Package | Description |
---|---|
com.hazelcast.jet.aggregate |
Contains
AggregateOperation and its several variants, as well
as a builder object for the aggregate operations. |
com.hazelcast.jet.avro |
Apache Avro file read/write support for Hazelcast Jet.
|
com.hazelcast.jet.core |
Jet's Core API.
|
com.hazelcast.jet.core.processor |
Contains static utility classes with factories of Jet processors.
|
com.hazelcast.jet.core.test |
Utilities for writing tests of Core API Processors.
|
com.hazelcast.jet.elastic |
Contains sources and sinks for Elasticsearch 7
|
com.hazelcast.jet.grpc |
Contributes
gRPC service factories that can be to apply transformations to
a pipeline which for each input item calls to a gRPC service. |
com.hazelcast.jet.pipeline |
The Pipeline API is Jet's high-level API to build and execute
distributed computation jobs.
|
com.hazelcast.jet.pipeline.test |
This package contains various mock sources to help with pipeline testing
and development.
|
com.hazelcast.jet.s3 |
AWS S3 read/write support for Hazelcast Jet.
|
Modifier and Type | Method and Description |
---|---|
SupplierEx<A> |
AggregateOperation.createFn()
A primitive that returns a new accumulator.
|
Modifier and Type | Method and Description |
---|---|
static <T,K,R,A,M extends Map<K,R>> |
AggregateOperations.groupingBy(FunctionEx<? super T,? extends K> keyFn,
SupplierEx<M> createMapFn,
AggregateOperation1<? super T,A,R> downstream)
Returns an
AggregateOperation1 that accumulates the items into a
Map (as obtained from createMapFn ) where the key is the
result of applying keyFn and the value is the result of
applying the downstream aggregate operation to the items with that key. |
static <T,C extends Collection<T>> |
AggregateOperations.toCollection(SupplierEx<C> createCollectionFn)
Returns an aggregate operation that accumulates the items into a
Collection . |
static <T,K,U,M extends Map<K,U>> |
AggregateOperations.toMap(FunctionEx<? super T,? extends K> keyFn,
FunctionEx<? super T,? extends U> valueFn,
BinaryOperatorEx<U> mergeFn,
SupplierEx<M> createMapFn)
Returns an aggregate operation that accumulates elements into a
user-supplied
Map instance. |
static <A> AggregateOperationBuilder<A> |
AggregateOperation.withCreate(SupplierEx<A> createFn)
Returns a builder object, initialized with the supplied
create primitive, that can be used to construct the definition of an
aggregate operation in a step-by-step manner. |
Modifier and Type | Method and Description |
---|---|
static <R> Sink<R> |
AvroSinks.files(String directoryName,
org.apache.avro.Schema schema,
SupplierEx<org.apache.avro.io.DatumWriter<R>> datumWriterSupplier)
Returns a sink that that writes the items it receives to Apache Avro
files.
|
static <D> AvroSourceBuilder<D> |
AvroSources.filesBuilder(String directory,
SupplierEx<? extends org.apache.avro.io.DatumReader<D>> datumReaderSupplier)
Returns a builder object that offers a step-by-step fluent API to build
a custom Avro file source for the Pipeline API.
|
static <D,T> ProcessorMetaSupplier |
AvroProcessors.readFilesP(String directory,
String glob,
boolean sharedFileSystem,
SupplierEx<? extends org.apache.avro.io.DatumReader<D>> datumReaderSupplier,
BiFunctionEx<String,? super D,T> mapOutputFn)
Returns a supplier of processors for
AvroSources.filesBuilder(java.lang.String, java.lang.Class<D>) . |
static <D> ProcessorMetaSupplier |
AvroProcessors.writeFilesP(String directoryName,
org.apache.avro.Schema schema,
SupplierEx<org.apache.avro.io.DatumWriter<D>> datumWriterSupplier)
Returns a supplier of processors for
AvroSinks.files(java.lang.String, org.apache.avro.Schema, com.hazelcast.function.SupplierEx<org.apache.avro.io.DatumWriter<R>>) . |
Modifier and Type | Method and Description |
---|---|
static SupplierEx<WatermarkPolicy> |
WatermarkPolicy.limitingLag(long lag)
Maintains a watermark that lags behind the top observed timestamp by the
given amount.
|
static SupplierEx<WatermarkPolicy> |
WatermarkPolicy.limitingRealTimeLag(long lag)
Maintains a watermark that lags behind the real time by the given
amount.
|
SupplierEx<? extends WatermarkPolicy> |
EventTimePolicy.newWmPolicyFn()
Returns the factory of the watermark policy objects.
