ILNumerics Ultimate VS

ExtensionMethods.nanmin Method (ConcreteArray<complex, Array<complex>, InArray<complex>, OutArray<complex>, RetArray<complex>, Storage<complex>>, Nullable<Int32>, OutArray<Int64>)

ILNumerics Ultimate VS Documentation
ILNumerics - Technical Application Development
[numpy API] Computes minimum elements along the specified dimension of A, ignoring NaNs.

[ILNumerics numpy Module]

Namespace:  ILNumerics
Assembly:  ILNumerics.numpy (in ILNumerics.numpy.dll) Version: 5.5.0.0 (5.5.7503.3146)
Syntax

public static RetArray<complex> nanmin(
	this ConcreteArray<complex, Array<complex>, InArray<complex>, OutArray<complex>, RetArray<complex>, Storage<complex>> A,
	Nullable<int> axis = null,
	OutArray<long> indices = null
)

Parameters

A
Type: ILNumerics.Core.Arrays.ConcreteArray<complex, Array<complex>, InArray<complex>, OutArray<complex>, RetArray<complex>, Storage<complex>>
Array to compute the minimum(s) for. This is not altered.
axis (Optional)
Type: System.Nullable<Int32>
[Optional] The working dimension. Default: (null) finds the minimum within the whole array.
indices (Optional)
Type: ILNumerics.OutArray<Int64>
[Optional] Also return the indices of the minimum values found from A. Default: (null) indices are not returned.

Return Value

Type: RetArray<complex>

Usage Note

In Visual Basic and C#, you can call this method as an instance method on any object of type ConcreteArray<complex, Array<complex>, InArray<complex>, OutArray<complex>, RetArray<complex>, Storage<complex>>. When you use instance method syntax to call this method, omit the first parameter. For more information, see Extension Methods (Visual Basic) or Extension Methods (C# Programming Guide).
Remarks

Negative dimension specifier 'axis' will be shifted into the range of valid dimension indices. -1 corresponds to the last dimension.

min(ConcreteArray<complex, Array<complex> , InArray<complex> , OutArray<complex> , RetArray<complex> , Storage<complex> > , Nullable<Int32> , OutArray<Int64> ) prioritizes NaN values over non-NaN values. I.e.: if any of the elements is NaN the respective result value will be NaN also. Conversely, min(BaseArray<complex>, OutArray<Int64>, Int32, Boolean), ignores NaN values and gives the minimum among the non-NaN values, if possible. This corresponds to the behavior of ILNumerics version 4, Matlab(R) a.s.f.

[ILNumerics numpy Module]

See Also

Reference

MathInternal.min(BaseArray<complex>, OutArray<Int64>, Int32, Boolean)
ExtensionMethods.argmin(ConcreteArray<complex, Array<complex>, InArray<complex>, OutArray<complex>, RetArray<complex>, Storage<complex>>, Nullable<Int32>, OutArray<complex>)
MathInternal.minall(ConcreteArray<complex, Array<complex>, InArray<complex>, OutArray<complex>, RetArray<complex>, Storage<complex>>, OutArray<Int64>, StorageOrders, Boolean)
MathInternal.minall(ConcreteArray<complex, Array<complex>, InArray<complex>, OutArray<complex>, RetArray<complex>, Storage<complex>>, OutArray<Int64>, StorageOrders, Boolean)