/* Copyright (C) 2009-2010 Samsung Electronics Copyright (C) 2009-2010 ProFUSION embedded systems This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #include "ewk_tiled_model.h" #define _GNU_SOURCE #include "ewk_tiled_backing_store.h" #include "ewk_tiled_private.h" #include #include #include #include #include // XXX REMOVE ME LATER #include #include #ifdef TILE_STATS_ACCOUNT_RENDER_TIME #include #endif #ifndef CAIRO_FORMAT_RGB16_565 #define CAIRO_FORMAT_RGB16_565 4 #endif #define IDX(col, row, rowspan) (col + (row * rowspan)) #define MIN(a, b) ((a < b) ? a : b) #define MAX(a, b) ((a > b) ? a : b) #ifdef DEBUG_MEM_LEAKS static uint64_t tiles_allocated = 0; static uint64_t tiles_freed = 0; static uint64_t bytes_allocated = 0; static uint64_t bytes_freed = 0; struct tile_account { Evas_Coord size; struct { uint64_t allocated; uint64_t freed; } tiles, bytes; }; static size_t accounting_len = 0; static struct tile_account *accounting = NULL; static inline struct tile_account *_ewk_tile_account_get(const Ewk_Tile *t) { struct tile_account *acc; size_t i; for (i = 0; i < accounting_len; i++) { if (accounting[i].size == t->w) return accounting + i; } i = (accounting_len + 1) * sizeof(struct tile_account); REALLOC_OR_OOM_RET(accounting, i, NULL); acc = accounting + accounting_len; acc->size = t->w; acc->tiles.allocated = 0; acc->tiles.freed = 0; acc->bytes.allocated = 0; acc->bytes.freed = 0; accounting_len++; return acc; } static inline void _ewk_tile_account_allocated(const Ewk_Tile *t) { struct tile_account *acc = _ewk_tile_account_get(t); if (!acc) return; acc->bytes.allocated += t->bytes; acc->tiles.allocated++; bytes_allocated += t->bytes; tiles_allocated++; } static inline void _ewk_tile_account_freed(const Ewk_Tile *t) { struct tile_account *acc = _ewk_tile_account_get(t); if (!acc) return; acc->bytes.freed += t->bytes; acc->tiles.freed++; bytes_freed += t->bytes; tiles_freed++; } void ewk_tile_accounting_dbg(void) { struct tile_account *acc; struct tile_account *acc_end; printf("TILE BALANCE: tiles[+%"PRIu64",-%"PRIu64":%"PRIu64"] " "bytes[+%"PRIu64",-%"PRIu64":%"PRIu64"]\n", tiles_allocated, tiles_freed, tiles_allocated - tiles_freed, bytes_allocated, bytes_freed, bytes_allocated - bytes_freed); if (!accounting_len) return; acc = accounting; acc_end = acc + accounting_len; printf("BEGIN: TILE BALANCE DETAILS (TO THIS MOMENT!):\n"); for (; acc < acc_end; acc++) { uint64_t tiles, bytes; tiles = acc->tiles.allocated - acc->tiles.freed; bytes = acc->bytes.allocated - acc->bytes.freed; printf(" %4d: tiles[+%4"PRIu64",-%4"PRIu64":%4"PRIu64"] " "bytes[+%8"PRIu64",-%8"PRIu64":%8"PRIu64"]%s\n", acc->size, acc->tiles.allocated, acc->tiles.freed, tiles, acc->bytes.allocated, acc->bytes.freed, bytes, (bytes || tiles) ? " POSSIBLE LEAK" : ""); } printf("END: TILE BALANCE DETAILS (TO THIS MOMENT!):\n"); } #else static inline void _ewk_tile_account_allocated(const Ewk_Tile *t) { } static inline void _ewk_tile_account_freed(const Ewk_Tile *t) { } void ewk_tile_accounting_dbg(void) { printf("compile webkit with DEBUG_MEM_LEAKS defined!