#include "pbd/failed_constructor.h"
#include "pbd/xml++.h"
-#include "pbd/convert.h"
+#include "pbd/types_convert.h"
#include "ardour/audio_buffer.h"
#include "ardour/automation_list.h"
#include "ardour/lxvst_plugin.h"
#endif
+#ifdef MACVST_SUPPORT
+#include "ardour/mac_vst_plugin.h"
+#endif
+
#ifdef AUDIOUNIT_SUPPORT
#include "ardour/audio_unit.h"
#endif
, _maps_from_state (false)
, _latency_changed (false)
, _bypass_port (UINT32_MAX)
+ , _stat_reset (0)
{
/* the first is the master */
PluginInsert::~PluginInsert ()
{
+ for (CtrlOutMap::const_iterator i = _control_outputs.begin(); i != _control_outputs.end(); ++i) {
+ boost::dynamic_pointer_cast<ReadOnlyControl>(i->second)->drop_references ();
+ }
}
void
return false;
}
std::ostringstream n;
- if (n_audio > 0 || n_midi > 0) {
- n << "Sidechain " << Session::next_name_id ();
- } else {
+ if (n_audio == 0 && n_midi == 0) {
n << "TO BE RESET FROM XML";
+ } else if (owner()) {
+ n << "SC " << owner()->name() << "/" << name() << " " << Session::next_name_id ();
+ } else {
+ n << "tobeRenamed";
}
SideChain *sc = new SideChain (_session, n.str ());
_sidechain = boost::shared_ptr<SideChain> (sc);
}
void
-PluginInsert::set_sidechain_latency (uint32_t capture, uint32_t playback)
+PluginInsert::update_sidechain_name ()
{
- if (_sidechain &&
- (_sc_playback_latency != playback || _sc_capture_latency != capture)) {
- _sc_capture_latency = capture;
- _sc_playback_latency = playback;
- LatencyRange pl; pl.min = pl.max = playback;
- LatencyRange cl; cl.min = cl.max = capture;
- DEBUG_TRACE (DEBUG::Latency, string_compose ("%1: capture %2 playback; %3\n", _sidechain->name (), capture, playback));
- PortSet& ps (_sidechain->input ()->ports ());
- for (PortSet::iterator p = ps.begin(); p != ps.end(); ++p) {
- p->set_private_latency_range (pl, true);
- p->set_private_latency_range (cl, false);
- }
+ if (!_sidechain) {
+ return;
+ }
+
+ std::ostringstream n;
+
+ n << "SC ";
+ if (owner()) {
+ n << owner()->name() << "/";
}
+
+ n << name() << " " << Session::next_name_id ();
+
+ _sidechain->set_name (n.str());
}
void
= boost::dynamic_pointer_cast<AutomationControl>(control (which));
if (c && s != Off) {
- _plugins[0]->set_parameter (which.id(), c->list()->eval (_session.transport_frame()));
+ _plugins[0]->set_parameter (which.id(), c->list()->eval (_session.transport_sample()));
}
}
return _plugins[0]->get_info()->n_inputs.n_audio() == 0;
}
-framecnt_t
+samplecnt_t
PluginInsert::plugin_latency () const {
return _plugins.front()->signal_latency ();
}
PluginInsert::is_instrument() const
{
PluginInfoPtr pip = _plugins[0]->get_info();
- if (pip->is_instrument ()) {
- return true;
- }
- return pip->n_inputs.n_midi () != 0 && pip->n_outputs.n_audio () > 0 && pip->n_inputs.n_audio () == 0;
+ return (pip->is_instrument ());
}
bool
return false;
}
}
+
+ if (ppc.size () == 1 && ppc.find (0) != ppc.end () && !_plugins[0]->get_info ()->reconfigurable_io ()) {
+ // some midi-sequencer (e.g. QMidiArp) or other midi-out plugin
+ // pretending to be an "Instrument"
+ return false;
+ }
+
if (!is_instrument ()) {
return false;
}
boost::shared_ptr<Plugin> plugin = _plugins.front();
set<Evoral::Parameter> a = _plugins.front()->automatable ();
+ const uint32_t limit_automatables = Config->get_limit_n_automatables ();
+
for (uint32_t i = 0; i < plugin->parameter_count(); ++i) {
- if (!plugin->parameter_is_control (i) || !plugin->parameter_is_input (i)) {
+ if (!plugin->parameter_is_control (i)) {
continue;
}
- Evoral::Parameter param (PluginAutomation, 0, i);
ParameterDescriptor desc;
plugin->get_parameter_descriptor(i, desc);
+ if (!plugin->parameter_is_input (i)) {
+ _control_outputs[i] = boost::shared_ptr<ReadOnlyControl> (new ReadOnlyControl (plugin, desc, i));
+ continue;
+ }
+ Evoral::Parameter param (PluginAutomation, 0, i);
+
const bool automatable = a.find(param) != a.end();
- if (automatable) {
- can_automate (param);
- }
