Lecture 14 C new

Introduction to Databases - DB Processing: The

Disconnected Model (Using DataAdapters, DataSets, and

DataTables)

By Chris Pascucci and FLF

The Disconnected Architecture – Data Sets

ADO.NET provides classes that are used to create applications that utilize a database.

You can create instances of these classes and use them in your application to manage and use database connections.

To use these classes in the .NET Framework you must import the namespace System.Data that contains all these useful classes.

When working in the disconnected mode the data retrieved from a database and utilized by your program is stored in a DataSet.

The DataSet contains one or more DataTables. Data in the DataSet is independent of the database that was

used to retrieve it. A data set can contain the result of multiple queries The connection to the database is typically closed after data

is retrieved. The connection is opened again when it’s needed.

ADO.NET – The Data Adapter

DataAdapter: Manages the exchange of data between the DataSet and a

database. It issues an SQL Command (Select, Insert, Update or Delete)

that is stored in the Command object. The Command object uses a Connection object to connect to

the database and retrieve or update the data. The data is transferred back to the DataAdapter, which then

stores it in a DataSet that can be used by the application. Note carefully – everything we manipulate is an object

ADO.NET Explained (skip this slide)

Data Adapters - how the process works

.NET data providerDataset

Data adapterData table

Command

Connection

Database server

Database

ADO.NET Explained (skip this slide)

The DataSet Object Model:

ADO.NET Explained (skip)

The DataSet Object Model:

Dataset

Data table

Data column

Data row

Constraint

Data relation

ADO.NET Explained

An ADO.NET DataProvider connects to a data source such as SQL Server, Oracle, or an OLE DB data source, and provides a way to execute commands against that data source.

The ADO.NET classes responsible for working directly with a database are provided by theNET DataProviders:

The .NET Framework includes data providers for SQL Server, Oracle, OLE DB, ODBC, etc…

The Data Providers included in the .NET Framework contain the same objects, although their names and some of their properties and methods are different.

For example, the SQL Server version of a database connection is the SqlConnection, while the OLE DB version is an OleDbConnection.

ODBC = Open Database Connectivity (Relational/Procedural/First Abstract Model)

OLE = Object Linking and Embedding (OO Based – Microsoft)

Connection (Review 1)

The connection component is used to establish a connection to a database and manage communications between the data source and your program.

Use the appropriate connection class. OleDbConnection, SqlConnection, OracleConnection, …

Example:' Access Connection Dim strConnection As String = "provider=Microsoft.Jet.OLEDB.4.0;" & _ "Data Source=c:\path\Inventory.mdb;"

Dim myConnection As New OleDbConnection(strConnection) ' SQL Server Connection Dim strConnection As String = "provider=Microsoft.ACE.OLEDB.12.0;" & _ "server=dwarf.cis.temple.edu;" & _ "database=pascucci; User id=xxx;" & _ "Password=xxx;"

Dim myConnection As New SqlConnection(strConnection)

Connection (Review 2)

The connection string is a simple string that is used to create a connection object.

The connection string contains key-value pairs The assignment operator (=) is used to separate the key and

the value. A semi-colon (;) is used to separate each key-value pair.

The connection string is different for each DataProvider.' Access 2007 - 2010 Connection

Dim strConnection As String = "provider=Microsoft.ACE.OLEDB.12.0;" & _ "Data Source=c:\path\Inventory.accdb;" Dim myConnection As New OleDbConnection(strConnection)

Connection (Review 3)

Two constructors for the SqlConnection class New SqlConnection()

New SqlConnection(connectionString)

Common properties and methods of the SqlConnection class

Property Description

ConnectionString Provides information for accessing a SQL Server database.

Method Description

Open() Opens the connection using the specified connection string.

Close() Closes the connection.

DataAdapter

Executes commands against a database and manages the transfer of information from the database to the DataSet.

Use the appropriate DataAdapter class. OleDbDataAdapter, SqlDataAdapter, OracleDataAdapter, …

Example:

Note similarity with ExecuteQuery in connected mode

' Access Connection Dim strConnection As String = "provider=Microsoft.Ace.OLEDB.12.0;" & _ "Data Source=c:\path\Inventory.accdb;"

Dim myConnection As New OleDbConnection(strConnection)

Dim strSQL As String = "SELECT * FROM Product"

Dim myDataAdapter As New OleDbDataAdapter(strSQL, myConnection)

Using a Command with a DataAdapter

The command component is used to take an SQL command you provide, prepare it for transport through the connection object, and for processing in the DBMS.

