org.djunits.value.vfloat.scalar

Class FloatElectricalCurrent

java.lang.Object

java.lang.Number

org.djunits.value.Scalar<U>

org.djunits.value.vfloat.scalar.FloatScalar<U>

org.djunits.value.vfloat.scalar.FloatScalar.Rel<ElectricalCurrentUnit>

org.djunits.value.vfloat.scalar.FloatElectricalCurrent

All Implemented Interfaces:

Serializable, Comparable<FloatScalar.Rel<ElectricalCurrentUnit>>, MathFunctions<FloatScalar<ElectricalCurrentUnit>>, Relative, Value<ElectricalCurrentUnit>, FloatMathFunctions<FloatScalar<ElectricalCurrentUnit>>

public class FloatElectricalCurrent
extends FloatScalar.Rel<ElectricalCurrentUnit>
implements Relative

Easy access methods for the ElectricalCurrent FloatScalar, which is relative by definition. An example is Speed. Instead of
FloatScalar.Rel<ElectricalCurrentUnit> value = new FloatScalar.Rel<ElectricalCurrentUnit>(100.0, ElectricalCurrentUnit.SI);
we can now write
FloatElectricalCurrent value = new FloatElectricalCurrent(100.0, ElectricalCurrentUnit.SI);
The compiler will automatically recognize which units belong to which quantity, and whether the quantity type and the unit used are compatible.

Copyright (c) 2013-2015 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved.
BSD-style license. See DJUNITS License.

$LastChangedDate: 2015-10-04 20:47:10 +0200 (Sun, 04 Oct 2015) $, @version $Revision: 86 $, by $Author: averbraeck $, initial version Sep 5, 2015

Author:

Alexander Verbraeck, Peter Knoppers

See Also:

Serialized Form

Nested Class Summary

Nested classes/interfaces inherited from class org.djunits.value.vfloat.scalar.FloatScalar

FloatScalar.Abs<U extends Unit<U>>, FloatScalar.Rel<U extends Unit<U>>

Field Summary

Fields inherited from class org.djunits.value.vfloat.scalar.FloatScalar.Rel

si

Constructor Summary

Constructors

Constructor and Description
FloatElectricalCurrent(double value, ElectricalCurrentUnit unit) Construct FloatElectricalCurrent scalar using a double value.
FloatElectricalCurrent(float value, ElectricalCurrentUnit unit) Construct FloatElectricalCurrent scalar.
FloatElectricalCurrent(FloatScalar.Rel<ElectricalCurrentUnit> value) Construct FloatElectricalCurrent scalar.

