7

I'm comparing materialize time between Dapper and ADO.NET and Dapper. Ultimately, Dapper tend to faster than ADO.NET, though the first time a given fetch query was executed is slower than ADO.NET. a few result show that Dapper a little bit faster than ADO.NET(almost all of result show that it comparable though)
So I think I'm using inefficient approach to map result of SqlDataReader to object.
This is my code

var sql = "SELECT * FROM Sales.SalesOrderHeader WHERE SalesOrderID = @Id";
        var conn = new SqlConnection(ConnectionString);
        var stopWatch = new Stopwatch();

        try
        {
            conn.Open();
            var sqlCmd = new SqlCommand(sql, conn);

            for (var i = 0; i < keys.GetLength(0); i++)
            {
                for (var r = 0; r < keys.GetLength(1); r++)
                {
                    stopWatch.Restart();
                    sqlCmd.Parameters.Clear();
                    sqlCmd.Parameters.AddWithValue("@Id", keys[i, r]);
                    var reader = await sqlCmd.ExecuteReaderAsync();
                    SalesOrderHeaderSQLserver salesOrderHeader = null;

                    while (await reader.ReadAsync())
                    {
                        salesOrderHeader = new SalesOrderHeaderSQLserver();
                        salesOrderHeader.SalesOrderId = (int)reader["SalesOrderId"];
                        salesOrderHeader.SalesOrderNumber = reader["SalesOrderNumber"] as string;
                        salesOrderHeader.AccountNumber = reader["AccountNumber"] as string;
                        salesOrderHeader.BillToAddressID = (int)reader["BillToAddressID"];
                        salesOrderHeader.TotalDue = (decimal)reader["TotalDue"];
                        salesOrderHeader.Comment = reader["Comment"] as string;
                        salesOrderHeader.DueDate = (DateTime)reader["DueDate"];
                        salesOrderHeader.CurrencyRateID = reader["CurrencyRateID"] as int?;
                        salesOrderHeader.CustomerID = (int)reader["CustomerID"];
                        salesOrderHeader.SalesPersonID = reader["SalesPersonID"] as int?;
                        salesOrderHeader.CreditCardApprovalCode = reader["CreditCardApprovalCode"] as string;
                        salesOrderHeader.ShipDate = reader["ShipDate"] as DateTime?;
                        salesOrderHeader.Freight = (decimal)reader["Freight"];
                        salesOrderHeader.ModifiedDate = (DateTime)reader["ModifiedDate"];
                        salesOrderHeader.OrderDate = (DateTime)reader["OrderDate"];
                        salesOrderHeader.TerritoryID = reader["TerritoryID"] as int?;
                        salesOrderHeader.CreditCardID = reader["CreditCardID"] as int?;
                        salesOrderHeader.OnlineOrderFlag = (bool)reader["OnlineOrderFlag"];
                        salesOrderHeader.PurchaseOrderNumber = reader["PurchaseOrderNumber"] as string;
                        salesOrderHeader.RevisionNumber = (byte)reader["RevisionNumber"];
                        salesOrderHeader.Rowguid = (Guid)reader["Rowguid"];
                        salesOrderHeader.ShipMethodID = (int)reader["ShipMethodID"];
                        salesOrderHeader.ShipToAddressID = (int)reader["ShipToAddressID"];
                        salesOrderHeader.Status = (byte)reader["Status"];
                        salesOrderHeader.SubTotal = (decimal)reader["SubTotal"];
                        salesOrderHeader.TaxAmt = (decimal)reader["TaxAmt"];
                    }

                    stopWatch.Stop();
                    reader.Close();
                    await PrintTestFindByPKReport(stopWatch.ElapsedMilliseconds, salesOrderHeader.SalesOrderId.ToString());
                }

I used as keyword to cast in nullable column, is that correct?
and this is code for Dapper.

