Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

This is a section from Core Java 8th edition Page 757


public void flipDone() {
   done = !done;

// not atomic

I don't understand why it's not atomic. Can any one tell me why? thanks

share|improve this question

5 Answers 5

up vote 3 down vote accepted

The flipDone method is executed by the computer in three distinct steps:

Read the value of memory location labeled done into ALU
Flip the value (i.e true -> false or false -> true)
Write the new value into the memory location done

In Java, a piece of code can potentially be invoked in multiple threads. These threads should be thought of as executing the code concurrently.

Say, memory location labeled done contains the value false initially. Consider two threads calling flipDone, resulting in the following sequence of steps:

Thread 1                             Thread 2
Read value of done, false
Invert that value to true
Write the new value, true, to done       
                                     Read value of done, now true
                                     Invert that value to false
                                     Write the new value, false, to done

The flipDone method was called twice. done went from false to true and then back again to false - as one would expect. But since the threads execute concurrently, this is not the only ordering of steps. Consider this ordering instead:

Thread 1                             Thread 2
Read value of done, false
Invert that value to true            Read value of done, false
Write the new value, true, to done   Invert that value to true    
                                     Write the new value, true, to done

While the first thread is inverting the value it read, the second thread, concurrently, is reading the value. Similarly, while the first thread is writing the value to memory, the second thread is inverting the value it read. When Thread 2 finishes, the value of done will be true. Here, although flipDone was called twice, done was flipped only once! One of the updates seem to have been lost. This is the problem that the book is trying to warn you about.

share|improve this answer

There are three steps here:

  1. Read the value of the boolean done
  2. Invert the value read in step 1
  3. Assign that value to the boolean done

There's nothing to stop another thread from pre-empting in the middle of all this.

share|improve this answer

When you execute

done = !done;

What actually happens is:

1. Get the value of done
2. Apply the not operator
3. Assign it to done

If two threads execute the first step together, they are going to have the same value of done, so instead of changing it two times, they will change it only once.

For instance if done was initially true, after changing it two times you'd expect it's still true, but if the two threads execute step 1 together, it will be false.

share|improve this answer

Because two threads may be calling flipDone() method at the same time so the state of the done variable is indeterminate.

share|improve this answer

It does not execute as a single indivisible operation but instead is a sequence of three discrete operations - Fetch the current value of done, Negate the value, Write the new value back to done. It is a read-modify-write operation in which the resulting state is derived from the previous state.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.