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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.concurrent.duration

import java.lang.{ Double => JDouble }
import scala.collection.StringParsers

object Duration {

  /**
   * Construct a Duration from the given length and unit. Observe that nanosecond precision may be lost if
   *
   *  - the unit is NANOSECONDS
   *  - and the length has an absolute value greater than `2^53`
   *
   * Infinite inputs (and NaN) are converted into [[Duration.Inf]], [[Duration.MinusInf]] and [[Duration.Undefined]], respectively.
   *
   * @throws IllegalArgumentException if the length was finite but the resulting duration cannot be expressed as a [[FiniteDuration]]
   */
  def apply(length: Double, unit: TimeUnit): Duration     = fromNanos(unit.toNanos(1) * length)

  /**
   * Construct a finite duration from the given length and time unit. The unit given is retained
   * throughout calculations as long as possible, so that it can be retrieved later.
   */
  def apply(length: Long, unit: TimeUnit): FiniteDuration = new FiniteDuration(length, unit)

  /**
   * Construct a finite duration from the given length and time unit, where the latter is
   * looked up in a list of string representation. Valid choices are:
   *
   * `d, day, h, hr, hour, m, min, minute, s, sec, second, ms, milli, millisecond, µs, micro, microsecond, ns, nano, nanosecond`
   * and their pluralized forms (for every but the first mentioned form of each unit, i.e. no "ds", but "days").
   */
  def apply(length: Long, unit: String): FiniteDuration   = new FiniteDuration(length,  Duration.timeUnit(unit))

  // Double stores 52 bits mantissa, but there is an implied '1' in front, making the limit 2^53
  // private[this] final val maxPreciseDouble = 9007199254740992d // not used after https://github.com/scala/scala/pull/9233

  /**
   * Parse String into Duration.  Format is `""`, where
   * whitespace is allowed before, between and after the parts. Infinities are
   * designated by `"Inf"`, `"PlusInf"`, `"+Inf"`, `"Duration.Inf"` and `"-Inf"`, `"MinusInf"` or `"Duration.MinusInf"`.
   * Undefined is designated by `"Duration.Undefined"`.
   *
   * @throws NumberFormatException if format is not parsable
   */
  def apply(s: String): Duration = {
    val s1: String = s filterNot (_.isWhitespace)
    s1 match {
      case "Inf" | "PlusInf" | "+Inf" | "Duration.Inf" => Inf
      case "MinusInf" | "-Inf" | "Duration.MinusInf"   => MinusInf
      case "Duration.Undefined"                        => Undefined
      case _                                           =>
        val unitName = s1.reverse.takeWhile(_.isLetter).reverse
        timeUnit get unitName match {
          case Some(unit) =>
            val valueStr = s1 dropRight unitName.length
            StringParsers.parseLong(valueStr).map(Duration(_, unit))
              .getOrElse(Duration(JDouble.parseDouble(valueStr), unit))
          case _          => throw new NumberFormatException("format error " + s)
        }
    }
  }

  // "ms milli millisecond" -> List("ms", "milli", "millis", "millisecond", "milliseconds")
  private[this] def words(s: String) = (s.trim split "\\s+").toList
  private[this] def expandLabels(labels: String): List[String] = {
    val hd :: rest = words(labels): @unchecked
    hd :: rest.flatMap(s => List(s, s + "s"))
  }
  private[this] val timeUnitLabels = List(
    DAYS         -> "d day",
    HOURS        -> "h hr hour",
    MINUTES      -> "m min minute",
    SECONDS      -> "s sec second",
    MILLISECONDS -> "ms milli millisecond",
    MICROSECONDS -> "µs micro microsecond",
    NANOSECONDS  -> "ns nano nanosecond"
  )

  // TimeUnit => standard label
  protected[duration] val timeUnitName: Map[TimeUnit, String] =
    timeUnitLabels.toMap.view.mapValues(s => words(s).last).toMap

