/** * @file lv_bidi.c * */ /********************* * INCLUDES *********************/ #include #include "lv_bidi.h" #include "lv_txt.h" #include "../misc/lv_mem.h" #if LV_USE_BIDI /********************* * DEFINES *********************/ #define LV_BIDI_BRACKLET_DEPTH 4 // Highest bit of the 16-bit pos_conv value specifies whether this pos is RTL or not #define GET_POS(x) ((x) & 0x7FFF) #define IS_RTL_POS(x) (((x) & 0x8000) != 0) #define SET_RTL_POS(x, is_rtl) (GET_POS(x) | ((is_rtl)? 0x8000: 0)) /********************** * TYPEDEFS **********************/ typedef struct { uint32_t bracklet_pos; lv_base_dir_t dir; } bracket_stack_t; /********************** * STATIC PROTOTYPES **********************/ static uint32_t lv_bidi_get_next_paragraph(const char * txt); static lv_base_dir_t lv_bidi_get_letter_dir(uint32_t letter); static bool lv_bidi_letter_is_weak(uint32_t letter); static bool lv_bidi_letter_is_rtl(uint32_t letter); static bool lv_bidi_letter_is_neutral(uint32_t letter); static lv_base_dir_t get_next_run(const char * txt, lv_base_dir_t base_dir, uint32_t max_len, uint32_t * len, uint16_t * pos_conv_len); static void rtl_reverse(char * dest, const char * src, uint32_t len, uint16_t * pos_conv_out, uint16_t pos_conv_rd_base, uint16_t pos_conv_len); static uint32_t char_change_to_pair(uint32_t letter); static lv_base_dir_t bracket_process(const char * txt, uint32_t next_pos, uint32_t len, uint32_t letter, lv_base_dir_t base_dir); static void fill_pos_conv(uint16_t * out, uint16_t len, uint16_t index); static uint32_t get_txt_len(const char * txt, uint32_t max_len); /********************** * STATIC VARIABLES **********************/ static const uint8_t bracket_left[] = {"<({["}; static const uint8_t bracket_right[] = {">)}]"}; static bracket_stack_t br_stack[LV_BIDI_BRACKLET_DEPTH]; static uint8_t br_stack_p; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Convert a text to get the characters in the correct visual order according to * Unicode Bidirectional Algorithm * @param str_in the text to process * @param str_out store the result here. Has the be `strlen(str_in)` length * @param base_dir `LV_BASE_DIR_LTR` or `LV_BASE_DIR_RTL` */ void _lv_bidi_process(const char * str_in, char * str_out, lv_base_dir_t base_dir) { if(base_dir == LV_BASE_DIR_AUTO) base_dir = _lv_bidi_detect_base_dir(str_in); uint32_t par_start = 0; uint32_t par_len; while(str_in[par_start] == '\n' || str_in[par_start] == '\r') { str_out[par_start] = str_in[par_start]; par_start ++; } while(str_in[par_start] != '\0') { par_len = lv_bidi_get_next_paragraph(&str_in[par_start]); _lv_bidi_process_paragraph(&str_in[par_start], &str_out[par_start], par_len, base_dir, NULL, 0); par_start += par_len; while(str_in[par_start] == '\n' || str_in[par_start] == '\r') { str_out[par_start] = str_in[par_start]; par_start ++; } } str_out[par_start] = '\0'; } /** * Auto-detect the direction of a text based on the first strong character * @param txt the text to process * @return `LV_BASE_DIR_LTR` or `LV_BASE_DIR_RTL` */ lv_base_dir_t _lv_bidi_detect_base_dir(const char * txt) { uint32_t i = 0; uint32_t letter; while(txt[i] != '\0') { letter = _lv_txt_encoded_next(txt, &i); lv_base_dir_t dir; dir = lv_bidi_get_letter_dir(letter); if(dir == LV_BASE_DIR_RTL || dir == LV_BASE_DIR_LTR) return dir; } /*If there were no strong char earlier return with the default base dir*/ if(LV_BIDI_BASE_DIR_DEF == LV_BASE_DIR_AUTO) return LV_BASE_DIR_LTR; else return LV_BIDI_BASE_DIR_DEF; } /** * Get the logical position of a character in a line * @param str_in the input string. Can be only one line. * @param bidi_txt internally the text is bidi processed which buffer can be get here. * If not required anymore has to freed with `lv_mem_free()` * Can be `NULL` is unused * @param len length of the line in character count * @param base_dir base direction of the text: `LV_BASE_DIR_LTR` or `LV_BASE_DIR_RTL` * @param visual_pos the visual character position which logical position should be get * @param is_rtl tell the char at `visual_pos` is RTL or LTR context * @return the logical character position */ uint16_t _lv_bidi_get_logical_pos(const char * str_in, char ** bidi_txt, uint32_t len, lv_base_dir_t base_dir, uint32_t visual_pos, bool * is_rtl) { uint32_t pos_conv_len = get_txt_len(str_in, len); char * buf = lv_mem_buf_get(len + 1); if(buf == NULL) return (uint16_t) -1; uint16_t * pos_conv_buf = lv_mem_buf_get(pos_conv_len * sizeof(uint16_t)); if(pos_conv_buf == NULL) { lv_mem_buf_release(buf); return (uint16_t) -1; } if(bidi_txt) *bidi_txt = buf; _lv_bidi_process_paragraph(str_in, bidi_txt ? *bidi_txt : NULL, len, base_dir, pos_conv_buf, pos_conv_len); if(is_rtl) *is_rtl = IS_RTL_POS(pos_conv_buf[visual_pos]); if(bidi_txt == NULL) lv_mem_buf_release(buf); uint16_t res = GET_POS(pos_conv_buf[visual_pos]); lv_mem_buf_release(pos_conv_buf); return res; } /** * Get the visual position of a character in a line * @param str_in the input string. Can be only one line. * @param bidi_txt internally the text is bidi processed which buffer can be get here. * If not required anymore has to freed with `lv_mem_free()` * Can be `NULL` is unused * @param len length of the line in character count * @param base_dir base direction of the text: `LV_BASE_DIR_LTR` or `LV_BASE_DIR_RTL` * @param logical_pos the logical character position which visual position should be get * @param is_rtl tell the char at `logical_pos` is RTL or LTR context * @return the visual character position */ uint16_t _lv_bidi_get_visual_pos(const char * str_in, char ** bidi_txt, uint16_t len, lv_base_dir_t base_dir, uint32_t logical_pos, bool * is_rtl) { uint32_t pos_conv_len = get_txt_len(str_in, len); char * buf = lv_mem_buf_get(len + 1); if(buf == NULL) return (uint16_t) -1; uint16_t * pos_conv_buf = lv_mem_buf_get(pos_conv_len * sizeof(uint16_t)); if(pos_conv_buf == NULL) { lv_mem_buf_release(buf); return (uint16_t) -1; } if(bidi_txt) *bidi_txt = buf; _lv_bidi_process_paragraph(str_in, bidi_txt ? *bidi_txt : NULL, len, base_dir, pos_conv_buf, pos_conv_len); for(uint16_t i = 0; i < pos_conv_len; i++) { if(GET_POS(pos_conv_buf[i]) == logical_pos) { if(is_rtl) *is_rtl = IS_RTL_POS(pos_conv_buf[i]); lv_mem_buf_release(pos_conv_buf); if(bidi_txt == NULL) lv_mem_buf_release(buf); return