@Override public DataStreamSink<T> setParallelism(int parallelism) { transformation.setParallelism(parallelism); return this; }
/** * Sets the parallelism for this sink. The degree must be higher than zero. * * @param parallelism The parallelism for this sink. * @return The sink with set parallelism. */ public DataStreamSink<T> setParallelism(int parallelism) { transformation.setParallelism(parallelism); return this; }
/** * Sets the parallelism for this sink. The degree must be higher than zero. * * @param parallelism The parallelism for this sink. * @return The sink with set parallelism. */ public CassandraSink<IN> setParallelism(int parallelism) { if (useDataStreamSink) { getSinkTransformation().setParallelism(parallelism); } else { getStreamTransformation().setParallelism(parallelism); } return this; }
@Override public DataStreamSink<T> setParallelism(int parallelism) { transformation.setParallelism(parallelism); return this; }
/** * Sets the parallelism for this sink. The degree must be higher than zero. * * @param parallelism The parallelism for this sink. * @return The sink with set parallelism. */ public DataStreamSink<T> setParallelism(int parallelism) { transformation.setParallelism(parallelism); return this; }
/** * Sets the parallelism for this sink. The degree must be higher than zero. * * @param parallelism The parallelism for this sink. * @return The sink with set parallelism. */ public DataStreamSink<T> setParallelism(int parallelism) { transformation.setParallelism(parallelism); return this; }
/** * Sets the parallelism for this sink. The degree must be higher than zero. * * @param parallelism The parallelism for this sink. * @return The sink with set parallelism. */ public DataStreamSink<T> setParallelism(int parallelism) { transformation.setParallelism(parallelism); return this; }
@Override public DataStreamSink<T> setParallelism(int parallelism) { transformation.setParallelism(parallelism); return this; }