/* XKB scanner. Copyright (C) 2002, 03 Marco Gerards Written by Marco Gerards 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 #include #include #include #include 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 at %s:%d.\n", filename, lineno); 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); }