public static final class GtfsRealtime.TripUpdate.Builder extends com.google.protobuf.GeneratedMessage.ExtendableBuilder<GtfsRealtime.TripUpdate,GtfsRealtime.TripUpdate.Builder> implements GtfsRealtime.TripUpdateOrBuilder
transit_realtime.TripUpdate
Realtime update of the progress of a vehicle along a trip. Depending on the value of ScheduleRelationship, a TripUpdate can specify: - A trip that proceeds along the schedule. - A trip that proceeds along a route but has no fixed schedule. - A trip that have been added or removed with regard to schedule. The updates can be for future, predicted arrival/departure events, or for past events that already occurred. Normally, updates should get more precise and more certain (see uncertainty below) as the events gets closer to current time. Even if that is not possible, the information for past events should be precise and certain. In particular, if an update points to time in the past but its update's uncertainty is not 0, the client should conclude that the update is a (wrong) prediction and that the trip has not completed yet. Note that the update can describe a trip that is already completed. To this end, it is enough to provide an update for the last stop of the trip. If the time of that is in the past, the client will conclude from that that the whole trip is in the past (it is possible, although inconsequential, to also provide updates for preceding stops). This option is most relevant for a trip that has completed ahead of schedule, but according to the schedule, the trip is still proceeding at the current time. Removing the updates for this trip could make the client assume that the trip is still proceeding. Note that the feed provider is allowed, but not required, to purge past updates - this is one case where this would be practically useful.
| Modifier and Type | Method and Description |
|---|---|
GtfsRealtime.TripUpdate.Builder |
addAllStopTimeUpdate(Iterable<? extends GtfsRealtime.TripUpdate.StopTimeUpdate> values)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.Builder |
addStopTimeUpdate(GtfsRealtime.TripUpdate.StopTimeUpdate.Builder builderForValue)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.Builder |
addStopTimeUpdate(GtfsRealtime.TripUpdate.StopTimeUpdate value)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.Builder |
addStopTimeUpdate(int index,
GtfsRealtime.TripUpdate.StopTimeUpdate.Builder builderForValue)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.Builder |
addStopTimeUpdate(int index,
GtfsRealtime.TripUpdate.StopTimeUpdate value)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.StopTimeUpdate.Builder |
addStopTimeUpdateBuilder()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.StopTimeUpdate.Builder |
addStopTimeUpdateBuilder(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate |
build() |
GtfsRealtime.TripUpdate |
buildPartial() |
GtfsRealtime.TripUpdate.Builder |
clear() |
GtfsRealtime.TripUpdate.Builder |
clearDelay()
optional int32 delay = 5; |
GtfsRealtime.TripUpdate.Builder |
clearStopTimeUpdate()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.Builder |
clearTimestamp()
optional uint64 timestamp = 4; |
GtfsRealtime.TripUpdate.Builder |
clearTrip()
required .transit_realtime.TripDescriptor trip = 1; |
GtfsRealtime.TripUpdate.Builder |
clearVehicle()
optional .transit_realtime.VehicleDescriptor vehicle = 3; |
GtfsRealtime.TripUpdate.Builder |
clone() |
GtfsRealtime.TripUpdate |
getDefaultInstanceForType() |
int |
getDelay()
optional int32 delay = 5; |
static com.google.protobuf.Descriptors.Descriptor |
getDescriptor() |
com.google.protobuf.Descriptors.Descriptor |
getDescriptorForType() |
GtfsRealtime.TripUpdate.StopTimeUpdate |
getStopTimeUpdate(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.StopTimeUpdate.Builder |
