#include #include #include #include #include #include #include "evas_common.h" /* Also includes international specific stuff */ #include "evas_engine.h" int _evas_engine_soft_sdl_log_dom = -1; /* #define DEBUG_SDL */ static Evas_Func func, pfunc; static void* _sdl_output_setup (int w, int h, int fullscreen, int noframe, int alpha, int hwsurface); static Engine_Image_Entry *_sdl_image_alloc (void); static void _sdl_image_delete (Engine_Image_Entry *eim); static int _sdl_image_constructor (Engine_Image_Entry*, void* data); static void _sdl_image_destructor (Engine_Image_Entry *eim); static void _sdl_image_dirty_region(Engine_Image_Entry *eim, unsigned int x, unsigned int y, unsigned int w, unsigned int h); static int _sdl_image_dirty (Engine_Image_Entry *dst, const Engine_Image_Entry *src); static int _sdl_image_size_set (Engine_Image_Entry *dst, const Engine_Image_Entry *src); static int _sdl_image_update_data (Engine_Image_Entry* dst, void* engine_data); static void _sdl_image_load (Engine_Image_Entry *eim, const Image_Entry* im); static int _sdl_image_mem_size_get(Engine_Image_Entry *eim); #ifdef DEBUG_SDL static void _sdl_image_debug (const char* context, Engine_Image_Entry* im); #endif static const Evas_Cache_Engine_Image_Func _sdl_cache_engine_image_cb = { NULL /* key */, _sdl_image_alloc /* alloc */, _sdl_image_delete /* dealloc */, _sdl_image_constructor /* constructor */, _sdl_image_destructor /* destructor */, _sdl_image_dirty_region /* dirty_region */, _sdl_image_dirty /* dirty */, _sdl_image_size_set /* size_set */, _sdl_image_update_data /* update_data */, _sdl_image_load /* load */, _sdl_image_mem_size_get /* mem_size_get */, #ifdef DEBUG_SDL /* debug */ _sdl_image_debug #else NULL #endif }; #define _SDL_UPDATE_PIXELS(EIM) \ ((RGBA_Image *) EIM->cache_entry.src)->image.data = EIM->surface->pixels; #define RMASK 0x00ff0000 #define GMASK 0x0000ff00 #define BMASK 0x000000ff #define AMASK 0xff000000 /* SDL engine info function */ static void* evas_engine_sdl_info (Evas* e __UNUSED__) { Evas_Engine_Info_SDL* info; info = calloc(1, sizeof (Evas_Engine_Info_SDL)); if (!info) return NULL; info->magic.magic = rand(); return info; } static void evas_engine_sdl_info_free (Evas* e __UNUSED__, void* info) { Evas_Engine_Info_SDL* in; in = (Evas_Engine_Info_SDL*) info; free(in); in = NULL; } /* SDL engine output manipulation function */ static int evas_engine_sdl_setup (Evas* e, void* in) { Evas_Engine_Info_SDL* info = (Evas_Engine_Info_SDL*) in; /* if we arent set to sdl, why the hell do we get called?! */ if (evas_output_method_get(e) != evas_render_method_lookup("software_sdl")) return 0; SDL_Init(SDL_INIT_NOPARACHUTE); if (SDL_InitSubSystem(SDL_INIT_VIDEO) < 0) { ERR("SDL_Init failed with %s", SDL_GetError()); SDL_Quit(); return 0; } /* lets just set up */ e->engine.data.output = _sdl_output_setup(e->output.w, e->output.h, info->info.fullscreen, info->info.noframe, info->info.alpha, info->info.hwsurface); if (!e->engine.data.output) return 0; e->engine.func = &func; e->engine.data.context = e->engine.func->context_new(e->engine.data.output); return 1; } static void evas_engine_sdl_output_free (void *data) { Render_Engine* re = data; if (re->cache) evas_cache_engine_image_shutdown(re->cache); evas_common_tilebuf_free(re->tb); if (re->rects) evas_common_tilebuf_free_render_rects(re->rects); if (re->update_rects) free(re->update_rects); free(re); evas_common_font_shutdown(); evas_common_image_shutdown(); SDL_QuitSubSystem(SDL_INIT_VIDEO); } static void evas_engine_sdl_output_resize (void *data, int w, int h) { /* FIXME */ Render_Engine *re = data; SDL_Surface *surface; if (w == re->tb->outbuf_w && h == re->tb->outbuf_h) return; /* Destroy the current screen */ evas_cache_engine_image_drop(&re->rgba_engine_image->cache_entry); /* Rebuil tilebuf */ evas_common_tilebuf_free(re->tb); re->tb = evas_common_tilebuf_new(w, h); if (re->tb) evas_common_tilebuf_set_tile_size(re->tb, TILESIZE, TILESIZE); /* Build the new screen */ surface = SDL_SetVideoMode(w, h, 32, (re->flags.hwsurface ? SDL_HWSURFACE : SDL_SWSURFACE) | (re->flags.fullscreen ? SDL_FULLSCREEN : 0) | (re->flags.noframe ? SDL_NOFRAME : 0) | (re->flags.alpha ? SDL_SRCALPHA : 0)); if (!surface) { ERR("Unable to change the resolution to : %ix%i", w, h); exit(-1); } re->rgba_engine_image = (SDL_Engine_Image_Entry *) evas_cache_engine_image_engine(re->cache, surface); if (!re->rgba_engine_image) { ERR("RGBA_Image allocation from SDL failed"); exit(-1); } SDL_FillRect(surface, NULL, 0); } static void evas_engine_sdl_output_tile_size_set (void *data, int w, int h) { Render_Engine* re = (Render_Engine*) data; evas_common_tilebuf_set_tile_size(re->tb, w, h); } static void evas_engine_sdl_output_redraws_rect_add (void *data, int x, int y, int w, int h) { Render_Engine* re = (Render_Engine*) data; evas_common_tilebuf_add_redraw(re->tb, x, y, w, h); } static void evas_engine_sdl_output_redraws_rect_del (void *data, int x, int y, int w, int h) { Render_Engine* re = (Render_Engine*) data; evas_common_tilebuf_del_redraw(re->tb, x, y, w, h); } static void evas_engine_sdl_output_redraws_clear (void *data) { Render_Engine* re = (Render_Engine*) data; evas_common_tilebuf_clear(re->tb); } static void* evas_engine_sdl_output_redraws_next_update_get (void *data, int *x, int *y, int *w, int *h, int *cx, int *cy, int *cw, int *ch) { Render_Engine *re = data; Tilebuf_Rect *tb_rect; SDL_Rect rect; if (re->flags.end) { re->flags.end = 0; return NULL; } if (!re->rects) { re->rects = evas_common_tilebuf_get_render_rects(re->tb); re->cur_rect = EINA_INLIST_GET(re->rects); } if (!re->cur_rect) return NULL; tb_rect = (Tilebuf_Rect*) re->cur_rect; *cx = *x = tb_rect->x; *cy = *y = tb_rect->y; *cw = *w = tb_rect->w; *ch = *h = tb_rect->h; re->cur_rect = re->cur_rect->next; if (!re->cur_rect) { evas_common_tilebuf_free_render_rects(re->rects); re->rects = NULL; re->flags.end = 1; } rect.x = *x; rect.y = *y; rect.w = *w; rect.h = *h; /* Return the "fake" surface so it is passed to the drawing routines. */ return re->rgba_engine_image; } static void evas_engine_sdl_output_redraws_next_update_push (void *data, void *surface __UNUSED__, int x, int y, int w, int h) { Render_Engine *re = (Render_Engine *) data; if (re->update_rects_count + 1 > re->update_rects_limit) { re->update_rects_limit += 8; re->update_rects = realloc(re->update_rects, sizeof (SDL_Rect) * re->update_rects_limit); } re->update_rects[re->update_rects_count].x = x; re->update_rects[re->update_rects_count].y = y; re->update_rects[re->update_rects_count].w = w; re->update_rects[re->update_rects_count].h = h; ++re->update_rects_count; evas_common_cpu_end_opt(); } static void _sdl_image_dirty_region(Engine_Image_Entry *eim, unsigned int x, unsigned int y, unsigned int w, unsigned int h) { SDL_Engine_Image_Entry *dst; RGBA_Image *im; dst = (SDL_Engine_Image_Entry *) eim; SDL_UpdateRect(dst->surface, x, y, w, h); im = (RGBA_Image *)eim->src; im->flags |= RGBA_IMAGE_IS_DIRTY; } static void evas_engine_sdl_output_flush(void *data) { Render_Engine *re = (Render_Engine *) data; if (re->update_rects_count > 0) SDL_UpdateRects(re->rgba_engine_image->surface, re->update_rects_count, re->update_rects); re->update_rects_count = 0; } static void evas_engine_sdl_output_idle_flush(void *data) { (void) data; } /* * Image objects */ static void* evas_engine_sdl_image_load(void *data, const char *file, const char *key, int *error, Evas_Image_Load_Opts *lo) { Render_Engine* re = (Render_Engine*) data;; *error = 0; return evas_cache_engine_image_request(re->cache, file, key, lo, NULL, error); } static int evas_engine_sdl_image_alpha_get(void *data __UNUSED__, void *image) { SDL_Engine_Image_Entry *eim = image; RGBA_Image *im; if (!eim) return 1; im = (RGBA_Image *) eim->cache_entry.src; switch (eim->cache_entry.src->space) { case EVAS_COLORSPACE_ARGB8888: if (im->cache_entry.flags.alpha) return 1; default: break; } return 0; } static void evas_engine_sdl_image_size_get(void *data __UNUSED__, void *image, int *w, int *h) { SDL_Engine_Image_Entry *eim; eim = image; if (w) *w = eim->cache_entry.src->w; if (h) *h = eim->cache_entry.src->h; } static int evas_engine_sdl_image_colorspace_get(void *data __UNUSED__, void *image) { SDL_Engine_Image_Entry *eim = image; if (!eim) return EVAS_COLORSPACE_ARGB8888; return eim->cache_entry.src->space; } static void evas_engine_sdl_image_colorspace_set(void *data __UNUSED__, void *image, int cspace) { SDL_Engine_Image_Entry *eim = image; if (!eim) return; if (eim->cache_entry.src->space == cspace) return; evas_cache_engine_image_colorspace(&eim->cache_entry, cspace, NULL); } static void* evas_engine_sdl_image_new_from_copied_data(void *data, int w, int h, DATA32* image_data, int alpha, int cspace) { Render_Engine *re = (Render_Engine*) data; return evas_cache_engine_image_copied_data(re->cache, w, h, image_data, alpha, cspace, NULL); } static void* evas_engine_sdl_image_new_from_data(void *data, int w, int h, DATA32* image_data, int alpha, int cspace) { Render_Engine *re = (Render_Engine*) data; return evas_cache_engine_image_data(re->cache, w, h, image_data, alpha, cspace, NULL); } static void evas_engine_sdl_image_free(void *data, void *image) { SDL_Engine_Image_Entry *eim = image; (void) data; evas_cache_engine_image_drop(&eim->cache_entry); } static void* evas_engine_sdl_image_size_set(void *data, void *image, int w, int h) { SDL_Engine_Image_Entry *eim = image; (void) data; return evas_cache_engine_image_size_set(&eim->cache_entry, w, h); } static void* evas_engine_sdl_image_dirty_region(void *data, void *image, int x, int y, int w, int h) { SDL_Engine_Image_Entry *eim = image; (void) data; return evas_cache_engine_image_dirty(&eim->cache_entry, x, y, w, h); } static void* evas_engine_sdl_image_data_get(void *data, void *image, int to_write, DATA32** image_data, int *err) { SDL_Engine_Image_Entry *eim = image; RGBA_Image *im; (void) data; if (!eim) { *image_data = NULL; if (err) *err = EVAS_LOAD_ERROR_GENERIC; return NULL; } im = (RGBA_Image *) eim->cache_entry.src; switch (eim->cache_entry.src->space) { case EVAS_COLORSPACE_ARGB8888: if (to_write) eim = (SDL_Engine_Image_Entry *) evas_cache_engine_image_dirty(&eim->cache_entry, 0, 