I've been looking at the GCC docs for defining macros and it looks like what I want isn't possible, but I figure if it is, someone here would know.

What I want to do is define this macro:

synchronized(x) {

Which expands to:


In C++ I could just make a SynchronizedBlock object that gets the lock in its constructor and unlocks in the destructor, but I have no idea how to do it in C.

I realize I could use a function pointer in the form synchronized(x, &myfunction);, but my goal is to make some C code look as much like Java as possible. And yes, I know this is evil.

  • 4
    You really should think twice before trying to make one language look like another. A macro that looked like the syntax you're asking for would be extremely confusing to someone reading it as C. Oct 27, 2010 at 19:54
  • R. is right that this might make things difficult to read, since it is not easily visible that this is a macro. I think the best is to stick to the convention that macros should be uppercase, and that the name should be really informative. I'd go for something like MUTUALY_EXCLUDE or so. Oct 27, 2010 at 21:11
  • ^ And yes, I know this is evil. Oct 27, 2010 at 21:47

4 Answers 4


EDIT: Changed to nategoose's version

#define synchronized(lock) \
for (pthread_mutex_t * i_#lock = &lock; i_#lock; \
     i_#lock = NULL, pthread_mutex_unlock(i_#lock)) \
    for (pthread_mutex_lock(i_#lock); i_#lock; i_#lock = NULL)

And you can use it like this:

synchronized(x) {

Or even without braces

  • 5
    That is simultaneously amazing and horrifying. I never would've thought of that. Oct 27, 2010 at 20:28
  • 3
    This should fix both: #define synchronized(lock) \ for (pthread_mutex_t * i_ = &lock; i_; i_ = NULL) \ ` for (pthread_mutex_lock(i_); i_;` \ ` pthread_mutex_unlock(i_), i_ = NULL)`
    – nategoose
    Oct 27, 2010 at 20:30
  • 2
    or, with a single for() and a check if the lock has been aquired: #define synchronized(MUTEX) \ for(pthread_mutex_t *synchronized_mutex_ = &MUTEX; \ synchronized_mutex_ && !pthread_mutex_lock(synchronized_mutex_); \ pthread_mutex_unlock(synchronized_mutex_), synchronized_mutex_ = 0)
    – Christoph
    Oct 27, 2010 at 20:46
  • 3
    Also, this has some pitfalls concerning flow control. break, continue, goto and return may do different than the programmer expects: the first two will just terminate the for inside the macro, and not of an enclosing construct. The later two will jump over the pthread_mutex_unlock, so the lock will not be released. Oct 27, 2010 at 21:18
  • 2
    This version won't let you nest synchronized blocks. To fix that I changed i_ to i_##lock (so synchronized(some_lock) expands to for(pthread_mutex_t *i_some_lock = &some_lock; .... As a bonus, synchronized(some_lock) synchronized(some_lock) {} will cause a compiler error. Oct 27, 2010 at 21:51

Here's a start, but you may need to tweak it:

#define synchronized(lock, func, args...) do { \
    pthread_mutex_lock(&(lock)); \
    func(##args); \
    pthread_mutex_unlock(&(lock)); \
} while (0)

Use like this (unfortunately, not the Java-like syntax you wanted):

synchronized(x, do_thing, arg1, arg2);
  • It looks like the do ... while(0) aren't necessary, the { .. } alone work (at least with gcc). This still requires a block like synchronized(x, function) instead of synchronized(x){ /* function */ } though. Oct 27, 2010 at 20:02

This was the best I came up with:

#define synchronized(x, things) \
      do { \
           pthread_mutex_t * _lp = &(x); \
           pthread_mutex_lock(_lp);      \
           (things);                     \
           pthread_mutex_unlock(_lp);    \
      } while (0)


                          printf("hey buddy\n"),
                          a += b,
                          printf("bye buddy\n")

Note that you have to use the rarely used comma operator and there are restrictions to what code can live within the (not quite java-like) synchronization code list.


Very interesting question!

I looked at the other answers and liked the one using for. I have an improvement, if I may! GCC 4.3 introduces the COUNTER macro, which we can use to generate unique variable names.

#define CONCAT(X, Y) X##__##Y
#define UNIQUE_COUNTER(prefix) CONCATWRAP(prefix, __COUNTER__)

#define DO_MUTEX(m, counter) char counter; \
for (counter = 1, lock(m); counter == 1; --counter, unlock(m))

#define mutex(m) DO_MUTEX(m, UNIQUE_COUNTER(m))

Using those macros, this code...

mutex(my_mutex) {

... will expand to...

char my_mutex__0;
for (my_mutex__0 = 1, lock(my_mutex); my_mutex__0 == 1; --my_mutex__0, unlock(m)) {

With my_mutex__n starting in 0 and generating a new name each time its used! You can use the same technique to create monitor-like bodies of code, with a unique-but-unknown name for the mutex.

  • I like the approach, but it doesn't work if I pass a struct member. synchronized(object->lock) { /*stuff*/ } expands to char object->lock__0; /*etc*/, which causes a problem because lock__0 isn't a struct member. Oct 27, 2010 at 21:42
  • Ahh, true =( well, the modified answer above looks better anyway, and doesn't need counters. Cheers!
    – salezica
    Oct 27, 2010 at 21:55
  • Just naming the variable _lock_ ## __COUNTER__ seems to work (and solve a problem in the other implementation). Oct 27, 2010 at 22:40

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