/** * @file lv_txt.h * */ #ifndef LV_TXT_H #define LV_TXT_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "../lv_conf_internal.h" #include #include #include "lv_area.h" #include "../font/lv_font.h" #include "lv_printf.h" #include "lv_types.h" /********************* * DEFINES *********************/ #ifndef LV_TXT_COLOR_CMD #define LV_TXT_COLOR_CMD "#" #endif #define LV_TXT_ENC_UTF8 1 #define LV_TXT_ENC_ASCII 2 /********************** * TYPEDEFS **********************/ /** * Options for text rendering. */ enum { LV_TEXT_FLAG_NONE = 0x00, LV_TEXT_FLAG_RECOLOR = 0x01, /**< Enable parsing of recolor command*/ LV_TEXT_FLAG_EXPAND = 0x02, /**< Ignore max-width to avoid automatic word wrapping*/ LV_TEXT_FLAG_FIT = 0x04, /**< Max-width is already equal to the longest line. (Used to skip some calculation)*/ }; typedef uint8_t lv_text_flag_t; /** * State machine for text renderer.*/ enum { LV_TEXT_CMD_STATE_WAIT, /**< Waiting for command*/ LV_TEXT_CMD_STATE_PAR, /**< Processing the parameter*/ LV_TEXT_CMD_STATE_IN, /**< Processing the command*/ }; typedef uint8_t lv_text_cmd_state_t; /** Label align policy*/ enum { LV_TEXT_ALIGN_AUTO, /**< Align text auto*/ LV_TEXT_ALIGN_LEFT, /**< Align text to left*/ LV_TEXT_ALIGN_CENTER, /**< Align text to center*/ LV_TEXT_ALIGN_RIGHT, /**< Align text to right*/ }; typedef uint8_t lv_text_align_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * 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 pointer to font of the text * @param letter_space letter space of the text * @param line_space line space of the text * @param flags settings for the text from ::lv_text_flag_t * @param max_width max width of the text (break the lines to fit this size). Set COORD_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_text_flag_t flag); /** * Get the next line of text. Check line length and break chars too. * @param txt a '\0' terminated string * @param font pointer to a font * @param letter_space letter space * @param max_width max width of the text (break the lines to fit this size). Set COORD_MAX to avoid * line breaks * @param used_width When used_width != NULL, save the width of this line if * flag == LV_TEXT_FLAG_NONE, otherwise save -1. * @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) */ uint32_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_coord_t * used_width, lv_text_flag_t flag); /** * 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, uint32_t length, const lv_font_t * font, lv_coord_t letter_space, lv_text_flag_t flag); /** * 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 * @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_text_cmd_state_t * state, uint32_t c); /** * Insert a string into an other * @param txt_buf the original text (must be big enough for the result text and NULL terminated) * @param pos position to insert (0: before the original text, 1: after the first char etc.) * @param ins_txt text to insert, must be '\0' terminated */ void _lv_txt_ins(char * txt_buf, uint32_t pos, const char * ins_txt); /** * Delete a part of a string * @param txt string to modify, must be '\0' terminated and should point to a heap or stack frame, not read-only memory. * @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); /** * return a new formatted text. Memory will be allocated to store the text. * @param fmt `printf`-like format * @return pointer to the allocated text string. */ char * _lv_txt_set_text_vfmt(const char * fmt, va_list ap) LV_FORMAT_ATTRIBUTE(1, 0); /** * Decode two encoded character from a string. * @param txt pointer to '\0' terminated string * @param letter the first decoded Unicode character or 0 on invalid data code * @param letter_next the second decoded Unicode character or 0 on invalid data code * @param ofs start index in 'txt' where to start. * After the call it will point to the next encoded char in 'txt'. * NULL to use txt[0] as index */ void _lv_txt_encoded_letter_next_2(const char * txt, uint32_t * letter, uint32_t * letter_next, uint32_t * ofs); /** * 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 _lv_txt_is_break_char(uint32_t letter) { uint8_t i; bool ret = false; /* each chinese character can be break */ if(letter >= 0x4E00 && letter <= 0x9FA5) { return true; } /*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; } /*************************************************************** * GLOBAL FUNCTION POINTERS FOR CHARACTER ENCODING INTERFACE ***************************************************************/ /** * Give the size of an encoded character * @param str pointer to a character in a string * @return length of the encoded character (1,2,3 ...). O in invalid */ extern uint8_t (*_lv_txt_encoded_size)(const char *); /** * Convert a Unicode letter to encoded * @param letter_uni a Unicode letter * @return Encoded character in Little Endian to be compatible with C chars (e.g. 'Á', 'Ü') */ extern uint32_t (*_lv_txt_unicode_to_encoded)(uint32_t); /** * Convert a wide character, e.g. 'Á' little endian to be compatible with the encoded format. * @param c a wide character * @return `c` in the encoded format */ extern uint32_t (*_lv_txt_encoded_conv_wc)(uint32_t c); /** * Decode the next encoded character from a string. * @param txt pointer to '\0' terminated string * @param i start index in 'txt' where to start. * After the call it will point to the next encoded char in 'txt'. * NULL to use txt[0] as index * @return the decoded Unicode character or 0 on invalid data code */ extern uint32_t (*_lv_txt_encoded_next)(const char *, uint32_t *); /** * Get the previous encoded character form a string. * @param txt pointer to '\0' terminated string * @param i_start index in 'txt' where to start. After the call it will point to the previous * encoded char in 'txt'. * @return the decoded Unicode character or 0 on invalid data */ extern uint32_t (*_lv_txt_encoded_prev)(const char *, uint32_t *); /** * Convert a letter index (in the encoded text) to byte index. * E.g. in UTF-8 "AÁRT" index of 'R' is 2 but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param enc_id letter index * @return byte index of the 'enc_id'th letter */ extern uint32_t (*_lv_txt_encoded_get_byte_id)(const char *, uint32_t); /** * Convert a byte index (in an encoded text) to character index. * E.g. in UTF-8 "AÁRT" index of 'R' is 2 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 */ extern uint32_t (*_lv_txt_encoded_get_char_id)(const char *, uint32_t); /** * Get the number of characters (and NOT bytes) in a string. * E.g. in UTF-8 "ÁBC" is 3 characters (but 4 bytes) * @param txt a '\0' terminated char string * @return number of characters */ extern uint32_t (*_lv_txt_get_encoded_length)(const char *); /********************** * MACROS **********************/ #ifdef __cplusplus } /*extern "C"*/ #endif #endif /*LV_TXT_H*/