/** * @file lv_font.c * */ /********************* * INCLUDES *********************/ #include "lv_font.h" #include "lv_font_fmt_txt.h" #include "../lv_misc/lv_log.h" #include "../lv_misc/lv_utils.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static uint32_t get_glyph_dsc_id(const lv_font_t * font, uint32_t letter); static int8_t get_kern_value(const lv_font_t * font, uint32_t gid_left, uint32_t gid_right); static int32_t unicode_list_compare(const void * ref, const void * element); static int32_t kern_pair_8_compare(const void * ref, const void * element); static int32_t kern_pair_16_compare(const void * ref, const void * element); /********************** * STATIC VARIABLES **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Used as `get_glyph_bitmap` callback in LittelvGL's native font format if the font is uncompressed. * @param font pointer to font * @param unicode_letter an unicode letter which bitmap should be get * @return pointer to the bitmap or NULL if not found */ const uint8_t * lv_font_get_bitmap_fmt_txt(const lv_font_t * font, uint32_t unicode_letter) { lv_font_fmt_txt_dsc_t * fdsc = (lv_font_fmt_txt_dsc_t *) font->dsc; uint32_t gid = get_glyph_dsc_id(font, unicode_letter); if(!gid) return false; const lv_font_fmt_txt_glyph_dsc_t * gdsc = &fdsc->glyph_dsc[gid]; if(gdsc) return &fdsc->glyph_bitmap[gdsc->bitmap_index]; /*If not returned earlier then the letter is not found in this font*/ return NULL; } /** * Used as `get_glyph_dsc` callback in LittelvGL's native font format if the font is uncompressed. * @param font_p pointer to font * @param dsc_out store the result descriptor here * @param letter an UNICODE letter code * @return true: descriptor is successfully loaded into `dsc_out`. * false: the letter was not found, no data is loaded to `dsc_out` */ bool lv_font_get_glyph_dsc_fmt_txt(const lv_font_t * font, lv_font_glyph_dsc_t * dsc_out, uint32_t unicode_letter, uint32_t unicode_letter_next) { lv_font_fmt_txt_dsc_t * fdsc = (lv_font_fmt_txt_dsc_t *) font->dsc; uint32_t gid = get_glyph_dsc_id(font, unicode_letter); if(!gid) return false; int8_t kvalue = 0; if(fdsc->kern_dsc) { uint32_t gid_next = get_glyph_dsc_id(font, unicode_letter_next); if(gid_next) { kvalue = get_kern_value(font, gid, gid_next); } } /*Put together a glyph dsc*/ const lv_font_fmt_txt_glyph_dsc_t * gdsc = &fdsc->glyph_dsc[gid]; uint32_t adv_w = gdsc->adv_w + ((int32_t)((int32_t)kvalue * fdsc->kern_scale) >> 4); adv_w = (adv_w + (1 << 3)) >> 4; dsc_out->adv_w = adv_w; dsc_out->box_h = gdsc->box_h; dsc_out->box_w = gdsc->box_w; dsc_out->ofs_x = gdsc->ofs_x; dsc_out->ofs_y = gdsc->ofs_y; dsc_out->bpp = fdsc->bpp; return true; } /********************** * STATIC FUNCTIONS **********************/ static uint32_t get_glyph_dsc_id(const lv_font_t * font, uint32_t letter) { if(letter == '\0') return 0; lv_font_fmt_txt_dsc_t * fdsc = (lv_font_fmt_txt_dsc_t *) font->dsc; /*Check the chacge first*/ if(letter == fdsc->last_letter) fdsc->last_glyph_id; uint16_t i; for(i = 0; i < fdsc->cmap_num; i++) { /*Relative code point*/ uint32_t rcp = letter - fdsc->cmaps[i].range_start; if(rcp > fdsc->cmaps[i].range_length) continue; uint32_t glyph_id = 0; if(fdsc->cmaps[i].type == LV_FONT_FMT_TXT_CMAP_FORMAT0_TINY) { glyph_id = fdsc->cmaps[i].glyph_id_start + rcp; } else if(fdsc->cmaps[i].type == LV_FONT_FMT_TXT_CMAP_FORMAT0_FULL) { const uint8_t * gid_ofs_8 = fdsc->cmaps[i].glyph_id_ofs_list; glyph_id = fdsc->cmaps[i].glyph_id_start + gid_ofs_8[rcp]; } else if(fdsc->cmaps[i].type == LV_FONT_FMT_TXT_CMAP_SPARSE_TINY) { uint8_t * p = lv_utils_bsearch(&rcp, fdsc->cmaps[i].unicode_list, fdsc->cmaps[i].list_length, sizeof(fdsc->cmaps[i].unicode_list[0]), unicode_list_compare); if(p) { uint32_t ofs = (uintptr_t)p - (uintptr_t) fdsc->cmaps[i].unicode_list; ofs = ofs >> 1; /*The list stores `uint16_t` so the get the index divide by 2*/ glyph_id = fdsc->cmaps[i].glyph_id_start + ofs; } } else if(fdsc->cmaps[i].type == LV_FONT_FMT_TXT_CMAP_SPARSE_FULL) { uint8_t * p = lv_utils_bsearch(&rcp, fdsc->cmaps[i].unicode_list, fdsc->cmaps[i].list_length, sizeof(fdsc->cmaps[i].unicode_list[0]), unicode_list_compare); if(p) { uint32_t ofs = (uintptr_t)p - (uintptr_t) fdsc->cmaps[i].unicode_list; ofs = ofs >> 1; /*The list stores `uint16_t` so the get the index divide by 2*/ const uint8_t * gid_ofs_16 = fdsc->cmaps[i].glyph_id_ofs_list; glyph_id = fdsc->cmaps[i].glyph_id_start + gid_ofs_16[ofs]; } } /*Update the cache*/ fdsc->last_letter = letter; fdsc->last_glyph_id = glyph_id; return glyph_id; } fdsc->last_letter = letter; fdsc->last_glyph_id = 0; return 0; } static int8_t get_kern_value(const lv_font_t * font, uint32_t gid_left, uint32_t gid_right) { lv_font_fmt_txt_dsc_t * fdsc = (lv_font_fmt_txt_dsc_t *) font->dsc; int8_t value = 0; if(fdsc->kern_classes == 0) { /*Kern pairs*/ const lv_font_fmt_txt_kern_pair_t * kdsc = fdsc->kern_dsc; if(kdsc->glyph_ids_size == 0) { /* Use binary search to find the kern value. * The pairs are ordered left_id first, then right_id secondly. */ const uint8_t * g_ids = kdsc->glyph_ids; uint16_t g_id_both = (gid_right << 8) + gid_left; /*Create one number from the ids*/ uint8_t * kid_p = lv_utils_bsearch(&g_id_both, g_ids, kdsc->pair_cnt, 2, kern_pair_8_compare); /*If the `g_id_both` were found get its index from the pointer*/ if(kid_p) { uintptr_t ofs = (uintptr_t)kid_p - (uintptr_t)g_ids; ofs = ofs >> 1; /*ofs is for pair, divide by 2 to refer as a single value*/ value = kdsc->values[ofs]; } } else if(kdsc->glyph_ids_size == 1) { /* Use binary search to find the kern value. * The pairs are ordered left_id first, then right_id secondly. */ const uint16_t * g_ids = kdsc->glyph_ids; uint32_t g_id_both = (uint32_t)((uint32_t)gid_right << 8) + gid_left; /*Create one number from the ids*/ uint8_t * kid_p = lv_utils_bsearch(&g_id_both, g_ids, kdsc->pair_cnt, 4, kern_pair_16_compare); /*If the `g_id_both` were found get its index from the pointer*/ if(kid_p) { uintptr_t ofs = (uintptr_t)kid_p - (uintptr_t)g_ids; ofs = ofs >> 4; /*ofs is 4 byte pairs, divide by 4 to refer as a single value*/ value = kdsc->values[ofs]; } } else { /*Invalid value*/ } } else { /*Kern classes*/ const lv_font_fmt_txt_kern_classes_t * kdsc = fdsc->kern_dsc; uint8_t left_class = kdsc->left_class_mapping[gid_left]; uint8_t right_class = kdsc->left_class_mapping[gid_right]; /* If class = 0, kerning not exist for that glyph * else got the value form `class_pair_values` 2D array*/ if(left_class > 0 && right_class > 0) { value = kdsc->class_pair_values[(left_class-1)* kdsc->right_class_cnt + (right_class-1)]; } } return value; } static int32_t kern_pair_8_compare(const void * ref, const void * element) { const uint8_t * ref8_p = ref; const uint8_t * element8_p = element; /*If the MSB is different it will matter. If not return the diff. of the LSB*/ if(ref8_p[0] != element8_p[0]) return (int32_t)ref8_p[0] - element8_p[0]; else return (int32_t) ref8_p[1] - element8_p[1]; } static int32_t kern_pair_16_compare(const void * ref, const void * element) { const uint16_t * ref16_p = ref; const uint16_t * element16_p = element; /*If the MSB is different it will matter. If not return the diff. of the LSB*/ if(ref16_p[0] != element16_p[0]) return (int32_t)ref16_p[0] - element16_p[0]; else return (int32_t) ref16_p[1] - element16_p[1]; } /** Code Comparator. * * Compares the value of both input arguments. * * @param[in] pRef Pointer to the reference. * @param[in] pElement Pointer to the element to compare. * * @return Result of comparison. * @retval < 0 Reference is greater than element. * @retval = 0 Reference is equal to element. * @retval > 0 Reference is less than element. * */ static int32_t unicode_list_compare(const void * ref, const void * element) { return (*(uint16_t *)ref) - (*(uint16_t *)element); }