use of org.apache.beam.sdk.util.WindowedValue.WindowedValueCoder in project beam by apache.
the class CreateExecutableStageNodeFunction method apply.
@Override
public Node apply(MutableNetwork<Node, Edge> input) {
for (Node node : input.nodes()) {
if (node instanceof RemoteGrpcPortNode || node instanceof ParallelInstructionNode || node instanceof InstructionOutputNode) {
continue;
}
throw new IllegalArgumentException(String.format("Network contains unknown type of node: %s", input));
}
// Fix all non output nodes to have named edges.
for (Node node : input.nodes()) {
if (node instanceof InstructionOutputNode) {
continue;
}
for (Node successor : input.successors(node)) {
for (Edge edge : input.edgesConnecting(node, successor)) {
if (edge instanceof DefaultEdge) {
input.removeEdge(edge);
input.addEdge(node, successor, MultiOutputInfoEdge.create(new MultiOutputInfo().setTag(idGenerator.getId())));
}
}
}
}
RunnerApi.Components.Builder componentsBuilder = RunnerApi.Components.newBuilder();
componentsBuilder.mergeFrom(this.pipeline.getComponents());
// Default to use the Java environment if pipeline doesn't have environment specified.
if (pipeline.getComponents().getEnvironmentsMap().isEmpty()) {
String envId = Environments.JAVA_SDK_HARNESS_ENVIRONMENT.getUrn() + idGenerator.getId();
componentsBuilder.putEnvironments(envId, Environments.JAVA_SDK_HARNESS_ENVIRONMENT);
}
// By default, use GlobalWindow for all languages.
// For java, if there is a IntervalWindowCoder, then use FixedWindow instead.
// TODO: should get real WindowingStategy from pipeline proto.
String globalWindowingStrategyId = "generatedGlobalWindowingStrategy" + idGenerator.getId();
String intervalWindowEncodingWindowingStrategyId = "generatedIntervalWindowEncodingWindowingStrategy" + idGenerator.getId();
SdkComponents sdkComponents = SdkComponents.create(pipeline.getComponents(), null);
try {
registerWindowingStrategy(globalWindowingStrategyId, WindowingStrategy.globalDefault(), componentsBuilder, sdkComponents);
registerWindowingStrategy(intervalWindowEncodingWindowingStrategyId, WindowingStrategy.of(FixedWindows.of(Duration.standardSeconds(1))), componentsBuilder, sdkComponents);
} catch (IOException exc) {
throw new RuntimeException("Could not convert default windowing stratey to proto", exc);
}
Map<Node, String> nodesToPCollections = new HashMap<>();
ImmutableMap.Builder<String, NameContext> ptransformIdToNameContexts = ImmutableMap.builder();
ImmutableMap.Builder<String, Iterable<SideInputInfo>> ptransformIdToSideInputInfos = ImmutableMap.builder();
ImmutableMap.Builder<String, Iterable<PCollectionView<?>>> ptransformIdToPCollectionViews = ImmutableMap.builder();
// A field of ExecutableStage which includes the PCollection goes to worker side.
Set<PCollectionNode> executableStageOutputs = new HashSet<>();
// A field of ExecutableStage which includes the PCollection goes to runner side.
Set<PCollectionNode> executableStageInputs = new HashSet<>();
for (InstructionOutputNode node : Iterables.filter(input.nodes(), InstructionOutputNode.class)) {
InstructionOutput instructionOutput = node.getInstructionOutput();
String coderId = "generatedCoder" + idGenerator.getId();
String windowingStrategyId;
try (ByteString.Output output = ByteString.newOutput()) {
try {
Coder<?> javaCoder = CloudObjects.coderFromCloudObject(CloudObject.fromSpec(instructionOutput.getCodec()));
Coder<?> elementCoder = ((WindowedValueCoder<?>) javaCoder).getValueCoder();
sdkComponents.registerCoder(elementCoder);
RunnerApi.Coder coderProto = CoderTranslation.toProto(elementCoder, sdkComponents);
componentsBuilder.putCoders(coderId, coderProto);
// For now, Dataflow runner harness only deal with FixedWindow.