Method Summary

Modifier and Type	Method and Description
FloatElectricalCurrent	abs() Set the value(s) to their absolute value.
FloatElectricalCurrent	acos() Set the value(s) to the arc cosine of the value(s); the resulting angle is in the range 0.0 through pi.
FloatElectricalCurrent	asin() Set the value(s) to the arc sine of the value(s); the resulting angle is in the range -pi/2 through pi/2.
FloatElectricalCurrent	atan() Set the value(s) to the arc tangent of the value(s); the resulting angle is in the range -pi/2 through pi/2.
FloatElectricalCurrent	cbrt() Set the value(s) to the(ir) cube root.
FloatElectricalCurrent	ceil() Set the value(s) to the smallest (closest to negative infinity) value(s) that are greater than or equal to the argument and equal to a mathematical integer.
FloatElectricalCurrent	cos() Set the value(s) to the trigonometric cosine of the value(s).
FloatElectricalCurrent	cosh() Set the value(s) to the hyperbolic cosine of the value(s).
FloatElectricalCurrent	divideBy(double factor) Divide scalar by a double factor.
FloatElectricalCurrent	divideBy(float divisor) Scale the value(s) by the inverse of a factor; i.e.
FloatDimensionless.Rel	divideBy(FloatElectricalCurrent v) Calculate the division of FloatElectricalCurrent and FloatElectricalCurrent, which results in a FloatDimensionless scalar.
FloatElectricalCurrent	exp() Set the value(s) to Euler's number e raised to the power of the value(s).
FloatElectricalCurrent	expm1() Set the value(s) to Euler's number e raised to the power of the value(s) minus 1 (e^x - 1).
FloatElectricalCurrent	floor() Set the value(s) to the largest (closest to positive infinity) value(s) that are less than or equal to the argument and equal to a mathematical integer.
static FloatElectricalCurrent	interpolate(FloatElectricalCurrent zero, FloatElectricalCurrent one, double ratio) Interpolate between two values.
static FloatElectricalCurrent	interpolate(FloatElectricalCurrent zero, FloatElectricalCurrent one, float ratio) Interpolate between two values.
FloatElectricalCurrent	inv() Set the value(s) to the complement (1.0/x) of the value(s).
FloatElectricalCurrent	log() Set the value(s) to the natural logarithm (base e) of the value(s).
FloatElectricalCurrent	log10() Set the value(s) to the base 10 logarithm of the value(s).
FloatElectricalCurrent	log1p() Set the value(s) to the natural logarithm of the sum of the value(s) and 1.
FloatElectricalCurrent	minus(FloatElectricalCurrent v) Relative scalar minus Relative scalar = Relative scalar.
FloatElectricalCurrent	multiplyBy(double factor) Multiply scalar with a double factor.
FloatElectricalCurrent	multiplyBy(float factor) Scale the value(s) by a factor.
FloatPower	multiplyBy(FloatElectricalPotential v) Calculate the multiplication of FloatElectricalCurrent and FloatElectricalPotential, which results in a FloatPower scalar.
FloatElectricalPotential	multiplyBy(FloatElectricalResistance v) Calculate the multiplication of FloatElectricalCurrent and FloatElectricalResistance, which results in a FloatElectricalPotential scalar.
FloatElectricalCharge	multiplyBy(FloatTime.Rel v) Calculate the multiplication of FloatElectricalCurrent and FloatTime, which results in a FloatElectricalCharge scalar.
FloatElectricalCurrent	plus(FloatElectricalCurrent v) Relative scalar plus Relative scalar = Relative scalar.
FloatElectricalCurrent	pow(double x) Set the value(s) to the value(s) raised to the power of the argument.
FloatElectricalCurrent	rint() Set the value(s) to the value(s) that are closest in value to the argument and equal to a mathematical integer.
FloatElectricalCurrent	round() Set the value(s) to the closest long to the argument with ties rounding up.
FloatElectricalCurrent	signum() Set the value(s) to the signum function of the value(s); zero if the argument is zero, 1.0 if the argument is greater than zero, -1.0 if the argument is less than zero.
FloatElectricalCurrent	sin() Set the value(s) to the trigonometric sine of the value(s).
FloatElectricalCurrent	sinh() Set the value(s) to the hyperbolic sine of the value(s).
FloatElectricalCurrent	sqrt() Set the value(s) to the correctly rounded positive square root of the value(s).
FloatElectricalCurrent	tan() Set the value(s) to the trigonometric tangent of the value(s).
FloatElectricalCurrent	tanh() Set the value(s) to the hyperbolic tangent of the value(s).
FloatElectricalCurrent	toDegrees() Set the value(s) to approximately equivalent angle(s) measured in degrees.
FloatElectricalCurrent	toRadians() Set the value(s) to approximately equivalent angle(s) measured in radians.

Methods inherited from class org.djunits.value.vfloat.scalar.FloatScalar.Rel

compareTo, eq, ge, getSI, gt, le, lt, minus, ne, plus

Methods inherited from class org.djunits.value.vfloat.scalar.FloatScalar

divide, divide, doubleValue, equals, floatValue, getInUnit, getInUnit, hashCode, interpolate, interpolate, intValue, longValue, minus, minus, minus, multiply, multiply, plus, plus, plus, toString, toString, toString, toString

Methods inherited from class org.djunits.value.Scalar

expressAsSIUnit, expressAsSpecifiedUnit, getUnit, isAbsolute, isRelative

Methods inherited from class java.lang.Number

byteValue, shortValue

Methods inherited from class java.lang.Object

clone, finalize, getClass, notify, notifyAll, wait, wait, wait

Constructor Detail

FloatElectricalCurrent

public FloatElectricalCurrent(float value,
                              ElectricalCurrentUnit unit)

Construct FloatElectricalCurrent scalar.

Parameters:

value - float value

unit - unit for the float value

FloatElectricalCurrent

public FloatElectricalCurrent(double value,
                              ElectricalCurrentUnit unit)

Construct FloatElectricalCurrent scalar using a double value.

Parameters:

value - double value

unit - unit for the value

FloatElectricalCurrent

public FloatElectricalCurrent(FloatScalar.Rel<ElectricalCurrentUnit> value)

Construct FloatElectricalCurrent scalar.

