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/*
* Scala (https://www.scala-lang.org)
*
* Copyright EPFL and Lightbend, Inc.
*
* Licensed under Apache License 2.0
* (http://www.apache.org/licenses/LICENSE-2.0).
*
* See the NOTICE file distributed with this work for
* additional information regarding copyright ownership.
*/
package scala.jdk
import java.io.{ObjectInputStream, ObjectOutputStream}
import java.util.Spliterator
import java.util.function.Consumer
import scala.collection.Stepper.EfficientSplit
import scala.collection.{AnyStepper, Factory, IterableFactoryDefaults, SeqFactory, Stepper, StepperShape, mutable}
import scala.reflect.ClassTag
/** An Accumulator for arbitrary element types, see [[Accumulator]]. */
final class AnyAccumulator[A]
extends Accumulator[A, AnyAccumulator, AnyAccumulator[A]]
with mutable.SeqOps[A, AnyAccumulator, AnyAccumulator[A]]
with IterableFactoryDefaults[A, AnyAccumulator]
with Serializable {
private[jdk] var current: Array[AnyRef] = AnyAccumulator.emptyAnyRefArray
private[jdk] var history: Array[Array[AnyRef]] = AnyAccumulator.emptyAnyRefArrayArray
private[jdk] var cumul: Array[Long] = AnyAccumulator.emptyLongArray
private[jdk] def cumulative(i: Int): Long = cumul(i)
override protected[this] def className: String = "AnyAccumulator"
def efficientStepper[S <: Stepper[_]](implicit shape: StepperShape[A, S]): S with EfficientSplit =
shape.parUnbox(new AnyAccumulatorStepper[A](this.asInstanceOf[AnyAccumulator[A]]))
private def expand(): Unit = {
if (index > 0) {
if (hIndex >= history.length) hExpand()
history(hIndex) = current
cumul(hIndex) = (if (hIndex > 0) cumulative(hIndex-1) else 0) + index
hIndex += 1
}
current = new Array[AnyRef](nextBlockSize)
index = 0
}
private def hExpand(): Unit = {
if (hIndex == 0) {
history = new Array[Array[AnyRef]](4)
cumul = new Array[Long](4)
}
else {
history = java.util.Arrays.copyOf(history, history.length << 1)
cumul = java.util.Arrays.copyOf(cumul, cumul.length << 1)
}
}
/** Appends an element to this `AnyAccumulator`. */
def addOne(a: A): this.type = {
totalSize += 1
if (index >= current.length) expand()
current(index) = a.asInstanceOf[AnyRef]
index += 1
this
}
/** Result collection consisting of all elements appended so far. */
override def result(): AnyAccumulator[A] = this
/** Removes all elements from `that` and appends them to this `AnyAccumulator`. */
def drain[A1 <: A](that: AnyAccumulator[A1]): Unit = {
var h = 0
var prev = 0L
var more = true
while (more && h < that.hIndex) {
val n = (that.cumulative(h) - prev).toInt
if (current.length - index >= n) {
System.arraycopy(that.history(h), 0, current, index, n)
prev = that.cumulative(h)
index += n
h += 1
}
else more = false
}
if (h >= that.hIndex && current.length - index >= that.index) {
if (that.index > 0) System.arraycopy(that.current, 0, current, index, that.index)
index += that.index
}
else {
val slots = (if (index > 0) 1 else 0) + that.hIndex - h
if (hIndex + slots > history.length) {
val n = math.max(4, 1 << (32 - java.lang.Integer.numberOfLeadingZeros(1 + hIndex + slots)))
history = java.util.Arrays.copyOf(history, n)
cumul = java.util.Arrays.copyOf(cumul, n)
}
var pv = if (hIndex > 0) cumulative(hIndex-1) else 0L
if (index > 0) {
pv += index
cumul(hIndex) = pv
history(hIndex) = if (index < (current.length >>> 3) && current.length > 32) java.util.Arrays.copyOf(current, index) else current
hIndex += 1
}
while (h < that.hIndex) {
pv += that.cumulative(h) - prev
prev = that.cumulative(h)
cumul(hIndex) = pv
history(hIndex) = that.history(h)
h += 1
hIndex += 1
}
index = that.index
current = that.current
}
totalSize += that.totalSize
