Thursday, December 4, 2014

LINKED SERVERS IN SQL SERVER



  • Configure a linked server to enable the SQL Server Database Engine to execute commands against OLE DB data sources outside of the instance of SQL Server.
  • Linked server is a concept in SQL Server to access external data sources. This external data sources can be Access, Oracle, Excel, SQL Server or almost any other data system that can be accessed by OLE or ODBC.

  Advantages:

 Linked serves mojorly used in Real Time to acess data from external data sources like   oracle,excel,some other instaces in sql server. and also
                           
  •  Remote server access.
  • The ability to issue distributed queries, updates, commands, and transactions on heterogeneous data sources across the enterprise. 
create linked servers:

  • A linked server allows for access to distributed, heterogeneous queries against OLE DB data sources. After a linked server is created, distributed queries can be run against this server, and queries can join tables from more than one data source. If the linked server is defined as an instance of SQL Server, remote stored procedures can be executed.

Generally two ways to create linked servers
         
            1. SQL Server Management studio(by wizard)
            2. Transact-SQL




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Wednesday, November 26, 2014

HOW TO DELETE AND UPDATE BATCH BY BATCH FOR A GOOD PERFORMANCE

Consider the following table
  
CREATE TABLE TAB (
        CLM1 INT IDENTITY(1,1) PRIMARY KEY
        ,CLM2 CHAR(5)
        ,CLM3 TEXT
        ,CLM4 DATETIME)

The above table has more than 1 million rows. 
I want to update all the rows in this table which have CLM2 = 'ABCDE' to 'LKJHG'. 
Note, this operation may result in at least 60% of the table rows being affected. 
Please write a script which does this task in an optimum way.


ANSWER: for performance i have update bach by batch.
    
set rowcount 1000
declare @cnt int=1
while(@cnt>0)
begin
        UPDATE TAB
        SET CLM2 = 'LKJHG'
        WHERE CLM2 = 'ABCDE'
      
        set @cnt=@@rowcount;
end

USING BATCHES TO DELETE LARGE RECORDS IN A TABLE :

--We have 1 million records in a table then a simple delete is

DELETE FROM MYTABLE WHERE COL1=1

it can take a while when you have for instance 1 million records to delete. It can results in a table lock which has a negative impact on the performance of your application.

As of SQL2005/2008 you can delete records in a table in batches with the DELETE TOP (BatchSize) statement.  This method has 3 advantages

  1. It will not create one big transaction.
  2. It avoids a table lock.
  3. If the delete statement is canceled, only the last batch is rolled back. Records in previous batches are deleted. 
For example :


 CREATE TABLE DEMO (COL1 INT,COL2 INT)


DECLARE @COUNTER INT
SET @COUNTER = 1

INSERT INTO DEMO (COL1,COL2) Values (2,2)

WHILE @COUNTER < 50000
BEGIN

       INSERT INTO DEMO (COL1,COL2) Values (1,@COUNTER)
       SET @COUNTER = @COUNTER + 1

END

/*
-- Show content of the table
SELECT COL1, COUNT(*) FROM DEMO GROUP BY COL1
*/

-- Deleting records in batches of 1000 records

DECLARE @BatchSize INT

SET @BatchSize = 1000

WHILE @BatchSize <> 0

BEGIN
              DELETE TOP (@BatchSize)
              FROM DEMO
               WHERE COL1 = 1

SET @BatchSize = @@rowcount

END

-- SELECT * FROM Demo -- Now we have only 1 record left


----other example

 
SET ROWCOUNT 5000; -- set batch size
WHILE EXISTS (SELECT 1 FROM myTable WHERE date < '2013-01-03')
BEGIN
    DELETE FROM myTable
    WHERE date < '2013-01-03'
END;
SET ROWCOUNT 0; -- set batch size back to "no limit"
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Monday, November 10, 2014

SIMPLE SENARIO

CREATE TABLE [DBO].[PROJECT](
[ENAME] [VARCHAR](MAX) NULL,
[PID] [INT] NULL,
[STATUS] [INT] NULL
) ON [PRIMARY]
GO

INSERT PROJECT VALUES ('bala', 1, NULL)
INSERT PROJECT VALUES ('manoj', 1, 1)
INSERT PROJECT VALUES ('krishna', 1, 1)
INSERT PROJECT VALUES ('a', 1, 1)
INSERT PROJECT VALUES ('b', 2, NULL)
INSERT PROJECT VALUES ('c', 2, 0)
INSERT PROJECT VALUES ('d', 3, NULL)
INSERT PROJECT VALUES ('e', 3, 1)
INSERT PROJECT VALUES ('f', 3, 1)

PROJECT DONE:

;WITH X AS
(
SELECT PID,COUNT(PID) PD,SUM(STATUS) STATU FROM PROJECT
GROUP BY PID,STATUS HAVING STATUS IS NOT NULL
)SELECT P.* FROM  PROJECT P JOIN X B ON B.PID=P.PID
 WHERE B.PD=B.STATU AND STATUS IS NULL



 ;WITH X AS( SELECT PID,COUNT(PID) AS COU_PID,SUM(status) AS STAU FROM project
 GROUP BY pid,status  HAVING status IS  NOT NULL)

 SELECT PID FROM X  WHERE COU_PID=STAU

PROJECT NOT DONE 


;WITH X AS
(
SELECT PID,COUNT(PID) PD,SUM(STATUS) STATU FROM PROJECT
GROUP BY PID,STATUS HAVING STATUS IS NOT NULL
)SELECT P.* FROM  PROJECT P JOIN X B ON B.PID=P.PID
 WHERE B.PD<>B.STATU AND STATUS IS NULL
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Sunday, November 9, 2014

HOW TO CAPTURE PAGE BY PAGE DATA IN A TABLE BY USING OUTPUT PARAMETER


CREATE PROC USP_PAGE_ORDER(@PAGE_NO INT,@SIZE INT,@ORDER VARCHAR(20),@COUNT INT OUT)
AS
BEGIN
                SET NOCOUNT ON
                DECLARE @START INT=(@PAGE_NO-1)*@SIZE+1
                DECLARE @END INT= @PAGE_NO*@SIZE;
                DECLARE @S VARCHAR(MAX)
                CREATE TABLE #TT(ID INT IDENTITY,NAME VARCHAR(MAX))
                SET @S='SELECT NAME FROM SYS.OBJECTS ORDER BY NAME '+@ORDER
                INSERT INTO #TT EXEC(@S)
                SET @COUNT=@@ROWCOUNT

               SELECT * FROM #TT WHERE ID BETWEEN @START AND @END

END

CHECK:

