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I am aware of COLUMNS_UPDATED, well I need some quick shortcut (if anyone has made, I am already making one, but if anyone can save my time, I will appriciate it)

I need basicaly an XML of only updated column values, I need this for replication purpose.

SELECT * FROM inserted gives me each column, but I need only updated ones.

something like following...

CREATE TRIGGER DBCustomers_Insert
    ON DBCustomers
    AFTER UPDATE
AS
BEGIN
    DECLARE @sql as NVARCHAR(1024);
    SET @sql = 'SELECT ';


    I NEED HELP FOR FOLLOWING LINE ...., I can manually write every column, but I need 
    an automated routin which can work regardless of column specification
    for each column, if its modified append $sql = ',' + columnname...

    SET @sql = $sql + ' FROM inserted FOR XML RAW';

    DECLARE @x as XML;
    SET @x = CAST(EXEC(@sql) AS XML);


    .. use @x

END
share|improve this question

4 Answers 4

up vote 9 down vote accepted

Inside the trigger, you can use COLUM_UPDATED like this in order to get updated value

-- Get the table id of the trigger
--
DECLARE @idTable      INT

SELECT  @idTable = T.id 
FROM    sysobjects P JOIN sysobjects T ON P.parent_obj = T.id 
WHERE   P.id = @@procid

-- Get COLUMNS_UPDATED if update
--
DECLARE @Columns_Updated VARCHAR(50)

SELECT  @Columns_Updated = ISNULL(@Columns_Updated + ', ', '') + name 
FROM    syscolumns 
WHERE   id = @idTable   
AND     CONVERT(VARBINARY,REVERSE(COLUMNS_UPDATED())) & POWER(CONVERT(BIGINT, 2), colorder - 1)  > 0

But this snipet of code fails when you have a table with more than 62 columns.. Arth.Overflow...

Here is the final version which handles more than 62 columns but give only the number of the updated columns. It's easy to link with 'syscolumns' to get the name

DECLARE @Columns_Updated = VARCHAR(100)
SET     @Columns_Updated = ''   

DECLARE @maxByteCU INT
DECLARE @curByteCU INT
SELECT  @maxByteCU = DATALENGTH(COLUMNS_UPDATED()), 
        @curByteCU = 1

WHILE @curByteCU <= @maxByteCU BEGIN
    DECLARE @cByte INT
    SET     @cByte = SUBSTRING(COLUMNS_UPDATED(), @curByteCU, 1)

    DECLARE @curBit INT
    DECLARE @maxBit INT
    SELECT  @curBit = 1, 
            @maxBit = 8
    WHILE @curBit <= @maxBit BEGIN
        IF CONVERT(BIT, @cByte & POWER(2,@curBit - 1)) <> 0 
            SET @Columns_Updated = @Columns_Updated + '[' + CONVERT(VARCHAR, 8 * (@curByteCU - 1) + @curBit) + ']'
        SET @curBit = @curBit + 1
    END
    SET @curByteCU = @curByteCU + 1
END
share|improve this answer
    
Thanks for the answer, however the join is really costly at this level considering huge changes, so I am not going to use it as I am trying to discover something in change tracking but thanks anyway. –  Akash Kava Dec 17 '09 at 16:59
    
answer was awesome :) –  Thomas Mar 3 '13 at 19:05

I've another completely different solution that doesn't use COLUMNS_UPDATED at all, nor does it rely on building dynamic SQL at runtime. (You might want to use dynamic SQL at design time but thats another story.)

Basically you start with the inserted and deleted tables, unpivot each of them so you are just left with the unique key, field value and field name columns for each. Then you join the two and filter for anything that's changed.

Here is a full example, I've mocked up the deleted and inserted tables rather than writing them into a trigger. I've also included a delete, amends and an insert so you can see them all happening at once, though you wouldn't normally get them together in one trigger call.

