ld/ldlex.l - binutils-gdb - Git at Google

 %{

 /* Copyright 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000
    Free Software Foundation, Inc.

 This file is part of GLD, the Gnu Linker.

 GLD 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.

 GLD 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 GLD; see the file COPYING.  If not, write to the Free
 Software Foundation, 59 Temple Place - Suite 330, Boston, MA
 02111-1307, USA.  */

 /*
 This was written by steve chamberlain
                     sac@cygnus.com
 */


 #include <ansidecl.h>
 #include <stdio.h>
 #include <ctype.h>

 #ifdef MPW
 /* Prevent enum redefinition problems. */
 #define TRUE_FALSE_ALREADY_DEFINED
 #endif /* MPW */

 #include "bfd.h"
 #include "sysdep.h"
 #include "ld.h"
 #include "ldgram.h"
 #include "ldmisc.h"
 #include "ldexp.h"
 #include "ldlang.h"
 #include "ldfile.h"
 #include "ldlex.h"
 #include "ldmain.h"
 #include "libiberty.h"

 /* The type of top-level parser input.
    yylex and yyparse (indirectly) both check this.  */
 input_type parser_input;

 /* Line number in the current input file.
    (FIXME Actually, it doesn't appear to get reset for each file?)  */
 unsigned int lineno = 1;

 /* The string we are currently lexing, or NULL if we are reading a
    file.  */
 const char *lex_string = NULL;

 /* Support for flex reading from more than one input file (stream).
    `include_stack' is flex's input state for each open file;
    `file_name_stack' is the file names.  `lineno_stack' is the current
    line numbers.

    If `include_stack_ptr' is 0, we haven't started reading anything yet.
    Otherwise, stack elements 0 through `include_stack_ptr - 1' are valid.  */

 #undef YY_INPUT
 #define YY_INPUT(buf,result,max_size) yy_input(buf, &result, max_size)

 #define MAX_INCLUDE_DEPTH 10
 static YY_BUFFER_STATE include_stack[MAX_INCLUDE_DEPTH];
 static const char *file_name_stack[MAX_INCLUDE_DEPTH];
 static unsigned int lineno_stack[MAX_INCLUDE_DEPTH];
 static unsigned int include_stack_ptr = 0;
 static int vers_node_nesting = 0;

 static YY_BUFFER_STATE yy_create_string_buffer PARAMS ((const char *string,
 							size_t size));
 static void yy_input PARAMS ((char *, int *result, int max_size));

 static void comment PARAMS ((void));
 static void lex_warn_invalid PARAMS ((char *where, char *what));

 /* STATES
 	EXPRESSION	definitely in an expression
 	SCRIPT		definitely in a script
 	BOTH		either EXPRESSION or SCRIPT
 	DEFSYMEXP	in an argument to -defsym
         MRI             in an MRI script
 	VERS_START	starting a Sun style mapfile
 	VERS_SCRIPT	a Sun style mapfile
 	VERS_NODE	a node within a Sun style mapfile
 */
 #define RTOKEN(x)  {  yylval.token = x; return x; }

 /* Some versions of flex want this.  */
 #ifndef yywrap
 int yywrap () { return 1; }
 #endif
 %}

 %a 4000
 %o 5000

 CMDFILENAMECHAR   [_a-zA-Z0-9\/\.\\_\+\$\:\[\]\\\,\=\&\!\<\>\-\~]
 CMDFILENAMECHAR1  [_a-zA-Z0-9\/\.\\_\+\$\:\[\]\\\,\=\&\!\<\>\~]
 FILENAMECHAR1	[_a-zA-Z\/\.\\\$\_\~]
 SYMBOLCHARN     [_a-zA-Z\/\.\\\$\_\~0-9]
 FILENAMECHAR	[_a-zA-Z0-9\/\.\-\_\+\=\$\:\[\]\\\,\~]
 WILDCHAR	[_a-zA-Z0-9\/\.\-\_\+\=\$\:\[\]\\\,\~\?\*]
 WHITE		[ \t\n\r]+

 NOCFILENAMECHAR	[_a-zA-Z0-9\/\.\-\_\+\$\:\[\]\\\~]

 V_TAG [.$_a-zA-Z][._a-zA-Z0-9]*
 V_IDENTIFIER [*?.$_a-zA-Z]([*?.$_a-zA-Z0-9]|::)*

 %s SCRIPT
 %s EXPRESSION
 %s BOTH
 %s DEFSYMEXP
 %s MRI
 %s VERS_START
 %s VERS_SCRIPT
 %s VERS_NODE
 %%

   if (parser_input != input_selected)
     {
       /* The first token of the input determines the initial parser state.  */
       input_type t = parser_input;
       parser_input = input_selected;
       switch (t)
 	{
 	case input_script: return INPUT_SCRIPT; break;
 	case input_mri_script: return INPUT_MRI_SCRIPT; break;
 	case input_version_script: return INPUT_VERSION_SCRIPT; break;
 	case input_defsym: return INPUT_DEFSYM; break;
 	default: abort ();
 	}
     }

 <BOTH,SCRIPT,EXPRESSION>"/*"	{ comment(); }


 <DEFSYMEXP>"-"                  { RTOKEN('-');}
 <DEFSYMEXP>"+"                  { RTOKEN('+');}
 <DEFSYMEXP>{FILENAMECHAR1}{SYMBOLCHARN}*   { yylval.name = xstrdup(yytext); return NAME; }
 <DEFSYMEXP>"="                  { RTOKEN('='); }

 <MRI,EXPRESSION>"$"([0-9A-Fa-f])+ {
   				yylval.integer = bfd_scan_vma (yytext+1, 0,16);
 				return INT;
 			}

 <MRI,EXPRESSION>([0-9A-Fa-f])+(H|h|X|x|B|b|O|o|D|d) {
 				   int ibase ;
 				   switch (yytext[yyleng-1]) {
 				    case 'X':
 				    case 'x':
 				    case 'H':
 				    case 'h':
 				     ibase = 16;
 				     break;
 				    case 'O':
 				    case 'o':
 				     ibase = 8;
 				     break;
 				    case 'B':
 				    case 'b':
 				     ibase = 2;
 				     break;
 				    default:
 				     ibase = 10;
 				   }
 				   yylval.integer = bfd_scan_vma (yytext, 0,
 								  ibase);
 				   return INT;
 				 }
 <SCRIPT,DEFSYMEXP,MRI,BOTH,EXPRESSION>((("$"|"0x")([0-9A-Fa-f])+)|(([0-9])+))(M|K|m|k)? {
 				  char *s = yytext;

