int os_main(int argc, char* argv[]) { adv_crtc_container selected; adv_crtc_container_iterator i; const char* opt_rc; adv_bool opt_log; adv_bool opt_logsync; int j; adv_error res; char* section_map[1]; char buffer[1024]; opt_rc = 0; opt_log = 0; opt_logsync = 0; the_advance = advance_mame; the_sound_flag = 1; the_config = conf_init(); if (os_init(the_config)!=0) { target_err("Error initializing the OS support.\n"); goto err_conf; } video_reg(the_config, 1); monitor_register(the_config); crtc_container_register(the_config); generate_interpolate_register(the_config); gtf_register(the_config); inputb_reg(the_config, 1); inputb_reg_driver_all(the_config); /* MSDOS requires a special driver sub set */ #ifndef __MSDOS__ video_reg_driver_all(the_config); #endif if (conf_input_args_load(the_config, 1, "", &argc, argv, error_callback, 0) != 0) goto err_os; for(j=1;j<argc;++j) { if (target_option_compare(argv[j], "rc") && j+1<argc) { opt_rc = argv[++j]; } else if (target_option_compare(argv[j], "log")) { opt_log = 1; } else if (target_option_compare(argv[j], "logsync")) { opt_logsync = 1; } else if (target_option_compare(argv[j], "nosound")) { the_sound_flag = 0; } else if (target_option_compare(argv[j], "advmamev")) { the_advance = advance_mame; } else if (target_option_compare(argv[j], "advmessv")) { the_advance = advance_mess; } else if (target_option_compare(argv[j], "advpacv")) { the_advance = advance_pac; } else if (target_option_compare(argv[j], "advmenuv")) { the_advance = advance_menu; #ifdef __MSDOS__ } else if (target_option_compare(argv[j], "vgav")) { the_advance = advance_vga; } else if (target_option_compare(argv[j], "vbev")) { the_advance = advance_vbe; #endif #ifdef __WIN32__ } else if (target_option_compare(argv[j], "videowv")) { the_advance = advance_videow; #endif } else { target_err("Unknown option %s\n", argv[j]); goto err; } } #ifdef __MSDOS__ /* WARNING the MSDOS drivers are registered after the command line management. */ /* It implyes that you cannot specify any driver options on the command line */ msdos_rut(); if (the_advance == advance_vga) { if (the_advance_vga_active) { target_err("The AdvanceVGA utility is active. Disable it before running vgav.\n"); goto err; } video_reg_driver(the_config, &video_vgaline_driver); } else if (the_advance == advance_vbe) { if (the_advance_vbe_active) { target_err("The AdvanceVBE utility is active. Disable it before running vbev.\n"); goto err; } video_reg_driver(the_config, &video_vbeline_driver); video_reg_driver(the_config, &video_vgaline_driver); /* for the text modes */ } else { video_reg_driver_all(the_config); } #endif if (!opt_rc) { switch (the_advance) { case advance_vbe : opt_rc = "vbe.rc"; break; case advance_vga : opt_rc = "vga.rc"; break; case advance_menu : opt_rc = file_config_file_home("advmenu.rc"); break; case advance_mame : opt_rc = file_config_file_home("advmame.rc"); break; case advance_mess : opt_rc = file_config_file_home("advmess.rc"); break; case advance_pac : opt_rc = file_config_file_home("advpac.rc"); break; case advance_videow : opt_rc = file_config_file_home("videow.rc"); break; default : opt_rc = "advv.rc"; break; } } if (access(opt_rc, R_OK)!=0) { target_err("Configuration file %s not found.\n", opt_rc); goto err_os; } if (conf_input_file_load_adv(the_config, 0, opt_rc, opt_rc, 1, 1, STANDARD, sizeof(STANDARD)/sizeof(STANDARD[0]), error_callback, 0) != 0) goto err_os; if (opt_log || opt_logsync) { const char* log = "advv.log"; remove(log); log_init(log, opt_logsync); } log_std(("v: %s %s\n", __DATE__, __TIME__)); section_map[0] = ""; conf_section_set(the_config, section_map, 1); if (video_load(the_config, "") != 0) { target_err("Error loading the video options from the configuration file %s.