NetBSD/usr.bin/lex/scan.l

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/* scan.l - scanner for flex input */
%{
/*-
* Copyright (c) 1990 The Regents of the University of California.
* All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Vern Paxson.
*
* The United States Government has rights in this work pursuant
* to contract no. DE-AC03-76SF00098 between the United States
* Department of Energy and the University of California.
*
* Redistribution and use in source and binary forms are permitted provided
* that: (1) source distributions retain this entire copyright notice and
* comment, and (2) distributions including binaries display the following
* acknowledgement: ``This product includes software developed by the
* University of California, Berkeley and its contributors'' in the
* documentation or other materials provided with the distribution and in
* all advertising materials mentioning features or use of this software.
* Neither the name of the University nor the names of its contributors may
* be used to endorse or promote products derived from this software without
* specific prior written permission.
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
*/
/* $NetBSD: scan.l,v 1.10 1998/01/05 05:15:58 perry Exp $ */
#include "flexdef.h"
#include "parse.h"
#define ACTION_ECHO add_action( yytext )
#define ACTION_IFDEF(def, should_define) \
{ \
if ( should_define ) \
action_define( def, 1 ); \
}
#define MARK_END_OF_PROLOG mark_prolog();
#define YY_DECL \
int flexscan()
#define RETURNCHAR \
yylval = (unsigned char) yytext[0]; \
return CHAR;
#define RETURNNAME \
strcpy( nmstr, yytext ); \
return NAME;
#define PUT_BACK_STRING(str, start) \
for ( i = strlen( str ) - 1; i >= start; --i ) \
unput((str)[i])
#define CHECK_REJECT(str) \
if ( all_upper( str ) ) \
reject = true;
#define CHECK_YYMORE(str) \
if ( all_lower( str ) ) \
yymore_used = true;
%}
%option caseless nodefault outfile="scan.c" stack noyy_top_state
%option nostdinit
%x SECT2 SECT2PROLOG SECT3 CODEBLOCK PICKUPDEF SC CARETISBOL NUM QUOTE
%x FIRSTCCL CCL ACTION RECOVER COMMENT ACTION_STRING PERCENT_BRACE_ACTION
%x OPTION LINEDIR
WS [[:blank:]]+
OPTWS [[:blank:]]*
NOT_WS [^[:blank:]\n]
NL \r?\n
NAME ([[:alpha:]_][[:alnum:]_-]*)
NOT_NAME [^[:alpha:]_*\n]+
SCNAME {NAME}
ESCSEQ (\\([^\n]|[0-7]{1,3}|x[[:xdigit:]]{1,2}))
FIRST_CCL_CHAR ([^\\\n]|{ESCSEQ})
CCL_CHAR ([^\\\n\]]|{ESCSEQ})
CCL_EXPR ("[:"[[:alpha:]]+":]")
LEXOPT [aceknopr]
%%
static int bracelevel, didadef, indented_code;
static int doing_rule_action = false;
static int option_sense;
int doing_codeblock = false;
int i;
Char nmdef[MAXLINE], myesc();
<INITIAL>{
^{WS} indented_code = true; BEGIN(CODEBLOCK);
^"/*" ACTION_ECHO; yy_push_state( COMMENT );
^#{OPTWS}line{WS} yy_push_state( LINEDIR );
^"%s"{NAME}? return SCDECL;
^"%x"{NAME}? return XSCDECL;
^"%{".*{NL} {
++linenum;
line_directive_out( (FILE *) 0, 1 );
indented_code = false;
BEGIN(CODEBLOCK);
}
