Complex

Value Members

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

   

   Definition Classes

   AnyRef → Any

2. final def ##(): Int

   

   Definition Classes

   AnyRef → Any

3. def *(r: Double): Complex

   

   Multiply a complex numbers times double.

   Multiply a complex numbers times double.

   r

   multiply this times r

4. def *(c: Complex): Complex

   

   Multiply two complex numbers.

   Multiply two complex numbers.

   c

   multiply this times c

5. def +(r: Double): Complex

   

   Add a complex number plus double.

   Add a complex number plus double.

   r

   add r to this

6. def +(c: Complex): Complex

   

   Add two complex numbers.

   Add two complex numbers.

   c

   add complex c to this

7. def -(r: Double): Complex

   

   Subtract: a complex number minus double.

   Subtract: a complex number minus double.

   r

   subtract r from this

8. def -(c: Complex): Complex

   

   Subtract two complex numbers.

   Subtract two complex numbers.

   c

   subtract c from this

9. def /(r: Double): Complex

   

   Divide a complex numbers div double.

   Divide a complex numbers div double.

   r

   divide this by r

10. def /(c: Complex): Complex

    

    Divide two complex numbers.

    Divide two complex numbers.

    c

    divide this by c

11. def <(that: Complex): Boolean

    

    Definition Classes

    Ordered

12. def <=(that: Complex): Boolean

    

    Definition Classes

    Ordered

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

    

    Definition Classes

    AnyRef → Any

14. def >(that: Complex): Boolean

    

    Definition Classes

    Ordered

15. def >=(that: Complex): Boolean

    

    Definition Classes

    Ordered

16. def abs: Complex

    

    Return the absolute value of this complex number.

17. def abs(x: Complex): Complex

    

    Definition Classes

    Numeric

18. def angle: Double

    

    Return the angle of the complex number as a vector in the re-im plane.

19. final def asInstanceOf[T0]: T0

    

    Definition Classes

    Any

20. def bar: Complex

    

    Return the complex conjugate: if z = (a + bi) then z.bar = (a - bi).

21. def clone(): AnyRef

    

    Attributes

    protected[java.lang]

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

22. def compare(d: Complex): Int

    

    Compare this complex number with that complex number d.

    Compare this complex number with that complex number d.

    d

    that complex number

    Definition Classes

    Complex → Ordered

23. def compare(c: Complex, d: Complex): Int

    

    Compare two complex numbers (negative for <, zero for ==, positive for >).

    Compare two complex numbers (negative for <, zero for ==, positive for >).

    c

    the first complex number to compare

    d

    the second complex number to compare

    Definition Classes

    Complex → Ordering → Comparator

24. def compareTo(that: Complex): Int

    

    Definition Classes

    Ordered → Comparable

25. def div(c: Complex, r: Double): Complex

    

26. def div(c: Complex, d: Complex): Complex

    

    Definition Classes

    Complex → Fractional

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

    

    Definition Classes

    AnyRef

28. def equals(c: Any): Boolean

    

    Override equals to determine whether this complex number equals complex c.

    Override equals to determine whether this complex number equals complex c.

    c

    the complex number to compare with this

    Definition Classes

    Complex → Equals → Comparator → AnyRef → Any

29. def equiv(x: Complex, y: Complex): Boolean

    

    Definition Classes

    Ordering → PartialOrdering → Equiv

30. def finalize(): Unit

    

    Attributes

    protected[java.lang]

    Definition Classes

    AnyRef

    Annotations

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

31. def fromDouble(x: Double): Complex

    

    Create a complex number from a Double.

    Create a complex number from a Double.

    x

    the double used to create the complex number

32. def fromFloat(x: Float): Complex

    

    Create a complex number from a Float.

    Create a complex number from a Float.

    x

    the float used to create the complex number

33. def fromInt(n: Int): Complex

    

    Create a complex number from an Int.

    Create a complex number from an Int.

    n

    the integer used to create the complex number

    Definition Classes

    Complex → Numeric

34. def fromLong(n: Long): Complex

    

    Create a complex number from a Long.

    Create a complex number from a Long.

    n

    the long used to create the complex number

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

    

    Definition Classes

    AnyRef → Any

36. def gt(x: Complex, y: Complex): Boolean

    

    Definition Classes

    Ordering → PartialOrdering

37. def gteq(x: Complex, y: Complex): Boolean

    

    Definition Classes

    Ordering → PartialOrdering

38. def hashCode(): Int

    

    Must also override hashCode to be be compatible with equals.

    Must also override hashCode to be be compatible with equals.

    Definition Classes

    Complex → AnyRef → Any

39. val im: Double

    

    the imaginary part (e.g., 3.2)

40. final def isInstanceOf[T0]: Boolean

    

    Definition Classes

    Any

41. def isRe: Boolean

    

    Determine whether this complex number is real (no imaginary part).

42. def lt(x: Complex, y: Complex): Boolean

    

    Definition Classes

    Ordering → PartialOrdering

43. def lteq(x: Complex, y: Complex): Boolean

    

    Definition Classes

    Ordering → PartialOrdering

44. def max(c: Complex): Complex

    

    Return the maximum of this and that complex numbers.