 				  if (*s == '$')
 				    ++s;
 				  yylval.integer = bfd_scan_vma (s, 0, 0);
 				  if (yytext[yyleng-1] == 'M'
 				      || yytext[yyleng-1] == 'm')
 				    yylval.integer *= 1024 * 1024;
 				  if (yytext[yyleng-1] == 'K'
 				      || yytext[yyleng-1]=='k')
 				    yylval.integer *= 1024;
 				  return INT;
 				}
 <BOTH,SCRIPT,EXPRESSION,MRI>"]"		{ RTOKEN(']');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"["		{ RTOKEN('[');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"<<="	{ RTOKEN(LSHIFTEQ);}
 <BOTH,SCRIPT,EXPRESSION,MRI>">>="	{ RTOKEN(RSHIFTEQ);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"||"	{ RTOKEN(OROR);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"=="	{ RTOKEN(EQ);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"!="	{ RTOKEN(NE);}
 <BOTH,SCRIPT,EXPRESSION,MRI>">="	{ RTOKEN(GE);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"<="	{ RTOKEN(LE);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"<<"	{ RTOKEN(LSHIFT);}
 <BOTH,SCRIPT,EXPRESSION,MRI>">>"	{ RTOKEN(RSHIFT);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"+="	{ RTOKEN(PLUSEQ);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"-="	{ RTOKEN(MINUSEQ);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"*="	{ RTOKEN(MULTEQ);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"/="	{ RTOKEN(DIVEQ);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"&="	{ RTOKEN(ANDEQ);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"|="	{ RTOKEN(OREQ);}
 <BOTH,SCRIPT,EXPRESSION,MRI>"&&"	{ RTOKEN(ANDAND);}
 <BOTH,SCRIPT,EXPRESSION,MRI>">"		{ RTOKEN('>');}
 <BOTH,SCRIPT,EXPRESSION,MRI>","		{ RTOKEN(',');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"&"		{ RTOKEN('&');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"|"		{ RTOKEN('|');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"~"		{ RTOKEN('~');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"!"		{ RTOKEN('!');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"?"		{ RTOKEN('?');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"*"		{ RTOKEN('*');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"+"		{ RTOKEN('+');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"-"		{ RTOKEN('-');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"/"		{ RTOKEN('/');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"%"		{ RTOKEN('%');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"<"		{ RTOKEN('<');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"="          { RTOKEN('=');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"}"			{ RTOKEN('}') ; }
 <BOTH,SCRIPT,EXPRESSION,MRI>"{"			{ RTOKEN('{'); }
 <BOTH,SCRIPT,EXPRESSION,MRI>")"			{ RTOKEN(')');}
 <BOTH,SCRIPT,EXPRESSION,MRI>"("			{ RTOKEN('(');}
 <BOTH,SCRIPT,EXPRESSION,MRI>":"		{ RTOKEN(':'); }
 <BOTH,SCRIPT,EXPRESSION,MRI>";"		{ RTOKEN(';');}
 <BOTH,SCRIPT>"MEMORY"		{ RTOKEN(MEMORY);}
 <BOTH,SCRIPT>"ORIGIN"		{ RTOKEN(ORIGIN);}
 <BOTH,SCRIPT>"VERSION"		{ RTOKEN(VERSIONK);}
 <EXPRESSION,BOTH,SCRIPT>"BLOCK"		{ RTOKEN(BLOCK);}
 <EXPRESSION,BOTH,SCRIPT>"BIND"		{ RTOKEN(BIND);}
 <BOTH,SCRIPT>"LENGTH"		{ RTOKEN(LENGTH);}
 <EXPRESSION,BOTH,SCRIPT>"ALIGN"			{ RTOKEN(ALIGN_K);}
 <EXPRESSION,BOTH,SCRIPT>"ADDR"			{ RTOKEN(ADDR);}
 <EXPRESSION,BOTH,SCRIPT>"LOADADDR"		{ RTOKEN(LOADADDR);}
 <EXPRESSION,BOTH>"MAX"			{ RTOKEN(MAX_K); }
 <EXPRESSION,BOTH>"MIN"			{ RTOKEN(MIN_K); }
 <EXPRESSION,BOTH>"ASSERT"		{ RTOKEN(ASSERT_K); }
 <BOTH,SCRIPT>"ENTRY"			{ RTOKEN(ENTRY);}
 <BOTH,SCRIPT,MRI>"EXTERN"		{ RTOKEN(EXTERN);}
 <EXPRESSION,BOTH,SCRIPT>"NEXT"			{ RTOKEN(NEXT);}
 <EXPRESSION,BOTH,SCRIPT>"sizeof_headers"	{ RTOKEN(SIZEOF_HEADERS);}
 <EXPRESSION,BOTH,SCRIPT>"SIZEOF_HEADERS"	{ RTOKEN(SIZEOF_HEADERS);}
 <BOTH,SCRIPT>"MAP"			{ RTOKEN(MAP);}
 <EXPRESSION,BOTH,SCRIPT>"SIZEOF"		{ RTOKEN(SIZEOF);}
 <BOTH,SCRIPT>"TARGET"		{ RTOKEN(TARGET_K);}
 <BOTH,SCRIPT>"SEARCH_DIR"		{ RTOKEN(SEARCH_DIR);}
 <BOTH,SCRIPT>"OUTPUT"		{ RTOKEN(OUTPUT);}
 <BOTH,SCRIPT>"INPUT"			{ RTOKEN(INPUT);}
 <EXPRESSION,BOTH,SCRIPT>"GROUP"		{ RTOKEN(GROUP);}
 <EXPRESSION,BOTH,SCRIPT>"DEFINED"		{ RTOKEN(DEFINED);}
 <BOTH,SCRIPT>"CREATE_OBJECT_SYMBOLS"	{ RTOKEN(CREATE_OBJECT_SYMBOLS);}
 <BOTH,SCRIPT>"CONSTRUCTORS"		{ RTOKEN( CONSTRUCTORS);}
 <BOTH,SCRIPT>"FORCE_COMMON_ALLOCATION" { RTOKEN(FORCE_COMMON_ALLOCATION);}
 <BOTH,SCRIPT>"SECTIONS"		{ RTOKEN(SECTIONS);}
 <BOTH,SCRIPT>"FILL"			{ RTOKEN(FILL);}
 <BOTH,SCRIPT>"STARTUP"		{ RTOKEN(STARTUP);}
 <BOTH,SCRIPT>"OUTPUT_FORMAT"		{ RTOKEN(OUTPUT_FORMAT);}
 <BOTH,SCRIPT>"OUTPUT_ARCH"		{ RTOKEN( OUTPUT_ARCH);}
 <BOTH,SCRIPT>"HLL"			{ RTOKEN(HLL);}
 <BOTH,SCRIPT>"SYSLIB"		{ RTOKEN(SYSLIB);}
 <BOTH,SCRIPT>"FLOAT"			{ RTOKEN(FLOAT);}
 <BOTH,SCRIPT>"QUAD"			{ RTOKEN( QUAD);}
 <BOTH,SCRIPT>"SQUAD"			{ RTOKEN( SQUAD);}
 <BOTH,SCRIPT>"LONG"			{ RTOKEN( LONG);}
 <BOTH,SCRIPT>"SHORT"			{ RTOKEN( SHORT);}
 <BOTH,SCRIPT>"BYTE"			{ RTOKEN( BYTE);}
 <BOTH,SCRIPT>"NOFLOAT"		{ RTOKEN(NOFLOAT);}
 <EXPRESSION,BOTH,SCRIPT>"NOCROSSREFS"	{ RTOKEN(NOCROSSREFS);}
 <BOTH,SCRIPT>"OVERLAY"			{ RTOKEN(OVERLAY); }
 <BOTH,SCRIPT>"SORT"			{ RTOKEN(SORT); }
 <EXPRESSION,BOTH,SCRIPT>"NOLOAD"	{ RTOKEN(NOLOAD);}
 <EXPRESSION,BOTH,SCRIPT>"DSECT"		{ RTOKEN(DSECT);}
 <EXPRESSION,BOTH,SCRIPT>"COPY"		{ RTOKEN(COPY);}
 <EXPRESSION,BOTH,SCRIPT>"INFO"		{ RTOKEN(INFO);}
 <EXPRESSION,BOTH,SCRIPT>"OVERLAY"	{ RTOKEN(OVERLAY);}
 <BOTH,SCRIPT>"o"			{ RTOKEN(ORIGIN);}
 <BOTH,SCRIPT>"org"			{ RTOKEN(ORIGIN);}
 <BOTH,SCRIPT>"l"			{ RTOKEN( LENGTH);}
 <BOTH,SCRIPT>"len"			{ RTOKEN( LENGTH);}
 <BOTH,SCRIPT>"INCLUDE"			{ RTOKEN(INCLUDE);}
 <BOTH,SCRIPT>"PHDRS"			{ RTOKEN (PHDRS); }
 <EXPRESSION,BOTH,SCRIPT>"AT"			{ RTOKEN(AT);}
 <EXPRESSION,BOTH,SCRIPT>"PROVIDE"		{ RTOKEN(PROVIDE); }
 <EXPRESSION,BOTH,SCRIPT>"KEEP"		{ RTOKEN(KEEP); }
 <EXPRESSION,BOTH,SCRIPT>"EXCLUDE_FILE"        { RTOKEN(EXCLUDE_FILE); }
 <MRI>"#".*\n?			{ ++ lineno; }
 <MRI>"\n"	                { ++ lineno;  RTOKEN(NEWLINE); }
 <MRI>"*".*			{ /* Mri comment line */ }
 <MRI>";".*			{ /* Mri comment line */ }
 <MRI>"END"                      { RTOKEN(ENDWORD); }
 <MRI>"ALIGNMOD"		{ RTOKEN(ALIGNMOD);}
 <MRI>"ALIGN"		{ RTOKEN(ALIGN_K);}
 <MRI>"CHIP"                     { RTOKEN(CHIP); }
 <MRI>"BASE"                     { RTOKEN(BASE); }
 <MRI>"ALIAS"                     { RTOKEN(ALIAS); }
 <MRI>"TRUNCATE"                     { RTOKEN(TRUNCATE); }
 <MRI>"LOAD"                     { RTOKEN(LOAD); }
 <MRI>"PUBLIC"                   { RTOKEN(PUBLIC); }
 <MRI>"ORDER"                    { RTOKEN(ORDER); }
 <MRI>"NAME"                     { RTOKEN(NAMEWORD); }
 <MRI>"FORMAT"                   { RTOKEN(FORMAT); }
 <MRI>"CASE"                     { RTOKEN(CASE); }
 <MRI>"START"                    { RTOKEN(START); }
 <MRI>"LIST".*                   { RTOKEN(LIST); /* LIST and ignore to end of line */ }
 <MRI>"SECT"			{ RTOKEN(SECT); }
 <EXPRESSION,BOTH,SCRIPT,MRI>"ABSOLUTE"			{ RTOKEN(ABSOLUTE); }
 <MRI>"end"                      { RTOKEN(ENDWORD); }
 <MRI>"alignmod"		{ RTOKEN(ALIGNMOD);}
 <MRI>"align"		{ RTOKEN(ALIGN_K);}
 <MRI>"chip"                     { RTOKEN(CHIP); }
 <MRI>"base"                     { RTOKEN(BASE); }
 <MRI>"alias"                     { RTOKEN(ALIAS); }
 <MRI>"truncate"                     { RTOKEN(TRUNCATE); }
 <MRI>"load"                     { RTOKEN(LOAD); }
 <MRI>"public"                   { RTOKEN(PUBLIC); }
 <MRI>"order"                    { RTOKEN(ORDER); }
 <MRI>"name"                     { RTOKEN(NAMEWORD); }
 <MRI>"format"                   { RTOKEN(FORMAT); }
 <MRI>"case"                     { RTOKEN(CASE); }
 <MRI>"extern"                   { RTOKEN(EXTERN); }
 <MRI>"start"                    { RTOKEN(START); }
 <MRI>"list".*                   { RTOKEN(LIST); /* LIST and ignore to end of line */ }
 <MRI>"sect"			{ RTOKEN(SECT); }
 <EXPRESSION,BOTH,SCRIPT,MRI>"absolute"			{ RTOKEN(ABSOLUTE); }

