int error_boss(char *map) { char *file; char **tab; int width; int height; if (check_existence(map) == -1 || (file = get_file_content(map)) == NULL || check_integer(file, "ibwsm.lg\n") == -1 || (file = put_return(file)) == NULL || (tab = my_str_to_wordtab(file, '\n')) == NULL || check_largest(tab) == -1 || is_present("i", file) != 1 || is_present("b", file) != 1 || check_tab(tab) == -1) return (puterror("One of Boss map isn't correct.\n")); width = my_strlen(tab[0]) * 29; height = tablen(tab) * 26; if (width > 1300 || height > 750) return (puterror("Error: Dimension are too big in Boss Map.\n")); free(file); free_tab(tab); return (0); }
void get_tab(int fd, t_env *e) { char **line; int ret; int i; int j; ret = 1; i = 0; line = malloc(sizeof(char*) * 1024); while (ret > 0) { ret = get_next_line(fd, &line[i]); if (ret > 0) i++; if (ret == -1) exit(0); } j = 0; e->tab = malloc(sizeof(char **) * (i + 1)); while (i) { e->tab[j] = ft_strsplit(line[j], ' '); i--; j++; } e->tab[j] = NULL; check_tab(e); }
int main(int argc, char **argv, char **envp) { t_tabnfo *tabnfo; t_maxsquare *maxsquare; argc = argc; if (load_termcaps(envp) == -1) return (-1); if ((tabnfo = malloc(sizeof(t_tabnfo))) == NULL) return (-1); if ((maxsquare = malloc(sizeof(t_maxsquare))) == NULL) return (-1); if (make_tab(argv[1], tabnfo) == -1) return (-1); if (check_tab(tabnfo) == -1) return (-1); if (find_maxsquare(tabnfo, maxsquare) == -1) { my_printf("no possible square"); return (-1); } my_printf("FOUND:\n"); make_maxsquare(tabnfo, maxsquare); display_tab(tabnfo); free_tabnfo(tabnfo); return (0); }
int main(int ac, char **av) { unsigned int *tab; unsigned int bottom; unsigned int right; if (ac > 2) print_usage(); else { if (!(tab = (unsigned int *)ft_memalloc(sizeof(int) * 27))) return ((int)NULL); ft_bzero(tab, 27); if (read_file(av[1], tab) == -1) return (-1); move_resetall(tab); if (check_tab(tab) == -1) ft_putstr("error\n"); else { right = pos_getborder(tab[1], "right"); bottom = pos_getborder(tab[1], "bottom"); tab[0] = right > bottom ? right : bottom; (void)solve(tab, 1, 0); print_result(tab); } } return (0); }
int first_check(t_allum *allum, t_ia ia) { if (check_allum(allum, ia) == 2) return (0); if (check_tab(allum) == 2) return (0); return (1); }
int main() { int connfd,listenfd; int port; char *send_ip; char data[LEN]; port = init_route(); listenfd = rec_connect(port); connfd = accept(listenfd,(struct sockaddr*)NULL,NULL); if (connfd >= 0) printf("Route connect OK!\n"); while (read(connfd,data,LEN) > 0) { char s_ip[IP_LEN + 1],d_ip[IP_LEN + 1]; memcpy(s_ip,data,IP_LEN); memcpy(d_ip,data + IP_LEN,IP_LEN); for (int i = 0; i < IP_LEN; i++) if (s_ip[i] == '$') { s_ip[i] = '\0'; break; } s_ip[IP_LEN] = '\0'; for (int i = 0; i < IP_LEN; i++) if (d_ip[i] == '$') { d_ip[i] = '\0'; break; } d_ip[IP_LEN] = '\0'; printf("**********source IP destination IP***************\n"); printf(" %s %s \n",s_ip,d_ip); send_ip = check_tab(d_ip);//check the routing table. if (strcmp(send_ip,"127.0.0.1") == 0) send_data(data,send_ip,H_PORT); else send_data(data,send_ip,R_PORT); close(connfd); data[0] = '\0'; connfd = accept(listenfd,(struct sockaddr*)NULL,NULL); } }
static int cache_fd(const int fd, char **buf, char **tab, char **line) { int ret; int i; char *temp; char *temp2; i = 0; ret = 1; temp = line[0]; temp2 = NULL; if ((ret = check_tab(&tab[fd], line, buf)) != 3) return (ret); else { if ((ret = read(fd, buf[0], BUFF_SIZE)) != 0) { if (ret < 0) return (ret); return (parse_read(&tab[fd], buf, line, NULL)); } } return (ft_strlen(*line) == 0 ? 0 : 1); }
void parse_args(int ac, char **av) { int *val; int i; char **name_team; int ret; val = xmalloc(sizeof(int) * OPT_INT); bzero(val, OPT_INT * sizeof(int)); name_team = (i = 1) ? NULL : NULL; while (i < ac) { if ((ret = check_tab(i, ac, av)) != -1) val[ret] = atoi(av[i + 1]); else if (strcmp(av[i], "-n") == 0) name_team = manage_team(name_team, av, &i); else printf("unknow parameter :%s\n", av[i]); i += 2; } if (print_code_error(check_name_team(name_team)) == -1) exit(EXIT_FAILURE); run_server(check(val, name_team)); }