/* Bison Grammar Parser -*- C -*-
Copyright (C) 2002-2013 Free Software Foundation, Inc.
This file is part of Bison, the GNU Compiler Compiler.
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 . */
%code requires
{
#include "symlist.h"
#include "symtab.h"
}
%code top
{
/* On column 0 to please syntax-check. */
#include
}
%code
{
#include "system.h"
#include "c-ctype.h"
#include "complain.h"
#include "conflicts.h"
#include "files.h"
#include "getargs.h"
#include "gram.h"
#include "named-ref.h"
#include "quotearg.h"
#include "reader.h"
#include "scan-gram.h"
#include "scan-code.h"
#include "xmemdup0.h"
static int current_prec = 0;
static location current_lhs_location;
static named_ref *current_lhs_named_ref;
static symbol *current_lhs_symbol;
static symbol_class current_class = unknown_sym;
static uniqstr current_type = NULL;
/** Set the new current left-hand side symbol, possibly common
* to several right-hand side parts of rule.
*/
static void current_lhs (symbol *sym, location loc, named_ref *ref);
#define YYLLOC_DEFAULT(Current, Rhs, N) \
(Current) = lloc_default (Rhs, N)
static YYLTYPE lloc_default (YYLTYPE const *, int);
#define YY_LOCATION_PRINT(File, Loc) \
location_print (Loc, File)
/* Strip initial '{' and final '}' (must be first and last characters).
Return the result. */
static char *strip_braces (char *code);
/* Convert CODE by calling code_props_plain_init if PLAIN, otherwise
code_props_symbol_action_init. Call
gram_scanner_last_string_free to release the latest string from
the scanner (should be CODE). */
static char const *translate_code (char *code, location loc, bool plain);
/* Convert CODE by calling code_props_plain_init after having
stripped the first and last characters (expected to be '{', and
'}'). Call gram_scanner_last_string_free to release the latest
string from the scanner (should be CODE). */
static char const *translate_code_braceless (char *code, location loc);
static void version_check (location const *loc, char const *version);
static void gram_error (location const *, char const *);
/* A string that describes a char (e.g., 'a' -> "'a'"). */
static char const *char_name (char);
#define YYTYPE_INT16 int_fast16_t
#define YYTYPE_INT8 int_fast8_t
#define YYTYPE_UINT16 uint_fast16_t
#define YYTYPE_UINT8 uint_fast8_t
}
%define api.prefix {gram_}
%define api.pure full
%define locations
%define parse.error verbose
%define parse.lac full
%define parse.trace
%defines
%expect 0
%verbose
%initial-action
{
/* Bison's grammar can initial empty locations, hence a default
location is needed. */
boundary_set (&@$.start, current_file, 1, 1);
boundary_set (&@$.end, current_file, 1, 1);
}
/* Define the tokens together with their human representation. */
%token GRAM_EOF 0 "end of file"
%token STRING "string"
%token PERCENT_TOKEN "%token"
%token PERCENT_NTERM "%nterm"
%token PERCENT_TYPE "%type"
%token PERCENT_DESTRUCTOR "%destructor"
%token PERCENT_PRINTER "%printer"
%token PERCENT_LEFT "%left"
%token PERCENT_RIGHT "%right"
%token PERCENT_NONASSOC "%nonassoc"
%token PERCENT_PRECEDENCE "%precedence"
%token PERCENT_PREC "%prec"
%token PERCENT_DPREC "%dprec"
%token PERCENT_MERGE "%merge"
/*----------------------.
