RealAlgebra

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 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

5. def acos(a: Real): Real

   

   Definition Classes

   RealIsFractional → Trig

6. def additive: AbGroup[Real]

   

   Definition Classes

   AdditiveAbGroup → AdditiveCMonoid → AdditiveCSemigroup → AdditiveGroup → AdditiveMonoid → AdditiveSemigroup

7. final def asInstanceOf[T0]: T0

   

   Definition Classes

   Any

8. def asin(a: Real): Real

   

   Definition Classes

   RealIsFractional → Trig

9. def atan(a: Real): Real

   

   Definition Classes

   RealIsFractional → Trig

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

    

    Definition Classes

    RealIsFractional → Trig

11. def ceil(x: Real): Real

    

    Rounds a the nearest integer that is greater than or equal to a.

    Rounds a the nearest integer that is greater than or equal to a.

    Definition Classes

    RealIsFractional → IsReal

12. def clone(): AnyRef

    

    Attributes

    protected[java.lang]

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

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

    

    Definition Classes

    RealIsFractional → Order

14. def cos(a: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

15. def cosh(x: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

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

    

    Definition Classes

    RealIsFractional → MultiplicativeGroup

17. def e: Real

    

    Definition Classes

    RealIsFractional → Trig

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

    

    Definition Classes

    AnyRef

19. def equals(arg0: Any): Boolean

    

    Definition Classes

    AnyRef → Any

20. 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 → PartialOrder → Eq

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

    

    Attributes

    protected[this]

    Definition Classes

    EuclideanRing

    Annotations

    @tailrec()

22. def exp(x: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

23. def expm1(x: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

24. def finalize(): Unit

    

    Attributes

    protected[java.lang]

    Definition Classes

    AnyRef

    Annotations

    @throws( classOf[java.lang.Throwable] )

25. def floor(x: Real): Real

    

    Rounds a the nearest integer that is less than or equal to a.

    Rounds a the nearest integer that is less than or equal to a.

    Definition Classes

    RealIsFractional → IsReal

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

    

    Definition Classes

    RealIsFractional → NRoot

27. def fromAlgebraic(n: Algebraic): Real

    

    Definition Classes

    RealIsFractional → ConvertableTo

28. def fromBigDecimal(n: BigDecimal): Real

    

    Definition Classes

    RealIsFractional → ConvertableTo

29. def fromBigInt(n: BigInt): Real

    

    Definition Classes

    RealIsFractional → ConvertableTo

30. def fromByte(n: Byte): Real

    

    Definition Classes

    RealIsFractional → ConvertableTo

31. 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

32. def fromFloat(n: Float): Real

    

    Definition Classes

    RealIsFractional → ConvertableTo

33. 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

34. def fromLong(n: Long): Real

    

    Definition Classes

    RealIsFractional → ConvertableTo

35. def fromRational(n: Rational): Real

    

    Definition Classes

    RealIsFractional → ConvertableTo

36. def fromReal(n: Real): Real

    

    Definition Classes

    RealIsFractional → ConvertableTo

37. def fromShort(n: Short): Real

    

    Definition Classes

    RealIsFractional → ConvertableTo

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

    

    Definition Classes

    RealIsFractional → ConvertableTo

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

    

    Definition Classes

    RealIsFractional → EuclideanRing

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

    

    Definition Classes

    AnyRef → Any

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

    

    Definition Classes

    Order → PartialOrder

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

    

    Definition Classes

    Order → PartialOrder

43. def hashCode(): Int

    

    Definition Classes

    AnyRef → Any

44. final def isInstanceOf[T0]: Boolean

    

    Definition Classes

    Any

45. def isOne(a: Real)(implicit ev: Eq[Real]): Boolean

    

    Definition Classes

    MultiplicativeMonoid

46. def isSignNegative(a: Real): Boolean

    

    Definition Classes

    Signed

47. def isSignNonNegative(a: Real): Boolean

    

    Definition Classes

    Signed

48. def isSignNonPositive(a: Real): Boolean

    

    Definition Classes

    Signed

49. def isSignNonZero(a: Real): Boolean

    

    Definition Classes

    Signed

50. def isSignPositive(a: Real): Boolean

    

    Definition Classes

    Signed

51. def isSignZero(a: Real): Boolean

    

    Definition Classes

    Signed

52. def isWhole(x: Real): Boolean

    

    Returns true iff a is a an integer.

    Returns true iff a is a an integer.

    Definition Classes

    RealIsFractional → IsReal

53. def isZero(a: Real)(implicit ev: Eq[Real]): Boolean

    

    Tests if a is zero.

    Tests if a is zero.

    Definition Classes

    AdditiveMonoid

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

    

    Definition Classes

    EuclideanRing

55. def log(x: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

56. def log1p(x: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

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

    

    Definition Classes

    Order → PartialOrder

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

    

    Definition Classes

    Order → PartialOrder

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

    

    Definition Classes

    Order

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

    

    Definition Classes

    Order

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

    

    Definition Classes

    RealIsFractional → AdditiveGroup

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

    

    Definition Classes

    RealIsFractional → EuclideanRing

63. def multiplicative: AbGroup[Real]

    

    Definition Classes

    MultiplicativeAbGroup → MultiplicativeCMonoid → MultiplicativeCSemigroup → MultiplicativeGroup → MultiplicativeMonoid → MultiplicativeSemigroup

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

    

    Definition Classes

    AnyRef

65. def negate(x: Real): Real

    

    Definition Classes

    RealIsFractional → AdditiveGroup

66. 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

67. final def notify(): Unit

    

    Definition Classes

    AnyRef

68. final def notifyAll(): Unit

    

    Definition Classes

    AnyRef

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

    

    Definition Classes

    RealIsFractional → NRoot

70. 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 → PartialOrder → Eq

71. def one: Real

    

    Definition Classes

    RealIsFractional → MultiplicativeMonoid

72. def partialCompare(x: Real, y: Real): 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

    Order → PartialOrder

73. def pi: Real

    

    Definition Classes

    RealIsFractional → Trig

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

    

    Definition Classes

    RealIsFractional → AdditiveSemigroup

75. def pmax(x: Real, y: Real): Option[Real]

    

    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

76. def pmin(x: Real, y: Real): Option[Real]

    

    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

77. 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

78. def prod(as: TraversableOnce[Real]): Real

    

    Given a sequence of as, sum them using the monoid and return the total.