getStopTimeUpdateBuilder(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
List<GtfsRealtime.TripUpdate.StopTimeUpdate.Builder> |
getStopTimeUpdateBuilderList()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
int |
getStopTimeUpdateCount()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
List<GtfsRealtime.TripUpdate.StopTimeUpdate> |
getStopTimeUpdateList()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.StopTimeUpdateOrBuilder |
getStopTimeUpdateOrBuilder(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
List<? extends GtfsRealtime.TripUpdate.StopTimeUpdateOrBuilder> |
getStopTimeUpdateOrBuilderList()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
long |
getTimestamp()
optional uint64 timestamp = 4; |
GtfsRealtime.TripDescriptor |
getTrip()
required .transit_realtime.TripDescriptor trip = 1; |
GtfsRealtime.TripDescriptor.Builder |
getTripBuilder()
required .transit_realtime.TripDescriptor trip = 1; |
GtfsRealtime.TripDescriptorOrBuilder |
getTripOrBuilder()
required .transit_realtime.TripDescriptor trip = 1; |
GtfsRealtime.VehicleDescriptor |
getVehicle()
optional .transit_realtime.VehicleDescriptor vehicle = 3; |
GtfsRealtime.VehicleDescriptor.Builder |
getVehicleBuilder()
optional .transit_realtime.VehicleDescriptor vehicle = 3; |
GtfsRealtime.VehicleDescriptorOrBuilder |
getVehicleOrBuilder()
optional .transit_realtime.VehicleDescriptor vehicle = 3; |
boolean |
hasDelay()
optional int32 delay = 5; |
boolean |
hasTimestamp()
optional uint64 timestamp = 4; |
boolean |
hasTrip()
required .transit_realtime.TripDescriptor trip = 1; |
boolean |
hasVehicle()
optional .transit_realtime.VehicleDescriptor vehicle = 3; |
protected com.google.protobuf.GeneratedMessage.FieldAccessorTable |
internalGetFieldAccessorTable() |
boolean |
isInitialized() |
GtfsRealtime.TripUpdate.Builder |
mergeFrom(com.google.protobuf.CodedInputStream input,
com.google.protobuf.ExtensionRegistryLite extensionRegistry) |
GtfsRealtime.TripUpdate.Builder |
mergeFrom(GtfsRealtime.TripUpdate other) |
GtfsRealtime.TripUpdate.Builder |
mergeFrom(com.google.protobuf.Message other) |
GtfsRealtime.TripUpdate.Builder |
mergeTrip(GtfsRealtime.TripDescriptor value)
required .transit_realtime.TripDescriptor trip = 1; |
GtfsRealtime.TripUpdate.Builder |
mergeVehicle(GtfsRealtime.VehicleDescriptor value)
optional .transit_realtime.VehicleDescriptor vehicle = 3; |
GtfsRealtime.TripUpdate.Builder |
removeStopTimeUpdate(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.Builder |
setDelay(int value)
optional int32 delay = 5; |
GtfsRealtime.TripUpdate.Builder |
setStopTimeUpdate(int index,
GtfsRealtime.TripUpdate.StopTimeUpdate.Builder builderForValue)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.Builder |
setStopTimeUpdate(int index,
GtfsRealtime.TripUpdate.StopTimeUpdate value)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2; |
GtfsRealtime.TripUpdate.Builder |
setTimestamp(long value)
optional uint64 timestamp = 4; |
GtfsRealtime.TripUpdate.Builder |
setTrip(GtfsRealtime.TripDescriptor.Builder builderForValue)
required .transit_realtime.TripDescriptor trip = 1; |
GtfsRealtime.TripUpdate.Builder |
setTrip(GtfsRealtime.TripDescriptor value)
required .transit_realtime.TripDescriptor trip = 1; |
GtfsRealtime.TripUpdate.Builder |
setVehicle(GtfsRealtime.VehicleDescriptor.Builder builderForValue)
optional .transit_realtime.VehicleDescriptor vehicle = 3; |
GtfsRealtime.TripUpdate.Builder |
setVehicle(GtfsRealtime.VehicleDescriptor value)
optional .transit_realtime.VehicleDescriptor vehicle = 3; |
