Class Unit<Q extends Quantity>

  • All Implemented Interfaces:
    Serializable
    Direct Known Subclasses:
    BaseUnit, DerivedUnit

    public abstract class Unit<Q extends Quantity>
    extends Object
    implements Serializable

    This class represents a determinate quantity (as of length, time, heat, or value) adopted as a standard of measurement.

    It is helpful to think of instances of this class as recording the history by which they are created. Thus, for example, the string "g/kg" (which is a dimensionless unit) would result from invoking the method toString() on a unit that was created by dividing a gram unit by a kilogram unit. Yet, "kg" divided by "kg" returns ONE and not "kg/kg" due to automatic unit factorization.

    This class supports the multiplication of offsets units. The result is usually a unit not convertible to its standard unit. Such units may appear in derivative quantities. For example °C/m is an unit of gradient, which is common in atmospheric and oceanographic research.

    Units raised at rational powers are also supported. For example the cubic root of "liter" is a unit compatible with meter.

    Instances of this class are immutable.

    See Also:
    Wikipedia: Units of measurement, Serialized Form
    • Field Summary

      Fields 
      Modifier and Type Field Description
      static Unit<Dimensionless> ONE
      Holds the dimensionless unit ONE.
    • Constructor Summary

      Constructors 
      Modifier Constructor Description
      protected Unit()
      Default constructor.
    • Field Detail

    • Constructor Detail

      • Unit

        protected Unit()
        Default constructor.
    • Method Detail

      • getStandardUnit

        public abstract Unit<? super Q> getStandardUnit()
        Returns the base unit, alternate unit or product of base units and alternate units this unit is derived from. The standard unit identifies the "type" of quantity for which this unit is employed. For example:[code] boolean isAngularVelocity(Unit u) { return u.getStandardUnit().equals(RADIAN.divide(SECOND)); } assert(REVOLUTION.divide(MINUTE).isAngularVelocity()); [/code]

        Note: Having the same system unit is not sufficient to ensure that a converter exists between the two units (e.g. °C/m and K/m).

        Returns:
        the system unit this unit is derived from.
      • toStandardUnit

        public abstract UnitConverter toStandardUnit()
        Returns the converter from this unit to its system unit.
        Returns:
        this.getConverterTo(this.getSystemUnit())
      • hashCode

        public abstract int hashCode()
        Returns the hash code for this unit.
        Overrides:
        hashCode in class Object
        Returns:
        this unit hashcode value.
      • equals

        public abstract boolean equals​(Object that)
        Indicates if the specified unit can be considered equals to the one specified.
        Overrides:
        equals in class Object
        Parameters:
        that - the object to compare to.
        Returns:
        true if this unit is considered equal to that unit; false otherwise.
      • isStandardUnit

        public boolean isStandardUnit()
        Indicates if this unit is a standard unit (base units and alternate units are standard units). The standard unit identifies the "type" of quantity for which the unit is employed.
        Returns:
        getStandardUnit().equals(this)
      • isCompatible

        public final boolean isCompatible​(Unit<?> that)
        Indicates if this unit is compatible with the unit specified. Units don't need to be equals to be compatible. For example:[code] RADIAN.equals(ONE) == false RADIAN.isCompatible(ONE) == true [/code]
        Parameters:
        that - the other unit.
        Returns:
        this.getDimension().equals(that.getDimension())
        See Also:
        getDimension()
      • asType

        public final <T extends QuantityUnit<T> asType​(Class<T> type)
                                                  throws ClassCastException
        Casts this unit to a parameterized unit of specified nature or throw a ClassCastException if the dimension of the specified quantity and this unit's dimension do not match. For example:[code] Unit LIGHT_YEAR = NonSI.C.times(NonSI.YEAR).asType(Length.class); [/code]
        Parameters:
        type - the quantity class identifying the nature of the unit.
        Returns:
        this unit parameterized with the specified type.
        Throws:
        ClassCastException - if the dimension of this unit is different from the specified quantity dimension.
        UnsupportedOperationException - if the specified quantity class does not have a public static field named "UNIT" holding the standard unit for the quantity.
      • getDimension

        public final Dimension getDimension()
        Returns the dimension of this unit (depends upon the current dimensional model).
        Returns:
        the dimension of this unit for the current model.
      • getConverterTo

        public final UnitConverter getConverterTo​(Unit<?> that)
                                           throws ConversionException
        Returns a converter of numeric values from this unit to another unit.
        Parameters:
        that - the unit to which to convert the numeric values.
        Returns:
        the converter from this unit to that unit.
        Throws:
        ConversionException - if the conveter cannot be constructed (e.g. !this.isCompatible(that)).
      • alternate

        public final <A extends QuantityAlternateUnit<A> alternate​(String symbol)
        Returns a unit equivalent to this unit but used in expressions to distinguish between quantities of a different nature but of the same dimensions.