if (javaCoder instanceof FullWindowedValueCoder) {
FullWindowedValueCoder<?> windowedValueCoder = (FullWindowedValueCoder<?>) javaCoder;
Coder<?> windowCoder = windowedValueCoder.getWindowCoder();
if (windowCoder instanceof IntervalWindowCoder) {
windowingStrategyId = intervalWindowEncodingWindowingStrategyId;
} else if (windowCoder instanceof GlobalWindow.Coder) {
windowingStrategyId = globalWindowingStrategyId;
} else {
throw new UnsupportedOperationException(String.format("Dataflow portable runner harness doesn't support windowing with %s", windowCoder));
}
} else {
throw new UnsupportedOperationException("Dataflow portable runner harness only supports FullWindowedValueCoder");
}
} catch (IOException e) {
throw new IllegalArgumentException(String.format("Unable to encode coder %s for output %s", instructionOutput.getCodec(), instructionOutput), e);
} catch (Exception e) {
// Coder probably wasn't a java coder
OBJECT_MAPPER.writeValue(output, instructionOutput.getCodec());
componentsBuilder.putCoders(coderId, RunnerApi.Coder.newBuilder().setSpec(RunnerApi.FunctionSpec.newBuilder().setPayload(output.toByteString())).build());
// For non-java coder, hope it's GlobalWindows by default.
// TODO(BEAM-6231): Actually discover the right windowing strategy.
windowingStrategyId = globalWindowingStrategyId;
}
} catch (IOException e) {
throw new IllegalArgumentException(String.format("Unable to encode coder %s for output %s", instructionOutput.getCodec(), instructionOutput), e);
}
// TODO(BEAM-6275): Set correct IsBounded on generated PCollections
String pcollectionId = node.getPcollectionId();
RunnerApi.PCollection pCollection = RunnerApi.PCollection.newBuilder().setCoderId(coderId).setWindowingStrategyId(windowingStrategyId).setIsBounded(RunnerApi.IsBounded.Enum.BOUNDED).build();
nodesToPCollections.put(node, pcollectionId);
componentsBuilder.putPcollections(pcollectionId, pCollection);
// is set
if (isExecutableStageOutputPCollection(input, node)) {
executableStageOutputs.add(PipelineNode.pCollection(pcollectionId, pCollection));
}
if (isExecutableStageInputPCollection(input, node)) {
executableStageInputs.add(PipelineNode.pCollection(pcollectionId, pCollection));
}
}
componentsBuilder.putAllCoders(sdkComponents.toComponents().getCodersMap());
Set<PTransformNode> executableStageTransforms = new HashSet<>();
Set<TimerReference> executableStageTimers = new HashSet<>();
List<UserStateId> userStateIds = new ArrayList<>();
Set<SideInputReference> executableStageSideInputs = new HashSet<>();
for (ParallelInstructionNode node : Iterables.filter(input.nodes(), ParallelInstructionNode.class)) {
ImmutableMap.Builder<String, PCollectionNode> sideInputIds = ImmutableMap.builder();
ParallelInstruction parallelInstruction = node.getParallelInstruction();
String ptransformId = "generatedPtransform" + idGenerator.getId();
ptransformIdToNameContexts.put(ptransformId, NameContext.create(null, parallelInstruction.getOriginalName(), parallelInstruction.getSystemName(), parallelInstruction.getName()));
RunnerApi.PTransform.Builder pTransform = RunnerApi.PTransform.newBuilder();
RunnerApi.FunctionSpec.Builder transformSpec = RunnerApi.FunctionSpec.newBuilder();
List<String> timerIds = new ArrayList<>();
if (parallelInstruction.getParDo() != null) {
ParDoInstruction parDoInstruction = parallelInstruction.getParDo();
CloudObject userFnSpec = CloudObject.fromSpec(parDoInstruction.getUserFn());
String userFnClassName = userFnSpec.getClassName();
if (userFnClassName.equals("CombineValuesFn") || userFnClassName.equals("KeyedCombineFn")) {
transformSpec = transformCombineValuesFnToFunctionSpec(userFnSpec);
ptransformIdToPCollectionViews.put(ptransformId, Collections.emptyList());
} else {
String parDoPTransformId = getString(userFnSpec, PropertyNames.SERIALIZED_FN);
RunnerApi.PTransform parDoPTransform = pipeline.getComponents().getTransformsOrDefault(parDoPTransformId, null);
// TODO: only the non-null branch should exist; for migration ease only
if (parDoPTransform != null) {
checkArgument(parDoPTransform.getSpec().getUrn().equals(PTransformTranslation.PAR_DO_TRANSFORM_URN), "Found transform \"%s\" for ParallelDo instruction, " + " but that transform had unexpected URN \"%s\" (expected \"%s\")", parDoPTransformId, parDoPTransform.getSpec().getUrn(), PTransformTranslation.PAR_DO_TRANSFORM_URN);
RunnerApi.ParDoPayload parDoPayload;
try {
parDoPayload = RunnerApi.ParDoPayload.parseFrom(parDoPTransform.getSpec().getPayload());
} catch (InvalidProtocolBufferException exc) {
throw new RuntimeException("ParDo did not have a ParDoPayload", exc);
}
// user timers and user state.
