TEST(customer, DualNewReleaseStatement) { Customer customer("Fred"); customer.addRental(Rental(Movie ("The Cell", Movie::NEW_RELEASE), 3)); customer.addRental(Rental(Movie ("The Tigger Movie", Movie::NEW_RELEASE), 3)); EXPECT_STREQ("Rental Record for Fred\n\tThe Cell\t9.0\n\tThe Tigger Movie\t9.0\nYou owed 18.0\nYou earned 4 frequent renter points\n", customer.statment().c_str()); }
int main() { if(!isRunning())//checking whether the server is running or not printf("Stocks server is not running! Please run the stocks server before running the client!\n"); else { do { printf("\n\tVirtual Stock Market Management System\n\t---------------------------------------\n\n"); printf("1. Company Login - Create stocks and view current prices/analysis\n"); printf("2. Customer Login - Buy and Sell Stocks\n"); printf("3. Exit\n\n"); printf("Enter choice:"); scanf("%d",&c); switch(c) { case 1: company(); break; case 2: customer(); break; case 3: quit(); break; default: printf("Invalid choice! Enter again.\n\n"); } } while(!q); } return 0; }
std::wstring render(bool propper, std::wstring syntax, std::wstring date_format = DATE_FORMAT, DWORD langId = 0) const { if (propper) { // To obtain the appropriate message string from the message file, load the message file with the LoadLibrary function and use the FormatMessage function strEx::replace(syntax, _T("%message%"), render_message(langId)); } else { strEx::replace(syntax, _T("%message%"), _T("%message% needs the descriptions flag set!")); } strEx::replace(syntax, _T("%source%"), get_source()); strEx::replace(syntax, _T("%computer%"), get_computer()); strEx::replace(syntax, _T("%generated%"), strEx::format_date(get_time_generated(), date_format)); strEx::replace(syntax, _T("%written%"), strEx::format_date(get_time_written(), date_format)); strEx::replace(syntax, _T("%generated-raw%"), strEx::itos(pevlr_->TimeGenerated)); strEx::replace(syntax, _T("%written-raw%"), strEx::itos(pevlr_->TimeWritten)); strEx::replace(syntax, _T("%type%"), translateType(eventType())); strEx::replace(syntax, _T("%category%"), strEx::itos(pevlr_->EventCategory)); strEx::replace(syntax, _T("%facility%"), strEx::itos(facility())); strEx::replace(syntax, _T("%qualifier%"), strEx::itos(facility())); strEx::replace(syntax, _T("%customer%"), strEx::itos(customer())); strEx::replace(syntax, _T("%rawid%"), strEx::itos(raw_id())); strEx::replace(syntax, _T("%severity%"), translateSeverity(severity())); strEx::replace(syntax, _T("%strings%"), enumStrings()); strEx::replace(syntax, _T("%log%"), file_); strEx::replace(syntax, _T("%file%"), file_); strEx::replace(syntax, _T("%id%"), strEx::itos(eventID())); strEx::replace(syntax, _T("%user%"), userSID()); return syntax; }
TEST(customer, MultipleRegularStatement) { Customer customer("Fred"); customer.addRental(Rental(Movie ("Plan 9 from Outer Space", Movie::REGULAR), 1)); customer.addRental(Rental(Movie ("8 1/2", Movie::REGULAR), 2)); customer.addRental(Rental(Movie ("Eraserhead", Movie::REGULAR), 3)); EXPECT_STREQ("Rental Record for Fred\n\tPlan 9 from Outer Space\t2.0\n\t8 1/2\t2.0\n\tEraserhead\t3.5\nYou owed 7.5\nYou earned 3 frequent renter points\n", customer.statment().c_str()); }
Store::Store(){ this->console = Console(); this->console.refresh(); // setup the console. this->loadMovies(); // load movies. this->customers = customerCollection(); // load default customers. this->customers.addCustomer(customer()); // add staff member. this->login(); } // end Store::Store();
int main() { semaphore customer_waiting = 0; binary_semaphore barber_sleeping=1; parbegin barber(); while(true) customer(); parend; return 0; }
