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bison/src/output.c
Paul Eggert 9e0876fb0c * data/glr.c (yytnamerr): New function. 
(yyreportSyntaxError): Use it to dequote most string literals.
* data/lalr1.c (yytname_): Renamed from yyname_, for compatibility
with other skeletons.  All uses changed.
(yytnameerr_): New function.
(yyreport_syntax_error): Use it to dequote most string literals.
* data/yacc.c (yytnamerr): New function.
(yyerrlab): Use it to decode most string literals.
* doc/bison.texinfo (Decl Summary, Calling Convention):
Clarify quoting convention of yytname.
* src/output.c (prepare_symbols): Quote all names.  This undoes
the 2005-04-17 change, which is now accomplished (mostly) via
changes in the parsers as described above.
* tests/regression.at (Token definitions, Web2c Actions):
Undo most 2005-04-17 change here, too.
2005-07-21 20:53:03 +00:00

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/* Output the generated parsing program for Bison.
Copyright (C) 1984, 1986, 1989, 1992, 2000, 2001, 2002, 2003, 2004, 2005
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, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301, USA. */
#include "system.h"
#include <error.h>
#include <get-errno.h>
#include <quotearg.h>
#include <subpipe.h>
#include <timevar.h>
#include "complain.h"
#include "files.h"
#include "getargs.h"
#include "gram.h"
#include "muscle_tab.h"
#include "output.h"
#include "reader.h"
#include "symtab.h"
#include "tables.h"
/* From src/scan-skel.l. */
void scan_skel (FILE *);
static struct obstack format_obstack;
bool error_verbose = false;
/*-------------------------------------------------------------------.
| Create a function NAME which associates to the muscle NAME the |
| result of formatting the FIRST and then TABLE_DATA[BEGIN..END[ (of |
| TYPE), and to the muscle NAME_max, the max value of the |
| TABLE_DATA. |
`-------------------------------------------------------------------*/
#define GENERATE_MUSCLE_INSERT_TABLE(Name, Type) \
\
static void \
Name (char const *name, \
Type *table_data, \
Type first, \
int begin, \
int end) \
{ \
Type min = first; \
Type max = first; \
long int lmin; \
long int lmax; \
int i; \
int j = 1; \
\
obstack_fgrow1 (&format_obstack, "%6d", first); \
for (i = begin; i < end; ++i) \
{ \
obstack_1grow (&format_obstack, ','); \
if (j >= 10) \
{ \
obstack_sgrow (&format_obstack, "\n "); \
j = 1; \
} \
else \
++j; \
obstack_fgrow1 (&format_obstack, "%6d", table_data[i]); \
if (table_data[i] < min) \
min = table_data[i]; \
if (max < table_data[i]) \
max = table_data[i]; \
} \
obstack_1grow (&format_obstack, 0); \
muscle_insert (name, obstack_finish (&format_obstack)); \
\
lmin = min; \
lmax = max; \
/* Build `NAME_min' and `NAME_max' in the obstack. */ \
obstack_fgrow1 (&format_obstack, "%s_min", name); \
obstack_1grow (&format_obstack, 0); \
MUSCLE_INSERT_LONG_INT (obstack_finish (&format_obstack), lmin); \
obstack_fgrow1 (&format_obstack, "%s_max", name); \
obstack_1grow (&format_obstack, 0); \
MUSCLE_INSERT_LONG_INT (obstack_finish (&format_obstack), lmax); \
}
GENERATE_MUSCLE_INSERT_TABLE(muscle_insert_unsigned_int_table, unsigned int)
GENERATE_MUSCLE_INSERT_TABLE(muscle_insert_int_table, int)
GENERATE_MUSCLE_INSERT_TABLE(muscle_insert_base_table, base_number)
GENERATE_MUSCLE_INSERT_TABLE(muscle_insert_rule_number_table, rule_number)
GENERATE_MUSCLE_INSERT_TABLE(muscle_insert_symbol_number_table, symbol_number)
GENERATE_MUSCLE_INSERT_TABLE(muscle_insert_item_number_table, item_number)
GENERATE_MUSCLE_INSERT_TABLE(muscle_insert_state_number_table, state_number)
/*--------------------------------------------------------------------.
