My application I've recently inherited is FULL of deprecation warnings about the constructor:

Date d = new Date(int year, int month, int day)

Does anyone know or can point to a reason why something as simple as this was "replaced" with something like this:

Date d = null;
Calendar cal = GregorianCalendar.getInstance();
cal.set(1900 + year, month, day);
d = cal.getTime();

Now, obviously deprecation warnings are not a problem in themselves, but can you imagine the millions of LOC that would be crying out in agony if this constructor was ever removed?

In my brief little play at benchmarking, the latter takes about 50% more time to execute.

  • 4
    Isn't the first line a total waste of time? You get a Date from the cal to Calendar.getTime(), so why create one with the new Date() call that is then thrown away? Especially if you were benchmarking this ...
    – unwind
    Jan 20, 2009 at 8:35
  • 2
    @ unwind: A good catch. why not, make a post. Jan 20, 2009 at 9:01
  • 40
    Perhaps it's because the Americans were expecting Date (int year, int day, int month) ;-)
    – Skizz
    Jan 20, 2009 at 9:55
  • 1
    What does “LOC” mean ? Sep 13, 2013 at 9:25
  • 2
    for the record, check Java 8 new Date api! oracle.com/technetwork/articles/java/… Sep 11, 2014 at 18:11

6 Answers 6


Originally, Date was intended to contain all logic concerning dates, but the API designers eventually realized that the API they had so far was woefully inadequate and could not be cleanly extended to deal correctly with issues such as timezones, locales, different calendars, daylight savings times, etc.

So they created Calendar to deal with all that complexity, and relegated Date to a simple timestamp, deprecating all its functionality that dealt with formatting, parsing and individual date fields.

BTW, internally these methods such as Date(int, int, int) constructor now call Calendar, so if you see a difference in speed, then you're doing something wrong when calling Calendar.

The bottomline: It's not Java's Calendar API that is overly complex, it's the human concept of dates, and the only problem with Calendar is that it offers not much in the way of shortcuts to the most common usages.

  • java.util.Date re-uses a static instance of the Gregorian Calendar. Which is interesting to say least. But will perform better then creating a new Calender for each loop.
    – Martin
    Sep 9, 2014 at 8:55

The Java Date APIs have long been critized, see for instance this thread.

You might want to check out Joda-Time or Apache Commons Lang for alternative Date/Time utilities.


The answer is portability.

The class Date is not very flexible. You can define dates, but not with any transformation into other calendar formats. So Sun decided to use an additional class hierarchy (Calendar) to make it more flexible.

Nonetheless, it's not very handy.


Mostly because the original java.util.Date was bloated and not completely timezone aware and not internationalization friendly.

However, Date is still in use and very well, in Value Objects, or say as a data type. As far as you make it immutable explicitly, you can go with ease. I tend to think it must be immutable, for other purpose we have Calendar to manipulate. Where its lot of manipulation expected, one should consider something like, Joda-Time.


Just don't instantiate the Date, in the latter code. Its of no use. You may achieve a better result for your benchmark.


Of course, no-one ever uses any other calendar format, but the new API increases the amount of code to write for the 99% common case, so it's a great boon for Java programmers paid by LoC.

  • HA, surely in this day and age LoC isn't used as a metric of productivity? Jan 20, 2009 at 22:27
  • One would hope not, but perhaps the chaps at Sun who keep producing APIs like this haven't heard things have changed...
    – bobince
    Jan 20, 2009 at 23:04

Michael Borgwardt had the best answer, technically. But why is he blaming humans for the way our solar system is laid out?

OK, we came up with the idea of seconds, and minutes, and hours.

But it's not our fault that that Earth's day is approximate (depending on whether we're talking about true solar day, mean solar day, or stellar day, each of which varies periodically and randomly). It isn't our fault that the time of Earth's orbit around the Sun is approximately 365 days, and it's not our fault that the moon's orbit around the Earth is approximately 27.3 days (depending on whether we're talking about a sidereal, synodic, tropical, anomalistic, or draconic (nodical) month).

Aren't you glad that Calendar didn't take all those details into account? Then our software bugs might indeed be dependent on the phase of the moon.


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