MOBILISIS-Calculator/library/src/calculate_price.cpp

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#include "calculate_price.h"
#include "configuration.h"
#include "calculator_functions.h"
#include "payment_option.h"
#include "utilities.h"
#include "tariff_global_defines.h"
#include "period_year.h"
#include <QFile>
#include <QFileInfo>
#include <QDateTime>
#include <QDebug>
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#include <QList>
QString const CalcState::SUCCESS = "SUCCESS";
QString const CalcState::ERROR_PARSING_ZONE_NR = "ERROR_PARSING_ZONE_NR";
QString const CalcState::ERROR_LOADING_TARIFF = "ERROR_LOADING_TARIFF";
QString const CalcState::ERROR_PARSING_TARIFF = "ERROR_PARSING_TARIFF";
QString const CalcState::NEGATIVE_PARKING_TIME = "NEGATIVE_PARKING_TIME";
QString const CalcState::INVALID_START_DATE = "INVALID_START_DATE";
QString const CalcState::WRONG_PARAM_VALUES = "WRONG_PARAM_VALUES";
QString const CalcState::WRONG_ISO_TIME_FORMAT = "WRONG_ISO_TIME_FORMAT";
QString const CalcState::ABOVE_MAX_PARKING_TIME = "ABOVE_MAX_PARKING_TIME";
QString const CalcState::BELOW_MIN_PARKING_TIME = "BELOW_MIN_PARKING_TIME";
QString const CalcState::BELOW_MIN_PARKING_PRICE = "BELOW_MIN_PARKING_PRICE";
QString const CalcState::ABOVE_MAX_PARKING_PRICE = "ABOVE_MAX_PARKING_PRICE";
QString const CalcState::OVERPAID = "OVERPAID";
QString const CalcState::OUTSIDE_ALLOWED_PARKING_TIME = "OUTSIDE_ALLOWED_PARKING_TIME";
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QString const CalcState::SUCCESS_MAXPRICE = "SUCCESS_MAXPRICE";
QList<int> CALCULATE_LIBRARY_API get_time_steps(Configuration *cfg) {
return Calculator::GetInstance().GetTimeSteps(cfg);
}
int CALCULATE_LIBRARY_API get_minimal_parkingtime(Configuration const *cfg,
PERMIT_TYPE permitType,
int paymentOptionIndex) {
int minTime = 0;
paymentOptionIndex = getPaymentOptionIndex(*cfg);
if (paymentOptionIndex == -1) {
paymentOptionIndex = cfg->getPaymentOptionIndex(permitType);
}
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qCritical() << __func__ << __LINE__ << "paymentOptionIndex" << paymentOptionIndex;
qCritical() << __func__ << __LINE__ << "permit" << PermitType(permitType).toString();
switch(permitType) {
case PERMIT_TYPE::SHORT_TERM_PARKING: { // e.g. szeged (customer_281)
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qCritical() << __LINE__ << Calculator::GetInstance().GetTimeSteps((Configuration *)cfg, paymentOptionIndex);
minTime = cfg->getPaymentOptions(paymentOptionIndex).pop_min_time;
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qCritical() << __func__ << __LINE__ << minTime;
} break;
case PERMIT_TYPE::DAY_TICKET_ADULT: {
} break;
case PERMIT_TYPE::DAY_TICKET_TEEN: {
} break;
case PERMIT_TYPE::DAY_TICKET_CHILD: {
} break;
default:
// for each new sell-procedure, recomute the timesteps. implicitly, set
// the minimal parking time.
Calculator::GetInstance().ResetTimeSteps(paymentOptionIndex);
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qCritical() << __LINE__ << Calculator::GetInstance().GetTimeSteps((Configuration *)cfg, paymentOptionIndex);
minTime = qRound(cfg->getPaymentOptions(paymentOptionIndex).pop_min_time);
}
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qCritical() << "minTime" << minTime;
return minTime;
}
int CALCULATE_LIBRARY_API get_maximal_parkingtime(Configuration const *cfg,
PERMIT_TYPE permitType,
int paymentOptionIndex) {
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paymentOptionIndex = getPaymentOptionIndex(*cfg);
if (paymentOptionIndex == -1) {
paymentOptionIndex = cfg->getPaymentOptionIndex(permitType);
}
int maxTime = 0;
switch(permitType) {
case PERMIT_TYPE::SHORT_TERM_PARKING: { // e.g. szeged (customer_281)
maxTime = cfg->getPaymentOptions(paymentOptionIndex).pop_max_time;
} break;
case PERMIT_TYPE::DAY_TICKET_ADULT: {
} break;
case PERMIT_TYPE::DAY_TICKET_TEEN: {
} break;
case PERMIT_TYPE::DAY_TICKET_CHILD: {
} break;
default: ;
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maxTime = cfg->getPaymentOptions(paymentOptionIndex).pop_max_time;
}
return maxTime;
}
int CALCULATE_LIBRARY_API get_minimal_parkingprice(Configuration *cfg,
PERMIT_TYPE permitType,
int paymentOptionIndex,
QDateTime const &start) {
int minPrice = -1;
if ((paymentOptionIndex = getPaymentOptionIndex(*cfg, start)) == -1) {
paymentOptionIndex = cfg->getPaymentOptionIndex(permitType);
}
int payment_method_id = cfg->getPaymentOptions(paymentOptionIndex).pop_payment_method_id;
if (payment_method_id == PaymentMethod::Degressive) {
// Degressive: new for Fuchs Technik (500), ValserAlm (Fane):
// the minimal price has to be calculated, in cannot be hard coded into
// the tariff file.
// The working times have a reference into the payment rates. Two special
// entries (with the numbers 1000/1001) point to the respective prices.