 DECLARE @TT INT
EXEC USP_PAGE_ORDER 2,10,'ASC',@COUNT=@TT OUT
PRINT @TT

DECLARE @TT INT
EXEC USP_PAGE_ORDER 3,10,'ASC',@COUNT=@TT OUT
PRINT @TT


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HOW TO FIND COUNT OF NEGATIVE & POSITIVE VALUE


CREATE TABLE SIGNS(ID INT)
GO
INSERT INTO SIGNS VALUES(-1),(-2),(-3),(2),(3)

SELECT * FROM  SIGNS

METHOD 1:

SELECT SIGN(ID) AS NA_PO,COUNT(SIGN(ID)) AS COUNT_NE_PO FROM signs GROUP BY SIGN(ID)

METHOD 2:

SELECT  NEGTIVE=COUNT(CASE WHEN ID<0 THEN 1 ELSE NULL END),
 POSTIVE=COUNT(CASE WHEN ID>0 THEN 1 ELSE NULL END)
FROM SIGNS


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HOW TO DELETE TWO NULL VALUES IN A TABLE

CREATE TABLE GGGG(ID VARCHAR(50))

INSERT INTO GGGG VALUES('A'),('B'),('C'),('D'),(NULL),(NULL),(NULL),(NULL)

SELECT * FROM  GGGG

;WITH X AS(SELECT ID,ROW_NUMBER() OVER(PARTITION BY ID ORDER BY ID) AS ROW_NO FROM GGGG)

---SELECT * FROM X

DELETE FROM X WHERE ID IS NULL AND ROW_NO IN(1,2)
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Wednesday, October 29, 2014

SUBQUERIES IN SQL SERVER

  • A QUERY IN THE WHERE CLASS IS A KNOWN AS SUBQUERY OR NESTED QUERY OR INNER QUERY
  • SUB QUERY WOULD BE EXECUTED FIRST ,THEN THE RESULT PASSED TO OUTER QUERY ,FINALLY OUTER QUERY WILL BE EXECUTED.
  • MAX 32 LEVELS OF NESTING IS ALLOWED IN SUBQUERY
SYNTAX:

                    SELECT COLUMN_NAME [, COLUMN_NAME 
                    FROM   TABLE1 [, TABLE2 ]
                    WHERE  COLUMN_NAME  [COPARISION_OPERATOR]
                    (SELECT COLUMN_NAME [, COLUMN_NAME ]
                     FROM TABLE1 [, TABLE2 ]
                     [WHERE])

---ABOVE BLUE COLOR CODE IS SUB QUERY OR "INNER QUERY"
----PURPLE  COLOR CODE IS 'OUTER QUERY'

  • SUBQUERIES CAN BE USED WITH THE SELECT, INSERT, UPDATE, AND DELETE STATEMENTS ALONG WITH THE OPERATORS LIKE =, <, >, >=, <=,  BETWEEN ETC.
COMPARISION OPERATOR:

"=,<,>,<=,>="      WHEN SUBQUERY RETURNS A SINGLE VALUE.(SINGLE COLUMN)
"="  ------ EQUALS
"<"---------LESS THAN
">"--------GREATER THAN
"<="------LESS THAN OR EQUAL TO
">="------GREATER THAN OR EQUAL TO
"< >"-----NOT EQUAL TO
"!="-----NOT EQUAL TO
"!<"----NOT LESS THAN
"!>"---NOT LESS THAN

THE RESULT OF A COMPARISON OPERATOR HAS THE BOOLEAN DATA TYPE. THIS HAS THREE VALUES: TRUE, FALSE, AND UNKNOWN. EXPRESSIONS THAT RETURN A BOOLEAN DATA TYPE ARE KNOWN AS BOOLEAN EXPRESSIONS.

 EXAMPLES:

SELECT * FROM EMP WHERE SAL= (SELECT MAX(SAL) FROM EMP)

SELECT * FROM EMP WHERE SAL= (SELECT MIN(SAL) FROM EMP)

SELECT * FROM EMP WHERE SAL>(SELECT MIN(SAL) FROM EMP)

SELECT * FROM EMP WHERE SAL<=(SELECT AVG(SAL) FROM EMP )

SELECT * FROM EMP WHERE SAL>=(SELECT AVG(SAL) FROM EMP)

TOP2 SAL:

SELECT * FROM EMP WHERE SAL=(
SELECT  MAX(SAL) FROM EMP  WHERE SAL<(SELECT MAX(SAL) FROM EMP))

TOP3 SAL

SELECT * FROM EMP WHERE SAL=(
SELECT MAX(SAL) FROM EMP  WHERE SAL<(SELECT MAX(SAL) FROM EMP
WHERE SAL<(SELECT MAX(SAL) FROM EMP)))

IN & NOT IN:  WHEN SUBQUERY RETURNS MULTIPLE VALUES.(SINGLE COLUMN)

TOP 2 SAL:

 SELECT  * FROM EMP WHERE  SAL=(   SELECT MIN(SAL) FROM EMP
                                       WHERE SAL IN(SELECT DISTINCT TOP 2 SAL FROM EMP))

TOP 3 SAL:

 SELECT  * FROM EMP WHERE  SAL=(   SELECT MIN(SAL) FROM EMP
                                       WHERE SAL IN(SELECT DISTINCT TOP 3 SAL FROM EMP))
  • IF THE VALUE OF TEST_EXPRESSION IS EQUAL TO ANY VALUE RETURNED BY SUBQUERY OR IS EQUAL TO ANY EXPRESSION FROM THE COMMA-SEPARATED LIST, THE RESULT VALUE IS TRUE;OTHERWISE, THE RESULT VALUE IS FALSE.
  • USING NOT IN NEGATES THE SUBQUERY VALUE OR EXPRESSION.
RISTRICTIONS IN SUB QUERIES:
  • SUBQUERIES MUST BE ENCLOSED WITHIN PARENTHESES.
  • A SUBQUERY MUST INCLUDE A SELECT CLAUSE AND A FROM CLAUSE
  • A SUBQUERY CAN INCLUDE OPTIONAL WHERE, GROUP BY, AND HAVING CLAUSES.
  • YOU CAN INCLUDE AN ORDER BY CLAUSE ONLY WHEN A TOP CLAUSE IS INCLUDED.
  • THE BETWEEN OPERATOR CANNOT BE USED WITH A SUBQUERY; HOWEVER, THE BETWEEN OPERATOR CAN BE USED WITHIN THE SUBQUERY.



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Tuesday, October 28, 2014

MERGE STATEMENT IN SQL SERVER

  • SQL MERGE STATEMENT WAS INTRODUCED IN SQL SERVER 2008.
  • MERGE PERFORMS INSERT, UPDATE, OR DELETE OPERATIONS ON A TARGET TABLE BASED ONTHE RESULTS OF A JOIN WITH A SOURCE TABLE.
       
