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/* XKB scanner.
Copyright (C) 2002, 03 Marco Gerards
Written by Marco Gerards <marco@student.han.nl>
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 of the License, 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. */
#include "xkb.h"
#include "parser.tab.h"
#include <string.h>
#include <unistd.h>
#include <stdlib.h>
#include <stdio.h>
#include <error.h>
void close_include (void);
int lineno = 1;
char *filename = "foo";
%option nodebug
%option UNPUT
KEYCODE "<"[A-Z][-+A-Z0-9]*">"
DIGIT [0-9]
NUM {DIGIT}{DIGIT}*
FLOAT {DIGIT}{DIGIT}*\.{DIGIT}{DIGIT}*
HEX 0x[A-Za-z0-9]*
IDENTIFIER [a-zA-Z][a-zA-Z0-9_]*
CPPCOMMENT "//".*"\n"
%%
/* When the end of a file is reached, close the
current one and pop the next file to process
of the stack. */
/* Filter out comment. */
{CPPCOMMENT} { lineno++; }
"/*" {
int c;
while((c = input()) != 0)
{
if(c == '\n')
lineno++;
else if(c == '*')
{
if((c = input()) == '/')
break;
else
unput(c);
}
}
}
\n { lineno++; }
/* Beginning of sections. */
xkb_keymap { return XKBKEYMAP; }
xkb_symbols { return XKBSYMBOLS; }
xkb_keycodes { return XKBKEYCODES; }
xkb_types { return XKBTYPES; }
xkb_compatibility { return XKBCOMPAT; }
xkb_geometry { return XKBGEOMETRY; }
/* Real modifiers. */
shift { return SHIFT; }
lock { return LOCK; }
control { return CONTROL; }
ctrl { return CONTROL; }
mod1 { return MOD1; }
mod2 { return MOD2; }
mod3 { return MOD3; }
mod4 { return MOD4; }
mod5 { return MOD5; }
/* Levels. */
anylevel { yylval.val = 0; return LEVEL; }
levelone { yylval.val = 1; return LEVEL; }
level1 { yylval.val = 1; return LEVEL; }
level2 { yylval.val = 2; return LEVEL; }
level3 { yylval.val = 3; return LEVEL; }
level4 { yylval.val = 4; return LEVEL; }
level[1-9][0-9]* { yylval.val = atoi(yytext + 5); return LEVEL; }
/* Groups. */
group1 { yylval.val = 1; return GROUPNUM; }
group2 { yylval.val = 2; return GROUPNUM; }
group3 { yylval.val = 3; return GROUPNUM; }
group4 { yylval.val = 4; return GROUPNUM; }
/* Booleans */
true { yylval.val = 1; return BOOLEAN; }
false { yylval.val = 0; return BOOLEAN; }
/* Interpretation */
interpret { return INTERPRET; }
usemodmap { return USEMODMAP; }
usemodmapmods { return USEMODMAP; }
modmapmods { return USEMODMAP; }
repeat { return REPEAT; }
locking { return LOCKING; }
locks { return LOCKING; }
virtualmodifier { return VIRTUALMODIFIER; }
virtualmod { return VIRTUALMODIFIER; }
/* Interpretation match. */
noneof { yylval.val = 0; return INTERPMATCH ;}
anyofornone { yylval.val = 1; return INTERPMATCH ;}
anyof { yylval.val = 2; return INTERPMATCH ;}
allof { yylval.val = 3; return INTERPMATCH ;}
exactly { yylval.val = 4; return INTERPMATCH ;}
/* SetMods action. */
clearlocks { return CLEARLOCKS; }
mods { return MODS; }
unlock { return UNLOCK; }
both { return BOTH; }
neither { return NEITHER; }
/* Actions. */
setmods { return SETMODS; }
latchmods { return LATCHMODS; }
lockmods { return LOCKMODS; }
setgroup { return SETGROUP; }
latchgroup { return LATCHGROUP; }
lockgroup { return LOCKGROUP; }
setptrdflt { return PTRDFLT; }
setpointerdefault { return PTRDFLT; }
lockptrbtn { return LOCKPTRBTN; }
