In java.util.Date:

 * In all methods of class <code>Date</code> that accept or return
 * year, month, date, hours, minutes, and seconds values, the
 * following representations are used:
 * <ul>
 * <li>A year <i>y</i> is represented by the integer
 *     <i>y</i><code>-1900</code>.

Of course, in Java 1.1, the getYear() method and the like were deprecated in favor of java.util.Calendar, which still has this weird deprecation note:

 int    getYear() 
    Deprecated. As of JDK version 1.1, replaced by Calendar.get(Calendar.YEAR) - 1900.

 setYear(int year) 
      Deprecated. As of JDK version 1.1, replaced by Calendar.set(Calendar.YEAR, year + 1900).

And of course, Month is 0-based but we all know that (although you'd think they had removed that problem from Calendar - they didn't):

 * <li>A month is represented by an integer from 0 to 11; 0 is January,
 *     1 is February, and so forth; thus 11 is December.

I did check the following questions:

Why does Java's Date.getYear() return 111 instead of 2011?

Why is the Java date API (java.util.Date, .Calendar) such a mess?

My question is:

  • What possibly could have the original creators of java.util.Date hoped to gain from storing the data of "year" by subtracting 1900 from it? Especially if it's basically stored as a long.

As such:

private transient long fastTime;

public int getYear() {
    return normalize().getYear() - 1900;

public void setYear(int year) {
    getCalendarDate().setNormalizedYear(year + 1900);

private final BaseCalendar.Date getCalendarDate() {
    if (cdate == null) {
        BaseCalendar cal = getCalendarSystem(fastTime);
  • Why 1900?
  • 1
    Calculating from 1900 is a long C standard from the Unix area. And as word sizes were like 16 bits they took a round, but still historically recent yeer. Of course, thanks to Joda now in java 8 everything is corrected in the new java.time classes, months from 1 to 12 etcetera. – Joop Eggen Oct 8 '14 at 11:26
  • 5
    Until Y2K, calculating from 1900 was convenient for displaying 2-digit years. Using 2-digit years also had a very positive effect on the IT job market around 1999. – Erich Kitzmueller Oct 8 '14 at 11:34
  • 1
    java.util.Date was a botch job. (Which is why Java now has so many different date schemes.) In particular, 1900 was traditionally the beginning of time for computer dates, since, until 2000, the year could be represented as 2 digits on a punch card (and nothing important happened before 1900). – Hot Licks Oct 8 '14 at 11:51

Basically the original java.util.Date designers copied a lot from C. What you're seeing is the result of that - see the tm struct. So you should probably ask why that was designed to use the year 1900. I suspect the fundamental answer is "because we weren't very good at API design back when tm was designed." I'd contend that we're still not very good at API design when it comes to dates and times, because there are so many different use cases.

This is just the API though, not the storage format inside java.util.Date. No less annoying, mind you.


java.util.Date is no date at all. It is (quoting http://docs.oracle.com/javase/6/docs/api/java/util/Date.html) specific instant in time, with millisecond precision.

It has no relationship with any particular date, hour, etc. You may extract day, year, etc from it- using given calendar and timezone. Diffrent calendars, timezones will give diffrent dates.

If you are ever interested in storing date (day, month, year) do not use java.util.Date


  • 4
    I think this is not an answer to 1900-question. – Meno Hochschild Oct 8 '14 at 13:22

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