Using Parameters with a DataAdapter
The DataAdapter has four properties that are used to retrieve data from and update data to the data source. The SelectCommand property returns data from the data source. The InsertCommand, UpdateCommand, and DeleteCommand properties are used to manage changes at the data source. The SelectCommand property must be set before calling the Fill method of the DataAdapter. The InsertCommand, UpdateCommand, or DeleteCommand properties must be set before the Update method of the DataAdapter is called, depending on what changes were made to the data in the DataSet. For example, if rows have been added, the InsertCommand must be set before calling Update. When Update is processing an inserted, updated, or deleted row, the DataAdapter uses the respective Command property to process the action. Current information about the modified row is passed to the Command object through the Parameters collection.
For example, when updating a row at the data source, you call the UPDATE statement, which uses a unique identifier to identify the row in the table be updated. The unique identifier is commonly the value of a primary key field. The UPDATE statement uses parameters that contain both the unique identifier, and the columns and values to be updated, as shown in the following SQL statement.
UPDATE Customers SET CompanyName = @CompanyName WHERE CustomerID = @CustomerID
In this example, the CompanyName field is updated with the value of the @CompanyName parameter for the row where CustomerID equals the value of the @CustomerID parameter. The parameters retrieve information from the modified row using the SourceColumn property of the Parameter object. Following are the parameters for the preceding sample UPDATE statement.
custDA.Parameters.Add("@CompanyName", SqlDbType.NChar, 15, "CompanyName")
Dim myParm As SqlParameter = custDA.UpdateCommand.Parameters.Add("@CustomerID", _
SqlDbType.NChar, 5, "CustomerID")
myParm.SourceVersion = DataRowVersion.Original
The Add method of the Parameters collection takes the name of the parameter, the DataAdapter specific type, the size (if applicable to the type), and the name of the SourceColumn from the DataTable. Notice that the SourceVersion of the @CustomerID parameter is set to Original. This ensures that the existing row in the data source is updated if the value of the identifying column or columns has been changed in the modified DataRow. In that case, the Original row value would match the current value at the data source, and the Current row value would contain the updated value. The SourceVersion for the @CompanyName parameter is not set and will use the default, Current row value.
The following example shows sample SQL statements to be used as the CommandText for the SelectCommand, InsertCommand, UpdateCommand, and DeleteCommand properties of the DataAdapter. For the OleDbDataAdapter and OdbcDataAdapter objects, you must use question mark (?) placeholders to identify the parameters. For the SqlDataAdapter object, you must use named parameters.
SqlClient
Dim selectSQL As String = "SELECT CustomerID, CompanyName FROM Customers WHERE Country = @Country AND City = @City"
Dim insertSQL As String = "INSERT INTO Customers (CustomerID, CompanyName) " & _
"VALUES (@CustomerID, @CompanyName)"
Dim updateSQL As String = "UPDATE Customers SET CustomerID = @CustomerID, CompanyName = @CompanyName " & _
"WHERE CustomerID = @OldCustomerID"
Dim deleteSQL As String = "DELETE FROM Customers WHERE CustomerID = @CustomerID"
[C#]string selectSQL = "SELECT CustomerID, CompanyName FROM Customers WHERE Country = @Country AND City = @City";
string insertSQL = "INSERT INTO Customers (CustomerID, CompanyName) " +
"VALUES (@CustomerID, @CompanyName)";
string updateSQL = "UPDATE Customers SET CustomerID = @CustomerID, CompanyName = @CompanyName " +
"WHERE CustomerID = @OldCustomerID";
string deleteSQL = "DELETE FROM Customers WHERE CustomerID = @CustomerID";
OleDb or Odbc
Dim selectSQL As String = "SELECT CustomerID, CompanyName FROM Customers WHERE Country = ? AND City = ?"
Dim insertSQL AS String = "INSERT INTO Customers (CustomerID, CompanyName) VALUES (?, ?)"
Dim updateSQL AS String = "UPDATE Customers SET CustomerID = ?, CompanyName = ? WHERE CustomerID = ?"
Dim deleteSQL As String = "DELETE FROM Customers WHERE CustomerID = ?"
[C#]string selectSQL = "SELECT CustomerID, CompanyName FROM Customers WHERE Country = ? AND City = ?";
string insertSQL = "INSERT INTO Customers (CustomerID, CompanyName) " +
"VALUES (?, ?)";
string updateSQL = "UPDATE Customers SET CustomerID = ?, CompanyName = ? " +
"WHERE CustomerID = ? ";
string deleteSQL = "DELETE FROM Customers WHERE CustomerID = ?";
The parameterized query statements define which input and output parameters will need to be created. To create a parameter, use the Parameters.Add method or the Parameter constructor to specify the column name, data type, and size. For intrinsic data types, such as Integer, you do not need to include the size, or you can specify the default size.