lockpointerbutton { return LOCKPTRBTN; }
lockptrbutton { return LOCKPTRBTN; }
lockpointerbtn { return LOCKPTRBTN; }
setcontrols { return SETCONTROLS; }
lockcontrols { return LOCKCONTROLS; }
terminateserver { return TERMINATE; }
terminate { return TERMINATE; }
switchscreen { return SWITCHSCREEN; }
consscroll { return CONSSCROLL; }
consolescroll { return CONSSCROLL; }
moveptr { return MOVEPTR; }
private { return PRIVATE; }
/* Action parameters. */
latchtolock { return LATCHTOLOCK; }
group { return GROUP; }
groups { return GROUPS; }
accel { return ACCEL; }
accelerate { return ACCEL; }
default { return DEFAULT; }
count { return COUNT; }
controls { return CONTROLS; }
same { return SAMESERVER; }
sameserver { return SAMESERVER; }
screen { return SCREEN; }
line { return LINE; }
percentage { return PERCENT; }
ptrbtn { return PTRBTN ; }
pointerbutton { return PTRBTN ; }
action { return ACTION; }
actions { return ACTIONS; }
whichmodstate { return WHICHMODSTATE; }
whichmodifierstate { return WHICHMODSTATE; }
whichgroupstate { return WHICHGROUPSTATE; }
/* Match state for indicator. */
base { yylval.val = 0; return WHICHSTATE; }
latched { yylval.val = 1; return WHICHSTATE; }
locked { yylval.val = 4; return WHICHSTATE; }
effective { yylval.val = 8; return WHICHSTATE; }
/* Bits for binary controls. */
repeatkeys { yylval.val = 0; return CONTROLFLAG; }
autorepeat { yylval.val = 0; return CONTROLFLAG; }
accessxkeys { yylval.val = 0; return CONTROLFLAG; }
slowkeys { yylval.val = 0; return CONTROLFLAG; }
bouncekeys { yylval.val = 0; return CONTROLFLAG; }
stickykeys { yylval.val = 0; return CONTROLFLAG; }
accessxtimeout { yylval.val = 0; return CONTROLFLAG; }
accessxfeedback { yylval.val = 0; return CONTROLFLAG; }
mousekeys { yylval.val = 0; return CONTROLFLAG; }
mousekeysaccel { yylval.val = 0; return CONTROLFLAG; }
audiblebell { yylval.val = 0; return CONTROLFLAG; }
ignoregrouplock { yylval.val = 0; return CONTROLFLAG; }
index { return INDEX; }
name { return NAME; }
symbols { return SYMBOLS; }
key { return KEY; }
/* Mouse buttons. */
button1 { yylval.val = 1; return BUTTONNUM; }
button2 { yylval.val = 2; return BUTTONNUM; }
button3 { yylval.val = 3; return BUTTONNUM; }
button4 { yylval.val = 4; return BUTTONNUM; }
button5 { yylval.val = 5; return BUTTONNUM; }
button { return BUTTON; }
/* Fuzzyness. */
any { return ANY; }
all { return ALL; }
none { return NONE; }
defaultbutton { return DEFAULTBTN; }
affect { return AFFECT; }
allowexplicit { return ALLOWEXPLICIT; }
/* Feedback to the keyboard. */
driveskeyboard { return DRIVESKBD; }
driveskbd { return DRIVESKBD; }
ledsdrivekbd { return DRIVESKBD; }
ledsdrivekeyboard { return DRIVESKBD; }
indicatordriveskbd { return DRIVESKBD; }
indicatordriveskeyboard { return DRIVESKBD; }
modifier_map { return MODMAP; }
minimum { return MINIMUM; }
maximum { return MAXIMUM; }
virtual { return VIRTUAL; }
alias { return ALIAS; }
indicator { return INDICATOR; }
virtual_modifiers { return VMODS; }
virtualmods { return VMODS; }
type { return TYPE; }
data { return DATA; }
modifiers { return MODS; }
map { return MAP; }
level_name { return LEVEL_NAME; }
