Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to calculate the total volume of water irrigated over a section of land. What I have is the change of flow at an instant of time recorded into a SQL database. -this is measured in cubic meters per hour.

Date  Time          Flow Value
2009/10/22 04:00:00.0 0
2009/10/22 04:00:16.2 23
2009/10/22 04:00:20.6 34
2009/10/22 04:00:39.7 95
2009/10/22 04:00:41.7 97
2009/10/22 04:01:15.1 110
2009/10/22 04:03:17.0 95
2009/10/22 04:06:53.8 82
2009/10/22 04:26:50.7 77
2009/10/22 04:36:50.8 76
2009/10/22 04:46:51.7 72
2009/10/22 04:56:52.2 74
2009/10/22 05:16:52.7 72
2009/10/22 05:26:53.2 70
2009/10/22 05:36:22.1 84
2009/10/22 05:46:16.3 81
2009/10/22 05:56:16.2 75
2009/10/22 06:16:17.3 73
2009/10/22 06:26:16.9 75
2009/10/22 06:36:17.7 71
2009/10/22 06:57:38.7 57
2009/10/22 06:57:48.9 44
2009/10/22 06:57:53.4 28
2009/10/22 06:57:55.3 12
2009/10/22 07:07:55.1 0

Its simply not the case jut to sum up the values and assume that is the total volume of water irrigated.

what needs to be done is work out the time difference per time stamp and calculate the volume for that time duration, and then have it over the hour(s) the user has selected.

so for the above data, then the time difference would be (for the first hour)

time  diff volume
00:00:04.4 101.20
00:00:19.1 649.40
00:00:02.0 190.00
00:00:33.5 3249.50
00:02:01.9 13409.00
00:03:36.8 20596.00
00:19:56.9 98145.80
00:10:00.1 46207.70
00:10:00.9 45668.40
00:10:00.5 43236.00
00:20:00.5 88837.00
00:10:00.5 13521.60

There for the total volume irrigated of that hour (from 4am to 5am) is : 373811.6 cubic meter's of water divided by 3600 = 103.8365556

The question is: How do I do this with SQL - I am totally lost, and do not know where to begin, any help would be appreciated

share|improve this question

3 Answers 3

up vote 2 down vote accepted

This answer assumes you're using SQL Server. Your sample "for the first hour" actually includes more than the first hour; it should stop after the 00:10:00.1 row I'd think.

You can find the previous row for each row by joining the table on itself, then joining another time, and then saying nothing can be between the first two rows:

select 
	StartDate = prev.date
,	EndDate = cur.date
,	Milliseconds = datediff(ms,prev.date,cur.date)
,	Volume = datediff(ms,prev.date,cur.date) / 1000.0 * prev.flow
from @flow cur
inner join @flow prev
	on prev.date < cur.date
left join @flow inbetween
	on prev.date < inbetween.date
	and inbetween.date < cur.date
where inbetween.date is null

This gives you the sum per period. Calculating the hour total requires you to split entries that cross an hour boundary. You can do that by adding an entry for the end of each hour, like:

select date, flow
from @flow
union
-- Add end of hour
select DATEADD(Hour, DATEDIFF(Hour, 0, date)+1, 0), flow
from @flow 
where date in (select max(date) from @flow group by datepart(hh,date))

You can combine both queries using the WITH statement to calculate the sum per hour:

;with FlowWithHourBounds as (
    select date, flow
    from @flow
    union
    -- Add end of hour
    select DATEADD(Hour, DATEDIFF(Hour, 0, date)+1, 0), flow
    from @flow 
    where date in (
        select max(date) from @flow group by datepart(hh,date))
)
,  FlowPerPeriod as (
    select 
    	StartDate = prev.date
    ,	EndDate = cur.date
    ,	Milliseconds = datediff(ms,prev.date,cur.date)
    ,	Volume = datediff(ms,prev.date,cur.date) / 1000.0 * prev.flow
    from FlowWithHourBounds cur
    inner join FlowWithHourBounds prev
    	on prev.date < cur.date
    left join FlowWithHourBounds inbetween
    	on prev.date < inbetween.date
    	and inbetween.date < cur.date
    where inbetween.date is null
)
select datepart(hh,StartDate), sum(Volume)
from FlowPerPeriod
group by datepart(hh,StartDate)

The result is:

hour volume
4    285340,5
5    273288,5
6    255408,3
7    5701,2

Here's the sample dataset I created from your post:

declare @flow table ([date] datetime, flow float)
insert into @flow values ('2009/10/22 04:00:00.0', 0  )
insert into @flow values ('2009/10/22 04:00:16.2', 23 )
insert into @flow values ('2009/10/22 04:00:20.6', 34 )
insert into @flow values ('2009/10/22 04:00:39.7', 95 )
insert into @flow values ('2009/10/22 04:00:41.7', 97 )
insert into @flow values ('2009/10/22 04:01:15.1', 110)
insert into @flow values ('2009/10/22 04:03:17.0', 95 )
insert into @flow values ('2009/10/22 04:06:53.8', 82 )
insert into @flow values ('2009/10/22 04:26:50.7', 77 )
insert into @flow values ('2009/10/22 04:36:50.8', 76 )
insert into @flow values ('2009/10/22 04:46:51.7', 72 )
insert into @flow values ('2009/10/22 04:56:52.2', 74 )
insert into @flow values ('2009/10/22 05:16:52.7', 72 )
insert into @flow values ('2009/10/22 05:26:53.2', 70 )
insert into @flow values ('2009/10/22 05:36:22.1', 84 )
insert into @flow values ('2009/10/22 05:46:16.3', 81 )
insert into @flow values ('2009/10/22 05:56:16.2', 75 )
insert into @flow values ('2009/10/22 06:16:17.3', 73 )
insert into @flow values ('2009/10/22 06:26:16.9', 75 )
insert into @flow values ('2009/10/22 06:36:17.7', 71 )
insert into @flow values ('2009/10/22 06:57:38.7', 57 )
insert into @flow values ('2009/10/22 06:57:48.9', 44 )
insert into @flow values ('2009/10/22 06:57:53.4', 28 )
insert into @flow values ('2009/10/22 06:57:55.3', 12 )
insert into @flow values ('2009/10/22 07:07:55.1', 0  )
share|improve this answer
    
