Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to read a large text corpus into memory with Java. At some point it hits a wall and just garbage collects interminably. I'd like to know if anyone has experience beating Java's GC into submission with large data sets.

I'm reading an 8 GB file of English text, in UTF-8, with one sentence to a line. I want to split() each line on whitespace and store the resulting String arrays in an ArrayList<String[]> for further processing. Here's a simplified program that exhibits the problem:

/** Load whitespace-delimited tokens from stdin into memory. */
public class LoadTokens {
    private static final int INITIAL_SENTENCES = 66000000;

    public static void main(String[] args) throws IOException {
        List<String[]> sentences = new ArrayList<String[]>(INITIAL_SENTENCES);
        BufferedReader stdin = new BufferedReader(new InputStreamReader(System.in));
        long numTokens = 0;
        String line;

        while ((line = stdin.readLine()) != null) {
            String[] sentence = line.split("\\s+");
            if (sentence.length > 0) {
                sentences.add(sentence);
                numTokens += sentence.length;
            }
        }
        System.out.println("Read " + sentences.size() + " sentences, " + numTokens + " tokens.");
    }
}

Seems pretty cut-and-dried, right? You'll notice I even pre-size my ArrayList; I have a little less than 66 million sentences and 1.3 billion tokens. Now if you whip out your Java object sizes reference and your pencil, you'll find that should require about:

  • 66e6 String[] references @ 8 bytes ea = 0.5 GB
  • 66e6 String[] objects @ 32 bytes ea = 2 GB
  • 66e6 char[] objects @ 32 bytes ea = 2 GB
  • 1.3e9 String references @ 8 bytes ea = 10 GB
  • 1.3e9 Strings @ 44 bytes ea = 53 GB
  • 8e9 chars @ 2 bytes ea = 15 GB

83 GB. (You'll notice I really do need to use 64-bit object sizes, since Compressed OOPs can't help me with > 32 GB heap.) We're fortunate to have a RedHat 6 machine with 128 GB RAM, so I fire up my Java HotSpot(TM) 64-bit Server VM (build 20.4-b02, mixed mode) from my Java SE 1.6.0_29 kit with pv giant-file.txt | java -Xmx96G -Xms96G LoadTokens just to be safe, and kick back while I watch top.

Somewhere less than halfway through the input, at about 50-60 GB RSS, the parallel garbage collector kicks up to 1300% CPU (16 proc box) and read progress stops. Then it goes a few more GB, then progress stops for even longer. It fills up 96 GB and ain't done yet. I've let it go for an hour and a half, and it's just burning ~90% system time doing GC. That seems extreme.

To make sure I wasn't crazy, I whipped up the equivalent Python (all two lines ;) and it ran to completion in about 12 minutes and 70 GB RSS.

So: am I doing something dumb? (Aside from the generally inefficient way things are being stored, which I can't really help -- and even if my data structures are fat, as long as they they fit, Java shouldn't just suffocate.) Is there magic GC advice for really large heaps? I did try -XX:+UseParNewGC and it seems even worse.

share|improve this question
    
Where are the char[] objects backing the strings? –  Jon Skeet Mar 6 '12 at 23:32
    
In the String objects: 24 byte object header + 8 byte char[] pointer + 4 byte start, offset, and hashcode, if my calculations are correct. –  Jay Hacker Mar 7 '12 at 14:44
    
That's the char[] reference - but what about the char[] objects themselves? A char[] array has an object overhead too... –  Jon Skeet Mar 7 '12 at 14:46
    
Ah, you are right! I added it in. But that's still chump change in the scheme of things, and far less memory than I've got -- what gives?? –  Jay Hacker Mar 7 '12 at 15:43
    
@Jay: where are you from (your location isn't set)? At nosid.org/java-set-integer-memory-overhead.html you can find a German blog entry about beating Java's GC into submission with large data sets, a solution (Jon Skeet's Idea 2), and some performance measures. The main message and performance should also be understandable for non-germans from the given code and numbers... –  DaveFar Mar 7 '12 at 15:52

4 Answers 4

Idea 1

Start by considering this:

while ((line = stdin.readLine()) != null) {

It at least used to be the case that readLine would return a String with a backing char[] of at least 80 characters. Whether or not that becomes a problem depends on what the next line does:

String[] sentence = line.split("\\s+");

You should determine whether the strings returned by split keep the same backing char[].

If they do (and assuming your lines are often shorter than 80 characters) you should use:

line = new String(line);

This will create a clone of the copy of the string with a "right-sized" string array

If they don't, then you should potentially work out some way of creating the same behaviour but changing it so they do use the same backing char[] (i.e. they're substrings of the original line) - and do the same cloning operation, of course. You don't want a separate char[] per word, as that'll waste far more memory than the spaces.

