/* __ *\ ** ________ ___ / / ___ Scala API ** ** / __/ __// _ | / / / _ | (c) 2003-2013, LAMP/EPFL ** ** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ ** ** /____/\___/_/ |_/____/_/ | | ** ** |/ ** \* */ package scala.math import scala.language.implicitConversions /** * @since 2.8 */ object Numeric { trait ExtraImplicits { /** These implicits create conversions from a value for which an implicit Numeric * exists to the inner class which creates infix operations. Once imported, you * can write methods as follows: * {{{ * def plus[T: Numeric](x: T, y: T) = x + y * }}} */ implicit def infixNumericOps[T](x: T)(implicit num: Numeric[T]): Numeric[T]#Ops = new num.Ops(x) } object Implicits extends ExtraImplicits { } trait BigIntIsIntegral extends Integral[BigInt] { def plus(x: BigInt, y: BigInt): BigInt = x + y def minus(x: BigInt, y: BigInt): BigInt = x - y def times(x: BigInt, y: BigInt): BigInt = x * y def quot(x: BigInt, y: BigInt): BigInt = x / y def rem(x: BigInt, y: BigInt): BigInt = x % y def negate(x: BigInt): BigInt = -x def fromInt(x: Int): BigInt = BigInt(x) def toInt(x: BigInt): Int = x.intValue def toLong(x: BigInt): Long = x.longValue def toFloat(x: BigInt): Float = x.floatValue def toDouble(x: BigInt): Double = x.doubleValue } implicit object BigIntIsIntegral extends BigIntIsIntegral with Ordering.BigIntOrdering trait IntIsIntegral extends Integral[Int] { def plus(x: Int, y: Int): Int = x + y def minus(x: Int, y: Int): Int = x - y def times(x: Int, y: Int): Int = x * y def quot(x: Int, y: Int): Int = x / y def rem(x: Int, y: Int): Int = x % y def negate(x: Int): Int = -x def fromInt(x: Int): Int = x def toInt(x: Int): Int = x def toLong(x: Int): Long = x def toFloat(x: Int): Float = x def toDouble(x: Int): Double = x } implicit object IntIsIntegral extends IntIsIntegral with Ordering.IntOrdering trait ShortIsIntegral extends Integral[Short] { def plus(x: Short, y: Short): Short = (x + y).toShort def minus(x: Short, y: Short): Short = (x - y).toShort def times(x: Short, y: Short): Short = (x * y).toShort def quot(x: Short, y: Short): Short = (x / y).toShort def rem(x: Short, y: Short): Short = (x % y).toShort def negate(x: Short): Short = (-x).toShort def fromInt(x: Int): Short = x.toShort def toInt(x: Short): Int = x.toInt def toLong(x: Short): Long = x.toLong def toFloat(x: Short): Float = x.toFloat def toDouble(x: Short): Double = x.toDouble } implicit object ShortIsIntegral extends ShortIsIntegral with Ordering.ShortOrdering trait ByteIsIntegral extends Integral[Byte] { def plus(x: Byte, y: Byte): Byte = (x + y).toByte def minus(x: Byte, y: Byte): Byte = (x - y).toByte def times(x: Byte, y: Byte): Byte = (x * y).toByte def quot(x: Byte, y: Byte): Byte = (x / y).toByte def rem(x: Byte, y: Byte): Byte = (x % y).toByte def negate(x: Byte): Byte = (-x).toByte def fromInt(x: Int): Byte = x.toByte def toInt(x: Byte): Int = x.toInt def toLong(x: Byte): Long = x.toLong def toFloat(x: Byte): Float = x.toFloat def toDouble(x: Byte): Double = x.toDouble } implicit object ByteIsIntegral extends ByteIsIntegral with Ordering.ByteOrdering trait CharIsIntegral extends Integral[Char] { def plus(x: Char, y: Char): Char = (x + y).toChar def minus(x: Char, y: Char): Char = (x - y).toChar def times(x: Char, y: Char): Char = (x * y).toChar def quot(x: Char, y: Char): Char = (x / y).toChar def rem(x: Char, y: Char): Char = (x % y).toChar def negate(x: Char): Char = (-x).toChar def fromInt(x: Int): Char = x.toChar def toInt(x: Char): Int = x.toInt def toLong(x: Char): Long = x.toLong def toFloat(x: Char): Float = x.toFloat def toDouble(x: Char): Double = x.toDouble } implicit object CharIsIntegral extends CharIsIntegral with Ordering.CharOrdering trait LongIsIntegral extends Integral[Long] { def plus(x: Long, y: Long): Long = x + y def minus(x: Long, y: Long): Long = x - y def times(x: Long, y: Long): Long = x * y def quot(x: Long, y: Long): Long = x / y def rem(x: Long, y: Long): Long = x % y def negate(x: Long): Long = -x def fromInt(x: Int): Long = x def toInt(x: Long): Int = x.toInt def toLong(x: Long): Long = x def toFloat(x: Long): Float = x def toDouble(x: Long): Double = x } implicit object LongIsIntegral extends LongIsIntegral with Ordering.LongOrdering trait FloatIsConflicted extends Numeric[Float] { def plus(x: Float, y: Float): Float = x + y def minus(x: Float, y: Float): Float = x - y def times(x: Float, y: Float): Float = x * y def negate(x: Float): Float = -x def fromInt(x: Int): Float = x def toInt(x: Float): Int = x.toInt def toLong(x: Float): Long = x.toLong def toFloat(x: Float): Float = x def toDouble(x: Float): Double = x } trait FloatIsFractional extends FloatIsConflicted with Fractional[Float] { def div(x: Float, y: Float): Float = x / y } trait FloatAsIfIntegral extends FloatIsConflicted with Integral[Float] { def quot(x: Float, y: Float): Float = (BigDecimal(x) / BigDecimal(y)).floatValue def rem(x: Float, y: Float): Float = (BigDecimal(x) remainder BigDecimal(y)).floatValue } implicit object FloatIsFractional extends FloatIsFractional with Ordering.FloatOrdering object FloatAsIfIntegral extends FloatAsIfIntegral with Ordering.FloatOrdering { } trait DoubleIsConflicted extends Numeric[Double] { def plus(x: Double, y: Double): Double = x + y def minus(x: Double, y: Double): Double = x - y def times(x: Double, y: Double): Double = x * y def negate(x: Double): Double = -x def fromInt(x: Int): Double = x def toInt(x: Double): Int = x.toInt def toLong(x: Double): Long = x.toLong def toFloat(x: Double): Float = x.toFloat def toDouble(x: Double): Double = x } trait DoubleIsFractional extends DoubleIsConflicted with Fractional[Double] { def div(x: Double, y: Double): Double = x / y } trait DoubleAsIfIntegral extends DoubleIsConflicted with Integral[Double] { def quot(x: Double, y: Double): Double = (BigDecimal(x) / BigDecimal(y)).doubleValue def rem(x: Double, y: Double): Double = (BigDecimal(x) remainder BigDecimal(y)).doubleValue } trait BigDecimalIsConflicted extends Numeric[BigDecimal] { def plus(x: BigDecimal, y: BigDecimal): BigDecimal = x + y def minus(x: BigDecimal, y: BigDecimal): BigDecimal = x - y def times(x: BigDecimal, y: BigDecimal): BigDecimal = x * y def negate(x: BigDecimal): BigDecimal = -x def fromInt(x: Int): BigDecimal = BigDecimal(x) def toInt(x: BigDecimal): Int = x.intValue def toLong(x: BigDecimal): Long = x.longValue def toFloat(x: BigDecimal): Float = x.floatValue def toDouble(x: BigDecimal): Double = x.doubleValue } trait BigDecimalIsFractional extends BigDecimalIsConflicted with Fractional[BigDecimal] { def div(x: BigDecimal, y: BigDecimal): BigDecimal = x / y } trait BigDecimalAsIfIntegral extends BigDecimalIsConflicted with Integral[BigDecimal] { def quot(x: BigDecimal, y: BigDecimal): BigDecimal = x / y def rem(x: BigDecimal, y: BigDecimal): BigDecimal = x remainder y } // For Double and BigDecimal we offer implicit Fractional objects, but also one // which acts like an Integral type, which is useful in NumericRange. implicit object BigDecimalIsFractional extends BigDecimalIsFractional with Ordering.BigDecimalOrdering object BigDecimalAsIfIntegral extends BigDecimalAsIfIntegral with Ordering.BigDecimalOrdering implicit object DoubleIsFractional extends DoubleIsFractional with Ordering.DoubleOrdering object DoubleAsIfIntegral extends DoubleAsIfIntegral with Ordering.DoubleOrdering } trait Numeric[T] extends Ordering[T] { def plus(x: T, y: T): T def minus(x: T, y: T): T def times(x: T, y: T): T def negate(x: T): T def fromInt(x: Int): T def toInt(x: T): Int def toLong(x: T): Long def toFloat(x: T): Float def toDouble(x: T): Double def zero = fromInt(0) def one = fromInt(1) def abs(x: T): T = if (lt(x, zero)) negate(x) else x def signum(x: T): Int = if (lt(x, zero)) -1 else if (gt(x, zero)) 1 else 0 class Ops(lhs: T) { def +(rhs: T) = plus(lhs, rhs) def -(rhs: T) = minus(lhs, rhs) def *(rhs: T) = times(lhs, rhs) def unary_-() = negate(lhs) def abs(): T = Numeric.this.abs(lhs) def signum(): Int = Numeric.this.signum(lhs) def toInt(): Int = Numeric.this.toInt(lhs) def toLong(): Long = Numeric.this.toLong(lhs) def toFloat(): Float = Numeric.this.toFloat(lhs) def toDouble(): Double = Numeric.this.toDouble(lhs) } implicit def mkNumericOps(lhs: T): Ops = new Ops(lhs) }