switch(permitType) {
default: {
// find the correct work time range
int weekDay = start.date().dayOfWeek();
std::optional<QVector<ATBWeekDaysWorktime>> const &wd = cfg->getAllWeekDayWorkTimes();
if (wd.has_value()) {
QVector<ATBWeekDaysWorktime> const &vec = wd.value();
for (int i = 0; i < vec.size(); ++i) {
ATBWeekDaysWorktime const &wt = vec[i];
if (wt.pwd_period_day_in_week_id == weekDay) {
if (start.time() >= QTime::fromString(QString::fromStdString(wt.pwd_time_from), Qt::ISODate)
&& start.time() <= QTime::fromString(QString::fromStdString(wt.pwd_time_to), Qt::ISODate)) {
// found worktime range
int pop_id = wt.pwd_pop_id; // 1000 or 1001
for (auto[itr, rangeEnd] = cfg->PaymentRate.equal_range(pop_id); itr != rangeEnd; ++itr) {
i = vec.size(); // to leave outer loop
minPrice = itr->second.pra_price; // this is now the minimal price
break;
}
}
}
}
}
}
}
} else {
switch(permitType) {
case PERMIT_TYPE::SHORT_TERM_PARKING: { // e.g. szeged (customer_281)
minPrice = cfg->getPaymentOptions(paymentOptionIndex).pop_min_price;
} break;
case PERMIT_TYPE::DAY_TICKET_ADULT: {
} break;
case PERMIT_TYPE::DAY_TICKET_TEEN: {
} break;
case PERMIT_TYPE::DAY_TICKET_CHILD: {
} break;
case PERMIT_TYPE::DAY_TICKET: {
minPrice = compute_product_price(cfg, permitType, start);
} break;
default:
minPrice = cfg->getPaymentOptions(paymentOptionIndex).pop_min_price;
}
}
return minPrice;
}
int CALCULATE_LIBRARY_API compute_product_price(Configuration const *cfg,
PERMIT_TYPE permitType,
QDateTime const &start,
QDateTime *productStart,
QDateTime *productEnd) {
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switch(permitType) {
case PERMIT_TYPE::SHORT_TERM_PARKING: { // e.g. szeged (customer_281)
} break;
case PERMIT_TYPE::DAY_TICKET_CHILD:
// [[fallthrough]];
case PERMIT_TYPE::DAY_TICKET_TEEN:
// [[fallthrough]];
case PERMIT_TYPE::FOOD_STAMP:
// [[fallthrough]];
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case PERMIT_TYPE::DAY_TICKET_ADULT: {
std::optional<QVector<ATBTariffProduct>> products = cfg->getTariffProductForProductId(permitType);
if (products) {
QVector<ATBTariffProduct> product = products.value();
if (product.size() > 0) {
ATBTariffProduct const &p = product[0];
return p.m_tariff_product_price;
#if 0
// in case we do not have prepaid-option
QTime const &currentTime = QDateTime::currentDateTime().time();
if (p.m_tariff_product_start <= currentTime && currentTime <= p.m_tariff_product_end) {
return p.m_tariff_product_price;
} else {
qCritical() << "(" << __func__ << ":" << __LINE__ << ")"
<< "ERROR currentTime"
<< currentTime.toString(Qt::ISODate)
<< "INVALID ("
<< p.m_tariff_product_start.toString(Qt::ISODate)
<< p.m_tariff_product_end.toString(Qt::ISODate) << ")";
}
#endif
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}
}
} break;
case PERMIT_TYPE::INVALID:
// [[fallthrough]];
case PERMIT_TYPE::DAY_TICKET: {
std::optional<QVector<ATBTariffProduct>> products = cfg->getTariffProductForProductId(permitType);
if (products) {
QVector<ATBTariffProduct> product = products.value();
int product_price = 0;
if (productStart && productEnd) {
*productStart = start;
*productEnd = start;
if (product.size() > 0) {
productStart->setTime(product[0].getTimeStart());
productEnd->setTime(product[0].getTimeEnd());
}
}
for (QVector<ATBTariffProduct>::size_type i=0; i<product.size(); ++i) {
ATBTariffProduct const &p = product[i];
QTime const &startTime = p.getTimeStart();
QTime const &endTime = p.getTimeEnd();
// qCritical() << __LINE__ << startTime.toString(Qt::ISODate);
// qCritical() << __LINE__ << endTime.toString(Qt::ISODate);
// qCritical() << __LINE__ << start.toString(Qt::ISODate);
if (start.time() >= startTime && start.time() < endTime) {
product_price = p.getProductPrice();
if (productStart && productEnd) {
productStart->setTime(startTime);
productEnd->setTime(endTime);
}
}
}
return product_price;
} else {
// SZEGED
int const pop_daily_card_price = cfg->getPaymentOptions().pop_daily_card_price;
qDebug() << QString("(%1:%2) no products defined in tariff-file").arg(__func__).arg(__LINE__);
qDebug() << QString("(%1:%2) pop_daily_card_price=%3").arg(__func__).arg(__LINE__).arg(pop_daily_card_price);
// static const PaymentMethod paymentMethodId = Utilities::getPaymentMethodId(cfg);
// return Utilities::getDailyTicketCardPrice(cfg, paymentMethodId);
return pop_daily_card_price;
}
} break;
case PERMIT_TYPE::TWENTY_FOUR_HOURS_TICKET: {
std::optional<QVector<ATBTariffProduct>> products = cfg->getTariffProductForProductId(permitType);
if (products) {
int product_price = 0;
QVector<ATBTariffProduct> product = products.value();
if (product.size() > 0) {
if (productStart && productEnd) {
int pop_min_time = get_minimal_parkingtime(cfg, PERMIT_TYPE::TWENTY_FOUR_HOURS_TICKET); // in minutes
int pop_max_time = get_maximal_parkingtime(cfg, PERMIT_TYPE::TWENTY_FOUR_HOURS_TICKET); // in minutes
if (pop_max_time >= pop_min_time) {
*productStart = start;
*productEnd = start.addSecs(pop_max_time*60);
product_price = product[0].getProductPrice();
}
}
}
return product_price;
}
} break;
case PERMIT_TYPE::SHORT_TERM_PARKING_PKW: {
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PermitType p(permitType);
std::optional<ATBPaymentOption> const paymentOption = cfg->getPaymentOptionForKey(p.get());
if (paymentOption.has_value()) {
ATBPaymentOption option = paymentOption.value();
int const pop_daily_card_price = option.pop_daily_card_price;
qCritical() << "SHORT_TERM_PARKING_PKW: daily ticket price" << pop_daily_card_price;
return pop_daily_card_price;
}
} break;
case PERMIT_TYPE::SHORT_TERM_PARKING_BUS: {
qCritical() << "TODO: SHORT_TERM_PARKING_BUS";
} break;
case PERMIT_TYPE::SHORT_TERM_PARKING_CAMPER: {
qCritical() << "TODO: SHORT_TERM_PARKING_CAMPER";
} break;
case PERMIT_TYPE::DAY_TICKET_PKW: {
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PermitType p(permitType);
std::optional<ATBPaymentOption> const paymentOption = cfg->getPaymentOptionForKey(p.get());
if (paymentOption.has_value()) {
ATBPaymentOption option = paymentOption.value();
int const pop_daily_card_price = option.pop_daily_card_price;
