scala.runtime.OrderedProxy

trait OrderedProxy[T] extends Ordered[T] with Typed[T]

Concrete Value Members From scala.Proxy

def equals(that: Any): Boolean

Compares the receiver object ( this ) with the argument object ( that ) for equivalence.

Any implementation of this method should be an equivalence relation :

  • It is reflexive: for any instance x of type Any , x.equals(x) should return true .
  • It is symmetric: for any instances x and y of type Any , x.equals(y) should return true if and only if y.equals(x) returns true .
  • It is transitive: for any instances x , y , and z of type Any if x.equals(y) returns true and y.equals(z) returns true , then x.equals(z) should return true .

If you override this method, you should verify that your implementation remains an equivalence relation. Additionally, when overriding this method it is usually necessary to override hashCode to ensure that objects which are “equal” ( o1.equals(o2) returns true ) hash to the same scala.Int. ( o1.hashCode.equals(o2.hashCode) ).

  • that
    • the object to compare against this object for equality.
  • returns
    • true if the receiver object is equivalent to the argument; false otherwise.
  • Definition Classes
    • Proxy → Any

(defined at scala.Proxy)

Concrete Value Members From scala.math.Ordered

def <(that: T): Boolean

Returns true if this is less than that

  • Definition Classes
    • Ordered

(defined at scala.math.Ordered)

def <=(that: T): Boolean

Returns true if this is less than or equal to that .

  • Definition Classes
    • Ordered

(defined at scala.math.Ordered)

def >(that: T): Boolean

Returns true if this is greater than that .

  • Definition Classes
    • Ordered

(defined at scala.math.Ordered)

def >=(that: T): Boolean

Returns true if this is greater than or equal to that .

  • Definition Classes
    • Ordered

(defined at scala.math.Ordered)

def compareTo(that: T): Int

Result of comparing this with operand that .

  • Definition Classes
    • Ordered → Comparable

(defined at scala.math.Ordered)

Concrete Value Members From scala.runtime.OrderedProxy

def compare(y: T): Int

Result of comparing this with operand that .

Implement this method to determine how instances of A will be sorted.

Returns x where:

  • x < 0 when this < that
  • x == 0 when this == that

  • x > 0 when this > that

  • Definition Classes
    • OrderedProxy → Ordered (defined at scala.runtime.OrderedProxy)

Full Source:

/*                     __                                               *\
**     ________ ___   / /  ___     Scala API                            **
**    / __/ __// _ | / /  / _ |    (c) 2002-2013, LAMP/EPFL             **
**  __\ \/ /__/ __ |/ /__/ __ |    http://scala-lang.org/               **
** /____/\___/_/ |_/____/_/ | |                                         **
**                          |/                                          **
\*                                                                      */

package scala
package runtime

import scala.collection.immutable
import scala.math.ScalaNumericAnyConversions
import immutable.NumericRange
import Proxy.Typed

/** Base classes for the Rich* wrappers of the primitive types.
 *  As with all classes in scala.runtime.*, this is not a supported API.
 *
 *  @author Paul Phillips
 *  @version 2.9
 *  @since   2.9
 */
trait ScalaNumberProxy[T] extends Any with ScalaNumericAnyConversions with Typed[T] with OrderedProxy[T] {
  protected implicit def num: Numeric[T]

  def underlying()  = self.asInstanceOf[AnyRef]
  def doubleValue() = num.toDouble(self)
  def floatValue()  = num.toFloat(self)
  def longValue()   = num.toLong(self)
  def intValue()    = num.toInt(self)
  def byteValue()   = intValue().toByte
  def shortValue()  = intValue().toShort

  /** Returns `'''this'''` if `'''this''' < that` or `that` otherwise. */
  def min(that: T): T = num.min(self, that)
  /** Returns `'''this'''` if `'''this''' > that` or `that` otherwise. */
  def max(that: T): T = num.max(self, that)
  /** Returns the absolute value of `'''this'''`. */
  def abs             = num.abs(self)
  /** Returns the signum of `'''this'''`. */
  def signum          = num.signum(self)
}
trait ScalaWholeNumberProxy[T] extends Any with ScalaNumberProxy[T] {
  def isWhole() = true
}
trait IntegralProxy[T] extends Any with ScalaWholeNumberProxy[T] with RangedProxy[T] {
  protected implicit def num: Integral[T]
  type ResultWithoutStep = NumericRange[T]

  def until(end: T): NumericRange.Exclusive[T]          = NumericRange(self, end, num.one)
  def until(end: T, step: T): NumericRange.Exclusive[T] = NumericRange(self, end, step)
  def to(end: T): NumericRange.Inclusive[T]             = NumericRange.inclusive(self, end, num.one)
  def to(end: T, step: T): NumericRange.Inclusive[T]    = NumericRange.inclusive(self, end, step)
}
trait FractionalProxy[T] extends Any with ScalaNumberProxy[T] with RangedProxy[T] {
  protected implicit def num: Fractional[T]
  protected implicit def integralNum: Integral[T]

  /** In order to supply predictable ranges, we require an Integral[T] which provides
   *  us with discrete operations on the (otherwise fractional) T.  See Numeric.DoubleAsIfIntegral
   *  for an example.
   */
  type ResultWithoutStep = Range.Partial[T, NumericRange[T]]

  def isWhole() = false
  def until(end: T): ResultWithoutStep                  = new Range.Partial(NumericRange(self, end, _))
  def until(end: T, step: T): NumericRange.Exclusive[T] = NumericRange(self, end, step)
  def to(end: T): ResultWithoutStep                     = new Range.Partial(NumericRange.inclusive(self, end, _))
  def to(end: T, step: T): NumericRange.Inclusive[T]    = NumericRange.inclusive(self, end, step)
}

trait OrderedProxy[T] extends Any with Ordered[T] with Typed[T] {
  protected def ord: Ordering[T]

  def compare(y: T) = ord.compare(self, y)
}
trait RangedProxy[T] extends Any with Typed[T] {
  type ResultWithoutStep

  def until(end: T): ResultWithoutStep
  def until(end: T, step: T): immutable.IndexedSeq[T]
  def to(end: T): ResultWithoutStep
  def to(end: T, step: T): immutable.IndexedSeq[T]
}