using (var conn = new SqlConnection(ConnectionString))
        {
            conn.Open();
            var stopWatch = new Stopwatch();

            for (var i = 0; i < keys.GetLength(0); i++)
            {
                for (var r = 0; r < keys.GetLength(1); r++)
                {
                    stopWatch.Restart();
                    var result = (await conn.QueryAsync<SalesOrderHeader>("SELECT * FROM Sales.SalesOrderHeader WHERE SalesOrderID = @Id", new { Id = keys[i, r] })).FirstOrDefault();
                    stopWatch.Stop();
                    await PrintTestFindByPKReport(stopWatch.ElapsedMilliseconds, result.ToString());
                }
            }
        }
  • What if you remove the async code and compare that? – Tim Schmelter Dec 8 '16 at 13:04
  • 4
    "Ultimately, Dapper tend to faster than ADO.NET" - sentence does not compute; Dapper sits on top of ADO.NET; it cannot be faster than something it consumes, and ADO.NET doesn't offer the service you are after... can you be more specific about what you mean there? – Marc Gravell Dec 8 '16 at 13:08
  • It looks to me like your main problem here is that you're doing lots of queries; have you considered using an INNER JOIN or multiple SELECT (.QueryMultiple) to do everything in one query rather than doing multiple queries? – Marc Gravell Dec 8 '16 at 13:10
  • @MarcGravell When I asked this question I actually forgot that Dapper is on top of ADO.NET. after I properly compared all of testing result(not just gazed at it). I must admitted that I exaggerated, a few of result show that highest difference of time that Dapper is faster is 9 ms, the almost all of result show that it comparable, and few of it show that ADO.NET is faster. I'm really sorry for wasted your time. – witoong623 Dec 8 '16 at 14:03
3

Here's a way to make your ADO.NET code faster.

When you do your select, list out the fields that you are selecting rather than using select *. This will let you ensure the order that the fields are coming back even if that order changes in the database.Then when getting those fields from the Reader, get them by index rather than by name. Using and index is faster.

Also, I'd recommend not making string database fields nullable unless there is a strong business reason. Then just store a blank string in the database if there is no value. Finally I'd recommend using the Get methods on the DataReader to get your fields in the type they are so that casting isn't needed in your code. So for example instead of casting the DataReader[index++] value as an int use DataReader.GetInt(index++)

So for example, this code:

 salesOrderHeader = new SalesOrderHeaderSQLserver();
 salesOrderHeader.SalesOrderId = (int)reader["SalesOrderId"];
 salesOrderHeader.SalesOrderNumber =       reader["SalesOrderNumber"] as string;
 salesOrderHeader.AccountNumber = reader["AccountNumber"] as string;

becomes

 int index = 0;
 salesOrderHeader = new SalesOrderHeaderSQLserver();
 salesOrderHeader.SalesOrderId = reader.GetInt(index++);
 salesOrderHeader.SalesOrderNumber = reader.GetString(index++);
 salesOrderHeader.AccountNumber = reader.GetString(index++);

Give that a whirl and see now it does for you.

  • Thank you, though I'm lazy to list all of column name and use GetXXX method that take position XD, it's prone to error when I map it to property. However, if it faster, I'll try. Can you explain string field shouldn't be nullable. – witoong623 Dec 8 '16 at 14:21
  • Maybe it's only worth doing where you need highly performant code. Creating a code generator that can write chunks of this code for you is one way to solve the lazy issue, but alas that takes work too :-) – Ron C Dec 8 '16 at 14:28
  • Just report result of testing, get value by position of column is faster than column name, in my case, it 1 ms faster though. however, it proved that ADO.NET isn't slower than Dapper and Dapper is comparable to ADO.NET in term of performance. – witoong623 Dec 12 '16 at 6:08
16

When in doubt regarding anything db or reflection, I ask myself, "what would Marc Gravell do?".

In this case, he would use FastMember! And you should too. It's the underpinning to the data conversions in Dapper, and can easily be used to map your own DataReader to an object (should you not want to use Dapper).

