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org.apache

spark

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package spark

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package.scala
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  1. case class Aggregator[K, V, C](createCombiner: (V) ⇒ C, mergeValue: (C, V) ⇒ C, mergeCombiners: (C, C) ⇒ C) extends Product with Serializable

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    :: DeveloperApi :: A set of functions used to aggregate data.

    :: DeveloperApi :: A set of functions used to aggregate data.

    createCombiner

    function to create the initial value of the aggregation.

    mergeValue

    function to merge a new value into the aggregation result.

    mergeCombiners

    function to merge outputs from multiple mergeValue function.

    Annotations
    @DeveloperApi()
  2. class ComplexFutureAction[T] extends FutureAction[T]

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    A FutureAction for actions that could trigger multiple Spark jobs.

    A FutureAction for actions that could trigger multiple Spark jobs. Examples include take, takeSample. Cancellation works by setting the cancelled flag to true and cancelling any pending jobs.

    Annotations
    @DeveloperApi()
  3. abstract class Dependency[T] extends Serializable

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    :: DeveloperApi :: Base class for dependencies.

    :: DeveloperApi :: Base class for dependencies.

    Annotations
    @DeveloperApi()
  4. case class ExceptionFailure(className: String, description: String, stackTrace: Array[StackTraceElement], fullStackTrace: String, exceptionWrapper: Option[ThrowableSerializationWrapper], accumUpdates: Seq[AccumulableInfo] = Seq.empty, accums: Seq[AccumulatorV2[_, _]] = Nil) extends TaskFailedReason with Product with Serializable

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    :: DeveloperApi :: Task failed due to a runtime exception.

    :: DeveloperApi :: Task failed due to a runtime exception. This is the most common failure case and also captures user program exceptions.

    stackTrace contains the stack trace of the exception itself. It still exists for backward compatibility. It's better to use this(e: Throwable, metrics: Option[TaskMetrics]) to create ExceptionFailure as it will handle the backward compatibility properly.

    fullStackTrace is a better representation of the stack trace because it contains the whole stack trace including the exception and its causes

    exception is the actual exception that caused the task to fail. It may be None in the case that the exception is not in fact serializable. If a task fails more than once (due to retries), exception is that one that caused the last failure.

    Annotations
    @DeveloperApi()
  5. case class ExecutorLostFailure(execId: String, exitCausedByApp: Boolean = true, reason: Option[String]) extends TaskFailedReason with Product with Serializable

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    :: DeveloperApi :: The task failed because the executor that it was running on was lost.

    :: DeveloperApi :: The task failed because the executor that it was running on was lost. This may happen because the task crashed the JVM.

    Annotations
    @DeveloperApi()
  6. case class FetchFailed(bmAddress: BlockManagerId, shuffleId: Int, mapId: Int, reduceId: Int, message: String) extends TaskFailedReason with Product with Serializable

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    :: DeveloperApi :: Task failed to fetch shuffle data from a remote node.

    :: DeveloperApi :: Task failed to fetch shuffle data from a remote node. Probably means we have lost the remote executors the task is trying to fetch from, and thus need to rerun the previous stage.

    Annotations
    @DeveloperApi()
  7. trait FutureAction[T] extends Future[T]

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    A future for the result of an action to support cancellation.

    A future for the result of an action to support cancellation. This is an extension of the Scala Future interface to support cancellation.

  8. class HashPartitioner extends Partitioner

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    A org.apache.spark.Partitioner that implements hash-based partitioning using Java's Object.hashCode.

    A org.apache.spark.Partitioner that implements hash-based partitioning using Java's Object.hashCode.

    Java arrays have hashCodes that are based on the arrays' identities rather than their contents, so attempting to partition an RDD[Array[_]] or RDD[(Array[_], _)] using a HashPartitioner will produce an unexpected or incorrect result.

  9. class InterruptibleIterator[+T] extends Iterator[T]

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    :: DeveloperApi :: An iterator that wraps around an existing iterator to provide task killing functionality.

