RealIsFractional

Value Members

final def !=(arg0: Any): Boolean

Definition Classes
AnyRef → Any
final def ##(): Int

Definition Classes
AnyRef → Any
final def ==(arg0: Any): Boolean

Definition Classes
AnyRef → Any
def abs(x: Real): Real

An idempotent function that ensures an object has a non-negative sign.
An idempotent function that ensures an object has a non-negative sign.

Definition Classes
RealIsFractional → Signed
def acos(a: Real): Real

Definition Classes
RealIsFractional → Trig
def additive: AbGroup[Real]

Definition Classes
AdditiveAbGroup → AdditiveCMonoid → AdditiveCSemigroup → AdditiveGroup → AdditiveMonoid → AdditiveSemigroup
final def asInstanceOf[T0]: T0

Definition Classes
Any
def asin(a: Real): Real

Definition Classes
RealIsFractional → Trig
def atan(a: Real): Real

Definition Classes
RealIsFractional → Trig
def atan2(y: Real, x: Real): Real

Definition Classes
RealIsFractional → Trig
def ceil(x: Real): Real

Definition Classes
RealIsFractional → IsReal
def clone(): AnyRef

Attributes
protected[java.lang]
Definition Classes
AnyRef
Annotations
@throws( ... )
def compare(x: Real, y: Real): Int

Definition Classes
RealIsFractional → Order
def cos(a: Real): Real

Definition Classes
RealIsFractional → Trig
def cosh(x: Real): Real

Definition Classes
RealIsFractional → Trig
def div(x: Real, y: Real): Real

Definition Classes
RealIsFractional → MultiplicativeGroup
def e: Real

Definition Classes
RealIsFractional → Trig
final def eq(arg0: AnyRef): Boolean

Definition Classes
AnyRef
def equals(arg0: Any): Boolean

Definition Classes
AnyRef → Any
def eqv(x: Real, y: Real): Boolean

Returns true if x and y are equivalent, false otherwise.
Returns true if x and y are equivalent, false otherwise.

Definition Classes
RealIsFractional → Order → Eq
final def euclid(a: Real, b: Real)(implicit eq: Eq[Real]): Real

Attributes
protected[this]
Definition Classes
EuclideanRing
Annotations
@tailrec()
def exp(x: Real): Real

Definition Classes
RealIsFractional → Trig
def expm1(x: Real): Real

Definition Classes
RealIsFractional → Trig
def finalize(): Unit

Attributes
protected[java.lang]
Definition Classes
AnyRef
Annotations
@throws( classOf[java.lang.Throwable] )
def floor(x: Real): Real

Definition Classes
RealIsFractional → IsReal
def fpow(x: Real, y: Real): Real

Definition Classes
RealIsFractional → NRoot
def fromBigDecimal(n: BigDecimal): Real

Definition Classes
RealIsFractional → ConvertableTo
def fromBigInt(n: BigInt): Real

Definition Classes
RealIsFractional → ConvertableTo
def fromByte(n: Byte): Real

Definition Classes
RealIsFractional → ConvertableTo
def fromDouble(a: Double): Real

This is implemented in terms of basic Field ops.
This is implemented in terms of basic Field ops. However, this is probably significantly less efficient than can be done with a specific type. So, it is recommended that this method is overriden.
This is possible because a Double is a rational number.

Definition Classes
Field
def fromFloat(n: Float): Real

Definition Classes
RealIsFractional → ConvertableTo
def fromInt(n: Int): Real

Defined to be equivalent to additive.sumn(one, n).
Defined to be equivalent to additive.sumn(one, n). That is, n repeated summations of this ring's one, or -one if n is negative.

Definition Classes
Ring
def fromLong(n: Long): Real

Definition Classes
RealIsFractional → ConvertableTo
def fromRational(n: Rational): Real

Definition Classes
RealIsFractional → ConvertableTo
def fromShort(n: Short): Real

Definition Classes
RealIsFractional → ConvertableTo
def fromType[B](b: B)(implicit ev: ConvertableFrom[B]): Real

Definition Classes
RealIsFractional → ConvertableTo
def gcd(x: Real, y: Real): Real

Definition Classes
RealIsFractional → EuclideanRing
final def getClass(): Class[_]

