1; yystackp->yyspaceLeft += 1; } if (yystackp->yytops.yystates[0] == YY_NULLPTR) yyFail (yystackp][]b4_lpure_args[, YY_NULLPTR); } #define YYCHK1(YYE) \ do { \ switch (YYE) { \ case yyok: \ break; \ case yyabort: \ goto yyabortlab; \ case yyaccept: \ goto yyacceptlab; \ case yyerr: \ goto yyuser_error; \ default: \ goto yybuglab; \ } \ } while (0) /*----------. | yyparse. | `----------*/ ]b4_function_define([yyparse], [int], b4_parse_param)[ { int yyresult; yyGLRStack yystack; yyGLRStack* const yystackp = &yystack; size_t yyposn; YYDPRINTF ((stderr, "Starting parse\n")); yychar = YYEMPTY; yylval = yyval_default;]b4_locations_if([ yylloc = yyloc_default;])[ ]m4_ifdef([b4_initial_action], [ b4_dollar_pushdef([yylval], [], [yylloc])dnl /* User initialization code. */ b4_user_initial_action b4_dollar_popdef])[]dnl [ if (! yyinitGLRStack (yystackp, YYINITDEPTH)) goto yyexhaustedlab; switch (YYSETJMP (yystack.yyexception_buffer)) { case 0: break; case 1: goto yyabortlab; case 2: goto yyexhaustedlab; default: goto yybuglab; } yyglrShift (&yystack, 0, 0, 0, &yylval]b4_locations_if([, &yylloc])[); yyposn = 0; while (yytrue) { /* For efficiency, we have two loops, the first of which is specialized to deterministic operation (single stack, no potential ambiguity). */ /* Standard mode */ while (yytrue) { yyRuleNum yyrule; int yyaction; const short int* yyconflicts; yyStateNum yystate = yystack.yytops.yystates[0]->yylrState; YYDPRINTF ((stderr, "Entering state %d\n", yystate)); if (yystate == YYFINAL) goto yyacceptlab; if (yyisDefaultedState (yystate)) { yyrule = yydefaultAction (yystate); if (yyrule == 0) { ]b4_locations_if([[ yystack.yyerror_range[1].yystate.yyloc = yylloc;]])[ yyreportSyntaxError (&yystack]b4_user_args[); goto yyuser_error; } YYCHK1 (yyglrReduce (&yystack, 0, yyrule, yytrue]b4_user_args[)); } else { yySymbol yytoken; if (yychar == YYEMPTY) { YYDPRINTF ((stderr, "Reading a token: ")); yychar = ]b4_lex[; } if (yychar <= YYEOF) { yychar = yytoken = YYEOF; YYDPRINTF ((stderr, "Now at end of input.\n")); } else { yytoken = YYTRANSLATE (yychar); YY_SYMBOL_PRINT ("Next token is", yytoken, &yylval, &yylloc); } yygetLRActions (yystate, yytoken, &yyaction, &yyconflicts); if (*yyconflicts != 0) break; if (yyisShiftAction (yyaction)) { YY_SYMBOL_PRINT ("Shifting", yytoken, &yylval, &yylloc); yychar = YYEMPTY; yyposn += 1; yyglrShift (&yystack, 0, yyaction, yyposn, &yylval]b4_locations_if([, &yylloc])[); if (0 < yystack.yyerrState) yystack.yyerrState -= 1; } else if (yyisErrorAction (yyaction)) { ]b4_locations_if([[ yystack.yyerror_range[1].yystate.yyloc = yylloc;]])[ yyreportSyntaxError (&yystack]b4_user_args[); goto yyuser_error; } else YYCHK1 (yyglrReduce (&yystack, 0, -yyaction, yytrue]b4_user_args[)); } } while (yytrue) { yySymbol yytoken_to_shift; size_t yys; for (yys = 0; yys < yystack.yytops.yysize; yys += 1) yystackp->yytops.yylookaheadNeeds[yys] = yychar != YYEMPTY; /* yyprocessOneStack returns one of three