Idea 2

Your title talks about the poor performance of lists - but of course you can easily take the list out of the equation here by simply creating a String[][], at least for test purposes. It looks like you already know the size of the file - and if you don't, you could run it through wc to check beforehand. Just to see if you can avoid that problem to start with.

Idea 3

How many distinct words are there in your corpus? Have you considered keeping a HashSet<String> and adding each word to it as you come across it? That way you're likely to end up with far fewer strings. At this point you would probably want to abandon the "single backing char[] per line" from the first idea - you'd want each string to be backed by its own char array, as otherwise a line with a single new word in is still going to require a lot of characters. (Alternatively, for real fine-tuning, you could see how many "new words" there are in a line and clone each string or not.)

share|improve this answer
    
Re: Idea 3, might you consider using String.intern()? –  Louis Wasserman Mar 6 '12 at 23:45
    
@LouisWasserman: Potentially - but only if the process wasn't going to do anything else. I generally prefer to have my own interning set, to avoid "polluting" the process-wide one. (Although there may be funky things to mean that's not a problem these days. It just feels cleaner.) –  Jon Skeet Mar 6 '12 at 23:53
2  
Hmmm. Alternate suggestion -- Guava's Interners.newWeakInterner to do it with weak references, just so the interned strings can get GC'd when you're done. –  Louis Wasserman Mar 6 '12 at 23:57
    
@LouisWasserman: Right, that would be appropriate, certainly :) –  Jon Skeet Mar 6 '12 at 23:58
    
The majority of my lines are longer than 80 characters. String.split() ultimately calls String.substring, which just returns a pointer into the same backing char[]. ArrayList really is just an Object[], and in the general case I do need to resize it. Keeping my own set of unique strings might net some significant savings -- but all of this is just tweaking to get the memory usage down. If I have the memory, shouldn't it just work? –  Jay Hacker Mar 7 '12 at 14:54

You should use the following tricks:

  • Help the JVM to collect the same tokens into a single String reference thanks to sentences.add(sentence.intern()). See String.intern for details. As far as I know, it should also have the effect Jon Skeet spoke about, it cuts char array into small pieces.

  • Use experimental HotSpot options to compact String and char[] implementations and related ones:

    -XX:+UseCompressedStrings -XX:+UseStringCache -XX:+OptimizeStringConcat
    

With such memory amount, you should configure your system and JVM to use large pages.

It is really difficult to improve performance with GC tuning alone and more than 5%. You should first reduce your application memory consumption thanks to profiling.

By the way, I wonder if you really need to get the full content of a book in memory - I do not know what your code does next with all sentences but you should consider an alternate option like Lucene indexing tool to count words or extracting any other information from your text.

share|improve this answer
    
Thanks for the suggestions. I've tried String interning in previous apps; it gets very slow with a lot of data, and it requires a huge PermGen, which really confuses GC. I tried your String optimization options, and it might have decreased memory usage a bit, but it still eventually fills up memory and borks. The large pages idea is a good one; unfortunately, you really have to reboot to get enough contiguous free memory (what is this, DOS? ;), and that memory can't be used for anything else. I'm reading up on GC tuning, and I think I'm going to try the concurrent collector next. –  Jay Hacker Mar 7 '12 at 15:37
up vote 2 down vote accepted

-XX:+UseConcMarkSweepGC: finishes in 78 GB and ~12 minutes. (Almost as good as Python!) Thanks for everyone's help.

share|improve this answer
    
I often use CMS for java server with large heap to reduce gc impact on response time. I was not convinced changing the policy would help your code in such a task. I guess using CMS has changed the way the heap is splitted into parts and your JVM gets a larger OldGen. –  Yves Martin Mar 8 '12 at 7:07

You should check the way how your heap space is splitted into parts (PermGen, OldGen, Eden and Survivors) thanks to VisualGC which is now a plugin for VisualVM.

In your case, you probably want to reduce Eden and Survivors to increase the OldGen so that your GC does not spin into collecting a full OldGen...

To do so, you have to use advanced options like:

-XX:NewRatio=2 -XX:SurvivorRatio=8

Beware these zones and their default allocation policy depends on the collector you use. So change one parameter at a time and check again.

If all that String should live in memory all the JVM livetime, it is a good idea to internalising them in PermGen defined large enough with -XX:MaxPermSize and to avoid collection on that zone thanks to -Xnoclassgc.

I recommend you to enable these debugging options (no overhead expected) and eventually post the gc log so that we can have an idea of your GC activity.

-XX:+PrintGC -XX:+PrintGCDetails -XX:+PrintGCTimeStamps -Xloggc:verbosegc.log
share|improve this answer
    
I was looking at this, and I might give it a try. Thanks for the suggestion. –  Jay Hacker Mar 7 '12 at 18:19

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.