    :: DeveloperApi :: An iterator that wraps around an existing iterator to provide task killing functionality. It works by checking the interrupted flag in TaskContext.

    Annotations
    @DeveloperApi()
  10. final class JobExecutionStatus extends Enum[JobExecutionStatus]

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  11. trait JobSubmitter extends AnyRef

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    Handle via which a "run" function passed to a ComplexFutureAction can submit jobs for execution.

    Handle via which a "run" function passed to a ComplexFutureAction can submit jobs for execution.

    Annotations
    @DeveloperApi()
  12. abstract class NarrowDependency[T] extends Dependency[T]

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    :: DeveloperApi :: Base class for dependencies where each partition of the child RDD depends on a small number of partitions of the parent RDD.

    :: DeveloperApi :: Base class for dependencies where each partition of the child RDD depends on a small number of partitions of the parent RDD. Narrow dependencies allow for pipelined execution.

    Annotations
    @DeveloperApi()
  13. class OneToOneDependency[T] extends NarrowDependency[T]

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    :: DeveloperApi :: Represents a one-to-one dependency between partitions of the parent and child RDDs.

    :: DeveloperApi :: Represents a one-to-one dependency between partitions of the parent and child RDDs.

    Annotations
    @DeveloperApi()
  14. trait Partition extends Serializable

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    An identifier for a partition in an RDD.

  15. abstract class Partitioner extends Serializable

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    An object that defines how the elements in a key-value pair RDD are partitioned by key.

    An object that defines how the elements in a key-value pair RDD are partitioned by key. Maps each key to a partition ID, from 0 to numPartitions - 1.

  16. class RangeDependency[T] extends NarrowDependency[T]

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    :: DeveloperApi :: Represents a one-to-one dependency between ranges of partitions in the parent and child RDDs.

    :: DeveloperApi :: Represents a one-to-one dependency between ranges of partitions in the parent and child RDDs.

    Annotations
    @DeveloperApi()
  17. class RangePartitioner[K, V] extends Partitioner

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    A org.apache.spark.Partitioner that partitions sortable records by range into roughly equal ranges.

    A org.apache.spark.Partitioner that partitions sortable records by range into roughly equal ranges. The ranges are determined by sampling the content of the RDD passed in.

    Note

    The actual number of partitions created by the RangePartitioner might not be the same as the partitions parameter, in the case where the number of sampled records is less than the value of partitions.

  18. class SerializableWritable[T <: Writable] extends Serializable

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    Annotations
    @DeveloperApi()
  19. class ShuffleDependency[K, V, C] extends Dependency[Product2[K, V]]

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    :: DeveloperApi :: Represents a dependency on the output of a shuffle stage.

    :: DeveloperApi :: Represents a dependency on the output of a shuffle stage. Note that in the case of shuffle, the RDD is transient since we don't need it on the executor side.

    Annotations
    @DeveloperApi()
  20. class SimpleFutureAction[T] extends FutureAction[T]

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    A FutureAction holding the result of an action that triggers a single job.

    A FutureAction holding the result of an action that triggers a single job. Examples include count, collect, reduce.

    Annotations
    @DeveloperApi()
  21. class SparkConf extends Cloneable with Logging with Serializable

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    Configuration for a Spark application.

    Configuration for a Spark application. Used to set various Spark parameters as key-value pairs.

    Most of the time, you would create a SparkConf object with new SparkConf(), which will load values from any spark.* Java system properties set in your application as well. In this case, parameters you set directly on the SparkConf object take priority over system properties.

    For unit tests, you can also call new SparkConf(false) to skip loading external settings and get the same configuration no matter what the system properties are.

    All setter methods in this class support chaining. For example, you can write new SparkConf().setMaster("local").setAppName("My app").

    Note

    Once a SparkConf object is passed to Spark, it is cloned and can no longer be modified by the user. Spark does not support modifying the configuration at runtime.

  22. class SparkContext extends Logging

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    Main entry point for Spark functionality.

    Main entry point for Spark functionality. A SparkContext represents the connection to a Spark cluster, and can be used to create RDDs, accumulators and broadcast variables on that cluster.

