org.apache.flink.test.checkpointing.utils.FailingSource Java Examples
The following examples show how to use
org.apache.flink.test.checkpointing.utils.FailingSource.
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Example #1
Source File: EventTimeAllWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedSlidingTimeWindow() { final int numElementsPerKey = 3000; final int windowSize = 1000; final int windowSlide = 100; final int numKeys = 1; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env .addSource(new FailingSource(new EventTimeWindowCheckpointingITCase.KeyedEventTimeGenerator(numKeys, windowSlide), numElementsPerKey)) .rebalance() .timeWindowAll(Time.of(windowSize, MILLISECONDS), Time.of(windowSlide, MILLISECONDS)) .reduce( new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(a.f1.value + b.f1.value)); } }, new RichAllWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(1, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( TimeWindow window, Iterable<Tuple2<Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> in: input) { out.collect(new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f1)); } } }) .addSink(new ValidatingSink<>( new EventTimeWindowCheckpointingITCase.SinkValidatorUpdateFun(numElementsPerKey), new EventTimeWindowCheckpointingITCase.SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSlide))) .setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #2
Source File: EventTimeWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedTumblingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS)) .reduce( new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(a.f1.value + b.f1.value)); } }, new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> in: input) { final Tuple4<Long, Long, Long, IntType> output = new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f1); out.collect(output); } } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #3
Source File: EventTimeWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedSlidingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int windowSlide = windowSlide(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSlide), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS), Time.of(windowSlide, MILLISECONDS)) .reduce( new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { // validate that the function has been opened properly return new Tuple2<>(a.f0, new IntType(a.f1.value + b.f1.value)); } }, new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> in: input) { out.collect(new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f1)); } } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSlide))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #4
Source File: WindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testTumblingProcessingTimeWindow() { final int numElements = 3000; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(timeCharacteristic); env.getConfig().setAutoWatermarkInterval(10); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); SinkValidatorUpdaterAndChecker updaterAndChecker = new SinkValidatorUpdaterAndChecker(numElements, 1); env .addSource(new FailingSource(new Generator(), numElements, timeCharacteristic)) .rebalance() .keyBy(0) .timeWindow(Time.of(100, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple2<Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple2<Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> value : values) { assertEquals(value.f0.intValue(), value.f1.value); out.collect(new Tuple2<>(value.f0, new IntType(1))); } } }) .addSink(new ValidatingSink<>(updaterAndChecker, updaterAndChecker, timeCharacteristic)) .setParallelism(1); tryExecute(env, "Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #5
Source File: WindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testSlidingProcessingTimeWindow() { final int numElements = 3000; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(timeCharacteristic); env.getConfig().setAutoWatermarkInterval(10); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); SinkValidatorUpdaterAndChecker updaterAndChecker = new SinkValidatorUpdaterAndChecker(numElements, 3); env .addSource(new FailingSource(new Generator(), numElements, timeCharacteristic)) .rebalance() .keyBy(0) .timeWindow(Time.of(150, MILLISECONDS), Time.of(50, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple2<Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple2<Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> value : values) { assertEquals(value.f0.intValue(), value.f1.value); out.collect(new Tuple2<>(value.f0, new IntType(1))); } } }) .addSink(new ValidatingSink<>(updaterAndChecker, updaterAndChecker, timeCharacteristic)) .setParallelism(1); tryExecute(env, "Sliding Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #6
