Eclipse SUMO - Simulation of Urban MObility
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MSDevice_Routing.cpp
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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/****************************************************************************/
22// A device that performs vehicle rerouting based on current edge speeds
23/****************************************************************************/
24#include <config.h>
25
26#include <microsim/MSNet.h>
27#include <microsim/MSLane.h>
28#include <microsim/MSEdge.h>
31#include <microsim/MSGlobals.h>
37#include "MSRoutingEngine.h"
38#include "MSDevice_Routing.h"
39
40
41// ===========================================================================
42// method definitions
43// ===========================================================================
44// ---------------------------------------------------------------------------
45// static initialisation methods
46// ---------------------------------------------------------------------------
47void
49 insertDefaultAssignmentOptions("rerouting", "Routing", oc);
50
51 oc.doRegister("device.rerouting.period", new Option_String("0", "TIME"));
52 oc.addSynonyme("device.rerouting.period", "device.routing.period", true);
53 oc.addDescription("device.rerouting.period", "Routing", TL("The period with which the vehicle shall be rerouted"));
54
55 oc.doRegister("device.rerouting.pre-period", new Option_String("60", "TIME"));
56 oc.addSynonyme("device.rerouting.pre-period", "device.routing.pre-period", true);
57 oc.addDescription("device.rerouting.pre-period", "Routing", TL("The rerouting period before depart"));
58
59 oc.doRegister("device.rerouting.adaptation-weight", new Option_Float(0));
60 oc.addSynonyme("device.rerouting.adaptation-weight", "device.routing.adaptation-weight", true);
61 oc.addDescription("device.rerouting.adaptation-weight", "Routing", TL("The weight of prior edge weights for exponential moving average"));
62
63 oc.doRegister("device.rerouting.adaptation-steps", new Option_Integer(180));
64 oc.addSynonyme("device.rerouting.adaptation-steps", "device.routing.adaptation-steps", true);
65 oc.addDescription("device.rerouting.adaptation-steps", "Routing", TL("The number of steps for moving average weight of prior edge weights"));
66
67 oc.doRegister("device.rerouting.adaptation-interval", new Option_String("1", "TIME"));
68 oc.addSynonyme("device.rerouting.adaptation-interval", "device.routing.adaptation-interval", true);
69 oc.addDescription("device.rerouting.adaptation-interval", "Routing", TL("The interval for updating the edge weights"));
70
71 oc.doRegister("device.rerouting.with-taz", new Option_Bool(false));
72 oc.addSynonyme("device.rerouting.with-taz", "device.routing.with-taz", true);
73 oc.addSynonyme("device.rerouting.with-taz", "with-taz");
74 oc.addDescription("device.rerouting.with-taz", "Routing", TL("Use zones (districts) as routing start- and endpoints"));
75
76 oc.doRegister("device.rerouting.mode", new Option_String("0"));
77 oc.addDescription("device.rerouting.mode", "Routing", TL("Set routing flags (8 ignores temporary blockages)"));
78
79 oc.doRegister("device.rerouting.init-with-loaded-weights", new Option_Bool(false));
80 oc.addDescription("device.rerouting.init-with-loaded-weights", "Routing", TL("Use weight files given with option --weight-files for initializing edge weights"));
81
82 oc.doRegister("device.rerouting.threads", new Option_Integer(0));
83 oc.addSynonyme("device.rerouting.threads", "routing-threads");
84 oc.addDescription("device.rerouting.threads", "Routing", TL("The number of parallel execution threads used for rerouting"));
