I'm working on a (simple) caching solution of sorts, where a service can request a Cache object from a Map of caches. A Cache object works essentially just like a Map, too, with a key and a value and methods to access and store objects.
I came up with the following solution, but as you can see, it contains a cast (because get() can't know what the types of the nested object are supposed to be).
private final Map<String, Cache<?, ?>> caches = new HashMap<String, Cache<?, ?>>();
public <K, V> Cache<K, V> getOrCreateCache(String identifier) {
if (caches.containsKey(identifier)) {
return (Cache<K, V>) caches.get(identifier);
} else {
Cache<K, V> cache = new CacheImpl<K, V>();
caches.put(identifier, cache);
return cache;
}
}
private void test() {
Cache<String, String> strCache = getOrCreateCache("string cache");
strCache.set("key", "value");
}
Now, my questions:
- Is this a 'safe' approach, as long as classcastexceptions are handled properly? (probably going to catch those and pack them into a custom exception class)
- Is there a 'safe' alternative? One with generics, if at all possible, because I like them and dislike casts.
- (not directly related) Is this threadsafe? I assume not, but then, I'm no threading expert. Is it enough to just make the whole method synchronized, or would that (with half a dozen clients) cause too much overhead / locking? Is there a neat solution for that?
Edit: Woo, lots of answers, thanks! Editing here to describe an oddity I found while actually testing this:
Cache<String, String> someCache = service.getOrCreateCache(cacheIdentifier);
someCache.set("asdf", "sdfa");
Cache<String, Integer> someCacheRetrievedAgain = service.getOrCreateCache(cacheIdentifier);
System.out.println(someCacheRetrievedAgain.get("asdf")); // prints "sdfa". No errors whatsoever. Odd.