{WS} /* discard */
^"%%".* {
sectnum = 2;
bracelevel = 0;
mark_defs1();
line_directive_out( (FILE *) 0, 1 );
BEGIN(SECT2PROLOG);
return SECTEND;
}
^"%pointer".*{NL} yytext_is_array = false; ++linenum;
^"%array".*{NL} yytext_is_array = true; ++linenum;
^"%option" BEGIN(OPTION); return OPTION_OP;
^"%"{LEXOPT}{OPTWS}[[:digit:]]*{OPTWS}{NL} ++linenum; /* ignore */
^"%"{LEXOPT}{WS}.*{NL} ++linenum; /* ignore */
^"%"[^sxaceknopr{}].* synerr( _( "unrecognized '%' directive" ) );
^{NAME} {
strcpy( nmstr, yytext );
didadef = false;
BEGIN(PICKUPDEF);
}
{SCNAME} RETURNNAME;
^{OPTWS}{NL} ++linenum; /* allows blank lines in section 1 */
{OPTWS}{NL} ACTION_ECHO; ++linenum; /* maybe end of comment line */
}
<COMMENT>{
"*/" ACTION_ECHO; yy_pop_state();
"*" ACTION_ECHO;
[^*\n]+ ACTION_ECHO;
[^*\n]*{NL} ++linenum; ACTION_ECHO;
}
<LINEDIR>{
\n yy_pop_state();
[[:digit:]]+ linenum = myctoi( yytext );
\"[^"\n]*\" {
flex_free( (void *) infilename );
infilename = copy_string( yytext + 1 );
infilename[strlen( infilename ) - 1] = '\0';
}
. /* ignore spurious characters */
}
<CODEBLOCK>{
^"%}".*{NL} ++linenum; BEGIN(INITIAL);
{NAME}|{NOT_NAME}|. ACTION_ECHO;
{NL} {
++linenum;
ACTION_ECHO;
if ( indented_code )
BEGIN(INITIAL);
}
}
<PICKUPDEF>{
{WS} /* separates name and definition */
{NOT_WS}.* {
strcpy( (char *) nmdef, yytext );
/* Skip trailing whitespace. */
for ( i = strlen( (char *) nmdef ) - 1;
i >= 0 && (nmdef[i] == ' ' || nmdef[i] == '\t');
--i )
;
nmdef[i + 1] = '\0';
ndinstal( nmstr, nmdef );
didadef = true;
}
{NL} {
if ( ! didadef )
synerr( _( "incomplete name definition" ) );
BEGIN(INITIAL);
++linenum;
}
}
<OPTION>{
{NL} ++linenum; BEGIN(INITIAL);
{WS} option_sense = true;
"=" return '=';
no option_sense = ! option_sense;
7bit csize = option_sense ? 128 : 256;
8bit csize = option_sense ? 256 : 128;
align long_align = option_sense;
always-interactive {
action_define( "YY_ALWAYS_INTERACTIVE", option_sense );
}
array yytext_is_array = option_sense;
backup backing_up_report = option_sense;
batch interactive = ! option_sense;
"c++" C_plus_plus = option_sense;
caseful|case-sensitive caseins = ! option_sense;
caseless|case-insensitive caseins = option_sense;
debug ddebug = option_sense;
default spprdflt = ! option_sense;
ecs useecs = option_sense;
fast {
useecs = usemecs = false;
use_read = fullspd = true;
}
full {
useecs = usemecs = false;
use_read = fulltbl = true;
}
input ACTION_IFDEF("YY_NO_INPUT", ! option_sense);
interactive interactive = option_sense;
lex-compat lex_compat = option_sense;
main {
action_define( "YY_MAIN", option_sense );
do_yywrap = ! option_sense;
}
meta-ecs usemecs = option_sense;
never-interactive {
action_define( "YY_NEVER_INTERACTIVE", option_sense );
}
perf-report performance_report += option_sense ? 1 : -1;
pointer yytext_is_array = ! option_sense;
read use_read = option_sense;
reject reject_really_used = option_sense;
stack action_define( "YY_STACK_USED", option_sense );
