Packages

class VectorC extends VectoC

The VectorC class stores and operates on Numeric Vectors of base type Complex. It follows the framework of gen.VectorN [T] and is provided for performance.

Linear Supertypes
VectoC, Serializable, Serializable, Error, Vec, PartiallyOrdered[VectoC], Traversable[Complex], GenTraversable[Complex], GenericTraversableTemplate[Complex, Traversable], TraversableLike[Complex, Traversable[Complex]], GenTraversableLike[Complex, Traversable[Complex]], Parallelizable[Complex, ParIterable[Complex]], TraversableOnce[Complex], GenTraversableOnce[Complex], FilterMonadic[Complex, Traversable[Complex]], HasNewBuilder[Complex, Traversable[Complex]], AnyRef, Any
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Inherited
  1. VectorC
  2. VectoC
  3. Serializable
  4. Serializable
  5. Error
  6. Vec
  7. PartiallyOrdered
  8. Traversable
  9. GenTraversable
  10. GenericTraversableTemplate
  11. TraversableLike
  12. GenTraversableLike
  13. Parallelizable
  14. TraversableOnce
  15. GenTraversableOnce
  16. FilterMonadic
  17. HasNewBuilder
  18. AnyRef
  19. Any
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Visibility
  1. Public
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Instance Constructors

  1. new VectorC(iv: (Int, Complex), dm: Int)

    Construct a vector and assign 'value' at 'index' position.

    Construct a vector and assign 'value' at 'index' position.

    iv

    the tuple containing (index, value)

    dm

    the dimension for the new vector

  2. new VectorC(u: VectoC)

    Construct a vector and assign values from vector 'u'.

    Construct a vector and assign values from vector 'u'.

    u

    the other vector

  3. new VectorC(dim: Int, v: Array[Complex] = null)

    dim

    the dimension/size of the vector

    v

    the 1D array used to store vector elements

Type Members

  1. class WithFilter extends FilterMonadic[A, Repr]
    Definition Classes
    TraversableLike

Value Members

  1. def *(s: (Int, Complex)): VectorC

    Multiply 'this' vector by scalar 's._2' only at position 's._1', e.g., 'x * (3, 5.5)'.

    Multiply 'this' vector by scalar 's._2' only at position 's._1', e.g., 'x * (3, 5.5)'.

    s

    the (position, scalar) to multiply

    Definition Classes
    VectorCVectoC
  2. def *(s: Complex): VectorC

    Multiply 'this' vector by scalar 's'.

    Multiply 'this' vector by scalar 's'.

    s

    the scalar to multiply by

    Definition Classes
    VectorCVectoC
  3. def *(b: VectorC): VectorC

    Multiply 'this' vector by vector 'b'.

    Multiply 'this' vector by vector 'b'.

    b

    the vector to multiply by (same kind, more efficient)

  4. def *(b: VectoC): VectorC

    Multiply 'this' vector by vector 'b'.

    Multiply 'this' vector by vector 'b'.

    b

    the vector to multiply by (any kind)

    Definition Classes
    VectorCVectoC
  5. def *=(s: Complex): VectorC

    Multiply in-place 'this' vector and scalar 's'.

    Multiply in-place 'this' vector and scalar 's'.

    s

    the scalar to multiply by

    Definition Classes
    VectorCVectoC
  6. def *=(b: VectorC): VectorC

    Multiply in-place 'this' vector and vector 'b'.

    Multiply in-place 'this' vector and vector 'b'.

    b

    the vector to multiply by (same kind, more efficient)

  7. def *=(b: VectoC): VectorC

    Multiply in-place 'this' vector and vector 'b'.

    Multiply in-place 'this' vector and vector 'b'.

    b

    the vector to multiply by (any kind)

    Definition Classes
    VectorCVectoC
  8. def +(s: (Int, Complex)): VectorC

    Add 'this' vector and scalar 's._2' only at position 's._1', e.g., 'x + (3, 5.5)'.

    Add 'this' vector and scalar 's._2' only at position 's._1', e.g., 'x + (3, 5.5)'.

    s

    the (position, scalar) to add

    Definition Classes
    VectorCVectoC
  9. def +(s: Complex): VectorC

    Add 'this' vector and scalar 's'.

    Add 'this' vector and scalar 's'.

    s

    the scalar to add

    Definition Classes
    VectorCVectoC
  10. def +(b: VectorC): VectorC

    Add 'this' vector and vector 'b'.

    Add 'this' vector and vector 'b'.

    b

    the vector to add (same kind, more efficient)

  11. def +(b: VectoC): VectorC

    Add 'this' vector and vector 'b'.

    Add 'this' vector and vector 'b'.

    b

    the vector to add (any kind)

    Definition Classes
    VectorCVectoC
  12. def ++(s: Complex): VectorC

    Concatenate 'this' vector and scalar 's'.

    Concatenate 'this' vector and scalar 's'.

    s

    the scalar to be concatenated

    Definition Classes
    VectorCVectoC
  13. def ++(b: VectorC): VectorC

    Concatenate 'this' vector and vector' b'.

    Concatenate 'this' vector and vector' b'.

    b

    the vector to be concatenated (same kind, more efficient)

  14. def ++(b: VectoC): VectorC

    Concatenate 'this' vector and vector' b'.

    Concatenate 'this' vector and vector' b'.

    b

    the vector to be concatenated (any kind)

    Definition Classes
    VectorCVectoC
  15. def ++[B >: Complex, That](that: GenTraversableOnce[B])(implicit bf: CanBuildFrom[Traversable[Complex], B, That]): That
    Definition Classes
    TraversableLike → GenTraversableLike
  16. def ++:[B >: Complex, That](that: Traversable[B])(implicit bf: CanBuildFrom[Traversable[Complex], B, That]): That
    Definition Classes
    TraversableLike
  17. def ++:[B >: Complex, That](that: TraversableOnce[B])(implicit bf: CanBuildFrom[Traversable[Complex], B, That]): That
    Definition Classes
    TraversableLike
  18. def +=(s: Complex): VectorC

    Add in-place 'this' vector and scalar 's'.