int main() { n=10; if((mutex=semget(IPC_PRIVATE,1,0666|IPC_CREAT))==-1) { printf("error in creation of semaphore\n"); exit(1); } if((semctl(mutex,0,SETVAL,1))==-1) { printf("erroe in settting value\n"); exit(1); } if((custc=semget(IPC_PRIVATE,1,0666|IPC_CREAT))==-1) { printf("error in creation of semaphore\n"); exit(1); } if((semctl(custc,0,SETVAL,1))==-1) { printf("erroe in settting value\n"); exit(1); } if((shm=(shmget(IPC_PRIVATE,n*sizeof(int),0666|IPC_CREAT)))==-1) { printf("error in creation of shared memory\n"); exit(1); } ARR=(int *)shmat(shm,(void *)0,0); if((f=(shmget(IPC_PRIVATE,sizeof(int),0666|IPC_CREAT)))==-1) { printf("error in creation of shared memory\n"); exit(1); } if((r=(shmget(IPC_PRIVATE,sizeof(int),0666|IPC_CREAT)))==-1) { printf("error in creation of shared memory\n"); exit(1); } if((c=(shmget(IPC_PRIVATE,sizeof(int),0666|IPC_CREAT)))==-1) { printf("error in creation of shared memory\n"); exit(1); } cid=(int *)shmat(c,(void *)0,0); front=(int *)shmat(f,(void *)0,0); rear=(int *)shmat(r,(void *)0,0); int k,i; for(i=0;i<n;i++) { k=fork(); if(k==0) customer(i+1); } barber(1); exit(0); }
int main() { semaphore customer_waiting = 0; binary_semaphore barber_sleeping=1, seats_mutex=1; int free_seats = 5; // bombard barber with customers parbegin barber(); while(true) customer(); parend; return 0; }
void OnButtonClicked_H(WM_MESSAGE * pMsg)//hand { if(h_cus == NULL) { customer(pMsg); } else { LimitSpeedH(pMsg); } }
void OnButtonClicked_T(WM_MESSAGE * pMsg)//table { hlimit_speed_tlimit_speed = 1; if(h_cus == NULL) { customer(pMsg); } else { LimitSpeedT(pMsg); } }
void sim(int argc, char *argv[]) { set_model_name("M/M/1 Queue"); create("sim"); cnt = NARS; for(int i = 1; i <= NARS; i++) { hold(expntl(IAR_TM)); // interarrival interval customer(); // generate next customer } done.wait(); // wait for last customer to depart report(); // model report theory(); mdlstat(); // model statistics }
/* the customer thread function - create 10 threads, each of which calls * this function with its customer number 0..9 */ void *customer_thread(void *context) { int customer_num = (int)context; while(1){ /* maintaing a 10 secs gap between creation of two customer threads */ sleep_exp(10.0, NULL); /* calling the customer function with the customer number as the argument */ customer(customer_num); } return 0; }
int main(){ Customer customer("Jonathan"); MortgageFacade* mortgageLoanObj = new MortgageFacade; bool validity = mortgageLoanObj->IsEligible(customer); if ( validity ) { std::cout << "First level loan check is cleared for " << customer.Name << std::endl; } else { std::cout << "First level loan check not cleared for " << customer.Name << std::endl; } while(1){;} }
void add(customer_info const& info) { boost::contract::old_ptr<int> old_count = BOOST_CONTRACT_OLDOF(count()); boost::contract::check c = boost::contract::public_function(this) .precondition([&] { // Not already active. BOOST_CONTRACT_ASSERT(!id_active(info.id)); }) .postcondition([&] { BOOST_CONTRACT_ASSERT(count() == *old_count + 1); // Count inc. BOOST_CONTRACT_ASSERT(id_active(info.id)); // Activated. }) ; customers_.insert(std::make_pair(info.id, customer(info))); }
//-------------------------------------------------------------- void ofApp::setup(){ ofSetVerticalSync(true); ofSetWindowPosition(0, 0); ofSetFrameRate(30); ofEnableAlphaBlending(); //Initialize place settings for (int i=0; i<NUM_CUSTOMERS; i++) { arrCustomers[i] = customer(i); } //Set up serial serial.setup(0, 9600); serial.startContinuousRead(false); ofAddListener(serial.NEW_MESSAGE,this,&ofApp::onNewMessage); //Register the curl async response ofRegisterURLNotification(this); //Init the state initState(); font32.loadFont("Lato-Light.ttf", 32); // - - - - - - - - - - - - - - - - VIDEO SYNC! - - - [ SETUP ]- - - - - - - - client.setup(PORT); videoPlayer.loadMovie("testHAP.mov"); font250.loadFont("Lato-Light.ttf", 250); bFULLSCREEN = false; bINFO = true; bPLAY = false; // - - - - - - - - - - - - - - - - - FACT VIDEO TEST - - - - - - - - - - - - for (int i = 0; i <4; i++) cVideoTest[i].loadMovie("txtTrayAlpha.mov"); bTestPlay = false; }
