spire.math

Fractional

trait Fractional[A] extends Field[A] with NRoot[A] with Integral[A]

Linear Supertypes
Integral[A], IsReal[A], Signed[A], Order[A], PartialOrder[A], Eq[A], ConvertableTo[A], ConvertableFrom[A], NRoot[A], Field[A], MultiplicativeAbGroup[A], MultiplicativeGroup[A], EuclideanRing[A], CRing[A], MultiplicativeCMonoid[A], MultiplicativeCSemigroup[A], Ring[A], Rng[A], AdditiveAbGroup[A], AdditiveCMonoid[A], AdditiveCSemigroup[A], AdditiveGroup[A], Rig[A], MultiplicativeMonoid[A], Semiring[A], MultiplicativeSemigroup[A], AdditiveMonoid[A], AdditiveSemigroup[A], AnyRef, Any
Known Subclasses
RealAlgebra, RealIsFractional
Ordering
  1. Alphabetic
  2. By inheritance
Inherited
  1. Fractional
  2. Integral
  3. IsReal
  4. Signed
  5. Order
  6. PartialOrder
  7. Eq
  8. ConvertableTo
  9. ConvertableFrom
  10. NRoot
  11. Field
  12. MultiplicativeAbGroup
  13. MultiplicativeGroup
  14. EuclideanRing
  15. CRing
  16. MultiplicativeCMonoid
  17. MultiplicativeCSemigroup
  18. Ring
  19. Rng
  20. AdditiveAbGroup
  21. AdditiveCMonoid
  22. AdditiveCSemigroup
  23. AdditiveGroup
  24. Rig
  25. MultiplicativeMonoid
  26. Semiring
  27. MultiplicativeSemigroup
  28. AdditiveMonoid
  29. AdditiveSemigroup
  30. AnyRef
  31. Any
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  1. Public
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Abstract Value Members

  1. abstract def abs(a: A): A

    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
    Signed

  2. abstract def ceil(a: A): A

    Definition Classes
    IsReal

  3. abstract def compare(x: A, y: A): Int

    Definition Classes
    Order

  4. abstract def div(x: A, y: A): A

    Definition Classes
    MultiplicativeGroup

  5. abstract def floor(a: A): A

    Definition Classes
    IsReal

  6. abstract def fpow(a: A, b: A): A

    Definition Classes
    NRoot

  7. abstract def fromAlgebraic(n: Algebraic): A

    Definition Classes
    ConvertableTo

  8. abstract def fromBigDecimal(n: BigDecimal): A

    Definition Classes
    ConvertableTo

  9. abstract def fromBigInt(n: BigInt): A

    Definition Classes
    ConvertableTo

  10. abstract def fromByte(n: Byte): A

    Definition Classes
    ConvertableTo

  11. abstract def fromFloat(n: Float): A

    Definition Classes
    ConvertableTo

  12. abstract def fromLong(n: Long): A

    Definition Classes
    ConvertableTo

  13. abstract def fromRational(n: Rational): A

    Definition Classes
    ConvertableTo

  14. abstract def fromReal(n: Real): A

    Definition Classes
    ConvertableTo

  15. abstract def fromShort(n: Short): A

    Definition Classes
    ConvertableTo

  16. abstract def fromType[B](b: B)(implicit arg0: ConvertableFrom[B]): A

    Definition Classes
    ConvertableTo

  17. abstract def gcd(a: A, b: A): A

    Definition Classes
    EuclideanRing

  18. abstract def isWhole(a: A): Boolean

    Definition Classes
    IsReal

  19. abstract def mod(a: A, b: A): A

    Definition Classes
    EuclideanRing

  20. abstract def negate(x: A): A

    Definition Classes
    AdditiveGroup

  21. abstract def nroot(a: A, n: Int): A

    Definition Classes
    NRoot

  22. abstract def one: A

    Definition Classes
    MultiplicativeMonoid

  23. abstract def plus(x: A, y: A): A

    Definition Classes
    AdditiveSemigroup

  24. abstract def quot(a: A, b: A): A

    Definition Classes
    EuclideanRing

  25. abstract def round(a: A): A

    Definition Classes
    IsReal

  26. abstract def signum(a: A): 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
    Signed