The following code example creates the parameters for the SQL statement from the preceding example and fills a DataSet.
SqlClient
Dim nwindConn As SqlConnection = New SqlConnection("Data Source=localhost;Integrated Security=SSPI;Initial Catalog=northwind")
Dim custDA As SqlDataAdapter = New SqlDataAdapter
Dim selectCMD AS SqlCommand = New SqlCommand(selectSQL, nwindConn)
custDA.SelectCommand = selectCMD
' Add parameters and set values.
selectCMD.Parameters.Add("@Country", SqlDbType.NVarChar, 15).Value = "UK"
selectCMD.Parameters.Add("@City", SqlDbType.NVarChar, 15).Value = "London"
Dim custDS As DataSet = New DataSet
custDA.Fill(custDS, "Customers")
[C#]SqlConnection nwindConn = new SqlConnection("Data Source=localhost;Integrated Security=SSPI;Initial Catalog=northwind");
SqlDataAdapter custDA = new SqlDataAdapter();
SqlCommand selectCMD = new SqlCommand(selectSQL, nwindConn);
custDA.SelectCommand = selectCMD;
// Add parameters and set values.
selectCMD.Parameters.Add("@Country", SqlDbType.NVarChar, 15).Value = "UK";
selectCMD.Parameters.Add("@City", SqlDbType.NVarChar, 15).Value = "London";
DataSet custDS = new DataSet();
custDA.Fill(custDS, "Customers");
OleDb
Dim nwindConn As OleDbConnection = New OleDbConnection("Provider=SQLOLEDB;Data Source=localhost;" & _
"Integrated Security=SSPI;Initial Catalog=northwind")
Dim custDA As OleDbDataAdapter = New OleDbDataAdapter
Dim selectCMD AS OleDbCommand = New OleDbCommand(selectSQL, nwindConn)
custDA.SelectCommand = selectCMD
' Add parameters and set values.
selectCMD.Parameters.Add("@Country", OleDbType.VarChar, 15).Value = "UK"
selectCMD.Parameters.Add("@City", OleDbType.VarChar, 15).Value = "London"
Dim custDS As DataSet = New DataSet
custDA.Fill(custDS, "Customers")
[C#]OleDbConnection nwindConn = new OleDbConnection("Provider=SQLOLEDB;Data Source=localhost;" +
"Integrated Security=SSPI;Initial Catalog=northwind;");
OleDbDataAdapter custDA = new OleDbDataAdapter();
OleDbCommand selectCMD = new OleDbCommand(selectSQL, nwindConn);
custDA.SelectCommand = selectCMD;
// Add parameters and set values.
selectCMD.Parameters.Add("@Country", OleDbType.VarChar, 15).Value = "UK";
selectCMD.Parameters.Add("@City", OleDbType.VarChar, 15).Value = "London";
DataSet custDS = new DataSet();
custDA.Fill(custDS, "Customers");
Odbc
Dim nwindConn As OdbcConnection = New OdbcConnection("Driver={SQL Server};Server=localhost;" & _
"Trusted_Connection=yes;Database=northwind")
Dim custDA As OdbcDataAdapter = New OdbcDataAdapter
Dim selectCMD AS OdbcCommand = New OdbcCommand(selectSQL, nwindConn)
custDA.SelectCommand = selectCMD
' Add Parameters and set values.
selectCMD.Parameters.Add("@Country", OdbcType.VarChar, 15).Value = "UK"
selectCMD.Parameters.Add("@City", OdbcType.VarChar, 15).Value = "London"
Dim custDS As DataSet = New DataSet
custDA.Fill(custDS, "Customers")
[C#]OdbcConnection nwindConn = new OdbcConnection("Driver={SQL Server};Server=localhost;" +
"Trusted_Connection=yes;Database=northwind;");
OdbcDataAdapter custDA = new OdbcDataAdapter();
OdbcCommand selectCMD = new OdbcCommand(selectSQL, nwindConn);
custDA.SelectCommand = selectCMD;
//Add Parameters and set values.
selectCMD.Parameters.Add("@Country", OdbcType.VarChar, 15).Value = "UK";
selectCMD.Parameters.Add("@City", OdbcType.VarChar, 15).Value = "London";
DataSet custDS = new DataSet();
custDA.Fill(custDS, "Customers");
Note If a parameter name is not supplied for a parameter, the parameter is given an incremental default name of ParameterN, starting with "Parameter1". It is recommended that you avoid the naming convention of "ParameterN" when you supply a parameter name, because the name you supply may conflict with an existing default parameter name in the ParameterCollection. If the supplied name already exists, an exception will be thrown.
Parameter.DbType
The type of a parameter is specific to the .NET Framework data provider. Specifying the type converts the value of the Parameter to the .NET Framework data provider type before passing the value to the data source. If the type is not specified, ADO.NET will infer the .NET Framework data provider type of the Parameter from the .NET Framework type of the Value of the Parameter object.