int main() { // Videos Video lotr("Lord of the Rings", Video::REGULAR); Video hp("Harry Potter", Video::CHILDRENS); // Rentals of these movies Rental r1(lotr, 10); Rental r2(hp, 5); // Customer with some rentals Customer customer("Fred"); customer.addRental(r1); customer.addRental(r2); // Output customer statement outputCustomerStatement(customer) return 0; }
MenuResult AddCustomer::handle() { time_t today = time(NULL); struct tm *time; time = localtime(&today); int day, month, year; day = time->tm_mday; month = time->tm_mon + 1; year = time->tm_year + 1900; Date todayDate(day, month, year); int id = store.getAvailableId(); string name; cin.clear(); cin.ignore(INT64_MAX, '\n'); cout << "\nInsert customer name: "; getline(cin, name); Customer customer(id, name, todayDate, 0.00); store.addCustomer(customer); cout << "The customer has been added.\n"; cout << "\nID: " << customer.getId() << "\nName: " << customer.getName() << "\nJoin date: " << customer.getJoinDate() << "\nAmount: " << fixed << setprecision(2) << customer.getTotalCost() << endl; pause(); return CONTINUE; }
void CControlWin::renewInfo() { // 计算并存储到达客户的信息 和 下一客户到达信息 m_pServer -> subWorkTime(); if( m_pServer -> getRemainWorkTime() != 0 ) { m_nextCounter--; if( m_nextCounter == 0 ) { CCustomerType customer(this -> randomBusi() , m_number , time(NULL) , (time_t)(this -> randomProcessTime()), (money_t)(this -> randomCusMoney())); m_pCusQueue -> push_back(customer); this -> renewQueueInfo(); // 下一客户号 ,到达时间间隔 m_number ++; m_nextCounter = this -> randomNextCustomer(); time_t timetmp = time(NULL); timetmp += (time_t)m_nextCounter; //time(&timetmp); char *p = ctime(&timetmp); p[20]='\0'; m_pNextVar -> setText(QString(p+11)); } // 下一个交易客户 this -> renewServerCus(); m_pServer -> subProcessTime(); // 交易完成,更新银行信息 if(m_pServer -> isHadCustomer() && m_pServer -> getRemainTime() == 0 ) { // 如果当前用户是还款,那么需要去检索第二个队列,查找能满足的客户并交易 if( m_pServer -> getCurCust().getBusiType() == DEPOSIT || m_pServer -> getCurCust().getBusiType() == REFUND ) { m_tags = 2; m_preMoney = m_pServer -> getTotalMoney(); } m_pServer -> setFree(); m_pServer -> renewMoney(); m_pServer -> reInitCusInfo(); QString str = QString::number(m_pServer -> getTotalMoney() , 10); m_pCurMoneyVar -> setText(str); // total money less than the total when the last customer who DEPOSIT or REFUND if( m_pServer -> getTotalMoney() <= m_preMoney ) m_tags = 1; this -> setCusTipWait(); } } else { m_pTimer -> stop(); this -> reInitInfo(); } // static int i = 0; // m_pBankScene -> addLine(10,10 + i*2,100 +i,100); // m_pBankScene -> addRect(1,1,100,100); // i+=2; // QGraphicsItem *ball = new QGraphicsEllipseItem(0, 0, 20, 20); // QTimeLine *timer = new QTimeLine(5000); // timer->setFrameRange(0, 100); // QGraphicsItemAnimation *animation = new QGraphicsItemAnimation; // animation->setItem(ball); // animation->setTimeLine(timer); // for (int i = 600; i > 0; --i) // animation->setPosAt(i / 600.0, QPointF(i, 60)); // m_pBankScene -> addItem(ball); // timer -> start(); }
void CVRP::init(VRP V) { cout.setf(ios::fixed | ios::showpoint); cout.precision(2); std::cout.imbue( std::locale(std::cout.getloc(), new punct_facet<char, ','>)); bool init1 = false; if (init1) { setNroCustomers(V.getBusStops().size() + 1); Customer depot(V.getCoorSchool().getX(), V.getCoorSchool().getY(), V.getCoorSchool().getCapacity()); std::vector<Stop> a; a.insert(a.begin() + 0, V.getCoorSchool()); std::vector<Stop> b = V.getBusStops(); //Set AllCustomer but not depot std::vector<Customer> allCustNotDepot; for (size_t i = 0; i < V.getBusStops().size(); i++) { Stop stop = V.getBusStops().at(i); Customer customer(stop.getX(), stop.getY(), stop.getCapacity()); allCustNotDepot.insert(allCustNotDepot.begin() + i, customer); } setAllCustNoDepot(allCustNotDepot); a.insert(a.end(), b.begin(), b.end()); std::vector<Customer> allCustomers; for (size_t i = 0; i < a.size(); i++) { Stop stop = a.at(i); Customer customer(stop.getX(), stop.getY(), stop.getCapacity()); allCustomers.insert(allCustomers.begin() + i, customer); } for (size_t i = 0; i < allCustomers.size(); i++) { Customer customer = allCustomers.at(i); cout << "(" << customer.getX() << ", " << customer.getY() << ", " << customer.getDemand() << ")" << endl; } setDepot(depot); setAllCustomers(allCustomers); setK(V.getK()); setC(V.getCk()); setKmin(V.getKmin()); } else { setNroCustomers(V.getBusAssigned().size() + 1); Customer depot(V.getCoorSchool().getX(), V.getCoorSchool().getY(), V.getCoorSchool().getCapacity()); std::vector<Stop> a; a.insert(a.begin() + 0, V.getCoorSchool()); std::vector<Stop> b = V.getBusAssigned(); //Set AllCustomer but not depot std::vector<Customer> allCustNotDepot; for (size_t i = 0; i < V.getBusAssigned().size(); i++) { Stop stop = V.getBusAssigned().at(i); Customer customer(stop.getX(), stop.getY(), stop.getCapacity()); allCustNotDepot.insert(allCustNotDepot.begin() + i, customer); } setAllCustNoDepot(allCustNotDepot); a.insert(a.end(), b.begin(), b.end()); std::vector<Customer> allCustomers; for (size_t i = 0; i < a.size(); i++) { Stop stop = a.at(i); Customer customer(stop.getX(), stop.getY(), stop.getCapacity()); allCustomers.insert(allCustomers.begin() + i, customer); } cout << "List of customers! the first customert is the depot." << endl; for (size_t i = 0; i < allCustomers.size(); i++) { Customer customer = allCustomers.at(i); cout << "(" << customer.getX() << ", " << customer.getY() << ", " << customer.getDemand() << ")" << endl; } setDepot(depot); setAllCustomers(allCustomers); setK(V.getK()); setC(V.getCk()); setKmin(V.getKmin()); } //Validation of the numbers of enters to the depot //Initialization of x //Initialization of d std::vector<Customer> allCustomers = getAllCustomers(); int nro_customers = getNroCustomers(); double** d_cvpr = new double*[nro_customers]; double** s_cvpr = new double*[nro_customers]; bool** x_cvpr = new bool*[nro_customers]; for (int i = 0; i < nro_customers; i++) { d_cvpr[i] = new double[nro_customers]; x_cvpr[i] = new bool[nro_customers]; s_cvpr[i] = new double[nro_customers]; } cout << "Save the distance in a d array of array" << endl; for (int i = 0; i < nro_customers; i++) { Customer customer = allCustomers.at(i); cout << "(" << customer.getX() << ", " << customer.getY() << ")" << endl; for (int j = 0; j < nro_customers; j++) { Customer pivot = allCustomers.at(j); double distance = getDistanceIJ(customer, pivot); d_cvpr[i][j] = distance; x_cvpr[i][j] = false; } } cout << "Imprimir distance from i to j:" << endl; for (int i = 0; i < nro_customers; i++) { for (int j = 0; j < nro_customers; j++) { cout << d_cvpr[i][j] << " "; } cout << "\n"; } cout << "Imprimir x from i to j." << endl; for (int i = 0; i < nro_customers; i++) { for (int j = 0; j < nro_customers; j++) { cout << x_cvpr[i][j] << " "; } cout << "\n"; } setD(d_cvpr); //CREATE CONSTRUCTIVE - Saving Computation std::vector<Saving> savingList; int count1 = 0; int nro_buses = getK(); std::vector<Customer> allCSaving = getAllCustNoDepot(); for (int i = 0; i < nro_buses; i++) { Customer customer = allCSaving.at(i); for (int j = 0; j < nro_buses; j++) { if (i != j) { Customer pivot = allCSaving.at(j); double d1 = d_cvpr[i][0]; double d2 = d_cvpr[0][j]; double d3 = d_cvpr[i][j]; s_cvpr[i][j] = d1 + d2 - d3; Saving save(customer, pivot, s_cvpr[i][j]); savingList.insert(savingList.begin() + count1, save); count1++; } } } //Ordering Saving