#include #include #include #include #include #include "pbd/event_loop.h" #include "pbd/pbd.h" #include "pbd/pcg_rand.h" #include "pbd/signals.h" class Tx { public: PBD::Signal1 sig1; }; /* ****************************************************************************/ class Rx1 { public: Rx1 (Tx& sender) { sender.sig1.connect_same_thread (_connection, boost::bind (&Rx1::cb, this, _1)); } private: void cb (int i) { printf ("Rx1(%d) ", i); } PBD::ScopedConnection _connection; }; /* ****************************************************************************/ class MyEventLoop : public sigc::trackable, public PBD::EventLoop { public: MyEventLoop (std::string const& name) : EventLoop (name) { run_loop_thread = Glib::Threads::Thread::self (); } void call_slot (InvalidationRecord* ir, const boost::function& f) { if (Glib::Threads::Thread::self () == run_loop_thread) { f (); } else { assert (!ir); assert (0); f (); // XXX really queue and process during run () } } void run () { ; // process Events, if any } Glib::Threads::Mutex& slot_invalidation_mutex () { return request_buffer_map_lock; } private: Glib::Threads::Thread* run_loop_thread; Glib::Threads::Mutex request_buffer_map_lock; }; struct MyInvalidationRecord : public PBD::EventLoop::InvalidationRecord { ~MyInvalidationRecord () { assert (use_count () == 0); } }; static MyEventLoop event_loop ("foo"); static MyInvalidationRecord _ir; class Rx2 : public PBD::ScopedConnectionList { public: Rx2 (Tx& sender) { sender.sig1.connect (*this, &_ir, boost::bind (&Rx2::cb, this, _1), &event_loop); } private: void cb (int i) { printf ("Rx2(%d) ", i); } }; /* ****************************************************************************/ pthread_barrier_t barrier; static void* delete_tx (void* arg) { Tx* tx = static_cast (arg); pthread_barrier_wait (&barrier); delete tx; return 0; } static void* delete_rx1 (void* arg) { Rx1* rx1 = static_cast (arg); pthread_barrier_wait (&barrier); delete rx1; return 0; } static void* delete_rx2 (void* arg) { Rx2* rx2 = static_cast (arg); pthread_barrier_wait (&barrier); delete rx2; return 0; } /* ****************************************************************************/ static PBD::PCGRand pcg; static bool emit_signal = false; static void run_test () { Tx* tx = new Tx (); Rx1* rx1 = new Rx1 (*tx); Rx2* rx2 = new Rx2 (*tx); /* randomize thread start, not that it matters much since * pthread_barrier_wait() leaves it undefined which thread * continues with PTHREAD_BARRIER_SERIAL_THREAD, but some * implementations may special-case the last */ static int rnd[3] = { 0, 1, 2 }; for (int i = 2; i > 0; --i) { int j = pcg.rand (i + 1); int tmp = rnd[i]; rnd[i] = rnd[j]; rnd[j] = tmp; } if (emit_signal) { tx->sig1 (rnd[0]); /* EMIT SIGNAL */ } pthread_t t[3]; for (int i = 0; i < 3; ++i) { switch (rnd[i]) { case 0: pthread_create (&t[0], NULL, delete_tx, (void*)tx); break; case 1: pthread_create (&t[1], NULL, delete_rx1, (void*)rx1); break; case 2: pthread_create (&t[2], NULL, delete_rx2, (void*)rx2); break; } } for (int i = 0; i < 3; ++i) { pthread_join (t[i], NULL); } if (emit_signal) { printf ("\n"); } } int main (int argc, char** argv) { int n_iter = 0; const char* optstring = "ei:"; /* clang-format off */ const struct option longopts[] = { { "emit", no_argument, 0, 'e' }, { "iterations", required_argument, 0, 'i' }, }; /* clang-format on */ int c = 0; while (EOF != (c = getopt_long (argc, argv, optstring, longopts, (int*)0))) { switch (c) { case 'e': emit_signal = true; break; case 'i': n_iter = atoi (optarg); break; default: fprintf (stderr, "Error: unrecognized option.\n"); ::exit (EXIT_FAILURE); break; } } if (optind != argc) { fprintf (stderr, "Error: unrecognized option.\n"); ::exit (EXIT_FAILURE); } if (n_iter <= 0 || n_iter > 1000000) { n_iter = 1000; } PBD::init (); pthread_barrier_init (&barrier, NULL, 3); for (int i = 0; i < n_iter; ++i) { run_test (); } pthread_barrier_destroy (&barrier); PBD::cleanup (); return 0; }