 <MRI>{FILENAMECHAR1}{NOCFILENAMECHAR}*	{
 /* Filename without commas, needed to parse mri stuff */
 				 yylval.name = xstrdup(yytext);
 				  return NAME;
 				}


 <BOTH,EXPRESSION>{FILENAMECHAR1}{FILENAMECHAR}*	{
 				 yylval.name = xstrdup(yytext);
 				  return NAME;
 				}
 <BOTH,EXPRESSION>"-l"{FILENAMECHAR}+ {
 				  yylval.name = xstrdup (yytext + 2);
 				  return LNAME;
 				}
 <SCRIPT>{WILDCHAR}* {
 		/* Annoyingly, this pattern can match comments, and we have
 		   longest match issues to consider.  So if the first two
 		   characters are a comment opening, put the input back and
 		   try again.  */
 		if (yytext[0] == '/' && yytext[1] == '*')
 		  {
 		    yyless(2);
 		    comment ();
 		  }
 		else
 		  {
 		    yylval.name = xstrdup(yytext);
 		    return NAME;
 		  }
 	}

 <EXPRESSION,BOTH,SCRIPT,VERS_NODE>"\""[^\"]*"\"" {
 					/* No matter the state, quotes
 					   give what's inside */
 					yylval.name = xstrdup(yytext+1);
 					yylval.name[yyleng-2] = 0;
 					return NAME;
 				}
 <BOTH,SCRIPT,EXPRESSION>"\n"		{ lineno++;}
 <MRI,BOTH,SCRIPT,EXPRESSION>[ \t\r]+	{ }

 <VERS_NODE,VERS_SCRIPT>[:,;]	{ return *yytext; }

 <VERS_NODE>global		{ RTOKEN(GLOBAL); }

 <VERS_NODE>local		{ RTOKEN(LOCAL); }

 <VERS_NODE>extern		{ RTOKEN(EXTERN); }

 <VERS_NODE>{V_IDENTIFIER}	{ yylval.name = xstrdup (yytext);
 				  return VERS_IDENTIFIER; }

 <VERS_SCRIPT>{V_TAG}		{ yylval.name = xstrdup (yytext);
 				  return VERS_TAG; }