stdinit do_stdinit = option_sense;
stdout use_stdout = option_sense;
unput ACTION_IFDEF("YY_NO_UNPUT", ! option_sense);
verbose printstats = option_sense;
warn nowarn = ! option_sense;
yylineno do_yylineno = option_sense;
yymore yymore_really_used = option_sense;
yywrap do_yywrap = option_sense;
yy_push_state ACTION_IFDEF("YY_NO_PUSH_STATE", ! option_sense);
yy_pop_state ACTION_IFDEF("YY_NO_POP_STATE", ! option_sense);
yy_top_state ACTION_IFDEF("YY_NO_TOP_STATE", ! option_sense);
yy_scan_buffer ACTION_IFDEF("YY_NO_SCAN_BUFFER", ! option_sense);
yy_scan_bytes ACTION_IFDEF("YY_NO_SCAN_BYTES", ! option_sense);
yy_scan_string ACTION_IFDEF("YY_NO_SCAN_STRING", ! option_sense);
outfile return OPT_OUTFILE;
prefix return OPT_PREFIX;
yyclass return OPT_YYCLASS;
\"[^"\n]*\" {
strcpy( nmstr, yytext + 1 );
nmstr[strlen( nmstr ) - 1] = '\0';
return NAME;
}
(([a-mo-z]|n[a-np-z])[[:alpha:]\-+]*)|. {
format_synerr( _( "unrecognized %%option: %s" ),
yytext );
BEGIN(RECOVER);
}
}
<RECOVER>.*{NL} ++linenum; BEGIN(INITIAL);
<SECT2PROLOG>{
^"%{".* ++bracelevel; yyless( 2 ); /* eat only %{ */
^"%}".* --bracelevel; yyless( 2 ); /* eat only %} */
^{WS}.* ACTION_ECHO; /* indented code in prolog */
^{NOT_WS}.* { /* non-indented code */
if ( bracelevel <= 0 )
{ /* not in %{ ... %} */
yyless( 0 ); /* put it all back */
yy_set_bol( 1 );
mark_prolog();
BEGIN(SECT2);
}
else
ACTION_ECHO;
}
.* ACTION_ECHO;
{NL} ++linenum; ACTION_ECHO;
<<EOF>> {
mark_prolog();
sectnum = 0;
yyterminate(); /* to stop the parser */
}
}
<SECT2>{
^{OPTWS}{NL} ++linenum; /* allow blank lines in section 2 */
^{OPTWS}"%{" {
indented_code = false;
doing_codeblock = true;
bracelevel = 1;
BEGIN(PERCENT_BRACE_ACTION);
}
^{OPTWS}"<" BEGIN(SC); return '<';
^{OPTWS}"^" return '^';
\" BEGIN(QUOTE); return '"';
"{"/[[:digit:]] BEGIN(NUM); return '{';
"$"/([[:blank:]]|{NL}) return '$';
{WS}"%{" {
bracelevel = 1;
BEGIN(PERCENT_BRACE_ACTION);
if ( in_rule )
{
doing_rule_action = true;
in_rule = false;
return '\n';
}
}
{WS}"|".*{NL} continued_action = true; ++linenum; return '\n';
^{WS}"/*" {
yyless( yyleng - 2 ); /* put back '/', '*' */
bracelevel = 0;
continued_action = false;
BEGIN(ACTION);
}
^{WS} /* allow indented rules */
{WS} {
/* This rule is separate from the one below because
* otherwise we get variable trailing context, so
* we can't build the scanner using -{f,F}.
*/
bracelevel = 0;
continued_action = false;
BEGIN(ACTION);
if ( in_rule )
{
doing_rule_action = true;
in_rule = false;
return '\n';
}
}
{OPTWS}{NL} {
bracelevel = 0;
continued_action = false;
BEGIN(ACTION);
unput( '\n' ); /* so <ACTION> sees it */
if ( in_rule )
{
doing_rule_action = true;
in_rule = false;
return '\n';
}
}
^{OPTWS}"<<EOF>>" |
"<<EOF>>" return EOF_OP;
^"%%".* {
sectnum = 3;
BEGIN(SECT3);
yyterminate(); /* to stop the parser */
}
"["({FIRST_CCL_CHAR}|{CCL_EXPR})({CCL_CHAR}|{CCL_EXPR})* {
int cclval;
strcpy( nmstr, yytext );
/* Check to see if we've already encountered this
* ccl.