  // Label => TimeUnit
  protected[duration] val timeUnit: Map[String, TimeUnit] =
    timeUnitLabels.flatMap{ case (unit, names) => expandLabels(names) map (_ -> unit) }.toMap

  /**
   * Extract length and time unit out of a string, where the format must match the description for [[Duration$.apply(s:String)* apply(String)]].
   * The extractor will not match for malformed strings or non-finite durations.
   */
  def unapply(s: String): Option[(Long, TimeUnit)] =
    ( try Some(apply(s)) catch { case _: RuntimeException => None } ) flatMap unapply

  /**
   * Extract length and time unit out of a duration, if it is finite.
   */
  def unapply(d: Duration): Option[(Long, TimeUnit)] =
    if (d.isFinite) Some((d.length, d.unit)) else None

  /**
   * Construct a possibly infinite or undefined Duration from the given number of nanoseconds.
   *
   *  - `Double.PositiveInfinity` is mapped to [[Duration.Inf]]
   *  - `Double.NegativeInfinity` is mapped to [[Duration.MinusInf]]
   *  - `Double.NaN` is mapped to [[Duration.Undefined]]
   *  - `-0d` is mapped to [[Duration.Zero]] (exactly like `0d`)
   *
   * The semantics of the resulting Duration objects matches the semantics of their Double
   * counterparts with respect to arithmetic operations.
   *
   * @throws IllegalArgumentException if the length was finite but the resulting duration cannot be expressed as a [[FiniteDuration]]
   */
  def fromNanos(nanos: Double): Duration = {
    if (nanos.isInfinite)
      if (nanos > 0) Inf else MinusInf
    else if (JDouble.isNaN(nanos))
      Undefined
    else if (nanos > Long.MaxValue || nanos < Long.MinValue)
      throw new IllegalArgumentException("trying to construct too large duration with " + nanos + "ns")
    else
      fromNanos(nanos.round)
  }

  private[this] final val ns_per_µs  = 1000L
  private[this] final val ns_per_ms  = ns_per_µs  * 1000
  private[this] final val ns_per_s   = ns_per_ms  * 1000
  private[this] final val ns_per_min = ns_per_s   * 60
  private[this] final val ns_per_h   = ns_per_min * 60
  private[this] final val ns_per_d   = ns_per_h   * 24

  /**
   * Construct a finite duration from the given number of nanoseconds. The
   * result will have the coarsest possible time unit which can exactly express
   * this duration.
   *
   * @throws IllegalArgumentException for `Long.MinValue` since that would lead to inconsistent behavior afterwards (cannot be negated)
   */
  def fromNanos(nanos: Long): FiniteDuration = {
         if (nanos % ns_per_d   == 0) Duration(nanos / ns_per_d  , DAYS)
    else if (nanos % ns_per_h   == 0) Duration(nanos / ns_per_h  , HOURS)
    else if (nanos % ns_per_min == 0) Duration(nanos / ns_per_min, MINUTES)
    else if (nanos % ns_per_s   == 0) Duration(nanos / ns_per_s  , SECONDS)
    else if (nanos % ns_per_ms  == 0) Duration(nanos / ns_per_ms , MILLISECONDS)
    else if (nanos % ns_per_µs  == 0) Duration(nanos / ns_per_µs , MICROSECONDS)
    else Duration(nanos, NANOSECONDS)
  }

  /**
   * Preconstructed value of `0.days`.
   */
  // unit as coarse as possible to keep (_ + Zero) sane unit-wise
  val Zero: FiniteDuration = new FiniteDuration(0, DAYS)

