Just now, I have released Time4J-v4.29 which also supports sunrise/sunset-calculations. Example:
SolarTime hamburg = SolarTime.ofLocation(53.55, 10.0);
Optional<Moment> result = PlainDate.nowInSystemTime().get(hamburg.sunrise());
System.out.println(result.get().toZonalTimestamp(() -> "Europe/Berlin"));
The results of class
SolarTime (of type
PlainTimestamp) can easily be converted to Java-8-types like
LocalDateTime, usually by calling the method
About the algorithm:
The main algorithm is the same as used by NOAA (with the main difference that delta-T-calculations are also taken into account by Time4J). The NOAA-algorithm (which is practically the same as developed by Jean Meeus) is more precise than the Williams-algorithm used by the library sunrisesunsetlib mentioned in the answer of @dogbane, especially near or in the polar regions. However, Time4J also supports the Williams-algorithm by specifying the calculator name. This simple algorithm is still usable in normal geographic locations and yields 1-2-minute-precision.
Some gimmicks like blue hour, various twilight definitions, length of sunshine or determining polar night / midnight sun or the impact of observers altitude are also supported, see the API.
Note about precision:
What so ever, we should always keep in mind that topologic facts like mountains or special weather conditions have strong impact on the real times of sunrise/sunset and cannot be modelled in any library supporting sunrise/sunset-calculations.
For the Android-platform, please use Time4A (the sister of Time4J) with optimized resource access.