Enum Constant Detail

• NANOS

  public static final ChronoUnit NANOS

  Unit that represents the concept of a nanosecond, the smallest supported unit of time. For the ISO calendar system, it is equal to the 1,000,000,000th part of the second unit.

• MICROS

  public static final ChronoUnit MICROS

  Unit that represents the concept of a microsecond. For the ISO calendar system, it is equal to the 1,000,000th part of the second unit.

• MILLIS

  public static final ChronoUnit MILLIS

  Unit that represents the concept of a millisecond. For the ISO calendar system, it is equal to the 1000th part of the second unit.

• SECONDS

  public static final ChronoUnit SECONDS

  Unit that represents the concept of a second. For the ISO calendar system, it is equal to the second in the SI system of units, except around a leap-second.

• MINUTES

  public static final ChronoUnit MINUTES

  Unit that represents the concept of a minute. For the ISO calendar system, it is equal to 60 seconds.

• HOURS

  public static final ChronoUnit HOURS

  Unit that represents the concept of an hour. For the ISO calendar system, it is equal to 60 minutes.

• HALF_DAYS

  public static final ChronoUnit HALF_DAYS

  Unit that represents the concept of half a day, as used in AM/PM. For the ISO calendar system, it is equal to 12 hours.

• DAYS

  public static final ChronoUnit DAYS

  Unit that represents the concept of a day. For the ISO calendar system, it is the standard day from midnight to midnight. The estimated duration of a day is 24 Hours.

  When used with other calendar systems it must correspond to the day defined by the rising and setting of the Sun on Earth. It is not required that days begin at midnight - when converting between calendar systems, the date should be equivalent at midday.

• WEEKS

  public static final ChronoUnit WEEKS

  Unit that represents the concept of a week. For the ISO calendar system, it is equal to 7 days.

  When used with other calendar systems it must correspond to an integral number of days.

• MONTHS

  public static final ChronoUnit MONTHS

  Unit that represents the concept of a month. For the ISO calendar system, the length of the month varies by month-of-year. The estimated duration of a month is one twelfth of 365.2425 Days.

  When used with other calendar systems it must correspond to an integral number of days.

• YEARS

  public static final ChronoUnit YEARS

  Unit that represents the concept of a year. For the ISO calendar system, it is equal to 12 months. The estimated duration of a year is 365.2425 Days.

  When used with other calendar systems it must correspond to an integral number of days or months roughly equal to a year defined by the passage of the Earth around the Sun.

• DECADES

  public static final ChronoUnit DECADES

  Unit that represents the concept of a decade. For the ISO calendar system, it is equal to 10 years.

  When used with other calendar systems it must correspond to an integral number of days and is normally an integral number of years.

• CENTURIES

  public static final ChronoUnit CENTURIES

  Unit that represents the concept of a century. For the ISO calendar system, it is equal to 100 years.

  When used with other calendar systems it must correspond to an integral number of days and is normally an integral number of years.

• MILLENNIA

  public static final ChronoUnit MILLENNIA

  Unit that represents the concept of a millennium. For the ISO calendar system, it is equal to 1000 years.

  When used with other calendar systems it must correspond to an integral number of days and is normally an integral number of years.

• ERAS

  public static final ChronoUnit ERAS

  Unit that represents the concept of an era. The ISO calendar system doesn't have eras thus it is impossible to add an era to a date or date-time. The estimated duration of the era is artificially defined as 1,000,000,000 Years.

  When used with other calendar systems there are no restrictions on the unit.

• FOREVER

  public static final ChronoUnit FOREVER

  Artificial unit that represents the concept of forever. This is primarily used with TemporalField to represent unbounded fields such as the year or era. The estimated duration of the era is artificially defined as the largest duration supported by Duration.

Method Detail

• values

  public static ChronoUnit[] values()

  Returns an array containing the constants of this enum type, in the order they are declared. This method may be used to iterate over the constants as follows:

  for (ChronoUnit c : ChronoUnit.values())
      System.out.println(c);
  

  Returns:

  an array containing the constants of this enum type, in the order they are declared

• valueOf

  public static ChronoUnit valueOf(String name)

  Returns the enum constant of this type with the specified name. The string must match exactly an identifier used to declare an enum constant in this type. (Extraneous whitespace characters are not permitted.)

  Parameters:

  name - the name of the enum constant to be returned.

  Returns:

  the enum constant with the specified name

  Throws:

  IllegalArgumentException - if this enum type has no constant with the specified name

  NullPointerException - if the argument is null

• getDuration

  public Duration getDuration()

  Gets the estimated duration of this unit in the ISO calendar system.

  All of the units in this class have an estimated duration. Days vary due to daylight saving time, while months have different lengths.

  Specified by:

  getDuration in interface  TemporalUnit

  Returns:

  the estimated duration of this unit, not null

• isDurationEstimated

  public boolean isDurationEstimated()

  Checks if the duration of the unit is an estimate.