addExtension, addRepeatedField, clearExtension, clearField, extensionsAreInitialized, getAllFields, getExtension, getExtension, getExtensionCount, getField, getRepeatedField, getRepeatedFieldCount, hasExtension, hasField, mergeExtensionFields, parseUnknownField, setExtension, setExtension, setField, setRepeatedFieldclearOneof, getFieldBuilder, getOneofFieldDescriptor, getParentForChildren, getUnknownFields, hasOneof, isClean, markClean, mergeUnknownFields, newBuilderForField, onBuilt, onChanged, setUnknownFieldsfindInitializationErrors, getInitializationErrorString, mergeDelimitedFrom, mergeDelimitedFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, newUninitializedMessageException, toStringaddAll, newUninitializedMessageExceptionequals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, waitpublic static final com.google.protobuf.Descriptors.Descriptor getDescriptor()
protected com.google.protobuf.GeneratedMessage.FieldAccessorTable internalGetFieldAccessorTable()
internalGetFieldAccessorTable in class com.google.protobuf.GeneratedMessage.Builder<GtfsRealtime.TripUpdate.Builder>public GtfsRealtime.TripUpdate.Builder clear()
clear in interface com.google.protobuf.Message.Builderclear in interface com.google.protobuf.MessageLite.Builderclear in class com.google.protobuf.GeneratedMessage.ExtendableBuilder<GtfsRealtime.TripUpdate,GtfsRealtime.TripUpdate.Builder>public GtfsRealtime.TripUpdate.Builder clone()
clone in interface com.google.protobuf.Message.Builderclone in interface com.google.protobuf.MessageLite.Builderclone in class com.google.protobuf.GeneratedMessage.ExtendableBuilder<GtfsRealtime.TripUpdate,GtfsRealtime.TripUpdate.Builder>public com.google.protobuf.Descriptors.Descriptor getDescriptorForType()
getDescriptorForType in interface com.google.protobuf.Message.BuildergetDescriptorForType in interface com.google.protobuf.MessageOrBuildergetDescriptorForType in class com.google.protobuf.GeneratedMessage.Builder<GtfsRealtime.TripUpdate.Builder>public GtfsRealtime.TripUpdate getDefaultInstanceForType()
getDefaultInstanceForType in interface com.google.protobuf.GeneratedMessage.ExtendableMessageOrBuilder<GtfsRealtime.TripUpdate>getDefaultInstanceForType in interface com.google.protobuf.MessageLiteOrBuildergetDefaultInstanceForType in interface com.google.protobuf.MessageOrBuilderpublic GtfsRealtime.TripUpdate build()
build in interface com.google.protobuf.Message.Builderbuild in interface com.google.protobuf.MessageLite.Builderpublic GtfsRealtime.TripUpdate buildPartial()
buildPartial in interface com.google.protobuf.Message.BuilderbuildPartial in interface com.google.protobuf.MessageLite.Builderpublic GtfsRealtime.TripUpdate.Builder mergeFrom(com.google.protobuf.Message other)
mergeFrom in interface com.google.protobuf.Message.BuildermergeFrom in class com.google.protobuf.AbstractMessage.Builder<GtfsRealtime.TripUpdate.Builder>public GtfsRealtime.TripUpdate.Builder mergeFrom(GtfsRealtime.TripUpdate other)
public final boolean isInitialized()
isInitialized in interface com.google.protobuf.MessageLiteOrBuilderisInitialized in class com.google.protobuf.GeneratedMessage.ExtendableBuilder<GtfsRealtime.TripUpdate,GtfsRealtime.TripUpdate.Builder>public GtfsRealtime.TripUpdate.Builder mergeFrom(com.google.protobuf.CodedInputStream input, com.google.protobuf.ExtensionRegistryLite extensionRegistry) throws IOException
mergeFrom in interface com.google.protobuf.Message.BuildermergeFrom in interface com.google.protobuf.MessageLite.BuildermergeFrom in class com.google.protobuf.AbstractMessage.Builder<GtfsRealtime.TripUpdate.Builder>IOExceptionpublic boolean hasTrip()
required .transit_realtime.TripDescriptor trip = 1;
The Trip that this message applies to. There can be at most one TripUpdate entity for each actual trip instance. If there is none, that means there is no prediction information available. It does *not* mean that the trip is progressing according to schedule.