0, eim->cache_entry.src->w, eim->cache_entry.src->h); evas_cache_engine_image_load_data(&eim->cache_entry); *image_data = im->image.data; break; case EVAS_COLORSPACE_YCBCR422P709_PL: case EVAS_COLORSPACE_YCBCR422P601_PL: *image_data = im->cs.data; break; default: abort(); break; } if (err) *err = EVAS_LOAD_ERROR_NONE; return eim; } static void* evas_engine_sdl_image_data_put(void *data, void *image, DATA32* image_data) { SDL_Engine_Image_Entry *eim = image; Render_Engine *re = data; RGBA_Image *im; if (!eim) return NULL; im = (RGBA_Image*) eim->cache_entry.src; switch (eim->cache_entry.src->space) { case EVAS_COLORSPACE_ARGB8888: if (image_data != im->image.data) { evas_cache_engine_image_drop(&eim->cache_entry); eim = (SDL_Engine_Image_Entry *) evas_cache_engine_image_data(re->cache, eim->cache_entry.w, eim->cache_entry.h, image_data, func.image_alpha_get(data, eim), func.image_colorspace_get(data, eim), NULL); } break; case EVAS_COLORSPACE_YCBCR422P601_PL: case EVAS_COLORSPACE_YCBCR422P709_PL: if (image_data != im->cs.data) { if (im->cs.data) if (!im->cs.no_free) free(im->cs.data); im->cs.data = image_data; evas_common_image_colorspace_dirty(im); } break; default: abort(); break; } return eim; } static void evas_engine_sdl_image_data_preload_request(void *data __UNUSED__, void *image, const void *target) { SDL_Engine_Image_Entry *eim = image; RGBA_Image *im; if (!eim) return ; im = (RGBA_Image*) eim->cache_entry.src; if (!im) return ; evas_cache_image_preload_data(&im->cache_entry, target); } static void evas_engine_sdl_image_data_preload_cancel(void *data __UNUSED__, void *image, const void *target) { SDL_Engine_Image_Entry *eim = image; RGBA_Image *im; if (!eim) return ; im = (RGBA_Image*) eim->cache_entry.src; if (!im) return ; evas_cache_image_preload_cancel(&im->cache_entry, target); } static void* evas_engine_sdl_image_alpha_set(void *data, void *image, int has_alpha) { SDL_Engine_Image_Entry *eim = image; RGBA_Image *im; (void) data; if (!eim) return NULL; im = (RGBA_Image *) eim->cache_entry.src; if (eim->cache_entry.src->space != EVAS_COLORSPACE_ARGB8888) { im->cache_entry.flags.alpha = 0; return eim; } eim = (SDL_Engine_Image_Entry *) evas_cache_engine_image_dirty(&eim->cache_entry, 0, 0, eim->cache_entry.w, eim->cache_entry.h); /* FIXME: update SDL_Surface flags */ im->cache_entry.flags.alpha = has_alpha ? 1 : 0; return eim; } static void* evas_engine_sdl_image_border_set(void *data __UNUSED__, void *image, int l __UNUSED__, int r __UNUSED__, int t __UNUSED__, int b __UNUSED__) { return image; } static void evas_engine_sdl_image_border_get(void *data __UNUSED__, void *image __UNUSED__, int *l __UNUSED__, int *r __UNUSED__, int *t __UNUSED__, int *b __UNUSED__) { /* FIXME: need to know what evas expect from this call */ } static void evas_engine_sdl_image_draw(void *data, void *context, void *surface, void *image, int src_region_x, int src_region_y, int src_region_w, int src_region_h, int dst_region_x, int dst_region_y, int dst_region_w, int dst_region_h, int smooth) { SDL_Engine_Image_Entry *eim = image; SDL_Engine_Image_Entry *dst = surface; RGBA_Draw_Context *dc = (RGBA_Draw_Context*) context; int mustlock_im = 0; int mustlock_dst = 0; (void) data; if (eim->cache_entry.src->space == EVAS_COLORSPACE_ARGB8888) evas_cache_engine_image_load_data(&eim->cache_entry); /* Fallback to software method */ if (SDL_MUSTLOCK(dst->surface)) { mustlock_dst = 1; SDL_LockSurface(dst->surface); _SDL_UPDATE_PIXELS(dst); } if (eim->surface && SDL_MUSTLOCK(eim->surface)) { mustlock_im = 1; SDL_LockSurface(eim->surface); _SDL_UPDATE_PIXELS(eim); } evas_common_image_colorspace_normalize((RGBA_Image *) eim->cache_entry.src); if (smooth) evas_common_scale_rgba_in_to_out_clip_smooth((RGBA_Image *) eim->cache_entry.src, (RGBA_Image *) dst->cache_entry.src, dc, src_region_x, src_region_y, src_region_w, src_region_h, dst_region_x, dst_region_y, dst_region_w, dst_region_h); else evas_common_scale_rgba_in_to_out_clip_sample((RGBA_Image *) eim->cache_entry.src, (RGBA_Image *) dst->cache_entry.src, dc, src_region_x, src_region_y, src_region_w, src_region_h, dst_region_x, dst_region_y, dst_region_w, dst_region_h); evas_common_cpu_end_opt (); if (mustlock_im) SDL_UnlockSurface(eim->surface); if (mustlock_dst) SDL_UnlockSurface(dst->surface); } static void evas_engine_sdl_image_map_draw(void *data __UNUSED__, void *context, void *surface, void *image, int npoints, RGBA_Map_Point *p, int smooth, int level) { SDL_Engine_Image_Entry *eim = image; SDL_Engine_Image_Entry *dst = surface; int mustlock_im = 0; int mustlock_dst = 0; if (!eim || !dst) return; if (SDL_MUSTLOCK(dst->surface)) { mustlock_dst = 1; SDL_LockSurface(dst->surface); _SDL_UPDATE_PIXELS(dst); } if (eim->surface && SDL_MUSTLOCK(eim->surface)) { mustlock_im = 1; SDL_LockSurface(eim->surface); _SDL_UPDATE_PIXELS(eim); } evas_common_map_rgba((RGBA_Image*) eim->cache_entry.src, (RGBA_Image*) dst->cache_entry.src, context, npoints, p, smooth, level); evas_common_cpu_end_opt(); if (mustlock_im) SDL_UnlockSurface(eim->surface); if (mustlock_dst) SDL_UnlockSurface(dst->surface); } static void * evas_engine_sdl_image_map_surface_new(void *data, int w, int h, int alpha) { Render_Engine *re = (Render_Engine*) data; void *surface; surface = evas_cache_engine_image_copied_data(re->cache, w, h, NULL, alpha, EVAS_COLORSPACE_ARGB8888, NULL); return surface; } static void evas_engine_sdl_image_map_surface_free(void *data __UNUSED__, void *surface) { evas_cache_engine_image_drop(surface); } static void evas_engine_sdl_image_scale_hint_set(void *data __UNUSED__, void *image, int hint) { SDL_Engine_Image_Entry *eim; if (!image) return ; eim = image; eim->cache_entry.src->scale_hint = hint; } static int evas_engine_sdl_image_scale_hint_get(void *data __UNUSED__, void *image) { SDL_Engine_Image_Entry *eim; if (!image) return EVAS_IMAGE_SCALE_HINT_NONE; eim = image; return eim->cache_entry.src->scale_hint; } static void evas_engine_sdl_image_cache_flush(void *data) { Render_Engine *re = (Render_Engine*) data; int size; size = evas_cache_engine_image_get(re->cache); evas_cache_engine_image_set(re->cache, 0); evas_cache_engine_image_set(re->cache, size); } static void evas_engine_sdl_image_cache_set(void *data, int bytes) { Render_Engine *re = (Render_Engine*) data; evas_cache_engine_image_set(re->cache, bytes); } static int evas_engine_sdl_image_cache_get(void *data) { Render_Engine *re = (Render_Engine*) data; return evas_cache_engine_image_get(re->cache); } static char* evas_engine_sdl_image_comment_get(void *data __UNUSED__, void *image, char *key __UNUSED__) { SDL_Engine_Image_Entry *eim = image; RGBA_Image *im; if (!eim) return NULL; im = (RGBA_Image *) eim->cache_entry.src; return im->info.comment; } static char* evas_engine_sdl_image_format_get(void *data __UNUSED__, void *image __UNUSED__) { /* FIXME: need to know what evas expect from this call */ return