Definition Classes
AnyRef → Any
def gt(x: Real, y: Real): Boolean

Definition Classes
Order
def gteqv(x: Real, y: Real): Boolean

Definition Classes
Order
def hashCode(): Int

Definition Classes
AnyRef → Any
final def isInstanceOf[T0]: Boolean

Definition Classes
Any
def isWhole(x: Real): Boolean

Definition Classes
RealIsFractional → IsReal
def isZero(a: Real): Boolean

Definition Classes
Signed
def lcm(a: Real, b: Real): Real

Definition Classes
EuclideanRing
def log(x: Real): Real

Definition Classes
RealIsFractional → Trig
def log1p(x: Real): Real

Definition Classes
RealIsFractional → Trig
def lt(x: Real, y: Real): Boolean

Definition Classes
Order
def lteqv(x: Real, y: Real): Boolean

Definition Classes
Order
def max(x: Real, y: Real): Real

Definition Classes
Order
def min(x: Real, y: Real): Real

Definition Classes
Order
def minus(x: Real, y: Real): Real

Definition Classes
RealIsFractional → AdditiveGroup
def mod(x: Real, y: Real): Real

Definition Classes
RealIsFractional → EuclideanRing
def multiplicative: AbGroup[Real]

Definition Classes
MultiplicativeAbGroup → MultiplicativeCMonoid → MultiplicativeCSemigroup → MultiplicativeGroup → MultiplicativeMonoid → MultiplicativeSemigroup
final def ne(arg0: AnyRef): Boolean

Definition Classes
AnyRef
def negate(x: Real): Real

Definition Classes
RealIsFractional → AdditiveGroup
def neqv(x: Real, y: Real): Boolean

Returns false if x and y are equivalent, true otherwise.
Returns false if x and y are equivalent, true otherwise.

Definition Classes
Eq
final def notify(): Unit

Definition Classes
AnyRef
final def notifyAll(): Unit

Definition Classes
AnyRef
def nroot(x: Real, k: Int): Real

Definition Classes
RealIsFractional → NRoot
def on[B](f: (B) ⇒ Real): Order[B]

Defines an order on B by mapping B to A using f and using As order to order B.
Defines an order on B by mapping B to A using f and using As order to order B.

Definition Classes
Order → Eq
def one: Real

Definition Classes
RealIsFractional → MultiplicativeMonoid
def pi: Real

Definition Classes
RealIsFractional → Trig
def plus(x: Real, y: Real): Real

Definition Classes
RealIsFractional → AdditiveSemigroup
def pow(a: Real, n: Int): Real

This is similar to Semigroup#pow, except that a pow 0 is defined to be the multiplicative identity.
This is similar to Semigroup#pow, except that a pow 0 is defined to be the multiplicative identity.

Definition Classes
Rig → Semiring
def quot(x: Real, y: Real): Real

Definition Classes
RealIsFractional → EuclideanRing
def quotmod(a: Real, b: Real): (Real, Real)

Definition Classes
EuclideanRing
def reciprocal(x: Real): Real

Definition Classes
RealIsFractional → MultiplicativeGroup
def reverse: Order[Real]

Defines an ordering on A where all arrows switch direction.
Defines an ordering on A where all arrows switch direction.

Definition Classes
Order
def round(x: Real): Real

Definition Classes
RealIsFractional → IsReal
def sign(a: Real): Sign

Returns Zero if a is 0, Positive if a is positive, and Negative is a is negative.
Returns Zero if a is 0, Positive if a is positive, and Negative is a is negative.

Definition Classes
Signed
def signum(x: Real): Int

Returns 0 if a is 0, > 0 if a is positive, and < 0 is a is negative.
Returns 0 if a is 0, > 0 if a is positive, and < 0 is a is negative.

Definition Classes
RealIsFractional → Signed
def sin(x: Real): Real

Definition Classes
RealIsFractional → Trig
def sinh(x: Real): Real

Definition Classes
RealIsFractional → Trig
def sqrt(x: Real): Real

Definition Classes
RealIsFractional → NRoot
final def synchronized[T0](arg0: ⇒ T0): T0

Definition Classes
AnyRef
def tan(x: Real): Real

Definition Classes
RealIsFractional → Trig
def tanh(x: Real): Real

Definition Classes
RealIsFractional → Trig
def times(x: Real, y: Real): Real

Definition Classes
RealIsFractional → MultiplicativeSemigroup
def toBigDecimal(x: Real): BigDecimal

Definition Classes
RealIsFractional → ConvertableFrom
def toBigInt(x: Real): BigInt

Definition Classes
RealIsFractional → ConvertableFrom
def toByte(x: Real): Byte

Definition Classes
RealIsFractional → ConvertableFrom
def toDegrees(a: Real): Real

