/** * Windows this {@code KeyedStream} into sliding time windows. * * <p>This is a shortcut for either {@code .window(SlidingEventTimeWindows.of(size, slide))} or * {@code .window(SlidingProcessingTimeWindows.of(size, slide))} depending on the time * characteristic set using * {@link org.apache.flink.streaming.api.environment.StreamExecutionEnvironment#setStreamTimeCharacteristic(org.apache.flink.streaming.api.TimeCharacteristic)} * * @param size The size of the window. */ public WindowedStream<T, KEY, TimeWindow> timeWindow(Time size, Time slide) { if (environment.getStreamTimeCharacteristic() == TimeCharacteristic.ProcessingTime) { return window(SlidingProcessingTimeWindows.of(size, slide)); } else { return window(SlidingEventTimeWindows.of(size, slide)); } }
/** * Windows this {@code KeyedStream} into tumbling time windows. * * <p>This is a shortcut for either {@code .window(TumblingEventTimeWindows.of(size))} or * {@code .window(TumblingProcessingTimeWindows.of(size))} depending on the time characteristic * set using * {@link org.apache.flink.streaming.api.environment.StreamExecutionEnvironment#setStreamTimeCharacteristic(org.apache.flink.streaming.api.TimeCharacteristic)} * * @param size The size of the window. */ public WindowedStream<T, KEY, TimeWindow> timeWindow(Time size) { if (environment.getStreamTimeCharacteristic() == TimeCharacteristic.ProcessingTime) { return window(TumblingProcessingTimeWindows.of(size)); } else { return window(TumblingEventTimeWindows.of(size)); } }
/** * Windows this {@code KeyedStream} into tumbling count windows. * * @param size The size of the windows in number of elements. */ public WindowedStream<T, KEY, GlobalWindow> countWindow(long size) { return window(GlobalWindows.create()).trigger(PurgingTrigger.of(CountTrigger.of(size))); }
/** * Windows this {@code KeyedStream} into sliding count windows. * * @param size The size of the windows in number of elements. * @param slide The slide interval in number of elements. */ public WindowedStream<T, KEY, GlobalWindow> countWindow(long size, long slide) { return window(GlobalWindows.create()) .evictor(CountEvictor.of(size)) .trigger(CountTrigger.of(slide)); }
/** * .aggregate() does not support RichAggregateFunction, since the AggregationFunction is used internally * in a {@code AggregatingState}. */ @Test(expected = UnsupportedOperationException.class) public void testAggregateWithRichFunctionFails() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); env.setStreamTimeCharacteristic(TimeCharacteristic.ProcessingTime); source .keyBy(0) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .aggregate(new DummyRichAggregationFunction<Tuple2<String, Integer>>()); fail("exception was not thrown"); }
/** * .reduce() does not support RichReduceFunction, since the reduce function is used internally * in a {@code ReducingState}. */ @Test(expected = UnsupportedOperationException.class) public void testReduceWithRichReducerFails() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); env.setStreamTimeCharacteristic(TimeCharacteristic.ProcessingTime); source .keyBy(0) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .reduce(new RichReduceFunction<Tuple2<String, Integer>>() { @Override public Tuple2<String, Integer> reduce(Tuple2<String, Integer> value1, Tuple2<String, Integer> value2) throws Exception { return null; } }); fail("exception was not thrown"); }
/** * .fold() does not support RichFoldFunction, since the fold function is used internally * in a {@code FoldingState}. */ @Test(expected = UnsupportedOperationException.class) public void testFoldWithRichFolderFails() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); env.setStreamTimeCharacteristic(TimeCharacteristic.ProcessingTime); source .keyBy(0) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .fold(new Tuple2<>("", 0), new RichFoldFunction<Tuple2<String, Integer>, Tuple2<String, Integer>>() { @Override public Tuple2<String, Integer> fold(Tuple2<String, Integer> value1, Tuple2<String, Integer> value2) throws Exception { return null; } }); fail("exception was not thrown"); }
@Test public void testErrorOnEventTimeWithoutTimestamps() { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(2); env.getConfig().disableSysoutLogging(); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); DataStream<Tuple2<String, Integer>> source1 = env.fromElements(new Tuple2<>("a", 1), new Tuple2<>("b", 2)); source1 .keyBy(0) .window(TumblingEventTimeWindows.of(Time.seconds(5))) .reduce(new ReduceFunction<Tuple2<String, Integer>>() { @Override public Tuple2<String, Integer> reduce(Tuple2<String, Integer> value1, Tuple2<String, Integer> value2) { return value1; } }) .print(); try { env.execute(); fail("this should fail with an exception"); } catch (Exception e) { // expected } }
