Muokkaa

Jaa


Modifying Large-Value (max) Data in ADO.NET

Large object (LOB) data types are those that exceed the maximum row size of 8 kilobytes (KB). SQL Server provides a max specifier for varchar, nvarchar, and varbinary data types to allow storage of values as large as 2^32 bytes. Table columns and Transact-SQL variables may specify varchar(max), nvarchar(max), or varbinary(max) data types. In ADO.NET, the max data types can be fetched by a DataReader, and can also be specified as both input and output parameter values without any special handling. For large varchar data types, data can be retrieved and updated incrementally.

The max data types can be used for comparisons, as Transact-SQL variables, and for concatenation. They can also be used in the DISTINCT, ORDER BY, GROUP BY clauses of a SELECT statement as well as in aggregates, joins, and subqueries.

For more information, see Using Large-Value Data Types.

Large-Value Type Restrictions

The following restrictions apply to the max data types, which do not exist for smaller data types:

  • A sql_variant cannot contain a large varchar data type.

  • Large varchar columns cannot be specified as a key column in an index. They are allowed in an included column in a non-clustered index.

  • Large varchar columns cannot be used as partitioning key columns.

Working with Large-Value Types in Transact-SQL

The Transact-SQL OPENROWSET function is a one-time method of connecting and accessing remote data. It includes all of the connection information necessary to access remote data from an OLE DB data source. OPENROWSET can be referenced in the FROM clause of a query as though it were a table name. It can also be referenced as the target table of an INSERT, UPDATE, or DELETE statement, subject to the capabilities of the OLE DB provider.

The OPENROWSET function includes the BULK rowset provider, which allows you to read data directly from a file without loading the data into a target table. This enables you to use OPENROWSET in a simple INSERT SELECT statement.

The OPENROWSET BULK option arguments provide significant control over where to begin and end reading data, how to deal with errors, and how data is interpreted. For example, you can specify that the data file be read as a single-row, single-column rowset of type varbinary, varchar, or nvarchar.

The following example inserts a photo into the ProductPhoto table in the AdventureWorks sample database. When using the BULK OPENROWSET provider, you must supply the named list of columns even if you aren't inserting values into every column. The primary key in this case is defined as an identity column, and may be omitted from the column list. Note that you must also supply a correlation name at the end of the OPENROWSET statement, which in this case is ThumbnailPhoto. This correlates with the column in the ProductPhoto table into which the file is being loaded.

INSERT Production.ProductPhoto (  
    ThumbnailPhoto,
    ThumbnailPhotoFilePath,
    LargePhoto,
    LargePhotoFilePath)  
SELECT ThumbnailPhoto.*, null, null, N'tricycle_pink.gif'  
FROM OPENROWSET
    (BULK 'c:\images\tricycle.jpg', SINGLE_BLOB) ThumbnailPhoto  

Updating Data Using UPDATE .WRITE

The Transact-SQL UPDATE statement has new WRITE syntax for modifying the contents of varchar(max), nvarchar(max), or varbinary(max) columns. This allows you to perform partial updates of the data. The UPDATE .WRITE syntax is shown here in abbreviated form:

UPDATE

{ <object> }

SET

{ column_name = { .WRITE ( expression , @Offset , @Length ) }

The WRITE method specifies that a section of the value of the column_name will be modified. The expression is the value that will be copied to the column_name, the @Offset is the beginning point at which the expression will be written, and the @Length argument is the length of the section in the column.

If Then
The expression is set to NULL @Length is ignored and the value in column_name is truncated at the specified @Offset.
@Offset is NULL The update operation appends the expression at the end of the existing column_name value and @Length is ignored.
@Offset is greater than the length of the column_name value SQL Server returns an error.
@Length is NULL The update operation removes all data from @Offset to the end of the column_name value.

Note

Neither @Offset nor @Length can be a negative number.

Example

This Transact-SQL example updates a partial value in DocumentSummary, an nvarchar(max) column in the Document table in the AdventureWorks database. The word 'components' is replaced by the word 'features' by specifying the replacement word, the beginning location (offset) of the word to be replaced in the existing data, and the number of characters to be replaced (length). The example includes SELECT statements before and after the UPDATE statement to compare results.