qCritical() << "DAY_TICKET_PKW: daily ticket price" << pop_daily_card_price;
return pop_daily_card_price;
}
} break;
case PERMIT_TYPE::DAY_TICKET_BUS: {
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PermitType p(permitType);
std::optional<ATBPaymentOption> const paymentOption = cfg->getPaymentOptionForKey(p.get());
if (paymentOption.has_value()) {
ATBPaymentOption option = paymentOption.value();
int const pop_daily_card_price = option.pop_daily_card_price;
qCritical() << "DAY_TICKET_BUS: daily ticket price" << pop_daily_card_price;
return pop_daily_card_price;
}
} break;
case PERMIT_TYPE::DAY_TICKET_CAMPER: {
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PermitType p(permitType);
std::optional<ATBPaymentOption> const paymentOption = cfg->getPaymentOptionForKey(p.get());
if (paymentOption.has_value()) {
ATBPaymentOption option = paymentOption.value();
int const pop_daily_card_price = option.pop_daily_card_price;
qCritical() << "DAY_TICKET_CAMPER: daily ticket price" << pop_daily_card_price;
return pop_daily_card_price;
}
} break;
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default:
break;
}
return 0;
}
int CALCULATE_LIBRARY_API get_maximal_parkingprice(Configuration *cfg,
PERMIT_TYPE permitType,
int paymentOptionIndex) {
int maxPrice = -1;
static const PaymentMethod paymentMethodId = Utilities::getPaymentMethodId(cfg);
if ((paymentOptionIndex = getPaymentOptionIndex(*cfg)) == -1) {
paymentOptionIndex = cfg->getPaymentOptionIndex(permitType);
}
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switch(permitType) {
case PERMIT_TYPE::SHORT_TERM_PARKING: { // e.g. szeged (customer_281)
if (paymentMethodId == PaymentMethod::Progressive || paymentMethodId == PaymentMethod::Steps) {
//maxPrice = Utilities::getMaximalParkingPrice(cfg, paymentMethodId);
ATBPaymentOption const &po = cfg->getPaymentOptions(paymentOptionIndex);
maxPrice = po.pop_max_price; // maxTime is given in minutes
} else { // PaymentMethod::Linear -> e.g. szeged
int const key = cfg->getPaymentOptions(paymentOptionIndex).pop_id;
int const maxTime = cfg->getPaymentOptions(paymentOptionIndex).pop_max_time; // maxTime is given in minutes
std::optional<QVector<ATBPaymentRate>> const &pv = cfg->getPaymentRateForKey(key);
if (pv) {
QVector<ATBPaymentRate> const &paymentRate = pv.value();
if (paymentRate.size() > 0) {
int const price = paymentRate.last().pra_price; // price is given per hour
maxPrice = qRound((maxTime * price) / 60.0f);
}
}
}
} break;
case PERMIT_TYPE::DAY_TICKET_ADULT:
break;
case PERMIT_TYPE::DAY_TICKET_TEEN:
break;
case PERMIT_TYPE::DAY_TICKET_CHILD:
break;
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case PERMIT_TYPE::DAY_TICKET_BUS:
break;
case PERMIT_TYPE::DAY_TICKET_CAMPER:
break;
case PERMIT_TYPE::DAY_TICKET_PKW:
break;
case PERMIT_TYPE::SHORT_TERM_PARKING_BUS: {
std::optional<ATBPaymentOption> po = cfg->getPaymentOptionForKey(permitType);
if (po.has_value()) {
ATBPaymentOption option = po.value();
return option.pop_max_price;
}
} break;
case PERMIT_TYPE::SHORT_TERM_PARKING_PKW: {
std::optional<ATBPaymentOption> po = cfg->getPaymentOptionForKey(permitType);
if (po.has_value()) {
ATBPaymentOption option = po.value();
return option.pop_max_price;
}
} break;
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case PERMIT_TYPE::SHORT_TERM_PARKING_CAMPER:
break;
default: ;
}
return maxPrice;
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}
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int CALCULATE_LIBRARY_API get_zone_nr(int zone)
{
if(zone > -1) return zone;
else
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{
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QFile zone("/etc/zone_nr");
if (zone.exists()) {
QFileInfo finfo(zone);
if (finfo.size() <= 4) { // decimal 000\n
if (zone.open(QIODevice::ReadOnly | QIODevice::Text)) {
QTextStream in(&zone);
return in.readLine(100).toInt();
}
}
}
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return -1;
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}
}
CalcState CALCULATE_LIBRARY_API init_tariff(parking_tariff_t **tariff, char const *config_file) {
*tariff = new Configuration();
CalcState calcState;
#if __linux__
int const zone = get_zone_nr();
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// DEBUG
qCritical() << "init_tariff:";
qCritical() << " ... zone = " << zone;
if (zone <= 0) {
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delete *tariff;
*tariff = nullptr;
return calcState.set(CalcState::State::ERROR_PARSING_ZONE_NR);
}
QString confFile(config_file);
if (!confFile.endsWith(QChar('/'))) {
confFile += "/";
}
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char buffer[32];
memset(buffer, 0x00, sizeof(buffer));
snprintf(buffer, sizeof(buffer)-1, "tariff%02d.json", zone);
confFile += buffer;
#else // windows
QString confFile(config_file);
#endif
// DEBUG
qCritical() << " ... confFile = " << confFile;
QFile fname(confFile);
if (fname.exists() &&
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fname.open(QIODevice::ReadOnly | QIODevice::Text)) {
// DEBUG
qCritical() << " ... confFile is open";
QString json = fname.readAll();
if (! (*tariff)->ParseJson(*tariff, json.toStdString().c_str())) {
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delete *tariff;
*tariff = nullptr;
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qCritical() << " ... error parsing tariff";
return calcState.set(CalcState::State::ERROR_PARSING_TARIFF);
}
} else {
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delete *tariff;
*tariff = nullptr;
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qCritical() << " ... error loading tariff";
return calcState.set(CalcState::State::ERROR_LOADING_TARIFF);
}
qCritical() << "init_tariff: Parsing tariff config (" << confFile << ")";
return calcState;
}
void CALCULATE_LIBRARY_API free_tariff(parking_tariff_t *tariff) {
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if (tariff != nullptr) {
delete tariff;
}
}
//
// UpDown 1 -> up; 0 -> down
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int CALCULATE_LIBRARY_API compute_next_timestep(parking_tariff_t *tariff, int currentTimeMinutes,
