intl/plural.y - platform/external/e2fsprogs_custom - Gitiles

 %{
 /* Expression parsing for plural form selection.
    Copyright (C) 2000, 2001 Free Software Foundation, Inc.
    Written by Ulrich Drepper <drepper@cygnus.com>, 2000.

    This program is free software; you can redistribute it and/or modify it
    under the terms of the GNU Library 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
    Library General Public License for more details.

    You should have received a copy of the GNU Library General Public
    License along with this program; if not, write to the Free Software
    Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307,
    USA.  */

 /* The bison generated parser uses alloca.  AIX 3 forces us to put this
    declaration at the beginning of the file.  The declaration in bison's
    skeleton file comes too late.  This must come before <config.h>
    because <config.h> may include arbitrary system headers.  */
 #if defined _AIX && !defined __GNUC__
  #pragma alloca
 #endif

 #ifdef HAVE_CONFIG_H
 # include <config.h>
 #endif

 #include <stddef.h>
 #include <stdlib.h>
 #include "plural-exp.h"

 /* The main function generated by the parser is called __gettextparse,
    but we want it to be called PLURAL_PARSE.  */
 #ifndef _LIBC
 # define __gettextparse PLURAL_PARSE
 #endif

 #define YYLEX_PARAM	&((struct parse_args *) arg)->cp
 #define YYPARSE_PARAM	arg
 %}
 %pure_parser
 %expect 7

 %union {
   unsigned long int num;
   enum operator op;
   struct expression *exp;
 }

 %{
 /* Prototypes for local functions.  */
 static struct expression *new_exp PARAMS ((int nargs, enum operator op,
 					   struct expression * const *args));
 static inline struct expression *new_exp_0 PARAMS ((enum operator op));
 static inline struct expression *new_exp_1 PARAMS ((enum operator op,
 						   struct expression *right));
 static struct expression *new_exp_2 PARAMS ((enum operator op,
 					     struct expression *left,
 					     struct expression *right));
 static inline struct expression *new_exp_3 PARAMS ((enum operator op,
 						   struct expression *bexp,
 						   struct expression *tbranch,
 						   struct expression *fbranch));
 static int yylex PARAMS ((YYSTYPE *lval, const char **pexp));
 static void yyerror PARAMS ((const char *str));

 /* Allocation of expressions.  */

 static struct expression *
 new_exp (nargs, op, args)
      int nargs;
      enum operator op;
      struct expression * const *args;
 {
   int i;
   struct expression *newp;

   /* If any of the argument could not be malloc'ed, just return NULL.  */
   for (i = nargs - 1; i >= 0; i--)
     if (args[i] == NULL)
       goto fail;

   /* Allocate a new expression.  */
   newp = (struct expression *) malloc (sizeof (*newp));
   if (newp != NULL)
     {
       newp->nargs = nargs;
       newp->operation = op;
       for (i = nargs - 1; i >= 0; i--)
 	newp->val.args[i] = args[i];
       return newp;
     }

  fail:
   for (i = nargs - 1; i >= 0; i--)
     FREE_EXPRESSION (args[i]);

   return NULL;
 }

 static inline struct expression *
 new_exp_0 (op)
      enum operator op;
 {
   return new_exp (0, op, NULL);
 }

 static inline struct expression *
 new_exp_1 (op, right)
      enum operator op;
      struct expression *right;
 {
   struct expression *args[1];

   args[0] = right;
   return new_exp (1, op, args);
 }

 static struct expression *
 new_exp_2 (op, left, right)
      enum operator op;
      struct expression *left;
      struct expression *right;
 {
   struct expression *args[2];

   args[0] = left;
   args[1] = right;
   return new_exp (2, op, args);
 }

 static inline struct expression *
 new_exp_3 (op, bexp, tbranch, fbranch)
      enum operator op;
      struct expression *bexp;
      struct expression *tbranch;
      struct expression *fbranch;
 {
   struct expression *args[3];

   args[0] = bexp;
   args[1] = tbranch;
   args[2] = fbranch;
   return new_exp (3, op, args);
 }

 %}

 /* This declares that all operators have the same associativity and the
    precedence order as in C.  See [Harbison, Steele: C, A Reference Manual].
    There is no unary minus and no bitwise operators.
    Operators with the same syntactic behaviour have been merged into a single
    token, to save space in the array generated by bison.  */
 %right '?'		/*   ?		*/
 %left '|'		/*   ||		*/
 %left '&'		/*   &&		*/
 %left EQUOP2		/*   == !=	*/
 %left CMPOP2		/*   < > <= >=	*/
 %left ADDOP2		/*   + -	*/
 %left MULOP2		/*   * / %	*/
 %right '!'		/*   !		*/

