SQLDataReader obtient le nombre de lignes
// Namespaces, variables, and constants
using System;
using System.Configuration;
using System.Data;
using System.Data.SqlClient;
// . . .
// Batch query to retrieve the COUNT of records and
// all of the records in the Orders table as two result sets.
String sqlText = "SELECT COUNT(*) FROM Orders; " +
"SELECT * FROM Orders;";
// Create the connection.
SqlConnection conn = new SqlConnection(
ConfigurationSettings.AppSettings["Sql_ConnectString"]);
SqlCommand cmd = new SqlCommand(sqlText, conn);
conn.Open( );
// Create a DataReader on the first result set.
SqlDataReader dr = cmd.ExecuteReader( );
// Get the count of records from the select count(*) statement.
dr.Read( );
resultTextBox.Text = "Orders table record count, using COUNT(*)= " +
dr.GetInt32(0) + Environment.NewLine;
// Move to the data result set.
dr.NextResult( );
int count = 0;
// Iterate over the records in the DataReader.
while(dr.Read( ))
{
count++;
// . . . Do something interesting with the data here.
}
// Close the DataReader and the connection.
dr.Close( );
resultTextBox.Text += "Orders table record count, " +
"iterating over result set = " + count +
Environment.NewLine;
// Create the stored procedure to use in the DataReader.
cmd = new SqlCommand("SP0207_GetOrders", conn);
cmd.CommandType = CommandType.StoredProcedure;
// Create the output paramter to return @@ROWCOUNT.
cmd.Parameters.Add("@RowCount", SqlDbType.Int).Direction =
ParameterDirection.Output;
// Create a DataReader for the result set returned by
// the stored procedure.
dr = cmd.ExecuteReader( );
// . . . Process the data in the DataReader.
// Close the DataReader.
dr.Close( );
// The output parameter containing the row count is now available.
resultTextBox.Text += "Orders table record count, " +
"returning @@ROWCOUNT from stored procedure = " + cmd.Parameters["@RowCount"].Value;
conn.Close( );
Envious Elk