/** * @file lv_text.c * */ /********************* * INCLUDES *********************/ #include "lv_txt.h" #include "lv_math.h" /********************* * DEFINES *********************/ #define NO_BREAK_FOUND UINT32_MAX /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static inline bool is_break_char(uint32_t letter); #if LV_TXT_ENC == LV_TXT_ENC_UTF8 static uint8_t lv_txt_utf8_size(const char * str); static uint32_t lv_txt_unicode_to_utf8(uint32_t letter_uni); static uint32_t lv_txt_utf8_conv_wc(uint32_t c); static uint32_t lv_txt_utf8_next(const char * txt, uint32_t * i); static uint32_t lv_txt_utf8_prev(const char * txt, uint32_t * i_start); static uint32_t lv_txt_utf8_get_byte_id(const char * txt, uint32_t utf8_id); static uint32_t lv_txt_utf8_get_char_id(const char * txt, uint32_t byte_id); static uint32_t lv_txt_utf8_get_length(const char * txt); #elif LV_TXT_ENC == LV_TXT_ENC_ASCII static uint8_t lv_txt_iso8859_1_size(const char * str); static uint32_t lv_txt_unicode_to_iso8859_1(uint32_t letter_uni); static uint32_t lv_txt_iso8859_1_conv_wc(uint32_t c); static uint32_t lv_txt_iso8859_1_next(const char * txt, uint32_t * i); static uint32_t lv_txt_iso8859_1_prev(const char * txt, uint32_t * i_start); static uint32_t lv_txt_iso8859_1_get_byte_id(const char * txt, uint32_t utf8_id); static uint32_t lv_txt_iso8859_1_get_char_id(const char * txt, uint32_t byte_id); static uint32_t lv_txt_iso8859_1_get_length(const char * txt); #endif /********************** * STATIC VARIABLES **********************/ /********************** * GLOBAL VARIABLES **********************/ #if LV_TXT_ENC == LV_TXT_ENC_UTF8 uint8_t (*lv_txt_encoded_size)(const char *) = lv_txt_utf8_size; uint32_t (*lv_txt_unicode_to_encoded)(uint32_t) = lv_txt_unicode_to_utf8; uint32_t (*lv_txt_encoded_conv_wc)(uint32_t) = lv_txt_utf8_conv_wc; uint32_t (*lv_txt_encoded_next)(const char *, uint32_t *) = lv_txt_utf8_next; uint32_t (*lv_txt_encoded_prev)(const char *, uint32_t *) = lv_txt_utf8_prev; uint32_t (*lv_txt_encoded_get_byte_id)(const char *, uint32_t) = lv_txt_utf8_get_byte_id; uint32_t (*lv_encoded_get_char_id)(const char *, uint32_t) = lv_txt_utf8_get_char_id; uint32_t (*lv_txt_get_encoded_length)(const char *) = lv_txt_utf8_get_length; #elif LV_TXT_ENC == LV_TXT_ENC_ASCII uint8_t (*lv_txt_encoded_size)(const char *) = lv_txt_iso8859_1_size; uint32_t (*lv_txt_unicode_to_encoded)(uint32_t) = lv_txt_unicode_to_iso8859_1; uint32_t (*lv_txt_encoded_conv_wc)(uint32_t) = lv_txt_iso8859_1_conv_wc; uint32_t (*lv_txt_encoded_next)(const char *, uint32_t *) = lv_txt_iso8859_1_next; uint32_t (*lv_txt_encoded_prev)(const char *, uint32_t *) = lv_txt_iso8859_1_prev; uint32_t (*lv_txt_encoded_get_byte_id)(const char *, uint32_t) = lv_txt_iso8859_1_get_byte_id; uint32_t (*lv_encoded_get_char_id)(const char *, uint32_t) = lv_txt_iso8859_1_get_char_id; uint32_t (*lv_txt_get_encoded_length)(const char *) = lv_txt_iso8859_1_get_length; #endif /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Get size of a text * @param size_res pointer to a 'point_t' variable to store the result * @param text pointer to a text * @param font pinter to font of the text * @param letter_space letter space of the text * @param txt.line_space line space of the text * @param flags settings for the text from 'txt_flag_t' enum * @param max_width max with of the text (break the lines to fit this size) Set CORD_MAX