56 #ifdef CHECK_MEMORY_LEAKS
58 #endif // CHECK_MEMORY_LEAKS
66 :
Named(id), myLaneID(laneID), myPosition(pos), myType(type), myRoutes(0) {}
70 :
Named(id), myLaneID(f.myLaneID), myPosition(f.myPosition),
71 myType(f.myType), myRoutes(0) {
93 for (std::vector<ROEdge*>::const_iterator i = rd.
edges2Pass.begin(); i != rd.
edges2Pass.end(); ++i) {
94 length += (*i)->getLength();
96 return (distance / length);
108 const std::vector<RODFRouteDesc>& routes =
myRoutes->
get();
109 std::vector<RODFEdge*> nextDetEdges;
110 for (std::vector<RODFRouteDesc>::const_iterator i = routes.begin(); i != routes.end(); ++i) {
112 bool hadSplit =
false;
113 bool hadDetectorAfterSplit =
false;
114 for (std::vector<ROEdge*>::const_iterator j = rd.
edges2Pass.begin(); !hadDetectorAfterSplit && j != rd.
edges2Pass.end(); ++j) {
115 if (hadSplit && !hadDetectorAfterSplit && net->
hasDetector(*j)) {
116 hadDetectorAfterSplit =
true;
117 if (find(nextDetEdges.begin(), nextDetEdges.end(), *j) == nextDetEdges.end()) {
118 nextDetEdges.push_back(static_cast<RODFEdge*>(*j));
122 if ((*j)->getNoFollowing() > 1) {
129 for (
SUMOTime time = startTime; time < endTime; time += stepOffset, ++index) {
133 for (std::vector<RODFEdge*>::const_iterator i = nextDetEdges.begin(); i != nextDetEdges.end(); ++i) {
139 if (overallProb > 0) {
140 for (std::vector<RODFEdge*>::const_iterator i = nextDetEdges.begin(); i != nextDetEdges.end(); ++i) {
159 std::vector<RODFRouteDesc>& descs =
myRoutes->
get();
161 for (
SUMOTime time = startTime; time < endTime; time += stepOffset) {
163 std::map<ROEdge*, SUMOReal> flowMap;
166 for (std::vector<RODFRouteDesc>::iterator ri = descs.begin(); ri != descs.end(); ++ri, index++) {
168 for (std::vector<ROEdge*>::iterator j = (*ri).edges2Pass.begin(); j != (*ri).edges2Pass.end() && prob > 0; ++j) {
174 if (probs.size() == 0) {
178 const std::map<RODFEdge*, SUMOReal>& tprobs = probs[(time - startTime) / stepOffset];
179 for (std::map<RODFEdge*, SUMOReal>::const_iterator k = tprobs.begin(); k != tprobs.end(); ++k) {
180 if (find(j, (*ri).edges2Pass.end(), (*k).first) != (*ri).edges2Pass.end()) {
185 into[time]->add(prob, index);
186 (*ri).overallProb = prob;
192 const std::vector<RODFRouteDesc>&
210 const std::vector<RODFDetector*>&
216 const std::vector<RODFDetector*>&
251 bool includeUnusedRoutes,
262 const std::vector<RODFRouteDesc>& routes =
myRoutes->
get();
264 bool isEmptyDist =
true;
265 for (std::vector<RODFRouteDesc>::const_iterator i = routes.begin(); i != routes.end(); ++i) {
266 if ((*i).overallProb > 0) {
270 for (std::vector<RODFRouteDesc>::const_iterator i = routes.begin(); i != routes.end(); ++i) {
271 if ((*i).overallProb > 0 || includeUnusedRoutes) {
284 if (insertionsOnly || flows.
knows(
myID)) {
288 unsigned int index = 0;
289 for (
SUMOTime time = startTime; time < endTime; time += stepOffset, index++) {
291 assert(index < mflows.size());
292 const FlowDef& srcFD = mflows[index];
296 size_t carNo = (size_t)((srcFD.qPKW + srcFD.qLKW) * scale);
297 for (
size_t car = 0; car < carNo; ++car) {
301 if (srcFD.isLKW >= 1) {
302 srcFD.isLKW = srcFD.isLKW - (
SUMOReal) 1.;
308 if (v <= 0 || v > 250) {
324 if (oc.
isSet(
"departlane")) {
329 if (oc.
isSet(
"departpos")) {
330 std::string posDesc = oc.
getString(
"departpos");
331 if (posDesc.substr(0, 8) ==
"detector") {
333 if (posDesc.length() > 8) {
334 if (posDesc[8] ==
'+') {
336 }
else if (posDesc[8] ==
'-') {
349 if (oc.
isSet(
"departspeed")) {
352 if (v > defaultSpeed) {
358 if (oc.
isSet(
"arrivallane")) {
361 if (oc.
isSet(
"arrivalpos")) {
364 if (oc.
