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Coming from Java I'm trying to learn thread safety in Objective-C. So far I've leaned that

  • @synchronized blocks prevent concurrent access to the same block of code
  • volatile variables assure visibility of changes accross threads
  • OSMemoryBarrier(); assures proper ordering of access

My question is: Does one of those imply one or more of the others? If I want all three, do I need to use all three techniques?


volatile int first = 0;
volatile int second = 0;


@synchronized {

In Java all three are assured when entering and leaving a synchronized block and when reading or writing a volatile variable. True?

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1 Answer 1

up vote 1 down vote accepted

The @synchronized directive gets converted as follows...

- (NSString *)myString {
  @synchronized(self) {
    return [[myString retain] autorelease];


- (NSString *)myString {
  NSString *retval = nil;
  pthread_mutex_t *self_mutex = LOOK_UP_MUTEX(self);
  retval = [[myString retain] autorelease];
  return retval;
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So entering and leaving the synchronized block constitutes the passing of memory barriers? And if access to a variable is protected by a synchronized block, the variable doesn't need to be volatile, because changes are always visible to other threads? –  Twilite Oct 25 '11 at 15:51
I found more on volatile in the answers of this question: stackoverflow.com/questions/6866206/volatile-and-createthread It seems, volatile does not pose a memory barrier and is useless for synchronization of access among threads. –  Twilite Oct 26 '11 at 7:46

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