tests/actions.at - platform/external/bison - Git at Google

 # Executing Actions.                               -*- Autotest -*-
 # Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006 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 2, 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, write to the Free Software
 # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
 # 02110-1301, USA.

 AT_BANNER([[User Actions.]])

 ## ------------------ ##
 ## Mid-rule actions.  ##
 ## ------------------ ##

 AT_SETUP([Mid-rule actions])

 # Bison once forgot the mid-rule actions.  It was because the action
 # was attached to the host rule (the one with the mid-rule action),
 # instead of being attached to the empty rule dedicated to this
 # action.

 AT_DATA_GRAMMAR([[input.y]],
 [[%error-verbose
 %debug
 %{
 # include <stdio.h>
 # include <stdlib.h>
   static void yyerror (const char *msg);
   static int yylex (void);
 %}
 %%
 exp:     { putchar ('0'); }
      '1' { putchar ('1'); }
      '2' { putchar ('2'); }
      '3' { putchar ('3'); }
      '4' { putchar ('4'); }
      '5' { putchar ('5'); }
      '6' { putchar ('6'); }
      '7' { putchar ('7'); }
      '8' { putchar ('8'); }
      '9' { putchar ('9'); }
          { putchar ('\n'); }
    ;
 %%
 static int
 yylex (void)
 {
   static const char *input = "123456789";
   return *input++;
 }

 static void
 yyerror (const char *msg)
 {
   fprintf (stderr, "%s\n", msg);
 }

 int
 main (void)
 {
   return yyparse ();
 }
 ]])

 AT_CHECK([bison -d -v -o input.c input.y])
 AT_COMPILE([input])
 AT_PARSER_CHECK([./input], 0,
 [[0123456789
 ]])

 AT_CLEANUP


 ## ---------------- ##
 ## Exotic Dollars.  ##
 ## ---------------- ##

 AT_SETUP([Exotic Dollars])

 AT_DATA_GRAMMAR([[input.y]],
 [[%error-verbose
 %debug
 %{
 # include <stdio.h>
 # include <stdlib.h>
   static void yyerror (const char *msg);
   static int yylex (void);
 # define USE(Var)
 %}

 %union
 {
   int val;
 };

 %type <val> a_1 a_2 a_5
             sum_of_the_five_previous_values

 %%
 exp: a_1 a_2 { $<val>$ = 3; } { $<val>$ = $<val>3 + 1; } a_5
      sum_of_the_five_previous_values
     {
        USE (($1, $2, $<foo>3, $<foo>4, $5));
        printf ("%d\n", $6);
     }
 ;
 a_1: { $$ = 1; };
 a_2: { $$ = 2; };
 a_5: { $$ = 5; };

 sum_of_the_five_previous_values:
     {
        $$ = $<val>0 + $<val>-1 + $<val>-2 + $<val>-3 + $<val>-4;
     }
 ;

 %%
 static int
 yylex (void)
 {
   return EOF;
 }

 static void
 yyerror (const char *msg)
 {
   fprintf (stderr, "%s\n", msg);
 }

 int
 main (void)
 {
   return yyparse ();
 }
 ]])

 AT_CHECK([bison -d -v -o input.c input.y], 0)
 AT_COMPILE([input])
 AT_PARSER_CHECK([./input], 0,
 [[15
 ]])

 AT_CLEANUP


 ## -------------------------- ##
 ## Printers and Destructors.  ##
 ## -------------------------- ##

 # _AT_CHECK_PRINTER_AND_DESTRUCTOR($1, $2, $3, $4, BISON-DIRECTIVE, UNION-FLAG)
 # -----------------------------------------------------------------------------
 m4_define([_AT_CHECK_PRINTER_AND_DESTRUCTOR],
 [# Make sure complex $n work.
 m4_if([$1$2$3], $[1]$[2]$[3], [],
        [m4_fatal([$0: Invalid arguments: $@])])dnl

 # Be sure to pass all the %directives to this macro to have correct
 # helping macros.  So don't put any directly in the Bison file.
 AT_BISON_OPTION_PUSHDEFS([$5])
 AT_DATA_GRAMMAR([[input.y]],
 [[%{
 #include <stdio.h>
 #include <stdlib.h>
 #include <assert.h>

 #define YYINITDEPTH 10
 #define YYMAXDEPTH 10
 ]AT_LALR1_CC_IF(
   [#define RANGE(Location) (Location).begin.line, (Location).end.line],
   [#define RANGE(Location) (Location).first_line, (Location).last_line])
 [%}

