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- /* Output the generated parsing program for bison,
- Copyright (C) 1984, 1986, 1989 Free Software Foundation, Inc.
- This file is part of Bison, the GNU Compiler Compiler.
- Bison 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 2, or (at your option)
- any later version.
- Bison 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 Bison; see the file COPYING. If not, write to
- the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
- /* functions to output parsing data to various files. Entries are:
- output_headers ()
- Output constant strings to the beginning of certain files.
- output_trailers()
- Output constant strings to the ends of certain files.
- output ()
- Output the parsing tables and the parser code to ftable.
- The parser tables consist of these tables.
- Starred ones needed only for the semantic parser.
- yytranslate = vector mapping yylex's token numbers into bison's token numbers.
- yytname = vector of string-names indexed by bison token number
- yyrline = vector of line-numbers of all rules. For yydebug printouts.
- yyrhs = vector of items of all rules.
- This is exactly what ritems contains. For yydebug and for semantic
- parser.
- yyprhs[r] = index in yyrhs of first item for rule r.
- yyr1[r] = symbol number of symbol that rule r derives.
- yyr2[r] = number of symbols composing right hand side of rule r.
- * yystos[s] = the symbol number of the symbol that leads to state s.
- yydefact[s] = default rule to reduce with in state s,
- when yytable doesn't specify something else to do.
- Zero means the default is an error.
- yydefgoto[i] = default state to go to after a reduction of a rule that
- generates variable ntokens + i, except when yytable
- specifies something else to do.
- yypact[s] = index in yytable of the portion describing state s.
- The lookahead token's type is used to index that portion
- to find out what to do.
- If the value in yytable is positive,
- we shift the token and go to that state.
- If the value is negative, it is minus a rule number to reduce by.
- If the value is zero, the default action from yydefact[s] is used.
- yypgoto[i] = the index in yytable of the portion describing
- what to do after reducing a rule that derives variable i + ntokens.
- This portion is indexed by the parser state number
- as of before the text for this nonterminal was read.
- The value from yytable is the state to go to.
- yytable = a vector filled with portions for different uses,
- found via yypact and yypgoto.
- yycheck = a vector indexed in parallel with yytable.
- It indicates, in a roundabout way, the bounds of the
- portion you are trying to examine.
- Suppose that the portion of yytable starts at index p
- and the index to be examined within the portion is i.
- Then if yycheck[p+i] != i, i is outside the bounds
- of what is actually allocated, and the default
- (from yydefact or yydefgoto) should be used.
- Otherwise, yytable[p+i] should be used.
- YYFINAL = the state number of the termination state.
- YYFLAG = most negative short int. Used to flag ??
- YYNTBASE = ntokens.
- */
- #include <stdio.h>
- #include "system.h"
- #include "machine.h"
- #include "new.h"
- #include "files.h"
- #include "gram.h"
- #include "state.h"
- extern int debugflag;
- extern int nolinesflag;
- extern char **tags;
- extern int tokensetsize;
- extern int final_state;
- extern core **state_table;
- extern shifts **shift_table;
- extern errs **err_table;
- extern reductions **reduction_table;
- extern short *accessing_symbol;
- extern unsigned *LA;
- extern short *LAruleno;
- extern short *lookaheads;
- extern char *consistent;
- extern short *goto_map;
- extern short *from_state;
- extern short *to_state;
- void output_token_translations();
- void output_gram();
- void output_stos();
- void output_rule_data();
- void output_defines();
