glibc/linuxthreads/Examples/ex4.c
Andreas Jaeger a375a533a2 * Examples/ex13.c: Make local functions static.
* ecmutex.c: Likewise. 
* Examples/ex14.c: Likewise.
	* Examples/ex2.c: Make local functions static; reformat.
	* Examples/ex1.c: Likewise.
	* Examples/ex4.c: Likewise.
	* Examples/ex5.c: Likewise.
	* Examples/ex7.c: Likewise.

CVS ----------------------------------------------------------------------
2000-12-27 17:14:56 +00:00

116 lines
3.0 KiB
C

/* Making a library function that uses static variables thread-safe.
Illustrates: thread-specific data, pthread_once(). */
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <pthread.h>
/* This is a typical example of a library function that uses
static variables to accumulate results between calls.
Here, it just returns the concatenation of all string arguments
that were given to it. */
#if 0
char *
str_accumulate (char *s)
{
static char accu[1024] = { 0 };
strcat (accu, s);
return accu;
}
#endif
/* Of course, this cannot be used in a multi-threaded program
because all threads store "accu" at the same location.
So, we'll use thread-specific data to have a different "accu"
for each thread. */
/* Key identifying the thread-specific data */
static pthread_key_t str_key;
/* "Once" variable ensuring that the key for str_alloc will be allocated
exactly once. */
static pthread_once_t str_alloc_key_once = PTHREAD_ONCE_INIT;
/* Forward functions */
static void str_alloc_key (void);
static void str_alloc_destroy_accu (void *accu);
/* Thread-safe version of str_accumulate */
static char *
str_accumulate (const char *s)
{
char *accu;
/* Make sure the key is allocated */
pthread_once (&str_alloc_key_once, str_alloc_key);
/* Get the thread-specific data associated with the key */
accu = (char *) pthread_getspecific (str_key);
/* It's initially NULL, meaning that we must allocate the buffer first. */
if (accu == NULL)
{
accu = malloc (1024);
if (accu == NULL)
return NULL;
accu[0] = 0;
/* Store the buffer pointer in the thread-specific data. */
pthread_setspecific (str_key, (void *) accu);
printf ("Thread %lx: allocating buffer at %p\n", pthread_self (), accu);
}
/* Now we can use accu just as in the non thread-safe code. */
strcat (accu, s);
return accu;
}
/* Function to allocate the key for str_alloc thread-specific data. */
static void
str_alloc_key (void)
{
pthread_key_create (&str_key, str_alloc_destroy_accu);
printf ("Thread %lx: allocated key %d\n", pthread_self (), str_key);
}
/* Function to free the buffer when the thread exits. */
/* Called only when the thread-specific data is not NULL. */
static void
str_alloc_destroy_accu (void *accu)
{
printf ("Thread %lx: freeing buffer at %p\n", pthread_self (), accu);
free (accu);
}
/* Test program */
static void *
process (void *arg)
{
char *res;
res = str_accumulate ("Result of ");
res = str_accumulate ((char *) arg);
res = str_accumulate (" thread");
printf ("Thread %lx: \"%s\"\n", pthread_self (), res);
return NULL;
}
int
main (int argc, char **argv)
{
char *res;
pthread_t th1, th2;
res = str_accumulate ("Result of ");
pthread_create (&th1, NULL, process, (void *) "first");
pthread_create (&th2, NULL, process, (void *) "second");
res = str_accumulate ("initial thread");
printf ("Thread %lx: \"%s\"\n", pthread_self (), res);
pthread_join (th1, NULL);
pthread_join (th2, NULL);
return 0;
}