    Add in-place 'this' vector and scalar 's'.

    s

    the scalar to add

    Definition Classes
    VectorCVectoC
  19. def +=(b: VectorC): VectorC

    Add in-place 'this' vector and vector 'b'.

    Add in-place 'this' vector and vector 'b'.

    b

    the vector to add (same kind, more efficient)

  20. def +=(b: VectoC): VectorC

    Add in-place 'this' vector and vector 'b'.

    Add in-place 'this' vector and vector 'b'.

    b

    the vector to add (any kind)

    Definition Classes
    VectorCVectoC
  21. def -(s: (Int, Complex)): VectorC

    From 'this' vector subtract scalar 's._2' only at position 's._1', e.g., 'x - (3, 5.5)'.

    From 'this' vector subtract scalar 's._2' only at position 's._1', e.g., 'x - (3, 5.5)'.

    s

    the (position, scalar) to subtract

    Definition Classes
    VectorCVectoC
  22. def -(s: Complex): VectorC

    From 'this' vector subtract scalar 's'.

    From 'this' vector subtract scalar 's'.

    s

    the scalar to subtract

    Definition Classes
    VectorCVectoC
  23. def -(b: VectorC): VectorC

    From 'this' vector subtract vector 'b'.

    From 'this' vector subtract vector 'b'.

    b

    the vector to subtract (same kind, more efficient)

  24. def -(b: VectoC): VectorC

    From 'this' vector subtract vector 'b'.

    From 'this' vector subtract vector 'b'.

    b

    the vector to subtract (any kind)

    Definition Classes
    VectorCVectoC
  25. def -=(s: Complex): VectorC

    From 'this' vector subtract in-place scalar 's'.

    From 'this' vector subtract in-place scalar 's'.

    s

    the scalar to subtract

    Definition Classes
    VectorCVectoC
  26. def -=(b: VectorC): VectorC

    From 'this' vector subtract in-place vector 'b'.

    From 'this' vector subtract in-place vector 'b'.

    b

    the vector to subtract (same kind, more efficient)

  27. def -=(b: VectoC): VectorC

    From 'this' vector subtract in-place vector 'b'.

    From 'this' vector subtract in-place vector 'b'.

    b

    the vector to subtract (any kind)

    Definition Classes
    VectorCVectoC
  28. def /(s: (Int, Complex)): VectorC

    Divide 'this' vector by scalar 's._2' only at position 's._1', e.g., 'x / (3, 5.5)'.

    Divide 'this' vector by scalar 's._2' only at position 's._1', e.g., 'x / (3, 5.5)'.

    s

    the (position, scalar) to divide

    Definition Classes
    VectorCVectoC
  29. def /(s: Complex): VectorC

    Divide 'this' vector by scalar 's'.

    Divide 'this' vector by scalar 's'.

    s

    the scalar to divide by

    Definition Classes
    VectorCVectoC
  30. def /(b: VectorC): VectorC

    Divide 'this' vector by vector 'b' (element-by-element).

    Divide 'this' vector by vector 'b' (element-by-element).

    b

    the vector to divide by (same kind, more efficient)

  31. def /(b: VectoC): VectorC

    Divide 'this' vector by vector 'b' (element-by-element).

    Divide 'this' vector by vector 'b' (element-by-element).

    b

    the vector to divide by (any kind)

    Definition Classes
    VectorCVectoC
  32. def /:[B](z: B)(op: (B, Complex) ⇒ B): B
    Definition Classes
    TraversableOnce → GenTraversableOnce
  33. def /=(s: Complex): VectorC

    Divide in-place 'this' vector and scalar 's'.

    Divide in-place 'this' vector and scalar 's'.

    s

    the scalar to divide by

    Definition Classes
    VectorCVectoC
  34. def /=(b: VectorC): VectorC

    Divide in-place 'this' vector and vector 'b'.

    Divide in-place 'this' vector and vector 'b'.

    b

    the vector to divide by (same kind, more efficient)

  35. def /=(b: VectoC): VectorC

    Divide in-place 'this' vector and vector 'b'.

    Divide in-place 'this' vector and vector 'b'.

    b

    the vector to divide by (any kind)

    Definition Classes
    VectorCVectoC
  36. def :\[B](z: B)(op: (Complex, B) ⇒ B): B
    Definition Classes
    TraversableOnce → GenTraversableOnce
  37. def <[B >: VectoC](that: B)(implicit arg0: (B) ⇒ PartiallyOrdered[B]): Boolean
    Definition Classes
    PartiallyOrdered
  38. def <=[B >: VectoC](that: B)(implicit arg0: (B) ⇒ PartiallyOrdered[B]): Boolean
    Definition Classes
    PartiallyOrdered
  39. def >[B >: VectoC](that: B)(implicit arg0: (B) ⇒ PartiallyOrdered[B]): Boolean
    Definition Classes
    PartiallyOrdered
  40. def >=[B >: VectoC](that: B)(implicit arg0: (B) ⇒ PartiallyOrdered[B]): Boolean
    Definition Classes
    PartiallyOrdered
  41. def _oneAt(j: Int, size: Int = dim): VectorC

    Create a vector of the form (0, ...

