/* only to be called on exit blender */ void BKE_blender_free(void) { /* samples are in a global list..., also sets G_MAIN->sound->sample NULL */ /* Needs to run before main free as wm is still referenced for icons preview jobs. */ BKE_studiolight_free(); BKE_main_free(G_MAIN); G_MAIN = NULL; if (G.log.file != NULL) { fclose(G.log.file); } BKE_spacetypes_free(); /* after free main, it uses space callbacks */ IMB_exit(); BKE_cachefiles_exit(); BKE_images_exit(); DEG_free_node_types(); BKE_brush_system_exit(); RE_texture_rng_exit(); BLI_callback_global_finalize(); IMB_moviecache_destruct(); free_nodesystem(); }
/* only to be called on exit blender */ void free_blender(void) { /* samples are in a global list..., also sets G.main->sound->sample NULL */ free_main(G.main); G.main = NULL; BKE_spacetypes_free(); /* after free main, it uses space callbacks */ IMB_exit(); BKE_images_exit(); BLI_callback_global_finalize(); BKE_sequencer_cache_destruct(); IMB_moviecache_destruct(); free_nodesystem(); }
/* only to be called on exit blender */ void BKE_blender_free(void) { /* samples are in a global list..., also sets G.main->sound->sample NULL */ BKE_main_free(G.main); G.main = NULL; BKE_spacetypes_free(); /* after free main, it uses space callbacks */ IMB_exit(); BKE_cachefiles_exit(); BKE_images_exit(); DAG_exit(); BKE_brush_system_exit(); RE_texture_rng_exit(); BLI_callback_global_finalize(); BKE_sequencer_cache_destruct(); IMB_moviecache_destruct(); free_nodesystem(); }
/* return path for restart */ static char *wm_main_playanim_intern(int argc, const char **argv) { struct ImBuf *ibuf = NULL; static char filepath[FILE_MAX]; /* abused to return dropped file path */ GHOST_TUns32 maxwinx, maxwiny; int i; /* This was done to disambiguate the name for use under c++. */ struct anim *anim = NULL; int start_x = 0, start_y = 0; int sfra = -1; int efra = -1; int totblock; PlayState ps = {0}; /* ps.doubleb = TRUE;*/ /* UNUSED */ ps.go = TRUE; ps.direction = TRUE; ps.next_frame = 1; ps.once = FALSE; ps.turbo = FALSE; ps.pingpong = FALSE; ps.noskip = FALSE; ps.sstep = FALSE; ps.wait2 = FALSE; ps.stopped = FALSE; ps.picture = NULL; ps.dropped_file[0] = 0; ps.zoom = 1.0f; /* resetmap = FALSE */ ps.fstep = 1; ps.fontid = -1; while (argc > 1) { if (argv[1][0] == '-') { switch (argv[1][1]) { case 'm': fromdisk = TRUE; break; case 'p': if (argc > 3) { start_x = atoi(argv[2]); start_y = atoi(argv[3]); argc -= 2; argv += 2; } else { printf("too few arguments for -p (need 2): skipping\n"); } break; case 'f': if (argc > 3) { double fps = atof(argv[2]); double fps_base = atof(argv[3]); if (fps == 0.0) { fps = 1; printf("invalid fps," "forcing 1\n"); } swaptime = fps_base / fps; argc -= 2; argv += 2; } else { printf("too few arguments for -f (need 2): skipping\n"); } break; case 's': sfra = MIN2(MAXFRAME, MAX2(1, atoi(argv[2]) )); argc--; argv++; break; case 'e': efra = MIN2(MAXFRAME, MAX2(1, atoi(argv[2]) )); argc--; argv++; break; case 'j': ps.fstep = MIN2(MAXFRAME, MAX2(1, atoi(argv[2]))); swaptime *= ps.fstep; argc--; argv++; break; default: printf("unknown option '%c': skipping\n", argv[1][1]); break; } argc--; argv++; } else { break; } } if (argc > 1) { BLI_strncpy(filepath, argv[1], sizeof(filepath)); } else { BLI_current_working_dir(filepath, sizeof(filepath)); BLI_add_slash(filepath); } if (IMB_isanim(filepath)) { /* OCIO_TODO: