/*
* These functions should be used if you want some form of lazy initialization. You can have a look at the
- * threadpool-ms for a more detailed example.
+ * threadpool for a more detailed example.
*
* The idea is that a module can be in 5 different states:
* - not initialized: it is the first state it starts in
MONO_LAZY_INIT_STATUS_CLEANED,
};
-static inline void
+static inline gboolean
mono_lazy_initialize (mono_lazy_init_t *lazy_init, void (*initialize) (void))
{
gint32 status;
status = *lazy_init;
if (status >= MONO_LAZY_INIT_STATUS_INITIALIZED)
- return;
+ return status == MONO_LAZY_INIT_STATUS_INITIALIZED;
if (status == MONO_LAZY_INIT_STATUS_INITIALIZING
|| InterlockedCompareExchange (lazy_init, MONO_LAZY_INIT_STATUS_INITIALIZING, MONO_LAZY_INIT_STATUS_NOT_INITIALIZED)
!= MONO_LAZY_INIT_STATUS_NOT_INITIALIZED
while (*lazy_init == MONO_LAZY_INIT_STATUS_INITIALIZING)
mono_thread_info_yield ();
g_assert (InterlockedRead (lazy_init) >= MONO_LAZY_INIT_STATUS_INITIALIZED);
- return;
+ return status == MONO_LAZY_INIT_STATUS_INITIALIZED;
}
initialize ();
mono_atomic_store_release (lazy_init, MONO_LAZY_INIT_STATUS_INITIALIZED);
+ return TRUE;
}
static inline void