  27. abstract def times(x: A, y: A): A

    Definition Classes
    MultiplicativeSemigroup

  28. abstract def toAlgebraic(a: A): Algebraic

    Definition Classes
    ConvertableFrom

  29. abstract def toBigDecimal(a: A): BigDecimal

    Definition Classes
    ConvertableFrom

  30. abstract def toBigInt(a: A): BigInt

    Definition Classes
    ConvertableFrom

  31. abstract def toByte(a: A): Byte

    Definition Classes
    ConvertableFrom

  32. abstract def toDouble(a: A): Double

    Definition Classes
    IsReal

  33. abstract def toFloat(a: A): Float

    Definition Classes
    ConvertableFrom

  34. abstract def toInt(a: A): Int

    Definition Classes
    ConvertableFrom

  35. abstract def toLong(a: A): Long

    Definition Classes
    ConvertableFrom

  36. abstract def toNumber(a: A): Number

    Definition Classes
    ConvertableFrom

  37. abstract def toRational(a: A): Rational

    Definition Classes
    ConvertableFrom

  38. abstract def toReal(a: A): Real

    Definition Classes
    ConvertableFrom

  39. abstract def toShort(a: A): Short

    Definition Classes
    ConvertableFrom

  40. abstract def toString(a: A): String

    Definition Classes
    ConvertableFrom

  41. abstract def toType[B](a: A)(implicit arg0: ConvertableTo[B]): B

    Definition Classes
    ConvertableFrom

  42. abstract def zero: A

    Definition Classes
    AdditiveMonoid

Concrete Value Members

  1. final def !=(arg0: Any): Boolean

    Definition Classes
    AnyRef → Any

  2. final def ##(): Int

    Definition Classes
    AnyRef → Any

  3. final def ==(arg0: Any): Boolean

    Definition Classes
    AnyRef → Any

  4. def additive: AbGroup[A]

    Definition Classes
    AdditiveAbGroupAdditiveCMonoidAdditiveCSemigroupAdditiveGroupAdditiveMonoidAdditiveSemigroup

  5. final def asInstanceOf[T0]: T0

    Definition Classes
    Any

  6. def clone(): AnyRef

    Attributes
    protected[java.lang]
    Definition Classes
    AnyRef
    Annotations
    @throws( ... )

  7. final def eq(arg0: AnyRef): Boolean

    Definition Classes
    AnyRef

  8. def equals(arg0: Any): Boolean

    Definition Classes
    AnyRef → Any

  9. def eqv(x: A, y: A): Boolean

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

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

    Definition Classes
    OrderPartialOrderEq

  10. final def euclid(a: A, b: A)(implicit eq: Eq[A]): A

    Attributes
    protected[this]
    Definition Classes
    EuclideanRing
    Annotations
    @tailrec()

  11. def finalize(): Unit

    Attributes
    protected[java.lang]
    Definition Classes
    AnyRef
    Annotations
    @throws( classOf[java.lang.Throwable] )

  12. def fromDouble(a: Double): A

    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

  13. def fromInt(n: Int): A

    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

  14. final def getClass(): Class[_]

    Definition Classes
    AnyRef → Any

  15. def gt(x: A, y: A): Boolean

    Definition Classes
    OrderPartialOrder

  16. def gteqv(x: A, y: A): Boolean

    Definition Classes
    OrderPartialOrder

  17. def hashCode(): Int

    Definition Classes
    AnyRef → Any

  18. final def isInstanceOf[T0]: Boolean

    Definition Classes
    Any

  19. def isZero(a: A): Boolean

    Definition Classes
    Signed

  20. def lcm(a: A, b: A): A

    Definition Classes
    EuclideanRing

  21. def lt(x: A, y: A): Boolean

    Definition Classes
    OrderPartialOrder

  22. def lteqv(x: A, y: A): Boolean

    Definition Classes
    OrderPartialOrder

  23. def max(x: A, y: A): A

    Definition Classes
    Order

  24. def min(x: A, y: A): A

    Definition Classes
    Order

  25. def minus(x: A, y: A): A

    Definition Classes
    AdditiveGroup

  26. def multiplicative: AbGroup[A]

    Definition Classes
    MultiplicativeAbGroupMultiplicativeCMonoidMultiplicativeCSemigroupMultiplicativeGroupMultiplicativeMonoidMultiplicativeSemigroup

  27. final def ne(arg0: AnyRef): Boolean

    Definition Classes
    AnyRef

  28. def neqv(x: A, y: A): Boolean

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

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

    Definition Classes
    Eq

  29. final def notify(): Unit

    Definition Classes
    AnyRef

  30. final def notifyAll(): Unit

    Definition Classes
    AnyRef

  31. def on[B](f: (B) ⇒ A): 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
    OrderPartialOrderEq

  32. def partialCompare(x: A, y: A): Double

    Result of comparing x with y.

