Package org.djunits.value.vfloat.scalar

Class FloatElectricalPotential

java.lang.Object
java.lang.Number
org.djunits.value.base.Scalar<U,S>
org.djunits.value.vfloat.scalar.base.FloatScalar<U,R>
org.djunits.value.vfloat.scalar.base.FloatScalarRel<ElectricalPotentialUnit,FloatElectricalPotential>
org.djunits.value.vfloat.scalar.FloatElectricalPotential
All Implemented Interfaces:
Serializable, Cloneable, Comparable<FloatElectricalPotential>, Relative<ElectricalPotentialUnit,FloatElectricalPotential>, Value<ElectricalPotentialUnit,FloatElectricalPotential>
@Generated(value="org.djunits.generator.GenerateDJUNIT", date="2023-07-23T14:06:38.224104100Z") public class FloatElectricalPotential extends FloatScalarRel<ElectricalPotentialUnit,FloatElectricalPotential>
Easy access methods for the FloatElectricalPotential FloatScalar, which is relative by definition.

Copyright (c) 2013-2024 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved.
BSD-style license. See DJUNITS License.

Author:
Alexander Verbraeck, Peter Knoppers
See Also:

  • Field Details

  • Constructor Details

    • FloatElectricalPotential

      public FloatElectricalPotential(float value, ElectricalPotentialUnit unit)
      Construct FloatElectricalPotential scalar.
      Parameters:
      value - float; the float value
      unit - unit for the float value

    • FloatElectricalPotential

      public FloatElectricalPotential(FloatElectricalPotential value)
      Construct FloatElectricalPotential scalar.
      Parameters:
      value - Scalar from which to construct this instance

    • FloatElectricalPotential

      public FloatElectricalPotential(double value, ElectricalPotentialUnit unit)
      Construct FloatElectricalPotential scalar using a double value.
      Parameters:
      value - double; the double value
      unit - unit for the resulting float value

  • Method Details

    • instantiateRel

      public final FloatElectricalPotential instantiateRel(float value, ElectricalPotentialUnit unit)
      Construct a new Relative Immutable FloatScalar of the right type. Each extending class must implement this method.
      Specified by:
      instantiateRel in class FloatScalarRel<ElectricalPotentialUnit,FloatElectricalPotential>
      Parameters:
      value - float; the float value
      unit - U; the unit
      Returns:
      R a new relative instance of the FloatScalar of the right type

    • instantiateSI

      public static final FloatElectricalPotential instantiateSI(float value)
      Construct FloatElectricalPotential scalar.
      Parameters:
      value - float; the float value in SI units
      Returns:
      the new scalar with the SI value

    • interpolate

      public static FloatElectricalPotential interpolate(FloatElectricalPotential zero, FloatElectricalPotential one, float ratio)
      Interpolate between two values.
      Parameters:
      zero - the low value
      one - the high value
      ratio - double; the ratio between 0 and 1, inclusive
      Returns:
      a Scalar at the ratio between

    • max

      public static FloatElectricalPotential max(FloatElectricalPotential r1, FloatElectricalPotential r2)
      Return the maximum value of two relative scalars.
      Parameters:
      r1 - the first scalar
      r2 - the second scalar
      Returns:
      the maximum value of two relative scalars

    • max

      public static FloatElectricalPotential max(FloatElectricalPotential r1, FloatElectricalPotential r2, FloatElectricalPotential... rn)
      Return the maximum value of more than two relative scalars.
      Parameters:
      r1 - the first scalar
      r2 - the second scalar
      rn - the other scalars
      Returns:
      the maximum value of more than two relative scalars

    • min

      public static FloatElectricalPotential min(FloatElectricalPotential r1, FloatElectricalPotential r2)
      Return the minimum value of two relative scalars.
      Parameters:
      r1 - the first scalar
      r2 - the second scalar
      Returns:
      the minimum value of two relative scalars

    • min

      public static FloatElectricalPotential min(FloatElectricalPotential r1, FloatElectricalPotential r2, FloatElectricalPotential... rn)
      Return the minimum value of more than two relative scalars.
      Parameters:
      r1 - the first scalar
      r2 - the second scalar
      rn - the other scalars
      Returns:
      the minimum value of more than two relative scalars

    • valueOf

      public static FloatElectricalPotential valueOf(String text)
      Returns a FloatElectricalPotential representation of a textual representation of a value with a unit. The String representation that can be parsed is the double value in the unit, followed by a localized or English abbreviation of the unit. Spaces are allowed, but not required, between the value and the unit.
      Parameters:
      text - String; the textual representation to parse into a FloatElectricalPotential
      Returns:
      FloatElectricalPotential; the Scalar representation of the value in its unit
      Throws:
      IllegalArgumentException - when the text cannot be parsed
      NullPointerException - when the text argument is null

    • of

      public static FloatElectricalPotential of(float value, String unitString)
      Returns a FloatElectricalPotential based on a value and the textual representation of the unit, which can be localized.
      Parameters:
      value - double; the value to use
      unitString - String; the textual representation of the unit
      Returns:
      FloatElectricalPotential; the Scalar representation of the value in its unit
      Throws:
      IllegalArgumentException - when the unit cannot be parsed or is incorrect
      NullPointerException - when the unitString argument is null

    • divide

      public final FloatDimensionless divide(FloatElectricalPotential v)
      Calculate the division of FloatElectricalPotential and FloatElectricalPotential, which results in a FloatDimensionless scalar.
      Parameters:
      v - FloatElectricalPotential; scalar
      Returns:
      FloatDimensionless; scalar as a division of FloatElectricalPotential and FloatElectricalPotential

    • times

      public final FloatPower times(FloatElectricalCurrent v)
      Calculate the multiplication of FloatElectricalPotential and FloatElectricalCurrent, which results in a FloatPower scalar.
      Parameters:
      v - FloatElectricalPotential; scalar
      Returns:
      FloatPower; scalar as a multiplication of FloatElectricalPotential and FloatElectricalCurrent

    • divide

      public final FloatElectricalResistance divide(FloatElectricalCurrent v)
      Calculate the division of FloatElectricalPotential and FloatElectricalCurrent, which results in a FloatElectricalResistance scalar.
      Parameters:
      v - FloatElectricalPotential; scalar
      Returns:
      FloatElectricalResistance; scalar as a division of FloatElectricalPotential and FloatElectricalCurrent

    • divide

      public final FloatElectricalCurrent divide(FloatElectricalResistance v)
      Calculate the division of FloatElectricalPotential and FloatElectricalResistance, which results in a FloatElectricalCurrent scalar.
      Parameters:
      v - FloatElectricalPotential; scalar
      Returns:
      FloatElectricalCurrent; scalar as a division of FloatElectricalPotential and FloatElectricalResistance

    • times

      public final FloatMagneticFlux times(FloatDuration v)
      Calculate the multiplication of FloatElectricalPotential and FloatDuration, which results in a FloatMagneticFlux scalar.
      Parameters:
      v - FloatElectricalPotential; scalar
      Returns:
      FloatMagneticFlux; scalar as a multiplication of FloatElectricalPotential and FloatDuration

    • reciprocal

      public FloatSIScalar reciprocal()
      Create the reciprocal of this scalar with the correct dimensions.
      Specified by:
      reciprocal in class FloatScalarRel<ElectricalPotentialUnit,FloatElectricalPotential>
      Returns:
      FloatScalar<?>; a new scalar instance with correct SI dimensions