  /**
   * The Undefined value corresponds closely to Double.NaN:
   *
   *  - it is the result of otherwise invalid operations
   *  - it does not equal itself (according to `equals()`)
   *  - it compares greater than any other Duration apart from itself (for which `compare` returns 0)
   *
   * The particular comparison semantics mirror those of Double.NaN.
   *
   * '''''Use [[eq]] when checking an input of a method against this value.'''''
   */
  val Undefined: Infinite = new Infinite {
    override def toString = "Duration.Undefined"
    override def equals(other: Any): Boolean  = false
    override def +(other: Duration): Duration = this
    override def -(other: Duration): Duration = this
    override def *(factor: Double): Duration  = this
    override def /(factor: Double): Duration  = this
    override def /(other: Duration): Double   = Double.NaN
    def compare(other: Duration): Int         = if (other eq this) 0 else 1
    def unary_- : Duration = this
    def toUnit(unit: TimeUnit): Double = Double.NaN
    private def readResolve(): AnyRef = Undefined      // Instructs deserialization to use this same instance
  }

  sealed abstract class Infinite extends Duration {
    def +(other: Duration): Duration = other match {
      case x if x eq Undefined      => Undefined
      case x: Infinite if x ne this => Undefined
      case _                        => this
    }
    def -(other: Duration): Duration = other match {
      case x if x eq Undefined      => Undefined
      case x: Infinite if x eq this => Undefined
      case _                        => this
    }

    def *(factor: Double): Duration =
      if (factor == 0d || JDouble.isNaN(factor)) Undefined
      else if (factor < 0d) -this
      else this
    def /(divisor: Double): Duration =
      if (JDouble.isNaN(divisor) || divisor.isInfinite) Undefined
      else if ((divisor compare 0d) < 0) -this
      else this
    def /(divisor: Duration): Double = divisor match {
      case _: Infinite => Double.NaN
      case x           => Double.PositiveInfinity * (if ((this > Zero) ^ (divisor >= Zero)) -1 else 1)
    }

    final def isFinite = false

    private[this] def fail(what: String) = throw new IllegalArgumentException(s"$what not allowed on infinite Durations")
    final def length: Long    = fail("length")
    final def unit: TimeUnit  = fail("unit")
    final def toNanos: Long   = fail("toNanos")
    final def toMicros: Long  = fail("toMicros")
    final def toMillis: Long  = fail("toMillis")
    final def toSeconds: Long = fail("toSeconds")
    final def toMinutes: Long = fail("toMinutes")
    final def toHours: Long   = fail("toHours")
    final def toDays: Long    = fail("toDays")

    final def toCoarsest: Duration = this
  }

  /**
   * Infinite duration: greater than any other (apart from Undefined) and not equal to any other
   * but itself. This value closely corresponds to Double.PositiveInfinity,
   * matching its semantics in arithmetic operations.
   */
  val Inf: Infinite = new Infinite  {
    override def toString: String      = "Duration.Inf"
    def compare(other: Duration): Int  = other match {
      case x if x eq Undefined => -1 // Undefined != Undefined
      case x if x eq this      => 0  // `case Inf` will include null checks in the byte code
      case _                   => 1
    }
    def unary_- : Duration             = MinusInf
    def toUnit(unit: TimeUnit): Double = Double.PositiveInfinity
    private def readResolve(): AnyRef  = Inf            // Instructs deserialization to use this same instance
  }

  /**
   * Infinite duration: less than any other and not equal to any other
   * but itself. This value closely corresponds to Double.NegativeInfinity,
   * matching its semantics in arithmetic operations.
   */
  val MinusInf: Infinite = new Infinite {
    override def toString: String      = "Duration.MinusInf"
    def compare(other: Duration): Int  = if (other eq this) 0 else -1
    def unary_- : Duration = Inf
    def toUnit(unit: TimeUnit): Double = Double.NegativeInfinity
    private def readResolve(): AnyRef  = MinusInf    // Instructs deserialization to use this same instance
  }

