SUMO - Simulation of Urban MObility
marouter_main.cpp
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1 /****************************************************************************/
10 // Main for MAROUTER
11 /****************************************************************************/
12 // SUMO, Simulation of Urban MObility; see http://sumo.dlr.de/
13 // Copyright (C) 2001-2017 DLR (http://www.dlr.de/) and contributors
14 /****************************************************************************/
15 //
16 // This file is part of SUMO.
17 // SUMO is free software: you can redistribute it and/or modify
18 // it under the terms of the GNU General Public License as published by
19 // the Free Software Foundation, either version 3 of the License, or
20 // (at your option) any later version.
21 //
22 /****************************************************************************/
23 
24 
25 // ===========================================================================
26 // included modules
27 // ===========================================================================
28 #ifdef _MSC_VER
29 #include <windows_config.h>
30 #else
31 #include <config.h>
32 #endif
33 
34 #ifdef HAVE_VERSION_H
35 #include <version.h>
36 #endif
37 
38 #include <xercesc/sax/SAXException.hpp>
39 #include <xercesc/sax/SAXParseException.hpp>
41 #include <iostream>
42 #include <string>
43 #include <limits.h>
44 #include <ctime>
45 #include <vector>
50 #include <utils/common/ToString.h>
54 #include <utils/options/Option.h>
61 #include <utils/vehicle/CHRouter.h>
63 #include <utils/xml/XMLSubSys.h>
64 #include <od/ODCell.h>
65 #include <od/ODDistrict.h>
66 #include <od/ODDistrictCont.h>
67 #include <od/ODDistrictHandler.h>
68 #include <od/ODMatrix.h>
69 #include <router/ROEdge.h>
70 #include <router/ROLoader.h>
71 #include <router/RONet.h>
72 #include <router/RORoute.h>
73 #include <router/RORoutable.h>
74 
75 #include "ROMAFrame.h"
76 #include "ROMAAssignments.h"
77 #include "ROMAEdgeBuilder.h"
78 #include "ROMARouteHandler.h"
79 #include "ROMAEdge.h"
80 
81 
82 // ===========================================================================
83 // functions
84 // ===========================================================================
85 /* -------------------------------------------------------------------------
86  * data processing methods
87  * ----------------------------------------------------------------------- */
93 void
94 initNet(RONet& net, ROLoader& loader, OptionsCont& oc) {
95  // load the net
96  ROMAEdgeBuilder builder;
97  ROEdge::setGlobalOptions(oc.getBool("weights.interpolate"));
98  loader.loadNet(net, builder);
99  // initialize the travel times
100  /* const SUMOTime begin = string2time(oc.getString("begin"));
101  const SUMOTime end = string2time(oc.getString("end"));
102  for (std::map<std::string, ROEdge*>::const_iterator i = net.getEdgeMap().begin(); i != net.getEdgeMap().end(); ++i) {
103  (*i).second->addTravelTime(STEPS2TIME(begin), STEPS2TIME(end), (*i).second->getLength() / (*i).second->getSpeedLimit());
104  }*/
105  // load the weights when wished/available
106  if (oc.isSet("weight-files")) {
107  loader.loadWeights(net, "weight-files", oc.getString("weight-attribute"), false, oc.getBool("weights.expand"));
108  }
109  if (oc.isSet("lane-weight-files")) {
110  loader.loadWeights(net, "lane-weight-files", oc.getString("weight-attribute"), true, oc.getBool("weights.expand"));