 <VERS_START>"{"			{ BEGIN(VERS_SCRIPT); return *yytext; }

 <VERS_SCRIPT>"{"		{ BEGIN(VERS_NODE);
 				  vers_node_nesting = 0;
 				  return *yytext;
 				}
 <VERS_SCRIPT>"}"		{ return *yytext; }
 <VERS_NODE>"{"			{ vers_node_nesting++; return *yytext; }
 <VERS_NODE>"}"			{ if (--vers_node_nesting < 0)
 				    BEGIN(VERS_SCRIPT);
 				  return *yytext;
 				}

 <VERS_START,VERS_NODE,VERS_SCRIPT>[\n]		{ lineno++; }

 <VERS_START,VERS_NODE,VERS_SCRIPT>#.*		{ /* Eat up comments */ }

 <VERS_START,VERS_NODE,VERS_SCRIPT>[ \t\r]+   	{ /* Eat up whitespace */ }

 <<EOF>> {
   include_stack_ptr--;

   if (include_stack_ptr == 0)
   {
     yyterminate();
   }
   else
   {
     yy_switch_to_buffer(include_stack[include_stack_ptr]);

   }
   BEGIN(SCRIPT);
   ldfile_input_filename = file_name_stack[include_stack_ptr - 1];
   lineno = lineno_stack[include_stack_ptr - 1];

   return END;
 }

 <SCRIPT,MRI,VERS_START,VERS_SCRIPT,VERS_NODE>.	lex_warn_invalid(" in script", yytext);
 <EXPRESSION,DEFSYMEXP,BOTH>.	lex_warn_invalid(" in expression", yytext);

 %%


 /* Switch flex to reading script file NAME, open on FILE,
    saving the current input info on the include stack.  */

 void
 lex_push_file (file, name)
      FILE *file;
      const char *name;
 {
   if (include_stack_ptr >= MAX_INCLUDE_DEPTH)
     {
       einfo("%F:includes nested too deeply\n");
     }
   file_name_stack[include_stack_ptr] = name;
   lineno_stack[include_stack_ptr] = 1;
   include_stack[include_stack_ptr] = YY_CURRENT_BUFFER;

   include_stack_ptr++;
   yyin = file;
   yy_switch_to_buffer(yy_create_buffer(yyin, YY_BUF_SIZE));
   BEGIN (SCRIPT);
 }

 /* Return a newly created flex input buffer containing STRING,
    which is SIZE bytes long.  */

 static YY_BUFFER_STATE
 yy_create_string_buffer (string, size)
      CONST char *string;
      size_t size;
 {
   YY_BUFFER_STATE b;

   /* Calls to m-alloc get turned by sed into xm-alloc.  */
   b = (YY_BUFFER_STATE) malloc (sizeof (struct yy_buffer_state));
   b->yy_input_file = 0;
   b->yy_buf_size = size;

   /* yy_ch_buf has to be 2 characters longer than the size given because
      we need to put in 2 end-of-buffer characters.  */
   b->yy_ch_buf = (char *) malloc ((unsigned) (b->yy_buf_size + 3));

   b->yy_ch_buf[0] = '\n';
   strcpy (b->yy_ch_buf+1, string);
   b->yy_ch_buf[size+1] = YY_END_OF_BUFFER_CHAR;
   b->yy_ch_buf[size+2] = YY_END_OF_BUFFER_CHAR;
   b->yy_n_chars = size+1;
   b->yy_buf_pos = &b->yy_ch_buf[1];

   b->yy_is_our_buffer = 1;
   b->yy_is_interactive = 0;
   b->yy_at_bol = 1;
   b->yy_fill_buffer = 0;

   /* flex 2.4.7 changed the interface.  FIXME: We should not be using
      a flex internal interface in the first place!  */
 #ifdef YY_BUFFER_NEW
   b->yy_buffer_status = YY_BUFFER_NEW;
 #else
   b->yy_eof_status = EOF_NOT_SEEN;
 #endif

   return b;
 }

 /* Switch flex to reading from STRING, saving the current input info
    on the include stack.  */

 void
 lex_redirect (string)
      CONST char *string;
 {
   YY_BUFFER_STATE tmp;

   yy_init = 0;
   if (include_stack_ptr >= MAX_INCLUDE_DEPTH)
     {
       einfo("%F: macros nested too deeply\n");
     }
   file_name_stack[include_stack_ptr] = "redirect";
   lineno_stack[include_stack_ptr] = 0;
   include_stack[include_stack_ptr] = YY_CURRENT_BUFFER;
   include_stack_ptr++;
   tmp = yy_create_string_buffer (string, strlen (string));
   yy_switch_to_buffer (tmp);
   BEGIN (SCRIPT);
 }

 /* Functions to switch to a different flex start condition,
    saving the current start condition on `state_stack'.  */

 static int state_stack[MAX_INCLUDE_DEPTH * 2];
 static int *state_stack_p = state_stack;

 void
 ldlex_script ()
 {
   *(state_stack_p)++ = yy_start;
   BEGIN (SCRIPT);
 }

 void
 ldlex_mri_script ()
 {
   *(state_stack_p)++ = yy_start;
   BEGIN (MRI);
 }

 void
 ldlex_version_script ()
 {
   *(state_stack_p)++ = yy_start;
   BEGIN (VERS_START);
 }

 void
 ldlex_version_file ()
 {
   *(state_stack_p)++ = yy_start;
   BEGIN (VERS_SCRIPT);
 }

 void
 ldlex_defsym ()
 {
   *(state_stack_p)++ = yy_start;
   BEGIN (DEFSYMEXP);
 }

 void
 ldlex_expression ()
 {
   *(state_stack_p)++ = yy_start;
   BEGIN (EXPRESSION);
 }

 void
 ldlex_both ()
 {
   *(state_stack_p)++ = yy_start;
   BEGIN (BOTH);
 }

 void
 ldlex_popstate ()
 {
   yy_start = *(--state_stack_p);
 }


 /* Place up to MAX_SIZE characters in BUF and return in *RESULT
    either the number of characters read, or 0 to indicate EOF.  */

 static void
 yy_input (buf, result, max_size)
      char *buf;
      int *result;
      int max_size;
 {
   *result = 0;
   if (yy_current_buffer->yy_input_file)
     {
       if (yyin)
 	{
 	  *result = read (fileno (yyin), (char *) buf, max_size);
 	  if (*result < 0)
 	    einfo ("%F%P: read in flex scanner failed\n");
 	}
     }
 }

 /* Eat the rest of a C-style comment.  */

 static void
 comment ()
 {
   int c;

   while (1)
   {
     c = input();
     while (c != '*' && c != EOF)
     {
       if (c == '\n')
 	lineno++;
       c = input();
     }

     if (c == '*')
     {
       c = input();
       while (c == '*')
        c = input();
       if (c == '/')
        break;			/* found the end */
     }

     if (c == '\n')
       lineno++;

     if (c == EOF)
     {
       einfo( "%F%P: EOF in comment\n");
       break;
     }
   }
 }

 /* Warn the user about a garbage character WHAT in the input
    in context WHERE.  */

 static void
 lex_warn_invalid (where, what)
      char *where, *what;
 {
   char buf[5];

   /* If we have found an input file whose format we do not recognize,
      and we are therefore treating it as a linker script, and we find
      an invalid character, then most likely this is a real object file
      of some different format.  Treat it as such.  */
   if (ldfile_assumed_script)
     {
       bfd_set_error (bfd_error_file_not_recognized);
       einfo ("%F%s: file not recognized: %E\n", ldfile_input_filename);
     }

   if (! isprint ((unsigned char) *what))
     {
       sprintf (buf, "\\%03o", (unsigned int) *what);
       what = buf;
     }

   einfo ("%P:%S: ignoring invalid character `%s'%s\n", what, where);
 }
	%{

	/* Copyright 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000
	Free Software Foundation, Inc.

