/* * BRLTTY - A background process providing access to the console screen (when in * text mode) for a blind person using a refreshable braille display. * * Copyright (C) 1995-2019 by The BRLTTY Developers. * * BRLTTY comes with ABSOLUTELY NO WARRANTY. * * This is free software, placed under the terms of the * GNU Lesser General Public License, as published by the Free Software * Foundation; either version 2.1 of the License, or (at your option) any * later version. Please see the file LICENSE-LGPL for details. * * Web Page: http://brltty.app/ * * This software is maintained by Dave Mielke . */ #ifndef BRLTTY_INCLUDED_BRL_DOTS #define BRLTTY_INCLUDED_BRL_DOTS #include #ifdef __MINGW32__ extern int ffs (int i); #endif /* __MINGW32__ */ #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ /* The bits for each braille dot as defined by the ISO 11548-1 standard. * * From least- to most-significant octal digit: * + the first contains dots 1-3 * + the second contains dots 4-6 * + the third contains dots 7-8 * * Here are a few ways to illustrate a braille cell: * By Dot By Bit As Octal * Number Number Digits * 1 4 0 3 001 010 * 2 5 1 4 002 020 * 3 6 2 5 004 040 * 7 8 6 7 100 200 */ typedef unsigned char BrlDots; #define BRL_DOT_COUNT 8 #define BRL_DOT(number) (BrlDots)(1 << ((number) - 1)) #define BRL_DOT_1 BRL_DOT(1) /* upper-left dot of standard braille cell */ #define BRL_DOT_2 BRL_DOT(2) /* middle-left dot of standard braille cell */ #define BRL_DOT_3 BRL_DOT(3) /* lower-left dot of standard braille cell */ #define BRL_DOT_4 BRL_DOT(4) /* upper-right dot of standard braille cell */ #define BRL_DOT_5 BRL_DOT(5) /* middle-right dot of standard braille cell */ #define BRL_DOT_6 BRL_DOT(6) /* lower-right dot of standard braille cell */ #define BRL_DOT_7 BRL_DOT(7) /* lower-left dot of computer braille cell */ #define BRL_DOT_8 BRL_DOT(8) /* lower-right dot of computer braille cell */ static inline BrlDots getLeftDots (unsigned char cell) { return cell & (BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_7); } static inline BrlDots getRightDots (unsigned char cell) { return cell & (BRL_DOT_4 | BRL_DOT_5 | BRL_DOT_6 | BRL_DOT_8); } static inline BrlDots getRightDotsToLeftDots (BrlDots cell) { unsigned char ret = 0; if (cell & BRL_DOT_4) ret |= BRL_DOT_1; if (cell & BRL_DOT_5) ret |= BRL_DOT_2; if (cell & BRL_DOT_6) ret |= BRL_DOT_3; if (cell & BRL_DOT_8) ret |= BRL_DOT_7; return ret; } static inline BrlDots getLeftDotsToRightDots (BrlDots cell) { unsigned char ret = 0; if (cell & BRL_DOT_1) ret |= BRL_DOT_4; if (cell & BRL_DOT_2) ret |= BRL_DOT_5; if (cell & BRL_DOT_3) ret |= BRL_DOT_6; if (cell & BRL_DOT_7) ret |= BRL_DOT_8; return ret; } static inline BrlDots brlNumberToDot (char number) { return ((number >= '1') && (number <= '8'))? BRL_DOT(number - '0'): 0; } static inline char brlDotToNumber (BrlDots dot) { int shift = ffs(dot); return shift? ((char)shift + '0'): 0; } typedef BrlDots BrlDotTable[BRL_DOT_COUNT]; typedef char BrlDotNumbersBuffer[BRL_DOT_COUNT + 1]; static inline unsigned int brlDotsToNumbers (BrlDots dots, BrlDotNumbersBuffer numbers) { char *number = numbers; while (dots) { int shift = ffs(dots) - 1; dots -= 1 << shift; *number++ = (char)shift + '1'; } *number = 0; return (unsigned int)(number - numbers); } /* The Unicode row used for literal braille dot representations. */ #define BRL_UNICODE_ROW 0X2800 #ifdef __cplusplus } #endif /* __cplusplus */ #endif /* BRLTTY_INCLUDED_BRL_DOTS */