USE AdventureWorks;  
GO  
--View the existing value.  
SELECT DocumentSummary  
FROM Production.Document  
WHERE DocumentID = 3;  
GO  
-- The first sentence of the results will be:  
-- Reflectors are vital safety components of your bicycle.  
  
--Modify a single word in the DocumentSummary column  
UPDATE Production.Document  
SET DocumentSummary .WRITE (N'features',28,10)  
WHERE DocumentID = 3 ;  
GO
--View the modified value.  
SELECT DocumentSummary  
FROM Production.Document  
WHERE DocumentID = 3;  
GO  
-- The first sentence of the results will be:  
-- Reflectors are vital safety features of your bicycle.  

Working with Large-Value Types in ADO.NET

You can work with large value types in ADO.NET by specifying large value types as SqlParameter objects in a SqlDataReader to return a result set, or by using a SqlDataAdapter to fill a DataSet/DataTable. There is no difference between the way you work with a large value type and its related, smaller value data type.

Using GetSqlBytes to Retrieve Data

The GetSqlBytes method of the SqlDataReader can be used to retrieve the contents of a varbinary(max) column. The following code fragment assumes a SqlCommand object named cmd that selects varbinary(max) data from a table and a SqlDataReader object named reader that retrieves the data as SqlBytes.

reader = cmd.ExecuteReader(CommandBehavior.CloseConnection)  
While reader.Read()  
    Dim bytes As SqlBytes = reader.GetSqlBytes(0)  
End While  
reader = cmd.ExecuteReader(CommandBehavior.CloseConnection);  
while (reader.Read())  
    {  
        SqlBytes bytes = reader.GetSqlBytes(0);  
    }  

Using GetSqlChars to Retrieve Data

The GetSqlChars method of the SqlDataReader can be used to retrieve the contents of a varchar(max) or nvarchar(max) column. The following code fragment assumes a SqlCommand object named cmd that selects nvarchar(max) data from a table and a SqlDataReader object named reader that retrieves the data.

reader = cmd.ExecuteReader(CommandBehavior.CloseConnection)  
While reader.Read()  
    Dim buffer As SqlChars = reader.GetSqlChars(0)  
End While  
reader = cmd.ExecuteReader(CommandBehavior.CloseConnection);  
while (reader.Read())  
{  
    SqlChars buffer = reader.GetSqlChars(0);  
}  

Using GetSqlBinary to Retrieve Data

The GetSqlBinary method of a SqlDataReader can be used to retrieve the contents of a varbinary(max) column. The following code fragment assumes a SqlCommand object named cmd that selects varbinary(max) data from a table and a SqlDataReader object named reader that retrieves the data as a SqlBinary stream.

reader = cmd.ExecuteReader(CommandBehavior.CloseConnection)  
While reader.Read()  
    Dim binaryStream As SqlBinary = reader.GetSqlBinary(0)  
End While  
reader = cmd.ExecuteReader(CommandBehavior.CloseConnection);  
while (reader.Read())  
    {  
        SqlBinary binaryStream = reader.GetSqlBinary(0);  
    }  

Using GetBytes to Retrieve Data

The GetBytes method of a SqlDataReader reads a stream of bytes from the specified column offset into a byte array starting at the specified array offset. The following code fragment assumes a SqlDataReader object named reader that retrieves bytes into a byte array. Note that, unlike GetSqlBytes, GetBytes requires a size for the array buffer.

While reader.Read()  
    Dim buffer(4000) As Byte  
    Dim byteCount As Integer = _  
    CInt(reader.GetBytes(1, 0, buffer, 0, 4000))  
End While  
while (reader.Read())  
{  
    byte[] buffer = new byte[4000];  
    long byteCount = reader.GetBytes(1, 0, buffer, 0, 4000);  
}  

Using GetValue to Retrieve Data

The GetValue method of a SqlDataReader reads the value from the specified column offset into an array. The following code fragment assumes a SqlDataReader object named reader that retrieves binary data from the first column offset, and then string data from the second column offset.

