Eclipse SUMO - Simulation of Urban MObility
Loading...
Searching...
No Matches
MSDispatch_RouteExtension.cpp
Go to the documentation of this file.
1/****************************************************************************/
2// Eclipse SUMO, Simulation of Urban MObility; see https://eclipse.dev/sumo
3// Copyright (C) 2007-2024 German Aerospace Center (DLR) and others.
4// This program and the accompanying materials are made available under the
5// terms of the Eclipse Public License 2.0 which is available at
6// https://www.eclipse.org/legal/epl-2.0/
7// This Source Code may also be made available under the following Secondary
8// Licenses when the conditions for such availability set forth in the Eclipse
9// Public License 2.0 are satisfied: GNU General Public License, version 2
10// or later which is available at
11// https://www.gnu.org/licenses/old-licenses/gpl-2.0-standalone.html
12// SPDX-License-Identifier: EPL-2.0 OR GPL-2.0-or-later
13/****************************************************************************/
18// An algorithm that performs dispatch for the taxi device
19/****************************************************************************/
20#include <config.h>
21
22#include <limits>
23#include <microsim/MSNet.h>
24#include <microsim/MSEdge.h>
26#include "MSRoutingEngine.h"
28
29//#define DEBUG_DISPATCH
30//#define DEBUG_COND2(obj) (obj->getID() == "p0")
31#define DEBUG_COND2(obj) (true)
32
33
34// ===========================================================================
35// method definitions
36// ===========================================================================
37void
38MSDispatch_RouteExtension::findInsertionPoint(std::vector<const Reservation*>::iterator& resIt, EdgePosVector::iterator& edgeIt,
39 const EdgePosVector::iterator& edgeEnd, ConstMSEdgeVector& route,
40 const MSEdge* newEdge, const double newPos) const {
41 for (const MSEdge* edge : route) {
42 while (edgeIt != edgeEnd && edge == edgeIt->first) {
43 if (edge == newEdge && edgeIt->second > newPos) {
44 break;
45 }
46 resIt++;
47 edgeIt++;
48 }
49 if (edge == newEdge) {
50 break;
51 }
52 }
53}
54
55
56int
57MSDispatch_RouteExtension::dispatch(MSDevice_Taxi* taxi, std::vector<Reservation*>::iterator& resIt, SUMOAbstractRouter<MSEdge, SUMOVehicle>& router, std::vector<Reservation*>& reservations) {
58 const Reservation* const res = *resIt;
59#ifdef DEBUG_DISPATCH
60 if (DEBUG_COND2(person)) {
61 std::cout << SIMTIME << " dispatch taxi=" << taxi->getHolder().getID() << " person=" << toString(res->persons) << "\n";
62 }
63#endif
65 const bool isPerson = (*res->persons.begin())->isPerson();
66 int capacityLeft = remainingCapacity(taxi, res);
67 std::vector<const Reservation*> sequence{ res, res };
68 std::vector<const Reservation*> toRemove{ res };
69 EdgePosVector posSequence({ std::make_pair(res->from, res->fromPos), std::make_pair(res->to, res->toPos) });
70 const Reservation* first = sequence.front();
71 const Reservation* last = sequence.back();
73 router.compute(first->from, first->fromPos, last->to, last->toPos, &taxi->getHolder(), MAX2(now, first->pickupTime), route);
74 // check whether the ride can be shared
75 for (auto it2 = resIt + 1; it2 != reservations.end();) {
76 Reservation* const res2 = *it2;
77 const bool isPerson2 = (*res2->persons.begin())->isPerson();
78 if (capacityLeft < (int)res2->persons.size() || isPerson != isPerson2 || !taxi->compatibleLine(res2)) {
79 it2++;
80 continue;
81 }
82 // check whether res2 picks up or gets picked up on the way
83 ConstMSEdgeVector route2;
84 // TODO It may be more efficient to check first whether from and to are already in the route
85 router.compute(res2->from, res2->fromPos, res2->to, res2->toPos, &taxi->getHolder(), MAX2(now, res2->pickupTime), route2);
86 const bool pickup = std::find(route.begin(), route.end(), res2->from) != route.end();
87 const bool dropoff = std::find(route.begin(), route.end(), res2->to) != route.end();
88#ifdef DEBUG_DISPATCH
89 if (DEBUG_COND2(person)) std::cout << " consider sharing ride with " << toString(res2->persons)
90 << " pickup=" << pickup << " startFirst=" << (std::find(route2.begin(), route2.end(), first->from) != route2.end())
91 << " dropoff=" << dropoff << " endLast=" << (std::find(route2.begin(), route2.end(), last->to) != route2.end())
92 << "\n";
93#endif
94 if ((pickup || std::find(route2.begin(), route2.end(), first->from) != route2.end()) &&
95 (dropoff || std::find(route2.begin(), route2.end(), last->to) != route2.end())) {
96 std::vector<const Reservation*>::iterator resSeqIt = sequence.begin();
97 EdgePosVector::iterator edgeIt = posSequence.begin();
98 if (pickup) {
99 // new reservation gets picked up
100 findInsertionPoint(resSeqIt, edgeIt, posSequence.end(), route, res2->from, res2->fromPos);
101 }
102 resSeqIt = sequence.insert(resSeqIt, res2) + 1;
103 edgeIt = posSequence.insert(edgeIt, std::make_pair(res2->from, res2->fromPos)) + 1;
104 if (dropoff) {
105 // new reservation drops off and route continues
