27

I'm using a third party library which returns a data reader. I would like a simple way and as generic as possible to convert it into a List of objects.
For example, say I have a class 'Employee' with 2 properties EmployeeId and Name, I would like the data reader (which contains a list of employees) to be converted into List< Employee>.
I guess I have no choice but to iterate though the rows of the data reader and for each of them convert them into an Employee object that I will add to the List. Any better solution? I'm using C# 3.5 and ideally I would like it to be as generic as possible so that it works with any classes (the field names in the DataReader match the property names of the various objects).

  • Damn, wish I was near a compiler right now, I would love to write this code! I will have crack at it tomorrow if no-one else blows me away. +1 question. – Matt Howells Jul 29 '09 at 20:53
  • @MattHowells you can still write it, personally would love to see if its something different. – nawfal Feb 11 '13 at 17:57
  • possible duplicate of stackoverflow.com/questions/1464883/… – nawfal Feb 11 '13 at 18:17
61

Do you really need a list, or would IEnumerable be good enough?

I know you want it to be generic, but a much more common pattern is to have a static Factory method on the target object type that accepts a datarow (or IDataRecord). That would look something like this:

public class Employee
{
    public int Id { get; set; }
    public string Name { get; set; }

    public static Employee Create(IDataRecord record)
    {
        return new Employee
        {
           Id = record["id"],
           Name = record["name"]
        };
    }
}

.

public IEnumerable<Employee> GetEmployees()
{
    using (var reader = YourLibraryFunction())
    {
       while (reader.Read())
       {
           yield return Employee.Create(reader);
       }
    }
}

Then if you really need a list rather than an IEnumerable you can call .ToList() on the results. I suppose you could also use generics + a delegate to make the code for this pattern more re-usable as well.

Update: I saw this again today and felt like writing the generic code:

public IEnumerable<T> GetData<T>(IDataReader reader, Func<IDataRecord, T> BuildObject)
{
    try
    {
        while (reader.Read())
        {
            yield return BuildObject(reader);
        }
    }
    finally
    {
         reader.Dispose();
    }
}

//call it like this:
var result = GetData(YourLibraryFunction(), Employee.Create);
  • I'm definitely of the same sentiment regarding returning an IEnumerable and then perhaps calling ToList. – Noldorin Jul 29 '09 at 21:06
  • 1
    The updated version is brilliant, tyvm. – SpaceBison Jul 18 '12 at 15:17
  • It's even easier than I thought back then: in many cases, the generic method can infer the type based on the delegate you pass to it. – Joel Coehoorn Jul 18 '12 at 15:25
  • Since "yield return" defers the execution, the updated version didn't work for me because by the time it executes, the DataReader is already closed. It's still a good example, though. – Korey Apr 3 '13 at 18:56
  • @Korey I've used this pattern in a few other places here on Stack Overflow, where the difference is that instead of accepting a datareader as an argument to a function, I would change the code at the location where the datareader is first created to return an IEnumerable instead of datareader or something else. – Joel Coehoorn Apr 3 '13 at 19:19
24

You could build an extension method like:

public static List<T> ReadList<T>(this IDataReader reader, 
                                  Func<IDataRecord, T> generator) {
     var list = new List<T>();
     while (reader.Read())
         list.Add(generator(reader));
     return list;
}

and use it like:

var employeeList = reader.ReadList(x => new Employee {
                                               Name = x.GetString(0),
                                               Age = x.GetInt32(1)
                                        });

Joel's suggestion is a good one. You can choose to return IEnumerable<T>. It's easy to transform the above code:

public static IEnumerable<T> GetEnumerator<T>(this IDataReader reader, 
                                              Func<IDataRecord, T> generator) {
     while (reader.Read())
         yield return generator(reader);
}