to avoid * line breaks */ void lv_txt_get_size(lv_point_t * size_res, const char * text, const lv_font_t * font, lv_coord_t letter_space, lv_coord_t line_space, lv_coord_t max_width, lv_txt_flag_t flag) { size_res->x = 0; size_res->y = 0; if(text == NULL) return; if(font == NULL) return; if(flag & LV_TXT_FLAG_EXPAND) max_width = LV_COORD_MAX; uint32_t line_start = 0; uint32_t new_line_start = 0; lv_coord_t act_line_length; uint8_t letter_height = lv_font_get_line_height(font); /*Calc. the height and longest line*/ while(text[line_start] != '\0') { new_line_start += lv_txt_get_next_line(&text[line_start], font, letter_space, max_width, flag); size_res->y += letter_height; size_res->y += line_space; /*Calculate the the longest line*/ act_line_length = lv_txt_get_width(&text[line_start], new_line_start - line_start, font, letter_space, flag); size_res->x = LV_MATH_MAX(act_line_length, size_res->x); line_start = new_line_start; } /*Ma ke the text one line taller if the last character is '\n' or '\r'*/ if((line_start != 0) && (text[line_start - 1] == '\n' || text[line_start - 1] == '\r')) { size_res->y += letter_height + line_space; } /*Correction with the last line space or set the height manually if the text is empty*/ if(size_res->y == 0) size_res->y = letter_height; else size_res->y -= line_space; } /** * Get the next word of text. A word is delimited by break characters. * * If the word cannot fit in the max_width space, obey LV_TXT_LINE_BREAK_LONG_* rules. * * If the next word cannot fit anything, return 0. * * If the first character is a break character, returns the next index. * * Example calls from lv_txt_get_next_line() assuming sufficent max_width and * txt = "Test text\n" * 0123456789 * * Calls would be as follows: * 1. Return i=4, pointing at breakchar ' ', for the string "Test" * 2. Return i=5, since i=4 was a breakchar. * 3. Return i=9, pointing at breakchar '\n' * 4. Parenting lv_txt_get_next_line() would detect subsequent '\0' * * @param txt a '\0' terminated string * @param font pointer to a font * @param letter_space letter space * @param max_width max with of the text (break the lines to fit this size) Set CORD_MAX to avoid line breaks * @param flags settings for the text from 'txt_flag_type' enum * @param[out] word_w_ptr width (in pixels) of the parsed word. May be NULL. * @param force Force return the fraction of the word that can fit in the provided space. * @return the index of the first char of the next word (in byte index not letter index. With UTF-8 they are different) */ static uint16_t lv_txt_get_next_word(const char * txt, const lv_font_t * font, lv_coord_t letter_space, lv_coord_t max_width, lv_txt_flag_t flag, uint32_t *word_w_ptr, bool force) { if(txt == NULL || txt[0] == '\0') return 0; if(font == NULL) return 0; if(flag & LV_TXT_FLAG_EXPAND) max_width = LV_COORD_MAX; uint32_t i = 0, i_next = 0, i_next_next = 0; /* Iterating index into txt */ lv_txt_cmd_state_t cmd_state = LV_TXT_CMD_STATE_WAIT; uint32_t letter = 0; /* Letter at i */ uint32_t letter_next = 0; /* Letter at i_next */ lv_coord_t letter_w; lv_coord_t cur_w = 0; /* Pixel Width of transversed string */ uint32_t word_len = 0; /* Number of characters in the transversed word */ uint32_t break_index = NO_BREAK_FOUND; /* only used for "long" words */ uint32_t break_letter_count = 0; /* Number of characters up to the long word break point */ letter = lv_txt_encoded_next(txt, &i_next); i_next_next = i_next; /* Obtain the full word, regardless if it fits or not in max_width */ while(txt[i] != '\0') { letter_next = lv_txt_encoded_next(txt, &i_next_next); word_len++; /*Handle the recolor command*/ if((flag & LV_TXT_FLAG_RECOLOR) != 0) { if(lv_txt_is_cmd(&cmd_state, letter) != false) { i = i_next; i_next = i_next_next; letter = letter_next; continue; /*Skip the letter is it is part of a command*/ } } letter_w = lv_font_get_glyph_width(font, letter, letter_next); cur_w += letter_w; /* Test if this character fits within max_width */ if(break_index == NO_BREAK_FOUND && cur_w > max_width) { break_index = i; break_letter_count = word_len - 1; /* break_index is now pointing at the character that doesn't fit */ } /*Check for new line chars and breakchars*/ if(letter == '\n' || letter == '\r' || is_break_char(letter)) { /* Update the output width on the first character if it fits. * Must do this here incase first letter is a break character. */ if(i == 0 && break_index == NO_BREAK_FOUND && word_w_ptr != NULL) *word_w_ptr = cur_w; word_len--; break; } /* Update the output width */ if( word_w_ptr != NULL && break_index == NO_BREAK_FOUND ) *word_w_ptr = cur_w; if(letter_w > 0) { cur_w += letter_space; } i = i_next; i_next = i_next_next; letter = letter_next; } /* Entire Word fits in the provided space */ if( break_index == NO_BREAK_FOUND ) { if( word_len == 0 || (letter == '\r' && letter_next == '\n') ) i = i_next; return i; } if( force ) { return break_index; } #if LV_TXT_LINE_BREAK_LONG_LEN > 0 /* Word doesn't fit in provided space, but isn't "long" */ if(word_len < LV_TXT_LINE_BREAK_LONG_LEN) { if(word_w_ptr != NULL) *word_w_ptr = 0; /* Return no word */ return 0; } /* Word is "long," but insufficient amounts can fit in provided space */ if(break_letter_count < LV_TXT_LINE_BREAK_LONG_PRE_MIN_LEN) { if(word_w_ptr != NULL) *word_w_ptr = 0; return 0; } /* Word is a "long", but letters may need to be better distributed */ { i = break_index; int32_t n_move = LV_TXT_LINE_BREAK_LONG_POST_MIN_LEN - (word_len - break_letter_count); /* Move pointer "i" backwards */ for(;n_move>0; n_move--){ lv_txt_encoded_prev(txt, &i); // TODO: it would be appropriate to update the returned word width here // However, in current usage, this doesn't impact anything. } } return i; #else (void) break_letter_count; return 0; #endif } /** * Get the next line of text. Check line length and break chars too. * * A line of txt includes the \n character. * * @param txt a '\0' terminated string * @param font pointer to a font * @param letter_space letter space * @param max_width max with of the text (break the lines to fit this size) Set CORD_MAX to avoid line breaks * @param flags settings for the text from 'txt_flag_type' enum * @return the index of the first char of the new line (in byte index not letter index. With UTF-8 they are different) */ uint16_t lv_txt_get_next_line(const char * txt, const lv_font_t * font, lv_coord_t letter_space, lv_coord_t max_width, lv_txt_flag_t flag) { if(txt == NULL) return 0; if(font == NULL) return 0; if(flag & LV_TXT_FLAG_EXPAND) max_width = LV_COORD_MAX; uint32_t i = 0; /* Iterating index into txt */ while(txt[i] != '\0' && max_width > 0) { uint32_t word_w = 0; uint32_t advance = lv_txt_get_next_word(&txt[i], font, letter_space, max_width, flag, &word_w, i==0); max_width -= word_w; if( advance == 0 ){ if(i == 0) lv_txt_encoded_next(txt, &i); // prevent inf loops break; } i += advance; if(txt[0] == '\n') break; if(txt[i] == '\n'){ i++; /* Include the following newline in the current line */ break; } } /* Always step at least one to avoid infinite loops */ if(i == 0) { lv_txt_encoded_next(txt, &i); } return i; } /** * Give the length of a text with a given font * @param txt a '\0' terminate string * @param length length of 'txt' in byte count and not characters (Á is 1 character but 2 bytes in * UTF-8) * @param font pointer to a font * @param letter_space letter space * @param flags settings for the text from 'txt_flag_t' enum * @return length of a char_num long text */ lv_coord_t lv_txt_get_width(const char * txt, uint16_t length, const lv_font_t * font, lv_coord_t letter_space, lv_txt_flag_t flag) { if(txt == NULL) return 0; if(font == NULL) return 0; uint32_t i = 0; lv_coord_t width = 0; lv_txt_cmd_state_t cmd_state = LV_TXT_CMD_STATE_WAIT; uint32_t letter; uint32_t letter_next; if(length != 0) { while(i < length) { letter = lv_txt_encoded_next(txt, &i); letter_next = lv_txt_encoded_next(&txt[i], NULL); if((flag & LV_TXT_FLAG_RECOLOR) != 0) { if(lv_txt_is_cmd(&cmd_state, letter) != false) { continue; } } lv_coord_t char_width = lv_font_get_glyph_width(font, letter, letter_next); if(char_width > 0) { width += char_width; width += letter_space; } } if(width > 0) { width -= letter_space; /*Trim the last letter space. Important if the text is center aligned */ } } return width; } /** * Check next character in a string and decide if the character is part of the command or not * @param state pointer to a txt_cmd_state_t variable which stores the current state of command * processing (Initied. to TXT_CMD_STATE_WAIT ) * @param c the current character * @return true: the character is part of a command and should not be written, * false: the character should be written */ bool lv_txt_is_cmd(lv_txt_cmd_state_t * state, uint32_t c) { bool ret = false; if(c == (uint32_t)LV_TXT_COLOR_CMD[0]) { if(*state == LV_TXT_CMD_STATE_WAIT) { /*Start char*/ *state = LV_TXT_CMD_STATE_PAR; ret = true; } /*Other start char in parameter is escaped cmd. char */ else if(*state == LV_TXT_CMD_STATE_PAR) { *state = LV_TXT_CMD_STATE_WAIT; } /*Command end */ else if(*state == LV_TXT_CMD_STATE_IN) { *state = LV_TXT_CMD_STATE_WAIT; ret = true; } } /*Skip the color parameter and wait the space after it*/ if(*state == LV_TXT_CMD_STATE_PAR) { if(c == ' ') { *state = LV_TXT_CMD_STATE_IN; /*After the parameter the text is in the command*/ } ret = true; } return ret; } /** * Insert a string into an other * @param txt_buf the original text (must be big enough for the result text) * @param pos position to insert. Expressed in character index and not byte index (Different in * UTF-8) 0: before the original text, 1: after the first char etc. * @param ins_txt text to insert */ void lv_txt_ins(char * txt_buf, uint32_t pos, const char * ins_txt) { uint32_t old_len = strlen(txt_buf); uint32_t ins_len = strlen(ins_txt); uint32_t new_len = ins_len + old_len; pos = lv_txt_encoded_get_byte_id(txt_buf, pos); /*Convert to byte index instead of letter index*/ /*Copy the second part into the end to make place to text to insert*/ uint32_t i; for(i = new_len; i >= pos + ins_len; i--) { txt_buf[i] = txt_buf[i - ins_len]; } /* Copy the text into the new space*/ memcpy(txt_buf + pos, ins_txt, ins_len); } /** * Delete