| Global Declarations. |
`----------------------*/
%token
PERCENT_CODE "%code"
PERCENT_DEFAULT_PREC "%default-prec"
PERCENT_DEFINE "%define"
PERCENT_DEFINES "%defines"
PERCENT_ERROR_VERBOSE "%error-verbose"
PERCENT_EXPECT "%expect"
PERCENT_EXPECT_RR "%expect-rr"
PERCENT_FLAG "%"
PERCENT_FILE_PREFIX "%file-prefix"
PERCENT_GLR_PARSER "%glr-parser"
PERCENT_INITIAL_ACTION "%initial-action"
PERCENT_LANGUAGE "%language"
PERCENT_NAME_PREFIX "%name-prefix"
PERCENT_NO_DEFAULT_PREC "%no-default-prec"
PERCENT_NO_LINES "%no-lines"
PERCENT_NONDETERMINISTIC_PARSER
"%nondeterministic-parser"
PERCENT_OUTPUT "%output"
PERCENT_REQUIRE "%require"
PERCENT_SKELETON "%skeleton"
PERCENT_START "%start"
PERCENT_TOKEN_TABLE "%token-table"
PERCENT_VERBOSE "%verbose"
PERCENT_YACC "%yacc"
;
%token BRACED_CODE "{...}"
%token BRACED_PREDICATE "%?{...}"
%token BRACKETED_ID "[identifier]"
%token CHAR "char"
%token EPILOGUE "epilogue"
%token EQUAL "="
%token ID "identifier"
%token ID_COLON "identifier:"
%token PERCENT_PERCENT "%%"
%token PIPE "|"
%token PROLOGUE "%{...%}"
%token SEMICOLON ";"
%token TAG ""
%token TAG_ANY "<*>"
%token TAG_NONE "<>"
%union {unsigned char character;}
%type CHAR
%printer { fputs (char_name ($$), yyo); } CHAR
%union {char *code;};
%type "{...}" "%?{...}" "%{...%}" EPILOGUE STRING
%printer { fputs (quotearg_style (c_quoting_style, $$), yyo); } STRING
%printer { fprintf (yyo, "{\n%s\n}", $$); }
%union {uniqstr uniqstr;}
%type BRACKETED_ID ID ID_COLON PERCENT_FLAG TAG tag variable
%printer { fputs ($$, yyo); }
%printer { fprintf (yyo, "[%s]", $$); } BRACKETED_ID
%printer { fprintf (yyo, "%s:", $$); } ID_COLON
%printer { fprintf (yyo, "%%%s", $$); } PERCENT_FLAG
%printer { fprintf (yyo, "<%s>", $$); } TAG tag
%union {int integer;};
%token INT "integer"
%printer { fprintf (yyo, "%d", $$); }
%union {symbol *symbol;}
%type id id_colon string_as_id symbol symbol.prec
%printer { fprintf (yyo, "%s", $$->tag); }
%printer { fprintf (yyo, "%s:", $$->tag); } id_colon
%union {assoc assoc;};
%type precedence_declarator
%union {symbol_list *list;}
%type symbols.1 symbols.prec generic_symlist generic_symlist_item
%union {named_ref *named_ref;}
%type named_ref.opt
/*---------.
| %param. |
`---------*/
%code requires
{
typedef enum
{
param_none = 0,
param_lex = 1 << 0,
param_parse = 1 << 1,
param_both = param_lex | param_parse
} param_type;
};
%code
{
/** Add a lex-param and/or a parse-param.
*
* \param type where to push this formal argument.
* \param decl the formal argument. Destroyed.
* \param loc the location in the source.
*/
static void add_param (param_type type, char *decl, location loc);
static param_type current_param = param_none;
};
%union {param_type param;}
%token PERCENT_PARAM "%param";
%printer
{
switch ($$)
{
#define CASE(In, Out) \
case param_ ## In: fputs ("%" #Out, yyo); break
CASE (lex, lex-param);
CASE (parse, parse-param);
CASE (both, param);
#undef CASE
case param_none: aver (false); break;
}
} ;
/*==========\
| Grammar. |
\==========*/
%%
input:
prologue_declarations "%%" grammar epilogue.opt
;
/*------------------------------------.