 $5]
 m4_ifval([$6], [%union
 {
   int ival;
 }])
 AT_LALR1_CC_IF([%define "global_tokens_and_yystype"])
 [
 %{
 ]AT_LALR1_CC_IF([typedef yy::location YYLTYPE;
                 m4_ifval([$6], , [#define YYSTYPE int])])
 [static int yylex (]AT_LEX_FORMALS[);
 ]AT_LALR1_CC_IF([], [static void yyerror (const char *msg);])
 [%}

 ]m4_ifval([$6], [%type <ival> '(' 'x' 'y' ')' ';' thing line input])[

 %printer
   {
     ]AT_LALR1_CC_IF([debug_stream () << $$;],
                     [fprintf (yyoutput, "%d", $$)])[;
   }
   input line thing 'x' 'y'

 %destructor
   { printf ("Freeing nterm input (%d@%d-%d)\n", $$, RANGE (@$)); }
   input

 %destructor
   { printf ("Freeing nterm line (%d@%d-%d)\n", $$, RANGE (@$)); }
   line

 %destructor
   { printf ("Freeing nterm thing (%d@%d-%d)\n", $$, RANGE (@$)); }
   thing

 %destructor
   { printf ("Freeing token 'x' (%d@%d-%d)\n", $$, RANGE (@$)); }
   'x'

 %destructor
   { printf ("Freeing token 'y' (%d@%d-%d)\n", $$, RANGE (@$)); }
   'y'

 %%
 /*
    This grammar is made to exercise error recovery.
    "Lines" starting with `(' support error recovery, with
    ')' as synchronizing token.  Lines starting with 'x' can never
    be recovered from if in error.
 */

 input:
   /* Nothing. */
     {
       $$ = 0;
       printf ("input (%d@%d-%d): /* Nothing */\n", $$, RANGE (@$));
     }
 | line input /* Right recursive to load the stack so that popping at
 		EOF can	be exercised.  */
     {
       $$ = 2;
       printf ("input (%d@%d-%d): line (%d@%d-%d) input (%d@%d-%d)\n",
 	      $$, RANGE (@$), $1, RANGE (@1), $2, RANGE (@2));
     }
 ;

 line:
   thing thing thing ';'
     {
       $$ = $1;
       printf ("line (%d@%d-%d): thing (%d@%d-%d) thing (%d@%d-%d) thing (%d@%d-%d) ';' (%d@%d-%d)\n",
               $$, RANGE (@$), $1, RANGE (@1), $2, RANGE (@2),
               $3, RANGE (@3), $4, RANGE (@4));
     }
 | '(' thing thing ')'
     {
       $$ = $1;
       printf ("line (%d@%d-%d): '(' (%d@%d-%d) thing (%d@%d-%d) thing (%d@%d-%d) ')' (%d@%d-%d)\n",
               $$, RANGE (@$), $1, RANGE (@1), $2, RANGE (@2),
               $3, RANGE (@3), $4, RANGE (@4));
     }
 | '(' thing ')'
     {
       $$ = $1;
       printf ("line (%d@%d-%d): '(' (%d@%d-%d) thing (%d@%d-%d) ')' (%d@%d-%d)\n",
               $$, RANGE (@$), $1, RANGE (@1), $2, RANGE (@2), $3, RANGE (@3));
     }
 | '(' error ')'
     {
       $$ = -1;
       printf ("line (%d@%d-%d): '(' (%d@%d-%d) error (@%d-%d) ')' (%d@%d-%d)\n",
               $$, RANGE (@$), $1, RANGE (@1), RANGE (@2), $3, RANGE (@3));
     }
 ;

 thing:
   'x'
     {
       $$ = $1;
       printf ("thing (%d@%d-%d): 'x' (%d@%d-%d)\n",
               $$, RANGE (@$), $1, RANGE (@1));
     }
 ;
 %%
 /* Alias to ARGV[1]. */
 const char *source = 0;

 static int
 yylex (]AT_LEX_FORMALS[)
 {
   static unsigned int counter = 0;

   int c = ]AT_VAL[]m4_ifval([$6], [.ival])[ = counter++;
   /* As in BASIC, line numbers go from 10 to 10.  */
 ]AT_LALR1_CC_IF(
 [ AT_LOC.begin.line = AT_LOC.begin.column = 10 * c;
   AT_LOC.end.line = AT_LOC.end.column = AT_LOC.begin.line + 9;
 ],
 [ AT_LOC.first_line = AT_LOC.first_column = 10 * c;
   AT_LOC.last_line = AT_LOC.last_column = AT_LOC.first_line + 9;
 ])[

   if (source[c])
     printf ("sending: '%c'", source[c]);
   else
     printf ("sending: EOF");
   printf (" (%d@%d-%d)\n", c, RANGE (]AT_LOC[));
   return source[c];
 }

