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I have the table of following structure:

UserID   StartedOn          EndedOn
1        2009-7-12T14:01    2009-7-12T15:01 
2        2009-7-12T14:30    2009-7-12T14:45
3        2009-7-12T14:47    2009-7-12T15:30
4        2009-7-12T13:01    2009-7-12T17:01
5        2009-7-12T14:15    2009-7-12T18:01
6        2009-7-12T11:01    2009-7-12T19:01
1        2009-7-12T16:07    2009-7-12T19:01

I need to find the maximal number of concurrent users that were on line. In the above table the result would be 5 because users set1={1,2,4,5,6} and set2={1,3,4,5,6} were online in the same period.

Do you have an idea how one could calculate this using T-SQL only?

share|improve this question
up vote 9 down vote accepted

Clearly the number of concurrent users only changes when a user either starts or ends a period, so it is enough to determine the number of concurrent users during starts and ends. So, reusing test data provided by Remus (thank you Remus):

  UserId int, 
  StartedOn datetime,
  EndedOn datetime

insert into @table (UserId, startedOn, EndedOn)
select 1, '2009-7-12 14:01', '2009-7-12 15:01'
union all select 2, '2009-7-12 14:30', '2009-7-12 14:45'
union all select 3, '2009-7-12 14:47', '2009-7-12 15:30'
union all select 4, '2009-7-12 13:01', '2009-7-12 17:01'
union all select 5, '2009-7-12 14:15', '2009-7-12 18:01'
union all select 6, '2009-7-12 11:01', '2009-7-12 19:01'
union all select 1, '2009-7-12 16:07', '2009-7-12 19:01';

SELECT MAX(ConcurrentUsers) FROM(
SELECT COUNT(*) AS ConcurrentUsers FROM @table AS Sessions 
(SELECT DISTINCT StartedOn AS ChangeTime FROM @table
) AS ChangeTimes
ON ChangeTime >= StartedOn AND ChangeTime < EndedOn 
GROUP BY ChangeTime
) AS ConcurrencyAtChangeTimes

BTW using DISTINCT per se is not a mistake - only abusing DISTINCT is. DISTINCT is just a tool, using it in this context is perfectly correct.

Edit: I was answering the OP's question: "how one could calculate this using T-SQL only". Note that the question does not mention performance.

If the questions was this: "what is the fastest way to determine maximum concurrency if the data is stored in SQL Server", I would provide a different answer, something like this:

Consider the following alternatives

  1. Write a cursor
  2. Write a CLR cursor
  3. Write a loop on the client
  4. Use an RDBMS with decent cursors, such as Oracle or PostgreSql
  5. For top performance, design your table differently, so that you can retrieve the answer in one index seek. This is what I do in my system if I need to deliver best possible performance.

If the question was "what is the fastest way to determine maximum concurrency using a T-SQL query", I would probably not answer at all. The reason: if I needed really good performance, I would not solve this problem in a T-SQL query.

share|improve this answer
MAX() on a derived table, DISTINCT on a sub-query, GROUP BY. No offense but isn't that exactly what… is about? – chendral Jul 13 '09 at 12:35
Using GROUP BY is what - a common mistake? Are you serious? – A-K Jul 13 '09 at 13:28
The point is that his query is highly inefficient. – moo Jul 13 '09 at 22:53
Do you have any benchmarks to prove it? How do you know that it is less efficient that other alternatives? – A-K Jul 14 '09 at 0:57
It's easy to prove that this solution is grossly inefficient, Alex. Just look at the Actual Execution plan arrows. See the one with the "49" count? That comes from 7*7 (7 is the number of rows in the table). That means that without the correct indexing, you have a full blown Cartesian (Square) JOIN that will take a month of Sundays to run on any substantial quantity of rows. With the correct index, you have a wad of smaller but nearly as inefficient Triangular JOINs that will also take quite some time to execute. I'll most some test data in a minute that you can test against. – Jeff Moden Feb 9 '13 at 22:26

You can order all events on date order and compute a running aggregate of current users logged in:

