Something about NULL in SQL Server

August 10th, 2010

As developers, we all probably know what a NULL is in SQL Server. NULL is not a specific value but it stands for UNKNOWN value. In other words, NULL represents the ‘absence of data’.

The behavior and treatment of NULL in SQL server is very interesting in different context and part of T-SQL language. Let’s have a quick look on how it is treated in different ways by SQL Server.

When you use NULL (UNKNOWN value) in Arithmetic operations or in String Concatenation operations, the result is always UNKNOWN because the value which is being operated is not available or UNKNOWN. So, all the following statements yield the result of NULL:

SELECT 5 + NULL
SELECT 10 / NULL
SELECT 'Gateway' + ' Technolabs' + NULL

So beware when you are trying to do something similar as shown below:

DECLARE @TOP INT
DECLARE @SQL NVARCHAR(100)
SET @SQL = 'SELECT TOP ' + CAST(@TOP AS VARCHAR(10)) + '* FROM HumanResources.Employee'
EXECUTE SP_EXECUTESQL @SQL

The above query will never execute. Guess why?  Because you forgot to initialize @TOP variable and due to that it will contain NULL. So when you try to concatenate the value of @TOP with the value of @SQL, the resulting query is UNKNOWN.

Unlike other programming languages, SQL Server follows the rules of “Three-Valued Logic” which means that the result of a condition in T-SQL can have any of three possible values viz. TRUE, FALSE and UNKNOWN. If NULL is one of the operands in condition composed of comparison operators like =,>,<,>=,<=,<>, then the result of the expression is NULL or UNKNOWN.  For example, the result of all of the following conditions is UNKNOWN:

… WHERE 100 = NULL

… WHERE NULL > 5

… WHERE NULL < 10

Even following statement yields NULL as per SQL-92 Standards:

… WHERE NULL = NULL

Let’s create a simple table and insert some records in it.

CREATE TABLE tblPerson
(
PersonID INT
,PersonName VARCHAR(50)
,Age TINYINT
)
GO
INSERT INTO tblPerson
SELECT 1,'Person-1',25
UNION
SELECT 2,'Person-2',NULL
UNION
SELECT 3,'Person-3',35

We have a table which contains three rows.  The second row has NULL in Age for Person-2. Now, execute the following query:

SET ANSI_NULLS OFF
SELECT * FROM tblPerson WHERE Age = NULL

The above query will return 1 row for Person-2. Notice the use of SET ANSI_NULLS OFF which is not recommended way because it does not conform to SQL-92 standards. Microsoft encourages the usage of SET ANSI_NULLS ON which is considered best practice and which is also the default behavior of SQL Server. Now, consider following query:

SET ANSI_NULLS ON
SELECT * FROM tblPerson WHERE Age = NULL

The result of the condition in WHERE clause in above query will be UNKNOWN. It is neither TRUE nor FALSE. But, in this case SQL server treats NULL as if “NOT EQUAL TO” and evaluates the result of the condition to FALSE and will not return any rows. Note the use of SET ANSI_NULLS ON, which is SQL Server default.

If you want to fetch rows where Age is NULL, you should use ‘IS’ operator with ANSI_NULLS set to ON instead of using ‘=’ operator with ANSI_NULLS set to OFF. So, the preferred query should be as follows:

SET ANSI_NULLS ON
SELECT * FROM tblPerson WHERE Age IS NULL

As you can observe from above examples that using comparison operators (=,<,>,>=,<=,<>) in condition with NULL as one of its operands appearing in WHERE clause yields UNKNOWN result when you don’t specify ANSI_NULLS option or if it is set to ON.

But this is not the case when NULL appears in condition for a CHECK constraint. To see this, let’s add a CHECK constraint to our table so that age must be greater than zero when a record is inserted or updated.

ALTER TABLE tblPerson
ADD CONSTRAINT CK_tblPerson_Age CHECK (Age &gt; 0)

Now, add new row with NULL in Age as shown below:

INSERT INTO tblPerson VALUES (4,'Person-4',NULL)

The age for newly inserted row is NULL which is not greater than zero because it is UNKNOWN. But, SQL Server treats NULL differently in this case and evaluates the CHECK constraint condition as if it is TRUE and inserts new row to the table.

You saw that the condition WHERE NULL=NULL yields NULL because both the values are UNKNOWN and due to this comparison is not possible. Thus, the result will always be UNKNOWN. But again, this is not always the case. To prove my point, let’s add a UNIQUE constraint on PersonID column.

ALTER TABLE tblPerson
ADD CONSTRAINT UK_tblPerson_Age UNIQUE (PersonID)

Now insert a new row where PersonID is NULL as shown below:

INSERT INTO tblPerson VALUES (NULL,’Person-5′,30)

Because PersonID column allows NULL values, SQL Server will insert this new row. Now, try inserting one more row where PersonID is NULL:

INSERT INTO tblPerson VALUES (NULL,'Person-6',35)

As you may probably have guessed, because of UNIQUE constraint on PersonID SQL Server will not allow inserting another row with NULL for PersonID because tblPerson already contains one row with NULL in PersonID column. In this case, SQL server treats NULL even differently and considers all NULLs as if they are equal and does not allow a second NULL to be inserted. Even when SQL Server groups or orders rows by a column, it considers all the NULLs in one group as if they are all equal.