You may also specify the type of a Parameter in a generic fashion by setting the DbType property of the Parameter object to a particular System.Data.DbType. Additionally, ADO.NET will infer the .NET Framework data provider type of a Parameter from the DbType of the Parameter object.
The .NET Framework data provider type of a Parameter object is inferred from the .NET Framework type of the Value of the Parameter object, or from the DbType of the Parameter object. The following table shows the inferred Parameter type based on the object passed as the Parameter value or the specified DbType.
.NET Framework type | System.Data.DbType | SqlDbType | OleDbType | OdbcType | OracleType |
---|---|---|---|---|---|
bool | Boolean | Bit | Boolean | Bit | Byte |
byte | Byte | TinyInt | UnsignedTinyInt | TinyInt | Byte |
byte[] | Binary | VarBinary. This implicit conversion will fail if the byte array is greater than the maximum size of a VarBinary, which is 8000 bytes. For byte arrays larger than 8000 bytes, explicitly set the SqlDbType. | VarBinary | Binary | Raw |
char | Inferring a SqlDbType from char is not supported. | Char | Char | Byte | |
DateTime | DateTime | DateTime | DBTimeStamp | DateTime | DateTime |
Decimal | Decimal | Decimal | Decimal | Numeric | Number |
double | Double | Float | Double | Double | Double |
float | Single | Real | Single | Real | Float |
Guid | Guid | UniqueIdentifier | Guid | UniqueIdentifier | Raw |
Int16 | Int16 | SmallInt | SmallInt | SmallInt | Int16 |
Int32 | Int32 | Int | Int | Int | Int32 |
Int64 | Int64 | BitInt | BigInt | BigInt | Number |
object | Object | Variant | Variant | Inferring an OdbcType from Object is not supported. | Blob |
string | String | NVarChar. This implicit conversion will fail if the string is greater than the maximum size of an NVarChar, which is 4000 characters. For strings greater than 4000 characters, explicitly set the SqlDbType. | VarWChar | NVarChar | NVarChar |
TimeSpan | Time | Inferring a SqlDbType from TimeSpan is not supported. | DBTime | Time | DateTime |
UInt16 | UInt16 | Inferring a SqlDbType from UInt16 is not supported. | UnsignedSmallInt | Int | UInt16 |
UInt32 | UInt32 | Inferring a SqlDbType from UInt32 is not supported. | UnsignedInt | BigInt | UInt32 |
UInt64 | UInt64 | Inferring a SqlDbType from UInt64 is not supported. | UnsignedBigInt | Numeric | Number |
AnsiString | VarChar | VarChar | VarChar | VarChar | |
AnsiStringFixedLength | Char | Char | Char | Char | |
Currency | Money | Currency | Inferring an OdbcType from Currency is not supported. | Number | |
Date | Inferring a SqlType from Date is not supported. | DBDate | Date | DateTime | |
SByte | Inferring a SqlType from SByte is not supported. | TinyInt | Inferring an OdbcType from SByte is not supported. | SByte | |
StringFixedLength | NChar | WChar | NChar | NChar | |
Time | Inferring a SqlType from Time is not supported. | DBTime | Time | DateTime | |
VarNumeric | Inferring a SqlDbType from VarNumeric is not supported. | VarNumeric | Inferring an OdbcType from VarNumeric is not supported. | Number |
Note The .NET Framework data providers that ship with the .NET Framework version 1.0 do not verify the Precision and Scale of Decimal parameter values, which can result in truncated data being inserted at the data source. If you are using the .NET Framework version 1.0, validate the Precision and Scale of your Decimal values before setting the parameter value.
For the .NET Framework version 1.1 and later, an exception is thrown when a Decimal parameter value is set with an invalid Precision. Scale values that exceed the Decimal parameter scale are still truncated.
Parameter.Direction
The following table shows the values you can use with the ParameterDirection enumeration to set the Direction of the Parameter.
Member name | Description |
---|---|
Input | The parameter is an input parameter. This is the default. |
InputOutput | The parameter is capable of both input and output. |
Output | The parameter is an output parameter. |
ReturnValue | The parameter represents a return value. |
The following code example shows how to set the Direction of the Parameter.
myParm.Direction = ParameterDirection.Output
Parameter.SourceColumn, Parameter.SourceVersion
The SourceColumn and SourceVersion may be passed as arguments to the Parameter constructor, or set as properties of an existing Parameter. The SourceColumn is the name of the DataColumn from the DataRow where the value of the Parameter will be retrieved. The SourceVersion specifies which DataRow version the DataAdapter uses to retrieve the value.
The following table shows the DataRowVersion enumeration values available for use with SourceVersion.
