int FileRet(int sock, uint64_t *elapsed) { int res; sendFile(TEMPFILE, sock); getTimeElapsed(); res=receiveFile(TEMPFILE, sock); *elapsed = getTimeElapsed(); cout<<"Time elapsed: "<< *elapsed << "\t res: " << res <<endl; return res; }
void updateNrender(){ float a, b; float time; u32 ms; getTimeElapsed(&ms); time = ms / 1000.f; getMousePosition(&a, &b); paddleX = s2p(a); paddleRot = s2p(b); static float rotate = 0; static float vx = 0, vy = -1, px = 0, py = 0, av =0; static char hasBounced = 0; rotate += av*time; px += time*vx, py += time*vy; square_rotateTo(ball, rotate); square_traslateTo(ball, px, py); square_traslateTo(paddle, paddleX, paddleY); square_rotateTo(paddle, paddleRot); squareList_update_pos(Sprites.squareList, buffer); //CHECK COLLISION :) if(hasBounced!= 1 && px <-1){ bounce(TAU/4, &vx, &vy, &av, 1.);hasBounced = 1; } if(hasBounced!=2 && px> 1){ bounce(-TAU/4, &vx, &vy, &av, 1.);hasBounced = 2;} if(hasBounced!=3 && py >1){ bounce(-TAU/2, &vx, &vy, &av, 1.); hasBounced = 3; } if(py <-1){ game_die(); } if(hasBounced!=4 && px<= paddleX+0.4 && px>=paddleX-0.4 && py<=paddleY+0.05 && py>=paddleY-0.05) { bounce(3/4*TAU-paddleRot, &vx, &vy, &av, 1.2); hasBounced = 4; score++; } puun_MouseClick click; getMouseClick(&click); puun_KEY key; getKeyboardKey(&key); if(click) printf("MOUSE CLICKED\n"); if(key.isPressed) printf("%c\n", key.key); glClearColor(1.0, 1.0, 1.0, 1.0); glClear(GL_COLOR_BUFFER_BIT|GL_DEPTH_BUFFER_BIT); renderSpriteList(Sprites); //uniImg.id = ballId; //uniImg.texnum = 0; //render_squareList(Squares, (Data)&uniImg, 1); puun_SWAP_BUFFERS(); //SDL_GL_SwapBuffers(); }
void Stopwatch::Print (std::ostream &out) const { long time = getTimeElapsed (); long h = time/3600000000L; long m = time/60000000L - h*60; float s = ((float)time/1000000L) - m*60 - h*3600; if (h > 0) out << h << "h"; if (m > 0) out << m << "m"; out << s << "s"; }
bool ApplicationManager::step() { float timeElapsed = getTimeElapsed(); m_globalTimeController->update(timeElapsed); switch(onStep()) { case APC_SYSTEM: return true; case APC_APPLICATION: break; case APC_EXIT: return false; } int numRunning = 0; int numActive = 0; for (AppsMap::iterator appIt = m_apps.begin(); appIt != m_apps.end(); ++appIt) { ApplicationNode& currNode = appIt->second; dispatchAppSignals(currNode); switch(currNode.state) { case AS_UNINITIALIZED: { // do nothing break; } case AS_BEING_HIBERNATED: { currNode.app.hibernate(); currNode.state = AS_HIBERNATED; break; } case AS_HIBERNATED: { break; } case AS_BEING_DEHIBERNATED: { currNode.app.dehibernate(); currNode.state = AS_RUNNING; break; } case AS_SCHEDULED: { currNode.app.initialize(); currNode.state = AS_RUNNING; break; } case AS_RUNNING: { currNode.app.update(timeElapsed); break; } case AS_FINISHED: { currNode.app.deinitialize(); currNode.state = AS_UNINITIALIZED; break; } } if (currNode.state == AS_RUNNING) { numRunning++; } if (currNode.state != AS_UNINITIALIZED) { numActive++; } if (numRunning > 1) { ASSERT_MSG( false, "Only one application can be running at a time"); } } return (numActive > 0); }
PULSE_TIME PulseTimer::stop() { return getTimeElapsed(); }
bool challengeResponse(int sock, unsigned long l, uint64_t *diffNano) { verifier(l); FILE* fp = fopen("ctmp","wb"); fprintf(fp, "%lu\n", (unsigned long)l); for (int i = 0; i<l; i++) fprintf(fp, "%lu\n", indices[i]); char strCff[1024] = {0}; for(int i=0; i<l; i++) { mpz_get_str(strCff, 62, coeff[i]); fprintf(fp, "%s\n", strCff); bzero(strCff, 1024); } fclose(fp); sendFile("ctmp", sock); getTimeElapsed(); /* Buffers for response generated by server (prover) */ receiveFile("ctmpr", sock); *diffNano = getTimeElapsed(); cout<<"Time elapsed: "<< *diffNano <<endl; mpz_t servSigma,meu[s]; fp = fopen("ctmpr","rb"); for(int i=0; i<s; i++) { mpz_init(meu[i]); fgets(strCff, sizeof(strCff), fp); mpz_set_str(meu[i], strCff, 62); bzero(strCff, 1024); } mpz_init(servSigma); fgets(strCff, sizeof(strCff), fp); mpz_set_str(servSigma, strCff, 62); fclose(fp); mpz_t cliSigma; mpz_init(cliSigma); verify(meu, l, &cliSigma); bzero(strCff, 1024); mpz_get_str(strCff, 10, cliSigma); cout << "Sigma at client: " << strCff<< endl; free(indices); if(mpz_cmp(cliSigma, servSigma)==0) { cout<<"@@@@@@@@@@@ Data verified........................"<< endl << endl; return true; } else { cout<<"########### Data lost............................"<< endl << endl; return false; } }