org.bdgenomics.adam.rdd

MultisampleGenomicRDD

trait MultisampleGenomicRDD[T, U <: MultisampleGenomicRDD[T, U]] extends GenomicRDD[T, U]

A trait describing a GenomicRDD with data from multiple samples.

Linear Supertypes
GenomicRDD[T, U], AnyRef, Any
Known Subclasses
GenotypeRDD, MultisampleAvroGenomicRDD, VariantContextRDD
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  1. MultisampleGenomicRDD
  2. GenomicRDD
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Abstract Value Members

  1. abstract def buildTree(rdd: RDD[(ReferenceRegion, T)])(implicit tTag: ClassTag[T]): IntervalArray[ReferenceRegion, T]

    Attributes
    protected
    Definition Classes
    GenomicRDD

  2. abstract def getReferenceRegions(elem: T): Seq[ReferenceRegion]

    Attributes
    protected
    Definition Classes
    GenomicRDD

  3. abstract val rdd: RDD[T]

    The RDD of genomic data that we are wrapping.

    The RDD of genomic data that we are wrapping.

    Definition Classes
    GenomicRDD

  4. abstract def replaceRdd(newRdd: RDD[T]): U

    Attributes
    protected
    Definition Classes
    GenomicRDD

  5. abstract val samples: Seq[Sample]

    The samples who have data contained in this GenomicRDD.

  6. abstract val sequences: SequenceDictionary

    The sequence dictionary describing the reference assembly this data is aligned to.

    The sequence dictionary describing the reference assembly this data is aligned to.

    Definition Classes
    GenomicRDD

Concrete Value Members

  1. final def !=(arg0: AnyRef): Boolean

    Definition Classes
    AnyRef

  2. final def !=(arg0: Any): Boolean

    Definition Classes
    Any

  3. final def ##(): Int

    Definition Classes
    AnyRef → Any

  4. final def ==(arg0: AnyRef): Boolean

    Definition Classes
    AnyRef

  5. final def ==(arg0: Any): Boolean

    Definition Classes
    Any

  6. final def asInstanceOf[T0]: T0

    Definition Classes
    Any

  7. def broadcastRegionJoin[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(T, X), Z]](genomicRdd: GenomicRDD[X, Y])(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(T, X), Z]

    Performs a broadcast inner join between this RDD and another RDD.

    Performs a broadcast inner join between this RDD and another RDD.

    In a broadcast join, the left RDD (this RDD) is collected to the driver, and broadcast to all the nodes in the cluster. The key equality function used for this join is the reference region overlap function. Since this is an inner join, all values who do not overlap a value from the other RDD are dropped.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space.

    Definition Classes
    GenomicRDD

  8. def broadcastRegionJoinAndGroupByRight[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(Iterable[T], X), Z]](genomicRdd: GenomicRDD[X, Y])(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(Iterable[T], X), Z]

    Performs a broadcast inner join between this RDD and another RDD.

    Performs a broadcast inner join between this RDD and another RDD.

    In a broadcast join, the left RDD (this RDD) is collected to the driver, and broadcast to all the nodes in the cluster. The key equality function used for this join is the reference region overlap function. Since this is an inner join, all values who do not overlap a value from the other RDD are dropped.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space.

    Definition Classes
    GenomicRDD

  9. def clone(): AnyRef

    Attributes
    protected[java.lang]
    Definition Classes
    AnyRef
    Annotations
    @throws( ... )

  10. final def eq(arg0: AnyRef): Boolean

    Definition Classes
    AnyRef

  11. def equals(arg0: Any): Boolean

    Definition Classes
    AnyRef → Any

  12. def filterByOverlappingRegion(query: ReferenceRegion): U

    Runs a filter that selects data in the underlying RDD that overlaps a single genomic region.

    Runs a filter that selects data in the underlying RDD that overlaps a single genomic region.

    query

    The region to query for.

    returns

    Returns a new GenomicRDD containing only data that overlaps the query region.

