SUMO - Simulation of Urban MObility
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MSFullExport.cpp
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1 /****************************************************************************/
6 // Dumping a hugh List of Parameters available in the Simulation
7 /****************************************************************************/
8 // SUMO, Simulation of Urban MObility; see http://sumo-sim.org/
9 // Copyright (C) 2001-2013 DLR (http://www.dlr.de/) and contributors
10 /****************************************************************************/
11 //
12 // This file is part of SUMO.
13 // SUMO is free software: you can redistribute it and/or modify
14 // it under the terms of the GNU General Public License as published by
15 // the Free Software Foundation, either version 3 of the License, or
16 // (at your option) any later version.
17 //
18 /****************************************************************************/
19 
20 
21 // ===========================================================================
22 // included modules
23 // ===========================================================================
24 #ifdef _MSC_VER
25 #include <windows_config.h>
26 #else
27 #include <config.h>
28 #endif
29 
30 #include <string>
31 #include <microsim/MSEdgeControl.h>
32 #include <microsim/MSEdge.h>
33 #include <microsim/MSLane.h>
34 #include <microsim/MSGlobals.h>
36 #include "MSFullExport.h"
37 #include <microsim/MSNet.h>
38 #include <microsim/MSVehicle.h>
40 
41 #ifdef HAVE_MESOSIM
42 #include <mesosim/MELoop.h>
43 #include <mesosim/MESegment.h>
44 #endif
45 
46 #ifdef CHECK_MEMORY_LEAKS
47 #include <foreign/nvwa/debug_new.h>
48 #endif // CHECK_MEMORY_LEAKS
49 
50 
51 // ===========================================================================
52 // method definitions
53 // ===========================================================================
54 void
56  of.openTag("data") << " timestep=\"" << time2string(timestep) << "\"";
57  //Vehicles
58  writeVehicles(of);
59  //Edges
60  writeEdge(of);
61  //TrafficLights
62  writeTLS(of, timestep);
63  of.closeTag();
64 }
65 
66 
67 void
69  of.openTag("vehicles");
73  for (; it != end; ++it) {
74  const MSVehicle* veh = static_cast<const MSVehicle*>((*it).second);
75  if (veh->isOnRoad()) {
76  std::string fclass = veh->getVehicleType().getID();
77  fclass = fclass.substr(0, fclass.find_first_of("@"));
79  of.openTag("vehicle").writeAttr("id", veh->getID()).writeAttr("eclass", toString(veh->getVehicleType().getEmissionClass()));
80  of.writeAttr("co2", veh->getHBEFA_CO2Emissions()).writeAttr("co", veh->getHBEFA_COEmissions()).writeAttr("hc", veh->getHBEFA_HCEmissions());
81  of.writeAttr("nox", veh->getHBEFA_NOxEmissions()).writeAttr("pmx", veh->getHBEFA_PMxEmissions()).writeAttr("noise", veh->getHarmonoise_NoiseEmissions());
82  of.writeAttr("route", veh->getRoute().getID()).writeAttr("type", fclass).writeAttr("waiting", veh->getWaitingSeconds());
83  of.writeAttr("lane", veh->getLane()->getID()).writeAttr("pos_lane", veh->getPositionOnLane()).writeAttr("speed", veh->getSpeed() * 3.6);
84  of.writeAttr("angle", veh->getAngle()).writeAttr("x", pos.x()).writeAttr("y", pos.y());
85  of.closeTag();
86  }
87  }
88  of.closeTag();
89 }
90 
91 void
93  of.openTag("edges");
95  const std::vector<MSEdge*>& edges = ec.getEdges();
96  for (std::vector<MSEdge*>::const_iterator e = edges.begin(); e != edges.end(); ++e) {
97  MSEdge& edge = **e;
98  of.openTag("edge").writeAttr("id", edge.getID()).writeAttr("traveltime", edge.getCurrentTravelTime());
99  const std::vector<MSLane*>& lanes = edge.getLanes();
100  for (std::vector<MSLane*>::const_iterator lane = lanes.begin(); lane != lanes.end(); ++lane) {
101  writeLane(of, **lane);
102  }
103  of.closeTag();
104  }
105  of.closeTag();
106 }
107 
108 
109 void
111 
112  of.openTag("lane").writeAttr("id", lane.getID()).writeAttr("co", lane.getHBEFA_COEmissions()).writeAttr("co2", lane.getHBEFA_CO2Emissions());
113  of.writeAttr("nox", lane.getHBEFA_NOxEmissions()).writeAttr("pmx", lane.getHBEFA_PMxEmissions()).writeAttr("hc", lane.getHBEFA_HCEmissions());
114  of.writeAttr("noise", lane.getHarmonoise_NoiseEmissions()).writeAttr("fuel", lane.getHBEFA_FuelConsumption()).writeAttr("maxspeed", lane.getSpeedLimit() * 3.6); // @todo: use m/s for speed
115  of.writeAttr("meanspeed", lane.getMeanSpeed() * 3.6).writeAttr("occupancy", lane.getOccupancy()).writeAttr("vehicle_count", lane.getVehicleNumber());
116  of.closeTag();
117 }
118 
119 
120 void
122  of.openTag("tls");
124  std::vector<std::string> ids = vc.getAllTLIds();
125  for (std::vector<std::string>::const_iterator id_it = ids.begin(); id_it != ids.end(); ++id_it) {
128 
129  std::vector<std::string> laneIDs;
130  for (MSTrafficLightLogic::LaneVectorVector::const_iterator i = lanes.begin(); i != lanes.end(); ++i) {
131  const MSTrafficLightLogic::LaneVector& llanes = (*i);
132  for (MSTrafficLightLogic::LaneVector::const_iterator j = llanes.begin(); j != llanes.end(); ++j) {
133  laneIDs.push_back((*j)->getID());
134  }
135  }
136 
137  std::string lane_output = "";
138  for (unsigned int i1 = 0; i1 < laneIDs.size(); ++i1) {
139  lane_output += laneIDs[i1] + " ";
140  }
141 
142  std::string state = vars.getActive()->getCurrentPhaseDef().getState();
143  of.openTag("trafficlight").writeAttr("id", *id_it).writeAttr("state", state).closeTag();
144  }
145  of.closeTag();
146 }
147