@Test @SuppressWarnings("rawtypes") public void testReduceProcessingTime() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.ProcessingTime); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); DataStream<Tuple2<String, Integer>> window1 = source .keyBy(new TupleKeySelector()) .window(SlidingProcessingTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .reduce(new DummyReducer()); OneInputTransformation<Tuple2<String, Integer>, Tuple2<String, Integer>> transform = (OneInputTransformation<Tuple2<String, Integer>, Tuple2<String, Integer>>) window1.getTransformation(); OneInputStreamOperator<Tuple2<String, Integer>, Tuple2<String, Integer>> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof ProcessingTimeTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingProcessingTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof ReducingStateDescriptor); processElementAndEnsureOutput(winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple2<>("hello", 1)); }
@Test @SuppressWarnings("rawtypes") public void testFoldEventTime() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.IngestionTime); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); DataStream<Tuple3<String, String, Integer>> window1 = source .keyBy(0) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .fold(new Tuple3<>("", "", 1), new DummyFolder()); OneInputTransformation<Tuple2<String, Integer>, Tuple3<String, String, Integer>> transform = (OneInputTransformation<Tuple2<String, Integer>, Tuple3<String, String, Integer>>) window1.getTransformation(); OneInputStreamOperator<Tuple2<String, Integer>, Tuple3<String, String, Integer>> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof EventTimeTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingEventTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof FoldingStateDescriptor); processElementAndEnsureOutput(winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple2<>("hello", 1)); }
@Test @SuppressWarnings("rawtypes") public void testReduceEventTime() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.IngestionTime); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); DataStream<Tuple2<String, Integer>> window1 = source .keyBy(new TupleKeySelector()) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .reduce(new DummyReducer()); OneInputTransformation<Tuple2<String, Integer>, Tuple2<String, Integer>> transform = (OneInputTransformation<Tuple2<String, Integer>, Tuple2<String, Integer>>) window1.getTransformation(); OneInputStreamOperator<Tuple2<String, Integer>, Tuple2<String, Integer>> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof EventTimeTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingEventTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof ReducingStateDescriptor); processElementAndEnsureOutput(winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple2<>("hello", 1)); }
@Test public void testAggregateWithProcessWindowFunctionEventTime() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.IngestionTime); DataStream<Tuple3<String, String, Integer>> source = env.fromElements( Tuple3.of("hello", "hallo", 1), Tuple3.of("hello", "hallo", 2)); DataStream<String> window = source .keyBy(new Tuple3KeySelector()) .window(TumblingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS))) .aggregate(new DummyAggregationFunction(), new TestProcessWindowFunction()); final OneInputTransformation<Tuple3<String, String, Integer>, String> transform = (OneInputTransformation<Tuple3<String, String, Integer>, String>) window.getTransformation(); final OneInputStreamOperator<Tuple3<String, String, Integer>, String> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple3<String, String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple3<String, String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof EventTimeTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof TumblingEventTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof AggregatingStateDescriptor); processElementAndEnsureOutput( operator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple3<>("hello", "hallo", 1)); }