Below is an extension method converting a SqlDataReader into something of type T:

PLEASE NOTE: This code implies a dependency on FastMember and is written for .NET Core (though could easily be converted to .NET Framework/Standard compliant code).

public static T ConvertToObject<T>(this SqlDataReader rd) where T : class, new()
{
    Type type = typeof(T);
    var accessor = TypeAccessor.Create(type);
    var members = accessor.GetMembers();
    var t = new T();

    for (int i = 0; i < rd.FieldCount; i++)
    {
        if (!rd.IsDBNull(i))
        {
            string fieldName = rd.GetName(i);

            if (members.Any(m => string.Equals(m.Name, fieldName, StringComparison.OrdinalIgnoreCase)))
            {
                accessor[t, fieldName] = rd.GetValue(i);
            }
        }
    }

    return t;
}
4

Took the method from pimbrouwers' answer and optimized it slightly. Reduce LINQ calls.

Maps only properties found in both the object and data field names. Handles DBNull. Other assumption made is your domain model properties absolutely equals table column/field names.

/// <summary>
/// Maps a SqlDataReader record to an object.
/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="dataReader"></param>
/// <param name="newObject"></param>
public static void MapDataToObject<T>(this SqlDataReader dataReader, T newObject)
{
    if (newObject == null) throw new ArgumentNullException(nameof(newObject));

    // Fast Member Usage
    var objectMemberAccessor = TypeAccessor.Create(newObject.GetType());
    var propertiesHashSet =
            objectMemberAccessor
            .GetMembers()
            .Select(mp => mp.Name)
            .ToHashSet();

    for (int i = 0; i < dataReader.FieldCount; i++)
    {
        if (propertiesHashSet.Contains(dataReader.GetName(i)))
        {
            objectMemberAccessor[newObject, dataReader.GetName(i)]
                = dataReader.IsDBNull(i) ? null : dataReader.GetValue(i);
        }
    }
}

Sample Usage:

public async Task<T> GetAsync<T>(string storedProcedureName, SqlParameter[] sqlParameters = null) where T : class, new()
{
    using (var conn = new SqlConnection(_connString))
    {
        var sqlCommand = await GetSqlCommandAsync(storedProcedureName, conn, sqlParameters);
        var dataReader = await sqlCommand.ExecuteReaderAsync(CommandBehavior.CloseConnection);

        if (dataReader.HasRows)
        {
            var newObject = new T();

            if (await dataReader.ReadAsync())
            { dataReader.MapDataToObject(newObject); }

            return newObject;
        }
        else
        { return null; }
    }
}
  • This version is case sensitive, Oracle always returns column names uppercase – Carlos ABS Dec 6 '18 at 15:04
  • 1
    That is correct. The properties/columns must match and is case sensitive. You could however modify the objectMemberAccessor key to a string function of ToUpper() / ToLower(). If I ever do a version of Attributes I will modify this solution. – HouseCat Dec 9 '18 at 14:42
1

I took both pimbrouwers and HouseCat's answers and come up with me. In my scenario, the column name in database has snake case format.

public static T ConvertToObject<T>(string query) where T : class, new()
    {
        using (var conn = new SqlConnection(AutoConfig.ConnectionString))
        {
            conn.Open();
            var cmd = new SqlCommand(query) {Connection = conn};
            var rd = cmd.ExecuteReader();
            var mappedObject = new T();

            if (!rd.HasRows) return mappedObject;
            var accessor = TypeAccessor.Create(typeof(T));
            var members = accessor.GetMembers();
            if (!rd.Read()) return mappedObject;
            for (var i = 0; i < rd.FieldCount; i++)
            {
                var columnNameFromDataTable = rd.GetName(i);
                var columnValueFromDataTable = rd.GetValue(i);

                var splits = columnNameFromDataTable.Split('_');
                var columnName = new StringBuilder("");
                foreach (var split in splits)
                {
                    columnName.Append(CultureInfo.InvariantCulture.TextInfo.ToTitleCase(split.ToLower()));
                }