for (Map.Entry<String, RunnerApi.TimerFamilySpec> entry : parDoPayload.getTimerFamilySpecsMap().entrySet()) {
timerIds.add(entry.getKey());
}
for (Map.Entry<String, RunnerApi.StateSpec> entry : parDoPayload.getStateSpecsMap().entrySet()) {
UserStateId.Builder builder = UserStateId.newBuilder();
builder.setTransformId(parDoPTransformId);
builder.setLocalName(entry.getKey());
userStateIds.add(builder.build());
}
// To facilitate the creation of Set executableStageSideInputs.
for (String sideInputTag : parDoPayload.getSideInputsMap().keySet()) {
String sideInputPCollectionId = parDoPTransform.getInputsOrThrow(sideInputTag);
RunnerApi.PCollection sideInputPCollection = pipeline.getComponents().getPcollectionsOrThrow(sideInputPCollectionId);
pTransform.putInputs(sideInputTag, sideInputPCollectionId);
PCollectionNode pCollectionNode = PipelineNode.pCollection(sideInputPCollectionId, sideInputPCollection);
sideInputIds.put(sideInputTag, pCollectionNode);
}
// To facilitate the creation of Map(ptransformId -> pCollectionView), which is
// required by constructing an ExecutableStageNode.
ImmutableList.Builder<PCollectionView<?>> pcollectionViews = ImmutableList.builder();
for (Map.Entry<String, RunnerApi.SideInput> sideInputEntry : parDoPayload.getSideInputsMap().entrySet()) {
pcollectionViews.add(RegisterNodeFunction.transformSideInputForRunner(pipeline, parDoPTransform, sideInputEntry.getKey(), sideInputEntry.getValue()));
}
ptransformIdToPCollectionViews.put(ptransformId, pcollectionViews.build());
transformSpec.setUrn(PTransformTranslation.PAR_DO_TRANSFORM_URN).setPayload(parDoPayload.toByteString());
} else {
// legacy path - bytes are the FunctionSpec's payload field, basically, and
// SDKs expect it in the PTransform's payload field
byte[] userFnBytes = getBytes(userFnSpec, PropertyNames.SERIALIZED_FN);
transformSpec.setUrn(ParDoTranslation.CUSTOM_JAVA_DO_FN_URN).setPayload(ByteString.copyFrom(userFnBytes));
}
if (parDoInstruction.getSideInputs() != null) {
ptransformIdToSideInputInfos.put(ptransformId, forSideInputInfos(parDoInstruction.getSideInputs(), true));
}
}
} else if (parallelInstruction.getRead() != null) {
ReadInstruction readInstruction = parallelInstruction.getRead();
CloudObject sourceSpec = CloudObject.fromSpec(CloudSourceUtils.flattenBaseSpecs(readInstruction.getSource()).getSpec());
// TODO: Need to plumb through the SDK specific function spec.
transformSpec.setUrn(JAVA_SOURCE_URN);
try {
byte[] serializedSource = Base64.getDecoder().decode(getString(sourceSpec, SERIALIZED_SOURCE));
ByteString sourceByteString = ByteString.copyFrom(serializedSource);
transformSpec.setPayload(sourceByteString);
} catch (Exception e) {
throw new IllegalArgumentException(String.format("Unable to process Read %s", parallelInstruction), e);
}
} else if (parallelInstruction.getFlatten() != null) {
transformSpec.setUrn(PTransformTranslation.FLATTEN_TRANSFORM_URN);
} else {
throw new IllegalArgumentException(String.format("Unknown type of ParallelInstruction %s", parallelInstruction));
}
// predecessor in a ParDo. This PCollection is called the "main input".