 ]AT_LALR1_CC_IF(
 [/* A C++ error reporting function. */
 void
 yy::parser::error (const location& l, const std::string& m)
 {
   printf ("%d-%d: %s\n", RANGE (l), m.c_str());
 }

 static bool yydebug;
 int
 yyparse ()
 {
   yy::parser parser;
   parser.set_debug_level (yydebug);
   return parser.parse ();
 }
 ],
 [static void
 yyerror (const char *msg)
 {
   printf ("%d-%d: %s\n", RANGE (yylloc), msg);
 }])[

 int
 main (int argc, const char *argv[])
 {
   int status;
   yydebug = !!getenv ("YYDEBUG");
   assert (argc == 2);
   source = argv[1];
   status = yyparse ();
   switch (status)
     {
       case 0: printf ("Successful parse.\n"); break;
       case 1: printf ("Parsing FAILED.\n"); break;
       default: printf ("Parsing FAILED (status %d).\n", status); break;
     }
   return status;
 }
 ]])

 AT_LALR1_CC_IF(
   [AT_CHECK([bison -o input.cc input.y])
    AT_COMPILE_CXX([input])],
   [AT_CHECK([bison -o input.c input.y])
    AT_COMPILE([input])])


 # Check the location of "empty"
 # -----------------------------
 # I.e., epsilon-reductions, as in "(x)" which ends by reducing
 # an empty "line" nterm.
 # FIXME: This location is not satisfying.  Depend on the lookahead?
 AT_PARSER_CHECK([./input '(x)'], 0,
 [[sending: '(' (0@0-9)
 sending: 'x' (1@10-19)
 thing (1@10-19): 'x' (1@10-19)
 sending: ')' (2@20-29)
 line (0@0-29): '(' (0@0-9) thing (1@10-19) ')' (2@20-29)
 sending: EOF (3@30-39)
 input (0@29-29): /* Nothing */
 input (2@0-29): line (0@0-29) input (0@29-29)
 Freeing nterm input (2@0-29)
 Successful parse.
 ]])


 # Check locations in error recovery
 # ---------------------------------
 # '(y)' is an error, but can be recovered from.  But what's the location
 # of the error itself ('y'), and of the resulting reduction ('(error)').
 AT_PARSER_CHECK([./input '(y)'], 0,
 [[sending: '(' (0@0-9)
 sending: 'y' (1@10-19)
 10-19: syntax error, unexpected 'y', expecting 'x'
 Freeing token 'y' (1@10-19)
 sending: ')' (2@20-29)
 line (-1@0-29): '(' (0@0-9) error (@10-19) ')' (2@20-29)
 sending: EOF (3@30-39)
 input (0@29-29): /* Nothing */
 input (2@0-29): line (-1@0-29) input (0@29-29)
 Freeing nterm input (2@0-29)
 Successful parse.
 ]])


 # Syntax errors caught by the parser
 # ----------------------------------
 # Exercise the discarding of stack top and input until `error'
 # can be reduced.
 #
 #     '(', 'x', 'x', 'x', 'x', 'x', ')',
 #
 # Load the stack and provoke an error that cannot be caught by the
 # grammar, to check that the stack is cleared.  And make sure the
 # lookahead is freed.
 #
 #     '(', 'x', ')',
 #     '(', 'x', ')',
 #     'y'
 AT_PARSER_CHECK([./input '(xxxxx)(x)(x)y'], 1,
 [[sending: '(' (0@0-9)
 sending: 'x' (1@10-19)
 thing (1@10-19): 'x' (1@10-19)
 sending: 'x' (2@20-29)
 thing (2@20-29): 'x' (2@20-29)
 sending: 'x' (3@30-39)
 30-39: syntax error, unexpected 'x', expecting ')'
 Freeing nterm thing (2@20-29)
 Freeing nterm thing (1@10-19)
 Freeing token 'x' (3@30-39)
 sending: 'x' (4@40-49)
 Freeing token 'x' (4@40-49)
 sending: 'x' (5@50-59)
 Freeing token 'x' (5@50-59)
 sending: ')' (6@60-69)
 line (-1@0-69): '(' (0@0-9) error (@10-59) ')' (6@60-69)
 sending: '(' (7@70-79)
 sending: 'x' (8@80-89)
 thing (8@80-89): 'x' (8@80-89)
 sending: ')' (9@90-99)
 line (7@70-99): '(' (7@70-79) thing (8@80-89) ')' (9@90-99)
 sending: '(' (10@100-109)
 sending: 'x' (11@110-119)
 thing (11@110-119): 'x' (11@110-119)
 sending: ')' (12@120-129)
 line (10@100-129): '(' (10@100-109) thing (11@110-119) ')' (12@120-129)
 sending: 'y' (13@130-139)
 input (0@129-129): /* Nothing */
 input (2@100-129): line (10@100-129) input (0@129-129)
 input (2@70-129): line (7@70-99) input (2@100-129)
 input (2@0-129): line (-1@0-69) input (2@70-129)
 130-139: syntax error, unexpected 'y', expecting $end
 Freeing nterm input (2@0-129)
 Freeing token 'y' (13@130-139)
 Parsing FAILED.
 ]])

