Exemplo n.º 1
0
void
AGCity::generatePopulation() {
    std::vector<AGStreet>::iterator it;
    int people;
    nbrCars = 0;
    int idHouseholds = 0;

    for (it = streets.begin() ; it != streets.end() ; ++it) {
        people = it->getPopulation();
        while (people > 0) {
            ++idHouseholds;
            households.push_back(AGHousehold(&*it, this, idHouseholds));
            households.back().generatePeople(); //&statData
            //households.back().generateCars(statData.carRate);
            people -= households.back().getPeopleNbr();
        }
    }

    //people from outside of the city generation:
    generateIncomingPopulation();

    //TEST
    int nbrSingle = 0;
    int nbrCouple = 0;
    int nbrChild = 0;
    int nbrHH = 0;
    int workingP = 0;
    std::list<AGHousehold>::iterator itt;
    for (itt = households.begin() ; itt != households.end() ; ++itt) {
        if (itt->getAdultNbr() == 1) {
            nbrSingle++;
            if (itt->adults.front().isWorking()) {
                workingP++;
            }
        }
        if (itt->getAdultNbr() == 2) {
            nbrCouple += 2;
            if (itt->adults.front().isWorking()) {
                workingP++;
            }
            if (itt->adults.back().isWorking()) {
                workingP++;
            }
        }
        nbrChild += itt->getPeopleNbr() - itt->getAdultNbr();
        nbrHH++;
    }
    //cout << "number hh: " << nbrHH << std::endl;
    //cout << "number single: " << nbrSingle << std::endl;
    //cout << "number couple: " << nbrCouple << std::endl;
    //cout << "number 3 or more: " << nbr3More << std::endl;
    //cout << "number adults: " << nbrSingle + nbrCouple + nbr3More << std::endl;
    //cout << "number children: " << nbrChild << std::endl;
    //cout << "number people: " << nbrSingle + nbrCouple + nbr3More + nbrChild << std::endl;
    //END TEST

    std::cout << "--> population: " << std::endl;
    std::cout << "  |-> city households: " << nbrHH << std::endl;
    std::cout << "  |-> city people: " << nbrSingle + nbrCouple + nbrChild << std::endl;
    std::cout << "    |-> city single: " << nbrSingle << " / (in) couple: " << nbrCouple << std::endl;
    std::cout << "    |-> city adults: " << nbrSingle + nbrCouple << std::endl;
    std::cout << "      |-> estimation: " << statData.getPeopleOlderThan(statData.limitAgeChildren) << std::endl;
    std::cout << "      |-> retired: " << statData.getPeopleOlderThan(statData.limitAgeRetirement) << std::endl;
    std::cout << "    |-> city children: " << nbrChild << std::endl;
    std::cout << "      |-> estimation: " << statData.getPeopleYoungerThan(statData.limitAgeChildren) << std::endl;

}
Exemplo n.º 2
0
void
AGCity::generatePopulation() {
    std::vector<AGStreet>::iterator it;
    SUMOReal people = 0;
    nbrCars = 0;
    unsigned int idHouseholds = 0;
    std::vector<int> numAdults(statData.households);
    std::vector<int> numChilds(statData.households);
    int totalChildrenLeft = statData.inhabitants - statData.getPeopleOlderThan(statData.limitAgeChildren);
    const SUMOReal retiredProb = statData.getPeopleOlderThan(statData.limitAgeRetirement) / statData.getPeopleOlderThan(statData.limitAgeChildren);
    for (int i = 0; i < statData.households; i++) {
        numAdults[i] = 1;
        numChilds[i] = 0;
        if (RandHelper::rand() < retiredProb) {
            numAdults[i] = -numAdults[i];
        } else if (totalChildrenLeft > 0) {
            numChilds[i] = statData.getPoissonsNumberOfChildren(statData.meanNbrChildren);
            totalChildrenLeft -= numChilds[i];
        }
    }
    //compensate with adults for too many / missing children
    const int numSecondPers = statData.getPeopleOlderThan(statData.limitAgeChildren) - statData.households + totalChildrenLeft;
    for (int i = 0; i < numSecondPers; i++) {
        unsigned int index = i % numAdults.size();
        if (numAdults[index] >= 0) {
            numAdults[index] += 1;
        } else {
            numAdults[index] -= 1;
        }
    }
    for (it = streets.begin(); it != streets.end(); ++it) {
        people += it->getPopulation();
        while (people > 0 && idHouseholds < (unsigned int)numAdults.size()) {
            size_t i = RandHelper::rand(numAdults.size() - idHouseholds);
            ++idHouseholds;
            households.push_back(AGHousehold(&*it, this, idHouseholds));
            households.back().generatePeople(abs(numAdults[i]), numChilds[i], numAdults[i] < 0); //&statData
            //households.back().generateCars(statData.carRate);
            people -= households.back().getPeopleNbr();
            numAdults[i] = numAdults[numAdults.size() - idHouseholds];
            numChilds[i] = numChilds[numAdults.size() - idHouseholds];
        }
    }

    //people from outside of the city generation:
    generateIncomingPopulation();

    //TEST
    int nbrSingle = 0;
    int nbrCouple = 0;
    int nbrChild = 0;
    int nbrHH = 0;
    int workingP = 0;
    std::list<AGHousehold>::iterator itt;
    for (itt = households.begin(); itt != households.end(); ++itt) {
        if (itt->getAdultNbr() == 1) {
            nbrSingle++;
            if (itt->getAdults().front().isWorking()) {
                workingP++;
            }
        }
        if (itt->getAdultNbr() == 2) {
            nbrCouple += 2;
            if (itt->getAdults().front().isWorking()) {
                workingP++;
            }
            if (itt->getAdults().back().isWorking()) {
                workingP++;
            }
        }
        nbrChild += itt->getPeopleNbr() - itt->getAdultNbr();
        nbrHH++;
    }
    //cout << "number hh: " << nbrHH << std::endl;
    //cout << "number single: " << nbrSingle << std::endl;
    //cout << "number couple: " << nbrCouple << std::endl;
    //cout << "number 3 or more: " << nbr3More << std::endl;
    //cout << "number adults: " << nbrSingle + nbrCouple + nbr3More << std::endl;
    //cout << "number children: " << nbrChild << std::endl;
    //cout << "number people: " << nbrSingle + nbrCouple + nbr3More + nbrChild << std::endl;
    //END TEST

    std::cout << "--> population: " << std::endl;
    std::cout << "  |-> city households: " << nbrHH << std::endl;
    std::cout << "  |-> city people: " << nbrSingle + nbrCouple + nbrChild << std::endl;
    std::cout << "    |-> city single: " << nbrSingle << " / (in) couple: " << nbrCouple << std::endl;
    std::cout << "    |-> city adults: " << nbrSingle + nbrCouple << std::endl;
    std::cout << "      |-> estimation: " << statData.getPeopleOlderThan(statData.limitAgeChildren) << std::endl;
    std::cout << "      |-> retired: " << statData.getPeopleOlderThan(statData.limitAgeRetirement) << std::endl;
    std::cout << "    |-> city children: " << nbrChild << std::endl;
    std::cout << "      |-> estimation: " << statData.getPeopleYoungerThan(statData.limitAgeChildren) << std::endl;

}