for (Node predecessorOutput : input.predecessors(node)) {
pTransform.putInputs("generatedInput" + idGenerator.getId(), nodesToPCollections.get(predecessorOutput));
}
for (Edge edge : input.outEdges(node)) {
Node nodeOutput = input.incidentNodes(edge).target();
MultiOutputInfoEdge edge2 = (MultiOutputInfoEdge) edge;
pTransform.putOutputs(edge2.getMultiOutputInfo().getTag(), nodesToPCollections.get(nodeOutput));
}
pTransform.setSpec(transformSpec);
PTransformNode pTransformNode = PipelineNode.pTransform(ptransformId, pTransform.build());
executableStageTransforms.add(pTransformNode);
for (String timerId : timerIds) {
executableStageTimers.add(TimerReference.of(pTransformNode, timerId));
}
ImmutableMap<String, PCollectionNode> sideInputIdToPCollectionNodes = sideInputIds.build();
for (String sideInputTag : sideInputIdToPCollectionNodes.keySet()) {
SideInputReference sideInputReference = SideInputReference.of(pTransformNode, sideInputTag, sideInputIdToPCollectionNodes.get(sideInputTag));
executableStageSideInputs.add(sideInputReference);
}
executableStageTransforms.add(pTransformNode);
}
if (executableStageInputs.size() != 1) {
throw new UnsupportedOperationException("ExecutableStage only support one input PCollection");
}
PCollectionNode executableInput = executableStageInputs.iterator().next();
RunnerApi.Components executableStageComponents = componentsBuilder.build();
// Get Environment from ptransform, otherwise, use JAVA_SDK_HARNESS_ENVIRONMENT as default.
Environment executableStageEnv = getEnvironmentFromPTransform(executableStageComponents, executableStageTransforms);
if (executableStageEnv == null) {
executableStageEnv = Environments.JAVA_SDK_HARNESS_ENVIRONMENT;
}
Set<UserStateReference> executableStageUserStateReference = new HashSet<>();
for (UserStateId userStateId : userStateIds) {
executableStageUserStateReference.add(UserStateReference.fromUserStateId(userStateId, executableStageComponents));
}
ExecutableStage executableStage = ImmutableExecutableStage.ofFullComponents(executableStageComponents, executableStageEnv, executableInput, executableStageSideInputs, executableStageUserStateReference, executableStageTimers, executableStageTransforms, executableStageOutputs, DEFAULT_WIRE_CODER_SETTINGS);
return ExecutableStageNode.create(executableStage, ptransformIdToNameContexts.build(), ptransformIdToSideInputInfos.build(), ptransformIdToPCollectionViews.build());
}
use of org.apache.beam.sdk.util.WindowedValue.WindowedValueCoder in project beam by apache.
the class FlinkStreamingPortablePipelineTranslator method getSideInputIdToPCollectionViewMap.
private static LinkedHashMap<RunnerApi.ExecutableStagePayload.SideInputId, PCollectionView<?>> getSideInputIdToPCollectionViewMap(RunnerApi.ExecutableStagePayload stagePayload, RunnerApi.Components components) {
RehydratedComponents rehydratedComponents = RehydratedComponents.forComponents(components);
LinkedHashMap<RunnerApi.ExecutableStagePayload.SideInputId, PCollectionView<?>> sideInputs = new LinkedHashMap<>();
// for PCollectionView compatibility, not used to transform materialization
ViewFn<Iterable<WindowedValue<?>>, ?> viewFn = (ViewFn) new PCollectionViews.MultimapViewFn<>((PCollectionViews.TypeDescriptorSupplier<Iterable<WindowedValue<Void>>>) () -> TypeDescriptors.iterables(new TypeDescriptor<WindowedValue<Void>>() {
}), (PCollectionViews.TypeDescriptorSupplier<Void>) TypeDescriptors::voids);
for (RunnerApi.ExecutableStagePayload.SideInputId sideInputId : stagePayload.getSideInputsList()) {
// TODO: local name is unique as long as only one transform with side input can be within a
// stage
String sideInputTag = sideInputId.getLocalName();
String collectionId = components.getTransformsOrThrow(sideInputId.getTransformId()).getInputsOrThrow(sideInputId.getLocalName());
RunnerApi.WindowingStrategy windowingStrategyProto = components.getWindowingStrategiesOrThrow(components.getPcollectionsOrThrow(collectionId).getWindowingStrategyId());
final WindowingStrategy<?, ?> windowingStrategy;
try {
windowingStrategy = WindowingStrategyTranslation.fromProto(windowingStrategyProto, rehydratedComponents);
} catch (InvalidProtocolBufferException e) {
throw new IllegalStateException(String.format("Unable to hydrate side input windowing strategy %s.", windowingStrategyProto), e);
}
Coder<WindowedValue<Object>> coder = instantiateCoder(collectionId, components);
// side input materialization via GBK (T -> Iterable<T>)
WindowedValueCoder wvCoder = (WindowedValueCoder) coder;
coder = wvCoder.withValueCoder(IterableCoder.of(wvCoder.getValueCoder()));
sideInputs.put(sideInputId, new RunnerPCollectionView<>(null, new TupleTag<>(sideInputTag), viewFn, // TODO: support custom mapping fn
windowingStrategy.getWindowFn().getDefaultWindowMappingFn(), windowingStrategy, coder));
}
return sideInputs;
}
use of org.apache.beam.sdk.util.WindowedValue.WindowedValueCoder in project beam by apache.