    Create a vector of the form (0, ... -1, ... 0) where the -1 is at position j.

    j

    the position to place the -1

    size

    the size of the vector (upper bound = size - 1)

    Definition Classes
    VectorCVectoC
  42. def abs: VectorC

    Return the vector that is the element-wise absolute value of 'this' vector.

    Return the vector that is the element-wise absolute value of 'this' vector.

    Definition Classes
    VectorCVectoC
  43. def addString(b: StringBuilder): StringBuilder
    Definition Classes
    TraversableOnce
  44. def addString(b: StringBuilder, sep: String): StringBuilder
    Definition Classes
    TraversableOnce
  45. def addString(b: StringBuilder, start: String, sep: String, end: String): StringBuilder
    Definition Classes
    TraversableOnce
  46. def aggregate[B](z: ⇒ B)(seqop: (B, Complex) ⇒ B, combop: (B, B) ⇒ B): B
    Definition Classes
    TraversableOnce → GenTraversableOnce
  47. def apply(iv: VectoI): VectorC

    Get 'this' vector's elements that are given in the index vector.

    Get 'this' vector's elements that are given in the index vector.

    iv

    the index vector

    Definition Classes
    VectorCVectoC
  48. def apply(): WrappedArray[Complex]

    Get 'this' vector's entire array.

    Get 'this' vector's entire array.

    Definition Classes
    VectorCVectoC
  49. def apply(r: Range): VectorC

    Get 'this' vector's elements within the given range (vector slicing).

    Get 'this' vector's elements within the given range (vector slicing).

    r

    the given range

    Definition Classes
    VectorCVectoC
  50. def apply(i: Int): Complex

    Get 'this' vector's element at the 'i'-th index position.

    Get 'this' vector's element at the 'i'-th index position.

    i

    the given index

    Definition Classes
    VectorCVectoC
  51. def argmax(s: Int, e: Int): Int

    Find the argument maximum of 'this' vector (index of maximum element).

    Find the argument maximum of 'this' vector (index of maximum element).

    s

    the starting index (inclusive) for the search

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  52. def argmax(e: Int = dim): Int

    Find the argument maximum of 'this' vector (index of maximum element).

    Find the argument maximum of 'this' vector (index of maximum element).

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  53. def argmaxPos(e: Int = dim): Int

    Return the argument maximum of 'this' vector (-1 if it's not positive).

    Return the argument maximum of 'this' vector (-1 if it's not positive).

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  54. def argmin(s: Int, e: Int): Int

    Find the argument minimum of 'this' vector (index of minimum element).

    Find the argument minimum of 'this' vector (index of minimum element).

    s

    the starting index (inclusive) for the search

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  55. def argmin(e: Int = dim): Int

    Find the argument minimum of 'this' vector (index of minimum element).

    Find the argument minimum of 'this' vector (index of minimum element).

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  56. def argminNeg(e: Int = dim): Int

    Return the argument minimum of 'this' vector (-1 if it's not negative).

    Return the argument minimum of 'this' vector (-1 if it's not negative).

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  57. def clean(thres: Double = TOL, relative: Boolean = true): VectorC

    Clean values in 'this' vector at or below the threshold 'thres' by setting them to zero.

    Clean values in 'this' vector at or below the threshold 'thres' by setting them to zero. Iterative algorithms give approximate values and if very close to zero, may throw off other calculations, e.g., in computing eigenvectors.

    thres

    the cutoff threshold (a small value)

    relative

    whether to use relative or absolute cutoff

  58. def collect[B, That](pf: PartialFunction[Complex, B])(implicit bf: CanBuildFrom[Traversable[Complex], B, That]): That
    Definition Classes
    TraversableLike → GenTraversableLike
  59. def collectFirst[B](pf: PartialFunction[Complex, B]): Option[B]
    Definition Classes
    TraversableOnce
  60. def companion: GenericCompanion[Traversable]
    Definition Classes
    Traversable → GenTraversable → GenericTraversableTemplate
  61. def contains(x: Complex): Boolean

    Determine whether 'x' is contained in 'this' vector.

    Determine whether 'x' is contained in 'this' vector.

    x

    the element to be checked

    Definition Classes
    VectorCVectoC
  62. def containsAny(x: VectorC): Boolean

    Determine whether any of the elements in 'x' are contained in 'this' vector.

    Determine whether any of the elements in 'x' are contained in 'this' vector.

    x

    the vector of elements to be checked

  63. def copy(): VectorC

    Create an exact copy of 'this' vector.

    Create an exact copy of 'this' vector.

    Definition Classes
    VectorCVectoC
  64. def copyToArray[B >: Complex](xs: Array[B], start: Int, len: Int): Unit
    Definition Classes
    TraversableLike → TraversableOnce → GenTraversableOnce
  65. def copyToArray[B >: Complex](xs: Array[B]): Unit
    Definition Classes
    TraversableOnce → GenTraversableOnce
  66. def copyToArray[B >: Complex](xs: Array[B], start: Int): Unit
    Definition Classes
    TraversableOnce → GenTraversableOnce
  67. def copyToBuffer[B >: Complex](dest: Buffer[B]): Unit
    Definition Classes
    TraversableOnce
  68. def count(p: (Complex) ⇒ Boolean): Int
    Definition Classes
    TraversableOnce → GenTraversableOnce
  69. def countNeg: Int

    Count the number of strictly negative elements in 'this' vector.

    Count the number of strictly negative elements in 'this' vector.

    Definition Classes
    VectorCVectoC
  70. def countPos: Int

    Count the number of strictly positive elements in 'this' vector.

    Count the number of strictly positive elements in 'this' vector.

    Definition Classes
    VectorCVectoC
  71. def countZero: Int

    Count the number of zero elements in the 'this' vector.

    Count the number of zero elements in the 'this' vector.

