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We do a lot of packing and unpacking from DataRow. Yes, we should be using an ORM, but until then, this is what we've got. As a result of this, there is a lot of code that looks like this:

string username;

var temp = dr["Username"];
if (DbNull.Equals (temp))
{
    username = "Anonymous";
} else {
    username = dr["Username"].ToString();
}

Eventually, this became a pattern and was translated into helper methods:

string username = StringExtensions.SafeParse (dr["Username"], "Anonymous");

This is still cumbersome, and required extension methods for all kinds of primitives. It also clutters up the code. I created a generic extension method, on object, called As<T>. Usage looks like:

string username = dr["Username"].As<string> ("Anonymous");

This relatively simple change has been met with great aplomb with the other developers, and is getting used in a LOT of places. The part I'm unhappy with are potential performance implications. Now, I'm aware of no premature optimization. I definitely wrote the code without any premature optimization, and it's encapsulated enough that optimizing it afterwards shouldn't be a big deal. I've benchmarked the method to do about two and a half million conversions per second on my relatively modest 2GHz workstation, and I must admit this is phenomenal performance, compared to the time it saves other devs and the readability boost we gain. However, given the sample of code below, I feel like I'm misusing language features and it could be done much better. The method is xmldoc'ed with "HERE BE DRAGONS" for crying out loud! I'm looking for a better way to avoid the double-boxing. The actual version, which I've omitted for brevity, actually uses TryParse in many instances.

public static TDestination As<TDestination> (this object source, TDestination defaultValue = default(TDestination))
{
    if (source is TDestination)
        return (TDestination) source;

    if (source == null || DbNull.Equals(source))
        return defaultValue;

    if (TDestination is int)
        return (TDestination) (object) Convert.ToInt32 (source.ToString ());

    if (TDestination is long)
        return (TDestination) (object) Convert.ToInt64 (source.ToString ());

    if (TDestination is short)
        return (TDestination) (object) Convert.ToInt16 (source.ToString ());

    // and so on...
}
share|improve this question
    
Your As<TDestination> code sample does not compile. –  phoog Nov 9 '11 at 20:01

5 Answers 5

up vote 3 down vote accepted

Why not check if your object is IConvertible, and, if it is, use ToType:

var convertible = source as IConvertible;
if (convertible != null)
    return (TDestination)convertible.ToType(typeof(TDestination), Thread.CurrentThread.CurrentUICulture);
share|improve this answer
    
Ooooh I like this. –  insta Nov 9 '11 at 21:38

Based on the example As method given in your question, you could just do this instead:

public static TDestination As<TDestination>
    (this object source, TDestination defaultValue = default(TDestination))
{
    if ((source == null) || Convert.IsDBNull(source))
        return defaultValue;

    return (TDestination)source;
}
share|improve this answer
    
Does a straight cast like that do any conversion behavior or does it just rely on implicit casting? –  insta Oct 27 '11 at 23:12
    
@insta: No, it doesn't. But your own As method does an if (source is int) check before calling Convert.ToInt32, and does an if (source is long) check before calling Convert.ToInt64, etc. If you already know that source is a boxed int then calling ToString followed by Convert.ToInt32 followed by a boxing cast to object just gives you exactly what you started with -- a boxed int -- which you then cast to TDestination. (Similarly with long, short etc.) So why not just avoid the pointless round-trip and cast to TDestination directly? –  LukeH Oct 28 '11 at 1:45
    
oh christ it's because I screwed up the question. My code actually checks typeof(TDestination) not source, which changes the game a little bit. –  insta Oct 28 '11 at 14:58

Whenever i goes into reflection or checking the T of my generic class i'm going to use a dictionary Dictionary<Type, ???>. As value i always put something in that should be done for each time as Func or Action. In your case i would write it maybe in that way:

public static class MyConverter
{
    private static Dictionary<Type, Func<object, object>> _MyConverter;

    static MyConverter()
    {
        _MyConverter = new Dictionary<Type, Func<object, object>>();

        // Use the Add() method to include a lambda with the proper signature.
        _MyConverter.Add(typeof(int), (source) => Convert.ToInt32 (source.ToString()));

        // Use the index operator to include a lambda with the proper signature.
        _MyConverter[typeof(double)] = (source) => Convert.ToDouble(source.ToString());

        // Use the Add() method to include a more complex lambda using curly braces.
        _MyConverter.Add(typeof(decimal), (source) =>
        {
            return Convert.ToDecimal(source.ToString());
        });

        // Use the index operator to include a function with the proper signature.
        _MyConverter[typeof(float)] = MySpecialConverterFunctionForFloat;
    }

    // A function that does some more complex conversion which is simply unreadable as lambda.
    private static object MySpecialConverterFunctionForFloat(object source)
    {
        var something = source as float?;

        if (something != null
            && something.HasValue)
        {
            return something.Value;
        }

        return 0;
    }

    public static TDestination As<TDestination>(this object source, TDestination defaultValue = default(TDestination))
    {
        // Do some parameter checking (if needed).
        if (source == null)
            throw new ArgumentNullException("source");

        // The fast-path exit.
        if (source.GetType().IsAssignableFrom(typeof(TDestination)))
            return (TDestination)source;

        Func<object, object> func;

        // Check if a converter is available.
        if (_MyConverter.TryGetValue(typeof(TDestination), out func))
        {
            // Call it and return the result.
            return (TDestination)func(source);
        }

        // Nothing found, so return the wished default.
        return defaultValue;
    }
}

The only drawback of this approach that the usage of object leads to (un)boxing which maybe makes some performance problems if the function is called repeatedly for often in a very short time. But as always measure before claiming.

On the other side it is quite easy to add further converter and you'll be always O(1) due to the usage of the dictionary.

share|improve this answer
    
This looks awesome. Do you have access to Visual Studio to test it? I've found problems with the constructor, as it doesn't know about TDestination then. Moving the dictionary initialization into the As method itself seems to defeat the purpose of caching :( –  insta Oct 28 '11 at 16:01

How about defining an extension method for the datarow Field property where you can supply your own null value of the same type as the Field, like so:

        public static T Field<T>(this DataRow row, string columnName, T nullValue) { return !row.IsNull(columnName) ? row.Field<T>(columnName) : nullValue; }
share|improve this answer

I agree that making a variation of the Field function is the best way to go, but if you are concerned about performance then don't use IsNull() or the actual Field function as these perform a lot of redundant checking. The following method is all you really need.

public static T Field<T>(this DataRow row, string columnName, T nullValue)
{
  object value = row[columnName];
  return ((DBNull.Value == value) ? nullValue : (T)value);
}

This removes the need for additional boxing to occur and if you're careful with how you use the nullValue parameter you could generally forego having to specify T explicitly when calling the function. win-win.

share|improve this answer
    
The extension method isn't specific to DataRow though, that's just the most common usage of it. We also use it as a general-purpose casting and data-conversion method. –  insta Nov 10 '11 at 15:21
    
In that case, the static constructor method mentioned previously is your most flexible solution. But it comes at quite the price. If you are truly concerned with performance you should consider making specialized AS functions like the one I've provided for your most common cases. This way they can be as optimized as possible. –  0rigin Nov 13 '11 at 17:33

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