コード例 #1
0
ファイル: DataStreamTest.java プロジェクト: helena/flink
 private static StreamOperator<?> getOperatorForDataStream(DataStream<?> dataStream) {
   StreamExecutionEnvironment env = dataStream.getExecutionEnvironment();
   StreamGraph streamGraph = env.getStreamGraph();
   return streamGraph.getStreamNode(dataStream.getId()).getOperator();
 }
コード例 #2
0
ファイル: DataStreamTest.java プロジェクト: lravindr/flink
  /**
   * Tests union functionality. This ensures that self-unions and unions of streams with differing
   * parallelism work.
   *
   * @throws Exception
   */
  @Test
  public void testUnion() throws Exception {
    StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();
    env.setParallelism(4);

    DataStream<Long> input1 =
        env.generateSequence(0, 0)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                });

    DataStream<Long> selfUnion =
        input1
            .union(input1)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                });

    DataStream<Long> input6 =
        env.generateSequence(0, 0)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                });

    DataStream<Long> selfUnionDifferentPartition =
        input6
            .broadcast()
            .union(input6)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                });

    DataStream<Long> input2 =
        env.generateSequence(0, 0)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                })
            .setParallelism(4);

    DataStream<Long> input3 =
        env.generateSequence(0, 0)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                })
            .setParallelism(2);

    DataStream<Long> unionDifferingParallelism =
        input2
            .union(input3)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                })
            .setParallelism(4);

    DataStream<Long> input4 =
        env.generateSequence(0, 0)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                })
            .setParallelism(2);

    DataStream<Long> input5 =
        env.generateSequence(0, 0)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                })
            .setParallelism(4);

    DataStream<Long> unionDifferingPartitioning =
        input4
            .broadcast()
            .union(input5)
            .map(
                new MapFunction<Long, Long>() {
                  @Override
                  public Long map(Long value) throws Exception {
                    return null;
                  }
                })
            .setParallelism(4);

    StreamGraph streamGraph = env.getStreamGraph();

    // verify self union
    assertTrue(streamGraph.getStreamNode(selfUnion.getId()).getInEdges().size() == 2);
    for (StreamEdge edge : streamGraph.getStreamNode(selfUnion.getId()).getInEdges()) {
      assertTrue(edge.getPartitioner() instanceof ForwardPartitioner);
    }

    // verify self union with differnt partitioners
    assertTrue(
        streamGraph.getStreamNode(selfUnionDifferentPartition.getId()).getInEdges().size() == 2);
    boolean hasForward = false;
    boolean hasBroadcast = false;
    for (StreamEdge edge :
        streamGraph.getStreamNode(selfUnionDifferentPartition.getId()).getInEdges()) {
      if (edge.getPartitioner() instanceof ForwardPartitioner) {
        hasForward = true;
      }
      if (edge.getPartitioner() instanceof BroadcastPartitioner) {
        hasBroadcast = true;
      }
    }
    assertTrue(hasForward && hasBroadcast);

    // verify union of streams with differing parallelism
    assertTrue(
        streamGraph.getStreamNode(unionDifferingParallelism.getId()).getInEdges().size() == 2);
    for (StreamEdge edge :
        streamGraph.getStreamNode(unionDifferingParallelism.getId()).getInEdges()) {
      if (edge.getSourceId() == input2.getId()) {
        assertTrue(edge.getPartitioner() instanceof ForwardPartitioner);
      } else if (edge.getSourceId() == input3.getId()) {
        assertTrue(edge.getPartitioner() instanceof RebalancePartitioner);
      } else {
        fail("Wrong input edge.");
      }
    }

    // verify union of streams with differing partitionings
    assertTrue(
        streamGraph.getStreamNode(unionDifferingPartitioning.getId()).getInEdges().size() == 2);
    for (StreamEdge edge :
        streamGraph.getStreamNode(unionDifferingPartitioning.getId()).getInEdges()) {
      if (edge.getSourceId() == input4.getId()) {
        assertTrue(edge.getPartitioner() instanceof BroadcastPartitioner);
      } else if (edge.getSourceId() == input5.getId()) {
        assertTrue(edge.getPartitioner() instanceof ForwardPartitioner);
      } else {
        fail("Wrong input edge.");
      }
    }
  }