So, I've written a simple test server for your client and I'm now running both, and there seems to be no increase in memory usage.
import java.net.*;
import java.io.*;
/**
* example class adapted from
* http://stackoverflow.com/questions/5122569/why-is-java-constantly-eating-more-memory
*/
public class Client {
private static Socket socket;
private static ObjectOutputStream out;
private static void runClient() {
while (true) {
try {
if (socket != null) {
out.writeObject("Hello...");
Thread.sleep(100);
System.out.print(",");
} else {
socket = new Socket("localhost", 1234);
out = new ObjectOutputStream(socket.getOutputStream());
System.out.println("connected to server");
}
} catch (final Exception e) {
//set socket to null for reconnecting
e.printStackTrace();
return;
}
}
}
private static void runServer() throws IOException{
ServerSocket ss = new ServerSocket(1234);
Socket s = ss.accept();
InputStream in = s.getInputStream();
byte[] buffer = new byte[500];
while(in.read(buffer) > 0) {
System.out.print(".");
}
}
public static void main(String[] args)
throws IOException
{
if(args.length > 0) {
runServer();
}
else {
runClient();
}
}
}
What are you doing different?
So, I've looked a bit more detailed at the memory usage of this program, and found for this a useful tool, the "Java Monitoring and Management console" hidden in the development menu of my system :-)
Here is a screenshot of the memory usage while running the client program some time (each 100 ms I send an object, remember) ...
We can see that the memory usage has a saw tooth curve - it is lineary increasing, then comes a garbage collection and it is falling down to the base usage. After some initial period the VM is doing the GC more often (and thus more quickly). For now, no problem.
Here is a variant program where I did not send the same string always, but a different one each time:
private static void runClient() {
int i = 0;
while (true) {
try {
i++;
if (socket != null) {
out.writeObject("Hello " + i + " ...");
Thread.sleep(100);
System.out.print(",");
(The rest is like above). I thought this would need more memory, since the ObjectOutputStream has to remember which Objects are already sent, to be able to reuse their identifiers in case they come again.
But no, it looks quite similar:
The little irregularity between 39 and 40 is a manual full GC made by the "Perform GC" button here - it did not change much, though.
I let the last program run a bit longer, and now we see that the ObjectOutputStream still is holding references to our Strings ...
In half an hour our program ate about 2 MB of memory (on a 64-bit-VM). In this time, it sent 18000 Strings. So, each of the Strings used in average about 100 bytes of memory.
Each of those Strings was between 11 and 17 chars long. the latter ones (about the half) are using in fact 32-char-arrays, the former ones 16-char-arrays, because of the allocation strategy of the StringBuilder. These take 64 or 32 bytes + array-overhead (at least 12 more bytes, more likely more). Additionally the String objects themselves take some memory overhead (at least 8+8+4+4+4 = 28 for class and the fields I remember, more likely more), so we have in average (at least) 88 bytes per String. In addition there likely is some overhead in the ObjectOutputStream to maintain these objects in some data structure.
So, not much more lost than in fact needed.
Ah, one tip of how to avoid the ObjectOutputStream (and the corresponding ObjectInputStream, too) storing the objects, if you don't plan on sending any of them again: Invoke its reset
method every some thousand strings or so.
Here is a last screenshot before I kill the program, after a bit more than an hour:
For comparison, I added the named reset
and let the program run two more hours (and a bit):
It still collects memory as before, but now when I click on "Perform GC" it cleans everything and goes back at the state before (just a bit over 1 MB). (It would do the same when coming at the end of Heap, but I didn't want to wait this long.)
static
?