Module org.elasticsearch.compute
Package org.elasticsearch.compute.data

Class FloatBigArrayVector

java.lang.Object
org.elasticsearch.compute.data.AbstractNonThreadSafeRefCounted
org.elasticsearch.compute.data.FloatBigArrayVector
All Implemented Interfaces:
Closeable, AutoCloseable, org.apache.lucene.util.Accountable, FloatVector, Vector, org.elasticsearch.core.RefCounted, org.elasticsearch.core.Releasable
public final class FloatBigArrayVector extends AbstractNonThreadSafeRefCounted implements FloatVector, org.elasticsearch.core.Releasable
Vector implementation that defers to an enclosed FloatArray. Does not take ownership of the array and does not adjust circuit breakers to account for it. This class is generated. Edit X-BigArrayVector.java.st instead.

  • Constructor Details

    • FloatBigArrayVector

      public FloatBigArrayVector(FloatArray values, int positionCount, BlockFactory blockFactory)

  • Method Details

    • asBlock

      public FloatBlock asBlock()
      Description copied from interface: Vector
      Returns a new Block containing this vector.
      Specified by:
      asBlock in interface FloatVector
      Specified by:
      asBlock in interface Vector
      Returns:
      a new Block containing this vector

    • getFloat

      public float getFloat(int position)
      Specified by:
      getFloat in interface FloatVector

    • slice

      public FloatVector slice(int beginInclusive, int endExclusive)
      Description copied from interface: FloatVector
      Return a subset of this vector from beginInclusive to endExclusive. This may return the same instance if the range covers all positions, but if it does it will RefCounted.incRef() it.
      Specified by:
      slice in interface FloatVector
      Specified by:
      slice in interface Vector

    • elementType

      public ElementType elementType()
      Description copied from interface: Vector
      Returns the element type of this vector.
      Specified by:
      elementType in interface Vector
      Returns:
      the element type of this vector

    • isConstant

      public boolean isConstant()
      Description copied from interface: Vector
      Returns true iff this vector is a constant vector - returns the same constant value for every position.
      Specified by:
      isConstant in interface Vector
      Returns:
      true iff this vector is a constant vector - returns the same constant value for every position

    • ramBytesUsed

      public long ramBytesUsed()
      Specified by:
      ramBytesUsed in interface org.apache.lucene.util.Accountable

    • filter

      public FloatVector filter(boolean mayContainDuplicates, int... positions)
      Description copied from interface: Vector
      Creates a new vector that only exposes the positions provided. Materialization of the selected positions is avoided.
      Specified by:
      filter in interface FloatVector
      Specified by:
      filter in interface Vector
      Parameters:
      mayContainDuplicates - may the positions array contain duplicate positions?
      positions - the positions to retain
      Returns:
      a filtered vector

    • keepMask

      public FloatBlock keepMask(BooleanVector mask)
      Description copied from interface: Vector
      Build a Block the same values as this Vector, but replacing all values for which mask.getBooleanValue(position) returns false with null. The mask vector must be at least as long as this Vector.
      Specified by:
      keepMask in interface FloatVector
      Specified by:
      keepMask in interface Vector

    • lookup

      public org.elasticsearch.core.ReleasableIterator<FloatBlock> lookup(IntBlock positions, ByteSizeValue targetBlockSize)
      Description copied from interface: Vector
      Builds an Iterator of new Blocks with the same Vector.elementType() as this Vector whose values are copied from positions in this Vector. It has the same number of positions as the positions parameter.

      For example, if this vector contained [a, b, c] and were called with the block [0, 1, 1, [1, 2]] then the result would be [a, b, b, [b, c]].

      This process produces count(positions) values per positions which could be quite large. Instead of returning a single Block, this returns an Iterator of Blocks containing all of the promised values.

      The returned ReleasableIterator may retain a reference to the positions parameter. Close it to release those references.

      This block is built using the same BlockFactory as was used to build the positions parameter.

      Specified by:
      lookup in interface FloatVector
      Specified by:
      lookup in interface Vector

    • closeInternal

      public void closeInternal()
      Description copied from class: AbstractNonThreadSafeRefCounted
      This is called when the number of references reaches zero. This is where resources should be released (adjusting circuit breakers if needed).

    • equals

      public boolean equals(Object obj)
      Description copied from interface: FloatVector
      Compares the given object with this vector for equality. Returns true if and only if the given object is a FloatVector, and both vectors are equal.
      Specified by:
      equals in interface FloatVector
      Overrides:
      equals in class Object

    • hashCode

      public int hashCode()
      Description copied from interface: FloatVector
      Returns the hash code of this vector, as defined by FloatVector.hash(FloatVector).
      Specified by:
      hashCode in interface FloatVector
      Overrides:
      hashCode in class Object

    • toString

      public String toString()
      Overrides:
      toString in class Object

    • getPositionCount

      public final int getPositionCount()
      Description copied from interface: Vector
      Returns the number of positions (rows) in this vector. See class javadoc for the usual way to iterate these positions.
      Specified by:
      getPositionCount in interface Vector
      Returns:
      the number of positions (rows) in this vector

    • blockFactory

      public BlockFactory blockFactory()
      Description copied from interface: Vector
      The block factory associated with this vector.
      Specified by:
      blockFactory in interface Vector

    • allowPassingToDifferentDriver

      public void allowPassingToDifferentDriver()
      Description copied from interface: Vector
      Before passing a Vector to another Driver, it is necessary to switch the owning block factory to its parent, which is associated with the global circuit breaker. This ensures that when the new driver releases this Vector, it returns memory directly to the parent block factory instead of the local block factory of this Block. This is important because the local block factory is not thread safe and doesn't support simultaneous access by more than one thread.
      Specified by:
      allowPassingToDifferentDriver in interface Vector