    Only one SparkContext may be active per JVM. You must stop() the active SparkContext before creating a new one. This limitation may eventually be removed; see SPARK-2243 for more details.

  23. class SparkEnv extends Logging

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    :: DeveloperApi :: Holds all the runtime environment objects for a running Spark instance (either master or worker), including the serializer, RpcEnv, block manager, map output tracker, etc.

    :: DeveloperApi :: Holds all the runtime environment objects for a running Spark instance (either master or worker), including the serializer, RpcEnv, block manager, map output tracker, etc. Currently Spark code finds the SparkEnv through a global variable, so all the threads can access the same SparkEnv. It can be accessed by SparkEnv.get (e.g. after creating a SparkContext).

    NOTE: This is not intended for external use. This is exposed for Shark and may be made private in a future release.

    Annotations
    @DeveloperApi()
  24. class SparkException extends Exception

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  25. trait SparkExecutorInfo extends Serializable

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  26. class SparkFirehoseListener extends SparkListenerInterface

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  27. trait SparkJobInfo extends Serializable

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  28. trait SparkStageInfo extends Serializable

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  29. class SparkStatusTracker extends AnyRef

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    Low-level status reporting APIs for monitoring job and stage progress.

    Low-level status reporting APIs for monitoring job and stage progress.

    These APIs intentionally provide very weak consistency semantics; consumers of these APIs should be prepared to handle empty / missing information. For example, a job's stage ids may be known but the status API may not have any information about the details of those stages, so getStageInfo could potentially return None for a valid stage id.

    To limit memory usage, these APIs only provide information on recent jobs / stages. These APIs will provide information for the last spark.ui.retainedStages stages and spark.ui.retainedJobs jobs.

    NOTE: this class's constructor should be considered private and may be subject to change.

  30. case class TaskCommitDenied(jobID: Int, partitionID: Int, attemptNumber: Int) extends TaskFailedReason with Product with Serializable

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    :: DeveloperApi :: Task requested the driver to commit, but was denied.

    :: DeveloperApi :: Task requested the driver to commit, but was denied.

    Annotations
    @DeveloperApi()
  31. abstract class TaskContext extends Serializable

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    Contextual information about a task which can be read or mutated during execution.

    Contextual information about a task which can be read or mutated during execution. To access the TaskContext for a running task, use:

    org.apache.spark.TaskContext.get()
  32. sealed trait TaskEndReason extends AnyRef

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    :: DeveloperApi :: Various possible reasons why a task ended.

    :: DeveloperApi :: Various possible reasons why a task ended. The low-level TaskScheduler is supposed to retry tasks several times for "ephemeral" failures, and only report back failures that require some old stages to be resubmitted, such as shuffle map fetch failures.

    Annotations
    @DeveloperApi()
  33. sealed trait TaskFailedReason extends TaskEndReason

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    :: DeveloperApi :: Various possible reasons why a task failed.

    :: DeveloperApi :: Various possible reasons why a task failed.

    Annotations
    @DeveloperApi()
  34. class TaskKilledException extends RuntimeException

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    :: DeveloperApi :: Exception thrown when a task is explicitly killed (i.e., task failure is expected).

    :: DeveloperApi :: Exception thrown when a task is explicitly killed (i.e., task failure is expected).

    Annotations
    @DeveloperApi()
  35. class Accumulable[R, T] extends Serializable

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    A data type that can be accumulated, i.e.

    A data type that can be accumulated, i.e. has a commutative and associative "add" operation, but where the result type, R, may be different from the element type being added, T.

    You must define how to add data, and how to merge two of these together. For some data types, such as a counter, these might be the same operation. In that case, you can use the simpler org.apache.spark.Accumulator. They won't always be the same, though -- e.g., imagine you are accumulating a set. You will add items to the set, and you will union two sets together.

    Operations are not thread-safe.