a part of a string * @param txt string to modify * @param pos position where to start the deleting (0: before the first char, 1: after the first * char etc.) * @param len number of characters to delete */ void lv_txt_cut(char * txt, uint32_t pos, uint32_t len) { uint32_t old_len = strlen(txt); pos = lv_txt_encoded_get_byte_id(txt, pos); /*Convert to byte index instead of letter index*/ len = lv_txt_encoded_get_byte_id(&txt[pos], len); /*Copy the second part into the end to make place to text to insert*/ uint32_t i; for(i = pos; i <= old_len - len; i++) { txt[i] = txt[i + len]; } } #if LV_TXT_ENC == LV_TXT_ENC_UTF8 /******************************* * UTF-8 ENCODER/DECOER ******************************/ /** * Give the size of an UTF-8 coded character * @param str pointer to a character in a string * @return length of the UTF-8 character (1,2,3 or 4). O on invalid code */ static uint8_t lv_txt_utf8_size(const char * str) { if((str[0] & 0x80) == 0) return 1; else if((str[0] & 0xE0) == 0xC0) return 2; else if((str[0] & 0xF0) == 0xE0) return 3; else if((str[0] & 0xF8) == 0xF0) return 4; return 1; /*If the char was invalid step tell it's 1 byte long*/ } /** * Convert an Unicode letter to UTF-8. * @param letter_uni an Unicode letter * @return UTF-8 coded character in Little Endian to be compatible with C chars (e.g. 'Á', 'Ű') */ static uint32_t lv_txt_unicode_to_utf8(uint32_t letter_uni) { if(letter_uni < 128) return letter_uni; uint8_t bytes[4]; if(letter_uni < 0x0800) { bytes[0] = ((letter_uni >> 6) & 0x1F) | 0xC0; bytes[1] = ((letter_uni >> 0) & 0x3F) | 0x80; bytes[2] = 0; bytes[3] = 0; } else if(letter_uni < 0x010000) { bytes[0] = ((letter_uni >> 12) & 0x0F) | 0xE0; bytes[1] = ((letter_uni >> 6) & 0x3F) | 0x80; bytes[2] = ((letter_uni >> 0) & 0x3F) | 0x80; bytes[3] = 0; } else if(letter_uni < 0x110000) { bytes[0] = ((letter_uni >> 18) & 0x07) | 0xF0; bytes[1] = ((letter_uni >> 12) & 0x3F) | 0x80; bytes[2] = ((letter_uni >> 6) & 0x3F) | 0x80; bytes[3] = ((letter_uni >> 0) & 0x3F) | 0x80; } uint32_t * res_p = (uint32_t *)bytes; return *res_p; } /** * Convert a wide character, e.g. 'Á' little endian to be UTF-8 compatible * @param c a wide character or a Little endian number * @return `c` in big endian */ static uint32_t lv_txt_utf8_conv_wc(uint32_t c) { /*Swap the bytes (UTF-8 is big endian, but the MCUs are little endian)*/ if((c & 0x80) != 0) { uint32_t swapped; uint8_t c8[4]; memcpy(c8, &c, 4); swapped = (c8[0] << 24) + (c8[1] << 16) + (c8[2] << 8) + (c8[3]); uint8_t i; for(i = 0; i < 4; i++) { if((swapped & 0xFF) == 0) swapped = (swapped >> 8); /*Ignore leading zeros (they were in the end originally)*/ } c = swapped; } return c; } /** * Decode an UTF-8 character from a string. * @param txt pointer to '\0' terminated string * @param i start byte index in 'txt' where to start. * After call it will point to the next UTF-8 char in 'txt'. * NULL to use txt[0] as index * @return the decoded Unicode character or 0 on invalid UTF-8 code */ static uint32_t lv_txt_utf8_next(const char * txt, uint32_t * i) { /* Unicode to UTF-8 * 00000000 00000000 00000000 0xxxxxxx -> 0xxxxxxx * 00000000 00000000 00000yyy yyxxxxxx -> 110yyyyy 10xxxxxx * 00000000 00000000 zzzzyyyy yyxxxxxx -> 1110zzzz 10yyyyyy 10xxxxxx * 00000000 000wwwzz zzzzyyyy yyxxxxxx -> 11110www 10zzzzzz 10yyyyyy 10xxxxxx * */ uint32_t result = 0; /*Dummy 'i' pointer is required*/ uint32_t i_tmp = 0; if(i == NULL) i = &i_tmp; /*Normal ASCII*/ if((txt[*i] & 0x80) == 0) { result = txt[*i]; (*i)++; } /*Real UTF-8 decode*/ else { /*2 bytes UTF-8 code*/ if((txt[*i] & 0xE0) == 0xC0) { result = (uint32_t)(txt[*i] & 0x1F) << 6; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (txt[*i] & 0x3F); (*i)++; } /*3 bytes UTF-8 code*/ else if((txt[*i] & 0xF0) == 0xE0) { result = (uint32_t)(txt[*i] & 0x0F) << 12; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (uint32_t)(txt[*i] & 0x3F) << 6; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (txt[*i] & 0x3F); (*i)++; } /*4 bytes UTF-8 code*/ else if((txt[*i] & 0xF8) == 0xF0) { result = (uint32_t)(txt[*i] & 0x07) << 18; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (uint32_t)(txt[*i] & 0x3F) << 12; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (uint32_t)(txt[*i] & 0x3F) << 6; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += txt[*i] & 0x3F; (*i)++; } else { (*i)++; /*Not UTF-8 char. Go the next.*/ } } return result; } /** * Get previous UTF-8 character form a string. * @param txt pointer to '\0' terminated string * @param i start byte index in 'txt' where to start. After the call it will point to the previous * UTF-8 char in 'txt'. * @return the decoded Unicode character or 0 on invalid UTF-8 code */ static uint32_t lv_txt_utf8_prev(const char * txt, uint32_t * i) { uint8_t c_size; uint8_t cnt = 0; /*Try to find a !0 long UTF-8 char by stepping one character back*/ (*i)--; do { if(cnt >= 4) return 0; /*No UTF-8 char found before the initial*/ c_size = lv_txt_encoded_size(&txt[*i]); if(c_size == 0) { if(*i != 0) (*i)--; else return 0; } cnt++; } while(c_size == 0); uint32_t i_tmp = *i; uint32_t letter = lv_txt_encoded_next(txt, &i_tmp); /*Character found, get it*/ return letter; } /** * Convert a character index (in an UTF-8 text) to byte index. * E.g. in "AÁRT" index of 'R' is 2th char but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param utf8_id character index * @return byte index of the 'utf8_id'th letter */ static uint32_t lv_txt_utf8_get_byte_id(const char * txt, uint32_t utf8_id) { uint32_t i; uint32_t byte_cnt = 0; for(i = 0; i < utf8_id; i++) { byte_cnt += lv_txt_encoded_size(&txt[byte_cnt]); } return byte_cnt; } /** * Convert a byte index (in an UTF-8 text) to character index. * E.g. in "AÁRT" index of 'R' is 2th char but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param byte_id byte index * @return character index of the letter at 'byte_id'th position */ static uint32_t lv_txt_utf8_get_char_id(const char * txt, uint32_t byte_id) { uint32_t i = 0; uint32_t char_cnt = 0; while(i < byte_id) { lv_txt_encoded_next(txt, &i); /*'i' points to the next letter so use the prev. value*/ char_cnt++; } return char_cnt; } /** * Get the number of characters (and NOT bytes) in a string. Decode it with UTF-8 if enabled. * E.g.: "ÁBC" is 3 characters (but 4 bytes) * @param txt a '\0' terminated char string * @return number of characters */ static uint32_t lv_txt_utf8_get_length(const char * txt) { uint32_t len = 0; uint32_t i = 0; while(txt[i] != '\0') { lv_txt_encoded_next(txt, &i); len++; } return len; } #elif LV_TXT_ENC == LV_TXT_ENC_ASCII /******************************* * ASCII ENCODER/DECOER ******************************/ /** * Give the size of an ISO8859-1 coded character * @param str pointer to a character in a string * @return length of the UTF-8 character (1,2,3 or 4). O on invalid code */ static uint8_t lv_txt_iso8859_1_size(const char * str) { (void)str; /*Unused*/ return 1; } /** * Convert an Unicode letter to ISO8859-1. * @param letter_uni an Unicode letter * @return ISO8859-1 coded character in Little Endian to be compatible with C chars (e.g. 