For our purposes, this is optional and can be easily replaced with a simple string.

The command object is created by passing it a simple string with SQL statements, and the connection object.

Example:' Access Connection Dim strConnection As String = "provider=Microsoft.ACE.OLEDB.12.0;" & _ "Data Source=c:\path\Inventory.accdb;"

Dim myConnection As New OleDbConnection(strConnection)

Dim strSQL As String = "SELECT * FROM Product"

Dim myCommand As New OleDbCommand(strSQL, myConnection)

Dim myDataAdapter As New OleDbDataAdapter(myCommand)

Commands (Review)

Common properties of the SqlCommand class

Property Description

Connection The connection used to connect to the database.

CommandText A SQL statement or the name of a stored procedure.

CommandType A member of the CommandType enumeration that determines how the value in the CommandText property is interpreted.

Parameters The collection of parameters for the command.

CommandType enumeration members

Member Description

Text The CommandText property contains a SQL statement. This is the default.

StoredProcedure The CommandText property contains the name of a stored procedure.

TableDirect The CommandText property contains the name of a table (OLE DB only).

ADO.NET Programming

Example:Dim strSQL As StringDim strConnection As StringDim objDataSet As New DataSet()Dim objAdapter As SqlDataAdapterDim objConnection As SqlConnection

strConnection = "server=dwarf.cis.temple.edu;Database=4376nn;” & _“User id=4376nn;Password=yourpassword“

strSQL = "SELECT * FROM Product“objConnection = New SqlConnection(strConnection)objAdapter = New SqlDataAdapter(strSQL, objConnection)objAdapter.Fill(objDataSet)

DataSet used to hold data retrieved from the

database.

SQL Server DataProviders for working with an SQL

Server data source.

Connection object used to establish a connection.

DataAdapter object used to manage the flow of

data from the data source to the DataSet.

Fills the DataSet object with data retrieved from

the database.

ADO.NET

All elements of a database, tables, rows (set of values that make up a record), columns (database fields), and individual cells (actual field values) are all represented as abstractions (classes) in .NET.

Basically, every table, row, and column are represented as instances of these abstractions (classes) that are part of the ADO.NET support structure.

Disconnected vs. Connected

The major advantage of the disconnected approach is that it improves system performance

Uses less resources for maintaining connections when working with a data source.

Work is done on local data: DataSets, DataTables, etc

However, there is a disadvantage to this approach that occurs when two or more users try to update the same row of a table, which is called a concurrency problem.

Database server

DBMS

Productstable

User 2

Productsdata table

User 1

Productsdata table

Disconnected vs. Connected

ADO.NET contains two different approaches to work with data in a database: Connected Data Architecture and the Disconnected Data Architecture.

Connected Data Architecture: Represents the objects that insist on having an open connection

available for them to work and interact with the data source. ADO.NET provides classes to communicate directly with a data

source.

Disconnected Data Architecture: Represents the objects that open and close a connection to the data

source as needed. Your application works with data that was copied from the data

source. Any changes made to the “copied” data in the Dataset will be later reconciled with the data source.

Connected applications alone don't fulfill the demands of today’s distributed applications.

Improved performance, more efficient and more complex than the connected approach.

Concurrency Issues

An old time problem when dealing with shared resources such as memory, files, DBs etc

Occurs when multiple users try to access the same resource such as a row in a database table Not a problem if all users are reading the

resource Becomes a problem if one or more are

writing Locking mechanisms need to be

implemented to ensure the integrity of the resource

Disconnected vs. Connected Modes

When using the disconnected mode of DB access concurrency problems occur because once data is retrieved by User A from the database, the connection is dropped. Now User B has can access the DB

There are two ways that ADO.NET can handle concurrency problems:1. Optimistic Concurrency – The program checks to see if there

has been a change to the row since it was retrieved. If it has, the update or deletion will be refused and a concurrency exception will be thrown that your program must handle.

2. “Last In Wins” – Since no checking is done, the row that was updated by the last user will overwrite changes made to the row by the previous user.

Another way to avoid concurrency problems is to retrieve and update only one row at a time.

