62 : myTLControl(tlcontrol), myTLLogic(tlLogic),
63 myAssumedNextSwitch(nextSwitch), myAmValid(true) {}
109 const std::string& programID,
SUMOTime delay,
const std::map<std::string, std::string>& parameters) :
125 if (phases.size() > 1) {
126 bool haveWarnedAboutUnusedStates =
false;
127 std::vector<bool> foundGreen(phases.front()->getState().size(),
false);
128 for (
int i = 0; i < (int)phases.size(); ++i) {
130 const int iNext = (i + 1) % phases.size();
131 const std::string& state1 = phases[i]->getState();
132 const std::string& state2 = phases[iNext]->getState();
133 assert(state1.size() == state2.size());
134 if (!haveWarnedAboutUnusedStates && state1.size() >
myLanes.size()) {
138 haveWarnedAboutUnusedStates =
true;
141 for (
int j = 0; j < (int)
MIN3(state1.size(), state2.size(),
myLanes.size()); ++j) {
145 for (LaneVector::const_iterator it =
myLanes[j].begin(); it !=
myLanes[j].end(); ++it) {
149 +
" when switching to phase " +
toString(iNext));
156 for (
int j = 0; j < (int)state1.size(); ++j) {
159 foundGreen[j] =
true;
163 for (
int j = 0; j < (int)foundGreen.size(); ++j) {
164 if (!foundGreen[j]) {
185 while ((
int)
myLinks.size() <= pos) {
191 while ((
int)
myLanes.size() <= pos) {
206 std::map<MSLink*, LinkState>
208 std::map<MSLink*, LinkState> ret;
209 for (LinkVectorVector::const_iterator i1 =
myLinks.begin(); i1 !=
myLinks.end(); ++i1) {
211 for (LinkVector::const_iterator i2 = l.begin(); i2 != l.end(); ++i2) {
212 ret[*i2] = (*i2)->getState();
224 for (
int i = 0; i < (int)
myLinks.size(); i++) {
227 for (LinkVector::const_iterator j = currGroup.begin(); j != currGroup.end(); j++) {
228 (*j)->setTLState(ls, t);
237 for (LinkVectorVector::const_iterator i1 =
myLinks.begin(); i1 !=
myLinks.end(); ++i1) {
239 for (LinkVector::const_iterator i2 = l.begin(); i2 != l.end(); ++i2) {
240 assert(vals.find(*i2) != vals.end());
251 for (LinkVectorVector::const_iterator i1 =
myLinks.begin(); i1 !=
myLinks.end(); ++i1, ++index) {
253 for (LinkVector::const_iterator i2 = l.begin(); i2 != l.end(); ++i2) {
287 const int numLinks = (int)
myLinks.size();
289 assert(numLinks <= (
int)phases.front()->getState().size());
291 std::vector<double> redDuration(numLinks, 0);
292 std::vector<double> totalRedDuration(numLinks, 0);
293 std::vector<double> penalty(numLinks, 0);
294 for (
int i = 0; i < (int)phases.size(); ++i) {
295 const std::string& state = phases[i]->getState();
296 duration += phases[i]->duration;
298 for (
int j = 0; j < numLinks; ++j) {
301 redDuration[j] +=
STEPS2TIME(phases[i]->duration);
302 totalRedDuration[j] +=
STEPS2TIME(phases[i]->duration);
303 }
else if (redDuration[j] > 0) {
304 penalty[j] += 0.5 * (redDuration[j] * redDuration[j] + redDuration[j]);
310 for (
int j = 0; j < numLinks; ++j) {
311 if (redDuration[j] > 0) {
312 penalty[j] += 0.5 * (redDuration[j] * redDuration[j] + redDuration[j]);
316 const double durationSeconds =
STEPS2TIME(duration);
317 std::set<const MSJunction*> controlledJunctions;
318 for (
int j = 0; j < numLinks; ++j) {
319 for (
int k = 0; k < (int)
myLinks[j].size(); ++k) {
322 controlledJunctions.insert(
myLinks[j][k]->getLane()->getEdge().getFromJunction());
328 for (std::set<const MSJunction*>::iterator it = controlledJunctions.begin(); it != controlledJunctions.end(); ++it) {
330 for (ConstMSEdgeVector::const_iterator it_e = incoming.begin(); it_e != incoming.end(); ++it_e) {
SUMOTime myCurrentDurationIncrement
A value for enlarge the current duration.
The link has green light, may pass.
virtual const MSPhaseDefinition & getCurrentPhaseDef() const =0
Returns the definition of the current phase.
const std::string & getState() const
Returns the state within this phase.