hasTrip in interface GtfsRealtime.TripUpdateOrBuilderpublic GtfsRealtime.TripDescriptor getTrip()
required .transit_realtime.TripDescriptor trip = 1;
The Trip that this message applies to. There can be at most one TripUpdate entity for each actual trip instance. If there is none, that means there is no prediction information available. It does *not* mean that the trip is progressing according to schedule.
getTrip in interface GtfsRealtime.TripUpdateOrBuilderpublic GtfsRealtime.TripUpdate.Builder setTrip(GtfsRealtime.TripDescriptor value)
required .transit_realtime.TripDescriptor trip = 1;
The Trip that this message applies to. There can be at most one TripUpdate entity for each actual trip instance. If there is none, that means there is no prediction information available. It does *not* mean that the trip is progressing according to schedule.
public GtfsRealtime.TripUpdate.Builder setTrip(GtfsRealtime.TripDescriptor.Builder builderForValue)
required .transit_realtime.TripDescriptor trip = 1;
The Trip that this message applies to. There can be at most one TripUpdate entity for each actual trip instance. If there is none, that means there is no prediction information available. It does *not* mean that the trip is progressing according to schedule.
public GtfsRealtime.TripUpdate.Builder mergeTrip(GtfsRealtime.TripDescriptor value)
required .transit_realtime.TripDescriptor trip = 1;
The Trip that this message applies to. There can be at most one TripUpdate entity for each actual trip instance. If there is none, that means there is no prediction information available. It does *not* mean that the trip is progressing according to schedule.
public GtfsRealtime.TripUpdate.Builder clearTrip()
required .transit_realtime.TripDescriptor trip = 1;
The Trip that this message applies to. There can be at most one TripUpdate entity for each actual trip instance. If there is none, that means there is no prediction information available. It does *not* mean that the trip is progressing according to schedule.
public GtfsRealtime.TripDescriptor.Builder getTripBuilder()
required .transit_realtime.TripDescriptor trip = 1;
The Trip that this message applies to. There can be at most one TripUpdate entity for each actual trip instance. If there is none, that means there is no prediction information available. It does *not* mean that the trip is progressing according to schedule.
public GtfsRealtime.TripDescriptorOrBuilder getTripOrBuilder()
required .transit_realtime.TripDescriptor trip = 1;
The Trip that this message applies to. There can be at most one TripUpdate entity for each actual trip instance. If there is none, that means there is no prediction information available. It does *not* mean that the trip is progressing according to schedule.
getTripOrBuilder in interface GtfsRealtime.TripUpdateOrBuilderpublic boolean hasVehicle()
optional .transit_realtime.VehicleDescriptor vehicle = 3;
Additional information on the vehicle that is serving this trip.
hasVehicle in interface GtfsRealtime.TripUpdateOrBuilderpublic GtfsRealtime.VehicleDescriptor getVehicle()
optional .transit_realtime.VehicleDescriptor vehicle = 3;
Additional information on the vehicle that is serving this trip.
getVehicle in interface GtfsRealtime.TripUpdateOrBuilderpublic GtfsRealtime.TripUpdate.Builder setVehicle(GtfsRealtime.VehicleDescriptor value)
optional .transit_realtime.VehicleDescriptor vehicle = 3;
Additional information on the vehicle that is serving this trip.
public GtfsRealtime.TripUpdate.Builder setVehicle(GtfsRealtime.VehicleDescriptor.Builder builderForValue)
optional .transit_realtime.VehicleDescriptor vehicle = 3;
Additional information on the vehicle that is serving this trip.
public GtfsRealtime.TripUpdate.Builder mergeVehicle(GtfsRealtime.VehicleDescriptor value)
optional .transit_realtime.VehicleDescriptor vehicle = 3;
Additional information on the vehicle that is serving this trip.
public GtfsRealtime.TripUpdate.Builder clearVehicle()
optional .transit_realtime.VehicleDescriptor vehicle = 3;
Additional information on the vehicle that is serving this trip.
