72 const std::string& vTypes,
const double departPos,
const double arrivalPos,
const std::string& busStop,
75 void addRide(
const ROEdge*
const from,
const ROEdge*
const to,
const std::string& lines,
const std::string& destStop);
78 const double departPos,
const double arrivalPos,
const std::string& busStop);
114 : stopDesc(stop), edge(stopEdge) {}
159 const std::string& _lines,
const std::string& _destStop =
"")
160 : from(_from), to(_to), lines(_lines), destStop(_destStop) {}
189 : edges(_edges), dur(-1), v(-1), dep(std::numeric_limits<double>::infinity()), arr(std::numeric_limits<double>::infinity()), destStop(_destStop) {}
191 const double departPos,
const double arrivalPos,
const std::string& _destStop)
192 : edges(edges), dur(duration), v(speed), dep(departPos), arr(arrivalPos), destStop(_destStop) {}
194 return edges.front();
203 const double dur,
v, dep, arr;
219 : from(0), to(0), modes(
SVC_PEDESTRIAN), dep(0), arr(0), busStop(
""), walkFactor(1.0) {}
221 const double departPos,
const double arrivalPos,
const std::string& busStop,
double _walkFactor)
222 : from(from), to(to), modes(modeSet), dep(departPos), arr(arrivalPos), busStop(busStop), walkFactor(_walkFactor) {}
225 for (std::vector<TripItem*>::const_iterator it = myTripItems.begin(); it != myTripItems.end(); ++it) {
228 for (std::vector<ROVehicle*>::const_iterator it = myVehicles.begin(); it != myVehicles.end(); ++it) {
229 delete(*it)->getRouteDefinition();
235 myTripItems.push_back(tripIt);
238 myVehicles.push_back(veh);
244 return from != 0 ? from : myTripItems.front()->getOrigin();
247 return to != 0 ? to : myTripItems.back()->getDestination();
259 return busStop !=
"";
262 return myTripItems.empty();
266 for (std::vector<TripItem*>::const_iterator it = myTripItems.begin(); it != myTripItems.end(); ++it) {
267 (*it)->saveAsXML(os);
299 return myPlan.front()->getOrigin();
304 const bool removeLoops,
MsgHandler* errorHandler);
void addRide(const ROEdge *const from, const ROEdge *const to, const std::string &lines, const std::string &destStop)
void saveAsXML(OutputDevice &os) const
SVCPermissions getModes() const
virtual void saveAsXML(OutputDevice &os) const =0
bool hasBusStopDest() const
void addVehicle(ROVehicle *veh)
Structure representing possible vehicle parameter.
const SVCPermissions modes
int SVCPermissions
bitset where each bit declares whether a certain SVC may use this edge/lane
A planItem can be a Stop.
std::vector< ROVehicle * > myVehicles
the vehicles which may be used for routing
bool computeIntermodal(const RORouterProvider &provider, PersonTrip *const trip, const ROVehicle *const veh, MsgHandler *const errorHandler)
PersonTrip(const ROEdge *const from, const ROEdge *const to, const SVCPermissions modeSet, const double departPos, const double arrivalPos, const std::string &busStop, double _walkFactor)
std::vector< const ROEdge * > ConstROEdgeVector
const ROEdge * getOrigin() const
Every person has a plan comprising of multiple planItems.
A planItem can be a Trip which contains multiple tripItems.
virtual ~PlanItem()
Destructor.
const ROEdge * getOrigin() const
Walk(const ConstROEdgeVector &edges, const double duration, const double speed, const double departPos, const double arrivalPos, const std::string &_destStop)
A routable thing such as a vehicle or person.
const ROEdge * getDestination() const
A ride is part of a trip, e.g., go from here to here by car or bus.
double getDepartPos() const
A vehicle as used by router.
ROPerson & operator=(const ROPerson &src)
Invalidated assignment operator.
const ROEdge * getOrigin() const
virtual void saveVehicles(OutputDevice &, OutputDevice *const, bool, OptionsCont &) const
std::vector< PlanItem * > myPlan
The plan of the person.
SUMOVehicleParameter::Stop stopDesc
std::vector< PlanItem * > & getPlan()
virtual bool needsRouting() const
virtual void addTripItem(TripItem *)
void addStop(const SUMOVehicleParameter::Stop &stopPar, const ROEdge *const stopEdge)
const ROEdge * getDestination() const
A person as used by router.
void saveAsXML(OutputDevice &os) const
A TripItem is part of a trip, e.g., go from here to here by car.
A walk is part of a trip, e.g., go from here to here by foot.
A basic edge for routing applications.
virtual const ROEdge * getDestination() const =0
virtual ~ROPerson()
Destructor.
std::vector< TripItem * > myTripItems
the fully specified trips
void addTrip(const ROEdge *const from, const ROEdge *const to, const SVCPermissions modeSet, const std::string &vTypes, const double departPos, const double arrivalPos, const std::string &busStop, double walkFactor)
ROPerson(const SUMOVehicleParameter &pars, const SUMOVTypeParameter *type)
Constructor.
virtual ~PersonTrip()
Destructor.
double getWalkFactor() const
void computeRoute(const RORouterProvider &provider, const bool removeLoops, MsgHandler *errorHandler)
Structure representing possible vehicle parameter.
const std::string destStop
virtual bool needsRouting() const
void addWalk(const ConstROEdgeVector &edges, const double duration, const double speed, const double departPos, const double arrivalPos, const std::string &busStop)
Definition of vehicle stop (position and duration)
A storage for options typed value containers)
const std::string destStop
Walk(const ConstROEdgeVector &_edges, const std::string &_destStop="")
const ROEdge * getDestination() const
Static storage of an output device and its base (abstract) implementation.
const ConstROEdgeVector edges
std::vector< ROVehicle * > & getVehicles()
virtual void addTripItem(TripItem *tripIt)
Stop(const SUMOVehicleParameter::Stop &stop, const ROEdge *const stopEdge)
virtual const ROEdge * getOrigin() const =0
double walkFactor
walking speed factor
const ROEdge * getDepartEdge() const
Returns the first edge the person takes.
const ROEdge * getOrigin() const
virtual bool isStop() const
double getArrivalPos() const
Ride(const ROEdge *const _from, const ROEdge *const _to, const std::string &_lines, const std::string &_destStop="")
virtual ~TripItem()
Destructor.
const std::string busStop
const ROEdge * getDestination() const