Definition Classes
RealIsFractional → Trig
def toDouble(x: Real): Double

Definition Classes
RealIsFractional → IsReal → ConvertableFrom
def toFloat(x: Real): Float

Definition Classes
RealIsFractional → ConvertableFrom
def toInt(x: Real): Int

Definition Classes
RealIsFractional → ConvertableFrom
def toLong(x: Real): Long

Definition Classes
RealIsFractional → ConvertableFrom
def toNumber(x: Real): Number

Definition Classes
RealIsFractional → ConvertableFrom
def toRadians(a: Real): Real

Definition Classes
RealIsFractional → Trig
def toRational(x: Real): Rational

Definition Classes
RealIsFractional → ConvertableFrom
def toShort(x: Real): Short

Definition Classes
RealIsFractional → ConvertableFrom
def toString(x: Real): String

Definition Classes
RealIsFractional → ConvertableFrom
def toString(): String

Definition Classes
AnyRef → Any
def toType[B](x: Real)(implicit ev: ConvertableTo[B]): B

Definition Classes
RealIsFractional → ConvertableFrom
final def wait(): Unit

Definition Classes
AnyRef
Annotations
@throws( ... )
final def wait(arg0: Long, arg1: Int): Unit

Definition Classes
AnyRef
Annotations
@throws( ... )
final def wait(arg0: Long): Unit

Definition Classes
AnyRef
Annotations
@throws( ... )
def zero: Real

Definition Classes
RealIsFractional → AdditiveMonoid

trait RealIsFractional extends Fractional[Real] with Order[Real] with Signed[Real] with Trig[Real]

Value Members

final def !=(arg0: Any): Boolean

final def ##(): Int

final def ==(arg0: Any): Boolean

def abs(x: Real): Real

def acos(a: Real): Real

def additive: AbGroup[Real]

final def asInstanceOf[T0]: T0

def asin(a: Real): Real

def atan(a: Real): Real

def atan2(y: Real, x: Real): Real

def ceil(x: Real): Real

def clone(): AnyRef

def compare(x: Real, y: Real): Int

def cos(a: Real): Real

def cosh(x: Real): Real

def div(x: Real, y: Real): Real

def e: Real

final def eq(arg0: AnyRef): Boolean

def equals(arg0: Any): Boolean

def eqv(x: Real, y: Real): Boolean

final def euclid(a: Real, b: Real)(implicit eq: Eq[Real]): Real

def exp(x: Real): Real

def expm1(x: Real): Real

def finalize(): Unit

def floor(x: Real): Real

def fpow(x: Real, y: Real): Real

def fromBigDecimal(n: BigDecimal): Real

def fromBigInt(n: BigInt): Real

def fromByte(n: Byte): Real

def fromDouble(a: Double): Real

def fromFloat(n: Float): Real

def fromInt(n: Int): Real

def fromLong(n: Long): Real

def fromRational(n: Rational): Real

def fromShort(n: Short): Real

def fromType[B](b: B)(implicit ev: ConvertableFrom[B]): Real

def gcd(x: Real, y: Real): Real

final def getClass(): Class[_]

def gt(x: Real, y: Real): Boolean

def gteqv(x: Real, y: Real): Boolean

def hashCode(): Int

final def isInstanceOf[T0]: Boolean

def isWhole(x: Real): Boolean

def isZero(a: Real): Boolean

def lcm(a: Real, b: Real): Real

def log(x: Real): Real

def log1p(x: Real): Real

def lt(x: Real, y: Real): Boolean

def lteqv(x: Real, y: Real): Boolean

def max(x: Real, y: Real): Real

def min(x: Real, y: Real): Real

def minus(x: Real, y: Real): Real

def mod(x: Real, y: Real): Real

def multiplicative: AbGroup[Real]

final def ne(arg0: AnyRef): Boolean

def negate(x: Real): Real

def neqv(x: Real, y: Real): Boolean

final def notify(): Unit

final def notifyAll(): Unit

def nroot(x: Real, k: Int): Real

def on[B](f: (B) ⇒ Real): Order[B]

def one: Real

def pi: Real

def plus(x: Real, y: Real): Real

def pow(a: Real, n: Int): Real

def quot(x: Real, y: Real): Real

def quotmod(a: Real, b: Real): (Real, Real)

def reciprocal(x: Real): Real

def reverse: Order[Real]

def round(x: Real): Real

def sign(a: Real): Sign

def signum(x: Real): Int

def sin(x: Real): Real

def sinh(x: Real): Real

def sqrt(x: Real): Real

final def synchronized[T0](arg0: ⇒ T0): T0

def tan(x: Real): Real