Using the synchronized keyword method, using the javap command to view the bytecode, it is found that monitor is used, and if it is possible to call the monitor when the synchronized is implemented, is that my understanding, right? Please correct it if you do not. What is the relationship between them? What is the relationship between the lock and the monitor?


From the official documentation of Locks and Synchronization(https://docs.oracle.com/javase/tutorial/essential/concurrency/locksync.html):

  • Synchronization is built around an internal entity known as the intrinsic lock or monitor lock.
  • Every object has an intrinsic lock associated with it. By convention, a thread has to acquire the object's monitor lock before accessing them, and then release the monitor lock when it's done with them. A thread is said to own the lock between the time it has acquired the lock and released the lock. As long as a thread owns a monitor lock, no other thread can acquire the same lock. The other thread will block when it attempts to acquire the lock.
  • When a thread releases the lock, a happens-before relationship is established between that action and any subsequent acquisition of the same lock.

So a monitor and a lock can not be compared for differences, rather they are complimentary to each other. Every object in Java is associated with a monitor which a thread can lock or unlock.



A lock is kind of data which is logically part of an object’s header on the heap memory. Each object in a JVM has this lock (or mutex) that any program can use to coordinate multi-threaded access to the object. If any thread want to access instance variables of that object; then thread must “own” the object’s lock (set some flag in lock memory area). All other threads that attempt to access the object’s variables have to wait until the owning thread releases the object’s lock (unset the flag).

Once a thread owns a lock, it can request the same lock again multiple times, but then has to release the lock the same number of times before it is made available to other threads. If a thread requests a lock three times, for example, that thread will continue to own the lock until it has “released” it three times.

Please note that lock is acquired by a thread, when it explicitly ask for it. In Java, this is done with the synchronized keyword, or with wait and notify.


Monitor is a synchronization construct that allows threads to have both mutual exclusion (using locks) and cooperation i.e. the ability to make threads wait for certain condition to be true (using wait-set).

In other words, along with data that implements a lock, every Java object is logically associated with data that implements a wait-set. Whereas locks help threads to work independently on shared data without interfering with one another, wait-sets help threads to cooperate with one another to work together towards a common goal e.g. all waiting threads will be moved to this wait-set and all will be notified once lock is released. This wait-set helps in building monitors with additional help of lock (mutex).

For more clarification refer -


Difference between lock and monitor – Java Concurrency

  • Nice answer. Your first link has expired ,fyi. – theRiley Nov 19 '19 at 16:58

In this document, you can find the answer to your question:

Synchronization. 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.

  • It can be said that each object has a monitor, but the monitor is not useful when it does not synchronize, so it does not activate the call, which involves the monitor to monitor the data when the code is locked synchronously. Can this be understood in this way? – DuZhentong Apr 2 '18 at 11:57

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