| Declarations: before the first %%. |
`------------------------------------*/
prologue_declarations:
%empty
| prologue_declarations prologue_declaration
;
prologue_declaration:
grammar_declaration
| "%{...%}"
{
muscle_code_grow (union_seen ? "post_prologue" : "pre_prologue",
translate_code ($1, @1, true), @1);
code_scanner_last_string_free ();
}
| "%"
{
muscle_percent_define_ensure ($1, @1, true);
}
| "%define" variable value
{
muscle_percent_define_insert ($2, @2, $3.kind, $3.chars,
MUSCLE_PERCENT_DEFINE_GRAMMAR_FILE);
}
| "%defines" { defines_flag = true; }
| "%defines" STRING
{
defines_flag = true;
spec_defines_file = xstrdup ($2);
}
| "%error-verbose"
{
muscle_percent_define_insert ("parse.error", @1, muscle_keyword,
"verbose",
MUSCLE_PERCENT_DEFINE_GRAMMAR_FILE);
}
| "%expect" INT { expected_sr_conflicts = $2; }
| "%expect-rr" INT { expected_rr_conflicts = $2; }
| "%file-prefix" STRING { spec_file_prefix = $2; }
| "%glr-parser"
{
nondeterministic_parser = true;
glr_parser = true;
}
| "%initial-action" "{...}"
{
muscle_code_grow ("initial_action", translate_code ($2, @2, false), @2);
code_scanner_last_string_free ();
}
| "%language" STRING { language_argmatch ($2, grammar_prio, @1); }
| "%name-prefix" STRING { spec_name_prefix = $2; }
| "%no-lines" { no_lines_flag = true; }
| "%nondeterministic-parser" { nondeterministic_parser = true; }
| "%output" STRING { spec_outfile = $2; }
| "%param" { current_param = $1; } params { current_param = param_none; }
| "%require" STRING { version_check (&@2, $2); }
| "%skeleton" STRING
{
char const *skeleton_user = $2;
if (strchr (skeleton_user, '/'))
{
size_t dir_length = strlen (current_file);
char *skeleton_build;
while (dir_length && current_file[dir_length - 1] != '/')
--dir_length;
while (dir_length && current_file[dir_length - 1] == '/')
--dir_length;
skeleton_build =
xmalloc (dir_length + 1 + strlen (skeleton_user) + 1);
if (dir_length > 0)
{
memcpy (skeleton_build, current_file, dir_length);
skeleton_build[dir_length++] = '/';
}
strcpy (skeleton_build + dir_length, skeleton_user);
skeleton_user = uniqstr_new (skeleton_build);
free (skeleton_build);
}
skeleton_arg (skeleton_user, grammar_prio, @1);
}
| "%token-table" { token_table_flag = true; }
| "%verbose" { report_flag |= report_states; }
| "%yacc" { yacc_flag = true; }
| /*FIXME: Err? What is this horror doing here? */ ";"
;
params:
params "{...}" { add_param (current_param, $2, @2); }
| "{...}" { add_param (current_param, $1, @1); }
;
/*----------------------.
| grammar_declaration. |
`----------------------*/
grammar_declaration:
precedence_declaration
| symbol_declaration
| "%start" symbol
{
grammar_start_symbol_set ($2, @2);
}
| code_props_type "{...}" generic_symlist
{
code_props code;
code_props_symbol_action_init (&code, $2, @2);
code_props_translate_code (&code);
{
symbol_list *list;
for (list = $3; list; list = list->next)
symbol_list_code_props_set (list, $1, &code);
symbol_list_free ($3);
}
}
| "%default-prec"
{
default_prec = true;
}
| "%no-default-prec"
{
default_prec = false;
}
| "%code" "{...}"
{
/* Do not invoke muscle_percent_code_grow here since it invokes
muscle_user_name_list_grow. */
muscle_code_grow ("percent_code()",
translate_code_braceless ($2, @2), @2);
code_scanner_last_string_free ();
}
| "%code" ID "{...}"
{
muscle_percent_code_grow ($2, @2, translate_code_braceless ($3, @3), @3);
code_scanner_last_string_free ();
}
;
%type code_props_type;
%union {code_props_type code_type;};
%printer { fprintf (yyo, "%s", code_props_type_string ($$)); } ;
code_props_type:
"%destructor" { $$ = destructor; }
| "%printer" { $$ = printer; }
;
/*---------.