@Test public void testAggregateProcessingTime() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.ProcessingTime); DataStream<Tuple3<String, String, Integer>> source = env.fromElements( Tuple3.of("hello", "hallo", 1), Tuple3.of("hello", "hallo", 2)); DataStream<Integer> window1 = source .keyBy(new Tuple3KeySelector()) .window(SlidingProcessingTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .aggregate(new DummyAggregationFunction()); final OneInputTransformation<Tuple3<String, String, Integer>, Integer> transform = (OneInputTransformation<Tuple3<String, String, Integer>, Integer>) window1.getTransformation(); final OneInputStreamOperator<Tuple3<String, String, Integer>, Integer> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple3<String, String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple3<String, String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof ProcessingTimeTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingProcessingTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof AggregatingStateDescriptor); processElementAndEnsureOutput( winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple3<>("hello", "hallo", 1)); }
@Test @SuppressWarnings("rawtypes") public void testReduceWithCustomTrigger() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.IngestionTime); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); DummyReducer reducer = new DummyReducer(); DataStream<Tuple2<String, Integer>> window1 = source .keyBy(0) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .trigger(CountTrigger.of(1)) .reduce(reducer); OneInputTransformation<Tuple2<String, Integer>, Tuple2<String, Integer>> transform = (OneInputTransformation<Tuple2<String, Integer>, Tuple2<String, Integer>>) window1.getTransformation(); OneInputStreamOperator<Tuple2<String, Integer>, Tuple2<String, Integer>> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof CountTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingEventTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof ReducingStateDescriptor); processElementAndEnsureOutput(winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple2<>("hello", 1)); }
@Test @SuppressWarnings("rawtypes") public void testFoldProcessingTime() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.ProcessingTime); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); DataStream<Tuple3<String, String, Integer>> window = source .keyBy(new TupleKeySelector()) .window(SlidingProcessingTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .fold(new Tuple3<>("", "", 0), new DummyFolder()); OneInputTransformation<Tuple2<String, Integer>, Tuple3<String, String, Integer>> transform = (OneInputTransformation<Tuple2<String, Integer>, Tuple3<String, String, Integer>>) window.getTransformation(); OneInputStreamOperator<Tuple2<String, Integer>, Tuple3<String, String, Integer>> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof ProcessingTimeTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingProcessingTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof FoldingStateDescriptor); processElementAndEnsureOutput(winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple2<>("hello", 1)); }
@Test @SuppressWarnings("rawtypes") public void testFoldWithCustomTrigger() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.IngestionTime); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); DataStream<Tuple3<String, String, Integer>> window1 = source .keyBy(0) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .trigger(CountTrigger.of(1)) .fold(new Tuple3<>("", "", 1), new DummyFolder()); OneInputTransformation<Tuple2<String, Integer>, Tuple3<String, String, Integer>> transform = (OneInputTransformation<Tuple2<String, Integer>, Tuple3<String, String, Integer>>) window1.getTransformation(); OneInputStreamOperator<Tuple2<String, Integer>, Tuple3<String, String, Integer>> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple2<String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof CountTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingEventTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof FoldingStateDescriptor); processElementAndEnsureOutput(winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple2<>("hello", 1)); }
@Test public void testAggregateWithWindowFunctionEventTime() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.IngestionTime); DataStream<Tuple3<String, String, Integer>> source = env.fromElements( Tuple3.of("hello", "hallo", 1), Tuple3.of("hello", "hallo", 2)); DummyReducer reducer = new DummyReducer(); DataStream<String> window = source .keyBy(new Tuple3KeySelector()) .window(TumblingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS))) .aggregate(new DummyAggregationFunction(), new TestWindowFunction()); final OneInputTransformation<Tuple3<String, String, Integer>, String> transform = (OneInputTransformation<Tuple3<String, String, Integer>, String>) window.getTransformation(); final OneInputStreamOperator<Tuple3<String, String, Integer>, String> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple3<String, String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple3<String, String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof EventTimeTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof TumblingEventTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof AggregatingStateDescriptor); processElementAndEnsureOutput( operator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple3<>("hello", "hallo", 1)); }