Source File: WindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testAggregatingTumblingProcessingTimeWindow() { final int numElements = 3000; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(timeCharacteristic); env.getConfig().setAutoWatermarkInterval(10); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); SinkValidatorUpdaterAndChecker updaterAndChecker = new SinkValidatorUpdaterAndChecker(numElements, 1); env .addSource(new FailingSource(new Generator(), numElements, timeCharacteristic)) .map(new MapFunction<Tuple2<Long, IntType>, Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> map(Tuple2<Long, IntType> value) { value.f1.value = 1; return value; } }) .rebalance() .keyBy(0) .timeWindow(Time.of(100, MILLISECONDS)) .reduce(new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(1)); } }) .addSink(new ValidatingSink<>(updaterAndChecker, updaterAndChecker, timeCharacteristic)) .setParallelism(1); tryExecute(env, "Aggregating Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #7
Source File: WindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testAggregatingSlidingProcessingTimeWindow() { final int numElements = 3000; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(timeCharacteristic); env.getConfig().setAutoWatermarkInterval(10); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); SinkValidatorUpdaterAndChecker updaterAndChecker = new SinkValidatorUpdaterAndChecker(numElements, 3); env .addSource(new FailingSource(new Generator(), numElements, timeCharacteristic)) .map(new MapFunction<Tuple2<Long, IntType>, Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> map(Tuple2<Long, IntType> value) { value.f1.value = 1; return value; } }) .rebalance() .keyBy(0) .timeWindow(Time.of(150, MILLISECONDS), Time.of(50, MILLISECONDS)) .reduce(new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(1)); } }) .addSink(new ValidatingSink<>(updaterAndChecker, updaterAndChecker, timeCharacteristic)) .setParallelism(1); tryExecute(env, "Aggregating Sliding Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #8
Source File: EventTimeAllWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testTumblingTimeWindow() { final int numElementsPerKey = 3000; final int windowSize = 100; final int numKeys = 1; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env .addSource(new FailingSource(new EventTimeWindowCheckpointingITCase.KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .timeWindowAll(Time.of(windowSize, MILLISECONDS)) .apply(new RichAllWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(1, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); int sum = 0; long key = -1; for (Tuple2<Long, IntType> value : values) { sum += value.f1.value; key = value.f0; } out.collect(new Tuple4<>(key, window.getStart(), window.getEnd(), new IntType(sum))); } }) .addSink(new ValidatingSink<>( new EventTimeWindowCheckpointingITCase.SinkValidatorUpdateFun(numElementsPerKey), new EventTimeWindowCheckpointingITCase.SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))) .setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #9
Source File: EventTimeAllWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testSlidingTimeWindow() { final int numElementsPerKey = 3000; final int windowSize = 1000; final int windowSlide = 100; final int numKeys = 1; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env .addSource(new FailingSource(new EventTimeWindowCheckpointingITCase.KeyedEventTimeGenerator(numKeys, windowSlide), numElementsPerKey)) .rebalance() .timeWindowAll(Time.of(windowSize, MILLISECONDS), Time.of(windowSlide, MILLISECONDS)) .apply(new RichAllWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(1, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); int sum = 0; long key = -1; for (Tuple2<Long, IntType> value : values) { sum += value.f1.value; key = value.f0; } out.collect(new Tuple4<>(key, window.getStart(), window.getEnd(), new IntType(sum))); } }) .addSink(new ValidatingSink<>( new EventTimeWindowCheckpointingITCase.SinkValidatorUpdateFun(numElementsPerKey), new EventTimeWindowCheckpointingITCase.SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSlide))) .setParallelism(1); env.execute("Sliding Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #10
Source File: EventTimeAllWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedTumblingTimeWindow() { final int numElementsPerKey = 3000; final int windowSize = 100; final int numKeys = 1; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env .addSource(new FailingSource(new EventTimeWindowCheckpointingITCase.KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .timeWindowAll(Time.of(windowSize, MILLISECONDS)) .reduce( new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(a.f1.value + b.f1.value)); } }, new RichAllWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(1, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( TimeWindow window, Iterable<Tuple2<Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> in: input) { out.collect(new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f1)); } } }) .addSink(new ValidatingSink<>( new EventTimeWindowCheckpointingITCase.SinkValidatorUpdateFun(numElementsPerKey), new EventTimeWindowCheckpointingITCase.SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))) .setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #11
