/** * @file lv_draw_img.c * */ /********************* * INCLUDES *********************/ #include "lv_draw_img.h" #include "lv_img_cache.h" #include "../lv_hal/lv_hal_disp.h" #include "../lv_misc/lv_log.h" #include "../lv_core/lv_refr.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_img_draw_core(const lv_area_t * coords, const lv_area_t * mask, const void * src, const lv_style_t * style, lv_opa_t opa_scale); static void lv_draw_map(const lv_area_t * map_area, const lv_area_t * clip_area, const uint8_t * map_p, lv_opa_t opa, bool chroma_key, bool alpha_byte, lv_color_t recolor, lv_opa_t recolor_opa); /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Draw an image * @param coords the coordinates of the image * @param mask the image will be drawn only in this area * @param src pointer to a lv_color_t array which contains the pixels of the image * @param style style of the image * @param opa_scale scale down all opacities by the factor */ void lv_draw_img(const lv_area_t * coords, const lv_area_t * mask, const void * src, const lv_style_t * style, lv_opa_t opa_scale) { if(src == NULL) { LV_LOG_WARN("Image draw: src is NULL"); lv_draw_rect(coords, mask, &lv_style_plain, LV_OPA_COVER); lv_draw_label(coords, mask, &lv_style_plain, LV_OPA_COVER, "No\ndata", LV_TXT_FLAG_NONE, NULL, -1, -1, NULL); return; } lv_res_t res; res = lv_img_draw_core(coords, mask, src, style, opa_scale); if(res == LV_RES_INV) { LV_LOG_WARN("Image draw error"); lv_draw_rect(coords, mask, &lv_style_plain, LV_OPA_COVER); lv_draw_label(coords, mask, &lv_style_plain, LV_OPA_COVER, "No\ndata", LV_TXT_FLAG_NONE, NULL, -1, -1, NULL); return; } } /** * Get the color of an image's pixel * @param dsc an image descriptor * @param x x coordinate of the point to get * @param y x coordinate of the point to get * @param style style of the image. In case of `LV_IMG_CF_ALPHA_1/2/4/8` `style->image.color` shows * the color. Can be `NULL` but for `ALPHA` images black will be returned. In other cases it is not * used. * @return color of the point */ lv_color_t lv_img_buf_get_px_color(lv_img_dsc_t * dsc, lv_coord_t x, lv_coord_t y, const lv_style_t * style) { lv_color_t p_color = LV_COLOR_BLACK; if(x >= dsc->header.w) { x = dsc->header.w - 1; LV_LOG_WARN("lv_canvas_get_px: x is too large (out of canvas)"); } else if(x < 0) { x = 0; LV_LOG_WARN("lv_canvas_get_px: x is < 0 (out of canvas)"); } if(y >= dsc->header.h) { y = dsc->header.h - 1; LV_LOG_WARN("lv_canvas_get_px: y is too large (out of canvas)"); } else if(y < 0) { y = 0; LV_LOG_WARN("lv_canvas_get_px: y is < 0 (out of canvas)"); } uint8_t * buf_u8 = (uint8_t *)dsc->data; if(dsc->header.cf == LV_IMG_CF_TRUE_COLOR || dsc->header.cf == LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED || dsc->header.cf == LV_IMG_CF_TRUE_COLOR_ALPHA) { uint8_t px_size = lv_img_color_format_get_px_size(dsc->header.cf) >> 3; uint32_t px = dsc->header.w * y * px_size + x * px_size; memcpy(&p_color, &buf_u8[px], sizeof(lv_color_t)); #if LV_COLOR_SIZE == 32 p_color.ch.alpha = 0xFF; /*Only the color should be get so use a deafult alpha value*/ #endif } else if(dsc->header.cf == LV_IMG_CF_INDEXED_1BIT) { buf_u8 += 4 * 2; uint8_t bit = x & 0x7; x = x >> 3; /* Get the current pixel. * dsc->header.w + 7 means rounding up to 8 because the lines are byte aligned * so the possible real width are 8, 16, 24 ...