    Definition Classes
    GenomicRDD

  13. def filterByOverlappingRegions(querys: List[ReferenceRegion]): U

    Runs a filter that selects data in the underlying RDD that overlaps several genomic regions.

    Runs a filter that selects data in the underlying RDD that overlaps several genomic regions.

    querys

    The regions to query for.

    returns

    Returns a new GenomicRDD containing only data that overlaps the querys region.

    Definition Classes
    GenomicRDD

  14. def finalize(): Unit

    Attributes
    protected[java.lang]
    Definition Classes
    AnyRef
    Annotations
    @throws( classOf[java.lang.Throwable] )

  15. def flattenRddByRegions(): RDD[(ReferenceRegion, T)]

    Attributes
    protected
    Definition Classes
    GenomicRDD

  16. def fullOuterShuffleRegionJoin[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(Option[T], Option[X]), Z]](genomicRdd: GenomicRDD[X, Y], optPartitions: Option[Int] = None)(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(Option[T], Option[X]), Z]

    Performs a sort-merge full outer join between this RDD and another RDD.

    Performs a sort-merge full outer join between this RDD and another RDD.

    In a sort-merge join, both RDDs are co-partitioned and sorted. The partitions are then zipped, and we do a merge join on each partition. The key equality function used for this join is the reference region overlap function. Since this is a full outer join, if a value from either RDD does not overlap any values in the other RDD, it will be paired with a None in the product of the join.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space, and values that did not overlap will be paired with a None.

    Definition Classes
    GenomicRDD

  17. final def getClass(): Class[_]

    Definition Classes
    AnyRef → Any

  18. def hashCode(): Int

    Definition Classes
    AnyRef → Any

  19. final def isInstanceOf[T0]: Boolean

    Definition Classes
    Any

  20. lazy val jrdd: JavaRDD[T]

    The underlying RDD of genomic data, as a JavaRDD.

    The underlying RDD of genomic data, as a JavaRDD.

    Definition Classes
    GenomicRDD

  21. def leftOuterShuffleRegionJoin[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(T, Option[X]), Z]](genomicRdd: GenomicRDD[X, Y], optPartitions: Option[Int] = None)(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(T, Option[X]), Z]

    Performs a sort-merge left outer join between this RDD and another RDD.

    Performs a sort-merge left outer join between this RDD and another RDD.

    In a sort-merge join, both RDDs are co-partitioned and sorted. The partitions are then zipped, and we do a merge join on each partition. The key equality function used for this join is the reference region overlap function. Since this is a left outer join, all values in the right RDD that do not overlap a value from the left RDD are dropped. If a value from the left RDD does not overlap any values in the right RDD, it will be paired with a None in the product of the join.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space, and all keys from the left RDD that did not overlap a key in the right RDD.

    Definition Classes
    GenomicRDD

  22. final def ne(arg0: AnyRef): Boolean

    Definition Classes
    AnyRef

  23. final def notify(): Unit

    Definition Classes
    AnyRef

  24. final def notifyAll(): Unit

    Definition Classes
    AnyRef

  25. def pipe[X, Y <: GenomicRDD[X, Y], V <: InFormatter[T, U, V]](cmd: String, files: Seq[String] = Seq.empty, environment: Map[String, String] = Map.empty, flankSize: Int = 0)(implicit tFormatterCompanion: InFormatterCompanion[T, U, V], xFormatter: OutFormatter[X], convFn: (U, RDD[X]) ⇒ Y, tManifest: ClassTag[T], xManifest: ClassTag[X]): Y

    Pipes genomic data to a subprocess that runs in parallel using Spark.

    Pipes genomic data to a subprocess that runs in parallel using Spark.

    Files are substituted in to the command with a $x syntax. E.g., to invoke a command that uses the first file from the files Seq, use $0.