int UpDown, PermitType const &permitType)
{
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qCritical() << __LINE__ << "compute_next_timestep() currentTimeMinutes: " << currentTimeMinutes;
qCritical() << __LINE__ << "compute_next_timestep() up/down (1=up, 0=down): " << UpDown;
// FIXME
//std::optional<ATBPaymentOption> paymentOption = tariff->getPaymentOptionForKey(permitType.get());
//if (!paymentOption.has_value()) {
// qCritical() << " compute_next_timestep() ERROR";
// return currentTimeMinutes;
//}
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int paymentOptionIndex = getPaymentOptionIndex(*tariff);
if (paymentOptionIndex == -1) {
paymentOptionIndex = tariff->getPaymentOptionIndex(permitType);
}
int const &pop_plus_steps = tariff->getPaymentOptions(paymentOptionIndex).pop_plus_steps;
int const &pop_minus_steps = tariff->getPaymentOptions(paymentOptionIndex).pop_minus_steps;
qCritical() << __LINE__ << "compute_next_timestep() payment option index: " << paymentOptionIndex;
qCritical() << __LINE__ << "compute_next_timestep() plus steps: " << pop_plus_steps;
qCritical() << __LINE__ << "compute_next_timestep() minus steps: " << pop_minus_steps;
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Configuration const *cfg = tariff;
// compute payment method id (e.g. Linear=3, Steps=4)
PaymentMethod const paymentMethodId = Utilities::getPaymentMethodId(cfg);
switch (paymentMethodId) {
case PaymentMethod::Progressive:
qCritical() << __LINE__ << "compute_next_timestep() paymentMethodId: Progressive";
break;
case PaymentMethod::Degressive:
qCritical() << __LINE__ << "compute_next_timestep() paymentMethodId: Degressive";
break;
case PaymentMethod::Linear:
qCritical() << __LINE__ << "compute_next_timestep() paymentMethodId: Linear";
break;
case PaymentMethod::Steps:
qCritical() << __LINE__ << "compute_next_timestep() paymentMethodId: Steps";
break;
case PaymentMethod::Undefined:
qCritical() << __LINE__ << "compute_next_timestep() paymentMethodId: Undefined";
break;
}
// use tariff with structure as for instance Schnau, Koenigsee:
// without given YearPeriod, SpecialDays and SpecialDaysWorktime
if ((paymentMethodId == PaymentMethod::Steps) ||
// progressive tariff: e.g. Neuhauser, Kirchdorf (743)
(paymentMethodId == PaymentMethod::Progressive) ||
// degressive tariff: e.g. Fuchs Technik (500)
(paymentMethodId == PaymentMethod::Degressive))
{
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QList<int> &stepList = Calculator::GetInstance().GetTimeSteps(tariff, paymentOptionIndex);
int const size = stepList.size();
if (size == 0) {
qCritical() << "compute_next_timestep() *ERROR empty step-list*";
return currentTimeMinutes;
}
qCritical() << __LINE__ << "compute_next_timestep() first time step:" << stepList[0];
qCritical() << __LINE__ << "compute_next_timestep() timeSteps:" << stepList;
qCritical() << __LINE__ << "compute_next_timestep() currentTimeInMinutes:" << currentTimeMinutes;
// consider time shift: the step-list might have been computed at a
// slightly different time point
int currentStepIndex = stepList.indexOf(currentTimeMinutes);
if (currentStepIndex == -1) {
unsigned minimalDistance = ~0;
int j = -1;
for (int i = 0; i < stepList.size(); ++i) {
unsigned distance = std::abs(stepList[i] - currentTimeMinutes);
if (distance < minimalDistance) {
minimalDistance = distance;
j = i;
}
}
// max. tolerance set to 3 minutes
// unsigned const tolerance = std::min(minimalDistance, (unsigned)(3));
if (j != -1) {
stepList[j] = currentTimeMinutes;
}
}
#if 0
int maxStep = -1;
if (size >= 2) {
maxStep = stepList[1] - stepList[0];
}
// max. tolerance set to 5 minutes
int const tolerance = (maxStep == -1) ? 5 : std::min(maxStep, 5);
for (int i=0; i < stepList.size(); ++i) {
if (std::abs(stepList[i] - currentTimeMinutes) <= tolerance) {
qCritical().noquote()
<< __LINE__ << QString("compute_next_timestep() correction stepList[%1]=%2 -> %3:")
.arg(i).arg(stepList[0]).arg(currentTimeMinutes);
stepList[i] = currentTimeMinutes;
qCritical() << __LINE__ << "compute_next_timestep() NEW timeSteps:" << stepList;
}
}
int currentStepIndex = stepList.indexOf(currentTimeMinutes);
#endif
currentStepIndex = stepList.indexOf(currentTimeMinutes);
qCritical() << __LINE__ << "compute_next_timestep() currentStepIndex (" << currentStepIndex << ")";
if (currentStepIndex == -1) {
qCritical() << __LINE__ << "compute_next_timestep() *NO STEP* for currentTimeMinutes (" << currentTimeMinutes << ")";
return currentTimeMinutes;
}
if (UpDown == 1) { // UP
if (stepList[currentStepIndex] == stepList.last()) {
qCritical() << __LINE__ << "compute_next_timestep() *NO NEXT STEP* for currentTimeMinutes (" << currentTimeMinutes << ")";
return currentTimeMinutes;
}
else {
int const rest = currentStepIndex % pop_plus_steps;
if (rest) {
currentStepIndex -= rest;
}
qCritical() << __LINE__ << "compute_next_timestep() currentStepIndex (" << currentStepIndex << ")";
int const nextStepIndex = currentStepIndex + pop_plus_steps;
qCritical() << __LINE__ << "compute_next_timestep() next step index:" << nextStepIndex;
if (nextStepIndex >= 0 && nextStepIndex < stepList.size()) {
qCritical() << __LINE__ << "compute_next_timestep() return next time step:" << stepList[nextStepIndex];
return stepList[nextStepIndex];
}
}
}
if (UpDown == 0) { // DOWN
if (stepList[currentStepIndex] == stepList.first()) {
qCritical() << __LINE__ << "compute_next_timestep() *NO PREVIOUS STEP* for currentTimeMinutes (" << currentTimeMinutes << ")";
return currentTimeMinutes;
}
else {
int const nextStepIndex = currentStepIndex - pop_minus_steps;
qCritical() << __LINE__ << "compute_next_timestep() next step index:" << nextStepIndex;
if (nextStepIndex >= 0 && nextStepIndex < stepList.size()) {
qCritical() << __LINE__ << "compute_next_timestep() return next time step:" << stepList[nextStepIndex];
return stepList[nextStepIndex];
}
}
}
} else
if (paymentMethodId == PaymentMethod::Linear) {
// currentTimeMinutes is the number of minutes actually used. This
// value is an offset from the start time and cannot be used as a
// QDateTime.