*/ uint32_t px = ((dsc->header.w + 7) >> 3) * y + x; p_color.full = (buf_u8[px] & (1 << (7 - bit))) >> (7 - bit); } else if(dsc->header.cf == LV_IMG_CF_INDEXED_2BIT) { buf_u8 += 4 * 4; uint8_t bit = (x & 0x3) * 2; x = x >> 2; /* Get the current pixel. * dsc->header.w + 3 means rounding up to 4 because the lines are byte aligned * so the possible real width are 4, 8, 12 ...*/ uint32_t px = ((dsc->header.w + 3) >> 2) * y + x; p_color.full = (buf_u8[px] & (3 << (6 - bit))) >> (6 - bit); } else if(dsc->header.cf == LV_IMG_CF_INDEXED_4BIT) { buf_u8 += 4 * 16; uint8_t bit = (x & 0x1) * 4; x = x >> 1; /* Get the current pixel. * dsc->header.w + 1 means rounding up to 2 because the lines are byte aligned * so the possible real width are 2, 4, 6 ...*/ uint32_t px = ((dsc->header.w + 1) >> 1) * y + x; p_color.full = (buf_u8[px] & (0xF << (4 - bit))) >> (4 - bit); } else if(dsc->header.cf == LV_IMG_CF_INDEXED_8BIT) { buf_u8 += 4 * 256; uint32_t px = dsc->header.w * y + x; p_color.full = buf_u8[px]; } 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) { if(style) p_color = style->image.color; else p_color = LV_COLOR_BLACK; } return p_color; } /** * Get the alpha value of an image's pixel * @param dsc pointer to an image descriptor * @param x x coordinate of the point to set * @param y x coordinate of the point to set * @return alpha value of the point */ lv_opa_t lv_img_buf_get_px_alpha(lv_img_dsc_t * dsc, lv_coord_t x, lv_coord_t y) { if(x >= dsc->header.w) { x = dsc->header.w - 1; LV_LOG_WARN("lv_canvas_get_px: x is too large (out of canvas)"); } else if(x < 0) { x = 0; LV_LOG_WARN("lv_canvas_get_px: x is < 0 (out of canvas)"); } if(y >= dsc->header.h) { y = dsc->header.h - 1; LV_LOG_WARN("lv_canvas_get_px: y is too large (out of canvas)"); } else if(y < 0) { y = 0; LV_LOG_WARN("lv_canvas_get_px: y is < 0 (out of canvas)"); } uint8_t * buf_u8 = (uint8_t *)dsc->data; if(dsc->header.cf == LV_IMG_CF_TRUE_COLOR_ALPHA) { uint32_t px = dsc->header.w * y * LV_IMG_PX_SIZE_ALPHA_BYTE + x * LV_IMG_PX_SIZE_ALPHA_BYTE; return buf_u8[px + LV_IMG_PX_SIZE_ALPHA_BYTE - 1]; } else if(dsc->header.cf == LV_IMG_CF_ALPHA_1BIT) { uint8_t bit = x & 0x7; x = x >> 3; /* Get the current pixel. * dsc->header.w + 7 means rounding up to 8 because the lines are byte aligned * so the possible real width are 8 ,16, 24 ...*/ uint32_t px = ((dsc->header.w + 7) >> 3) * y + x; uint8_t px_opa = (buf_u8[px] & (1 << (7 - bit))) >> (7 - bit); return px_opa ? LV_OPA_TRANSP : LV_OPA_COVER; } else if(dsc->header.cf == LV_IMG_CF_ALPHA_2BIT) { const uint8_t opa_table[4] = {0, 85, 170, 255}; /*Opacity mapping with bpp = 2*/ uint8_t bit = (x & 0x3) * 2; x = x >> 2; /* Get the current pixel. * dsc->header.w + 4 means rounding up to 8 because the lines are byte aligned * so the possible real width are 4 ,8, 12 ...