If you want to automatically map the columns to properties, the code idea is the same. You can just replace the generator function in the above code with a function that interrogates typeof(T) and sets the properties on the object using reflection by reading the matched column. However, I personally prefer defining a factory method (like the one mentioned in Joel's answer) and passing a delegate of it into this function:

 var list = dataReader.GetEnumerator(Employee.Create).ToList();
  • 1
    +1 I use extension methods like this all the time. – Nick Jul 29 '09 at 20:54
  • 0 vote down Very nice answer. Linq is so cool. Is it arrogant to feel good about yourself because you can finally read code like this and appreciate it? – rp. Jul 29 '09 at 20:55
  • 1
    The "0 vote down" doesn't belong! I voted this up. Copy and paste devils got me here. – rp. Jul 29 '09 at 20:56
  • When I copy and paste this I get 'the type or namespace name 'T' could not be found'. I might be missing something obvious. Ideas? – Anthony Jul 29 '09 at 21:07
  • Why generator? Question specifies that properties map to columns. – Matt Howells Jul 29 '09 at 21:08
3

Whilst I wouldn't recommend this for production code, but you can do this automatically using reflection and generics:

public static class DataRecordHelper
{
    public static void CreateRecord<T>(IDataRecord record, T myClass)
    {
        PropertyInfo[] propertyInfos = typeof(T).GetProperties();

        for (int i = 0; i < record.FieldCount; i++)
        {
            foreach (PropertyInfo propertyInfo in propertyInfos)
            {
                if (propertyInfo.Name == record.GetName(i))
                {
                    propertyInfo.SetValue(myClass, Convert.ChangeType(record.GetValue(i), record.GetFieldType(i)), null);
                    break;
                }
            }
        }
    }
}

public class Employee
{
    public int Id { get; set; }
    public string LastName { get; set; }
    public DateTime? BirthDate { get; set; }

    public static IDataReader GetEmployeesReader()
    {
        SqlConnection conn = new SqlConnection(ConfigurationManager.ConnectionStrings["NorthwindConnectionString"].ConnectionString);

        conn.Open();
        using (SqlCommand cmd = new SqlCommand("SELECT EmployeeID As Id, LastName, BirthDate FROM Employees"))
        {
            cmd.Connection = conn;
            return cmd.ExecuteReader(CommandBehavior.CloseConnection);
        }
    }

    public static IEnumerable GetEmployees()
    {
        IDataReader rdr = GetEmployeesReader();
        while (rdr.Read())
        {
            Employee emp = new Employee();
            DataRecordHelper.CreateRecord<Employee>(rdr, emp);

            yield return emp;
        }
    }
}

You can then use CreateRecord<T>() to instantiate any class from the fields in a data reader.

<asp:GridView ID="GvEmps" runat="server" AutoGenerateColumns="true"></asp:GridView>

GvEmps.DataSource = Employee.GetEmployees();
GvEmps.DataBind();
  • What wouldn't you recommend it for production? – Anthony Jul 30 '09 at 7:55
  • 1
    Because it "feels" wrong. Automatically setting properties from a datareader means you have less control over error checking and using reflection is expensive. I don't feel it's robust, though it should work. However, if you are serious about using this kind of technique then you'd be best looking a proper ORM mapping solution, such as LinqToSql, Entity Framwork, nHibernate etc. – Dan Diplo Jul 30 '09 at 10:03
  • @DanDiplo exactly! this is what most mappers prefer to do, and only we programmers know how brittle it is. we should think about domain objects and meta programming should be the last to resort! – nawfal Feb 5 '13 at 19:32
  • Use some caching though to improve reflection performance, as shown here the basic idea is to not use reflection inside the loop.. – nawfal Feb 5 '13 at 19:47
  • I'm not sure I agree with the proposed brittleness of reflection. I've used it for this application in many production environments with great success. Reflection of course comes with much overhead, but caching the result of the grunt work can eliminate a lot of that overhead. In terms of automatically setting properties, I disagree here as well. Supposing you use generics and pass through an object, you can use reflection to invoke a specific constructor etc. – pim Feb 27 '16 at 19:18
1

We have implemented the following solution and feel it works pretty well. It's pretty simple and requires a bit more wiring up then what a mapper would do. However, sometimes it is nice to have the manual control and honestly, you wire up once and you're done.

In a nutshell: Our domain models implement an interface that has a method that takes in an IDataReader and populates the model properties from it. We then use Generics and Reflection to create an instance of the model and call the Parse method on it.

We considered using a constructor and passing IDataReader to it, but the basic performance checks we did seemed to suggest the interface was consistently faster (if only by a little). Also, the interface route provides instant feedback via compilation errors.