@Test @SuppressWarnings("rawtypes") public void testReduceWithEvictor() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.IngestionTime); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); DummyReducer reducer = new DummyReducer(); DataStream<Tuple2<String, Integer>> window1 = source .keyBy(0) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .evictor(CountEvictor.of(100)) .reduce(reducer); OneInputTransformation<Tuple2<String, Integer>, Tuple2<String, Integer>> transform = (OneInputTransformation<Tuple2<String, Integer>, Tuple2<String, Integer>>) window1.getTransformation(); OneInputStreamOperator<Tuple2<String, Integer>, Tuple2<String, Integer>> operator = transform.getOperator(); Assert.assertTrue(operator instanceof EvictingWindowOperator); EvictingWindowOperator<String, Tuple2<String, Integer>, ?, ?> winOperator = (EvictingWindowOperator<String, Tuple2<String, Integer>, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof EventTimeTrigger); Assert.assertTrue(winOperator.getEvictor() instanceof CountEvictor); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingEventTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof ListStateDescriptor); processElementAndEnsureOutput(winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple2<>("hello", 1)); }
@Test public void testAggregateWithEvictor() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.IngestionTime); DataStream<Tuple3<String, String, Integer>> source = env.fromElements( Tuple3.of("hello", "hallo", 1), Tuple3.of("hello", "hallo", 2)); DataStream<Integer> window1 = source .keyBy(new Tuple3KeySelector()) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .evictor(CountEvictor.of(100)) .aggregate(new DummyAggregationFunction()); final OneInputTransformation<Tuple3<String, String, Integer>, Integer> transform = (OneInputTransformation<Tuple3<String, String, Integer>, Integer>) window1.getTransformation(); final OneInputStreamOperator<Tuple3<String, String, Integer>, Integer> operator = transform.getOperator(); Assert.assertTrue(operator instanceof WindowOperator); WindowOperator<String, Tuple3<String, String, Integer>, ?, ?, ?> winOperator = (WindowOperator<String, Tuple3<String, String, Integer>, ?, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof EventTimeTrigger); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingEventTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof ListStateDescriptor); processElementAndEnsureOutput( winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple3<>("hello", "hallo", 1)); }
@Test @SuppressWarnings({"rawtypes", "unchecked"}) public void testFoldWithEvictor() throws Exception { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setStreamTimeCharacteristic(TimeCharacteristic.IngestionTime); DataStream<Tuple2<String, Integer>> source = env.fromElements(Tuple2.of("hello", 1), Tuple2.of("hello", 2)); DataStream<Tuple3<String, String, Integer>> window1 = source .keyBy(0) .window(SlidingEventTimeWindows.of(Time.of(1, TimeUnit.SECONDS), Time.of(100, TimeUnit.MILLISECONDS))) .evictor(CountEvictor.of(100)) .fold(new Tuple3<>("", "", 1), new DummyFolder()); OneInputTransformation<Tuple2<String, Integer>, Tuple3<String, String, Integer>> transform = (OneInputTransformation<Tuple2<String, Integer>, Tuple3<String, String, Integer>>) window1.getTransformation(); OneInputStreamOperator<Tuple2<String, Integer>, Tuple3<String, String, Integer>> operator = transform.getOperator(); Assert.assertTrue(operator instanceof EvictingWindowOperator); EvictingWindowOperator<String, Tuple2<String, Integer>, ?, ?> winOperator = (EvictingWindowOperator<String, Tuple2<String, Integer>, ?, ?>) operator; Assert.assertTrue(winOperator.getTrigger() instanceof EventTimeTrigger); Assert.assertTrue(winOperator.getEvictor() instanceof CountEvictor); Assert.assertTrue(winOperator.getWindowAssigner() instanceof SlidingEventTimeWindows); Assert.assertTrue(winOperator.getStateDescriptor() instanceof ListStateDescriptor); winOperator.setOutputType((TypeInformation) window1.getType(), new ExecutionConfig()); processElementAndEnsureOutput(winOperator, winOperator.getKeySelector(), BasicTypeInfo.STRING_TYPE_INFO, new Tuple2<>("hello", 1)); }