|
Modifier and Type | Method and Description |
---|---|
static <T> EventTimePolicy<T> |
EventTimePolicy.eventTimePolicy(ToLongFunctionEx<? super T> timestampFn,
ObjLongBiFunction<? super T,?> wrapFn,
SupplierEx<? extends WatermarkPolicy> newWmPolicyFn,
long watermarkThrottlingFrameSize,
long watermarkThrottlingFrameOffset,
long idleTimeoutMillis)
Creates and returns a new event time policy.
|
static <T> EventTimePolicy<T> |
EventTimePolicy.eventTimePolicy(ToLongFunctionEx<? super T> timestampFn,
ObjLongBiFunction<? super T,?> wrapFn,
SupplierEx<? extends WatermarkPolicy> newWmPolicyFn,
long watermarkThrottlingFrameSize,
long watermarkThrottlingFrameOffset,
long idleTimeoutMillis,
byte wmKey)
Creates and returns a new event time policy.
|
static <T> EventTimePolicy<T> |
EventTimePolicy.eventTimePolicy(ToLongFunctionEx<? super T> timestampFn,
SupplierEx<? extends WatermarkPolicy> newWmPolicyFn,
long watermarkThrottlingFrameSize,
long watermarkThrottlingFrameOffset,
long idleTimeoutMillis)
Creates and returns a new event time policy.
|
Vertex |
DAG.newUniqueVertex(String namePrefix,
SupplierEx<? extends Processor> simpleSupplier)
Creates a vertex from a
Supplier<Processor> and adds it to this
DAG. |
Vertex |
DAG.newVertex(String name,
SupplierEx<? extends Processor> simpleSupplier)
Creates a vertex from a
Supplier<Processor> and adds it to this DAG. |
static ProcessorMetaSupplier |
ProcessorMetaSupplier.of(int preferredLocalParallelism,
SupplierEx<? extends Processor> procSupplier)
Factory method that wraps the given
Supplier<Processor>
and uses it as the supplier of all Processor instances. |
static ProcessorSupplier |
ProcessorSupplier.of(SupplierEx<? extends Processor> processorSupplier)
Returns a
ProcessorSupplier which will delegate to the given
Supplier<Processor> to create all Processor instances. |
static ProcessorMetaSupplier |
ProcessorMetaSupplier.of(SupplierEx<? extends Processor> procSupplier)
Factory method that wraps the given
Supplier<Processor>
and uses it as the supplier of all Processor instances. |
static ProcessorMetaSupplier |
ProcessorMetaSupplier.preferLocalParallelismOne(Permission permission,
SupplierEx<? extends Processor> procSupplier)
Variant of
ProcessorMetaSupplier.preferLocalParallelismOne(SupplierEx) where the
processor requires given permission to run. |
static ProcessorMetaSupplier |
ProcessorMetaSupplier.preferLocalParallelismOne(SupplierEx<? extends Processor> procSupplier)
Variant of
ProcessorMetaSupplier.preferLocalParallelismOne(ProcessorSupplier) where
the supplied SupplierEx<Processor> will be
wrapped into a ProcessorSupplier . |
Constructor and Description |
---|
Vertex(String name,
SupplierEx<? extends Processor> processorSupplier)
Creates a vertex from a
Supplier<Processor> . |
Modifier and Type | Method and Description |
---|---|
static <K,A> SupplierEx<Processor> |
Processors.accumulateByFrameP(List<FunctionEx<?,? extends K>> keyFns,
List<ToLongFunctionEx<?>> timestampFns,
TimestampKind timestampKind,
SlidingWindowPolicy winPolicy,
AggregateOperation<A,?> aggrOp)
Returns a supplier of processors for the first-stage vertex in a
two-stage sliding window aggregation setup (see the
class Javadoc for an explanation of aggregation stages). |
static <K,A> SupplierEx<Processor> |
Processors.accumulateByKeyP(List<FunctionEx<?,? extends K>> getKeyFns,
AggregateOperation<A,?> aggrOp)
Returns a supplier of processors for the first-stage vertex in a
two-stage group-and-aggregate setup.
|
static <A,R> SupplierEx<Processor> |
Processors.accumulateP(AggregateOperation<A,R> aggrOp)
Returns a supplier of processors for a vertex that performs the
accumulation step of the provided aggregate operation on all the items
it receives.
|
static <K,A,R,OUT> |
Processors.aggregateByKeyP(List<FunctionEx<?,? extends K>> keyFns,
AggregateOperation<A,R> aggrOp,
BiFunctionEx<? super K,? super R,OUT> mapToOutputFn)
Returns a supplier of processors for a vertex that groups items by key
and performs the provided aggregate operation on each group.
|
static <A,R> SupplierEx<Processor> |
Processors.aggregateP(AggregateOperation<A,R> aggrOp)
Returns a supplier of processors for a vertex that performs the provided
aggregate operation on all the items it receives.