    Definition Classes
    VectorCVectoC
  72. def countinct: Int

    Count the number of distinct elements in 'this' vector.

    Count the number of distinct elements in 'this' vector.

    Definition Classes
    VectorCVectoC
  73. def cumulate: VectorC

    Cumulate the values of 'this' vector from left to right (e.g., create a CDF from a pmf).

    Cumulate the values of 'this' vector from left to right (e.g., create a CDF from a pmf). Example: (4, 2, 3, 1) --> (4, 6, 9, 10)

    Definition Classes
    VectorCVectoC
  74. val dim: Int
    Definition Classes
    VectorCVectoC
  75. def distinct: VectorC

    Return a new vector consisting of the distinct elements from 'this' vector.

    Return a new vector consisting of the distinct elements from 'this' vector.

    Definition Classes
    VectorCVectoC
  76. def dot(b: VectorC): Complex

    Compute the dot product (or inner product) of 'this' vector with vector 'b'.

    Compute the dot product (or inner product) of 'this' vector with vector 'b'.

    b

    the other vector (same kind, more efficient)

  77. def dot(b: VectoC): Complex

    Compute the dot product (or inner product) of 'this' vector with vector 'b'.

    Compute the dot product (or inner product) of 'this' vector with vector 'b'.

    b

    the other vector (any kind)

    Definition Classes
    VectorCVectoC
  78. def drop(n: Int): Traversable[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  79. def dropWhile(p: (Complex) ⇒ Boolean): Traversable[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  80. def equals(b: Any): Boolean

    Override equals to determine whether 'this' vector equals vector 'b'.

    Override equals to determine whether 'this' vector equals vector 'b'.

    b

    the vector to compare with this

    Definition Classes
    VectorCVectoC → AnyRef → Any
  81. def exists(p: (Complex) ⇒ Boolean): Boolean
    Definition Classes
    TraversableLike → TraversableOnce → GenTraversableOnce
  82. def expand(more: Int = dim): VectorC

    Expand the size (dim) of 'this' vector by 'more' elements.

    Expand the size (dim) of 'this' vector by 'more' elements.

    more

    the number of new elements to add

    Definition Classes
    VectorCVectoC
  83. def filter(p: (Complex) ⇒ Boolean): VectorC

    Filter the elements of 'this' vector based on the predicate 'p', returning a new vector.

    Filter the elements of 'this' vector based on the predicate 'p', returning a new vector.

    p

    the predicate (Boolean function) to apply

    Definition Classes
    VectorC → TraversableLike → GenTraversableLike
  84. def filterNot(p: (Complex) ⇒ Boolean): Traversable[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  85. def filterPos(p: (Complex) ⇒ Boolean): IndexedSeq[Int]

    Filter the elements of 'this' vector based on the predicate 'p', returning the index positions.

    Filter the elements of 'this' vector based on the predicate 'p', returning the index positions.

    p

    the predicate (Boolean function) to apply

    Definition Classes
    VectorCVectoC
  86. def filterPos2(v2: VectoC, p: (Complex, Complex) ⇒ Boolean): IndexedSeq[(Int, Int)]

    Filter the elements of 'this' vector based on the binary predicate 'p', returning the index positions.

    Filter the elements of 'this' vector based on the binary predicate 'p', returning the index positions.

    v2

    the other vector to compare with

    p

    the binary predicate (Boolean function, between two elements) to apply

  87. def find(p: (Complex) ⇒ Boolean): Option[Complex]
    Definition Classes
    TraversableLike → TraversableOnce → GenTraversableOnce
  88. def firstNeg(e: Int = dim): Int

    Return the index of the first negative element in 'this' vector (-1 otherwise).

    Return the index of the first negative element in 'this' vector (-1 otherwise).

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  89. def firstPos(e: Int = dim): Int

    Return the index of the first positive element in 'this' vector (-1 otherwise).

    Return the index of the first positive element in 'this' vector (-1 otherwise).

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  90. def flatMap[B, That](f: (Complex) ⇒ GenTraversableOnce[B])(implicit bf: CanBuildFrom[Traversable[Complex], B, That]): That
    Definition Classes
    TraversableLike → GenTraversableLike → FilterMonadic
  91. def flatten[B](implicit asTraversable: (Complex) ⇒ GenTraversableOnce[B]): Traversable[B]
    Definition Classes
    GenericTraversableTemplate
  92. final def flaw(method: String, message: String): Unit

    Show the flaw by printing the error message.

    Show the flaw by printing the error message.

    method

    the method where the error occurred

    message

    the error message

    Definition Classes
    Error
  93. def fold[A1 >: Complex](z: A1)(op: (A1, A1) ⇒ A1): A1
    Definition Classes
    TraversableOnce → GenTraversableOnce
  94. def foldLeft[B](z: B)(op: (B, Complex) ⇒ B): B
    Definition Classes
    TraversableOnce → GenTraversableOnce
  95. def foldRight[B](z: B)(op: (Complex, B) ⇒ B): B
    Definition Classes
    TraversableOnce → GenTraversableOnce
  96. def forall(p: (Complex) ⇒ Boolean): Boolean
    Definition Classes
    TraversableLike → TraversableOnce → GenTraversableOnce
  97. def foreach[U](f: (Complex) ⇒ U): Unit

    Iterate over 'this' vector element by element.

    Iterate over 'this' vector element by element.

    f

    the function to apply

    Definition Classes
    VectorCVectoC → GenericTraversableTemplate → TraversableLike → GenTraversableLike → TraversableOnce → GenTraversableOnce → FilterMonadic
  98. def genericBuilder[B]: Builder[B, Traversable[B]]
    Definition Classes
    GenericTraversableTemplate
  99. def groupBy[K](f: (Complex) ⇒ K): Map[K, Traversable[Complex]]
    Definition Classes
    TraversableLike → GenTraversableLike
  100. def hasDefiniteSize: Boolean
    Definition Classes
    TraversableLike → TraversableOnce → GenTraversableOnce
  101. def hashCode(): Int

    Must also override hashCode for 'this' vector to be compatible with equals.