	This file is part of GLD, the Gnu Linker.

	GLD 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.

	GLD 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 GLD; see the file COPYING. If not, write to the Free
	Software Foundation, 59 Temple Place - Suite 330, Boston, MA
	02111-1307, USA. */

	/*
	This was written by steve chamberlain
	sac@cygnus.com
	*/


	#include <ansidecl.h>
	#include <stdio.h>
	#include <ctype.h>

	#ifdef MPW
	/* Prevent enum redefinition problems. */
	#define TRUE_FALSE_ALREADY_DEFINED
	#endif /* MPW */

	#include "bfd.h"
	#include "sysdep.h"
	#include "ld.h"
	#include "ldgram.h"
	#include "ldmisc.h"
	#include "ldexp.h"
	#include "ldlang.h"
	#include "ldfile.h"
	#include "ldlex.h"
	#include "ldmain.h"
	#include "libiberty.h"

	/* The type of top-level parser input.
	yylex and yyparse (indirectly) both check this. */
	input_type parser_input;

	/* Line number in the current input file.
	(FIXME Actually, it doesn't appear to get reset for each file?) */
	unsigned int lineno = 1;

	/* The string we are currently lexing, or NULL if we are reading a
	file. */
	const char *lex_string = NULL;

	/* Support for flex reading from more than one input file (stream).
	`include_stack' is flex's input state for each open file;
	`file_name_stack' is the file names. `lineno_stack' is the current
	line numbers.

	If `include_stack_ptr' is 0, we haven't started reading anything yet.
	Otherwise, stack elements 0 through `include_stack_ptr - 1' are valid. */

	#undef YY_INPUT
	#define YY_INPUT(buf,result,max_size) yy_input(buf, &result, max_size)

	#define MAX_INCLUDE_DEPTH 10
	static YY_BUFFER_STATE include_stack[MAX_INCLUDE_DEPTH];
	static const char *file_name_stack[MAX_INCLUDE_DEPTH];
	static unsigned int lineno_stack[MAX_INCLUDE_DEPTH];
	static unsigned int include_stack_ptr = 0;
	static int vers_node_nesting = 0;

	static YY_BUFFER_STATE yy_create_string_buffer PARAMS ((const char *string,
	size_t size));
	static void yy_input PARAMS ((char , int result, int max_size));

	static void comment PARAMS ((void));
	static void lex_warn_invalid PARAMS ((char where, char what));

	/* STATES
	EXPRESSION definitely in an expression
	SCRIPT definitely in a script
	BOTH either EXPRESSION or SCRIPT
	DEFSYMEXP in an argument to -defsym
	MRI in an MRI script
	VERS_START starting a Sun style mapfile
	VERS_SCRIPT a Sun style mapfile
	VERS_NODE a node within a Sun style mapfile
	*/
	#define RTOKEN(x) { yylval.token = x; return x; }

	/* Some versions of flex want this. */
	#ifndef yywrap
	int yywrap () { return 1; }
	#endif
	%}

	%a 4000
	%o 5000

	CMDFILENAMECHAR [_a-zA-Z0-9\/\.\\_\+\$\:\[\]\\\,\=\&\!\<\>\-\~]
	CMDFILENAMECHAR1 [_a-zA-Z0-9\/\.\\_\+\$\:\[\]\\\,\=\&\!\<\>\~]
	FILENAMECHAR1 [_a-zA-Z\/\.\\\$\_\~]
	SYMBOLCHARN [_a-zA-Z\/\.\\\$\_\~0-9]
	FILENAMECHAR [_a-zA-Z0-9\/\.\-\_\+\=\$\:\[\]\\\,\~]
	WILDCHAR [_a-zA-Z0-9\/\.\-\_\+\=\$\:\[\]\\\,\~\?\*]
	WHITE [ \t\n\r]+

	NOCFILENAMECHAR [_a-zA-Z0-9\/\.\-\_\+\$\:\[\]\\\~]

	V_TAG [.$_a-zA-Z][._a-zA-Z0-9]*
	V_IDENTIFIER [?.$_a-zA-Z]([?.$_a-zA-Z0-9]\|::)*

	%s SCRIPT
	%s EXPRESSION
	%s BOTH
	%s DEFSYMEXP
	%s MRI
	%s VERS_START
	%s VERS_SCRIPT
	%s VERS_NODE
	%%

	if (parser_input != input_selected)
	{
	/* The first token of the input determines the initial parser state. */
	input_type t = parser_input;
	parser_input = input_selected;
	switch (t)
	{
	case input_script: return INPUT_SCRIPT; break;
	case input_mri_script: return INPUT_MRI_SCRIPT; break;
	case input_version_script: return INPUT_VERSION_SCRIPT; break;
	case input_defsym: return INPUT_DEFSYM; break;
	default: abort ();
	}
	}

	<BOTH,SCRIPT,EXPRESSION>"/*" { comment(); }


	<DEFSYMEXP>"-" { RTOKEN('-');}
	<DEFSYMEXP>"+" { RTOKEN('+');}
	<DEFSYMEXP>{FILENAMECHAR1}{SYMBOLCHARN}* { yylval.name = xstrdup(yytext); return NAME; }
	<DEFSYMEXP>"=" { RTOKEN('='); }

	<MRI,EXPRESSION>"$"([0-9A-Fa-f])+ {
	yylval.integer = bfd_scan_vma (yytext+1, 0,16);
	return INT;
	}