isSet(
"arrivalspeed")) {
367 if (destIndex >= 0) {
373 srcFD.isLKW += srcFD.fLKW;
402 unsigned int index = 0;
403 for (
SUMOTime t = startTime; t < endTime; t += stepOffset, index++) {
404 assert(index < mflows.size());
405 const FlowDef& srcFD = mflows[index];
407 if (speed <= 0 || speed > 250) {
408 speed = defaultSpeed;
466 if ((*i)->hasRoutes()) {
474 const std::vector< RODFDetector*>&
486 switch ((*i)->getType()) {
514 switch ((*i)->getType()) {
540 std::vector<std::string> saved;
542 bool lastWasSaved =
true;
551 lastWasSaved = (*i)->writeRoutes(saved, out);
575 bool writeCalibrators,
576 bool includeUnusedRoutes,
578 bool insertionsOnly) {
581 (*i)->computeSplitProbabilities(&net, *
this, flows, startTime, endTime, stepOffset);
590 std::string defFileName;
602 std::map<size_t, RandomDistributor<size_t>* > dists;
603 if (!insertionsOnly && flows.
knows(det->
getID())) {
607 if (!det->
writeEmitterDefinition(defFileName, dists, flows, startTime, endTime, stepOffset, includeUnusedRoutes, scale, insertionsOnly, defaultSpeed)) {
631 const unsigned char col =
static_cast<unsigned char>(128 * flow / flows.
getMaxDetectorFlow() + 128);
633 switch ((*i)->getType()) {
667 const std::vector<FlowDef>& flows =
static_cast<const RODFEdge*
>(edge)->getFlows();
669 for (std::vector<FlowDef>::const_iterator i = flows.begin(); i != flows.end(); ++i) {
671 if (srcFD.
qLKW >= 0) {
674 if (srcFD.
qPKW >= 0) {
701 const std::string& file,
740 bool singleFile,
bool friendly) {
771 std::map<std::string, RODFDetector*>::iterator ri1 =
myDetectorMap.find(
id);
775 std::vector<RODFDetector*>::iterator ri2 =
781 std::vector<RODFDetector*>& dets = (*rr3).second;
782 for (std::vector<RODFDetector*>::iterator ri3 = dets.begin(); !found && ri3 != dets.end();) {
783 if (*ri3 == oldDet) {
785 ri3 = dets.erase(ri3);
806 size_t noFollowerWithRoutes = 0;
807 size_t noPriorWithRoutes = 0;
809 std::vector<RODFDetector*>::const_iterator j;
810 for (j = prior.begin(); j != prior.end(); ++j) {
811 if (flows.
knows((*j)->getID())) {
815 assert(noPriorWithRoutes <= prior.size());
816 for (j = follower.begin(); j != follower.end(); ++j) {
817 if (flows.
knows((*j)->getID())) {
818 ++noFollowerWithRoutes;
821 assert(noFollowerWithRoutes <= follower.size());
829 if (noFollowerWithRoutes == follower.size()) {
842 if ((*i)->getEdgeID() == edge->
getID()) {
860 const std::vector<std::string>& oldids) {
866 for (std::vector<std::string>::const_iterator i = oldids.begin(); i != oldids.end(); ++i) {
std::vector< RODFDetector * > myDetectors
bool knows(const std::string &id) const
OutputDevice & writeAttr(const SumoXMLAttr attr, const T &val)
writes a named attribute
static const RGBColor BLUE
void close()
Closes the device and removes it from the dictionary.
void addRoute(RODFRouteDesc &nrd)
void removeDetector(const std::string &id)
SUMOReal getFlowSumSecure(const std::string &id) const
RODFDetectorType
Numerical representation of different detector types.
std::map< std::string, RODFDetector * > myDetectorMap
std::vector< ROEdge * > edges2Pass
The edges the route is made of.
Represents a generic random distribution.
static SUMOReal _2SUMOReal(const E *const data)
bool addDetector(RODFDetector *dfd)
void addRoutes(RODFRouteCont *routes)
ROEdge * getEdge(const std::string &name) const
Retrieves an edge from the network.
RODFDetector(const std::string &id, const std::string &laneID, SUMOReal pos, const RODFDetectorType type)
Constructor.
static std::string escapeXML(const std::string &orig)
Replaces the standard escapes by their XML entities.
std::string time2string(SUMOTime t)
void buildDestinationDistribution(const RODFDetectorCon &detectors, SUMOTime startTime, SUMOTime endTime, SUMOTime stepOffset, const RODFNet &net, std::map< size_t, RandomDistributor< size_t > * > &into) const
const std::vector< RODFRouteDesc > & getRouteVector() const
SUMOReal getMaxDetectorFlow() const
const std::vector< RODFDetector * > & getDetectors() const
void saveRoutes(const std::string &file) const
void writeSpeedTrigger(const RODFNet *const net, const std::string &file, const RODFDetectorFlows &flows, SUMOTime startTime, SUMOTime endTime, SUMOTime stepOffset)
bool writeEmitterDefinition(const std::string &file, const std::map< size_t, RandomDistributor< size_t > * > &dists, const RODFDetectorFlows &flows, SUMOTime startTime, SUMOTime endTime, SUMOTime stepOffset, bool includeUnusedRoutes, SUMOReal scale, bool insertionsOnly, SUMOReal defaultSpeed) const
std::string getEdgeID() const
Returns the id of the edge this detector is placed on.
std::vector< RODFRouteDesc > & get()
Returns the container of stored routes.