Builds detectors for microsim.
void initMesoTLSPenalties()
initialize optional meso penalties
void executeOnSwitchActions() const
Storage for all programs of a single tls.
MSTLLogicControl & myTLControl
The responsible traffic lights control.
static double gMesoTLSPenalty
std::vector< SUMOTime > myOverridingTimes
A list of duration overrides.
SwitchCommand(MSTLLogicControl &tlcontrol, MSTrafficLightLogic *tlLogic, SUMOTime nextSwitch)
Constructor.
std::string myProgramID
The id of the logic.
SUMOTime myAssumedNextSwitch
Assumed switch time (may change in case of adaptive traffic lights)
The link has green light, has to brake.
void recalcCache()
Recalculates the cached values.
static const LaneVector myEmptyLaneVector
An empty lane vector.
void setTLState(LinkState state, SUMOTime t)
Sets the current tl-state.
bool isActive(const MSTrafficLightLogic *tl) const
Returns whether the given tls program is the currently active for his tls.
static MSNet * getInstance()
Returns the pointer to the unique instance of MSNet (singleton).
virtual int getCurrentPhaseIndex() const =0
Returns the current index within the program.
MSTrafficLightLogic(MSTLLogicControl &tlcontrol, const std::string &id, const std::string &programID, SUMOTime delay, const std::map< std::string, std::string > ¶meters)
Constructor.
std::vector< const MSEdge * > ConstMSEdgeVector
const std::string & getID() const
Returns the id.
SUMOTime getNextSwitchTime() const
Returns the assumed next switch time.
bool setTrafficLightSignals(SUMOTime t) const
Applies the current signal states to controlled links.
void resetLinkStates(const std::map< MSLink *, LinkState > &vals) const
Resets the states of controlled links.
int getLinkIndex(const MSLink *const link) const
Returns the index of the given link.
#define WRITE_WARNING(msg)
LaneVectorVector myLanes
The list of LaneVectors; each vector contains the incoming lanes that belong to the same link index...
virtual ~MSTrafficLightLogic()
Destructor.
A class that stores and controls tls and switching of their programs.
A road/street connecting two junctions.
void deschedule(MSTrafficLightLogic *tlLogic)
Marks this swicth as invalid (if the phase duration has changed, f.e.)
Class realising the switch between the traffic light phases.
~SwitchCommand()
Destructor.
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
SUMOTime myDefaultCycleTime
The cycle time (without changes)
const std::string & getProgramID() const
Returns this tl-logic's id.
MSTrafficLightLogic * myTLLogic
The logic to be executed on a switch.
virtual void init(NLDetectorBuilder &nb)
Initialises the tls with information about incoming lanes.
MSEventControl * getBeginOfTimestepEvents()
Returns the event control for events executed at the begin of a time step.
virtual void addEvent(Command *operation, SUMOTime execTimeStep=-1)
Adds an Event.
virtual void adaptLinkInformationFrom(const MSTrafficLightLogic &logic)
Applies information about controlled links and lanes from the given logic.
LinkState
The right-of-way state of a link between two lanes used when constructing a NBTrafficLightLogic, in MSLink and GNEInternalLane.
SUMOTime getCurrentTimeStep() const
Returns the current simulation step.
std::map< MSLink *, LinkState > collectLinkStates() const
Returns the (uncontrolled) states of the controlled links.
An upper class for objects with additional parameters.
void setCurrentDurationIncrement(SUMOTime delay)
Delays current phase by the given delay.
Base class for objects which have an id.
std::vector< MSLink * > LinkVector
Definition of the list of links that are subjected to this tls.
std::vector< MSPhaseDefinition * > Phases
Definition of a list of phases, being the junction logic.
virtual const Phases & getPhases() const =0
Returns the phases of this tls program.
void addOverridingDuration(SUMOTime duration)
Changes the duration of the next phase.
LinkVectorVector myLinks
The list of LinkVectors; each vector contains the links that belong to the same link index...
std::vector< MSLane * > LaneVector
Definition of the list of arrival lanes subjected to this tls.
SUMOTime getNextSwitchTime() const
Returns the assumed next switch time.
The link has red light (must brake)
virtual void addLink(MSLink *link, MSLane *lane, int pos)
Adds a link on building.
SwitchCommand * mySwitchCommand
The current switch command.
The parent class for traffic light logics.
TLSLogicVariants & get(const std::string &id) const
Returns the variants of a named tls.
bool myAmValid
Information whether this switch command is still valid.
virtual SUMOTime trySwitch()=0
Switches to the next phase.
Representation of a lane in the micro simulation.
The link has red light (must brake) but indicates upcoming green.
SUMOTime execute(SUMOTime currentTime)
Executes the regarded junction's "trySwitch"- method.