| %union. |
`---------*/
%token PERCENT_UNION "%union";
union_name:
%empty {}
| ID { muscle_code_grow ("union_name", $1, @1); }
;
grammar_declaration:
"%union" union_name "{...}"
{
union_seen = true;
muscle_code_grow ("union_members", translate_code_braceless ($3, @3), @3);
code_scanner_last_string_free ();
}
;
symbol_declaration:
"%nterm" { current_class = nterm_sym; } symbol_defs.1
{
current_class = unknown_sym;
current_type = NULL;
}
| "%token" { current_class = token_sym; } symbol_defs.1
{
current_class = unknown_sym;
current_type = NULL;
}
| "%type" TAG symbols.1
{
symbol_list *list;
tag_seen = true;
for (list = $3; list; list = list->next)
symbol_type_set (list->content.sym, $2, @2);
symbol_list_free ($3);
}
;
precedence_declaration:
precedence_declarator tag.opt symbols.prec
{
symbol_list *list;
++current_prec;
for (list = $3; list; list = list->next)
{
symbol_type_set (list->content.sym, current_type, @2);
symbol_precedence_set (list->content.sym, current_prec, $1, @1);
}
symbol_list_free ($3);
current_type = NULL;
}
;
precedence_declarator:
"%left" { $$ = left_assoc; }
| "%right" { $$ = right_assoc; }
| "%nonassoc" { $$ = non_assoc; }
| "%precedence" { $$ = precedence_assoc; }
;
tag.opt:
%empty { current_type = NULL; }
| TAG { current_type = $1; tag_seen = true; }
;
/* Just like symbols.1 but accept INT for the sake of POSIX. */
symbols.prec:
symbol.prec
{ $$ = symbol_list_sym_new ($1, @1); }
| symbols.prec symbol.prec
{ $$ = symbol_list_append ($1, symbol_list_sym_new ($2, @2)); }
;
symbol.prec:
symbol
{
$$ = $1;
symbol_class_set ($1, token_sym, @1, false);
}
| symbol INT
{
$$ = $1;
symbol_user_token_number_set ($1, $2, @2);
symbol_class_set ($1, token_sym, @1, false);
}
;
/* One or more symbols to be %typed. */
symbols.1:
symbol
{ $$ = symbol_list_sym_new ($1, @1); }
| symbols.1 symbol
{ $$ = symbol_list_append ($1, symbol_list_sym_new ($2, @2)); }
;
generic_symlist:
generic_symlist_item { $$ = $1; }
| generic_symlist generic_symlist_item { $$ = symbol_list_append ($1, $2); }
;
generic_symlist_item:
symbol { $$ = symbol_list_sym_new ($1, @1); }
| tag { $$ = symbol_list_type_new ($1, @1); }
;
tag:
TAG
| "<*>" { $$ = uniqstr_new ("*"); }
| "<>" { $$ = uniqstr_new (""); }
;
/* One token definition. */
symbol_def:
TAG
{
current_type = $1;
tag_seen = true;
}
| id
{
symbol_class_set ($1, current_class, @1, true);
symbol_type_set ($1, current_type, @1);
}
| id INT
{
symbol_class_set ($1, current_class, @1, true);
symbol_type_set ($1, current_type, @1);
symbol_user_token_number_set ($1, $2, @2);
}
| id string_as_id
{
symbol_class_set ($1, current_class, @1, true);
symbol_type_set ($1, current_type, @1);
symbol_make_alias ($1, $2, @$);
}
| id INT string_as_id
{
symbol_class_set ($1, current_class, @1, true);
symbol_type_set ($1, current_type, @1);
symbol_user_token_number_set ($1, $2, @2);
symbol_make_alias ($1, $3, @$);
}
;
/* One or more symbol definitions. */
symbol_defs.1:
symbol_def
| symbol_defs.1 symbol_def
;
/*------------------------------------------.
