Like when I do
SELECT [Date]
FROM [FRIIB].[dbo].[ArchiveAnalog]
GROUP BY [Date]
How can I specify the group period? I'm using MS SQL 2008.
I've tried this, both with % 10 and / 10.
SELECT MIN([Date]) AS RecT, AVG(Value)
FROM [FRIIB].[dbo].[ArchiveAnalog]
GROUP BY (DATEPART(MINUTE, [Date]) / 10)
ORDER BY RecT
Is it possible to make Date output without milliseconds?
finally done with
GROUP BY
DATEPART(YEAR, DT.[Date]),
DATEPART(MONTH, DT.[Date]),
DATEPART(DAY, DT.[Date]),
DATEPART(HOUR, DT.[Date]),
(DATEPART(MINUTE, DT.[Date]) / 10)
ROUND((DATEPART(MINUTE, DT.[Date]) / 5),0,1) * 5, so that when I look at the data it's correlated with the nearest time slot
DATE(DT.[Date]).
datepart(hour, workingPolicy.workingHours)/2.0 gives 1.5 while datepart(hour, '1900-01-01 09:00:30.000')/2.0 gives 4.5 , i don't understand why? Note:workingPolicy.workingHours=1900-01-01 09:00:30.000. please help
Dec 29, 2018 at 7:58
DATEPART options you could use but that you have to use all of the DATEPART's
GROUP BY DATEDIFF(MINUTE, '2000', date_column) / 10
With heavy acknowledgements to Derek's answer, which1 forms the core of this one. If you're on SQL Server 2022+, go straight to Martin's answer.
SELECT DATEADD(MINUTE, DATEDIFF(MINUTE, '2000', aa.[date]) / 10 * 10, '2000')
AS [date_truncated],
COUNT(*) AS [records_in_interval],
AVG(aa.[value]) AS [average_value]
FROM [friib].[dbo].[archive_analog] AS aa
-- WHERE aa.[date] > '1900-01-01'
GROUP BY DATEDIFF(MINUTE, '2000', aa.[date]) / 10
-- HAVING SUM(aa.[value]) > 1000
ORDER BY [date_truncated]
The MINUTE and 10 terms can be changed to any DATEPART and integer,2 respectively, to group into different time intervals. For example, 10 with MINUTE is ten minute intervals; 6 with HOUR is six hour intervals.
If you change the interval a lot, you might benefit from declaring it as a variable.
DECLARE @interval int = 10;
SELECT DATEADD(MINUTE, DATEDIFF(…) / @interval * @interval, '2000')
…
GROUP BY DATEDIFF(…) / @interval
The actual values being grouped are a set of relative offsets from 2000-01-01 00:00. This means data sources over long time intervals are fine. Some other answers have collision between years.
Multiplying the GROUP BY expression by the interval size and wrapping it in a DATEADD invocation will return you a DATETIME value. Including it in the SELECT statement will give your output a single column with the truncated timestamp. See the "Practical Usage" example above.
The division (/) operation after DATEDIFF truncates values to integers (a FLOOR shortcut), which yields the beginning of time intervals for each row in your SELECT output.
If you want to label each row with the middle or end of its interval, you can tweak the division in the second term of DATEADD with the bold part below:
…) / 10 * 10 + 10 , '2000'), credit to Daniel Elkington.…) / 10 * 10 + (10 / 2.0) , '2000').If you want to round your intervals inward such that each timestamp represents half an interval before and half an interval after it, use something like this:
DATEADD(MINUTE, ROUND(1. * DATEDIFF(MINUTE, '2000', date_column) / 10, 0) * 10, '2000')
Note the 1. to do untruncated division instead. You will need to modify your GROUP BY to match, and you may want to use the whole ROUND(…) expression to avoid any unexpected float rounding.
'2000' is an "anchor date" around which SQL will perform the date math. Most sample code uses 0 for the anchor, but JereonH discovered that you encounter an integer overflow when grouping more-recent dates by seconds or milliseconds.3
If your data spans centuries,4 using a single anchor date in the GROUP BY for seconds or milliseconds will still encounter the overflow. For those queries, you can ask each row to anchor the binning comparison to its own date's midnight.
Use one of the two replacements instead of '2000' wherever it appears in the query:
DATEADD(DAY, DATEDIFF(DAY, 0, aa.[date]), 0)CONVERT(DATETIME, CONVERT(DATE, aa.[date]))Your query will be totally unreadable, but it will work.