Parameters:

value - Scalar from which to construct this instance

Method Detail

interpolate

public static FloatElectricalCurrent interpolate(FloatElectricalCurrent zero,
                                                 FloatElectricalCurrent one,
                                                 float ratio)

Interpolate between two values.

Parameters:

zero - the low value

one - the high value

ratio - the ratio between 0 and 1, inclusive

Returns:

a Scalar at the ratio between

interpolate

public static FloatElectricalCurrent interpolate(FloatElectricalCurrent zero,
                                                 FloatElectricalCurrent one,
                                                 double ratio)

Interpolate between two values.

Parameters:

zero - the low value

one - the high value

ratio - the ratio between 0 and 1, inclusive

Returns:

a Scalar at the ratio between

abs

public final FloatElectricalCurrent abs()

Set the value(s) to their absolute value.

Specified by:

abs in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

abs in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

acos

public final FloatElectricalCurrent acos()

Set the value(s) to the arc cosine of the value(s); the resulting angle is in the range 0.0 through pi.

Specified by:

acos in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

acos in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

asin

public final FloatElectricalCurrent asin()

Set the value(s) to the arc sine of the value(s); the resulting angle is in the range -pi/2 through pi/2.

Specified by:

asin in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

asin in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

atan

public final FloatElectricalCurrent atan()

Set the value(s) to the arc tangent of the value(s); the resulting angle is in the range -pi/2 through pi/2.

Specified by:

atan in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

atan in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

cbrt

public final FloatElectricalCurrent cbrt()

Set the value(s) to the(ir) cube root.

Specified by:

cbrt in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

cbrt in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

ceil

public final FloatElectricalCurrent ceil()

Set the value(s) to the smallest (closest to negative infinity) value(s) that are greater than or equal to the argument and equal to a mathematical integer.

Specified by:

ceil in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

ceil in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

cos

public final FloatElectricalCurrent cos()

Set the value(s) to the trigonometric cosine of the value(s).

Specified by:

cos in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

cos in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

cosh

public final FloatElectricalCurrent cosh()

Set the value(s) to the hyperbolic cosine of the value(s).

Specified by:

cosh in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

cosh in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

exp

public final FloatElectricalCurrent exp()

Set the value(s) to Euler's number e raised to the power of the value(s).

Specified by:

exp in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

exp in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

expm1

public final FloatElectricalCurrent expm1()

Set the value(s) to Euler's number e raised to the power of the value(s) minus 1 (e^x - 1).

Specified by:

expm1 in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

expm1 in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

floor

public final FloatElectricalCurrent floor()

Set the value(s) to the largest (closest to positive infinity) value(s) that are less than or equal to the argument and equal to a mathematical integer.

Specified by:

floor in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

floor in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

log

public final FloatElectricalCurrent log()

Set the value(s) to the natural logarithm (base e) of the value(s).

Specified by:

log in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

log in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

log10

public final FloatElectricalCurrent log10()

Set the value(s) to the base 10 logarithm of the value(s).

Specified by:

log10 in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

log10 in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

log1p

public final FloatElectricalCurrent log1p()

Set the value(s) to the natural logarithm of the sum of the value(s) and 1.

Specified by:

log1p in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

log1p in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

rint

public final FloatElectricalCurrent rint()

Set the value(s) to the value(s) that are closest in value to the argument and equal to a mathematical integer.

Specified by:

rint in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

rint in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

round

public final FloatElectricalCurrent round()

Set the value(s) to the closest long to the argument with ties rounding up.

Specified by:

round in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

round in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

signum

public final FloatElectricalCurrent signum()

Set the value(s) to the signum function of the value(s); zero if the argument is zero, 1.0 if the argument is greater than zero, -1.0 if the argument is less than zero.

Specified by:

signum in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

signum in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

sin

public final FloatElectricalCurrent sin()

Set the value(s) to the trigonometric sine of the value(s).

Specified by:

sin in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

sin in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

sinh

public final FloatElectricalCurrent sinh()

Set the value(s) to the hyperbolic sine of the value(s).

Specified by:

sinh in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

sinh in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

sqrt

public final FloatElectricalCurrent sqrt()

Set the value(s) to the correctly rounded positive square root of the value(s).