 # Check destruction upon stack overflow
 # -------------------------------------
 # Upon stack overflow, all symbols on the stack should be destroyed.
 # Only check for yacc.c.
 AT_YACC_IF([
 AT_PARSER_CHECK([./input '(x)(x)(x)(x)(x)(x)(x)'], 2,
 [[sending: '(' (0@0-9)
 sending: 'x' (1@10-19)
 thing (1@10-19): 'x' (1@10-19)
 sending: ')' (2@20-29)
 line (0@0-29): '(' (0@0-9) thing (1@10-19) ')' (2@20-29)
 sending: '(' (3@30-39)
 sending: 'x' (4@40-49)
 thing (4@40-49): 'x' (4@40-49)
 sending: ')' (5@50-59)
 line (3@30-59): '(' (3@30-39) thing (4@40-49) ')' (5@50-59)
 sending: '(' (6@60-69)
 sending: 'x' (7@70-79)
 thing (7@70-79): 'x' (7@70-79)
 sending: ')' (8@80-89)
 line (6@60-89): '(' (6@60-69) thing (7@70-79) ')' (8@80-89)
 sending: '(' (9@90-99)
 sending: 'x' (10@100-109)
 thing (10@100-109): 'x' (10@100-109)
 sending: ')' (11@110-119)
 line (9@90-119): '(' (9@90-99) thing (10@100-109) ')' (11@110-119)
 sending: '(' (12@120-129)
 sending: 'x' (13@130-139)
 thing (13@130-139): 'x' (13@130-139)
 sending: ')' (14@140-149)
 line (12@120-149): '(' (12@120-129) thing (13@130-139) ')' (14@140-149)
 sending: '(' (15@150-159)
 sending: 'x' (16@160-169)
 thing (16@160-169): 'x' (16@160-169)
 sending: ')' (17@170-179)
 line (15@150-179): '(' (15@150-159) thing (16@160-169) ')' (17@170-179)
 sending: '(' (18@180-189)
 sending: 'x' (19@190-199)
 thing (19@190-199): 'x' (19@190-199)
 sending: ')' (20@200-209)
 200-209: memory exhausted
 Freeing nterm thing (19@190-199)
 Freeing nterm line (15@150-179)
 Freeing nterm line (12@120-149)
 Freeing nterm line (9@90-119)
 Freeing nterm line (6@60-89)
 Freeing nterm line (3@30-59)
 Freeing nterm line (0@0-29)
 Parsing FAILED (status 2).
 ]])
 ])

 ])


 # AT_CHECK_PRINTER_AND_DESTRUCTOR([BISON-OPTIONS], [UNION-FLAG], [SKIP_FLAG])
 # ---------------------------------------------------------------------------
 m4_define([AT_CHECK_PRINTER_AND_DESTRUCTOR],
 [AT_SETUP([Printers and Destructors $2: $1])

 $3
 _AT_CHECK_PRINTER_AND_DESTRUCTOR($[1], $[2], $[3], $[4],
 [%error-verbose
 %debug
 %verbose
 %locations
 $1], [$2])

 AT_CLEANUP
 ])


 AT_CHECK_PRINTER_AND_DESTRUCTOR([])
 AT_CHECK_PRINTER_AND_DESTRUCTOR([], [with union])

 # These tests currently fail on a Debian GNU/Linux 3.0r2 x86 host,
 # but the 2nd test succeeds on a Solaris 9 sparc hosts (Forte 7 cc).
 # Skip them until we figure out what the problem is.
 AT_CHECK_PRINTER_AND_DESTRUCTOR([%defines %skeleton "lalr1.cc"])
 AT_CHECK_PRINTER_AND_DESTRUCTOR([%defines %skeleton "lalr1.cc"], [with union])

 AT_CHECK_PRINTER_AND_DESTRUCTOR([%glr-parser])
 AT_CHECK_PRINTER_AND_DESTRUCTOR([%glr-parser], [with union])
	# Executing Actions. -- Autotest --
	# Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006 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 2, 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, write to the Free Software
	# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
	# 02110-1301, USA.

