public class ReOrdering implements Runnable {
    int one, two, three, four, five, six;
    volatile int volaTile;

    public void run() {
        one = 1;
        two = 2;
        three = 3;
        volaTile = 92;
        int x = four;
        int y = five;
        int z = six;

The assignments of one, two and three may be reordered, as long as they all happen before the volatile write. Similarly, the x, y, and z statements may be reordered as the volatile write happens before all of them. The volatile operation is often called a memory barrier. The happens before guarantee ensures that read and write instructions of volatile variables cannot be reordered across a memory barrier.

The happens before guarantee has another effect: When a thread writes to a volatile variable, then all other variables - including non-volatiles - changed by the thread before writing to the volatile variable are also flushed to main memory. When a thread reads a volatile variable it also reads all other variables - including non-volatile - that were flushed to main memory together with the volatile variable.

© Bruce Eckel "On Java 8"

I must have misunderstood something because this code doesn't work like this

public class Reordering {
    private int x;
    private volatile int y;

    public void writer() {
        x = 1;
        y = 2;

    public void reader() {
        if (y == 2) {
            if(x == 0) {
                // X assignment is happens-before for
                // volatile Y assignment
                // so X can't be 0 when Y equals 2
                throw new RuntimeException();

            x = 0;
            y = 0;

    public static void main(String[] args) {
        Reordering reordering = new Reordering();

        Thread thread = new Thread(() -> {
            while (true) {


        while (true) {
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  • i think your example is complicating this by having the 2 threads both write to the same variables, the 2 threads are getting interwoven unpredictably. – Nathan Hughes Jul 12 '18 at 9:16
  • @NathanHughes at first, I can't imagine the execution path which can lead to such a state. At second, how it can be possible to reproduce reordering without more than one thread? – Sergey Gornostaev Jul 12 '18 at 9:20
  • 3
    This is a simple race condition that happens with or without volatile. – Tudor Jul 12 '18 at 9:23

I think, the problem can occur when the writer tread has just set x=1, while the reader is already in the if block (before the variable assignments):

reader             writer state
-----------------  ------ --------
stops before x=0          x=1, y=2
                   x=1    x=1, y=2
x=0                       x=0, y=2
y=0                       x=0, y=0
                   y=2    x=0, y=2
reader will throw
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