Source File: EventTimeAllWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedFoldingTumblingTimeWindow() { final int numElementsPerKey = 3000; final int windowSize = 100; final int numKeys = 1; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env .addSource(new FailingSource(new EventTimeWindowCheckpointingITCase.KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .timeWindowAll(Time.of(windowSize, MILLISECONDS)) .fold(new Tuple4<>(0L, 0L, 0L, new IntType(0)), new FoldFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>>() { @Override public Tuple4<Long, Long, Long, IntType> fold(Tuple4<Long, Long, Long, IntType> accumulator, Tuple2<Long, IntType> value) throws Exception { accumulator.f0 = value.f0; accumulator.f3 = new IntType(accumulator.f3.value + value.f1.value); return accumulator; } }, new RichAllWindowFunction<Tuple4<Long, Long, Long, IntType>, Tuple4<Long, Long, Long, IntType>, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(1, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( TimeWindow window, Iterable<Tuple4<Long, Long, Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple4<Long, Long, Long, IntType> in: input) { out.collect(new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f3)); } } }) .addSink(new ValidatingSink<>( new EventTimeWindowCheckpointingITCase.SinkValidatorUpdateFun(numElementsPerKey), new EventTimeWindowCheckpointingITCase.SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))) .setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #12
Source File: EventTimeWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testSlidingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int windowSlide = windowSlide(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setMaxParallelism(2 * PARALLELISM); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSlide), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS), Time.of(windowSlide, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); int sum = 0; long key = -1; for (Tuple2<Long, IntType> value : values) { sum += value.f1.value; key = value.f0; } final Tuple4<Long, Long, Long, IntType> output = new Tuple4<>(key, window.getStart(), window.getEnd(), new IntType(sum)); out.collect(output); } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSlide))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #13
Source File: EventTimeWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testTumblingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); int sum = 0; long key = -1; for (Tuple2<Long, IntType> value : values) { sum += value.f1.value; key = value.f0; } final Tuple4<Long, Long, Long, IntType> result = new Tuple4<>(key, window.getStart(), window.getEnd(), new IntType(sum)); out.collect(result); } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #14
Source File: EventTimeWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
public void doTestTumblingTimeWindowWithKVState(int maxParallelism) { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setMaxParallelism(maxParallelism); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; private ValueState<Integer> count; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; count = getRuntimeContext().getState( new ValueStateDescriptor<>("count", Integer.class, 0)); } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) throws Exception { // the window count state starts with the key, so that we get // different count results for each key if (count.value() == 0) { count.update(tuple.<Long>getField(0).intValue()); } // validate that the function has been opened properly assertTrue(open); count.update(count.value() + 1); out.collect(new Tuple4<>(tuple.<Long>getField(0), window.getStart(), window.getEnd(), new IntType(count.value()))); } }) .addSink(new ValidatingSink<>( new CountingSinkValidatorUpdateFun(), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #15
Source File: EventTimeWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testSlidingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int windowSlide = windowSlide(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setMaxParallelism(2 * PARALLELISM); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSlide), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS), Time.of(windowSlide, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); int sum = 0; long key = -1; for (Tuple2<Long, IntType> value : values) { sum += value.f1.value; key = value.f0; } final Tuple4<Long, Long, Long, IntType> output = new Tuple4<>(key, window.getStart(), window.getEnd(), new IntType(sum)); out.collect(output); } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSlide))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #16
Source File: EventTimeWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedTumblingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS)) .reduce( new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(a.f1.value + b.f1.value)); } }, new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> in: input) { final Tuple4<Long, Long, Long, IntType> output = new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f1); out.collect(output); } } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #17
