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I am getting this error in a program that creates several (hundreds of thousands) HashMap objects with a few (15-20) text entries each. These Strings have all to be collected (without breaking up into smaller amounts) before being submitted to a database.

According to Sun, the error happens "if too much time is being spent in garbage collection: if more than 98% of the total time is spent in garbage collection and less than 2% of the heap is recovered, an OutOfMemoryError will be thrown.".

Apparently, one could use the command line to pass arguments to the JVM for

  • Increasing the heap size, via "-Xmx1024m" (or more), or
  • Disabling the error check altogether, via "-XX:-UseGCOverheadLimit".

The first approach works fine, the second ends up in another java.lang.OutOfMemoryError, this time about the heap.

So, my question is: is there any programmatic alternative to this, for the particular use case (i.e., several small HashMap objects)? If I use the HashMap clear() method, for instance, the problem goes away, but so do the data stored in the HashMap! :-)

Another discussion in StackOverflow about this problem

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You may need to change your algorithm and use some more efficient data structure. Can you tell us what algorithm your are trying to implement which requires that much amount of HashMaps? –  Ankur Apr 30 '11 at 3:59
I am just reading very large text files (hundreds of thousands of lines each), over which I have no control, i.e. they cannot be broken down. For every line of text, a HashMap is constructed that contains a few (actually around 10) small String values, using the same database field names again and again. Ideally, I would like to be able to read the entire file before sending the data to the database. –  PNS Apr 30 '11 at 9:32
It sounds like reading the entire file before sending the data to the database is really poor solution... in fact it doesn't work at all, within the very real contraints on available memory. Why do you want to do that anyway? What do you mean by "using the same database field names again and again"? field-names as keys or values? If they the fields are keys then just use a arrays, where the field is IMPLIED by it's position... and if they're values then intern them before you add them to the maps. It'd help to know what the data is. Cheers. Keith. –  corlettk Apr 30 '11 at 10:22
They are keys with a constant value. Intern does seem to help, thanks. –  PNS Apr 30 '11 at 11:26

11 Answers 11

up vote 81 down vote accepted

You're essentially running out of memory to run the process smoothly. Options that come to mind:

  1. Specify more memory like you mentioned, try something in between like -Xmx512m first
  2. Work with smaller batches of HashMap objects to process at once if possible
  3. If you have a lot of duplicate strings, use String.intern() on them before putting them into the HashMap
  4. Use the HashMap(int initialCapacity, float loadFactor) constructor to tune for your case
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I already use close to the initial capacity of the HashMap, so the program is nearly optimal there. –  PNS Apr 30 '11 at 9:56
If it works with more memory is there any reason not to go with that? It will actually only grow as large as necessary up to your maximum if you use something like -Xms128m -Xmx1024m. Seems the most simple option. –  WhiteFang34 Apr 30 '11 at 10:03
Yes, and I guess the fastest. I used intern() for some probably repeated values and the problem went away, too. –  PNS Apr 30 '11 at 11:11

@takrl: The default setting for this option is:

javaw -XX:-UseConcMarkSweepGC

which means, this option is not active by default. So when you say you used the option "+XX:UseConcMarkSweepGC" I assume you were using this syntax:

javaw -XX:+UseConcMarkSweepGC

which means you were explicitly activating this option. For the correct syntax and default settings of Java HotSpot VM Options

check this document

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This doesn't seem to be recognised. Would the full line be java -XX:+UseConcMarkSweepGC ? –  christopher Sep 18 '13 at 11:13

For the record, we had the same problem today. We fixed it by using this option:


Apparently, this modified the strategy used for garbage collection, which made the issue disappear.

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Ummm... you'll either need to:

  1. Completely rethink your algorithm & data-structures, such that it doesn't need all these little HashMaps.

  2. Create a facade which allows you page those HashMaps in-and-out of memory as required. A simple LRU-cache might be just the ticket.

  3. Up the memory available to the JVM. If necessary, even purchasing more RAM might be the quickest, CHEAPEST solution, if you have the management of the machine that hosts this beast. Having said that: I'm generally not a fan of the "throw more hardware at it" solutions, especially if an alternative algorithmic solution can be thought up within a reasonable timeframe. If you keep throwing more hardware at every one of these problems you soon run into the law of diminishing returns.

What are you actually trying to do anyway? I suspect there's a better approach to your actual problem.

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See my comments above. The use case is very simple and I am looking for a way to process an entire large file without interrupting in the middle of the process. Thanks! –  PNS Apr 30 '11 at 9:52

Use alternative HashMap implementation (Trove). Standard Java HashMap has >12x memory overhead. One can read details here.

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<dependency> <groupId>net.sf.trove4j</groupId> <artifactId>trove4j</artifactId> <version>3.0.3</version> </dependency> –  Jeef May 16 '14 at 21:43

Don't store the whole structure in memory while waiting to get to the end.

Write intermediate results to a temporary table in the database instead of hashmaps - functionally, a database table is the equivalent of a hashmap, i.e. both support keyed access to data, but the table is not memory bound, so use an indexed table here rather than the hashmaps.

If done correctly, your algorithm should not even notice the change - correctly here means to use a class to represent the table, even giving it a put(key, value) and a get(key) method just like a hashmap.

When the intermediate table is complete, generate the required sql statement(s) from it instead of from memory.

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If you're creating hundreds of thousands of hash maps, you're probably using far more than you actually need; unless you're working with large files or graphics, storing simple data shouldn't overflow the Java memory limit.

You should try and rethink your algorithm. In this case, I would offer more help on that subject, but I can't give any information until you provide more about the context of the problem.

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See my comments above. The use case is very simple and I am looking for a way to process an entire large file without interrupting in the middle of the process. Thanks! –  PNS Apr 30 '11 at 9:55



as explained in


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You're just repeating previous answers with this... –  Beau Grantham Sep 29 '12 at 0:29
the other answers are confusing. one is incorrect, specifying the default GC option of disabling concurrent mark sweep. the second is corrective, verbose, referencing the first answer. this is the copy-paste correct answer. –  Walrus the Cat Jun 19 at 3:57

This helped me to get rid of this error.This option disables -XX:+DisableExplicitGC

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In case of the error:

"Internal compiler error: java.lang.OutOfMemoryError: GC overhead limit exceeded at java.lang.AbstractStringBuilder"

increase the java heap space to 2GB i.e., -Xmx2g.

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The parallel collector will throw an OutOfMemoryError if too much time is being spent in garbage collection. In particular, if more than 98% of the total time is spent in garbage collection and less than 2% of the heap is recovered, OutOfMemoryError will be thrown. This feature is designed to prevent applications from running for an extended period of time while making little or no progress because the heap is too small. If necessary, this feature can be disabled by adding the option -XX:-UseGCOverheadLimit to the command line.

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Where did you get this information? I'm interested because it appears to be very, very correct. found it... ---> oracle.com/technetwork/java/javase/… –  MaasSql Apr 17 at 12:41

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