SUMOReal computeDistanceFactor(const RODFRouteDesc &rd) const
A container for RODFDetectors.
#define UNUSED_PARAMETER(x)
bool hasDetector(ROEdge *edge) const
void computeSplitProbabilities(const RODFNet *net, const RODFDetectorCon &detectors, const RODFDetectorFlows &flows, SUMOTime startTime, SUMOTime endTime, SUMOTime stepOffset)
static OptionsCont & getOptions()
Retrieves the options.
const RODFDetector & getAnyDetectorForEdge(const RODFEdge *const edge) const
bool writeXMLHeader(const std::string &rootElement, const std::string &attrs="", const std::string &comment="")
Writes an XML header with optional configuration.
void writeEmitters(const std::string &file, const RODFDetectorFlows &flows, SUMOTime startTime, SUMOTime endTime, SUMOTime stepOffset, const RODFNet &net, bool writeCalibrators, bool includeUnusedRoutes, SUMOReal scale, bool insertionsOnly)
RODFDetectorType getType() const
Returns the type of the detector.
A not yet defined detector.
std::string getString(const std::string &name) const
Returns the string-value of the named option (only for Option_String)
void addFollowingDetector(RODFDetector *det)
const std::string & getID() const
Returns the id.
std::map< std::string, std::vector< RODFDetector * > > myDetectorEdgeMap
bool writeRoutes(std::vector< std::string > &saved, OutputDevice &out)
static const RGBColor GREEN
void save(const std::string &file) const
OutputDevice & writeNonEmptyAttr(const SumoXMLAttr attr, const std::string &val)
writes a string attribute only if it is not the empty string and not the string "default" ...
std::vector< RODFDetector * > myFollowingDetectors
void addPriorDetector(RODFDetector *det)
int getAggFlowFor(const ROEdge *edge, SUMOTime time, SUMOTime period, const RODFDetectorFlows &flows) const
T get(MTRand *which=0) const
Draw a sample of the distribution.
A detector which had to be discarded (!!!)
void writeValidationDetectors(const std::string &file, bool includeSources, bool singleFile, bool friendly)
~RODFDetector()
Destructor.
bool knows(const std::string &det_id) const
std::string toString(const T &t, std::streamsize accuracy=OUTPUT_ACCURACY)
void writeSingleSpeedTrigger(const std::string &file, const RODFDetectorFlows &flows, SUMOTime startTime, SUMOTime endTime, SUMOTime stepOffset, SUMOReal defaultSpeed)
Definition of the traffic during a certain time containing the flows and speeds.
void saveAsPOIs(const std::string &file) const
A route within the DFROUTER.
A basic edge for routing applications.
std::vector< std::map< RODFEdge *, SUMOReal > > mySplitProbabilities
Base class for objects which have an id.
SUMOReal getOverallProb() const
Return the sum of the probabilites assigned to the members.
const std::vector< RODFDetector * > & getPriorDetectors() const
static int _2int(const E *const data)
std::string myID
The name of the object.
static const RGBColor RED
std::map< std::string, RODFEdge * > myRoute2Edge
static OutputDevice & getDevice(const std::string &name)
Returns the described OutputDevice.
const RODFDetector & getDetector(const std::string &id) const
void guessEmptyFlows(RODFDetectorFlows &flows)
Class representing a detector within the DFROUTER.
A storage for options typed value containers)
A container for DFROUTER-routes.
std::vector< RODFDetector * > myPriorDetectors
SUMOReal getPos() const
Returns the position at which the detector lies.
std::string routename
The name of the route.
void writeEmitterPOIs(const std::string &file, const RODFDetectorFlows &flows)
void setType(RODFDetectorType type)
const std::vector< RODFDetector * > & getFollowerDetectors() const
const std::vector< FlowDef > & getFlowDefs(const std::string &id) const
Static storage of an output device and its base (abstract) implementation.
bool closeTag()
Closes the most recently opened tag.
const std::vector< std::map< RODFEdge *, SUMOReal > > & getSplitProbabilities() const
static std::string getFilePath(const std::string &path)
Removes the file information from the given path.
void writeEndRerouterDetectors(const std::string &file)
void mesoJoin(const std::string &nid, const std::vector< std::string > &oldids)
void addRouteDesc(RODFRouteDesc &desc)
Adds a route to the container.
void clearDists(std::map< size_t, RandomDistributor< size_t > * > &dists) const
Clears the given distributions map, deleting the timed distributions.
bool detectorsHaveRoutes() const
OutputDevice & openTag(const std::string &xmlElement)
Opens an XML tag.
bool save(std::vector< std::string > &saved, const std::string &prependix, OutputDevice &out)
Saves routes.
bool detectorsHaveCompleteTypes() const
const std::string & getLaneID() const
Returns the id of the lane this detector is placed on.
bool isSet(const std::string &name, bool failOnNonExistant=true) const
Returns the information whether the named option is set.