    R

    the full accumulated data (result type)

    T

    partial data that can be added in

    Annotations
    @deprecated
    Deprecated

    (Since version 2.0.0) use AccumulatorV2

  36. trait AccumulableParam[R, T] extends Serializable

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    Helper object defining how to accumulate values of a particular type.

    Helper object defining how to accumulate values of a particular type. An implicit AccumulableParam needs to be available when you create Accumulables of a specific type.

    R

    the full accumulated data (result type)

    T

    partial data that can be added in

    Annotations
    @deprecated
    Deprecated

    (Since version 2.0.0) use AccumulatorV2

  37. class Accumulator[T] extends Accumulable[T, T]

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    A simpler value of Accumulable where the result type being accumulated is the same as the types of elements being merged, i.e.

    A simpler value of Accumulable where the result type being accumulated is the same as the types of elements being merged, i.e. variables that are only "added" to through an associative and commutative operation and can therefore be efficiently supported in parallel. They can be used to implement counters (as in MapReduce) or sums. Spark natively supports accumulators of numeric value types, and programmers can add support for new types.

    An accumulator is created from an initial value v by calling SparkContext.accumulator. Tasks running on the cluster can then add to it using the += operator. However, they cannot read its value. Only the driver program can read the accumulator's value, using its #value method.

    The interpreter session below shows an accumulator being used to add up the elements of an array:

    scala> val accum = sc.accumulator(0)
    accum: org.apache.spark.Accumulator[Int] = 0
    
    scala> sc.parallelize(Array(1, 2, 3, 4)).foreach(x => accum += x)
    ...
    10/09/29 18:41:08 INFO SparkContext: Tasks finished in 0.317106 s
    
    scala> accum.value
    res2: Int = 10
    T

    result type

    Annotations
    @deprecated
    Deprecated

    (Since version 2.0.0) use AccumulatorV2

  38. trait AccumulatorParam[T] extends AccumulableParam[T, T]

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    A simpler version of org.apache.spark.AccumulableParam where the only data type you can add in is the same type as the accumulated value.

    A simpler version of org.apache.spark.AccumulableParam where the only data type you can add in is the same type as the accumulated value. An implicit AccumulatorParam object needs to be available when you create Accumulators of a specific type.

    T

    type of value to accumulate

    Annotations
    @deprecated
    Deprecated

    (Since version 2.0.0) use AccumulatorV2

Value Members

  1. object Partitioner extends Serializable

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  2. object Resubmitted extends TaskFailedReason with Product with Serializable

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    :: DeveloperApi :: A org.apache.spark.scheduler.ShuffleMapTask that completed successfully earlier, but we lost the executor before the stage completed.

    :: DeveloperApi :: A org.apache.spark.scheduler.ShuffleMapTask that completed successfully earlier, but we lost the executor before the stage completed. This means Spark needs to reschedule the task to be re-executed on a different executor.

    Annotations
    @DeveloperApi()
  3. val SPARK_BRANCH: String

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  4. val SPARK_BUILD_DATE: String

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  5. val SPARK_BUILD_USER: String

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  6. val SPARK_REPO_URL: String

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  7. val SPARK_REVISION: String

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  8. val SPARK_VERSION: String

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  9. object SparkContext extends Logging

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    The SparkContext object contains a number of implicit conversions and parameters for use with various Spark features.

  10. object SparkEnv extends Logging

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  11. object SparkFiles

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    Resolves paths to files added through SparkContext.addFile().

  12. object Success extends TaskEndReason with Product with Serializable

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    :: DeveloperApi :: Task succeeded.

    :: DeveloperApi :: Task succeeded.

    Annotations
    @DeveloperApi()
  13. object TaskContext extends Serializable

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  14. object TaskKilled extends TaskFailedReason with Product with Serializable

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    :: DeveloperApi :: Task was killed intentionally and needs to be rescheduled.

    :: DeveloperApi :: Task was killed intentionally and needs to be rescheduled.

    Annotations
    @DeveloperApi()
  15. object TaskResultLost extends TaskFailedReason with Product with Serializable

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    :: DeveloperApi :: The task finished successfully, but the result was lost from the executor's block manager before it was fetched.