|
static <K,A,R,OUT> |
Processors.aggregateToSessionWindowP(long sessionTimeout,
long earlyResultsPeriod,
List<ToLongFunctionEx<?>> timestampFns,
List<FunctionEx<?,? extends K>> keyFns,
AggregateOperation<A,? extends R> aggrOp,
KeyedWindowResultFunction<? super K,? super R,? extends OUT> mapToOutputFn)
Returns a supplier of processors for a vertex that aggregates events into
session windows.
|
static <K,A,R,OUT> |
Processors.aggregateToSlidingWindowP(List<FunctionEx<?,? extends K>> keyFns,
List<ToLongFunctionEx<?>> timestampFns,
TimestampKind timestampKind,
SlidingWindowPolicy winPolicy,
long earlyResultsPeriod,
AggregateOperation<A,? extends R> aggrOp,
KeyedWindowResultFunction<? super K,? super R,? extends OUT> mapToOutputFn)
Returns a supplier of processors for a vertex that aggregates events
into a sliding window in a single stage (see the
class Javadoc for an explanation of aggregation stages). |
static <K,A,R,OUT> |
Processors.combineByKeyP(AggregateOperation<A,R> aggrOp,
BiFunctionEx<? super K,? super R,OUT> mapToOutputFn)
Returns a supplier of processors for the second-stage vertex in a
two-stage group-and-aggregate setup.
|
static <A,R> SupplierEx<Processor> |
Processors.combineP(AggregateOperation<A,R> aggrOp)
Returns a supplier of processors for a vertex that performs the
combining and finishing steps of the provided aggregate operation.
|
static <K,A,R,OUT> |
Processors.combineToSlidingWindowP(SlidingWindowPolicy winPolicy,
AggregateOperation<A,? extends R> aggrOp,
KeyedWindowResultFunction<? super K,? super R,? extends OUT> mapToOutputFn)
Returns a supplier of processors for the second-stage vertex in a
two-stage sliding window aggregation setup (see the
class Javadoc for an explanation of aggregation stages). |
static <K,A,R,OUT> |
Processors.combineToSlidingWindowP(SlidingWindowPolicy winPolicy,
AggregateOperation<A,? extends R> aggrOp,
KeyedWindowResultFunction<? super K,? super R,? extends OUT> mapToOutputFn,
byte windowWatermarkKey)
Returns a supplier of processors for the second-stage vertex in a
two-stage sliding window aggregation setup (see the
class Javadoc for an explanation of aggregation stages) with specified
windowWatermarkKey . |
static <T> SupplierEx<Processor> |
Processors.filterP(PredicateEx<? super T> filterFn)
Returns a supplier of processors for a vertex that emits the same items
it receives, but only those that pass the given predicate.
|
static <T,R> SupplierEx<Processor> |
Processors.flatMapP(FunctionEx<? super T,? extends Traverser<? extends R>> flatMapFn)
Returns a supplier of processors for a vertex that applies the provided
item-to-traverser mapping function to each received item and emits all
the items from the resulting traverser.
|
static <T,K,S,R> SupplierEx<Processor> |
Processors.flatMapStatefulP(long ttl,
FunctionEx<? super T,? extends K> keyFn,
ToLongFunctionEx<? super T> timestampFn,
Supplier<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends Traverser<R>> statefulFlatMapFn,
TriFunction<? super S,? super K,? super Long,? extends Traverser<R>> onEvictFn)
Returns a supplier of processors for a vertex that performs a stateful
flat-mapping of its input.
|
static <T> SupplierEx<Processor> |
Processors.insertWatermarksP(EventTimePolicy<? super T> eventTimePolicy)
Returns a supplier of processors for a vertex that inserts
watermark items into the stream. |
static <T,R> SupplierEx<Processor> |
Processors.mapP(FunctionEx<? super T,? extends R> mapFn)
Returns a supplier of processors for a vertex which, for each received
item, emits the result of applying the given mapping function to it.
|
static <T,K,S,R> SupplierEx<Processor> |
Processors.mapStatefulP(long ttl,
FunctionEx<? super T,? extends K> keyFn,
ToLongFunctionEx<? super T> timestampFn,
Supplier<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends R> statefulMapFn,
TriFunction<? super S,? super K,? super Long,? extends R> onEvictFn)
Returns a supplier of processors for a vertex that performs a stateful
mapping of its input.
|
static SupplierEx<Processor> |
Processors.noopP()
Returns a supplier of a processor that swallows all its normal input (if
any), does nothing with it, forwards the watermarks, produces no output
and completes immediately.