| Print to OUT a representation of STRING escaped both for C and M4. |
`--------------------------------------------------------------------*/
static void
escaped_output (FILE *out, char const *string)
{
char const *p;
fprintf (out, "[[");
for (p = quotearg_style (c_quoting_style, string); *p; p++)
switch (*p)
{
case '$': fputs ("$][", out); break;
case '@': fputs ("@@", out); break;
case '[': fputs ("@{", out); break;
case ']': fputs ("@}", out); break;
default: fputc (*p, out); break;
}
fprintf (out, "]]");
}
/*------------------------------------------------------------------.
| Prepare the muscles related to the symbols: translate, tname, and |
| toknum. |
`------------------------------------------------------------------*/
static void
prepare_symbols (void)
{
MUSCLE_INSERT_INT ("tokens_number", ntokens);
MUSCLE_INSERT_INT ("nterms_number", nvars);
MUSCLE_INSERT_INT ("undef_token_number", undeftoken->number);
MUSCLE_INSERT_INT ("user_token_number_max", max_user_token_number);
muscle_insert_symbol_number_table ("translate",
token_translations,
token_translations[0],
1, max_user_token_number + 1);
/* tname -- token names. */
{
int i;
/* We assume that the table will be output starting at column 2. */
int j = 2;
for (i = 0; i < nsyms; i++)
{
char const *cp = quotearg_style (c_quoting_style, symbols[i]->tag);
/* Width of the next token, including the two quotes, the
comma and the space. */
int width = strlen (cp) + 2;
if (j + width > 75)
{
obstack_sgrow (&format_obstack, "\n ");
j = 1;
}
if (i)
obstack_1grow (&format_obstack, ' ');
MUSCLE_OBSTACK_SGROW (&format_obstack, cp);
obstack_1grow (&format_obstack, ',');
j += width;
}
/* Add a NULL entry to list of tokens (well, 0, as NULL might not be
defined). */
obstack_sgrow (&format_obstack, " 0");
/* Finish table and store. */
obstack_1grow (&format_obstack, 0);
muscle_insert ("tname", obstack_finish (&format_obstack));
}
/* Output YYTOKNUM. */
{
int i;
int *values = xnmalloc (ntokens, sizeof *values);
for (i = 0; i < ntokens; ++i)
values[i] = symbols[i]->user_token_number;
muscle_insert_int_table ("toknum", values,
values[0], 1, ntokens);
free (values);
}
}
/*-------------------------------------------------------------.
| Prepare the muscles related to the rules: rhs, prhs, r1, r2, |
| rline, dprec, merger. |
`-------------------------------------------------------------*/
static void
prepare_rules (void)
{
rule_number r;
unsigned int i = 0;
item_number *rhs = xnmalloc (nritems, sizeof *rhs);
unsigned int *prhs = xnmalloc (nrules, sizeof *prhs);
unsigned int *rline = xnmalloc (nrules, sizeof *rline);
symbol_number *r1 = xnmalloc (nrules, sizeof *r1);
unsigned int *r2 = xnmalloc (nrules, sizeof *r2);
int *dprec = xnmalloc (nrules, sizeof *dprec);
int *merger = xnmalloc (nrules, sizeof *merger);
for (r = 0; r < nrules; ++r)
{
item_number *rhsp = NULL;
/* Index of rule R in RHS. */
prhs[r] = i;
/* RHS of the rule R. */
for (rhsp = rules[r].rhs; *rhsp >= 0; ++rhsp)
rhs[i++] = *rhsp;
/* LHS of the rule R. */
r1[r] = rules[r].lhs->number;
/* Length of rule R's RHS. */
r2[r] = i - prhs[r];
/* Separator in RHS. */
rhs[i++] = -1;
/* Line where rule was defined. */
rline[r] = rules[r].location.start.line;
/* Dynamic precedence (GLR). */
dprec[r] = rules[r].dprec;
/* Merger-function index (GLR). */
merger[r] = rules[r].merger;
}
if (i != nritems)
abort ();
muscle_insert_item_number_table ("rhs", rhs, ritem[0], 1, nritems);
muscle_insert_unsigned_int_table ("prhs", prhs, 0, 0, nrules);
muscle_insert_unsigned_int_table ("rline", rline, 0, 0, nrules);
muscle_insert_symbol_number_table ("r1", r1, 0, 0, nrules);
muscle_insert_unsigned_int_table ("r2", r2, 0, 0, nrules);
muscle_insert_int_table ("dprec", dprec, 0, 0, nrules);
muscle_insert_int_table ("merger", merger, 0, 0, nrules);
MUSCLE_INSERT_INT ("rules_number", nrules);
MUSCLE_INSERT_INT ("max_left_semantic_context", max_left_semantic_context);
free (rhs);
free (prhs);
free (rline);
free (r1);
free (r2);
free (dprec);
free (merger);
}
/*--------------------------------------------.