*/ uint32_t px = ((dsc->header.w + 3) >> 2) * y + x; uint8_t px_opa = (buf_u8[px] & (3 << (6 - bit))) >> (6 - bit); return opa_table[px_opa]; } else if(dsc->header.cf == LV_IMG_CF_ALPHA_4BIT) { const uint8_t opa_table[16] = {0, 17, 34, 51, /*Opacity mapping with bpp = 4*/ 68, 85, 102, 119, 136, 153, 170, 187, 204, 221, 238, 255}; uint8_t bit = (x & 0x1) * 4; x = x >> 1; /* Get the current pixel. * dsc->header.w + 1 means rounding up to 8 because the lines are byte aligned * so the possible real width are 2 ,4, 6 ...*/ uint32_t px = ((dsc->header.w + 1) >> 1) * y + x; uint8_t px_opa = (buf_u8[px] & (0xF << (4 - bit))) >> (4 - bit); return opa_table[px_opa]; } else if(dsc->header.cf == LV_IMG_CF_ALPHA_8BIT) { uint32_t px = dsc->header.w * y + x; return buf_u8[px]; } return LV_OPA_COVER; } /** * Set the color of a pixel of an image. The alpha channel won't be affected. * @param dsc pointer to an image descriptor * @param x x coordinate of the point to set * @param y x coordinate of the point to set * @param c color of the point */ void lv_img_buf_set_px_color(lv_img_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_color_t c) { uint8_t * buf_u8 = (uint8_t *)dsc->data; if(dsc->header.cf == LV_IMG_CF_TRUE_COLOR || dsc->header.cf == LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED) { uint8_t px_size = lv_img_color_format_get_px_size(dsc->header.cf) >> 3; uint32_t px = dsc->header.w * y * px_size + x * px_size; memcpy(&buf_u8[px], &c, px_size); } else if(dsc->header.cf == LV_IMG_CF_TRUE_COLOR_ALPHA) { uint8_t px_size = lv_img_color_format_get_px_size(dsc->header.cf) >> 3; uint32_t px = dsc->header.w * y * px_size + x * px_size; memcpy(&buf_u8[px], &c, px_size - 1); /*-1 to not overwrite the alpha value*/ } else if(dsc->header.cf == LV_IMG_CF_INDEXED_1BIT) { buf_u8 += sizeof(lv_color32_t) * 2; /*Skip the palette*/ uint8_t bit = x & 0x7; x = x >> 3; /* Get the current pixel. * dsc->header.w + 7 means rounding up to 8 because the lines are byte aligned * so the possible real width are 8 ,16, 24 ...*/ uint32_t px = ((dsc->header.w + 7) >> 3) * y + x; buf_u8[px] = buf_u8[px] & ~(1 << (7 - bit)); buf_u8[px] = buf_u8[px] | ((c.full & 0x1) << (7 - bit)); } else if(dsc->header.cf == LV_IMG_CF_INDEXED_2BIT) { buf_u8 += sizeof(lv_color32_t) * 4; /*Skip the palette*/ uint8_t bit = (x & 0x3) * 2; x = x >> 2; /* Get the current pixel. * dsc->header.w + 3 means rounding up to 4 because the lines are byte aligned * so the possible real width are 4, 8 ,12 ...*/ uint32_t px = ((dsc->header.w + 3) >> 2) * y + x; buf_u8[px] = buf_u8[px] & ~(3 << (6 - bit)); buf_u8[px] = buf_u8[px] | ((c.full & 0x3) << (6 - bit)); } else if(dsc->header.cf == LV_IMG_CF_INDEXED_4BIT) { buf_u8 += sizeof(lv_color32_t) * 16; /*Skip the palette*/ uint8_t bit = (x & 0x1) * 4; x = x >> 1; /* Get the current pixel. * dsc->header.w + 1 means rounding up to 2 because the lines are byte aligned * so the possible real width are 2 ,4, 6 ...