%{
/* Copyright 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
2000, 2001, 2002, 2003, 2004, 2005 Free Software Foundation, Inc.
This file is part of GLD, the Gnu Linker.
GLD is free software
it under the terms of the GNU General Public License as published by
the Free Software Foundation
any later version.
GLD is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY
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
Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
02110-1301, USA. */
/*
This was written by steve chamberlain
sac@cygnus.com
*/
#include <stdio.h>
#include "bfd.h"
#include "sysdep.h"
#include "safe-ctype.h"
#include "bfdlink.h"
#include "ld.h"
#include "ldmisc.h"
#include "ldexp.h"
#include "ldlang.h"
#include <ldgram.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 YY_NO_UNPUT
#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 void yy_input (char *, int *, int)
static void comment (void)
static void lex_warn_invalid (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
/* Some versions of flex want this. */
#ifndef yywrap
int yywrap (void) { 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,VERS_START,VERS_NODE,VERS_SCRIPT>"/*" { comment (); }
<DEFSYMEXP>"-" { RTOKEN('-');}
<DEFSYMEXP>"+" { RTOKEN('+');}
<DEFSYMEXP>{FILENAMECHAR1}{SYMBOLCHARN}* { yylval.name = xstrdup (yytext); return NAME; }
<DEFSYMEXP>"=" { RTOKEN('='); }
<MRI,EXPRESSION>"$"([0-9A-Fa-f])+ {
yylval.integer = bfd_scan_vma (yytext + 1, 0, 16);
yylval.bigint.str = NULL;
return INT;
}
<MRI,EXPRESSION>([0-9A-Fa-f])+(H|h|X|x|B|b|O|o|D|d) {
int ibase
switch (yytext[yyleng - 1]) {
case 'X':
case 'x':
case 'H':
case 'h':
ibase = 16
break
case 'O':
case 'o':
ibase = 8
break
case 'B':
case 'b':
ibase = 2
break
default:
ibase = 10
}
yylval.integer = bfd_scan_vma (yytext, 0,
ibase)
yylval.bigint.str = NULL
return INT
}
<SCRIPT,DEFSYMEXP,MRI,BOTH,EXPRESSION>((("$"|0[xX])([0-9A-Fa-f])+)|(([0-9])+))(M|K|m|k)? {
char *s = yytext;
int ibase = 0;
if (*s == '$')
{
++s;
ibase = 16;
}
yylval.integer = bfd_scan_vma (s, 0, ibase);
yylval.bigint.str = NULL;
if (yytext[yyleng - 1] == 'M'
|| yytext[yyleng - 1] == 'm')
{
yylval.integer *= 1024 * 1024;
}
else if (yytext[yyleng - 1] == 'K'
|| yytext[yyleng - 1]=='k')
{
yylval.integer *= 1024;
}
else if (yytext[0] == '0'
&& (yytext[1] == 'x'
|| yytext[1] == 'X'))
{
yylval.bigint.str = xstrdup (yytext + 2);
}
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,EXPRESSION>"ORIGIN" { RTOKEN(ORIGIN)
<BOTH,SCRIPT>"VERSION" { RTOKEN(VERSIONK)
<EXPRESSION,BOTH,SCRIPT>"BLOCK" { RTOKEN(BLOCK)
<EXPRESSION,BOTH,SCRIPT>"BIND" { RTOKEN(BIND)
<BOTH,SCRIPT,EXPRESSION>"LENGTH" { RTOKEN(LENGTH)
<EXPRESSION,BOTH,SCRIPT>"ALIGN" { RTOKEN(ALIGN_K)
<EXPRESSION,BOTH,SCRIPT>"DATA_SEGMENT_ALIGN" { RTOKEN(DATA_SEGMENT_ALIGN)
<EXPRESSION,BOTH,SCRIPT>"DATA_SEGMENT_RELRO_END" { RTOKEN(DATA_SEGMENT_RELRO_END)
<EXPRESSION,BOTH,SCRIPT>"DATA_SEGMENT_END" { RTOKEN(DATA_SEGMENT_END)
<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)
<EXPRESSION,BOTH,SCRIPT>"SEGMENT_START" { RTOKEN(SEGMENT_START)
<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>"AS_NEEDED" { RTOKEN(AS_NEEDED)
<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>"INHIBIT_COMMON_ALLOCATION" { RTOKEN(INHIBIT_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_BY_NAME" { RTOKEN(SORT_BY_NAME)
<BOTH,SCRIPT>"SORT_BY_ALIGNMENT" { RTOKEN(SORT_BY_ALIGNMENT)
