Wednesday, October 11, 2017

Sargable Queries...

It has been a while since I wrote some of my best practices posts. I decided to revisit these posts again to see if anything has changed, I also wanted to see if I could add some additional info.

Today we are going to look at sargable queries. You might ask yourself, what is this weird term sargable. Sargable comes from searchable argument, sometimes also referred as Search ARGument ABLE. What that means is that the query will be able to use an index, a seek will be performed instead of a scan. In general any time you have a function wrapped around a column, an index won't be used


Some examples that are not sargable
WHERE LEFT(Name,1) = 'S'
WHERE Year(SomeDate) = 2012
WHERE OrderID * 3 = 33000


Those three should be rewritten like this in order to become sargable

WHERE Name LIKE 'S%'
WHERE SomeDate >= '20120101' AND SomeDate < '20130101'
WHERE OrderID = 33000/3


Let's create a table, insert some data so that we can look at the execution plan
Create this simple table

CREATE TABLE Test(SomeID varchar(100))


Let's insert some data that will start with a letter followed by some digits

INSERT Test
SELECT LEFT(v2.type,1) +RIGHT('0000' + CONVERT(varchar(4),v1.number),4) 
FROM master..spt_values v1
CROSS JOIN (SELECT DISTINCT LEFT(type,1) AS type 
FROM master..spt_values) v2
WHERE v1.type = 'p'


That insert should have generated 32768 rows


Now create this index on that table

CREATE CLUSTERED INDEX cx_test ON Test(SomeID)

Let's take a look at the execution plan, hit CTRL + M, this will add the execution plan once the query is done running

SELECT * FROM Test
WHERE SomeID LIKE 's%'

SELECT * FROM Test
WHERE LEFT(SomeID,1) = 's'

Here is what the plans looks like


As you can see it is 9% versus 91% between the two queries, that is a big difference
Hit CTRL + M again to disable the inclusion of the plan

Run this codeblock, it will give you the plans in a text format

SET SHOWPLAN_TEXT ON
GO

SELECT * FROM Test
WHERE SomeID LIKE 's%'

SELECT * FROM Test
WHERE LEFT(SomeID,1) = 's'
GO

SET SHOWPLAN_TEXT OFF
GO

Here are the two plans
|--Clustered Index Seek(OBJECT:([master].[dbo].[Test].[cx_test]),
SEEK:([master].[dbo].[Test].[SomeID] >= 'RĂ¾' AND [master].[dbo].[Test].[SomeID] < 'T'),
WHERE:([master].[dbo].[Test].[SomeID] like 's%') ORDERED FORWARD)
|--Clustered Index Scan(OBJECT:([master].[dbo].[Test].[cx_test]),
WHERE:(substring([master].[dbo].[Test].[SomeID],(1),(1))='s'))
As you can see the top one while looking more complicated is actually giving you a seek

Making a case sensitive search sargable

Now let's take a look at how we can make a case sensitive search sargable as well
In order to do a search and make it case sensitive, you have to have a case sensitive collation, if your table is not created with a case sensitive collation then you can supply it as part of the query
Here is an example to demonstrate what I mean


This is a simple table created without a collation

CREATE TABLE TempCase1 (Val CHAR(1))
INSERT TempCase1 VALUES('A')
INSERT TempCase1 VALUES('a')

Running this select statement will return both rows

SELECT * FROM TempCase1
WHERE Val = 'A' 

Val
-----
A
a

Now create the same kind of table but with a case sensitive collation


CREATE TABLE TempCase2 (Val CHAR(1) COLLATE SQL_Latin1_General_CP1_CS_AS)
INSERT TempCase2 VALUES('A')
INSERT TempCase2 VALUES('a')
Run the same query

SELECT * FROM TempCase2
WHERE Val = 'A' 

Val
-----
A


As you can see you only get the one row now that matches the case

To return both rows, you can supply the case insensitive collation in the query itself

SELECT * FROM TempCase1
WHERE Val = 'A' COLLATE SQL_Latin1_General_CP1_CI_AS


Val
-----
A
a


Now let's take a look at how we can make the case sensitive search sargable
First create this table and insert some data


CREATE TABLE TempCase (Val CHAR(1))
 
INSERT TempCase VALUES('A')
INSERT TempCase VALUES('B')
INSERT TempCase VALUES('C')
INSERT TempCase VALUES('D')
INSERT TempCase VALUES('E')
INSERT TempCase VALUES('F')
INSERT TempCase VALUES('G')
INSERT TempCase VALUES('H')


