2 Copyright (C) 2010 Paul Davis
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU General Public License as published by
7 the Free Software Foundation; either version 2 of the License, or
8 (at your option) any later version.
10 This program is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 GNU General Public License for more details.
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
23 #include "pbd/compose.h"
24 #include "pbd/debug_rt_alloc.h"
26 #include "ardour/debug.h"
27 #include "ardour/graph.h"
28 #include "ardour/types.h"
29 #include "ardour/session.h"
30 #include "ardour/route.h"
31 #include "ardour/process_thread.h"
32 #include "ardour/audioengine.h"
34 #include <jack/thread.h>
38 using namespace ARDOUR;
43 static Graph* graph = 0;
49 return !graph->in_process_thread ();
55 Graph::Graph (Session & session)
56 : SessionHandleRef (session)
57 , _quit_threads (false)
58 , _execution_sem ("graph_execution", 0)
59 , _callback_start_sem ("graph_start", 0)
60 , _callback_done_sem ("graph_done", 0)
61 , _cleanup_sem ("graph_cleanup", 0)
63 pthread_mutex_init( &_trigger_mutex, NULL);
65 /* XXX: rather hacky `fix' to stop _trigger_queue.push_back() allocating
66 memory in the RT thread.
68 _trigger_queue.reserve (8192);
70 _execution_tokens = 0;
75 _quit_threads = false;
80 Config->ParameterChanged.connect_same_thread (processor_usage_connection, boost::bind (&Graph::parameter_changed, this, _1));
84 pbd_alloc_allowed = &::alloc_allowed;
89 Graph::parameter_changed (std::string param)
91 if (param == X_("processor-usage")) {
96 /** Set up threads for running the graph */
98 Graph::reset_thread_list ()
100 uint32_t num_threads = how_many_dsp_threads ();
102 /* don't bother doing anything here if we already have the right
106 if (_thread_list.size() == num_threads) {
110 Glib::Mutex::Lock lm (_session.engine().process_lock());
113 if (!_thread_list.empty()) {
118 /* XXX this only makes sense when we can use just the AudioEngine thread
119 and still keep the graph current with the route list
121 if (num_threads <= 1) {
122 /* no point creating 1 thread - the AudioEngine already gives us one
127 if (AudioEngine::instance()->create_process_thread (boost::bind (&Graph::main_thread, this), &a_thread, 100000) == 0) {
128 _thread_list.push_back (a_thread);
131 for (uint32_t i = 1; i < num_threads; ++i) {
132 if (AudioEngine::instance()->create_process_thread (boost::bind (&Graph::helper_thread, this), &a_thread, 100000) == 0) {
133 _thread_list.push_back (a_thread);
139 Graph::session_going_away()
143 // now drop all references on the nodes.
144 _nodes_rt[0].clear();
145 _nodes_rt[1].clear();
146 _init_trigger_list[0].clear();
147 _init_trigger_list[1].clear();
148 _trigger_queue.clear();
152 Graph::drop_threads ()
154 _quit_threads = true;
156 for (unsigned int i=0; i< _thread_list.size(); i++) {
157 _execution_sem.signal ();
160 _callback_start_sem.signal ();
162 for (list<pthread_t>::iterator i = _thread_list.begin(); i != _thread_list.end(); ++i) {
164 pthread_join (*i, &status);
167 _thread_list.clear ();
169 _execution_tokens = 0;
171 _quit_threads = false;
175 Graph::clear_other_chain ()
177 Glib::Mutex::Lock ls (_swap_mutex);
180 if (_setup_chain != _pending_chain) {
182 for (node_list_t::iterator ni=_nodes_rt[_setup_chain].begin(); ni!=_nodes_rt[_setup_chain].end(); ni++) {
183 (*ni)->_activation_set[_setup_chain].clear();
186 _nodes_rt[_setup_chain].clear ();
187 _init_trigger_list[_setup_chain].clear ();
190 /* setup chain == pending chain - we have
191 to wait till this is no longer true.
193 _cleanup_cond.wait (_swap_mutex);
200 node_list_t::iterator i;
203 if (_swap_mutex.trylock()) {
204 // we got the swap mutex.
