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C# - Is there a better alternative than this to ‘switch on type’?

If you want to switch on a type of object, what is the best way to do this?

Code snippet

private int GetNodeType(NodeDTO node)
{
    switch (node.GetType())
    { 
        case typeof(CasusNodeDTO):
            return 1;
        case typeof(BucketNodeDTO):
            return 3;
        case typeof(BranchNodeDTO):
            return 0;
        case typeof(LeafNodeDTO):
            return 2;
        default:
            return -1;
    }
}

I know this doesn't work that way, but I was wondering how you could solve this. Is an if/else statement appropriate in this case?

Or do you use the switch and add .ToString() to the type?

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11  
If anyone's interested, Peter Hallam discusses why this is not a feature of C# at blogs.msdn.com/peterhal/archive/2005/07/05/435760.aspx –  M. Dudley Jan 25 '10 at 16:50
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marked as duplicate by nawfal, mgibsonbr, James Wood, Peter O., Brian Mains Jan 3 '13 at 3:06

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

11 Answers

up vote 41 down vote accepted

If I really had to switch on type of object, I'd use .ToString(). However, I would avoid it at all costs: IDictionary<Type, int> will do much better, visitor might be an overkill but otherwise it is still a perfectly fine solution.

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IDictionary is a fine solution in my opinion. If it's more than one or two types to test, I'd usually use that. Well, or just use polymorphism in the first place to avoid switching on types. –  OregonGhost Apr 2 '09 at 9:12
    
Polymorphism where approriate. If this "type" is used for serialization then you'd be mixing concerns. –  Dave Van den Eynde Apr 2 '09 at 9:27
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This won't directly solve your problem as you want to switch on your own user-defined types, but for the benefit of others who only want to switch on built-in types, you can use the TypeCode enumeration:

switch (Type.GetTypeCode(node.GetType()))
{
    case TypeCode.Decimal:
        // Handle Decimal
        break;

    case TypeCode.Int32:
        // Handle Int32
        break;
     ...
}
share|improve this answer
    
Thanks, that really helped me out there. –  blissfreak Oct 12 '11 at 2:51
    
Nice idea, but doesn't seem to work for user defined classes. –  Samik R Dec 8 '11 at 18:23
    
No, everything else will just give 'Object' back. –  Ashley Dec 8 '11 at 22:45
    
@splattne - Just curious, why exactly was there any need to edit the indentation? –  Ashley Sep 19 '13 at 23:53
    
@Ashley I fixed the snippet because the "..." weren't part of the code block. See: imgur.com/CfTIzTU - Fixing the indentation was a by-product. :-) –  splattne Sep 20 '13 at 10:03
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In the MSDN blog post Many Questions: switch on type is some information on why .NET does not provide switching on types.

As usual - workarounds always exists.

This one isn't mine, but unfortunately I have lost the source. It makes switching on types possible, but I personally think it's quite awkward (the dictionary idea is better):

  public class Switch
  {
      public Switch(Object o)
      {
          Object = o;
      }

      public Object Object { get; private set; }
  }


  /// <summary>
  /// Extensions, because otherwise casing fails on Switch==null
  /// </summary>
  public static class SwitchExtensions
  {
      public static Switch Case<T>(this Switch s, Action<T> a)
            where T : class
      {
          return Case(s, o => true, a, false);
      }

      public static Switch Case<T>(this Switch s, Action<T> a,
           bool fallThrough) where T : class
      {
          return Case(s, o => true, a, fallThrough);
      }

      public static Switch Case<T>(this Switch s,
          Func<T, bool> c, Action<T> a) where T : class
      {
          return Case(s, c, a, false);
      }

      public static Switch Case<T>(this Switch s,
          Func<T, bool> c, Action<T> a, bool fallThrough) where T : class
      {
          if (s == null)
          {
              return null;
          }

          T t = s.Object as T;
          if (t != null)
          {
              if (c(t))
              {
                  a(t);
                  return fallThrough ? s : null;
              }
          }

          return s;
      }
  }

Usage:

 new Switch(foo)
     .Case<Fizz>
         (action => { doingSomething = FirstMethodCall(); })
     .Case<Buzz>
         (action => { return false; })
share|improve this answer
    
Pretty cool although this is a fairly expensive pattern that leads to a relatively large amount of time in GC. But still, very readable... –  JoeGeeky Nov 2 '10 at 9:50
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I'd just use an if statement. In this case:

Type nodeType = node.GetType();
if (nodeType == typeof(CasusNodeDTO))
{
}
else ... 