things: - An error flag. If the caller is yyprocessOneStack, it immediately returns as well. When the caller is finally yyparse, it jumps to an error label via YYCHK1. - yyok, but yyprocessOneStack has invoked yymarkStackDeleted (&yystack, yys), which sets the top state of yys to NULL. Thus, yyparse's following invocation of yyremoveDeletes will remove the stack. - yyok, when ready to shift a token. Except in the first case, yyparse will invoke yyremoveDeletes and then shift the next token onto all remaining stacks. This synchronization of the shift (that is, after all preceding reductions on all stacks) helps prevent double destructor calls on yylval in the event of memory exhaustion. */ for (yys = 0; yys < yystack.yytops.yysize; yys += 1) YYCHK1 (yyprocessOneStack (&yystack, yys, yyposn]b4_lpure_args[)); yyremoveDeletes (&yystack); if (yystack.yytops.yysize == 0) { yyundeleteLastStack (&yystack); if (yystack.yytops.yysize == 0) yyFail (&yystack][]b4_lpure_args[, YY_("syntax error")); YYCHK1 (yyresolveStack (&yystack]b4_user_args[)); YYDPRINTF ((stderr, "Returning to deterministic operation.\n")); ]b4_locations_if([[ yystack.yyerror_range[1].yystate.yyloc = yylloc;]])[ yyreportSyntaxError (&yystack]b4_user_args[); goto yyuser_error; } /* If any yyglrShift call fails, it will fail after shifting. Thus, a copy of yylval will already be on stack 0 in the event of a failure in the following loop. Thus, yychar is set to YYEMPTY before the loop to make sure the user destructor for yylval isn't called twice. */ yytoken_to_shift = YYTRANSLATE (yychar); yychar = YYEMPTY; yyposn += 1; for (yys = 0; yys < yystack.yytops.yysize; yys += 1) { int yyaction; const short int* yyconflicts; yyStateNum yystate = yystack.yytops.yystates[yys]->yylrState; yygetLRActions (yystate, yytoken_to_shift, &yyaction, &yyconflicts); /* Note that yyconflicts were handled by yyprocessOneStack. */ YYDPRINTF ((stderr, "On stack %lu, ", (unsigned long int) yys)); YY_SYMBOL_PRINT ("shifting", yytoken_to_shift, &yylval, &yylloc); yyglrShift (&yystack, yys, yyaction, yyposn, &yylval]b4_locations_if([, &yylloc])[); YYDPRINTF ((stderr, "Stack %lu now in state #%d\n", (unsigned long int) yys, yystack.yytops.yystates[yys]->yylrState)); } if (yystack.yytops.yysize == 1) { YYCHK1 (yyresolveStack (&yystack]b4_user_args[)); YYDPRINTF ((stderr, "Returning to deterministic operation.\n")); yycompressStack (&yystack); break; } } continue; yyuser_error: yyrecoverSyntaxError (&yystack]b4_user_args[); yyposn = yystack.yytops.yystates[0]->yyposn; } yyacceptlab: yyresult = 0; goto yyreturn; yybuglab: YYASSERT (yyfalse); goto yyabortlab; yyabortlab: yyresult = 1; goto yyreturn; yyexhaustedlab: yyerror (]b4_lyyerror_args[YY_("memory exhausted")); yyresult = 2; goto yyreturn; yyreturn: if (yychar != YYEMPTY) yydestruct ("Cleanup: discarding lookahead", YYTRANSLATE (yychar), &yylval]b4_locuser_args([&yylloc])[); /* If the stack is well-formed, pop the stack until it