org.djunits.value.vdouble.scalar

Class ElectricalResistance

java.lang.Object

java.lang.Number

org.djunits.value.Scalar<U>

org.djunits.value.vdouble.scalar.DoubleScalar<U>

org.djunits.value.vdouble.scalar.DoubleScalar.Rel<U>

org.djunits.value.vdouble.scalar.TypedDoubleScalarRel<ElectricalResistanceUnit,ElectricalResistance>

org.djunits.value.vdouble.scalar.ElectricalResistance

All Implemented Interfaces:

Serializable, Comparable<DoubleScalar.Rel<ElectricalResistanceUnit>>, MathFunctionsAbs<DoubleScalar.Rel<ElectricalResistanceUnit>>, MathFunctionsRel<DoubleScalar.Rel<ElectricalResistanceUnit>>, Relative, Value<ElectricalResistanceUnit>, DoubleMathFunctions<DoubleScalar<ElectricalResistanceUnit>>

public class ElectricalResistance
extends TypedDoubleScalarRel<ElectricalResistanceUnit,ElectricalResistance>

Easy access methods for the ElectricalResistance DoubleScalar, which is relative by definition. Instead of:

 DoubleScalar.Rel<ElectricalResistanceUnit> value = new DoubleScalar.Rel<ElectricalResistanceUnit>(100.0,
         ElectricalResistanceUnit.SI);
 

we can now write:

 ElectricalResistance value = new ElectricalResistance(100.0, ElectricalResistanceUnit.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) 2013-2016 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved.
BSD-style license. See DJUNITS License.

$LastChangedDate: 2016-05-28 14:25:52 +0200 (Sat, 28 May 2016) $, @version $Revision: 202 $, 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.vdouble.scalar.DoubleScalar

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

Field Summary

Fields

Modifier and Type	Field and Description
static ElectricalResistance	ZERO constant with value zero.

Fields inherited from class org.djunits.value.vdouble.scalar.DoubleScalar.Rel

si

Fields inherited from interface org.djunits.value.vdouble.DoubleMathFunctions

ABS, ACOS, ASIN, ATAN, CBRT, CEIL, COS, COSH, EXP, EXPM1, FLOOR, INV, LOG, LOG10, LOG1P, RINT, ROUND, SIGNUM, SIN, SINH, SQRT, TAN, TANH

Constructor Summary

Constructors

Constructor and Description
ElectricalResistance(double value, ElectricalResistanceUnit unit) Construct ElectricalResistance scalar.
ElectricalResistance(ElectricalResistance value) Construct ElectricalResistance scalar.

Method Summary

Modifier and Type	Method and Description
Dimensionless	divideBy(ElectricalResistance v) Calculate the division of ElectricalResistance and ElectricalResistance, which results in a Dimensionless scalar.
protected ElectricalResistance	instantiateTypeRel(double value, ElectricalResistanceUnit unit) Construct a new Relative Immutable DoubleScalar of the right type.
static ElectricalResistance	interpolate(ElectricalResistance zero, ElectricalResistance one, double ratio) Interpolate between two values.
static ElectricalResistance	max(ElectricalResistance r1, ElectricalResistance r2) Return the maximum value of two relative scalars.
static ElectricalResistance	max(ElectricalResistance r1, ElectricalResistance r2, ElectricalResistance... rn) Return the maximum value of more than two relative scalars.
static ElectricalResistance	min(ElectricalResistance r1, ElectricalResistance r2) Return the minimum value of two relative scalars.
static ElectricalResistance	min(ElectricalResistance r1, ElectricalResistance r2, ElectricalResistance... rn) Return the minimum value of more than two relative scalars.
ElectricalPotential	multiplyBy(ElectricalCurrent v) Calculate the multiplication of ElectricalResistance and ElectricalCurrent, which results in a ElectricalPotential scalar.

Methods inherited from class org.djunits.value.vdouble.scalar.TypedDoubleScalarRel

abs, ceil, divideBy, floor, minus, multiplyBy, plus, rint, round

Methods inherited from class org.djunits.value.vdouble.scalar.DoubleScalar.Rel

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

Methods inherited from class org.djunits.value.vdouble.scalar.DoubleScalar

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

Methods inherited from interface org.djunits.value.vdouble.DoubleMathFunctions

DIV, MULT, POW

Field Detail

ZERO

public static final ElectricalResistance ZERO

constant with value zero.

Constructor Detail

ElectricalResistance

public ElectricalResistance(double value,
                            ElectricalResistanceUnit unit)

Construct ElectricalResistance scalar.

Parameters:

value - double value

unit - unit for the double value

ElectricalResistance

public ElectricalResistance(ElectricalResistance value)

Construct ElectricalResistance scalar.

Parameters:

value - Scalar from which to construct this instance

Method Detail

instantiateTypeRel

protected final ElectricalResistance instantiateTypeRel(double value,
                                                        ElectricalResistanceUnit unit)

Construct a new Relative Immutable DoubleScalar of the right type. Each extending class must implement this method.

Specified by:

instantiateTypeRel in class TypedDoubleScalarRel<ElectricalResistanceUnit,ElectricalResistance>

Parameters:

value - the double value

unit - the unit

Returns:

R a new relative instance of the DoubleScalar of the right type

interpolate

public static ElectricalResistance interpolate(ElectricalResistance zero,
                                               ElectricalResistance 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

max

public static ElectricalResistance max(ElectricalResistance r1,
                                       ElectricalResistance 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 ElectricalResistance max(ElectricalResistance r1,
                                       ElectricalResistance r2,
                                       ElectricalResistance... 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 ElectricalResistance min(ElectricalResistance r1,
                                       ElectricalResistance 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 ElectricalResistance min(ElectricalResistance r1,
                                       ElectricalResistance r2,
                                       ElectricalResistance... 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

divideBy

public final Dimensionless divideBy(ElectricalResistance v)

Calculate the division of ElectricalResistance and ElectricalResistance, which results in a Dimensionless scalar.

Parameters:

v - ElectricalResistance scalar

Returns:

Dimensionless scalar as a division of ElectricalResistance and ElectricalResistance

multiplyBy

public final ElectricalPotential multiplyBy(ElectricalCurrent v)

Calculate the multiplication of ElectricalResistance and ElectricalCurrent, which results in a ElectricalPotential scalar.

Parameters:

v - ElectricalResistance scalar

Returns:

ElectricalPotential scalar as a multiplication of ElectricalResistance and ElectricalCurrent