Now we will insert some lowercase characters

INSERT TempCase
SELECT LOWER(Val) FROM TempCase


Now we will create our real table which will have 65536 rows

CREATE TABLE CaseSensitiveSearch (Val VARCHAR(50))

We will do a couple of cross joins to generate the data for our queries

INSERT CaseSensitiveSearch
SELECT t1.val + t2.val + t3.val + t4.val
FROM TempCase t1
CROSS JOIN TempCase t2
CROSS JOIN TempCase t3
CROSS JOIN TempCase t4

Create an index on the table

CREATE INDEX IX_SearchVal ON CaseSensitiveSearch(Val)

Just like before, if we run this we will get back the exact value we passed in and also all the upper case and lower case variations

SELECT * FROM CaseSensitiveSearch
WHERE Val = 'ABCD' 

Here are the results of that query
Val
-----
AbCd
ABcd
Abcd
ABCd
aBCd
abCd
aBcd
abcd
abCD
aBcD
abcD
aBCD
ABCD
AbCD
ABcD
AbcD


If you add the case sensitive collation to the query, you will get only what matches your value

SELECT * FROM CaseSensitiveSearch
WHERE Val = 'ABCD' COLLATE SQL_Latin1_General_CP1_CS_AS

Here is the result, it maches what was passed in
Val
---
ABCD


The problem with the query above is that it will cause a scan. So what can we do, how can we make it perform better? It is simple... combine the two queries

First grab all case sensitive and case insensitive values and then after that filter out the case insensitive values
Here is what that query will look like

SELECT * FROM CaseSensitiveSearch
WHERE Val = 'ABCD' COLLATE SQL_Latin1_General_CP1_CS_AS
AND Val LIKE 'ABCD'

AND Val LIKE 'ABCD' will result in a seek, but now when it also does the Val = 'ABCD' COLLATE SQL_Latin1_General_CP1_CS_AS part, it only returns the row that matches your value

If you run both queries, you can look at the plan difference (hit CTRL + M so that the plan is included)

SELECT * FROM CaseSensitiveSearch
WHERE Val = 'ABCD' COLLATE SQL_Latin1_General_CP1_CS_AS



SELECT * FROM CaseSensitiveSearch
WHERE Val = 'ABCD' COLLATE SQL_Latin1_General_CP1_CS_AS
AND Val LIKE 'ABCD'

Here is the plan


As you can see, there is a big difference between the two
Here is the plan in text as well

SET SHOWPLAN_TEXT ON
GO
 
SELECT * FROM CaseSensitiveSearch
WHERE Val = 'ABCD' COLLATE SQL_Latin1_General_CP1_CS_AS



SELECT * FROM CaseSensitiveSearch
WHERE Val = 'ABCD' COLLATE SQL_Latin1_General_CP1_CS_AS
AND Val LIKE 'ABCD'

GO
 
SET SHOWPLAN_TEXT OFF
GO
|--Table Scan(OBJECT:([tempdb].[dbo].[CaseSensitiveSearch]),
WHERE:(CONVERT_IMPLICIT(varchar(50),[tempdb].[dbo].[CaseSensitiveSearch].[Val],0)=CONVERT(varchar(8000),[@1],0)))
|--Index Seek(OBJECT:([tempdb].[dbo].[CaseSensitiveSearch].[IX_SearchVal]), SEEK:([tempdb].[dbo].[CaseSensitiveSearch].[Val] >= 'ABCD'
AND [tempdb].[dbo].[CaseSensitiveSearch].[Val] <= 'ABCD'),
WHERE:(CONVERT_IMPLICIT(varchar(50),[tempdb].[dbo].[CaseSensitiveSearch].[Val],0)='ABCD' AND [tempdb].[dbo].[CaseSensitiveSearch].[Val] like 'ABCD') ORDERED FORWARD)

I really wish Microsoft would take the time to internally rewrite these two queries when it hits the optimizer


WHERE LEFT(Name,1) = 'S'
WHERE Year(SomeDate) = 2012



It should create these and then performance would be much better

WHERE Name LIKE 'S%'
WHERE SomeDate >= '20120101' AND SomeDate < '20130101'

I think there are probably some SQL Server consultants cursing me now for even trying to suggest this :-)

Thursday, October 05, 2017

Data types storage differences

It has been a while since I wrote some of my best practices posts. I decided to revisit these posts again to see if anything has changed, I also wanted to see if I could add some additional info.