    Must also override hashCode for 'this' vector to be compatible with equals.

    Definition Classes
    VectorCVectoC → AnyRef → Any
  102. def head: Complex
    Definition Classes
    TraversableLike → GenTraversableLike
  103. def headOption: Option[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  104. def indexOf(x: Complex, e: Int = dim): Int

    Return the index of the first occurrence of element 'x' in 'this' vector, or -1 if not found.

    Return the index of the first occurrence of element 'x' in 'this' vector, or -1 if not found.

    x

    the given element

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  105. def indexWhere(p: (Complex) ⇒ Boolean): Int

    Find and return index of first element satisfying predicate 'p', or -1 if not found.

    Find and return index of first element satisfying predicate 'p', or -1 if not found.

    p

    the predicate to check

    Definition Classes
    VectorCVectoC
  106. def indices: Range

    Produce the range of all indices (0 to one less than dim).

    Produce the range of all indices (0 to one less than dim).

    Definition Classes
    VectoC
  107. def init: Traversable[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  108. def inits: Iterator[Traversable[Complex]]
    Definition Classes
    TraversableLike
  109. def intersect(x: VectorC): VectorC

    Return the intersection of vectors 'this' and 'x'.

    Return the intersection of vectors 'this' and 'x'.

    x

    the other vector

  110. def isEmpty: Boolean
    Definition Classes
    TraversableLike → TraversableOnce → GenTraversableOnce
  111. def isNonnegative: Boolean

    Check whether 'this' vector is nonnegative (has no negative elements).

    Check whether 'this' vector is nonnegative (has no negative elements).

    Definition Classes
    VectorCVectoC
  112. def isSorted: Boolean

    Determine whether 'this' vector is in sorted (ascending) order.

  113. final def isTraversableAgain: Boolean
    Definition Classes
    TraversableLike → GenTraversableLike → GenTraversableOnce
  114. def last: Complex
    Definition Classes
    TraversableLike → GenTraversableLike
  115. def lastOption: Option[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  116. def mag: Complex

    Find the element with the greatest magnitude in 'this' vector.

    Find the element with the greatest magnitude in 'this' vector.

    Definition Classes
    VectoC
  117. def map(f: (Complex) ⇒ Complex): VectorC

    Map the elements of 'this' vector by applying the mapping function 'f'.

    Map the elements of 'this' vector by applying the mapping function 'f'.

    f

    the function to apply

    Definition Classes
    VectorCVectoC
  118. def map[B, That](f: (Complex) ⇒ B)(implicit bf: CanBuildFrom[Traversable[Complex], B, That]): That
    Definition Classes
    TraversableLike → GenTraversableLike → FilterMonadic
  119. def max(b: VectorC): VectorC

    Take the maximum of 'this' vector with vector 'b' (element-by element).

    Take the maximum of 'this' vector with vector 'b' (element-by element).

    b

    the other vector (same kind, more efficient)

  120. def max(b: VectoC): VectorC

    Take the maximum of 'this' vector with vector 'b' (element-by element).

    Take the maximum of 'this' vector with vector 'b' (element-by element).

    b

    the other vector (any kind)

    Definition Classes
    VectorCVectoC
  121. def max(e: Int = dim): Complex

    Find the maximum element in 'this' vector.

    Find the maximum element in 'this' vector.

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  122. def max[B >: Complex](implicit cmp: Ordering[B]): Complex
    Definition Classes
    TraversableOnce → GenTraversableOnce
  123. def maxBy[B](f: (Complex) ⇒ B)(implicit cmp: Ordering[B]): Complex
    Definition Classes
    TraversableOnce → GenTraversableOnce
  124. def mean: Complex

    Compute the mean of the elements of 'this' vector.

    Compute the mean of the elements of 'this' vector.

    Definition Classes
    VectoC
  125. def min(b: VectorC): VectorC

    Take the minimum of 'this' vector with vector 'b' (element-by element).

    Take the minimum of 'this' vector with vector 'b' (element-by element).

    b

    the other vector (same kind, more efficient)

  126. def min(b: VectoC): VectorC

    Take the minimum of 'this' vector with vector 'b' (element-by element).

    Take the minimum of 'this' vector with vector 'b' (element-by element).

    b

    the other vector (any kind)

    Definition Classes
    VectorCVectoC
  127. def min(e: Int = dim): Complex

    Find the minimum element in 'this' vector.

    Find the minimum element in 'this' vector.

    e

    the ending index (exclusive) for the search

    Definition Classes
    VectorCVectoC
  128. def min[B >: Complex](implicit cmp: Ordering[B]): Complex
    Definition Classes
    TraversableOnce → GenTraversableOnce
  129. def minBy[B](f: (Complex) ⇒ B)(implicit cmp: Ordering[B]): Complex
    Definition Classes
    TraversableOnce → GenTraversableOnce
  130. def mkString: String
    Definition Classes
    TraversableOnce → GenTraversableOnce
  131. def mkString(sep: String): String
    Definition Classes
    TraversableOnce → GenTraversableOnce
  132. def mkString(start: String, sep: String, end: String): String
    Definition Classes
    TraversableOnce → GenTraversableOnce
  133. val nd: Double

    Number of elements in the vector as a Complex

    Number of elements in the vector as a Complex

    Definition Classes
    VectoC
  134. def nonEmpty: Boolean
    Definition Classes
    TraversableOnce → GenTraversableOnce
  135. def norm: Complex

    Compute the Euclidean norm (2-norm) of 'this' vector.

