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I would like use a switch statement which takes several variables and looks like this:

switch (intVal1, strVal2, boolVal3)
   case 1, "hello", false:
   case 2, "world", false:
   case 2, "hello", false:

   etc ....

As far as I am concerned this is not possible in c# pure, the question is: is there any 3d party library which implements something like this in a nice and efficient way. (And I do not want to use nested switch statements for obvious reasons).

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I'd wager that there's something fishy with your design if you feel the need to do this. You've got a combinatorial explosion on your hands here. –  Aaronaught Nov 1 '11 at 13:58
1… this is something you might want to read –  ashutosh raina Nov 1 '11 at 14:00
+1 for combinatorial explosion. –  JonH Nov 1 '11 at 14:01
Well, it is the way its: combinatorial explosion is not bad by default. It is like RGB, you have a color code which is defined by 3 numbers, now you have 10 static colors Red, Green, Blue etc and you want to convert static colors in RBG and back and there is not way you can do it say mathematically because third RGB parameter is a string. –  BanditoBunny Nov 1 '11 at 14:03
Uh... this is exactly not like RGB, you'd never see a switch statement on every single possible colour, and if you needed to pick out very specific colours, you'd express the entire value as an Int32 (A * R * G * B). –  Aaronaught Nov 1 '11 at 14:05

8 Answers 8

up vote 5 down vote accepted

There is no built-in functionality to do this in C#, and I don't know about any library to do this.

Here is an alternative approach, using Tuple and extension methods:

using System;

static class CompareTuple {
    public static bool Compare<T1, T2, T3>(this Tuple<T1, T2, T3> value, T1 v1, T2 v2, T3 v3) {
        return value.Item1.Equals(v1) && value.Item2.Equals(v2) && value.Item3.Equals(v3); 

class Program {
    static void Main(string[] args) {
        var t = new Tuple<int, int, bool>(1, 2, false);
        if (t.Compare(1, 1, false)) {
            // 1st case
        } else if (t.Compare(1, 2, false)) {
            // 2nd case
        } else { 
            // default

This is basically doing nothing more than providing a convenient syntax to check for multiple values - and using multiple ifs instead of a switch.

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Oh cool, real use case for tuples –  BanditoBunny Nov 1 '11 at 14:19

Let's look at this another way. If you have:

  • Very specific combinations you want to check for;
  • No comparisons to do;
  • A default handler for every non-matching case;
  • All primitive/value types (int, bool, string, etc.)

Then you can use a look-up table instead, which has a similar execution speed to the switch statement but not quite as efficient (since it needs to calculate hashes). Still, it's probably good enough. And it gives you the opportunity to name cases, to make this combinatorial explosion slightly less confusing and unmaintainable.

A code example:

private static readonly Tuple<int, int, bool> NameOfCase1 = 
    Tuple.Create(1, 1, false);
private static readonly Tuple<int, int, bool> NameOfCase2 =
    Tuple.Create(2, 1, false);
private static readonly Tuple<int, int, bool> NameOfCase3 =
    Tuple.Create(2, 2, false);

private static readonly Dictionary<Tuple<int, int, bool>, string> Results =
    new Dictionary<Tuple<int, int, bool>, string>
    { NameOfCase1, "Result 1" },
    { NameOfCase2, "Result 2" },
    { NameOfCase3, "Result 3" }

public string GetResultForValues(int x, int y, bool b)
    const string defaultResult = "Unknown";
    var lookupValue = Tuple.Create(x, y, b);
    string result;
    Results.TryGetValue(lookupValue, out result);
    return defaultResult;

If you need to actually execute a function or method for each case then you can use a result type (dictionary value) of Action<T> or Func<T> instead.

Note that I'm using Tuple<T1,T2,T3> here because it already has all of the hash code logic built in. The syntax is a little awkward in C# but if you want, you can implement your own lookup class and just override Equals and GetHashCode.

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+1. You went with Tuple and I went with the separate lookup class. I think I like your idea better. –  Jim Mischel Nov 1 '11 at 14:26

My downright crazy take on this:

class Program
    static void Main(string[] args)
        var i = 1;
        var j = 34;
        var k = true;
        Match(i, j, k).
            With(1, 2, false).Do(() => Console.WriteLine("1, 2, 3")).
            With(1, 34, false).Do(() => Console.WriteLine("1, 34, false")).
            With(x => i > 0, x => x < 100, x => x == true).Do(() => Console.WriteLine("1, 34, true"));


    static Matcher<T1, T2, T3> Match<T1, T2, T3>(T1 t1, T2 t2, T3 t3)
        return new Matcher<T1, T2, T3>(t1, t2, t3);

public class Matcher<T1, T2, T3>
    private readonly object[] values;

    public object[] Values
        get { return values; }

    public Matcher(T1 t1, T2 t2, T3 t3)
        values = new object[] { t1, t2, t3 };

    public Match<T1, T2, T3> With(T1 t1, T2 t2, T3 t3)
        return new Match<T1, T2, T3>(this, new object[] { t1, t2, t3 });

    public Match<T1, T2, T3> With(Func<T1, bool> t1, Func<T2, bool> t2, Func<T3, bool> t3)
        return new Match<T1, T2, T3>(this, t1, t2, t3);

public class Match<T1, T2, T3>
    private readonly Matcher<T1, T2, T3> matcher;
    private readonly object[] matchedValues;
    private readonly Func<object[], bool> matcherF; 