\n", opt_rc); target_err("%s\n", error_get()); goto err_os; } if (inputb_load(the_config) != 0) { target_err("%s\n", error_get()); goto err_os; } /* NOTE: After this command all the target_err() string must */ /* have \n\r at the end to ensure correct newline in graphics mode. */ if (os_inner_init("AdvanceVIDEO") != 0) { goto err_os; } if (adv_video_init() != 0) { target_err("%s\n\r", error_get()); troubleshotting(); goto err_os_inner; } if (video_blit_init() != 0) { target_err("%s\n\r", error_get()); goto err_video; } if (the_advance != advance_vbe && the_advance != advance_vga) { if ((video_mode_generate_driver_flags(VIDEO_DRIVER_FLAGS_MODE_GRAPH_MASK, 0) & VIDEO_DRIVER_FLAGS_PROGRAMMABLE_CLOCK) == 0) { target_err("No active video driver is able to program your video board.\n\r"); troubleshotting(); goto err_blit; } } if (inputb_init() != 0) { target_err("%s\n\r", error_get()); goto err_blit; } if (monitor_load(the_config, &the_monitor) != 0) { target_err("Error loading the clock options from the configuration file %s.\n\r", opt_rc); target_err("%s\n\r", error_get()); goto err_input; } monitor_print(buffer, sizeof(buffer), &the_monitor); log_std(("v: clock %s\n", buffer)); /* load generate_linear config */ res = generate_interpolate_load(the_config, &the_interpolate); if (res<0) { target_err("Error loading the format options from the configuration file %s.\n\r", opt_rc); target_err("%s\n\r", error_get()); goto err_input; } if (res>0) { generate_default_vga(&the_interpolate.map[0].gen); the_interpolate.map[0].hclock = 31500; the_interpolate.mac = 1; } /* load generate_linear config */ res = gtf_load(the_config, &the_gtf); if (res<0) { target_err("Error loading the gtf options from the configuration file %s.\n\r", opt_rc); target_err("%s\n\r", error_get()); goto err_input; } if (res>0) { gtf_default_vga(&the_gtf); } /* all mode */ crtc_container_init(&selected); /* insert modes */ crtc_container_insert_default_all(&selected); /* sort */ crtc_container_init(&the_modes); for(crtc_container_iterator_begin(&i, &selected);!crtc_container_iterator_is_end(&i);crtc_container_iterator_next(&i)) { adv_crtc* crtc = crtc_container_iterator_get(&i); crtc_container_insert_sort(&the_modes, crtc, crtc_compare); } crtc_container_done(&selected); /* load selected */ crtc_container_init(&selected); if (crtc_container_load(the_config, &selected) != 0) { target_err("%s\n\r", error_get()); goto err_input; } /* union set */ for(crtc_container_iterator_begin(&i, &selected);!crtc_container_iterator_is_end(&i);crtc_container_iterator_next(&i)) { adv_crtc* crtc = crtc_container_iterator_get(&i); adv_bool has = crtc_container_has(&the_modes, crtc, crtc_compare) != 0; if (has) crtc_container_remove(&the_modes, crtc_select_by_compare, crtc); crtc->user_flags |= MODE_FLAGS_USER_BIT0; crtc_container_insert_sort(&the_modes, crtc, crtc_compare); } crtc_container_done(&selected); the_modes_modified = 0; if (text_init(&the_modes, &the_monitor) != 0) { goto err_input; } if (inputb_enable(0) != 0) { goto err_text; } sound_signal(); menu_run(); log_std(("v: shutdown\n")); inputb_disable(); text_done(); crtc_container_done(&the_modes); inputb_done(); video_blit_done(); adv_video_done(); os_inner_done(); log_std(("v: the end\n")); if (opt_log || opt_logsync) { log_done(); } os_done(); conf_save(the_config, 0, 0, error_callback, 0); conf_done(the_config); return EXIT_SUCCESS; err_text: text_done(); err_input: inputb_done(); err_blit: video_blit_done(); err_video: adv_video_done(); err_os_inner: os_inner_done(); err_os: if (opt_log || opt_logsync) { log_done(); } os_done(); err_conf: conf_done(the_config); err: return EXIT_FAILURE; }
