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I came across some code recently that replaces the use of switches by hard-coding a

Dictionary<string (or whatever we would've been switching on), Func<...>> 

and where ever the switch would've been, it instead does dict["value"].Invoke(...). The code feels wrong in some way, but at the same time, the methods do look a bit cleaner, especially when there's many possible cases. I can't give any rationale as to why this is good or bad design so I was hoping someone could give some reasons to support/condemn this kind of code. Is there a gain in performance? Loss of clarity?

Example:

public class A {
    ...
    public int SomeMethod(string arg){
        ...
        switch(arg) {
            case "a": do stuff; break;
            case "b": do other stuff; break;
            etc.
        }
        ...
    }
    ...
}

becomes

public class A {

    Dictionary<string, Func<int>> funcs = new Dictionary<string, Func<int>> {
        { "a", () => 0; },
        { "b", () => DoOtherStuff(); }
        ... etc.
    };

    public int SomeMethod(string arg){
        ...
        funcs[arg].Invoke();
        ...
    }
    ...
}
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3  
Note: you don't need the Invoke after it, just write funcs[arg](). –  Femaref Mar 10 '11 at 15:30
    
Can you switch on a string? I thought it was only integral types. However, strings can obviously be used as a key in a dictionary. –  Rosarch Mar 10 '11 at 15:31
    
@Rosarch, yes, you can switch on strings in C#. (Though admitedly C# compiles in a Dictionary inline in the method to implement this, so the switch is actually probably more expensive than this functional approach.) –  Kirk Woll Mar 10 '11 at 15:32
    
I've seen this technique referred to as an ActionDictionary –  Jeff Fritz Mar 10 '11 at 15:40

6 Answers 6

up vote 2 down vote accepted

Advantages:

  1. You can change the behaviour at runtime of the "switch" at runtime
  2. it doesn't clutter the methods using it
  3. you can have non-literal cases (ie. case a + b == 3) with much less hassle

Disadvantages:

  1. All of your methods must have the same signature.
  2. You have a change of scope, you can't use variables defined in the scope of the method unless you capture them in the lambda, you'll have to take care of redefining all lambdas should you add a variable at some point
  3. you'll have to deal with non-existant indexes specifically (similar to default in a switch)
  4. the stacktrace will be more complicated if an unhandled exception should bubble up, resulting in a harder to debug application

Should you use it? It really depends. You'll have to define the dictionary at some place, so the code will be cluttered by it somewhere. You'll have to decide for yourself. If you need to switch behaviour at runtime, the dictionary solution really sticks out, especially, if the methods you use don't have sideeffects (ie. don't need access to scoped variables).

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I 'll disagree with D1: you can bind parameters to match the signature of any method you want to call to the signature of the delegates in the dictionary. You can even do this dynamically if you go to enough trouble. –  Jon Mar 10 '11 at 15:40
    
Could you elaborate on that? Of course, you can use Action delegates and execute the func in that, but then you have no way of capture parameters into it. Second possibility would be object as type, but then you lose compiletime features like type checking and everything is dynamic, introducing a load of problems you didn't have with your switch, problems much more severe than "cluttered and long code". –  Femaref Mar 10 '11 at 15:53
    
@Femaref: You can have the Action reference variables that have been captured by closure. So you can indirectly "pass parameters" into the Action by later modifying the appropriate variables. Another option is replacing the Actions with "fresher" instances that reference the parameters (again, by closure). –  Jon Mar 10 '11 at 15:57
    
Yes you can, but you'd have to assign the delegates in the scope of the variables to actually capture them by closure, meaning in the method you'd use the construct. So you go a long way of replacing a switch block and removing clutter, just to arrive back and create clutter. this solution has limits and I think you are desperately trying to make it fit, it has its merits but that's about it. –  Femaref Mar 10 '11 at 16:01
    
@Femaref: You can't use other method signatures with a switch unless you have the parameters to feed to them already in scope, either. In what way would delegates introduce more clutter? –  Jon Mar 10 '11 at 16:03

For several reasons:

  1. Because doing it this way allows you to select what each case branch will do at runtime. Otherwise, you have to compile it in.
  2. What's more, you can also change the number of branches at runtime.
  3. The code looks much cleaner especially with a large number of branches, as you mention.

Why does this solution feel wrong to you? If the dictionary is populated at compile time, then you certainly don't lose any safety (the delegates that go in certainly have to compile without error). You do lose a little performance, but:

  1. In most cases the performance loss is a non-issue
  2. The flexibility you gain is enormous
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I think that my concerns when looking at this code were based primarily on the fact that you lose some of the control flow analysis and "safety net" of the C# compiler static analysis. I was curious to see if this was something that other people use and accept –  Roly Mar 10 '11 at 15:48
    
@Roly: This is not only acceptable, but also necessary when you don't know the desired behavior at compile time. And if you think on it, you don't lose any static safety at all. The compiler can and does check that your delegates are of the correct type. –  Jon Mar 10 '11 at 15:53

Jon has a couple good answers. Here are some more:

  • Whenever you need a new case in a switch, you have to code it in to that switch statement. That requires opening up that class (which previously worked just fine), adding the new code, and re-compiling and re-testing that class and any class that used it. This violates a SOLID development rule, the Open-Closed Principle (classes should be closed to modification, but open to extension). By contrast, a Dictionary of delegates allows delegates to be added, removed, and swapped out at will, without changing the code doing the selecting.
  • Using a Dictionary of delegates allows the code to be performed in a condition to be located anywhere, and thus given to the Dictionary from anywhere. Given this freedom, it's easy to turn the design into a Strategy pattern where each delegate is provided by a unique class that performs the logic for that case. This supports encapsulation of code and the Single Responsibility Principle (a class should do one thing, and should be the only class responsible for that thing).
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If there are more number of possible cases then it is good idea to replace Switch Statement with the strategy pattern, See this.

Applying Strategy Pattern Instead of Using Switch Statements

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This is the Strategy Pattern. –  Jörg W Mittag Mar 10 '11 at 16:13

No one has said anything yet about what I believe to be the single biggest drawback of this approach.

It's less maintainable.

I say this for two reasons.

  1. It's is syntactically more complex.
  2. It requires more reasoning to understand.

Most programmers know how a switch statement works. Many programmers have never seen a Dictionary of functions.

While this might seem like an interesting and novel alternative to the switch statement and may very well be the only way to solve some problems, it is considerably more complex. If you don't need the added flexibility you shouldn't use it.

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Convert your A class to a partial class, and create a second partial class in another file with just the delegate dictionary in it.

Now you can change the number of branches, and add logic to your switch statement without touching the source for the rest of your class.

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