    :: DeveloperApi :: The task finished successfully, but the result was lost from the executor's block manager before it was fetched.

    Annotations
    @DeveloperApi()
  16. object UnknownReason extends TaskFailedReason with Product with Serializable

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    :: DeveloperApi :: We don't know why the task ended -- for example, because of a ClassNotFound exception when deserializing the task result.

    :: DeveloperApi :: We don't know why the task ended -- for example, because of a ClassNotFound exception when deserializing the task result.

    Annotations
    @DeveloperApi()
  17. object WritableConverter extends Serializable

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  18. object WritableFactory extends Serializable

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  19. package api

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  20. package broadcast

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    Spark's broadcast variables, used to broadcast immutable datasets to all nodes.

  21. package graphx

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    ALPHA COMPONENT GraphX is a graph processing framework built on top of Spark.

    ALPHA COMPONENT GraphX is a graph processing framework built on top of Spark.

  22. package input

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  23. package internal

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  24. package io

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    IO codecs used for compression.

    IO codecs used for compression. See org.apache.spark.io.CompressionCodec.

  25. package launcher

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  26. package mapred

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  27. package metrics

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  28. package ml

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    DataFrame-based machine learning APIs to let users quickly assemble and configure practical machine learning pipelines.

  29. package mllib

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    RDD-based machine learning APIs (in maintenance mode).

    RDD-based machine learning APIs (in maintenance mode).

    The spark.mllib package is in maintenance mode as of the Spark 2.0.0 release to encourage migration to the DataFrame-based APIs under the org.apache.spark.ml package. While in maintenance mode,

    • no new features in the RDD-based spark.mllib package will be accepted, unless they block implementing new features in the DataFrame-based spark.ml package;
    • bug fixes in the RDD-based APIs will still be accepted.

    The developers will continue adding more features to the DataFrame-based APIs in the 2.x series to reach feature parity with the RDD-based APIs. And once we reach feature parity, this package will be deprecated.

    See also

    SPARK-4591 to track the progress of feature parity

  30. package partial

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    :: Experimental ::

    :: Experimental ::

    Support for approximate results. This provides convenient api and also implementation for approximate calculation.

    See also

    org.apache.spark.rdd.RDD.countApprox

  31. package rdd

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    Provides several RDD implementations.

    Provides several RDD implementations. See org.apache.spark.rdd.RDD.

  32. package scheduler

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    Spark's scheduling components.

    Spark's scheduling components. This includes the org.apache.spark.scheduler.DAGScheduler and lower level org.apache.spark.scheduler.TaskScheduler.

  33. package security

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  34. package serializer

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    Pluggable serializers for RDD and shuffle data.

    Pluggable serializers for RDD and shuffle data.

    See also

    org.apache.spark.serializer.Serializer

  35. package sql

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    Allows the execution of relational queries, including those expressed in SQL using Spark.

  36. package status

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  37. package storage

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  38. package streaming

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    Spark Streaming functionality.

    Spark Streaming functionality. org.apache.spark.streaming.StreamingContext serves as the main entry point to Spark Streaming, while org.apache.spark.streaming.dstream.DStream is the data type representing a continuous sequence of RDDs, representing a continuous stream of data.

    In addition, org.apache.spark.streaming.dstream.PairDStreamFunctions contains operations available only on DStreams of key-value pairs, such as groupByKey and reduceByKey. These operations are automatically available on any DStream of the right type (e.g. DStream[(Int, Int)] through implicit conversions.

    For the Java API of Spark Streaming, take a look at the org.apache.spark.streaming.api.java.JavaStreamingContext which serves as the entry point, and the org.apache.spark.streaming.api.java.JavaDStream and the org.apache.spark.streaming.api.java.JavaPairDStream which have the DStream functionality.

  39. package ui

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  40. package util

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    Spark utilities.

Deprecated Value Members

  1. object AccumulatorParam extends Serializable

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    Annotations
    @deprecated
    Deprecated

    (Since version 2.0.0) use AccumulatorV2

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