The other way to do this is:

if (node is CasusNodeDTO)
{
}
else ...

The first example is true for exact types only, where the latter checks for inheritance too.

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I second that, but I think comparing references is faster than repeated casting attempts. –  Dave Van den Eynde Apr 2 '09 at 9:15
    
I'm not sure its comparing references though. I think the RuntimeType system comes into effect. I'm just guessing though, because if it wasn't something like that, the compiler wouldn't tell you that typeof(X) is not a constant –  Ch00k Apr 2 '09 at 10:09
1  
the second type check with is IS slower because it checks the whole class hierarchy. –  msfanboy Aug 12 '11 at 22:44
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I'm faced with the same problem and came across this post. Is this what's meant by the IDictionary approach:

Dictionary<Type, int> typeDict = new Dictionary<Type, int>
{
    {typeof(int),0},
    {typeof(string),1},
    {typeof(MyClass),2}
};

void Foo(object o)
{
    switch (typeDict[o.GetType()])
    {
        case 0:
            Print("I'm a number.");
            break;
        case 1:
            Print("I'm a text.");
            break;
        case 2:
            Print("I'm classy.");
            break;
        default:
            break;
    }
}

If so, I can't say I'm a fan of reconciling the numbers in the dictionary with the case statements.

This would be ideal but the dictionary reference kills it:

void FantasyFoo(object o)
{
    switch (typeDict[o.GetType()])
    {
        case typeDict[typeof(int)]:
            Print("I'm a number.");
            break;
        case typeDict[typeof(string)]:
            Print("I'm a text.");
            break;
        case typeDict[typeof(MyClass)]:
            Print("I'm classy.");
            break;
        default:
            break;
    }
}

Is there another implementation I've overlooked?

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nice one, I like it –  Raffaeu Jun 13 '11 at 13:05
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One approach is to add a pure virtual GetNodeType() method to NodeDTO and override it in the descendants so that each descendant returns actual type.

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While that's the OO way to handle it, you might decide that Node shouldn't have to support any of this. –  Dave Van den Eynde Apr 2 '09 at 9:16
    
A big +1 here and to Jason Coyne. Has no one else read the book Refactoring? This is a textbook example: refactoring.com/catalog/replaceConditionalWithPolymorphism.html –  TrueWill Aug 4 '10 at 1:14
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You can do this:

if (node is CasusNodeDTO)
{
    ...
}
else if (node is BucketNodeDTO)
{
    ...
}
...

While that would be more elegant, it's possibly not as efficient as some of the other answers here.

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Depending on what you are doing in the switch statement, the correct answer is polymorphism. Just put a virtual function in the interface/base class and override for each node type.

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You can do this:

function void PrintType(Type t) {
 var t = true;
 new Dictionary<Type, Action>{
   {typeof(bool), () => Console.WriteLine("bool")},
   {typeof(int),  () => Console.WriteLine("int")}
 }[t.GetType()]();
}

It's clear and its easy. It a bit slower than caching the dictionary somewhere.. but for lots of code this won't matter anyway..

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Anyone care to comment on why this got downvoted? What about it is either incorrect or does not perform well? –  Norman H Feb 14 '12 at 15:49
    
I don't think I would do that, but only for esthetical reasons (a bit silly really). That said, I like to see people think outside the box and it is a cool use of lambdas :) –  LOAS Mar 8 '12 at 9:16
    
This is an elegant solution that is efficient for large numbers of types and would clearly convey the authors intentions. –  Rupert Rawnsley Mar 30 at 12:21
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I'd use the string (Name) at the top of the switch:

  private int GetNodeType(NodeDTO node)
            {
                    switch (node.GetType().Name)
                    { 
                            case "CasusNodeDTO":
                                    return 1;
                                    break;
                            case "BucketNodeDTO":
                                    return 3;
                                    break;
                           // ...

                            default:
                                    return -1;
                                    break;
                    }
            }
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9  
If you change the Type's Name during refactoring, you could introduce a bug that would not be caught until runtime. –  Keith Sirmons Jul 15 '09 at 21:31
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I actually prefer the approach given as the answer here: C# - Is there a better alternative than this to 'switch on type'?

There is however a good argument about not implementing any type comparison methids in an object oriented language like C#. You could as an alternative extend and add extra required functionality using inheritance.

This point was discussed in the comments of the authors blog here: http://blogs.msdn.com/b/jaredpar/archive/2008/05/16/switching-on-types.aspx#8553535

I found this an extremely interesting point which changed my approach in a similar situation and only hope this helps others.

Kind Regards, Wayne

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