111  }
112 }
113 
114 double
115 getTravelTime(const ROEdge* const edge, const ROVehicle* const /* veh */, double /* time */) {
116  return edge->getLength() / edge->getSpeedLimit();
117 }
118 
119 
123 void
125  std::ofstream outFile(oc.getString("all-pairs-output").c_str(), std::ios::binary);
126  // build the router
128  Dijkstra router(ROEdge::getAllEdges(), oc.getBool("ignore-errors"), &getTravelTime);
129  ConstROEdgeVector into;
130  const int numInternalEdges = net.getInternalEdgeNumber();
131  const int numTotalEdges = (int)net.getEdgeNo();
132  for (int i = numInternalEdges; i < numTotalEdges; i++) {
133  const Dijkstra::EdgeInfo& ei = router.getEdgeInfo(i);
134  if (ei.edge->getFunc() != ROEdge::ET_INTERNAL) {
135  router.compute(ei.edge, 0, 0, 0, into);
136  for (int j = numInternalEdges; j < numTotalEdges; j++) {
137  FileHelpers::writeFloat(outFile, router.getEdgeInfo(j).traveltime);
138  }
139  }
140  }
141 }
142 
143 
147 void
148 writeInterval(OutputDevice& dev, const SUMOTime begin, const SUMOTime end, const RONet& net, const ROVehicle* const veh) {
150  for (std::map<std::string, ROEdge*>::const_iterator i = net.getEdgeMap().begin(); i != net.getEdgeMap().end(); ++i) {
151  ROMAEdge* edge = static_cast<ROMAEdge*>(i->second);
152  if (edge->getFunc() == ROEdge::ET_NORMAL) {
154  const double traveltime = edge->getTravelTime(veh, STEPS2TIME(begin));
155  const double flow = edge->getFlow(STEPS2TIME(begin));
156  dev.writeAttr("traveltime", traveltime);
157  dev.writeAttr("speed", edge->getLength() / traveltime);
158  dev.writeAttr("entered", flow);
159  dev.writeAttr("flowCapacityRatio", 100. * flow / ROMAAssignments::getCapacity(edge));
160  dev.closeTag();
161  }
162  }
163  dev.closeTag();
164 }
165 
166 
170 void
172  // build the router
174  const std::string measure = oc.getString("weight-attribute");
175  const std::string routingAlgorithm = oc.getString("routing-algorithm");
176  const SUMOTime begin = string2time(oc.getString("begin"));
177  const SUMOTime end = string2time(oc.getString("end"));
178  if (measure == "traveltime") {
179  if (routingAlgorithm == "dijkstra") {
180  if (net.hasPermissions()) {
181  if (oc.getInt("paths") > 1) {
184  } else {
186  ROEdge::getAllEdges(), oc.getBool("ignore-errors"), &ROEdge::getTravelTimeStatic);
187  }
188  } else {
189  if (oc.getInt("paths") > 1) {
192  } else {
194  ROEdge::getAllEdges(), oc.getBool("ignore-errors"), &ROEdge::getTravelTimeStatic);
195  }
196  }
197  } else if (routingAlgorithm == "astar") {
198  if (net.hasPermissions()) {
199  if (oc.getInt("paths") > 1) {
202  } else {
204  ROEdge::getAllEdges(), oc.getBool("ignore-errors"), &ROEdge::getTravelTimeStatic);
205  }
206  } else {
207  if (oc.getInt("paths") > 1) {
210  } else {
212  ROEdge::getAllEdges(), oc.getBool("ignore-errors"), &ROEdge::getTravelTimeStatic);
213  }
214  }
215  } else if (routingAlgorithm == "CH") {
216  const SUMOTime weightPeriod = (oc.isSet("weight-files") ?
217  string2time(oc.getString("weight-period")) :
219  if (net.hasPermissions()) {
221  ROEdge::getAllEdges(), oc.getBool("ignore-errors"), &ROEdge::getTravelTimeStatic, SVC_IGNORING, weightPeriod, true);
222  } else {
224  ROEdge::getAllEdges(), oc.getBool("ignore-errors"), &ROEdge::getTravelTimeStatic, SVC_IGNORING, weightPeriod, false);
225  }
226  } else if (routingAlgorithm == "CHWrapper") {
227  const SUMOTime weightPeriod = (oc.isSet("weight-files") ?
