#include "private/textures.h" #include "config.h" #include "util.h" #include "textures.h" #include #include #include #include #include #include #include #include #include static SDL_Surface *image_to_surface(const char *path) { SDL_RWops *handle = PHYSFSRWOPS_openRead(path); if (handle == NULL) goto fail; SDL_Surface *result = IMG_Load_RW(handle, true); if (result == NULL) goto fail; SDL_SetSurfaceBlendMode(result, SDL_BLENDMODE_NONE); SDL_SetSurfaceRLE(result, true); return result; fail: CRY(path, "Failed to load image. Aborting..."); die_abruptly(); } static GLuint new_gl_texture(void) { GLuint texture; glGenTextures(1, &texture); glBindTexture(GL_TEXTURE_2D, texture); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST); glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_REPEAT); glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT); glTexParameteri(GL_TEXTURE_2D, GL_GENERATE_MIPMAP, GL_TRUE); glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE); glBindTexture(GL_TEXTURE_2D, 0); return texture; } /* adds a new, blank atlas surface to the cache */ static void add_new_atlas(struct texture_cache *cache) { SDL_PixelFormat *native_format = SDL_AllocFormat(SDL_GetWindowPixelFormat(cache->window)); /* the window format won't have an alpha channel, so we figure this out */ #if SDL_BYTEORDER == SDL_BIG_ENDIAN uint32_t a_mask = 0x000000FF; #else uint32_t a_mask = 0xFF000000; #endif SDL_Surface *new_atlas = SDL_CreateRGBSurface(0, TEXTURE_ATLAS_SIZE, TEXTURE_ATLAS_SIZE, TEXTURE_ATLAS_BIT_DEPTH, native_format->Rmask, native_format->Gmask, native_format->Bmask, a_mask); SDL_FreeFormat(native_format); SDL_SetSurfaceBlendMode(new_atlas, SDL_BLENDMODE_NONE); SDL_SetSurfaceRLE(new_atlas, true); arrput(cache->atlas_surfaces, new_atlas); arrput(cache->atlas_textures, new_gl_texture()); } static void upload_texture_from_surface(GLuint texture, SDL_Surface *surface) { Uint32 rmask, gmask, bmask, amask; glBindTexture(GL_TEXTURE_2D, texture); // glPixelStorei(GL_PACK_ALIGNMENT, 1); #if SDL_BYTEORDER == SDL_BIG_ENDIAN rmask = 0xff000000; gmask = 0x00ff0000; bmask = 0x0000ff00; amask = 0x000000ff; #else rmask = 0x000000ff; gmask = 0x0000ff00; bmask = 0x00ff0000; amask = 0xff000000; #endif /* TODO: don't do it if format is compatible */ SDL_Surface* intermediate = SDL_CreateRGBSurface(0, surface->w, surface->h, 32, rmask, gmask, bmask, amask); SDL_BlitSurface(surface, NULL, intermediate, NULL); SDL_LockSurface(intermediate); glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA8, surface->w, surface->h, 0, GL_RGBA, GL_UNSIGNED_BYTE, intermediate->pixels); SDL_UnlockSurface(intermediate); SDL_FreeSurface(intermediate); glBindTexture(GL_TEXTURE_2D, 0); } static void recreate_current_atlas_texture(struct texture_cache *cache) { /* TODO: figure out if SDL_UpdateTexture alone is faster than blitting */ /* TODO: should surfaces be freed after they cannot be referenced in atlas builing? */ SDL_Surface *atlas_surface = cache->atlas_surfaces[cache->atlas_index]; /* clear */ SDL_FillRect(atlas_surface, NULL, 0); /* blit the texture surfaces onto the atlas */ for (size_t i = 0; i < shlenu(cache->hash); ++i) { /* skip all that aren't part of currently built one */ if (cache->hash[i].value.atlas_index != cache->atlas_index) continue; /* skip loners */ if (cache->hash[i].value.loner_texture != 0) continue; SDL_BlitSurface(cache->hash[i].value.data, NULL, atlas_surface, &(SDL_Rect){ .x = cache->hash[i].value.srcrect.x, .y = cache->hash[i].value.srcrect.y, .w = cache->hash[i].value.srcrect.w, .h = cache->hash[i].value.srcrect.h, }); } /* texturize it! */ upload_texture_from_surface(cache->atlas_textures[cache->atlas_index], atlas_surface); } /* uses the textures currently in the cache to create an array of stbrp_rects */ static stbrp_rect *create_rects_from_cache(struct texture_cache *cache) { stbrp_rect *rects = NULL; for (size_t i = 0; i < shlenu(cache->hash); ++i) { if (cache->hash[i].value.loner_texture != 0) continue; const SDL_Surface *surface_data = cache->hash[i].value.data; stbrp_rect new_rect = { .w = surface_data->w, .h = surface_data->h, }; arrput(rects, new_rect); } return rects; } /* returns an array which contains a _copy_ of every unpacked rect in rects. */ /* each of these copies will have their original index in rects saved in */ /* their `id` field, which is an int. */ static stbrp_rect *filter_unpacked_rects(stbrp_rect *rects) { stbrp_rect *unpacked_rects = NULL; for (size_t i = 0; i < arrlenu(rects); ++i) { /* already packed */ if (rects[i].was_packed) continue; arrput(unpacked_rects, rects[i]); /* stb_rect_pack mercifully gives you a free userdata int */ /* the index is saved there so the original array can be updated later */ unpacked_rects[arrlenu(unpacked_rects)-1].id = (int)i; } return unpacked_rects; } /* updates the original rects array with the data from packed_rects */ /* returns true if all rects were packed successfully */ static bool update_rects(struct texture_cache *cache, stbrp_rect *rects, stbrp_rect *packed_rects) { /* !!! do not grow either of the arrays !!! */ /* the reallocation will try to reassign the array pointer, to no effect. */ /* see stb_ds.h */ bool packed_all = true; for (size_t i = 0; i < arrlenu(packed_rects); ++i) { /* we can check if any rects failed to be packed right here */ /* it's not ideal, but it avoids another iteration */ if (!packed_rects[i].was_packed) { packed_all = false; continue; } rects[packed_rects[i].id] = packed_rects[i]; /* while the order of the elements in the hash map is unknown to us, */ /* their equivalents in `rects` are in that same (unknown) order, which means */ /* we can use the index we had saved to find the original texture struct */ cache->hash[packed_rects[i].id].value.atlas_index = cache->atlas_index; } return packed_all; } /* updates the atlas location of every rect in the cache */ static void update_texture_rects_in_atlas(struct texture_cache *cache, stbrp_rect *rects) { for (size_t i = 0; i < arrlenu(rects); ++i) { cache->hash[i].value.srcrect = (t_rect) { .x = rects[i].x, .y = rects[i].y, .w = rects[i].w, .h = rects[i].h, }; } } void textures_cache_init(struct texture_cache *cache, SDL_Window *window) { cache->window = window; sh_new_arena(cache->hash); cache->node_buffer = cmalloc(sizeof *cache->node_buffer * TEXTURE_ATLAS_SIZE); add_new_atlas(cache); recreate_current_atlas_texture(cache); } void textures_cache_deinit(struct texture_cache *cache) { /* free atlas textures */ for (size_t i = 0; i < arrlenu(cache->atlas_textures); ++i) { glDeleteTextures(1, &cache->atlas_textures[i]); } arrfree(cache->atlas_textures); /* free atlas surfaces */ for (size_t i = 0; i < arrlenu(cache->atlas_surfaces); ++i) { SDL_FreeSurface(cache->atlas_surfaces[i]); } arrfree(cache->atlas_surfaces); /* free cache hashes */ for (size_t i = 0; i < shlenu(cache->hash); ++i) { SDL_FreeSurface(cache->hash[i].value.data); } shfree(cache->hash); free(cache->node_buffer); } void textures_dump_atlases(struct texture_cache *cache) { PHYSFS_mkdir("/dump"); const char string_template[] = "/dump/atlas%zd.png"; char buf[2048]; /* larger than will ever be necessary */ size_t i = 0; for (; i < arrlenu(cache->atlas_surfaces); ++i) { snprintf(buf, sizeof buf, string_template, i); SDL_RWops *handle = PHYSFSRWOPS_openWrite(buf); if (handle == NULL) { CRY("Texture atlas dump failed.", "File could not be opened"); return; } IMG_SavePNG_RW(cache->atlas_surfaces[i], handle, true); log_info("Dumped atlas %s", buf); } } static enum texture_mode infer_texture_mode(SDL_Surface *surface) { const uint32_t amask = surface->format->Amask; if (amask == 0) return TEXTURE_MODE_OPAQUE; enum texture_mode result = TEXTURE_MODE_OPAQUE; SDL_LockSurface(surface); for (int i = 0; i < surface->w * surface->h; ++i) { /* TODO: don't assume 32 bit depth ? */ t_color color; SDL_GetRGBA(((uint32_t *)surface->pixels)[i], surface->format, &color.r, &color.g, &color.b, &color.a); if (color.a == 0) result = TEXTURE_MODE_SEETHROUGH; else if (color.a != 255) { result = TEXTURE_MODE_GHOSTLY; break; } } SDL_UnlockSurface(surface); return result; } static t_texture_key textures_load(struct texture_cache *cache, const char *path) { /* no need to do anything if it was loaded already */ const ptrdiff_t i = shgeti(cache->hash, path); if (i >= 0) return (t_texture_key){ (uint16_t)i }; SDL_Surface *surface = image_to_surface(path); struct texture new_texture = { .data = surface, .mode = infer_texture_mode(surface), }; /* it's a "loner texture," it doesn't fit in an atlas so it's not in one */ if (surface->w >= TEXTURE_ATLAS_SIZE || surface->h >= TEXTURE_ATLAS_SIZE) { new_texture.loner_texture = new_gl_texture(); upload_texture_from_surface(new_texture.loner_texture, surface); new_texture.srcrect = (t_rect) { .w = surface->w, .h = surface->h }; shput(cache->hash, path, new_texture); return (t_texture_key){ (uint16_t)shgeti(cache->hash, path) }; } else { new_texture.atlas_index = cache->atlas_index; shput(cache->hash, path, new_texture); cache->is_dirty = true; return (t_texture_key){ (uint16_t)shgeti(cache->hash, path) }; } } void textures_update_atlas(struct texture_cache *cache) { if (!cache->is_dirty) return; /* this function makes a lot more sense if you read stb_rect_pack.h */ stbrp_context pack_ctx; /* target info */ stbrp_init_target(&pack_ctx, TEXTURE_ATLAS_SIZE, TEXTURE_ATLAS_SIZE, cache->node_buffer, TEXTURE_ATLAS_SIZE); stbrp_rect *rects = create_rects_from_cache(cache); /* we have to keep packing, and creating atlases if necessary, */ /* until all rects have been packed. */ /* ideally, this will not iterate more than once. */ bool textures_remaining = true; while (textures_remaining) { stbrp_rect *rects_to_pack = filter_unpacked_rects(rects); stbrp_pack_rects(&pack_ctx, rects_to_pack, (int)arrlen(rects_to_pack)); textures_remaining = !update_rects(cache, rects, rects_to_pack); arrfree(rects_to_pack); /* got what we needed */ /* some textures couldn't be packed */ if (textures_remaining) { update_texture_rects_in_atlas(cache, rects); recreate_current_atlas_texture(cache); /* need a new atlas for next time */ add_new_atlas(cache); ++cache->atlas_index; } }; update_texture_rects_in_atlas(cache, rects); recreate_current_atlas_texture(cache); cache->is_dirty = false; arrfree(rects); } /* EXPERIMANTAL: LIKELY TO BE REMOVED! */ #ifdef __linux__ /* use rodata elf section for fast lookups of repeating textures */ #include "system/linux/elf.h" static const char *rodata_start; static const char *rodata_stop; t_texture_key textures_get_key(struct texture_cache *cache, const char *path) { static const char *last_path = NULL; static t_texture_key last_texture; static struct ptr_to_texture { const void *key; t_texture_key value; } *ptr_to_texture; if (rodata_stop == NULL) if (!infer_elf_section_bounds(".rodata", &rodata_start, &rodata_stop)) CRY("Section inference", ".rodata section lookup failed"); /* the fastest path */ if (path == last_path) return last_texture; else { /* moderately fast path, by pointer hashing */ const ptrdiff_t texture = hmgeti(ptr_to_texture, path); if (texture != -1) { if (path >= rodata_start && path < rodata_stop) last_path = path; last_texture = ptr_to_texture[texture].value; return last_texture; } } /* try loading */ last_texture = textures_load(cache, path); hmput(ptr_to_texture, path, last_texture); if (path >= rodata_start && path < rodata_stop) last_path = path; return last_texture; } #else t_texture_key textures_get_key(struct texture_cache *cache, const char *path) { /* hash tables are assumed to be stable, so we just return indices */ const ptrdiff_t texture = shgeti(cache->hash, path); /* load it if it isn't */ if (texture == -1) { return textures_load(cache, path); } else return (t_texture_key){ (uint16_t)texture }; } #endif /* generic implementation of textures_get_key() */ int32_t textures_get_atlas_id(const struct texture_cache *cache, t_texture_key key) { if (m_texture_key_is_valid(key)) { if (cache->hash[key.id].value.loner_texture != 0) return -cache->hash[key.id].value.loner_texture; else return cache->hash[key.id].value.atlas_index; } else { CRY("Texture lookup failed.", "Tried to get atlas id that isn't loaded."); return 0; } } t_rect textures_get_srcrect(const struct texture_cache *cache, t_texture_key key) { if (m_texture_key_is_valid(key)) { return cache->hash[key.id].value.srcrect; } else { CRY("Texture lookup failed.", "Tried to get texture that isn't loaded."); return (t_rect){ 0, 0, 0, 0 }; } } t_rect textures_get_dims(const struct texture_cache *cache, t_texture_key key) { if (m_texture_key_is_valid(key)) { if (cache->hash[key.id].value.loner_texture != 0) return cache->hash[key.id].value.srcrect; else return (t_rect){ .w = TEXTURE_ATLAS_SIZE, .h = TEXTURE_ATLAS_SIZE }; } else { CRY("Texture lookup failed.", "Tried to get texture that isn't loaded."); return (t_rect){ 0, 0, 0, 0 }; } } void textures_bind(const struct texture_cache *cache, t_texture_key key, GLenum target) { if (m_texture_key_is_valid(key)) { if (cache->hash[key.id].value.loner_texture == 0) glBindTexture(target, cache->atlas_textures[cache->hash[key.id].value.atlas_index]); else glBindTexture(target, cache->hash[key.id].value.loner_texture); } else if (key.id == 0) { CRY("Texture binding failed.", "Tried to get texture that isn't loaded."); } } enum texture_mode textures_get_mode(const struct texture_cache *cache, t_texture_key key) { if (m_texture_key_is_valid(key)) { return cache->hash[key.id].value.mode; } else { CRY("Texture binding failed.", "Tried to get texture that isn't loaded."); return TEXTURE_MODE_GHOSTLY; } } size_t textures_get_num_atlases(const struct texture_cache *cache) { return cache->atlas_index + 1; }