preserve { return PRESERVE; }
/* Section flags. */
partial { yylval.val = 1; return FLAGS; }
complete { yylval.val = 2; return FLAGS; }
fc { yylval.val = 4; return FLAGS; }
fd { yylval.val = 8; return FLAGS; }
cp { return XKBCOMPAT; }
/* Section merge modes. */
include { yylval.mergemode = defaultmm; return INCLUDE; }
augment { yylval.mergemode = augment; return AUGMENT; }
replace { yylval.mergemode = replace; return REPLACE; }
override { yylval.mergemode = override; return OVERRIDE; }
isolock { return ISOLOCK; }
pointers { return POINTERS;}
ptr { return POINTERS;}
noaction { return NOACTION;}
groupswrap { return GROUPSWRAP; }
wrapgroups { return GROUPSWRAP; }
clampgroups { return GROUPSCLAMP; }
groupsredirect { return GROUPSREDIRECT; }
overlay1 { yylval.val = 1; return OVERLAY; }
overlay2 { yylval.val = 2; return OVERLAY; }
/* String. */
\"([^"]|\\\")*\" {
yytext[strlen (yytext) - 1] = '\0';
yylval.str = strdup (yytext + 1);
return STR;
}
/* Ignore whitespace. */
[ \t]*
/* A keycode. */
{KEYCODE} { yylval.str = strdup (yytext) + 1; yylval.str[strlen (yylval.str) - 1] = 0; return KEYCODE; }
/* A float vlaue. */
{FLOAT} { yylval.dbl = atof (yytext); return FLOAT; }
/* An integer. */
{NUM} { yylval.val = atoi (yytext); return NUM; }
/* A hexadecimal value. */
{HEX} { sscanf (yytext, "0x%X", &yylval.val); return HEX; }
/* An identifier. */
{IDENTIFIER} { yylval.str = strdup (yytext); return IDENTIFIER; }
/* All unrecognized characters. */
. { return yytext[0]; }
%%
/* Stupid hack, the current version of flex is fucked. */
#define yytext_ptr yytext
void
scanner_unput (int c)
{
unput (c);
}
int
yywrap (void)
{
close_include ();
return 0;
}
#define MAX_INCLUDE_DEPTH 50
/* An include file on the stack. */
struct include_stack
{
YY_BUFFER_STATE buffer;
mergemode merge_mode;
int currline;
char *filename;
} include_stack[MAX_INCLUDE_DEPTH];
int include_stack_ptr = 0;
/* Add an file to the stack. */
void
include_file (FILE *file, mergemode new_mm, char *fname)
{
YY_BUFFER_STATE buffer;
if (include_stack_ptr >= MAX_INCLUDE_DEPTH)
{
fprintf (stderr, "Includes nested too deeply\n");
exit (EXIT_FAILURE);
}
include_stack[include_stack_ptr].filename = filename;
include_stack[include_stack_ptr].currline = lineno;
include_stack[include_stack_ptr].merge_mode = merge_mode;
include_stack[include_stack_ptr++].buffer = YY_CURRENT_BUFFER;
filename = fname;
lineno = 1;
merge_mode = new_mm;
buffer = yy_create_buffer (file, YY_BUF_SIZE);
yy_switch_to_buffer (buffer);
}
/* Close an includefile. */
void
close_include (void)
{
if ( --include_stack_ptr < 0 )
{
// yyterminate ();
fprintf (stderr, "Unexpected end of file.\n");
exit (1);
}
else
{
fclose (yyin);
yy_delete_buffer (YY_CURRENT_BUFFER);
merge_mode = include_stack[include_stack_ptr].merge_mode;
lineno = include_stack[include_stack_ptr].currline;
filename = include_stack[include_stack_ptr].filename;
yy_switch_to_buffer (include_stack[include_stack_ptr].buffer);
}
}
void
yyerror (char *s)
{
fprintf (stderr, "%s:%d: %s\n", filename, lineno, s);
// error_at_line (0, 1, filename, lineno, "foo %d\n", 2);
}
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