int main(int argc, char **argv){ if(pthread_mutex_init(&mutex,NULL)!=0){ return -1; } setbuf(stdout,NULL); if(argc != 6){ helpinfo(); return -1; } benchmarkargs args = (benchmarkargs)zmalloc(sizeof(struct benchmarkargs_)); args->ip = (char *)zmalloc(sizeof(argv[1])); strcpy(args->ip, argv[1]); args->port = atoi(argv[2]); args->thread_num = atoi(argv[3]); args->client_num = atoi(argv[4]); args->test_time = atof(argv[5]); easysocketbenchmarkthreadpool(args); long int start_time = easysocketbenchmark::getcurrenttime(); long int end_time = easysocketbenchmark::getcurrenttime(); long int total_test_time = args->test_time*60*1000; while(end_time - start_time < total_test_time){ //wait 100ms usleep(100000); end_time = easysocketbenchmark::getcurrenttime(); } double avglatency = (double)total_res_time/(double)total_res; testreport(args->thread_num, args->client_num, args->test_time, total_req, total_res, total_err, avglatency, below_10, between_10_20, between_20_30, over_30); return 0; }
int main(int ac,char **av) { int mempoolsize=1024*1024; SE *code; int c; if(ac>1) { while((c=getopt(ac,av,"vh?p:"))!=-1) { switch(c) { case 'v': versioninfo(stdout,av[0]); return 0; case '?': case 'h': versioninfo(stdout,av[0]); helpinfo(stdout,av[0]); return 0; case 'p': mempoolsize=atoi(optarg); break; default: helpinfo(stdout,av[0]); return 1; } } } init_mempool(mempoolsize); init_symbols_list(); gather_symbols((code=read_se(stdin))); assemble(code,stdout,1); printf("\n"); return 0; }
int main(int ac, char **av) { FILE *codefile=stdin; int mempoolsize=1024*1024; int c; SE *prog,*result; silent=0; if(ac<2) { versioninfo(stderr,av[0]); helpinfo(stderr,av[0]); return 1; } while((c=getopt(ac,av,"svch?p:"))!=-1) { switch(c) { case 's': silent=1; break; case 'c': conscellinfo(stdout,av[0]); return 0; case 'v': versioninfo(stdout,av[0]); return 0; case '?': case 'h': versioninfo(stdout,av[0]); helpinfo(stdout,av[0]); return 0; case 'p': mempoolsize=atoi(optarg); break; default: // versioninfo(stderr,av[0]); // helpinfo(stdout,av[0]); return 1; } } if((codefile=fopen(av[optind],"r"))) { if(silent!=1) printf("Initializing mempool (%d cells)...\n",mempoolsize); init_mempool(mempoolsize); if(silent!=1) printf("Loading code from %s...\n",av[optind]); prog=read_se(codefile); if(silent!=1) printf("Allocating %d env-slot(s) for environments...\n",numval(car(prog))); Dreg=(SE **)malloc(sizeof(SE *)*numval(car(prog))); Rreg=NIL; Creg=NIL; C_push(cdr(prog)); if(silent!=1) printf("Running the machine.\n"); result=run(); if(silent!=1) printf("Result: "); write_se(result,stdout); printf("\n"); // ? if(silent!=1) printf("\nAuf wiedersehen!\n"); return 0; } else fprintf(stderr,"Could not open file %s.\n",av[optind]); return 1; }