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Okay guess this question looks a lot like:

consider this question CLOSED!

I would like to refactor code which looks something like this:

String input; // input from client socket.
if (input.equals(x)) {
} else if (input.equals(y)) {
} else {

It is code which checks input from socket to perform some action, but I don't like the if else construction because every time a new command is added to the server (code) a new if else has to be added which is ugly. Also when deleting a command the if else has to be modified.

share|improve this question
Map? Actually that just moves the problem about. I would put the functions in a different instance though, and perhaps slide in an interface. – Tom Hawtin - tackline Mar 31 '10 at 20:18
(Psst lines 2 and 4 are missing a closing parenthesis.) – Jim Kiley Apr 1 '10 at 14:51
Oops :). You are right. Fixed them. – Alfred Apr 1 '10 at 17:20
possible duplicate of… – Esko Apr 1 '10 at 17:28
possible duplicate of – dfa Apr 1 '10 at 17:35

5 Answers 5

up vote 8 down vote accepted

Collect those commands in a Map<String, Command> where Command is an interface with an execute() method.

Map<String, Command> commands = new HashMap<String, Command>();
// Fill it with concrete Command implementations with `x`, `y` and so on as keys.

// Then do:
Command command = commands.get(input);
if (command != null) {
} else {
    // unknown command.

To get a step further, you could consider to fill the map dynamically by scanning for classes implementing a specific interface (Command in this case) or a specific annotation in the classpath. Google Reflections may help lot in this.

Update (from the comments) You can also consider combining the answer of Instantsoup with my answer. During the buildExecutor() method, first get the command from a Map and if the command doesn't exist in Map, then try to load the associated class and put it in the Map. Sort of lazy loading. This is more efficient than scanning the entire classpath as in my answer and creating it everytime as in Instantsoup's answer.

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But then I have to modify the map every time I add/delete a new command? can't I do this dynamically or something? – Alfred Mar 31 '10 at 20:21
Yes, I realized that afterwards as well and edited it in right before I saw your comment :) – BalusC Mar 31 '10 at 20:23
@Alfred. You could try reflection, but its hardly the best choice. Go with the map, keep it in a safe place where its easy to add new commands. – Tom Mar 31 '10 at 20:24
you could inject the implementations into the map with something like Spring, but you won't get around the fact that you have to touch some code to add new branches of logic, whether it is an if() block or a map.add(new Command()); or in a Spring XML file. – Jarrod Roberson Mar 31 '10 at 20:25
Or you could use my answer and Java's SPI mechanism. – Romain Mar 31 '10 at 20:27

One way could be to have an interface ICommand that is the general contract for a command, e.g.:

public interface ICommand {
    /** @param context The command's execution context */
    public void execute(final Object context);
    public String getKeyword();

And then you could use Java's SPI mechanism to auto-discover your various implementations and register them in a Map<String,ICommand> and then do knownCommandsMap.get(input).execute(ctx) or something alike.

This practically enables you to decouple your service from command implementations, effectively making those pluggable.

Registering an implementation class with the SPI is done by adding a file named as the fully qualified name of your ICommand class (so if it's in package dummy the file is going to be META-INF/dummy.ICommand within your classpath), and then you'll load and register them as:

final ServiceLoader<ICommand> spi = ServiceLoader.load(ICommand.class);
for(final ICommand commandImpl : spi)
    knownCommandsMap.put(commandImpl.getKeyword(), commandImpl);
share|improve this answer
this is only available in JDK 6 – Jarrod Roberson Mar 31 '10 at 20:31
Could you explain the SPI part a little better? – Alfred Mar 31 '10 at 20:33
@fuzzy lollipop: Actually it was already in JDK 5, but in a non-public package (sun.misc...). It should've been part of JDK 5 at first. – Romain Mar 31 '10 at 20:38
@Alfred: Added example of SPI use, assuming you have an initialized map somewhere and stuff ... (I just added the relevant code for the SPI thingie) – Romain Mar 31 '10 at 20:43
javadocs say "since 1.6" anything in sun.* should not be used – Jarrod Roberson Mar 31 '10 at 20:48

How about interfaces, a factory, and a little reflection? You will still need to handle exceptions on bad input, but you would always need to do this. With this method, you just add a new implementation of Executor for a new input.

public class ExecutorFactory
    public static Executor buildExecutor(String input) throws Exception
        Class<Executor> forName = (Class<Executor>) Class.forName(input);
        return (Executor) executorClass.newInstance();

public interface Executor
    public void execute();

public class InputA implements Executor
    public void execute()
        // do A stuff

public class InputB implements Executor
    public void execute()
        // do B stuff

Your code example then becomes

String input;
share|improve this answer
That's also a nice idea, it has only the cost of creating a new instance everytime. – BalusC Mar 31 '10 at 20:44
Yup I also like this idea. – Alfred Mar 31 '10 at 20:46
Where does the name of the executor come from? If it's client/user input, a malicious user could instantiate any class on the system. If the class initialization changes state on the system, then the attacker would gain some level of control over the system. Then there'd be a race condition between the instantiation and the exception being thrown (assuming the class isn't a subclass of Executor), during which the attacker could take advantage of any functionality opened up by the other class... – atk Apr 1 '10 at 14:12
@atk True. I'm assuming there is some error handling and input checking involved that is not represented. I'll add a check that the command at least is an Executor. – Instantsoup Apr 1 '10 at 14:44

Building the Command patten upon an enum class can reduce some of the boilerplate code. Let's assume that x in input.equals(x) is "XX" and y in input.equals(y) is "YY"

enum Commands {
   XX {
     public void execute() { doX(); }        
   YY {
     public void execute() { doY(); }        

   public abstract void execute();

String input = ...; // Get it from somewhere

try {
catch(IllegalArgumentException e) {
share|improve this answer
Also a nice idea, but this is pretty tight coupled. You can't provide commands from "outside" anymore. – BalusC Mar 31 '10 at 20:56

You say that you're processing input from a socket. How much input? How complex is it? How structured is it?

Depending on the answers to those questions, you might be better off writing a grammar, and letting a parser generator (eg, ANTLR) generate the input-processing code.

share|improve this answer
Just a simple protocol. For example memcached. – Alfred Apr 1 '10 at 22:01
@Alfred - in the case of memcached, which is a very simple protocol that has a half-dozen operations and is unlikely to change, I'd use an if-else construct. There's no reason to make your code mode complex just to "object-orientify" it. I would, however, create an object to wrap the command and/or response, and handle all the parsing. And probably create an enum to represent the command (which would turn the if-else chain into a switch). – Anon Apr 2 '10 at 13:16
If I wanted to be able to substitute behavior easily, I could use the Template Method pattern, create abstract methods for each of the operations, and have my app reflectively instantiate subclasses. – Anon Apr 2 '10 at 13:18

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