I'm somewhat new to multithreaded environments and I'm trying to come up with the best solution for the following situation:
I read data from a database once daily in the morning, and stores the data in a HashMap in a Singleton object. I have a setter method that is called only when an intra-day DB change occurs (which will happen 0-2 times a day).
I also have a getter which returns an element in the map, and this method is called hundreds of times a day.
I'm worried about the case where the getter is called while I'm emptying and recreating the HashMap, thus trying to find an element in an empty/malformed list. If I make these methods synchronized, it prevents two readers from accessing the getter at the same time, which could be a performance bottleneck. I don't want to take too much of a performance hit since writes happen so infrequently. If I use a ReentrantReadWriteLock, will this force a queue on anyone calling the getter until the write lock is released? Does it allow multiple readers to access the getter at the same time? Will it enforce only one writer at a time?
Is coding this just a matter of...
private final ReentrantReadWriteLock readWriteLock = new ReentrantReadWriteLock();
private final Lock read = readWriteLock.readLock();
private final Lock write = readWriteLock.writeLock();
public HashMap getter(String a) {
read.lock();
try {
return myStuff_.get(a);
} finally {
read.unlock();
}
}
public void setter()
{
write.lock();
try {
myStuff_ = // my logic
} finally {
write.unlock();
}
}