NULL; } static void evas_engine_sdl_font_draw(void *data __UNUSED__, void *context, void *surface, void *font, int x, int y, int w __UNUSED__, int h __UNUSED__, int ow __UNUSED__, int oh __UNUSED__, const Eina_Unicode *text, const Evas_Text_Props *intl_props) { SDL_Engine_Image_Entry *eim = surface; int mustlock_im = 0; if (eim->surface && SDL_MUSTLOCK(eim->surface)) { mustlock_im = 1; SDL_LockSurface(eim->surface); _SDL_UPDATE_PIXELS(eim); } evas_common_font_draw((RGBA_Image *) eim->cache_entry.src, context, font, x, y, intl_props); evas_common_cpu_end_opt(); if (mustlock_im) SDL_UnlockSurface(eim->surface); } static void evas_engine_sdl_line_draw(void *data __UNUSED__, void *context, void *surface, int x1, int y1, int x2, int y2) { SDL_Engine_Image_Entry *eim = surface; int mustlock_im = 0; if (eim->surface && SDL_MUSTLOCK(eim->surface)) { mustlock_im = 1; SDL_LockSurface(eim->surface); _SDL_UPDATE_PIXELS(eim); } evas_common_line_draw((RGBA_Image *) eim->cache_entry.src, context, x1, y1, x2, y2); evas_common_cpu_end_opt(); if (mustlock_im) SDL_UnlockSurface(eim->surface); } static void evas_engine_sdl_rectangle_draw(void *data __UNUSED__, void *context, void *surface, int x, int y, int w, int h) { SDL_Engine_Image_Entry *eim = surface; #if ENGINE_SDL_PRIMITIVE RGBA_Draw_Context *dc = context; #endif int mustlock_im = 0; #if ENGINE_SDL_PRIMITIVE if (A_VAL(&dc->col.col) != 0x00) { if (A_VAL(&dc->col.col) != 0xFF) { #endif if (eim->surface && SDL_MUSTLOCK(eim->surface)) { mustlock_im = 1; SDL_LockSurface(eim->surface); _SDL_UPDATE_PIXELS(eim); } evas_common_rectangle_draw((RGBA_Image *) eim->cache_entry.src, context, x, y, w, h); evas_common_cpu_end_opt(); if (mustlock_im) SDL_UnlockSurface(eim->surface); #if ENGINE_SDL_PRIMITIVE } else { SDL_Rect dstrect; if (dc->clip.use) { SDL_Rect cliprect; cliprect.x = dc->clip.x; cliprect.y = dc->clip.y; cliprect.w = dc->clip.w; cliprect.h = dc->clip.h; SDL_SetClipRect(eim->surface, &cliprect); } dstrect.x = x; dstrect.y = y; dstrect.w = w; dstrect.h = h; SDL_FillRect(eim->surface, &dstrect, SDL_MapRGBA(eim->surface->format, R_VAL(&dc->col.col), G_VAL(&dc->col.col), B_VAL(&dc->col.col), 0xFF)); if (dc->clip.use) SDL_SetClipRect(eim->surface, NULL); } } #endif } static void evas_engine_sdl_polygon_draw(void *data __UNUSED__, void *context, void *surface, void *polygon, int x, int y) { SDL_Engine_Image_Entry *eim = surface; int mustlock_im = 0; if (eim->surface && SDL_MUSTLOCK(eim->surface)) { mustlock_im = 1; SDL_LockSurface(eim->surface); _SDL_UPDATE_PIXELS(eim); } evas_common_polygon_draw((RGBA_Image *) eim->cache_entry.src, context, polygon, x, y); evas_common_cpu_end_opt(); if (mustlock_im) SDL_UnlockSurface(eim->surface); } static int module_open(Evas_Module *em) { if (!em) return 0; /* get whatever engine module we inherit from */ if (!_evas_module_engine_inherit(&pfunc, "software_generic")) return 0; _evas_engine_soft_sdl_log_dom = eina_log_domain_register ("evas-software_sdl", EVAS_DEFAULT_LOG_COLOR); if (_evas_engine_soft_sdl_log_dom < 0) { EINA_LOG_ERR("Can not create a module log domain."); return 0; } /* store it for later use */ func = pfunc; /* now to override methods */ #define