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I know some of you guys will consider it as a repeated question... :) but my only point is how Atomic / Volatile / Synchronize internally works ??

What is the difference between following code blocks....

Code :1

private int counter;

public int getNextUniqueIndex() {
    return counter++; 
}

Code :2

private AtomicInteger counter;

public int getNextUniqueIndex() {
    return counter.getAndIncrement();
}

Code :3

private Volatile int counter;

public int getNextUniqueIndex() {
    return counter++; 
}

does the Volatile works in following way ??

volatile int i = 0;
void incIBy5() {
    i += 5;
}

is equal to

void incIBy5() {
    int temp;
    synchronized(i) { temp = i }
    synchronized(i) { i = temp + 5 }
}

I know that two threads can not enter in Synchronize block at the same time.. am i right ?? if this is true than How this atomic.incrementAndGet() works without Synchronize ?? and is thread safe ??

And what is difference between internal reading and writing to Volatile Variable / Atomic Variable ?? i read in some article that thread has local copy of variables what is that ??

Thank you for reading my question. Hardik

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1  
That makes a whole lot of questions, with code which doesn't even compile. Maybe you should read a good book, like Java Concurrency in Practice. –  JB Nizet Mar 17 '12 at 11:51
    
@JBNizet you are right!!! i have that book, it doesn't have Atomic concept in brief and i am not getting some concepts of that. of curse it's my mistake not of author. –  hardik Mar 17 '12 at 11:57
2  
You don't really have to care how it's implemented (and it varies with the OS). What you have to understand is the contract: the value is incremented atomically, and all the other threads are guaranteed to see the new value. –  JB Nizet Mar 17 '12 at 12:01
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2 Answers

up vote 45 down vote accepted

You are specifically asking about how they internally work, so here you are:

No synchronization

private int counter;

public int getNextUniqueIndex() {
  return counter++; 
}

It basically reads value from memory, increments it and puts back to memory. This works in single thread but nowadays, in the era of multi-core, multi-CPU, multi-level caches it won't work correctly. First of all it introduces race condition (several threads can read the value at the same time), but also visibility problems. The value might only be stored in "local" CPU memory (some cache) and not be visible for other CPUs/cores (and thus - threads). This is why many refer to local copy of a variable in a thread. It is very unsafe, consider very popular but broken thread-stopping code:

private boolean stopped;

public void run() {
    while(!stopped) {
        //do some work
    }
}

public void pleaseStop() {
    stopped = true;
}

Add volatile to stopped variable and it works fine - if any other thread modifies stopped variable via pleaseStop() method, you are guaranteed to see that change immediately in working thread's while(!stopped) loop. BTW this is not a good way to interrupt a thread either, see: How to stop a thread that is running forever without any use and Stopping a specific java thread.

AtomicInteger

private AtomicInteger counter = new AtomicInteger();

public int getNextUniqueIndex() {
  return counter.getAndIncrement();
}

The AtomicInteger class uses CAS (compare-and-swap) low-level CPU operations (no synchronization needed!) They allow you to modify particular variable only if the present value is equal to something else (and return it it succeed). So when you execute getAndIncrement() it actually runs in a loop (simplified real implementation):

int current;
do {
  current = get();
} while(!compareAndSet(current, current + 1)

So basically: read, try to store incremeneted value, if not succeeded (the value is no longer equal to current) read and try again. The tryChanging() is implemented in native code (assembly).

volatile without synchronization

private volatile int counter;

public int getNextUniqueIndex() {
  return counter++; 
}

This code is not correct. It fixed visibility issue (volatile makes sure other threads can see change made to counter) but still introduces race condition. This has been explained multiple times: pre/post-incrementation is not atomic.

