/** * @file lv_img_cache.c * */ /********************* * INCLUDES *********************/ #include "../misc/lv_assert.h" #include "lv_img_cache.h" #include "lv_img_decoder.h" #include "lv_draw_img.h" #include "../hal/lv_hal_tick.h" #include "../misc/lv_gc.h" /********************* * DEFINES *********************/ /*Decrement life with this value on every open*/ #define LV_IMG_CACHE_AGING 1 /*Boost life by this factor (multiply time_to_open with this value)*/ #define LV_IMG_CACHE_LIFE_GAIN 1 /*Don't let life to be greater than this limit because it would require a lot of time to * "die" from very high values*/ #define LV_IMG_CACHE_LIFE_LIMIT 1000 /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ #if LV_IMG_CACHE_DEF_SIZE static bool lv_img_cache_match(const void * src1, const void * src2); #endif /********************** * STATIC VARIABLES **********************/ #if LV_IMG_CACHE_DEF_SIZE static uint16_t entry_cnt; #endif /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Open an image using the image decoder interface and cache it. * The image will be left open meaning if the image decoder open callback allocated memory then it will remain. * The image is closed if a new image is opened and the new image takes its place in the cache. * @param src source of the image. Path to file or pointer to an `lv_img_dsc_t` variable * @param color color The color of the image with `LV_IMG_CF_ALPHA_...` * @return pointer to the cache entry or NULL if can open the image */ _lv_img_cache_entry_t * _lv_img_cache_open(const void * src, lv_color_t color, int32_t frame_id) { /*Is the image cached?*/ _lv_img_cache_entry_t * cached_src = NULL; #if LV_IMG_CACHE_DEF_SIZE if(entry_cnt == 0) { LV_LOG_WARN("lv_img_cache_open: the cache size is 0"); return NULL; } _lv_img_cache_entry_t * cache = LV_GC_ROOT(_lv_img_cache_array); /*Decrement all lifes. Make the entries older*/ uint16_t i; for(i = 0; i < entry_cnt; i++) { if(cache[i].life > INT32_MIN + LV_IMG_CACHE_AGING) { cache[i].life -= LV_IMG_CACHE_AGING; } } for(i = 0; i < entry_cnt; i++) { if(color.full == cache[i].dec_dsc.color.full && frame_id == cache[i].dec_dsc.frame_id && lv_img_cache_match(src, cache[i].dec_dsc.src)) { /*If opened increment its life. *Image difficult to open should live longer to keep avoid frequent their recaching. *Therefore increase `life` with `time_to_open`*/ cached_src = &cache[i]; cached_src->life += cached_src->dec_dsc.time_to_open * LV_IMG_CACHE_LIFE_GAIN; if(cached_src->life > LV_IMG_CACHE_LIFE_LIMIT) cached_src->life = LV_IMG_CACHE_LIFE_LIMIT; LV_LOG_TRACE("image source found in the cache"); break; } } /*The image is not cached then cache it now*/ if(cached_src) return cached_src; /*Find an entry to reuse. Select the entry with the least life*/ cached_src = &cache[0]; for(i = 1; i < entry_cnt; i++) { if(cache[i].life < cached_src->life) { cached_src = &cache[i]; } } /*Close the decoder to reuse if it was opened (has a valid source)*/ if(cached_src->dec_dsc.src) { lv_img_decoder_close(&cached_src->dec_dsc); LV_LOG_INFO("image draw: cache miss, close and reuse an entry"); } else { LV_LOG_INFO("image draw: cache miss, cached to an empty entry"); } #else cached_src = &LV_GC_ROOT(_lv_img_cache_single); #endif /*Open the image and measure the time to open*/ uint32_t t_start = lv_tick_get(); lv_res_t open_res = lv_img_decoder_open(&cached_src->dec_dsc, src, color, frame_id); if(open_res == LV_RES_INV) { LV_LOG_WARN("Image draw cannot open the image resource"); lv_memset_00(cached_src, sizeof(_lv_img_cache_entry_t)); cached_src->life = INT32_MIN; /*Make the empty entry very "weak" to force its us*/ return NULL; } cached_src->life = 0; /*If `time_to_open` was not set in the open function set it here*/ if(cached_src->dec_dsc.time_to_open == 0) { cached_src->dec_dsc.time_to_open = lv_tick_elaps(t_start); } if(cached_src->dec_dsc.time_to_open == 0) cached_src->dec_dsc.time_to_open = 1; return cached_src; } /** * Set the number of images to be cached. * More cached images mean more opened image at same time which might mean more memory usage. * E.g. if 20 PNG or JPG images are open in the RAM they consume memory while opened in the cache. * @param new_entry_cnt number of image to cache */ void lv_img_cache_set_size(uint16_t new_entry_cnt) { #if LV_IMG_CACHE_DEF_SIZE == 0 LV_UNUSED(new_entry_cnt); LV_LOG_WARN("Can't change cache size because it's disabled by LV_IMG_CACHE_DEF_SIZE = 0"); #else if(LV_GC_ROOT(_lv_img_cache_array) != NULL) { /*Clean the cache before free it*/ lv_img_cache_invalidate_src(NULL); lv_mem_free(LV_GC_ROOT(_lv_img_cache_array)); } /*Reallocate the cache*/ LV_GC_ROOT(_lv_img_cache_array) = lv_mem_alloc(sizeof(_lv_img_cache_entry_t) * new_entry_cnt); LV_ASSERT_MALLOC(LV_GC_ROOT(_lv_img_cache_array)); if(LV_GC_ROOT(_lv_img_cache_array) == NULL) { entry_cnt = 0; return; } entry_cnt = new_entry_cnt; /*Clean the cache*/ lv_memset_00(LV_GC_ROOT(_lv_img_cache_array), entry_cnt * sizeof(_lv_img_cache_entry_t)); #endif } /** * Invalidate an image source in the cache. * Useful if the image source is updated therefore it needs to be cached again. * @param src an image source path to a file or pointer to an `lv_img_dsc_t` variable. */ void lv_img_cache_invalidate_src(const void * src) { LV_UNUSED(src); #if LV_IMG_CACHE_DEF_SIZE _lv_img_cache_entry_t * cache = LV_GC_ROOT(_lv_img_cache_array); uint16_t i; for(i = 0; i < entry_cnt; i++) { if(src == NULL || lv_img_cache_match(src, cache[i].dec_dsc.src)) { if(cache[i].dec_dsc.src != NULL) { lv_img_decoder_close(&cache[i].dec_dsc); } lv_memset_00(&cache[i], sizeof(_lv_img_cache_entry_t)); } } #endif } /********************** * STATIC FUNCTIONS **********************/ #if LV_IMG_CACHE_DEF_SIZE static bool lv_img_cache_match(const void * src1, const void * src2) { lv_img_src_t src_type = lv_img_src_get_type(src1); if(src_type == LV_IMG_SRC_VARIABLE) return src1 == src2; if(src_type != LV_IMG_SRC_FILE) return false; if(lv_img_src_get_type(src2) != LV_IMG_SRC_FILE) return false; return strcmp(src1, src2) == 0; } #endif