77 std::list<AGChild>::const_iterator itC;
79 if (itC->haveASchool()) {
90 std::list<AGAdult>::const_iterator itA;
92 if (itA->isWorking()) {
111 std::list<AGAdult>::iterator it;
139 std::list<AGAdult>::const_iterator itUA;
141 if (! itUA->isWorking()) {
159 std::list<AGAdult>::const_iterator itDriA;
167 if (!itDriA->getWorkPosition().getPosition().getStreet().allows(
SVC_PASSENGER)) {
175 std::list<AGAdult>::iterator itAccA;
181 std::list<AGChild>::iterator itAccC;
206 std::list<AGTrip>::iterator it1, it2;
215 diff1 = it2->getTime() - it1->getRideBackArrTime(this->
timePerKm);
216 diff2 = it1->getTime() - it2->getRideBackArrTime(this->
timePerKm);
218 if (diff1 < 0 || diff2 < 0) {
220 arrTime = it2->getArrTime(this->
timePerKm);
221 it2->addLayOver(*it1);
222 it2->setDepTime(it2->estimateDepTime(arrTime, this->timePerKm));
225 arrTime = it1->getArrTime(this->
timePerKm);
226 it1->addLayOver(*it2);
227 it1->setDepTime(it1->estimateDepTime(arrTime, this->timePerKm));
245 std::list<AGTrip>::iterator itAccT;
246 std::list<AGTrip>::iterator itDriT;
247 std::list<AGAdult>::iterator itA;
250 if (itAccT->getArrTime(this->timePerKm) < itDriT->getArrTime(this->
timePerKm)) {
255 if (!itA->isWorking()) {
257 }
else if (itAccT->getRideBackArrTime(this->timePerKm) < itA->getWorkPosition().getOpening()) {
272 std::list<AGTrip>::iterator itAccT;
273 std::list<AGTrip>::iterator itDriT;
274 std::list<AGAdult>::iterator itA;
284 if (itAccT->getArrTime(this->timePerKm) < itDriT->getArrTime(this->
timePerKm) && !alreadyDone) {
286 if (itAccT->getRideBackArrTime(this->timePerKm) < itDriT->getTime()) {
288 itAccT->setVehicleName(itDriT->getVehicleName());
289 itAccT->addLayOver(itAccT->getArr());
295 arrTime = itDriT->getArrTime(this->
timePerKm);
296 itDriT->addLayOver(*itAccT);
297 itDriT->setDepTime(itDriT->estimateDepTime(arrTime, this->timePerKm));
307 if (!itA->isWorking() && !alreadyDone) {
309 if (nameC.size() != 0) {
311 itAccT->addLayOver(itAccT->getArr());
316 }
else if (itAccT->getRideBackArrTime(this->timePerKm) < itA->getWorkPosition().getOpening() && !alreadyDone) {
318 if (nameC.size() != 0) {
320 itAccT->addLayOver(itAccT->getArr());
341 if (itA->getWorkPosition().getPosition() == itDriT->getArr()) {
342 AGTrip trip(itA->getWorkPosition().getPosition(),
myHousehold->
getPosition(), itDriT->getVehicleName(), itA->getWorkPosition().getClosing());
353 std::string nameCar =
"";
354 std::string nameCarUsed =
"";
357 nameCarUsed =
tempTrip.front().getVehicleName();
362 if (nameCarUsed.size() != 0) {
376 std::list<AGAdult>::const_iterator itUA;
378 if (! itUA->isWorking()) {
int depHour(AGPosition from, AGPosition to, int arrival)
const std::list< AGAdult > & getAdults() const
void makePossibleDriversDrive()
std::list< AGAdult > notNeedingDrivers
std::list< AGTrip > tempAccTrip
const std::list< AGChild > & getChildren() const
const AGStreet & getStreet() const
Provides the street this AGPosition is located on.
std::list< AGAdult > adultNeedingCarAccompaniment
int availableTranspMeans(AGPosition from, AGPosition to)
AGHousehold * myHousehold
std::list< AGAdult > personsDrivingCars
bool checkDriversScheduleMatching()
vehicle is a passenger car (a "normal" car)
bool allows(const SUMOVehicleClass vclass) const
Returns whether the given vehicle class is allowed on this street.
std::list< AGAdult > workingPeoplePossCar
std::list< AGChild > childrenNeedingCarAccompaniment
std::list< AGTrip > tempTrip
int possibleTranspMean(AGPosition destination)
std::list< AGTrip > myPartialActivityTrips
void buildChildrenAccompaniment()
double getPosition() const
Provides the relative position of this AGPosition on the street.
void buildWorkDestinations()
std::string getUnusedCar()
bool checkAndBuildTripConsistancy()
const std::list< AGCar > & getCars() const