  // Java Factories

  /**
   * Construct a finite duration from the given length and time unit. The unit given is retained
   * throughout calculations as long as possible, so that it can be retrieved later.
   */
  def create(length: Long, unit: TimeUnit): FiniteDuration = apply(length, unit)
  /**
   * Construct a Duration from the given length and unit. Observe that nanosecond precision may be lost if
   *
   *  - the unit is NANOSECONDS
   *  - and the length has an absolute value greater than `2^53`
   *
   * Infinite inputs (and NaN) are converted into [[Duration.Inf]], [[Duration.MinusInf]] and [[Duration.Undefined]], respectively.
   *
   * @throws IllegalArgumentException if the length was finite but the resulting duration cannot be expressed as a [[FiniteDuration]]
   */
  def create(length: Double, unit: TimeUnit): Duration     = apply(length, unit)
  /**
   * Construct a finite duration from the given length and time unit, where the latter is
   * looked up in a list of string representation. Valid choices are:
   *
   * `d, day, h, hour, min, minute, s, sec, second, ms, milli, millisecond, µs, micro, microsecond, ns, nano, nanosecond`
   * and their pluralized forms (for every but the first mentioned form of each unit, i.e. no "ds", but "days").
   */
  def create(length: Long, unit: String): FiniteDuration   = apply(length, unit)
  /**
   * Parse String into Duration.  Format is `""`, where
   * whitespace is allowed before, between and after the parts. Infinities are
   * designated by `"Inf"`, `"PlusInf"`, `"+Inf"` and `"-Inf"` or `"MinusInf"`.
   *
   * @throws NumberFormatException if format is not parsable
   */
  def create(s: String): Duration                          = apply(s)

  /**
   * The natural ordering of durations matches the natural ordering for Double, including non-finite values.
   */
  implicit object DurationIsOrdered extends Ordering[Duration] {
    def compare(a: Duration, b: Duration): Int = a compare b
  }
}

/**
 * 

Utility for working with java.util.concurrent.TimeUnit durations.

* * '''''This class is not meant as a general purpose representation of time, it is * optimized for the needs of `scala.concurrent`.''''' * *

Basic Usage

* *

* Examples: * {{{ * import scala.concurrent.duration._ * * val duration = Duration(100, MILLISECONDS) * val duration = Duration(100, "millis") * * duration.toNanos * duration < 1.second * duration <= Duration.Inf * }}} * * '''''Invoking inexpressible conversions (like calling `toSeconds` on an infinite duration) will throw an IllegalArgumentException.''''' * *

* Implicits are also provided for Int, Long and Double. Example usage: * {{{ * import scala.concurrent.duration._ * * val duration = 100.millis * }}} * * '''''The DSL provided by the implicit conversions always allows construction of finite durations, even for infinite Double inputs; use Duration.Inf instead.''''' * * Extractors, parsing and arithmetic are also included: * {{{ * val d = Duration("1.2 µs") * val Duration(length, unit) = 5 millis * val d2 = d * 2.5 * val d3 = d2 + 1.millisecond * }}} * *

Handling of Time Units

* * Calculations performed on finite durations always retain the more precise unit of either operand, no matter * whether a coarser unit would be able to exactly express the same duration. This means that Duration can be * used as a lossless container for a (length, unit) pair if it is constructed using the corresponding methods * and no arithmetic is performed on it; adding/subtracting durations should in that case be done with care. * *

Correspondence to Double Semantics

* * The semantics of arithmetic operations on Duration are two-fold: * * - exact addition/subtraction with nanosecond resolution for finite durations, independent of the summands' magnitude * - isomorphic to `java.lang.Double` when it comes to infinite or undefined values * * The conversion between Duration and Double is done using [[Duration.toUnit]] (with unit NANOSECONDS) * and [[Duration$.fromNanos(nanos:Double)* Duration.fromNanos(Double)]] * *