One of the things I like, is that you can utilize private set for properties like Age in the example below and set them straight from the database.

public interface IDataReaderParser
{
    void Parse(IDataReader reader);
}

public class Foo : IDataReaderParser
{
    public string Name { get; set; }
    public int Age { get; private set; }

    public void Parse(IDataReader reader)
    {
        Name = reader["Name"] as string;
        Age = Convert.ToInt32(reader["Age"]);
    }
}

public class DataLoader
{
    public static IEnumerable<TEntity> GetRecords<TEntity>(string connectionStringName, string storedProcedureName, IEnumerable<SqlParameter> parameters = null)
                where TEntity : IDataReaderParser, new()
    {
        using (var sqlCommand = new SqlCommand(storedProcedureName, Connections.GetSqlConnection(connectionStringName)))
        {
            using (sqlCommand.Connection)
            {
                sqlCommand.CommandType = CommandType.StoredProcedure;
                AssignParameters(parameters, sqlCommand);
                sqlCommand.Connection.Open();

                using (var sqlDataReader = sqlCommand.ExecuteReader())
                {
                    while (sqlDataReader.Read())
                    {
                        //Create an instance and parse the reader to set the properties
                        var entity = new TEntity();
                        entity.Parse(sqlDataReader);
                        yield return entity;
                    }
                }
            }
        }
    }
}

To call it, you simply provide the type parameter

IEnumerable<Foo> foos = DataLoader.GetRecords<Foo>(/* params */)
  • 1
    i like the solution with Interface. Maybe it would be nice to use new() as where-clause for T. So you don't need any reflection like Activator class. – Sebi Sep 23 '16 at 6:00
  • @Sebi thank you for the great suggestion! Somehow I forgot about that ability with generics! Note that you need to add new() as a generic constraint. Thank you for also expressing it kindly and without snark and down votes! – Airn5475 Sep 26 '16 at 14:22
  • @Aim5475 Thanks for your answer but isn't it very similar to this one? stackoverflow.com/a/1202973/15928 – Anthony Sep 28 '16 at 10:44
  • 1
    @Anthony I think I agree with you after looking more closely at the 'Update' again, so no disrespect to that solution. IMO, I feel mine is a bit cleaner in that I don't have to pass two functions to the 'GetRecords' method, just a type parameter. #moreThanOneWayToSkinACat – Airn5475 Sep 28 '16 at 12:45
1

NOTE: This is .NET Core code

A stupidly performant option, should you not mind an external dependency (the amazing Fast Member nuget package):

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;
}

To use:

public IEnumerable<T> GetResults<T>(SqlDataReader dr) where T : class, new()
{
    while (dr.Read())
    {
        yield return dr.ConvertToObject<T>());
    }
}
0

The simplest Solution :

var dt=new DataTable();
dt.Load(myDataReader);
list<DataRow> dr=dt.AsEnumerable().ToList();

Then select them in order to map them to any type.

0

For .NET Core 2.0:

Here is an extension method that works with .NET CORE 2.0 to execute RAW SQL and map results to LIST of arbitrary types:

USAGE:

 var theViewModel = new List();
 string theQuery = @"SELECT * FROM dbo.Something";
 theViewModel = DataSQLHelper.ExecSQL(theQuery,_context);

 using Microsoft.EntityFrameworkCore;
 using System.Data;
 using System.Data.SqlClient;
 using System.Reflection;

public static List ExecSQL(string query, myDBcontext context)
 {
 using (context)
 {
 using (var command = context.Database.GetDbConnection().CreateCommand())
 {
 command.CommandText = query;
 command.CommandType = CommandType.Text;
 context.Database.OpenConnection();
                using (var result = command.ExecuteReader())
                {
                    List<T> list = new List<T>();
                    T obj = default(T);
                    while (result.Read())
                    {
                        obj = Activator.CreateInstance<T>();
                        foreach (PropertyInfo prop in obj.GetType().GetProperties())
                        {
                            if (!object.Equals(result[prop.Name], DBNull.Value))
                            {
                                prop.SetValue(obj, result[prop.Name], null);
                            }
                        }
                        list.Add(obj);
                    }
                    return list;

                }
            }
        }
    }

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