|
static <T> SupplierEx<Processor> |
DiagnosticProcessors.peekInputP(FunctionEx<T,? extends CharSequence> toStringFn,
PredicateEx<T> shouldLogFn,
SupplierEx<Processor> wrapped)
Same as
peekInput(toStringFn, shouldLogFn, metaSupplier) ,
but accepts a SupplierEx of processors instead of a
meta-supplier. |
static SupplierEx<Processor> |
DiagnosticProcessors.peekInputP(SupplierEx<Processor> wrapped)
Convenience for
peekInput(toStringFn,
shouldLogFn, metaSupplier) with a pass-through filter and Object#toString as the formatting function. |
static <T> SupplierEx<Processor> |
DiagnosticProcessors.peekOutputP(FunctionEx<? super T,? extends CharSequence> toStringFn,
PredicateEx<? super T> shouldLogFn,
SupplierEx<Processor> wrapped)
Same as
peekOutput(toStringFn, shouldLogFn, metaSupplier) ,
but accepts a SupplierEx of processors instead of a
meta-supplier. |
static SupplierEx<Processor> |
DiagnosticProcessors.peekOutputP(SupplierEx<Processor> wrapped)
Convenience for
peekOutput(toStringFn,
shouldLogFn, metaSupplier with a pass-through filter and Object#toString as the formatting function. |
static <K,V> SupplierEx<Processor> |
DiagnosticProcessors.peekSnapshotP(FunctionEx<? super Map.Entry<K,V>,? extends CharSequence> toStringFn,
PredicateEx<? super Map.Entry<K,V>> shouldLogFn,
SupplierEx<Processor> wrapped)
Same as
peekSnapshot(toStringFn, shouldLogFn, metaSupplier) ,
but accepts a SupplierEx of processors instead of a
meta-supplier. |
static SupplierEx<Processor> |
DiagnosticProcessors.peekSnapshotP(SupplierEx<Processor> wrapped)
Convenience for
peekSnapshot(toStringFn,
shouldLogFn, metaSupplier with a pass-through filter and Object#toString as the formatting function. |
static <T> SupplierEx<Processor> |
Processors.sortP(Comparator<T> comparator)
Returns a supplier of processors for a vertex that sorts its input using
a
PriorityQueue and emits it in the complete phase. |
static <W,T> SupplierEx<Processor> |
SinkProcessors.writeBufferedP(FunctionEx<? super Processor.Context,? extends W> createFn,
BiConsumerEx<? super W,? super T> onReceiveFn,
ConsumerEx<? super W> flushFn)
Shortcut for
SinkProcessors.writeBufferedP(FunctionEx, BiConsumerEx,
ConsumerEx, ConsumerEx) with a no-op destroyFn . |
static <W,T> SupplierEx<Processor> |
SinkProcessors.writeBufferedP(FunctionEx<? super Processor.Context,? extends W> createFn,
BiConsumerEx<? super W,? super T> onReceiveFn,
ConsumerEx<? super W> flushFn,
ConsumerEx<? super W> destroyFn)
Returns a supplier of processors for a vertex that drains all the items
from the inbox to an internal writer object and then does a flush.
|
Modifier and Type | Method and Description |
---|---|
static <T> SupplierEx<Processor> |
DiagnosticProcessors.peekInputP(FunctionEx<T,? extends CharSequence> toStringFn,
PredicateEx<T> shouldLogFn,
SupplierEx<Processor> wrapped)
Same as
peekInput(toStringFn, shouldLogFn, metaSupplier) ,
but accepts a SupplierEx of processors instead of a
meta-supplier. |
static SupplierEx<Processor> |
DiagnosticProcessors.peekInputP(SupplierEx<Processor> wrapped)
Convenience for
peekInput(toStringFn,
shouldLogFn, metaSupplier) with a pass-through filter and Object#toString as the formatting function. |
static <T> SupplierEx<Processor> |
DiagnosticProcessors.peekOutputP(FunctionEx<? super T,? extends CharSequence> toStringFn,
PredicateEx<? super T> shouldLogFn,
SupplierEx<Processor> wrapped)
Same as
peekOutput(toStringFn, shouldLogFn, metaSupplier) ,
but accepts a SupplierEx of processors instead of a
meta-supplier. |
static SupplierEx<Processor> |
DiagnosticProcessors.peekOutputP(SupplierEx<Processor> wrapped)
Convenience for
peekOutput(toStringFn,
shouldLogFn, metaSupplier with a pass-through filter and Object#toString as the formatting function. |
static <K,V> SupplierEx<Processor> |
DiagnosticProcessors.peekSnapshotP(FunctionEx<? super Map.Entry<K,V>,? extends CharSequence> toStringFn,
PredicateEx<? super Map.Entry<K,V>> shouldLogFn,
SupplierEx<Processor> wrapped)