Source File: EventTimeWindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedSlidingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int windowSlide = windowSlide(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSlide), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS), Time.of(windowSlide, MILLISECONDS)) .reduce( new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { // validate that the function has been opened properly return new Tuple2<>(a.f0, new IntType(a.f1.value + b.f1.value)); } }, new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> in: input) { out.collect(new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f1)); } } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSlide))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #18
Source File: WindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testTumblingProcessingTimeWindow() { final int numElements = 3000; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(timeCharacteristic); env.getConfig().setAutoWatermarkInterval(10); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); SinkValidatorUpdaterAndChecker updaterAndChecker = new SinkValidatorUpdaterAndChecker(numElements, 1); env .addSource(new FailingSource(new Generator(), numElements, timeCharacteristic)) .rebalance() .keyBy(0) .timeWindow(Time.of(100, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple2<Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple2<Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> value : values) { assertEquals(value.f0.intValue(), value.f1.value); out.collect(new Tuple2<>(value.f0, new IntType(1))); } } }) .addSink(new ValidatingSink<>(updaterAndChecker, updaterAndChecker, timeCharacteristic)) .setParallelism(1); tryExecute(env, "Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #19
Source File: WindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testSlidingProcessingTimeWindow() { final int numElements = 3000; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(timeCharacteristic); env.getConfig().setAutoWatermarkInterval(10); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); SinkValidatorUpdaterAndChecker updaterAndChecker = new SinkValidatorUpdaterAndChecker(numElements, 3); env .addSource(new FailingSource(new Generator(), numElements, timeCharacteristic)) .rebalance() .keyBy(0) .timeWindow(Time.of(150, MILLISECONDS), Time.of(50, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple2<Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple2<Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> value : values) { assertEquals(value.f0.intValue(), value.f1.value); out.collect(new Tuple2<>(value.f0, new IntType(1))); } } }) .addSink(new ValidatingSink<>(updaterAndChecker, updaterAndChecker, timeCharacteristic)) .setParallelism(1); tryExecute(env, "Sliding Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #20
Source File: WindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testAggregatingTumblingProcessingTimeWindow() { final int numElements = 3000; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(timeCharacteristic); env.getConfig().setAutoWatermarkInterval(10); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); SinkValidatorUpdaterAndChecker updaterAndChecker = new SinkValidatorUpdaterAndChecker(numElements, 1); env .addSource(new FailingSource(new Generator(), numElements, timeCharacteristic)) .map(new MapFunction<Tuple2<Long, IntType>, Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> map(Tuple2<Long, IntType> value) { value.f1.value = 1; return value; } }) .rebalance() .keyBy(0) .timeWindow(Time.of(100, MILLISECONDS)) .reduce(new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(1)); } }) .addSink(new ValidatingSink<>(updaterAndChecker, updaterAndChecker, timeCharacteristic)) .setParallelism(1); tryExecute(env, "Aggregating Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #21
Source File: WindowCheckpointingITCase.java From flink with Apache License 2.0 | 4 votes |
@Test public void testAggregatingSlidingProcessingTimeWindow() { final int numElements = 3000; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(timeCharacteristic); env.getConfig().setAutoWatermarkInterval(10); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); SinkValidatorUpdaterAndChecker updaterAndChecker = new SinkValidatorUpdaterAndChecker(numElements, 3); env .addSource(new FailingSource(new Generator(), numElements, timeCharacteristic)) .map(new MapFunction<Tuple2<Long, IntType>, Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> map(Tuple2<Long, IntType> value) { value.f1.value = 1; return value; } }) .rebalance() .keyBy(0) .timeWindow(Time.of(150, MILLISECONDS), Time.of(50, MILLISECONDS)) .reduce(new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(1)); } }) .addSink(new ValidatingSink<>(updaterAndChecker, updaterAndChecker, timeCharacteristic)) .setParallelism(1); tryExecute(env, "Aggregating Sliding Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #22
Source File: WindowCheckpointingITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