Ordering

* * The default ordering is consistent with the ordering of Double numbers, which means that Undefined is * considered greater than all other durations, including [[Duration.Inf]]. * * @define exc @throws IllegalArgumentException when invoked on a non-finite duration * * @define ovf @throws IllegalArgumentException in case of a finite overflow: the range of a finite duration is `+-(2^63-1)`ns, and no conversion to infinite durations takes place. */ sealed abstract class Duration extends Serializable with Ordered[Duration] { /** * Obtain the length of this Duration measured in the unit obtained by the `unit` method. * * $exc */ def length: Long /** * Obtain the time unit in which the length of this duration is measured. * * $exc */ def unit: TimeUnit /** * Return the length of this duration measured in whole nanoseconds, rounding towards zero. * * $exc */ def toNanos: Long /** * Return the length of this duration measured in whole microseconds, rounding towards zero. * * $exc */ def toMicros: Long /** * Return the length of this duration measured in whole milliseconds, rounding towards zero. * * $exc */ def toMillis: Long /** * Return the length of this duration measured in whole seconds, rounding towards zero. * * $exc */ def toSeconds: Long /** * Return the length of this duration measured in whole minutes, rounding towards zero. * * $exc */ def toMinutes: Long /** * Return the length of this duration measured in whole hours, rounding towards zero. * * $exc */ def toHours: Long /** * Return the length of this duration measured in whole days, rounding towards zero. * * $exc */ def toDays: Long /** * Return the number of nanoseconds as floating point number, scaled down to the given unit. * The result may not precisely represent this duration due to the Double datatype's inherent * limitations (mantissa size effectively 53 bits). Non-finite durations are represented as * - [[Duration.Undefined]] is mapped to Double.NaN * - [[Duration.Inf]] is mapped to Double.PositiveInfinity * - [[Duration.MinusInf]] is mapped to Double.NegativeInfinity */ def toUnit(unit: TimeUnit): Double /** * Return the sum of that duration and this. When involving non-finite summands the semantics match those * of Double. * * $ovf */ def +(other: Duration): Duration /** * Return the difference of that duration and this. When involving non-finite summands the semantics match those * of Double. * * $ovf */ def -(other: Duration): Duration /** * Return this duration multiplied by the scalar factor. When involving non-finite factors the semantics match those * of Double. * * $ovf */ def *(factor: Double): Duration /** * Return this duration divided by the scalar factor. When involving non-finite factors the semantics match those * of Double. * * $ovf */ def /(divisor: Double): Duration /** * Return the quotient of this and that duration as floating-point number. The semantics are * determined by Double as if calculating the quotient of the nanosecond lengths of both factors. */ def /(divisor: Duration): Double /** * Negate this duration. The only two values which are mapped to themselves are [[Duration.Zero]] and [[Duration.Undefined]]. */ def unary_- : Duration /** * This method returns whether this duration is finite, which is not the same as * `!isInfinite` for Double because this method also returns `false` for [[Duration.Undefined]]. */ def isFinite: Boolean /** * Return the smaller of this and that duration as determined by the natural ordering. */ def min(other: Duration): Duration = if (this < other) this else other /** * Return the larger of this and that duration as determined by the natural ordering. */ def max(other: Duration): Duration = if (this > other) this else other // Java API /** * Return this duration divided by the scalar factor. When involving non-finite factors the semantics match those * of Double. * * $ovf */ def div(divisor: Double): Duration = this / divisor /** * Return the quotient of this and that duration as floating-point number. The semantics are * determined by Double as if calculating the quotient of the nanosecond lengths of both factors. */ def div(other: Duration): Double = this / other def gt(other: Duration): Boolean = this > other def gteq(other: Duration): Boolean = this >= other def lt(other: Duration): Boolean = this < other def lteq(other: Duration): Boolean = this <= other /** * Return the difference of that duration and this. When involving non-finite summands the semantics match those * of Double. * * $ovf */ def minus(other: Duration): Duration = this - other /** * Return this duration multiplied by the scalar factor. When involving non-finite factors the semantics match those * of Double. * * $ovf */ def mul(factor: Double): Duration = this * factor /** * Negate this duration. The only two values which are mapped to themselves are [[Duration.Zero]] and [[Duration.Undefined]]. */ def neg(): Duration = -this /** * Return the sum of that duration and this. When involving non-finite summands the semantics match those * of Double. * * $ovf */ def plus(other: Duration): Duration = this + other /** * Return duration which is equal to this duration but with a coarsest Unit, or self in case it is already the coarsest Unit *