	<MRI,EXPRESSION>([0-9A-Fa-f])+(H\|h\|X\|x\|B\|b\|O\|o\|D\|d) {
	int ibase ;
	switch (yytext[yyleng-1]) {
	case 'X':
	case 'x':
	case 'H':
	case 'h':
	ibase = 16;
	break;
	case 'O':
	case 'o':
	ibase = 8;
	break;
	case 'B':
	case 'b':
	ibase = 2;
	break;
	default:
	ibase = 10;
	}
	yylval.integer = bfd_scan_vma (yytext, 0,
	ibase);
	return INT;
	}
	<SCRIPT,DEFSYMEXP,MRI,BOTH,EXPRESSION>((("$"\|"0x")([0-9A-Fa-f])+)\|(([0-9])+))(M\|K\|m\|k)? {
	char *s = yytext;

	if (*s == '$')
	++s;
	yylval.integer = bfd_scan_vma (s, 0, 0);
	if (yytext[yyleng-1] == 'M'
	\|\| yytext[yyleng-1] == 'm')
	yylval.integer = 1024 1024;
	if (yytext[yyleng-1] == 'K'
	\|\| yytext[yyleng-1]=='k')
	yylval.integer *= 1024;
	return INT;
	}
	<BOTH,SCRIPT,EXPRESSION,MRI>"]" { RTOKEN(']');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"[" { RTOKEN('[');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"<<=" { RTOKEN(LSHIFTEQ);}
	<BOTH,SCRIPT,EXPRESSION,MRI>">>=" { RTOKEN(RSHIFTEQ);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"\|\|" { RTOKEN(OROR);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"==" { RTOKEN(EQ);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"!=" { RTOKEN(NE);}
	<BOTH,SCRIPT,EXPRESSION,MRI>">=" { RTOKEN(GE);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"<=" { RTOKEN(LE);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"<<" { RTOKEN(LSHIFT);}
	<BOTH,SCRIPT,EXPRESSION,MRI>">>" { RTOKEN(RSHIFT);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"+=" { RTOKEN(PLUSEQ);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"-=" { RTOKEN(MINUSEQ);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"*=" { RTOKEN(MULTEQ);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"/=" { RTOKEN(DIVEQ);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"&=" { RTOKEN(ANDEQ);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"\|=" { RTOKEN(OREQ);}
	<BOTH,SCRIPT,EXPRESSION,MRI>"&&" { RTOKEN(ANDAND);}
	<BOTH,SCRIPT,EXPRESSION,MRI>">" { RTOKEN('>');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"," { RTOKEN(',');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"&" { RTOKEN('&');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"\|" { RTOKEN('\|');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"~" { RTOKEN('~');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"!" { RTOKEN('!');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"?" { RTOKEN('?');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"" { RTOKEN('');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"+" { RTOKEN('+');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"-" { RTOKEN('-');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"/" { RTOKEN('/');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"%" { RTOKEN('%');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"<" { RTOKEN('<');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"=" { RTOKEN('=');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"}" { RTOKEN('}') ; }
	<BOTH,SCRIPT,EXPRESSION,MRI>"{" { RTOKEN('{'); }
	<BOTH,SCRIPT,EXPRESSION,MRI>")" { RTOKEN(')');}
	<BOTH,SCRIPT,EXPRESSION,MRI>"(" { RTOKEN('(');}
	<BOTH,SCRIPT,EXPRESSION,MRI>":" { RTOKEN(':'); }
	<BOTH,SCRIPT,EXPRESSION,MRI>";" { RTOKEN(';');}
	<BOTH,SCRIPT>"MEMORY" { RTOKEN(MEMORY);}
	<BOTH,SCRIPT>"ORIGIN" { RTOKEN(ORIGIN);}
	<BOTH,SCRIPT>"VERSION" { RTOKEN(VERSIONK);}
	<EXPRESSION,BOTH,SCRIPT>"BLOCK" { RTOKEN(BLOCK);}
	<EXPRESSION,BOTH,SCRIPT>"BIND" { RTOKEN(BIND);}
	<BOTH,SCRIPT>"LENGTH" { RTOKEN(LENGTH);}
	<EXPRESSION,BOTH,SCRIPT>"ALIGN" { RTOKEN(ALIGN_K);}
	<EXPRESSION,BOTH,SCRIPT>"ADDR" { RTOKEN(ADDR);}
	<EXPRESSION,BOTH,SCRIPT>"LOADADDR" { RTOKEN(LOADADDR);}
	<EXPRESSION,BOTH>"MAX" { RTOKEN(MAX_K); }
	<EXPRESSION,BOTH>"MIN" { RTOKEN(MIN_K); }
	<EXPRESSION,BOTH>"ASSERT" { RTOKEN(ASSERT_K); }
	<BOTH,SCRIPT>"ENTRY" { RTOKEN(ENTRY);}
	<BOTH,SCRIPT,MRI>"EXTERN" { RTOKEN(EXTERN);}
	<EXPRESSION,BOTH,SCRIPT>"NEXT" { RTOKEN(NEXT);}
	<EXPRESSION,BOTH,SCRIPT>"sizeof_headers" { RTOKEN(SIZEOF_HEADERS);}
	<EXPRESSION,BOTH,SCRIPT>"SIZEOF_HEADERS" { RTOKEN(SIZEOF_HEADERS);}
	<BOTH,SCRIPT>"MAP" { RTOKEN(MAP);}
	<EXPRESSION,BOTH,SCRIPT>"SIZEOF" { RTOKEN(SIZEOF);}
	<BOTH,SCRIPT>"TARGET" { RTOKEN(TARGET_K);}
	<BOTH,SCRIPT>"SEARCH_DIR" { RTOKEN(SEARCH_DIR);}
	<BOTH,SCRIPT>"OUTPUT" { RTOKEN(OUTPUT);}
	<BOTH,SCRIPT>"INPUT" { RTOKEN(INPUT);}
	<EXPRESSION,BOTH,SCRIPT>"GROUP" { RTOKEN(GROUP);}
	<EXPRESSION,BOTH,SCRIPT>"DEFINED" { RTOKEN(DEFINED);}
	<BOTH,SCRIPT>"CREATE_OBJECT_SYMBOLS" { RTOKEN(CREATE_OBJECT_SYMBOLS);}
	<BOTH,SCRIPT>"CONSTRUCTORS" { RTOKEN( CONSTRUCTORS);}
	<BOTH,SCRIPT>"FORCE_COMMON_ALLOCATION" { RTOKEN(FORCE_COMMON_ALLOCATION);}
	<BOTH,SCRIPT>"SECTIONS" { RTOKEN(SECTIONS);}
	<BOTH,SCRIPT>"FILL" { RTOKEN(FILL);}
	<BOTH,SCRIPT>"STARTUP" { RTOKEN(STARTUP);}
	<BOTH,SCRIPT>"OUTPUT_FORMAT" { RTOKEN(OUTPUT_FORMAT);}
	<BOTH,SCRIPT>"OUTPUT_ARCH" { RTOKEN( OUTPUT_ARCH);}
	<BOTH,SCRIPT>"HLL" { RTOKEN(HLL);}
	<BOTH,SCRIPT>"SYSLIB" { RTOKEN(SYSLIB);}
	<BOTH,SCRIPT>"FLOAT" { RTOKEN(FLOAT);}
	<BOTH,SCRIPT>"QUAD" { RTOKEN( QUAD);}
	<BOTH,SCRIPT>"SQUAD" { RTOKEN( SQUAD);}
	<BOTH,SCRIPT>"LONG" { RTOKEN( LONG);}
	<BOTH,SCRIPT>"SHORT" { RTOKEN( SHORT);}
	<BOTH,SCRIPT>"BYTE" { RTOKEN( BYTE);}
	<BOTH,SCRIPT>"NOFLOAT" { RTOKEN(NOFLOAT);}
	<EXPRESSION,BOTH,SCRIPT>"NOCROSSREFS" { RTOKEN(NOCROSSREFS);}
	<BOTH,SCRIPT>"OVERLAY" { RTOKEN(OVERLAY); }
	<BOTH,SCRIPT>"SORT" { RTOKEN(SORT); }
	<EXPRESSION,BOTH,SCRIPT>"NOLOAD" { RTOKEN(NOLOAD);}
	<EXPRESSION,BOTH,SCRIPT>"DSECT" { RTOKEN(DSECT);}
	<EXPRESSION,BOTH,SCRIPT>"COPY" { RTOKEN(COPY);}
	<EXPRESSION,BOTH,SCRIPT>"INFO" { RTOKEN(INFO);}
	<EXPRESSION,BOTH,SCRIPT>"OVERLAY" { RTOKEN(OVERLAY);}
	<BOTH,SCRIPT>"o" { RTOKEN(ORIGIN);}
	<BOTH,SCRIPT>"org" { RTOKEN(ORIGIN);}
	<BOTH,SCRIPT>"l" { RTOKEN( LENGTH);}
	<BOTH,SCRIPT>"len" { RTOKEN( LENGTH);}
	<BOTH,SCRIPT>"INCLUDE" { RTOKEN(INCLUDE);}
	<BOTH,SCRIPT>"PHDRS" { RTOKEN (PHDRS); }
	<EXPRESSION,BOTH,SCRIPT>"AT" { RTOKEN(AT);}
	<EXPRESSION,BOTH,SCRIPT>"PROVIDE" { RTOKEN(PROVIDE); }
	<EXPRESSION,BOTH,SCRIPT>"KEEP" { RTOKEN(KEEP); }
	<EXPRESSION,BOTH,SCRIPT>"EXCLUDE_FILE" { RTOKEN(EXCLUDE_FILE); }
	<MRI>"#".*\n? { ++ lineno; }
	<MRI>"\n" { ++ lineno; RTOKEN(NEWLINE); }
	<MRI>"". { /* Mri comment line */ }
	<MRI>";".* { /* Mri comment line */ }
	<MRI>"END" { RTOKEN(ENDWORD); }
	<MRI>"ALIGNMOD" { RTOKEN(ALIGNMOD);}
	<MRI>"ALIGN" { RTOKEN(ALIGN_K);}
	<MRI>"CHIP" { RTOKEN(CHIP); }
	<MRI>"BASE" { RTOKEN(BASE); }
	<MRI>"ALIAS" { RTOKEN(ALIAS); }
	<MRI>"TRUNCATE" { RTOKEN(TRUNCATE); }
	<MRI>"LOAD" { RTOKEN(LOAD); }
	<MRI>"PUBLIC" { RTOKEN(PUBLIC); }
	<MRI>"ORDER" { RTOKEN(ORDER); }
	<MRI>"NAME" { RTOKEN(NAMEWORD); }
	<MRI>"FORMAT" { RTOKEN(FORMAT); }
	<MRI>"CASE" { RTOKEN(CASE); }
	<MRI>"START" { RTOKEN(START); }
	<MRI>"LIST".* { RTOKEN(LIST); /* LIST and ignore to end of line */ }
	<MRI>"SECT" { RTOKEN(SECT); }
	<EXPRESSION,BOTH,SCRIPT,MRI>"ABSOLUTE" { RTOKEN(ABSOLUTE); }
	<MRI>"end" { RTOKEN(ENDWORD); }
	<MRI>"alignmod" { RTOKEN(ALIGNMOD);}
	<MRI>"align" { RTOKEN(ALIGN_K);}
	<MRI>"chip" { RTOKEN(CHIP); }
	<MRI>"base" { RTOKEN(BASE); }
	<MRI>"alias" { RTOKEN(ALIAS); }
	<MRI>"truncate" { RTOKEN(TRUNCATE); }
	<MRI>"load" { RTOKEN(LOAD); }
	<MRI>"public" { RTOKEN(PUBLIC); }
	<MRI>"order" { RTOKEN(ORDER); }
	<MRI>"name" { RTOKEN(NAMEWORD); }
	<MRI>"format" { RTOKEN(FORMAT); }
	<MRI>"case" { RTOKEN(CASE); }
	<MRI>"extern" { RTOKEN(EXTERN); }
	<MRI>"start" { RTOKEN(START); }
	<MRI>"list".* { RTOKEN(LIST); /* LIST and ignore to end of line */ }
	<MRI>"sect" { RTOKEN(SECT); }
	<EXPRESSION,BOTH,SCRIPT,MRI>"absolute" { RTOKEN(ABSOLUTE); }