that.clear()
}
override def clear(): Unit = {
super.clear()
current = AnyAccumulator.emptyAnyRefArray
history = AnyAccumulator.emptyAnyRefArrayArray
cumul = AnyAccumulator.emptyLongArray
}
/** Retrieves the `ix`th element. */
def apply(ix: Long): A = {
if (totalSize - ix <= index || hIndex == 0) current((ix - (totalSize - index)).toInt).asInstanceOf[A]
else {
val w = seekSlot(ix)
history((w >>> 32).toInt)((w & 0xFFFFFFFFL).toInt).asInstanceOf[A]
}
}
/** Retrieves the `ix`th element, using an `Int` index. */
def apply(i: Int): A = apply(i.toLong)
def update(idx: Long, elem: A): Unit = {
if (totalSize - idx <= index || hIndex == 0) current((idx - (totalSize - index)).toInt) = elem.asInstanceOf[AnyRef]
else {
val w = seekSlot(idx)
history((w >>> 32).toInt)((w & 0xFFFFFFFFL).toInt) = elem.asInstanceOf[AnyRef]
}
}
def update(idx: Int, elem: A): Unit = update(idx.toLong, elem)
/** Returns an `Iterator` over the contents of this `AnyAccumulator`. */
def iterator: Iterator[A] = stepper.iterator
def countLong(p: A => Boolean): Long = {
var r = 0L
val s = stepper
while (s.hasStep)
if (p(s.nextStep())) r += 1
r
}
/** Copy the elements in this `AnyAccumulator` into an `Array` */
override def toArray[B >: A : ClassTag]: Array[B] = {
if (totalSize > Int.MaxValue) throw new IllegalArgumentException("Too many elements accumulated for an array: "+totalSize.toString)
val a = new Array[B](totalSize.toInt)
var j = 0
var h = 0
var pv = 0L
while (h < hIndex) {
val x = history(h)
val n = cumulative(h) - pv
pv = cumulative(h)
var i = 0
while (i < n) {
a(j) = x(i).asInstanceOf[B]
i += 1
j += 1
}
h += 1
}
var i = 0
while (i < index) {
a(j) = current(i).asInstanceOf[B]
i += 1
j += 1
}
a
}
/** Copies the elements in this `AnyAccumulator` to a `List` */
override def toList: List[A] = {
var ans: List[A] = Nil
var i = index - 1
while (i >= 0) {
ans = current(i).asInstanceOf[A] :: ans
i -= 1
}
var h = hIndex - 1
while (h >= 0) {
val a = history(h)
i = (cumulative(h) - (if (h == 0) 0L else cumulative(h-1))).toInt - 1
while (i >= 0) {
ans = a(i).asInstanceOf[A] :: ans
i -= 1
}
h -= 1
}
ans
}
/**
* Copy the elements in this `AnyAccumulator` to a specified collection. Example use:
* `acc.to(Vector)`.
*/
override def to[C1](factory: Factory[A, C1]): C1 = {
if (totalSize > Int.MaxValue) throw new IllegalArgumentException("Too many elements accumulated for a Scala collection: "+totalSize.toString)
factory.fromSpecific(iterator)
}
override def iterableFactory: SeqFactory[AnyAccumulator] = AnyAccumulator
private def writeReplace(): AnyRef = new AnyAccumulator.SerializationProxy(this)
}
object AnyAccumulator extends collection.SeqFactory[AnyAccumulator] {
private val emptyAnyRefArray = new Array[AnyRef](0)
private val emptyAnyRefArrayArray = new Array[Array[AnyRef]](0)
private val emptyLongArray = new Array[Long](0)
import java.util.{function => jf}
/** A `Supplier` of `AnyAccumulator`s, suitable for use with `java.util.stream.Stream`'s `collect` method. */
def supplier[A]: jf.Supplier[AnyAccumulator[A]] = () => new AnyAccumulator[A]
/** A `BiConsumer` that adds an element to an `AnyAccumulator`, suitable for use with `java.util.stream.Stream`'s `collect` method. */
def adder[A]: jf.BiConsumer[AnyAccumulator[A], A] = (ac: AnyAccumulator[A], a: A) => ac addOne a
/** A `BiConsumer` that adds an `Int` to an `AnyAccumulator`, suitable for use with `java.util.stream.Stream`'s `collect` method. */
def unboxedIntAdder: jf.ObjIntConsumer[AnyAccumulator[Int]] = (ac: AnyAccumulator[Int], a: Int) => ac addOne a
/** A `BiConsumer` that adds a `Long` to an `AnyAccumulator`, suitable for use with `java.util.stream.Stream`'s `collect` method. */
