| Name | Description |
| Acos | Modifies a ComplexVector, y, by replacing each element y[i] with Acos(y[i]). |
| Add | Overloaded. Modifies a ComplexVector, y, by replacing each element y[i] with y[i] + x[i]. |
| Asin | Modifies a ComplexVector, y, by replacing each element y[i] with Asin(y[i]). |
| Atan | Modifies a ComplexVector, y, by replacing each element y[i] with Atan(y[i]). |
| Ceiling | Modifies a ComplexVector, y, by replacing each element y[i] with Ceiling(y[i]). |
| Cis | Modifies a ComplexVector, y, by replacing each element y[i] with Cis(y[i]). |
| Clone | Returns a copy of the ComplexVector instance. |
| CompareTo | Overloaded. Modifies the ComplexVector, y, by replacing each element y[i] with CompareTo(y[i],x[i]). |
| Conj | Modifies a ComplexVector, y, by replacing each element y[i] with Conj(y[i]). |
| CopyTo | Overloaded. Overridden. Copies the base ComplexVector to an array starting at a particular index. |
| Cos | Modifies a ComplexVector, y, by replacing each element y[i] with Cos(y[i]). |
| Cosh | Modifies a ComplexVector, y, by replacing each element y[i] with Cosh(y[i]). |
| CumProduct | Modifies a ComplexVector, y, by replacing each element y[i] with y[0]*...*y[i]. |
| CumSum | Modifies a ComplexVector, y, by replacing each element y[i] with y[0]+...+y[i]. |
| Divide | Overloaded. Modifies a ComplexVector, y, by replacing each element y[i] with y[i] / x[i]. |
| Equals | Compares the ComplexVector with for equality. |
| Exp | Modifies a ComplexVector, y, by replacing each element y[i] with Exp(y[i]). |
| Floor | Modifies a ComplexVector, y, by replacing each element y[i] with Floor(y[i]). |
| GetEnumerator | Overridden. Returns an enumerator for the ComplexVector. |
| GetHashCode | Returns a hash code for the ComplexVector. |
| IsColumn | Determines whether the MatrixBase is a column MatrixBase. (Inherited from Infragistics.Math.MatrixBase) |
| IsEmpty | Determines whether the MatrixBase is empty. (Inherited from Infragistics.Math.MatrixBase) |
| IsRow | Determines whether the MatrixBase is a row MatrixBase. (Inherited from Infragistics.Math.MatrixBase) |
| IsSquare | Determines whether the MatrixBase is square. (Inherited from Infragistics.Math.MatrixBase) |
| IsTwoDimensional | Determines if the MatrixBase has exactly two dimensions. (Inherited from Infragistics.Math.MatrixBase) |
| IsUnitary | Determines whether the MatrixBase is unitary. (Inherited from Infragistics.Math.MatrixBase) |
| Log | Overloaded. Modifies a ComplexVector, y, by replacing each element y[i] with Log(y[i]). |
| Log10 | Modifies a ComplexVector, y, by replacing each element y[i] with Log10(y[i]). |
| Log2 | Modifies a ComplexVector, y, by replacing each element y[i] with Log2(y[i]). |
| Multiply | Overloaded. Modifies a ComplexVector, y, by replacing each element y[i] with y[i] * x. |
| Pow | Overloaded. Modifies a ComplexVector, y, by replacing each element y[i] with Pow(y[i],x[i]). |
| Round | Modifies a ComplexVector, y, by replacing each element y[i] with Round(y[i]). |
| Sign | Modifies a ComplexVector, y, by replacing each element y[i] with Sign(y[i]). |
| Sin | Modifies a ComplexVector, y, by replacing each element y[i] with Sin(y[i]). |
| Sinh | Modifies a ComplexVector, y, by replacing each element y[i] with Sinh(y[i]). |
| Sort | Modifies the ComplexVector by sorting the elements by value in ascending order. |
| Sqrt | Modifies a ComplexVector, y, by replacing each element y[i] with Sqrt(y[i]). |
| Squeeze | Removes unitary dimensions from MatrixBase instances with greater than two dimensions. (Inherited from Infragistics.Math.MatrixBase) |
| Subtract | Overloaded. Modifies a ComplexVector, y, by replacing each element y[i] with y[i] - x[i]. |
| Tan | Modifies a ComplexVector, y, by replacing each element y[i] with Tan(y[i]). |
| Tanh | Modifies a ComplexVector, y, by replacing each element y[i] with Tanh(y[i]). |
| ToString | Returns the string representation of a ComplexVector. |
| Transpose | Modifies a ComplexVector by switching its orientation. A row ComplexVector is converted to a column ComplexVector and vice versa. |