Today we are going to take a look at how data types can have an impact in queries and also the size of your database.

Char vs NChar

SQL Server has two data types to store character data[1], both of them come in fixed and variable length sizes. The char and varchar data type uses one byte of store to store one character, the nchar and nvarchar data type uses two bytes of store to store one character. The nchar and nvarchar data types are used to store unicode of data
Let's think about that for a second, what we are saying is that the char and varchar data type can store twice the number of characters in the same amount of store as the nchar and nvarchar data type. Why does this matter, space is cheap right? True, space is getting cheaper but we are also storing more and more data every year.


Now think about what happens you have everything stored as unicode data
  • What happens to your backup and restore process, will it be faster or slower, will the files be bigger if not compressed?
  • What about when transferring the results to and from your database server, are the packets able to store the same number of characters.
  • What about the amount of data on a page, what does this do to indexes and index lookups, how does it affect index maintenance?

If you don't need it, then don't use unicode data.
Some examples of what I have seen stored in nchar and nvarchar when realy you shouldn't:
Zip Code for US addresses
US addresses
Social Security Numbers (which were stored in plain text none the less)
Integer data (enforced by constraints or the app layer to make sure these were only digits)



Let's take a quick look by running some T-SQL
First create these two tables


CREATE TABLE TestChar (SomeCol char(10))
GO

CREATE TABLE TestNChar (SomeCol nchar(10))
GO

CREATE index ix_test on TestChar(SomeCol)
GO
CREATE index ix_test on TestNChar(SomeCol)
GO
Now populate each with some data


INSERT TestChar
SELECT TOP 1000000 '1234567890'
FROM sys.sysobjects c1
CROSS JOIN sys.sysobjects c2
CROSS JOIN sys.sysobjects c3
CROSS JOIN sys.sysobjects c4
GO

INSERT TestNChar
SELECT TOP 1000000 '1234567890'
FROM sys.sysobjects c1
CROSS JOIN sys.sysobjects c2
CROSS JOIN sys.sysobjects c3
CROSS JOIN sys.sysobjects c4
GO
Let's see how much space is used by each tables

EXEC sp_spaceused 'TestChar'
EXEC sp_spaceused 'TestNChar'
42768 KB
62736 KB

If you looked at the reserved column, you will see that the nchar data is using about 20 MB more than the char data


Implicit conversions

Besides the storage increase there is also a problem when querying for data that looks like varchar but is stored as unicode. Run the code below.


SET SHOWPLAN_TEXT ON
GO
DECLARE @v varchar(10) = '0123456789'

SELECT * FROM TestChar WHERE SomeCol LIKE  @v +'%'
GO

SET SHOWPLAN_TEXT OFF
GO

Here is the plan for that query
  |--Nested Loops(Inner Join, OUTER REFERENCES:([Expr1008], [Expr1009], [Expr1010]))
       |--Compute Scalar(DEFINE:([Expr1008]=LikeRangeStart([@v]+'%'), [Expr1009]=LikeRangeEnd([@v]+'%'), [Expr1010]=LikeRangeInfo([@v]+'%')))
       |    |--Constant Scan
       |--Index Seek(OBJECT:([Performance].[dbo].[TestChar].[ix_test]), SEEK:([Performance].[dbo].[TestChar].[SomeCol] > [Expr1008] AND [Performance].[dbo].[TestChar].[SomeCol] < [Expr1009]),  WHERE:([Performance].[dbo].[TestChar].[SomeCol] like [@v]+'%') ORDERED FORWARD)
If we look at the plan we can see that this looks pretty good
Usually people will sometimes change the datatype of a column but will not change any code that access this column. Let's now change the data type of the column to nchar


DROP INDEX TestChar.ix_test
GO

ALTER TABLE TestChar ALTER COLUMN SomeCol nchar(10)
GO

CREATE INDEX ix_test on TestChar(SomeCol)
GO
Run the query that gives you the plan again



SET SHOWPLAN_TEXT ON
GO
DECLARE @v varchar(10) = '0123456789'