228  string2time(oc.getString("weight-period")) :
232  begin, end, weightPeriod, oc.getInt("routing-threads"));
233  } else {
234  throw ProcessError("Unknown routing Algorithm '" + routingAlgorithm + "'!");
235  }
236 
237  } else {
239  if (measure == "CO") {
240  op = &ROEdge::getEmissionEffort<PollutantsInterface::CO>;
241  } else if (measure == "CO2") {
242  op = &ROEdge::getEmissionEffort<PollutantsInterface::CO2>;
243  } else if (measure == "PMx") {
244  op = &ROEdge::getEmissionEffort<PollutantsInterface::PM_X>;
245  } else if (measure == "HC") {
246  op = &ROEdge::getEmissionEffort<PollutantsInterface::HC>;
247  } else if (measure == "NOx") {
248  op = &ROEdge::getEmissionEffort<PollutantsInterface::NO_X>;
249  } else if (measure == "fuel") {
250  op = &ROEdge::getEmissionEffort<PollutantsInterface::FUEL>;
251  } else if (measure == "electricity") {
252  op = &ROEdge::getEmissionEffort<PollutantsInterface::ELEC>;
253  } else if (measure == "noise") {
255  } else {
256  throw ProcessError("Unknown measure (weight attribute '" + measure + "')!");
257  }
258  if (net.hasPermissions()) {
259  if (oc.getInt("paths") > 1) {
262  } else {
264  ROEdge::getAllEdges(), oc.getBool("ignore-errors"), op, &ROEdge::getTravelTimeStatic);
265  }
266  } else {
267  if (oc.getInt("paths") > 1) {
270  } else {
272  ROEdge::getAllEdges(), oc.getBool("ignore-errors"), op, &ROEdge::getTravelTimeStatic);
273  }
274  }
275  }
276  try {
277  const RORouterProvider provider(router, 0, 0);
278  // prepare the output
279  net.openOutput(oc);
280  // process route definitions
281  if (oc.isSet("timeline")) {
282  matrix.applyCurve(matrix.parseTimeLine(oc.getStringVector("timeline"), oc.getBool("timeline.day-in-hours")));
283  }
284  matrix.sortByBeginTime();
285  ROVehicle defaultVehicle(SUMOVehicleParameter(), 0, net.getVehicleTypeSecure(DEFAULT_VTYPE_ID), &net);
286  ROMAAssignments a(begin, end, oc.getBool("additive-traffic"), oc.getFloat("weight-adaption"), net, matrix, *router);
287  a.resetFlows();
288 #ifdef HAVE_FOX
289  const int maxNumThreads = oc.getInt("routing-threads");
290  while ((int)net.getThreadPool().size() < maxNumThreads) {
291  new RONet::WorkerThread(net.getThreadPool(), provider);
292  }
293 #endif
294  const std::string assignMethod = oc.getString("assignment-method");
295  if (assignMethod == "incremental") {
296  a.incremental(oc.getInt("max-iterations"), oc.getBool("verbose"));
297  } else if (assignMethod == "SUE") {
298  a.sue(oc.getInt("max-iterations"), oc.getInt("max-inner-iterations"),
299  oc.getInt("paths"), oc.getFloat("paths.penalty"), oc.getFloat("tolerance"), oc.getString("route-choice-method"));
300  }
301  // update path costs and output
302  bool haveOutput = false;
303  OutputDevice* dev = net.getRouteOutput();
304  if (dev != 0) {
305  std::vector<std::string> tazParamKeys;
306  if (oc.isSet("taz-param")) {
307  tazParamKeys = oc.getStringVector("taz-param");
308  }
309  std::map<SUMOTime, std::string> sortedOut;
310  SUMOTime lastEnd = -1;
311  int num = 0;
312  for (std::vector<ODCell*>::const_iterator i = matrix.getCells().begin(); i != matrix.getCells().end(); ++i) {
313  const ODCell* const c = *i;
314  if (lastEnd >= 0 && lastEnd <= c->begin) {
315  for (std::map<SUMOTime, std::string>::const_iterator desc = sortedOut.begin(); desc != sortedOut.end(); ++desc) {
316  dev->writePreformattedTag(desc->second);
317  }
318  sortedOut.clear();
319  }
320  if (c->departures.empty()) {
321  OutputDevice_String od(dev->isBinary(), 1);
322  od.openTag(SUMO_TAG_FLOW).writeAttr(SUMO_ATTR_ID, oc.getString("prefix") + toString(num++));
325  matrix.writeDefaultAttrs(od, oc.getBool("ignore-vehicle-type"), c);
327  for (std::vector<RORoute*>::const_iterator j = c->pathsVector.begin(); j != c->pathsVector.end(); ++j) {
328  (*j)->setCosts(router->recomputeCosts((*j)->getEdgeVector(), &defaultVehicle, string2time(oc.getString("begin"))));
329  (*j)->writeXMLDefinition(od, 0, true, false);
330  }
331  od.closeTag();
332  od.closeTag();
333  sortedOut[c->begin] += od.getString();
334  } else {
335  for (std::map<SUMOTime, std::vector<std::string> >::const_iterator deps = c->departures.begin(); deps != c->departures.end(); ++deps) {
336  const std::string routeDistId = c->origin + "_" + c->destination + "_" + time2string(c->begin) + "_" + time2string(c->end);
337  for (std::vector<std::string>::const_iterator id = deps->second.begin(); id != deps->second.end(); ++id) {
