I am trying to get a count of number of duplicate values on two columns grouping on another column in SQL Server.

Below is a sample scenario I am working on.

    DECLARE @mytable TABLE (CampName varchar(10),ID VARCHAR(10),ListName varchar(10))
    INSERT INTO @mytable
            ( CampName, ID, ListName )
    VALUES  ( 'A',   'X',   'Y' ), ( 'A',   'X',   'Y' ), 
            ( 'A',   'Y',   'Z' ), ( 'A',   'Y',   'Z' ),
            ( 'A',   'Y',   'Z' ), ( 'A',   'P',   'Q' ),
            ( 'B',   'X',   'Y' ), ( 'B',   'X',   'Y' ), 
            ( 'B',   'Y',   'Z' ), ( 'B',   'Y',   'Z' ),
            ( 'B',   'Y',   'Z' ), ( 'B',   'P',   'Q' ),
            ( 'B',   'R',   'S' ), ( 'B',   'R',   'S' )

This would result in the following table.

 CampName   ID  ListName
      A     X     Y
      A     X     Y -- Duplicate Record
      A     Y     Z
      A     Y     Z -- Duplicate Record
      A     Y     Z -- Duplicate Record
      A     P     Q
      B     X     Y 
      B     X     Y -- Duplicate Record
      B     Y     Z
      B     Y     Z -- Duplicate Record
      B     Y     Z -- Duplicate Record
      B     P     Q
      B     R     S
      B     R     S -- Duplicate Record

I need the output as follows:

CampName   dupcount
A            3
B            4

Basically, I need to figure out the number of duplicate (ID,ListName) for each CampName irrespective of what the duplicate values are.

Let me know if I can clarify something else in this regard. Any help would be greatly appreciated.


You can use the following query:

SELECT CampName, SUM(cnt) AS dupcount
  SELECT CampName, COUNT(*) - 1 AS cnt
  FROM @mytable
  GROUP BY CampName, ID, ListName
  HAVING COUNT(*) > 1) AS t

The inner query uses a HAVING clause to filter out non-duplicate entries. It also calculates the number of duplicate records per ID, ListName. The outer query simply sums the number of duplicates.

  • Both most robust (no edge case failures) and performant (not concatenating fields allow use of index scan rather than table scan, if the appropriate index exists) answer here... – MatBailie Sep 8 '16 at 15:05

I believe that the distinct number of combinations of ID and ListName need to be subtracted from the total count for each CampName group to get the correct result.

SELECT t.CampName,
       COUNT(*) - COUNT(DISTINCT 'ColOne' + ID + 'ColTwo' + ListName) AS dupcount
FROM yourTable t

This query employs a trick, which is concatenating the ID and ListName columns, which are both text, to effectively form a pseudo-group. The need for this is that DISTINCT only works on a single column, but you have two columns which need to be considered.

Reference: Quora: In SQL, how to I count DISTINCT over multiple columns?

  • The concatenation is dangerous; 'X' + 'XY' == 'XX' + 'Y' Even adding a separator is insufficient; 'X' + ',' + ',Y' == 'X,' + ',' + 'Y'. To be robust would require a search and replace to 'escape' any occurrences of any used separator. – MatBailie Sep 8 '16 at 14:44
  • @MatBailie We can also append an identifier for each column which we expect to be unique (e.g. ColOne for the first column, ColTwo for the second column). Then your example would become ColOneX + ColTwoXY != ColOneXX + ColTwoY – Tim Biegeleisen Sep 8 '16 at 14:47
  • Indeed this is unlikely, but it's still not 100% robust; 'ColOne' + '12' + 'ColTwo' + 'XXColTwoXX' == 'ColOne' + '12ColTwoXX' + 'ColTwo' + 'XX' – MatBailie Sep 8 '16 at 14:50
  • @MatBailie No, it's not reasonable to expect your last example. So you're saying that ListName could have an entry called XXColTwoXX? Really? – Tim Biegeleisen Sep 8 '16 at 14:52
  • yes, that's why in my solution, I preferred an operator in between concatenation :) – techspider Sep 8 '16 at 14:52

Here is a simple way to get the results you want:

select t.campname, count(*) - count(distinct t.listname) as num_duplicates
from @mytable t
group by t.campname;

The logic is that count(*) counts all rows. count(distinct) counts the number of distinct lists. The difference is the number of duplicates.