While reader.Read()  
    ' Read the data from varbinary(max) column  
    Dim binaryData() As Byte = CByte(reader.GetValue(0))  
  
    ' Read the data from varchar(max) or nvarchar(max) column  
    Dim stringData() As String = Cstr((reader.GetValue(1))  
End While  
while (reader.Read())  
{  
    // Read the data from varbinary(max) column  
    byte[] binaryData = (byte[])reader.GetValue(0);  
  
    // Read the data from varchar(max) or nvarchar(max) column  
    String stringData = (String)reader.GetValue(1);  
}  

Converting from Large Value Types to CLR Types

You can convert the contents of a varchar(max) or nvarchar(max) column using any of the string conversion methods, such as ToString. The following code fragment assumes a SqlDataReader object named reader that retrieves the data.

While reader.Read()  
    Dim str as String = reader(0).ToString()  
    Console.WriteLine(str)  
End While  
while (reader.Read())  
{  
     string str = reader[0].ToString();  
     Console.WriteLine(str);  
}  

Example

The following code retrieves the name and the LargePhoto object from the ProductPhoto table in the AdventureWorks database and saves it to a file. The assembly needs to be compiled with a reference to the System.Drawing namespace. The GetSqlBytes method of the SqlDataReader returns a SqlBytes object that exposes a Stream property. The code uses this to create a new Bitmap object, and then saves it in the Gif ImageFormat.

static void TestGetSqlBytes(int documentID, string filePath)
{
    // Assumes GetConnectionString returns a valid connection string.
    using (SqlConnection connection =
               new(GetConnectionString()))
    {
        SqlCommand command = connection.CreateCommand();
        SqlDataReader reader = default!;
        try
        {
            // Setup the command
            command.CommandText =
                "SELECT LargePhotoFileName, LargePhoto "
                + "FROM Production.ProductPhoto "
                + "WHERE ProductPhotoID=@ProductPhotoID";
            command.CommandType = CommandType.Text;

            // Declare the parameter
            SqlParameter paramID =
                new("@ProductPhotoID", SqlDbType.Int)
                {
                    Value = documentID
                };
            command.Parameters.Add(paramID);
            connection.Open();

            string photoName = default!;

            reader = command.ExecuteReader(CommandBehavior.CloseConnection);

            if (reader.HasRows)
            {
                while (reader.Read())
                {
                    // Get the name of the file.
                    photoName = reader.GetString(0);

                    // Ensure that the column isn't null
                    if (reader.IsDBNull(1))
                    {
                        Console.WriteLine("{0} is unavailable.", photoName);
                    }
                    else
                    {
                        SqlBytes bytes = reader.GetSqlBytes(1);
                        using (Bitmap productImage = new(bytes.Stream))
                        {
                            var fileName = filePath + photoName;

                            // Save in gif format.
                            productImage.Save(fileName, ImageFormat.Gif);
                            Console.WriteLine("Successfully created {0}.", fileName);
                        }
                    }
                }
            }
            else
            {
                Console.WriteLine("No records returned.");
            }
        }
        catch (Exception ex)
        {
            Console.WriteLine(ex.Message);
        }
        finally
        {
            reader?.Dispose();
        }
    }
}
Private Sub GetPhoto(
  ByVal documentID As Integer, ByVal filePath As String)
    ' Assumes GetConnectionString returns a valid connection string.
    Using connection As New SqlConnection(GetConnectionString())
        Dim command As SqlCommand = connection.CreateCommand()
        Dim reader As SqlDataReader
        Try
            ' Setup the command
            command.CommandText =
              "SELECT LargePhotoFileName, LargePhoto FROM" _
                & " Production.ProductPhoto" _
                & " WHERE ProductPhotoID=@ProductPhotoID"
            command.CommandType = CommandType.Text

            ' Declare the parameter
            Dim paramID As SqlParameter =
                New SqlParameter("@ProductPhotoID", SqlDbType.Int)
            paramID.Value = documentID
            command.Parameters.Add(paramID)
            connection.Open()

            Dim photoName As String

            reader =
             command.ExecuteReader(CommandBehavior.CloseConnection)

            If reader.HasRows Then
                While reader.Read()
                    ' Get the name of the file
                    photoName = reader.GetString(0)

