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Why 1753? What do they have against 1752? My great great great great great great great grandfather would be very offended.

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up vote 575 down vote accepted

The decision to use 1st January 1753 (1753-01-01) as the minimum date value for a datetime in SQL Server goes back to its Sybase origins.

The significance of the date itself though can be attributed to this man.

Philip Stanhope, 4th Earl of Chesterfield

Philip Stanhope, 4th Earl of Chesterfield. Who steered the Calendar (New Style) Act 1750 through the British Parliament. This legislated for the adoption of the Gregorian calendar for Britain and its then colonies.

There were some missing days in the British calendar in 1752 when the adjustment was finally made from the Julian calendar. September 3, 1752 to September 13, 1752 were lost.

Kalen Delaney explained the choice this way

So, with 12 days lost, how can you compute dates? For example, how can you compute the number of days between October 12, 1492, and July 4, 1776? Do you include those missing 12 days? To avoid having to solve this problem, the original Sybase SQL Server developers decided not to allow dates before 1753. You can store earlier dates by using character fields, but you can't use any datetime functions with the earlier dates that you store in character fields.

The choice of 1753 does seem somewhat anglocentric however as many catholic countries in Europe had been using the calendar for 170 years before the British implementation (originally delayed due to opposition by the church). Conversely many countries did not reform their calendars until much later, 1918 in Russia. Indeed the October Revolution of 1917 started on 7 November under the Gregorian calendar.

Both datetime and the new datetime2 datatype mentioned in Joe's answer do not attempt to account for these local differences and simply use the Gregorian Calendar.

So with the greater range of datetime2



Sep  8 1752 12:00AM

One final point with the datetime2 data type is that it uses the proleptic Gregorian calendar projected backwards to well before it was actually invented so is of limited use in dealing with historic dates.

This contrasts with other Software implementations such as the Java Gregorian Calendar class which defaults to following the Julian Calendar for dates until October 4, 1582 then jumping to October 15, 1582 in the new Gregorian calendar. It correctly handles the Julian model of leap year before that date and the Gregorian model after that date. The cutover date may be changed by the caller by calling setGregorianChange().

A fairly entertaining article discussing some more peculiarities with the adoption of the calendar can be found here.

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+1 for great portrait of non-offended great great great great great great great grandfather. Also other shining attributes of this answer. – Smandoli Sep 22 '10 at 21:52
+1 for an answer that is both technical and historical. On a board frequented by heavy left-brainers, this is an enjoyable read. And yes, I did go to a liberal arts college. – Matt Hamsmith Jan 25 '11 at 20:57
ah damn it! I just realized I'm a massive nerd. – Kieran Aug 26 '15 at 4:25

Your great great great great great great great grandfather should upgrade to SQL Server 2008 and use the DateTime2 data type, which supports dates in the range: 0001-01-01 through 9999-12-31.

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@CRMay: Tell him you plan to start work on Y10K compliance on Thursday, 5000-01-02; that leaves you just under 5 millennia to get it fixed. – Jonathan Leffler Jul 24 '10 at 1:44
mm I'm guessing someone missed the answer to the actual question: why 1753, of all years? – sehe Sep 2 '11 at 21:06
... and the question was – V4Vendetta Sep 16 '11 at 9:14
Yess.... but try getting that change of data type through in a company that has a massive installed base of SQL Server databases, and more lines of defence against the dreaded enemy CHANGE than the US had against Russian ICBMs at the height of the Cold War... – SebTHU Mar 7 at 11:00

1752 was the year of Britain switching from the Julian to the Gregorian calendar. I believe two weeks in September 1752 never happened as a result, which has implications for dates in that general area.

An explanation: http://uneasysilence.com/archive/2007/08/12008/ (Internet Archive version)

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FYI, your link no longer works :/ – Mark Mayo Aug 26 '13 at 5:28
I found a version using the wayback machine. It looks kinda broken though. – Gian Aug 26 '13 at 18:42

Incidentally, Windows no longer knows how to correctly convert UTC to U.S. local time for certain dates in March/April or October/November of past years. UTC-based timestamps from those dates are now somewhat nonsensical. It would be very icky for the OS to simply refuse to handle any timestamps prior to the U.S. government's latest set of DST rules, so it simply handles some of them wrong. SQL Server refuses to process dates before 1753 because lots of extra special logic would be required to handle them correctly and it doesn't want to handle them wrong.

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