public class WindowOperator.MergingWindowStateStore extends WindowOperator.AbstractPerWindowStateStore
WindowOperator.AbstractPerWindowStateStore
that doesn't allow access to per-window state.window
executionConfig, keyedStateBackend
Constructor and Description |
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MergingWindowStateStore(KeyedStateBackend<?> keyedStateBackend,
ExecutionConfig executionConfig) |
Modifier and Type | Method and Description |
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<IN,ACC,OUT> |
getAggregatingState(AggregatingStateDescriptor<IN,ACC,OUT> stateProperties)
Gets a handle to the system's key/value folding state.
|
<T> ListState<T> |
getListState(ListStateDescriptor<T> stateProperties)
Gets a handle to the system's key/value list state.
|
<UK,UV> MapState<UK,UV> |
getMapState(MapStateDescriptor<UK,UV> stateProperties)
Gets a handle to the system's key/value map state.
|
<T> ReducingState<T> |
getReducingState(ReducingStateDescriptor<T> stateProperties)
Gets a handle to the system's key/value reducing state.
|
<T> ValueState<T> |
getState(ValueStateDescriptor<T> stateProperties)
Gets a handle to the system's key/value state.
|
getPartitionedState
public MergingWindowStateStore(KeyedStateBackend<?> keyedStateBackend, ExecutionConfig executionConfig)
public <T> ValueState<T> getState(ValueStateDescriptor<T> stateProperties)
KeyedStateStore
Because the scope of each value is the key of the currently processed element, and the elements are distributed by the Flink runtime, the system can transparently scale out and redistribute the state and KeyedStream.
The following code example shows how to implement a continuous counter that counts how many times elements of a certain key occur, and emits an updated count for that element on each occurrence.
DataStream<MyType> stream = ...;
KeyedStream<MyType> keyedStream = stream.keyBy("id");
keyedStream.map(new RichMapFunction<MyType, Tuple2<MyType, Long>>() {
private ValueState<Long> count;
public void open(Configuration cfg) {
state = getRuntimeContext().getState(
new ValueStateDescriptor<Long>("count", LongSerializer.INSTANCE, 0L));
}
public Tuple2<MyType, Long> map(MyType value) {
long count = state.value() + 1;
state.update(value);
return new Tuple2<>(value, count);
}
});
getState
in interface KeyedStateStore
getState
in class DefaultKeyedStateStore
T
- The type of value stored in the state.stateProperties
- The descriptor defining the properties of the stats.public <T> ListState<T> getListState(ListStateDescriptor<T> stateProperties)
KeyedStateStore
KeyedStateStore.getState(ValueStateDescriptor)
, but is optimized for state that holds
lists. One can adds elements to the list, or retrieve the list as a whole.
This state is only accessible if the function is executed on a KeyedStream.
DataStream<MyType> stream = ...;
KeyedStream<MyType> keyedStream = stream.keyBy("id");
keyedStream.map(new RichFlatMapFunction<MyType, List<MyType>>() {
private ListState<MyType> state;
public void open(Configuration cfg) {
state = getRuntimeContext().getListState(
new ListStateDescriptor<>("myState", MyType.class));
}
public void flatMap(MyType value, Collector<MyType> out) {
if (value.isDivider()) {
for (MyType t : state.get()) {
out.collect(t);
}
} else {
state.add(value);
}
}
});
getListState
in interface KeyedStateStore
getListState
in class DefaultKeyedStateStore
T
- The type of value stored in the state.stateProperties
- The descriptor defining the properties of the stats.public <T> ReducingState<T> getReducingState(ReducingStateDescriptor<T> stateProperties)
KeyedStateStore
KeyedStateStore.getState(ValueStateDescriptor)
, but is optimized for state that
aggregates values.
This state is only accessible if the function is executed on a KeyedStream.
DataStream<MyType> stream = ...;
KeyedStream<MyType> keyedStream = stream.keyBy("id");
keyedStream.map(new RichMapFunction<MyType, List<MyType>>() {
private ReducingState<Long> state;
public void open(Configuration cfg) {
state = getRuntimeContext().getReducingState(
new ReducingStateDescriptor<>("sum", (a, b) -> a + b, Long.class));
}
public Tuple2<MyType, Long> map(MyType value) {
state.add(value.count());
return new Tuple2<>(value, state.get());
}
});
getReducingState
in interface KeyedStateStore
getReducingState
in class DefaultKeyedStateStore
T
- The type of value stored in the state.stateProperties
- The descriptor defining the properties of the stats.public <IN,ACC,OUT> AggregatingState<IN,OUT> getAggregatingState(AggregatingStateDescriptor<IN,ACC,OUT> stateProperties)
KeyedStateStore
KeyedStateStore.getState(ValueStateDescriptor)
, but is optimized for state that
aggregates values with different types.
This state is only accessible if the function is executed on a KeyedStream.
DataStream<MyType> stream = ...;
KeyedStream<MyType> keyedStream = stream.keyBy("id");
AggregateFunction<...> aggregateFunction = ...
keyedStream.map(new RichMapFunction<MyType, List<MyType>>() {
private AggregatingState<MyType, Long> state;
public void open(Configuration cfg) {
state = getRuntimeContext().getAggregatingState(
new AggregatingStateDescriptor<>("sum", aggregateFunction, Long.class));
}
public Tuple2<MyType, Long> map(MyType value) {
state.add(value);
return new Tuple2<>(value, state.get());
}
});
getAggregatingState
in interface KeyedStateStore
getAggregatingState
in class DefaultKeyedStateStore
IN
- The type of the values that are added to the state.ACC
- The type of the accumulator (intermediate aggregation state).OUT
- The type of the values that are returned from the state.stateProperties
- The descriptor defining the properties of the stats.public <UK,UV> MapState<UK,UV> getMapState(MapStateDescriptor<UK,UV> stateProperties)
KeyedStateStore
KeyedStateStore.getState(ValueStateDescriptor)
, but is optimized for state that is
composed of user-defined key-value pairs
This state is only accessible if the function is executed on a KeyedStream.
DataStream<MyType> stream = ...;
KeyedStream<MyType> keyedStream = stream.keyBy("id");
keyedStream.map(new RichMapFunction<MyType, List<MyType>>() {
private MapState<MyType, Long> state;
public void open(Configuration cfg) {
state = getRuntimeContext().getMapState(
new MapStateDescriptor<>("sum", MyType.class, Long.class));
}
public Tuple2<MyType, Long> map(MyType value) {
return new Tuple2<>(value, state.get(value));
}
});
getMapState
in interface KeyedStateStore
getMapState
in class DefaultKeyedStateStore
UK
- The type of the user keys stored in the state.UV
- The type of the user values stored in the state.stateProperties
- The descriptor defining the properties of the stats.Copyright © 2014–2024 The Apache Software Foundation. All rights reserved.