- void output_actions();
- void token_actions();
- void save_row();
- void goto_actions();
- void save_column();
- void sort_actions();
- void pack_table();
- void output_base();
- void output_table();
- void output_check();
- void output_parser();
- void output_program();
- void free_itemset();
- void free_shifts();
- void free_reductions();
- void free_itemsets();
- int action_row();
- int default_goto();
- int matching_state();
- int pack_vector();
- extern void berror();
- extern void fatals();
- static int nvectors;
- static int nentries;
- static short **froms;
- static short **tos;
- static short *tally;
- static short *width;
- static short *actrow;
- static short *state_count;
- static short *order;
- static short *base;
- static short *pos;
- static short *table;
- static short *check;
- static int lowzero;
- static int high;
- #define GUARDSTR "\n#include \"%s\"\nextern int yyerror;\n\
- extern int yycost;\nextern char * yymsg;\nextern YYSTYPE yyval;\n\n\
- yyguard(n, yyvsp, yylsp)\nregister int n;\nregister YYSTYPE *yyvsp;\n\
- register YYLTYPE *yylsp;\n\
- {\n yyerror = 0;\nyycost = 0;\n yymsg = 0;\nswitch (n)\n {"
- #define ACTSTR "\n#include \"%s\"\nextern YYSTYPE yyval;\
- \nextern int yychar;\
- yyaction(n, yyvsp, yylsp)\nregister int n;\nregister YYSTYPE *yyvsp;\n\
- register YYLTYPE *yylsp;\n{\n switch (n)\n{"
- #define ACTSTR_SIMPLE "\n switch (yyn) {\n"
- void
- output_headers()
- {
- if (semantic_parser)
- fprintf(fguard, GUARDSTR, attrsfile);
- fprintf(faction, (semantic_parser ? ACTSTR : ACTSTR_SIMPLE), attrsfile);
- /* if (semantic_parser) JF moved this below
- fprintf(ftable, "#include \"%s\"\n", attrsfile);
- fprintf(ftable, "#include <stdio.h>\n\n");
- */
- /* Rename certain symbols if -p was specified. */
- if (spec_name_prefix)
- {
- fprintf(ftable, "#define yyparse %sparse\n", spec_name_prefix);
- fprintf(ftable, "#define yylex %slex\n", spec_name_prefix);
- fprintf(ftable, "#define yyerror %serror\n", spec_name_prefix);
- fprintf(ftable, "#define yylval %slval\n", spec_name_prefix);
- fprintf(ftable, "#define yychar %schar\n", spec_name_prefix);
- fprintf(ftable, "#define yydebug %sdebug\n", spec_name_prefix);
- fprintf(ftable, "#define yynerrs %snerrs\n", spec_name_prefix);
- }
- }
- void
- output_trailers()
- {
- if (semantic_parser)
- {
- fprintf(fguard, "\n }\n}\n");
- fprintf(faction, "\n }\n}\n");
- }
- else
- fprintf(faction, "\n}\n");
- }
- void
- output()
- {
- int c;
- /* output_token_defines(ftable); / * JF put out token defines FIRST */
- if (!semantic_parser) /* JF Put out other stuff */
- {
- rewind(fattrs);
- while ((c=getc(fattrs))!=EOF)
- putc(c,ftable);
- }
- if (debugflag)
- fprintf(ftable, "#ifndef YYDEBUG\n#define YYDEBUG %d\n#endif\n\n",
- !!debugflag);
- if (semantic_parser)
- fprintf(ftable, "#include \"%s\"\n", attrsfile);
- fprintf(ftable, "#include <stdio.h>\n\n");
- /* Make "const" do nothing if not in ANSI C. */
- fprintf (ftable, "#ifndef __cplusplus\n#ifndef __STDC__\n#define const\n#endif\n#endif\n\n");
- free_itemsets();
- output_defines();
- output_token_translations();
- /* if (semantic_parser) */
- /* This is now unconditional because debugging printouts can use it. */
- output_gram();
- FREE(ritem);
- if (semantic_parser)
- output_stos();
- output_rule_data();
- output_actions();
- output_parser();
- output_program();
- }
- void
- output_token_translations()
- {
- register int i, j;
- /* register short *sp; JF unused */
- if (translations)
- {
- fprintf(ftable,
- "\n#define YYTRANSLATE(x) ((unsigned)(x) <= %d ? yytranslate[x] : %d)\n",
- max_user_token_number, nsyms);
-
- if (ntokens < 127) /* play it very safe; check maximum element value. */
- fprintf(ftable, "\nstatic const char yytranslate[] = { 0");
- else
- fprintf(ftable, "\nstatic const short yytranslate[] = { 0");
-
- j = 10;
- for (i = 1; i <= max_user_token_number; i++)