  SYNTAX:
    
                  MERGE  <HINT>  [INTO]   <TARGET-TABLE_NAME>

                  USING <SOURCE_TABLE_VIEW_OR_QUERY>
                   ON (<CONDITION>)
                  WHEN MATCHED THEN <UPDATE_CLAUSE>
                  WHEN NOT MATCHED THEN <INSERT_CLAUSE>;


---CONDITION MATCHES UPDATE WILL PERFOM THAT PARTICULAR RECORD.
---CONDITION NOT MATCHED INSERT RECORD IN A TABLE
---DELETE IS A OPTINAL.WHEN WE DELETE IN MATCHED CONDITION.

IMPORTANT NOTES:
  •    SEMICOLON IS MANDATORY AFTER THE MERGE STATEMENT.
  • WHEN THERE IS A MATCH CLAUSE USED ALONG WITH SOME CONDITION, IT HAS TO BE SPECIFIED FIRST AMONGST ALL OTHER WHEN MATCH CLAUSE. 

USES:
   
  • USEFUL IN BOTH OLTP AND DATA WAREHOUSE ENVIRONMENTS 
          OLTP: MERGING RECENT INFORMATION FROM EXTERNAL SOURCE
            DW: INCREMENTAL UPDATES OF FACT, SLOWLY CHANGING DIMENSIONS.

EXAMPLES:

SOURCE TABLE:

CREATE TABLE STUDENT_DETAILS
(
       STU_ID INTEGER PRIMARY KEY,
       STU_NAME VARCHAR(15)
)

TARGET TABLE:


CREATE TABLE STUDENT_TOTAL_MARKS
(
      STU_ID INTEGER REFERENCES STUDENTDETAILS,
        STU_MARKS INTEGER
)

INSERT SOURCE TABLE DATA            INSERT TARGET TABLE DATA

STU_ID     STU_NAME                                             STU_ID    STU _MARKS   
    1                    SMITH                                                  1                   230
    2                    ALLEN                                                  2                   255
    3                     JONES                                                   3                  200
    4                   MARTIN
    5                    JAMES


In our example we will consider three main conditions while we merge this twotables.

     1.DELETE THE RECORDS WHOSE MARKS ARE MORE THAN 250.
     2.UPDATE MARKS AND ADD 25 TO EACH AS INTERNALS IF RECORDS EXIST.
      3.INSERT THE RECORDS IF RECORD DOES NOT EXISTS

MERGE  STUDENT_TOTAL_MARKS AS A
USING  (SELECT STU_ID,STU_NAME FROM STUDENT_DETAILS) AS B
ON A.STU_ID=B.STU_ID
WHEN MATCHED AND STU_MARKS>250 THEN DELETE
WHEN MATCHED THEN UPDATE  SET STU_MARKS=STU_MARKS+25
WHEN NOT MATCHED INSERT INTO (STU_ID,STU_MARKS)
VALUES(B.STU_ID,25);

OUTPUT:


IMPLEMENTING OUTPUT CLASS IN MERGE:
CREATE TABLE  BOOKINVENTORY  -- TARGET
(
  TITLEID INT NOT NULL PRIMARY KEY,
  TITLE NVARCHAR(100) NOT NULL,
  QUANTITY INT NOT NULL
    CONSTRAINT QUANTITY_DEFAULT_1 DEFAULT 0
);

CREATE TABLE   BOOKORDER  -- SOURCE
(
  TITLEID INT NOT NULL PRIMARY KEY,
  TITLE NVARCHAR(100) NOT NULL,
  QUANTITY INT NOT NULL
    CONSTRAINT QUANTITY_DEFAULT_2 DEFAULT 0
);
INSERT BOOKINVENTORY VALUES  (1, 'THE CATCHER IN THE RYE', 6),
                                                                       (2, 'PRIDE AND PREJUDICE', 3),
                                                                       (3, 'THE GREAT GATSBY', 0),
                                                                       (5, 'JANE EYRE', 0),
                                                                       (6, 'CATCH 22', 0),
                                                                       (8, 'SLAUGHTERHOUSE FIVE', 4);

INSERT BOOKORDER VALUES  (1, 'THE CATCHER IN THE RYE', 3),
                                                             (3, 'THE GREAT GATSBY', 0),
                                                             (4, 'GONE WITH THE WIND', 4),
                                                             (5, 'JANE EYRE', 5),
                                                             (7, 'AGE OF INNOCENCE', 8)


CAPTURE INSERT,UPDATE,DELETE:

DECLARE @MERGEOUTPUT TABLE
(
  ACTIONTYPE NVARCHAR(10),
  DELTITLEID INT,
  INSTITLEID INT,
  DELTITLE NVARCHAR(50),
  INSTITLE NVARCHAR(50),
  DELQUANTITY INT,
  INSQUANTITY INT
);

MERGE BOOKINVENTORY  AS  A
USING BOOKORDER AS B
ON BI.TITLEID = BO.TITLEID
WHEN MATCHED AND
  BI.QUANTITY + BO.QUANTITY = 0 THEN
  DELETE
WHEN MATCHED THEN
  UPDATE
  SET BI.QUANTITY = BI.QUANTITY + BO.QUANTITY
WHEN NOT MATCHED BY TARGET THEN
  INSERT (TITLEID, TITLE, QUANTITY)
  VALUES (BO.TITLEID, BO.TITLE,BO.QUANTITY)
WHEN NOT MATCHED BY SOURCE
  AND BI.QUANTITY = 0 THEN
  DELETE
OUTPUT
    $ACTION,
    DELETED.TITLEID,
    INSERTED.TITLEID,
    DELETED.TITLE,
    INSERTED.TITLE,
    DELETED.QUANTITY,
    INSERTED.QUANTITY
  INTO @MERGEOUTPUT;

SELECT * FROM BOOKINVENTORY;

SELECT * FROM @MERGEOUTPUT




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Sunday, October 26, 2014

OUTPUT PARAMETER IN SQL SERVER


  • OUTPUT PARAMETERS ARE NORMAL STORED PROCEDURE PARAMETERS THAT ARE MARKED WITH THE KEYWORD OUTPUT(OUT for short)
  • BESIDES USING INPUT PARAMETERS, STORED PROCEDURES CAN ALSO RETURN OUTPUT PARAMETERS AND RETURN VALUES. OUTPUT PARAMETERS BEHAVE SIMILARLY TO INPUT PARAMETERS, BUT HAVE TO BE DECLARED WITH THE OUTPUT KEYWORD.
  •   
  •   OUTPUT PARAMETERS ALLOWS YOU TO CAPTURE OUTPUT OF THE STORED PROCEDURE  IN  LOCAL VARIABLE
  •  OUTPUT CLAUSE RETURNS THE INFORMATION OF ALLTHE ROWS AFFECTED BY THE INSERT, DELETE,UPDATE& MERGE STATEMENTS 