    Given a sequence of as, sum them using the monoid and return the total.

    Definition Classes

    MultiplicativeMonoid

79. def prodOption(as: TraversableOnce[Real]): Option[Real]

    

    Given a sequence of as, sum them using the semigroup and return the total.

    Given a sequence of as, sum them using the semigroup and return the total.

    If the sequence is empty, returns None. Otherwise, returns Some(total).

    Definition Classes

    MultiplicativeSemigroup

80. def prodn(a: Real, n: Int): Real

    

    Return a multiplicated with itself n times.

    Return a multiplicated with itself n times.

    Definition Classes

    MultiplicativeGroup → MultiplicativeMonoid → MultiplicativeSemigroup

81. def prodnAboveOne(a: Real, n: Int): Real

    

    Attributes

    protected

    Definition Classes

    MultiplicativeSemigroup

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

    

    Definition Classes

    RealIsFractional → EuclideanRing

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

    

    Definition Classes

    EuclideanRing

84. def reciprocal(x: Real): Real

    

    Definition Classes

    RealIsFractional → MultiplicativeGroup

85. 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 → PartialOrder

86. def round(x: Real): Real

    

    Rounds a to the nearest integer.

    Rounds a to the nearest integer.

    Definition Classes

    RealIsFractional → IsReal

87. 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

88. 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

89. def sin(x: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

90. def sinh(x: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

91. def sqrt(x: Real): Real

    

    Definition Classes

    RealIsFractional → NRoot

92. def sum(as: TraversableOnce[Real]): Real

    

    Given a sequence of as, sum them using the monoid and return the total.

    Given a sequence of as, sum them using the monoid and return the total.

    Definition Classes

    AdditiveMonoid

93. def sumOption(as: TraversableOnce[Real]): Option[Real]

    

    Given a sequence of as, sum them using the semigroup and return the total.

    Given a sequence of as, sum them using the semigroup and return the total.

    If the sequence is empty, returns None. Otherwise, returns Some(total).

    Definition Classes

    AdditiveSemigroup

94. def sumn(a: Real, n: Int): Real

    

    Return a added with itself n times.

    Return a added with itself n times.

    Definition Classes

    AdditiveGroup → AdditiveMonoid → AdditiveSemigroup

95. def sumnAboveOne(a: Real, n: Int): Real

    

    Attributes

    protected

    Definition Classes

    AdditiveSemigroup

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

    

    Definition Classes

    AnyRef

97. def tan(x: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

98. def tanh(x: Real): Real

    

    Definition Classes

    RealIsFractional → Trig

99. def times(x: Real, y: Real): Real

    

    Definition Classes

    RealIsFractional → MultiplicativeSemigroup

100. def toAlgebraic(x: Real): Algebraic

     

     Definition Classes

     RealIsFractional → ConvertableFrom

101. def toBigDecimal(x: Real): BigDecimal

     

     Definition Classes

     RealIsFractional → ConvertableFrom

102. def toBigInt(x: Real): BigInt

     

     Definition Classes

     RealIsFractional → ConvertableFrom

103. def toByte(x: Real): Byte

     

     Definition Classes

     RealIsFractional → ConvertableFrom

104. def toDegrees(a: Real): Real

     

     Definition Classes

     RealIsFractional → Trig

105. def toDouble(x: Real): Double

     

     Approximates a as a Double.

     Approximates a as a Double.

     Definition Classes

     RealIsFractional → IsReal → ConvertableFrom

106. def toFloat(x: Real): Float

     

     Definition Classes

     RealIsFractional → ConvertableFrom

107. def toInt(x: Real): Int

     

     Definition Classes

     RealIsFractional → ConvertableFrom

108. def toLong(x: Real): Long

     

     Definition Classes

     RealIsFractional → ConvertableFrom

109. def toNumber(x: Real): Number

     

     Definition Classes

     RealIsFractional → ConvertableFrom

110. def toRadians(a: Real): Real

     

     Definition Classes

     RealIsFractional → Trig

111. def toRational(x: Real): Rational

     

     Definition Classes

     RealIsFractional → ConvertableFrom

112. def toReal(x: Real): Real

     

     Definition Classes

     RealIsFractional → IsReal → ConvertableFrom

113. def toShort(x: Real): Short

     

     Definition Classes

     RealIsFractional → ConvertableFrom

114. def toString(x: Real): String

     

     Definition Classes

     RealIsFractional → ConvertableFrom

115. def toString(): String

     

     Definition Classes

     AnyRef → Any

116. def toType[B](x: Real)(implicit ev: ConvertableTo[B]): B

     

     Definition Classes

     RealIsFractional → ConvertableFrom

117. def tryCompare(x: Real, y: Real): 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

118. final def wait(): Unit

     

     Definition Classes

     AnyRef

     Annotations

     @throws( ... )

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

     

     Definition Classes

     AnyRef

     Annotations

     @throws( ... )

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

     

     Definition Classes

     AnyRef

     Annotations

     @throws( ... )

121. def zero: Real

     

     Definition Classes

     RealIsFractional → AdditiveMonoid