public interface GroupState<S>
extends org.apache.spark.sql.catalyst.plans.logical.LogicalGroupState<S>
Wrapper class for interacting with per-group state data in mapGroupsWithState
and
flatMapGroupsWithState
operations on KeyValueGroupedDataset
.
Detail description on [map/flatMap]GroupsWithState
operation
--------------------------------------------------------------
Both, mapGroupsWithState
and flatMapGroupsWithState
in KeyValueGroupedDataset
will invoke the user-given function on each group (defined by the grouping function in
Dataset.groupByKey()
) while maintaining user-defined per-group state between invocations.
For a static batch Dataset, the function will be invoked once per group. For a streaming
Dataset, the function will be invoked for each group repeatedly in every trigger.
That is, in every batch of the StreamingQuery
,
the function will be invoked once for each group that has data in the trigger. Furthermore,
if timeout is set, then the function will invoked on timed out groups (more detail below).
The function is invoked with following parameters. - The key of the group. - An iterator containing all the values for this group. - A user-defined state object set by previous invocations of the given function.
In case of a batch Dataset, there is only one invocation and state object will be empty as
there is no prior state. Essentially, for batch Datasets, [map/flatMap]GroupsWithState
is equivalent to [map/flatMap]Groups
and any updates to the state and/or timeouts have
no effect.
The major difference between mapGroupsWithState
and flatMapGroupsWithState
is that the
former allows the function to return one and only one record, whereas the latter
allows the function to return any number of records (including no records). Furthermore, the
flatMapGroupsWithState
is associated with an operation output mode, which can be either
Append
or Update
. Semantically, this defines whether the output records of one trigger
is effectively replacing the previously output records (from previous triggers) or is appending
to the list of previously output records. Essentially, this defines how the Result Table (refer
to the semantics in the programming guide) is updated, and allows us to reason about the
semantics of later operations.
Important points to note about the function (both mapGroupsWithState and flatMapGroupsWithState).
- In a trigger, the function will be called only the groups present in the batch. So do not
assume that the function will be called in every trigger for every group that has state.
- There is no guaranteed ordering of values in the iterator in the function, neither with
batch, nor with streaming Datasets.
- All the data will be shuffled before applying the function.
- If timeout is set, then the function will also be called with no values.
See more details on GroupStateTimeout
below.
Important points to note about using GroupState
.
- The value of the state cannot be null. So updating state with null will throw
IllegalArgumentException
.
- Operations on GroupState
are not thread-safe. This is to avoid memory barriers.
- If remove()
is called, then exists()
will return false
,
get()
will throw NoSuchElementException
and getOption()
will return None
- After that, if update(newState)
is called, then exists()
will again return true
,
get()
and getOption()
will return the updated value.
Important points to note about using GroupStateTimeout
.
- The timeout type is a global param across all the groups (set as timeout
param in
[map|flatMap]GroupsWithState
, but the exact timeout duration/timestamp is configurable per
group by calling setTimeout...()
in GroupState
.
- Timeouts can be either based on processing time (i.e.
GroupStateTimeout.ProcessingTimeTimeout
) or event time (i.e.
GroupStateTimeout.EventTimeTimeout
).
- With ProcessingTimeTimeout
, the timeout duration can be set by calling
GroupState.setTimeoutDuration
. The timeout will occur when the clock has advanced by the set
duration. Guarantees provided by this timeout with a duration of D ms are as follows:
- Timeout will never be occur before the clock time has advanced by D ms
- Timeout will occur eventually when there is a trigger in the query
(i.e. after D ms). So there is a no strict upper bound on when the timeout would occur.
For example, the trigger interval of the query will affect when the timeout actually occurs.
If there is no data in the stream (for any group) for a while, then their will not be
any trigger and timeout function call will not occur until there is data.
- Since the processing time timeout is based on the clock time, it is affected by the
variations in the system clock (i.e. time zone changes, clock skew, etc.).
- With EventTimeTimeout
, the user also has to specify the the the event time watermark in
the query using Dataset.withWatermark()
. With this setting, data that is older than the
watermark are filtered out. The timeout can be set for a group by setting a timeout timestamp
usingGroupState.setTimeoutTimestamp()
, and the timeout would occur when the watermark
advances beyond the set timestamp. You can control the timeout delay by two parameters -
(i) watermark delay and an additional duration beyond the timestamp in the event (which
is guaranteed to be newer than watermark due to the filtering). Guarantees provided by this
timeout are as follows:
- Timeout will never be occur before watermark has exceeded the set timeout.
- Similar to processing time timeouts, there is a no strict upper bound on the delay when
the timeout actually occurs. The watermark can advance only when there is data in the
stream, and the event time of the data has actually advanced.
- When the timeout occurs for a group, the function is called for that group with no values, and
GroupState.hasTimedOut()
set to true.
- The timeout is reset every time the function is called on a group, that is,
when the group has new data, or the group has timed out. So the user has to set the timeout
duration every time the function is called, otherwise there will not be any timeout set.
Scala example of using GroupState in mapGroupsWithState
:
// A mapping function that maintains an integer state for string keys and returns a string.
// Additionally, it sets a timeout to remove the state if it has not received data for an hour.
def mappingFunction(key: String, value: Iterator[Int], state: GroupState[Int]): String = {
if (state.hasTimedOut) { // If called when timing out, remove the state
state.remove()
} else if (state.exists) { // If state exists, use it for processing
val existingState = state.get // Get the existing state
val shouldRemove = ... // Decide whether to remove the state
if (shouldRemove) {
state.remove() // Remove the state
} else {
val newState = ...
state.update(newState) // Set the new state
state.setTimeoutDuration("1 hour") // Set the timeout
}
} else {
val initialState = ...
state.update(initialState) // Set the initial state
state.setTimeoutDuration("1 hour") // Set the timeout
}
...
