Synchronization in java
The Java programming language provides multiple mechanisms for communicating between threads. The most basic of these methods is synchronization, which is implemented using monitors. Each object in Java is associated with a monitor, which a thread can lock or unlock. Only one thread at a time may hold a lock on a monitor. Any other threads attempting to lock that monitor are blocked until they can obtain a lock on that monitor. A thread t may lock a particular monitor multiple times; each unlock reverses the effect of one lock operation.
The synchronized statement computes a reference to an object; it then attempts to perform a lock action on that object's monitor and does not proceed further until the lock action has successfully completed. After the lock action has been performed, the body of the synchronized statement is executed. If execution of the body is ever completed, either normally or abruptly, an unlock action is automatically performed on that same monitor.
SynchronizedStatement:
synchronized ( Expression ) Block
The type of Expression must be a reference type, or a compile-time error occurs.
If evaluation of the Expression completes abruptly for some reason, then the synchronized statement completes abruptly for the same reason.
Otherwise, if the value of the Expression is null, a NullPointerException is thrown.
Otherwise, let the non-null value of the Expression be V. The executing thread locks the monitor associated with V. Then the Block is executed, and then there is a choice:
If execution of the Block completes normally, then the monitor is unlocked and the synchronized statement completes normally.
If execution of the Block completes abruptly for any reason, then the monitor is unlocked and the synchronized statement completes abruptly for the same reason.
A single thread may acquire a lock more than once. Code is shown below.
class Sample { public static void main(String[] args) { Sample t = new Sample(); synchronized(t) { synchronized(t) { System.out.println("made it!"); } } } } }
Acquiring the lock associated with an object does not in itself prevent other threads from accessing fields of the object or invoking un-synchronized methods on the object. Other threads can also use synchronized methods or the synchronized statement in a conventional manner to achieve mutual exclusion.
* The Java® Language Specification Java SE 8 Edition