the class FlinkStreamingPortablePipelineTranslator method transformSideInputs.
private TransformedSideInputs transformSideInputs(RunnerApi.ExecutableStagePayload stagePayload, RunnerApi.Components components, StreamingTranslationContext context) {
LinkedHashMap<RunnerApi.ExecutableStagePayload.SideInputId, PCollectionView<?>> sideInputs = getSideInputIdToPCollectionViewMap(stagePayload, components);
Map<TupleTag<?>, Integer> tagToIntMapping = new HashMap<>();
Map<Integer, PCollectionView<?>> intToViewMapping = new HashMap<>();
List<WindowedValueCoder<KV<Void, Object>>> kvCoders = new ArrayList<>();
List<Coder<?>> viewCoders = new ArrayList<>();
int count = 0;
for (Map.Entry<RunnerApi.ExecutableStagePayload.SideInputId, PCollectionView<?>> sideInput : sideInputs.entrySet()) {
TupleTag<?> tag = sideInput.getValue().getTagInternal();
intToViewMapping.put(count, sideInput.getValue());
tagToIntMapping.put(tag, count);
count++;
String collectionId = components.getTransformsOrThrow(sideInput.getKey().getTransformId()).getInputsOrThrow(sideInput.getKey().getLocalName());
DataStream<Object> sideInputStream = context.getDataStreamOrThrow(collectionId);
TypeInformation<Object> tpe = sideInputStream.getType();
if (!(tpe instanceof CoderTypeInformation)) {
throw new IllegalStateException("Input Stream TypeInformation is no CoderTypeInformation.");
}
WindowedValueCoder<Object> coder = (WindowedValueCoder) ((CoderTypeInformation) tpe).getCoder();
Coder<KV<Void, Object>> kvCoder = KvCoder.of(VoidCoder.of(), coder.getValueCoder());
kvCoders.add(coder.withValueCoder(kvCoder));
// coder for materialized view matching GBK below
WindowedValueCoder<KV<Void, Iterable<Object>>> viewCoder = coder.withValueCoder(KvCoder.of(VoidCoder.of(), IterableCoder.of(coder.getValueCoder())));
viewCoders.add(viewCoder);
}
// second pass, now that we gathered the input coders
UnionCoder unionCoder = UnionCoder.of(viewCoders);
CoderTypeInformation<RawUnionValue> unionTypeInformation = new CoderTypeInformation<>(unionCoder, context.getPipelineOptions());
// transform each side input to RawUnionValue and union them
DataStream<RawUnionValue> sideInputUnion = null;
for (Map.Entry<RunnerApi.ExecutableStagePayload.SideInputId, PCollectionView<?>> sideInput : sideInputs.entrySet()) {
TupleTag<?> tag = sideInput.getValue().getTagInternal();
final int intTag = tagToIntMapping.get(tag);
RunnerApi.PTransform pTransform = components.getTransformsOrThrow(sideInput.getKey().getTransformId());
String collectionId = pTransform.getInputsOrThrow(sideInput.getKey().getLocalName());
DataStream<WindowedValue<?>> sideInputStream = context.getDataStreamOrThrow(collectionId);
// insert GBK to materialize side input view
String viewName = sideInput.getKey().getTransformId() + "-" + sideInput.getKey().getLocalName();
WindowedValueCoder<KV<Void, Object>> kvCoder = kvCoders.get(intTag);
DataStream<WindowedValue<KV<Void, Object>>> keyedSideInputStream = sideInputStream.map(new ToVoidKeyValue(context.getPipelineOptions()));
SingleOutputStreamOperator<WindowedValue<KV<Void, Iterable<Object>>>> viewStream = addGBK(keyedSideInputStream, sideInput.getValue().getWindowingStrategyInternal(), kvCoder, viewName, context);
// Assign a unique but consistent id to re-map operator state
viewStream.uid(pTransform.getUniqueName() + "-" + sideInput.getKey().getLocalName());
DataStream<RawUnionValue> unionValueStream = viewStream.map(new FlinkStreamingTransformTranslators.ToRawUnion<>(intTag, context.getPipelineOptions())).returns(unionTypeInformation);
if (sideInputUnion == null) {
sideInputUnion = unionValueStream;
} else {
sideInputUnion = sideInputUnion.union(unionValueStream);
}
}
return new TransformedSideInputs(intToViewMapping, sideInputUnion);
}
use of org.apache.beam.sdk.util.WindowedValue.WindowedValueCoder in project beam by apache.