temp; int flag = 1; for (size_t i = 1; i < savingList.size() && flag; i++) { flag = 0; for (size_t j = 0; j < savingList.size() - 1; j++) { if (savingList.at(j + 1).getSavingPeso() > savingList.at(j).getSavingPeso()) { temp = savingList.at(j); savingList.at(j) = savingList.at(j + 1); savingList.at(j + 1) = temp; flag = 1; } } } cout << "Saving List after ordered." << endl; int m = 0; for (size_t i = 0; i < savingList.size(); i++) { Saving save = savingList.at(i); Customer c1 = save.getSavingC1(); Customer c2 = save.getSavingC2(); double peso = save.getSavingPeso(); cout << "i = (" << c1.getX() << ", " << c1.getY() << ") j = (" << c2.getX() << ", " << c2.getY() << ") peso = " << peso << endl; } cout << "Insertion." << endl; std::vector<std::vector<Customer> > routes; for (int i = 0; i < nro_buses; i++) { Customer customer = getAllCustNoDepot().at(i); //Create routes std::vector<Customer> route; route.insert(route.begin() + 0, getDepot()); route.insert(route.begin() + 1, customer); route.insert(route.begin() + 2, getDepot()); routes.insert(routes.begin() + m, route); m++; route.clear(); } //Routes cout << "Print route for each new route:" << endl; for (size_t i = 0; i < routes.size(); i++) { std::vector<Customer> customers = routes.at(i); map.insert(pair<int, std::vector<Customer> >(i, customers)); cout << "route #" << i << endl; for (size_t j = 0; j < customers.size(); j++) { Customer c = customers.at(j); cout << "(" << c.getX() << ", " << c.getY() << ") - "; } cout << "\n"; } //Best feasible merge //1.- look for 0, j /* * Step 2. Best feasible merge (Parallel version) Starting from the top of the savings list, execute the following: Given a saving sij, determine whether there exist two routes that can feasibility be merged: One starting with (0,j) One ending with (i,0) Combine these two routes by deleting (0,j) and (i,0) and introducing (i,j). * */ cout << "==========================================================" << endl; cout << "Starting saving List process" << endl; for (size_t i = 0; i < savingList.size(); i++) { bool firstCondition = false; unsigned int route_number = 0; bool secondCondition = false; unsigned int route_number2 = 0; Saving saving = savingList.at(i); Customer customer1 = saving.getSavingC1(); Customer customer2 = saving.getSavingC2(); Customer firstElement; Customer secondElement; cout << "=======Print route each time new SavingList is used=========" << endl; cout << "For saving customer1 = (" << customer1.getX() << ", " << customer1.getY() << ")" << endl; cout << "For saving customer2 = (" << customer2.getX() << ", " << customer2.getY() << ")" << endl; for (size_t i = 0; i < routes.size(); i++) { std::vector<Customer> customers = routes.at(i); cout << "route #" << i << endl; for (size_t j = 0; j < customers.size(); j++) { Customer c = customers.at(j); cout << "(" << c.getX() << ", " << c.getY() << ") - "; } cout << "\n"; } //First Condition for (size_t j = 0; j < routes.size(); j++) { std::vector<Customer> customersRoutes = routes.at(j); bool c1IsFound = false; bool depotIsFound = false; unsigned int pivot = 0; for (size_t k = 0; k < customersRoutes.size(); k++) { Customer c = customersRoutes.at(k); if (compareCustomers(c, customer1)) { c1IsFound = true; pivot = k; } if (c1IsFound && (pivot + 1 == k)) { if (compareCustomers(getDepot(), c)) { depotIsFound = true; firstElement = customersRoutes.at(pivot); cout << "first Element = (" << firstElement.getX() << ", " << firstElement.getY() << ")" << endl; route_number = j; } } } if (c1IsFound && depotIsFound) { map.insert( pair<int, std::vector<Customer> >(route_number, routes.at(route_number))); firstCondition = true; } else { cout << "Not" << endl; } } //Second condition for (size_t j = 0; j < routes.size(); j++) { std::vector<Customer> customersRoutes = routes.at(j); bool c2IsFound = false; bool depot2IsFound = false; unsigned int pivot2 = 0; for (size_t k = 0; k < customersRoutes.size(); k++) { Customer c = customersRoutes.at(k); if (compareCustomers(getDepot(), c)) { depot2IsFound = true; pivot2 = k; } if (depot2IsFound && (pivot2 + 1 == k)) { if (compareCustomers(c, customer2)) { c2IsFound = true; secondElement = customersRoutes.at(pivot2 + 1); cout << "second Element = (" << secondElement.getX() << ", " << secondElement.getY() << ")" << endl; route_number2 = j; } } } if (depot2IsFound && c2IsFound) { map.insert( pair<int, std::vector<Customer> >(route_number2, routes.at(route_number2))); secondCondition = true; } else { cout << "Not2" << endl; } } if (firstCondition && secondCondition) { if (route_number != route_number2) { cout << "route 1 = " << route_number << endl; cout << "route 2 = " << route_number2 << endl; cout << "first Element = (" << firstElement.getX() << ", " << firstElement.getY() << ")" << endl; cout << "second Element = (" << secondElement.getX() << ", " << secondElement.getY() << ")" << endl; cout << "soy sensacional" << endl; std::vector<Customer> route1 = routes.at(route_number); for (size_t r = 0; r < route1.size(); r++) { Customer c = route1.at(r); cout << "(" << c.getX() << ", " << c.getY() << ") -"; } cout << endl; //remote the depot for (size_t r = 0; r < route1.size(); r++) { Customer customer = route1.at(r); if (compareCustomers(customer, getDepot())) { route1.erase(route1.begin() + r); } } std::vector<Customer> route2 = routes.at(route_number2); for (size_t r = 0; r < route2.size(); r++) { Customer c = route2.at(r); cout << "(" << c.getX() << ", " << c.getY() << ") -"; } cout << endl; for (size_t r = 0; r < route2.size(); r++) { Customer customer = route2.at(r); if (compareCustomers(customer, getDepot())) { route2.erase(route2.begin() + r); } } route1.insert(route1.end(), route2.begin(), route2.end()); cout << "Nueva ruta generada por las rutas " << route_number << " y " << route_number2 << endl; for (size_t l = 0; l < route1.size(); l++) { Customer customer = route1.at(l); cout << "(" << customer.getX() << ", " << customer.getY() << ") - "; } routes.erase(routes.begin() + route_number); routes.erase(routes.begin() + route_number2 - 1); cout << "After remove the routes " << route_number << " and " << route_number2 << endl; for (size_t i = 0; i < routes.size(); i++) { std::vector<Customer> customers = routes.at(i); cout << "route #" << i << endl; for (size_t j = 0; j < customers.size(); j++) { Customer c = customers.at(j); cout << "(" << c.getX() << ", " << c.getY() << ") - "; } cout << "\n"; } routes.push_back(route1); cout << "after add the new route merged." << endl; for (size_t i = 0; i < routes.size(); i++) { std::vector<Customer> customers = routes.at(i); cout << "route #" << i << endl; for (size_t j = 0; j < customers.size(); j++) { Customer c = customers.at(j); cout << "(" << c.getX() << ", " << c.getY() << ") - "; } cout << "\n"; } cout << "routes.size() = " << routes.size() << endl; } cout << "=======end saving element from the list=========" << endl; } else { //Not to merge } } //Route Extension //Routes cout << "Print routes after the first merge process:" << endl; for (size_t i = 0; i < routes.size(); i++) { std::vector<Customer> customers = routes.at(i); cout << "route #" << i << endl; for (size_t j = 0; j < customers.size(); j++) { Customer c = customers.at(j); cout << "(" << c.getX() << ", " << c.getY() << ") - "; } cout << "\n"; } }
TEST(customer, SingleChildrensStatement) { Customer customer("Fred"); customer.addRental(Rental(Movie ("The Tigger Movie", Movie::CHILDRENS), 3)); EXPECT_STREQ("Rental Record for Fred\n\tThe Tigger Movie\t1.5\nYou owed 1.5\nYou earned 1 frequent renter points\n", customer.statment().c_str()); }