def unboxedLongAdder: jf.ObjLongConsumer[AnyAccumulator[Long]] = (ac: AnyAccumulator[Long], a: Long) => ac addOne a
/** A `BiConsumer` that adds a `Double` to an `AnyAccumulator`, suitable for use with `java.util.stream.Stream`'s `collect` method. */
def unboxedDoubleAdder: jf.ObjDoubleConsumer[AnyAccumulator[Double]] = (ac: AnyAccumulator[Double], a: Double) => ac addOne a
/** A `BiConsumer` that merges `AnyAccumulator`s, suitable for use with `java.util.stream.Stream`'s `collect` method. */
def merger[A]: jf.BiConsumer[AnyAccumulator[A], AnyAccumulator[A]] = (a1: AnyAccumulator[A], a2: AnyAccumulator[A]) => a1 drain a2
def from[A](source: IterableOnce[A]): AnyAccumulator[A] = source match {
case acc: AnyAccumulator[A] => acc
case _ => new AnyAccumulator[A].addAll(source)
}
def empty[A]: AnyAccumulator[A] = new AnyAccumulator[A]
def newBuilder[A]: mutable.Builder[A, AnyAccumulator[A]] = new AnyAccumulator[A]
class SerializationProxy[A](@transient private val acc: AnyAccumulator[A]) extends Serializable {
@transient private var result: AnyAccumulator[AnyRef] = _
private def writeObject(out: ObjectOutputStream): Unit = {
out.defaultWriteObject()
val size = acc.sizeLong
out.writeLong(size)
val st = acc.stepper
while (st.hasStep)
out.writeObject(st.nextStep())
}
private def readObject(in: ObjectInputStream): Unit = {
in.defaultReadObject()
val res = new AnyAccumulator[AnyRef]()
var elems = in.readLong()
while (elems > 0) {
res += in.readObject()
elems -= 1L
}
result = res
}
private def readResolve(): AnyRef = result
}
}
private[jdk] class AnyAccumulatorStepper[A](private[this] val acc: AnyAccumulator[A]) extends AnyStepper[A] with EfficientSplit {
import java.util.Spliterator._
private var h: Int = 0
private var i: Int = 0
private var a: Array[AnyRef] = if (acc.hIndex > 0) acc.history(0) else acc.current
private var n: Long = if (acc.hIndex > 0) acc.cumulative(0) else acc.index
private var N: Long = acc.totalSize
private def duplicateSelf(limit: Long): AnyAccumulatorStepper[A] = {
val ans = new AnyAccumulatorStepper(acc)
ans.h = h
ans.i = i
ans.a = a
ans.n = n
ans.N = limit
ans
}
private def loadMore(): Unit = {
h += 1
if (h < acc.hIndex) { a = acc.history(h); n = acc.cumulative(h) - acc.cumulative(h-1) }
else { a = acc.current; n = acc.index }
i = 0
}
def characteristics: Int = ORDERED | SIZED | SUBSIZED
def estimateSize: Long = N
def hasStep: Boolean = N > 0
def nextStep(): A =
if (N <= 0) throw new NoSuchElementException("Next in empty Stepper")
else {
if (i >= n) loadMore()
val ans = a(i).asInstanceOf[A]
i += 1
N -= 1
ans
}
def trySplit(): AnyStepper[A] =
if (N <= 1) null
else {
val half = N >> 1
val M = (if (h <= 0) 0L else acc.cumulative(h-1)) + i
val R = M + half
val ans = duplicateSelf(half)
if (h < acc.hIndex) {
val w = acc.seekSlot(R)
h = (w >>> 32).toInt
if (h < acc.hIndex) {
a = acc.history(h)
n = acc.cumulative(h) - (if (h > 0) acc.cumulative(h-1) else 0)
}
else {
a = acc.current
n = acc.index
}
i = (w & 0xFFFFFFFFL).toInt
}
else i += half.toInt
N -= half
ans
}
override def spliterator[B >: A]: Spliterator[B] = new AnyStepper.AnyStepperSpliterator[B](this) {
// Overridden for efficiency
override def tryAdvance(c: Consumer[_ >: B]): Boolean = {
if (N <= 0) false
else {
if (i >= n) loadMore()
c.accept(a(i).asInstanceOf[B])
i += 1
N -= 1
true
}
}
// Overridden for efficiency
override def forEachRemaining(f: java.util.function.Consumer[_ >: B]): Unit = {
while (N > 0) {
if (i >= n) loadMore()
val i0 = i
if ((n-i) > N) n = i + N.toInt
while (i < n) {
f.accept(a(i).asInstanceOf[B])
i += 1
}
N -= (n - i0)
}
}
}
}