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I'm working on a project in which I have a class, DeviceCommunicator, that implements Runnable. Currently, a main class instantiates a single instance of DeviceCommunicator which (eventually) connects to a device on the local network using the Socket library.

By eventually, I mean that if a message needs to be sent, then the instance of the DeviceCommunicator opens the socket connection to the device, sends the message, and then starts a new thread to receive the data back from the socket via the following line of code:

new Thread(new DeviceCommunicator()).start();

EDIT: To clarify, this is the order of operations when the program is executed:

1) MAIN class instantiates a DeviceCommunicator class w/ constructor like:

comm1 = DeviceCommunicator(hostName, portNum)

2) MAIN class wants to send a message to comm1, so it calls send like:


3) comm1 is of type DeviceCommunicator and opens a Socket connection to hostName/portNum like:

deviceSocket = new Socket(hostName, portNum);
out = new PrintStream(deviceSocket.getOutputStream());
in = new BufferedReader(new InputStreamReader(deviceSocket.getInputStream()));

4) comm1 sends someStr to the output PrintStream and then initializes a thread to listen for a response with the following code:

new Thread(new DeviceCommunicator()).start();

Due to the fact that the listening DeviceCommunicator thread has no constructor arguments, it was required that I make the output PrintStream and the input BufferedReader static variables.

When I have only one instance of DeviceCommunicator - this works great!

However, I would like multiple instances of the DeviceCommunicator class that can connect to either the same or a different device on the local network, BUT considering the fact that the output and input in the DeviceCommunicator class are static, then they are shared (I think, I've read that the JVM doesn't quite guarantee that static variable changes will be made visible to other running threads) across all instances of DeviceCommunicator - this is a problem!

I've done some research and I haven't come across quite a similar topic - most topics are basically an "either-or" where:

A) The topic is about threaded socket communication, wherein "non-blocking" communication is accomplished by the use of static variables.


B) A simple implements Runnable case is considered wherein one thread will accomplish one (typically simple) task while the other accomplishes another (typically slightly modified) task.

EDIT: I guess one solution that might be proposed is to simply pass the input BufferedReader to the listening DeviceCommunicator thread, however I am implementing a queue of messages that are to be sent (in case there are network problems); so, if a message needs to be sent, it simply gets the first element in the queue and prints it to the socket connection, and I would like to, in the listening thread, verify that the message was correctly received by the device. If the message was correctly received, then I would like to remove the element from the queue, but this again poses a problem - passing variables in Java is always by value, not by reference! So, if I was to pass the input BufferedReader and the queue, the queue that was being modified in the listening DeviceCommunicator would not be the actual queue that needed to be modified in the main DeviceCommunicator instance.

Is there an obvious solution to this problem that I am unaware of?

Thanks in advance!

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Is the DeviceCommunicator your class? Why do you have to use static variables for the streams? My can't you add a new contructor? –  Gray Apr 26 '12 at 15:33
Yes, DeviceCommunicator is the class that is instantiated by some Main class. I guess my thought for using static variables for the streams (and I thought this was explained already, so please educate me as I seem to be not in the know), was so that the listening DeviceCommunicator thread was reading from the same input BufferedReader that the main DeviceCommunicator established when creating the Socket connection. I'll add some more code to see if I can clear anything up. –  MandM Apr 26 '12 at 15:42
Java always "pass by value" but that is misleading. If the argument is an object (like a queue) then both the caller and the callee will have a reference to the same object. Any queue operations will be seen by both threads. –  Gray Apr 26 '12 at 15:45
I just edited the post to (hopefully) provide a little more clarification. –  MandM Apr 26 '12 at 15:51
So, if my input was of type BufferedReader and queue was of type ArrayList<String>, then I could simply pass both of those two values to the listening thread (like in step 4 above, but with passed vars)? That is, if I'm understanding correctly. –  MandM Apr 26 '12 at 15:53

1 Answer 1

up vote 2 down vote accepted

If you have control over the DeviceCommunicator class, I would pass in the Stream or Reader objects that you need as arguments to the constructor. I certainly would not use static variables in that manner.

new Thread(new DeviceCommunicator(hostName, portNum, in, out)).start();

Now, if multiple threads are reading and writing out the streams then you will have to synchronize on them before doing that.

You also mentioned in your comments that you need to have a Queue of messages to send. That also could be an argument to the DeviceCommunicator although you will need to make that a synchronized list or something:

List<String> toSendList = Collections.synchronizedList(new ArrayList<String>());
new Thread(new DeviceCommunicator(hostName, portNum, in, out, toSendList)).start();

However, a better pattern would be to add a send method on the DeviceCommunicator that would add the items to the queue instead of both the main thread and the sending thread having the same queue. If you add methods to DeviceCommunicator, you might be able to have it also hide the reader and writer streams as well and the main thread would not access the streams directly. Data hiding is one of the important features of object oriented programs.

share|improve this answer
+1 for hiding the queue inside the DC class. Some consideration should be given for an error strategy. That's one reason I always go for a 'TheadComms' class for communicating to and from threads - as well as buffered data, it can hold error messages, exception objects etc. as well. If you are going to fire something through events like 'OnDataRx' or 'OnError', it should not be a stream instance :) –  Martin James Apr 26 '12 at 20:26
Good points @Martin but why wouldn't you just add that functionality to the DC class? Or do you have a class that you use for all of your thread returns. So you'd create new ThreadComm<ReturnClass>() and pass it into the DC constructor with Future-ish functionality? That would be a nice pattern. –  Gray Apr 26 '12 at 20:31
Sorry, I've been away for the past few days but thank you for the detailed answer! I do have a question however - you mention adding a send method to the DC class that would "add the items to the queue." It sounds like in this case, do the main and listener classes both not have the same queue? The way I've got things running so far seems to probably not quite be the optimal solution - my main DC class is the one that actually sends the message through the socket and then instantiates a listener DC class to process the response, and what I think I'm hearing is why not let the listener –  MandM Apr 30 '12 at 14:19
My point @MandM is that the main class should not have direct access to the queue at all. The queue should be hidden inside of the DC class. So the send() method on DC would add it to the internal queue that is private to DC. –  Gray Apr 30 '12 at 14:21
just handle both sending and receiving, while the main DC class basically just spawns independent DC send/receive threads that only have knowledge about their one message. Is this sounding right or am I way out of left field? (Sorry I had to break up my response, but there's just so much to say!) Thanks again, guys! –  MandM Apr 30 '12 at 14:21

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