int os_main(int argc, char* argv[]) { int keyboard_id; adv_conf* context; const char* s; char* section_map[1]; const char** file_map; unsigned file_mac; int i; double latency_time; double buffer_time; double volume; unsigned rate; int attenuation; adv_bool opt_log; adv_bool opt_logsync; opt_log = 0; opt_logsync = 0; file_map = 0; file_mac = 0; context = conf_init(); if (os_init(context) != 0) goto err_conf; mixer_reg(context); conf_int_register_limit_default(context, "sound_volume", -32, 0, 0); conf_int_register_limit_default(context, "sound_samplerate", 5000, 96000, 44100); conf_float_register_limit_default(context, "sound_latency", 0.01, 2.0, 0.1); conf_float_register_limit_default(context, "sound_buffer", 0.05, 2.0, 0.1); if (conf_input_args_load(context, 0, "", &argc, argv, error_callback, 0) != 0) goto err_os; file_map = malloc(argc * sizeof(const char*)); for(i=1;i<argc;++i) { if (target_option_compare(argv[i], "log")) { opt_log = 1; } else if (target_option_compare(argv[i], "logsync")) { opt_logsync = 1; } else if (target_option_extract(argv[i]) == 0) { file_map[file_mac++] = argv[i]; } else { target_err("Unknown command line option '%s'.\n", argv[i]); goto err_os; } } if (argc <= 1 || file_mac == 0) { target_err("Syntax: advs FILES...\n"); goto err_os; } if (opt_log || opt_logsync) { const char* log = "advs.log"; remove(log); log_init(log, opt_logsync); } section_map[0] = ""; conf_section_set(context, section_map, 1); if (mixer_load(context) != 0) { goto err_os; } attenuation = conf_int_get_default(context, "sound_volume"); latency_time = conf_float_get_default(context, "sound_latency"); buffer_time = conf_float_get_default(context, "sound_buffer"); rate = conf_int_get_default(context, "sound_samplerate"); volume = 1.0; while (attenuation++ < 0) volume /= 1.122018454; /* = (10 ^ (1/20)) = 1dB */ if (os_inner_init("AdvanceSOUND") != 0) goto err_os; if (file_mac > MIXER_CHANNEL_MAX) { target_err("Too many files\n"); goto err_os_inner; } if (mixer_init(rate, file_mac, 1, buffer_time + latency_time, latency_time) != 0) { target_err("%s\n", error_get()); goto err_os_inner; } mixer_volume(volume); for(i=0;i<file_mac;++i) run(i, file_map[i]); free(file_map); signal(SIGINT, sigint); while (!done) { for(i=0;i<file_mac;++i) if (mixer_is_playing(i)) break; if (i==file_mac) break; mixer_poll(); target_idle(); } log_std(("s: shutdown\n")); mixer_done(); os_inner_done(); log_std(("s: the end\n")); if (opt_log || opt_logsync) { log_done(); } os_done(); conf_done(context); return EXIT_SUCCESS; err_os_inner: os_inner_done(); log_done(); err_os: os_done(); err_conf: conf_done(context); err: return EXIT_FAILURE; }
int os_main(int argc, char* argv[]) { int i; adv_conf* context; const char* section_map[1]; adv_bool opt_log; adv_bool opt_logsync; opt_log = 0; opt_logsync = 0; context = conf_init(); if (os_init(context) != 0) goto err_conf; joystickb_reg(context, 1); joystickb_reg_driver_all(context); if (conf_input_args_load(context, 0, "", &argc, argv, error_callback, 0) != 0) goto err_os; for (i = 1; i < argc; ++i) { if (target_option_compare(argv[i], "log")) { opt_log = 1; } else if (target_option_compare(argv[i], "logsync")) { opt_logsync = 1; } else { fprintf(stderr, "Unknown argument '%s'\n", argv[1]); goto err_os; } } if (opt_log || opt_logsync) { const char* log = "advj.log"; remove(log); log_init(log, opt_logsync); } log_std(("j: %s %s %s %s\n", "AdvanceJOYSTICK", ADV_VERSION, __DATE__, __TIME__)); section_map[0] = ""; conf_section_set(context, section_map, 1); if (joystickb_load(context) != 0) goto err_os; if (os_inner_init("AdvanceJOYSTICK") != 0) goto err_os; if (joystickb_init() != 0) { target_err("%s\n", error_get()); goto err_os_inner; } probe(); calibrate(); run(); joystickb_done(); os_inner_done(); log_std(("j: the end\n")); if (opt_log || opt_logsync) { log_done(); } os_done(); conf_done(context); return EXIT_SUCCESS; err_os_inner: os_inner_done(); log_done(); err_os: os_done(); err_conf: conf_done(context); return EXIT_FAILURE; }