| Prepare the muscles related to the states. |
`--------------------------------------------*/
static void
prepare_states (void)
{
state_number i;
symbol_number *values = xnmalloc (nstates, sizeof *values);
for (i = 0; i < nstates; ++i)
values[i] = states[i]->accessing_symbol;
muscle_insert_symbol_number_table ("stos", values,
0, 1, nstates);
free (values);
MUSCLE_INSERT_INT ("last", high);
MUSCLE_INSERT_INT ("final_state_number", final_state->number);
MUSCLE_INSERT_INT ("states_number", nstates);
}
/*---------------------------------.
| Output the user actions to OUT. |
`---------------------------------*/
static void
user_actions_output (FILE *out)
{
rule_number r;
fputs ("m4_define([b4_actions], \n[[", out);
for (r = 0; r < nrules; ++r)
if (rules[r].action)
{
fprintf (out, " case %d:\n", r + 1);
fprintf (out, "]b4_syncline(%d, ",
rules[r].action_location.start.line);
escaped_output (out, rules[r].action_location.start.file);
fprintf (out, ")[\n");
fprintf (out, " %s\n break;\n\n",
rules[r].action);
}
fputs ("]])\n\n", out);
}
/*--------------------------------------.
| Output the merge functions to OUT. |
`--------------------------------------*/
static void
merger_output (FILE *out)
{
int n;
merger_list* p;
fputs ("m4_define([b4_mergers], \n[[", out);
for (n = 1, p = merge_functions; p != NULL; n += 1, p = p->next)
{
if (p->type[0] == '\0')
fprintf (out, " case %d: *yy0 = %s (*yy0, *yy1); break;\n",
n, p->name);
else
fprintf (out, " case %d: yy0->%s = %s (*yy0, *yy1); break;\n",
n, p->type, p->name);
}
fputs ("]])\n\n", out);
}
/*--------------------------------------.
| Output the tokens definition to OUT. |
`--------------------------------------*/
static void
token_definitions_output (FILE *out)
{
int i;
char const *sep = "";
fputs ("m4_define([b4_tokens], \n[", out);
for (i = 0; i < ntokens; ++i)
{
symbol *sym = symbols[i];
int number = sym->user_token_number;
/* At this stage, if there are literal aliases, they are part of
SYMBOLS, so we should not find symbols which are the aliases
here. */
if (number == USER_NUMBER_ALIAS)
abort ();
/* Skip error token. */
if (sym == errtoken)
continue;
/* If this string has an alias, then it is necessarily the alias
which is to be output. */
if (sym->alias)
sym = sym->alias;
/* Don't output literal chars or strings (when defined only as a
string). Note that must be done after the alias resolution:
think about `%token 'f' "f"'. */
if (sym->tag[0] == '\'' || sym->tag[0] == '\"')
continue;
/* Don't #define nonliteral tokens whose names contain periods
or '$' (as does the default value of the EOF token). */
if (strchr (sym->tag, '.') || strchr (sym->tag, '$'))
continue;
fprintf (out, "%s[[[%s]], %d]",
sep, sym->tag, number);
sep = ",\n";
}
fputs ("])\n\n", out);
}
/*---------------------------------------.