qCritical() << "compute_next_timestep() up/down (1=up, 0=down):" << UpDown;
// get minimal and maximal parking times
int const minParkingTime = Utilities::getMinimalParkingTime(cfg, paymentMethodId);
int const maxParkingTime = Utilities::getMaximalParkingTime(cfg, paymentMethodId);
qCritical() << " compute_next_timestep() maxParkingTime:" << maxParkingTime;
qCritical() << " compute_next_timestep() minParkingTime:" << minParkingTime;
// use the first (i.e. main duration step contained in the tariff json-file)
int firstDurationStep = Utilities::getFirstDurationStep(cfg, paymentMethodId);
firstDurationStep = ((UpDown == 1) ? firstDurationStep : -firstDurationStep);
qCritical() << " compute_next_timestep() firstDurationStep:" << firstDurationStep;
int const nextTimeStep = currentTimeMinutes + firstDurationStep;
if (nextTimeStep >= minParkingTime && nextTimeStep <= maxParkingTime) {
qCritical() << " compute_next_timestep() nextTimeStep:" << nextTimeStep;
return nextTimeStep;
}
}
qCritical() << "compute_next_timestep() *CAN NOT COMPUTE* for currentTimeMinutes (" << currentTimeMinutes << ")";
return currentTimeMinutes;
}
// this is currently not used
CalcState CALCULATE_LIBRARY_API compute_price_for_parking_ticket(
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parking_tariff_t *tariff,
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time_t start_parking_time, // in minutes
time_t end_parking_time, // netto time in minutes
struct price_t *price,
PermitType permitType) { // permitType maps to product
CalcState calcState;
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QDate const d(1970, 1, 1);
QTime const t(0, 0, 0);
QDateTime start(d, t, Qt::UTC);
start = start.toLocalTime().addSecs(start_parking_time * 60);
QDateTime end(start);
int paymentOptionIndex = getPaymentOptionIndex(*tariff, start);
if (paymentOptionIndex == -1) {
paymentOptionIndex = tariff->getPaymentOptionIndex(permitType.get());
}
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double minMin = tariff->PaymentOption.find(tariff->getPaymentOptions(paymentOptionIndex).pop_payment_method_id)->second.pop_min_time;
double maxMin = tariff->PaymentOption.find(tariff->getPaymentOptions(paymentOptionIndex).pop_payment_method_id)->second.pop_max_time;
if (minMin < 0 || maxMin < 0 || maxMin < minMin) {
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calcState.setDesc(QString("minMin=%1, maxMin=%2").arg(minMin).arg(maxMin));
return calcState.set(CalcState::State::WRONG_PARAM_VALUES);
}
int const duration = end_parking_time - start_parking_time;
if (duration < 0) {
calcState.setDesc(QString("end=%1, start=%2")
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.arg(end_parking_time, start_parking_time));
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return calcState.set(CalcState::State::NEGATIVE_PARKING_TIME);
}
if (duration > maxMin) {
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calcState.setDesc(QString("duration=%1, maxMin=%2").arg(duration).arg(maxMin));
return calcState.set(CalcState::State::ABOVE_MAX_PARKING_TIME);
}
if (duration < minMin) {
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calcState.setDesc(QString("duration=%1, minMin=%2").arg(duration).arg(minMin));
return calcState.set(CalcState::State::BELOW_MIN_PARKING_TIME);
}
if (duration == 0) {
return calcState.set(CalcState::State::SUCCESS);
}
//QDate const d(1970, 1, 1);
//QTime const t(0, 0, 0);
//QDateTime start(d, t, Qt::UTC);
//start = start.toLocalTime().addSecs(start_parking_time * 60);
//QDateTime end(start);
if (start.isValid()) {
double cost = Calculator::GetInstance().GetCostFromDuration(
tariff,
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tariff->getPaymentOptions(paymentOptionIndex).pop_payment_method_id,
start,
end,
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duration, false, true);
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double minCost = tariff->PaymentOption.find(tariff->getPaymentOptions(paymentOptionIndex).pop_payment_method_id)->second.pop_min_price;
if (cost < minCost) {
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calcState.setDesc(QString("line=%1 minCost=%2, cost=%3").arg(__LINE__).arg(minCost).arg(cost));
return calcState.set(CalcState::State::BELOW_MIN_PARKING_PRICE);
}
price->units = cost;
price->netto = cost;
} else {
return calcState.set(CalcState::State::INVALID_START_DATE);
}
return calcState.set(CalcState::State::SUCCESS);
}
CalcState CALCULATE_LIBRARY_API compute_price_for_parking_ticket(
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parking_tariff_t *tariff,
QDateTime &start_parking_time_,
int netto_parking_time,
QDateTime &end_parking_time,
struct price_t *price,
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PermitType permitType,
bool prepaid)
{
CalcState calcState;
QDateTime start_parking_time(start_parking_time_);
int paymentOptionIndex = getPaymentOptionIndex(*tariff, start_parking_time);
if (paymentOptionIndex == -1) {
paymentOptionIndex = tariff->getPaymentOptionIndex(permitType);
}
double minMin = tariff->getPaymentOptions(paymentOptionIndex).pop_min_time;
double maxMin = tariff->getPaymentOptions(paymentOptionIndex).pop_max_time;
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// DEBUG
qCritical() << "compute_price_for_parking_ticket() " << endl
<< " paymentOptionIndex: " << paymentOptionIndex << endl
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<< " start_parking_time: " << start_parking_time << endl
<< " netto_parking_time: " << netto_parking_time << endl
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<< " start + netto: " << start_parking_time.addSecs(netto_parking_time * 60) << endl
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<< " minMin: " << minMin << endl
<< " maxMin: " << maxMin
<< " prepaid: " << prepaid
<< " permitType: " << permitType.toString();
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if (netto_parking_time < 0) {
calcState.setDesc(QString("end=%1, start=%2")
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.arg(end_parking_time.toString(Qt::ISODate),
start_parking_time.toString(Qt::ISODate)));
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return calcState.set(CalcState::State::NEGATIVE_PARKING_TIME);
}
if (netto_parking_time > maxMin) {
calcState.setDesc(QString("duration=%1, maxMin=%2").arg(netto_parking_time).arg(maxMin));
return calcState.set(CalcState::State::ABOVE_MAX_PARKING_TIME);
}
if (netto_parking_time < minMin) {
calcState.setDesc(QString("duration=%1, minMin=%2").arg(netto_parking_time).arg(minMin));
return calcState.set(CalcState::State::BELOW_MIN_PARKING_TIME);
}
if (netto_parking_time == 0) {
return calcState.set(CalcState::State::SUCCESS);
}
double cost = -1;
if (start_parking_time.isValid()) {
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if (tariff->getPaymentOptions(paymentOptionIndex).pop_payment_method_id == PaymentMethod::Steps ||
tariff->getPaymentOptions(paymentOptionIndex).pop_payment_method_id == PaymentMethod::Degressive) {
// hier muesste man unterscheiden: uebertrag oder nicht?
calcState = Calculator::GetInstance().isParkingAllowed(tariff, start_parking_time,
netto_parking_time, paymentOptionIndex);
if (calcState.getStatus() == CalcState::State::OUTSIDE_ALLOWED_PARKING_TIME) {
qCritical() << "(" << __func__ << ":" << __LINE__ << ")"
<< calcState.toString();
return calcState;
}
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QList<int> tlist = Calculator::GetInstance().GetTimeSteps(tariff);
