Imagine the following program.
class Main {
static class Whatever {
int x = 0;
}
public static void main(String[] args) {
Whatever whatever = new Whatever();
Thread t = new Thread(() -> {
whatever.x = 1;
});
t.start();
try {
t.join();
}
catch (InterruptedException e) {
}
System.out.println(whatever.x);
}
}
The main-thread has cached whatever
and x
is set to 0
. The other thread starts, caches whatever
and sets the cached x
to 1
.
The output is
1
so the main-thread has seen the write. Why is that?
Why was the write done to the shared cache and why has the main-thread invalidated its cache to read from the shared cache? Why don't I need volatile
here?
volatile
and synchronization is needed rather than trying to understand the absurd complexity of modern hardware and modern compiler optimizations. This is why code that gets synchronization wrong tends to fail in very unpredictable ways or not at all.