Steps to Working with ADO.NET (disconnected)

First, a database connection is established Then the database is opened SQL commands are sent over the open

connection ADO.NET builds an in-memory representation of

the returned data from any SELECT command and changes are made to this representation

When processing is complete, the database connection is closed

It is suggested that you use the Open and Close methods to explicitly open and close your connections. In this way, you keep your connections open only as long as needed to complete the required processing

Processing database elements

All elements of a data base, tables (entities), rows (sets of values), columns (database fields), and individual cells (database values) are represented as abstractions in .NET

In other words, every table, row, and column are represented as instances of the abstractions (classes) that are part of the ADO.NET support structure

How Do the Pieces Fit Together?

Study the code example from Chris Pascucci first (see Lecture Set 14 C Ex)

Then study the code sample provided by your lab assistant (Jessica Clark) at the end of the Client-Server Word document (also look at the starter code for the Final Project, Part III – ref . HW #12)

An Underlying Framework – The Connection

Keeping a mental picture of this process in your head is important

It all begins with the connection Already visited this idea for files. Now we revisit

it again for databases Remember …

In your programs, you manipulate objects using methods belonging to the class that defines the type of the object

The class (an abstract data type) is an abstraction (model) of the object being manipulated

The Object Framework (drawing/files)

Recall … We must have a class to model the entity to

be manipulated (the surface to be drawn on)

The class is said to define an “abstract data type”

We can then create objects (instances of the class we just created)

Next comes the tricky part … We now have to connect that object to

the actual entity to be drawn on OR Have to connect a stream to a sequential

file

The Object Framework 2

For databases, the object is an instance of a class that provides an abstract view of the database including an abstraction of database tables, rows, and columns

All of these database features are modeled using ADO.NET classes

So we program against elements of the ADO.NET classes without concern for the underlying structures

The Object Framework 3 – The Connection

The actual, physical database

to be manipulated

The database abstraction

(methods and data stores) that you program against(DB commands, internal datasets and data tables)

The connection – via creation

of a database connection

object

‘Example - Connection to a Microsoft Access DatabaseDim myConnectionObj As New OleDbConnection(ConnectString)

‘Example - Connection to SQL Server DatabaseDim myConnectionSqlObj As New SqlConnection(SqlConnectString)

Remember …

Why do this – what is this all about? The abstraction enables us to manipulate

database objects in a uniform, consistent way, regardless of the DBMS (Access, MySQL, SQL Server, Oracle)

The underlying DBMS is hidden under several layers of ADO.NET software which does all the work

Connection Strings – (disconnected mode)

All we need to do is connect the program’s ADO.NET database object to the underlying database to be used‘SQL Server ConnectionDim SqlConnectString As String = _

"server=dwarf.cis.temple.edu;Database=fa06_c342132;” & _ "User id=fa06_c342132;Password=jimbo“Dim myConnectionSql As New SqlConnection(SqlConnectString)

‘Access ConnectionDim ConnectString As String = "provider=Microsoft.Jet.OLEDB.4.0;”

_ “Data Source=c:\users1\dl\Inventory.mdb“Dim myConnection As New OleDbConnection(ConnectString)

Programmer layer – build commands (SELECT, INSERT, DELETE, and UPDATE) for execution against the database

Logical layer – uses a DataAdapter to send commands from your software (across the data adapter) to the database getting back tables to be processed

Physical layer – manages the actual (physical) execution of the commands on the database

ADO.NET (skip)

ADO.NET Terms Summary (Review)

DataSet: Data in the Dataset is independent of the database that was used to

retrieve it.

DataAdapter: Manages the exchange of data between the Dataset and a database. Allowing a DataSet and DataTable to be filled from the data source and

later reconciled with the data source.

Connection: Connects to the data source.

Command: Executes commands (SQL statements) against the data source.

Data Providers: The ADO.NET classes responsible for working directly with a specific

database.

Data Reader Retrieves query results in a read-only, forward-only connected result

set.

ADO.NET Resources

Connection Strings: http://www.connectionstrings.com

OleDbConnection Class: http://msdn.microsoft.com/en-us/library/system.data.oledb.oledbconne

ction.aspx

OleDbCommand Class: http://msdn.microsoft.com/en-us/library/system.data.oledb.oledbcomm

and.aspx

OleDbDataAdapter Class: http://msdn.microsoft.com/en-us/library/system.data.oledb.oledbdataa

dapter.aspx

OleDbDataReader Class: http://msdn.microsoft.com/en-us/library/system.data.oledb.oledbdatare

ader.aspx