SELECT * FROM TestChar WHERE SomeCol LIKE  @v +'%'
GO

SET SHOWPLAN_TEXT OFF
GO

Here is the plan
  |--Nested Loops(Inner Join, OUTER REFERENCES:([Expr1008], [Expr1009], [Expr1010]))
       |--Compute Scalar(DEFINE:([Expr1008]=LikeRangeStart(CONVERT_IMPLICIT(nvarchar(11),[@v]+'%',0)), [Expr1009]=LikeRangeEnd(CONVERT_IMPLICIT(nvarchar(11),[@v]+'%',0)), [Expr1010]=LikeRangeInfo(CONVERT_IMPLICIT(nvarchar(11),[@v]+'%',0))))
       |    |--Constant Scan
       |--Index Seek(OBJECT:([Performance].[dbo].[TestChar].[ix_test]), SEEK:([Performance].[dbo].[TestChar].[SomeCol] > [Expr1008] AND [Performance].[dbo].[TestChar].[SomeCol] < [Expr1009]),  WHERE:([Performance].[dbo].[TestChar].[SomeCol] like CONVERT_IMPLICIT(nvarchar(11),[@v]+'%',0)) ORDERED FORWARD)
As you can see, there is a conversion going on right now.
In order to get rid of the conversion, use the correct data types



SET SHOWPLAN_TEXT ON
GO
DECLARE @v nvarchar(10) = '0123456789'

SELECT * FROM TestChar WHERE SomeCol LIKE  @v +'%'
GO

SET SHOWPLAN_TEXT OFF
GO

  |--Nested Loops(Inner Join, OUTER REFERENCES:([Expr1008], [Expr1009], [Expr1010]))
       |--Compute Scalar(DEFINE:([Expr1008]=LikeRangeStart([@v]+N'%'), [Expr1009]=LikeRangeEnd([@v]+N'%'), [Expr1010]=LikeRangeInfo([@v]+N'%')))
       |    |--Constant Scan
       |--Index Seek(OBJECT:([Performance].[dbo].[TestChar].[ix_test]), SEEK:([Performance].[dbo].[TestChar].[SomeCol] > [Expr1008] AND [Performance].[dbo].[TestChar].[SomeCol] < [Expr1009]),  WHERE:([Performance].[dbo].[TestChar].[SomeCol] like [@v]+N'%') ORDERED FORWARD)



Implicit conversions also were an issue when ORMs first burst onto the scene. If you used NHibernate or LINQ to SQL with .NET, since strings in .NET are unicode, all text would be sent over as unicode and you would see all kinds on conversions.


Using larger datatypes when it is not needed

I see this problem mostly with the integer data types. Below is a list of the integer data types together with their storage size and range


tinyint
Storage size is 1 byte. Integer data from 0 through 255.
smallint
Storage size is 2 bytes. Integer data from -2^15 (-32,768) through 2^15 - 1 (32,767).
int
Storage size is 4 bytes. Integer data from -2^31 (-2,147,483,648) through 2^31 - 1 (2,147,483,647).
bigint
Storage size is 8 bytes. Integer data from -2^63 (-9,223,372,036,854,775,808) through 2^63-1 (9,223,372,036,854,775,807).


Now imagine facebook with a billion users decided to use bigint as CountryID in their Country table, this key is then uses as a foreign key in the user demographics table. This is wasteful,either use a smallint since we won't go through 32 thousand countries in the foreseeable feature or use the 2 or 3 character ISO code. 

The problem is even worse if you have a compound 6 column key and it is used as a foreign key in tons of other tables...that was real fun to clean up....use a surrogate 1 column key in that case...but be sure to test....normalize till it hurts then denormalize till it works....I will cover normalization in another post...just wanted to mention it



[1] I know there is text and ntext but those are deprecated

Wednesday, October 04, 2017

Sizing database files

It has been a while since I wrote some of my best practices posts. I decided to revisit these posts again to see if anything has changed, I also wanted to see if I could add some additional info.

This post will demonstrate that there is a difference in performance if you don't size your database file accordingly. It is a good practice to have your database sized correctly for the next 6 to 12 months, you don't want your server wasting cycles with growing files all the time.

Figure out how big your files are now, figure out how much they will grow in the next year and size your files accordingly, check back every month or so to see if your estimates were correct.

By default SQL Server will create databases with very small files when you create a database and you don't specify the sizes. If you have people creating databases on your servers, consider adding a DDL trigger to notify you when a new DB is added so that you can talk to the database creator and size the files. You also can change the defaults on the server so that you don't have the 10% growth either.