EXAMPLES:

CREATE SAMPLE TABLE:

 CREATE  TABLE TBL_OUTPUT_CLAUSE(ID INT IDENTITY,NAME VARCHAR(30),GENDER VARCHAR(30),EMAIL VARCHAR(50))

DATA INSER INTO TABLE:

INSERT INTO TBL_OUTPUT_CLAUSE VALUES('BABJI','MALE','BABJI.REDDY1@GMAIL.COM')
INSERT INTO TBL_OUTPUT_CLAUSE VALUES('BHAVANI','FEMALE','BHAVANI.MM@GMAIL.COM')
INSERT INTO TBL_OUTPUT_CLAUSE VALUES('MANJU','MALE','MANJU.REDDY1@GMAIL.COM')
INSERT INTO TBL_OUTPUT_CLAUSE VALUES('BHARATH','MALE','BHARATHREDDY407@GMAIL.COM')
INSERT INTO TBL_OUTPUT_CLAUSE VALUES('LAKSHMI','FEMALE','LAKSHMI.REDDY1@GMAIL.COM')
INSERT INTO TBL_OUTPUT_CLAUSE VALUES('SWATHI','FEMALE','SWATHI.REDDY1@GMAIL.COM')
INSERT INTO TBL_OUTPUT_CLAUSE VALUES('JAIPAL','MALE','JAIPAL.REDDY1@GMAIL.COM')


             1. BY USING OUTPUT CLAUSE TO INSERT IDENTITY VALUE

 CREATE PROC USP_OUTPUT_CLAUSE(@ID INT OUT,@NAME VARCHAR(30),@GENDER VARCHAR(30),@EMAIL VARCHAR(50))
AS
BEGIN
      INSERT INTO TBL_OUTPUT_CLAUSE (NAME,GENDER,EMAIL)                                                 VALUES(@NAME,@GENDER,@EMAIL)

      SET @ID=@@IDENTITY

     SELECT * FROM TBL_OUTPUT_CLAUSE


END

   DECLARE LOCAL PARAMETER  WITH SAME DATATYPE 
               OF OUTPUT PARAMETER DATATYPE
DECLARE @OUT_ID INT

EXEC USP_OUTPUT_CLAUSE @ID=@OUT_ID OUT ,@NAME='NAVEEN',@GENDER='MALE',@EMAIL='NAVEEN.KUMAR@GMAIL.COM'

PRINT @OUT_ID

----OUTPUT: 8
2.COUNT  MALES AND FEMALE IN A TABLE BY USING OUTPUT PARAMETER
CREATE PROC USP_OUTPUT_CLAUSE1(@GENDER VARCHAR(30),@EMP_COUNT INT OUT)
AS
BEGIN
            SELECT @EMP_COUNT=COUNT(ID)  FROM  TBL_OUTPUT_CLAUSE  WHERE                         GENDER=@GENDER


END




  • FIRST INITIALISE A VARIABLE OF SAME DATATYPE AS THAT OF THE OUTPUT PARAMETER. HERE WE HAVE DECLARED @OUT_COUNT INTEGER VARIABLE.
  • THEN PASS THE @OUT_COUNT VARIABLE TO THE STORED PROCEDURE, YOU HAVE TO SPECIFY THE OUTPUT KEYWORD. IF YOU DON’T SPECIFY THE OUTPUT KEYWORD, THE VARIABLE WILL BE NULL.


DECLARE @OUT_COUNT  INT

EXEC USP_OUTPUT_CLAUSE @GENDER='MALE',@EMP_COUNT=@OUT_COUNT OUT

PRINT @OUT_COUNT

OUTPUT: 4
  • IF YOU DONT SPECIFY THE OUTPUT KEYWORD, WHILE EXECUTING THE STORED PROCEDURE, THE @OUT_COUNT VARIABLE WILL BE NULL. IN THE EXAMPLE BELOW, WE HAVE NOT SPECIFIED OUTPUT KEYWORD. SO WHILE EXECUTING THE STORED PROCEDURE, A MESSAGE OF @OUT_COUNT IS NULL IS PRINTED.

DECLARE @OUT_COUNT  INT

EXEC USP_OUTPUT_CLAUSE @GENDER='MALE',@EMP_COUNT=@OUT_COUNT OUT

IF (@OUT_COUNT IS NULL)

   PRINT '@OUT_COUNT IS NULL'
ELSE
   PRINT '@OUT_COUNT IS NOT NULL'

OUTPUT: @OUT_COUNT IS NOT NULL


             3. CAPTURE INSERT,DELETE ,UPDATE BY USING OUTPUT PARAMETER

 EX:

 CREATE TABLE QQ(ID INT,NAME VARCHAR(50),SAL MONEY)

INSERT INTO QQ VALUES(1,'BABJI',10000)
INSERT INTO QQ VALUES(2,'MANJU',5400)
INSERT INTO QQ VALUES(3,'KAMAL',2000)

SELECT * FROM QQ


CREATE TABLE LOG_QQ_INSERT (ID INT,NAME VARCHAR(50),SAL MONEY)
CREATE TABLE LOG_QQ_DELETE (ID INT,NAME VARCHAR(50),SAL MONEY)


SELECT * FROM LOG_QQ_DELETE
SELECT * FROM LOG_QQ_INSERT

CAPTURE INSERT LOG BY USING OUTPUT CLAUSE:
     

 INSERT INTO QQ (ID,NAME,SAL)
OUTPUT INSERTED.* INTO LOG_QQ_INSERT VALUES(4,'NAVEEN',3000)

                                        [OR]
 INSERT INTO QQ(ID,NAME,SAL)
OUTPUT INSERTED.ID,INSERTED.NAME,INSERTED.SAL INTO LOG_QQ_INSERT  VALUES(5,'NAVEEN',3000)


-BY USING TABLE VARIBLE WITH OUTPUT PARAMETER

 --------DECLARE @QQ_INSERTED TABLE VARIBLE

DECLARE  @QQ_INSERT TABLE(ID INT,NAME VARCHAR(50),SAL MONEY)

--------INSERT NEW ROW INT QQ TABLE

INSERT INTO QQ
OUTPUT INSERTED.* INTO @QQ_INSERT VALUES(6,'GGG',2999)

-------VIEW INSERTED ROW INTO QQ TABLE

SELECT * FROM QQ

-------VIEW THE OUTPUT ROW IN @QQ_INSERTED

SELECT * FROM @QQ_INSERTED


NOTE: WE RUN ABOVE 4 QUERIES AT A TIME

LINK:
https://www.simple-talk.com/sql/learn-sql-server/implementing-the-output-clause-in-sql-server-2008/



CAPTURE DELETE RECORDS BY USING OUT PARAMETER:
DELETE FROM QQ 

OUTPUT DELETED.* INTO LOG_QQQ_DELETE WHERE ID=2
                     
                                  [OR]