85
86 oc.doRegister("device.rerouting.synchronize", new Option_Bool(false));
87 oc.addDescription("device.rerouting.synchronize", "Routing", TL("Let rerouting happen at the same time for all vehicles"));
88
89 oc.doRegister("device.rerouting.railsignal", new Option_Bool(false));
90 oc.addDescription("device.rerouting.railsignal", "Routing", TL("Allow rerouting triggered by rail signals."));
91
92 oc.doRegister("device.rerouting.bike-speeds", new Option_Bool(false));
93 oc.addDescription("device.rerouting.bike-speeds", "Routing", TL("Compute separate average speeds for bicycles"));
94
95 oc.doRegister("device.rerouting.output", new Option_FileName());
96 oc.addDescription("device.rerouting.output", "Routing", TL("Save adapting weights to FILE"));
97}
98
99
100bool
102 bool ok = true;
103 if (!oc.isDefault("device.rerouting.adaptation-steps") && !oc.isDefault("device.rerouting.adaptation-weight")) {
104 WRITE_ERROR(TL("Only one of the options 'device.rerouting.adaptation-steps' or 'device.rerouting.adaptation-weight' may be given."));
105 ok = false;
106 }
107 if (oc.getFloat("weights.random-factor") < 1) {
108 WRITE_ERROR(TL("weights.random-factor cannot be less than 1"));
109 ok = false;
110 }
111 if (string2time(oc.getString("device.rerouting.adaptation-interval")) < 0) {
112 WRITE_ERROR(TL("Negative value for device.rerouting.adaptation-interval!"));
113 ok = false;
114 }
115 if (oc.getFloat("device.rerouting.adaptation-weight") < 0. ||
116 oc.getFloat("device.rerouting.adaptation-weight") > 1.) {
117 WRITE_ERROR(TL("The value for device.rerouting.adaptation-weight must be between 0 and 1!"));
118 ok = false;
119 }
120#ifndef HAVE_FOX
121 if (oc.getInt("device.rerouting.threads") > 1) {
122 WRITE_ERROR(TL("Parallel routing is only possible when compiled with Fox."));
123 ok = false;
124 }
125#endif
126 if (oc.getInt("threads") > 1 && oc.getInt("device.rerouting.threads") > 1 && oc.getInt("threads") != oc.getInt("device.rerouting.threads")) {
127 WRITE_WARNING(TL("Adapting number of routing threads to number of simulation threads."));
128 }
129 return ok;
130}
131
132
133void
134MSDevice_Routing::buildVehicleDevices(SUMOVehicle& v, std::vector<MSVehicleDevice*>& into) {
136 const bool equip = equippedByDefaultAssignmentOptions(oc, "rerouting", v, false);
137 if (v.getParameter().wasSet(VEHPARS_FORCE_REROUTE) || equip) {
138 // route computation is enabled
139 // for implicitly equipped vehicles (trips, flows), option probability
140 // can still be used to disable periodic rerouting after insertion for
141 // parts of the fleet
142 const SUMOTime period = (equip || (
143 oc.isDefault("device.rerouting.probability") &&
144 v.getFloatParam("device.rerouting.probability") == oc.getFloat("device.rerouting.probability"))
145 ? v.getTimeParam("device.rerouting.period") : 0);
146 const SUMOTime prePeriod = MAX2((SUMOTime)0, v.getTimeParam("device.rerouting.pre-period"));
148 // build the device
149 into.push_back(new MSDevice_Routing(v, "routing_" + v.getID(), period, prePeriod));
150 }
151}
152
153
154// ---------------------------------------------------------------------------
155// MSDevice_Routing-methods
156// ---------------------------------------------------------------------------
157MSDevice_Routing::MSDevice_Routing(SUMOVehicle& holder, const std::string& id,
158 SUMOTime period, SUMOTime preInsertionPeriod) :
159 MSVehicleDevice(holder, id),
160 myPeriod(period),
161 myPreInsertionPeriod(preInsertionPeriod),
162 myLastRouting(-1),
163 mySkipRouting(-1),
164 myRerouteCommand(nullptr),
165 myRerouteRailSignal(holder.getBoolParam("device.rerouting.railsignal", true)),