- {
- putc(',', ftable);
-
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
-
- fprintf(ftable, "%6d", token_translations[i]);
- }
-
- fprintf(ftable, "\n};\n");
- }
- else
- {
- fprintf(ftable, "\n#define YYTRANSLATE(x) (x)\n");
- }
- }
- void
- output_gram()
- {
- register int i;
- register int j;
- register short *sp;
- /* With the ordinary parser,
- yyprhs and yyrhs are needed only for yydebug. */
- if (!semantic_parser)
- fprintf(ftable, "\n#if YYDEBUG != 0");
- fprintf(ftable, "\nstatic const short yyprhs[] = { 0");
- j = 10;
- for (i = 1; i <= nrules; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- fprintf(ftable, "%6d", rrhs[i]);
- }
- fprintf(ftable, "\n};\n");
- fprintf(ftable, "\nstatic const short yyrhs[] = {%6d", ritem[0]);
- j = 10;
- for (sp = ritem + 1; *sp; sp++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- if (*sp > 0)
- fprintf(ftable, "%6d", *sp);
- else
- fprintf(ftable, " 0");
- }
- fprintf(ftable, "\n};\n");
- if(!semantic_parser)
- fprintf(ftable, "\n#endif\n");
- }
- void
- output_stos()
- {
- register int i;
- register int j;
- fprintf(ftable, "\nstatic const short yystos[] = { 0");
- j = 10;
- for (i = 1; i < nstates; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- fprintf(ftable, "%6d", accessing_symbol[i]);
- }
- fprintf(ftable, "\n};\n");
- }
- void
- output_rule_data()
- {
- register int i;
- register int j;
- fprintf(ftable, "\n#if YYDEBUG != 0\nstatic const short yyrline[] = { 0");
- j = 10;
- for (i = 1; i <= nrules; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- fprintf(ftable, "%6d", rline[i]);
- }
- /* Output the table of symbol names. */
- fprintf(ftable,
- "\n};\n\nstatic const char * const yytname[] = { \"%s\"",
- tags[0]);
- j = strlen (tags[0]) + 44;
- for (i = 1; i <= nsyms; i++)
- {
- register char *p;
- putc(',', ftable);
- j++;
- if (j > 75)
- {
- putc('\n', ftable);
- j = 0;
- }
- putc ('\"', ftable);
- j++;
- for (p = tags[i]; p && *p; p++)
- {
- if (*p == '"' || *p == '\\')
- {
- fprintf(ftable, "\\%c", *p);
- j += 2;
- }
- else if (*p == '\n')
- {
- fprintf(ftable, "\\n");
- j += 2;
- }
- else if (*p == '\t')
- {
- fprintf(ftable, "\\t");
- j += 2;
- }
- else if (*p == '\b')
- {
- fprintf(ftable, "\\b");
- j += 2;
- }
- else if (*p < 040 || *p >= 0177)
- {
- fprintf(ftable, "\\%03o", *p);
- j += 4;
- }
- else
- {
- putc(*p, ftable);
- j++;
- }
- }
- putc ('\"', ftable);
- j++;
- }
- fprintf(ftable, "\n};\n#endif\n\nstatic const short yyr1[] = { 0");
- j = 10;
- for (i = 1; i <= nrules; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- fprintf(ftable, "%6d", rlhs[i]);
- }
- FREE(rlhs + 1);
- fprintf(ftable, "\n};\n\nstatic const short yyr2[] = { 0");
- j = 10;
- for (i = 1; i < nrules; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- fprintf(ftable, "%6d", rrhs[i + 1] - rrhs[i] - 1);
- }
- putc(',', ftable);
- if (j >= 10)
- putc('\n', ftable);
- fprintf(ftable, "%6d\n};\n", nitems - rrhs[nrules] - 1);
- FREE(rrhs + 1);
- }
- void
- output_defines()
- {
- fprintf(ftable, "\n\n#define\tYYFINAL\t\t%d\n", final_state);
- fprintf(ftable, "#define\tYYFLAG\t\t%d\n", MINSHORT);
- fprintf(ftable, "#define\tYYNTBASE\t%d\n", ntokens);
- }
- /* compute and output yydefact, yydefgoto, yypact, yypgoto, yytable and yycheck. */
- void
- output_actions()
- {
- nvectors = nstates + nvars;
- froms = NEW2(nvectors, short *);
- tos = NEW2(nvectors, short *);
- tally = NEW2(nvectors, short);
- width = NEW2(nvectors, short);
- token_actions();
- free_shifts();
- free_reductions();
- FREE(lookaheads);
- FREE(LA);
- FREE(LAruleno);
- FREE(accessing_symbol);
- goto_actions();
- FREE(goto_map + ntokens);
- FREE(from_state);
- FREE(to_state);
- sort_actions();
- pack_table();
- output_base();
- output_table();
- output_check();
- }
- /* figure out the actions for the specified state, indexed by lookahead token type.
