142

Possible Duplicate:
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!

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.

170

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.

  • 8
    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)](); – Automatico Feb 26 '13 at 23:05
  • 2
    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
  • 2
    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
  • 4
    I would rather use the Action action; if(@switch.TryGetValue(typeof(Type1), out action) action(); instead of searching twice.. (contains & indexers) – J. van Langen Mar 10 '15 at 10:51
24

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));
    }
9

It is a hole in C#'s game, no silver bullet 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.

  • 1
    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
  • 1
    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
  • I liked this method as a way to help generate moq models for testing – cyclical Jan 26 '17 at 16:24
4

I did it one time with a workaround, hope it helps.

string fullName = typeof(MyObj).FullName;

switch (fullName)
{
    case "fullName1":
    case "fullName2":
    case "fullName3":
}
  • 19
    This approach is fragile if you rename/move any of the classes. – Lee Dec 18 '10 at 15:01
  • 24
    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
  • 8
    This is less fragile in C# 6.0 using nameof: case nameof(<classname>) – Josh Feb 26 '16 at 20:47
  • 1
    You would use nameof(<classname>) instead of nameof(<variablename>). For instance, in the example above, nameof(MyObj). However I was mistaken as this is switching on the full name, whereas nameof will only give you the class name. – Josh Mar 31 '16 at 18:28
3

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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