*/ uint32_t px = ((dsc->header.w + 1) >> 1) * y + x; buf_u8[px] = buf_u8[px] & ~(0xF << (4 - bit)); buf_u8[px] = buf_u8[px] | ((c.full & 0xF) << (4 - bit)); } else if(dsc->header.cf == LV_IMG_CF_INDEXED_8BIT) { buf_u8 += sizeof(lv_color32_t) * 256; /*Skip the palette*/ uint32_t px = dsc->header.w * y + x; buf_u8[px] = c.full; } } /** * Set the alpha value of a pixel of an image. The color won't be affected * @param dsc pointer to an image descriptor * @param x x coordinate of the point to set * @param y x coordinate of the point to set * @param opa the desired opacity */ void lv_img_buf_set_px_alpha(lv_img_dsc_t * dsc, lv_coord_t x, lv_coord_t y, lv_opa_t opa) { uint8_t * buf_u8 = (uint8_t *)dsc->data; if(dsc->header.cf == LV_IMG_CF_TRUE_COLOR_ALPHA) { uint8_t px_size = lv_img_color_format_get_px_size(dsc->header.cf) >> 3; uint32_t px = dsc->header.w * y * px_size + x * px_size; buf_u8[px + px_size - 1] = opa; } else if(dsc->header.cf == LV_IMG_CF_ALPHA_1BIT) { opa = opa >> 7; /*opa -> [0,1]*/ uint8_t bit = x & 0x7; x = x >> 3; /* Get the current pixel. * dsc->header.w + 7 means rounding up to 8 because the lines are byte aligned * so the possible real width are 8 ,16, 24 ...*/ uint32_t px = ((dsc->header.w + 7) >> 3) * y + x; buf_u8[px] = buf_u8[px] & ~(1 << (7 - bit)); buf_u8[px] = buf_u8[px] | ((opa & 0x1) << (7 - bit)); } else if(dsc->header.cf == LV_IMG_CF_ALPHA_2BIT) { opa = opa >> 6; /*opa -> [0,3]*/ uint8_t bit = (x & 0x3) * 2; x = x >> 2; /* Get the current pixel. * dsc->header.w + 4 means rounding up to 8 because the lines are byte aligned * so the possible real width are 4 ,8, 12 ...*/ uint32_t px = ((dsc->header.w + 3) >> 2) * y + x; buf_u8[px] = buf_u8[px] & ~(3 << (6 - bit)); buf_u8[px] = buf_u8[px] | ((opa & 0x3) << (6 - bit)); } else if(dsc->header.cf == LV_IMG_CF_ALPHA_4BIT) { opa = opa >> 4; /*opa -> [0,15]*/ uint8_t bit = (x & 0x1) * 4; x = x >> 1; /* Get the current pixel. * dsc->header.w + 1 means rounding up to 8 because the lines are byte aligned * so the possible real width are 2 ,4, 6 ...*/ uint32_t px = ((dsc->header.w + 1) >> 1) * y + x; buf_u8[px] = buf_u8[px] & ~(0xF << (4 - bit)); buf_u8[px] = buf_u8[px] | ((opa & 0xF) << (4 - bit)); } else if(dsc->header.cf == LV_IMG_CF_ALPHA_8BIT) { uint32_t px = dsc->header.w * y + x; buf_u8[px] = opa; } } /** * Set the palette color of an indexed image. Valid only for `LV_IMG_CF_INDEXED1/2/4/8` * @param dsc pointer to an image descriptor * @param id the palette color to set: * - for `LV_IMG_CF_INDEXED1`: 0..1 * - for `LV_IMG_CF_INDEXED2`: 0..3 * - for `LV_IMG_CF_INDEXED4`: 0..15 * - for `LV_IMG_CF_INDEXED8`: 0..255 * @param c the color to set */ void lv_img_buf_set_palette(lv_img_dsc_t * dsc, uint8_t id, lv_color_t c) { if((dsc->header.cf == LV_IMG_CF_ALPHA_1BIT && id > 1) || (dsc->header.cf == LV_IMG_CF_ALPHA_2BIT && id > 3) || (dsc->header.cf == LV_IMG_CF_ALPHA_4BIT && id > 15) || (dsc->header.cf == LV_IMG_CF_ALPHA_8BIT)) { LV_LOG_WARN("lv_img_buf_set_px_alpha: invalid 'id'"); return; } lv_color32_t c32; c32.full = lv_color_to32(c); uint8_t * buf = (uint8_t *)dsc->data; memcpy(&buf[id * sizeof(c32)], &c32, sizeof(c32)); } /** * Get the pixel size of a color format in bits * @param cf a color format (`LV_IMG_CF_...