205 if (_current_chain != _pending_chain)
207 // printf ("chain swap ! %d -> %d\n", _current_chain, _pending_chain);
208 _setup_chain = _current_chain;
209 _current_chain = _pending_chain;
210 _cleanup_cond.signal ();
212 _swap_mutex.unlock ();
215 chain = _current_chain;
218 for (i=_nodes_rt[chain].begin(); i!=_nodes_rt[chain].end(); i++) {
220 _graph_empty = false;
222 _finished_refcount = _init_finished_refcount[chain];
224 /* Trigger the initial nodes for processing, which are the ones at the `input' end */
225 for (i=_init_trigger_list[chain].begin(); i!=_init_trigger_list[chain].end(); i++) {
231 Graph::trigger (GraphNode* n)
233 pthread_mutex_lock (&_trigger_mutex);
234 _trigger_queue.push_back (n);
235 pthread_mutex_unlock (&_trigger_mutex);
238 /** Called when a node at the `output' end of the chain (ie one that has no-one to feed)
244 if (g_atomic_int_dec_and_test (&_finished_refcount)) {
246 /* We have run all the nodes that are at the `output' end of
247 the graph, so there is nothing more to do this time around.
255 Graph::restart_cycle()
257 // we are through. wakeup our caller.
260 _callback_done_sem.signal ();
262 /* Block until the a process callback triggers us */
263 _callback_start_sem.wait();
275 // returning will restart the cycle.
276 // starting with waking up the others.
280 is_feedback (boost::shared_ptr<RouteList> routelist, Route* from, boost::shared_ptr<Route> to)
282 for (RouteList::iterator ri=routelist->begin(); ri!=routelist->end(); ri++) {
283 if ((*ri).get() == from) {
295 is_feedback (boost::shared_ptr<RouteList> routelist, boost::shared_ptr<Route> from, Route* to)
297 for (RouteList::iterator ri=routelist->begin(); ri!=routelist->end(); ri++) {
298 if ((*ri).get() == to) {
310 Graph::rechain (boost::shared_ptr<RouteList> routelist)
312 node_list_t::iterator ni;
313 Glib::Mutex::Lock ls (_swap_mutex);
315 int chain = _setup_chain;
316 DEBUG_TRACE (DEBUG::Graph, string_compose ("============== setup %1\n", chain));
317 // set all refcounts to 0;
319 /* This will become the number of nodes that do not feed any other node;
320 once we have processed this number of those nodes, we have finished.
322 _init_finished_refcount[chain] = 0;
324 /* This will become a list of nodes that are not fed by another node, ie
325 those at the `input' end.
327 _init_trigger_list[chain].clear();
329 _nodes_rt[chain].clear();
331 /* Clear things out, and make _nodes_rt[chain] a copy of routelist */
332 for (RouteList::iterator ri=routelist->begin(); ri!=routelist->end(); ri++) {
333 (*ri)->_init_refcount[chain] = 0;
334 (*ri)->_activation_set[chain].clear();
335 _nodes_rt[chain].push_back (*ri);
338 // now add refs for the connections.
340 for (ni=_nodes_rt[chain].begin(); ni!=_nodes_rt[chain].end(); ni++) {
342 /* We will set this to true if the node *ni is directly or
343 indirectly fed by anything (without feedback)
345 bool has_input = false;
347 /* We will set this to true if the node *ni directly feeds
348 anything (without feedback)
350 bool has_output = false;
352 /* We will also set up *ni's _activation_set to contain any nodes
353 that it directly feeds.
356 boost::shared_ptr<Route> rp = boost::dynamic_pointer_cast<Route>( *ni);
358 for (RouteList::iterator ri=routelist->begin(); ri!=routelist->end(); ri++) {
359 if (rp->direct_feeds (*ri)) {
360 if (is_feedback (routelist, rp.get(), *ri)) {
365 (*ni)->_activation_set[chain].insert (*ri);
369 for (Route::FedBy::iterator fi=rp->fed_by().begin(); fi!=rp->fed_by().end(); fi++) {
370 if (boost::shared_ptr<Route> r = fi->r.lock()) {
371 if (!is_feedback (routelist, r, rp.get())) {
377 /* Increment the refcount of any route that we directly feed */
378 for (node_set_t::iterator ai=(*ni)->_activation_set[chain].begin(); ai!=(*ni)->_activation_set[chain].end(); ai++) {
379 (*ai)->_init_refcount[chain] += 1;
383 _init_trigger_list[chain].push_back (*ni);
387 _init_finished_refcount[chain] += 1;
391 _pending_chain = chain;
395 /** Called by both the main thread and all helpers.
