void
MSTLLogicControl::WAUTSwitchProcedure_Stretch::adaptLogic(SUMOTime step) {
SUMOTime gspTo = TIME2STEPS(getGSPValue(*myTo));
SUMOTime cycleTime = myTo->getDefaultCycleTime();
// the position, where the logic has to be after synchronisation
SUMOTime posAfterSyn = myTo->getPhaseIndexAtTime(step);
// calculate the difference, that has to be equalized
SUMOTime deltaToCut = 0;
if (posAfterSyn < gspTo) {
deltaToCut = posAfterSyn + cycleTime - gspTo;
} else {
deltaToCut = posAfterSyn - gspTo;
}
// test, wheter cutting of the Signalplan is possible
SUMOTime deltaPossible = 0;
int areasNo = getStretchAreaNo(myTo);
for (int i = 0; i < areasNo; i++) {
StretchBereichDef def = getStretchBereichDef(myTo, i + 1);
assert(def.end >= def.begin);
deltaPossible += TIME2STEPS(def.end - def.begin);
}
int stretchUmlaufAnz = (int) TplConvert::_2SUMOReal(myTo->getParameterValue("StretchUmlaufAnz").c_str());
deltaPossible = stretchUmlaufAnz * deltaPossible;
if ((deltaPossible > deltaToCut) && (deltaToCut < (cycleTime / 2))) {
cutLogic(step, gspTo, deltaToCut);
} else {
SUMOTime deltaToStretch = (cycleTime - deltaToCut) % cycleTime;
stretchLogic(step, gspTo, deltaToStretch);
}
}
void
MSTLLogicControl::WAUTSwitchProcedure_Stretch::adaptLogic(SUMOTime step, SUMOReal position) {
MSSimpleTrafficLightLogic *LogicTo = (MSSimpleTrafficLightLogic*) myTo;
size_t cycleTime = LogicTo->getDefaultCycleTime();
// the position, in which the logic has to be switched
unsigned int startPos = (unsigned int) position;
// this is the position, where the Logic have to be after synchronisation
size_t posAfterSyn = LogicTo->getPhaseIndexAtTime(step);
// switch the toLogic to the startPosition
// fehlt!!!!
// erfolgt in cutLogic und/oder stretchLogic!
// calculate the difference, that has to be equalized
size_t deltaToCut = 0;
if (posAfterSyn < startPos) {
deltaToCut = posAfterSyn + cycleTime - startPos;
} else deltaToCut = posAfterSyn - startPos;
// test, wheter cutting of the Signalplan is possible
size_t deltaPossible = 0;
int noBereiche = getStretchBereicheNo(myTo);
for (int i=0; i<noBereiche; i++) {
StretchBereichDef def = getStretchBereichDef(myTo, i+1);
assert(def.end >= def.begin) ;
deltaPossible = deltaPossible + (size_t)(def.end - def.begin);
}
int stretchUmlaufAnz = (int) TplConvert<char>::_2SUMOReal(LogicTo->getParameterValue("StretchUmlaufAnz").c_str());
deltaPossible = stretchUmlaufAnz * deltaPossible;
if ((deltaPossible > deltaToCut)&&(deltaToCut < (cycleTime / 2))) {
cutLogic(step, startPos, deltaToCut);
} else {
size_t deltaToStretch = cycleTime - deltaToCut;
if (deltaToStretch == cycleTime) {
deltaToStretch = 0;
}
stretchLogic(step, startPos, deltaToStretch);
}
}