    Compute the Euclidean norm (2-norm) of 'this' vector.

    Definition Classes
    VectoC
  136. def norm1: Complex

    Compute the Manhattan norm (1-norm) of 'this' vector, i.e., the sum of the absolute values of the elements.

    Compute the Manhattan norm (1-norm) of 'this' vector, i.e., the sum of the absolute values of the elements.

    Definition Classes
    VectorCVectoC
  137. def normSq: Complex

    Compute the Euclidean norm (2-norm) squared of 'this' vector.

    Compute the Euclidean norm (2-norm) squared of 'this' vector.

    Definition Classes
    VectoC
  138. def normalize: VectorC

    Normalize 'this' vector so that it sums to one (like a probability vector).

    Normalize 'this' vector so that it sums to one (like a probability vector).

    Definition Classes
    VectorCVectoC
  139. def normalize1: VectorC

    Normalize 'this' vector to have a maximum of one.

    Normalize 'this' vector to have a maximum of one.

    Definition Classes
    VectorCVectoC
  140. def normalizeU: VectorC

    Normalize 'this' vector so its length is one (unit vector).

    Normalize 'this' vector so its length is one (unit vector).

    Definition Classes
    VectorCVectoC
  141. def one(size: Int = dim): VectorC

    Create a one vector (all elements are one) of length 'size'.

    Create a one vector (all elements are one) of length 'size'.

    size

    the number of elements in the vector

    Definition Classes
    VectorCVectoC
  142. def oneAt(j: Int, size: Int = dim): VectorC

    Create a vector of the form (0, ...

    Create a vector of the form (0, ... 1, ... 0) where the 1 is at position j.

    j

    the position to place the 1

    size

    the size of the vector (upper bound = size - 1)

    Definition Classes
    VectorCVectoC
  143. def par: ParIterable[Complex]
    Definition Classes
    Parallelizable
  144. def partition(p: (Complex) ⇒ Boolean): (Traversable[Complex], Traversable[Complex])
    Definition Classes
    TraversableLike → GenTraversableLike
  145. def product[B >: Complex](implicit num: Numeric[B]): B
    Definition Classes
    TraversableOnce → GenTraversableOnce
  146. def pvariance: Complex

    Compute the population variance of the elements of 'this' vector.

    Compute the population variance of the elements of 'this' vector. This is also the (biased) MLE estimator for sample variance.

    Definition Classes
    VectoC
  147. val range: Range

    Range for the storage array

    Range for the storage array

    Definition Classes
    VectoC
  148. def rank: VectorI

    Establish the rank order of the elements in 'self' vector, e.g., (8.0, 2.0, 4.0, 6.0) is (3, 0, 1, 2).

    Establish the rank order of the elements in 'self' vector, e.g., (8.0, 2.0, 4.0, 6.0) is (3, 0, 1, 2).

    Definition Classes
    VectorCVectoC
  149. def recip: VectorC

    Return the vector containing the reciprocal of each element of 'this' vector.

    Return the vector containing the reciprocal of each element of 'this' vector.

    Definition Classes
    VectorCVectoC
  150. def reduce[A1 >: Complex](op: (A1, A1) ⇒ A1): A1
    Definition Classes
    TraversableOnce → GenTraversableOnce
  151. def reduceLeft[B >: Complex](op: (B, Complex) ⇒ B): B
    Definition Classes
    TraversableOnce
  152. def reduceLeftOption[B >: Complex](op: (B, Complex) ⇒ B): Option[B]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  153. def reduceOption[A1 >: Complex](op: (A1, A1) ⇒ A1): Option[A1]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  154. def reduceRight[B >: Complex](op: (Complex, B) ⇒ B): B
    Definition Classes
    TraversableOnce → GenTraversableOnce
  155. def reduceRightOption[B >: Complex](op: (Complex, B) ⇒ B): Option[B]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  156. def repr: Traversable[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  157. def reverse(): VectorC

    Reverse the order of the elements in 'this' vector.

  158. def sameDimensions(b: VectoC): Boolean

    Check whether the other vector 'b' is at least as long as 'this' vector.

    Check whether the other vector 'b' is at least as long as 'this' vector.

    b

    the other vector

    Definition Classes
    VectoC
  159. def scan[B >: Complex, That](z: B)(op: (B, B) ⇒ B)(implicit cbf: CanBuildFrom[Traversable[Complex], B, That]): That
    Definition Classes
    TraversableLike → GenTraversableLike
  160. def scanLeft[B, That](z: B)(op: (B, Complex) ⇒ B)(implicit bf: CanBuildFrom[Traversable[Complex], B, That]): That
    Definition Classes
    TraversableLike → GenTraversableLike
  161. def scanRight[B, That](z: B)(op: (Complex, B) ⇒ B)(implicit bf: CanBuildFrom[Traversable[Complex], B, That]): That
    Definition Classes
    TraversableLike → GenTraversableLike
    Annotations
    @migration
    Migration

    (Changed in version 2.9.0) The behavior of scanRight has changed. The previous behavior can be reproduced with scanRight.reverse.

  162. def select(basis: VectoI): VectorC

    Select a subset of elements of 'this' vector corresponding to a 'basis'.

    Select a subset of elements of 'this' vector corresponding to a 'basis'.

    basis

    the set/vector of index positions (e.g., 0, 2, 5)

  163. def select(basis: Array[Int]): VectorC

    Select a subset of elements of 'this' vector corresponding to a 'basis'.

