# In a set of overlapping, version-numbered intervals, find the most recent version at each point in time

I'm working with a set of date intervals where each interval has a version number and new intervals will frequently overlap old ones, or even be subsets of them. From this data I need to calculate a new set of intervals that shows the most recent version number, at each point in time. Is there a set-based solution to this problem?

Here's an illustration:

``````Interval 1: 11111111111111111111111
Interval 2:     2222222222
Interval 3:   33333333333333
Interval 4:                     444444444
Interval 5:                   555555555
Result    : 11333333333333331155555555544
``````

Here is a sample of the data I'm working with:

``````groupId   startDate  endDate     version
--------  ---------  ----------  ------
1         1/1/2010   1/1/2011    1
1         10/1/2010  7/5/2011    2
1         7/5/2011   8/13/2012   3
1         8/13/2012  12/31/2012  6
1         10/1/2012  11/1/2012   8
``````

... and the desired output:

``````groupId   startDate  endDate     version
--------  ---------  ----------  ------
1         1/1/2010   10/1/2010   1
1         10/1/2010  7/5/2011    2
1         7/5/2011   8/13/2012   3
1         8/13/2011  10/1/2012   6
1         10/1/2012  11/1/2012   8 << note how version 8 supersedes version 6
1         11/1/2012  12/31/2012  6 << version 6 is split into two records
``````

I haven't found any other examples of this problem, my googling only turns up queries that identify gaps and islands or covering sets.

I think I have an iterative solution (SQL Server 2008). It starts with a temp table for intervals in the result set and defines the start and end points for the range that we want to cover by inserting records with special version numbers. Then, it repeatedly identifies gaps between result set intervals and attempts to fill them with the most recent records from the original data set, until there are no more gaps or no more records to add:

``````GO
-- Create data set and results table
CREATE TABLE #Data (
groupId    INT
,startDate  DATE
,endDate    DATE
,versionId  INT
)

INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2007-12-22', '2008-12-22', 8)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2008-12-22', '2009-12-22', 9)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2009-12-22', '2010-12-22', 10)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2010-12-22', '2011-12-22', 11)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2011-01-01', '2011-11-30', 500)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2011-12-22', '2012-12-22', 12)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2012-01-22', '2012-12-22', 13)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2012-01-22', '2012-12-22', 14)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2012-04-22', '2012-12-22', 17)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (1, '2012-04-22', '2012-12-22', 19)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (2, '2010-01-01', '2011-01-01', 1)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (2, '2010-10-01', '2011-07-05', 2)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (2, '2011-07-05', '2012-08-13', 3)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (2, '2012-08-13', '2012-12-31', 6)
INSERT INTO #Data (groupId, startDate, endDate, versionId) VALUES (2, '2012-10-01', '2012-11-01', 8)

CREATE TABLE #Results (
groupId        VARCHAR(10)
,startDate  DATE
,endDate    DATE
,versionId      BIGINT
)

DECLARE @startDate      DATE
DECLARE @endDate        DATE
DECLARE @placeholderId  BIGINT

SET @startDate = '20030101'
SET @endDate = '20121231'
SET @placeholderId = 999999999999999

INSERT #Results
SELECT DISTINCT
groupId
,CASE WHEN MIN(startDate) < @startDate THEN MIN(startDate) ELSE @startDate END
,CASE WHEN MIN(startDate) < @startDate THEN @startDate ELSE MIN(startDate) END
,@placeholderId
FROM #data
GROUP BY groupId
UNION ALL
SELECT DISTINCT
groupId
,CASE WHEN MAX(endDate) < @endDate THEN MAX(endDate) ELSE @endDate END
,CASE WHEN MAX(endDate) < @endDate THEN @endDate ELSE MAX(endDate) END
,@placeholderId
FROM #data
GROUP BY groupId
GO

-- Fill gaps in results table
DECLARE @startDate      DATE
DECLARE @endDate        DATE
DECLARE @placeholderId  BIGINT

SET @startDate = '20030101'
SET @endDate = '20111231'
SET @placeholderId = 999999999999999

DECLARE @counter INT
SET @counter = 0

WHILE @counter < 10
BEGIN
SET @counter = @counter + 1;
WITH Gaps AS (
SELECT
gs.groupId
,gs.startDate
,MIN(ge.endDate) as endDate
,ROW_NUMBER() OVER (ORDER BY gs.groupId, gs.startDate) as gapId
FROM (
SELECT groupId, endDate as startDate
FROM #Results r1
WHERE NOT EXISTS (
SELECT *
FROM #Results r2
WHERE r2.groupId = r1.groupId
AND r2.versionId <> r1.versionId
AND r2.startDate <= r1.endDate
AND r2.endDate > r1.endDate
)
AND NOT (endDate >= @endDate AND versionId = @placeholderId)
) gs
INNER JOIN (
SELECT groupId, startDate as endDate
FROM #Results r1
WHERE NOT EXISTS (
SELECT *
FROM #Results r2
WHERE r2.groupId = r1.groupId
AND r2.versionId <> r1.versionId
AND r2.endDate >= r1.startDate
AND r2.startDate < r1.startDate
)
AND NOT (startDate <= @startDate AND versionId = @placeholderId)
) ge
ON ge.groupId = gs.groupId
AND ge.endDate >= gs.startDate
GROUP BY gs.groupId, gs.startDate
)
INSERT #Results (
groupId
,startDate
,endDate
,versionId
)
SELECT
d.groupId
,CASE WHEN d.startDate < g.startDate THEN g.startDate ELSE d.startDate END
,CASE WHEN d.endDate > g.endDate THEN g.endDate ELSE d.endDate END
,d.versionId
FROM #Data d
INNER JOIN Gaps g
ON g.groupId = d.groupId
AND g.startDate <= d.endDate
AND g.endDate >= d.startDate
INNER JOIN (
SELECT
d.groupId
,gapId
,MAX(d.versionId) as versionId
FROM #Data d
INNER JOIN Gaps g
ON g.groupId = d.groupId
AND g.startDate <= d.endDate
AND g.endDate >= d.startDate
WHERE d.versionId < (
SELECT MIN(versionId)
FROM #Results r
WHERE r.groupId = d.groupId
AND (r.startDate = g.endDate OR r.endDate = g.startDate)
)
AND NOT EXISTS (
SELECT *
FROM #Data dsup
WHERE dsup.groupId = d.groupId
AND dsup.versionId > d.versionId
AND dsup.startDate <= d.startDate
AND dsup.endDate >= d.endDate
)
GROUP BY
d.groupId
,g.gapId
) mg
ON mg.groupId = g.groupId
AND mg.gapId = g.gapId
AND mg.versionId = d.versionId
END

SELECT *
FROM #Results
WHERE versionId <> @placeholderId
order by groupId, startDate
``````