338  OutputDevice_String od(dev->isBinary(), 1);
340  matrix.writeDefaultAttrs(od, oc.getBool("ignore-vehicle-type"), c);
342  for (std::vector<RORoute*>::const_iterator j = c->pathsVector.begin(); j != c->pathsVector.end(); ++j) {
343  (*j)->setCosts(router->recomputeCosts((*j)->getEdgeVector(), &defaultVehicle, string2time(oc.getString("begin"))));
344  (*j)->writeXMLDefinition(od, 0, true, false);
345  }
346  od.closeTag();
347  if (!tazParamKeys.empty()) {
348  od.openTag(SUMO_TAG_PARAM).writeAttr(SUMO_ATTR_KEY, tazParamKeys[0]).writeAttr(SUMO_ATTR_VALUE, c->origin).closeTag();
349  if (tazParamKeys.size() > 1) {
350  od.openTag(SUMO_TAG_PARAM).writeAttr(SUMO_ATTR_KEY, tazParamKeys[1]).writeAttr(SUMO_ATTR_VALUE, c->destination).closeTag();
351  }
352  }
353  od.closeTag();
354  sortedOut[deps->first] += od.getString();
355  }
356  }
357  }
358  for (std::vector<RORoute*>::const_iterator j = c->pathsVector.begin(); j != c->pathsVector.end(); ++j) {
359  delete *j;
360  }
361  if (c->end > lastEnd) {
362  lastEnd = c->end;
363  }
364  }
365  for (std::map<SUMOTime, std::string>::const_iterator desc = sortedOut.begin(); desc != sortedOut.end(); ++desc) {
366  dev->writePreformattedTag(desc->second);
367  }
368  haveOutput = true;
369  }
370  if (OutputDevice::createDeviceByOption("netload-output", "meandata")) {
371  if (oc.getBool("additive-traffic")) {
372  writeInterval(OutputDevice::getDeviceByOption("netload-output"), begin, end, net, a.getDefaultVehicle());
373  } else {
374  SUMOTime lastCell = 0;
375  for (std::vector<ODCell*>::const_iterator i = matrix.getCells().begin(); i != matrix.getCells().end(); ++i) {
376  if ((*i)->end > lastCell) {
377  lastCell = (*i)->end;
378  }
379  }
380  const SUMOTime interval = string2time(OptionsCont::getOptions().getString("aggregation-interval"));
381  for (SUMOTime start = begin; start < MIN2(end, lastCell); start += interval) {
382  writeInterval(OutputDevice::getDeviceByOption("netload-output"), start, start + interval, net, a.getDefaultVehicle());
383  }
384  }
385  haveOutput = true;
386  }
387  if (!haveOutput) {
388  throw ProcessError("No output file given.");
389  }
390  // end the processing
391  net.cleanup();
392  } catch (ProcessError&) {
393  for (std::vector<ODCell*>::const_iterator i = matrix.getCells().begin(); i != matrix.getCells().end(); ++i) {
394  for (std::vector<RORoute*>::const_iterator j = (*i)->pathsVector.begin(); j != (*i)->pathsVector.end(); ++j) {
395  delete *j;
396  }
397  }
398  net.cleanup();
399  throw;
400  }
401 }
402 
403 
404 /* -------------------------------------------------------------------------
405  * main
406  * ----------------------------------------------------------------------- */
407 int
408 main(int argc, char** argv) {
410  oc.setApplicationDescription("Import O/D-matrices for macroscopic traffic assignment");
411  oc.setApplicationName("marouter", "SUMO marouter Version " VERSION_STRING);
412  int ret = 0;
413  RONet* net = 0;
414  try {
415  XMLSubSys::init();
417  OptionsIO::setArgs(argc, argv);
419  if (oc.processMetaOptions(argc < 2)) {
421  return 0;
422  }
423  XMLSubSys::setValidation(oc.getString("xml-validation"), oc.getString("xml-validation.net"));
425  if (!ROMAFrame::checkOptions()) {
426  throw ProcessError();
427  }
429  // load data
430  ROLoader loader(oc, false, false);
431  net = new RONet();
432  initNet(*net, loader, oc);
433  if (oc.isSet("all-pairs-output")) {
434  computeAllPairs(*net, oc);
435  if (net->getDistricts().empty()) {
436  delete net;
438  if (ret == 0) {
439  std::cout << "Success." << std::endl;
440  }
441  return ret;
442  }
443  }
444  if (net->getDistricts().empty()) {
445  throw ProcessError("No districts loaded.");
446  }
447  // load districts
448  ODDistrictCont districts;
449  districts.makeDistricts(net->getDistricts());
450  // load the matrix
451  ODMatrix matrix(districts);
452  matrix.loadMatrix(oc);
453  ROMARouteHandler handler(matrix);
454  matrix.loadRoutes(oc, handler);
455  if (matrix.getNumLoaded() == 0) {
456  throw ProcessError("No vehicles loaded.");
457  }
458  if (MsgHandler::getErrorInstance()->wasInformed() && !oc.getBool("ignore-errors")) {
459  throw ProcessError("Loading failed.");
460  }
462  WRITE_MESSAGE(toString(matrix.getNumLoaded()) + " vehicles loaded.");
463 
464  // build routes and parse the incremental rates if the incremental method is choosen.