DELETE FROM QQ 

OUTPUT DELETED.ID,DELETED.NAME,DELETED.SAL INTO LOG_QQQ_DELETE WHERE ID=3


-BY USING TABLE VARIBLE WITH OUTPUT PARAMETER

 --------DECLARE @QQ_DELETED TABLE VARIBLE

DECLARE  @QQ_DELETED TABLE(ID INT,NAME VARCHAR(50),SAL MONEY)

--------INSERT NEW ROW INT QQ TABLE

DELETE FROM QQ 

OUTPUT DELETED.* INTO  @QQ_DELETED WHERE ID=2

-------VIEW DELETED ROW INTO QQ TABLE

SELECT * FROM QQ

-------VIEW THE OUTPUT ROW IN @QQ_DELETED

SELECT * FROM @QQ_DELETED
EX:
CREATE TABLE DBO.BOOKS
(
  BOOKID INT NOT NULL PRIMARY KEY,
  BOOKTITLE  NVARCHAR(50) NOT NULL,
  MODIFIEDDATE DATETIME NOT NULL
);
INSERT INTO BOOKS VALUES(1,'GVGHVS','07-17-1990')
INSERT INTO BOOKS VALUES(2,'GDGAS','07-07-1990')
INSERT INTO BOOKS VALUES(3,'BHVH','08-17-1990')


SELECT * FROM BOOKS

 DECLARE @DeleteOutput3 table
(
  BookID int,
  BookTitle nvarchar(50),
  ModifiedDate datetime
);

-- delete row in Books table
DELETE Books
OUTPUT
    DELETED.BookID,
    DELETED.BookTitle,
    DELETED.ModifiedDate
  INTO @DeleteOutput3
OUTPUT
    DELETED.BookID,
    DELETED.BookTitle
WHERE BookID = 1;

-- view updated row in Books table
SELECT * FROM Books;

-- view output row in @DeleteOutput3 variable

SELECT * FROM @DeleteOutput3;

CHECK OUTPUT:
CAPTURE UPDATE RECORDS BY USING OUTPUT PARAMETER:
---CAPTURE ONLY DELETE DATA

 UPDATE QQ SET NAME='JAIPAL',SAL=6777
OUTPUT DELETED.* INTO LOG_QQ_DELETE WHERE ID=1

 ----CAPTURE ONLY INSERT DATA

 UPDATE QQ SET NAME='JAIPAL',SAL=6777
OUTPUT INSERTED.* INTO LOG_QQ_DELETE WHERE ID=1

---CAPTURE DELETE AND INSERT DATA 

 CREATE TABLE QQ_DELETE_INSERT(ID INT,OLD_NAME  VARCHAR(50), NEW_NAME                                                                  VARCHAR(50),OLD_SAL MONEY,NEW_SAL MONEY)

UPDATE QQ SET NAME='JAIPAL',SAL=5000
OUTPUT  INSERTED.ID,
        DELETED.NAME,
         INSERTED.NAME,
         DELETED.SAL,
         INSERTED.SAL   INTO QQ_DELETE_INSERT  WHERE ID=1

CHECK:   SELECT * FROM QQ
                   SELECT * FROM QQ_DELETE_INSERT


 CREATE TABLE DBO.BOOKSS
(
  BOOKID INT NOT NULL PRIMARY KEY,
  BOOKTITLE NVARCHAR(50) NOT NULL,
  MODIFIEDDATE DATETIME NOT NULL
);
INSERT INTO BOOKSS VALUES(1,'BABJI','07-17-1990')
INSERT INTO BOOKSS VALUES(2,'MANJU','07-07-1990')
INSERT INTO BOOKSS VALUES(3,'KAMAL','08-17-1990')

SELECT * FROM BOOKSS


-- DECLARE @UPDATEOUTPUT1 TABLE VARIABLE

 DECLARE @UPDATEOUTPUT1 TABLE
(
  OLDBOOKID INT,
  NEWBOOKID INT,
  BOOKTITLE NVARCHAR(50),
  OLDMODIFIEDDATE DATETIME,
  NEWMODIFIEDDATE DATETIME
);

-- UPDATE ROW IN BOOKS TABLE

 UPDATE BOOKSS
SET
  BOOKID = 105,
  MODIFIEDDATE = GETDATE()
OUTPUT
    DELETED.BOOKID,
    INSERTED.BOOKID,
    INSERTED.BOOKTITLE,
    DELETED.MODIFIEDDATE,
    INSERTED.MODIFIEDDATE
  INTO @UPDATEOUTPUT1
WHERE BOOKTITLE = 'BABJI';

-- VIEW UPDATED ROW IN BOOKS TABLE

 SELECT * FROM BOOKSS;

-- VIEW OUTPUT ROW IN @UPDATEOUTPUT1 VARIABLE

 SELECT * FROM @UPDATEOUTPUT1;



example:

 -- DECLARE @UPDATEOUTPUT1 TABLE VARIABLE

 DECLARE @UPDATEOUTPUT2 TABLE
(
  OLDBOOKID INT,
  NEWBOOKID INT,
  BOOKTITLE NVARCHAR(50),
  OLDMODIFIEDDATE DATETIME,
  NEWMODIFIEDDATE DATETIME,
  DIFFINSECONDS INT
);

-- UPDATE ROW IN BOOKS TABLE

 UPDATE BOOKSS
SET
  BOOKID = BOOKID + 1,
  MODIFIEDDATE = GETDATE()
OUTPUT
    DELETED.BOOKID,
    INSERTED.BOOKID,
    INSERTED.BOOKTITLE,
    DELETED.MODIFIEDDATE,
    INSERTED.MODIFIEDDATE,
    DATEDIFF(SS, DELETED.MODIFIEDDATE, INSERTED.MODIFIEDDATE)
  INTO @UPDATEOUTPUT2
WHERE BOOKTITLE = 'KAMAL';

-- VIEW UPDATED ROW IN BOOKS TABLE

 SELECT * FROM BOOKSS;

-- VIEW OUTPUT ROW IN @UPDATEOUTPUT2 VARIABLE
SELECT * FROM @UPDATEOUTPUT2;
























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Saturday, October 25, 2014

TABLE VALUE PARAMETERS(TABLE TYPE) WITH EXAMPLE


  • Table-Valued Parameters is a new feature introduced in SQL SERVER 2008.
  •  In earlier versions of SQL SERVER it is not possible to pass a table variable in stored procedure as a parameter, but now in SQL SERVER 2008 we can use Table-Valued Parameter to send multiple rows of data to a stored procedure or a function without creating a temporary table or passing so many parameters.
  • scope is batch.