| Output the symbol destructors to OUT. |
`---------------------------------------*/
static void
symbol_destructors_output (FILE *out)
{
int i;
char const *sep = "";
fputs ("m4_define([b4_symbol_destructors], \n[", out);
for (i = 0; i < nsyms; ++i)
if (symbols[i]->destructor)
{
symbol *sym = symbols[i];
/* Filename, lineno,
Symbol-name, Symbol-number,
destructor, optional typename. */
fprintf (out, "%s[", sep);
sep = ",\n";
escaped_output (out, sym->destructor_location.start.file);
fprintf (out, ", %d, ", sym->destructor_location.start.line);
escaped_output (out, sym->tag);
fprintf (out, ", %d, [[%s]]", sym->number, sym->destructor);
if (sym->type_name)
fprintf (out, ", [[%s]]", sym->type_name);
fputc (']', out);
}
fputs ("])\n\n", out);
}
/*------------------------------------.
| Output the symbol printers to OUT. |
`------------------------------------*/
static void
symbol_printers_output (FILE *out)
{
int i;
char const *sep = "";
fputs ("m4_define([b4_symbol_printers], \n[", out);
for (i = 0; i < nsyms; ++i)
if (symbols[i]->printer)
{
symbol *sym = symbols[i];
/* Filename, lineno,
Symbol-name, Symbol-number,
printer, optional typename. */
fprintf (out, "%s[", sep);
sep = ",\n";
escaped_output (out, sym->printer_location.start.file);
fprintf (out, ", %d, ", sym->printer_location.start.line);
escaped_output (out, sym->tag);
fprintf (out, ", %d, [[%s]]", sym->number, sym->printer);
if (sym->type_name)
fprintf (out, ", [[%s]]", sym->type_name);
fputc (']', out);
}
fputs ("])\n\n", out);
}
static void
prepare_actions (void)
{
/* Figure out the actions for the specified state, indexed by
look-ahead token type. */
muscle_insert_rule_number_table ("defact", yydefact,
yydefact[0], 1, nstates);
/* 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. */
muscle_insert_state_number_table ("defgoto", yydefgoto,
yydefgoto[0], 1, nsyms - ntokens);
/* Output PACT. */
muscle_insert_base_table ("pact", base,
base[0], 1, nstates);
MUSCLE_INSERT_INT ("pact_ninf", base_ninf);
/* Output PGOTO. */
muscle_insert_base_table ("pgoto", base,
base[nstates], nstates + 1, nvectors);
muscle_insert_base_table ("table", table,
table[0], 1, high + 1);
MUSCLE_INSERT_INT ("table_ninf", table_ninf);
muscle_insert_base_table ("check", check,
check[0], 1, high + 1);
/* GLR parsing slightly modifies YYTABLE and YYCHECK (and thus
YYPACT) so that in states with unresolved conflicts, the default
reduction is not used in the conflicted entries, so that there is
a place to put a conflict pointer.
This means that YYCONFLP and YYCONFL are nonsense for a non-GLR
parser, so we could avoid accidents by not writing them out in
that case. Nevertheless, it seems even better to be able to use
the GLR skeletons even without the non-deterministic tables. */
muscle_insert_unsigned_int_table ("conflict_list_heads", conflict_table,
conflict_table[0], 1, high + 1);
muscle_insert_unsigned_int_table ("conflicting_rules", conflict_list,
0, 1, conflict_list_cnt);
}
/*---------------------------.
| Call the skeleton parser. |
`---------------------------*/
static void
output_skeleton (void)
{
FILE *in;
FILE *out;
int filter_fd[2];
char const *argv[6];
pid_t pid;
/* Compute the names of the package data dir and skeleton file.