465  try {
466  computeRoutes(*net, oc, matrix);
467  } catch (XERCES_CPP_NAMESPACE::SAXParseException& e) {
468  WRITE_ERROR(toString(e.getLineNumber()));
469  ret = 1;
470  } catch (XERCES_CPP_NAMESPACE::SAXException& e) {
471  WRITE_ERROR(TplConvert::_2str(e.getMessage()));
472  ret = 1;
473  }
474  if (MsgHandler::getErrorInstance()->wasInformed() || ret != 0) {
475  throw ProcessError();
476  }
477  } catch (const ProcessError& e) {
478  if (std::string(e.what()) != std::string("Process Error") && std::string(e.what()) != std::string("")) {
479  WRITE_ERROR(e.what());
480  }
481  MsgHandler::getErrorInstance()->inform("Quitting (on error).", false);
482  ret = 1;
483  }
484 
485  delete net;
487  if (ret == 0) {
488  std::cout << "Success." << std::endl;
489  }
490  return ret;
491 }
492 
493 
494 
495 /****************************************************************************/
496 
Computes the shortest path through a contracted network.
Definition: CHRouter.h:69
OutputDevice & writeAttr(const SumoXMLAttr attr, const T &val)
writes a named attribute
Definition: OutputDevice.h:256
const std::vector< ODCell * > & getCells()
Definition: ODMatrix.h:246
static void init()
Initialises the xml-subsystem.
Definition: XMLSubSys.cpp:54
Computes the shortest path through a network using the Dijkstra algorithm.
static MsgHandler * getErrorInstance()
Returns the instance to add errors to.
Definition: MsgHandler.cpp:76
OutputDevice * getRouteOutput(const bool alternative=false)
Definition: RONet.h:455
int getInt(const std::string &name) const
Returns the int-value of the named option (only for Option_Integer)
void computeRoutes(RONet &net, OptionsCont &oc, ODMatrix &matrix)
static void getOptions(const bool commandLineOnly=false)
Parses the command line arguments and loads the configuration.
Definition: OptionsIO.cpp:82
int getInternalEdgeNumber() const
Returns the number of internal edges the network contains.
Definition: RONet.cpp:653
assignment methods
a flow definition (used by router)
int getEdgeNo() const
Returns the total number of edges the network contains including internal edges.
Definition: RONet.cpp:647
static void setValidation(const std::string &validationScheme, const std::string &netValidationScheme)
Enables or disables validation.
Definition: XMLSubSys.cpp:65
distribution of a route
Interface for building instances of duarouter-edges.
virtual double recomputeCosts(const std::vector< const E *> &edges, const V *const v, SUMOTime msTime) const =0
void makeDistricts(const std::map< std::string, std::pair< std::vector< std::string >, std::vector< std::string > > > &districts)
create districts from description
void setApplicationDescription(const std::string &appDesc)
Sets the application description.
int main(int argc, char **argv)
static std::ostream & writeFloat(std::ostream &strm, double value)
Writes a float binary.
OutputDevice & writePreformattedTag(const std::string &val)
writes a preformatted tag to the device but ensures that any pending tags are closed ...