*/
if ( (cclval = ccllookup( (Char *) nmstr )) != 0 )
{
if ( input() != ']' )
synerr( _( "bad character class" ) );
yylval = cclval;
++cclreuse;
return PREVCCL;
}
else
{
/* We fudge a bit. We know that this ccl will
* soon be numbered as lastccl + 1 by cclinit.
*/
cclinstal( (Char *) nmstr, lastccl + 1 );
/* Push back everything but the leading bracket
* so the ccl can be rescanned.
*/
yyless( 1 );
BEGIN(FIRSTCCL);
return '[';
}
}
"{"{NAME}"}" {
register Char *nmdefptr;
Char *ndlookup();
strcpy( nmstr, yytext + 1 );
nmstr[yyleng - 2] = '\0'; /* chop trailing brace */
if ( (nmdefptr = ndlookup( nmstr )) == 0 )
format_synerr(
_( "undefined definition {%s}" ),
nmstr );
else
{ /* push back name surrounded by ()'s */
int len = strlen( (char *) nmdefptr );
if ( lex_compat || nmdefptr[0] == '^' ||
(len > 0 && nmdefptr[len - 1] == '$') )
{ /* don't use ()'s after all */
PUT_BACK_STRING((char *) nmdefptr, 0);
if ( nmdefptr[0] == '^' )
BEGIN(CARETISBOL);
}
else
{
unput(')');
PUT_BACK_STRING((char *) nmdefptr, 0);
unput('(');
}
}
}
[/|*+?.(){}] return (unsigned char) yytext[0];
. RETURNCHAR;
}
<SC>{
[,*] return (unsigned char) yytext[0];
">" BEGIN(SECT2); return '>';
">"/^ BEGIN(CARETISBOL); return '>';
{SCNAME} RETURNNAME;
. {
format_synerr( _( "bad <start condition>: %s" ),
yytext );
}
}
<CARETISBOL>"^" BEGIN(SECT2); return '^';
<QUOTE>{
[^"\n] RETURNCHAR;
\" BEGIN(SECT2); return '"';
{NL} {
synerr( _( "missing quote" ) );
BEGIN(SECT2);
++linenum;
return '"';
}
}
<FIRSTCCL>{
"^"/[^-\]\n] BEGIN(CCL); return '^';
"^"/("-"|"]") return '^';
. BEGIN(CCL); RETURNCHAR;
}
<CCL>{
-/[^\]\n] return '-';
[^\]\n] RETURNCHAR;
"]" BEGIN(SECT2); return ']';
.|{NL} {
synerr( _( "bad character class" ) );
BEGIN(SECT2);
return ']';
}
}
<FIRSTCCL,CCL>{
"[:alnum:]" BEGIN(CCL); return CCE_ALNUM;
"[:alpha:]" BEGIN(CCL); return CCE_ALPHA;
"[:blank:]" BEGIN(CCL); return CCE_BLANK;
"[:cntrl:]" BEGIN(CCL); return CCE_CNTRL;
"[:digit:]" BEGIN(CCL); return CCE_DIGIT;
"[:graph:]" BEGIN(CCL); return CCE_GRAPH;
"[:lower:]" BEGIN(CCL); return CCE_LOWER;
"[:print:]" BEGIN(CCL); return CCE_PRINT;
"[:punct:]" BEGIN(CCL); return CCE_PUNCT;
"[:space:]" BEGIN(CCL); return CCE_SPACE;
"[:upper:]" BEGIN(CCL); return CCE_UPPER;
"[:xdigit:]" BEGIN(CCL); return CCE_XDIGIT;
{CCL_EXPR} {
format_synerr(
_( "bad character class expression: %s" ),
yytext );
BEGIN(CCL); return CCE_ALNUM;
}
}
<NUM>{
[[:digit:]]+ {
yylval = myctoi( yytext );