Test whether m4sugar.m4 is readable, to check for proper
installation. A faulty installation can cause deadlock, so a
cheap sanity check is worthwhile. */
char const m4sugar[] = "m4sugar/m4sugar.m4";
char *full_m4sugar;
char *full_cm4;
char *full_skeleton;
char const *p;
char const *m4 = (p = getenv ("M4")) ? p : M4;
char const *pkgdatadir = (p = getenv ("BISON_PKGDATADIR")) ? p : PKGDATADIR;
size_t skeleton_size = strlen (skeleton) + 1;
size_t pkgdatadirlen = strlen (pkgdatadir);
while (pkgdatadirlen && pkgdatadir[pkgdatadirlen - 1] == '/')
pkgdatadirlen--;
full_skeleton = xmalloc (pkgdatadirlen + 1
+ (skeleton_size < sizeof m4sugar
? sizeof m4sugar : skeleton_size));
strcpy (full_skeleton, pkgdatadir);
full_skeleton[pkgdatadirlen] = '/';
strcpy (full_skeleton + pkgdatadirlen + 1, m4sugar);
full_m4sugar = xstrdup (full_skeleton);
strcpy (full_skeleton + pkgdatadirlen + 1, "c.m4");
full_cm4 = xstrdup (full_skeleton);
strcpy (full_skeleton + pkgdatadirlen + 1, skeleton);
xfclose (xfopen (full_m4sugar, "r"));
/* Create an m4 subprocess connected to us via two pipes. */
if (trace_flag & trace_tools)
fprintf (stderr, "running: %s %s - %s %s\n",
m4, full_m4sugar, full_cm4, full_skeleton);
argv[0] = m4;
argv[1] = full_m4sugar;
argv[2] = "-";
argv[3] = full_cm4;
argv[4] = full_skeleton;
argv[5] = NULL;
init_subpipe ();
pid = create_subpipe (argv, filter_fd);
free (full_m4sugar);
free (full_cm4);
free (full_skeleton);
out = fdopen (filter_fd[0], "w");
if (! out)
error (EXIT_FAILURE, get_errno (), "fdopen");
/* Output the definitions of all the muscles. */
fputs ("m4_init()\n", out);
user_actions_output (out);
merger_output (out);
token_definitions_output (out);
symbol_destructors_output (out);
symbol_printers_output (out);
muscles_m4_output (out);
fputs ("m4_wrap([m4_divert_pop(0)])\n", out);
fputs ("m4_divert_push(0)dnl\n", out);
xfclose (out);
/* Read and process m4's output. */
timevar_push (TV_M4);
in = fdopen (filter_fd[1], "r");
if (! in)
error (EXIT_FAILURE, get_errno (), "fdopen");
scan_skel (in);
xfclose (in);
reap_subpipe (pid, m4);
timevar_pop (TV_M4);
}
static void
prepare (void)
{
/* Flags. */
MUSCLE_INSERT_BOOL ("debug", debug_flag);
MUSCLE_INSERT_BOOL ("defines_flag", defines_flag);
MUSCLE_INSERT_BOOL ("error_verbose", error_verbose);
MUSCLE_INSERT_BOOL ("locations_flag", locations_flag);
MUSCLE_INSERT_BOOL ("pure", pure_parser);
MUSCLE_INSERT_BOOL ("synclines_flag", !no_lines_flag);
/* File names. */
MUSCLE_INSERT_STRING ("prefix", spec_name_prefix ? spec_name_prefix : "yy");
/* User Code. */
obstack_1grow (&pre_prologue_obstack, 0);
obstack_1grow (&post_prologue_obstack, 0);
muscle_insert ("pre_prologue", obstack_finish (&pre_prologue_obstack));
muscle_insert ("post_prologue", obstack_finish (&post_prologue_obstack));
/* Find the right skeleton file. */
if (!skeleton)
{
if (glr_parser || nondeterministic_parser)
skeleton = "glr.c";
else
skeleton = "yacc.c";
}
/* Parse the skeleton file and output the needed parsers. */
MUSCLE_INSERT_C_STRING ("skeleton", skeleton);
}
/*----------------------------------------------------------.
| Output the parsing tables and the parser code to ftable. |
`----------------------------------------------------------*/
void
output (void)
{
obstack_init (&format_obstack);
prepare_symbols ();
prepare_rules ();
prepare_states ();
prepare_actions ();
prepare ();
/* Process the selected skeleton file. */
output_skeleton ();
obstack_free (&format_obstack, NULL);
obstack_free (&pre_prologue_obstack, NULL);
obstack_free (&post_prologue_obstack, NULL);
}
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