Member name | Description |
---|---|
Current | The parameter uses the current value of the column. This is the default. |
Default | The parameter uses the DefaultValue of the column. |
Original | The parameter uses the original value of the column. |
Proposed | The parameter uses a proposed value. |
The following code example defines an UPDATE statement in which the CustomerID column is used as a SourceColumn for two parameters: @CustomerID (SET CustomerID = @CustomerID
), and @OldCustomerID (WHERE CustomerID = @OldCustomerID
). The @CustomerID parameter is used to update the CustomerID column to the current value in the DataRow. As a result, the CustomerID SourceColumn with a SourceVersion of Current is used. The @OldCustomerID parameter is used to identify the current row in the data source. Because the matching column value is found in the Original version of the row, the same SourceColumn (CustomerID) with a SourceVersion of Original is used.
SqlClient
custDA.UpdateCommand.Parameters.Add("@CustomerID", SqlDbType.NChar, 5, "CustomerID")
custDA.UpdateCommand.Parameters.Add("@CompanyName", SqlDbType.NVarChar, 40, "CompanyName")
Dim myParm As SqlParameter = custDA.UpdateCommand.Parameters.Add("@OldCustomerID", _
SqlDbType.NChar, 5, "CustomerID")
myParm.SourceVersion = DataRowVersion.Original
[C#]custDA.UpdateCommand.Parameters.Add("@CustomerID", SqlDbType.NChar, 5, "CustomerID");
custDA.UpdateCommand.Parameters.Add("@CompanyName", SqlDbType.NVarChar, 40, "CompanyName");
SqlParameter myParm = custDA.UpdateCommand.Parameters.Add("@OldCustomerID", SqlDbType.NChar, 5, "CustomerID");
myParm.SourceVersion = DataRowVersion.Original;
OleDb
custDA.UpdateCommand.Parameters.Add("@CustomerID", OleDbType.Char, 5,"CustomerID")
custDA.UpdateCommand.Parameters.Add("@CompanyName", OleDbType.VarChar, 40, "CompanyName")
Dim myParm As OleDbParameter = custDA.UpdateCommand.Parameters.Add("@OldCustomerID", _
OleDbType.Char, 5, "CustomerID")
myParm.SourceVersion = DataRowVersion.Original
[C#]custDA.UpdateCommand.Parameters.Add("@CustomerID", OleDbType.Char, 5, "CustomerID");
custDA.UpdateCommand.Parameters.Add("@CompanyName", OleDbType.VarChar, 40, "CompanyName");
OleDbParameter myParm = custDA.UpdateCommand.Parameters.Add("@OldCustomerID", OleDbType.Char, 5, "CustomerID");
myParm.SourceVersion = DataRowVersion.Original;
Odbc
custDA.UpdateCommand.Parameters.Add("@CustomerID", OdbcType.Char, 5, "CustomerID")
custDA.UpdateCommand.Parameters.Add("@CompanyName", OdbcType.VarChar, 40, "CompanyName")
Dim myParm As OdbcParameter = custDA.UpdateCommand.Parameters.Add("@oldCustomerID", _
OdbcType.Char, 5, "CustomerID")
myParm.SourceVersion = DataRowVersion.Original
[C#]custDA.UpdateCommand.Parameters.Add("@CustomerID", OdbcType.Char, 5, "CustomerID");
custDA.UpdateCommand.Parameters.Add("@CompanyName", OdbcType.VarChar, 40, "CompanyName");
OdbcParameter myParm = custDA.UpdateCommand.Parameters.Add("@oldCustomerID", OdbcType.Char, 5, "CustomerID");
myParm.SourceVersion = DataRowVersion.Original;
UpdatedRowSource
You can control how the values returned from the data source are mapped back to the DataSet using the UpdatedRowSource property of the Command object. By setting the UpdatedRowSource property to one of the UpdateRowSource enumeration values, you can control whether parameters returned by the DataAdapter command will be ignored or applied to the changed row in the DataSet. You can also specify whether the first returned row (if it exists) is applied to the changed row in the DataSet.
The following table describes the different values of the UpdateRowSource enumeration and how they affect the behavior of a command used with a DataAdapter.
UpdateRowSource | Description |
---|---|
Both | Both the output parameters and the first row of a returned resultset may be mapped to the changed row in the DataSet. |
FirstReturnedRecord | Only the data in the first row of a returned resultset may be mapped to the changed row in the DataSet. |
None | Any output parameters or rows of a returned resultset are ignored. |
OutputParameters | Only output parameters may be mapped to the changed row in the DataSet. |
See Also
Using .NET Framework Data Providers to Access Data | Using Stored Procedures with a Command | DataRowVersion Enumeration | OleDbDataAdapter Class | OdbcDataAdapter Class | ParameterDirection Enumeration | SqlDataAdapter Class