char *irq_ops(char *last_record, char *curr_record, time_t last_time, time_t curr_time, int data_type, int output_type) { unsigned long itv; char buf[MAX_LINE_LEN]; int pos = 0; unsigned int i = 0; /* if statistic structure is not inited, we will alloc space here */ int nr = count_irq_nr(last_record); if (!f_init) { init_structure(nr); f_init = TRUE; } CALITV(last_time, curr_time, itv); stats_irq temp_si = s_st_irq; char last_mnt[MAX_STRING_LEN] = {0}; char curr_mnt[MAX_STRING_LEN] = {0}; if(*last_record == '\0') { /* first record */ } else { while((last_record = getitem(last_record, last_mnt)) != NULL && (curr_record = getitem(curr_record, curr_mnt)) != NULL) { __irq_ops(last_mnt , curr_mnt, data_type, output_type, temp_si, buf + pos, &pos, itv, i); i++; temp_si++; memset(last_mnt, '0', MAX_STRING_LEN); memset(curr_mnt, '0', MAX_STRING_LEN); } } buf[pos] = '\0'; return(strdup(buf)); }
int main(int argc, char *argv[]){ ij_net_t G1, G2; int N, m, m0, k_max; coupling_t matr; double gamma; distr_t delay_distr; char str[256]; if (argc < 9){ printf("Usage: %s <N> <m> <m0> <outfile> <a> <b> <c> <d>\n", argv[0]); exit(1); } srand(time(NULL)); /* Diagonal coupling */ matr.a = atof(argv[5]); matr.b = atof(argv[6]); matr.c = atof(argv[7]); matr.d = atof(argv[8]); N = atoi(argv[1]); m = atoi(argv[2]); m0 = atoi(argv[3]); G1.size = (N+m0) * m; G2.size = (N+m0) * m; init_structure(&G1, N); init_structure(&G2, N); G1.K = init_network(&G1, m0); G2.K = init_network(&G2, m0); init_times_delta(&G2, N); //dump_times(&G2, N); fprintf(stderr, "Init finished!\n"); grow_multi_net_delta(&G1, &G2, N, m, m0, &matr); //printf("### G1\n"); sprintf(str, "%s_layer1.txt", argv[4]); dump_network_to_file(&G1, str); //printf("### G2\n"); sprintf(str, "%s_layer2.txt", argv[4]); dump_network_to_file(&G2, str); /* dump_network_to_file(S, S_num, argv[4]); */ /* printf("Network dumped!\n"); */ /* k_max = degree_distr(S, S_num, &distr); */ /* printf("k_max is: %d\n", k_max); */ /* dump_distr_to_file(distr, k_max, argv[5]); */ }