 %token <op> EQUOP2 CMPOP2 ADDOP2 MULOP2
 %token <num> NUMBER
 %type <exp> exp

 %%

 start:	  exp
 	  {
 	    if ($1 == NULL)
 	      YYABORT;
 	    ((struct parse_args *) arg)->res = $1;
 	  }
 	;

 exp:	  exp '?' exp ':' exp
 	  {
 	    $$ = new_exp_3 (qmop, $1, $3, $5);
 	  }
 	| exp '|' exp
 	  {
 	    $$ = new_exp_2 (lor, $1, $3);
 	  }
 	| exp '&' exp
 	  {
 	    $$ = new_exp_2 (land, $1, $3);
 	  }
 	| exp EQUOP2 exp
 	  {
 	    $$ = new_exp_2 ($2, $1, $3);
 	  }
 	| exp CMPOP2 exp
 	  {
 	    $$ = new_exp_2 ($2, $1, $3);
 	  }
 	| exp ADDOP2 exp
 	  {
 	    $$ = new_exp_2 ($2, $1, $3);
 	  }
 	| exp MULOP2 exp
 	  {
 	    $$ = new_exp_2 ($2, $1, $3);
 	  }
 	| '!' exp
 	  {
 	    $$ = new_exp_1 (lnot, $2);
 	  }
 	| 'n'
 	  {
 	    $$ = new_exp_0 (var);
 	  }
 	| NUMBER
 	  {
 	    if (($$ = new_exp_0 (num)) != NULL)
 	      $$->val.num = $1;
 	  }
 	| '(' exp ')'
 	  {
 	    $$ = $2;
 	  }
 	;

 %%

 void
 internal_function
 FREE_EXPRESSION (exp)
      struct expression *exp;
 {
   if (exp == NULL)
     return;

   /* Handle the recursive case.  */
   switch (exp->nargs)
     {
     case 3:
       FREE_EXPRESSION (exp->val.args[2]);
       /* FALLTHROUGH */
     case 2:
       FREE_EXPRESSION (exp->val.args[1]);
       /* FALLTHROUGH */
     case 1:
       FREE_EXPRESSION (exp->val.args[0]);
       /* FALLTHROUGH */
     default:
       break;
     }

   free (exp);
 }


 static int
 yylex (lval, pexp)
      YYSTYPE *lval;
      const char **pexp;
 {
   const char *exp = *pexp;
   int result;

   while (1)
     {
       if (exp[0] == '\0')
 	{
 	  *pexp = exp;
 	  return YYEOF;
 	}

       if (exp[0] != ' ' && exp[0] != '\t')
 	break;

       ++exp;
     }

   result = *exp++;
   switch (result)
     {
     case '0': case '1': case '2': case '3': case '4':
     case '5': case '6': case '7': case '8': case '9':
       {
 	unsigned long int n = result - '0';
 	while (exp[0] >= '0' && exp[0] <= '9')
 	  {
 	    n *= 10;
 	    n += exp[0] - '0';
 	    ++exp;
 	  }
 	lval->num = n;
 	result = NUMBER;
       }
       break;

     case '=':
       if (exp[0] == '=')
 	{
 	  ++exp;
 	  lval->op = equal;
 	  result = EQUOP2;
 	}
       else
 	result = YYERRCODE;
       break;

     case '!':
       if (exp[0] == '=')
 	{
 	  ++exp;
 	  lval->op = not_equal;
 	  result = EQUOP2;
 	}
       break;

     case '&':
     case '|':
       if (exp[0] == result)
 	++exp;
       else
 	result = YYERRCODE;
       break;

     case '<':
       if (exp[0] == '=')
 	{
 	  ++exp;
 	  lval->op = less_or_equal;
 	}
       else
 	lval->op = less_than;
       result = CMPOP2;
       break;

     case '>':
       if (exp[0] == '=')
 	{
 	  ++exp;
 	  lval->op = greater_or_equal;
 	}
       else
 	lval->op = greater_than;
       result = CMPOP2;
       break;

     case '*':
       lval->op = mult;
       result = MULOP2;
       break;

     case '/':
       lval->op = divide;
       result = MULOP2;
       break;

     case '%':
       lval->op = module;
       result = MULOP2;
       break;

     case '+':
       lval->op = plus;
       result = ADDOP2;
       break;

     case '-':
       lval->op = minus;
       result = ADDOP2;
       break;

     case 'n':
     case '?':
     case ':':
     case '(':
     case ')':
       /* Nothing, just return the character.  */
       break;

     case ';':
     case '\n':
     case '\0':
       /* Be safe and let the user call this function again.  */
       --exp;
       result = YYEOF;
       break;

     default:
       result = YYERRCODE;
 #if YYDEBUG != 0
       --exp;
 #endif
       break;
     }

   *pexp = exp;

   return result;
 }


 static void
 yyerror (str)
      const char *str;
 {
   /* Do nothing.  We don't print error messages here.  */
 }
	%{
	/* Expression parsing for plural form selection.
	Copyright (C) 2000, 2001 Free Software Foundation, Inc.
	Written by Ulrich Drepper <drepper@cygnus.com>, 2000.