  UserId int, 
  StartedOn datetime,
  EndedOn datetime

insert into @table (UserId, startedOn, EndedOn)
select 1, '2009-7-12 14:01', '2009-7-12 15:01'
union all select 2, '2009-7-12 14:30', '2009-7-12 14:45'
union all select 3, '2009-7-12 14:47', '2009-7-12 15:30'
union all select 4, '2009-7-12 13:01', '2009-7-12 17:01'
union all select 5, '2009-7-12 14:15', '2009-7-12 18:01'
union all select 6, '2009-7-12 11:01', '2009-7-12 19:01'
union all select 1, '2009-7-12 16:07', '2009-7-12 19:01';

with cte_all_events as (
select StartedOn as Date
    , +1 as Users
    from @Table
union all 
select EndedOn as Date
    , -1 as Users
    from @Table),
cte_ordered_events as (
select Date
    , Users
    , row_number() over (order by Date asc) as EventId
    from cte_all_events)
, cte_agg_users as (
  select Date
    , Users
    , EventId
    , (select sum(Users) 
    	from cte_ordered_events agg
    	where agg.EventId <= e.EventId) as AggUsers
    from cte_ordered_events e)
select * from cte_agg_users

2009-07-12 11:01:00.000 1	1	1
2009-07-12 13:01:00.000 1	2	2
2009-07-12 14:01:00.000 1	3	3
2009-07-12 14:15:00.000 1	4	4
2009-07-12 14:30:00.000 1	5	5
2009-07-12 14:45:00.000 -1	6	4
2009-07-12 14:47:00.000 1	7	5
2009-07-12 15:01:00.000 -1	8	4
2009-07-12 15:30:00.000 -1	9	3
2009-07-12 16:07:00.000 1	10	4
2009-07-12 17:01:00.000 -1	11	3
2009-07-12 18:01:00.000 -1	12	2
2009-07-12 19:01:00.000 -1	13	1
2009-07-12 19:01:00.000 -1	14	0

Once you have this in place, finding the number of maximum concurrent sessions is trivial. As you see you have two moments when you had 5 users, at 14:30 (when user 2 logged in) and at 14:47 (when user 3 logged in). Just replace the last query that selects from the CTE to get the actual max:

select top(1) AggUsers 
    from cte_agg_users
    order by AggUsers desc

This solution uses CTEs so it will only work on SQL 2k5, if you're still on SQL 2000 you'll have to rewrite it using derived tables instead of CTEs.

share|improve this answer
Remus, I borrowed your test data - thanks! – A-K Jul 13 '09 at 1:41
Remus, this is definitely going in the right direction. The only problem is that you have a nasty Triangular JOIN that prevents this from scaling. – Jeff Moden Feb 10 '13 at 3:43

I tried AlexKuznetsov's solution but the result was 49 :(

My solution:

/* Create temporary table and set all dates into 1 column,
so we can sort by this one column */
DECLARE @tmp table (
    Dates datetime,
    IsStartedDate bit )

    SELECT StartedOn, 1 FROM stats
    SELECT EndedOn, 0 FROM stats

DECLARE @currentlogins int, @highestlogins int, @IsStartedDate bit;
SET @currentlogins = 0;
SET @highestlogins = 0;

SELECT IsStartedDate FROM @tmp

OPEN tmp_cursor

/* Step through every row, if it's a starteddate increment @currentlogins else decrement it
When @currentlogins is higher than @highestlogins set @highestlogins to the new highest value */
FETCH NEXT FROM tmp_cursor 
INTO @IsStartedDate

    IF (@IsStartedDate = 1)
        SET @currentlogins = @currentlogins + 1;
        IF (@currentlogins > @highestlogins)
            SET @highestlogins = @currentlogins;
        SET @currentlogins = @currentlogins - 1;

    FETCH NEXT FROM tmp_cursor 
    INTO @IsStartedDate

CLOSE tmp_cursor
DEALLOCATE tmp_cursor

SELECT @highestlogins AS HighestLogins
share|improve this answer
@ZippyV, yes, I fixed my query as soon as I had test data. It returns 5 now. – A-K Jul 13 '09 at 1:40
Alex, If you look at the row where UserID = 6, you find the times there encompass all the other times. The correct answer for the rows currently presented in the original post is "7", not "5". – Jeff Moden Feb 9 '13 at 23:20
Agh... My apologies. I misread the data. The max will be "5", not "7". – Jeff Moden Feb 10 '13 at 3:44
+1 yes your cursor is a good solution – A-K Feb 11 '13 at 14:22

I did the work using integers rather than datetime fields, but I believe the following sql snippet gets you what you want.