	AT_BANNER([[User Actions.]])

	## ------------------ ##
	## Mid-rule actions. ##
	## ------------------ ##

	AT_SETUP([Mid-rule actions])

	# Bison once forgot the mid-rule actions. It was because the action
	# was attached to the host rule (the one with the mid-rule action),
	# instead of being attached to the empty rule dedicated to this
	# action.

	AT_DATA_GRAMMAR([[input.y]],
	[[%error-verbose
	%debug
	%{
	# include <stdio.h>
	# include <stdlib.h>
	static void yyerror (const char *msg);
	static int yylex (void);
	%}
	%%
	exp: { putchar ('0'); }
	'1' { putchar ('1'); }
	'2' { putchar ('2'); }
	'3' { putchar ('3'); }
	'4' { putchar ('4'); }
	'5' { putchar ('5'); }
	'6' { putchar ('6'); }
	'7' { putchar ('7'); }
	'8' { putchar ('8'); }
	'9' { putchar ('9'); }
	{ putchar ('\n'); }
	;
	%%
	static int
	yylex (void)
	{
	static const char *input = "123456789";
	return *input++;
	}

	static void
	yyerror (const char *msg)
	{
	fprintf (stderr, "%s\n", msg);
	}

	int
	main (void)
	{
	return yyparse ();
	}
	]])

	AT_CHECK([bison -d -v -o input.c input.y])
	AT_COMPILE([input])
	AT_PARSER_CHECK([./input], 0,
	[[0123456789
	]])

	AT_CLEANUP





	## ---------------- ##
	## Exotic Dollars. ##
	## ---------------- ##

	AT_SETUP([Exotic Dollars])

	AT_DATA_GRAMMAR([[input.y]],
	[[%error-verbose
	%debug
	%{
	# include <stdio.h>
	# include <stdlib.h>
	static void yyerror (const char *msg);
	static int yylex (void);
	# define USE(Var)
	%}

	%union
	{
	int val;
	};

	%type <val> a_1 a_2 a_5
	sum_of_the_five_previous_values

	%%
	exp: a_1 a_2 { $<val>$ = 3; } { $<val>$ = $<val>3 + 1; } a_5
	sum_of_the_five_previous_values
	{
	USE (($1, $2, $<foo>3, $<foo>4, $5));
	printf ("%d\n", $6);
	}
	;
	a_1: { $$ = 1; };
	a_2: { $$ = 2; };
	a_5: { $$ = 5; };

	sum_of_the_five_previous_values:
	{
	$$ = $<val>0 + $<val>-1 + $<val>-2 + $<val>-3 + $<val>-4;
	}
	;

	%%
	static int
	yylex (void)
	{
	return EOF;
	}

	static void
	yyerror (const char *msg)
	{
	fprintf (stderr, "%s\n", msg);
	}

	int
	main (void)
	{
	return yyparse ();
	}
	]])

	AT_CHECK([bison -d -v -o input.c input.y], 0)
	AT_COMPILE([input])
	AT_PARSER_CHECK([./input], 0,
	[[15
	]])

	AT_CLEANUP



	## -------------------------- ##
	## Printers and Destructors. ##
	## -------------------------- ##

	# _AT_CHECK_PRINTER_AND_DESTRUCTOR($1, $2, $3, $4, BISON-DIRECTIVE, UNION-FLAG)
	# -----------------------------------------------------------------------------
	m4_define([_AT_CHECK_PRINTER_AND_DESTRUCTOR],
	[# Make sure complex $n work.
	m4_if([$1$2$3], $[1]$[2]$[3], [],
	[m4_fatal([$0: Invalid arguments: $@])])dnl

	# Be sure to pass all the %directives to this macro to have correct
	# helping macros. So don't put any directly in the Bison file.
	AT_BISON_OPTION_PUSHDEFS([$5])
	AT_DATA_GRAMMAR([[input.y]],
	[[%{
	#include <stdio.h>
	#include <stdlib.h>
	#include <assert.h>

	#define YYINITDEPTH 10
	#define YYMAXDEPTH 10
	]AT_LALR1_CC_IF(
	[#define RANGE(Location) (Location).begin.line, (Location).end.line],
	[#define RANGE(Location) (Location).first_line, (Location).last_line])
	[%}

