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Something happened that I'm not sure should be possible. Obviously it is, because I've seen it, but I need to find the root cause & I was hoping you all could help.

We have a system that looks up latitude & longitude for a zipcode. Rather than access it every time, we cache the results in a cheap in-memory HashTable cache, since the lat & long of a zip code tend to change less often than we release.

Anyway, the hash is surrounded by a class that has a "get" and "add" method that are both synchronized. We access this class as a singleton.

I'm not claiming this is the best setup, but it's where we're at. (I plan to change to wrap the Map in a Collections.synchronizedMap() call ASAP.)

We use this cache in a multi-threaded environment, where we thread 2 calls for 2 zips (so we can calculate the distance between the two). These sometimes happen at very nearly the same time, so its very possible that both calls access the map at the same time.

Just recently we had an incident where two different zip codes returned the same value. Assuming that the initial values were actually different, is there any way that writing the values into the Map would cause the same value to be written for two different keys? Or, is there any way that 2 "gets" could cross wires and accidentally return the same value?

The only other explanation I have is that the initial data was corrupt (wrong values), but it seems very unlikely.

Any ideas would be appreciated. Thanks, Peter

(PS: Let me know if you need more info, code, etc.)

public class InMemoryGeocodingCache implements GeocodingCache
{

private Map cache = new HashMap();
private static GeocodingCache instance = new InMemoryGeocodingCache();

public static GeocodingCache getInstance()
{
    return instance;
}

public synchronized LatLongPair get(String zip)
{
    return (LatLongPair) cache.get(zip);
}

public synchronized boolean has(String zip)
{
    return cache.containsKey(zip);
}

public synchronized void add(String zip, double lat, double lon)
{
    cache.put(zip, new LatLongPair(lat, lon));
}
}


public class LatLongPair {
double lat;
double lon;

LatLongPair(double lat, double lon)
{
    this.lat = lat;
    this.lon = lon;
}

public double getLatitude()
{
    return this.lat;
}

public double getLongitude()
{
    return this.lon;
}
}
share|improve this question
    
I don't see anything that uses "instance". What's it there for? Also, if you made cache "Map<String, LatLongPair>", it would be clearer what you're doing. –  Paul Tomblin Oct 28 '08 at 19:34
    
I would examine whatever calls InMemoryGeocodingCache.add very carefully. –  Paul Tomblin Oct 28 '08 at 19:36
    
If LatLongPair is truly immutable (no setters), you should make lat and lon final. This is meaningful from a concurrency point of view regarding safe publication / java memory model point of view. –  Alex Miller Oct 29 '08 at 5:15

8 Answers 8

The code looks correct.

The only concern is that lat and lon are package visible, so the following is possible for the same package code:

LatLongPair llp = InMemoryGeocodingCache.getInstance().get(ZIP1);
llp.lat = x;
llp.lon = y;

which will obviously modify the in-cache object.

So make lat and lon final too.

P.S. Since your key (zip-code) is unique and small, there is no need to compute hash on every operation. It's easier to use TreeMap (wrapped into Collections.synchronizedMap()).

P.P.S. Practical approach: write a test for two threads doing put/get operations in never-ending loop, validating the result on every get. You would need a multi-CPU machine for that though.

share|improve this answer
    
Just make them private! –  Egwor Oct 28 '08 at 20:50
    
private final :))) –  Vladimir Dyuzhev Oct 28 '08 at 20:57
    
why make them private? The values are intended to be immutable. Writing a get() method just to make the member variable private is a matter of preference, I suppose - but perhaps it's OK to consider that getters aren't always the right thing? –  Kevin Day Oct 29 '08 at 1:56
    
You're right, Kevin, private is not a dogma, and is not required in this case if the fields are final. It's just a common practice. –  Vladimir Dyuzhev Oct 29 '08 at 14:24
    
I agree with the opinion that those fields should be final. –  laz Oct 30 '08 at 21:21

Why it's happening is hard to tell. More code could help.

You should probably just be using a ConcurrentHashMap anyway. This will be more efficient, in general, than a synchronized Map. You don't synchronize access to it, it handles it internally (more efficiently than you could).

share|improve this answer

One thing to look out for is if the key or the value might be changing, for instance if instead of making a new object for each insertion, you're just changing the values of an existing object and re-inserting it.

You also want to make sure that the key object defines both hashCode and equals in such a way that you don't violate the HashMap contract (ie if equals returns true, the hashCodes need to be the same, but not necessarily vice versa).

share|improve this answer
    
He's using String as the key - there is no need to worry about hash codes –  oxbow_lakes Oct 28 '08 at 21:42
    
This wasn't originally obvious, as I added the code after the comment was made. –  Risser Oct 29 '08 at 0:07

is it possible the LatLonPair is being modified? I'd suggest making the lat and lon fields final so that they are not accidentally being modified elsewhere in the code.

note, you should also make your singleton "instance" and the map reference "cache" final.

share|improve this answer
    
I can't see how it's possible that LatLong is modified. You can see it's created & tossed into the map. I should double check to make sure we're not doing something funny to it after we pull it out later on... –  Risser Oct 28 '08 at 20:26
    
Okay, in the code that uses the cache, we pull the returned LatLongPair & create a new object with the lat/long values. So, its use is very limited & the values are only written in the constructor. But it was worth looking at. –  Risser Oct 28 '08 at 20:37

James is correct. Since you are handing back an Object its internals could be modified and anything holding a reference to that Object (Map) will reflect that change. Final is a good answer.

share|improve this answer

I don't really see anything wrong with the code you posted that would cause the problem you described. My guess would be that it's a problem with the client of your geo-code cache that has problems.

Other things to consider (some of these are pretty obvious, but I figured I'd point them out anyway):

  1. Which two zip codes were you having problems with? Are you sure they don't have identical geocodes in the source system?
  2. Are you sure you aren't accidentally comparing two identical zip codes?
share|improve this answer

The presence of the has(String ZIP) method implies that you have something like the following in your code:

GeocodingCache cache = InMemoryGeocodingCache.getInstance();

if (!cache.has(ZIP)) {
    cache.add(ZIP, x, y);
}

Unfortunately this opens you up to sync problems between the has() returning false and the add() adding which could result in the issue you described.

A better solution would be to move the check inside the add method so the check and update are covered by the same lock like:

public synchronized void add(String zip, double lat, double lon) {
    if (cache.containsKey(zip)) return;
    cache.put(zip, new LatLongPair(lat, lon));
}

The other thing I should mention is that if you are using getInstance() as a singleton you should have a private constructor to stop the possibility of additional caches being created using new InMemoryGeocodingCache().

share|improve this answer

Here is the java doc on HashMap:

http://docs.oracle.com/javase/7/docs/api/java/util/HashMap.html

Note that this implementation is not synchronized. If multiple threads access a hash map concurrently, and at least one of the threads modifies the map structurally, it must be synchronized externally. (A structural modification is any operation that adds or deletes one or more mappings; merely changing the value associated with a key that an instance already contains is not a structural modification.) This is typically accomplished by synchronizing on some object that naturally encapsulates the map. If no such object exists, the map should be "wrapped" using the Collections.synchronizedMap method. This is best done at creation time, to prevent accidental unsynchronized access to the map:

Map m = Collections.synchronizedMap(new HashMap(...));

Or better, use java.util.concurrent.ConcurrentHashMap

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