Basically, I compared the start and end date of each user against each other using a self-join. If User A started before or at the same time as User B AND User B started before or at the same time as User A ended, they are running concurrently. Thus, I found the user with the max number of concurrent users (and added 1 for themselves since I excluded them in the self-join.)

I noticed you have multiple rows for each user. Please note the sql below assumes the same user can't be running multiple instances at once (concurrently.) If this assumption doesn't hold true, I'm hoping you have an additional column which is unique per row. Use this column rather than UserId throughout the sql routine.

I've gotten you really close. I hope this helps. Best of luck.

  UserId int, 
  StartedOn int,
  EndedOn int

Insert Into @Table
Select 1, 1, 3
Select 2, 2, 4
Select 3, 3, 5
Select 4, 4, 6
Select 5, 7, 8
Select 6, 9, 10
Select 7, 9, 11
Select 8, 9, 12
Select 9, 10, 12
Select 10, 10, 13

--Select * from @Table

    Count(B.UserId) + 1 as 'Concurrent Users'
FROM @Table A, @Table B
WHERE A.StartedOn <= B.StartedOn
AND B.StartedOn <= A.EndedOn
AND A.UserId != B.UserId
Group By A.UserId
Order By Count(B.UserId) Desc
share|improve this answer
-1 This does not count the number of simulateously concurrent users, but the number of users any user is concurrent with. Eg. an user that holds a long session may see 10 different users come and by, but the max number of concurrent users was only 2. Your query will return 11 none the less. – Remus Rusanu Jul 13 '09 at 0:35
I concur with Remus Rusanu's assessment. I didn't see this before posting, but he's absolutely correct. My solution will not work per his comments. Nice catch. +1 on your comment. – Ben Griswold Jul 13 '09 at 1:05

A naive approach:
You can test if another user b is currently logged in when user a logs in with

a.StartedOn BETWEEN b.StartedOn AND b.EndedOn

And someone has to be the "final logon" to the set of "the most concurrent users".
If you now go through all records (as a) and check how many other users (b) where logged in at the time and then order the list (desc) the first result is the maximum number of concurrent users.

SELECT, a.UserId, a.StartedOn, a.EndedOn,  
      logons as b      
      a.StartedOn BETWEEN b.StartedOn AND b.EndedOn            
  ) as c
  logons as a 
  c desc

And now read to see how inefficient (or even wrong) this is ;-)
e.g. you have a large temporary table that the order by operates on without any index to help the sql server.

(and btw: I tested this with MySQL because I don't have a sql server at hand right now)

share|improve this answer

This is NOT a solution. Since, at the time of this posting, the most upvoted solution has a really nasty CROSS JOIN for smaller numbers of rows and a really nasty TRIANGULAR JOIN for larger numbers of rows, I'd thought I'd post some code to make a more substantial amount of test data for people to do their testing with. Let the races begin. ;-)

cteStartedOn AS
 SELECT TOP 100000 --LOOK!  Change this number to vary the number of rows you're testing with.
        UserID = ABS(CHECKSUM(NEWID()))%1000,
        StartedOn = RAND(CHECKSUM(NEWID()))*DATEDIFF(dd,'2012','2013')+CAST('2012' AS DATETIME)
   FROM sys.all_columns ac1, sys.all_columns ac2
 SELECT UserID, StartedOn,
        EndedOn = DATEADD(ss,ABS(CHECKSUM(NEWID()))%36000,StartedOn) --10 hours max
   INTO #Table
   FROM cteStartedOn;
share|improve this answer
I tried running everyone's solution with this testdata. My cursor solution finishes within 1.5 seconds, everyone else's solution didn't finish within 10 minutes. – ZippyV Feb 10 '13 at 10:30

you do a selfjoin on that table

share|improve this answer
Although I certainly agree with the premise, it would have been nice to see some code. ;-) – Jeff Moden Feb 9 '13 at 23:16

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