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I'm looking to implement a simple cache without doing too much work (naturally). It seems to me that one of the standard Java collections ought to suffice, with a little extra work. Specifically, I'm storing responses from a server, and the keys can either be the request URL string or a hash code generated from the URL.

I originally thought I'd be able to use a WeakHashMap, but it looks like that method forces me to manage which objects I want to keep around, and any objects I don't manage with strong references are immediately swept away. Should I try out a ConcurrentHashMap of SoftReference values instead? Or will those be cleaned up pretty aggressively too?

I'm now looking at the LinkedHashMap class. With some modifications it looks promising for an MRU cache. Any other suggestions?

Whichever collection I use, should I attempt to manually prune the LRU values, or can I trust the VM to bias against reclaiming recently accessed objects?

FYI, I'm developing on Android so I'd prefer not to import any third-party libraries. I'm dealing with a very small heap (16 to 24 MB) so the VM is probably pretty eager to reclaim resources. I assume the GC will be aggressive.

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java.util.concurrent.ConcurrentHashMap<K,V> developer.android.com/reference/java/util/concurrent/… will be O.K –  StudiousJoseph Jul 28 '10 at 16:46
No, with LinkedHashMap I wouldn't necessarily have to remove() and then put() because it can also modify the linked list to be in "access order" instead of the default "insertion order". –  Neil Traft Jul 28 '10 at 17:27
I stand corrected; I didn't notice that constructor. In that case, it's the best approach. I strongly recommend not using soft references, because available memory is a really bad way to control a cache (although perhaps less-so in a limited-memory device). –  kdgregory Jul 28 '10 at 17:32

5 Answers 5

up vote 5 down vote accepted

If you use SoftReference-based keys, the VM will bias (strongly) against recently accessed objects. However it would be quite difficult to determine the caching semantics - the only guarantee that a SoftReference gives you (over a WeakReference) is that it will be cleared before an OutOfMemoryError is thrown. It would be perfectly legal for a JVM implementation to treat them identically to WeakReferences, at which point you might end up with a cache that doesn't cache anything.

I don't know how things work on Android, but with Sun's recent JVMs one can tweak the SoftReference behaviour with the -XX:SoftRefLRUPolicyMSPerMB command-line option, which determines the number of milliseconds that a softly-reachable object will be retained for, per MB of free memory in the heap. As you can see, this is going to be exceptionally difficult to get any predictable lifespan behaviour out of, with the added pain that this setting is global for all soft references in the VM and can't be tweaked separately for individual classes' use of SoftReferences (chances are each use will want different parameters).

The simplest way to make an LRU cache is by extending LinkedHashMap as described here. Since you need thread-safety, the simplest way to extend this initially is to just use Collections.synchronizedMap on an instance of this custom class to ensure safe concurrent behaviour.

Beware premature optimisation - unless you need very high throughput, the theoretically suboptimal overhead of the coarse synchronization is not likely to be an issue. And the good news - if profiling shows that you are performing too slowly due to heavy lock contention, you'll have enough information available about the runtime use of your cache that you'll be able to come up with a suitable lockless alternative (probably based on ConcurrentHashMap with some manual LRU treatment) rather than having to guess at its load profile.

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I went with this solution 8 months ago and haven't looked back since. However, I just noticed something to watch out for: LinkedHashMap does NOT call removeEldestEntry for the putAll operation. So if you implement a cache this way, you should not call putAll or the cache will break! Just something to watch out for; I still love this method. You may want to do as I've done and override putAll so that it throws an UnsupportedOperationException. –  Neil Traft Apr 13 '11 at 22:45
Neil - that's a very good point. An alternative would be to override putAll as something like for (Entry e : m.entrySet()) put(e.getKey(), e.getValue()). Calling a series of single-element insertions respects both the semantics of the cache, and the correctness of putAll. However I'd be in two minds about this, since it's kind of implied that putAll is an efficient bulk operation. Perhaps throwing the exception, and requiring clients to do this loop themselves if it's an acceptable fallback, would lead to clearer code overall. –  Andrzej Doyle Apr 14 '11 at 8:29

LinkedHashMap is easy to use for cache. This creates an MRU cache of size 10.

private LinkedHashMap<File, ImageIcon> cache = new LinkedHashMap<File, ImageIcon>(10, 0.7f, true) {
    protected boolean removeEldestEntry(Map.Entry<File, ImageIcon> eldest) {
        return size() > 10;

I guess you can make a class with synchronized delegates to this LinkedHashMap. Forgive me if my understanding of synchronization is wrong.

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Good answer! And I could then make the map synchronized with Collections.synchronizedMap. That may reduce performance but I'm not too worried about access/insertion time in this case; I won't be doing it very often. –  Neil Traft Jul 28 '10 at 17:37
This is the same answer as Andrzej's above. I picked his instead of yours for all the extra information. –  Neil Traft Jul 28 '10 at 18:11
Yes, that should work. I just though that Collections.synchronizedMap() creates a new map instead of wrapping it. –  Denis Tulskiy Jul 28 '10 at 18:13

www.javolution.org has some interestig features - synchronized fast collections. In your case it worth a try as it offers also some nifty enhancements for small devices as Android ones.

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I have actually used Javolution before and I agree it's pretty great. I'm still reluctant to include external libraries, but what class does Javolution specifically have to address the creation an MRU cache? –  Neil Traft Jul 28 '10 at 17:29
I would extend FastMap and have the value in map as ab tuple (timestamp, value) or maybe the key as a composite of actual key + timestamp. In both situations the LRU will be easy to implement. –  Daniel Voina Aug 3 '10 at 18:51

For synchronization, the Collections framework provides a synchronized map:

Map<V,T> myMap = Collections.synchronizedMap(new HashMap<V, T>());

You could then wrap this, or handle the LRU logic in a cache object.

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I'm really asking about caching in this question, I already know how to make a collection synchronized. –  Neil Traft Jul 28 '10 at 17:33
Generally a ConcurrentMap is a better idea for this type of usage since it offers an atomic putIfAbsent() operator, whereas these two operations (containsKey() and put()) are not synchronized by the synchronized Map –  matt b Jul 28 '10 at 17:39
@Neil Traft: sorry, I wasn't clear on that from reading your question. –  aperkins Jul 28 '10 at 21:03

I like Apache Commons Collections LRUMap

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Hmmm, good suggestion. I wonder if their license will let me steal the source code without importing all of Commons Collections? –  Neil Traft Jul 28 '10 at 17:30
AFAIK apache is mostly permissive, if you keep the headers you should be fine. The library is very small and fast though, and very useful (see CollectionUtils, it provides subtract, intersec, collect, transform....) –  Julio - AWS Evangelist Jul 29 '10 at 14:17

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