    Select a subset of elements of 'this' vector corresponding to a 'basis'.

    basis

    the set/array of index positions (e.g., 0, 2, 5)

    Definition Classes
    VectorCVectoC
  164. def seq: Traversable[Complex]
    Definition Classes
    Traversable → GenTraversable → Parallelizable → TraversableOnce → GenTraversableOnce
  165. def set(u: Seq[Complex]): Unit

    Set the values in 'this' vector to the values in sequence/array 'u'.

    Set the values in 'this' vector to the values in sequence/array 'u'.

    u

    the sequence/array of values to be assigned

    Definition Classes
    VectorCVectoC
  166. def set(x: Complex): Unit

    Set each value in 'this' vector to 'x'.

    Set each value in 'this' vector to 'x'.

    x

    the value to be assigned

    Definition Classes
    VectorCVectoC
  167. def setFormat(newFormat: String): Unit

    Set the format to the 'newFormat' (e.g., "%.6g,\t" or "%12.6g,\t").

    Set the format to the 'newFormat' (e.g., "%.6g,\t" or "%12.6g,\t").

    newFormat

    the new format String

    Definition Classes
    VectoC
  168. def size: Int

    Return the size (number of elements) of 'this' vector.

    Return the size (number of elements) of 'this' vector.

    Definition Classes
    VectoCVec → GenTraversableLike → TraversableOnce → GenTraversableOnce
  169. def slice(from: Int, till: Int = dim): VectorC

    Slice 'this' vector 'from' to 'end'.

    Slice 'this' vector 'from' to 'end'.

    from

    the start of the slice (included)

    till

    the end of the slice (excluded)

    Definition Classes
    VectorCVectoC → TraversableLike → GenTraversableLike
  170. def slice(rg: Range): VectoC

    Slice 'this' vector over the given range 'rg'.

    Slice 'this' vector over the given range 'rg'.

    rg

    the range specifying the slice

    Definition Classes
    VectoC
  171. def sliceEx(rg: Range): VectoC

    Slice 'this' vector excluding the given range 'rg'.

    Slice 'this' vector excluding the given range 'rg'.

    rg

    the excluded range of the slice

    Definition Classes
    VectoC
  172. def sort(): Unit

    Sort 'this' vector in-place in ascending (non-decreasing) order.

    Sort 'this' vector in-place in ascending (non-decreasing) order.

    Definition Classes
    VectorCVectoC
  173. def sort2(): Unit

    Sort 'this' vector in-place in descending (non-increasing) order.

    Sort 'this' vector in-place in descending (non-increasing) order.

    Definition Classes
    VectorCVectoC
  174. def span(p: (Complex) ⇒ Boolean): (Traversable[Complex], Traversable[Complex])
    Definition Classes
    TraversableLike → GenTraversableLike
  175. def split(k: Int): Array[VectoC]

    Split 'this' vector into 'k' arrays of equal sizes (perhaps except for the last one).

    Split 'this' vector into 'k' arrays of equal sizes (perhaps except for the last one).

    k

    the number of pieces the vector is to be split into

    Definition Classes
    VectorCVectoC
  176. def splitAt(n: Int): (Traversable[Complex], Traversable[Complex])
    Definition Classes
    TraversableLike → GenTraversableLike
  177. def sq: VectoC

    Return the vector containing the square of each element of 'this' vector.

    Return the vector containing the square of each element of 'this' vector.

    Definition Classes
    VectoC
  178. def stringPrefix: String
    Definition Classes
    TraversableLike → GenTraversableLike
  179. def sum: Complex

    Sum the elements of 'this' vector.

    Sum the elements of 'this' vector.

    Definition Classes
    VectorCVectoC
  180. def sum[B >: Complex](implicit num: Numeric[B]): B
    Definition Classes
    TraversableOnce → GenTraversableOnce
  181. def sumNE(i: Int): Complex

    Sum the elements of 'this' vector skipping the 'i'-th element (Not Equal 'i').

    Sum the elements of 'this' vector skipping the 'i'-th element (Not Equal 'i').

    i

    the index of the element to skip

    Definition Classes
    VectorCVectoC
  182. def sumPos: Complex

    Sum the positive (> 0) elements of 'this' vector.

    Sum the positive (> 0) elements of 'this' vector.

    Definition Classes
    VectorCVectoC
  183. def swap(i: Int, j: Int): Unit

    Swap elements 'i' and 'j' in 'this' vector.

    Swap elements 'i' and 'j' in 'this' vector.

    i

    the first element in the swap

    j

    the second element in the swap

    Definition Classes
    VectorCVectoC
  184. def tail: Traversable[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  185. def tails: Iterator[Traversable[Complex]]
    Definition Classes
    TraversableLike
  186. def take(n: Int): Traversable[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  187. def takeWhile(p: (Complex) ⇒ Boolean): Traversable[Complex]
    Definition Classes
    TraversableLike → GenTraversableLike
  188. def to[Col[_]](implicit cbf: CanBuildFrom[Nothing, Complex, Col[Complex]]): Col[Complex]
    Definition Classes
    TraversableLike → TraversableOnce → GenTraversableOnce
  189. def toArray[B >: Complex](implicit arg0: ClassTag[B]): Array[B]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  190. def toBuffer[B >: Complex]: Buffer[B]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  191. def toDense: VectorC

    Convert 'this' VectorC into a dense VectorC.

    Convert 'this' VectorC into a dense VectorC.

    Definition Classes
    VectorCVectoC
  192. def toDouble: VectorD

    Convert 'this' VectorC into a VectorD.

    Convert 'this' VectorC into a VectorD.

    Definition Classes
    VectorCVectoC
  193. def toIndexedSeq: IndexedSeq[Complex]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  194. def toInt: VectorI

    Convert 'this' VectorC into a VectorI.