  • Table-valued parameters are declared using user-defined table types. To use a Table Valued Parameters we need follow steps shown below:

  1. Create a table type and define the table structure
  2. Declare a stored procedure that has a parameter of table type.
  3. Declare a table type variable and reference the table type.
  4. Using the INSERT statement and occupy the variable.
  5. We can now pass the variable to the procedure.

CREATE SAMPLE TABLE :

     

CREATE TABLE DEPARTMENT

(

      DEPARTMENTID  INT  PRIMARY KEY,

       DEPARTMENTNAME    VARCHAR(30)

)
GO

          1. CREATE A TABLE TYPE AND DEFINE THE TABLE STRUCTURE:

CREATE TYPE DEPTTYPE AS TABLE
(
        DEPTID INT, 
        DEPTNAME VARCHAR(30)
);
GO


   2.DECLARE A STORED PROCEDURE THAT HAS A PARAMETER OF TABLE TYPE:


CREATE PROCEDURE INSERTDEPARTMENT
 (@INSERTDEPT_TVP DEPTTYPE READONLY)
AS
BEGIN
              INSERT INTO DEPARTMENT(DEPARTMENTID,DEPARTMENTNAME)
              SELECT * FROM @INSERTDEPT_TVP;

END

NOTES:  
  •  Table-valued parameters must be passed as READONLY parameters to SQL routines. You cannot perform DML operations like UPDATE, DELETE, or INSERT on a table-valued parameter in the body of a routine.
  •   You cannot use a table-valued parameter as target of a SELECT INTO or INSERT EXEC statement. A table-valued parameter can be in the FROM clause of SELECT INTO or in the INSERT EXEC string or stored-procedure.
 3. DECLARE A TABLE TYPE VARIABLE AND REFERENCE THE TABLE TYPE.

DECLARE @DEPARTMENTTVP AS DEPTTYPE;

4. USING THE INSERT STATEMENT AND OCCUPY THE VARIABLE.


INSERT INTO @DEPARTMENTTVP(DEPTID,DEPTNAME)
VALUES (1,'ACCOUNTS'),
                 (2,'PURCHASE'),
                  (3,'SOFTWARE'),
                   (4,'STORES'),
                  (5,'MAARKETING');

5. WE CAN NOW PASS THE VARIABLE TO THE PROCEDURE AND EXECUTE.

EXEC INSERTDEPARTMENT  @DEPARTMENTTVP
GO

----WE EXEC 3,4,5 STEPS AT ATIME.

check  : select * from department 

ADVANTAGE:
                          Table-Valued Parameters is a new parameter type in SQL SERVER 2008 that provides efficient way of passing the table type variable than using the temporary table or passing so many parameters. It helps in using complex business logic in single routine. They reduce Round Trips to the server making the performance better.

EXAMPLES:

 BY USING TABLE VALUE PARAMETER INSERT ,DELETE ,UPDATE:
CREATE TABLE TBL_NAME1(ID INT,NAME VARCHAR(10),GENDER BIT,ADDRESS VARCHAR(10))

 CREATE TYPE TY_NAME1 AS TABLE (ID INT,NAME VARCHAR(10),GENDER BIT,ADDRESS VARCHAR(10),FLAG  INT)

 GO
CREATE PROC USP_NAME1 (@TY  TY_NAME1  READONLY)
AS
BEGIN
      INSERT INTO TBL_NAME1
      SELECT ID,NAME,GENDER,ADDRESS FROM @TY WHERE FLAG=0

   DELETE FROM TBL_NAME1 WHERE ID IN (SELECT ID FROM @TY WHERE FLAG=1)

      UPDATE TBL_NAME1   SET NAME=B.NAME,GENDER=B.GENDER,                                  ADDRESS=B.ADDRESS  FROM TBL_NAME1 A INNER JOIN @TY B   ON A.ID=B.ID
    WHERE FLAG=2

  DECLARE @TY TY_NAME1
 INSERT INTO  @TY  VALUES(1,'CC',0,'BNR',0)
 EXEC USP_NAME1 @TY

  DECLARE @TY TY_NAME1
 INSERT INTO  @TY  VALUES(1,'CC',0,'nnnn',1)
 EXEC USP_NAME1 @TY

  DECLARE @TY TY_NAME1
 INSERT INTO  @TY  VALUES(2,'CCC',0,'BNGR',2)
 EXEC USP_NAME1 @TY

 ----BASED ON FLAG VALUE INSERT,DELETE,UPDATE WILL PERFORM
ONLY CHECK: SELECT * FROM TBL_NAME1
LIMITATIONS OF TABLE VALUE PARAMETERS:

  • YOU CANNOT PASS TABLE-VALUED PARAMETERS TO CLR USER-DEFINED FUNCTIONS.
  •   TABLE-VALUED PARAMETERS CAN ONLY BE INDEXED TO SUPPORT UNIQUE OR PRIMARY KEY CONSTRAINTS.SQL SERVER DOES NOT MAINTAIN STATISTICS ON TABLE-VALUED PARAMETERS.
  •  TABLE-VALUED PARAMETERS ARE READ-ONLY IN TRANSACT-SQL CODE. YOU CANNOT UPDATE THE COLUMN VALUES IN THE ROWS OF A TABLE-VALUED PARAMETER AND YOU CANNOT INSERT OR DELETE ROWS. TO MODIFY THE DATA THAT IS PASSED TO A STORED PROCEDURE OR PARAMETERIZED STATEMENT IN TABLE-VALUED PARAMETER, YOU MUST INSERT THE DATA INTO A TEMPORARY TABLE OR INTO A TABLE VARIABLE.
  •       YOU CANNOT USE ALTER TABLE STATEMENTS TO MODIFY THE DESIGN OF TABLE-VALUED PARAMETERS
       










      
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Friday, October 24, 2014

FIND EACH LETTER ASCII VALUE IN A GIVEN STRING

                                                   SIMPLE WAY

DECLARE @STR VARCHAR(MAX)='' 
SET @STR='FHJDGFHJSGDFJVFHHBHJSDF'
 ---PRINT @STR
 DECLARE @LEN INT
 CREATE TABLE #TEMP(ID INT IDENTITY ,STR_POSI VARCHAR(10),ASCII_VALUE INT)
 
 SELECT @LEN=LEN(@STR)
 DECLARE @I INT=0
 WHILE (@I<=@LEN)
 BEGIN
 
 INSERT INTO #TEMP SELECT STR_POSI=SUBSTRING(@STR,@I,1),ASCII_VALUE=ASCII(SUBSTRING(@STR,@I,1))
 
 SET @I=@I+1
 
 END
SELECT * FROM #TEMP

                                      IN STORED PROCEDURE


CREATE PROC USP_ASCII_VALUE
AS
BEGIN
   
      DECLARE @I INT=0
      DECLARE @LEN INT
    CREATE TABLE #TEMP(ID INT IDENTITY ,STR_POSI VARCHAR(10),ASCII_VALUE INT)
 