Same as
peekSnapshot(toStringFn, shouldLogFn, metaSupplier) ,
but accepts a SupplierEx of processors instead of a
meta-supplier. |
static SupplierEx<Processor> |
DiagnosticProcessors.peekSnapshotP(SupplierEx<Processor> wrapped)
Convenience for
peekSnapshot(toStringFn,
shouldLogFn, metaSupplier with a pass-through filter and Object#toString as the formatting function. |
static <T> ProcessorMetaSupplier |
SourceProcessors.readJdbcP(SupplierEx<? extends Connection> newConnectionFn,
ToResultSetFunction resultSetFn,
FunctionEx<? super ResultSet,? extends T> mapOutputFn)
Returns a supplier of processors for
Sources.jdbc(
SupplierEx, ToResultSetFunction, FunctionEx) . |
static <T> ProcessorMetaSupplier |
SourceProcessors.streamJmsQueueP(String destination,
ProcessingGuarantee maxGuarantee,
EventTimePolicy<? super T> eventTimePolicy,
SupplierEx<? extends javax.jms.Connection> newConnectionFn,
FunctionEx<? super javax.jms.Session,? extends javax.jms.MessageConsumer> consumerFn,
FunctionEx<? super javax.jms.Message,?> messageIdFn,
FunctionEx<? super javax.jms.Message,? extends T> projectionFn)
Returns a supplier of processors for
Sources.jmsQueueBuilder(com.hazelcast.function.SupplierEx<? extends javax.jms.ConnectionFactory>) . |
static <T> ProcessorMetaSupplier |
SourceProcessors.streamJmsTopicP(String destination,
boolean isSharedConsumer,
ProcessingGuarantee maxGuarantee,
EventTimePolicy<? super T> eventTimePolicy,
SupplierEx<? extends javax.jms.Connection> newConnectionFn,
FunctionEx<? super javax.jms.Session,? extends javax.jms.MessageConsumer> consumerFn,
FunctionEx<? super javax.jms.Message,?> messageIdFn,
FunctionEx<? super javax.jms.Message,? extends T> projectionFn)
Returns a supplier of processors for
Sources.jmsTopicBuilder(com.hazelcast.function.SupplierEx<? extends javax.jms.ConnectionFactory>) . |
static <T> ProcessorMetaSupplier |
SinkProcessors.writeJdbcP(String jdbcUrl,
String updateQuery,
SupplierEx<? extends CommonDataSource> dataSourceSupplier,
BiConsumerEx<? super PreparedStatement,? super T> bindFn,
boolean exactlyOnce,
int batchLimit)
Returns a supplier of processors for
Sinks.jdbcBuilder() . |
static <T> ProcessorMetaSupplier |
SinkProcessors.writeJmsQueueP(String queueName,
boolean exactlyOnce,
SupplierEx<? extends javax.jms.Connection> newConnectionFn,
BiFunctionEx<? super javax.jms.Session,? super T,? extends javax.jms.Message> messageFn)
Returns a supplier of processors for
Sinks.jmsQueueBuilder(com.hazelcast.function.SupplierEx<javax.jms.ConnectionFactory>) . |
static <T> ProcessorMetaSupplier |
SinkProcessors.writeJmsTopicP(String topicName,
boolean exactlyOnce,
SupplierEx<? extends javax.jms.Connection> newConnectionFn,
BiFunctionEx<? super javax.jms.Session,? super T,? extends javax.jms.Message> messageFn)
Returns a supplier of processors for
Sinks.jmsTopicBuilder(com.hazelcast.function.SupplierEx<javax.jms.ConnectionFactory>) . |
Modifier and Type | Method and Description |
---|---|
static TestSupport |
TestSupport.verifyProcessor(SupplierEx<Processor> supplier) |
Modifier and Type | Method and Description |
---|---|
ElasticSinkBuilder<T> |
ElasticSinkBuilder.bulkRequestFn(SupplierEx<org.elasticsearch.action.bulk.BulkRequest> bulkRequestFn)
Set the supplier function for BulkRequest, defaults to new
BulkRequest.BulkRequest() |
ElasticSourceBuilder<T> |
ElasticSourceBuilder.clientFn(SupplierEx<org.elasticsearch.client.RestClientBuilder> clientFn)
Set the client supplier function
|
ElasticSinkBuilder<T> |
ElasticSinkBuilder.clientFn(SupplierEx<org.elasticsearch.client.RestClientBuilder> clientFn)
Set the client supplier function
|
static BatchSource<String> |
ElasticSources.elastic(SupplierEx<org.elasticsearch.client.RestClientBuilder> clientFn)
Creates a source which queries Elasticsearch using client obtained from
RestClientBuilder supplier function. |
static <T> BatchSource<T> |
ElasticSources.elastic(SupplierEx<org.elasticsearch.client.RestClientBuilder> clientFn,