Definition: OutputDevice.h:302
std::string time2string(SUMOTime t)
Definition: SUMOTime.cpp:60
Computes the shortest path through a network using the A* algorithm.
Definition: AStarRouter.h:74
weights: time range begin
static bool checkOptions()
Checks set options from the OptionsCont-singleton for being valid for usage within duarouter...
Definition: ROMAFrame.cpp:292
const std::map< std::string, std::pair< std::vector< std::string >, std::vector< std::string > > > & getDistricts() const
Retrieves all TAZ (districts) from the network.
Definition: RONet.h:153
void computeAllPairs(RONet &net, OptionsCont &oc)
bool hasPermissions() const
Definition: RONet.cpp:697
An internal edge which models vehicles driving across a junction. This is currently not used for rout...
Definition: ROEdge.h:97
double getLength() const
Returns the length of the edge.
Definition: ROEdge.h:198
std::vector< const ROEdge * > ConstROEdgeVector
Definition: ROEdge.h:62
bool getBool(const std::string &name) const
Returns the boolean-value of the named option (only for Option_Bool)
Parser and container for routes during their loading.
const std::string & getID() const
Returns the id.
Definition: Named.h:66
std::vector< RORoute * > pathsVector
the list of paths / routes
Definition: ODCell.h:78
const std::string DEFAULT_VTYPE_ID
static void close()
Closes all of an applications subsystems.
double vehicleNumber
The number of vehicles.
Definition: ODCell.h:60
Computes the shortest path through a network using the Dijkstra algorithm.
static void setArgs(int argc, char **argv)
Stores the command line arguments for later parsing.
Definition: OptionsIO.cpp:62
static OptionsCont & getOptions()
Retrieves the options.
Definition: OptionsCont.cpp:65
void openOutput(const OptionsCont &options, const std::string altFilename="")
Opens the output for computed routes.
Definition: RONet.cpp:237
static void initRandGlobal(MTRand *which=0)
Reads the given random number options and initialises the random number generator in accordance...
Definition: RandHelper.cpp:64
void loadMatrix(OptionsCont &oc)
read a matrix in one of several formats
Definition: ODMatrix.cpp:543
bool isSet(const std::string &name, bool failOnNonExistant=true) const
Returns the information whether the named option is set.
A vehicle as used by router.
Definition: ROVehicle.h:60
void cleanup()
closes the file output for computed routes and deletes associated threads if necessary ...
Definition: RONet.cpp:257
#define max(a, b)
Definition: polyfonts.c:65
static double getTravelTimeStatic(const ROEdge *const edge, const ROVehicle *const veh, double time)
Returns the travel time for the given edge.
Definition: ROEdge.h:393
A single O/D-matrix cell.
Definition: ODCell.h:58
void initNet(RONet &net, ROLoader &loader, OptionsCont &oc)
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
Definition: ToString.h:56
std::string origin
Name of the origin district.
Definition: ODCell.h:69
EdgeFunc getFunc() const
Returns the function of the edge.
Definition: ROEdge.h:190
parameter associated to a certain key
An O/D (origin/destination) matrix.
Definition: ODMatrix.h:76
The data loader.
Definition: ROLoader.h:63
std::string getString(const std::string &name) const
Returns the string-value of the named option (only for Option_String)
bool processMetaOptions(bool missingOptions)
Checks for help and configuration output, returns whether we should exit.
#define STEPS2TIME(x)
Definition: SUMOTime.h:65
double getTravelTime(const ROEdge *const edge, const ROVehicle *const, double)
void loadRoutes(OptionsCont &oc, SUMOSAXHandler &handler)
read SUMO routes
Definition: ODMatrix.cpp:589
SUMOTime string2time(const std::string &r)
Definition: SUMOTime.cpp:47
A container for districts.
std::vector< std::string > getStringVector(const std::string &name) const
Returns the list of string-vector-value of the named option (only for Option_String) ...
T MIN2(T a, T b)
Definition: StdDefs.h:64
std::map< SUMOTime, std::vector< std::string > > departures
mapping of departure times to departing vehicles, if already fixed
Definition: ODCell.h:81
void writeInterval(OutputDevice &dev, const SUMOTime begin, const SUMOTime end, const RONet &net, const ROVehicle *const veh)
void sortByBeginTime()
Definition: ODMatrix.cpp:631
SUMOTime begin
The begin time this cell describes.