Q_UNUSED(tlist);
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// compute cost (price)
cost = Calculator::GetInstance().GetCostFromDuration(tariff, start_parking_time, netto_parking_time, paymentOptionIndex);
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int weekDay = start_parking_time.date().dayOfWeek();
int pop_carry_over_option_id = tariff->getPaymentOptions(paymentOptionIndex).pop_carry_over_option_id;
int pop_prepaid_option_id = tariff->getPaymentOptions(paymentOptionIndex).pop_prepaid_option_id;
std::optional<ATBPeriodYear> yperiod = Utilities::GetYearPeriodActive(tariff, start_parking_time);
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int period_id = -1;
if (yperiod.has_value()) {
ATBPeriodYear const &period = yperiod.value();
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period_id = period.pye_id;
pop_carry_over_option_id = period.pye_id;
pop_prepaid_option_id = period.pye_id;
qCritical() << __func__ << ":" << __LINE__ << "re-computed carry-over-id" << pop_carry_over_option_id;
qCritical() << __func__ << ":" << __LINE__ << " re-computed prepaid-id" << pop_prepaid_option_id;
}
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QTime carryOverStart = tariff->TariffCarryOverOptions.find(pop_carry_over_option_id)->second.carryover[weekDay].static_start;
int carryOverDuration = tariff->TariffCarryOverOptions.find(pop_carry_over_option_id)->second.carryover[weekDay].duration;
qCritical() << __func__ << ":" << __LINE__ << " carryOverStart" << carryOverStart.toString(Qt::ISODate);
qCritical() << __func__ << ":" << __LINE__ << "carryOverDuration" << carryOverDuration;
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QDateTime effectiveStartTime(start_parking_time);
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// handle special days
int const specialDayId = tariff->specialDayId(start_parking_time);
if (specialDayId > 0) { // found special day
for (auto[itr, rangeEnd] = tariff->SpecialDaysWorktime.equal_range(specialDayId); itr != rangeEnd; ++itr) {
ATBSpecialDaysWorktime const &wt = itr->second;
switch(period_id) {
case 1: // summer term
if ((wt.pedwt_paid & 1) == 0) {
// does not have to be paid, move to next midnight
// better: start of next day (falls kein vorkauf besteht)
effectiveStartTime = effectiveStartTime.addDays(1);
effectiveStartTime.setTime(QTime(0, 0, 0));
}
break;
case 2: // winter term
if ((wt.pedwt_paid & 2) == 0) {
// does not have to be paid, move to next midnight
// better: start of next day (falls kein vorkauf besteht)
effectiveStartTime = effectiveStartTime.addDays(1);
effectiveStartTime.setTime(QTime(0, 0, 0));
}
break;
default:;
}
}
}
// handle prepaid option
int const prepaid_option_id = tariff->getPaymentOptions(paymentOptionIndex).pop_prepaid_option_id;
std::optional<ATBPrepaid> prepaidOption = tariff->getPrepaidType(prepaid_option_id);
if (prepaidOption.has_value()) {
ATBPrepaid const &p = prepaidOption.value();
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if (p.never) {
qCritical() << __func__ << ":" << __LINE__ << "prepaid: no";
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} else {
qCritical() << __func__ << ":" << __LINE__ << " prepaidStart" << p.prepaid[weekDay].static_start.toString(Qt::ISODate);
qCritical() << __func__ << ":" << __LINE__ << " prepaidEnd" << p.prepaid[weekDay].static_end.toString(Qt::ISODate);
qCritical() << __func__ << ":" << __LINE__ << "prepaid duration" << p.prepaid[weekDay].duration;
if (start_parking_time.time() < p.prepaid[weekDay].static_end) { // static_end: e.g. 08:00:00
effectiveStartTime.setTime(p.prepaid[weekDay].static_end);
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} else
if (start_parking_time.time() > p.prepaid[weekDay].static_start) { // static_start: e.g. 22:00:00
effectiveStartTime.setTime(p.prepaid[weekDay].static_start);
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}
}
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}
qCritical() << __func__ << ":" << __LINE__ << "effectiveStartTime:" << effectiveStartTime.toString(Qt::ISODate);
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int const carryOver = tariff->getPaymentOptions(paymentOptionIndex).pop_carry_over;
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qCritical() << __func__ << ":" << __LINE__ << " carryOver flag" << carryOver;
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if (carryOver == 1) {
QTime carryOverStart = tariff->TariffCarryOverOptions.find(pop_carry_over_option_id)->second.carryover[weekDay].static_start;
int carryOverDuration = tariff->TariffCarryOverOptions.find(pop_carry_over_option_id)->second.carryover[weekDay].duration;
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qCritical() << __func__ << ":" << __LINE__ << " carryOverStart" << carryOverStart.toString(Qt::ISODate);
qCritical() << __func__ << ":" << __LINE__ << "carryOverDuration" << carryOverDuration;
// handle carry over
int minutesUntilCarryOver = effectiveStartTime.time().secsTo(carryOverStart) / 60;
if (netto_parking_time > minutesUntilCarryOver) {
int const rest = netto_parking_time - minutesUntilCarryOver;
QDateTime s(effectiveStartTime);
s = s.addSecs(minutesUntilCarryOver * 60);
s = s.addSecs(carryOverDuration * 60);
end_parking_time = s.addSecs(rest * 60);
} else {
end_parking_time = effectiveStartTime.addSecs(netto_parking_time*60);
}
qCritical() << __func__ << ":" << __LINE__ << "end-parking-time:" << end_parking_time.toString(Qt::ISODate);
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weekDay = end_parking_time.date().dayOfWeek();
// musste man in einer schleife machen
carryOverStart = tariff->TariffCarryOverOptions.find(pop_carry_over_option_id)->second.carryover[weekDay].static_start;
carryOverDuration = tariff->TariffCarryOverOptions.find(pop_carry_over_option_id)->second.carryover[weekDay].duration;
if (end_parking_time.time() > carryOverStart) {
end_parking_time = end_parking_time.addSecs(carryOverDuration * 60);
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} else
if (end_parking_time.time() == carryOverStart) {
qCritical() << __func__ << ":" << __LINE__ << "end-parking-time:" << end_parking_time.toString(Qt::ISODate);
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qCritical() << __func__ << ":" << __LINE__ << " carryOverStart" << carryOverStart.toString(Qt::ISODate);
ATBPaymentOption const &po = tariff->getPaymentOptions(paymentOptionIndex);
if (po.pop_apply_carry_over_to_ticket_endtime) {
end_parking_time = end_parking_time.addSecs(carryOverDuration * 60);
qCritical() << __func__ << ":" << __LINE__ << "end-parking-time:" << end_parking_time.toString(Qt::ISODate);
}
}
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} else {
qCritical() << __func__ << ":" << __LINE__ << "NO carryOver configured";
end_parking_time = effectiveStartTime.addSecs(netto_parking_time*60);
}
end_parking_time.setTime(QTime(end_parking_time.time().hour(),
end_parking_time.time().minute(), 0));
qCritical() << __func__ << ":" << __LINE__ << "end-parking-time:" << end_parking_time.toString(Qt::ISODate);
qCritical() << __func__ << ":" << __LINE__ << " week-day:" << weekDay;
for (auto[itr, rangeEnd] = tariff->WeekDays.equal_range((Qt::DayOfWeek)weekDay); itr != rangeEnd; ++itr) {
ATBWeekDay const &wd = itr->second;
bool const parkTimeLimitViolated = wd.getTariffCarryOverSettings().parkingTimeLimitExceeded(effectiveStartTime,
end_parking_time,
paymentOptionIndex);
if (parkTimeLimitViolated) {
//QTime const &tlimit = wd.getTariffCarryOverSettings().parkingTimeLimit();