ORD(f) EVAS_API_OVERRIDE(f, &func, evas_engine_sdl_) ORD(info); ORD(info_free); ORD(setup); ORD(output_free); ORD(output_resize); ORD(output_tile_size_set); ORD(output_redraws_rect_add); ORD(output_redraws_rect_del); ORD(output_redraws_clear); ORD(output_redraws_next_update_get); ORD(output_redraws_next_update_push); ORD(output_flush); ORD(output_idle_flush); ORD(image_load); ORD(image_new_from_data); ORD(image_new_from_copied_data); ORD(image_colorspace_set); ORD(image_colorspace_get); ORD(image_free); ORD(image_size_set); ORD(image_size_get); ORD(image_dirty_region); ORD(image_data_get); ORD(image_data_put); ORD(image_data_preload_request); ORD(image_data_preload_cancel); ORD(image_alpha_set); ORD(image_alpha_get); ORD(image_border_set); ORD(image_border_get); ORD(image_draw); ORD(image_map_draw); ORD(image_map_surface_new); ORD(image_map_surface_free); ORD(image_comment_get); ORD(image_format_get); ORD(image_cache_flush); ORD(image_cache_set); ORD(image_cache_get); ORD(font_draw); ORD(line_draw); ORD(rectangle_draw); ORD(polygon_draw); ORD(image_scale_hint_set); ORD(image_scale_hint_get); /* now advertise out own api */ em->functions = (void *)(&func); return 1; } static void module_close(Evas_Module *em __UNUSED__) { eina_log_domain_unregister(_evas_engine_soft_sdl_log_dom); } static Evas_Module_Api evas_modapi = { EVAS_MODULE_API_VERSION, "software_sdl", "none", { module_open, module_close } }; EVAS_MODULE_DEFINE(EVAS_MODULE_TYPE_ENGINE, engine, software_sdl); #ifndef EVAS_STATIC_BUILD_SOFTWARE_SDL EVAS_EINA_MODULE_DEFINE(engine, software_sdl); #endif /* Private routines. */ static void* _sdl_output_setup (int w, int h, int fullscreen, int noframe, int alpha, int hwsurface) { Render_Engine *re = calloc(1, sizeof(Render_Engine)); SDL_Surface *surface; /* if we haven't initialized - init (automatic abort if already done) */ evas_common_cpu_init(); evas_common_blend_init(); evas_common_image_init(); evas_common_convert_init(); evas_common_scale_init(); evas_common_rectangle_init(); evas_common_polygon_init(); evas_common_line_init(); evas_common_font_init(); evas_common_draw_init(); evas_common_tilebuf_init(); if (w <= 0) w = 640; if (h <= 0) h = 480; re->cache = evas_cache_engine_image_init(&_sdl_cache_engine_image_cb, evas_common_image_cache_get()); if (!re->cache) { CRIT("Evas_Cache_Engine_Image allocation failed!"); exit(-1); } re->tb = evas_common_tilebuf_new(w, h); /* in preliminary tests 16x16 gave highest framerates */ evas_common_tilebuf_set_tile_size(re->tb, TILESIZE, TILESIZE); surface = SDL_SetVideoMode(w, h, 32, (hwsurface ? SDL_HWSURFACE : SDL_SWSURFACE) | (fullscreen ? SDL_FULLSCREEN : 0) | (noframe ? SDL_NOFRAME : 0) | (alpha ? SDL_SRCALPHA : 0)); if (!surface) { CRIT("SDL_SetVideoMode [ %i x %i x 32 ] failed.", w, h); exit(-1); } SDL_SetAlpha(surface, SDL_SRCALPHA | SDL_RLEACCEL, 0); /* We create a "fake" RGBA_Image which points to the SDL surface. Each access * to that surface is wrapped in Lock / Unlock calls whenever the data is * manipulated directly. */ re->rgba_engine_image = (SDL_Engine_Image_Entry *) evas_cache_engine_image_engine(re->cache, surface); if (!re->rgba_engine_image) { CRIT("RGBA_Image allocation from SDL failed"); exit(-1); } SDL_FillRect(surface, NULL, 0); re->flags.alpha = alpha; re->flags.hwsurface = hwsurface; re->flags.fullscreen = fullscreen; re->flags.noframe = noframe; return re; } static Engine_Image_Entry* _sdl_image_alloc(void) { SDL_Engine_Image_Entry *new; new = calloc(1, sizeof (SDL_Engine_Image_Entry)); return (Engine_Image_Entry *) new; } static void _sdl_image_delete(Engine_Image_Entry *eim) { free(eim); } static int _sdl_image_constructor(Engine_Image_Entry *ie, void *data __UNUSED__) { SDL_Surface *sdl = NULL; SDL_Engine_Image_Entry *eim = (SDL_Engine_Image_Entry *) ie; RGBA_Image *im; im = (RGBA_Image *) ie->src; if (im) { evas_cache_image_load_data(&im->cache_entry); if (im->image.data) { /* FIXME: Take care of CSPACE */ sdl = SDL_CreateRGBSurfaceFrom(im->image.data, ie->w, ie->h, 32, ie->w * 4, RMASK, GMASK, BMASK, AMASK); eim->surface = sdl; eim->flags.engine_surface = 0; } } return EVAS_LOAD_ERROR_NONE; } static void _sdl_image_destructor(Engine_Image_Entry *eie) { SDL_Engine_Image_Entry *seie = (SDL_Engine_Image_Entry *) eie; if (seie->surface && !seie->flags.engine_surface) SDL_FreeSurface(seie->surface); seie->surface = NULL; } static int _sdl_image_dirty(Engine_Image_Entry *dst, const Engine_Image_Entry *src __UNUSED__) { SDL_Engine_Image_Entry *eim = (SDL_Engine_Image_Entry *) dst; SDL_Surface *sdl = NULL; RGBA_Image *im; im = (RGBA_Image *) dst->src; /* FIXME: Take care of CSPACE */ sdl = SDL_CreateRGBSurfaceFrom(im->image.data, dst->w, dst->h, 32, dst->w * 4, 0xff0000, 0xff00, 0xff, 0xff000000); eim->surface = sdl; eim->flags.engine_surface = 0; return 0; } static int _sdl_image_update_data(Engine_Image_Entry *dst, void* engine_data) { SDL_Engine_Image_Entry *eim = (SDL_Engine_Image_Entry *) dst; SDL_Surface *sdl = NULL; RGBA_Image *im; im = (RGBA_Image *) dst->src; if (engine_data) { sdl = engine_data; if (im) { im->image.data = sdl->pixels; im->image.no_free = 1; im->cache_entry.flags.alpha = 0; dst->src->w = sdl->w; dst->src->h = sdl->h; } dst->w = sdl->w; dst->h = sdl->h; } else { /* FIXME: Take care of CSPACE */ SDL_FreeSurface(eim->surface); sdl = SDL_CreateRGBSurfaceFrom(im->image.data, dst->w, dst->h, 32, dst->w * 4, RMASK, GMASK, BMASK, AMASK); } eim->surface = sdl; return 0; } static int _sdl_image_size_set(Engine_Image_Entry *dst, const Engine_Image_Entry *src __UNUSED__) { SDL_Engine_Image_Entry *eim = (SDL_Engine_Image_Entry *) dst; SDL_Surface *sdl; RGBA_Image *im; im = (RGBA_Image *) dst->src; /* FIXME: handle im == NULL */ sdl = SDL_CreateRGBSurfaceFrom(im->image.data, dst->w, dst->h, 32, dst->w * 4, RMASK, GMASK, BMASK, AMASK); eim->surface = sdl; return 0; } static void _sdl_image_load(Engine_Image_Entry *eim, const Image_Entry *ie_im) { SDL_Engine_Image_Entry *load = (SDL_Engine_Image_Entry *) eim; SDL_Surface *sdl; if (!load->surface) { RGBA_Image *im; im = (RGBA_Image *) ie_im; sdl = SDL_CreateRGBSurfaceFrom(im->image.data, eim->w, eim->h, 32, eim->w * 4, RMASK, GMASK, BMASK, AMASK); load->surface = sdl; } } static int _sdl_image_mem_size_get(Engine_Image_Entry *eim) { SDL_Engine_Image_Entry *seie = (SDL_Engine_Image_Entry *) eim; int size = 0; /* FIXME: Count surface size. */ if (seie->surface) size = sizeof (SDL_Surface) + sizeof (SDL_PixelFormat); return size; } #ifdef DEBUG_SDL static void _sdl_image_debug(const char* context, Engine_Image_Entry* eie) { SDL_Engine_Image_Entry *eim = (SDL_Engine_Image_Entry *) eie; DBG("*** %s image (%p) ***", context, eim); if (eim) { DBG("W: %i, H: %i, R: %i", eim->cache_entry.w, eim->cache_entry.h, eim->cache_entry.references); if (eim->cache_entry.src) DBG("Pixels: %p, SDL Surface: %p",((RGBA_Image*) eim->cache_entry.src)->image.data, eim->surface); if (eim->surface) DBG("Surface->pixels: %p", eim->surface->pixels); DBG("Key: %s", eim->cache_entry.cache_key); DBG("Reference: %i", eim->cache_entry.references); } DBG("*** ***"); } #endif