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I have a global struct that I use within threads, that I create utilizing pthread.h. There are concurrent threaded events updating variables within it. Therefore my data within the struct often is out of sync, as I found out via extensive debugging.

There's no keyword like "synchonized" (Java background) in C afaik. So how do I block the data-structure to keep it valid?

My struct is:

struct thread_data 
{
   int nr;
   int time;
};
struct thread_data thread_data_array[MAX_THR];

MAX_THR is defined as 10 e.g..

My data get passed to the new thread with pthread_create:

pthread_create(&threads[num_threads], NULL, Thread_Fkt, &thread_data_array[num_thread]);

Sometimes Threads are created within other threads. There's no linear termination. Does C provide a synchronized set of data-structures?

Thanks ;)

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5 Answers 5

You should probably look into pthread mutex :

A mutex is a MUTual EXclusion device, and is useful for protecting shared data structures from concurrent modifications, and implementing critical sections and monitors.

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3  
I'd also make the struct opaque and move all the access/mutate operations into functions, so you know you have everything in one place. –  Pete Kirkham Nov 14 '10 at 18:09

Threads are not part of C itself but of the operating system.

The "pthread" in pthread_create stands for POSIX threads. There are several utilities in POSIX to synchronize between threads. It would certainly depend on what you want to achieve exactly.

pthread_mutex_t
pthread_barrier_t
pthread_cond_t

You can find first information about these by consulting the man pages of their "init" functions, e.g

man pthread_mutex_init
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Presumably your num_threads variable is global and shared between all threads. As an example of using pthreads mutexes, you would protect this variable by declaring an associated mutex:

int num_threads = 0;
pthread_mutex_t mtx_num_threads = PTHREAD_MUTEX_INITIALIZER;

Then whenever you access the variable, you need to take a lock on the mutex:

pthread_mutex_lock(&mtx_num_threads);
new_thread = num_threads++;
pthread_mutex_unlock(&mtx_num_threads);

pthread_create(&threads[new_thread], NULL, Thread_Fkt, &thread_data_array[new_thread]);
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I just wanted to clarify the two other answers.

Unlike in other languages, in "C", you can't just declare a structure as "protected" and have the compiler/libraries/framework abstract all the synchronization for you.

pthread mutexes are the way to go, but it is a manual process in which you have to determine which sections of code (as opposed to which data structures) are to be protected, and to put that protection in your code.

This consists of determining which pieces of code would touch these shared data structures, and put the code inside the appropriate pthread_mutex_lock and pthread_mutex_unlock statements.

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I want to add that the "other compiler/lib/fw" do definitely not abstract "all the synchronization" for you, especially not for languages with "synchronized" keywords like Java or C#, as you seem to imply. Inherently thread-safe &&|| lock-free data-structures exist in C too, though of course they are not in the standard-library, and therefore not as accessible for the non-initiated, sadly. –  gimpf Nov 22 '10 at 16:46

Mutexes are slow. See if you can get away with atomic operations.

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