1 I realized several years after posting that my code could be simplified to nearly the same as Derek's answer.
2 If you want all :00 timestamps to be eligible for binning, use an integer that your DATEPART's maximum can evenly divide into.5 As a counterexample, grouping results into 13-minute or 37-hour bins will skip some :00s, but it should still work fine.
3 The math says 232 ≈ 4.29E+9. This means for a DATEPART of SECOND, you get 4.3 billion seconds on either side, which works out to "anchor date ± 136 years." Similarly, 232 milliseconds is ≈ 49.7 days.
4 If your data actually spans centuries or millenia and is still accurate to the second or millisecond… congratulations! Whatever you're doing, keep doing it.
5 If you ever wondered why our clocks have a 12 at the top, reflect on how 5 is the only integer from 6 (half of 12) or below that is not a factor of 12. Then note that 5 × 12 = 60. You have lots of choices for bin sizes with hours, minutes, and seconds.
GROUP BY DATEADD(MINUTE, (DATEDIFF(MINUTE, 0, date_column) / 10 * 10) + 10, 0) (and the same in the SELECT clause).
Dec 17, 2018 at 22:54
The datediff function resulted in an overflow. The number of dateparts separating two date/time instances is too large. Try to use datediff with a less precise datepart.). It seems that MINUTE is the smallest datepart you can use with this approach.
0 to '2000' (quotes are important!) and try SECOND again.
cursor, but I feel that's out of scope for the question.
In T-SQL you can:
SELECT [Date]
FROM [FRIIB].[dbo].[ArchiveAnalog]
GROUP BY [Date], DATEPART(hh, [Date])
or
by minute use DATEPART(mi, [Date])
or
by 10 minutes use DATEPART(mi, [Date]) / 10 (like Timothy suggested)
For a 10 minute interval, you would
GROUP BY (DATEPART(MINUTE, [Date]) / 10)
As was already mentioned by tzup and Pieter888... to do an hour interval, just
GROUP BY DATEPART(HOUR, [Date])
Should be something like
select timeslot, count(*)
from
(
select datepart('hh', date) timeslot
FROM [FRIIB].[dbo].[ArchiveAnalog]
)
group by timeslot
(Not 100% sure about the syntax - I'm more an Oracle kind of guy)
In Oracle:
SELECT timeslot, COUNT(*)
FROM
(
SELECT to_char(l_time, 'YYYY-MM-DD hh24') timeslot
FROM
(
SELECT l_time FROM mytab
)
) GROUP BY timeslot
The original answer the author gave works pretty well. Just to extend this idea, you can do something like
group by datediff(minute, 0, [Date])/10
which will allow you to group by a longer period then 60 minutes, say 720, which is half a day etc.
CAST can be implicit. DATEDIFF(MINUTE, '2021-08-01', [Date])/10 works fine.
For MySql:
GROUP BY
DATE(`your_date_field`),
HOUR(`your_date_field`),
FLOOR( MINUTE(`your_date_field`) / 10);
If you want to actually display the date, have a variable grouping, and be able to specify larger time frames than 60 minutes:
DECLARE @minutes int
SET @minutes = 90
SELECT
DATEADD(MINUTE, DATEDIFF(MINUTE, 0, [Date]) / @minutes * @minutes, 0) as [Date],
AVG([Value]) as [Value]
FROM [FRIIB].[dbo].[ArchiveAnalog]
GROUP BY
DATEDIFF(MINUTE, 0, [Date]) / @minutes
For people on SQL Server 2022+ there is now a dedicated DATE_BUCKET function that addresses this need.
