Logo Questions Linux Laravel Mysql Ubuntu Git Menu
 

Volatile keyword in Java - Clarification [duplicate]

Tags:

java

volatile

I am really confused about what I read about the applications of volatile keyword in java.

  1. Is the following statement correct? "a write to a volatile field happens before every subsequent read of the same field"

  2. Ideally when should volatile keyword used?

  3. What is the difference between:

    class TestClass
    {  private int x;
    
       synchronized int get(){return x;}
       synchronized void set(int x){this.x = x;}
    
    }
    

and

class TestClass
{  private volatile int x;

   int get(){return x;}
   void set(int x){this.x = x;}

}
like image 712
softwarematter Avatar asked Aug 30 '10 18:08

softwarematter


People also ask

What is Java volatile keyword?

Volatile keyword is used to modify the value of a variable by different threads. It is also used to make classes thread safe. It means that multiple threads can use a method and instance of the classes at the same time without any problem.

What is the advantage of volatile keyword?

The volatile keyword means that the compiler will force a new read of the variable every time it is referenced. This is useful when that variable is something other than standard memory.

When should I use volatile in Java?

Yes, volatile must be used whenever you want a mutable variable to be accessed by multiple threads. It is not very common usecase because typically you need to perform more than a single atomic operation (e.g. check the variable state before modifying it), in which case you would use a synchronized block instead.


3 Answers

volatile is a field modifier, while synchronized modifies code blocks and methods. So we can specify three variations of a simple accessor using those two keywords:

     int i1;
     int geti1() {return i1;}

     volatile int i2;
     int geti2() {return i2;}

     int i3;
     synchronized int geti3() {return i3;}

geti1() accesses the value currently stored in i1 in the current thread. Threads can have local copies of variables, and the data does not have to be the same as the data held in other threads.In particular, another thread may have updated i1 in it's thread, but the value in the current thread could be different from that updated value. In fact Java has the idea of a "main" memory, and this is the memory that holds the current "correct" value for variables. Threads can have their own copy of data for variables, and the thread copy can be different from the "main" memory. So in fact, it is possible for the "main" memory to have a value of 1 for i1, for thread1 to have a value of 2 for i1 and for thread2 to have a value of 3 for i1 if thread1 and thread2 have both updated i1 but those updated value has not yet been propagated to "main" memory or other threads.

On the other hand, geti2() effectively accesses the value of i2 from "main" memory. A volatile variable is not allowed to have a local copy of a variable that is different from the value currently held in "main" memory. Effectively, a variable declared volatile must have it's data synchronized across all threads, so that whenever you access or update the variable in any thread, all other threads immediately see the same value. Generally volatile variables have a higher access and update overhead than "plain" variables. Generally threads are allowed to have their own copy of data is for better efficiency.

There are two differences between volitile and synchronized.

Firstly synchronized obtains and releases locks on monitors which can force only one thread at a time to execute a code block. That's the fairly well known aspect to synchronized. But synchronized also synchronizes memory. In fact synchronized synchronizes the whole of thread memory with "main" memory. So executing geti3() does the following:

  1. The thread acquires the lock on the monitor for object this .
  2. The thread memory flushes all its variables, i.e. it has all of its variables effectively read from "main" memory .
  3. The code block is executed (in this case setting the return value to the current value of i3, which may have just been reset from "main" memory).
  4. (Any changes to variables would normally now be written out to "main" memory, but for geti3() we have no changes.)
  5. The thread releases the lock on the monitor for object this.

So where volatile only synchronizes the value of one variable between thread memory and "main" memory, synchronized synchronizes the value of all variables between thread memory and "main" memory, and locks and releases a monitor to boot. Clearly synchronized is likely to have more overhead than volatile.

http://javaexp.blogspot.com/2007/12/difference-between-volatile-and.html

like image 174
Kerem Baydoğan Avatar answered Oct 20 '22 00:10

Kerem Baydoğan


volatile guarantees that reads from the variable always reflects the most up to update value. The runtime can achieve this in various ways, including not caching or refreshing the cache when the value has changed.

like image 37
Steve Kuo Avatar answered Oct 20 '22 01:10

Steve Kuo


bwawok eluded to it, but the volatile keyword isnt only for memory visibility. Before Java 1.5 was released the volatile keyword declared that the field will get the most recent value of the object by hitting main memory each time for reads and flushing for writes.

Today's volatile keyword syas two very important things:

  1. Dont worry about how but know that when reading a volatile field you will always have the most up to date value.
  2. A compiler cannot re order a volatile read/write as to maintain program order.
like image 28
John Vint Avatar answered Oct 19 '22 23:10

John Vint