 SELECT @LEN=LEN(@STR)

 WHILE (@I<=@LEN)
 BEGIN
 
 INSERT INTO #TEMP SELECT   STR_POSI=SUBSTRING(@STR,@I,1),                                                                                                 ASCII_VALUE=ASCII(SUBSTRING(@STR,@I,1))
 
 SET @I=@I+1
 
 END
 SELECT * FROM #TEMP

EXEC  USP_ASCII_VALUE @STR='GVFDYVYbdagrugeurgwelL'


                               BY USING CTE TO FIND ASCII VALUE


DECLARE @STR VARCHAR(8000);
SET @STR = 'QOTHOBNSLFDNOWEAVNIVMNQPWF';

;WITH
TENS      (N) AS (SELECT 0 UNION ALL SELECT 0 UNION ALL SELECT 0 UNION ALL 
                  SELECT 0 UNION ALL SELECT 0 UNION ALL SELECT 0 UNION ALL 
                  SELECT 0 UNION ALL SELECT 0 UNION ALL SELECT 0 UNION ALL SELECT 0),
THOUSANDS (N) AS (SELECT 1 FROM TENS T1 CROSS JOIN TENS T2 CROSS JOIN TENS T3),
MILLIONS  (N) AS (SELECT 1 FROM THOUSANDS T1 CROSS JOIN THOUSANDS T2),
TALLY     (N) AS (SELECT ROW_NUMBER() OVER (ORDER BY (SELECT 0)) FROM MILLIONS)
SELECT N, 
       LETTERASPOSITION = SUBSTRING(@STR, N, 1),
       ASCIIATPOSITION  = ASCII(SUBSTRING(@STR, N, 1))
  FROM TALLY 
 WHERE N <= DATALENGTH(@STR)
 ORDER BY N;



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PRINTING ASCII VALUES BY USING STORED PROCEDURES

ASCII VALUES: ASCII  VALUES RANGE FROM   "0 TO 255"

SPECIAL CHARACTERS: RENGE 32 TO 64  LIKE !,

 SMALL ALPHABETS: RANGE FROM 96 TO 122

 CAPITAL ALPHABETS:RANGE FROM 64 TO 90

CHAR( ):Converts an int ASCII code to a character..   
             
                  SYNTAX:  CHAR(integer-expression)
          
 EX: SELECT   CHAR(9)  ------TAB
         SELECT  CHAR(10) -----LINE FEED
          SELECT   CHAR(13)  ----CARRIAGE RETURN
          SELECT   CHAR(39)-----SINGLE COTATION

 --GENRALLY WE R USING THIS CHAR() FUNCTION S IN DYNAMIC SQL  CONCATINATION .

 ASCII( ): Returns the ASCII code value of the leftmost character of a character expression.

        SYNTAX:  ASCII(char_expression)

EX:SELECT ASCII(32) ------------51

                                   PRINTING ALL ASCII VALUES FROM 0 TO 255
CREATE PROC USP_PRINT_ALL_ASCII_VALUES
AS
BEGIN
    DECLARE @I INT=1
    DECLARE @N INT=@I+255

WHILE(@I<=@N)
BEGIN
     PRINT  CHAR (@I)
     SET @I=@I+1
END
END

EXEC USP_PRINT_ALL_ASCII_VALUES

--------ASCII VALUES IN SELECT LIST

 CREATE PROC USP_PRINT_ALL_ASCII_VALUES
AS
BEGIN
            DECLARE @I INT=1
             DECLARE @N INT=@I+255
             SELECT @N
WHILE(@I<=@N)
BEGIN
             SELECT   CHAR (@I) AS ASCII_VALUE,ASCII(@I) AS ASCII_CODE-VALUE
             SET @I=@I+1
END
END


                                    PRINTING ASCII SMALL ALPHABETES 
 CREATE PROC USP_PRINT_SMALL_ALPHA_ASCII_VALUES
AS
BEGIN
              DECLARE @I INT=97
              DECLARE @N INT=@I+25

WHILE(@I<=@N)
BEGIN
            PRINT  CHAR (@I)
            SET @I=@I+1
END
END


                                       PRINTING ASCII CAPITAL LETTERS


 CREATE PROC USP_PRINT_CAPITAL_ASCII_VALUES
AS
BEGIN
           DECLARE @I INT=65
           DECLARE @N INT=@I+25

WHILE(@I<=@N)
BEGIN
          PRINT  CHAR (@I)
           SET @I=@I+1
END
END


                                          PRINTING ASCII NUMBERS 0-9
CREATE PROC USP_PRINT_NUM_ASCII_VALUES
AS
BEGIN
           DECLARE @I INT=48
           DECLARE @N INT=@I+9

WHILE(@I<=@N)
BEGIN
           PRINT  CHAR (@I)
           SET @I=@I+1
END
END


                                  PRINT SPECIAL CHAR 'S ASCII VALUES
 CREATE PROC USP_PRINT_ALL_ASCII_VALUES
AS
BEGIN
    DECLARE @I INT=32
    DECLARE @N INT=@I+32

WHILE(@I<=@N)
BEGIN
     PRINT  CHAR (@I)
     SET @I=@I+1
END
END


                     




       







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Thursday, October 23, 2014

PALINDROME FORM TO GIVEN STRING BY USING STRING FUNCTIONS

DECLARE @STR VARCHAR(50)='BABJI'
DECLARE @LEN INT
DECLARE @A  INT=0
DECLARE @Q VARCHAR(30)=''
SELECT @LEN=LEN(@STR)

WHILE(@A<=@LEN)
BEGIN
          SELECT @Q=@Q+SUBSTRING(@STR,LEN(@STR)-@A,1)
       
         SET @A=@A+1
       
       
      END
         PRINT( @Q)

OUTPUT : IJBAB


BY USING STORED PROCEDURE TO GET PALINDROME FORM:


CREATE PROC USP_PALINDOM(@STR VARCHAR(30))
AS
BEGIN

          DECLARE @LEN INT
          DECLARE @A  INT=0
          DECLARE @Q VARCHAR(30)=''
          SELECT @LEN=LEN(@STR)

WHILE(@A<=@LEN)
BEGIN
           
              SELECT @Q=@Q+SUBSTRING(@STR,LEN(@STR)-@A,1)
       
               SET @A=@A+1
       
END
         PRINT( @Q)

END

EXEC USP_PALINDROME @SRT='BABJI'

OUTPUT: IJBAB

NOTE:  By using string function REVERSE (@STR) to get the palindrom form.