Example usage
DECLARE @ArchiveAnalog TABLE
(
[Date] DATETIME2 PRIMARY KEY,
Value FLOAT
)
INSERT @ArchiveAnalog
VALUES
('2000-01-01 16:20:00.000', 1), --Bucket 1
('2000-01-01 16:22:53.250', 2),
('2000-01-01 16:29:59.999', 3),
('2000-01-01 16:31:53.250', 4), --Bucket 2
('2000-01-01 16:36:53.250', 5)
SELECT
DATE_BUCKET (minute, 10, [Date] ) AS BucketedValue,
MIN([Date]) AS RecT,
COUNT(*) AS BucketCount,
AVG(Value) AS BucketAvg
FROM @ArchiveAnalog
GROUP BY DATE_BUCKET (minute, 10, [Date] )
ORDER BY DATE_BUCKET (minute, 10, [Date] )
| BucketedValue | RecT | BucketCount | BucketAvg |
|---|---|---|---|
| 2000-01-01 16:20:00.0000000 | 2000-01-01 16:20:00.0000000 | 3 | 2 |
| 2000-01-01 16:30:00.0000000 | 2000-01-01 16:31:53.2500000 | 2 | 4.5 |
If the underlying column is indexed this can also be pretty efficient
declare @interval tinyint
set @interval = 30
select dateadd(minute,(datediff(minute,0,[DateInsert])/@interval)*@interval,0), sum(Value_Transaction)
from Transactions
group by dateadd(minute,(datediff(minute,0,[DateInsert])/@interval)*@interval,0)
In SQLite, in order to group by hour, you can do:
GROUP BY strftime('%H', [FRIIB].[dbo].[ArchiveAnalog].[Date]);
and to group by each 10 minutes:
GROUP BY strftime('%M', [FRIIB].[dbo].[ArchiveAnalog].[Date]) / 10;
My solution is to use a function to create a table with the date intervals and then join this table to the data I want to group using the date interval in the table. The date interval can then be easily selected when presenting the data.
CREATE FUNCTION [dbo].[fn_MinuteIntervals]
(
@startDate SMALLDATETIME ,
@endDate SMALLDATETIME ,
@interval INT = 1
)
RETURNS @returnDates TABLE
(
[date] SMALLDATETIME PRIMARY KEY NOT NULL
)
AS
BEGIN
DECLARE @counter SMALLDATETIME
SET @counter = @startDate
WHILE @counter <= @endDate
BEGIN
INSERT INTO @returnDates VALUES ( @counter )
SET @counter = DATEADD(n, @interval, @counter)
END
RETURN
END
For SQL Server 2012, though I believe it would work in SQL Server 2008R2, I use the following approach to get time slicing down to the millisecond:
DATEADD(MILLISECOND, -DATEDIFF(MILLISECOND, CAST(time AS DATE), time) % @msPerSlice, time)
This works by:
@ms = DATEDIFF(MILLISECOND, CAST(time AS DATE), time)@rms = @ms % @msPerSliceDATEADD(MILLISECOND, -@rms, time)Unfortunately, as is this overflows with microseconds and smaller units, so larger, finer data sets would need to use a less convenient fixed point.
I have not rigorously benchmarked this and I am not in big data, so your mileage may vary, but performance was not noticeably worse than the other methods tried on our equipment and data sets, and the payout in developer convenience for arbitrary slicing makes it worthwhile for us.
select from_unixtime( 600 * ( unix_timestamp( [Date] ) % 600 ) ) AS RecT, avg(Value)
from [FRIIB].[dbo].[ArchiveAnalog]
group by RecT
order by RecT;
replace the two 600 by any number of seconds you want to group.
If you need this often and the table doesn't change, as the name Archive suggests, it would probably be a bit faster to convert and store the date (& time) as a unixtime in the table.
I know I am late to the show with this one, but I used this - pretty simple approach. This allows you to get the 60 minute slices without any rounding issues.
Select
CONCAT(
Format(endtime,'yyyy-MM-dd_HH:'),
LEFT(Format(endtime,'mm'),1),
'0'
) as [Time-Slice]
select dateadd(minute, datediff(minute, 0, Date), 0),
sum(SnapShotValue)
FROM [FRIIB].[dbo].[ArchiveAnalog]
group by dateadd(minute, datediff(minute, 0, Date), 0)
Try this query. It makes one column. (references @nobilist answer)
GROUP BY CAST(DATE(`your_date_field`) as varchar) || ' ' || CAST(HOUR(`your_date_field`) as varchar) || ':' || CAST(FLOOR(minute(`your_date_field`) / 10) AS varchar) || '0' AS date_format
Here is an option that provides a human readable start time of that interval (7:30, 7:40, etc).
In a temp table, it truncates seconds and milliseconds by using SMALLDATETIME, and then the main query subtracts any amount over the desired minute interval.
SELECT DATEADD(MINUTE, -(DATEDIFF(MINUTE, '2000', tmp.dt) % 10), tmp.dt)
FROM (
SELECT CAST(DateField AS SMALLDATETIME) AS dt
FROM MyDataTable
) tmp
It can also be done in a single line of code, but it is not as readable.
SELECT DATEADD(MINUTE, -(DATEDIFF(MINUTE, '2000', CAST(DateField AS SMALLDATETIME)) % 10), CAST(DateField AS SMALLDATETIME)) AS [interval] FROM MyDataTable