Definition: ODCell.h:63
double getFloat(const std::string &name) const
Returns the double-value of the named option (only for Option_Float)
static double getCapacity(const ROEdge *edge)
double getNumLoaded() const
Returns the number of loaded vehicles.
Definition: ODMatrix.cpp:496
virtual void loadNet(RONet &toFill, ROAbstractEdgeBuilder &eb)
Loads the network.
Definition: ROLoader.cpp:120
A basic edge for routing applications.
Definition: ROEdge.h:77
begin/end of the description of an edge
#define VERSION_STRING
Definition: config.h:210
#define WRITE_ERROR(msg)
Definition: MsgHandler.h:206
static void fillOptions()
Inserts options used by duarouter into the OptionsCont-singleton.
Definition: ROMAFrame.cpp:53
static double getPenalizedEffort(const ROEdge *const e, const ROVehicle *const v, double t)
Returns the effort to pass an edge including penalties.
The router&#39;s network representation.
Definition: RONet.h:76
Structure representing possible vehicle parameter.
static double getTravelTime(const ROEdge *const e, const ROVehicle *const v, double t)
Returns the traveltime on an edge without penalties.
static OutputDevice & getDeviceByOption(const std::string &name)
Returns the device described by the option.
weights: time range end
static const ROEdgeVector & getAllEdges()
Returns all ROEdges.
Definition: ROEdge.cpp:278
double getTravelTime(const ROVehicle *const veh, double time) const
Returns the travel time for this edge.
Definition: ROEdge.cpp:155
void inform(std::string msg, bool addType=true)
adds a new error to the list
Definition: MsgHandler.cpp:85
A storage for options typed value containers)
Definition: OptionsCont.h:99
double getSpeedLimit() const
Returns the speed allowed on this edge.
Definition: ROEdge.h:213
const std::map< std::string, ROEdge * > & getEdgeMap() const
Definition: RONet.cpp:659
void applyCurve(const Distribution_Points &ps)
Splits the stored cells dividing them on the given time line.
Definition: ODMatrix.cpp:530
static double getNoiseEffort(const ROEdge *const edge, const ROVehicle *const veh, double time)
Definition: ROEdge.cpp:179
static void setGlobalOptions(const bool interpolate)
Definition: ROEdge.h:437
description of a vehicle
an aggreagated-output interval
static bool createDeviceByOption(const std::string &optionName, const std::string &rootElement="", const std::string &schemaFile="")
Creates the device using the output definition stored in the named option.
double getFlow(const double time) const
Definition: ROMAEdge.h:93
Static storage of an output device and its base (abstract) implementation.
Definition: OutputDevice.h:71
std::string destination
Name of the destination district.
Definition: ODCell.h:72
bool closeTag()
Closes the most recently opened tag.
SUMOVTypeParameter * getVehicleTypeSecure(const std::string &id)
Retrieves the named vehicle type.
Definition: RONet.cpp:281
long long int SUMOTime
Definition: TraCIDefs.h:52
A normal edge.
Definition: ROEdge.h:85
SUMOTime end
The end time this cell describes.
Definition: ODCell.h:66
void clear()
Clears information whether an error occured previously.
Definition: MsgHandler.cpp:145
#define WRITE_MESSAGE(msg)
Definition: MsgHandler.h:201
static void initOutputOptions()
Definition: MsgHandler.cpp:193
A basic edge for routing applications.
Definition: ROMAEdge.h:65
bool isBinary() const
Returns whether we have a binary output.
Definition: OutputDevice.h:244
static std::string _2str(const int var)
convert int to string
Definition: TplConvert.h:57
bool loadWeights(RONet &net, const std::string &optionName, const std::string &measure, const bool useLanes, const bool boundariesOverride)
Loads the net weights.
Definition: ROLoader.cpp:264
vehicles ignoring classes
OutputDevice & openTag(const std::string &xmlElement)
Opens an XML tag.
An output device that encapsulates an ofstream.
static double getPenalizedTT(const ROEdge *const e, const ROVehicle *const v, double t)
Returns the traveltime on an edge including penalties.
Distribution_Points parseTimeLine(const std::vector< std::string > &def, bool timelineDayInHours)
split the given timeline
Definition: ODMatrix.cpp:606
Computes the shortest path through a contracted network.
void setApplicationName(const std::string &appName, const std::string &fullName)
Sets the application name.