support different input color spaces */ anim = IMB_open_anim(filepath, IB_rect, 0, NULL); if (anim) { ibuf = IMB_anim_absolute(anim, 0, IMB_TC_NONE, IMB_PROXY_NONE); IMB_close_anim(anim); anim = NULL; } } else if (!IMB_ispic(filepath)) { printf("%s: '%s' not an image file\n", __func__, filepath); exit(1); } if (ibuf == NULL) { /* OCIO_TODO: support different input color space */ ibuf = IMB_loadiffname(filepath, IB_rect, NULL); } if (ibuf == NULL) { printf("%s: '%s' couldn't open\n", __func__, filepath); exit(1); } #if 0 //XXX25 #if !defined(WIN32) && !defined(__APPLE__) if (fork()) exit(0); #endif #endif //XXX25 { GHOST_EventConsumerHandle consumer = GHOST_CreateEventConsumer(ghost_event_proc, &ps); g_WS.ghost_system = GHOST_CreateSystem(); GHOST_AddEventConsumer(g_WS.ghost_system, consumer); playanim_window_open("Blender:Anim", start_x, start_y, ibuf->x, ibuf->y); /* unified matrix, note it affects offset for drawing */ glMatrixMode(GL_PROJECTION); glLoadIdentity(); glOrtho(0.0f, 1.0f, 0.0f, 1.0f, -1.0f, 1.0f); glMatrixMode(GL_MODELVIEW); } GHOST_GetMainDisplayDimensions(g_WS.ghost_system, &maxwinx, &maxwiny); //GHOST_ActivateWindowDrawingContext(g_WS.ghost_window); /* initialize the font */ BLF_init(11, 72); ps.fontid = BLF_load_mem("monospace", (unsigned char *)datatoc_bmonofont_ttf, datatoc_bmonofont_ttf_size); BLF_size(ps.fontid, 11, 72); ps.ibufx = ibuf->x; ps.ibufy = ibuf->y; ps.win_x = ps.ibufx; ps.win_y = ps.ibufy; if (maxwinx % ibuf->x) maxwinx = ibuf->x * (1 + (maxwinx / ibuf->x)); if (maxwiny % ibuf->y) maxwiny = ibuf->y * (1 + (maxwiny / ibuf->y)); glClearColor(0.1, 0.1, 0.1, 0.0); glClear(GL_COLOR_BUFFER_BIT); GHOST_SwapWindowBuffers(g_WS.ghost_window); if (sfra == -1 || efra == -1) { /* one of the frames was invalid, just use all images */ sfra = 1; efra = MAXFRAME; } build_pict_list(&ps, filepath, (efra - sfra) + 1, ps.fstep, ps.fontid); for (i = 2; i < argc; i++) { BLI_strncpy(filepath, argv[i], sizeof(filepath)); build_pict_list(&ps, filepath, (efra - sfra) + 1, ps.fstep, ps.fontid); } IMB_freeImBuf(ibuf); ibuf = NULL; pupdate_time(); ptottime = 0; /* newly added in 2.6x, without this images never get freed */ #define USE_IMB_CACHE while (ps.go) { if (ps.pingpong) ps.direction = -ps.direction; if (ps.direction == 1) { ps.picture = picsbase.first; } else { ps.picture = picsbase.last; } if (ps.picture == NULL) { printf("couldn't find pictures\n"); ps.go = FALSE; } if (ps.pingpong) { if (ps.direction == 1) { ps.picture = ps.picture->next; } else { ps.picture = ps.picture->prev; } } if (ptottime > 0.0) ptottime = 0.0; while (ps.picture) { int hasevent; #ifndef USE_IMB_CACHE if (ibuf != NULL && ibuf->ftype == 0) IMB_freeImBuf(ibuf); #endif if (ps.picture->ibuf) { ibuf = ps.picture->ibuf; } else if (ps.picture->anim) { ibuf = IMB_anim_absolute(ps.picture->anim, ps.picture->frame, IMB_TC_NONE, IMB_PROXY_NONE); } else if (ps.picture->mem) { /* use correct colorspace here */ ibuf = IMB_ibImageFromMemory((unsigned char *) ps.picture->mem, ps.picture->size, ps.picture->IB_flags, NULL, ps.picture->name); } else { /* use correct colorspace here */ ibuf = IMB_loadiffname(ps.picture->name, ps.picture->IB_flags, NULL); } if (ibuf) { #ifdef USE_IMB_CACHE ps.picture->ibuf = ibuf; #endif BLI_strncpy(ibuf->name, ps.picture->name, sizeof(ibuf->name)); /* why only windows? (from 2.4x) - campbell */ #ifdef _WIN32 