/* * 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 . */ #include "prologue.h" #include #include "log.h" #include "morse.h" #include "tune.h" #include "charset.h" static const MorsePattern morsePatterns[] = { [WC_C('a')] = 0B101, [WC_C('b')] = 0B11110, [WC_C('c')] = 0B11010, [WC_C('d')] = 0B1110, [WC_C('e')] = 0B11, [WC_C('f')] = 0B11011, [WC_C('g')] = 0B1100, [WC_C('h')] = 0B11111, [WC_C('i')] = 0B111, [WC_C('j')] = 0B10001, [WC_C('k')] = 0B1010, [WC_C('l')] = 0B11101, [WC_C('m')] = 0B100, [WC_C('n')] = 0B110, [WC_C('o')] = 0B1000, [WC_C('p')] = 0B11001, [WC_C('q')] = 0B10100, [WC_C('r')] = 0B1101, [WC_C('s')] = 0B1111, [WC_C('t')] = 0B10, [WC_C('u')] = 0B1011, [WC_C('v')] = 0B10111, [WC_C('w')] = 0B1001, [WC_C('x')] = 0B10110, [WC_C('y')] = 0B10010, [WC_C('z')] = 0B11100, [WC_C('ä')] = 0B10101, [WC_C('á')] = 0B101001, [WC_C('å')] = 0B101001, [WC_C('é')] = 0B111011, [WC_C('ñ')] = 0B100100, [WC_C('ö')] = 0B11000, [WC_C('ü')] = 0B10011, [WC_C('0')] = 0B100000, [WC_C('1')] = 0B100001, [WC_C('2')] = 0B100011, [WC_C('3')] = 0B100111, [WC_C('4')] = 0B101111, [WC_C('5')] = 0B111111, [WC_C('6')] = 0B111110, [WC_C('7')] = 0B111100, [WC_C('8')] = 0B111000, [WC_C('9')] = 0B110000, [WC_C('.')] = 0B1010101, [WC_C(',')] = 0B1001100, [WC_C('?')] = 0B1110011, [WC_C('!')] = 0B1001010, [WC_C(':')] = 0B1111000, [WC_C('\'')] = 0B1100001, [WC_C('"')] = 0B1101101, [WC_C('(')] = 0B110010, [WC_C(')')] = 0B1010010, [WC_C('=')] = 0B101110, [WC_C('+')] = 0B110101, [WC_C('-')] = 0B1011110, [WC_C('/')] = 0B110110, [WC_C('&')] = 0B111101, [WC_C('@')] = 0B1101001, [0] = 0 }; MorsePattern getMorsePattern (wchar_t character) { character = towlower(character); if (character < 0) return 0; if (character >= ARRAY_COUNT(morsePatterns)) return 0; return morsePatterns[character]; } struct MorseObjectStruct { struct { unsigned int frequency; unsigned int unit; } parameters; struct { unsigned wasSpace:1; } state; struct { ToneElement *array; size_t size; size_t count; } elements; }; static int addMorseElement (MorseObject *morse, const ToneElement *element) { if (morse->elements.count == morse->elements.size) { size_t newSize = morse->elements.size? (morse->elements.size << 1): 0X10; ToneElement *newArray = realloc(morse->elements.array, (newSize * sizeof(*newArray))); if (!newArray) { logMallocError(); return 0; } morse->elements.array = newArray; morse->elements.size = newSize; } morse->elements.array[morse->elements.count++] = *element; return 1; } static int addMorseMark (MorseObject *morse, unsigned int units) { ToneElement element = TONE_PLAY((morse->parameters.unit * units), morse->parameters.frequency); return addMorseElement(morse, &element);; } static int addMorseGap (MorseObject *morse, unsigned int units) { ToneElement element = TONE_REST((morse->parameters.unit * units)); return addMorseElement(morse, &element);; } int addMorsePattern (MorseObject *morse, MorsePattern pattern) { if (pattern) { int addGap = 0; while (pattern != 0B1) { if (!addGap) { addGap = 1; } else if (!addMorseGap(morse, MORSE_UNITS_GAP_SYMBOL)) { return 0; } unsigned int units = (pattern & 0B1)? MORSE_UNITS_MARK_SHORT: MORSE_UNITS_MARK_LONG; if (!addMorseMark(morse, units)) return 0; pattern >>= 1; } } return 1; } int addMorseCharacter (MorseObject *morse, wchar_t character) { if (!iswspace(character)) { if (morse->state.wasSpace) { morse->state.wasSpace = 0; } else if (!addMorseGap(morse, MORSE_UNITS_GAP_LETTER)) { return 0; } if (!addMorsePattern(morse, getMorsePattern(character))) return 0; } else if (!morse->state.wasSpace) { morse->state.wasSpace = 1; if (!addMorseGap(morse, MORSE_UNITS_GAP_WORD)) return 0; } return 1; } int addMorseSpace (MorseObject *morse) { return addMorseCharacter(morse, WC_C(' ')); } int addMorseCharacters (MorseObject *morse, const wchar_t *characters, size_t count) { const wchar_t *character = characters; const wchar_t *end = character + count; while (character < end) { if (!addMorseCharacter(morse, *character++)) return 0; } return 1; } int addMorseString (MorseObject *morse, const char *string) { size_t size = strlen(string) + 1; wchar_t characters[size]; const char *byte = string; wchar_t *end = characters; convertUtf8ToWchars(&byte, &end, size); return addMorseCharacters(morse, characters, (end - characters)); } int playMorseSequence (MorseObject *morse) { { ToneElement element = TONE_STOP(); if (!addMorseElement(morse, &element)) return 0; } tunePlayTones(morse->elements.array); tuneSynchronize(); return 1; } void clearMorseSequence (MorseObject *morse) { morse->elements.count = 0; morse->state.wasSpace = 1; } unsigned int getMorsePitch (MorseObject *morse) { return morse->parameters.frequency; } int setMorsePitch (MorseObject *morse, unsigned int frequency) { if (frequency < 1) return 0; if (frequency > 0XFFFF) return 0; morse->parameters.frequency = frequency; return 1; } static inline unsigned int getMorseReferenceDuration (unsigned int unitsPerMinute) { return 60000 / unitsPerMinute; } static unsigned int getMorseSpeed (MorseObject *morse, unsigned int unitsPerMinute) { return getMorseReferenceDuration(unitsPerMinute) / morse->parameters.unit; } static int setMorseSpeed (MorseObject *morse, unsigned int speed, unsigned int unitsPerMinute) { unsigned int unitDuration = getMorseReferenceDuration(unitsPerMinute) / speed; if (unitDuration < 10) return 0; morse->parameters.unit = unitDuration; return 1; } unsigned int getMorseWordsPerMinute (MorseObject *morse) { return getMorseSpeed(morse, MORSE_UNITS_PER_WORD); } int setMorseWordsPerMinute (MorseObject *morse, unsigned int speed) { return setMorseSpeed(morse, speed, MORSE_UNITS_PER_WORD); } unsigned int getMorseGroupsPerMinute (MorseObject *morse) { return getMorseSpeed(morse, MORSE_UNITS_PER_GROUP); } int setMorseGroupsPerMinute (MorseObject *morse, unsigned int speed) { return setMorseSpeed(morse, speed, MORSE_UNITS_PER_GROUP); } void * newMorseObject (void) { MorseObject *morse; if ((morse = malloc(sizeof(*morse)))) { memset(morse, 0, sizeof(*morse)); setMorsePitch(morse, 440); setMorseWordsPerMinute(morse, 20); morse->elements.array = NULL; morse->elements.size = 0; clearMorseSequence(morse);; return morse; } else { logMallocError(); } return NULL; } void destroyMorseObject (MorseObject *morse) { if (morse->elements.array) free(morse->elements.array); free(morse); }