    Result of comparing x with y. Returns NaN if operands are not comparable. If operands are comparable, returns a Double whose sign is: - negative iff x < y - zero iff x === y - positive iff x > y

    Definition Classes
    OrderPartialOrder

  33. def pmax(x: A, y: A): Option[A]

    Returns Some(x) if x >= y, Some(y) if x < y, otherwise None.

    Returns Some(x) if x >= y, Some(y) if x < y, otherwise None.

    Definition Classes
    PartialOrder

  34. def pmin(x: A, y: A): Option[A]

    Returns Some(x) if x <= y, Some(y) if x > y, otherwise None.

    Returns Some(x) if x <= y, Some(y) if x > y, otherwise None.

    Definition Classes
    PartialOrder

  35. def pow(a: A, n: Int): A

    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
    RigSemiring

  36. def quotmod(a: A, b: A): (A, A)

    Definition Classes
    EuclideanRing

  37. def reciprocal(x: A): A

    Definition Classes
    MultiplicativeGroup

  38. def reverse: Order[A]

    Defines an ordering on A where all arrows switch direction.

    Defines an ordering on A where all arrows switch direction.

    Definition Classes
    OrderPartialOrder

  39. def sign(a: A): 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

  40. def sqrt(a: A): A

    Definition Classes
    NRoot

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

    Definition Classes
    AnyRef

  42. def toString(): String

    Definition Classes
    AnyRef → Any

  43. def tryCompare(x: A, y: A): Option[Int]

    Result of comparing x with y.

    Result of comparing x with y. Returns None if operands are not comparable. If operands are comparable, returns Some[Int] where the Int sign is: - negative iff x < y - zero iff x == y - positive iff x > y

    Definition Classes
    PartialOrder

  44. def tryGt(x: A, y: A): Option[Boolean]

    Definition Classes
    PartialOrder

  45. def tryGteqv(x: A, y: A): Option[Boolean]

    Definition Classes
    PartialOrder

  46. def tryLt(x: A, y: A): Option[Boolean]

    Definition Classes
    PartialOrder

  47. def tryLteqv(x: A, y: A): Option[Boolean]

    Definition Classes
    PartialOrder

  48. final def wait(): Unit

    Definition Classes
    AnyRef
    Annotations
    @throws( ... )

  49. final def wait(arg0: Long, arg1: Int): Unit

    Definition Classes
    AnyRef
    Annotations
    @throws( ... )

  50. final def wait(arg0: Long): Unit

    Definition Classes
    AnyRef
    Annotations
    @throws( ... )

Inherited from Integral[A]

Inherited from IsReal[A]

Inherited from Signed[A]

Inherited from Order[A]

Inherited from PartialOrder[A]

Inherited from Eq[A]

Inherited from ConvertableTo[A]

Inherited from ConvertableFrom[A]

Inherited from NRoot[A]

Inherited from Field[A]

Inherited from MultiplicativeAbGroup[A]

Inherited from MultiplicativeGroup[A]

Inherited from EuclideanRing[A]

Inherited from CRing[A]

Inherited from MultiplicativeCMonoid[A]

Inherited from MultiplicativeCSemigroup[A]

Inherited from Ring[A]

Inherited from Rng[A]

Inherited from AdditiveAbGroup[A]

Inherited from AdditiveCMonoid[A]

Inherited from AdditiveCSemigroup[A]

Inherited from AdditiveGroup[A]

Inherited from Rig[A]

Inherited from MultiplicativeMonoid[A]

Inherited from Semiring[A]

Inherited from MultiplicativeSemigroup[A]

Inherited from AdditiveMonoid[A]

Inherited from AdditiveSemigroup[A]

Inherited from AnyRef

Inherited from Any

Ungrouped