public GtfsRealtime.VehicleDescriptor.Builder getVehicleBuilder()
optional .transit_realtime.VehicleDescriptor vehicle = 3;
Additional information on the vehicle that is serving this trip.
public GtfsRealtime.VehicleDescriptorOrBuilder getVehicleOrBuilder()
optional .transit_realtime.VehicleDescriptor vehicle = 3;
Additional information on the vehicle that is serving this trip.
getVehicleOrBuilder in interface GtfsRealtime.TripUpdateOrBuilderpublic List<GtfsRealtime.TripUpdate.StopTimeUpdate> getStopTimeUpdateList()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
getStopTimeUpdateList in interface GtfsRealtime.TripUpdateOrBuilderpublic int getStopTimeUpdateCount()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
getStopTimeUpdateCount in interface GtfsRealtime.TripUpdateOrBuilderpublic GtfsRealtime.TripUpdate.StopTimeUpdate getStopTimeUpdate(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
getStopTimeUpdate in interface GtfsRealtime.TripUpdateOrBuilderpublic GtfsRealtime.TripUpdate.Builder setStopTimeUpdate(int index, GtfsRealtime.TripUpdate.StopTimeUpdate value)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.Builder setStopTimeUpdate(int index, GtfsRealtime.TripUpdate.StopTimeUpdate.Builder builderForValue)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.Builder addStopTimeUpdate(GtfsRealtime.TripUpdate.StopTimeUpdate value)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.Builder addStopTimeUpdate(int index, GtfsRealtime.TripUpdate.StopTimeUpdate value)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.Builder addStopTimeUpdate(GtfsRealtime.TripUpdate.StopTimeUpdate.Builder builderForValue)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.Builder addStopTimeUpdate(int index, GtfsRealtime.TripUpdate.StopTimeUpdate.Builder builderForValue)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.Builder addAllStopTimeUpdate(Iterable<? extends GtfsRealtime.TripUpdate.StopTimeUpdate> values)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.Builder clearStopTimeUpdate()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.Builder removeStopTimeUpdate(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.StopTimeUpdate.Builder getStopTimeUpdateBuilder(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.StopTimeUpdateOrBuilder getStopTimeUpdateOrBuilder(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
getStopTimeUpdateOrBuilder in interface GtfsRealtime.TripUpdateOrBuilderpublic List<? extends GtfsRealtime.TripUpdate.StopTimeUpdateOrBuilder> getStopTimeUpdateOrBuilderList()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
getStopTimeUpdateOrBuilderList in interface GtfsRealtime.TripUpdateOrBuilderpublic GtfsRealtime.TripUpdate.StopTimeUpdate.Builder addStopTimeUpdateBuilder()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public GtfsRealtime.TripUpdate.StopTimeUpdate.Builder addStopTimeUpdateBuilder(int index)
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public List<GtfsRealtime.TripUpdate.StopTimeUpdate.Builder> getStopTimeUpdateBuilderList()
repeated .transit_realtime.TripUpdate.StopTimeUpdate stop_time_update = 2;
Updates to StopTimes for the trip (both future, i.e., predictions, and in some cases, past ones, i.e., those that already happened). The updates must be sorted by stop_sequence, and apply for all the following stops of the trip up to the next specified one. Example 1: For a trip with 20 stops, a StopTimeUpdate with arrival delay and departure delay of 0 for stop_sequence of the current stop means that the trip is exactly on time. Example 2: For the same trip instance, 3 StopTimeUpdates are provided: - delay of 5 min for stop_sequence 3 - delay of 1 min for stop_sequence 8 - delay of unspecified duration for stop_sequence 10 This will be interpreted as: - stop_sequences 3,4,5,6,7 have delay of 5 min. - stop_sequences 8,9 have delay of 1 min. - stop_sequences 10,... have unknown delay.
public boolean hasTimestamp()
optional uint64 timestamp = 4;
Moment at which the vehicle's real-time progress was measured. In POSIX time (i.e., the number of seconds since January 1st 1970 00:00:00 UTC).