I hope this discussion will help many of you in understanding the behavior of NULL in SQL Server. Thank you for taking time to read this article. Readers’ valuable comments are always welcome!

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5 Performance Enhancement Tips for LINQ Coupled With MSSQL Server

July 27th, 2010

LINQ is one of the most exciting enhancements made in the Microsoft.NET languages in the recent years.

Essentially, it’s a new way to represent different data models in OOPs notation.

While working extensively with LINQ in last couple of years on mission critical .NET projects, I’ve observed the following five performance enhancement possibilities.

1. Lazy Loading & Eager Loading

Lazy Loading:

By default LINQ loads the related objects lazily. Lazy loading means Loading Object with that associate Objects.

For example, If I have two tables called User (UserId, Name) and User_Car  (UserId, CarID, CarBrand), whenever we initiate a User object, it will automatically load User_Car object details also as shown in the code below.

var userObj = from user in DataContext.User
              Select user;

The above query returns the User Object with the details of associate object of User_Car.  E.g.

Int carId= userObj.User_Car.CarID;

The above statement will fire two queries on database.

First one will be fired when we write query on User Object. E.g.

var userObj = from user in datacontext.User
              Select user;
(Select ID, Name from User)

And second query will fired when we try getting the value from User_Car object.

E.g

Int carId=userObj.User_Car.CarID;
(Select User_Car.CarID, User_Car.User_ID, User_Car.CarBrand
from User_Car where User_Car. User_ID =@userID)

This leads to more round trips to the database. Instead, we can opt for Eager loading.

Eager Loading:

Defining associate Objects  which are require in advance.So when LINQ execute query then it fetch only that objects.And LINQ fire a single on database.

For Example,

DataContext dc= new DataContext ();
DataLoadOptions options = new DataLoadOptions ();
option.Loadwidth<User> (U => U.User_Car)
dc.LoadOptions = options;

(Here, User_Car object as pre-fetch object. So when we write query on User Object then automatically User_car records get fetch.)

e.g

var userObj = from user in DataContext.User
               Select user;

SQL Query is,

(Select User.ID, User.Name, User_Car.CarID, User_Car.User_ID,
User_Car.CarBrand from User join User_Car on
User.ID=User_Car.User_ID)

And when we write

Int carId= userObj.User_Car.CarID

It fetches the record from memory only. So Eager Loading reduce the Database round Trips and Improve the performance.

2. Use DataLoadOption.AssociateWith ()

In Eager Loading, When association of Master object and child object are based on non PrimaryKey then use DataLoadOption.AssociateWith (). It will optimize SQL query and give better Performance.

3.Set ObjectTrackingEnabled = False

LINQ objects are use only for data retrieval (No insert, update, delete operations are required) then make this flag off.It will avoid Identity Field(Auto-Increment Field) management process.

4. Set Delay Loaded = True

Field which is not in use or huge in size of contain for particular object then set this property as True.So we access the field then only data get  load.

5. Use Compiled Query

Compiled Query skip the steps of  generating Expression Tree and generating SQL Query  of Process Life Cycle.When First time query get executed, the expression tree and SQL query is generated and next time system will use same for execution.

e.g

Public static Func<DataContext, int, IQueryable<User>>
    UserByID=
	    CompiledQuery.Compile ((DataContext db, int UserID) =>
            From U in db.User where U.ID == UserID select U);

When we call Function first time the expression tree and SQL query will be generate and next time system will use the same to execute query on database.

After applying one or more of the above tips, a LINQ application will definitely perform better and thus will ensure faster response times to business needs.

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8 things about jQuery which makes it a powerful tool to write rich client side scripting

July 22nd, 2010

For whom the client side scripting becomes a headache OR for those who loves client side scripting… jQuery is a great way of doing client side scripting with ease and fun. Playing with HTML DOM elements using jQuery is really a fun and as easy as writing ABCD :)

Introduction: jQuery is actually an Open Source cross-browser JavaScript library which allows faster and easier JavaScript development then the traditional JavaScript development.

There are 8 things which gives power to the developers for building robust and excellent client side scripts.

1 – Cross browser support :
Those who have ever written traditional JavaScript, they must have faced problems with diff. browser support and it becomes a tedious stuff for detecting browser behaviors and writing separate logics for all , but jQuery has wiped out all those problem by giving cross browser support. So no more cross-browsing compatibility issues here.