FunctionEx<? super org.elasticsearch.search.SearchHit,T> mapToItemFn)
Creates a source which queries Elasticsearch using client obtained from
RestClientBuilder supplier function. |
static <T> Sink<T> |
ElasticSinks.elastic(SupplierEx<org.elasticsearch.client.RestClientBuilder> clientFn,
FunctionEx<? super T,? extends org.elasticsearch.action.DocWriteRequest<?>> mapToRequestFn)
Creates an Elasticsearch sink, uses a client obtained from
clientFn and maps items using given mapToRequestFn
|
static <T> BatchSource<T> |
ElasticSources.elastic(SupplierEx<org.elasticsearch.client.RestClientBuilder> clientFn,
SupplierEx<org.elasticsearch.action.search.SearchRequest> searchRequestFn,
FunctionEx<? super org.elasticsearch.search.SearchHit,T> mapToItemFn)
Creates a source which queries Elasticsearch using client obtained from
RestHighLevelClient supplier. |
static <T> BatchSource<T> |
ElasticSources.elastic(SupplierEx<org.elasticsearch.client.RestClientBuilder> clientFn,
SupplierEx<org.elasticsearch.action.search.SearchRequest> searchRequestFn,
FunctionEx<? super org.elasticsearch.search.SearchHit,T> mapToItemFn)
Creates a source which queries Elasticsearch using client obtained from
RestHighLevelClient supplier. |
ElasticSourceBuilder<T> |
ElasticSourceBuilder.searchRequestFn(SupplierEx<org.elasticsearch.action.search.SearchRequest> searchRequestFn)
Set the search request supplier function
|
Modifier and Type | Method and Description |
---|---|
static <T,R> ServiceFactory<?,? extends GrpcService<T,R>> |
GrpcServices.bidirectionalStreamingService(SupplierEx<? extends io.grpc.ManagedChannelBuilder<?>> channelFn,
FunctionEx<? super io.grpc.ManagedChannel,? extends FunctionEx<io.grpc.stub.StreamObserver<R>,io.grpc.stub.StreamObserver<T>>> callStubFn)
Creates a
ServiceFactory that calls out to a
bidirectional streaming gRPC service. |
static <T,R> ServiceFactory<?,? extends GrpcService<T,R>> |
GrpcServices.unaryService(SupplierEx<? extends io.grpc.ManagedChannelBuilder<?>> channelFn,
FunctionEx<? super io.grpc.ManagedChannel,? extends BiConsumerEx<T,io.grpc.stub.StreamObserver<R>>> callStubFn)
Creates a
ServiceFactory that calls out to a
unary gRPC service. |
Modifier and Type | Method and Description |
---|---|
default <R> StreamStage<R> |
StreamStageWithKey.customTransform(String stageName,
SupplierEx<Processor> procSupplier) |
default <R> StreamStage<R> |
StreamStage.customTransform(String stageName,
SupplierEx<Processor> procSupplier) |
<R> GeneralStage<R> |
GeneralStageWithKey.customTransform(String stageName,
SupplierEx<Processor> procSupplier)
Attaches a stage with a custom transform based on the provided supplier
of Core API
Processor s. |
<R> GeneralStage<R> |
GeneralStage.customTransform(String stageName,
SupplierEx<Processor> procSupplier)
Attaches a stage with a custom transform based on the provided supplier
of Core API
Processor s. |
default <R> BatchStage<R> |
BatchStageWithKey.customTransform(String stageName,
SupplierEx<Processor> procSupplier) |
default <R> BatchStage<R> |
BatchStage.customTransform(String stageName,
SupplierEx<Processor> procSupplier) |
JdbcSinkBuilder<T> |
JdbcSinkBuilder.dataSourceSupplier(SupplierEx<? extends CommonDataSource> dataSourceSupplier)
Sets the supplier of
DataSource or XADataSource . |
<S> StreamStage<T> |
StreamStageWithKey.filterStateful(long ttl,
SupplierEx<? extends S> createFn,
BiPredicateEx<? super S,? super T> filterFn)
Attaches a stage that performs a stateful filtering operation.
|
default <S> StreamStage<T> |
StreamStageWithKey.filterStateful(SupplierEx<? extends S> createFn,
BiPredicateEx<? super S,? super T> filterFn) |
<S> StreamStage<T> |
StreamStage.filterStateful(SupplierEx<? extends S> createFn,
BiPredicateEx<? super S,? super T> filterFn) |
<S> GeneralStage<T> |
GeneralStageWithKey.filterStateful(SupplierEx<? extends S> createFn,
BiPredicateEx<? super S,? super T> filterFn)
Attaches a stage that performs a stateful filtering operation.