\n"); } #endif static inline void _ewk_tile_paint_rgb888(Ewk_Tile *t, uint8_t r, uint8_t g, uint8_t b) { uint32_t *dst32, *dst32_end, c1; uint64_t *dst64, *dst64_end, c2; c1 = 0xff000000 | ((uint32_t)r << 16) | ((uint32_t)g << 8) | b; c2 = ((uint64_t)c1 << 32) | c1; dst64 = (uint64_t *)t->pixels; dst64_end = dst64 + ((t->bytes / 8) & ~7); for (; dst64 < dst64_end; dst64 += 8) { /* TODO: ARM add pld or NEON instructions */ dst64[0] = c2; dst64[1] = c2; dst64[2] = c2; dst64[3] = c2; dst64[4] = c2; dst64[5] = c2; dst64[6] = c2; dst64[7] = c2; } dst32 = (uint32_t *)dst64_end; dst32_end = (uint32_t *)(t->pixels + t->bytes); for (; dst32 < dst32_end; dst32++) *dst32 = c1; } static inline void _ewk_tile_paint_rgb565(Ewk_Tile *t, uint8_t r, uint8_t g, uint8_t b) { uint16_t *dst16, *dst16_end, c1; uint64_t *dst64, *dst64_end, c2; c1 = ((((r >> 3) & 0x1f) << 11) | (((g >> 2) & 0x3f) << 5) | ((b >> 3) & 0x1f)); c2 = (((uint64_t)c1 << 48) | ((uint64_t)c1 << 32) | ((uint64_t)c1 << 16) | c1); dst64 = (uint64_t *)t->pixels; dst64_end = dst64 + ((t->bytes / 8) & ~7); for (; dst64 < dst64_end; dst64 += 8) { /* TODO: ARM add pld or NEON instructions */ dst64[0] = c2; dst64[1] = c2; dst64[2] = c2; dst64[3] = c2; dst64[4] = c2; dst64[5] = c2; dst64[6] = c2; dst64[7] = c2; } dst16 = (uint16_t *)dst16_end; dst16_end = (uint16_t *)(t->pixels + t->bytes); for (; dst16 < dst16_end; dst16++) *dst16 = c1; } static inline void _ewk_tile_paint(Ewk_Tile *t, uint8_t r, uint8_t g, uint8_t b) { if (t->cspace == EVAS_COLORSPACE_ARGB8888) _ewk_tile_paint_rgb888(t, r, g, b); else if (t->cspace == EVAS_COLORSPACE_RGB565_A5P) _ewk_tile_paint_rgb565(t, r, g, b); else ERR("unknown color space: %d", t->cspace); } /** * Create a new tile of given size, zoom level and colorspace. * * After created these properties are immutable as they're the basic * characteristic of the tile and any change will lead to invalid * memory access. * * Other members are of free-access and no getters/setters are * provided in orderr to avoid expensive operations on those, however * some are better manipulated with provided functions, such as * ewk_tile_show() and ewk_tile_hide() to change * @c visible or ewk_tile_update_full(), ewk_tile_update_area(), * ewk_tile_updates_clear() to change @c stats.misses, * @c stats.full_update and @c updates. */ Ewk_Tile *ewk_tile_new(Evas *evas, Evas_Coord w, Evas_Coord h, float zoom, Evas_Colorspace cspace) { Eina_Inlist *l; Evas_Coord *ec; Evas_Colorspace *ecs; float *f; size_t *s; Ewk_Tile *t; unsigned int area; size_t bytes; cairo_format_t format; cairo_status_t status; int stride; area = w * h; if (cspace == EVAS_COLORSPACE_ARGB8888) { bytes = area * 4; stride = w * 4; format = CAIRO_FORMAT_RGB24; } else if (cspace == EVAS_COLORSPACE_RGB565_A5P) { bytes = area * 2; stride = w * 2; format = CAIRO_FORMAT_RGB16_565; } else { ERR("unknown color space: %d", cspace); return NULL; } DBG("size: %dx%d (%d), zoom: %f, cspace=%d", w, h, area, (double)zoom, cspace); MALLOC_OR_OOM_RET(t, sizeof(Ewk_Tile), NULL); t->image = evas_object_image_add(evas); l = EINA_INLIST_GET(t); l->prev = NULL; l->next = NULL; t->visible = 0; t->updates = NULL; memset(&t->stats, 0, sizeof(Ewk_Tile_Stats)); t->stats.area = area; /* ugly, but let's avoid at all costs having users to modify those */ ec = (Evas_Coord *)&t->w; *ec = w; ec = (Evas_Coord *)&t->h; *ec = h; ecs = (Evas_Colorspace *)&t->cspace; *ecs = cspace; f = (float *)&t->zoom; *f = zoom; s = (size_t *)&t->bytes; *s = bytes; evas_object_image_size_set(t->image, t->w, t->h); evas_object_image_colorspace_set(t->image, t->cspace); t->pixels = evas_object_image_data_get(t->image, EINA_TRUE); t->surface = cairo_image_surface_create_for_data (t->pixels, format, w, h, stride); status = cairo_surface_status(t->surface); if (status != CAIRO_STATUS_SUCCESS) { ERR("failed to