First let's see what the difference is when we have a database where the files will have to grow versus one where the files are big enough for the data that will be inserted.
Here we are creating two databases, one with much bigger files than the other one


The TestBigger database is correctly sized for the data that will be inserted

CREATE DATABASE [TestBigger]
 ON  PRIMARY 
( NAME = N'TestBigger', FILENAME = N'f:\TempTestBigger.mdf' , 
SIZE = 509600KB , FILEGROWTH = 1024KB )
 LOG ON 
( NAME = N'TestBigger_log', FILENAME = N'f:\TempTestBigger_log.ldf' , 
SIZE = 502400KB , FILEGROWTH = 10%)
GO


The TestSmaller database is very small, files will have to be expanded many times to accommodate all the data I will be inserting

CREATE DATABASE [TestSmaller]
 ON  PRIMARY 
( NAME = N'TestSmaller', FILENAME = N'f:\TempTestSmaller.mdf' , 
SIZE = 5280KB , FILEGROWTH = 1024KB )
 LOG ON 
( NAME = N'TestSmaller_log', FILENAME = N'f:\TempTestSmaller_log.ldf' , 
SIZE = 504KB , FILEGROWTH = 10%)
GO



These two stored proc calls are just to verify that the files match with what we specified, you can use sp_helpdb to check the size of a database that you created when you don't specify the file sizes

EXEC sp_helpdb 'TestBigger'

name         filename             filegroup SIZE
TestBigger f:\TempTestBigger.mdf      PRIMARY 509632 KB
TestBigger_log f:\TempTestBigger_log.ldf NULL 502400 KB
EXEC sp_helpdb 'TestSmaller'

name         filename              filegroup SIZE
TestSmaller f:\TempTestSmaller.mdf      PRIMARY 5280 KB
TestSmaller_log f:\TempTestSmaller_log.ldf NULL  512 KB


Next, we are creating two identical tables, one in each database


USE TestSmaller
GO
CREATE TABLE test (SomeName VARCHAR(100), 
SomeID VARCHAR(36), SomeOtherID VARCHAR(100), SomeDate DATETIME)

USE TestBigger
GO
CREATE TABLE test (SomeName VARCHAR(100),
 SomeID VARCHAR(36), SomeOtherID VARCHAR(100), SomeDate DATETIME)

This query is just used so that the data is cached for the two inserts later on, this way the data doesn't have to be fetched from disk for either inserts, you can discard the results after the query is done

USE master
GO


SELECT TOP 1000000 c1.name,NEWID(),NEWID(),GETDATE() 
FROM sys.sysobjects c1
CROSS JOIN sys.sysobjects c2
CROSS JOIN sys.sysobjects c3
CROSS JOIN sys.sysobjects c4


Here is the first insert into the bigger database

INSERT TestBigger.dbo.test
SELECT TOP 1000000 c1.name,NEWID(),NEWID(),GETDATE() 
FROM sys.sysobjects c1
CROSS JOIN sys.sysobjects c2
CROSS JOIN sys.sysobjects c3
CROSS JOIN sys.sysobjects c4

Here is the second insert into the smaller database

INSERT TestSmaller.dbo.test
SELECT TOP 1000000 c1.name,NEWID(),NEWID(),GETDATE() 
FROM sys.sysobjects c1
CROSS JOIN sys.sysobjects c2
CROSS JOIN sys.sysobjects c3
CROSS JOIN sys.sysobjects c4


On several machines I tested on, it takes half the time or less to insert the data in the bigger database compared to the smaller database. On some machines it is almost 5 times faster to insert into the bigger database.

How about on your machine, do you see that the insert into the bigger database takes less than half the time it takes to insert into the smaller database?


Check the sizes of the databases again

EXEC sp_helpdb 'TestBigger'

name         filename            filegroup size
TestBigger f:\TempTestBigger.mdf      PRIMARY 509632 KB
TestBigger_log f:\TempTestBigger_log.ldf NULL 502400 KB
EXEC sp_helpdb 'TestSmaller'

name         filename              filegroup size
TestSmaller f:\TempTestSmaller.mdf      PRIMARY 215296 KB
TestSmaller_log f:\TempTestSmaller_log.ldf NULL 427392 KB




As you can see, the bigger database did not expand, the smaller database expanded a lot.


Autogrow
If you do use autogrow, then make sure you don't use the default 10%, take a look at this message
Date 10/03/2017 12:57:56 PM
Log SQL Server (Current - 11/25/2012 5:00:00 AM)
Source spid62
Message
Autogrow of file 'MyDB_Log' in database 'MyDB' took 104381 milliseconds. Consider using ALTER DATABASE to set a smaller FILEGROWTH for this file.
See that, it took a long time, you don't want to grow a one terabyte file by ten percent, that would be one hundred gigabytes, that is huge. Use something smaller and don't use percent, the bigger the file gets the longer it will take to expand the file.