166 myLastLaneEntryTime(-1),
167 myRerouteAfterStop(false),
168 myActive(true) {
170 // we do always a pre insertion reroute for trips to fill the best lanes of the vehicle with somehow meaningful values (especially for deaprtLane="best")
172 // if we don't update the edge weights, we might as well reroute now and hopefully use our threads better
173 const SUMOTime execTime = MSRoutingEngine::hasEdgeUpdates() ? holder.getParameter().depart : -1;
175 }
176}
177
178
180 // make the rerouting command invalid if there is one
181 if (myRerouteCommand != nullptr) {
183 }
184}
185
186
187bool
191 // pre-insertion rerouting was disabled. Reroute once if insertion was delayed
192 // this is happening in the run thread (not inbeginOfTimestepEvents) so we cannot safely use the threadPool
193 myHolder.reroute(MSNet::getInstance()->getCurrentTimeStep(), "device.rerouting",
195 false, MSRoutingEngine::withTaz(), false);
196 }
197 // build repetition trigger if routing shall be done more often
199 }
202 const SUMOTime t = SIMSTEP;
203 if (myLastLaneEntryTime >= 0 && enteredLane->isInternal()) {
204 // record travel time on the previous edge but store on the internal ledge
206 }
208 }
209 return true;
210 } else {
211 return false;
212 }
213}
214
215
216void
223
224
225void
227 if (myRerouteCommand != nullptr) {
229 myRerouteCommand = nullptr;
230 }
231 if (myPeriod > 0) {
234 if (OptionsCont::getOptions().getBool("device.rerouting.synchronize")) {
235 start -= start % myPeriod;
236 }
238 }
239}
240
241
244 if (mySkipRouting == currentTime) {
245 return DELTA_T;
246 }
247 if (myPreInsertionPeriod == 0) {
248 // the event will deschedule and destroy itself so it does not need to be stored
249 myRerouteCommand = nullptr;
250 }
251 const MSEdge* source = *myHolder.getRoute().begin();
252 const MSEdge* dest = myHolder.getRoute().getLastEdge();
253 if (source->isTazConnector() && dest->isTazConnector()) {
254 ConstMSRoutePtr cached = MSRoutingEngine::getCachedRoute(std::make_pair(source, dest));
255 if (cached != nullptr && cached->size() > 2) {
256 myHolder.replaceRoute(cached, "device.rerouting", true);
258 }
259 }
260 try {
261 std::string msg;
262 if (myHolder.hasValidRouteStart(msg)) {
263 reroute(currentTime, true);
264 }
265 } catch (ProcessError&) {
266 myRerouteCommand = nullptr;
267 throw;
268 }
269 // avoid repeated pre-insertion rerouting when the departure edge is fix and
270 // the departure lane does not depend on the route
272 myRerouteCommand = nullptr;
273 return 0;
274 }
276}
277
278
281 if (myHolder.isStopped()) {
282 myRerouteAfterStop = true;
283 } else {
284 reroute(currentTime);
285 }
286 return myPeriod;
287}
288
289
290void
291MSDevice_Routing::reroute(const SUMOTime currentTime, const bool onInit) {
293 //check whether the weights did change since the last reroute
295 return;
296 }
297 myLastRouting = currentTime;
298 MSRoutingEngine::reroute(myHolder, currentTime, "device.rerouting", onInit);
299}
300
301
302std::string
303MSDevice_Routing::getParameter(const std::string& key) const {
304 if (StringUtils::startsWith(key, "edge:")) {
305 const std::string edgeID = key.substr(5);
306 const MSEdge* edge = MSEdge::dictionary(edgeID);
307 if (edge == nullptr) {
308 throw InvalidArgument("Edge '" + edgeID + "' is invalid for parameter retrieval of '" + deviceName() + "'");
309 }
311 } else if (key == "period") {
312 return time2string(myPeriod);
313 }
314 throw InvalidArgument("Parameter '" + key + "' is not supported for device of type '" + deviceName() + "'");
315}
316
317
318void
319MSDevice_Routing::setParameter(const std::string& key, const std::string& value) {
