outTypeInfo, operator ).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
@Override public ResultStreams translate(String name, List<InputAndSpec<?, ?>> streamLedgerSpecs) { List<OutputTag<?>> sideOutputTags = createSideOutputTags(streamLedgerSpecs); // the input stream is a union of different streams. KeyedStream<TaggedElement, Boolean> input = union(streamLedgerSpecs) .keyBy(unused -> true); // main pipeline String serialTransactorName = "SerialTransactor(" + name + ")"; SingleOutputStreamOperator<Void> resultStream = input .process(new SerialTransactor(specs(streamLedgerSpecs), sideOutputTags)) .name(serialTransactorName) .uid(serialTransactorName + "___SERIAL_TX") .forceNonParallel() .returns(Void.class); // gather the sideOutputs. Map<String, DataStream<?>> output = new HashMap<>(); for (OutputTag<?> outputTag : sideOutputTags) { DataStream<?> rs = resultStream.getSideOutput(outputTag); output.put(outputTag.getId(), rs); } return new ResultStreams(output); } }
@Override public ResultStreams translate(String name, List<InputAndSpec<?, ?>> streamLedgerSpecs) { List<OutputTag<?>> sideOutputTags = createSideOutputTags(streamLedgerSpecs); // the input stream is a union of different streams. KeyedStream<TaggedElement, Boolean> input = union(streamLedgerSpecs) .keyBy(unused -> true); // main pipeline String serialTransactorName = "SerialTransactor(" + name + ")"; SingleOutputStreamOperator<Void> resultStream = input .process(new SerialTransactor(specs(streamLedgerSpecs), sideOutputTags)) .name(serialTransactorName) .uid(serialTransactorName + "___SERIAL_TX") .forceNonParallel() .returns(Void.class); // gather the sideOutputs. Map<String, DataStream<?>> output = new HashMap<>(); for (OutputTag<?> outputTag : sideOutputTags) { DataStream<?> rs = resultStream.getSideOutput(outputTag); output.put(outputTag.getId(), rs); } return new ResultStreams(output); } }
comparator, pattern.getAfterMatchSkipStrategy() )).forceNonParallel();
comparator, pattern.getAfterMatchSkipStrategy() )).forceNonParallel();
nfaFactory, false )).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();
return input.transform(opName, resultType, operator).forceNonParallel();