|
<S> GeneralStage<T> |
GeneralStage.filterStateful(SupplierEx<? extends S> createFn,
BiPredicateEx<? super S,? super T> filterFn)
Attaches a stage that performs a stateful filtering operation.
|
<S> BatchStage<T> |
BatchStageWithKey.filterStateful(SupplierEx<? extends S> createFn,
BiPredicateEx<? super S,? super T> filterFn) |
<S> BatchStage<T> |
BatchStage.filterStateful(SupplierEx<? extends S> createFn,
BiPredicateEx<? super S,? super T> filterFn) |
<S,R> StreamStage<R> |
StreamStageWithKey.flatMapStateful(long ttl,
SupplierEx<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends Traverser<R>> flatMapFn,
TriFunction<? super S,? super K,? super Long,? extends Traverser<R>> onEvictFn)
Attaches a stage that performs a stateful flat-mapping operation.
|
<S,R> StreamStage<R> |
StreamStage.flatMapStateful(SupplierEx<? extends S> createFn,
BiFunctionEx<? super S,? super T,? extends Traverser<R>> flatMapFn) |
<S,R> GeneralStage<R> |
GeneralStage.flatMapStateful(SupplierEx<? extends S> createFn,
BiFunctionEx<? super S,? super T,? extends Traverser<R>> flatMapFn)
Attaches a stage that performs a stateful flat-mapping operation.
|
<S,R> BatchStage<R> |
BatchStage.flatMapStateful(SupplierEx<? extends S> createFn,
BiFunctionEx<? super S,? super T,? extends Traverser<R>> flatMapFn) |
<S,R> StreamStage<R> |
StreamStageWithKey.flatMapStateful(SupplierEx<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends Traverser<R>> flatMapFn) |
<S,R> GeneralStage<R> |
GeneralStageWithKey.flatMapStateful(SupplierEx<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends Traverser<R>> flatMapFn)
Attaches a stage that performs a stateful flat-mapping operation.
|
<S,R> BatchStage<R> |
BatchStageWithKey.flatMapStateful(SupplierEx<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends Traverser<R>> flatMapFn) |
static <T> Sink<T> |
Sinks.jdbc(String updateQuery,
SupplierEx<? extends CommonDataSource> dataSourceSupplier,
BiConsumerEx<PreparedStatement,T> bindFn)
A shortcut for:
|
static <T> BatchSource<T> |
Sources.jdbc(SupplierEx<? extends Connection> newConnectionFn,
ToResultSetFunction resultSetFn,
FunctionEx<? super ResultSet,? extends T> createOutputFn)
Returns a source which connects to the specified database using the given
newConnectionFn , queries the database and creates a result set
using the the given resultSetFn . |
static StreamSource<javax.jms.Message> |
Sources.jmsQueue(String name,
SupplierEx<? extends javax.jms.ConnectionFactory> factorySupplier)
Shortcut equivalent to:
|
static <T> Sink<T> |
Sinks.jmsQueue(String queueName,
SupplierEx<javax.jms.ConnectionFactory> factorySupplier)
Convenience for
Sinks.jmsQueueBuilder(SupplierEx) . |
static StreamSource<javax.jms.Message> |
Sources.jmsQueue(SupplierEx<? extends javax.jms.ConnectionFactory> factorySupplier,
String name)
Deprecated.
|
static JmsSourceBuilder |
Sources.jmsQueueBuilder(SupplierEx<? extends javax.jms.ConnectionFactory> factorySupplier)
Returns a builder object that offers a step-by-step fluent API to build
a custom JMS
StreamSource for the Pipeline API. |
static <T> JmsSinkBuilder<T> |
Sinks.jmsQueueBuilder(SupplierEx<javax.jms.ConnectionFactory> factorySupplier)
Returns a builder object that offers a step-by-step fluent API to build
a custom JMS queue sink for the Pipeline API.
|
static StreamSource<javax.jms.Message> |
Sources.jmsTopic(String name,
SupplierEx<? extends javax.jms.ConnectionFactory> factorySupplier)
Shortcut equivalent to:
|
static <T> Sink<T> |
Sinks.jmsTopic(String topicName,
SupplierEx<javax.jms.ConnectionFactory> factorySupplier)
Shortcut for:
|
static StreamSource<javax.jms.Message> |
Sources.jmsTopic(SupplierEx<? extends javax.jms.ConnectionFactory> factorySupplier,
String name)
Deprecated.