create cairo surface: %s", cairo_status_to_string(status)); free(t); return NULL; } t->cairo = cairo_create(t->surface); status = cairo_status(t->cairo); if (status != CAIRO_STATUS_SUCCESS) { ERR("failed to create cairo: %s", cairo_status_to_string(status)); cairo_surface_destroy(t->surface); evas_object_del(t->image); free(t); return NULL; } _ewk_tile_account_allocated(t); return t; } /** * Free tile memory. */ void ewk_tile_free(Ewk_Tile *t) { _ewk_tile_account_freed(t); if (t->updates) eina_tiler_free(t->updates); cairo_surface_destroy(t->surface); cairo_destroy(t->cairo); evas_object_del(t->image); free(t); } /** * Make the tile visible, incrementing its counter. */ void ewk_tile_show(Ewk_Tile *t) { t->visible++; evas_object_show(t->image); } /** * Decrement the visibility counter, making it invisible if necessary. */ void ewk_tile_hide(Ewk_Tile *t) { t->visible--; if (!t->visible) evas_object_hide(t->image); } /** * Returns EINA_TRUE if the tile is visible, EINA_FALSE otherwise. */ Eina_Bool ewk_tile_visible_get(Ewk_Tile *t) { return !!t->visible; } /** * Mark whole tile as dirty and requiring update. */ void ewk_tile_update_full(Ewk_Tile *t) { /* TODO: list of tiles pending updates? */ t->stats.misses++; if (!t->stats.full_update) { t->stats.full_update = EINA_TRUE; if (t->updates) { eina_tiler_free(t->updates); t->updates = NULL; } } } /** * Mark the specific subarea as dirty and requiring update. */ void ewk_tile_update_area(Ewk_Tile *t, const Eina_Rectangle *r) { /* TODO: list of tiles pending updates? */ t->stats.misses++; if (t->stats.full_update) return; if (!r->x && !r->y && r->w == t->w && r->h == t->h) { t->stats.full_update = EINA_TRUE; if (t->updates) { eina_tiler_free(t->updates); t->updates = NULL; } return; } if (!t->updates) { t->updates = eina_tiler_new(t->w, t->h); if (!t->updates) { CRITICAL("could not create eina_tiler %dx%d.", t->w, t->h); return; } } eina_tiler_rect_add(t->updates, r); } /** * For each updated region, call the given function. * * This will not change the tile statistics or clear the processed * updates, use ewk_tile_updates_clear() for that. */ void ewk_tile_updates_process(Ewk_Tile *t, void (*cb)(void *data, Ewk_Tile *t, const Eina_Rectangle *update), const void *data) { if (t->stats.full_update) { Eina_Rectangle r; r.x = 0; r.y = 0; r.w = t->w; r.h = t->h; #ifdef TILE_STATS_ACCOUNT_RENDER_TIME struct timeval timev; double render_start; gettimeofday(&timev, NULL); render_start = (double)timev.tv_sec + (((double)timev.tv_usec) / 1000000); #endif cb((void *)data, t, &r); #ifdef TILE_STATS_ACCOUNT_RENDER_TIME gettimeofday(&timev, NULL); t->stats.render_time = (double)timev.tv_sec + (((double)timev.tv_usec) / 1000000) - render_start; #endif } else if (t->updates) { Eina_Iterator *itr = eina_tiler_iterator_new(t->updates); Eina_Rectangle *r; if (!itr) { CRITICAL("could not create tiler iterator!"); return; } EINA_ITERATOR_FOREACH(itr, r) cb((void *)data, t, r); eina_iterator_free(itr); } } /** * Clear all updates in region, if any. * * This will change the tile statistics, specially zero stat.misses * and unset stats.full_update. If t->updates existed, then it will be * destroyed. * * This function is usually called after ewk_tile_updates_process() is * called. */ void ewk_tile_updates_clear(Ewk_Tile *t) { /* TODO: remove from list of pending updates? */ t->stats.misses = 0; if (t->stats.full_update) t->stats.full_update = 0; else if (t->updates) { eina_tiler_free(t->updates); t->updates = NULL; } } typedef struct _Ewk_Tile_Unused_Cache_Entry Ewk_Tile_Unused_Cache_Entry; struct _Ewk_Tile_Unused_Cache_Entry { Ewk_Tile *tile; int weight; struct { void (*cb)(void *data, Ewk_Tile *t); void *data; } tile_free; }; struct _Ewk_Tile_Unused_Cache { struct { Eina_List *list; size_t count; size_t allocated; } entries; struct { size_t max; /**< watermark (in bytes) to start freeing tiles */ size_t used; /**< in bytes, maybe more than max. */ } memory; struct { Evas_Coord x, y, w, h; float zoom; Eina_Bool locked; } locked; int references; unsigned int frozen; Eina_Bool dirty:1; }; static const size_t TILE_UNUSED_CACHE_ALLOCATE_INITIAL = 128; static const size_t TILE_UNUSED_CACHE_ALLOCATE_STEP = 16; static const size_t TILE_UNUSED_CACHE_MAX_FREE = 32; /** * Cache of unused tiles (those that are not visible). * * The cache of unused tiles. * * @param max cache size in bytes. * * @return newly allocated cache of unused tiles, use * ewk_tile_unused_cache_free() to release resources. If not * possible to allocate memory, @c NULL is returned. */ Ewk_Tile_Unused_Cache *ewk_tile_unused_cache_new(size_t max) { Ewk_Tile_Unused_Cache *tuc; CALLOC_OR_OOM_RET(tuc, sizeof(Ewk_Tile_Unused_Cache), NULL); DBG("tuc=%p", tuc); tuc->memory.max = max; tuc->references = 1; return tuc; } void ewk_tile_unused_cache_lock_area(Ewk_Tile_Unused_Cache *tuc, Evas_Coord x, Evas_Coord y, Evas_Coord w, Evas_Coord h, float zoom) { EINA_SAFETY_ON_NULL_RETURN(tuc); tuc->locked.locked = EINA_TRUE; tuc->locked.x = x; tuc->locked.y = y; tuc->locked.w = w; tuc->locked.h = h; tuc->locked.zoom = zoom; } void ewk_tile_unused_cache_unlock_area(Ewk_Tile_Unused_Cache *tuc) { EINA_SAFETY_ON_NULL_RETURN(tuc); tuc->locked.locked = EINA_FALSE; } /** * Free cache of unused tiles. * * Those tiles that are still visible will remain live. The unused * tiles will be freed. * * @see ewk_tile_unused_cache_unref() */ void ewk_tile_unused_cache_free(Ewk_Tile_Unused_Cache *tuc) { EINA_SAFETY_ON_NULL_RETURN(tuc); DBG("tuc=%p, " "entries=(count:%zd, allocated:%zd), " "memory=(max:%zd, used:%zd)", tuc, tuc->entries.count, tuc->entries.allocated, tuc->memory.max, tuc->memory.used); ewk_tile_unused_cache_clear(tuc); free(tuc); } /** * Clear cache of unused tiles. * * Any tiles that are in the cache are freed. The only tiles that are * kept are those that aren't in the cache (i.e. that are visible). */ void ewk_tile_unused_cache_clear(Ewk_Tile_Unused_Cache *tuc) { Ewk_Tile_Unused_Cache_Entry *itr; EINA_SAFETY_ON_NULL_RETURN(tuc); if (!tuc->entries.count) return; EINA_LIST_FREE(tuc->entries.list, itr) { itr->tile_free.cb(itr->tile_free.data, itr->tile); free(itr); } tuc->memory.used = 0; tuc->entries.count = 0; tuc->dirty = EINA_FALSE; } /** * Hold reference to cache. * * @return same pointer as taken. * * @see ewk_tile_unused_cache_unref() */ Ewk_Tile_Unused_Cache *ewk_tile_unused_cache_ref(Ewk_Tile_Unused_Cache *tuc) { EINA_SAFETY_ON_NULL_RETURN_VAL(tuc, NULL); tuc->references++; return tuc; } /** * Release cache reference, freeing it if it drops to zero. * * @see ewk_tile_unused_cache_ref() * @see ewk_tile_unused_cache_free() */ void ewk_tile_unused_cache_unref(Ewk_Tile_Unused_Cache *tuc) { EINA_SAFETY_ON_NULL_RETURN(tuc); tuc->references--; if (!tuc->references) ewk_tile_unused_cache_free(tuc); } /** * Change cache capacity, in bytes. * * This will not flush cache, use ewk_tile_unused_cache_flush() or * ewk_tile_unused_cache_auto_flush() to