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While going through Java Concurrency in practice by Brian Goetz I encountered the following line:

A data race occurs when a variable is read by more than one thread, and written by at least one thread, but the reads and writes are not ordered by happens-before. A correctly synchronized program is one with no data races; correctly synchronized programs exhibit sequential consistency, meaning that all actions within the program appear to happen in a fixed, global order.

My Question is that, Is Out of Order writes the only reason for Data Race condition in java or possibly in other programming languages?
UPDATE
OK, I did some more investigation about data-race and found the following from oracle official site which says that :

The Thread Analyzer detects data-races that occur during the execution of a multi-threaded process. A data race occurs when:

  • two or more threads in a single process access the same memory location concurrently, and
  • at least one of the accesses is for writing, and
  • the threads are not using any exclusive locks to control their accesses to that memory.

When these three conditions hold, the order of accesses is non-deterministic, and the computation may give different results from run to run depending on that order. Some data-races may be benign (for example, when the memory access is used for a busy-wait), but many data-races are bugs in the program.


In this part, it is mentioning that : the order of accesses is non-deterministic
Is it talking about the the sequence in which Threads are accessing the memory location? If yes, then synchronization never guarantee about the order in which threads will access the block of code. So , how synchronization can resolve the issue of data race?

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    Yes there can. The problem there is memory visibility. Unless you have marked the variable as volatile or are protecting its access with either synchronized block or lock, it is possible that a given thread will not see updates made by another thread. – Brett Okken Jul 5 '14 at 23:37
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    @Mac: writing to that variable atomically is the key. The atomic operations supported by Java (e.g. java.util.concurrent.atomic.*) guarantees that the operations are ordered. So if one thread updates an atomic variable, the update happens-before all subsequent reads. The atomic operation itself sets the memory barrier. If you can not update the variable atomically (or with synchronization or locks), then cases like mentioned in @BrettOkken 's comment could happen – James Jul 5 '14 at 23:47
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    @Mac: it's all about memory barrier. Atomic operation, visibility, synchronization and locks are all about setting a memory barrier so that operations on particular blocks of data have proper ordering semantics. – James Jul 5 '14 at 23:53
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    We need to be careful talking about atomic operations. Setting any primitive (other than double or long) is atomic. That does not mean it is visible across threads. – Brett Okken Jul 6 '14 at 0:03
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    @jameslarge The two aren't necessarily conflicting. Some data races may indeed be benign, but the program would still be classed as not correctly synchronized. – biziclop Jul 6 '14 at 16:29
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I would rather define data race as

Data race between writing and reading of some value or reference from a variable is a situation when the result of reading is determined by the "internal" (jvm- or os-controlled) thread scheduling.

In fact, second definition from the question says the same in more "official" words :)

In the other words, consider thread A writing some value to the variable and thread B attempting to read it. If you miss any kind of synchronization (or other mechanism that can provide happens-before guarantees between write and subsequent read), your program has a data race between threads A and B.

Now, to your question:

Is it talking about the the sequence in which Threads are accessing the memory location? If yes, then synchronization never guarantee about the order in which threads will access the block of code.

Synchronization in that particular case guarantees that you will never be able to read value that variable had before the writer thread written new value after writer thread exited synchronized block or method. Without syncronization, there is a chance to read old value even after write is actually happened.

About the order of access: it is going to be deterministic with synchronization in the following way:

Let's take a look at our threads A and B again. The operations order is now sequential - thread B will not be able to start reading until thread A finished with writing. To get this situation clear, imagine that writing and reading is really a long process. Without synchronization, these operations will be able to interlap with each other which might result in some meaningless values read.

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