@Test public void testSlidingProcessingTimeWindow() { final int numElements = 3000; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(timeCharacteristic); env.getConfig().setAutoWatermarkInterval(10); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); SinkValidatorUpdaterAndChecker updaterAndChecker = new SinkValidatorUpdaterAndChecker(numElements, 3); env .addSource(new FailingSource(new Generator(), numElements, timeCharacteristic)) .rebalance() .keyBy(0) .timeWindow(Time.of(150, MILLISECONDS), Time.of(50, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple2<Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple2<Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> value : values) { assertEquals(value.f0.intValue(), value.f1.value); out.collect(new Tuple2<>(value.f0, new IntType(1))); } } }) .addSink(new ValidatingSink<>(updaterAndChecker, updaterAndChecker, timeCharacteristic)) .setParallelism(1); tryExecute(env, "Sliding Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #23
Source File: EventTimeAllWindowCheckpointingITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
@Test public void testSlidingTimeWindow() { final int numElementsPerKey = 3000; final int windowSize = 1000; final int windowSlide = 100; final int numKeys = 1; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env .addSource(new FailingSource(new EventTimeWindowCheckpointingITCase.KeyedEventTimeGenerator(numKeys, windowSlide), numElementsPerKey)) .rebalance() .timeWindowAll(Time.of(windowSize, MILLISECONDS), Time.of(windowSlide, MILLISECONDS)) .apply(new RichAllWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(1, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); int sum = 0; long key = -1; for (Tuple2<Long, IntType> value : values) { sum += value.f1.value; key = value.f0; } out.collect(new Tuple4<>(key, window.getStart(), window.getEnd(), new IntType(sum))); } }) .addSink(new ValidatingSink<>( new EventTimeWindowCheckpointingITCase.SinkValidatorUpdateFun(numElementsPerKey), new EventTimeWindowCheckpointingITCase.SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSlide))) .setParallelism(1); env.execute("Sliding Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #24
Source File: EventTimeAllWindowCheckpointingITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedTumblingTimeWindow() { final int numElementsPerKey = 3000; final int windowSize = 100; final int numKeys = 1; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env .addSource(new FailingSource(new EventTimeWindowCheckpointingITCase.KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .timeWindowAll(Time.of(windowSize, MILLISECONDS)) .reduce( new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(a.f1.value + b.f1.value)); } }, new RichAllWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(1, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( TimeWindow window, Iterable<Tuple2<Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> in: input) { out.collect(new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f1)); } } }) .addSink(new ValidatingSink<>( new EventTimeWindowCheckpointingITCase.SinkValidatorUpdateFun(numElementsPerKey), new EventTimeWindowCheckpointingITCase.SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))) .setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #25
Source File: EventTimeAllWindowCheckpointingITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedFoldingTumblingTimeWindow() { final int numElementsPerKey = 3000; final int windowSize = 100; final int numKeys = 1; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env .addSource(new FailingSource(new EventTimeWindowCheckpointingITCase.KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .timeWindowAll(Time.of(windowSize, MILLISECONDS)) .fold(new Tuple4<>(0L, 0L, 0L, new IntType(0)), new FoldFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>>() { @Override public Tuple4<Long, Long, Long, IntType> fold(Tuple4<Long, Long, Long, IntType> accumulator, Tuple2<Long, IntType> value) throws Exception { accumulator.f0 = value.f0; accumulator.f3 = new IntType(accumulator.f3.value + value.f1.value); return accumulator; } }, new RichAllWindowFunction<Tuple4<Long, Long, Long, IntType>, Tuple4<Long, Long, Long, IntType>, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(1, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( TimeWindow window, Iterable<Tuple4<Long, Long, Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple4<Long, Long, Long, IntType> in: input) { out.collect(new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f3)); } } }) .addSink(new ValidatingSink<>( new EventTimeWindowCheckpointingITCase.SinkValidatorUpdateFun(numElementsPerKey), new EventTimeWindowCheckpointingITCase.SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))) .setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #26
Source File: EventTimeAllWindowCheckpointingITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedSlidingTimeWindow() { final int numElementsPerKey = 3000; final int windowSize = 1000; final int windowSlide = 100; final int numKeys = 1; try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env .addSource(new FailingSource(new EventTimeWindowCheckpointingITCase.KeyedEventTimeGenerator(numKeys, windowSlide), numElementsPerKey)) .rebalance() .timeWindowAll(Time.of(windowSize, MILLISECONDS), Time.of(windowSlide, MILLISECONDS)) .reduce( new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(a.f1.value + b.f1.value)); } }, new RichAllWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(1, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( TimeWindow window, Iterable<Tuple2<Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> in: input) { out.collect(new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f1)); } } }) .addSink(new ValidatingSink<>( new EventTimeWindowCheckpointingITCase.SinkValidatorUpdateFun(numElementsPerKey), new EventTimeWindowCheckpointingITCase.SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSlide))) .setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #27
Source File: EventTimeWindowCheckpointingITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
@Test public void testTumblingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); int sum = 0; long key = -1; for (Tuple2<Long, IntType> value : values) { sum += value.f1.value; key = value.f0; } final Tuple4<Long, Long, Long, IntType> result = new Tuple4<>(key, window.getStart(), window.getEnd(), new IntType(sum)); out.collect(result); } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #28
Source File: EventTimeWindowCheckpointingITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
public void doTestTumblingTimeWindowWithKVState(int maxParallelism) { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setMaxParallelism(maxParallelism); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; private ValueState<Integer> count; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; count = getRuntimeContext().getState( new ValueStateDescriptor<>("count", Integer.class, 0)); } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) throws Exception { // the window count state starts with the key, so that we get // different count results for each key if (count.value() == 0) { count.update(tuple.<Long>getField(0).intValue()); } // validate that the function has been opened properly assertTrue(open); count.update(count.value() + 1); out.collect(new Tuple4<>(tuple.<Long>getField(0), window.getStart(), window.getEnd(), new IntType(count.value()))); } }) .addSink(new ValidatingSink<>( new CountingSinkValidatorUpdateFun(), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #29
Source File: EventTimeWindowCheckpointingITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
@Test public void testSlidingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int windowSlide = windowSlide(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setMaxParallelism(2 * PARALLELISM); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSlide), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS), Time.of(windowSlide, MILLISECONDS)) .apply(new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> values, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); int sum = 0; long key = -1; for (Tuple2<Long, IntType> value : values) { sum += value.f1.value; key = value.f0; } final Tuple4<Long, Long, Long, IntType> output = new Tuple4<>(key, window.getStart(), window.getEnd(), new IntType(sum)); out.collect(output); } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSlide))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }
Example #30
Source File: EventTimeWindowCheckpointingITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
@Test public void testPreAggregatedTumblingTimeWindow() { final int numElementsPerKey = numElementsPerKey(); final int windowSize = windowSize(); final int numKeys = numKeys(); try { StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment(); env.setParallelism(PARALLELISM); env.setStreamTimeCharacteristic(TimeCharacteristic.EventTime); env.enableCheckpointing(100); env.setRestartStrategy(RestartStrategies.fixedDelayRestart(1, 0)); env.getConfig().disableSysoutLogging(); env.setStateBackend(this.stateBackend); env.getConfig().setUseSnapshotCompression(true); env .addSource(new FailingSource(new KeyedEventTimeGenerator(numKeys, windowSize), numElementsPerKey)) .rebalance() .keyBy(0) .timeWindow(Time.of(windowSize, MILLISECONDS)) .reduce( new ReduceFunction<Tuple2<Long, IntType>>() { @Override public Tuple2<Long, IntType> reduce( Tuple2<Long, IntType> a, Tuple2<Long, IntType> b) { return new Tuple2<>(a.f0, new IntType(a.f1.value + b.f1.value)); } }, new RichWindowFunction<Tuple2<Long, IntType>, Tuple4<Long, Long, Long, IntType>, Tuple, TimeWindow>() { private boolean open = false; @Override public void open(Configuration parameters) { assertEquals(PARALLELISM, getRuntimeContext().getNumberOfParallelSubtasks()); open = true; } @Override public void apply( Tuple tuple, TimeWindow window, Iterable<Tuple2<Long, IntType>> input, Collector<Tuple4<Long, Long, Long, IntType>> out) { // validate that the function has been opened properly assertTrue(open); for (Tuple2<Long, IntType> in: input) { final Tuple4<Long, Long, Long, IntType> output = new Tuple4<>(in.f0, window.getStart(), window.getEnd(), in.f1); out.collect(output); } } }) .addSink(new ValidatingSink<>( new SinkValidatorUpdateFun(numElementsPerKey), new SinkValidatorCheckFun(numKeys, numElementsPerKey, windowSize))).setParallelism(1); env.execute("Tumbling Window Test"); } catch (Exception e) { e.printStackTrace(); fail(e.getMessage()); } }