GHOST_SetTitle(g_WS.ghost_window, ps.picture->name); #endif while (pupdate_time()) PIL_sleep_ms(1); ptottime -= swaptime; playanim_toscreen(&ps, ps.picture, ibuf, ps.fontid, ps.fstep); } /* else delete */ else { printf("error: can't play this image type\n"); exit(0); } if (ps.once) { if (ps.picture->next == NULL) { ps.wait2 = TRUE; } else if (ps.picture->prev == NULL) { ps.wait2 = TRUE; } } ps.next_frame = ps.direction; while ( (hasevent = GHOST_ProcessEvents(g_WS.ghost_system, 0)) || ps.wait2 != 0) { if (hasevent) { GHOST_DispatchEvents(g_WS.ghost_system); } /* Note, this still draws for mousemoves on pause */ if (ps.wait2) { if (hasevent) { if (ibuf) { while (pupdate_time()) PIL_sleep_ms(1); ptottime -= swaptime; playanim_toscreen(&ps, ps.picture, ibuf, ps.fontid, ps.fstep); } } } if (!ps.go) { break; } } ps.wait2 = ps.sstep; if (ps.wait2 == 0 && ps.stopped == 0) { ps.stopped = TRUE; } pupdate_time(); if (ps.picture && ps.next_frame) { /* always at least set one step */ while (ps.picture) { ps.picture = playanim_step(ps.picture, ps.next_frame); if (ps.once && ps.picture != NULL) { if (ps.picture->next == NULL) { ps.wait2 = TRUE; } else if (ps.picture->prev == NULL) { ps.wait2 = TRUE; } } if (ps.wait2 || ptottime < swaptime || ps.turbo || ps.noskip) break; ptottime -= swaptime; } if (ps.picture == NULL && ps.sstep) { ps.picture = playanim_step(ps.picture, ps.next_frame); } } if (ps.go == FALSE) { break; } } } ps.picture = picsbase.first; anim = NULL; while (ps.picture) { if (ps.picture && ps.picture->anim && (anim != ps.picture->anim)) { // to prevent divx crashes anim = ps.picture->anim; IMB_close_anim(anim); } if (ps.picture->ibuf) { IMB_freeImBuf(ps.picture->ibuf); } if (ps.picture->mem) { MEM_freeN(ps.picture->mem); } ps.picture = ps.picture->next; } /* cleanup */ #ifndef USE_IMB_CACHE if (ibuf) IMB_freeImBuf(ibuf); #endif BLI_freelistN(&picsbase); #if 0 // XXX25 free_blender(); #else /* we still miss freeing a lot!, * but many areas could skip initialization too for anim play */ BLF_exit(); #endif GHOST_DisposeWindow(g_WS.ghost_system, g_WS.ghost_window); /* early exit, IMB and BKE should be exited only in end */ if (ps.dropped_file[0]) { BLI_strncpy(filepath, ps.dropped_file, sizeof(filepath)); return filepath; } IMB_exit(); BKE_images_exit(); totblock = MEM_get_memory_blocks_in_use(); if (totblock != 0) { /* prints many bAKey, bArgument's which are tricky to fix */ #if 0 printf("Error Totblock: %d\n", totblock); MEM_printmemlist(); #endif } return NULL; }
int main(int argc, char** argv) { int i; int argc_py_clamped= argc; /* use this so python args can be added after ' - ' */ bool error = false; SYS_SystemHandle syshandle = SYS_GetSystem(); bool fullScreen = false; bool fullScreenParFound = false; bool windowParFound = false; #ifdef WIN32 bool closeConsole = true; #endif RAS_IRasterizer::StereoMode stereomode = RAS_IRasterizer::RAS_STEREO_NOSTEREO; bool stereoWindow = false; bool stereoParFound = false; int stereoFlag = STEREO_NOSTEREO; int domeFov = -1; int domeTilt = -200; int domeMode = 0; char* domeWarp = NULL; Text *domeText = NULL; int windowLeft = 100; int windowTop = 100; int windowWidth = 640; int windowHeight = 480; GHOST_TUns32 fullScreenWidth = 0; GHOST_TUns32 fullScreenHeight= 0; int fullScreenBpp = 32; int fullScreenFrequency = 60; GHOST_TEmbedderWindowID parentWindow = 0; bool isBlenderPlayer = false; //true when lauching from blender or command line. false for bundled player int validArguments=0; bool samplesParFound = false; GHOST_TUns16 aasamples = 0; #ifdef __linux__ #ifdef __alpha__ signal (SIGFPE, SIG_IGN); #endif /* __alpha__ */ #endif /* __linux__ */ #ifdef WITH_SDL_DYNLOAD sdlewInit(); #endif BKE_appdir_program_path_init(argv[0]); BKE_tempdir_init(NULL); // We don't use threads directly in the BGE, but we need to call this so things like // freeing up GPU_Textures works correctly. BLI_threadapi_init(); RNA_init(); init_nodesystem(); initglobals(); U.gameflags |= USER_DISABLE_VBO; // We load our own G.main, so free the one that initglobals() gives us BKE_main_free(G.main); G.main = NULL; MEM_CacheLimiter_set_disabled(true); IMB_init(); BKE_images_init(); BKE_modifier_init(); DAG_init(); #ifdef WITH_FFMPEG IMB_ffmpeg_init(); #endif // Setup builtin font for BLF (mostly copied from creator.c, wm_init_exit.c and interface_style.c) BLF_init(11, U.dpi); BLF_lang_init(); BLF_lang_set(""); BLF_load_mem("default", (unsigned char*)datatoc_bfont_ttf, datatoc_bfont_ttf_size); if (blf_mono_font == -1) blf_mono_font = BLF_load_mem_unique("monospace", (unsigned char*)datatoc_bmonofont_ttf, datatoc_bmonofont_ttf_size); // Parse command line options #if defined(DEBUG) printf("argv[0] = '%s'\n", argv[0]); #endif #ifdef WIN32 if (scr_saver_init(argc, argv)) { switch (scr_saver_mode) { case SCREEN_SAVER_MODE_CONFIGURATION: MessageBox(scr_saver_hwnd, "This screen saver has no options that you can set", "Screen Saver", MB_OK); break; case SCREEN_SAVER_MODE_PASSWORD: /* This is W95 only, which we currently do not support. * Fall-back to normal screen saver behavior in that case... */ case SCREEN_SAVER_MODE_SAVER: fullScreen = true; fullScreenParFound = true; break; case SCREEN_SAVER_MODE_PREVIEW: /* This will actually be handled somewhere below... */ break; } } #endif // XXX add the ability to change this values to the command line parsing. U.mixbufsize = 2048; U.audiodevice = 2; U.audiorate = 44100; U.audioformat = 0x24; U.audiochannels = 2; // XXX this one too U.anisotropic_filter = 2; // enable fast mipmap generation U.use_gpu_mipmap = 1; sound_init_once(); set_free_windowmanager_cb(wm_free); /* if running blenderplayer the last argument can't be parsed since it has to be the filename. else it is bundled */ isBlenderPlayer = !BLO_is_a_runtime(argv[0]); if (isBlenderPlayer) validArguments = argc - 1; else validArguments = argc; /* Parsing command line arguments (can be set from WM_OT_blenderplayer_start) */ #if defined(DEBUG) printf("Parsing command line arguments...\n"); printf("Num of arguments is: %i\n", validArguments-1); //-1 because i starts at 1 #endif for (i = 1; (i < validArguments) && !error #ifdef WIN32 && scr_saver_mode == SCREEN_SAVER_MODE_NONE #endif ;) { #if defined(DEBUG) printf("argv[%d] = '%s'\n", i, argv[i]); #endif if (argv[i][0] == '-') { /* ignore all args after " - ", allow python to have own args */ if (argv[i][1]=='\0') { argc_py_clamped= i; break; } switch (argv[i][1]) { case 'g': //game engine options (show_framerate, fixedtime, etc) { i++; if (i <= validArguments) { char* paramname = argv[i]; // Check for single value versus assignment if (i+1 <= validArguments && (*(argv[i+1]) == '=')) { i++; if (i + 1 <= validArguments) { i++; // Assignment SYS_WriteCommandLineInt(syshandle, paramname, atoi(argv[i])); SYS_WriteCommandLineFloat(syshandle, paramname, atof(argv[i])); SYS_WriteCommandLineString(syshandle, paramname, argv[i]); #if defined(DEBUG) printf("%s = '%s'\n", paramname, argv[i]); #endif i++; } else { error = true; printf("error: argument assignment %s without value.