I need to perform this Oracle query in SQL Server:
select case_id, channel_index,
min(su_min) as sustained_min,
max(su_max) as sustained_max
from (
select case_id, channel_index, start_time,
min(dms_value) over (partition by case_id, channel_index order by start_time
range numtodsinterval(3, 'minute') preceeding) as su_max,
max(dms_value) over (partition by case_id, channel_index order by start_time
range numtodsinterval(3, 'minute') preceeding) as su_min,
min(start_time) over (partition by case_id, channel_index order by start_time)
as first_time
from data_table order by start_time
) as su_data
where
first_time + numtodsinterval(3, 'minute') <= start_time
group by
case_id, channel_index
Here is what I attempted in basic T-SQL which does the job but when a case has 1 million+ records it takes more that 37 mins (after which I cancelled the query):
ALTER procedure [dbo].[GetSustainedValues](
@case_id int,
@time_limit int,
@bypass_only bit = NULL)
as
begin
DECLARE @time DateTime, @channelindex int, @lastchannelindex int
DECLARE @tmin float, @tmax float, @min float, @max float, @caseid int
DECLARE @results TABLE(case_id int, channel_index int, max float null, min float null)
DECLARE CursorName CURSOR FAST_FORWARD
FOR SELECT start_time, channel_index from continuous_data where case_id = @case_id order by channel_index, start_time
OPEN CursorName
FETCH NEXT FROM CursorName INTO @time, @channelindex
SET @lastchannelindex = @channelindex
WHILE @@FETCH_STATUS = 0
BEGIN
--PRINT 'hello' --'Chennel:' + CONVERT (VARCHAR(50), @channelindex,128) + ' Time:' + CONVERT (VARCHAR(50), @time,128)
IF @lastchannelindex != @channelindex
BEGIN
--PRINT 'Starting new channel:' + CONVERT (VARCHAR(50), @channelindex,128)
-- we are starting on a new channel so insert that data into the results
-- table and reset the min/max
INSERT INTO @results(case_id, channel_index, max, min) VALUES(@case_id, @lastchannelindex, @max, @min)
SET @max = null
SET @min = null
SET @lastchannelindex = @channelindex
END
Select @tmax = MAX(dms_value), @tmin = MIN(dms_value)
from continuous_data
where case_id = @case_id and channel_index = @channelindex and start_time between DATEADD(s, -(@time_limit-1), @time) and @time
HAVING SUM(value_duration) >= @time_limit
IF @@ROWCOUNT > 0
BEGIN
IF @max IS null OR @tmin > @max
BEGIN
--PRINT 'Setting max:' + CONVERT (VARCHAR(50), @tmin,128) + ' for channel:' + CONVERT (VARCHAR(50), @channelindex,128)
set @max = @tmin
END
IF @min IS null OR @tmax < @min
BEGIN
set @min = @tmax
END
END
--PRINT 'Max:' + CONVERT (VARCHAR(50), @max,128) + ' Min:' + CONVERT (VARCHAR(50), @min,128)
FETCH NEXT FROM CursorName INTO @time, @channelindex
END
CLOSE CursorName
DEALLOCATE CursorName
--PRINT 'Max:' + CONVERT (VARCHAR(50), @max,128) + ' Min:' + CONVERT (VARCHAR(50), @min,128)
SELECT * FROM @results
end
Is this a good place to use a CLR stored procedure? Any other ideas to make this a more efficient query?
EDIT 3-9-2012: Don't focus on the "first_time" field. It is there to make sure that the 3 minute window starts 3 minutes into the data set. In my query I don't care about the first_time. All I need is the min/max sustained value for all 3 minute periods per channel.
Here is some sample data that contains 2 channels. Notice that the duration of each sample is not always the same:
CREATE TABLE #continuous_data
(
case_id int
, channel_index int
, start_time datetime
, dms_value float,
, value_duration smallint
)
INSERT #continuous_data VALUES (2081, 51, '2011-05-18 09:36:34.000', 90, 6)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:39.000', 94.8125, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:40.000', 95.4375, 1)
INSERT #continuous_data VALUES (2081, 51, '2011-05-18 09:36:40.000', 96, 6)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:41.000', 96.75, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:42.000', 98.0625, 2)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:44.000', 99.3125, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:45.000', 100.625, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:46.000', 101.9375, 2)
INSERT #continuous_data VALUES (2081, 51, '2011-05-18 09:36:46.000', 98, 6)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:48.000', 103.25, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:49.000', 104.5625, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:50.000', 105.8125, 2)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:52.000', 107.125, 1)
INSERT #continuous_data VALUES (2081, 51, '2011-05-18 09:36:52.000', 92, 6)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:53.000', 108.4375, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:54.000', 109.75, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:55.000', 111.0625, 2)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:57.000', 112.3125, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:58.000', 113.625, 1)
INSERT #continuous_data VALUES (2081, 51, '2011-05-18 09:36:58.000', 86, 6)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:36:59.000', 114.9375, 2)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:37:01.000', 116.25, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:37:02.000', 117.5, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:37:03.000', 118.8125, 2)
INSERT #continuous_data VALUES (2081, 51, '2011-05-18 09:37:04.000', 80, 6)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:37:05.000', 120.125, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:37:06.000', 121.4375, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:37:07.000', 122.75, 1)
INSERT #continuous_data VALUES (2081, 50, '2011-05-18 09:37:08.000', 124.0625, 1)
min() over ...
aliased assu_max
andmax() over ...
assu_min
?