A set-based solution would be much more useful, but I've struggled to find one. Any ideas?

-

``````-- create a dates table
create table dates (thedate date primary key clustered);
;with dates(thedate) as (
from master..spt_values years
join master..spt_values days
on days.type='p' and days.number < datepart(dy,dateadd(yy,years.number+1,0)-1)
where years.type='p' and years.number between 100 and 150
-- note: 100-150 creates dates in the year range 2000-2050
)
insert dbo.dates select * from dates;

-- for each date, determine the prevailing version
select t.groupId, d.thedate, max(t.versionId) versionId
into #tmp1
from dates d
join #Data t on t.startDate <= d.thedate and d.thedate <= t.endDate
group by t.groupId, d.thedate;

-- create index to help
create clustered index cix_tmp1 on #tmp1(groupId, thedate, versionId);

-- find the start dates
;with t as (
select a.*, rn=row_number() over (partition by a.groupId order by a.thedate)
from #tmp1 a
left join #tmp1 b on b.thedate = dateadd(d,-1,a.thedate) and a.groupId = b.groupId and a.versionId = b.versionId
where b.versionId is null
)
select c.groupId, c.thedate startdate, dateadd(d,-1,d.thedate) enddate, c.versionId
from t c
left join t d on d.rn=c.rn+1 and c.groupId = d.groupId
order by groupId, startdate;
``````

Of course, you can do everything in "one query" but do it at your peril, as the performance goes down the drain, big time.