--Setup some pretend inserted and deleted tables
IF  EXISTS (SELECT * FROM sys.objects WHERE object_id = OBJECT_ID(N'[dbo].[deleted]') AND type in (N'U'))
DROP TABLE [dbo].[deleted]
CREATE TABLE deleted (ContactID int, Forename varchar(100), Surname varchar(100),
    Extn varchar(16), Email varchar(100), Age int);
GO
INSERT INTO deleted VALUES (1,'Bob','Smith','2295','bs@example.com',24);
INSERT INTO deleted VALUES (2,'Alice','Brown','2255','ab@example.com',32);
INSERT INTO deleted VALUES (3,'Reg','Jones','2280','rj@example.com',19);
INSERT INTO deleted VALUES (4,'Mary','Doe','2216','md@example.com',28);
INSERT INTO deleted VALUES (5,'Peter','Nash','2214','pn@example.com',25);

IF  EXISTS (SELECT * FROM sys.objects WHERE object_id = OBJECT_ID(N'[dbo].[inserted]') AND type in (N'U'))
DROP TABLE [dbo].[inserted]
CREATE TABLE inserted (ContactID int, Forename varchar(100), Surname varchar(100),
    Extn varchar(16), Email varchar(100), Age int);
GO
INSERT INTO inserted VALUES (1,'Bob','Smith','2295','bs@example.com',26);
INSERT INTO inserted VALUES (2,'Alison','Brown','2255','ab@example.com',32);
INSERT INTO inserted VALUES (4,'Mary','Doe','2216','md@example.com',27);
INSERT INTO inserted VALUES (5,'Peter','Sash','2214','ps@example.com',25);
INSERT INTO inserted VALUES (6,'Stephen','Turner','2299','st@example.com',25);

--Unpivot deleted
WITH deleted_unpvt AS (
    SELECT ContactID, FieldName, FieldValue
    FROM 
       (SELECT ContactID
            , cast(Forename as sql_variant) Forename
            , cast(Surname as sql_variant) Surname
            , cast(Extn as sql_variant) Extn
            , cast(Email as sql_variant) Email
            , cast(Age as sql_variant) Age
       FROM deleted) p
    UNPIVOT
       (FieldValue FOR FieldName IN 
          (Forename, Surname, Extn, Email, Age)
    ) AS deleted_unpvt
),
--Unpivot inserted
inserted_unpvt AS (
    SELECT ContactID, FieldName, FieldValue
    FROM 
       (SELECT ContactID
            , cast(Forename as sql_variant) Forename
            , cast(Surname as sql_variant) Surname
            , cast(Extn as sql_variant) Extn
            , cast(Email as sql_variant) Email
            , cast(Age as sql_variant) Age
       FROM inserted) p
    UNPIVOT
       (FieldValue FOR FieldName IN 
          (Forename, Surname, Extn, Email, Age)
    ) AS inserted_unpvt
)

--Join them together and show what's changed
SELECT Coalesce (D.ContactID, I.ContactID) ContactID
    , Coalesce (D.FieldName, I.FieldName) FieldName
    , D.FieldValue as FieldValueWas
    , I.FieldValue AS FieldValueIs 
FROM 
    deleted_unpvt d

        FULL OUTER JOIN 
    inserted_unpvt i
        on      D.ContactID = I.ContactID 
            AND D.FieldName = I.FieldName
WHERE
     D.FieldValue <> I.FieldValue --Changes
    OR (D.FieldValue IS NOT NULL AND I.FieldValue IS NULL) -- Deletions
    OR (I.FieldValue IS NOT NULL AND D.FieldValue IS NULL) -- Insertions

So no messing around with bigint bitfields and arth overflow problems. If you know the columns you want to compare at design time then you don't need any dynamic SQL.

On the downside the output is in a different format and all the field values are converted to sql_variant, the first could be fixed by pivoting the output again, and the second could be fixed by recasting back to the required types based on your knowledge of the design of the table, but both of these would require some complex dynamic sql. Both of these might not be an issue in your XML output.

Edit: Reviewing the comments below, if you have a natural primary key that could change then you can still use this method. You just need to add a column that is populated by default with a GUID using the NEWID() function. You then use this column in place of the primary key.