- The yydefact table is output now. The detailed info
- is saved for putting into yytable later. */
- void
- token_actions()
- {
- register int i;
- register int j;
- register int k;
- actrow = NEW2(ntokens, short);
- k = action_row(0);
- fprintf(ftable, "\nstatic const short yydefact[] = {%6d", k);
- save_row(0);
- j = 10;
- for (i = 1; i < nstates; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- k = action_row(i);
- fprintf(ftable, "%6d", k);
- save_row(i);
- }
- fprintf(ftable, "\n};\n");
- FREE(actrow);
- }
- /* Decide what to do for each type of token if seen as the lookahead token in specified state.
- The value returned is used as the default action (yydefact) for the state.
- In addition, actrow is filled with what to do for each kind of token,
- index by symbol number, with zero meaning do the default action.
- The value MINSHORT, a very negative number, means this situation
- is an error. The parser recognizes this value specially.
- This is where conflicts are resolved. The loop over lookahead rules
- considered lower-numbered rules last, and the last rule considered that likes
- a token gets to handle it. */
- int
- action_row(state)
- int state;
- {
- register int i;
- register int j;
- register int k;
- register int m;
- register int n;
- register int count;
- register int default_rule;
- register int nreds;
- register int max;
- register int rule;
- register int shift_state;
- register int symbol;
- register unsigned mask;
- register unsigned *wordp;
- register reductions *redp;
- register shifts *shiftp;
- register errs *errp;
- int nodefault = 0; /* set nonzero to inhibit having any default reduction */
- for (i = 0; i < ntokens; i++)
- actrow[i] = 0;
- default_rule = 0;
- nreds = 0;
- redp = reduction_table[state];
- if (redp)
- {
- nreds = redp->nreds;
- if (nreds >= 1)
- {
- /* loop over all the rules available here which require lookahead */
- m = lookaheads[state];
- n = lookaheads[state + 1];
- for (i = n - 1; i >= m; i--)
- {
- rule = - LAruleno[i];
- wordp = LA + i * tokensetsize;
- mask = 1;
- /* and find each token which the rule finds acceptable to come next */
- for (j = 0; j < ntokens; j++)
- {
- /* and record this rule as the rule to use if that token follows. */
- if (mask & *wordp)
- actrow[j] = rule;
- mask <<= 1;
- if (mask == 0)
- {
- mask = 1;
- wordp++;
- }
- }
- }
- }
- }
- shiftp = shift_table[state];
- /* now see which tokens are allowed for shifts in this state.