	$5]
	m4_ifval([$6], [%union
	{
	int ival;
	}])
	AT_LALR1_CC_IF([%define "global_tokens_and_yystype"])
	[
	%{
	]AT_LALR1_CC_IF([typedef yy::location YYLTYPE;
	m4_ifval([$6], , [#define YYSTYPE int])])
	[static int yylex (]AT_LEX_FORMALS[);
	]AT_LALR1_CC_IF([], [static void yyerror (const char *msg);])
	[%}

	]m4_ifval([$6], [%type <ival> '(' 'x' 'y' ')' ';' thing line input])[

	%printer
	{
	]AT_LALR1_CC_IF([debug_stream () << $$;],
	[fprintf (yyoutput, "%d", $$)])[;
	}
	input line thing 'x' 'y'

	%destructor
	{ printf ("Freeing nterm input (%d@%d-%d)\n", $$, RANGE (@$)); }
	input

	%destructor
	{ printf ("Freeing nterm line (%d@%d-%d)\n", $$, RANGE (@$)); }
	line

	%destructor
	{ printf ("Freeing nterm thing (%d@%d-%d)\n", $$, RANGE (@$)); }
	thing

	%destructor
	{ printf ("Freeing token 'x' (%d@%d-%d)\n", $$, RANGE (@$)); }
	'x'

	%destructor
	{ printf ("Freeing token 'y' (%d@%d-%d)\n", $$, RANGE (@$)); }
	'y'

	%%
	/*
	This grammar is made to exercise error recovery.
	"Lines" starting with `(' support error recovery, with
	')' as synchronizing token. Lines starting with 'x' can never
	be recovered from if in error.
	*/

	input:
	/* Nothing. */
	{
	$$ = 0;
	printf ("input (%d@%d-%d): /* Nothing */\n", $$, RANGE (@$));
	}
	\| line input /* Right recursive to load the stack so that popping at
	EOF can be exercised. */
	{
	$$ = 2;
	printf ("input (%d@%d-%d): line (%d@%d-%d) input (%d@%d-%d)\n",
	$$, RANGE (@$), $1, RANGE (@1), $2, RANGE (@2));
	}
	;

	line:
	thing thing thing ';'
	{
	$$ = $1;
	printf ("line (%d@%d-%d): thing (%d@%d-%d) thing (%d@%d-%d) thing (%d@%d-%d) ';' (%d@%d-%d)\n",
	$$, RANGE (@$), $1, RANGE (@1), $2, RANGE (@2),
	$3, RANGE (@3), $4, RANGE (@4));
	}
	\| '(' thing thing ')'
	{
	$$ = $1;
	printf ("line (%d@%d-%d): '(' (%d@%d-%d) thing (%d@%d-%d) thing (%d@%d-%d) ')' (%d@%d-%d)\n",
	$$, RANGE (@$), $1, RANGE (@1), $2, RANGE (@2),
	$3, RANGE (@3), $4, RANGE (@4));
	}
	\| '(' thing ')'
	{
	$$ = $1;
	printf ("line (%d@%d-%d): '(' (%d@%d-%d) thing (%d@%d-%d) ')' (%d@%d-%d)\n",
	$$, RANGE (@$), $1, RANGE (@1), $2, RANGE (@2), $3, RANGE (@3));
	}
	\| '(' error ')'
	{
	$$ = -1;
	printf ("line (%d@%d-%d): '(' (%d@%d-%d) error (@%d-%d) ')' (%d@%d-%d)\n",
	$$, RANGE (@$), $1, RANGE (@1), RANGE (@2), $3, RANGE (@3));
	}
	;

	thing:
	'x'
	{
	$$ = $1;
	printf ("thing (%d@%d-%d): 'x' (%d@%d-%d)\n",
	$$, RANGE (@$), $1, RANGE (@1));
	}
	;
	%%
	/* Alias to ARGV[1]. */
	const char *source = 0;

	static int
	yylex (]AT_LEX_FORMALS[)
	{
	static unsigned int counter = 0;

	int c = ]AT_VAL[]m4_ifval([$6], [.ival])[ = counter++;
	/* As in BASIC, line numbers go from 10 to 10. */
	]AT_LALR1_CC_IF(
	[ AT_LOC.begin.line = AT_LOC.begin.column = 10 * c;
	AT_LOC.end.line = AT_LOC.end.column = AT_LOC.begin.line + 9;
	],
	[ AT_LOC.first_line = AT_LOC.first_column = 10 * c;
	AT_LOC.last_line = AT_LOC.last_column = AT_LOC.first_line + 9;
	])[

	if (source[c])
	printf ("sending: '%c'", source[c]);
	else
	printf ("sending: EOF");
	printf (" (%d@%d-%d)\n", c, RANGE (]AT_LOC[));
	return source[c];
	}