396 * @return true to quit, false to carry on.
403 pthread_mutex_lock (&_trigger_mutex);
404 if (_trigger_queue.size()) {
405 to_run = _trigger_queue.back();
406 _trigger_queue.pop_back();
411 /* the number of threads that are asleep */
412 int et = _execution_tokens;
413 /* the number of nodes that need to be run */
414 int ts = _trigger_queue.size();
416 /* hence how many threads to wake up */
417 int wakeup = min (et, ts);
418 /* update the number of threads that will still be sleeping */
419 _execution_tokens -= wakeup;
421 DEBUG_TRACE(DEBUG::ProcessThreads, string_compose ("%1 signals %2\n", pthread_self(), wakeup));
423 for (int i = 0; i < wakeup; i++) {
424 _execution_sem.signal ();
427 while (to_run == 0) {
428 _execution_tokens += 1;
429 pthread_mutex_unlock (&_trigger_mutex);
430 DEBUG_TRACE (DEBUG::ProcessThreads, string_compose ("%1 goes to sleep\n", pthread_self()));
431 _execution_sem.wait ();
435 DEBUG_TRACE (DEBUG::ProcessThreads, string_compose ("%1 is awake\n", pthread_self()));
436 pthread_mutex_lock (&_trigger_mutex);
437 if (_trigger_queue.size()) {
438 to_run = _trigger_queue.back();
439 _trigger_queue.pop_back();
442 pthread_mutex_unlock (&_trigger_mutex);
445 to_run->finish (_current_chain);
447 DEBUG_TRACE(DEBUG::ProcessThreads, string_compose ("%1 has finished run_one()\n", pthread_self()));
454 if (!jack_is_realtime (AudioEngine::instance()->jack())) {
458 int priority = jack_client_real_time_priority (AudioEngine::instance()->jack());
461 struct sched_param rtparam;
463 memset (&rtparam, 0, sizeof (rtparam));
464 rtparam.sched_priority = priority;
466 pthread_setschedparam (pthread_self(), SCHED_FIFO, &rtparam);
471 Graph::helper_thread()
473 suspend_rt_malloc_checks ();
474 ProcessThread* pt = new ProcessThread ();
475 resume_rt_malloc_checks ();
489 /** Here's the main graph thread */
493 suspend_rt_malloc_checks ();
494 ProcessThread* pt = new ProcessThread ();
495 resume_rt_malloc_checks ();
501 _callback_start_sem.wait ();
503 DEBUG_TRACE(DEBUG::ProcessThreads, "main thread is awake\n");
511 if (_graph_empty && !_quit_threads) {
512 _callback_done_sem.signal ();
513 DEBUG_TRACE(DEBUG::ProcessThreads, "main thread sees graph done, goes back to sleep\n");
517 /* This loop will run forever */
519 DEBUG_TRACE(DEBUG::ProcessThreads, "main thread runs one graph node\n");
529 Graph::dump (int chain)
532 node_list_t::iterator ni;
533 node_set_t::iterator ai;
535 chain = _pending_chain;
537 DEBUG_TRACE (DEBUG::Graph, "--------------------------------------------Graph dump:\n");
538 for (ni=_nodes_rt[chain].begin(); ni!=_nodes_rt[chain].end(); ni++) {
539 boost::shared_ptr<Route> rp = boost::dynamic_pointer_cast<Route>( *ni);
540 DEBUG_TRACE (DEBUG::Graph, string_compose ("GraphNode: %1 refcount: %2\n", rp->name().c_str(), (*ni)->_init_refcount[chain]));
541 for (ai=(*ni)->_activation_set[chain].begin(); ai!=(*ni)->_activation_set[chain].end(); ai++) {
542 DEBUG_TRACE (DEBUG::Graph, string_compose (" triggers: %1\n", boost::dynamic_pointer_cast<Route>(*ai)->name().c_str()));
546 DEBUG_TRACE (DEBUG::Graph, "------------- trigger list:\n");
547 for (ni=_init_trigger_list[chain].begin(); ni!=_init_trigger_list[chain].end(); ni++) {