\n", paramname); } } else { // SYS_WriteCommandLineInt(syshandle, argv[i++], 1); } } break; } case 'd': //debug on { i++; G.debug |= G_DEBUG; MEM_set_memory_debug(); #ifdef DEBUG BLI_mempool_set_memory_debug(); #endif break; } case 'f': //fullscreen mode { i++; fullScreen = true; fullScreenParFound = true; if ((i + 2) <= validArguments && argv[i][0] != '-' && argv[i+1][0] != '-') { fullScreenWidth = atoi(argv[i++]); fullScreenHeight = atoi(argv[i++]); if ((i + 1) <= validArguments && argv[i][0] != '-') { fullScreenBpp = atoi(argv[i++]); if ((i + 1) <= validArguments && argv[i][0] != '-') fullScreenFrequency = atoi(argv[i++]); } } else if ((i + 1) <= validArguments && argv[i][0] != '-' && argv[i+1][0] != '-') { error = true; printf("error: to define fullscreen width or height, both options must be used.\n"); } break; } case 'w': //display in a window { i++; fullScreen = false; windowParFound = true; // Parse window position and size options if ((i + 2) <= validArguments && argv[i][0] != '-' && argv[i+1][0] != '-') { windowWidth = atoi(argv[i++]); windowHeight = atoi(argv[i++]); if ((i + 2) <= validArguments && argv[i][0] != '-' && argv[i+1][0] != '-') { windowLeft = atoi(argv[i++]); windowTop = atoi(argv[i++]); } else if ((i + 1) <= validArguments && argv[i][0] != '-' && argv[i+1][0] != '-') { error = true; printf("error: to define the window left or right coordinates, both options must be used.\n"); } } else if ((i + 1) <= validArguments && argv[i][0] != '-' && argv[i+1][0] != '-') { error = true; printf("error: to define the window's width or height, both options must be used.\n"); } break; } case 'h': //display help { usage(argv[0], isBlenderPlayer); return 0; break; } case 'i': //parent window ID { i++; if ( (i + 1) <= validArguments ) parentWindow = atoi(argv[i++]); else { error = true; printf("error: too few options for parent window argument.\n"); } #if defined(DEBUG) printf("XWindows ID = %d\n", parentWindow); #endif // defined(DEBUG) break; } case 'm': //maximum anti-aliasing (eg. 2,4,8,16) { i++; samplesParFound = true; if ((i+1) <= validArguments ) aasamples = atoi(argv[i++]); else { error = true; printf("error: No argument supplied for -m"); } break; } case 'c': //keep console (windows only) { i++; #ifdef WIN32 closeConsole = false; #endif break; } case 's': //stereo mode { i++; if ((i + 1) <= validArguments) { stereoParFound = true; stereoFlag = STEREO_ENABLED; if (!strcmp(argv[i], "nostereo")) // may not be redundant if the file has different setting { stereomode = RAS_IRasterizer::RAS_STEREO_NOSTEREO; stereoFlag = STEREO_NOSTEREO; } // only the hardware pageflip method needs a stereo window else if (!strcmp(argv[i], "hwpageflip")) { stereomode = RAS_IRasterizer::RAS_STEREO_QUADBUFFERED; stereoWindow = true; } else if (!strcmp(argv[i], "syncdoubling")) stereomode = RAS_IRasterizer::RAS_STEREO_ABOVEBELOW; else if (!strcmp(argv[i], "3dtvtopbottom")) stereomode = RAS_IRasterizer::RAS_STEREO_3DTVTOPBOTTOM; else if (!strcmp(argv[i], "anaglyph")) stereomode = RAS_IRasterizer::RAS_STEREO_ANAGLYPH; else if (!strcmp(argv[i], "sidebyside")) stereomode = RAS_IRasterizer::RAS_STEREO_SIDEBYSIDE; else if (!strcmp(argv[i], "interlace")) stereomode = RAS_IRasterizer::RAS_STEREO_INTERLACED; else if (!strcmp(argv[i], "vinterlace")) stereomode = RAS_IRasterizer::RAS_STEREO_VINTERLACE; #if 0 // // future stuff // else if (!strcmp(argv[i], "stencil") // stereomode = RAS_STEREO_STENCIL; #endif else { error = true; printf("error: stereomode '%s' unrecognized.