DisplayDriverFactory::DisplayDriverFactory () : m_impl (new Impl) { add_driver ("stdout", stdout_driver_new); #if defined(HAVE_SDL) add_driver ("sdl", sdl_driver_new); add_driver ("stdout_sdl", stdout_sdl_driver_new); #endif }
struct iodriver *disksim_iodriver_loadparams(struct lp_block *b) { iodriver *result; if (disksim->iodriver_info == NULL) { disksim->iodriver_info = malloc (sizeof(iodriver_info_t)); bzero ((char *)disksim->iodriver_info, sizeof(iodriver_info_t)); } overallqueue = ioqueue_createdefaultqueue (); result = malloc(sizeof(iodriver)); bzero(result, sizeof(iodriver)); add_driver(result); result->name = strdup(b->name); //#include "modules/disksim_iodriver_param.c" lp_loadparams(result, b, &disksim_iodriver_mod); result->scale = 0.0; return result; }
void Line::set_num_of_vehicles( int n_vehicles ) { if (n_vehicles<0) { n_vehicles = 0; } int count = n_vehicles-num_of_vehicles(); if (count > 0) { while (count-- > 0) { add_driver( *GenerateDriver( &Driver(Vehicle()), my_road_,index())); } reorder(); } else { while (count++ < 0) { drivers_->pop_back(); } reorder(); } }
static int add_drivers() { int size; int n = 0; /* initialize hash table */ if (getcfg(cfg_file, "device_driver_table_size", &size, GETCFG_INT32) != 0) size = DRIVER_TABLE_SIZE; driver_table = hash_init(size, hash_func_driver); if (driver_table == NULL) return -1; /* load device drivers into hash table */ char path[PATH_MAX], prefix[32]; getcfg(cfg_file, "device_lib_path", path, GETCFG_STR); getcfg(cfg_file, "device_lib_name_prefix", prefix, GETCFG_STR); char *names = lookup_so(path, prefix); if (names == NULL) { syslog(LOG_ERR, "nono driver found"); return -1; } buf_t *pb = openbuf(names, strlen(names)); if (pb == NULL) { free(names); return -1; } char *line; while ((line = readbuf(pb, "\n")) != NULL) { if (add_driver(line) == 0) n++; } closebuf(pb); free(names); if (n == 0) { syslog(LOG_ERR, "none driver loaded"); return -1; } return 0; }
/* load the specified file, and create the driver struct */ SDL_bool dr_load_driver(char *filename) { FILE *f; LIST *i; f=fopen(filename,"r"); if (!f) { printf("Couldn't find %s\n",filename); return SDL_FALSE; } while(goto_next_driver(f)==SDL_TRUE) { add_driver(f); } //list_foreach(driver_list,print_driver); fclose(f); return SDL_TRUE; }
struct iodriver *disksim_iodriver_loadparams(struct lp_block *b) { iodriver *result; if (disksim->iodriver_info == NULL) { disksim->iodriver_info = (struct iodriver_info *)calloc (1, sizeof(iodriver_info_t)); } OVERALLQUEUE = ioqueue_createdefaultqueue (); result = (iodriver *)calloc(1, sizeof(iodriver)); add_driver(result); result->name = strdup(b->name); //#include "modules/disksim_iodriver_param.c" lp_loadparams(result, b, &disksim_iodriver_mod); result->scale = 0.0; return result; }
void Line::time_for_add_driver() { add_driver(*GenerateDriver(&Driver(Vehicle()),my_road_,index_,REAL_METERS)); reorder(); processed_count_=0; }
void main(void) { /* logger_init() */ /*uart_get(3, &uart3); uart_protocol_format_t protocol; protocol.baudrate = 0x001A; //115.2Kbps 138; //9.6 Kbps protocol.stopbit = 0x0; //1 stop bit protocol.datalen = 0x3; //length 8 protocol.use_parity = 0x0; uart_init(&uart3, 0x00, protocol); //irq_add_handler(UART3_INTCPS_MAPPING_ID, &uart3_irq_handler); logger_debug("\r\n\r\nSystem initialize ..."); logger_logmode();*/ ram_manager_init(); mmu_table_t* page_table = mmu_init(); /* init led stuff */ turnoff_rgb(); process_manager_init(page_table); binaries[0] = osx_init(&BINARY_driver_manager, &mem_elf_read); driver_manager = process_manager_start_process_bybinary(binaries[0], PROCESS_PRIORITY_HIGH, PROCESS_DRIVER_MANAGER_NAME); /* add drivers to the driver manager */ binaries[1] = osx_init(&BINARY_gpio, &mem_elf_read); // add_driver(binaries[1], "GPIO", GPIO5); /* add drivers to the driver manager */ binaries[4] = osx_init(&BINARY_uart, &mem_elf_read); // add_driver(binaries[4], "UART 21", UART1); add_driver(binaries[4], "UART 22", UART2); // add_driver(binaries[4], "UART 23", UART3); binaries[2] = osx_init(&BINARY_led0_user, &mem_elf_read); //process_manager_start_process_bybinary(binaries[2], PROCESS_PRIORITY_HIGH, "LED(fast) 21 100 100"); //process_manager_start_process_bybinary(binaries[2], PROCESS_PRIORITY_HIGH, "LED(slow) 22 1000"); dmx_uart_set_send_mode(); //TODO: remove //binaries[3] = osx_init(&BINARY_uart2_user, &mem_elf_read); //process_manager_start_process_bybinary(binaries[3], PROCESS_PRIORITY_HIGH, "UART2_user_proc"); //binaries[3] = osx_init(&BINARY_dmx, &mem_elf_read); // TODO: add_driver(binaries[3], "DMX", DMX); //process_manager_start_process_bybinary(binaries[3], PROCESS_PRIORITY_HIGH, "DMX"); binaries[3] = osx_init(&BINARY_tty, &mem_elf_read); process_manager_start_process_bybinary(binaries[3], PROCESS_PRIORITY_HIGH, "tty 23"); binaries[5] = osx_init(&BINARY_cpu_info, &mem_elf_read); process_manager_start_process_bybinary(binaries[5], PROCESS_PRIORITY_HIGH, "CPU_INFO"); binaries[6] = osx_init(&BINARY_dmx, &mem_elf_read); add_driver(binaries[6], "DMX 5", DMX); // binaries[7] = osx_init(&BINARY_dmx_user, &mem_elf_read); // process_manager_start_process_bybinary(binaries[7], PROCESS_PRIORITY_HIGH, "DMX_User_app 5"); binaries[8] = osx_init(&BINARY_dmx_control, &mem_elf_read); process_manager_start_process_bybinary(binaries[8], PROCESS_PRIORITY_HIGH, "DMX_Control 5"); logger_debug("System started ..."); system_main_loop(); }