//end_parking_time.setTime(tlimit);
calcState.setDesc(QString("line=%1 endTime=%2: park-time-limit violated").arg(__LINE__)
.arg(end_parking_time.time().toString(Qt::ISODate)));
return calcState.set(CalcState::State::ABOVE_MAX_PARKING_TIME);
}
}
} else {
cost = Calculator::GetInstance().GetCostFromDuration(
tariff,
tariff->getPaymentOptions().pop_payment_method_id,
start_parking_time, // starting time
end_parking_time, // return value: end time
netto_parking_time, // minutes, netto
false, prepaid);
}
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// qCritical() << __func__ << __LINE__;
double minCost = tariff->getPaymentOptions(paymentOptionIndex).pop_min_price;
if (cost < minCost) {
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calcState.setDesc(QString("line=%1 minCost=%2, cost=%3").arg(__LINE__).arg(minCost).arg(cost));
return calcState.set(CalcState::State::BELOW_MIN_PARKING_PRICE);
}
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// DEBUG
//qCritical() << __LINE__ << " end_parking_time: " << end_parking_time;
//qCritical() << __LINE__ << " -> calculated cost (netto): " << cost;
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price->brutto = price->vat = price->vat_percentage = 0;
price->units = cost;
price->netto = cost;
} else {
return calcState.set(CalcState::State::INVALID_START_DATE);
}
if (end_parking_time.time().hour() == 0 && end_parking_time.time().minute() == 0) {
end_parking_time = end_parking_time.addDays(-1);
end_parking_time.setTime(QTime(23, 59, 0));
}
qCritical() << __func__ << __LINE__ << "end_parking_time" << end_parking_time.toString(Qt::ISODate);
return calcState.set(CalcState::State::SUCCESS);
}
CalcState CALCULATE_LIBRARY_API compute_duration_for_parking_ticket(
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parking_tariff_t *tariff,
time_t start_parking_time,
double price,
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QString &duration,
PermitType permitType) {
CalcState calcState;
QDate const d(1970, 1, 1);
QTime const t(0, 0, 0);
QDateTime start(d, t, Qt::UTC);
start = start.toLocalTime().addSecs(start_parking_time * 60);
if (start.isValid()) {
QString cs = start.toString(Qt::ISODate);
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bool prepaid = true;
int paymentOptionIndex = getPaymentOptionIndex(*tariff, start);
qCritical() << " payment option index: " << paymentOptionIndex;
if (paymentOptionIndex == -1) {
paymentOptionIndex = tariff->getPaymentOptionIndex(permitType);
}
int prepaid_option_id = tariff->getPaymentOptions(paymentOptionIndex).pop_prepaid_option_id;
if (prepaid_option_id == 2) { // see tariff03.json for 502: 2 means no prepaid-option
prepaid = false;
}
bool const nextDay = false;
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// DEBUG
qCritical() << "compute_duration_for_parking_ticket(1): ";
qCritical() << " payment option index: " << paymentOptionIndex;
qCritical() << " prepaid: " << prepaid;
qCritical() << " start (cs): " << cs;
qCritical() << " price: " << price;
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std::pair<std::string, QDateTime> p_duration
= Calculator::GetInstance().GetDurationFromCost(tariff,
tariff->getPaymentOptions(paymentOptionIndex).pop_payment_method_id,
cs.toLocal8Bit().constData(),
price, permitType, nextDay, prepaid);
duration = p_duration.first.c_str();
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QDateTime d = QDateTime::fromString(duration, Qt::ISODate);
if (!d.isValid()) {
calcState.setDesc(QString("ticketEndTime=%1").arg(duration));
return calcState.set(CalcState::State::WRONG_ISO_TIME_FORMAT);
}
} else {
return calcState.set(CalcState::State::INVALID_START_DATE);
}
return calcState.set(CalcState::State::SUCCESS);
}
CalcState CALCULATE_LIBRARY_API compute_duration_for_parking_ticket(
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parking_tariff_t *tariff,
QDateTime const &start_parking_time,
double price,
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QDateTime &ticketEndTime,
PermitType permitType)
{
CalcState calcState;
bool prepaid = true;
int paymentOptionIndex = getPaymentOptionIndex(*tariff, start_parking_time);
qCritical() << __func__ << ":" << __LINE__ << "payment option index: " << paymentOptionIndex;
if (paymentOptionIndex == -1) {
paymentOptionIndex = tariff->getPaymentOptionIndex(permitType);
}
qCritical() << __func__ << ":" << __LINE__ << " payment option index: " << paymentOptionIndex;
int prepaid_option_id = tariff->getPaymentOptions(paymentOptionIndex).pop_prepaid_option_id;
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if (prepaid_option_id == 2) {
prepaid = false;
}
bool const nextDay = false;
// DEBUG
if (DBG_LEVEL >= DBG_DEBUG) {
qCritical() << "compute_duration_for_parking_ticket(2): ";
qCritical() << " payment option index: " << paymentOptionIndex;
qCritical() << " prepaid: " << prepaid;
qCritical() << " price: " << price;
}
if (start_parking_time.isValid()) {
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int const pop_time_step_config = tariff->getPaymentOptions(paymentOptionIndex).pop_time_step_config;
if (pop_time_step_config == (int)ATBTimeStepConfig::TimeStepConfig::STATIC) {
// handle prepaid option
QDateTime effectiveStartTime(start_parking_time);
int const prepaid_option_id = tariff->getPaymentOptions(paymentOptionIndex).pop_prepaid_option_id;
std::optional<ATBPrepaid> prepaidOption = tariff->getPrepaidType(prepaid_option_id);
if (prepaidOption.has_value()) {
ATBPrepaid const &p = prepaidOption.value();
if (p.never) {
qCritical() << __func__ << __LINE__ << "prepaid: no";
} else {
if (start_parking_time.time() < p.static_end) { // static_end: e.g. 08:00:00
effectiveStartTime.setTime(p.static_end);
} else
if (start_parking_time.time() > p.static_start) { // static_start: e.g. 22:00:00
effectiveStartTime.setTime(p.static_start);
}
}
}
}
QString cs = start_parking_time.toString(Qt::ISODate);
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std::pair<std::string, QDateTime> p_endTime
= Calculator::GetInstance().GetDurationFromCost(
tariff,
tariff->getPaymentOptions().pop_payment_method_id,
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cs.toLocal8Bit().constData(),
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price, permitType, nextDay, prepaid);
QString endTime = p_endTime.first.c_str();
ticketEndTime = p_endTime.second;
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if (endTime == CalcState::SUCCESS) {
calcState.setDesc(QString("SUCCESS"));
calcState.setStatus(endTime);
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qCritical() << __func__ << ":" << __LINE__ << "SUCCESS";
} else
if (endTime == CalcState::SUCCESS_MAXPRICE) {
calcState.setDesc(QString("SUCCESS_MAXPRICE"));
calcState.setStatus(endTime);
qCritical() << __func__ << ":" << __LINE__ << "SUCCESS_MAXPRICE";
} else
if (endTime == CalcState::ERROR_PARSING_ZONE_NR) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::ERROR_LOADING_TARIFF) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::ERROR_PARSING_TARIFF) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::NEGATIVE_PARKING_TIME) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::INVALID_START_DATE) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::WRONG_PARAM_VALUES) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::WRONG_ISO_TIME_FORMAT) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::ABOVE_MAX_PARKING_TIME) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::BELOW_MIN_PARKING_TIME) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::BELOW_MIN_PARKING_PRICE) {