| The grammar section: between the two %%. |
`------------------------------------------*/
grammar:
rules_or_grammar_declaration
| grammar rules_or_grammar_declaration
;
/* As a Bison extension, one can use the grammar declarations in the
body of the grammar. */
rules_or_grammar_declaration:
rules
| grammar_declaration ";"
| error ";"
{
yyerrok;
}
;
rules:
id_colon named_ref.opt { current_lhs ($1, @1, $2); } rhses.1
{
/* Free the current lhs. */
current_lhs (0, @1, 0);
}
;
rhses.1:
rhs { grammar_current_rule_end (@1); }
| rhses.1 "|" rhs { grammar_current_rule_end (@3); }
| rhses.1 ";"
;
%token PERCENT_EMPTY "%empty";
rhs:
%empty
{ grammar_current_rule_begin (current_lhs_symbol, current_lhs_location,
current_lhs_named_ref); }
| rhs symbol named_ref.opt
{ grammar_current_rule_symbol_append ($2, @2, $3); }
| rhs "{...}" named_ref.opt
{ grammar_current_rule_action_append ($2, @2, $3, false); }
| rhs "%?{...}"
{ grammar_current_rule_action_append ($2, @2, NULL, true); }
| rhs "%empty"
{ grammar_current_rule_empty_set (@2); }
| rhs "%prec" symbol
{ grammar_current_rule_prec_set ($3, @3); }
| rhs "%dprec" INT
{ grammar_current_rule_dprec_set ($3, @3); }
| rhs "%merge" TAG
{ grammar_current_rule_merge_set ($3, @3); }
;
named_ref.opt:
%empty { $$ = 0; }
| BRACKETED_ID { $$ = named_ref_new ($1, @1); }
;
/*---------------------.
| variable and value. |
`---------------------*/
/* The STRING form of variable is deprecated and is not M4-friendly.
For example, M4 fails for '%define "[" "value"'. */
variable:
ID
| STRING { $$ = uniqstr_new ($1); }
;
/* Some content or empty by default. */
%code requires {#include "muscle-tab.h"};
%union
{
struct
{
char const *chars;
muscle_kind kind;
} value;
};
%type value;
%printer
{
switch ($$.kind)
{
case muscle_code: fprintf (yyo, "{%s}", $$.chars); break;
case muscle_keyword: fprintf (yyo, "%s", $$.chars); break;
case muscle_string: fprintf (yyo, "\"%s\"", $$.chars); break;
}
} ;
value:
%empty { $$.kind = muscle_keyword; $$.chars = ""; }
| ID { $$.kind = muscle_keyword; $$.chars = $1; }
| STRING { $$.kind = muscle_string; $$.chars = $1; }
| "{...}" { $$.kind = muscle_code; $$.chars = strip_braces ($1); }
;
/*--------------.
| Identifiers. |
`--------------*/
/* Identifiers are returned as uniqstr values by the scanner.
Depending on their use, we may need to make them genuine symbols. */
id:
ID
{ $$ = symbol_from_uniqstr ($1, @1); }
| CHAR
{
$$ = symbol_get (char_name ($1), @1);
symbol_class_set ($$, token_sym, @1, false);
symbol_user_token_number_set ($$, $1, @1);
}
;
id_colon:
ID_COLON { $$ = symbol_from_uniqstr ($1, @1); }
;
symbol:
id
| string_as_id
;
/* A string used as an ID: quote it. */
string_as_id:
STRING
{
$$ = symbol_get (quotearg_style (c_quoting_style, $1), @1);
symbol_class_set ($$, token_sym, @1, false);
}
;
epilogue.opt:
%empty
| "%%" EPILOGUE
{
muscle_code_grow ("epilogue", translate_code ($2, @2, true), @2);
code_scanner_last_string_free ();
}
;
%%
/* Return the location of the left-hand side of a rule whose
right-hand side is RHS[1] ... RHS[N]. Ignore empty nonterminals in
the right-hand side, and return an empty location equal to the end
boundary of RHS[0] if the right-hand side is empty. */
static YYLTYPE
lloc_default (YYLTYPE const *rhs, int n)
{
int i;
YYLTYPE loc;
/* SGI MIPSpro 7.4.1m miscompiles "loc.start = loc.end = rhs[n].end;".