return NUMBER;
}
"," return ',';
"}" BEGIN(SECT2); return '}';
. {
synerr( _( "bad character inside {}'s" ) );
BEGIN(SECT2);
return '}';
}
{NL} {
synerr( _( "missing }" ) );
BEGIN(SECT2);
++linenum;
return '}';
}
}
<PERCENT_BRACE_ACTION>{
{OPTWS}"%}".* bracelevel = 0;
<ACTION>"/*" ACTION_ECHO; yy_push_state( COMMENT );
<CODEBLOCK,ACTION>{
"reject" {
ACTION_ECHO;
CHECK_REJECT(yytext);
}
"yymore" {
ACTION_ECHO;
CHECK_YYMORE(yytext);
}
}
{NAME}|{NOT_NAME}|. ACTION_ECHO;
{NL} {
++linenum;
ACTION_ECHO;
if ( bracelevel == 0 ||
(doing_codeblock && indented_code) )
{
if ( doing_rule_action )
add_action( "\tYY_BREAK\n" );
doing_rule_action = doing_codeblock = false;
BEGIN(SECT2);
}
}
}
/* Reject and YYmore() are checked for above, in PERCENT_BRACE_ACTION */
<ACTION>{
"{" ACTION_ECHO; ++bracelevel;
"}" ACTION_ECHO; --bracelevel;
[^[:alpha:]_{}"'/\n]+ ACTION_ECHO;
{NAME} ACTION_ECHO;
"'"([^'\\\n]|\\.)*"'" ACTION_ECHO; /* character constant */
\" ACTION_ECHO; BEGIN(ACTION_STRING);
{NL} {
++linenum;
ACTION_ECHO;
if ( bracelevel == 0 )
{
if ( doing_rule_action )
add_action( "\tYY_BREAK\n" );
doing_rule_action = false;
BEGIN(SECT2);
}
}
. ACTION_ECHO;
}
<ACTION_STRING>{
[^"\\\n]+ ACTION_ECHO;
\\. ACTION_ECHO;
{NL} ++linenum; ACTION_ECHO;
\" ACTION_ECHO; BEGIN(ACTION);
. ACTION_ECHO;
}
<COMMENT,ACTION,ACTION_STRING><<EOF>> {
synerr( _( "EOF encountered inside an action" ) );
yyterminate();
}
<SECT2,QUOTE,FIRSTCCL,CCL>{ESCSEQ} {
yylval = myesc( (Char *) yytext );
if ( YY_START == FIRSTCCL )
BEGIN(CCL);
return CHAR;
}
<SECT3>{
.*(\n?) ECHO;
<<EOF>> sectnum = 0; yyterminate();
}
<*>.|\n format_synerr( _( "bad character: %s" ), yytext );
%%
int yywrap()
{
if ( --num_input_files > 0 )
{
set_input_file( *++input_files );
return 0;
}
else
return 1;
}
/* set_input_file - open the given file (if NULL, stdin) for scanning */
void set_input_file( file )
char *file;
{
if ( file && strcmp( file, "-" ) )
{
infilename = copy_string( file );
yyin = fopen( infilename, "r" );
if ( yyin == NULL )
lerrsf( _( "can't open %s" ), file );
}
else
{
yyin = stdin;
infilename = copy_string( "<stdin>" );
}
linenum = 1;
}
/* Wrapper routines for accessing the scanner's malloc routines. */
void *flex_alloc( size )
size_t size;
{
return (void *) malloc( size );
}
void *flex_realloc( ptr, size )
void *ptr;
size_t size;
{
return (void *) realloc( ptr, size );
}
void flex_free( ptr )
void *ptr;
{
if ( ptr )
free( ptr );
}