    Return the maximum of this and that complex numbers.

    c

    that complex number to compare with this

45. def max(x: Complex, y: Complex): Complex

    

    Definition Classes

    Ordering

46. def min(c: Complex): Complex

    

    Return the minimum of this and that complex numbers.

    Return the minimum of this and that complex numbers.

    c

    that complex number to compare with this

47. def min(x: Complex, y: Complex): Complex

    

    Definition Classes

    Ordering

48. def minus(c: Complex, r: Double): Complex

    

49. def minus(c: Complex, d: Complex): Complex

    

    Definition Classes

    Complex → Numeric

50. implicit def mkNumericOps(lhs: Complex): FractionalOps

    

    Definition Classes

    Fractional → Numeric

51. implicit def mkOrderingOps(lhs: Complex): Complex.Ops

    

    Definition Classes

    Ordering

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

    

    Definition Classes

    AnyRef

53. def negate(c: Complex): Complex

    

    Definition Classes

    Complex → Numeric

54. final def notify(): Unit

    

    Definition Classes

    AnyRef

55. final def notifyAll(): Unit

    

    Definition Classes

    AnyRef

56. def on[U](f: (U) ⇒ Complex): Ordering[U]

    

    Definition Classes

    Ordering

57. def one: Complex

    

    Definition Classes

    Numeric

58. def plus(c: Complex, r: Double): Complex

    

59. def plus(c: Complex, d: Complex): Complex

    

    Definition Classes

    Complex → Numeric

60. def polar: (Double, Double)

    

    Return the complex number in polar coordinates (radius, angle).

61. def pow(c: Complex, r: Double): Complex

    

62. def radius: Double

    

    Return the radius of the complex number as a vector in the re-im plane.

63. val re: Double

    

    the real part (e.g., 2.1)

64. def reverse: Ordering[Complex]

    

    Definition Classes

    Ordering → PartialOrdering

65. def reversed(): Comparator[Complex]

    

    Definition Classes

    Comparator

66. def setFormat(newFormat: String): Unit

    

    Set the format to the newFormat.

    Set the format to the newFormat.

    newFormat

    the new format String

67. def signum(x: Complex): Int

    

    Definition Classes

    Numeric

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

    

    Definition Classes

    AnyRef

69. def thenComparing[U <: Comparable[_ >: U]](arg0: Function[_ >: Complex, _ <: U]): Comparator[Complex]

    

    Definition Classes

    Comparator

70. def thenComparing[U](arg0: Function[_ >: Complex, _ <: U], arg1: Comparator[_ >: U]): Comparator[Complex]

    

    Definition Classes

    Comparator

71. def thenComparing(arg0: Comparator[_ >: Complex]): Comparator[Complex]

    

    Definition Classes

    Comparator

72. def thenComparingDouble(arg0: ToDoubleFunction[_ >: Complex]): Comparator[Complex]

    

    Definition Classes

    Comparator

73. def thenComparingInt(arg0: ToIntFunction[_ >: Complex]): Comparator[Complex]

    

    Definition Classes

    Comparator

74. def thenComparingLong(arg0: ToLongFunction[_ >: Complex]): Comparator[Complex]

    

    Definition Classes

    Comparator

75. def times(c: Complex, r: Double): Complex

    

76. def times(c: Complex, d: Complex): Complex

    

    Definition Classes

    Complex → Numeric

77. def toDouble: Double

    

78. def toDouble(c: Complex): Double

    

    Convert that/this complex number to a Double.

    Convert that/this complex number to a Double.

    Definition Classes

    Complex → Numeric

79. def toFloat: Float

    

80. def toFloat(c: Complex): Float

    

    Convert that/this complex number to a Float.

    Convert that/this complex number to a Float.

    Definition Classes

    Complex → Numeric

81. def toInt: Int

    

82. def toInt(c: Complex): Int

    

    Convert that/this complex number to an Int.

    Convert that/this complex number to an Int.

    Definition Classes

    Complex → Numeric

83. def toLong: Long

    

84. def toLong(c: Complex): Long

    

    Convert this complex number to a Long.

    Convert this complex number to a Long.

    Definition Classes

    Complex → Numeric

85. def toString(): String

    

    Convert this complex number to a String of the form "a+bi".

    Convert this complex number to a String of the form "a+bi".

    Definition Classes

    Complex → AnyRef → Any

86. def toString2: String

    

    Convert this complex number to a String of the form "(a, b)".

87. def tryCompare(x: Complex, y: Complex): Some[Int]

    

    Definition Classes

    Ordering → PartialOrdering

88. def unary_-(): Complex

    

    Compute the unary minus (-).

89. final def wait(): Unit

    

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

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

    

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

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

    

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

92. def zero: Complex

    

    Definition Classes

    Numeric

93. def ~^(r: Double): Complex

    

    Raise a complex to the r-th power (a double) using polar coordinates.

    Raise a complex to the r-th power (a double) using polar coordinates.

    r

    the power/exponent