/** * @file lv_img_decoder.c * */ /********************* * INCLUDES *********************/ #include "lv_img_decoder.h" #include "../misc/lv_assert.h" #include "../draw/lv_draw_img.h" #include "../misc/lv_ll.h" #include "../misc/lv_gc.h" /********************* * DEFINES *********************/ #define CF_BUILT_IN_FIRST LV_IMG_CF_TRUE_COLOR #define CF_BUILT_IN_LAST LV_IMG_CF_RGB565A8 /********************** * TYPEDEFS **********************/ typedef struct { lv_fs_file_t f; lv_color_t * palette; lv_opa_t * opa; } lv_img_decoder_built_in_data_t; /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_img_decoder_built_in_line_true_color(lv_img_decoder_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf); static lv_res_t lv_img_decoder_built_in_line_alpha(lv_img_decoder_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf); static lv_res_t lv_img_decoder_built_in_line_indexed(lv_img_decoder_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf); /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize the image decoder module */ void _lv_img_decoder_init(void) { _lv_ll_init(&LV_GC_ROOT(_lv_img_decoder_ll), sizeof(lv_img_decoder_t)); lv_img_decoder_t * decoder; /*Create a decoder for the built in color format*/ decoder = lv_img_decoder_create(); LV_ASSERT_MALLOC(decoder); if(decoder == NULL) { LV_LOG_WARN("lv_img_decoder_init: out of memory"); return; } lv_img_decoder_set_info_cb(decoder, lv_img_decoder_built_in_info); lv_img_decoder_set_open_cb(decoder, lv_img_decoder_built_in_open); lv_img_decoder_set_read_line_cb(decoder, lv_img_decoder_built_in_read_line); lv_img_decoder_set_close_cb(decoder, lv_img_decoder_built_in_close); } /** * Get information about an image. * Try the created image decoder one by one. Once one is able to get info that info will be used. * @param src the image source. E.g. file name or variable. * @param header the image info will be stored here * @return LV_RES_OK: success; LV_RES_INV: wasn't able to get info about the image */ lv_res_t lv_img_decoder_get_info(const void * src, lv_img_header_t * header) { lv_memset_00(header, sizeof(lv_img_header_t)); if(src == NULL) return LV_RES_INV; lv_img_src_t src_type = lv_img_src_get_type(src); if(src_type == LV_IMG_SRC_VARIABLE) { const lv_img_dsc_t * img_dsc = src; if(img_dsc->data == NULL) return LV_RES_INV; } lv_res_t res = LV_RES_INV; lv_img_decoder_t * d; _LV_LL_READ(&LV_GC_ROOT(_lv_img_decoder_ll), d) { if(d->info_cb) { res = d->info_cb(d, src, header); if(res == LV_RES_OK) break; } } return res; } lv_res_t lv_img_decoder_open(lv_img_decoder_dsc_t * dsc, const void * src, lv_color_t color, int32_t frame_id) { lv_memset_00(dsc, sizeof(lv_img_decoder_dsc_t)); if(src == NULL) return LV_RES_INV; lv_img_src_t src_type = lv_img_src_get_type(src); if(src_type == LV_IMG_SRC_VARIABLE) { const lv_img_dsc_t * img_dsc = src; if(img_dsc->data == NULL) return LV_RES_INV; } dsc->color = color; dsc->src_type = src_type; dsc->frame_id = frame_id; if(dsc->src_type == LV_IMG_SRC_FILE) { size_t fnlen = strlen(src); dsc->src = lv_mem_alloc(fnlen + 1); LV_ASSERT_MALLOC(dsc->src); if(dsc->src == NULL) { LV_LOG_WARN("lv_img_decoder_open: out of memory"); return LV_RES_INV; } strcpy((char *)dsc->src, src); } else { dsc->src = src; } lv_res_t res = LV_RES_INV; lv_img_decoder_t * decoder; _LV_LL_READ(&LV_GC_ROOT(_lv_img_decoder_ll), decoder) { /*Info and Open callbacks are required*/ if(decoder->info_cb == NULL || decoder->open_cb == NULL) continue; res = decoder->info_cb(decoder, src, &dsc->header); if(res != LV_RES_OK) continue; dsc->decoder = decoder; res = decoder->open_cb(decoder, dsc); /*Opened successfully. It is a good decoder for this image source*/ if(res == LV_RES_OK) return res; /*Prepare for the next loop*/ lv_memset_00(&dsc->header, sizeof(lv_img_header_t)); dsc->error_msg = NULL; dsc->img_data = NULL; dsc->user_data = NULL; dsc->time_to_open = 0; } if(dsc->src_type == LV_IMG_SRC_FILE) lv_mem_free((void *)dsc->src); return res; } /** * Read a line from an opened image * @param dsc pointer to `lv_img_decoder_dsc_t` used in `lv_img_decoder_open` * @param x start X coordinate (from left) * @param y start Y coordinate (from top) * @param len number of pixels to read * @param buf store the data here * @return LV_RES_OK: success; LV_RES_INV: an error occurred */ lv_res_t lv_img_decoder_read_line(lv_img_decoder_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf) { lv_res_t res = LV_RES_INV; if(dsc->decoder->read_line_cb) res = dsc->decoder->read_line_cb(dsc->decoder, dsc, x, y, len, buf); return res; } /** * Close a decoding session * @param dsc pointer to `lv_img_decoder_dsc_t` used in `lv_img_decoder_open` */ void lv_img_decoder_close(lv_img_decoder_dsc_t * dsc) { if(dsc->decoder) { if(dsc->decoder->close_cb) dsc->decoder->close_cb(dsc->decoder, dsc); if(dsc->src_type == LV_IMG_SRC_FILE) { lv_mem_free((void *)dsc->src); dsc->src = NULL; } } } /** * Create a new image decoder * @return pointer to the new image decoder */ lv_img_decoder_t * lv_img_decoder_create(void) { lv_img_decoder_t * decoder; decoder = _lv_ll_ins_head(&LV_GC_ROOT(_lv_img_decoder_ll)); LV_ASSERT_MALLOC(decoder); if(decoder == NULL) return NULL; lv_memset_00(decoder, sizeof(lv_img_decoder_t)); return decoder; } /** * Delete an image decoder * @param decoder pointer to an image decoder */ void lv_img_decoder_delete(lv_img_decoder_t * decoder) { _lv_ll_remove(&LV_GC_ROOT(_lv_img_decoder_ll), decoder); lv_mem_free(decoder); } /** * Set a callback to get information about the image * @param decoder pointer to an image decoder * @param info_cb a function to collect info about an image (fill an `lv_img_header_t` struct) */ void lv_img_decoder_set_info_cb(lv_img_decoder_t * decoder, lv_img_decoder_info_f_t info_cb) { decoder->info_cb = info_cb; } /** * Set a callback to open an image * @param decoder pointer to an image decoder * @param open_cb a function to open an image */ void lv_img_decoder_set_open_cb(lv_img_decoder_t * decoder, lv_img_decoder_open_f_t open_cb) { decoder->open_cb = open_cb; } /** * Set a callback to a decoded line of an image * @param decoder pointer to an image decoder * @param read_line_cb a function to read a line of an image */ void lv_img_decoder_set_read_line_cb(lv_img_decoder_t * decoder, lv_img_decoder_read_line_f_t read_line_cb) { decoder->read_line_cb = read_line_cb; } /** * Set a callback to close a decoding session. E.g. close files and free other resources. * @param decoder pointer to an image decoder * @param close_cb a function to close a decoding session */ void lv_img_decoder_set_close_cb(lv_img_decoder_t * decoder, lv_img_decoder_close_f_t close_cb) { decoder->close_cb = close_cb; } /** * Get info about a built-in image * @param decoder the decoder where this function belongs * @param src the image source: pointer to an `lv_img_dsc_t` variable, a file path or a symbol * @param header store the image data here * @return LV_RES_OK: the info is successfully stored in `header`; LV_RES_INV: unknown format or other error. */ lv_res_t lv_img_decoder_built_in_info(lv_img_decoder_t * decoder, const void * src, lv_img_header_t * header) { LV_UNUSED(decoder); /*Unused*/ lv_img_src_t src_type = lv_img_src_get_type(src); if(src_type == LV_IMG_SRC_VARIABLE) { lv_img_cf_t cf = ((lv_img_dsc_t *)src)->header.cf; if(cf < CF_BUILT_IN_FIRST || cf > CF_BUILT_IN_LAST) return LV_RES_INV; header->w = ((lv_img_dsc_t *)src)->header.w; header->h = ((lv_img_dsc_t *)src)->header.h; header->cf = ((lv_img_dsc_t *)src)->header.cf; } else if(src_type == LV_IMG_SRC_FILE) { /*Support only "*.bin" files*/ if(strcmp(lv_fs_get_ext(src), "bin")) return LV_RES_INV; lv_fs_file_t f; lv_fs_res_t res = lv_fs_open(&f, src, LV_FS_MODE_RD); if(res == LV_FS_RES_OK) { uint32_t rn; res = lv_fs_read(&f, header, sizeof(lv_img_header_t), &rn); lv_fs_close(&f); if(res != LV_FS_RES_OK || rn != sizeof(lv_img_header_t)) { LV_LOG_WARN("Image get info get read file header"); return LV_RES_INV; } } if(header->cf < CF_BUILT_IN_FIRST || header->cf > CF_BUILT_IN_LAST) return LV_RES_INV; } else if(src_type == LV_IMG_SRC_SYMBOL) { /*The size depend on the font but it is unknown here. It should be handled outside of the *function*/ header->w = 1; header->h = 1; /*Symbols always have transparent parts. Important because of cover check in the draw *function. The actual value doesn't matter because lv_draw_label will draw it*/ header->cf = LV_IMG_CF_ALPHA_1BIT; } else { LV_LOG_WARN("Image get info found unknown src type"); return LV_RES_INV; } return LV_RES_OK; } /** * Open a built in image * @param decoder the decoder where this function belongs * @param dsc pointer to decoder descriptor. `src`, `color` are already initialized in it. * @return LV_RES_OK: the info is successfully stored in `header`; LV_RES_INV: unknown format or other error. */ lv_res_t lv_img_decoder_built_in_open(lv_img_decoder_t * decoder, lv_img_decoder_dsc_t * dsc) { /*Open the file if it's a file*/ if(dsc->src_type == LV_IMG_SRC_FILE) { /*Support only "*.bin" files*/ if(strcmp(lv_fs_get_ext(dsc->src), "bin")) return LV_RES_INV; lv_fs_file_t f; lv_fs_res_t res = lv_fs_open(&f, dsc->src, LV_FS_MODE_RD); if(res != LV_FS_RES_OK) { LV_LOG_WARN("Built-in image decoder can't open the file"); return LV_RES_INV; } /*If the file was open successfully save the file descriptor*/ if(dsc->user_data == NULL) { dsc->user_data = lv_mem_alloc(sizeof(lv_img_decoder_built_in_data_t)); LV_ASSERT_MALLOC(dsc->user_data); if(dsc->user_data == NULL) { LV_LOG_ERROR("img_decoder_built_in_open: out of memory"); lv_fs_close(&f); return LV_RES_INV; } lv_memset_00(dsc->user_data, sizeof(lv_img_decoder_built_in_data_t)); } lv_img_decoder_built_in_data_t * user_data = dsc->user_data; lv_memcpy_small(&user_data->f, &f, sizeof(f)); } else if(dsc->src_type == LV_IMG_SRC_VARIABLE) { /*The variables should have valid data*/ if(((lv_img_dsc_t *)dsc->src)->data == NULL) { return LV_RES_INV; } } lv_img_cf_t cf = dsc->header.cf; /*Process true color formats*/ if(cf == LV_IMG_CF_TRUE_COLOR || cf == LV_IMG_CF_TRUE_COLOR_ALPHA || cf == LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED || cf == LV_IMG_CF_RGB565A8 || cf == LV_IMG_CF_ALPHA_8BIT) { if(dsc->src_type == LV_IMG_SRC_VARIABLE) { /*In case of uncompressed formats the image stored in the ROM/RAM. *So simply give its pointer*/ dsc->img_data = ((lv_img_dsc_t *)dsc->src)->data; return LV_RES_OK; } else { /*If it's a file it need to be read line by line later*/ return LV_RES_OK; } } /*Process indexed images. Build a palette*/ else if(cf == LV_IMG_CF_INDEXED_1BIT || cf == LV_IMG_CF_INDEXED_2BIT || cf == LV_IMG_CF_INDEXED_4BIT || cf == LV_IMG_CF_INDEXED_8BIT) { uint8_t px_size = lv_img_cf_get_px_size(cf); uint32_t palette_size = 1 << px_size; /*Allocate the palette*/ if(dsc->user_data == NULL) { dsc->user_data = lv_mem_alloc(sizeof(lv_img_decoder_built_in_data_t)); LV_ASSERT_MALLOC(dsc->user_data); if(dsc->user_data == NULL) { LV_LOG_ERROR("img_decoder_built_in_open: out of memory"); return LV_RES_INV; } lv_memset_00(dsc->user_data, sizeof(lv_img_decoder_built_in_data_t)); } lv_img_decoder_built_in_data_t * user_data = dsc->user_data; user_data->palette = lv_mem_alloc(palette_size * sizeof(lv_color_t)); LV_ASSERT_MALLOC(user_data->palette); user_data->opa = lv_mem_alloc(palette_size * sizeof(lv_opa_t)); LV_ASSERT_MALLOC(user_data->opa); if(user_data->palette == NULL || user_data->opa == NULL) { LV_LOG_ERROR("img_decoder_built_in_open: out of memory"); lv_img_decoder_built_in_close(decoder, dsc); return LV_RES_INV; } if(dsc->src_type == LV_IMG_SRC_FILE) { /*Read the palette from file*/ lv_fs_seek(&user_data->f, 4, LV_FS_SEEK_SET); /*Skip the header*/ lv_color32_t cur_color; uint32_t i; for(i = 0; i < palette_size; i++) { lv_fs_read(&user_data->f, &cur_color, sizeof(lv_color32_t), NULL); user_data->palette[i] = lv_color_make(cur_color.ch.red, cur_color.ch.green, cur_color.ch.blue); user_data->opa[i] = cur_color.ch.alpha; } } else { /*The palette begins in the beginning of the image data. Just point to it.*/ lv_color32_t * palette_p = (lv_color32_t *)((lv_img_dsc_t *)dsc->src)->data; uint32_t i; for(i = 0; i < palette_size; i++) { user_data->palette[i] = lv_color_make(palette_p[i].ch.red, palette_p[i].ch.green, palette_p[i].ch.blue); user_data->opa[i] = palette_p[i].ch.alpha; } } return LV_RES_OK; } /*Alpha indexed images.*/ else if(cf == LV_IMG_CF_ALPHA_1BIT || cf == LV_IMG_CF_ALPHA_2BIT || cf == LV_IMG_CF_ALPHA_4BIT) { return LV_RES_OK; /*Nothing to process*/ } /*Unknown format. Can't decode it.*/ else { /*Free the potentially allocated memories*/ lv_img_decoder_built_in_close(decoder, dsc); LV_LOG_WARN("Image decoder open: unknown color format"); return LV_RES_INV; } } /** * Decode `len` pixels starting from the given `x`, `y` coordinates and store them in `buf`. * Required only if the "open" function can't return with the whole decoded pixel array. * @param decoder pointer to the decoder the function associated with * @param dsc pointer to decoder descriptor * @param x start x coordinate * @param y start y coordinate * @param len number of pixels to decode * @param buf a buffer to store the decoded pixels * @return LV_RES_OK: ok; LV_RES_INV: failed */ lv_res_t lv_img_decoder_built_in_read_line(lv_img_decoder_t * decoder, lv_img_decoder_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf) { LV_UNUSED(decoder); /*Unused*/ lv_res_t res = LV_RES_INV; if(dsc->header.cf == LV_IMG_CF_TRUE_COLOR || dsc->header.cf == LV_IMG_CF_TRUE_COLOR_ALPHA || dsc->header.cf == LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED) { /*For TRUE_COLOR images read line required only for files. *For variables the image data was returned in `open`*/ if(dsc->src_type == LV_IMG_SRC_FILE) { res = lv_img_decoder_built_in_line_true_color(dsc, x, y, len, buf); } } else if(dsc->header.cf == LV_IMG_CF_ALPHA_1BIT || dsc->header.cf == LV_IMG_CF_ALPHA_2BIT || dsc->header.cf == LV_IMG_CF_ALPHA_4BIT || dsc->header.cf == LV_IMG_CF_ALPHA_8BIT) { res = lv_img_decoder_built_in_line_alpha(dsc, x, y, len, buf); } else if(dsc->header.cf == LV_IMG_CF_INDEXED_1BIT || dsc->header.cf == LV_IMG_CF_INDEXED_2BIT || dsc->header.cf == LV_IMG_CF_INDEXED_4BIT || dsc->header.cf == LV_IMG_CF_INDEXED_8BIT) { res = lv_img_decoder_built_in_line_indexed(dsc, x, y, len, buf); } else { LV_LOG_WARN("Built-in image decoder read not supports the color format"); return LV_RES_INV; } return res; } /** * Close the pending decoding. Free resources etc. * @param decoder pointer to the decoder the function associated with * @param dsc pointer to decoder descriptor */ void lv_img_decoder_built_in_close(lv_img_decoder_t * decoder, lv_img_decoder_dsc_t * dsc) { LV_UNUSED(decoder); /*Unused*/ lv_img_decoder_built_in_data_t * user_data = dsc->user_data; if(user_data) { if(dsc->src_type == LV_IMG_SRC_FILE) { lv_fs_close(&user_data->f); } if(user_data->palette) lv_mem_free(user_data->palette); if(user_data->opa) lv_mem_free(user_data->opa); lv_mem_free(user_data); dsc->user_data = NULL; } } /********************** * STATIC FUNCTIONS **********************/ static lv_res_t lv_img_decoder_built_in_line_true_color(lv_img_decoder_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf) { lv_img_decoder_built_in_data_t * user_data = dsc->user_data; lv_fs_res_t res; uint8_t px_size = lv_img_cf_get_px_size(dsc->header.cf); uint32_t pos = ((y * dsc->header.w + x) * px_size) >> 3; pos += 4; /*Skip the header*/ res = lv_fs_seek(&user_data->f, pos, LV_FS_SEEK_SET); if(res != LV_FS_RES_OK) { LV_LOG_WARN("Built-in image decoder seek failed"); return LV_RES_INV; } uint32_t btr = len * (px_size >> 3); uint32_t br = 0; res = lv_fs_read(&user_data->f, buf, btr, &br); if(res != LV_FS_RES_OK || btr != br) { LV_LOG_WARN("Built-in image decoder read failed"); return LV_RES_INV; } return LV_RES_OK; } static lv_res_t lv_img_decoder_built_in_line_alpha(lv_img_decoder_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf) { const lv_opa_t alpha1_opa_table[2] = {0, 255}; /*Opacity mapping with bpp = 1 (Just for compatibility)*/ const lv_opa_t alpha2_opa_table[4] = {0, 85, 170, 255}; /*Opacity mapping with bpp = 2*/ const lv_opa_t alpha4_opa_table[16] = {0, 17, 34, 51, /*Opacity mapping with bpp = 4*/ 68, 85, 102, 119, 136, 153, 170, 187, 204, 221, 238, 255 }; /*Simply fill the buffer with the color. Later only the alpha value will be modified.*/ lv_color_t bg_color = dsc->color; lv_coord_t i; for(i = 0; i < len; i++) { #if LV_COLOR_DEPTH == 8 || LV_COLOR_DEPTH == 1 buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE] = bg_color.full; #elif LV_COLOR_DEPTH == 16 /*Because of Alpha byte 16 bit color can start on odd address which can cause crash*/ buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE] = bg_color.full & 0xFF; buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE + 1] = (bg_color.full >> 8) & 0xFF; #elif LV_COLOR_DEPTH == 32 *((uint32_t *)&buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE]) = bg_color.full; #else #error "Invalid LV_COLOR_DEPTH. Check it in lv_conf.h" #endif } const lv_opa_t * opa_table = NULL; uint8_t px_size = lv_img_cf_get_px_size(dsc->header.cf); uint16_t mask = (1 << px_size) - 1; /*E.g. px_size = 2; mask = 0x03*/ lv_coord_t w = 0; uint32_t ofs = 0; int8_t pos = 0; switch(dsc->header.cf) { case LV_IMG_CF_ALPHA_1BIT: w = (dsc->header.w + 7) >> 3; /*E.g. w = 20 -> w = 2 + 1*/ ofs += w * y + (x >> 3); /*First pixel*/ pos = 7 - (x & 0x7); opa_table = alpha1_opa_table; break; case LV_IMG_CF_ALPHA_2BIT: w = (dsc->header.w + 3) >> 2; /*E.g. w = 13 -> w = 3 + 1 (bytes)*/ ofs += w * y + (x >> 2); /*First pixel*/ pos = 6 - (x & 0x3) * 2; opa_table = alpha2_opa_table; break; case LV_IMG_CF_ALPHA_4BIT: w = (dsc->header.w + 