hasTimestamp in interface GtfsRealtime.TripUpdateOrBuilderpublic long getTimestamp()
optional uint64 timestamp = 4;
Moment at which the vehicle's real-time progress was measured. In POSIX time (i.e., the number of seconds since January 1st 1970 00:00:00 UTC).
getTimestamp in interface GtfsRealtime.TripUpdateOrBuilderpublic GtfsRealtime.TripUpdate.Builder setTimestamp(long value)
optional uint64 timestamp = 4;
Moment at which the vehicle's real-time progress was measured. In POSIX time (i.e., the number of seconds since January 1st 1970 00:00:00 UTC).
public GtfsRealtime.TripUpdate.Builder clearTimestamp()
optional uint64 timestamp = 4;
Moment at which the vehicle's real-time progress was measured. In POSIX time (i.e., the number of seconds since January 1st 1970 00:00:00 UTC).
public boolean hasDelay()
optional int32 delay = 5;
The current schedule deviation for the trip. Delay should only be specified when the prediction is given relative to some existing schedule in GTFS. Delay (in seconds) can be positive (meaning that the vehicle is late) or negative (meaning that the vehicle is ahead of schedule). Delay of 0 means that the vehicle is exactly on time. Delay information in StopTimeUpdates take precedent of trip-level delay information, such that trip-level delay is only propagated until the next stop along the trip with a StopTimeUpdate delay value specified. Feed providers are strongly encouraged to provide a TripUpdate.timestamp value indicating when the delay value was last updated, in order to evaluate the freshness of the data. NOTE: This field is still experimental, and subject to change. It may be formally adopted in the future.
hasDelay in interface GtfsRealtime.TripUpdateOrBuilderpublic int getDelay()
optional int32 delay = 5;
The current schedule deviation for the trip. Delay should only be specified when the prediction is given relative to some existing schedule in GTFS. Delay (in seconds) can be positive (meaning that the vehicle is late) or negative (meaning that the vehicle is ahead of schedule). Delay of 0 means that the vehicle is exactly on time. Delay information in StopTimeUpdates take precedent of trip-level delay information, such that trip-level delay is only propagated until the next stop along the trip with a StopTimeUpdate delay value specified. Feed providers are strongly encouraged to provide a TripUpdate.timestamp value indicating when the delay value was last updated, in order to evaluate the freshness of the data. NOTE: This field is still experimental, and subject to change. It may be formally adopted in the future.
getDelay in interface GtfsRealtime.TripUpdateOrBuilderpublic GtfsRealtime.TripUpdate.Builder setDelay(int value)
optional int32 delay = 5;
The current schedule deviation for the trip. Delay should only be specified when the prediction is given relative to some existing schedule in GTFS. Delay (in seconds) can be positive (meaning that the vehicle is late) or negative (meaning that the vehicle is ahead of schedule). Delay of 0 means that the vehicle is exactly on time. Delay information in StopTimeUpdates take precedent of trip-level delay information, such that trip-level delay is only propagated until the next stop along the trip with a StopTimeUpdate delay value specified. Feed providers are strongly encouraged to provide a TripUpdate.timestamp value indicating when the delay value was last updated, in order to evaluate the freshness of the data. NOTE: This field is still experimental, and subject to change. It may be formally adopted in the future.
public GtfsRealtime.TripUpdate.Builder clearDelay()
optional int32 delay = 5;
The current schedule deviation for the trip. Delay should only be specified when the prediction is given relative to some existing schedule in GTFS. Delay (in seconds) can be positive (meaning that the vehicle is late) or negative (meaning that the vehicle is ahead of schedule). Delay of 0 means that the vehicle is exactly on time. Delay information in StopTimeUpdates take precedent of trip-level delay information, such that trip-level delay is only propagated until the next stop along the trip with a StopTimeUpdate delay value specified. Feed providers are strongly encouraged to provide a TripUpdate.timestamp value indicating when the delay value was last updated, in order to evaluate the freshness of the data. NOTE: This field is still experimental, and subject to change. It may be formally adopted in the future.
Copyright © 2019. All rights reserved.