'Á', 'Ű') */ static uint32_t lv_txt_unicode_to_iso8859_1(uint32_t letter_uni) { if(letter_uni < 128) return letter_uni; else return ' '; } /** * Convert wide characters to ASCII, however wide characters in ASCII range (e.g. 'A') are ASCII compatible by default. * So this function does nothing just returns with `c`. * @param c a character, e.g. 'A' * @return same as `c` */ static uint32_t lv_txt_iso8859_1_conv_wc(uint32_t c) { return c; } /** * Decode an ISO8859-1 character from a string. * @param txt pointer to '\0' terminated string * @param i start byte index in 'txt' where to start. * After call it will point to the next UTF-8 char in 'txt'. * NULL to use txt[0] as index * @return the decoded Unicode character or 0 on invalid UTF-8 code */ static uint32_t lv_txt_iso8859_1_next(const char * txt, uint32_t * i) { if(i == NULL) return txt[1]; /*Get the next char */ uint8_t letter = txt[*i]; (*i)++; return letter; } /** * Get previous ISO8859-1 character form a string. * @param txt pointer to '\0' terminated string * @param i start byte index in 'txt' where to start. After the call it will point to the previous UTF-8 char in 'txt'. * @return the decoded Unicode character or 0 on invalid UTF-8 code */ static uint32_t lv_txt_iso8859_1_prev(const char * txt, uint32_t * i) { if(i == NULL) return *(txt - 1); /*Get the prev. char */ (*i)--; uint8_t letter = txt[*i]; return letter; } /** * Convert a character index (in an ISO8859-1 text) to byte index. * E.g. in "AÁRT" index of 'R' is 2th char but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param utf8_id character index * @return byte index of the 'utf8_id'th letter */ static uint32_t lv_txt_iso8859_1_get_byte_id(const char * txt, uint32_t utf8_id) { (void)txt; /*Unused*/ return utf8_id; /*In Non encoded no difference*/ } /** * Convert a byte index (in an ISO8859-1 text) to character index. * E.g. in "AÁRT" index of 'R' is 2th char but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param byte_id byte index * @return character index of the letter at 'byte_id'th position */ static uint32_t lv_txt_iso8859_1_get_char_id(const char * txt, uint32_t byte_id) { (void)txt; /*Unused*/ return byte_id; /*In Non encoded no difference*/ } /** * Get the number of characters (and NOT bytes) in a string. Decode it with UTF-8 if enabled. * E.g.: "ÁBC" is 3 characters (but 4 bytes) * @param txt a '\0' terminated char string * @return number of characters */ static uint32_t lv_txt_iso8859_1_get_length(const char * txt) { return strlen(txt); } #else #error "Invalid character encoding. See `LV_TXT_ENC` in `lv_conf.h`" #endif /********************** * STATIC FUNCTIONS **********************/ /** * Test if char is break char or not (a text can broken here or not) * @param letter a letter * @return false: 'letter' is not break char */ static inline bool is_break_char(uint32_t letter) { uint8_t i; bool ret = false; /*Compare the letter to TXT_BREAK_CHARS*/ for(i = 0; LV_TXT_BREAK_CHARS[i] != '\0'; i++) { if(letter == (uint32_t)LV_TXT_BREAK_CHARS[i]) { ret = true; /*If match then it is break char*/ break; } } return ret; }