1) >> 1; /*E.g. w = 13 -> w = 6 + 1 (bytes)*/ ofs += w * y + (x >> 1); /*First pixel*/ pos = 4 - (x & 0x1) * 4; opa_table = alpha4_opa_table; break; case LV_IMG_CF_ALPHA_8BIT: w = dsc->header.w; /*E.g. x = 7 -> w = 7 (bytes)*/ ofs += w * y + x; /*First pixel*/ pos = 0; break; } lv_img_decoder_built_in_data_t * user_data = dsc->user_data; uint8_t * fs_buf = lv_mem_buf_get(w); if(fs_buf == NULL) return LV_RES_INV; const uint8_t * data_tmp = NULL; if(dsc->src_type == LV_IMG_SRC_VARIABLE) { const lv_img_dsc_t * img_dsc = dsc->src; data_tmp = img_dsc->data + ofs; } else { lv_fs_seek(&user_data->f, ofs + 4, LV_FS_SEEK_SET); /*+4 to skip the header*/ lv_fs_read(&user_data->f, fs_buf, w, NULL); data_tmp = fs_buf; } for(i = 0; i < len; i++) { uint8_t val_act = (*data_tmp >> pos) & mask; buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE + LV_IMG_PX_SIZE_ALPHA_BYTE - 1] = dsc->header.cf == LV_IMG_CF_ALPHA_8BIT ? val_act : opa_table[val_act]; pos -= px_size; if(pos < 0) { pos = 8 - px_size; data_tmp++; } } lv_mem_buf_release(fs_buf); return LV_RES_OK; } static lv_res_t lv_img_decoder_built_in_line_indexed(lv_img_decoder_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf) { uint8_t px_size = lv_img_cf_get_px_size(dsc->header.cf); uint16_t mask = (1 << px_size) - 1; /*E.g. px_size = 2; mask = 0x03*/ lv_coord_t w = 0; int8_t pos = 0; uint32_t ofs = 0; switch(dsc->header.cf) { case LV_IMG_CF_INDEXED_1BIT: w = (dsc->header.w + 7) >> 3; /*E.g. w = 20 -> w = 2 + 1*/ ofs += w * y + (x >> 3); /*First pixel*/ ofs += 8; /*Skip the palette*/ pos = 7 - (x & 0x7); break; case LV_IMG_CF_INDEXED_2BIT: w = (dsc->header.w + 3) >> 2; /*E.g. w = 13 -> w = 3 + 1 (bytes)*/ ofs += w * y + (x >> 2); /*First pixel*/ ofs += 16; /*Skip the palette*/ pos = 6 - (x & 0x3) * 2; break; case LV_IMG_CF_INDEXED_4BIT: w = (dsc->header.w + 1) >> 1; /*E.g. w = 13 -> w = 6 + 1 (bytes)*/ ofs += w * y + (x >> 1); /*First pixel*/ ofs += 64; /*Skip the palette*/ pos = 4 - (x & 0x1) * 4; break; case LV_IMG_CF_INDEXED_8BIT: w = dsc->header.w; /*E.g. x = 7 -> w = 7 (bytes)*/ ofs += w * y + x; /*First pixel*/ ofs += 1024; /*Skip the palette*/ pos = 0; break; } lv_img_decoder_built_in_data_t * user_data = dsc->user_data; uint8_t * fs_buf = lv_mem_buf_get(w); if(fs_buf == NULL) return LV_RES_INV; const uint8_t * data_tmp = NULL; if(dsc->src_type == LV_IMG_SRC_VARIABLE) { const lv_img_dsc_t * img_dsc = dsc->src; data_tmp = img_dsc->data + ofs; } else { lv_fs_seek(&user_data->f, ofs + 4, LV_FS_SEEK_SET); /*+4 to skip the header*/ lv_fs_read(&user_data->f, fs_buf, w, NULL); data_tmp = fs_buf; } lv_coord_t i; for(i = 0; i < len; i++) { uint8_t val_act = (*data_tmp >> pos) & mask; lv_color_t color = user_data->palette[val_act]; #if LV_COLOR_DEPTH == 8 || LV_COLOR_DEPTH == 1 buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE] = color.full; #elif LV_COLOR_DEPTH == 16 /*Because of Alpha byte 16 bit color can start on odd address which can cause crash*/ buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE] = color.full & 0xFF; buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE + 1] = (color.full >> 8) & 0xFF; #elif LV_COLOR_DEPTH == 32 *((uint32_t *)&buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE]) = color.full; #else #error "Invalid LV_COLOR_DEPTH. Check it in lv_conf.h" #endif buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE + LV_IMG_PX_SIZE_ALPHA_BYTE - 1] = user_data->opa[val_act]; pos -= px_size; if(pos < 0) { pos = 8 - px_size; data_tmp++; } } lv_mem_buf_release(fs_buf); return LV_RES_OK; }