    Convert 'this' VectorC into a VectorI.

    Definition Classes
    VectorCVectoC
  195. def toIterable: Iterable[Complex]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  196. def toIterator: Iterator[Complex]
    Definition Classes
    TraversableLike → GenTraversableOnce
  197. def toList: List[Complex]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  198. def toLong: VectorL

    Convert 'this' VectorC into a VectorL.

    Convert 'this' VectorC into a VectorL.

    Definition Classes
    VectorCVectoC
  199. def toMap[T, U](implicit ev: <:<[Complex, (T, U)]): Map[T, U]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  200. def toSeq: Seq[Complex]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  201. def toSet[B >: Complex]: Set[B]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  202. def toStream: Stream[Complex]
    Definition Classes
    TraversableLike → GenTraversableOnce
  203. def toString: String

    Convert 'this' vector to a String.

    Convert 'this' vector to a String.

    Definition Classes
    VectorCVectoC → TraversableLike → AnyRef → Any
  204. def toTraversable: Traversable[Complex]
    Definition Classes
    TraversableLike → TraversableOnce → GenTraversableOnce
    Annotations
    @deprecatedOverriding( ... , "2.11.0" )
  205. def toVector: Vector[Complex]
    Definition Classes
    TraversableOnce → GenTraversableOnce
  206. def transpose[B](implicit asTraversable: (Complex) ⇒ GenTraversableOnce[B]): Traversable[Traversable[B]]
    Definition Classes
    GenericTraversableTemplate
    Annotations
    @migration
    Migration

    (Changed in version 2.9.0) transpose throws an IllegalArgumentException if collections are not uniformly sized.

  207. def tryCompareTo[B >: VectorC](b: B)(implicit view_1: (B) ⇒ PartiallyOrdered[B]): Option[Int]

    Compare 'this' vector with vector 'b'.

    Compare 'this' vector with vector 'b'.

    b

    the other vector

    Definition Classes
    VectorC → PartiallyOrdered
  208. def unary_-(): VectorC

    Return the negative of 'this' vector (unary minus).

    Return the negative of 'this' vector (unary minus).

    Definition Classes
    VectorCVectoC
  209. def unzip[A1, A2](implicit asPair: (Complex) ⇒ (A1, A2)): (Traversable[A1], Traversable[A2])
    Definition Classes
    GenericTraversableTemplate
  210. def unzip3[A1, A2, A3](implicit asTriple: (Complex) ⇒ (A1, A2, A3)): (Traversable[A1], Traversable[A2], Traversable[A3])
    Definition Classes
    GenericTraversableTemplate
  211. def update(r: Range, u: VectoC): Unit

    Set 'this' vector's elements over the given range (vector slicing).

    Set 'this' vector's elements over the given range (vector slicing).

    r

    the given range

    u

    the vector to assign

    Definition Classes
    VectorCVectoC
  212. def update(r: Range, x: Complex): Unit

    Set 'this' vector's elements over the given range (vector slicing).

    Set 'this' vector's elements over the given range (vector slicing).

    r

    the given range

    x

    the value to assign

    Definition Classes
    VectorCVectoC
  213. def update(i: Int, x: Complex): Unit

    Set 'this' vector's element at the 'i'-th index position.

    Set 'this' vector's element at the 'i'-th index position.

    i

    the given index

    x

    the value to assign

    Definition Classes
    VectorCVectoC
  214. def variance: Complex

    Compute the (unbiased) sample variance of the elements of 'this' vector.

    Compute the (unbiased) sample variance of the elements of 'this' vector.

    Definition Classes
    VectoC
  215. def view(from: Int, until: Int): TraversableView[Complex, Traversable[Complex]]
    Definition Classes
    TraversableLike
  216. def view: TraversableView[Complex, Traversable[Complex]]
    Definition Classes
    TraversableLike
  217. def withFilter(p: (Complex) ⇒ Boolean): FilterMonadic[Complex, Traversable[Complex]]
    Definition Classes
    TraversableLike → FilterMonadic
  218. def zero(size: Int = dim): VectorC

    Create a zero vector (all elements are zero) of length 'size'.

    Create a zero vector (all elements are zero) of length 'size'.

    size

    the number of elements in the vector

    Definition Classes
    VectorCVectoC
  219. def ~^(s: Double): VectorC

    Return the vector containing each element of 'this' vector raised to the s-th power.

    Return the vector containing each element of 'this' vector raised to the s-th power.

    s

    the scalar exponent

    Definition Classes
    VectorCVectoC
  220. def ~^=(s: Double): VectorC

    Raise in-place each element of 'this' vector to the 's'-th power.

    Raise in-place each element of 'this' vector to the 's'-th power.

    s

    the scalar exponent

    Definition Classes
    VectorCVectoC
  221. def (b: VectoC): Complex

    Compute the dot product (or inner product) of 'this' vector with vector 'b'.

    Compute the dot product (or inner product) of 'this' vector with vector 'b'.

    b

    the other vector

    Definition Classes
    VectoC
  222. def (b: VectoC): Boolean

    Compare 'this' vector with that vector 'b' for inequality.

    Compare 'this' vector with that vector 'b' for inequality.

    b

    that vector

    Definition Classes
    VectoC
  223. def (b: VectoC): Boolean

    Compare 'this' vector with that vector 'b' for less than or equal to.

    Compare 'this' vector with that vector 'b' for less than or equal to.

    b

    that vector

    Definition Classes
    VectoC
  224. def (b: VectoC): Boolean

    Compare 'this' vector with that vector 'b' for greater than or equal to.

    Compare 'this' vector with that vector 'b' for greater than or equal to.

    b

    that vector

    Definition Classes
    VectoC