  All time units in this class are considered to be accurate, while all date units in this class are considered to be estimated.

  This definition ignores leap seconds, but considers that Days vary due to daylight saving time and months have different lengths.

  Specified by:

  isDurationEstimated in interface  TemporalUnit

  Returns:

  true if the duration is estimated, false if accurate

• isDateBased

  public boolean isDateBased()

  Checks if this unit is a date unit.

  All units from days to eras inclusive are date-based. Time-based units and FOREVER return false.

  Specified by:

  isDateBased in interface  TemporalUnit

  Returns:

  true if a date unit, false if a time unit

• isTimeBased

  public boolean isTimeBased()

  Checks if this unit is a time unit.

  All units from nanos to half-days inclusive are time-based. Date-based units and FOREVER return false.

  Specified by:

  isTimeBased in interface  TemporalUnit

  Returns:

  true if a time unit, false if a date unit

• isSupportedBy

  public boolean isSupportedBy(Temporal temporal)

  Description copied from interface: TemporalUnit
  Checks if this unit is supported by the specified temporal object.

  This checks that the implementing date-time can add/subtract this unit. This can be used to avoid throwing an exception.

  This default implementation derives the value using Temporal.plus(long, TemporalUnit).

  Specified by:

  isSupportedBy in interface  TemporalUnit

  Parameters:

  temporal - the temporal object to check, not null

  Returns:

  true if the unit is supported

• addTo

  public <R extends Temporal> R addTo(R temporal,
                                      long amount)

  Description copied from interface: TemporalUnit
  Returns a copy of the specified temporal object with the specified period added.

  The period added is a multiple of this unit. For example, this method could be used to add "3 days" to a date by calling this method on the instance representing "days", passing the date and the period "3". The period to be added may be negative, which is equivalent to subtraction.

  There are two equivalent ways of using this method. The first is to invoke this method directly. The second is to use Temporal.plus(long, TemporalUnit):

     // these two lines are equivalent, but the second approach is recommended
     temporal = thisUnit.addTo(temporal);
     temporal = temporal.plus(thisUnit);
   

  It is recommended to use the second approach, plus(TemporalUnit), as it is a lot clearer to read in code.

  Implementations should perform any queries or calculations using the units available in ChronoUnit or the fields available in ChronoField. If the unit is not supported an UnsupportedTemporalTypeException must be thrown.

  Implementations must not alter the specified temporal object. Instead, an adjusted copy of the original must be returned. This provides equivalent, safe behavior for immutable and mutable implementations.

  Specified by:

  addTo in interface  TemporalUnit

  Type Parameters:

  R - the type of the Temporal object

  Parameters:

  temporal - the temporal object to adjust, not null

  amount - the amount of this unit to add, positive or negative

  Returns:

  the adjusted temporal object, not null

• between

  public long between(Temporal temporal1Inclusive,
                      Temporal temporal2Exclusive)

  Description copied from interface: TemporalUnit
  Calculates the amount of time between two temporal objects.

  This calculates the amount in terms of this unit. The start and end points are supplied as temporal objects and must be of compatible types. The implementation will convert the second type to be an instance of the first type before the calculating the amount. The result will be negative if the end is before the start. For example, the amount in hours between two temporal objects can be calculated using HOURS.between(startTime, endTime).

  The calculation returns a whole number, representing the number of complete units between the two temporals. For example, the amount in hours between the times 11:30 and 13:29 will only be one hour as it is one minute short of two hours.

  There are two equivalent ways of using this method. The first is to invoke this method directly. The second is to use Temporal.until(Temporal, TemporalUnit):

     // these two lines are equivalent
     between = thisUnit.between(start, end);
     between = start.until(end, thisUnit);
   

  The choice should be made based on which makes the code more readable.

  For example, this method allows the number of days between two dates to be calculated:

    long daysBetween = DAYS.between(start, end);
    // or alternatively
    long daysBetween = start.until(end, DAYS);
   

  Implementations should perform any queries or calculations using the units available in ChronoUnit or the fields available in ChronoField. If the unit is not supported an UnsupportedTemporalTypeException must be thrown. Implementations must not alter the specified temporal objects.

  Specified by:

  between in interface  TemporalUnit

  Parameters:

  temporal1Inclusive - the base temporal object, not null

  temporal2Exclusive - the other temporal object, exclusive, not null

  Returns:

  the amount of time between temporal1Inclusive and temporal2Exclusive in terms of this unit; positive if temporal2Exclusive is later than temporal1Inclusive, negative if earlier

• toString

  public String toString()

  Description copied from class: Enum
  Returns the name of this enum constant, as contained in the declaration. This method may be overridden, though it typically isn't necessary or desirable. An enum type should override this method when a more "programmer-friendly" string form exists.

  Specified by:

  toString in interface  TemporalUnit

  Overrides:

  toString in class  Enum<ChronoUnit>

  Returns:

  the name of this enum constant