`) * @return the pixel size in bits */ uint8_t lv_img_color_format_get_px_size(lv_img_cf_t cf) { uint8_t px_size = 0; switch(cf) { case LV_IMG_CF_UNKNOWN: case LV_IMG_CF_RAW: px_size = 0; break; case LV_IMG_CF_TRUE_COLOR: case LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED: px_size = LV_COLOR_SIZE; break; case LV_IMG_CF_TRUE_COLOR_ALPHA: px_size = LV_IMG_PX_SIZE_ALPHA_BYTE << 3; break; case LV_IMG_CF_INDEXED_1BIT: case LV_IMG_CF_ALPHA_1BIT: px_size = 1; break; case LV_IMG_CF_INDEXED_2BIT: case LV_IMG_CF_ALPHA_2BIT: px_size = 2; break; case LV_IMG_CF_INDEXED_4BIT: case LV_IMG_CF_ALPHA_4BIT: px_size = 4; break; case LV_IMG_CF_INDEXED_8BIT: case LV_IMG_CF_ALPHA_8BIT: px_size = 8; break; default: px_size = 0; break; } return px_size; } /** * Check if a color format is chroma keyed or not * @param cf a color format (`LV_IMG_CF_...`) * @return true: chroma keyed; false: not chroma keyed */ bool lv_img_color_format_is_chroma_keyed(lv_img_cf_t cf) { bool is_chroma_keyed = false; switch(cf) { case LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED: case LV_IMG_CF_RAW_CHROMA_KEYED: case LV_IMG_CF_INDEXED_1BIT: case LV_IMG_CF_INDEXED_2BIT: case LV_IMG_CF_INDEXED_4BIT: case LV_IMG_CF_INDEXED_8BIT: is_chroma_keyed = true; break; default: is_chroma_keyed = false; break; } return is_chroma_keyed; } /** * Check if a color format has alpha channel or not * @param cf a color format (`LV_IMG_CF_...`) * @return true: has alpha channel; false: doesn't have alpha channel */ bool lv_img_color_format_has_alpha(lv_img_cf_t cf) { bool has_alpha = false; switch(cf) { case LV_IMG_CF_TRUE_COLOR_ALPHA: case LV_IMG_CF_RAW_ALPHA: case LV_IMG_CF_ALPHA_1BIT: case LV_IMG_CF_ALPHA_2BIT: case LV_IMG_CF_ALPHA_4BIT: case LV_IMG_CF_ALPHA_8BIT: has_alpha = true; break; default: has_alpha = false; break; } return has_alpha; } /** * Get the type of an image source * @param src pointer to an image source: * - pointer to an 'lv_img_t' variable (image stored internally and compiled into the code) * - a path to a file (e.g. "S:/folder/image.bin") * - or a symbol (e.g. LV_SYMBOL_CLOSE) * @return type of the image source LV_IMG_SRC_VARIABLE/FILE/SYMBOL/UNKNOWN */ lv_img_src_t lv_img_src_get_type(const void * src) { lv_img_src_t img_src_type = LV_IMG_SRC_UNKNOWN; if(src == NULL) return img_src_type; const uint8_t * u8_p = src; /*The first byte shows the type of the image source*/ if(u8_p[0] >= 0x20 && u8_p[0] <= 0x7F) { img_src_type = LV_IMG_SRC_FILE; /*If it's an ASCII character then it's file name*/ } else if(u8_p[0] >= 0x80) { img_src_type = LV_IMG_SRC_SYMBOL; /*Symbols begins after 0x7F*/ } else { img_src_type = LV_IMG_SRC_VARIABLE; /*`lv_img_dsc_t` is design to the first byte < 0x20*/ } if(LV_IMG_SRC_UNKNOWN == img_src_type) { LV_LOG_WARN("lv_img_src_get_type: unknown image type"); } return img_src_type; } /********************** * STATIC FUNCTIONS **********************/ static lv_res_t lv_img_draw_core(const lv_area_t * coords, const lv_area_t * mask, const void * src, const lv_style_t * style, lv_opa_t opa_scale) { lv_area_t mask_com; /*Common area of mask and coords*/ bool union_ok; union_ok = lv_area_intersect(&mask_com, mask, coords); if(union_ok == false) { return LV_RES_OK; /*Out of mask. There is nothing to draw so the image is drawn successfully.