// return something
}
dataset
.groupByKey(...)
.mapGroupsWithState(GroupStateTimeout.ProcessingTimeTimeout)(mappingFunction)
Java example of using GroupState
:
// A mapping function that maintains an integer state for string keys and returns a string.
// Additionally, it sets a timeout to remove the state if it has not received data for an hour.
MapGroupsWithStateFunction<String, Integer, Integer, String> mappingFunction =
new MapGroupsWithStateFunction<String, Integer, Integer, String>() {
@Override
public String call(String key, Iterator<Integer> value, GroupState<Integer> state) {
if (state.hasTimedOut()) { // If called when timing out, remove the state
state.remove();
} else if (state.exists()) { // If state exists, use it for processing
int existingState = state.get(); // Get the existing state
boolean shouldRemove = ...; // Decide whether to remove the state
if (shouldRemove) {
state.remove(); // Remove the state
} else {
int newState = ...;
state.update(newState); // Set the new state
state.setTimeoutDuration("1 hour"); // Set the timeout
}
} else {
int initialState = ...; // Set the initial state
state.update(initialState);
state.setTimeoutDuration("1 hour"); // Set the timeout
}
...
// return something
}
};
dataset
.groupByKey(...)
.mapGroupsWithState(
mappingFunction, Encoders.INT, Encoders.STRING, GroupStateTimeout.ProcessingTimeTimeout);
Modifier and Type | Method and Description |
---|---|
boolean |
exists()
Whether state exists or not.
|
S |
get()
Get the state value if it exists, or throw NoSuchElementException.
|
long |
getCurrentProcessingTimeMs()
Get the current processing time as milliseconds in epoch time.
|
long |
getCurrentWatermarkMs()
Get the current event time watermark as milliseconds in epoch time.
|
scala.Option<S> |
getOption()
Get the state value as a scala Option.
|
boolean |
hasTimedOut()
Whether the function has been called because the key has timed out.
|
void |
remove()
Remove this state.
|
void |
setTimeoutDuration(long durationMs)
Set the timeout duration in ms for this key.
|
void |
setTimeoutDuration(String duration)
Set the timeout duration for this key as a string.
|
void |
setTimeoutTimestamp(java.sql.Date timestamp)
Set the timeout timestamp for this key as a java.sql.Date.
|
void |
setTimeoutTimestamp(java.sql.Date timestamp,
String additionalDuration)
Set the timeout timestamp for this key as a java.sql.Date and an additional
duration as a string (e.g.
|
void |
setTimeoutTimestamp(long timestampMs)
Set the timeout timestamp for this key as milliseconds in epoch time.
|
void |
setTimeoutTimestamp(long timestampMs,
String additionalDuration)
Set the timeout timestamp for this key as milliseconds in epoch time and an additional
duration as a string (e.g.
|
void |
update(S newState)
Update the value of the state.
|
boolean exists()
S get() throws java.util.NoSuchElementException
java.util.NoSuchElementException
scala.Option<S> getOption()
void update(S newState)
void remove()
boolean hasTimedOut()
[map/flatMap]GroupsWithState
.void setTimeoutDuration(long durationMs) throws IllegalArgumentException, UnsupportedOperationException
durationMs
- (undocumented)IllegalArgumentException
UnsupportedOperationException
Processing time timeout
must be enabled in
[map/flatMap]GroupsWithState
for calling this method., This method has no effect when used in a batch query.void setTimeoutDuration(String duration) throws IllegalArgumentException, UnsupportedOperationException
duration
- (undocumented)IllegalArgumentException
UnsupportedOperationException
Processing time timeout
must be enabled in
[map/flatMap]GroupsWithState
for calling this method., This method has no effect when used in a batch query.void setTimeoutTimestamp(long timestampMs) throws IllegalArgumentException, UnsupportedOperationException
timestampMs
- (undocumented)IllegalArgumentException
UnsupportedOperationException
Event time timeout
must be enabled in
[map/flatMap]GroupsWithState
for calling this method., This method has no effect when used in a batch query.void setTimeoutTimestamp(long timestampMs, String additionalDuration) throws IllegalArgumentException, UnsupportedOperationException
timestampMs
- (undocumented)additionalDuration
- (undocumented)IllegalArgumentException
UnsupportedOperationException
Event time timeout
must be enabled in
[map/flatMap]GroupsWithState
for calling this method., This method has no side effect when used in a batch query.void setTimeoutTimestamp(java.sql.Date timestamp) throws UnsupportedOperationException
timestamp
- (undocumented)UnsupportedOperationException
Event time timeout
must be enabled in
[map/flatMap]GroupsWithState
for calling this method., This method has no side effect when used in a batch query.void setTimeoutTimestamp(java.sql.Date timestamp, String additionalDuration) throws IllegalArgumentException, UnsupportedOperationException
timestamp
- (undocumented)additionalDuration
- (undocumented)IllegalArgumentException
UnsupportedOperationException
Event time timeout
must be enabled in
[map/flatMap]GroupsWithState
for calling this method., This method has no side effect when used in a batch query.long getCurrentWatermarkMs() throws UnsupportedOperationException
UnsupportedOperationException
[map/flatMap]GroupsWithState
. In a batch query, this method always returns -1.long getCurrentProcessingTimeMs()