<BOTH,SCRIPT>"SORT" { RTOKEN(SORT_BY_NAME)
<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)
<EXPRESSION,BOTH,SCRIPT>"ONLY_IF_RO" { RTOKEN(ONLY_IF_RO)
<EXPRESSION,BOTH,SCRIPT>"ONLY_IF_RW" { RTOKEN(ONLY_IF_RW)
<EXPRESSION,BOTH,SCRIPT>"SPECIAL" { RTOKEN(SPECIAL)
<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>"SUBALIGN" { RTOKEN(SUBALIGN)
<EXPRESSION,BOTH,SCRIPT>"PROVIDE" { RTOKEN(PROVIDE)
<EXPRESSION,BOTH,SCRIPT>"PROVIDE_HIDDEN" { RTOKEN(PROVIDE_HIDDEN)
<EXPRESSION,BOTH,SCRIPT>"KEEP" { RTOKEN(KEEP)
<EXPRESSION,BOTH,SCRIPT>"EXCLUDE_FILE" { RTOKEN(EXCLUDE_FILE)
<MRI>"#".*\n? { ++ lineno
<MRI>"\n" { ++ lineno
<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)
<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)
<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>[:,
<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)
<VERS_SCRIPT>"{" { BEGIN(VERS_NODE)
vers_node_nesting = 0
return *yytext
}
<VERS_SCRIPT>"}" { return *yytext
<VERS_NODE>"{" { vers_node_nesting++
<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])
}
ldfile_input_filename = file_name_stack[include_stack_ptr - 1]
lineno = lineno_stack[include_stack_ptr]
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 *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] = lineno
include_stack[include_stack_ptr] = YY_CURRENT_BUFFER
include_stack_ptr++
lineno = 1
yyin = file
yy_switch_to_buffer (yy_create_buffer (yyin, YY_BUF_SIZE))
}
/* Return a newly created flex input buffer containing STRING,
which is SIZE bytes long. */
static YY_BUFFER_STATE
yy_create_string_buffer (const char *string, size_t size)
{
YY_BUFFER_STATE b
/* Calls to m-alloc get turned by sed into xm-alloc. */
b = 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 = 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 (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] = lineno
include_stack[include_stack_ptr] = YY_CURRENT_BUFFER
include_stack_ptr++
lineno = 1
tmp = yy_create_string_buffer (string, strlen (string))
yy_switch_to_buffer (tmp)
}
�
/* 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 (void)
{
*(state_stack_p)++ = yy_start
BEGIN (SCRIPT)
}
void
ldlex_mri_script (void)
{
*(state_stack_p)++ = yy_start
BEGIN (MRI)
}
void
ldlex_version_script (void)
{
*(state_stack_p)++ = yy_start
BEGIN (VERS_START)
}
void
ldlex_version_file (void)
{
*(state_stack_p)++ = yy_start
BEGIN (VERS_SCRIPT)
}
void
ldlex_defsym (void)
{
*(state_stack_p)++ = yy_start
BEGIN (DEFSYMEXP)
}
void
ldlex_expression (void)
{
*(state_stack_p)++ = yy_start
BEGIN (EXPRESSION)
}
void
ldlex_both (void)
{
*(state_stack_p)++ = yy_start
BEGIN (BOTH)
}
void
ldlex_popstate (void)
{
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 (char *buf, int *result, int max_size)
{
*result = 0
if (YY_CURRENT_BUFFER->yy_input_file)
{
if (yyin)
{
*result = fread (buf, 1, max_size, yyin)
if (*result < max_size && ferror (yyin))
einfo ("%F%P: read in flex scanner failed\n")
}
}
}
/* Eat the rest of a C-style comment. */
static void
comment (void)
{
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
}
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 (char *where, char *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 (*what))
{
sprintf (buf, "\\%03o", (unsigned int) *what)
what = buf
}
einfo ("%P:%S: ignoring invalid character `%s'%s\n", what, where)
}
