use of org.onebusaway.transit_data_federation.services.realtime.BlockLocation in project onebusaway-application-modules by camsys.
the class VehicleStatusBeanServiceImpl method getVehicleLocationRecordForVehicleId.
@Override
public VehicleLocationRecordBean getVehicleLocationRecordForVehicleId(AgencyAndId vehicleId, long targetTime) {
TargetTime target = new TargetTime(targetTime, targetTime);
BlockLocation blockLocation = _blockLocationService.getLocationForVehicleAndTime(vehicleId, target);
if (blockLocation == null)
return null;
return getBlockLocationAsVehicleLocationRecord(blockLocation);
}
use of org.onebusaway.transit_data_federation.services.realtime.BlockLocation in project onebusaway-application-modules by camsys.
the class BlockLocationServiceImpl method putBlockLocationRecord.
/**
* We add the {@link BlockInstance} to the local cache and persist it to
* a back-end data-store if necessary
*
* @param scheduledBlockLocation TODO
* @param samples
*/
private void putBlockLocationRecord(BlockInstance blockInstance, VehicleLocationRecord record, ScheduledBlockLocation scheduledBlockLocation, ScheduleDeviationSamples samples) {
// Cache the result
VehicleLocationCacheElements elements = _cache.addRecord(blockInstance, record, scheduledBlockLocation, samples);
if (!CollectionsLibrary.isEmpty(_blockLocationListeners)) {
/**
* We only fill in the block location if we have listeners
*/
BlockLocation location = getBlockLocation(blockInstance, elements, scheduledBlockLocation, record.getTimeOfRecord());
if (location != null) {
for (BlockLocationListener listener : _blockLocationListeners) {
listener.handleBlockLocation(location);
}
}
}
if (_persistBlockLocationRecords) {
List<BlockLocationRecord> blockLocationRecords = getVehicleLocationRecordAsBlockLocationRecord(blockInstance, record, scheduledBlockLocation);
addPredictionToPersistenceQueue(blockLocationRecords);
}
}
use of org.onebusaway.transit_data_federation.services.realtime.BlockLocation in project onebusaway-application-modules by camsys.
the class BlockLocationServiceImpl method getBlockLocation.
/**
* @param blockInstance
* @param cacheElements
* @param scheduledLocation
* @param targetTime
* @return null if the effective scheduled block location cannot be determined
*/
private BlockLocation getBlockLocation(BlockInstance blockInstance, VehicleLocationCacheElements cacheElements, ScheduledBlockLocation scheduledLocation, long targetTime) {
BlockLocation location = new BlockLocation();
location.setTime(targetTime);
location.setBlockInstance(blockInstance);
VehicleLocationCacheElement cacheElement = null;
if (cacheElements != null)
cacheElement = cacheElements.getElementForTimestamp(targetTime);
if (cacheElement != null) {
VehicleLocationRecord record = cacheElement.getRecord();
if (scheduledLocation == null)
scheduledLocation = getScheduledBlockLocationForVehicleLocationCacheRecord(blockInstance, cacheElement, targetTime);
if (scheduledLocation != null) {
location.setEffectiveScheduleTime(scheduledLocation.getScheduledTime());
location.setDistanceAlongBlock(scheduledLocation.getDistanceAlongBlock());
}
location.setBlockStartTime(record.getBlockStartTime());
location.setPredicted(true);
location.setLastUpdateTime(record.getTimeOfRecord());
location.setLastLocationUpdateTime(record.getTimeOfLocationUpdate());
location.setScheduleDeviation(record.getScheduleDeviation());
location.setScheduleDeviations(cacheElement.getScheduleDeviations());
if (record.isCurrentLocationSet()) {
CoordinatePoint p = new CoordinatePoint(record.getCurrentLocationLat(), record.getCurrentLocationLon());
location.setLastKnownLocation(p);
}
location.setOrientation(record.getCurrentOrientation());
location.setPhase(record.getPhase());
location.setStatus(record.getStatus());
location.setVehicleId(record.getVehicleId());
List<TimepointPredictionRecord> timepointPredictions = record.getTimepointPredictions();
location.setTimepointPredictions(timepointPredictions);
if (timepointPredictions != null && !timepointPredictions.isEmpty()) {
SortedMap<Integer, Double> scheduleDeviations = new TreeMap<Integer, Double>();
BlockConfigurationEntry blockConfig = blockInstance.getBlock();
int tprIndexCounter = 0;
for (TimepointPredictionRecord tpr : timepointPredictions) {
AgencyAndId stopId = tpr.getTimepointId();
long predictedTime;
if (tpr.getTimepointPredictedDepartureTime() != -1) {
predictedTime = tpr.getTimepointPredictedDepartureTime();
} else {
predictedTime = tpr.getTimepointPredictedArrivalTime();
}
if (stopId == null || predictedTime == 0)
continue;
for (BlockStopTimeEntry blockStopTime : blockConfig.getStopTimes()) {
StopTimeEntry stopTime = blockStopTime.getStopTime();
StopEntry stop = stopTime.getStop();
// StopSequence equals to -1 when there is no stop sequence in the GTFS-rt
if (stopId.equals(stop.getId()) && stopTime.getTrip().getId().equals(tpr.getTripId()) && (tpr.getStopSequence() == -1 || stopTime.getSequence() == tpr.getStopSequence())) {
if (tpr.getStopSequence() == -1 && isFirstOrLastStopInTrip(stopTime) && isLoopRoute(stopTime)) {
