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So here is the problem I am trying to solve - I have an Object with two integer fields that I want to cache

public class MyObject {
   int x;
   int y;
   ....
}

Now the field x is what I mainly match on - but there can be duplicates in which case I want to fall back on the second field (so that this.x=that.x and this.y=that.y). y can only be 25 distinct values. Now I know I could just combine the two as a String and use that as the cache key, but then I would have to try x+[25 possible values] to actually determine if it was not in the cache - making cache misses very expensive. I was thinking of trying to store a List<Integer> as the cache value for the field x and then if their was more then one, iterate down the list and look for a match on y.

Now if I use a ConcurrentList (or a Set if I care about duplicates - lets ignore that for now) will multiple threads be able to add to it and then put it back into the cache without race conditions? Is it possible that Ehcache might return two different List Objects to two threads and then when they add their new value to the list and attempt to put it back to the cache I could get undeterministic results? Do you see a better way of constructing this cache?

EDIT : I appreciate the answers below, but everyone seems to be missing the main point. Will this work? Could Ehcache actually return two different objects for the same cacheKey (say if the object was on disk during the call and it's serialized it twice, once for each call).

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Is there a reason you can't use a hash as the key? –  Falmarri Nov 9 '10 at 21:59
    
As I stated in the question that would mean for any given value of x I would have to check the cache possibly 25 times to actually know it was not in the cache. I want to match on x no matter the value of y - but if there are multiple x then the best value of y. –  Gandalf Nov 9 '10 at 22:01
    
Yes it is possible to have a value added twice using the method you mentioned. Rather use a ConcurrentMap. –  Keegan Carruthers-Smith Nov 9 '10 at 22:32
    
Yeah I understand that Keegan (I'll change the question to reflect) - the real question is whether or not there could possible be two completely different List (or Set as you pointed out) objects created. –  Gandalf Nov 9 '10 at 22:34
    
What do you mean by the best value of y? –  John Vint Nov 9 '10 at 22:47
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5 Answers 5

up vote 2 down vote accepted
+75

It's absolutely possible that you get two different instances of your List (or of any Serializable)! Try this:

public static void main(final String[] args) throws Exception {
    final Cache cache = CacheManager.getInstance().getCache("smallCache");

    final List<String> list = new ArrayList<String>();
    cache.put(new Element("A", list));

    /* We put in a second element. Since maxElementsInMemory="1", this means
     * that "A" will be evicted from memory and written to disk. */
    cache.put(new Element("B", new ArrayList<String>())); 
    Thread.sleep(2000); // We need to wait a bit, until "A" is evicted.

    /* Imagine, the following happens in Thread 1: */
        final List<String> retrievedList1 =
                   (List<String>) cache.get("A").getValue();
        retrievedList1.add("From Thread 1");

    /* Meanwhile, someone puts something in the cache: */
        cache.put(new Element("C", new ArrayList<String>())); 

    Thread.sleep(2000); // Once again, we wait a bit, until "A" is evicted.

    /* Now the following happens in Thread 2: */
        final List<String> retrievedList2 =
                   (List<String>) cache.get("A").getValue();
        retrievedList2.add("From Thread 2");
        cache.put(new Element("A", retrievedList2));

    /* Meanwhile in Thread 1: */    
        cache.put(new Element("A", retrievedList1));

    /* Now let's see the result: */
    final List<String> resultingList =
                        (List<String>) cache.get("A").getValue();
    for (final String string : resultingList) {
        System.out.println(string);
    } /* Prints only "From Thread 1". "From Thread 2" is lost.
                 But try it with maxElementsInMemory="3", too!! */

    CacheManager.getInstance().shutdown();
}

I used the following in ehcache.xml:

<cache name="smallCache"
       maxElementsInMemory="1"
       eternal="true"
       overflowToDisk="true"
       diskPersistent="true"
       maxElementsOnDisk="200"
       memoryStoreEvictionPolicy="LRU"
       transactionalMode="off"
       >
</cache>

One solution may be to use Explicit Locking, which seems to be available for standalone (non-Terracotta) caches, too (since ehcache 2.1).

Another solution would be to only have one thread which can modify the List. If you have multiple threads which can modify it, and you don't use locking on the cache, then you can get exactly the undeterministic results you described!

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That doesn't show the cache returning two different copies of the list, that shows you holding one and then reading one from disk. –  Gandalf Nov 18 '10 at 19:09
    
@Gandalf: Just do the same thing twice: Do another flush() + Thread.sleep(), and then retrieve it again. You'll get two different copies. –  Chris Lercher Nov 18 '10 at 19:19
    
@Gandalf: I've edited the example some more (simulating multiple threads) to make it absolutely clear, how the problem can occur. It's a bit longer now, but it shows exactly what you were afraid of in your question. Please try it with maxElementsInMemory="3", too, and see the difference! –  Chris Lercher Nov 19 '10 at 11:43
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I have a different approach for you, which I just read in an article about geographic range searches.

Put two key-value pairs in the cache: One with only x as the key, and one with both x and y as the key. When you look in the cache, look for the x-and-y key first. If it's there, you found a perfect match. If it's not there, look for the x key and possibly find a match with different y value.

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+1 for creative thinking - like the approach –  Gary Rowe Nov 9 '10 at 22:40
    
The cache is about 15 million objects - so I'd rather not grow it to 30 million unless there is no other way. I'll keep this in mind though. –  Gandalf Nov 9 '10 at 22:42
    
Also how does the cache using just 'x' as the key even work since I can have multiple objects with the same 'x' value (but different 'y'). –  Gandalf Nov 9 '10 at 22:44
    
You could use the key (x, -1) for just x –  Keegan Carruthers-Smith Nov 9 '10 at 22:47
    
Worst case this isn't any better. If I don't find x+y then I search for x - if I find x then I must then search for the next x+y option (and through all options till I find one). –  Gandalf Nov 9 '10 at 23:09
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I would create a method to get the value for your object. Use a semaphore to restrict access to the method (or use synchronized).

In your method, test for X-only matches, and if that returns multiple results, text for XY matches.

Once the object is outside of the cache, any modifications to the object will modify the object within the cache as well (since they are pointing to the same instance).

If you want to be super careful, use synchronized methods to get/set the member variables within the MyObject, and include a lock which is the MyObject instance.

public void setX( int x ) {
     synchronized( this ) {
         this.x = x;
     }
}
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You could use a Map containing a sorted set as the value. The first map could index on X and then you can pick the first element from the sorted set where the sort is based on Y.

I guess the google collection api got lots of neat stuff that you could use, for instance the SortedSetMultimap:

http://google-collections.googlecode.com/svn/trunk/javadoc/com/google/common/collect/SortedSetMultimap.html

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  • Make a Key class of x and y, ie. class Key { int x,y }
  • implement a separate comparison operation for you "lexical ordering" on x and y,
  • put it into a Map<Key,Value>
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