|
static JmsSourceBuilder |
Sources.jmsTopicBuilder(SupplierEx<? extends javax.jms.ConnectionFactory> factorySupplier)
Returns a builder object that offers a step-by-step fluent API to build
a custom JMS
StreamSource for the Pipeline API. |
static <T> JmsSinkBuilder<T> |
Sinks.jmsTopicBuilder(SupplierEx<javax.jms.ConnectionFactory> factorySupplier)
Returns a builder object that offers a step-by-step fluent API to build
a custom JMS topic sink for the Pipeline API.
|
<S,R> StreamStage<R> |
StreamStageWithKey.mapStateful(long ttl,
SupplierEx<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends R> mapFn,
TriFunction<? super S,? super K,? super Long,? extends R> onEvictFn)
Attaches a stage that performs a stateful mapping operation.
|
<S,R> StreamStage<R> |
StreamStage.mapStateful(SupplierEx<? extends S> createFn,
BiFunctionEx<? super S,? super T,? extends R> mapFn) |
<S,R> GeneralStage<R> |
GeneralStage.mapStateful(SupplierEx<? extends S> createFn,
BiFunctionEx<? super S,? super T,? extends R> mapFn)
Attaches a stage that performs a stateful mapping operation.
|
<S,R> BatchStage<R> |
BatchStage.mapStateful(SupplierEx<? extends S> createFn,
BiFunctionEx<? super S,? super T,? extends R> mapFn) |
<S,R> StreamStage<R> |
StreamStageWithKey.mapStateful(SupplierEx<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends R> mapFn) |
<S,R> GeneralStage<R> |
GeneralStageWithKey.mapStateful(SupplierEx<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends R> mapFn)
Attaches a stage that performs a stateful mapping operation.
|
<S,R> BatchStage<R> |
BatchStageWithKey.mapStateful(SupplierEx<? extends S> createFn,
TriFunction<? super S,? super K,? super T,? extends R> mapFn) |
Modifier and Type | Method and Description |
---|---|
static <S> AssertionSinkBuilder<S,Void> |
AssertionSinkBuilder.assertionSink(String name,
SupplierEx<? extends S> createFn)
Returns a builder object that offers a step-by-step fluent API to build
an assertion
Sink for the Pipeline API. |
Modifier and Type | Method and Description |
---|---|
static <T> BatchSource<T> |
S3Sources.s3(List<String> bucketNames,
String prefix,
Charset charset,
SupplierEx<? extends software.amazon.awssdk.services.s3.S3Client> clientSupplier,
BiFunctionEx<String,String,? extends T> mapFn)
Creates an AWS S3
BatchSource which lists all the objects in the
bucket-list using given prefix , reads them line by line,
transforms each line to the desired output object using given mapFn and emits them to downstream. |
static BatchSource<String> |
S3Sources.s3(List<String> bucketNames,
String prefix,
SupplierEx<? extends software.amazon.awssdk.services.s3.S3Client> clientSupplier)
Convenience for
S3Sources.s3(List, String, Charset, SupplierEx, BiFunctionEx) . |
static <I,T> BatchSource<T> |
S3Sources.s3(List<String> bucketNames,
String prefix,
SupplierEx<? extends software.amazon.awssdk.services.s3.S3Client> clientSupplier,
FunctionEx<? super InputStream,? extends Stream<I>> readFileFn,
BiFunctionEx<String,? super I,? extends T> mapFn)
Creates an AWS S3
BatchSource which lists all the objects in the
bucket-list using given prefix , reads them using provided readFileFn , transforms each read item to the desired output object
using given mapFn and emits them to downstream. |
static <I,T> BatchSource<T> |
S3Sources.s3(List<String> bucketNames,
String prefix,
SupplierEx<? extends software.amazon.awssdk.services.s3.S3Client> clientSupplier,
TriFunction<? super InputStream,String,String,? extends Stream<I>> readFileFn,
BiFunctionEx<String,? super I,? extends T> mapFn)
Creates an AWS S3
BatchSource which lists all the objects in the
bucket-list using given prefix , reads them using provided readFileFn , transforms each read item to the desired output object
using given mapFn and emits them to downstream. |
static <T> Sink<? super T> |
S3Sinks.s3(String bucketName,
String prefix,
Charset charset,
SupplierEx<? extends software.amazon.awssdk.services.s3.S3Client> clientSupplier,
FunctionEx<? super T,String> toStringFn)
Creates an AWS S3
Sink which writes items to files into the
given bucket. |
static <T> Sink<? super T> |
S3Sinks.s3(String bucketName,
SupplierEx<? extends software.amazon.awssdk.services.s3.S3Client> clientSupplier)
Convenience for
S3Sinks.s3(String, String, Charset, SupplierEx, FunctionEx)
Uses Object.toString() to convert the items to lines. |
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