320 double doubleValue;
321 try {
322 doubleValue = StringUtils::toDouble(value);
323 } catch (NumberFormatException&) {
324 throw InvalidArgument("Setting parameter '" + key + "' requires a number for device of type '" + deviceName() + "'");
325 }
326 if (StringUtils::startsWith(key, "edge:")) {
327 const std::string edgeID = key.substr(5);
328 const MSEdge* edge = MSEdge::dictionary(edgeID);
329 if (edge == nullptr) {
330 throw InvalidArgument("Edge '" + edgeID + "' is invalid for parameter setting of '" + deviceName() + "'");
331 }
332 MSRoutingEngine::setEdgeTravelTime(edge, doubleValue);
333 } else if (key == "period") {
334 myPeriod = TIME2STEPS(doubleValue);
335 // re-schedule routing command
337 } else {
338 throw InvalidArgument("Setting parameter '" + key + "' is not supported for device of type '" + deviceName() + "'");
339 }
340}
341
342
343void
347 std::vector<std::string> internals;
348 internals.push_back(toString(myPeriod));
349 out.writeAttr(SUMO_ATTR_STATE, toString(internals));
350 out.closeTag();
351}
352
353
354void
356 std::istringstream bis(attrs.getString(SUMO_ATTR_STATE));
357 bis >> myPeriod;
358 if (myHolder.hasDeparted()) {
360 }
361}
362
363
364/****************************************************************************/
long long int SUMOTime
Definition GUI.h:36
#define WRITE_ERROR(msg)
Definition MsgHandler.h:304
#define WRITE_WARNING(msg)
Definition MsgHandler.h:295
#define TL(string)
Definition MsgHandler.h:315
std::shared_ptr< const MSRoute > ConstMSRoutePtr
Definition Route.h:32
SUMOTime DELTA_T
Definition SUMOTime.cpp:38
SUMOTime string2time(const std::string &r)
convert string to SUMOTime
Definition SUMOTime.cpp:46
std::string time2string(SUMOTime t, bool humanReadable)
convert SUMOTime to string (independently of global format setting)
Definition SUMOTime.cpp:69
#define SIMSTEP
Definition SUMOTime.h:61
#define TIME2STEPS(x)
Definition SUMOTime.h:57
const long long int VEHPARS_FORCE_REROUTE
@ BEST_FREE
The least occupied lane from best lanes.
@ SUMO_TAG_DEVICE
@ SUMO_ATTR_ID
@ SUMO_ATTR_STATE
The state of a link.
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 that performs vehicle rerouting based on current edge speeds.
const std::string deviceName() const
return the name for this type of device
void rebuildRerouteCommand()
rebuild reroute command according to period
void saveState(OutputDevice &out) const
Saves the state of the device.
SUMOTime wrappedRerouteCommandExecute(SUMOTime currentTime)
Performs rerouting after a period.
SUMOTime mySkipRouting
The time for which routing may be skipped because we cannot be inserted.
static void insertOptions(OptionsCont &oc)
Inserts MSDevice_Routing-options.
std::string getParameter(const std::string &key) const
try to retrieve the given parameter from this device. Throw exception for unsupported key
bool myActive
Whether the equipped vehicle may perform rerouting.
bool notifyEnter(SUMOTrafficObject &veh, MSMoveReminder::Notification reason, const MSLane *enteredLane=0)
Computes a new route on vehicle insertion.
SUMOTime myPreInsertionPeriod
The period with which a vehicle shall be rerouted before insertion.
SUMOTime myPeriod
The period with which a vehicle shall be rerouted.
void loadState(const SUMOSAXAttributes &attrs)
Loads the state of the device from the given description.
void reroute(const SUMOTime currentTime, const bool onInit=false)
initiate the rerouting, create router / thread pool on first use
static bool checkOptions(OptionsCont &oc)
checks MSDevice_Routing-options
MSDevice_Routing(SUMOVehicle &holder, const std::string &id, SUMOTime period, SUMOTime preInsertionPeriod)
Constructor.
