/** * @file fontutils.cpp * @brief help functions for font and char * @author Yunhui Fu (yhfudev@gmail.com) * @version 1.0 * @date 2016-08-19 * @copyright GPL/BSD */ #include "../inc/MarlinConfig.h" #if HAS_SPI_LCD #include "ultralcd.h" #include "../MarlinCore.h" #endif #include "fontutils.h" uint8_t read_byte_ram(uint8_t * str) { return *str; } uint8_t read_byte_rom(uint8_t * str) { return pgm_read_byte(str); } /** * @brief Using binary search to find the position by data_pin * * @param userdata : User's data * @param num_data : the item number of the sorted data * @param cb_comp : the callback function to compare the user's data and pin * @param data_pin : The reference data to be found * @param ret_idx : the position of the required data; If failed, then it is the failed position, which is the insert position if possible. * * @return 0 on found, <0 on failed(fail position is saved by ret_idx) * * Using binary search to find the position by data_pin. The user's data should be sorted. */ int pf_bsearch_r(void *userdata, size_t num_data, pf_bsearch_cb_comp_t cb_comp, void *data_pinpoint, size_t *ret_idx) { int retcomp; if (num_data < 1) { *ret_idx = 0; return -1; } size_t i = 0, ileft = 1, iright = num_data; bool flg_found = false; for (; ileft <= iright;) { i = (ileft + iright) / 2 - 1; /* cb_comp should return the *userdata[i] - *data_pinpoint */ retcomp = cb_comp (userdata, i, data_pinpoint); if (retcomp > 0) iright = i; else if (retcomp < 0) ileft = i + 2; else { /* found ! */ flg_found = true; break; } } if (flg_found) { *ret_idx = i; return 0; } if (iright <= i) *ret_idx = i; else if (ileft >= i + 2) *ret_idx = i + 1; return -1; } /* This function gets the character at the pstart position, interpreting UTF8 multybyte sequences and returns the pointer to the next character */ uint8_t* get_utf8_value_cb(uint8_t *pstart, read_byte_cb_t cb_read_byte, wchar_t *pval) { uint32_t val = 0; uint8_t *p = pstart; uint8_t valcur = cb_read_byte(p); if (0 == (0x80 & valcur)) { val = valcur; p++; } else if (0xC0 == (0xE0 & valcur)) { val = valcur & 0x1F; val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); p++; } else if (0xE0 == (0xF0 & valcur)) { val = valcur & 0x0F; val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); p++; } else if (0xF0 == (0xF8 & valcur)) { val = valcur & 0x07; val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); p++; } else if (0xF8 == (0xFC & valcur)) { val = valcur & 0x03; val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); p++; } else if (0xFC == (0xFE & valcur)) { val = valcur & 0x01; val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); val <<= 6; p++; valcur = cb_read_byte(p); val |= (valcur & 0x3F); p++; } else if (0x80 == (0xC0 & valcur)) for (; 0x80 == (0xC0 & valcur); ) { p++; valcur = cb_read_byte(p); } else for (; ((0xFE & valcur) > 0xFC); ) { p++; valcur = cb_read_byte(p); } if (pval) *pval = val; return p; } static inline uint8_t utf8_strlen_cb(const char *pstart, read_byte_cb_t cb_read_byte) { uint8_t cnt = 0; uint8_t *pnext = (uint8_t *)pstart; for (;;) { wchar_t ch; pnext = get_utf8_value_cb(pnext, cb_read_byte, &ch); if (!ch) break; cnt++; } return cnt; } uint8_t utf8_strlen(const char *pstart) { return utf8_strlen_cb(pstart, read_byte_ram); } uint8_t utf8_strlen_P(PGM_P pstart) { return utf8_strlen_cb(pstart, read_byte_rom); }