The only side-effect of volatile is "flushing" caches so that all other parties see the most fresh version of the data. This is too strict in most situations, that's why volatile is not default.

volatile without synchronization (2)

volatile int i = 0;
void incIBy5() {
  i += 5;
}

The same problem as above, even worse, because i is not private. Still race condition is present. Why is it a problem? If, say, two threads run this code simultaneously, the output might be + 5 as well as + 10 - but at least you are guaranteed to see the change.

Multiple independent synchronized

void incIBy5() {
  int temp;
  synchronized(i) { temp = i }
  synchronized(i) { i = temp + 5 }
}

Surprise, this code is incorrect as well. In fact it is completely wrong. First of all you are synchronizing on i, which is about to be changed (moreover, i is a primitive, so I guess you are synchronizing on a temporary Integer created via autoboxing...) Completely flawed. You could as well write:

synchronized(new Object()) {
  //thread-safe, SRSLy?
}

No two threads can enter the same synchronized block with the same lock. In this case (and similarily in your code) the lock object changes upon every execution, so synchronized effectively has no effect.

Even if you have used final variable (or this) for synchronization, the code is still incorrect. Two threads can first read i to temp synchronously (having the same value locally in temp) then first assigns new value to i (say, from 1 to 6) and another one does the same thing (from 1 to 6).

The synchronization must span from reading to assigning a value. Your first synchronization has no effect (reading an int is atomic) and the second as well. These are correct forms if you ask me:

void synchronized incIBy5() {
  i += 5 
}

void incIBy5() {
  synchronized(this) {
    i += 5 
  }
}

void incIBy5() {
  synchronized(this) {
    int temp = i;
    i = temp + 5;
  }
}
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The only thing I'd add is that the JVM copies variable values into registers to operate on them. This means threads running on a single CPU/core can still see different values for a non-volatile variable. –  David Harkness Mar 17 '12 at 13:10
    
@thomasz: is compareAndSet(current, current + 1) synchronized ?? if no than what happens when two threads are executing this method at the same time ?? –  hardik Apr 2 '12 at 11:26
    
@Hardik: compareAndSet is just a thin wrapper around CAS operation. I go into some details in my answer. –  Tomasz Nurkiewicz Apr 2 '12 at 12:31
    
@thomsasz: ok, i go through this link question and answered by jon skeet, he says "thread can't read a volatile variable without checking whether any other thread has performed a write." but what happens if one thread is in between of writing operation and second thread is reading it!! am i wrong ?? isn't it race condition on atomic operation ?? –  hardik Apr 2 '12 at 12:52
1  
@Hardik: please create another question to get more responses on what you are asking, here it's just you and me and comments aren't appropriate for asking questions. Don't forget to post a link to a new question here so I can follow up. –  Tomasz Nurkiewicz Apr 2 '12 at 13:05
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I know that two threads can not enter in Synchronize block at the same time

Two thread cannot enter a synchronized block on the same object twice. This means that two threads can enter the same block on different objects. This confusion can lead to code like this.

private Integer i = 0;

synchronized(i) {
   i++;
}

This will not behave as expected as it could be locking on a different object each time.

if this is true than How this atomic.incrementAndGet() works without Synchronize ?? and is thread safe ??

yes. It doesn't use locking to achieve thread safety.

If you want to know how they work in more detail, you can read the code for them.

And what is difference between internal reading and writing to Volatile Variable / Atomic Variable ??

Atomic class uses volatile fields. There is no difference in the field. The difference is the operations performed. The Atomic classes use CompareAndSwap or CAS operations.

i read in some article that thread has local copy of variables what is that ??

I can only assume that it referring to the fact that each CPU has its own cached view of memory which can be different from every other CPU. To ensure that your CPU has a consistent view of data, you need to use thread safety techniques.

This is only an issue when memory is shared at least one thread updates it.

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@Aniket Thakur are you sure about that? Integer is immutable. So i++ will probably auto-unbox the int value, increment it, and then create a new Integer, which is not the same instance as before. Try making i final and you will get compiler errors when calling i++. –  fuemf5 yesterday
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