*/ } lv_opa_t opa = style->image.opa; if(opa_scale != LV_OPA_COVER) opa = (opa * opa_scale) >> 8; lv_img_cache_entry_t * cdsc = lv_img_cache_open(src, style); if(cdsc == NULL) return LV_RES_INV; bool chroma_keyed = lv_img_color_format_is_chroma_keyed(cdsc->dec_dsc.header.cf); bool alpha_byte = lv_img_color_format_has_alpha(cdsc->dec_dsc.header.cf); if(cdsc->dec_dsc.error_msg != NULL) { LV_LOG_WARN("Image draw error"); lv_draw_rect(coords, mask, &lv_style_plain, LV_OPA_COVER); lv_draw_label(coords, mask, &lv_style_plain, LV_OPA_COVER, cdsc->dec_dsc.error_msg, LV_TXT_FLAG_NONE, NULL, -1, -1, NULL); } /* The decoder open could open the image and gave the entire uncompressed image. * Just draw it!*/ else if(cdsc->dec_dsc.img_data) { lv_draw_map(coords, mask, cdsc->dec_dsc.img_data, opa, chroma_keyed, alpha_byte, style->image.color, style->image.intense); } /* The whole uncompressed image is not available. Try to read it line-by-line*/ else { lv_coord_t width = lv_area_get_width(&mask_com); uint8_t * buf = lv_draw_get_buf(lv_area_get_width(&mask_com) * ((LV_COLOR_DEPTH >> 3) + 1)); /*+1 because of the possible alpha byte*/ lv_area_t line; lv_area_copy(&line, &mask_com); lv_area_set_height(&line, 1); lv_coord_t x = mask_com.x1 - coords->x1; lv_coord_t y = mask_com.y1 - coords->y1; lv_coord_t row; lv_res_t read_res; for(row = mask_com.y1; row <= mask_com.y2; row++) { read_res = lv_img_decoder_read_line(&cdsc->dec_dsc, x, y, width, buf); if(read_res != LV_RES_OK) { lv_img_decoder_close(&cdsc->dec_dsc); LV_LOG_WARN("Image draw can't read the line"); return LV_RES_INV; } lv_draw_map(&line, mask, buf, opa, chroma_keyed, alpha_byte, style->image.color, style->image.intense); line.y1++; line.y2++; y++; } } return LV_RES_OK; } /** * Draw a color map to the display (image) * @param cords_p coordinates the color map * @param mask_p the map will drawn only on this area (truncated to VDB area) * @param map_p pointer to a lv_color_t array * @param opa opacity of the map * @param chroma_keyed true: enable transparency of LV_IMG_LV_COLOR_TRANSP color pixels * @param alpha_byte true: extra alpha byte is inserted for every pixel * @param recolor mix the pixels with this color * @param recolor_opa the intense of recoloring */ static void lv_draw_map(const lv_area_t * map_area, const lv_area_t * clip_area, const uint8_t * map_p, lv_opa_t opa, bool chroma_key, bool alpha_byte, lv_color_t recolor, lv_opa_t recolor_opa) { if(opa < LV_OPA_MIN) return; if(opa > LV_OPA_MAX) opa = LV_OPA_COVER; lv_area_t draw_area; bool union_ok; /* Get clipped map area which is the real draw area. * It is always the same or inside `map_area` */ union_ok = lv_area_intersect(&draw_area, map_area, clip_area); /*If there are common part of the three area then draw to the vdb*/ if(union_ok == false) return; lv_disp_t * disp = lv_refr_get_disp_refreshing(); lv_disp_buf_t * vdb = lv_disp_get_buf(disp); const lv_area_t * disp_area = &vdb->area; /* Now `draw_area` has absolute coordinates. * Make it relative to `disp_area` to simplify draw to `disp_buf`*/ draw_area.x1 -= disp_area->x1; draw_area.y1 -= disp_area->y1; draw_area.x2 -= disp_area->x1; draw_area.y2 -= disp_area->y1; uint8_t other_mask_cnt = lv_draw_mask_get_cnt(); /*The simplest case just copy the pixels into the VDB*/ if(other_mask_cnt == 0 && chroma_key == false && alpha_byte == false && opa == LV_OPA_COVER && recolor_opa == LV_OPA_TRANSP) { lv_blend_map(clip_area, map_area, (lv_color_t *)map_p, NULL, LV_DRAW_MASK_RES_FULL_COVER, LV_OPA_COVER, LV_BLEND_MODE_NORMAL); } /*In the other cases every pixel need to be checked one-by-one*/ else { /*The pixel size in byte is different if an alpha byte is added too*/ uint8_t px_size_byte = alpha_byte ? LV_IMG_PX_SIZE_ALPHA_BYTE : sizeof(lv_color_t); /*Build the image and a mask line-by-line*/ lv_color_t map2[LV_HOR_RES_MAX]; lv_opa_t mask_buf[LV_HOR_RES_MAX]; /*Go to the first displayed pixel of the map*/ lv_coord_t map_w = lv_area_get_width(map_area); const uint8_t * map_buf_tmp = map_p; map_buf_tmp += map_w * (draw_area.y1 - (map_area->y1 - disp_area->y1)) * px_size_byte; map_buf_tmp += (draw_area.x1 - (map_area->x1 - disp_area->x1)) * px_size_byte; lv_color_t c; lv_color_t chroma_keyed_color = LV_COLOR_TRANSP; uint32_t px_i = 0; uint32_t px_i_start; const uint8_t * map_px; lv_area_t blend_area; blend_area.x1 = draw_area.x1 + disp_area->x1; blend_area.x2 = blend_area.x1 + lv_area_get_width(&draw_area) - 1; blend_area.y1 = disp_area->y1 + draw_area.y1; blend_area.y2 = blend_area.y1; /*Prepare the `mask_buf`if there are other masks*/ if(other_mask_cnt) { memset(mask_buf, 0xFF, sizeof(mask_buf)); } lv_draw_mask_res_t mask_res; mask_res = (alpha_byte || chroma_key) ? LV_DRAW_MASK_RES_CHANGED : LV_DRAW_MASK_RES_FULL_COVER; lv_coord_t x; lv_coord_t y; for(y = 0; y < lv_area_get_height(&draw_area); y++) { map_px = map_buf_tmp; px_i_start = px_i; for(x = 0; x < lv_area_get_width(&draw_area); x++, map_px += px_size_byte, px_i++) { if(alpha_byte) { lv_opa_t px_opa = map_px[LV_IMG_PX_SIZE_ALPHA_BYTE - 1]; mask_buf[px_i] = px_opa; if(px_opa < LV_OPA_MIN) continue; } else { mask_buf[px_i] = LV_OPA_COVER; } #if LV_COLOR_DEPTH == 8 c.full = map_px[0]; #elif LV_COLOR_DEPTH == 16 c.full = map_px[0] + (map_px[1] << 8); #elif LV_COLOR_DEPTH == 32 c.full = *((uint32_t*)map_px); #endif if (chroma_key) { if(c.full == chroma_keyed_color.full) { mask_buf[px_i] = LV_OPA_TRANSP; continue; } } if(recolor_opa != 0) { c = lv_color_mix(recolor, c, recolor_opa); } map2[px_i].full = c.full; } /*Apply the masks if any*/ if(other_mask_cnt) { lv_draw_mask_res_t mask_res_sub; mask_res_sub = lv_draw_mask_apply(mask_buf + px_i_start, draw_area.x1 + vdb->area.x1, y + draw_area.y1 + vdb->area.y1, lv_area_get_width(&draw_area)); if(mask_res_sub == LV_DRAW_MASK_RES_FULL_TRANSP) { memset(mask_buf + px_i_start, 0x00, lv_area_get_width(&draw_area)); mask_res = LV_DRAW_MASK_RES_CHANGED; } else if(mask_res_sub == LV_DRAW_MASK_RES_CHANGED) { mask_res = LV_DRAW_MASK_RES_CHANGED; } } map_buf_tmp += map_w * px_size_byte; if(px_i + lv_area_get_width(&draw_area) < sizeof(mask_buf)) { blend_area.y2 ++; } else { lv_blend_map(clip_area, &blend_area, map2, mask_buf, mask_res, opa, LV_BLEND_MODE_NORMAL); blend_area.y1 = blend_area.y2 + 1; blend_area.y2 = blend_area.y1; px_i = 0; mask_res = (alpha_byte || chroma_key) ? LV_DRAW_MASK_RES_CHANGED : LV_DRAW_MASK_RES_FULL_COVER; /*Prepare the `mask_buf`if there are other masks*/ if(other_mask_cnt) { memset(mask_buf, 0xFF, sizeof(mask_buf)); } } } /*Flush the last part*/ if(blend_area.y1 != blend_area.y2) { blend_area.y2--; lv_blend_map(clip_area, &blend_area, map2, mask_buf, mask_res, opa, LV_BLEND_MODE_NORMAL); } } }