File placement
Separate the log files from the data files by placing them on separate hard drives. Placing the files on separate drives allows I/O activity to occur at the same time for both the data and log files. Instead of having huge files consider having smaller files in separate filegroups. Put different tables used in the same join queries in different filegroups as well. This will improve performance, because of parallel disk I/O searching for joined data.

Put heavily accessed tables and the nonclustered indexes that belong to those tables on different filegroups. This will improve performance, because of parallel I/O if the files are located on different physical disks. Just remember that you can't separate the clustered indexes from the base table, you can only do this for non clustered indexes. Of course people can get very creative, I have worked with a database once where each table was placed in its own filegroups, there were hundreds of files....what a mess


Tempdb
There are all kinds of recommendations about how many data files you should have for tempdb. Start with 4 files and add more files if you see contention. Paul Randal, has a detailed post here: A SQL Server DBA myth a day: (12/30) tempdb should always have one data file per processor core.

If you can, place tempdb on its own physical drive as well, separated from the user databases.

Consider Solid State hard drives or flash storage for tempdb

See also http://support.microsoft.com/kb/2154845 for recommendations by Microsoft Customer Service and Support


Test, test, test
Never ever blindly follow what you read on the internet, make sure that you test it out first on a QA server before promoting the changes to production!!



Sunday, August 27, 2017

Why would anyone use a global temporary table?



SQL Azure has added something called database scoped global temporary tables.

Azure SQL Database supports global temporary tables that are also stored in tempdb and scoped to the database level. This means that global temporary tables are shared for all users’ sessions within the same Azure SQL database. User sessions from other Azure SQL databases cannot access global temporary tables.

They way you add these is by using a double pound sign

They way you create a database scoped global temporary table is like this

CREATE TABLE ##test ( a int, b int);

You are probably thinking...wait a minute, how is this different from a global temporary table? It is pretty much the same but on SQL Azure, it is scoped to the database level, while on prem it is scoped to the instance level


I was listening to the latest SQL Server Radio podcast and the hosts were talking about why anyone would ever need a global temporary table. Why not use a real table instead

I can come up with one answer....

Let's take a look

First create a database and then add a user who has read and write permissions


CREATE DATABASE Test
GO

CREATE LOGIN DenisTest   
    WITH PASSWORD = 'DenisTest', CHECK_EXPIRATION=OFF, CHECK_POLICY=OFF; 

USE Test
GO

CREATE USER DenisTest FOR LOGIN DenisTest;  
GO   

ALTER ROLE [db_datareader] ADD MEMBER DenisTest
GO
ALTER ROLE [db_datawriter] ADD MEMBER DenisTest
GO

Now, let say we want to run a query several times and store the results



USE Test
GO

SELECT name,type_desc,state_desc,size
FROM sys.database_files
WHERE name ='Test'

So I need a table to store the results right?
Let's try creating one......

CREATE TABLE SomeTable (name sysname,
type_desc nvarchar(120),
state_desc nvarchar(120),
size int)

Msg 262, Level 14, State 1, Line 8
CREATE TABLE permission denied in database 'Test'.

That is right, we don't have permissions

Now let's add a double pound sign in front of that table

CREATE TABLE ##SomeTable (name sysname,
type_desc nvarchar(120),
state_desc nvarchar(120),
size int)

And this works

Now we can insert into the table we just created

INSERT ##SomeTable
SELECT name,type_desc,state_desc,size
FROM sys.database_files
WHERE name ='Test'

Also, we can insert and select from other sessions.query windows as well

Of course if the server restarts, this table will be gone. However if you want to capture some query output and look at it, you don't have to wait for someone to give you ddl_admin permission, create the table for you or make you db_owner.


Now why everyone would need a temporary stored procedure...that is another story and I can't really think of a reason









Thursday, August 24, 2017

PASS tv has added a boatload of videos



While I was away on vacation in San Francisco,  I noticed that PASS tv has added dozens of videos to their YouTube channel. These videos were added 2 days ago. There should be something there for everyone interested in working with SQL Server as well as interested in presenting

There are videos by Kalen Delaney, Bob Ward, Buck Woody, Kendra Little and many more


You can find all the videos here: https://www.youtube.com/user/SQLPASSTV/videos


Sunday, August 06, 2017

I don't always use a RIGHT JOIN, but when I do, it's because I am lazy



Do you use RIGHT JOINs? I myself rarely use a RIGHT JOIN, I think in the last 17 years or so I have only used a RIGHT JOIN once or twice. I think that RIGHT JOINs confuse people who are new to databases, everything that you can do with a RIGHT JOIN, you can also do with a LEFT JOIN, you just have to flip the query around

So why did I use a RIGHT JOIN then?