	<MRI>{FILENAMECHAR1}{NOCFILENAMECHAR}* {
	/* Filename without commas, needed to parse mri stuff */
	yylval.name = xstrdup(yytext);
	return NAME;
	}


	<BOTH,EXPRESSION>{FILENAMECHAR1}{FILENAMECHAR}* {
	yylval.name = xstrdup(yytext);
	return NAME;
	}
	<BOTH,EXPRESSION>"-l"{FILENAMECHAR}+ {
	yylval.name = xstrdup (yytext + 2);
	return LNAME;
	}
	<SCRIPT>{WILDCHAR}* {
	/* Annoyingly, this pattern can match comments, and we have
	longest match issues to consider. So if the first two
	characters are a comment opening, put the input back and
	try again. */
	if (yytext[0] == '/' && yytext[1] == '*')
	{
	yyless(2);
	comment ();
	}
	else
	{
	yylval.name = xstrdup(yytext);
	return NAME;
	}
	}

	<EXPRESSION,BOTH,SCRIPT,VERS_NODE>"\""[^\"]*"\"" {
	/* No matter the state, quotes
	give what's inside */
	yylval.name = xstrdup(yytext+1);
	yylval.name[yyleng-2] = 0;
	return NAME;
	}
	<BOTH,SCRIPT,EXPRESSION>"\n" { lineno++;}
	<MRI,BOTH,SCRIPT,EXPRESSION>[ \t\r]+ { }

	<VERS_NODE,VERS_SCRIPT>[:,;] { return *yytext; }

	<VERS_NODE>global { RTOKEN(GLOBAL); }

	<VERS_NODE>local { RTOKEN(LOCAL); }

	<VERS_NODE>extern { RTOKEN(EXTERN); }

	<VERS_NODE>{V_IDENTIFIER} { yylval.name = xstrdup (yytext);
	return VERS_IDENTIFIER; }

	<VERS_SCRIPT>{V_TAG} { yylval.name = xstrdup (yytext);
	return VERS_TAG; }

	<VERS_START>"{" { BEGIN(VERS_SCRIPT); return *yytext; }

	<VERS_SCRIPT>"{" { BEGIN(VERS_NODE);
	vers_node_nesting = 0;
	return *yytext;
	}
	<VERS_SCRIPT>"}" { return *yytext; }
	<VERS_NODE>"{" { vers_node_nesting++; return *yytext; }
	<VERS_NODE>"}" { if (--vers_node_nesting < 0)
	BEGIN(VERS_SCRIPT);
	return *yytext;
	}