Thanks, Andomar This should get me started. But one last question - How does one specify a start and stop date, as the data I have spans over months - I would like to have two variable whereby the user can select the start and stop date where the data can be processed into your result format Thanks –  Jens Oct 22 '09 at 19:22
    
Add a where statement like "where date between '2009/01/01 00:00:00' and '2009/02/01 00:00:00'" to the query –  Andomar Oct 22 '09 at 19:26
    
How Does one add "the begin of an hour"?, for instance the data I gave had a Zero value for exactly the turn of the hour ('2009/10/22 04:00:00.0', 0) but what if that value did not exist. what happens if I only have a value at '2009/10/22 04:00:16.2', 23 -- somehow I must assume that the previous turn of the hour is Zero, and use that to start with - any ideas how this can be added? –  Jens Oct 23 '09 at 5:31
    
If you assume the hour starts with zero flow, you can safely omit it, since it will not contribute to the total flow? –  Andomar Oct 23 '09 at 11:25
WITH    differences
          AS (
              SELECT    s.dt AS dt_start
                       ,MIN(e.dt) AS dt_end
                       ,DATEDIFF(ms, s.dt, MIN(e.dt)) / 1000.0 AS seconds
              FROM      so1608779 AS s
              INNER JOIN so1608779 AS e
                        ON e.dt > s.dt
              GROUP BY  s.dt
             ),
        results1
          AS (
              SELECT    differences.*
                       ,so1608779.flow
                       ,so1608779.flow * differences.seconds AS volume
                       ,ROW_NUMBER() OVER (ORDER BY differences.dt_start) AS row
              FROM      differences
              INNER JOIN so1608779
                        ON so1608779.dt = differences.dt_start
             )
    SELECT  *
           ,(
             SELECT SUM(volume)
             FROM   results1 AS x
             WHERE  x.row <= results1.row
            ) AS running_total
    FROM    results1
share|improve this answer
    
This appears to compute the running total correctly, but it does not compute the volume per hour? –  Andomar Oct 22 '09 at 19:02
    
Yeah, I wasn't sure how they wanted to interpolate to find the final part of the hour. –  Cade Roux Oct 22 '09 at 23:57

You can start with this:

declare @table table (_time datetime, flow int)

insert into @table
select '04:00:00.0', 0
union select '04:00:16.2', 23
union select '04:00:20.6', 34
union select '04:00:39.7', 95
union select '04:00:41.7', 97
union select '04:01:15.1', 110
union select '04:03:17.0', 95
union select '04:06:53.8', 82
union select '04:26:50.7', 77
union select '04:36:50.8', 76
union select '04:46:51.7', 72
union select '04:56:52.2', 74
union select '05:16:52.7', 72
union select '05:26:53.2', 70
union select '05:36:22.1', 84
union select '05:46:16.3', 81
union select '05:56:16.2', 75
union select '06:16:17.3', 73
union select '06:26:16.9', 75
union select '06:36:17.7', 71
union select '06:57:38.7', 57
union select '06:57:48.9', 44
union select '06:57:53.4', 28
union select '06:57:55.3', 12
union select '07:07:55.1', 0

select t1._time time_start, t2._time time_finish, t1.flow
from @table t1, @table t2
where t2._time = (select min(_time) from @table where _time > t1._time)

This will return you the interval in one row and the value:

time_start  time_finish	flow
04:00:00.000    04:00:16.200	0
04:00:16.200    04:00:20.600	23
04:00:20.600    04:00:39.700	34
04:00:39.700    04:00:41.700	95
04:00:41.700    04:01:15.100	97
04:01:15.100    04:03:17.000	110
04:03:17.000    04:06:53.800	95
04:06:53.800    04:26:50.700	82
04:26:50.700    04:36:50.800	77
04:36:50.800    04:46:51.700	76
04:46:51.700    04:56:52.200	72
04:56:52.200    05:16:52.700	74
05:16:52.700    05:26:53.200	72
05:26:53.200    05:36:22.100	70
05:36:22.100    05:46:16.300	84
05:46:16.300    05:56:16.200	81
05:56:16.200    06:16:17.300	75
06:16:17.300    06:26:16.900	73
06:26:16.900    06:36:17.700	75
06:36:17.700    06:57:38.700	71
06:57:38.700    06:57:48.900	57
06:57:48.900    06:57:53.400	44
06:57:53.400    06:57:55.300	28
06:57:55.300    07:07:55.100	12

After this you can use it like subquery and make some multiplications and sum.

Of course it's a simplified example.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.