do so. */ void ewk_tile_unused_cache_max_set(Ewk_Tile_Unused_Cache *tuc, size_t max) { EINA_SAFETY_ON_NULL_RETURN(tuc); tuc->memory.max = max; } /** * Retrieve maximum cache capacity, in bytes. */ size_t ewk_tile_unused_cache_max_get(const Ewk_Tile_Unused_Cache *tuc) { EINA_SAFETY_ON_NULL_RETURN_VAL(tuc, 0); return tuc->memory.max; } /** * Retrieve the used cache capacity, in bytes. */ size_t ewk_tile_unused_cache_used_get(const Ewk_Tile_Unused_Cache *tuc) { EINA_SAFETY_ON_NULL_RETURN_VAL(tuc, 0); return tuc->memory.used; } /** * Flush given amount of bytes from cache. * * After calling this function, near @a bytes are freed from cache. It * may be less if cache did not contain that amount of bytes (ie: an * empty cache has nothing to free!) or more if the cache just * contained objects that were larger than the requested amount (this * is usually the case). * * @param tuc cache of unused tiles. * @param bytes amount to free. * * @return amount really freed. * * @see ewk_tile_unused_cache_used_get() */ size_t ewk_tile_unused_cache_flush(Ewk_Tile_Unused_Cache *tuc, size_t bytes) { Ewk_Tile_Unused_Cache_Entry *itr; Eina_List *l, *l_next; EINA_SAFETY_ON_NULL_RETURN_VAL(tuc, 0); size_t done; unsigned int count; if (!tuc->entries.count) return 0; if (bytes < 1) return 0; /* * NOTE: the cache is a FIFO queue currently. * Don't need to sort any more. */ if (tuc->dirty) tuc->dirty = EINA_FALSE; done = 0; count = 0; EINA_LIST_FOREACH_SAFE(tuc->entries.list, l, l_next, itr) { Ewk_Tile *t = itr->tile; if (done > bytes) break; if (tuc->locked.locked && t->x + t->w > tuc->locked.x && t->y + t->h > tuc->locked.y && t->x < tuc->locked.x + tuc->locked.w && t->y < tuc->locked.y + tuc->locked.h && t->zoom == tuc->locked.zoom) { continue; } done += sizeof(Ewk_Tile) + itr->tile->bytes; itr->tile_free.cb(itr->tile_free.data, itr->tile); tuc->entries.list = eina_list_remove_list(tuc->entries.list, l); free(itr); count++; } tuc->memory.used -= done; tuc->entries.count -= count; return done; } /** * Flush enough bytes to make cache usage lower than maximum. * * Just like ewk_tile_unused_cache_flush(), but this will make the cache * free enough tiles to respect maximum cache size as defined with * ewk_tile_unused_cache_max_set(). * * This function is usually called when system becomes idle. This way * we keep memory low but do not impact performance when * creating/deleting tiles. */ void ewk_tile_unused_cache_auto_flush(Ewk_Tile_Unused_Cache *tuc) { EINA_SAFETY_ON_NULL_RETURN(tuc); if (tuc->memory.used <= tuc->memory.max) return; ewk_tile_unused_cache_flush(tuc, tuc->memory.used - tuc->memory.max); if (tuc->memory.used > tuc->memory.max) CRITICAL("Cache still using too much memory: %zd KB; max: %zd KB", tuc->memory.used, tuc->memory.max); } /** * Flag cache as dirty. * * If cache is dirty then next flush operations will have to recompute * weight and sort again to find the best tiles to expire. * * One must call this function when tile properties that may change * likeness of tile to be flushed change, like Tile::stats. */ void ewk_tile_unused_cache_dirty(Ewk_Tile_Unused_Cache *tuc) { tuc->dirty = EINA_TRUE; } /** * Freeze cache to not do maintenance tasks. * * Maintenance tasks optimize cache usage, but maybe we know we should * hold on them until we do the last operation, in this case we freeze * while operating and then thaw when we're done. * * @see ewk_tile_unused_cache_thaw() */ void