	]AT_LALR1_CC_IF(
	[/* A C++ error reporting function. */
	void
	yy::parser::error (const location& l, const std::string& m)
	{
	printf ("%d-%d: %s\n", RANGE (l), m.c_str());
	}

	static bool yydebug;
	int
	yyparse ()
	{
	yy::parser parser;
	parser.set_debug_level (yydebug);
	return parser.parse ();
	}
	],
	[static void
	yyerror (const char *msg)
	{
	printf ("%d-%d: %s\n", RANGE (yylloc), msg);
	}])[

	int
	main (int argc, const char *argv[])
	{
	int status;
	yydebug = !!getenv ("YYDEBUG");
	assert (argc == 2);
	source = argv[1];
	status = yyparse ();
	switch (status)
	{
	case 0: printf ("Successful parse.\n"); break;
	case 1: printf ("Parsing FAILED.\n"); break;
	default: printf ("Parsing FAILED (status %d).\n", status); break;
	}
	return status;
	}
	]])

	AT_LALR1_CC_IF(
	[AT_CHECK([bison -o input.cc input.y])
	AT_COMPILE_CXX([input])],
	[AT_CHECK([bison -o input.c input.y])
	AT_COMPILE([input])])


	# Check the location of "empty"
	# -----------------------------
	# I.e., epsilon-reductions, as in "(x)" which ends by reducing
	# an empty "line" nterm.
	# FIXME: This location is not satisfying. Depend on the lookahead?
	AT_PARSER_CHECK([./input '(x)'], 0,
	[[sending: '(' (0@0-9)
	sending: 'x' (1@10-19)
	thing (1@10-19): 'x' (1@10-19)
	sending: ')' (2@20-29)
	line (0@0-29): '(' (0@0-9) thing (1@10-19) ')' (2@20-29)
	sending: EOF (3@30-39)
	input (0@29-29): /* Nothing */
	input (2@0-29): line (0@0-29) input (0@29-29)
	Freeing nterm input (2@0-29)
	Successful parse.
	]])


	# Check locations in error recovery
	# ---------------------------------
	# '(y)' is an error, but can be recovered from. But what's the location
	# of the error itself ('y'), and of the resulting reduction ('(error)').
	AT_PARSER_CHECK([./input '(y)'], 0,
	[[sending: '(' (0@0-9)
	sending: 'y' (1@10-19)
	10-19: syntax error, unexpected 'y', expecting 'x'
	Freeing token 'y' (1@10-19)
	sending: ')' (2@20-29)
	line (-1@0-29): '(' (0@0-9) error (@10-19) ')' (2@20-29)
	sending: EOF (3@30-39)
	input (0@29-29): /* Nothing */
	input (2@0-29): line (-1@0-29) input (0@29-29)
	Freeing nterm input (2@0-29)
	Successful parse.
	]])


	# Syntax errors caught by the parser
	# ----------------------------------
	# Exercise the discarding of stack top and input until `error'
	# can be reduced.
	#
	# '(', 'x', 'x', 'x', 'x', 'x', ')',
	#
	# Load the stack and provoke an error that cannot be caught by the
	# grammar, to check that the stack is cleared. And make sure the
	# lookahead is freed.
	#
	# '(', 'x', ')',
	# '(', 'x', ')',
	# 'y'
	AT_PARSER_CHECK([./input '(xxxxx)(x)(x)y'], 1,
	[[sending: '(' (0@0-9)
	sending: 'x' (1@10-19)
	thing (1@10-19): 'x' (1@10-19)
	sending: 'x' (2@20-29)
	thing (2@20-29): 'x' (2@20-29)
	sending: 'x' (3@30-39)
	30-39: syntax error, unexpected 'x', expecting ')'
	Freeing nterm thing (2@20-29)
	Freeing nterm thing (1@10-19)
	Freeing token 'x' (3@30-39)
	sending: 'x' (4@40-49)
	Freeing token 'x' (4@40-49)
	sending: 'x' (5@50-59)
	Freeing token 'x' (5@50-59)
	sending: ')' (6@60-69)
	line (-1@0-69): '(' (0@0-9) error (@10-59) ')' (6@60-69)
	sending: '(' (7@70-79)
	sending: 'x' (8@80-89)
	thing (8@80-89): 'x' (8@80-89)
	sending: ')' (9@90-99)
	line (7@70-99): '(' (7@70-79) thing (8@80-89) ')' (9@90-99)
	sending: '(' (10@100-109)
	sending: 'x' (11@110-119)
	thing (11@110-119): 'x' (11@110-119)
	sending: ')' (12@120-129)
	line (10@100-129): '(' (10@100-109) thing (11@110-119) ')' (12@120-129)
	sending: 'y' (13@130-139)
	input (0@129-129): /* Nothing */
	input (2@100-129): line (10@100-129) input (0@129-129)
	input (2@70-129): line (7@70-99) input (2@100-129)
	input (2@0-129): line (-1@0-69) input (2@70-129)
	130-139: syntax error, unexpected 'y', expecting $end
	Freeing nterm input (2@0-129)
	Freeing token 'y' (13@130-139)
	Parsing FAILED.
	]])