	This program is free software; you can redistribute it and/or modify it
	under the terms of the GNU Library 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
	Library General Public License for more details.

	You should have received a copy of the GNU Library General Public
	License along with this program; if not, write to the Free Software
	Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307,
	USA. */

	/* The bison generated parser uses alloca. AIX 3 forces us to put this
	declaration at the beginning of the file. The declaration in bison's
	skeleton file comes too late. This must come before <config.h>
	because <config.h> may include arbitrary system headers. */
	#if defined _AIX && !defined __GNUC__
	#pragma alloca
	#endif

	#ifdef HAVE_CONFIG_H
	# include <config.h>
	#endif

	#include <stddef.h>
	#include <stdlib.h>
	#include "plural-exp.h"

	/* The main function generated by the parser is called __gettextparse,
	but we want it to be called PLURAL_PARSE. */
	#ifndef _LIBC
	# define __gettextparse PLURAL_PARSE
	#endif

	#define YYLEX_PARAM &((struct parse_args *) arg)->cp
	#define YYPARSE_PARAM arg
	%}
	%pure_parser
	%expect 7

	%union {
	unsigned long int num;
	enum operator op;
	struct expression *exp;
	}

	%{
	/* Prototypes for local functions. */
	static struct expression *new_exp PARAMS ((int nargs, enum operator op,
	struct expression * const *args));
	static inline struct expression *new_exp_0 PARAMS ((enum operator op));
	static inline struct expression *new_exp_1 PARAMS ((enum operator op,
	struct expression *right));
	static struct expression *new_exp_2 PARAMS ((enum operator op,
	struct expression *left,
	struct expression *right));
	static inline struct expression *new_exp_3 PARAMS ((enum operator op,
	struct expression *bexp,
	struct expression *tbranch,
	struct expression *fbranch));
	static int yylex PARAMS ((YYSTYPE lval, const char *pexp));
	static void yyerror PARAMS ((const char *str));

	/* Allocation of expressions. */

	static struct expression *
	new_exp (nargs, op, args)
	int nargs;
	enum operator op;
	struct expression * const *args;
	{
	int i;
	struct expression *newp;

	/* If any of the argument could not be malloc'ed, just return NULL. */
	for (i = nargs - 1; i >= 0; i--)
	if (args[i] == NULL)
	goto fail;

	/* Allocate a new expression. */
	newp = (struct expression ) malloc (sizeof (newp));
	if (newp != NULL)
	{
	newp->nargs = nargs;
	newp->operation = op;
	for (i = nargs - 1; i >= 0; i--)
	newp->val.args[i] = args[i];
	return newp;
	}

	fail:
	for (i = nargs - 1; i >= 0; i--)
	FREE_EXPRESSION (args[i]);

	return NULL;
	}

	static inline struct expression *
	new_exp_0 (op)
	enum operator op;
	{
	return new_exp (0, op, NULL);
	}

	static inline struct expression *
	new_exp_1 (op, right)
	enum operator op;
	struct expression *right;
	{
	struct expression *args[1];

	args[0] = right;
	return new_exp (1, op, args);
	}

	static struct expression *
	new_exp_2 (op, left, right)
	enum operator op;
	struct expression *left;
	struct expression *right;
	{
	struct expression *args[2];

	args[0] = left;
	args[1] = right;
	return new_exp (2, op, args);
	}

	static inline struct expression *
	new_exp_3 (op, bexp, tbranch, fbranch)
	enum operator op;
	struct expression *bexp;
	struct expression *tbranch;
	struct expression *fbranch;
	{
	struct expression *args[3];

	args[0] = bexp;
	args[1] = tbranch;
	args[2] = fbranch;
	return new_exp (3, op, args);
	}

	%}

	/* This declares that all operators have the same associativity and the
	precedence order as in C. See [Harbison, Steele: C, A Reference Manual].
	There is no unary minus and no bitwise operators.
	Operators with the same syntactic behaviour have been merged into a single
	token, to save space in the array generated by bison. */
	%right '?' /* ? */
	%left '\|' /* \|\| */
	%left '&' /* && */
	%left EQUOP2 /* == != */
	%left CMPOP2 /* < > <= >= */
	%left ADDOP2 /* + - */
	%left MULOP2 /* * / % */
	%right '!' /* ! */