    public Match(Matcher<T1, T2, T3> matcher, object[] matchedValues)
        this.matcher = matcher;
        this.matchedValues = matchedValues;

    public Match(Matcher<T1, T2, T3> matcher, Func<T1, bool> t1, Func<T2, bool> t2, Func<T3, bool> t3)
        this.matcher = matcher;

        matcherF = objects => t1((T1)objects[0]) && t2((T2)objects[1]) && t3((T3)objects[2]);

    public Matcher<T1, T2, T3> Do(Action a)
        if(matcherF != null && matcherF(matcher.Values) || matcher.Values.SequenceEqual(matchedValues))

        return matcher;
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Interesting quasi-functional version, although not type safe (and potentially not comparison safe). I might use IComparable or IEquatable instead of just object. A better version would use generics. –  Aaronaught Nov 1 '11 at 14:22

You could convert to a string:

switch (intVal1.ToString() + strVal2 + boolVal3.ToString())
   case "1helloFalse":
   case "2worldFalse":
   case "2helloFalse":

   etc ....

I think the question that comes to play, though is whether or not there's a better way of defining the logic. For instance, let's say you're trying to figure out who knows superman. We could do the check like this:

switch (first + last)
   case "ClarkKent":
   case "LoisLane":
      // YES
      // Sadly, no

But what happens when you get some other guy named Clark Kent? Really couldn't you have some other value that you determine this logic based on, ie bool KnowsSuperman?

The idea being, a switch statement is used to determine logic based off a single set of choices. If there are multiple values you're trying to switch off of, then the logic could get insanely difficult to maintain down the line.

Another example would be if you need to group people into several groups and perform some logic depending on the group they're in. You could code it up to say, if you're Bob, Jeff, Jim, or Sally, you're in group A, but what if you need to add someone else to group A? You'd have to change the code. Instead, you could create an extra property called Group, which could be an enum or string, which you could use to specify which group someone is in.

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if (a == 1 && b == 1) {}
else if (a == 1 && b == 2) {}
else if (a == 2 && b ==2) {}
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And now 35 times :) –  BanditoBunny Nov 1 '11 at 14:10

You cannot do that in C# as far as I know.

But you can do this from MSDN:

The following sample shows that fall through from one case label to another is allowed for empty case labels:

            case 1:
            case 2: 
            case 3: 
                Console.WriteLine("It's 1, 2, or 3.");
            Console.WriteLine("Not sure what it is.");
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Hi, yes, I can, but this switch takes only one variable, I want to process three. –  BanditoBunny Nov 1 '11 at 13:57
@BanditoBunny - Then the answer is no you cannot do that. –  JonH Nov 1 '11 at 13:58
-1: correct answer, except for your switch. Remove it and I'll remove the downvote. –  John Saunders Nov 1 '11 at 13:58
Rough crowd :-). –  JonH Nov 1 '11 at 14:00
This is a wrong answer –  BanditoBunny Nov 1 '11 at 14:06

Per the C# language specification, the switch statement expression must resolve to one of sbyte, byte, sbyte, byte, short, ushort, int, uint, long, ulong, char, string, or an enum-type. This means you cannot switch on Tuple or other higher-order types.

You could try to pack the values together, assuming there is room. For example, suppose each of the integers is guaranteed to be in the range 0..9.

switch (intVal1 * 100 + intVal2 * 10 + (boolVal3 ? 1 : 0))
case 100: /* intVal1 = 1, intVal2 = 0, boolVal3 = false */ ... break;
case 831: /* intVal1 = 8, intVal2 = 3, boolVal3 = true */ ... break;
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No downvote but this is hardly readable code! –  JonH Nov 1 '11 at 14:04
I was looking at it more as a puzzle. –  Raymond Chen Nov 1 '11 at 14:06
If you create an enum for the values, this is VERY readable. Plus, as soon as I finished reading the question, the first thought in my head was using bitwise statements and flags. –  Sivvy Nov 1 '11 at 14:13
It's a possibility I also considered, however it is not nice :( –  BanditoBunny Nov 1 '11 at 14:14
Especially when you change the question to now include a string as the second "parameter", when it was originally an int. –  Sivvy Nov 1 '11 at 14:19

I do this kind of thing with lists or arrays. If you can enumerate the possible conditions (which you obviously can if you're wanting to do a multi-value switch), then build a lookup table with a multi-part key and an Action or Func<T> as the value.

A simple version would use a Dictionary:

class LookupKey: IComparable<LookupKey>
    public int IntValue1 { get; private set; }
    public int IntValue2 { get; private set; }
    public bool BoolValue1 { get; private set; }
    public LookupKey(int i1, int i2, bool b1)
        // assign values here
    public int Compare(LookupKey k1, LookupKey k2)
        return k1.IntValue1 == k2.IntValue1 &&
               k1.IntValue2 == k2.IntValue2 &&
               k1.BoolValue1 == k2.BoolValue1;
    public int GetHashCode()
        return (19 * IntValue1) + (1000003 * IntValue2) + (BoolValue1) ? 0 : 100000073;
    // need to override Equals

And your dictionary:

static readonly Dictionary<LookupKey, Action<object>> LookupTable;

You can then populate the dictionary at startup, and then a lookup becomes a simple matter of:

Action<object> MethodToCall;
if (LookupTable.TryGetValue(new LookupKey(i1, i2, b1), out MethodToCall)
    // default action if no match

It's a bit of code to set up, but it's very quick in execution.

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