if (isSinglePredictionForTrip(timepointPredictions, tpr, tprIndexCounter)) {
continue;
}
// If this isn't the last prediction, and we're on the first stop, then apply it
if (isLastPrediction(stopTime, timepointPredictions, tpr, tprIndexCounter) && isFirstStopInRoute(stopTime)) {
// Do not calculate schedule deviation
continue;
}
// If this is the last prediction, and we're on the last stop, then apply it
if (isFirstPrediction(stopTime, timepointPredictions, tpr, tprIndexCounter) && isLastStopInRoute(stopTime)) {
// Do not calculate schedule deviation
continue;
}
}
int arrivalOrDepartureTime;
// We currently use the scheduled arrival time of the stop as the search index
// This MUST be consistent with the index search in ArrivalAndSepartureServiceImpl.getBestScheduleDeviation()
int index = stopTime.getArrivalTime();
if (tpr.getTimepointPredictedDepartureTime() != -1) {
// Prefer departure time, because if both exist departure deviations should be the ones propagated downstream
arrivalOrDepartureTime = stopTime.getDepartureTime();
} else {
arrivalOrDepartureTime = stopTime.getArrivalTime();
}
int deviation = (int) ((predictedTime - blockInstance.getServiceDate()) / 1000 - arrivalOrDepartureTime);
scheduleDeviations.put(index, (double) deviation);
}
}
tprIndexCounter++;
}
double[] scheduleTimes = new double[scheduleDeviations.size()];
double[] scheduleDeviationMus = new double[scheduleDeviations.size()];
double[] scheduleDeviationSigmas = new double[scheduleDeviations.size()];
int index = 0;
for (Map.Entry<Integer, Double> entry : scheduleDeviations.entrySet()) {
scheduleTimes[index] = entry.getKey();
scheduleDeviationMus[index] = entry.getValue();
index++;
}
ScheduleDeviationSamples samples = new ScheduleDeviationSamples(scheduleTimes, scheduleDeviationMus, scheduleDeviationSigmas);
location.setScheduleDeviations(samples);
}
} else {
if (scheduledLocation == null)
scheduledLocation = getScheduledBlockLocationForBlockInstance(blockInstance, targetTime);
}
/**
* Will be null in the following cases:
*
* 1) When the effective schedule time is beyond the last scheduled stop
* time for the block.
*
* 2) When the effective distance along block is outside the range of the
* block's shape.
*/
if (scheduledLocation == null)
return null;
// if we have route info, set the vehicleType
if (scheduledLocation.getActiveTrip() != null && scheduledLocation.getActiveTrip().getTrip() != null && scheduledLocation.getActiveTrip().getTrip().getRoute() != null) {
location.setVehicleType(EVehicleType.toEnum(scheduledLocation.getActiveTrip().getTrip().getRoute().getType()));
}
location.setInService(scheduledLocation.isInService());
location.setActiveTrip(scheduledLocation.getActiveTrip());
location.setLocation(scheduledLocation.getLocation());
location.setOrientation(scheduledLocation.getOrientation());
location.setScheduledDistanceAlongBlock(scheduledLocation.getDistanceAlongBlock());
location.setClosestStop(scheduledLocation.getClosestStop());
location.setClosestStopTimeOffset(scheduledLocation.getClosestStopTimeOffset());
location.setNextStop(scheduledLocation.getNextStop());
location.setNextStopTimeOffset(scheduledLocation.getNextStopTimeOffset());
location.setPreviousStop(scheduledLocation.getPreviousStop());
return location;
}
use of org.onebusaway.transit_data_federation.services.realtime.BlockLocation in project onebusaway-application-modules by camsys.
the class BlockLocationServiceImpl method getLocationsForBlockInstance.
@Override
public Map<AgencyAndId, List<BlockLocation>> getLocationsForBlockInstance(BlockInstance blockInstance, List<Date> times, long currentTime) {
Map<AgencyAndId, List<BlockLocation>> locationsByVehicleId = new FactoryMap<AgencyAndId, List<BlockLocation>>(new ArrayList<BlockLocation>());
for (Date time : times) {
TargetTime tt = new TargetTime(time.getTime(), currentTime);
List<VehicleLocationCacheElements> records = getBlockLocationRecordCollectionForBlock(blockInstance, tt);
for (VehicleLocationCacheElements cacheRecord : records) {
BlockLocation location = getBlockLocation(blockInstance, cacheRecord, null, time.getTime());
if (location != null) {
locationsByVehicleId.get(location.getVehicleId()).add(location);
}
}
}
return locationsByVehicleId;
}
use of org.onebusaway.transit_data_federation.services.realtime.BlockLocation in project onebusaway-application-modules by camsys.
the class BlockLocationServiceImpl method getLocationsForBlockInstance.
@Override
public List<BlockLocation> getLocationsForBlockInstance(BlockInstance blockInstance, TargetTime time) {
List<VehicleLocationCacheElements> records = getBlockLocationRecordCollectionForBlock(blockInstance, time);
List<BlockLocation> locations = new ArrayList<BlockLocation>();
for (VehicleLocationCacheElements cacheRecord : records) {
BlockLocation location = getBlockLocation(blockInstance, cacheRecord, null, time.getTargetTime());
if (location != null)
locations.add(location);
}
return locations;
}
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