	%token <op> EQUOP2 CMPOP2 ADDOP2 MULOP2
	%token <num> NUMBER
	%type <exp> exp

	%%

	start: exp
	{
	if ($1 == NULL)
	YYABORT;
	((struct parse_args *) arg)->res = $1;
	}
	;

	exp: exp '?' exp ':' exp
	{
	$$ = new_exp_3 (qmop, $1, $3, $5);
	}
	\| exp '\|' exp
	{
	$$ = new_exp_2 (lor, $1, $3);
	}
	\| exp '&' exp
	{
	$$ = new_exp_2 (land, $1, $3);
	}
	\| exp EQUOP2 exp
	{
	$$ = new_exp_2 ($2, $1, $3);
	}
	\| exp CMPOP2 exp
	{
	$$ = new_exp_2 ($2, $1, $3);
	}
	\| exp ADDOP2 exp
	{
	$$ = new_exp_2 ($2, $1, $3);
	}
	\| exp MULOP2 exp
	{
	$$ = new_exp_2 ($2, $1, $3);
	}
	\| '!' exp
	{
	$$ = new_exp_1 (lnot, $2);
	}
	\| 'n'
	{
	$$ = new_exp_0 (var);
	}
	\| NUMBER
	{
	if (($$ = new_exp_0 (num)) != NULL)
	$$->val.num = $1;
	}
	\| '(' exp ')'
	{
	$$ = $2;
	}
	;

	%%

	void
	internal_function
	FREE_EXPRESSION (exp)
	struct expression *exp;
	{
	if (exp == NULL)
	return;

	/* Handle the recursive case. */
	switch (exp->nargs)
	{
	case 3:
	FREE_EXPRESSION (exp->val.args[2]);
	/* FALLTHROUGH */
	case 2:
	FREE_EXPRESSION (exp->val.args[1]);
	/* FALLTHROUGH */
	case 1:
	FREE_EXPRESSION (exp->val.args[0]);
	/* FALLTHROUGH */
	default:
	break;
	}

	free (exp);
	}


	static int
	yylex (lval, pexp)
	YYSTYPE *lval;
	const char **pexp;
	{
	const char exp = pexp;
	int result;

	while (1)
	{
	if (exp[0] == '\0')
	{
	*pexp = exp;
	return YYEOF;
	}

	if (exp[0] != ' ' && exp[0] != '\t')
	break;

	++exp;
	}

	result = *exp++;
	switch (result)
	{
	case '0': case '1': case '2': case '3': case '4':
	case '5': case '6': case '7': case '8': case '9':
	{
	unsigned long int n = result - '0';
	while (exp[0] >= '0' && exp[0] <= '9')
	{
	n *= 10;
	n += exp[0] - '0';
	++exp;
	}
	lval->num = n;
	result = NUMBER;
	}
	break;

	case '=':
	if (exp[0] == '=')
	{
	++exp;
	lval->op = equal;
	result = EQUOP2;
	}
	else
	result = YYERRCODE;
	break;

	case '!':
	if (exp[0] == '=')
	{
	++exp;
	lval->op = not_equal;
	result = EQUOP2;
	}
	break;

	case '&':
	case '\|':
	if (exp[0] == result)
	++exp;
	else
	result = YYERRCODE;
	break;

	case '<':
	if (exp[0] == '=')
	{
	++exp;
	lval->op = less_or_equal;
	}
	else
	lval->op = less_than;
	result = CMPOP2;
	break;

	case '>':
	if (exp[0] == '=')
	{
	++exp;
	lval->op = greater_or_equal;
	}
	else
	lval->op = greater_than;
	result = CMPOP2;
	break;

	case '*':
	lval->op = mult;
	result = MULOP2;
	break;

	case '/':
	lval->op = divide;
	result = MULOP2;
	break;

	case '%':
	lval->op = module;
	result = MULOP2;
	break;

	case '+':
	lval->op = plus;
	result = ADDOP2;
	break;

	case '-':
	lval->op = minus;
	result = ADDOP2;
	break;

	case 'n':
	case '?':
	case ':':
	case '(':
	case ')':
	/* Nothing, just return the character. */
	break;

	case ';':
	case '\n':
	case '\0':
	/* Be safe and let the user call this function again. */
	--exp;
	result = YYEOF;
	break;

	default:
	result = YYERRCODE;
	#if YYDEBUG != 0
	--exp;
	#endif
	break;
	}

	*pexp = exp;

	return result;
	}


	static void
	yyerror (str)
	const char *str;
	{
	/* Do nothing. We don't print error messages here. */
	}