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Possible Duplicate:
Is there a better alternative than this to 'switch on type'?

I need to iterate through all properties of my class and to check if its type of int the i need to do something, if its string .. then do something. I need it using switch-case. Here i am using switch in the following manner, but it asks for some constant. see the code below:

 public static bool ValidateProperties(object o)
{
    if(o !=null)
    {
        var sourceType = o.GetType();
        var properties = sourceType.GetProperties(BindingFlags.Public | BindingFlags.Static);
        foreach (var property in properties)
        {
            var type = property.GetType();
            switch (type)
            {
                *case typeof(int):* getting error here
                    // d
            }
        }
    }
}

Also i want to know , what check should I use, typeof(int) or typeof(Int32)?

3

4 Answers 4

55

You cannot use a switch block to test values of type Type. Compiling your code should give you an error saying something like:

A switch expression or case label must be a bool, char, string, integral, enum, or corresponding nullable type

You'll need to use if-else statements instead.

Also: typeof(int) and typeof(Int32) are equivalent. int is a keyword and Int32 is the type name.

UPDATE

If you expect that most types will be intrinsic you may improve performance by using a switch block with Type.GetTypeCode(...).

For example:

switch (Type.GetTypeCode(type))
{
    case TypeCode.Int32:
        // It's an int
        break;

    case TypeCode.String:
        // It's a string
        break;

    // Other type code cases here...

    default:
        // Fallback to using if-else statements...
        if (type == typeof(MyCoolType))
        {
            // ...
        }
        else if (type == typeof(MyOtherType))
        {
            // ...
        } // etc...
}
0
11

A good and extensible way to do this is to make a dictionary of types and delegates of appropriate type, based on what you want to do with values of that type.

For example:

var typeProcessorMap = new Dictionary<Type, Delegate>
{
    { typeof(int), new Action<int>(i => { /* do something with i */ }) },
    { typeof(string), new Action<string>(s => { /* do something with s */ }) },
};

And then:

void ValidateProperties(object o)
{
    var t = o.GetType();
    typeProcessorMap[t].DynamicInvoke(o); // invoke appropriate delegate
}

This solution is extensible, configurable even at run time, and as long as you keep the keys and types of delegate values in typeProcessorMap correctly matched is also type safe.

See it in action.

4
  • This is a nice solution, bearing in mind that DynamicInvoke can be a bit slow in performance-critical sections.
    – Kirk Woll
    Sep 25, 2011 at 0:48
  • @KirkWoll: Would making all of the delegates Action<object> and casting the parameter inside the delegate body be faster? I 'm not sure exactly what DynamicInvoke does behind the scenes.
    – Jon
    Sep 25, 2011 at 0:53
  • I'm not sure exactly what DynamicInvoke does behind the scenes either. :) But I posted an "answer" below to illustrate the performance difference.
    – Kirk Woll
    Sep 25, 2011 at 15:28
  • Apparently has/had Skeet's blessing in 2008. Fwiw, however, the ideone link isn't working for me (OS X & Safari).
    – ruffin
    May 6, 2015 at 21:22
5

Usually, the easiest solution is to switch on the type name:

switch (type.Name)
{
    case "Int32":
    ...
}
3
  • 7
    IMO, the sacrifice of type-safety is not worth it. After all, an if/else chain is almost equally concise and has the virtue of catching typos (and far more importantly -- future refactorings) at compile-time.
    – Kirk Woll
    Sep 25, 2011 at 0:31
  • Have you guys heard about unit tests? Anyway, I do use Jon's approach sometimes, but it's usually overkill. Sep 25, 2011 at 3:00
  • 9
    @Diego, unit tests are not a replacement for type safety.
    – Kirk Woll
    Sep 25, 2011 at 15:30
5

This "answer" is an elaboration for Jon's answer. (Marking CW)

For the record, DynamicInvoke is a bit slow. To illustrate this, consider the following program:

void Main()
{
    Func<int, string> myFunc = i => i.ToString();
    myFunc.DynamicInvoke(1);   // Invoke once so initial run costs are not considered
    myFunc(1);

    Stopwatch stopwatch = new Stopwatch();

    stopwatch.Start();
    for (int i = 0; i < 1000000; i++)
        myFunc.DynamicInvoke(1);
    stopwatch.Stop();

    var elapsed = stopwatch.Elapsed;

    stopwatch.Restart();
    for (int i = 0; i < 1000000; i++)
        myFunc(1);
    stopwatch.Stop();

    var elapsed2 = stopwatch.Elapsed;

    Console.WriteLine("DynamicInvoke: " + elapsed);
    Console.WriteLine("Direct Invocation: " + elapsed2);
}

Prints out:

DynamicInvoke: 00:00:03.1959900
Direct Invocation: 00:00:00.0735220

Which means that DynamicInvoke (in this simple case) is 42 times slower than direct invocation.