2 – jQuery selectors , manipulation & Traversing
Every web developers must have used CSS and its syntax for defining styles by class (with DOT) / elements  / element ID (using #), jQuery also uses all common CSS syntax for selecting a set of DOM elements which is called jQuery Selectors.

i.e. $(“#sample”)  will return all the DOM elements with [ ID = sample ]
$(“div.xyz span#abc”) will return only those <span> elements with ID= abc and are child of a <div> with class name “xyz”

To learn more you can visit : http://api.jquery.com/category/selectors/

3 – jQuery EventBinding
jQuery supports all such events like click ,mouse over/move,load, etc. Writing event on any set of DOM elements are also becomes easier with JQ, by just passing a function as a parameter in event binding.
its as easy as this : $(“#sample”).click(function(){ alert(‘Hi there !’); });
To learn more you can visit : http://api.jquery.com/category/events/

4 – Callback functions
jQuery also facilitates the callback functions in many methods which becomes useful while working with animations or any timer based functionalities.

i.e.  $(“#sample”).show(“slow”, [ optional callback function ] );

5 – Utilization of JSON
JSON stands for “JavaScript object notation”. Use of JSON everywhere as an optional parameters makes jQuery more flexible and powerful for passing a set of parameters.
Jquery utilizes JSON format widely in most of inbuilt functions ,all AJAX methods and in jQuery plug-in development as well.

i.e.  $(“#sample”).css({height:”40px”, color:”black” });

6 – jQuery AJAX
jQuery gives a variety of AJAX functionalities to the developers with extensive use of callbacks for different AJAX events, and a good thing about jQuery AJAX is that we don’t have to take care about cross-browser compatibility issues. and no need to take care of xmlHTTP object n all.
It gives different functions for all kind of developer’s needs

i.e. $(“#sample”).load( [ URL] ); – a very basic function, which will load the HTML from the specified URL into #sample.

To learn more visit : http://api.jquery.com/category/ajax/

7 – jQuery plugins
jQuery plug-in is a concept or we can say a mechanism of making our own functionality generalized by packaging it all together as a plug-in.
jQuery plug-in offers great portability to the code and of course code re-usability with ease.

To learn more visit : http://docs.jquery.com/Tutorials:Getting_Started_with_jQuery#Plug_me:_Writing_your_own_plugins

8 – JQuery UI
jQuery UI is an Open Source library which is built on core jQuery.
It can be used to built highly interactive web applications,
jQuery UI offers a wide range of inbuilt functions for animations, effects , themes mechanism , rich  UI widgets and complex behaviors like Drag-Drop , resizing , selection & sorting.

  • jQuery UI categorizes all functionalities in main 3 section given below
    • Interaction: Covers complex behaviors like Drag-Drop elements, Resizing and Sorting. And provides a wide range of options for handling different behaviors and scenarios
    • Widgets: Fully functional rich UI elements (ultimately jQuery plug-ins) with a Rich User Interface and flexible theming options.
    • Effects: Enables supports of various animation and transition effects like slide,blind,bounce, drop,fade etc.

To learn more visit : http://jqueryui.com/demos/

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The Template Method Pattern

July 19th, 2010

The Template Pattern uses the inheritance beautifully to take advantage of code reuse. No composition is used because of the strict nature of the circumstances where this pattern should be used. The subclasses are bound to implement the abstract behavior of superclass and give the implementation in their own way and yet the sequence of algorithm is made unchangeable by making the method, of superclass which has the algorithm, final.

Definition: Defines the skeleton of an algorithm in a method, deferring some steps to subclasses. Template Method lets subclasses redefine certain steps of an algorithm without changing the algorithm’s structure.

When to use it: When you have a fixed algorithm to execute from a superclass and which must not be changed in sequence but should behave differently in subclass specific way then its good to use this pattern for

  1. Integrity reason of the algorithm’s sequence.
  2. Code reuse, if there are many subclasses which all depend on superclass implementation of certain functions which are of similar nature.

How to use it: Superclass will have certain methods, whose implementation is given by superclass itself and some methods which are defined as abstract, and thus, must be implemented by the subclasses. In this pattern, a superclass will define a method, which has a fixed sequence in calling some methods, we call it template method or an algorithm. Define this template method as final in superclass so that, subclasses can not change the sequence of algorithm and still contribute subclass-specific way by giving their own implementation of abstract methods. So the client will call the final method of subclass, inherited from superclass, and get the implementation of the algorithm in the subclass-specific way.

Example: The diagram 1.1 shows the initial design, where two different classes has an algorithm which has same sequence of methods but each having its implementation of those methods in their own way. Here, the same code is scattered across the classes.

Diagram 1.1

The diagram 1.2 shows the Template Method Pattern, where we take out the common behavior of subclasses into superclass creating a common point of change which will reflect to all the subclasses. We define the subclass-specific methods in superclass as abstract thus making mandatory for subclass to give implementation. Also, we create a new method, Template Method(on which the name is given to this pattern), by calling the methods in the sequence by which we want our common algorithm to be executed. And , defining it as final so that we are sure that no subclass can change the sequence and just give its own implementation.

Diagram 1.2

Conclusion: To conclude, the sequence,which must be same throughout the subclasses, is defined by the superclass and some part of the algorithm is executed by subclasses .Such design is a very good example of secure algorithm ensuring fixed sequence but with added touch of subclasses who give their own implementation.

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