# use recursive common table expressions to find consecutive no.s from two tables

i have the following tables:

``````Actual         Optional
------         --------
4                 3
13                6
20                7
26                14
19
21
27
28
``````

What i have to do is select :

1) all the values from "Actual" Table.

2) select values from "Optional" table if they form a consecutive series with "actual" table values

The expected result is:

``````Answer
------
4
13
20
26
3    --because it is consecutive to 4 (i.e 3=4-1)
14   --14=13+1
19   --19=20-1
21   --21=20+1
27   --27=26+1
28   --this is the important case.28 is not consecutive to 26 but 27
--is consecutive to 26 and 26,27,28 together form a series.
``````

I wrote a query using recursive cte but it is looping forever and fails after recursion reaches 100 levels. The problem i faced is 27 matches with 26, 28 matches with 27 and 27 with 28.again 28 with 27...(forever)

Here is the query i wrote:

``````with recurcte as
(
select num as one,num as two from actual
union all
select opt.num as one,cte.two as two
from recurcte cte join optional opt
on opt.num+1=cte.one or opt.num-1=cte.one
)select * from recurcte
``````
-
Is this homework? Why the CTE stipulation? –  Martin Smith Sep 9 '11 at 14:14
this is not homework.This is a small part of a big problem i have.I have written the query for the most part. The problem has to be written in a single query.So thats why a cte stipulation –  kannan Sep 9 '11 at 14:21
So you can remove this stipulation about recursive CTEs then? –  Martin Smith Sep 9 '11 at 14:22
Yes, as long it fits into other part of my query,so, on the whole it counts as a single query. –  kannan Sep 9 '11 at 14:24
Just a note; the accepted answer will perform like a pig on any decent sized sets of data. Where-as Martin Smith's answer will scale much more elegantly. I highly recommend trying both over real-case and worst-case data sets. –  MatBailie Sep 9 '11 at 14:49

``````;WITH Combined
AS (SELECT 1 AS Actual, N
FROM   (VALUES(4),
(13),
(20),
(26)) Actual(N)
UNION ALL
SELECT 0 AS Actual, N
FROM   (VALUES(3),
(6),
(7),
(14),
(19),
(21),
(27),
(28)) Optional (N)),
T1
AS (SELECT *,
N - DENSE_RANK() OVER (ORDER BY N) AS Grp
FROM   Combined),
T2
AS (SELECT *,
MAX(Actual) OVER (PARTITION BY Grp) AS HasActual
FROM   T1)
SELECT DISTINCT N
FROM   T2
WHERE  HasActual = 1
``````
-
Won't work without semicolon before WITH ;) –  sll Sep 9 '11 at 14:42
@sil not necessarily true if you terminate all statements properly (like you should). Blogged about this two years ago: sqlblog.com/blogs/aaron_bertrand/archive/2009/09/03/… –  Aaron Bertrand Sep 9 '11 at 14:46
And unless it's the first statement in a batch. Which, as shown, it is. –  MatBailie Sep 9 '11 at 14:47
Very ingenious! –  Andriy M Sep 9 '11 at 15:39

This CTE will give you the data you're looking for. Recursion is unnecessary for this.

``````declare @Actual table (i int)
declare @Optional table (i int)

insert into @Actual
select 4 union select 13 union select 20 union select 26

insert into @Optional
select 3 union select 6 union select 7 union select 14 union select 19
union select 21 union select 27 union select 28

;with rownum as (
select *, ROW_NUMBER() OVER (ORDER BY i) as 'RN'
from (
select
i, 'A' as 'Source'
from
@Actual
union
select
i, 'O'
from
@Optional
) a
)

select distinct
d.i
from
rownum a
inner join rownum d
on  a.i - d.i = a.rn - d.rn
where
a.source = 'A'
``````
-
Wow, nice technique! –  AakashM Sep 9 '11 at 14:33
Thank you much :) –  Derek Kromm Sep 9 '11 at 14:34
it's worth noting that this approach will get confused if there are duplicate values, whether in one table or in their union –  AakashM Sep 9 '11 at 14:36
This will become massively inefficient as the dataset grows. As both sides of the `a.i - d.i = a.rn - d.rn` predicate involve both tables, this requires a cross product of the data. Square Laws like this are pretty painful. (Try it for 10 values in each table, then try it for 100, it certainly won't be only 10 times slower.) –  MatBailie Sep 9 '11 at 14:39
just added a distinct in the final query which sufficiently handles duplicates, thanks for pointing it out –  Derek Kromm Sep 9 '11 at 14:40