i; } } lv_mem_buf_release(pos_conv_buf); if(bidi_txt == NULL) lv_mem_buf_release(buf); return (uint16_t) -1; } /** * Bidi process a paragraph of text * @param str_in the string to process * @param str_out store the result here * @param len length of the text * @param base_dir base dir of the text * @param pos_conv_out an `uint16_t` array to store the related logical position of the character. * Can be `NULL` is unused * @param pos_conv_len length of `pos_conv_out` in element count */ void _lv_bidi_process_paragraph(const char * str_in, char * str_out, uint32_t len, lv_base_dir_t base_dir, uint16_t * pos_conv_out, uint16_t pos_conv_len) { uint32_t run_len = 0; lv_base_dir_t run_dir; uint32_t rd = 0; uint32_t wr; uint16_t pos_conv_run_len = 0; uint16_t pos_conv_rd = 0; uint16_t pos_conv_wr; if(base_dir == LV_BASE_DIR_AUTO) base_dir = _lv_bidi_detect_base_dir(str_in); if(base_dir == LV_BASE_DIR_RTL) { wr = len; pos_conv_wr = pos_conv_len; } else { wr = 0; pos_conv_wr = 0; } if(str_out) str_out[len] = '\0'; lv_base_dir_t dir = base_dir; /*Empty the bracket stack*/ br_stack_p = 0; /*Process neutral chars in the beginning*/ while(rd < len) { uint32_t letter = _lv_txt_encoded_next(str_in, &rd); pos_conv_rd++; dir = lv_bidi_get_letter_dir(letter); if(dir == LV_BASE_DIR_NEUTRAL) dir = bracket_process(str_in, rd, len, letter, base_dir); if(dir != LV_BASE_DIR_NEUTRAL && dir != LV_BASE_DIR_WEAK) break; } if(rd && str_in[rd] != '\0') { _lv_txt_encoded_prev(str_in, &rd); pos_conv_rd--; } if(rd) { if(base_dir == LV_BASE_DIR_LTR) { if(str_out) { lv_memcpy(&str_out[wr], str_in, rd); wr += rd; } if(pos_conv_out) { fill_pos_conv(&pos_conv_out[pos_conv_wr], pos_conv_rd, 0); pos_conv_wr += pos_conv_rd; } } else { wr -= rd; pos_conv_wr -= pos_conv_rd; rtl_reverse(str_out ? &str_out[wr] : NULL, str_in, rd, pos_conv_out ? &pos_conv_out[pos_conv_wr] : NULL, 0, pos_conv_rd); } } /*Get and process the runs*/ while(rd < len && str_in[rd]) { run_dir = get_next_run(&str_in[rd], base_dir, len - rd, &run_len, &pos_conv_run_len); if(base_dir == LV_BASE_DIR_LTR) { if(run_dir == LV_BASE_DIR_LTR) { if(str_out) lv_memcpy(&str_out[wr], &str_in[rd], run_len); if(pos_conv_out) fill_pos_conv(&pos_conv_out[pos_conv_wr], pos_conv_run_len, pos_conv_rd); } else rtl_reverse(str_out ? &str_out[wr] : NULL, &str_in[rd], run_len, pos_conv_out ? &pos_conv_out[pos_conv_wr] : NULL, pos_conv_rd, pos_conv_run_len); wr += run_len; pos_conv_wr += pos_conv_run_len; } else { wr -= run_len; pos_conv_wr -= pos_conv_run_len; if(run_dir == LV_BASE_DIR_LTR) { if(str_out) lv_memcpy(&str_out[wr], &str_in[rd], run_len); if(pos_conv_out) fill_pos_conv(&pos_conv_out[pos_conv_wr], pos_conv_run_len, pos_conv_rd); } else rtl_reverse(str_out ? &str_out[wr] : NULL, &str_in[rd], run_len, pos_conv_out ? &pos_conv_out[pos_conv_wr] : NULL, pos_conv_rd, pos_conv_run_len); } rd += run_len; pos_conv_rd += pos_conv_run_len; } } void lv_bidi_calculate_align(lv_text_align_t * align, lv_base_dir_t * base_dir, const char * txt) { if(*base_dir == LV_BASE_DIR_AUTO) *base_dir = _lv_bidi_detect_base_dir(txt); if(*align == LV_TEXT_ALIGN_AUTO) { if(*base_dir == LV_BASE_DIR_RTL) *align = LV_TEXT_ALIGN_RIGHT; else *align = LV_TEXT_ALIGN_LEFT; } } /********************** * STATIC FUNCTIONS **********************/ /** * Get the next paragraph from a text * @param txt the text to process * @return the length of the current paragraph in byte count */ static uint32_t lv_bidi_get_next_paragraph(const char * txt) { uint32_t i = 0; _lv_txt_encoded_next(txt, &i); while(txt[i] != '\0' && txt[i] != '\n' && txt[i] != '\r') { _lv_txt_encoded_next(txt, &i); } return i; } /** * Get the direction of a character * @param letter an Unicode character * @return `LV_BASE_DIR_RTL/LTR/WEAK/NEUTRAL` */ static lv_base_dir_t lv_bidi_get_letter_dir(uint32_t letter) { if(lv_bidi_letter_is_rtl(letter)) return LV_BASE_DIR_RTL; if(lv_bidi_letter_is_neutral(letter)) return LV_BASE_DIR_NEUTRAL; if(lv_bidi_letter_is_weak(letter)) return LV_BASE_DIR_WEAK; return LV_BASE_DIR_LTR; } /** * Tell whether a character is weak or not * @param letter an Unicode character * @return true/false */ static bool lv_bidi_letter_is_weak(uint32_t letter) { uint32_t i = 0; static const char weaks[] = "0123456789"; do { uint32_t x = _lv_txt_encoded_next(weaks, &i); if(letter == x) { return true; } } while(weaks[i] != '\0'); return false; } /** * Tell whether a character is RTL or not * @param letter an Unicode character * @return true/false */ static bool lv_bidi_letter_is_rtl(uint32_t letter) { if(letter >= 0x5d0 && letter <= 0x5ea) return true; if(letter == 0x202E) return true; /*Unicode of LV_BIDI_RLO*/ /*Check for Persian and Arabic characters [https://en.wikipedia.org/wiki/Arabic_script_in_Unicode]*/ if(letter >= 0x600 && letter <= 0x6FF) return true; if(letter >= 0xFB50 && letter <= 0xFDFF) return true; if(letter >= 0xFE70 && letter <= 0xFEFF) return true; return false; } /** * Tell whether a character is neutral or not * @param letter an Unicode character * @return true/false */ static bool lv_bidi_letter_is_neutral(uint32_t letter) { uint16_t i; static const char neutrals[] = " \t\n\r.,:;'\"`!?%/\\-=()[]{}<>@#&$|"; for(i = 0; neutrals[i] != '\0'; i++) { if(letter == (uint32_t)neutrals[i]) return true; } return false; } static uint32_t get_txt_len(const char * txt, uint32_t max_len) { uint32_t len = 0; uint32_t i = 0; while(i < max_len && txt[i] != '\0') { _lv_txt_encoded_next(txt, &i); len++; } return len; } static void fill_pos_conv(uint16_t * out, uint16_t len, uint16_t index) { uint16_t i; for(i = 0; i < len; i++) { out[i] = SET_RTL_POS(index, false); index++; } } static lv_base_dir_t get_next_run(const char * txt, lv_base_dir_t base_dir, uint32_t max_len, uint32_t * len, uint16_t * pos_conv_len) { uint32_t i = 0; uint32_t letter; uint16_t pos_conv_i = 0; letter = _lv_txt_encoded_next(txt, NULL); lv_base_dir_t dir = lv_bidi_get_letter_dir(letter); if(dir == LV_BASE_DIR_NEUTRAL) dir = bracket_process(txt, 0, max_len, letter, base_dir); /*Find the first strong char. Skip the neutrals*/ while(dir == LV_BASE_DIR_NEUTRAL || dir == LV_BASE_DIR_WEAK) { letter = _lv_txt_encoded_next(txt, &i); pos_conv_i++; dir = lv_bidi_get_letter_dir(letter); if(dir == LV_BASE_DIR_NEUTRAL) dir = bracket_process(txt, i, max_len, letter, base_dir); if(dir == LV_BASE_DIR_LTR || dir == LV_BASE_DIR_RTL) break; if(i >= max_len || txt[i] == '\0' || txt[i] == '\n' || txt[i] == '\r') { *len = i; *pos_conv_len = pos_conv_i; return base_dir; } } lv_base_dir_t run_dir = dir; uint32_t i_prev = i; uint32_t i_last_strong = i; uint16_t pos_conv_i_prev = pos_conv_i; uint16_t pos_conv_i_last_strong = pos_conv_i; /*Find the next char which has different direction*/ lv_base_dir_t next_dir = base_dir; while(i_prev < max_len && txt[i] != '\0' && txt[i] != '\n' && txt[i] != '\r') { letter = _lv_txt_encoded_next(txt, &i); pos_conv_i++; next_dir = lv_bidi_get_letter_dir(letter); if(next_dir == LV_BASE_DIR_NEUTRAL) next_dir = bracket_process(txt, i, max_len, letter, base_dir); if(next_dir == LV_BASE_DIR_WEAK) { if(run_dir == LV_BASE_DIR_RTL) { if(base_dir == LV_BASE_DIR_RTL) { next_dir = LV_BASE_DIR_LTR; } } } /*New dir found?*/ if((next_dir == LV_BASE_DIR_RTL || next_dir == LV_BASE_DIR_LTR) && next_dir != run_dir) { /*Include neutrals if `run_dir == base_dir`*/ if(run_dir == base_dir) { *len = i_prev; *pos_conv_len = pos_conv_i_prev; } /*Exclude neutrals if `run_dir != base_dir`*/ else { *len = i_last_strong; *pos_conv_len = pos_conv_i_last_strong; } return run_dir; } if(next_dir != LV_BASE_DIR_NEUTRAL) { i_last_strong = i; pos_conv_i_last_strong = pos_conv_i; } i_prev = i; pos_conv_i_prev = pos_conv_i; } /*Handle end of of string. Apply `base_dir` on trailing neutrals*/ /*Include neutrals if `run_dir == base_dir`*/ if(run_dir == base_dir) { *len = i_prev; *pos_conv_len = pos_conv_i_prev; } /*Exclude neutrals if `run_dir != base_dir`*/ else { *len = i_last_strong; *pos_conv_len = pos_conv_i_last_strong; } return run_dir; } static void rtl_reverse(char * dest, const char * src, uint32_t len, uint16_t * pos_conv_out, uint16_t pos_conv_rd_base, uint16_t pos_conv_len) { uint32_t i = len; uint32_t wr = 0; uint16_t pos_conv_i = pos_conv_len; uint16_t pos_conv_wr = 0; while(i) { uint32_t letter = _lv_txt_encoded_prev(src, &i); uint16_t pos_conv_letter = --pos_conv_i; /*Keep weak letters (numbers) as LTR*/ if(lv_bidi_letter_is_weak(letter)) { uint32_t last_weak = i; uint32_t first_weak = i; uint16_t pos_conv_last_weak = pos_conv_i; uint16_t pos_conv_first_weak = pos_conv_i; while(i) { letter = _lv_txt_encoded_prev(src, &i); pos_conv_letter = --pos_conv_i; /*No need to call `char_change_to_pair` because there not such chars here*/ /*Finish on non-weak char*/ /*but treat number and currency related chars as weak*/ if(lv_bidi_letter_is_weak(letter) == false && letter != '.' && letter != ',' && letter != '$' && letter != '%') { _lv_txt_encoded_next(src, &i); /*Rewind one letter*/ pos_conv_i++; first_weak = i; pos_conv_first_weak = pos_conv_i; break; } } if(i == 0) { first_weak = 0; pos_conv_first_weak = 0; } if(dest) lv_memcpy(&dest[wr], &src[first_weak], last_weak - first_weak + 1); if(pos_conv_out) fill_pos_conv(&pos_conv_out[pos_conv_wr], pos_conv_last_weak - pos_conv_first_weak + 1, pos_conv_rd_base + pos_conv_first_weak); wr += last_weak - first_weak + 1; pos_conv_wr += pos_conv_last_weak - pos_conv_first_weak + 1; } /*Simply store in reversed order*/ else { uint32_t letter_size = _lv_txt_encoded_size((const char *)&src[i]); /*Swap arithmetical symbols*/ if(letter_size == 1) { uint32_t new_letter = letter = char_change_to_pair(letter); if(dest) dest[wr] = (uint8_t)new_letter; if(pos_conv_out) pos_conv_out[pos_conv_wr] = SET_RTL_POS(pos_conv_rd_base + pos_conv_letter, true); wr++; pos_conv_wr++; } /*Just store the letter*/ else { if(dest) lv_memcpy(&dest[wr], &src[i], letter_size); if(pos_conv_out) pos_conv_out[pos_conv_wr] = SET_RTL_POS(pos_conv_rd_base + pos_conv_i, true); wr += letter_size; pos_conv_wr++; } } } } static uint32_t char_change_to_pair(uint32_t letter) { uint8_t i; for(i = 0; bracket_left[i] != '\0'; i++) { if(letter == bracket_left[i]) return bracket_right[i]; } for(i = 0; bracket_right[i] != '\0'; i++) { if(letter == bracket_right[i]) return bracket_left[i]; } return letter; } static lv_base_dir_t bracket_process(const char * txt, uint32_t next_pos, uint32_t len, uint32_t letter, lv_base_dir_t base_dir) { lv_base_dir_t bracket_dir = LV_BASE_DIR_NEUTRAL; uint8_t i; /*Is the letter an opening bracket?*/ for(i = 0; bracket_left[i] != '\0'; i++) { if(bracket_left[i] == letter) { /*If so find its matching closing bracket. *If a char with base dir. direction is found then the brackets will have `base_dir` direction*/ uint32_t txt_i = next_pos; while(txt_i < len) { uint32_t letter_next = _lv_txt_encoded_next(txt, &txt_i); if(letter_next == bracket_right[i]) { /*Closing bracket found*/ break; } else { /*Save the dir*/ lv_base_dir_t letter_dir = lv_bidi_get_letter_dir(letter_next); if(letter_dir == base_dir) { bracket_dir = base_dir; } } } /*There were no matching closing bracket*/ if(txt_i > len) return LV_BASE_DIR_NEUTRAL; /*There where a strong char with base dir in the bracket so the dir is found.*/ if(bracket_dir != LV_BASE_DIR_NEUTRAL && bracket_dir != LV_BASE_DIR_WEAK) break; /*If there were no matching strong chars in the brackets then check the previous chars*/ txt_i = next_pos; if(txt_i) _lv_txt_encoded_prev(txt, &txt_i); while(txt_i > 0) { uint32_t letter_next = _lv_txt_encoded_prev(txt, &txt_i); lv_base_dir_t letter_dir = lv_bidi_get_letter_dir(letter_next); if(letter_dir == LV_BASE_DIR_LTR || letter_dir == LV_BASE_DIR_RTL) { bracket_dir = letter_dir; break; } } /*There where a previous strong char which can be used*/ if(bracket_dir != LV_BASE_DIR_NEUTRAL) break; /*There were no strong chars before the bracket, so use the base dir.*/ if(txt_i == 0) bracket_dir = base_dir; break; } } /*The letter was an opening bracket*/ if(bracket_left[i] != '\0') { if(bracket_dir == LV_BASE_DIR_NEUTRAL || br_stack_p == LV_BIDI_BRACKLET_DEPTH) return LV_BASE_DIR_NEUTRAL; br_stack[br_stack_p].bracklet_pos = i; br_stack[br_stack_p].dir = bracket_dir; br_stack_p++; return bracket_dir; } else if(br_stack_p > 0) { /*Is the letter a closing bracket of the last opening?*/ if(letter == bracket_right[br_stack[br_stack_p - 1].bracklet_pos]) { bracket_dir = br_stack[br_stack_p - 1].dir; br_stack_p--; return bracket_dir; } } return LV_BASE_DIR_NEUTRAL; } #endif /*LV_USE_BIDI*/