    Pipes require the presence of an InFormatterCompanion and an OutFormatter as implicit values. The InFormatterCompanion should be a singleton whose apply method builds an InFormatter given a specific type of GenomicRDD. The implicit InFormatterCompanion yields an InFormatter which is used to format the input to the pipe, and the implicit OutFormatter is used to parse the output from the pipe.

    X

    The type of the record created by the piped command.

    Y

    A GenomicRDD containing X's.

    V

    The InFormatter to use for formatting the data being piped to the command.

    cmd

    Command to run.

    files

    Files to make locally available to the commands being run. Default is empty.

    environment

    A map containing environment variable/value pairs to set in the environment for the newly created process. Default is empty.

    flankSize

    Number of bases to flank each command invocation by.

    returns

    Returns a new GenomicRDD of type Y.

    Definition Classes
    GenomicRDD

  26. def rightOuterBroadcastRegionJoin[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(Option[T], X), Z]](genomicRdd: GenomicRDD[X, Y])(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(Option[T], X), Z]

    Performs a broadcast right outer join between this RDD and another RDD.

    Performs a broadcast right outer join between this RDD and another RDD.

    In a broadcast join, the left RDD (this RDD) is collected to the driver, and broadcast to all the nodes in the cluster. The key equality function used for this join is the reference region overlap function. Since this is a right outer join, all values in the left RDD that do not overlap a value from the right RDD are dropped. If a value from the right RDD does not overlap any values in the left RDD, it will be paired with a None in the product of the join.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space, and all keys from the right RDD that did not overlap a key in the left RDD.

    Definition Classes
    GenomicRDD

  27. def rightOuterBroadcastRegionJoinAndGroupByRight[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(Iterable[T], X), Z]](genomicRdd: GenomicRDD[X, Y])(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(Iterable[T], X), Z]

    Performs a broadcast right outer join between this RDD and another RDD.

    Performs a broadcast right outer join between this RDD and another RDD.

    In a broadcast join, the left RDD (this RDD) is collected to the driver, and broadcast to all the nodes in the cluster. The key equality function used for this join is the reference region overlap function. Since this is a right outer join, all values in the left RDD that do not overlap a value from the right RDD are dropped. If a value from the right RDD does not overlap any values in the left RDD, it will be paired with a None in the product of the join.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space, and all keys from the right RDD that did not overlap a key in the left RDD.

    Definition Classes
    GenomicRDD

  28. def rightOuterShuffleRegionJoin[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(Option[T], X), Z]](genomicRdd: GenomicRDD[X, Y], optPartitions: Option[Int] = None)(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(Option[T], X), Z]

    Performs a sort-merge right outer join between this RDD and another RDD.

    Performs a sort-merge right outer join between this RDD and another RDD.

    In a sort-merge join, both RDDs are co-partitioned and sorted. The partitions are then zipped, and we do a merge join on each partition. The key equality function used for this join is the reference region overlap function. Since this is a right outer join, all values in the left RDD that do not overlap a value from the right RDD are dropped. If a value from the right RDD does not overlap any values in the left RDD, it will be paired with a None in the product of the join.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space, and all keys from the right RDD that did not overlap a key in the left RDD.

    Definition Classes
    GenomicRDD

  29. def rightOuterShuffleRegionJoinAndGroupByLeft[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(Option[T], Iterable[X]), Z]](genomicRdd: GenomicRDD[X, Y], optPartitions: Option[Int] = None)(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(Option[T], Iterable[X]), Z]

    Performs a sort-merge right outer join between this RDD and another RDD, followed by a groupBy on the left value, if not null.

    Performs a sort-merge right outer join between this RDD and another RDD, followed by a groupBy on the left value, if not null.