	<VERS_START,VERS_NODE,VERS_SCRIPT>[\n] { lineno++; }

	<VERS_START,VERS_NODE,VERS_SCRIPT>#.* { /* Eat up comments */ }

	<VERS_START,VERS_NODE,VERS_SCRIPT>[ \t\r]+ { /* Eat up whitespace */ }

	<<EOF>> {
	include_stack_ptr--;

	if (include_stack_ptr == 0)
	{
	yyterminate();
	}
	else
	{
	yy_switch_to_buffer(include_stack[include_stack_ptr]);

	}
	BEGIN(SCRIPT);
	ldfile_input_filename = file_name_stack[include_stack_ptr - 1];
	lineno = lineno_stack[include_stack_ptr - 1];

	return END;
	}

	<SCRIPT,MRI,VERS_START,VERS_SCRIPT,VERS_NODE>. lex_warn_invalid(" in script", yytext);
	<EXPRESSION,DEFSYMEXP,BOTH>. lex_warn_invalid(" in expression", yytext);

	%%


	/* Switch flex to reading script file NAME, open on FILE,
	saving the current input info on the include stack. */

	void
	lex_push_file (file, name)
	FILE *file;
	const char *name;
	{
	if (include_stack_ptr >= MAX_INCLUDE_DEPTH)
	{
	einfo("%F:includes nested too deeply\n");
	}
	file_name_stack[include_stack_ptr] = name;
	lineno_stack[include_stack_ptr] = 1;
	include_stack[include_stack_ptr] = YY_CURRENT_BUFFER;

	include_stack_ptr++;
	yyin = file;
	yy_switch_to_buffer(yy_create_buffer(yyin, YY_BUF_SIZE));
	BEGIN (SCRIPT);
	}

	/* Return a newly created flex input buffer containing STRING,
	which is SIZE bytes long. */

	static YY_BUFFER_STATE
	yy_create_string_buffer (string, size)
	CONST char *string;
	size_t size;
	{
	YY_BUFFER_STATE b;

	/* Calls to m-alloc get turned by sed into xm-alloc. */
	b = (YY_BUFFER_STATE) malloc (sizeof (struct yy_buffer_state));
	b->yy_input_file = 0;
	b->yy_buf_size = size;

	/* yy_ch_buf has to be 2 characters longer than the size given because
	we need to put in 2 end-of-buffer characters. */
	b->yy_ch_buf = (char *) malloc ((unsigned) (b->yy_buf_size + 3));

	b->yy_ch_buf[0] = '\n';
	strcpy (b->yy_ch_buf+1, string);
	b->yy_ch_buf[size+1] = YY_END_OF_BUFFER_CHAR;
	b->yy_ch_buf[size+2] = YY_END_OF_BUFFER_CHAR;
	b->yy_n_chars = size+1;
	b->yy_buf_pos = &b->yy_ch_buf[1];

	b->yy_is_our_buffer = 1;
	b->yy_is_interactive = 0;
	b->yy_at_bol = 1;
	b->yy_fill_buffer = 0;

	/* flex 2.4.7 changed the interface. FIXME: We should not be using
	a flex internal interface in the first place! */
	#ifdef YY_BUFFER_NEW
	b->yy_buffer_status = YY_BUFFER_NEW;
	#else
	b->yy_eof_status = EOF_NOT_SEEN;
	#endif

	return b;
	}

	/* Switch flex to reading from STRING, saving the current input info
	on the include stack. */

	void
	lex_redirect (string)
	CONST char *string;
	{
	YY_BUFFER_STATE tmp;

	yy_init = 0;
	if (include_stack_ptr >= MAX_INCLUDE_DEPTH)
	{
	einfo("%F: macros nested too deeply\n");
	}
	file_name_stack[include_stack_ptr] = "redirect";
	lineno_stack[include_stack_ptr] = 0;
	include_stack[include_stack_ptr] = YY_CURRENT_BUFFER;
	include_stack_ptr++;
	tmp = yy_create_string_buffer (string, strlen (string));
	yy_switch_to_buffer (tmp);
	BEGIN (SCRIPT);
	}

	/* Functions to switch to a different flex start condition,
	saving the current start condition on `state_stack'. */

	static int state_stack[MAX_INCLUDE_DEPTH * 2];
	static int *state_stack_p = state_stack;

	void
	ldlex_script ()
	{
	*(state_stack_p)++ = yy_start;
	BEGIN (SCRIPT);
	}

	void
	ldlex_mri_script ()
	{
	*(state_stack_p)++ = yy_start;
	BEGIN (MRI);
	}

	void
	ldlex_version_script ()
	{
	*(state_stack_p)++ = yy_start;
	BEGIN (VERS_START);
	}

	void
	ldlex_version_file ()
	{
	*(state_stack_p)++ = yy_start;
	BEGIN (VERS_SCRIPT);
	}

	void
	ldlex_defsym ()
	{
	*(state_stack_p)++ = yy_start;
	BEGIN (DEFSYMEXP);
	}

	void
	ldlex_expression ()
	{
	*(state_stack_p)++ = yy_start;
	BEGIN (EXPRESSION);
	}

	void
	ldlex_both ()
	{
	*(state_stack_p)++ = yy_start;
	BEGIN (BOTH);
	}

	void
	ldlex_popstate ()
	{
	yy_start = *(--state_stack_p);
	}


	/* Place up to MAX_SIZE characters in BUF and return in *RESULT
	either the number of characters read, or 0 to indicate EOF. */

	static void
	yy_input (buf, result, max_size)
	char *buf;
	int *result;
	int max_size;
	{
	*result = 0;
	if (yy_current_buffer->yy_input_file)
	{
	if (yyin)
	{
	result = read (fileno (yyin), (char ) buf, max_size);
	if (*result < 0)
	einfo ("%F%P: read in flex scanner failed\n");
	}
	}
	}

	/* Eat the rest of a C-style comment. */

	static void
	comment ()
	{
	int c;

	while (1)
	{
	c = input();
	while (c != '*' && c != EOF)
	{
	if (c == '\n')
	lineno++;
	c = input();
	}

	if (c == '*')
	{
	c = input();
	while (c == '*')
	c = input();
	if (c == '/')
	break; /* found the end */
	}

	if (c == '\n')
	lineno++;

	if (c == EOF)
	{
	einfo( "%F%P: EOF in comment\n");
	break;
	}
	}
	}

	/* Warn the user about a garbage character WHAT in the input
	in context WHERE. */

	static void
	lex_warn_invalid (where, what)
	char where, what;
	{
	char buf[5];

	/* If we have found an input file whose format we do not recognize,
	and we are therefore treating it as a linker script, and we find
	an invalid character, then most likely this is a real object file
	of some different format. Treat it as such. */
	if (ldfile_assumed_script)
	{
	bfd_set_error (bfd_error_file_not_recognized);
	einfo ("%F%s: file not recognized: %E\n", ldfile_input_filename);
	}

	if (! isprint ((unsigned char) *what))
	{
	sprintf (buf, "\\%03o", (unsigned int) *what);
	what = buf;
	}

	einfo ("%P:%S: ignoring invalid character `%s'%s\n", what, where);
	}