The bug is fixed in 7.4.2m, but play it safe for now. */
loc.start = rhs[n].end;
loc.end = rhs[n].end;
/* Ignore empty nonterminals the start of the right-hand side.
Do not bother to ignore them at the end of the right-hand side,
since empty nonterminals have the same end as their predecessors. */
for (i = 1; i <= n; i++)
if (! equal_boundaries (rhs[i].start, rhs[i].end))
{
loc.start = rhs[i].start;
break;
}
return loc;
}
static
char *strip_braces (char *code)
{
code[strlen (code) - 1] = 0;
return code + 1;
}
static
char const *
translate_code (char *code, location loc, bool plain)
{
code_props plain_code;
if (plain)
code_props_plain_init (&plain_code, code, loc);
else
code_props_symbol_action_init (&plain_code, code, loc);
code_props_translate_code (&plain_code);
gram_scanner_last_string_free ();
return plain_code.code;
}
static
char const *
translate_code_braceless (char *code, location loc)
{
return translate_code (strip_braces (code), loc, true);
}
static void
add_param (param_type type, char *decl, location loc)
{
static char const alphanum[26 + 26 + 1 + 10] =
"abcdefghijklmnopqrstuvwxyz"
"ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"_"
"0123456789";
char const *name_start = NULL;
{
char *p;
/* Stop on last actual character. */
for (p = decl; p[1]; p++)
if ((p == decl
|| ! memchr (alphanum, p[-1], sizeof alphanum))
&& memchr (alphanum, p[0], sizeof alphanum - 10))
name_start = p;
/* Strip the surrounding '{' and '}', and any blanks just inside
the braces. */
--p;
while (c_isspace ((unsigned char) *p))
--p;
p[1] = '\0';
++decl;
while (c_isspace ((unsigned char) *decl))
++decl;
}
if (! name_start)
complain (&loc, complaint, _("missing identifier in parameter declaration"));
else
{
char *name = xmemdup0 (name_start, strspn (name_start, alphanum));
if (type & param_lex)
muscle_pair_list_grow ("lex_param", decl, name);
if (type & param_parse)
muscle_pair_list_grow ("parse_param", decl, name);
free (name);
}
gram_scanner_last_string_free ();
}
static void
version_check (location const *loc, char const *version)
{
if (strverscmp (version, PACKAGE_VERSION) > 0)
{
complain (loc, complaint, "require bison %s, but have %s",
version, PACKAGE_VERSION);
exit (EX_MISMATCH);
}
}
static void
gram_error (location const *loc, char const *msg)
{
complain (loc, complaint, "%s", msg);
}
char const *
token_name (int type)
{
return yytname[YYTRANSLATE (type)];
}
static char const *
char_name (char c)
{
if (c == '\'')
return "'\\''";
else
{
char buf[4];
buf[0] = '\''; buf[1] = c; buf[2] = '\''; buf[3] = '\0';
return quotearg_style (escape_quoting_style, buf);
}
}
static
void
current_lhs (symbol *sym, location loc, named_ref *ref)
{
current_lhs_symbol = sym;
current_lhs_location = loc;
/* In order to simplify memory management, named references for lhs
are always assigned by deep copy into the current symbol_list
node. This is because a single named-ref in the grammar may
result in several uses when the user factors lhs between several
rules using "|". Therefore free the parser's original copy. */
free (current_lhs_named_ref);
current_lhs_named_ref = ref;
}