* Examples: * {{{ * Duration(60, MINUTES).toCoarsest // Duration(1, HOURS) * Duration(1000, MILLISECONDS).toCoarsest // Duration(1, SECONDS) * Duration(48, HOURS).toCoarsest // Duration(2, DAYS) * Duration(5, SECONDS).toCoarsest // Duration(5, SECONDS) * }}} */ def toCoarsest: Duration } object FiniteDuration { implicit object FiniteDurationIsOrdered extends Ordering[FiniteDuration] { def compare(a: FiniteDuration, b: FiniteDuration): Int = a compare b } def apply(length: Long, unit: TimeUnit): FiniteDuration = new FiniteDuration(length, unit) def apply(length: Long, unit: String): FiniteDuration = new FiniteDuration(length, Duration.timeUnit(unit)) // limit on abs. value of durations in their units private final val max_ns = Long.MaxValue private final val max_µs = max_ns / 1000 private final val max_ms = max_µs / 1000 private final val max_s = max_ms / 1000 private final val max_min= max_s / 60 private final val max_h = max_min / 60 private final val max_d = max_h / 24 } /** * This class represents a finite duration. Its addition and subtraction operators are overloaded to retain * this guarantee statically. The range of this class is limited to `+-(2^63-1)`ns, which is roughly 292 years. */ final class FiniteDuration(val length: Long, val unit: TimeUnit) extends Duration { import FiniteDuration._ import Duration._ private[this] def bounded(max: Long) = -max <= length && length <= max require(unit match { /* * enforce the 2^63-1 ns limit, must be pos/neg symmetrical because of unary_- */ case NANOSECONDS => bounded(max_ns) case MICROSECONDS => bounded(max_µs) case MILLISECONDS => bounded(max_ms) case SECONDS => bounded(max_s) case MINUTES => bounded(max_min) case HOURS => bounded(max_h) case DAYS => bounded(max_d) case _ => val v = DAYS.convert(length, unit) -max_d <= v && v <= max_d }, "Duration is limited to +-(2^63-1)ns (ca. 292 years)") def toNanos: Long = unit.toNanos(length) def toMicros: Long = unit.toMicros(length) def toMillis: Long = unit.toMillis(length) def toSeconds: Long = unit.toSeconds(length) def toMinutes: Long = unit.toMinutes(length) def toHours: Long = unit.toHours(length) def toDays: Long = unit.toDays(length) def toUnit(u: TimeUnit): Double = toNanos.toDouble / NANOSECONDS.convert(1, u) /** * Construct a [[Deadline]] from this duration by adding it to the current instant `Deadline.now`. */ def fromNow: Deadline = Deadline.now + this private[this] def unitString = timeUnitName(unit) + ( if (length == 1) "" else "s" ) override def toString: String = "" + length + " " + unitString def compare(other: Duration): Int = other match { case x: FiniteDuration => toNanos compare x.toNanos case _ => -(other compare this) } // see https://www.securecoding.cert.org/confluence/display/java/NUM00-J.+Detect+or+prevent+integer+overflow private[this] def safeAdd(a: Long, b: Long): Long = { if ((b > 0) && (a > Long.MaxValue - b) || (b < 0) && (a < Long.MinValue - b)) throw new IllegalArgumentException("integer overflow") a + b } private[this] def add(otherLength: Long, otherUnit: TimeUnit): FiniteDuration = { val commonUnit = if (otherUnit.convert(1, unit) == 0) unit else otherUnit val totalLength = safeAdd(commonUnit.convert(length, unit), commonUnit.convert(otherLength, otherUnit)) new FiniteDuration(totalLength, commonUnit) } def +(other: Duration): Duration = other match { case x: FiniteDuration => add(x.length, x.unit) case _ => other } def -(other: Duration): Duration = other match { case x: FiniteDuration => add(-x.length, x.unit) case _ => -other } def *(factor: Double): Duration = if (!factor.isInfinite) fromNanos(toNanos * factor) else if (JDouble.isNaN(factor)) Undefined else if ((factor > 0) ^ (this < Zero)) Inf else MinusInf def /(divisor: Double): Duration = if (!divisor.isInfinite) fromNanos(toNanos / divisor) else if (JDouble.isNaN(divisor)) Undefined else Zero // if this is made a constant, then scalac will elide the conditional and always return +0.0, scala/bug#6331 private[this] def minusZero = -0d def /(divisor: Duration): Double = if (divisor.isFinite) toNanos.toDouble / divisor.toNanos else if (divisor eq Undefined) Double.NaN else if ((length < 0) ^ (divisor > Zero)) 0d else minusZero // overloaded methods taking FiniteDurations, so that you can calculate while statically staying finite def +(other: FiniteDuration): FiniteDuration = add(other.length, other.unit) def -(other: FiniteDuration): FiniteDuration = add(-other.length, other.unit) def plus(other: FiniteDuration): FiniteDuration = this + other def minus(other: FiniteDuration): FiniteDuration = this - other def min(other: FiniteDuration): FiniteDuration = if (this < other) this else other def max(other: FiniteDuration): FiniteDuration = if (this > other) this else other // overloaded methods taking Long so that you can calculate while statically staying finite /** * Return the quotient of this duration and the given integer factor. * * @throws java.lang.ArithmeticException if the factor is 0 */ def /(divisor: Long): FiniteDuration = fromNanos(toNanos / divisor) /** * Return the product of this duration and the given integer factor. * * @throws IllegalArgumentException if the result would overflow the range of FiniteDuration */ def *(factor: Long): FiniteDuration = new FiniteDuration(safeMul(length, factor), unit) /* * This method avoids the use of Long division, which saves 95% of the time spent, * by checking that there are enough leading zeros so that the result has a chance * to fit into a Long again; the remaining edge cases are caught by using the sign * of the product for overflow detection. * * This method is not general purpose because it disallows the (otherwise legal) * case of Long.MinValue * 1, but that is okay for use in FiniteDuration, since * Long.MinValue is not a legal `length` anyway. */ private def safeMul(_a: Long, _b: Long): Long = { val a = scala.math.abs(_a) val b = scala.math.abs(_b) import java.lang.Long.{ numberOfLeadingZeros => leading } if (leading(a) + leading(b) < 64) throw new IllegalArgumentException("multiplication overflow") val product = a * b if (product < 0) throw new IllegalArgumentException("multiplication overflow") if (a == _a ^ b == _b) -product else product } /** * Return the quotient of this duration and the given integer factor. * * @throws java.lang.ArithmeticException if the factor is 0 */ def div(divisor: Long): FiniteDuration = this / divisor /** * Return the product of this duration and the given integer factor. * * @throws IllegalArgumentException if the result would overflow the range of FiniteDuration */ def mul(factor: Long): FiniteDuration = this * factor def unary_- = Duration(-length, unit) final def isFinite = true final override def toCoarsest: FiniteDuration = { def loop(length: Long, unit: TimeUnit): FiniteDuration = { def coarserOrThis(coarser: TimeUnit, divider: Int): FiniteDuration = if (length % divider == 0) loop(length / divider, coarser) else if (unit == this.unit) this else FiniteDuration(length, unit) unit match { case DAYS => FiniteDuration(length, unit) case HOURS => coarserOrThis(DAYS, 24) case MINUTES => coarserOrThis(HOURS, 60) case SECONDS => coarserOrThis(MINUTES, 60) case MILLISECONDS => coarserOrThis(SECONDS, 1000) case MICROSECONDS => coarserOrThis(MILLISECONDS, 1000) case NANOSECONDS => coarserOrThis(MICROSECONDS, 1000) } } if (unit == DAYS || length == 0) this else loop(length, unit) } override def equals(other: Any): Boolean = other match { case x: FiniteDuration => toNanos == x.toNanos case _ => super.equals(other) } override def hashCode: Int = toNanos.toInt }





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