        Examples of alternate units:[code] Unit RADIAN = ONE.alternate("rad"); Unit NEWTON = METER.times(KILOGRAM).divide(SECOND.pow(2)).alternate("N"); Unit PASCAL = NEWTON.divide(METER.pow(2)).alternate("Pa"); [/code]

        Parameters:
        symbol - the new symbol for the alternate unit.
        Returns:
        the alternate unit.
        Throws:
        UnsupportedOperationException - if this unit is not a standard unit.
        IllegalArgumentException - if the specified symbol is already associated to a different unit.
      • compound

        public final CompoundUnit<Q> compound​(Unit<Q> subunit)
        Returns the combination of this unit with the specified sub-unit. Compound units are typically used for formatting purpose. Examples of compound units:[code] HOUR_MINUTE = NonSI.HOUR.compound(NonSI.MINUTE); DEGREE_MINUTE_SECOND_ANGLE = NonSI.DEGREE_ANGLE.compound( NonSI.DEGREE_MINUTE).compound(NonSI.SECOND_ANGLE); [/code]
        Parameters:
        subunit - the sub-unit to combine with this unit.
        Returns:
        the corresponding compound unit.
      • transform

        public final Unit<Q> transform​(UnitConverter operation)
        Returns the unit derived from this unit using the specified converter. The converter does not need to be linear. For example:[code] Unit DECIBEL = Unit.ONE.transform( new LogConverter(10).inverse().concatenate( new RationalConverter(1, 10)));[/code]
        Parameters:
        operation - the converter from the transformed unit to this unit.
        Returns:
        the unit after the specified transformation.
      • plus

        public final Unit<Q> plus​(double offset)
        Returns the result of adding an offset to this unit. The returned unit is convertible with all units that are convertible with this unit.
        Parameters:
        offset - the offset added (expressed in this unit, e.g. CELSIUS = KELVIN.plus(273.15)).
        Returns:
        this.transform(new AddConverter(offset))
      • times

        public final Unit<Q> times​(long factor)
        Returns the result of multiplying this unit by an exact factor.
        Parameters:
        factor - the exact scale factor (e.g. KILOMETER = METER.times(1000)).
        Returns:
        this.transform(new RationalConverter(factor, 1))
      • times

        public final Unit<Q> times​(double factor)
        Returns the result of multiplying this unit by a an approximate factor
        Parameters:
        factor - the approximate factor (e.g. ELECTRON_MASS = KILOGRAM.times(9.10938188e-31)).
        Returns:
        this.transform(new MultiplyConverter(factor))
      • times

        public final Unit<? extends Quantity> times​(Unit<?> that)
        Returns the product of this unit with the one specified.
        Parameters:
        that - the unit multiplicand.
        Returns:
        this * that
      • inverse

        public final Unit<? extends Quantity> inverse()
        Returns the inverse of this unit.
        Returns:
        1 / this
      • divide

        public final Unit<Q> divide​(long divisor)
        Returns the result of dividing this unit by an exact divisor.
        Parameters:
        divisor - the exact divisor. (e.g. QUART = GALLON_LIQUID_US.divide(4)).
        Returns:
        this.transform(new RationalConverter(1 , divisor))
      • divide

        public final Unit<Q> divide​(double divisor)
        Returns the result of dividing this unit by an approximate divisor.
        Parameters:
        divisor - the approximate divisor.
        Returns:
        this.transform(new MultiplyConverter(1.0 / divisor))
      • divide

        public final Unit<? extends Quantity> divide​(Unit<?> that)
        Returns the quotient of this unit with the one specified.
        Parameters:
        that - the unit divisor.
        Returns:
        this / that
      • root

        public final Unit<? extends Quantity> root​(int n)
        Returns a unit equals to the given root of this unit.
        Parameters:
        n - the root's order.
        Returns:
        the result of taking the given root of this unit.
        Throws:
        ArithmeticException - if n == 0.
      • pow

        public final Unit<? extends Quantity> pow​(int n)
        Returns a unit equals to this unit raised to an exponent.
        Parameters:
        n - the exponent.
        Returns:
        the result of raising this unit to the exponent.
      • valueOf

        public static Unit<? extends Quantity> valueOf​(CharSequence csq)
        Returns a unit instance that is defined from the specified character sequence using the standard unit format.

        Examples of valid entries (all for meters per second squared) are:

        • m*s-2
        • m/s²
        • m·s-²
        • m*s**-2
        • m^+1 s^-2

        Parameters:
        csq - the character sequence to parse.
        Returns:
        UnitFormat.getStandardInstance().parse(csq, new ParsePosition(0))
        Throws:
        IllegalArgumentException - if the specified character sequence cannot be correctly parsed (e.g. symbol unknown).
      • toString

        public final String toString()
        Returns the standard String representation of this unit. This representation is not affected by locale. Locale-sensitive unit formatting and parsing is handled by the MeasureFormat class and its subclasses.
        Overrides:
        toString in class Object
        Returns:
        UnitFormat.getStandardInstance().format(this)