/* We would use the g_thread_supported macro here, but unfortunately on * windows GHCi's dynamic linker cannot cope with references to global * variables imported from dlls. * * So instead of asking glib if we (or indeed) anyone else has initialised * the glib gthread system, we keep track of it ourselves. We still have to * do it in C land so the state survives :reload in GHCi. So there is the * danger in a mixed language program, of someone else initialising the * glib thread system and us not being aware of it. :-( * * Besides the interaction with ghci, we provide a variant of g_object_unref * that is used in all objects of Gtk+ and those libraries that build on Gtk+. * This variant enqueues the object to be finalized and adds an idle handler * into the main loop of Gtk+ that will call the actual finalizers on the * enqueued objects. The aim is to ensure that finalizers for objects that * may hold Xlib or Win32 resources are only run from the thread that runs the * main Gtk+ loop. If this is not ensured then bad things happen at least on * Win32 since that API is making use of thread-local storage that is not * present if the finalizers, that are run by the GC in a different thread, * call back into Win32 without this thread-local storage. * * Also g_static_mutex_lock and g_static_mutex_unlock cause linking problems * in ghci on Windows 7 (namely: HSgtk-0.10.5.o: unknown symbol * `__imp__g_threads_got_initialized'), so we use a Win32 critical section * instead. */ #define DEFINED_LPTYPELIB #define DEFINDE_LPTYPEINFO #define DEFINED_LPTYPECOMP #define DEFINE_LPCREATETYPEINFO #define DEFINED_LPDISPATCH #include #include #include "hsgthread.h" #if defined( WIN32 ) #include #include #include #endif #undef DEBUG static int threads_initialised = 0; #if defined( WIN32 ) static CRITICAL_SECTION gtk2hs_finalizer_mutex; #else static GStaticMutex gtk2hs_finalizer_mutex; #endif static GSource* gtk2hs_finalizer_source; static guint gtk2hs_finalizer_id; static GArray* gtk2hs_finalizers; gboolean gtk2hs_run_finalizers(gpointer data); /* Initialize the default _fmode on WIN32. */ void gtk2hs_initialise (void) { #if defined( WIN32 ) _fmode = _O_BINARY; #endif } /* Initialize the threads system of Gdk and Gtk. */ void gtk2hs_threads_initialise (void) { #ifdef DEBUG printf("gtk2hs_threads_initialise: threads_initialised=%i, g_thread_get_initialized=%i\n", threads_initialised, g_thread_get_initialized()); #endif if (!threads_initialised) { threads_initialised = 1; #if defined( WIN32 ) InitializeCriticalSection(>k2hs_finalizer_mutex); #else g_static_mutex_init(>k2hs_finalizer_mutex); #endif g_thread_init(NULL); gdk_threads_init(); /* from here onwards, the Gdk lock is held */ gdk_threads_enter(); } } /* Free an object within the Gtk2Hs lock. */ void gtk2hs_g_object_unref_from_mainloop(gpointer object) { int mutex_locked = 0; if (threads_initialised) { #ifdef DEBUG printf("acquiring lock to add a %s object at %lx\n", g_type_name(G_OBJECT_TYPE(object)), (unsigned long) object); printf("value of lock function is %lx\n", (unsigned long) g_thread_functions_for_glib_use.mutex_lock); #endif #if defined( WIN32 ) EnterCriticalSection(>k2hs_finalizer_mutex); #else g_static_mutex_lock(>k2hs_finalizer_mutex); #endif mutex_locked = 1; } #ifdef DEBUG if (mutex_locked) printf("within mutex: "); printf("adding finalizer to a %s object!\n", g_type_name(G_OBJECT_TYPE(object))); #endif /* Ensure that the idle handler is still installed and that the array of objects that are to be finalized exists. */ if (gtk2hs_finalizer_id==0) { if (gtk2hs_finalizers == NULL) gtk2hs_finalizers = g_array_new(0, 0, sizeof(gpointer)); #ifdef DEBUG printf("creating finalizer list.\n"); #endif if (gtk2hs_finalizer_source != NULL) { #ifdef DEBUG printf("re-initializing finalizer source.\n"); #endif g_source_destroy(gtk2hs_finalizer_source); g_source_unref(gtk2hs_finalizer_source); }; gtk2hs_finalizer_source = g_idle_source_new(); g_source_set_callback(gtk2hs_finalizer_source, >k2hs_run_finalizers, 0, 0); gtk2hs_finalizer_id = g_source_attach(gtk2hs_finalizer_source, NULL); }; /* Add the object to the list. */ g_array_append_val(gtk2hs_finalizers, object); if (mutex_locked) { #ifdef DEBUG printf("releasing lock to add a %s object at %lx\n", g_type_name(G_OBJECT_TYPE(object)), (unsigned long) object); #endif #if defined( WIN32 ) LeaveCriticalSection(>k2hs_finalizer_mutex); #else g_static_mutex_unlock(>k2hs_finalizer_mutex); #endif } } /* Run the finalizers that have been accumulated. */ gboolean gtk2hs_run_finalizers(gpointer data) { gint index; g_assert(gtk2hs_finalizers!=NULL); gdk_threads_enter(); int mutex_locked = 0; if (threads_initialised) { #ifdef DEBUG printf("acquiring lock to kill objects\n"); #endif #if defined( WIN32 ) EnterCriticalSection(>k2hs_finalizer_mutex); #else g_static_mutex_lock(>k2hs_finalizer_mutex); #endif mutex_locked = 1; } #ifdef DEBUG printf("running %i finalizers!\n", gtk2hs_finalizers->len); #endif for (index = 0; index < gtk2hs_finalizers->len; index++) g_object_unref(g_array_index (gtk2hs_finalizers, GObject*, index)); g_array_set_size(gtk2hs_finalizers, 0); gtk2hs_finalizer_id = 0; if (mutex_locked) { #ifdef DEBUG printf("releasing lock to kill objects\n"); #endif #if defined( WIN32 ) LeaveCriticalSection(>k2hs_finalizer_mutex); #else g_static_mutex_unlock(>k2hs_finalizer_mutex); #endif } gdk_threads_leave(); return FALSE; }