ewk_tile_unused_cache_freeze(Ewk_Tile_Unused_Cache *tuc) { tuc->frozen++; } /** * Unfreezes maintenance tasks. * * If this is the last counterpart of freeze, then maintenance tasks * will run immediately. */ void ewk_tile_unused_cache_thaw(Ewk_Tile_Unused_Cache *tuc) { if (!tuc->frozen) { ERR("thawing more than freezing!"); return; } tuc->frozen--; } /** * Get tile from cache of unused tiles, removing it from the cache. * * If the tile is used, then it's not in cache of unused tiles, so it * is removed from the cache and may be given back with * ewk_tile_unused_cache_tile_put(). * * @param tuc cache of unused tiles * @param t the tile to be removed from Ewk_Tile_Unused_Cache. * * @return #EINA_TRUE on success, #EINA_FALSE otherwise. */ Eina_Bool ewk_tile_unused_cache_tile_get(Ewk_Tile_Unused_Cache *tuc, Ewk_Tile *t) { Ewk_Tile_Unused_Cache_Entry *entry; Eina_List *e, *l; e = NULL; EINA_LIST_FOREACH(tuc->entries.list, l, entry) { if (entry->tile == t) { e = l; break; } } if (!e) { ERR("tile %p not found in cache %p", t, tuc); return EINA_FALSE; } tuc->entries.count--; tuc->memory.used -= sizeof(Ewk_Tile) + t->bytes; tuc->entries.list = eina_list_remove_list(tuc->entries.list, e); free(entry); // TODO assume dirty for now, but may it's not, // if the item was at the beginning of the queue tuc->dirty = EINA_TRUE; return EINA_TRUE; } /** * Put tile into cache of unused tiles, adding it to the cache. * * This should be called when @c t->visible is @c 0 and no objects are * using the tile anymore, making it available to be expired and have * its memory replaced. * * Note that tiles are not automatically deleted if cache is full, * instead the cache will have more bytes used than maximum and one * can call ewk_tile_unused_cache_auto_flush() to free them. This is done * because usually we want a lazy operation for better performance. * * @param tuc cache of unused tiles * @param t tile to be added to cache. * @param tile_free_cb function used to free tiles. * @param data context to give back to @a tile_free_cb as first argument. * * @return #EINA_TRUE on success, #EINA_FALSE otherwise. If @c t->visible * is not #EINA_FALSE, then it will return #EINA_FALSE. * * @see ewk_tile_unused_cache_auto_flush() */ Eina_Bool ewk_tile_unused_cache_tile_put(Ewk_Tile_Unused_Cache *tuc, Ewk_Tile *t, void (*tile_free_cb)(void *data, Ewk_Tile *t), const void *data) { Ewk_Tile_Unused_Cache_Entry *e; if (t->visible) { ERR("tile=%p is not unused (visible=%d)", t, t->visible); return EINA_FALSE; } MALLOC_OR_OOM_RET(e, sizeof(Ewk_Tile_Unused_Cache_Entry), EINA_FALSE); tuc->entries.list = eina_list_append(tuc->entries.list, e); if (eina_error_get()) { ERR("List allocation failed"); return EINA_FALSE; } e->tile = t; e->weight = 0; /* calculated just before sort */ e->tile_free.cb = tile_free_cb; e->tile_free.data = (void *)data; tuc->entries.count++; tuc->memory.used += sizeof(Ewk_Tile) + t->bytes; tuc->dirty = EINA_TRUE; return EINA_TRUE; } void ewk_tile_unused_cache_dbg(const Ewk_Tile_Unused_Cache *tuc) { Ewk_Tile_Unused_Cache_Entry *itr; Eina_List *l; int count = 0; printf("Cache of unused tiles: entries: %zu/%zu, memory: %zu/%zu\n", tuc->entries.count, tuc->entries.allocated, tuc->memory.used, tuc->memory.max); EINA_LIST_FOREACH(tuc->entries.list, l, itr) { const Ewk_Tile *t = itr->tile; printf(" [%3lu,%3lu + %dx%d @ %0.3f]%c", t->col, t->row, t->w, t->h, t->zoom, t->visible ? '*': ' '); if (!(count % 4)) printf("\n"); } printf("\n"); }