- For them, record the shift as the thing to do. So shift is preferred to reduce. */
- if (shiftp)
- {
- k = shiftp->nshifts;
- for (i = 0; i < k; i++)
- {
- shift_state = shiftp->shifts[i];
- if (! shift_state) continue;
- symbol = accessing_symbol[shift_state];
- if (ISVAR(symbol))
- break;
- actrow[symbol] = shift_state;
- /* do not use any default reduction if there is a shift for error */
- if (symbol == error_token_number) nodefault = 1;
- }
- }
- errp = err_table[state];
- /* See which tokens are an explicit error in this state
- (due to %nonassoc). For them, record MINSHORT as the action. */
- if (errp)
- {
- k = errp->nerrs;
- for (i = 0; i < k; i++)
- {
- symbol = errp->errs[i];
- actrow[symbol] = MINSHORT;
- }
- }
- /* now find the most common reduction and make it the default action for this state. */
- if (nreds >= 1 && ! nodefault)
- {
- if (consistent[state])
- default_rule = redp->rules[0];
- else
- {
- max = 0;
- for (i = m; i < n; i++)
- {
- count = 0;
- rule = - LAruleno[i];
-
- for (j = 0; j < ntokens; j++)
- {
- if (actrow[j] == rule)
- count++;
- }
-
- if (count > max)
- {
- max = count;
- default_rule = rule;
- }
- }
-
- /* actions which match the default are replaced with zero,
- which means "use the default" */
-
- if (max > 0)
- {
- for (j = 0; j < ntokens; j++)
- {
- if (actrow[j] == default_rule)
- actrow[j] = 0;
- }
-
- default_rule = - default_rule;
- }
- }
- }
- /* If have no default rule, the default is an error.
- So replace any action which says "error" with "use default". */
- if (default_rule == 0)
- for (j = 0; j < ntokens; j++)
- {
- if (actrow[j] == MINSHORT)
- actrow[j] = 0;
- }
- return (default_rule);
- }
- void
- save_row(state)
- int state;
- {
- register int i;
- register int count;
- register short *sp;
- register short *sp1;
- register short *sp2;
- count = 0;
- for (i = 0; i < ntokens; i++)
- {
- if (actrow[i] != 0)
- count++;
- }
- if (count == 0)
- return;
- froms[state] = sp1 = sp = NEW2(count, short);
- tos[state] = sp2 = NEW2(count, short);
- for (i = 0; i < ntokens; i++)
- {
- if (actrow[i] != 0)
- {
- *sp1++ = i;
- *sp2++ = actrow[i];
- }
- }
- tally[state] = count;
- width[state] = sp1[-1] - sp[0] + 1;
- }
- /* figure out what to do after reducing with each rule,
- depending on the saved state from before the beginning
- of parsing the data that matched this rule.
- The yydefgoto table is output now. The detailed info
- is saved for putting into yytable later. */
- void
- goto_actions()
- {
- register int i;
- register int j;
- register int k;
- state_count = NEW2(nstates, short);
- k = default_goto(ntokens);
- fprintf(ftable, "\nstatic const short yydefgoto[] = {%6d", k);
- save_column(ntokens, k);
- j = 10;
- for (i = ntokens + 1; i < nsyms; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- k = default_goto(i);
- fprintf(ftable, "%6d", k);
- save_column(i, k);
- }
- fprintf(ftable, "\n};\n");
- FREE(state_count);
- }
- int
- default_goto(symbol)
- int symbol;
- {
- register int i;
- register int m;
- register int n;
- register int default_state;
- register int max;
- m = goto_map[symbol];
- n = goto_map[symbol + 1];
- if (m == n)
- return (-1);
- for (i = 0; i < nstates; i++)
- state_count[i] = 0;
- for (i = m; i < n; i++)
- state_count[to_state[i]]++;
- max = 0;
- default_state = -1;
- for (i = 0; i < nstates; i++)
- {
- if (state_count[i] > max)
- {
- max = state_count[i];
- default_state = i;
- }
- }
- return (default_state);
- }
- void
- save_column(symbol, default_state)
- int symbol;