DO NOT USE - for academic interest only-

``````;with dates(thedate) as (
from master..spt_values years
join master..spt_values days
on days.type='p' and days.number < datepart(dy,dateadd(yy,years.number+1,0)-1)
where years.type='p' and years.number between 100 and 150
-- note: 100-150 creates dates in the year range 2000-2050
), tmp1 as (
select t.groupId, d.thedate, max(t.versionId) versionId
from dates d
join #Data t on t.startDate <= d.thedate and d.thedate <= t.endDate
group by t.groupId, d.thedate
), t as (
select a.*, rn=row_number() over (partition by a.groupId order by a.thedate)
from tmp1 a
left join tmp1 b on b.thedate = dateadd(d,-1,a.thedate) and a.groupId = b.groupId and a.versionId = b.versionId
where b.versionId is null
)
select c.groupId, c.thedate startdate, dateadd(d,-1,d.thedate) enddate, c.versionId
from t c
left join t d on d.rn=c.rn+1 and c.groupId = d.groupId
order by groupId, startdate;
``````
-
sqlfiddle.com/#!6/94431/1 –  Laurence Nov 29 '12 at 21:15
Thanks for the quick response! Ran with the test data, the result looks great. I'll run it with my large data set later and post performance results for my iterative solution and your multi-query solution. –  ExcelValdez Nov 29 '12 at 21:19
If the versions can have gaps in, then the end date calculation fails. This doesn't happen in the example data, though: sqlfiddle.com/#!6/ec8dc/1 –  Laurence Nov 29 '12 at 21:26
@Laurence You're right. I assumed it was something serial and non-breaking. Like Firefox versions where it was 14 for a while, retracted, and reinstated. Or was it 16... but never without a version! –  RichardTheKiwi Nov 29 '12 at 21:29
This is a bit more robust than the answer I posted, although mine does have the benefit of being a single query and fairly efficient; I've run it on several million segments in a very reasonable run time (~2 minutes on mid-class hardware). This is a problem that comes up a lot in my job and we've built what I think is a rather elegant solution for weaving time segments... I was sad that I missed first post. ;-) –  Chipmonkey Nov 29 '12 at 21:34

Updated due to some feedback from the comments. I'm not going to worry about the end cases that a few people have pointed out since they've been proven trivial to solve in other Answers, but I wanted to go ahead and get a working version out that didn't require DDL... I figure it's just good to have options. :-)

This code should work:

``````select nesty.groupId, nesty.startDate, nesty.segment_end_date, Max(bob.versionId)
from(
select starter.groupId, starter.startDate,
from
(select groupId, startDate, ROW_NUMBER() over (partition by groupID order by startDate) as rownumber from
(select groupID, startDate from #Data union select groupID, DATEADD(DAY, 1,endDate) as startDate from #Data) xx) starter
left outer join
(select groupId, startDate, ROW_NUMBER() over (partition by groupID order by startDate) as rownumber from
(select groupID, startDate from #Data union select groupID, DATEADD(DAY, 1,endDate)    as startDate from #Data) xy) ender on
starter.groupId = ender.groupId and
starter.rownumber = ender.rownumber - 1
where
) nesty
left outer join #Data bob on
bob.groupId = nesty.groupId and
nesty.segment_end_date between bob.startDate and bob.endDate
group by nesty.groupId, nesty.startDate, nesty.segment_end_date
order by nesty.groupId, nesty.startDate
``````

There are a couple of tiny caveats I had to do to get it into a single SQL statement. First, the max end date is not dynamic; I hard coded '2012-12-31'. You can replace it with a MAX(endDate), but you can't put that in the GROUP BY statement. If you can do this in a procedure, you can do:

``````select into @max_end_date MAX(endDate) from #Data
``````

and replace '2012-12-31' with @max_end_date.

Second, I do not guarantee that two adjacent segments won't have the same value! This may or may not be important to you... that is, if you had the following:

``````Interval 1:       111111
Interval 2:   22222222222222
``````

``````Interval 1:   2222
Interval 2:       2222222222
``````

Still, I think it's worth hitting it in a simple and efficient SQL query. It may not be hard to fix those caveats, but it didn't matter to what I was working on, so I haven't bothered yet.

-
This doesn't seem to work with the example data, it should flip back to v6 at the end: sqlfiddle.com/#!6/9d2a2/1 –  Laurence Nov 29 '12 at 21:34
Ah, you're right... I'm bummed about that. Also, per the comments on the other answer, this solution will not work for dates between the earliest start and latest end dates where there are gaps with no versions. Don't have the time to rewrite it now, but I may take a stab later. –  Chipmonkey Nov 29 '12 at 21:36
I don't know if you've copied something wrong when translating it to the OP's tables, but this just doesn't work, following shouldn't show version 1 at all sqlfiddle.com/#!6/5b345/1. Neither example has any gaps. –  Laurence Nov 29 '12 at 21:54
I can't edit my answer for some reason; StackOverflow is kicking a URL error... let me know if this works, though for now (it works for me, on both the cases you mentioned): chiplynch.com/files/20121119_stackoverflow.txt –  Chipmonkey Nov 29 '12 at 22:12
It's a lot better, but it does have a strange interval with null version in sqlfiddle.com/#!6/6e503/1. I think if you just ignore that, though then it's right. –  Laurence Nov 29 '12 at 22:32

If the end dates are important, as well as gaps, here's a way you can do it. This solution could also be adapted to work if your versions are `datetimes` instead of just dates.