is empty, destroying its entries as we go. But free the stack regardless of whether it is well-formed. */ if (yystack.yyitems) { yyGLRState** yystates = yystack.yytops.yystates; if (yystates) { size_t yysize = yystack.yytops.yysize; size_t yyk; for (yyk = 0; yyk < yysize; yyk += 1) if (yystates[yyk]) { while (yystates[yyk]) { yyGLRState *yys = yystates[yyk]; ]b4_locations_if([[ yystack.yyerror_range[1].yystate.yyloc = yys->yyloc;]] )[ if (yys->yypred != YY_NULLPTR) yydestroyGLRState ("Cleanup: popping", yys]b4_user_args[); yystates[yyk] = yys->yypred; yystack.yynextFree -= 1; yystack.yyspaceLeft += 1; } break; } } yyfreeGLRStack (&yystack); } return yyresult; } /* DEBUGGING ONLY */ #if ]b4_api_PREFIX[DEBUG static void yy_yypstack (yyGLRState* yys) { if (yys->yypred) { yy_yypstack (yys->yypred); YYFPRINTF (stderr, " -> "); } YYFPRINTF (stderr, "%d@@%lu", yys->yylrState, (unsigned long int) yys->yyposn); } static void yypstates (yyGLRState* yyst) { if (yyst == YY_NULLPTR) YYFPRINTF (stderr, "<null>"); else yy_yypstack (yyst); YYFPRINTF (stderr, "\n"); } static void yypstack (yyGLRStack* yystackp, size_t yyk) { yypstates (yystackp->yytops.yystates[yyk]); } #define YYINDEX(YYX) \ ((YYX) == YY_NULLPTR ? -1 : (yyGLRStackItem*) (YYX) - yystackp->yyitems) static void yypdumpstack (yyGLRStack* yystackp) { yyGLRStackItem* yyp; size_t yyi; for (yyp = yystackp->yyitems; yyp < yystackp->yynextFree; yyp += 1) { YYFPRINTF (stderr, "%3lu. ", (unsigned long int) (yyp - yystackp->yyitems)); if (*(yybool *) yyp) { YYASSERT (yyp->yystate.yyisState); YYASSERT (yyp->yyoption.yyisState); YYFPRINTF (stderr, "Res: %d, LR State: %d, posn: %lu, pred: %ld", yyp->yystate.yyresolved, yyp->yystate.yylrState, (unsigned long int) yyp->yystate.yyposn, (long int) YYINDEX (yyp->yystate.yypred)); if (! yyp->yystate.yyresolved) YYFPRINTF (stderr, ", firstVal: %ld", (long int) YYINDEX (yyp->yystate .yysemantics.yyfirstVal)); } else { YYASSERT (!yyp->yystate.yyisState); YYASSERT (!yyp->yyoption.yyisState); YYFPRINTF (stderr, "Option. rule: %d, state: %ld, next: %ld", yyp->yyoption.yyrule - 1, (long int) YYINDEX (yyp->yyoption.yystate), (long int) YYINDEX (yyp->yyoption.yynext)); } YYFPRINTF (stderr, "\n"); } YYFPRINTF (stderr, "Tops:"); for (yyi = 0; yyi < yystackp->yytops.yysize; yyi += 1) YYFPRINTF (stderr, "%lu: %ld; ", (unsigned long int) yyi, (long int) YYINDEX (yystackp->yytops.yystates[yyi])); YYFPRINTF (stderr, "\n"); } #endif #undef yylval #undef yychar #undef yynerrs]b4_locations_if([ #undef yylloc]) m4_if(b4_prefix, [yy], [], [[/* Substitute the variable and function names. */ #define yyparse ]b4_prefix[parse #define yylex ]b4_prefix[lex #define yyerror ]b4_prefix[error #define yylval ]b4_prefix[lval #define yychar ]b4_prefix[char #define yydebug ]b4_prefix[debug #define yynerrs ]b4_prefix[nerrs]b4_locations_if([[ #define yylloc ]b4_prefix[lloc]])])[ ]b4_epilogue[]dnl b4_output_end()
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