    In a sort-merge join, both RDDs are co-partitioned and sorted. The partitions are then zipped, and we do a merge join on each partition. The key equality function used for this join is the reference region overlap function. In the same operation, we group all values by the left item in the RDD. Since this is a right outer join, all values from the right RDD who did not overlap a value from the left RDD are placed into a length-1 Iterable with a None key.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space, grouped together by the value they overlapped in the left RDD, and all values from the right RDD that did not overlap an item in the left RDD.

    Definition Classes
    GenomicRDD

  30. def shuffleRegionJoin[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(T, X), Z]](genomicRdd: GenomicRDD[X, Y], optPartitions: Option[Int] = None)(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(T, X), Z]

    Performs a sort-merge inner join between this RDD and another RDD.

    Performs a sort-merge inner join between this RDD and another RDD.

    In a sort-merge join, both RDDs are co-partitioned and sorted. The partitions are then zipped, and we do a merge join on each partition. The key equality function used for this join is the reference region overlap function. Since this is an inner join, all values who do not overlap a value from the other RDD are dropped.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space.

    Definition Classes
    GenomicRDD

  31. def shuffleRegionJoinAndGroupByLeft[X, Y <: GenomicRDD[X, Y], Z <: GenomicRDD[(T, Iterable[X]), Z]](genomicRdd: GenomicRDD[X, Y], optPartitions: Option[Int] = None)(implicit tTag: ClassTag[T], xTag: ClassTag[X]): GenomicRDD[(T, Iterable[X]), Z]

    Performs a sort-merge inner join between this RDD and another RDD, followed by a groupBy on the left value.

    Performs a sort-merge inner join between this RDD and another RDD, followed by a groupBy on the left value.

    In a sort-merge join, both RDDs are co-partitioned and sorted. The partitions are then zipped, and we do a merge join on each partition. The key equality function used for this join is the reference region overlap function. Since this is an inner join, all values who do not overlap a value from the other RDD are dropped. In the same operation, we group all values by the left item in the RDD.

    genomicRdd

    The right RDD in the join.

    returns

    Returns a new genomic RDD containing all pairs of keys that overlapped in the genomic coordinate space, grouped together by the value they overlapped in the left RDD..

    Definition Classes
    GenomicRDD

  32. def sort(): U

    Sorts our genome aligned data by reference positions, with contigs ordered by index.

    Sorts our genome aligned data by reference positions, with contigs ordered by index.

    returns

    Returns a new RDD containing sorted data.

    Definition Classes
    GenomicRDD
    Note

    Does not support data that is unaligned or where objects align to multiple positions.

    See also

    sortLexicographically

  33. def sortLexicographically(): U

    Sorts our genome aligned data by reference positions, with contigs ordered lexicographically.

    Sorts our genome aligned data by reference positions, with contigs ordered lexicographically.

    returns

    Returns a new RDD containing sorted data.

    Definition Classes
    GenomicRDD
    Note

    Does not support data that is unaligned or where objects align to multiple positions.

    See also

    sort

  34. final def synchronized[T0](arg0: ⇒ T0): T0

    Definition Classes
    AnyRef

  35. def toString(): String

    Definition Classes
    AnyRef → Any

  36. def transform(tFn: (RDD[T]) ⇒ RDD[T]): U

    Applies a function that transforms the underlying RDD into a new RDD.

    Applies a function that transforms the underlying RDD into a new RDD.

    tFn

    A function that transforms the underlying RDD.

    returns

    A new RDD where the RDD of genomic data has been replaced, but the metadata (sequence dictionary, and etc) is copied without modification.

    Definition Classes
    GenomicRDD

  37. final def wait(): Unit

    Definition Classes
    AnyRef
    Annotations
    @throws( ... )

  38. final def wait(arg0: Long, arg1: Int): Unit

    Definition Classes
    AnyRef
    Annotations
    @throws( ... )

  39. final def wait(arg0: Long): Unit

    Definition Classes
    AnyRef
    Annotations
    @throws( ... )

Inherited from GenomicRDD[T, U]

Inherited from AnyRef

Inherited from Any

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