You may want to add an index to this field, but as the deleted and inserted tables in a trigger are in memory it might not get used and may have a negative effect on performance.

share|improve this answer
    
Nice solution. Note, since a trigger is called after individual insert/update/delete statements, you only really need to deal with the update scenario. Was wondering if there could be any simplifications (for speed). –  Herman Schoenfeld Mar 14 '13 at 5:38
1  
@HermanSchoenfeld Do you have a performance issue? Remember "...premature optimization is the root of all evil." (Donald Knuth) –  webturner Mar 14 '13 at 22:31
    
I think there's an issue. Your trigger assumes that the primary key hasn't changed, when it can. So, you'd need to separate out the insert/update/delete cases anyway which means you can just ignore insert/delete cases altogether. For the update case, you'll need to join inserted/deleted by the row-index. –  Herman Schoenfeld Mar 18 '13 at 2:25
    
@HermanSchoenfeld True this code assumes a surrogate primary key as opposed to a natural one that might change. But if your key can change how do you know it's a changed row and not a new one? I think you have a different problem to the OP. –  webturner Mar 19 '13 at 13:57
    
The problem I'm discussing is the same one as the OP, it is simply to know ALL the ACTUAL changes inside an after trigger. Your solution fails when surrogate key is changed and for BLOB, TEXT, XML fields (since they cannot be cast to sql_variant). Blob fields aside, the correct way to identify the row is not by its surrogate key, but by its index inside the inserted/deleted temp tables. The inserted/deleted have a 1-1 bijection for UPDATE AFTER trigger. That's why insert and delete after triggers don't matter here at all. –  Herman Schoenfeld Mar 22 '13 at 10:01

The only way that occurs to me that you could accomplish this without hard coding column names would be to drop the contents of the deleted table to a temp table, then build a query based on the table definition to to compare the contents of your temp table and the actual table, and return a delimited column list based on whether they do or do not match. Admittedly, the below is elaborate.

Declare @sql nvarchar(4000)
DECLARE @ParmDefinition nvarchar(500)
Declare @OutString varchar(8000)
Declare @tbl sysname

Set @OutString = ''
Set @tbl = 'SomeTable' --The table we are interested in
--Store the contents of deleted in temp table
Select * into #tempDelete from deleted 
--Build sql string based on definition 
--of table 
--to retrieve the column name
--or empty string
--based on comparison between
--target table and temp table
set @sql = ''
Select @sql = @sql + 'Case when IsNull(i.[' + Column_Name + 
'],0) = IsNull(d.[' + Column_name + '],0) then '''' 
 else ' + quotename(Column_Name, char(39)) + ' + '',''' + ' end +'
from information_schema.columns 
where table_name = @tbl
--Define output parameter
set @ParmDefinition = '@OutString varchar(8000) OUTPUT'
--Format sql
set @sql = 'Select @OutString = ' 
+ Substring(@sql,1 , len(@sql) -1) + 
' From SomeTable i  ' --Will need to be updated for target schema
+ ' inner join #tempDelete d on
i.PK = d.PK ' --Will need to be updated for target schema
--Execute sql and retrieve desired column list in output parameter
exec sp_executesql @sql, @ParmDefinition, @OutString OUT
drop table  #tempDelete
--strip trailing column if a non-zero length string 
--was returned
if Len(@Outstring) > 0 
    Set @OutString = Substring(@OutString, 1, Len(@Outstring) -1)
--return comma delimited list of changed columns. 
Select @OutString 
End
share|improve this answer

I've done it as simple "one-liner". Without using, pivot, loops, many variables etc. that makes it looking like procedural programming. SQL should be used to process data sets :-), the solution is:

DECLARE @sql as NVARCHAR(1024);

select @sql = coalesce(@sql + ',' + quotename(column_name), quotename(column_name))
from INFORMATION_SCHEMA.COLUMNS
where substring(columns_updated(), columnproperty(object_id(table_schema + '.' + table_name, 'U'), column_name, 'columnId') / 8 + 1, 1) & power(2, -1 + columnproperty(object_id(table_schema + '.' + table_name, 'U'), column_name, 'columnId') % 8 ) > 0
    and table_name = 'DBCustomers'
    -- and column_name in ('c1', 'c2') -- limit to specific columns
    -- and column_name not in ('c3', 'c4') -- or exclude specific columns

SET @sql = 'SELECT ' + @sql + ' FROM inserted FOR XML RAW';

DECLARE @x as XML;
SET @x = CAST(EXEC(@sql) AS XML);

It uses COLUMNS_UPDATED, takes care of more than eight columns - it handles as many columns as you want.

It takes care on proper columns order which should be get using COLUMNPROPERTY.

It is based on view COLUMNS so it may include or exclude only specific columns.

share|improve this answer
    
This would work, but dynamic sql doesn't have access to the Inserted or Deleted tables. –  Fowl Aug 29 at 5:05

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