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

C# doesn't support switching on the type of an object. What is the best pattern of simulating this:

switch (typeof(MyObj))
    case Type1:
    case Type2:
    case Type3:

Thanks!

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16  
Polymorphism​.​ –  Ignacio Vazquez-Abrams Dec 18 '10 at 14:34
1  
Or dynamic dispatch: stackoverflow.com/questions/3902496/… –  Kirk Woll Dec 18 '10 at 14:35
    
3  
Can you describe why you are switching on the type of an object? That would help. Also, what are the relationships amongst the types? Do they all have a common base type (other than object)? Are they all class types? Is there ever a case where an object can fall into two of your type categories? (If two of them are interfaces and the object implements both, for instance.) Are the types ever nullable value types? Enums? Delegates? Is covariance of generic delegates and interfaces ever a factor? –  Eric Lippert Dec 18 '10 at 14:47
    
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marked as duplicate by ChrisF, Michael Myers Sep 26 '12 at 16:25

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.

5 Answers

up vote 43 down vote accepted

I usually use a dictionary of types and delegates.

var @switch = new Dictionary<Type, Action> {
    { typeof(Type1), () => ... },
    { typeof(Type2), () => ... },
    { typeof(Type3), () => ... },
};

@switch[typeof(MyType)]();

It's a little less flexable as you can't fall through cases, continue etc. But I rarely do so anyway.

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2  
You should probably do a check if that type is in the dictionary. Could do so fairly simple like this if(@switch.ContainsKey(typeof(MyType))) @switch[typeof(MyType)](); –  Cort3z Feb 26 '13 at 23:05
1  
This should be a very efficient/performant solution. Just note that this won't work with subclasses. –  sparebytes Sep 10 '13 at 20:04
    
@sparebytes Why not? –  Yevgeni Grinberg Sep 17 '13 at 10:54
    
@YevgeniGrinberg I haven't tested this, but I'm certain that typeof(object) != typeof(MyType) even though MyType is a subclass of object. –  sparebytes Sep 17 '13 at 16:21
1  
If you want a solution that works with sub-types, then at some point IsAssignableFrom will have to be used to make the comparison. This answer supports sub-types but its ussage is a little verbose –  sparebytes Sep 17 '13 at 16:28
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There is a simple answer to this question at Switch case on type c# which use a dictionary of types to look-up a lambda function.

Here is how it might be used

    var ts = new TypeSwitch()
        .Case((int x) => Console.WriteLine("int"))
        .Case((bool x) => Console.WriteLine("bool"))
        .Case((string x) => Console.WriteLine("string"));

    ts.Switch(42);     
    ts.Switch(false);  
    ts.Switch("hello"); 
}

There is also a generalized solution to this problem in terms of pattern matching (both types and run-time checked conditions) at switch / pattern matching idea

  var getRentPrice = new PatternMatcher<int>()
        .Case<MotorCycle>(bike => 100 + bike.Cylinders * 10) 
        .Case<Bicycle>(30) 
        .Case<Car>(car => car.EngineType == EngineType.Diesel, car => 220 + car.Doors * 20)
        .Case<Car>(car => car.EngineType == EngineType.Gasoline, car => 200 + car.Doors * 20)
        .Default(0);

    var vehicles = new object[] {
        new Car { EngineType = EngineType.Diesel, Doors = 2 },
        new Car { EngineType = EngineType.Diesel, Doors = 4 },
        new Car { EngineType = EngineType.Gasoline, Doors = 3 },
        new Car { EngineType = EngineType.Gasoline, Doors = 5 },
        new Bicycle(),
        new MotorCycle { Cylinders = 2 },
        new MotorCycle { Cylinders = 3 },
    };

    foreach (var v in vehicles)
    {
        Console.WriteLine("Vehicle of type {0} costs {1} to rent", v.GetType(), getRentPrice.Match(v));
    }
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I did it one time with a workaround, hope it helps.

string fullName = typeof(MyObj).FullName;

switch (fullName)
{
    case "fullName1":
    case "fullName2":
    case "fullName3":
}
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7  
This approach is fragile if you rename/move any of the classes. –  Lee Dec 18 '10 at 15:01
7  
A little refactoring and you are screwed. –  weismat Jun 16 '11 at 6:32
    
Yeah, but I can not add: case typeof(Bitmap).FullName: –  Pedro77 Jul 18 '13 at 22:31
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It is a hole in C#'s game, no silver bullit yet.

You should google on the 'visitor pattern' but it might be a little heavy for you but still something you should know about.

Here's another take on the matter using Linq: http://community.bartdesmet.net/blogs/bart/archive/2008/03/30/a-functional-c-type-switch.aspx

Otherwise something along these lines could help

// nasty..
switch(MyObj.GetType.ToString()){
  case "Type1": etc
}

// clumsy...
if myObj  is Type1 then
if myObj is Type2 then

etc.

Good luck!

GJ

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The problem with the functional c-type switch is that it is not getting the precompiled speed that the actual switch-case syntax gets. This can lull the programmer into overusing this switch- look-alike class thinking that it gets the same advantages. This looks like a glamorous wrapper for a more expensive if-then-with-lambdas. –  IAbstract Dec 18 '10 at 15:12
    
In the case of testing for types, I would actually prefer testing with the if-then as I don't have to mess with strings. One simple if-then against @Mark's solution: if (typeTests.Keys.Contains(TypeToTest)) and you have something probably comparable to performance with switch-case (because of the hashed keys) and not near as error prone, IMO. –  IAbstract Dec 18 '10 at 15:32
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I have used this form of switch-case on rare occasion. Even then I have found another way to do what I wanted. If you find that this is the only way to accomplish what you need, I would recommend @Mark H's solution.

If this is intended to be a sort of factory creation decision process, there are better ways to do it. Otherwise, I really can't see why you want to use the switch on a type.

Here is a little example expanding on Mark's solution. I think it is a great way to work with types:

Dictionary<Type, Action> typeTests;

public ClassCtor()
{
    typeTests = new Dictionary<Type, Action> ();

    typeTests[typeof(int)] = () => DoIntegerStuff();
    typeTests[typeof(string)] = () => DoStringStuff();
    typeTests[typeof(bool)] = () => DoBooleanStuff();
}

private void DoBooleanStuff()
{
   //do stuff
}

private void DoStringStuff()
{
    //do stuff
}

private void DoIntegerStuff()
{
    //do stuff
}

public Action CheckTypeAction(Type TypeToTest)
{
    if (typeTests.Keys.Contains(TypeToTest))
        return typeTests[TypeToTest];

    return null; // or some other Action delegate
}
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