\n", argv[i]); } i++; } else { error = true; printf("error: too few options for stereo argument.\n"); } break; } case 'D': //dome mode { stereoFlag = STEREO_DOME; stereomode = RAS_IRasterizer::RAS_STEREO_DOME; i++; if ((i + 1) <= validArguments) { if (!strcmp(argv[i], "angle")) { i++; domeFov = atoi(argv[i++]); } if (!strcmp(argv[i], "tilt")) { i++; domeTilt = atoi(argv[i++]); } if (!strcmp(argv[i], "warpdata")) { i++; domeWarp = argv[i++]; } if (!strcmp(argv[i], "mode")) { i++; if (!strcmp(argv[i], "fisheye")) domeMode = DOME_FISHEYE; else if (!strcmp(argv[i], "truncatedfront")) domeMode = DOME_TRUNCATED_FRONT; else if (!strcmp(argv[i], "truncatedrear")) domeMode = DOME_TRUNCATED_REAR; else if (!strcmp(argv[i], "cubemap")) domeMode = DOME_ENVMAP; else if (!strcmp(argv[i], "sphericalpanoramic")) domeMode = DOME_PANORAM_SPH; else printf("error: %s is not a valid dome mode.\n", argv[i]); } i++; } break; } default: //not recognized { printf("Unknown argument: %s\n", argv[i++]); break; } } } else { i++; } } if ((windowWidth < kMinWindowWidth) || (windowHeight < kMinWindowHeight)) { error = true; printf("error: window size too small.\n"); } if (error ) { usage(argv[0], isBlenderPlayer); return 0; } #ifdef WIN32 if (scr_saver_mode != SCREEN_SAVER_MODE_CONFIGURATION) #endif { // Create the system if (GHOST_ISystem::createSystem() == GHOST_kSuccess) { GHOST_ISystem* system = GHOST_ISystem::getSystem(); assertd(system); if (!fullScreenWidth || !fullScreenHeight) system->getMainDisplayDimensions(fullScreenWidth, fullScreenHeight); // process first batch of events. If the user // drops a file on top off the blenderplayer icon, we // receive an event with the filename system->processEvents(0); // this bracket is needed for app (see below) to get out // of scope before GHOST_ISystem::disposeSystem() is called. { int exitcode = KX_EXIT_REQUEST_NO_REQUEST; STR_String exitstring = ""; GPG_Application app(system); bool firstTimeRunning = true; char filename[FILE_MAX]; char pathname[FILE_MAX]; char *titlename; get_filename(argc_py_clamped, argv, filename); if (filename[0]) BLI_path_cwd(filename); // fill the GlobalSettings with the first scene files // those may change during the game and persist after using Game Actuator GlobalSettings gs; do { // Read the Blender file BlendFileData *bfd; // if we got an exitcode 3 (KX_EXIT_REQUEST_START_OTHER_GAME) load a different file if (exitcode == KX_EXIT_REQUEST_START_OTHER_GAME) { char basedpath[FILE_MAX]; // base the actuator filename relative to the last file BLI_strncpy(basedpath, exitstring.Ptr(), sizeof(basedpath)); BLI_path_abs(basedpath, pathname); bfd = load_game_data(basedpath); if (!bfd) { // just add "//" in front of it char temppath[FILE_MAX] = "//"; BLI_strncpy(temppath + 2, basedpath, FILE_MAX - 2); BLI_path_abs(temppath, pathname); bfd = load_game_data(temppath); } } else { bfd = load_game_data(BKE_appdir_program_path(), filename[0]? filename: NULL); } #if defined(DEBUG) printf("Game data loaded from %s\n", filename); #endif if (!bfd) { usage(argv[0], isBlenderPlayer); error = true; exitcode = KX_EXIT_REQUEST_QUIT_GAME; } else { /* Setting options according to the blend file if not overriden in the command line */ #ifdef WIN32 #if !defined(DEBUG) if (closeConsole) { system->toggleConsole(0); // Close a console window } #endif // !defined(DEBUG) #endif // WIN32 Main *maggie = bfd->main; Scene *scene = bfd->curscene; G.main = maggie; if (firstTimeRunning) { G.fileflags = bfd->fileflags; gs.matmode= scene->gm.matmode; gs.glslflag= scene->gm.flag; } //Seg Fault; icon.c gIcons == 0 BKE_icons_init(1); titlename = maggie->name; // Check whether the game should be displayed full-screen if ((!fullScreenParFound) && (!windowParFound)) { // Only use file settings when command line did not override if ((scene->gm.playerflag & GAME_PLAYER_FULLSCREEN)) { //printf("fullscreen option found in Blender file\n"); fullScreen = true; fullScreenWidth= scene->gm.xplay; fullScreenHeight= scene->gm.yplay; fullScreenFrequency= scene->gm.freqplay; fullScreenBpp = scene->gm.depth; } else { fullScreen = false; windowWidth = scene->gm.xplay; windowHeight = scene->gm.yplay; } } // Check whether the game should be displayed in stereo (dome included) if (!stereoParFound) { // Only use file settings when command line did not override if (scene->gm.stereoflag == STEREO_ENABLED) { stereomode = (RAS_IRasterizer::StereoMode) scene->gm.stereomode; if (stereomode == RAS_IRasterizer::RAS_STEREO_QUADBUFFERED) stereoWindow = true; } } else { scene->gm.stereoflag = STEREO_ENABLED; } if (!samplesParFound) aasamples = scene->gm.aasamples; // Dome specific settings if (stereoFlag == STEREO_DOME) { stereomode = RAS_IRasterizer::RAS_STEREO_DOME; scene->gm.stereoflag = STEREO_DOME; if (domeFov > 89) scene->gm.dome.angle = domeFov; if (domeTilt > -180) scene->gm.dome.tilt = domeTilt; if (domeMode > 0) scene->gm.dome.mode = domeMode; if (domeWarp) { //XXX to do: convert relative to absolute path domeText= BKE_text_load(G.main, domeWarp, ""); if (!domeText) printf("error: invalid warpdata text file - %s\n", domeWarp); else scene->gm.dome.warptext = domeText; } } // GPG_Application app (system, maggie, startscenename); app.SetGameEngineData(maggie, scene, &gs, argc, argv); /* this argc cant be argc_py_clamped, since python uses it */ BLI_strncpy(pathname, maggie->name, sizeof(pathname)); if (G.main != maggie) { BLI_strncpy(G.main->name, maggie->name, sizeof(G.main->name)); } #ifdef WITH_PYTHON setGamePythonPath(G.main->name); #endif if (firstTimeRunning) { firstTimeRunning = false; if (fullScreen) { #ifdef WIN32 if (scr_saver_mode == SCREEN_SAVER_MODE_SAVER) { app.startScreenSaverFullScreen(fullScreenWidth, fullScreenHeight, fullScreenBpp, fullScreenFrequency, stereoWindow, stereomode, aasamples); } else #endif { app.startFullScreen(fullScreenWidth, fullScreenHeight, fullScreenBpp, fullScreenFrequency, stereoWindow, stereomode, aasamples, (scene->gm.playerflag & GAME_PLAYER_DESKTOP_RESOLUTION)); } } else { #ifdef __APPLE__ // on Mac's we'll show the executable name instead of the 'game.blend' name char tempname[1024], *appstring; ::strcpy(tempname, titlename); appstring = strstr(tempname, ".app/"); if (appstring) { appstring[2] = 0; titlename = &tempname[0]; } #endif // Strip the path