                    ' Ensure that the column isn't null
                    If (reader.IsDBNull(1)) Then
                        Console.WriteLine("{0} is unavailable.", photoName)
                    Else
                        Dim bytes As SqlBytes = reader.GetSqlBytes(1)
                        Using productImage As New Bitmap(bytes.Stream)
                            Dim fileName As String = filePath & photoName

                            ' Save in gif format.
                            productImage.Save(
                              fileName, ImageFormat.Gif)
                            Console.WriteLine("Successfully created {0}.", fileName)
                        End Using
                    End If
                End While
            Else
                Console.WriteLine("No records returned.")
            End If
        Catch ex As Exception
            Console.WriteLine("Exception: {0}", ex.Message)
        End Try
    End Using
End Sub

Using Large Value Type Parameters

Large value types can be used in SqlParameter objects the same way you use smaller value types in SqlParameter objects. You can retrieve large value types as SqlParameter values, as shown in the following example. The code assumes that the following GetDocumentSummary stored procedure exists in the AdventureWorks sample database. The stored procedure takes an input parameter named @DocumentID and returns the contents of the DocumentSummary column in the @DocumentSummary output parameter.

CREATE PROCEDURE GetDocumentSummary
(  
    @DocumentID int,  
    @DocumentSummary nvarchar(MAX) OUTPUT  
)  
AS  
SET NOCOUNT ON  
SELECT  @DocumentSummary=Convert(nvarchar(MAX), DocumentSummary)  
FROM    Production.Document  
WHERE   DocumentID=@DocumentID  

Example

The ADO.NET code creates SqlConnection and SqlCommand objects to execute the GetDocumentSummary stored procedure and retrieve the document summary, which is stored as a large value type. The code passes a value for the @DocumentID input parameter, and displays the results passed back in the @DocumentSummary output parameter in the Console window.

static string? GetDocumentSummary(int documentID)
{
    // Assumes GetConnectionString returns a valid connection string.
    using (SqlConnection connection =
               new(GetConnectionString()))
    {
        connection.Open();
        SqlCommand command = connection.CreateCommand();
        try
        {
            // Set up the command to execute the stored procedure.
            command.CommandText = "GetDocumentSummary";
            command.CommandType = CommandType.StoredProcedure;

            // Set up the input parameter for the DocumentID.
            SqlParameter paramID =
                new("@DocumentID", SqlDbType.Int)
                {
                    Value = documentID
                };
            command.Parameters.Add(paramID);

            // Set up the output parameter to retrieve the summary.
            SqlParameter paramSummary =
                new("@DocumentSummary",
                SqlDbType.NVarChar, -1)
                {
                    Direction = ParameterDirection.Output
                };
            command.Parameters.Add(paramSummary);

            // Execute the stored procedure.
            command.ExecuteNonQuery();
            Console.WriteLine((string)paramSummary.Value);
            return (string)paramSummary.Value;
        }
        catch (Exception ex)
        {
            Console.WriteLine(ex.Message);
            return null;
        }
    }
}
Private Function GetDocumentSummary( _
  ByVal documentID As Integer) As String

    ' Assumes GetConnectionString returns a valid connection string.
    Using connection As New SqlConnection(GetConnectionString())
        connection.Open()
        Dim command As SqlCommand = connection.CreateCommand()

        ' Setup the command to execute the stored procedure.
        command.CommandText = "GetDocumentSummary"
        command.CommandType = CommandType.StoredProcedure

        ' Set up the input parameter for the DocumentID.
        Dim paramID As SqlParameter = _
            New SqlParameter("@DocumentID", SqlDbType.Int)
        paramID.Value = documentID
        command.Parameters.Add(paramID)

        ' Set up the output parameter to retrieve the summary.
        Dim paramSummary As SqlParameter = _
            New SqlParameter("@DocumentSummary", _
               SqlDbType.NVarChar, -1)
        paramSummary.Direction = ParameterDirection.Output
        command.Parameters.Add(paramSummary)

        ' Execute the stored procedure.
        command.ExecuteNonQuery()
        Console.WriteLine(paramSummary.Value)
        Return paramSummary.Value.ToString
    End Using
End Function

See also