date (Transact-SQL)
Defines a date.
For an overview of all Transact-SQL date and time data types and functions, see Date and Time Functions (Transact-SQL). For information and examples that are common to date and time data types and functions see Using Date and Time Data.
date Description
Property |
Value |
---|---|
Syntax |
date |
Usage |
DECLARE @MyDate date CREATE TABLE Table1 ( Column1 date ) |
Default string literal format (used for down-level client) |
YYYY-MM-DD For more information, see the "Backward Compatibility for Down-level Clients" section of Using Date and Time Data. |
Range |
0001-01-01 through 9999-12-31 January 1, 1 A.D. through December 31, 9999 A.D. |
Element ranges |
YYYY is four digits from 0001 to 9999 that represent a year. MM is two digits from 01 to 12 that represent a month in the specified year. DD is two digits from 01 to 31, depending on the month, that represent a day of the specified month. |
Character length |
10 positions |
Precision, scale |
10, 0 |
Storage size |
3 bytes, fixed |
Storage structure |
1, 3-byte integer stores date. |
Accuracy |
One day |
Default value |
1900-01-01 This value is used for the appended date part for implicit conversion from time to datetime2 or datetimeoffset. |
Calendar |
Gregorian |
User-defined fractional second precision |
No |
Time zone offset aware and preservation |
No |
Daylight saving aware |
No |
Supported String Literal Formats for date
The following tables show the valid string literal formats for the date data type.
Numeric |
Description |
---|---|
mdy [m]m/dd/[yy]yy [m]m-dd-[yy]yy [m]m.dd.[yy]yy myd mm/[yy]yy/dd mm-[yy]yy/dd [m]m.[yy]yy.dd dmy dd/[m]m/[yy]yy dd-[m]m-[yy]yy dd.[m]m.[yy]yy dym dd/[yy]yy/[m]m dd-[yy]yy-[m]m dd.[yy]yy.[m]m ymd [yy]yy/[m]m/dd [yy]yy-[m]m-dd [yy]yy-[m]m-dd |
[m]m, dd, and [yy]yy represents month, day, and year in a string with slash marks (/), hyphens (-), or periods (.) as separators. Only four- or two-digit years are supported. Use four-digit years whenever possible. To specify an integer from 0001 to 9999 that represents the cutoff year for interpreting two-digit years as four-digit years, use the two digit year cutoff Option. A two-digit year that is less than or equal to the last two digits of the cutoff year is in the same century as the cutoff year. A two-digit year that is greater than the last two digits of the cutoff year is in the century that comes before the cutoff year. For example, if the two-digit year cutoff is the default 2049, the two-digit year 49 is interpreted as 2049 and the two-digit year 50 is interpreted as 1950. The default date format is determined by the current language setting. You can change the date format by using the SET LANGUAGE and SET DATEFORMAT statements. The ydm format is not supported for date. |
Alphabetical |
Description |
---|---|
mon [dd][,] yyyy mon dd[,] [yy]yy mon yyyy [dd] [dd] mon[,] yyyy dd mon[,][yy]yy dd [yy]yy mon [dd] yyyy mon yyyy mon [dd] yyyy [dd] mon |
mon represents the full month name or the month abbreviation given in the current language. Commas are optional and capitalization is ignored. To avoid ambiguity, use four-digit years. If the day is missing, the first day of the month is supplied. |
ISO 8601 |
Descripton |
---|---|
YYYY-MM-DD YYYYMMDD |
Same as the SQL standard. This is the only format that is defined as an international standard. |
Unseparated |
Description |
---|---|
[yy]yymmdd yyyy[mm][dd] |
The date data can be specified with four, six, or eight digits. A six- or eight-digit string is always interpreted as ymd. The month and day must always be two digits. A four-digit string is interpreted as year. |
ODBC |
Description |
---|---|
{ d 'yyyy-mm-dd' } |
ODBC API specific. Functions in SQL Server 2008 as in SQL Server 2005. |
W3C XML format |
Description |
---|---|
yyyy-mm-ddTZD |
Specifically supported for XML/SOAP usage. TZD is the time zone designator (Z or +hh:mm or -hh:mm):
|
ANSI and ISO 8601 Compliance
date complies with the ANSI SQL standard definition for the Gregorian calendar: "NOTE 85 - Datetime data types will allow dates in the Gregorian format to be stored in the date range 0001–01–01 CE through 9999–12–31 CE."
The default string literal format, which is used for down-level clients, complies with the SQL standard form which is defined as YYYY-MM-DD. This format is the same as the ISO 8601 definition for DATE.
Examples
The following example compares the results of casting a string to each date and time data type.
SELECT
CAST('2007-05-08 12:35:29. 1234567 +12:15' AS time(7)) AS 'time'
,CAST('2007-05-08 12:35:29. 1234567 +12:15' AS date) AS 'date'
,CAST('2007-05-08 12:35:29.123' AS smalldatetime) AS
'smalldatetime'
,CAST('2007-05-08 12:35:29.123' AS datetime) AS 'datetime'
,CAST('2007-05-08 12:35:29. 1234567 +12:15' AS datetime2(7)) AS
'datetime2'
,CAST('2007-05-08 12:35:29.1234567 +12:15' AS datetimeoffset(7)) AS
'datetimeoffset';
Here is the result set.
Data type |
Output |
---|---|
time |
12:35:29. 1234567 |
date |
2007-05-08 |
smalldatetime |
2007-05-08 12:35:00 |
datetime |
2007-05-08 12:35:29.123 |
datetime2 |
2007-05-08 12:35:29. 1234567 |
datetimeoffset |
2007-05-08 12:35:29.1234567 +12:15 |
See Also