so that we have the name of the game file STR_String path = titlename; #ifndef WIN32 vector<STR_String> parts = path.Explode('/'); #else // WIN32 vector<STR_String> parts = path.Explode('\\'); #endif // WIN32 STR_String title; if (parts.size()) { title = parts[parts.size()-1]; parts = title.Explode('.'); if (parts.size() > 1) { title = parts[0]; } } else { title = "blenderplayer"; } #ifdef WIN32 if (scr_saver_mode == SCREEN_SAVER_MODE_PREVIEW) { app.startScreenSaverPreview(scr_saver_hwnd, stereoWindow, stereomode, aasamples); } else #endif { if (parentWindow != 0) app.startEmbeddedWindow(title, parentWindow, stereoWindow, stereomode, aasamples); else app.startWindow(title, windowLeft, windowTop, windowWidth, windowHeight, stereoWindow, stereomode, aasamples); if (SYS_GetCommandLineInt(syshandle, "nomipmap", 0)) { GPU_set_mipmap(0); } GPU_set_anisotropic(U.anisotropic_filter); GPU_set_gpu_mipmapping(U.use_gpu_mipmap); } } } else { app.StartGameEngine(stereomode); exitcode = KX_EXIT_REQUEST_NO_REQUEST; } // Add the application as event consumer system->addEventConsumer(&app); // Enter main loop bool run = true; char *python_main = NULL; pynextframestate.state = NULL; pynextframestate.func = NULL; #ifdef WITH_PYTHON python_main = KX_GetPythonMain(scene); #endif // WITH_PYTHON if (python_main) { char *python_code = KX_GetPythonCode(maggie, python_main); if (python_code) { #ifdef WITH_PYTHON gpg_nextframestate.system = system; gpg_nextframestate.app = &app; gpg_nextframestate.gs = &gs; pynextframestate.state = &gpg_nextframestate; pynextframestate.func = &GPG_PyNextFrame; printf("Yielding control to Python script '%s'...\n", python_main); PyRun_SimpleString(python_code); printf("Exit Python script '%s'\n", python_main); #endif // WITH_PYTHON MEM_freeN(python_code); } else { fprintf(stderr, "ERROR: cannot yield control to Python: no Python text data block named '%s'\n", python_main); } } else { while (run) { run = GPG_NextFrame(system, &app, exitcode, exitstring, &gs); } } app.StopGameEngine(); /* 'app' is freed automatic when out of scope. * removal is needed else the system will free an already freed value */ system->removeEventConsumer(&app); BLO_blendfiledata_free(bfd); /* G.main == bfd->main, it gets referenced in free_nodesystem so we can't have a dangling pointer */ G.main = NULL; if (python_main) MEM_freeN(python_main); } } while (exitcode == KX_EXIT_REQUEST_RESTART_GAME || exitcode == KX_EXIT_REQUEST_START_OTHER_GAME); } // Seg Fault; icon.c gIcons == 0 BKE_icons_free(); // Dispose the system GHOST_ISystem::disposeSystem(); } else { error = true; printf("error: couldn't create a system.\n"); } } /* refer to WM_exit_ext() and free_blender(), * these are not called in the player but we need to match some of there behavior here, * if the order of function calls or blenders state isn't matching that of blender proper, * we may get troubles later on */ free_nodesystem(); // Cleanup RNA_exit(); BLF_exit(); #ifdef WITH_INTERNATIONAL BLF_free_unifont(); BLF_free_unifont_mono(); BLF_lang_free(); #endif IMB_exit(); BKE_images_exit(); DAG_exit(); IMB_moviecache_destruct(); SYS_DeleteSystem(syshandle); int totblock= MEM_get_memory_blocks_in_use(); if (totblock!=0) { printf("Error Totblock: %d\n",totblock); MEM_set_error_callback(mem_error_cb); MEM_printmemlist(); } BKE_tempdir_session_purge(); return error ? -1 : 0; }