	# Check destruction upon stack overflow
	# -------------------------------------
	# Upon stack overflow, all symbols on the stack should be destroyed.
	# Only check for yacc.c.
	AT_YACC_IF([
	AT_PARSER_CHECK([./input '(x)(x)(x)(x)(x)(x)(x)'], 2,
	[[sending: '(' (0@0-9)
	sending: 'x' (1@10-19)
	thing (1@10-19): 'x' (1@10-19)
	sending: ')' (2@20-29)
	line (0@0-29): '(' (0@0-9) thing (1@10-19) ')' (2@20-29)
	sending: '(' (3@30-39)
	sending: 'x' (4@40-49)
	thing (4@40-49): 'x' (4@40-49)
	sending: ')' (5@50-59)
	line (3@30-59): '(' (3@30-39) thing (4@40-49) ')' (5@50-59)
	sending: '(' (6@60-69)
	sending: 'x' (7@70-79)
	thing (7@70-79): 'x' (7@70-79)
	sending: ')' (8@80-89)
	line (6@60-89): '(' (6@60-69) thing (7@70-79) ')' (8@80-89)
	sending: '(' (9@90-99)
	sending: 'x' (10@100-109)
	thing (10@100-109): 'x' (10@100-109)
	sending: ')' (11@110-119)
	line (9@90-119): '(' (9@90-99) thing (10@100-109) ')' (11@110-119)
	sending: '(' (12@120-129)
	sending: 'x' (13@130-139)
	thing (13@130-139): 'x' (13@130-139)
	sending: ')' (14@140-149)
	line (12@120-149): '(' (12@120-129) thing (13@130-139) ')' (14@140-149)
	sending: '(' (15@150-159)
	sending: 'x' (16@160-169)
	thing (16@160-169): 'x' (16@160-169)
	sending: ')' (17@170-179)
	line (15@150-179): '(' (15@150-159) thing (16@160-169) ')' (17@170-179)
	sending: '(' (18@180-189)
	sending: 'x' (19@190-199)
	thing (19@190-199): 'x' (19@190-199)
	sending: ')' (20@200-209)
	200-209: memory exhausted
	Freeing nterm thing (19@190-199)
	Freeing nterm line (15@150-179)
	Freeing nterm line (12@120-149)
	Freeing nterm line (9@90-119)
	Freeing nterm line (6@60-89)
	Freeing nterm line (3@30-59)
	Freeing nterm line (0@0-29)
	Parsing FAILED (status 2).
	]])
	])

	])


	# AT_CHECK_PRINTER_AND_DESTRUCTOR([BISON-OPTIONS], [UNION-FLAG], [SKIP_FLAG])
	# ---------------------------------------------------------------------------
	m4_define([AT_CHECK_PRINTER_AND_DESTRUCTOR],
	[AT_SETUP([Printers and Destructors $2: $1])

	$3
	_AT_CHECK_PRINTER_AND_DESTRUCTOR($[1], $[2], $[3], $[4],
	[%error-verbose
	%debug
	%verbose
	%locations
	$1], [$2])

	AT_CLEANUP
	])


	AT_CHECK_PRINTER_AND_DESTRUCTOR([])
	AT_CHECK_PRINTER_AND_DESTRUCTOR([], [with union])

	# These tests currently fail on a Debian GNU/Linux 3.0r2 x86 host,
	# but the 2nd test succeeds on a Solaris 9 sparc hosts (Forte 7 cc).
	# Skip them until we figure out what the problem is.
	AT_CHECK_PRINTER_AND_DESTRUCTOR([%defines %skeleton "lalr1.cc"])
	AT_CHECK_PRINTER_AND_DESTRUCTOR([%defines %skeleton "lalr1.cc"], [with union])

	AT_CHECK_PRINTER_AND_DESTRUCTOR([%glr-parser])
	AT_CHECK_PRINTER_AND_DESTRUCTOR([%glr-parser], [with union])