- int default_state;
- {
- register int i;
- register int m;
- register int n;
- register short *sp;
- register short *sp1;
- register short *sp2;
- register int count;
- register int symno;
- m = goto_map[symbol];
- n = goto_map[symbol + 1];
- count = 0;
- for (i = m; i < n; i++)
- {
- if (to_state[i] != default_state)
- count++;
- }
- if (count == 0)
- return;
- symno = symbol - ntokens + nstates;
- froms[symno] = sp1 = sp = NEW2(count, short);
- tos[symno] = sp2 = NEW2(count, short);
- for (i = m; i < n; i++)
- {
- if (to_state[i] != default_state)
- {
- *sp1++ = from_state[i];
- *sp2++ = to_state[i];
- }
- }
- tally[symno] = count;
- width[symno] = sp1[-1] - sp[0] + 1;
- }
- /* the next few functions decide how to pack
- the actions and gotos information into yytable. */
- void
- sort_actions()
- {
- register int i;
- register int j;
- register int k;
- register int t;
- register int w;
- order = NEW2(nvectors, short);
- nentries = 0;
- for (i = 0; i < nvectors; i++)
- {
- if (tally[i] > 0)
- {
- t = tally[i];
- w = width[i];
- j = nentries - 1;
- while (j >= 0 && (width[order[j]] < w))
- j--;
- while (j >= 0 && (width[order[j]] == w) && (tally[order[j]] < t))
- j--;
- for (k = nentries - 1; k > j; k--)
- order[k + 1] = order[k];
- order[j + 1] = i;
- nentries++;
- }
- }
- }
- void
- pack_table()
- {
- register int i;
- register int place;
- register int state;
- base = NEW2(nvectors, short);
- pos = NEW2(nentries, short);
- table = NEW2(MAXTABLE, short);
- check = NEW2(MAXTABLE, short);
- lowzero = 0;
- high = 0;
- for (i = 0; i < nvectors; i++)
- base[i] = MINSHORT;
- for (i = 0; i < MAXTABLE; i++)
- check[i] = -1;
- for (i = 0; i < nentries; i++)
- {
- state = matching_state(i);
- if (state < 0)
- place = pack_vector(i);
- else
- place = base[state];
- pos[i] = place;
- base[order[i]] = place;
- }
- for (i = 0; i < nvectors; i++)
- {
- if (froms[i])
- FREE(froms[i]);
- if (tos[i])
- FREE(tos[i]);
- }
- FREE(froms);
- FREE(tos);
- FREE(pos);
- }
- int
- matching_state(vector)
- int vector;
- {
- register int i;
- register int j;
- register int k;
- register int t;
- register int w;
- register int match;
- register int prev;
- i = order[vector];
- if (i >= nstates)
- return (-1);
- t = tally[i];
- w = width[i];
- for (prev = vector - 1; prev >= 0; prev--)
- {
- j = order[prev];
- if (width[j] != w || tally[j] != t)
- return (-1);
- match = 1;
- for (k = 0; match && k < t; k++)
- {
- if (tos[j][k] != tos[i][k] || froms[j][k] != froms[i][k])
- match = 0;
- }
- if (match)
- return (j);
- }
- return (-1);
- }
- int
- pack_vector(vector)
- int vector;
- {
- register int i;
- register int j;
- register int k;
- register int t;
- register int loc;
- register int ok;
- register short *from;
- register short *to;
- i = order[vector];
- t = tally[i];
- if (t == 0)
- berror("pack_vector");
- from = froms[i];
- to = tos[i];
- for (j = lowzero - from[0]; j < MAXTABLE; j++)
- {
- ok = 1;
- for (k = 0; ok && k < t; k++)
- {
- loc = j + from[k];
- if (loc > MAXTABLE)
- fatals("maximum table size (%d) exceeded",MAXTABLE);
- if (table[loc] != 0)
- ok = 0;
- }
- for (k = 0; ok && k < vector; k++)
- {
- if (pos[k] == j)
- ok = 0;
- }
- if (ok)
- {
- for (k = 0; k < t; k++)
- {
- loc = j + from[k];
- table[loc] = to[k];
- check[loc] = from[k];
- }
- while (table[lowzero] != 0)
- lowzero++;
- if (loc > high)
- high = loc;
- return (j);
- }
- }
- berror("pack_vector");
- return 0; /* JF keep lint happy */
- }
- /* the following functions output yytable, yycheck