WrappingCommand< MSDevice_Routing > * myRerouteCommand
The (optional) command responsible for rerouting.
~MSDevice_Routing()
Destructor.
static void buildVehicleDevices(SUMOVehicle &v, std::vector< MSVehicleDevice * > &into)
Build devices for the given vehicle, if needed.
SUMOTime myLastLaneEntryTime
the previous time that a vehicle entered a lane
SUMOTime myLastRouting
The last time a routing took place.
void notifyStopEnded()
called to do the rerouting we missed whuile stopping
bool myRerouteAfterStop
Whether the equipped vehicle missed a reroute while stopping and should do so after the stop has ende...
void setParameter(const std::string &key, const std::string &value)
try to set the given parameter for this device. Throw exception for unsupported key
SUMOTime preInsertionReroute(const SUMOTime currentTime)
Performs rerouting before insertion into the network.
static void insertDefaultAssignmentOptions(const std::string &deviceName, const std::string &optionsTopic, OptionsCont &oc, const bool isPerson=false)
Adds common command options that allow to assign devices to vehicles.
Definition MSDevice.cpp:155
static bool equippedByDefaultAssignmentOptions(const OptionsCont &oc, const std::string &deviceName, DEVICEHOLDER &v, bool outputOptionSet, const bool isPerson=false)
Determines whether a vehicle should get a certain device.
Definition MSDevice.h:195
A road/street connecting two junctions.
Definition MSEdge.h:77
bool isTazConnector() const
Definition MSEdge.h:291
static bool dictionary(const std::string &id, MSEdge *edge)
Inserts edge into the static dictionary Returns true if the key id isn't already in the dictionary....
Definition MSEdge.cpp:1047
virtual void addEvent(Command *operation, SUMOTime execTimeStep=-1)
Adds an Event.
static double gWeightsSeparateTurns
Whether turning specific weights are estimated (and how much)
Definition MSGlobals.h:177
Representation of a lane in the micro simulation.
Definition MSLane.h:84
bool isInternal() const
Definition MSLane.cpp:2546
MSEdge & getEdge() const
Returns the lane's edge.
Definition MSLane.h:764
Notification
Definition of a vehicle state.
@ NOTIFICATION_DEPARTED
The vehicle has departed (was inserted into the network)
@ NOTIFICATION_JUNCTION
The vehicle arrived at a junction.
static MSNet * getInstance()
Returns the pointer to the unique instance of MSNet (singleton).
Definition MSNet.cpp:186
MSEventControl * getBeginOfTimestepEvents()
Returns the event control for events executed at the begin of a time step.
Definition MSNet.h:471
MSEventControl * getInsertionEvents()
Returns the event control for insertion events.
Definition MSNet.h:491
SUMOTime getCurrentTimeStep() const
Returns the current simulation step.
Definition MSNet.h:320
const MSEdge * getLastEdge() const
returns the destination edge
Definition MSRoute.cpp:91
MSRouteIterator begin() const
Returns the begin of the list of edges to pass.
Definition MSRoute.cpp:73
static void setEdgeTravelTime(const MSEdge *const edge, const double travelTime)
adapt the known travel time for an edge
static void reroute(SUMOVehicle &vehicle, const SUMOTime currentTime, const std::string &info, const bool onInit=false, const bool silent=false, const MSEdgeVector &prohibited=MSEdgeVector())
initiate the rerouting, create router / thread pool on first use
static SUMOTime getLastAdaptation()
Information when the last edge weight adaptation occurred.