Well the answer is in the image below



That is right..it was pure laziness, if you ever met a programmer, you will find out pretty quickly that programmers are pretty lazy. I guess lazy is not the right word to use here, it is better to call programmers efficient or people who don't want to reinvent the wheel.

So what actually happened? I was checking some data in a table, I already had written the following query

SELECT number 
FROM SomeTableWithIDs c

Now I just needed to see how many numbers were not used

So what did I do, I just continued below the query I already had, I ended up with this

SELECT number 
FROM SomeTableWithIDs c
RIGHT JOIN(SELECT number 
FROM master..spt_values 
WHERE type = 'p' 
AND number BETWEEN 0 and 255) x on c.SomeID = x.number
WHERE c.SomeID is null


Let's take a look at this again with some DDL and DML you can run

First create the following table, it has only one column, this column has a tinyint data type (don't ask why it is tinyint, this is the reason I had to take a look at how many unused IDs we had to begin with)

CREATE TABLE SomeTableWithIDs (SomeID tinyint not null )

ALTER TABLE SomeTableWithIDs
ADD CONSTRAINT PK_SomeTableWithIDs PRIMARY KEY CLUSTERED (SomeID)


Now that we have the table created, let's populate it with 250 rows

INSERT SomeTableWithIDs
SELECT TOP 250 ROW_NUMBER() OVER (ORDER BY s.ID)
FROM sys.sysobjects s
CROSS JOIN sys.sysobjects s2

Let's delete a couple of rows

DELETE SomeTableWithIDs WHERE SomeID IN (2,4,6,11)


Running the RIGHT JOIN query will give us the missing rows

SELECT number 
FROM SomeTableWithIDs c
RIGHT JOIN(SELECT number 
FROM master..spt_values 
WHERE type = 'p' 
AND number BETWEEN 0 and 255) x on c.SomeID = x.number
WHERE c.SomeID is null

Here is the output

0
2
4
6
11
251
252
253
254
255



Now you have to realize that this was just an ad-hoc query, if I were to put this in a proc or script, I would have done it like this

SELECT number 
FROM master..spt_values s
WHERE type = 'p' 
AND number BETWEEN 0 and 255
AND NOT EXISTS (SELECT SomeID 
   FROM SomeTableWithIDs c 
   WHERE c.SomeID = s.number)


That query is less confusing for beginners than a RIGHT JOIN



Wednesday, July 26, 2017

Why I am learning Python and why you might need to learn it as well


If you follow my non SQL Server blog, you might have noticed that I have been posting about Python lately. There are a couple of reasons for this


  • Python will be included alongside R in SQL Server 2017, I might need to support this in the future
  • Python is used more and more by the data science community
  • My youngest son is learning Python, in order to help him, I need to know it too


I already posted  several blog posts, here are some of these posts

Summer of code 2017: Python

I am not going to list all the posts here, you can find them by clicking on the Python label,  or by going to this link http://denisgobo.blogspot.com/search/label/Python

I must admit that after messing around with Python for a month or so that I actually like the language. I don't know why but it reminds me of classic VB in the same sense that ColdFusion reminded me of classic VB back in 2000/2001.  Maybe it is the luck of curly braces {}  :-)

Visual Studio is now also a top notch Python development tool, so if you are familiar with Visual Studio you can keep using the same tools.

Here is also a presentation about Python in SQL Server if you want to know a little more about the way it is integrated.



Are you going to learn Python or are you going to stay away as far as possible from it?

Thursday, July 13, 2017

SSMS: When did the query finish, when did the query start?



This is a quick post but it might be an item you can add to your Today I Learned list  :-)

Let's say you get to a SSMS query window and you see the following



You can tell it ran really fast and you can tell that 26080 rows were affected.  Can you tell when it started and when it finished?

Yes, you can!!!

Hit the F4 button or select View-->Properties Window from the menu bar

Here is what I see



As you can see there are a bunch of properties about the query

For example

Start time: 7/13/2017 9:58:01 AM
Finish time: 7/13/2017 9:58:02 AM
Elapsed time: 00:00:00.766


There you have it, a quick and easy way to tell when something ran in your query windows

Monday, July 10, 2017

T-SQL Tuesday #92, Lessons learned the hard way

This month's T-SQL Tuesday is hosted by Raul Gonzalez, he proposed the following:  For this month, I want you peers to write about those important lessons that you learned the hard way, for instance something you did and put your systems down or maybe something you didn’t do and took your systems down. It can be also a bad decision you or someone else took back in the day and you’re still paying for it…

There are so many things to share here so everybody can learn from each others mistakes, because all of us were once a beginner and no one is born with any knowledge about SQL Server.