First a bunch of functions

One to get the version at a given date

``````Create Function dbo.VersionAtDate(@GroupID int, @Date datetime) Returns int as
Begin
Declare @Ret int = Null
Select
@Ret = Max(VersionID)
From
VersionedIntervals iv
Where
iv.GroupID = @GroupID And
iv.StartDate <= @Date And
iv.EndDate + 1 > @Date -- if dates were half open intervals this would just be iv.EndDate > @Date
Return @Ret
End
``````

Next to get the midpoint of two datetimes (minute resolution):

``````Create Function dbo.Midpoint(@Start datetime, @End datetime) Returns datetime as
Begin
Return DateAdd(Minute, DateDiff(Minute, @Start, @End) / 2, @Start)
End
``````

Version at a midpoint:

``````Create Function dbo.VersionAtMidpoint(@GroupID int, @Start datetime, @End datetime) returns int as
Begin
Return dbo.VersionAtDate(@GroupID, dbo.Midpoint(@Start, @End))
End;
``````

Finally a table valued function to help with the fact that some points are the start of one range and the end of another, and it helps to get two rows from one input for this:

``````-- returns two rows if a point is the end of one interval and the
-- start of another
Create Function dbo.EndPoints(@GroupID int, @RN bigint, @Start datetime, @End datetime, @Next datetime, @Version int)
Returns @EndPoints Table (
GroupID int,
RN bigint,
Version int,
StartDate datetime,
EndDate datetime
) As
Begin
Declare @NextVersion int, @VersionAtMidpoint int
Set @NextVersion = dbo.VersionAtDate(@GroupID, @Next)
If @NextVersion = @Version
-- interval carries on
Insert Into @EndPoints Select @GroupID, @RN, @Version, @Start, @Next
Else
Begin
-- interval has ended
Set @VersionAtMidpoint = dbo.VersionAtMidPoint(@GroupID, @End, @Next)
If @VersionAtMidpoint != @Version
-- we have something like this, start a run of 3s (run of 4s is already ended by previous call)
-- 3333333
-- 44
Insert Into @EndPoints Select @GroupID, @RN, @VersionAtMidpoint, @End, @Next
Else
Begin
-- We have something like this, end the run of 3s and start the run of fours
-- 33333
--   444
Insert Into @EndPoints Select @GroupID, -1, @Version, @Start, @Next
Insert Into @EndPoints Select @GroupID, @RN, @NextVersion, @Next, @Next
End
End
Return
End
``````

With all this machinery in place, finally a recursive CTE plust table variable, you'll need to set maxrecursion appropriately:

``````Declare @Bounds Table (GroupID int, RN bigint, BoundDate datetime, Primary Key (GroupID, RN))

Insert Into
@Bounds
Select
GroupID,
Row_Number() Over (Partition By GroupID Order By BoundDate),
BoundDate
From (
Select
GroupID,
StartDate As BoundDate
From
dbo.VersionedIntervals
Union
Select
GroupID,
EndDate
From
dbo.VersionedIntervals
) a

;With VersionedBounds (GroupID, RN, StartDate, EndDate, Version) as (
Select
GroupID,
RN,
BoundDate,
BoundDate,
dbo.VersionAtDate(GroupID, BoundDate)
From
@Bounds
Where
RN = 1
Union All
Select
e.GroupID,
e.RN,
e.StartDate,
e.EndDate,
e.Version
From
@Bounds b
Inner Join
VersionedBounds v
On v.GroupID = b.GroupID And b.RN = v.RN + 1
Cross Apply
dbo.EndPoints(v.GroupID, b.RN, v.StartDate, v.EndDate, b.BoundDate, v.Version) e
)
Select
GroupID,
StartDate,
Max(EndDate) As EndDate,
Max(Version) As Version
From
VersionedBounds
Group By
GroupID,
StartDate
Order By
GroupID,
StartDate
``````

http://sqlfiddle.com/#!6/b95bd/2

-