- and the vectors whose elements index the portion starts */
- void
- output_base()
- {
- register int i;
- register int j;
- fprintf(ftable, "\nstatic const short yypact[] = {%6d", base[0]);
- j = 10;
- for (i = 1; i < nstates; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- fprintf(ftable, "%6d", base[i]);
- }
- fprintf(ftable, "\n};\n\nstatic const short yypgoto[] = {%6d", base[nstates]);
- j = 10;
- for (i = nstates + 1; i < nvectors; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- fprintf(ftable, "%6d", base[i]);
- }
- fprintf(ftable, "\n};\n");
- FREE(base);
- }
- void
- output_table()
- {
- register int i;
- register int j;
- fprintf(ftable, "\n\n#define\tYYLAST\t\t%d\n\n", high);
- fprintf(ftable, "\nstatic const short yytable[] = {%6d", table[0]);
- j = 10;
- for (i = 1; i <= high; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- fprintf(ftable, "%6d", table[i]);
- }
- fprintf(ftable, "\n};\n");
- FREE(table);
- }
- void
- output_check()
- {
- register int i;
- register int j;
- fprintf(ftable, "\nstatic const short yycheck[] = {%6d", check[0]);
- j = 10;
- for (i = 1; i <= high; i++)
- {
- putc(',', ftable);
- if (j >= 10)
- {
- putc('\n', ftable);
- j = 1;
- }
- else
- {
- j++;
- }
- fprintf(ftable, "%6d", check[i]);
- }
- fprintf(ftable, "\n};\n");
- FREE(check);
- }
- /* copy the parser code into the ftable file at the end. */
- void
- output_parser()
- {
- register int c;
- #ifdef DONTDEF
- FILE *fpars;
- #else
- #define fpars fparser
- #endif
- if (pure_parser)
- fprintf(ftable, "#define YYPURE 1\n\n");
- #ifdef DONTDEF /* JF no longer needed 'cuz open_extra_files changes the
- currently open parser from bison.simple to bison.hairy */
- if (semantic_parser)
- fpars = fparser;
- else fpars = fparser1;
- #endif
- /* Loop over lines in the standard parser file. */
- while (1)
- {
- int write_line = 1;
- c = getc(fpars);
- /* See if the line starts with `#line.
- If so, set write_line to 0. */
- if (nolinesflag)
- if (c == '#')
- {
- c = getc(fpars);
- if (c == 'l')
- {
- c = getc(fpars);
- if (c == 'i')
- {
- c = getc(fpars);
- if (c == 'n')
- {
- c = getc(fpars);
- if (c == 'e')
- write_line = 0;
- else
- fprintf(ftable, "#lin");
- }
- else
- fprintf(ftable, "#li");
- }
- else
- fprintf(ftable, "#l");
- }
- else
- fprintf(ftable, "#");
- }
- /* now write out the line... */
- for ( ; c != '\n' && c != EOF; c = getc(fpars))
- if (write_line)
- if (c == '$')
- {
- /* `$' in the parser file indicates where to put the actions.
- Copy them in at this point. */
- rewind(faction);
- for(c=getc(faction);c!=EOF;c=getc(faction))
- putc(c,ftable);
- }
- else
- putc(c, ftable);
- if (c == EOF)
- break;
- putc(c, ftable);
- }
- }
- void
- output_program()
- {
- register int c;
- extern int lineno;
- if (!nolinesflag)
- fprintf(ftable, "#line %d \"%s\"\n", lineno, infile);
- c = getc(finput);
- while (c != EOF)
- {
- putc(c, ftable);
- c = getc(finput);
- }
- }
- void
- free_itemsets()
- {
- register core *cp,*cptmp;
- FREE(state_table);
- for (cp = first_state; cp; cp = cptmp) {
- cptmp=cp->next;
- FREE(cp);
- }
- }
- void
- free_shifts()
- {
- register shifts *sp,*sptmp;/* JF derefrenced freed ptr */
- FREE(shift_table);
- for (sp = first_shift; sp; sp = sptmp) {
- sptmp=sp->next;
- FREE(sp);
- }
- }
- void
- free_reductions()
- {
- register reductions *rp,*rptmp;/* JF fixed freed ptr */
- FREE(reduction_table);
- for (rp = first_reduction; rp; rp = rptmp) {
- rptmp=rp->next;
- FREE(rp);
- }
- }
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