106 findInsertionPoint(resSeqIt, edgeIt, posSequence.end(), route, res2->to, res2->toPos);
107 sequence.insert(resSeqIt, res2);
108 posSequence.insert(edgeIt, std::make_pair(res2->from, res2->fromPos));
109 } else {
110 // new reservation ends last
111 sequence.push_back(res2);
112 posSequence.push_back(std::make_pair(res2->to, res2->toPos));
113 }
114 toRemove.push_back(res2);
115 it2 = reservations.erase(it2); // (resIt before it2) stays valid
116 // TODO we have more capacity if some pickup is after an earlier dropoff
117 capacityLeft -= (int)res2->persons.size();
118 if (capacityLeft == 0) {
119 break;
120 }
121 route.clear();
122 first = sequence.front();
123 last = sequence.back();
124 // TODO this is wrong for non linear networks! should be reusing the route snippets from above
125 router.compute(first->from, first->fromPos, last->to, last->toPos, &taxi->getHolder(), MAX2(now, first->pickupTime), route);
126 } else {
127 it2++;
128 }
129 }
130 if (sequence.size() > 2) {
131 taxi->dispatchShared(sequence);
132 if (myOutput != nullptr) {
133 myOutput->writeXMLHeader("DispatchInfo_RouteExtension", "");
134 myOutput->openTag("dispatchShared");
135 myOutput->writeAttr("time", time2string(now));
136 myOutput->writeAttr("id", taxi->getHolder().getID());
137 myOutput->writeAttr("persons", toString(res->persons));
138 myOutput->writeAttr("sharingPersons", toString(sequence));
139 myOutput->writeAttr("type", "routeExtension");
141 }
142#ifdef DEBUG_DISPATCH
143 if (DEBUG_COND2(person)) std::cout << " sharing ride with " << toString(sequence)
144 << "\n";
145#endif
146 } else {
147 taxi->dispatch(*res);
148 }
149 for (const Reservation* r : toRemove) {
150 servedReservation(r); // deleting r
151 }
152 resIt = reservations.erase(resIt);
153 return (int)toRemove.size();
154}
155
156
157/****************************************************************************/
long long int SUMOTime
Definition GUI.h:36
#define DEBUG_COND2(obj)
Definition MESegment.cpp:52
std::vector< const MSEdge * > ConstMSEdgeVector
Definition MSEdge.h:74
std::string time2string(SUMOTime t, bool humanReadable)
convert SUMOTime to string (independently of global format setting)
Definition SUMOTime.cpp:69
#define SIMTIME
Definition SUMOTime.h:62
T MAX2(T a, T b)
Definition StdDefs.h:82
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
Definition ToString.h:46
A device which collects info on the vehicle trip (mainly on departure and arrival)
void dispatch(const Reservation &res)
service the given reservation
void dispatchShared(std::vector< const Reservation * > reservations)
service the given reservations
bool compatibleLine(const Reservation *res)
whether the given reservation is compatible with the taxi line
void findInsertionPoint(std::vector< const Reservation * >::iterator &resIt, EdgePosVector::iterator &edgeIt, const EdgePosVector::iterator &edgeEnd, ConstMSEdgeVector &route, const MSEdge *newEdge, const double newPos) const
virtual int dispatch(MSDevice_Taxi *taxi, std::vector< Reservation * >::iterator &resIt, SUMOAbstractRouter< MSEdge, SUMOVehicle > &router, std::vector< Reservation * > &reservations)
trigger taxi dispatch.
std::vector< std::pair< const MSEdge *, double > > EdgePosVector
OutputDevice * myOutput
optional file output for dispatch information
Definition MSDispatch.h:203
int remainingCapacity(const MSDevice_Taxi *taxi, const Reservation *res)
whether the given taxi has sufficient capacity to serve the reservation
void servedReservation(const Reservation *res)
A road/street connecting two junctions.
Definition MSEdge.h:77
static MSNet * getInstance()
Returns the pointer to the unique instance of MSNet (singleton).
Definition MSNet.cpp:186
SUMOTime getCurrentTimeStep() const
Returns the current simulation step.
Definition MSNet.h:320
SUMOVehicle & getHolder() const
Returns the vehicle that holds this device.
const std::string & getID() const
Returns the id.
Definition Named.h:74
OutputDevice & writeAttr(const SumoXMLAttr attr, const T &val)
writes a named attribute
OutputDevice & openTag(const std::string &xmlElement)
Opens an XML tag.
bool closeTag(const std::string &comment="")
Closes the most recently opened tag and optionally adds a comment.
bool writeXMLHeader(const std::string &rootElement, const std::string &schemaFile, std::map< SumoXMLAttr, std::string > attrs=std::map< SumoXMLAttr, std::string >(), bool includeConfig=true)
Writes an XML header with optional configuration.
virtual bool compute(const E *from, const E *to, const V *const vehicle, SUMOTime msTime, std::vector< const E * > &into, bool silent=false)=0
Builds the route between the given edges using the minimum effort at the given time The definition of...
SUMOTime pickupTime
Definition MSDispatch.h:79
const MSEdge * to
Definition MSDispatch.h:84
double fromPos
Definition MSDispatch.h:82
const MSEdge * from
Definition MSDispatch.h:81
std::set< const MSTransportable * > persons
Definition MSDispatch.h:77
double toPos
Definition MSDispatch.h:85