calcState.setStatus(endTime);
return calcState;
} else
if (endTime == CalcState::ABOVE_MAX_PARKING_PRICE) {
calcState.setDesc(CalcState::ABOVE_MAX_PARKING_PRICE);
calcState.setStatus(CalcState::ABOVE_MAX_PARKING_PRICE);
return calcState;
} else
if (endTime == CalcState::OVERPAID) {
calcState.setDesc(CalcState::OVERPAID);
calcState.setStatus(CalcState::OVERPAID);
return calcState;
} else
if (endTime == CalcState::OUTSIDE_ALLOWED_PARKING_TIME) {
calcState.setStatus(endTime);
return calcState;
} else {
ticketEndTime = QDateTime::fromString(endTime,Qt::ISODate);
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qCritical() << __func__ << ":" << __LINE__ << "ticketEndTime:" << ticketEndTime.toString(Qt::ISODate);
qCritical() << __func__ << ":" << __LINE__ << "step-config:" << pop_time_step_config;
if (!ticketEndTime.isValid()) {
calcState.setDesc(QString("ticketEndTime=%1").arg(endTime));
return calcState.set(CalcState::State::WRONG_ISO_TIME_FORMAT);
}
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if (pop_time_step_config == (int)ATBTimeStepConfig::TimeStepConfig::STATIC) {
// handle carry over for ticket-end-time
qCritical() << __func__ << ":" << __LINE__ << "ticketEndTime:" << ticketEndTime.toString(Qt::ISODate);
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int weekDay = start_parking_time.date().dayOfWeek();
int pop_carry_over_option_id = tariff->getPaymentOptions(paymentOptionIndex).pop_carry_over_option_id;
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qCritical() << __func__ << ":" << __LINE__ << "configured carry-over-id" << pop_carry_over_option_id;
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std::optional<ATBPeriodYear> yperiod = Utilities::GetYearPeriodActive(tariff, start_parking_time);
if (yperiod.has_value()) {
ATBPeriodYear const &period = yperiod.value();
pop_carry_over_option_id = period.pye_id;
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qCritical() << __func__ << ":" << __LINE__ << "re-computed carry-over-id" << pop_carry_over_option_id;
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}
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QTime carryOverStart;
QTime carryOverEnd;
int carryOverDuration = -1;
// using TariffCarryOverType = std::multimap<int, ATBCarryOver>;
std::multimap<int, ATBCarryOver>::const_iterator it;
if ((it = tariff->TariffCarryOverOptions.find(pop_carry_over_option_id)) !=
tariff->TariffCarryOverOptions.cend()) {
carryOverStart = it->second.carryover[weekDay].static_start;
carryOverEnd = it->second.carryover[weekDay].static_end;
carryOverDuration = it->second.carryover[weekDay].duration;
}
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if (carryOverStart.isValid() && carryOverEnd.isValid()) {
qCritical() << __func__ << ":" << __LINE__ << "carryOverStart" << carryOverStart.toString(Qt::ISODate);
qCritical() << __func__ << ":" << __LINE__ << "carryOverEnd" << carryOverEnd.toString(Qt::ISODate);
qCritical() << __func__ << ":" << __LINE__ << "carryOverDuration" << carryOverDuration;
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}
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if (carryOverStart.isValid() && carryOverEnd.isValid() && carryOverDuration != -1) {
// qCritical() << __func__ << __LINE__ << "ticketEndTime.time():" << ticketEndTime.time().toString(Qt::ISODate);
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if (ticketEndTime.time() > carryOverStart) {
// qCritical() << __func__ << __LINE__ << "ticketEndTime.time():" << ticketEndTime.time().toString(Qt::ISODate);
ticketEndTime = ticketEndTime.addSecs(carryOverDuration * 60);
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} else {
// qCritical() << __func__ << __LINE__ << "ticketEndTime.time():" << ticketEndTime.time().toString(Qt::ISODate);
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if (ticketEndTime.time() < carryOverEnd) {
// qCritical() << __func__ << __LINE__ << "ticketEndTime.time():" << ticketEndTime.time().toString(Qt::ISODate);
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ticketEndTime = ticketEndTime.addSecs(carryOverDuration * 60);
}
}
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} else {
qCritical() << __func__ << ":" << __LINE__ << "WARNING: wrong carry-over-settings";
}
}
ticketEndTime.setTime(QTime(ticketEndTime.time().hour(),
ticketEndTime.time().minute(), 0));
qCritical() << __func__ << ":" << __LINE__ << "ticketEndTime:" << ticketEndTime.toString(Qt::ISODate);
for (auto[itr, rangeEnd] = tariff->WeekDays.equal_range((Qt::DayOfWeek)(ticketEndTime.date().dayOfWeek()));
itr != rangeEnd;
++itr) {
ATBWeekDay const &wd = itr->second;
bool const parkTimeLimitViolated = wd.getTariffCarryOverSettings().parkingTimeLimitExceeded(start_parking_time,
ticketEndTime,
paymentOptionIndex);
if (parkTimeLimitViolated) {
//QTime const &tlimit = wd.getTariffCarryOverSettings().parkingTimeLimit();
//ticketEndTime.setTime(tlimit);
calcState.setDesc(QString("line=%1 endTime=%2: park-time-limit violated").arg(__LINE__)
.arg(ticketEndTime.time().toString(Qt::ISODate)));
return calcState.set(CalcState::State::ABOVE_MAX_PARKING_TIME);
}
}
if (ticketEndTime.time().hour() == 0 && ticketEndTime.time().minute() == 0) {
ticketEndTime = ticketEndTime.addDays(-1);
ticketEndTime.setTime(QTime(23, 59, 0));
}
// DEBUG
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qCritical() << __func__ << ":" << __LINE__ << " endTime:" << endTime;
qCritical() << __func__ << ":" << __LINE__ << "ticketEndTime:" << ticketEndTime.toString(Qt::ISODate);
}
} else {
return calcState.set(CalcState::State::INVALID_START_DATE);
}
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//return calcState.set(CalcState::State::SUCCESS);
qCritical() << __func__ << ":" << __LINE__ << " calcState" << calcState.toString();
return calcState;
}
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CalcState CALCULATE_LIBRARY_API compute_duration_for_daily_ticket(parking_tariff_t *tariff,
QDateTime const &start_parking_time,
QDateTime &ticketEndTime,
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PermitType /* PermitType */)
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{
CalcState calcState;
if (start_parking_time.isValid()) {
ticketEndTime = Calculator::GetInstance().GetDailyTicketDuration(tariff,
start_parking_time,
tariff->getPaymentOptions().pop_payment_method_id,
false); // carry over
// DEBUG
qCritical() << "compute_duration_for_daily_ticket(): ";
qCritical() << " ticketEndTime: " << ticketEndTime;
if (!ticketEndTime.isValid()) {
calcState.setDesc(QString("ticketEndTime=%1").arg(ticketEndTime.toString(Qt::ISODate)));
return calcState.set(CalcState::State::WRONG_ISO_TIME_FORMAT);
}
} else {
return calcState.set(CalcState::State::INVALID_START_DATE);
}
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return calcState.set(CalcState::State::SUCCESS);
}
CalcState CALCULATE_LIBRARY_API compute_price_for_daily_ticket(
parking_tariff_t *tariff,
QDateTime const &startDatetime,
QDateTime &endDatetime,
PERMIT_TYPE permitType,
struct price_t *price) {// return value
CalcState calcState;
if (startDatetime.isValid()) {
if (std::optional<struct price_t> p =
Calculator::GetInstance().GetDailyTicketPrice(tariff,
startDatetime,
endDatetime,
permitType)) {
*price = p.value();
}
} else {
return calcState.set(CalcState::State::INVALID_START_DATE);
}
return calcState.set(CalcState::State::SUCCESS);
}