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We use a loading Google Guava LoadingCache for bitmaps in an Android application. In the application I am running a drawing Thread, that paints the bitmaps in the cache to a Canvas. If a specific bitmap is not in the cache, it does not get drawn so that no loading will ever block the drawing Thread.

However, the painting results in visual stuttering and the frames per second rate is not how we would like it. I nailed it down to the getIfPresent() method of the cache. That alone takes over 20% of the applications total CPU time. In getIfPresent() LocalCache$Segment.get() takes over 80% of the time:

profiling-guava-cache.jpg

Bear in mind, this is only a lookup of an already present bitmap. There will never happen a load in get(). I figured there would be a bookkeeping overhead in get() for the LRU queue that decides which eviction takes place if the segment is full. But this is at least an order of magnitude slower of what a Key-Lookup in LRU-LinkedHashmap.get() would give me.

We use a cache to get fast lookups if an element is in the cache, if the lookup is slow, there is no point in caching it. I also tried getAllPresent(a) and asMap() but it gives equal performance.

Library version is: guava-11.0.1.jar

LoadingCache is defined as follows:

LoadingCache<TileKey, Bitmap> tiles = CacheBuilder.newBuilder().maximumSize(100).build(new CacheLoader<TileKey,Bitmap>() {
            @Override
            public Bitmap load(TileKey tileKey) {
            System.out.println("Loading in " + Thread.currentThread().getName() + " "
                + tileKey.x + "-" + tileKey.y);

            final File[][] tileFiles = surfaceState.mapFile.getBuilding()
                .getFloors().get(tileKey.floorid)
                .getBackground(tileKey.zoomid).getTileFiles();
            String tilePath = tileFiles[tileKey.y][tileKey.x].getAbsolutePath();

            Options options = new BitmapFactory.Options();
            options.inPreferredConfig = Bitmap.Config.RGB_565;

            return BitmapFactory.decodeFile(tilePath, options);
            }
        });

My questions are:

  • Do I use it wrong?
  • Is it's implementation unsutible for Android?
  • Did i miss a configuration option?
  • Is this a known issue with the Cache that's being worked on?

Update:

After about 100 frames painted the CacheStats are:

I/System.out( 6989): CacheStats{hitCount=11992, missCount=97,
loadSuccessCount=77, loadExceptionCount=0, totalLoadTime=1402984624, evictionCount=0}

After that missCount stays basicly the same as hitCount increments. In this case the cache is big enough for loads to happen sparsely, but getIfPresent is slow nontheless.

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1  
Please don't bold every other phrase; it was hard to read so I submitted an edit to take it out. –  simchona Feb 14 '12 at 19:39
    
Thank you, simchona for editing it to make it better readable. –  user643011 Feb 14 '12 at 19:45
    
Could you post the results of tiles.cacheStats() ? –  Louis Wasserman Feb 14 '12 at 19:46
    
(This is probably worth sending to guava-discuss and/or filing an issue, by the way.) –  Louis Wasserman Feb 14 '12 at 19:51
    
Why do you use a cache for it? Wouldn't a simple array do the job as well? (Draw all items in an pre-allocated array that are not null) –  Thomas Jungblut Feb 14 '12 at 20:00

2 Answers 2

up vote 17 down vote accepted

CacheBuilder was designed for server-side caching, where concurrency was a primary concern. It therefore trades off single-threaded and memory overhead in exchange for better multi-threaded behavior. Android developers should use LruCache, LinkedHashMap, or similar where single-threaded performance and memory are the primary concerns. In the future there may be a concurrencyLevel=0 to indicate that a lightweight, non-concurrent cache is required.

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1  
I have tried concurrencyLevel=1, but it did not improve the access time. concurrencyLevel=0 leads to an error. Indeed the AtomicReferenceArray takes a significant amount of CPU time. I'll go for android.util.LruCache for now. Thanks for your comment regarding the ARM architecture and your verbose answer. I would love to see a concurrencyLevel=0 in the future. –  user643011 Feb 14 '12 at 21:29
1  
concurrencyLevel=1 means single writer, multiple readers. That doesn't provide much of a simplification to work from. A level of 0 would indicate readers are synchronized with writes, so a synchronized version could be implemented. When I code reviewed LruCache we were still working on the Cache interface, so it was low priority to add concurrencyLevel=0 to MapMaker. Thus LruCache was born. –  Ben Manes Feb 14 '12 at 21:44
4  
FYI, LruCache is also available pre-Honeycomb in the compatibility library. developer.android.com/sdk/compatibility-library.html –  Jesse Wilson Feb 15 '12 at 17:34

Android code is not always optimised the same way as it is in a JVM. What can perform very well in Java might not perform as well in Android. I suggest you write a very simple cache of your own. e.g. using LinkedHashMap.removeEldestEntry() and see how that goes.

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