the class FlinkStreamingPortablePipelineTranslator method translateGroupByKey.
private <K, V> void translateGroupByKey(String id, RunnerApi.Pipeline pipeline, StreamingTranslationContext context) {
RunnerApi.PTransform pTransform = pipeline.getComponents().getTransformsOrThrow(id);
String inputPCollectionId = Iterables.getOnlyElement(pTransform.getInputsMap().values());
RehydratedComponents rehydratedComponents = RehydratedComponents.forComponents(pipeline.getComponents());
RunnerApi.WindowingStrategy windowingStrategyProto = pipeline.getComponents().getWindowingStrategiesOrThrow(pipeline.getComponents().getPcollectionsOrThrow(inputPCollectionId).getWindowingStrategyId());
WindowingStrategy<?, ?> windowingStrategy;
try {
windowingStrategy = WindowingStrategyTranslation.fromProto(windowingStrategyProto, rehydratedComponents);
} catch (InvalidProtocolBufferException e) {
throw new IllegalStateException(String.format("Unable to hydrate GroupByKey windowing strategy %s.", windowingStrategyProto), e);
}
WindowedValueCoder<KV<K, V>> windowedInputCoder = (WindowedValueCoder) instantiateCoder(inputPCollectionId, pipeline.getComponents());
DataStream<WindowedValue<KV<K, V>>> inputDataStream = context.getDataStreamOrThrow(inputPCollectionId);
SingleOutputStreamOperator<WindowedValue<KV<K, Iterable<V>>>> outputDataStream = addGBK(inputDataStream, windowingStrategy, windowedInputCoder, pTransform.getUniqueName(), context);
// Assign a unique but consistent id to re-map operator state
outputDataStream.uid(pTransform.getUniqueName());
context.addDataStream(Iterables.getOnlyElement(pTransform.getOutputsMap().values()), outputDataStream);
}
use of org.apache.beam.sdk.util.WindowedValue.WindowedValueCoder in project beam by apache.
the class BeamFnMapTaskExecutorFactory method createPartialGroupByKeyOperation.
<K> OperationNode createPartialGroupByKeyOperation(Network<Node, Edge> network, ParallelInstructionNode node, PipelineOptions options, DataflowExecutionContext<?> executionContext, DataflowOperationContext operationContext) throws Exception {
ParallelInstruction instruction = node.getParallelInstruction();
PartialGroupByKeyInstruction pgbk = instruction.getPartialGroupByKey();
OutputReceiver[] receivers = getOutputReceivers(network, node);
Coder<?> windowedCoder = CloudObjects.coderFromCloudObject(CloudObject.fromSpec(pgbk.getInputElementCodec()));
if (!(windowedCoder instanceof WindowedValueCoder)) {
throw new IllegalArgumentException(String.format("unexpected kind of input coder for PartialGroupByKeyOperation: %s", windowedCoder));
}
Coder<?> elemCoder = ((WindowedValueCoder<?>) windowedCoder).getValueCoder();
if (!(elemCoder instanceof KvCoder)) {
throw new IllegalArgumentException(String.format("unexpected kind of input element coder for PartialGroupByKeyOperation: %s", elemCoder));
}
@SuppressWarnings("unchecked") KvCoder<K, ?> keyedElementCoder = (KvCoder<K, ?>) elemCoder;
CloudObject cloudUserFn = pgbk.getValueCombiningFn() != null ? CloudObject.fromSpec(pgbk.getValueCombiningFn()) : null;
ParDoFn fn = PartialGroupByKeyParDoFns.create(options, keyedElementCoder, cloudUserFn, pgbk.getSideInputs(), Arrays.<Receiver>asList(receivers), executionContext, operationContext);
return OperationNode.create(new ParDoOperation(fn, receivers, operationContext));
}
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