5

I am reading 《Understanding the JVM Advanced Features and Best practices》 that has a code segment that explains happens-before rule in java. I cannot understand. The code is below:

private int value = 0;
//executed by Thread A
public void setValue(int value){
    this.value = value;
}
//executed by Thread B
public void getValue(){
    return value;
}

Suppose that thread A starts before thread B in code. I can understand that we don't know the result returned by getValue() in Thread B, because it is not thread safe. But the book says if add synchronized key word to function setValue() and getValue(), then there is not exists thread safe problem and method getValue() will return the right value. The book explains that because synchronized meets with happens-before rule. So I have two questions by below code.

public class VolatileDemo3 {
    private volatile int value = 0;
    public static void main(String[] args) {
        VolatileDemo3 v = new VolatileDemo3();
        Thread A = new Thread(v.new Test1());// Thread A
        Thread B = new Thread(v.new Test2());//Thread B
        A.start();  
        B.start();
    }
    public void setValue(int value){
        this.value  = value;
    }
    public int getValue(){
        return this.value;
    }

    public class Test1 implements Runnable {
        @Override
        public void run() {
            setValue(10);
        }   
    }
    public class Test2 implements Runnable {
        @Override
        public void run() {
            int v = getValue();
            System.out.println(v);
        }
    }
}
  1. Although A.start() run before B.start() and value is volatile, we can't ensure thread B can print out 10, right? Because thread B is possible scheduled first by JVM, then thread B will print 0 not 10.
  2. Even if thread A scheduled before thread B by JVM, but we also can't guarantee that the instruction this.value = value executed by JVM before return this.value because JVM will sort instructions again. Am I understanding is right? Please help me.
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  • 3
    There is a difference between "thread safe" and "predictable". Adding synchronized will mean that Thread B will always see the correct value, but it might not yet have been updated. As you point out, there is no guarantee that the two threads will execute in the assumed order. Without synchronized there is no visibility guarantee, so even if A executed first, B might still see the old value. – Boris the Spider Aug 20 '16 at 8:14
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    To ensure "correct" visibility you should declare private volatile int value = 0;. This make shure that a value written is seen by all other threads after. – PeterMmm Aug 20 '16 at 8:17
  • 1
    @PeterMmm No, using synchronized is just fine. No need to add volatile. – Erwin Bolwidt Aug 20 '16 at 8:19
  • 1
    @ErwinBolwidt you sure that's true? I seem to recall that the JVM only guarantees atomic assignment of references and 32bit types, so long and double might happen in two assignments, especially on 32bit architecture - this SO answer seems to agree. I too lazy to check the Java 8 JLS... – Boris the Spider Aug 20 '16 at 8:32
  • 1
    @BoristheSpider volatile also guarantees atomic updates to 64-bit quantities: docs.oracle.com/javase/specs/jls/se8/html/jls-17.html#jls-17.7 – Erwin Bolwidt Aug 20 '16 at 8:52
9

The issue of "happened before" is not that it causes thread A to set the value before thread B. It is that although it may happen that thread A got to the this.value = value chronologically before thread B got to run getValue, the value B sees may still be the old value.

That is, in a threaded environment, even if two instructions are performed in chronological order, it doesn't mean that the results of one will be seen by the other.

If thread B happened to call the method first, it will always get the old value. But if it happened to call the method second, it's unknown if it gets the old or the new value.

For this reason, you have to use means to ensure the "happens before" rule, and then you know that the results of what "happened before" are seen by what "happens after".

So if value is volatile, for example, it ensures that if setValue() is called by thread A before thread B, then thread B will see the new value.

╔═════════════════════╤════════════════════════╤═════════════════════╗
║ Order of operations │ Are we using           │ What value of value ║
║                     │ volatile/synchronized? │ will B see?         ║
╠═════════════════════╪════════════════════════╪═════════════════════╣
║ A runs setValue(10) │ N                      │ Unknown             ║
║ B runs getValue()   ├────────────────────────┼─────────────────────╢
║                     │ Y                      │ 10                  ║
╟─────────────────────┼────────────────────────┼─────────────────────╢
║ B runs getValue()   │ N                      │ 0                   ║
║ A runs setValue(10) ├────────────────────────┼─────────────────────╢
║                     │ Y                      │ 0                   ║
╚═════════════════════╧════════════════════════╧═════════════════════╝

Regarding your two questions:

  1. True. You can't know which of them gets to that instruction first. It's not just the issue of which thread is scheduled first. The threads may be running on different CPUs, one CPU may need a long memory fetch, the other only a short memory fetch, so it is slower than the other. Also, it may be that the machine instructions in preparation for the code are of different length. In general, you simply don't know what is happening behind the scenes, and Java makes no guarantees about the order the threads run.
  2. It's unlikely that instructions will be re-arranged in this particular case, because the methods are very short. Again, you can't tell what is happening because it is up to the particular JVM, number of CPUs, type of CPU, scheduler and memory arrangement - you have no guarantees.
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  • This is the real issue, everyone else is completely missing the point. – Boris the Spider Aug 20 '16 at 8:22
  • Thanks very much @RealSkeptic. But I must to ensure a question fudrther. Seen below code – sunny Aug 21 '16 at 10:04
  • @sunny Don't try to post code in comments. Edit your question, add your additional problem, if it is part of the original one, and only put a comment to draw my (it anybody else's) attention to your edit. – RealSkeptic Aug 21 '16 at 10:07
  • @RealSkeptic thanks very mush,I edit the question again. I must to ensure some questions futher. can answer my two small questions below. Thanks – sunny Aug 21 '16 at 10:34
  • @sunny I added an answer to those two questions. – RealSkeptic Aug 21 '16 at 10:47
0

Adding synchronized to the functions setValue/getValue implies that any thread that wants to execute that piece of code will first have to obtain (or wait) for a lock on that object.

If we assume no locks being held before Thread A calls setValue/getValue, Thread A will immediately get the lock. However, in the interim, if thread B calls setValue/getValue, it will have to wait for Thread A to relinquish the lock before it can execute the method.

However, had both the threads been waiting for a lock on the object, we cannot guarantee which one would have been first picked by the OS.

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