Specified by:

sqrt in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

sqrt in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

tan

public final FloatElectricalCurrent tan()

Set the value(s) to the trigonometric tangent of the value(s).

Specified by:

tan in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

tan in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

tanh

public final FloatElectricalCurrent tanh()

Set the value(s) to the hyperbolic tangent of the value(s).

Specified by:

tanh in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

tanh in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

inv

public final FloatElectricalCurrent inv()

Set the value(s) to the complement (1.0/x) of the value(s).

Specified by:

inv in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

inv in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

toDegrees

public final FloatElectricalCurrent toDegrees()

Set the value(s) to approximately equivalent angle(s) measured in degrees.

Specified by:

toDegrees in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

toDegrees in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

toRadians

public final FloatElectricalCurrent toRadians()

Set the value(s) to approximately equivalent angle(s) measured in radians.

Specified by:

toRadians in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

toRadians in class FloatScalar.Rel<ElectricalCurrentUnit>

Returns:

T; the modified T

pow

public final FloatElectricalCurrent pow(double x)

Set the value(s) to the value(s) raised to the power of the argument.

Specified by:

pow in interface MathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

pow in class FloatScalar.Rel<ElectricalCurrentUnit>

Parameters:

x - double; the value to use as the power

Returns:

T; the modified T

multiplyBy

public final FloatElectricalCurrent multiplyBy(float factor)

Scale the value(s) by a factor.

Specified by:

multiplyBy in interface FloatMathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

multiplyBy in class FloatScalar.Rel<ElectricalCurrentUnit>

Parameters:

factor - float; the multiplier

Returns:

T; the modified T

multiplyBy

public final FloatElectricalCurrent multiplyBy(double factor)

Multiply scalar with a double factor.

Parameters:

factor - the factor to multiply with

Returns:

new instance of a relative electricalcurrent

divideBy

public final FloatElectricalCurrent divideBy(float divisor)

Scale the value(s) by the inverse of a factor; i.e. a divisor.

Specified by:

divideBy in interface FloatMathFunctions<FloatScalar<ElectricalCurrentUnit>>

Overrides:

divideBy in class FloatScalar.Rel<ElectricalCurrentUnit>

Parameters:

divisor - float; the divisor

Returns:

T; the modified T

divideBy

public final FloatElectricalCurrent divideBy(double factor)

Divide scalar by a double factor.

Parameters:

factor - the factor to divide by

Returns:

new instance of a relative electricalcurrent

plus

public final FloatElectricalCurrent plus(FloatElectricalCurrent v)

Relative scalar plus Relative scalar = Relative scalar.

Parameters:

v - the value to add

Returns:

sum of this value and v as a new object

minus

public final FloatElectricalCurrent minus(FloatElectricalCurrent v)

Relative scalar minus Relative scalar = Relative scalar.

Parameters:

v - the value to subtract

Returns:

difference of this value and v as a new object

divideBy

public final FloatDimensionless.Rel divideBy(FloatElectricalCurrent v)

Calculate the division of FloatElectricalCurrent and FloatElectricalCurrent, which results in a FloatDimensionless scalar.

Parameters:

v - FloatElectricalCurrent scalar

Returns:

FloatDimensionless scalar as a division of FloatElectricalCurrent and FloatElectricalCurrent

multiplyBy

public final FloatPower multiplyBy(FloatElectricalPotential v)

Calculate the multiplication of FloatElectricalCurrent and FloatElectricalPotential, which results in a FloatPower scalar.

Parameters:

v - FloatElectricalCurrent scalar

Returns:

FloatPower scalar as a multiplication of FloatElectricalCurrent and FloatElectricalPotential

multiplyBy

public final FloatElectricalCharge multiplyBy(FloatTime.Rel v)

Calculate the multiplication of FloatElectricalCurrent and FloatTime, which results in a FloatElectricalCharge scalar.

Parameters:

v - FloatElectricalCurrent scalar

Returns:

FloatElectricalCharge scalar as a multiplication of FloatElectricalCurrent and FloatTime

multiplyBy

public final FloatElectricalPotential multiplyBy(FloatElectricalResistance v)

Calculate the multiplication of FloatElectricalCurrent and FloatElectricalResistance, which results in a FloatElectricalPotential scalar.

Parameters:

v - FloatElectricalCurrent scalar

Returns:

FloatElectricalPotential scalar as a multiplication of FloatElectricalCurrent and FloatElectricalResistance