static bool withTaz()
whether taz-routing is enabled
static bool hasEdgeUpdates()
returns whether any edge weight updates will take place
static void addEdgeTravelTime(const MSEdge &edge, const SUMOTime travelTime)
record actual travel time for an edge
static void initWeightUpdate()
intialize period edge weight update
static void initEdgeWeights(SUMOVehicleClass svc)
initialize the edge weights if not done before
static MSVehicleRouter & getRouterTT(const int rngIndex, SUMOVehicleClass svc, const MSEdgeVector &prohibited=MSEdgeVector())
return the vehicle router instance
static ConstMSRoutePtr getCachedRoute(const std::pair< const MSEdge *, const MSEdge * > &key)
return the cached route or nullptr on miss
static double getEffort(const MSEdge *const e, const SUMOVehicle *const v, double t)
Returns the effort to pass an edge.
Abstract in-vehicle device.
SUMOVehicle & myHolder
The vehicle that stores the device.
const std::string & getID() const
Returns the id.
Definition Named.h:74
A storage for options typed value containers)
Definition OptionsCont.h:89
void addDescription(const std::string &name, const std::string &subtopic, const std::string &description)
Adds a description for an option.
double getFloat(const std::string &name) const
Returns the double-value of the named option (only for Option_Float)
int getInt(const std::string &name) const
Returns the int-value of the named option (only for Option_Integer)
std::string getString(const std::string &name) const
Returns the string-value of the named option (only for Option_String)
void addSynonyme(const std::string &name1, const std::string &name2, bool isDeprecated=false)
Adds a synonyme for an options name (any order)
bool isDefault(const std::string &name) const
Returns the information whether the named option has still the default value.
void doRegister(const std::string &name, Option *o)
Adds an option under the given name.
static OptionsCont & getOptions()
Retrieves the options.
Static storage of an output device and its base (abstract) implementation.
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.
Encapsulated SAX-Attributes.
virtual std::string getString(int id, bool *isPresent=nullptr) const =0
Returns the string-value of the named (by its enum-value) attribute.
Representation of a vehicle, person, or container.
virtual int getRNGIndex() const =0
SUMOTime getTimeParam(const std::string &paramName, const bool required=false, const SUMOTime deflt=SUMOTime_MIN) const
Retrieve a time parameter for the traffic object.
virtual bool replaceRoute(ConstMSRoutePtr route, const std::string &info, bool onInit=false, int offset=0, bool addStops=true, bool removeStops=true, std::string *msgReturn=nullptr)=0
Replaces the current route by the given one.
virtual const SUMOVehicleParameter & getParameter() const =0
Returns the vehicle's parameter (including departure definition)
virtual SUMOVehicleClass getVClass() const =0
Returns the object's access class.
double getFloatParam(const std::string &paramName, const bool required=false, const double deflt=INVALID_DOUBLE) const
Retrieve a floating point parameter for the traffic object.
Representation of a vehicle.
Definition SUMOVehicle.h:62
virtual bool reroute(SUMOTime t, const std::string &info, SUMOAbstractRouter< MSEdge, SUMOVehicle > &router, const bool onInit=false, const bool withTaz=false, const bool silent=false, const MSEdge *sink=nullptr)=0
Performs a rerouting using the given router.
virtual bool isStopped() const =0
Returns whether the vehicle is at a stop and waiting for a person or container to continue.
virtual bool hasDeparted() const =0
Returns whether this vehicle has departed.
virtual bool hasValidRouteStart(std::string &msg)=0
checks wether the vehicle can depart on the first edge
virtual SUMOTime getDepartDelay() const =0
virtual const MSRoute & getRoute() const =0
Returns the current route.
DepartLaneDefinition departLaneProcedure
Information how the vehicle shall choose the lane to depart from.
bool wasSet(long long int what) const
Returns whether the given parameter was set.
static double toDouble(const std::string &sData)
converts a string into the double value described by it by calling the char-type converter
static bool startsWith(const std::string &str, const std::string prefix)
Checks whether a given string starts with the prefix.
A wrapper for a Command function.
void deschedule()
Marks this Command as being descheduled.