Giorgios makes a good point. However, the data looks like the id and the name contain the same information, so only one appears to be needed. If you have to use both, many databases would let you do:

select t.campname, count(*) - count(distinct t.id, t.listname) as num_duplicates
from @mytable t
group by t.campname;

But not SQL Server. Instead, concatenate them together:

select t.campname,
       count(*) - count(distinct concat(t.id, ':', t.listname)) as num_duplicates
from @mytable t
group by t.campname;
  • 1
    Only works if the id field is completely redundant. In the example data that appears to be the case, but in the wording number of duplicate (ID,ListName) for each CampName it appears that it's not redundant... – MatBailie Sep 8 '16 at 14:42
  • 2
    I think distinct should consider both fields, not just listname. – Giorgos Betsos Sep 8 '16 at 14:42

There is a little bit vagueness in the question.

If you believe all of your ID and ListName combinations are always equal, the below query works for you:

You can simply do this by using DISTINCT inside your COUNT

SELECT CampName, COUNT(DISTINCT ListName) UniqueCount
FROM @mytable

If you suspect, the combination may not be equal all the time, you need to consider counting the combination of both ID and ListName columns.

This assumes a concatenation operator | which will not be present in any of the two columns.

SELECT CampName, COUNT(DISTINCT ID+'|'+ListName) UniqueCount
FROM @mytable

If you are concerned about counting duplicate number of rows

SELECT CampName, COUNT(*) - COUNT(DISTINCT ID+'|'+ListName) dupCount
FROM @mytable

An alternative, I think

    SELECT CampName, ID, ListName, COUNT(*) UniqueCount 
    FROM @mytable
    GROUP BY CampName, ID, ListName
SELECT CampName, COUNT(UniqueCount) count 
  • DISTINCT is not a function. I.e. you can do COUNT(DISTINCT ListName). – jarlh Sep 8 '16 at 14:36
  • You are right but it doesn't generate any error :) – techspider Sep 8 '16 at 14:37
  • No, and you can even do COUNT(DISTINCT((((ListName))))), if you want to. – jarlh Sep 8 '16 at 14:43
  • I fail to see how any of the two queries can produce the required results. The user wants to count duplicate ID, ListName pairs. These queries seem to yield some sort of the opposite result. – Giorgos Betsos Sep 8 '16 at 14:48
  • the first answer assumes both id and name combinations are always equal, so any one in the DISTINCT should work; the second one assumes opposite, so a combination of id and name generates unique count – techspider Sep 8 '16 at 14:51

You can also retrieve same result with CONCAT it is more reliable

SELECT CampName, 
    COUNT(ListName)-COUNT(DISTINCT CONCAT(id,ListName)) tot 
FROM #tmp 
GROUP BY CampName 

Try something like this, analyse the SELECT statement, the WITH clause is not important to the logic:

WITH input_data AS (
SELECT input_data.*, COUNT(*) OVER (PARTITION BY x, y) - 1 AS numer_duplicates
FROM input_data
  • Needs one independent result per CampName. By the time you deal with that you end up with the nested aggregation answer supplied by GiorgosBetsos. – MatBailie Sep 8 '16 at 15:01
  • @MatBailie yup, just using an analytical function as an alternative solution. – JacK TrocinskI Sep 9 '16 at 8:02
  • My point is that this alternative solution doesn't do what the the OP asked. The OP requires a count of duplicates Per CampName. – MatBailie Sep 9 '16 at 9:13
  • @MatBailie I got that part, just don't think OP needs to be spoon-fed and can figure out that last small step on his own but maybe I'm just over optimistic. – JacK TrocinskI Sep 9 '16 at 9:24

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