                var mappedColumnName = members.FirstOrDefault(x =>
                    string.Equals(x.Name, columnName.ToString(), StringComparison.OrdinalIgnoreCase));

                if(mappedColumnName == null) continue;
                var columnType = mappedColumnName.Type;

                if (columnValueFromDataTable != DBNull.Value)
                {
                    accessor[mappedObject, columnName.ToString()] = Convert.ChangeType(columnValueFromDataTable, columnType);
                }
            }

            return mappedObject;
        }
    }
0

There is a SqlDataReader Mapper library in NuGet which helps you to map SqlDataReader to an object. Here is how it can be used (from GitHub documentation):

var mappedObject = new SqlDataReaderMapper<DTOObject>(reader)
    .Build();

Or, if you want a more advanced mapping:

var mappedObject = new SqlDataReaderMapper<DTOObject>(reader)
     .NameTransformers("_", "")
     .ForMember<int>("CurrencyId")
     .ForMember("CurrencyCode", "Code")
     .ForMember<string>("CreatedByUser", "User").Trim()
     .ForMemberManual("CountryCode", val => val.ToString().Substring(0, 10))
     .ForMemberManual("ZipCode", val => val.ToString().Substring(0, 5), "ZIP")
     .Build();

Advanced mapping allows you to use name transformers, change types, map fields manually or even apply functions to the object's data so that you can easily map objects even if they differ with a reader.

0

Perhaps the approach I will present isn't the most efficient but gets the job done with very little coding effort. The main benefit I see here is that you don't have to deal with data structure other than building a compatible (mapable) object.

If you convert the SqlDataReader to DataTable then serialize it using JsonConvert.SerializeObject you can then deserialize it to a known object type using JsonConvert.DeserializeObject

Here is an example of implementation:

        SqlDataReader reader = null;
        SqlConnection myConnection = new SqlConnection();
        myConnection.ConnectionString = ConfigurationManager.ConnectionStrings["DatabaseConnection"].ConnectionString;
        SqlCommand sqlCmd = new SqlCommand();
        sqlCmd.CommandType = CommandType.Text;
        sqlCmd.CommandText = "SELECT * FROM MyTable";
        sqlCmd.Connection = myConnection;
        myConnection.Open();
        reader = sqlCmd.ExecuteReader();

        var dataTable = new DataTable();
        dataTable.Load(reader);

        List<MyObject> myObjects = new List<MyObject>();

        if (dataTable.Rows.Count > 0)
        {
            var serializedMyObjects = JsonConvert.SerializeObject(dataTable);
            // Here you get the object
            myObjects = (List<MyObject>)JsonConvert.DeserializeObject(serializedMyObjects, typeof(List<MyObject>));
        }

        myConnection.Close();
0

This is based on the other answers but I used standard reflection to read the properties of the class you want to instantiate and fill it from the dataReader. You could also store the properties using a dictionary persisted b/w reads.

Initialize a dictionary containing the properties from the type with their names as the keys.

var type = typeof(Foo);
var properties = type.GetProperties(BindingFlags.Public | BindingFlags.Instance);
var propertyDictionary = new Dictionary<string,PropertyInfo>();
foreach(var property in properties)
{
    if (!property.CanWrite) continue;
    propertyDictionary.Add(property.Name, property);
}

The method to set a new instance of the type from the DataReader would be like:

var foo = new Foo();
//retrieve the propertyDictionary for the type
for (var i = 0; i < dataReader.FieldCount; i++)
{
    var n = dataReader.GetName(i);
    PropertyInfo prop;
    if (!propertyDictionary.TryGetValue(n, out prop)) continue;
    var val = dataReader.IsDBNull(i) ? null : dataReader.GetValue(i);
    prop.SetValue(foo, val, null);
}
return foo;

If you want to write an efficient generic class dealing with multiple types you could store each dictionary in a global dictionary>.

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