Please do not be ashamed of sharing your experiences, you can anonymize the whole story if you want but remember all people make mistakes, the important is to learn from them and try not to repeat them in the future.


Before we start, do you ever wonder why in job postings they ask for a minimum of n years of experience? Well what is experience but the accumulation of mistakes you have made over time. Once you drop a table, I guarantee you, you won't do it again  :-)  So when they ask for n years of experience what they are saying is.... hey I know you messed up, and I know you did it somewhere else and not here, we are glad you did it somewhere else,  but I think you won't make those mistakes again, so we are willing to hire you now.....



So here are my stories

Script out proc with drop dependent object

I still remember this one,  even though it has been over 15 years ago. In Enterprise Manager/ Query Analyzer on SQL Server 7, when scripting out a proc there was an option you could check, this was the drop dependent objects option. Somehow that was checked and the table used in the proc was also dropped
I don't have Query Analyzer installed anywhere but even in SSMS there is an option to script the dependent objects...luckily the default is false..



So I got a nice call from one of the New York City agencies that data wasn't there. I was just about to start my lunch. I lost my appetite real quick. SO what I did was take a full backup and then did a restore with stop at to 2 minutes before I dropped the table. This worked and all the data was there. I however lost my appetite and did not eat my lunch that day. But I can tell you that I have never dropped a table again.




Script out table to make history table

This is one of my favorite lessons, lucky for me a co-worker managed to do this
We needed a history table, this table would be populated each month with the current data, the main table then would be cleaned and repopulated via a DTS package. So what do you do? You script out the current table, change the table name and run the script right? Seems easy enough.....

So this was done....  an hour or 2 passes and we get a call that the original table doesn't exist.

What happened?  Well the script had a drop table and a create table part, the table name change was only done in the create part...ooops.... not good



Staging server, test server..what's that?

I worked in at least 2 companies that did not have any test/staging or QA environment. need a change..right click DTS package right on production, make changes and save.... how productive people were.....  I am still amazed that nobody did any real bad things... But I believe we did use source control, but it was Visual SourceSafe 6.0




Start transaction... walk away casually

One time I had a query window open in SSMS and there was an insert or update statement and nothing else.  hit F5 and casually walked away. After a couple of minutes some people told me things started to take a long time and timing out.  Alright I executed sp_who2 and saw a SID in the BlkBy column in many rows. Ready to go find the person and give this person a nice lecture, I noticed that the SPID was mine?  WTF, I looked at my query window..nothing. I then scrolled up and as you can guess by now there was a nice BEGIN TRANSACTION statement at the first line....  Argh... so I commited the thing and that was the end of that. At least I didn't go home for the day yet.




Insert SELECT after DELETE and before WHERE clause

Sometimes, you have code like this

DELETE Sometable
WHERE a= b

you want to see what that will affect, so you do this and run the bottom 2 lines

DELETE Sometable
SELECT * FROM Sometable
WHERE a= b

Of course if you leave it like that, for example in a SQL Agent job, you will learn the hard way that all your data is gone, not just the stuff that the WHERE clause applies to


Use SQL to bring down other things in the company
The request was that support wanted to know immediately when an order was placed. No problem, we can add a trigger that populates a table and then we have a job that runs once a minute to email the support group. Sounds reasonable right? Someone decided to do a little testing.... this person created 100,000 entries.... I guess you can imagine what happens next. Yep, the email server was overloaded. We had to quickly delete these rows and truncate the table that was used to send the emails.


Change the user without telling anyone
Another one brought to you by a co-worker. This person needed some stored procedures to be deployed to production. No problem, put in ticket and we will get it done. So stored procedures were deployed and the front end code was getting some errors. It turns out that this person decided to create a new user and use that instead of the user used in all the other connection strings. At least this was easy to fix

I will leave you with this horror story from the microsoft.public.sqlserver newsgroup, I tried to find this thread but I was unable to find it.

Some person tried to do a backup but this person got confused and somehow managed to do a restore from the only backup they had, this backup was 1 year old.  The advice this person got? Update resume.

Not good, not good at all