548 DEBUG_TRACE (DEBUG::Graph, string_compose ("GraphNode: %1 refcount: %2\n", boost::dynamic_pointer_cast<Route>(*ni)->name().c_str(), (*ni)->_init_refcount[chain]));
551 DEBUG_TRACE (DEBUG::Graph, string_compose ("final activation refcount: %1\n", _init_finished_refcount[chain]));
556 Graph::silent_process_routes (pframes_t nframes, framepos_t start_frame, framepos_t end_frame, bool& need_butler)
558 _process_nframes = nframes;
559 _process_start_frame = start_frame;
560 _process_end_frame = end_frame;
562 _process_silent = true;
563 _process_noroll = false;
565 _process_need_butler = false;
568 DEBUG_TRACE(DEBUG::ProcessThreads, "wake graph for silent process\n");
569 _callback_start_sem.signal ();
570 _callback_done_sem.wait ();
573 need_butler = _process_need_butler;
575 return _process_retval;
579 Graph::process_routes (pframes_t nframes, framepos_t start_frame, framepos_t end_frame, int declick, bool& need_butler)
581 DEBUG_TRACE (DEBUG::ProcessThreads, string_compose ("graph execution from %1 to %2 = %3\n", start_frame, end_frame, nframes));
583 _process_nframes = nframes;
584 _process_start_frame = start_frame;
585 _process_end_frame = end_frame;
586 _process_declick = declick;
588 _process_silent = false;
589 _process_noroll = false;
591 _process_need_butler = false;
593 DEBUG_TRACE(DEBUG::ProcessThreads, "wake graph for non-silent process\n");
594 _callback_start_sem.signal ();
595 _callback_done_sem.wait ();
597 DEBUG_TRACE (DEBUG::ProcessThreads, "graph execution complete\n");
599 need_butler = _process_need_butler;
601 return _process_retval;
605 Graph::routes_no_roll (pframes_t nframes, framepos_t start_frame, framepos_t end_frame,
606 bool non_rt_pending, int declick)
608 DEBUG_TRACE (DEBUG::ProcessThreads, string_compose ("no-roll graph execution from %1 to %2 = %3\n", start_frame, end_frame, nframes));
610 _process_nframes = nframes;
611 _process_start_frame = start_frame;
612 _process_end_frame = end_frame;
613 _process_declick = declick;
614 _process_non_rt_pending = non_rt_pending;
616 _process_silent = false;
617 _process_noroll = true;
619 _process_need_butler = false;
621 DEBUG_TRACE(DEBUG::ProcessThreads, "wake graph for no-roll process\n");
622 _callback_start_sem.signal ();
623 _callback_done_sem.wait ();
625 return _process_retval;
628 Graph::process_one_route (Route* route)
630 bool need_butler = false;
635 DEBUG_TRACE (DEBUG::ProcessThreads, string_compose ("%1 runs route %2\n", pthread_self(), route->name()));
637 if (_process_silent) {
638 retval = route->silent_roll (_process_nframes, _process_start_frame, _process_end_frame, need_butler);
639 } else if (_process_noroll) {
640 route->set_pending_declick (_process_declick);
641 retval = route->no_roll (_process_nframes, _process_start_frame, _process_end_frame, _process_non_rt_pending);
643 route->set_pending_declick (_process_declick);
644 retval = route->roll (_process_nframes, _process_start_frame, _process_end_frame, _process_declick, need_butler);
648 _process_retval = retval;
652 _process_need_butler = true;
657 Graph::in_process_thread () const
659 list<pthread_t>::const_iterator i = _thread_list.begin ();
660 while (i != _thread_list.end() && *i != pthread_self ()) {
664 return i != _thread_list.end ();