 SELECT REVERSE('BABJI')

OUTPUT:  IJBAB

GIVEN STRING IS PLINDROM OR NOT:
CREATE PROC USP_PALINDOM(@STR VARCHAR(30))
AS
BEGIN

          DECLARE @LEN INT
          DECLARE @A  INT=0
          DECLARE @Q VARCHAR(30)=''
          SELECT @LEN=LEN(@STR)

WHILE(@A<=@LEN)
BEGIN
         
              SELECT @Q=@Q+SUBSTRING(@STR,LEN(@STR)-@A,1)
     
               SET @A=@A+1
     
END
         PRINT( @Q)
         
              IF(@Q=@STR)
              BEGIN
                       
                            PRINT 'PALINDROME'
                            PRINT 'THANK YOU'
               END

               ELSE

                         PRINT 'NOT A PALINDROME'
                         PRINT 'THANK YOU'

END

EXEC USP_PALINDROME @SRT='BABJI'

OUTPUT:  IJBAB
                    NOT A PALINDROME
                     THANK YOU

EXEC USP_PALINDROME @SRT='MADAM'

OUTPUT: MADAM
                   PALINDROME
                   THANK YOU

  
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Wednesday, October 22, 2014

GETTING INSERT PROCEDURE TO ANY TABLE IN A DATABASE BY USING DYNAMIC SQL



CREATE  PROCEDURE USP_CREATEINSERTPROC (@TBLNAME VARCHAR(100))
AS
BEGIN
DECLARE @QRY NVARCHAR(MAX)=''

SET @QRY='CREATE PROCEDURE USP_INSERT_'+@TBLNAME+'('
SELECT @QRY=@QRY+'@'+COLUMN_NAME+' '+DATA_TYPE+CASE WHEN DATA_TYPE='VARCHAR' THEN '('+CAST(CHARACTER_MAXIMUM_LENGTH AS VARCHAR(100))+')' ELSE ''END
+',' FROM INFORMATION_SCHEMA.COLUMNS WHERE TABLE_NAME=@TBLNAME

SET @QRY=STUFF(@QRY,LEN(@QRY),1,'')+')'

SET @QRY=@QRY+CHAR(13)+'AS'+CHAR(13)+'BEGIN'

SET @QRY=@QRY+CHAR(13)+'INSERT INTO '+@TBLNAME +' VALUES ('
SELECT @QRY=@QRY+'@'+COLUMN_NAME+',' FROM INFORMATION_SCHEMA.COLUMNS WHERE TABLE_NAME=@TBLNAME

SET @QRY=STUFF(@QRY,LEN(@QRY),1,'')+')'

SET @QRY=@QRY+CHAR(13)+'END'
EXEC( @QRY)
END


EXEC USP_CREATEINSERTPROC 'DEPT'
-------SELECT         TABLE_NAME,COLUMN_NAME,DATA_TYPE,CHARACTER_MAXIMUM_LENGTH FROM INFORMATION_SCHEMA.COLUMNS WHERE TABLE_NAME='DEPT'

DROP PROCEDURE USP_INSERT_EMP

CREATE PROCEDURE USP_INSERT_EMP(@EMPNO NUMERIC,@ENAME VARCHAR(10),@JOB VARCHAR(9),@MGR NUMERIC,@HIREDATE DATETIME,@SAL NUMERIC,@COMM NUMERIC,@DEPTNO NUMERIC)
AS
BEGIN
INSERT INTO EMP VALUES (@EMPNO,@ENAME,@JOB,@MGR,@HIREDATE,@SAL,@COMM,@DEPTNO)
END

SELECT * FROM EMP
EXEC USP_INSERT_EMP 20,'RAM','TST',25,'1980-12-17 00:00:00.000',5000,NULL,50
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Tuesday, October 21, 2014

MATCHED DATA INSERTED INTO ANOTHER TABLE BY USING LOOP



CREATE PROC USP_LOOP
 AS
BEGIN

DECLARE @TBL_A TABLE(ID INT,NAME VARCHAR(10)) 
INSERT INTO @TBL_A VALUES(1,'A'),(2,'B'),(3,'C')
DECLARE @I INT,@X INT=1,@Y INT=1
SELECT @I=MAX(ID) FROM @TBL_A
DECLARE @TBL_B TABLE(ID INT,NAME VARCHAR(10))
INSERT INTO @TBL_B VALUES(1,'A'),(2,'B'),(3,'C')
DECLARE @J INT
SELECT @J=MAX(ID) FROM @TBL_B
DECLARE @TBL_C TABLE(ID INT,NAME VARCHAR(10))
DECLARE @NAME VARCHAR(10), @NAME1 VARCHAR(10)
WHILE(@X<=@I)
BEGIN
SELECT @NAME=NAME FROM @TBL_A WHERE ID=@X 
PRINT @NAME
WHILE(@Y<=@J)
BEGIN
SELECT @NAME1=NAME FROM @TBL_B WHERE ID=@Y 
    IF(@NAME=@NAME1)
BEGIN
INSERT INTO @TBL_C(ID,NAME) SELECT ID,NAME FROM @TBL_A WHERE ID=@X
BREAK
END
SET @Y=@Y+1
END
SET @Y=1
SET @X=@X+1
END
SELECT * FROM @TBL_A
SELECT * FROM @TBL_B
SELECT * FROM @TBL_C
END 


EXEC USP_LOOP


OTHER WAYS:

CREATE TABLE TBL_1(ID INT,NAME VARCHAR(30))

INSERT INTO TBL_1 VALUES(1,'A'),(2,'B'),(3,'C'),(4,'D'),(5,'E')

SELECT * FROM TBL_1

CREATE TABLE TBL_2(ID INT,NAME VARCHAR(30))

INSERT INTO TBL_2 VALUES(1,'AAA'),(2,'B'),(3,'CC'),(4,'D')

CREATE TABLE TBL_MATCH(ID INT,NAME VARCHAR(30))

-MATCHED DATA BY USING CTE

;WITH X AS(SELECT A.ID,B.NAME FROM TBL_1 A INNER JOIN TBL_2 B ON A.NAME=B.NAME AND A.ID=B.ID )
INSERT INTO TBL_MATCH SELECT * FROM X 

UNMATCHED DATA

SELECT V.ID,V.NAME FROM TBL_1  A INNER JOIN TBL_2  B ON A.NAME<>B.NAME

CREATE TABLE TBL_UNMATCH(ID INT,NAME VARCHAR(30))

MATCHED AND UNMATCHED DATA BY USING PROCEDURE

CREATE PROC USP_MAT
AS 
BEGIN
INSERT INTO TBL_MATCH   SELECT * FROM TBL_1
   INTERSECT
   SELECT * FROM TBL_2
   
   INSERT INTO TBL_UNMATCH   SELECT * FROM TBL_1
   EXCEPT
   SELECT * FROM TBL_2
   
   
   END
   EXEC USP_MAT 
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