boost::shared_ptr<AutomationList> list(new AutomationList(param, desc));
boost::shared_ptr<AutomationControl> c (new PluginControl(this, param, desc, list));
- if (!automatable) {
+ if (!automatable || (limit_automatables > 0 && i > limit_automatables)) {
c->set_flags (Controllable::Flag ((int)c->flags() | Controllable::NotAutomatable));
}
add_control (c);
if (Variant::type_is_numeric(desc.datatype)) {
list = boost::shared_ptr<AutomationList>(new AutomationList(param, desc));
}
- add_control (boost::shared_ptr<AutomationControl> (new PluginPropertyControl(this, param, desc, list)));
+ boost::shared_ptr<AutomationControl> c (new PluginPropertyControl(this, param, desc, list));
+ if (!Variant::type_is_numeric(desc.datatype)) {
+ c->set_flags (Controllable::Flag ((int)c->flags() | Controllable::NotAutomatable));
+ }
+ add_control (c);
}
}
_bypass_port = plugin->designated_bypass_port ();
+ /* special case VST effSetBypass */
+ if (_bypass_port == UINT32_MAX -1) {
+ // emulate VST Bypass
+ Evoral::Parameter param (PluginAutomation, 0, _bypass_port);
+ ParameterDescriptor desc;
+ desc.label = _("Plugin Enable");
+ desc.toggled = true;
+ desc.normal = 1;
+ desc.lower = 0;
+ desc.upper = 1;
+ boost::shared_ptr<AutomationList> list(new AutomationList(param, desc));
+ boost::shared_ptr<AutomationControl> c (new PluginControl(this, param, desc, list));
+ add_control (c);
+ }
+
if (_bypass_port != UINT32_MAX) {
boost::shared_ptr<AutomationControl> ac = automation_control (Evoral::Parameter (PluginAutomation, 0, _bypass_port));
if (0 == (ac->flags () & Controllable::NotAutomatable)) {
ac->Changed.connect_same_thread (*this, boost::bind (&PluginInsert::enable_changed, this));
}
}
+ plugin->PresetPortSetValue.connect_same_thread (*this, boost::bind (&PluginInsert::preset_load_set_value, this, _1, _2));
}
+
/** Called when something outside of this host has modified a plugin
* parameter. Responsible for propagating the change to two places:
*
return ret;
}
+void
+PluginInsert::automation_run (samplepos_t start, pframes_t nframes)
+{
+ // XXX does not work when rolling backwards
+ if (_loop_location && nframes > 0) {
+ const samplepos_t loop_start = _loop_location->start ();
+ const samplepos_t loop_end = _loop_location->end ();
+ const samplecnt_t looplen = loop_end - loop_start;
+
+ samplecnt_t remain = nframes;
+ samplepos_t start_pos = start;
+
+ while (remain > 0) {
+ if (start_pos >= loop_end) {
+ sampleoffset_t start_off = (start_pos - loop_start) % looplen;
+ start_pos = loop_start + start_off;
+ }
+ samplecnt_t move = std::min ((samplecnt_t)nframes, loop_end - start_pos);
+
+ Automatable::automation_run (start_pos, move);
+ remain -= move;
+ start_pos += move;
+ }
+ return;
+ }
+ Automatable::automation_run (start, nframes);
+}
+
+bool
+PluginInsert::find_next_event (double now, double end, Evoral::ControlEvent& next_event, bool only_active) const
+{
+ bool rv = Automatable::find_next_event (now, end, next_event, only_active);
+
+ if (_loop_location && now < end) {
+ if (rv) {
+ end = ceil (next_event.when);
+ }
+ const samplepos_t loop_end = _loop_location->end ();
+ assert (now < loop_end); // due to map_loop_range ()
+ if (end > loop_end) {
+ next_event.when = loop_end;
+ rv = true;
+ }
+ }
+ return rv;
+}
+
void
PluginInsert::activate ()
{
+ _timing_stats.reset ();
for (Plugins::iterator i = _plugins.begin(); i != _plugins.end(); ++i) {
(*i)->activate ();
}
void
PluginInsert::deactivate ()
{
+#ifdef MIXBUS
+ if (is_nonbypassable ()) {
+ return;
+ }
+#endif
+ _timing_stats.reset ();
Processor::deactivate ();
for (Plugins::iterator i = _plugins.begin(); i != _plugins.end(); ++i) {
activate ();
}
boost::shared_ptr<AutomationControl> ac = automation_control (Evoral::Parameter (PluginAutomation, 0, _bypass_port));
- ac->set_value (yn ? 1.0 : 0.0, Controllable::NoGroup);
+ const double val = yn ? 1.0 : 0.0;
+ ac->set_value (val, Controllable::NoGroup);
+
+#ifdef ALLOW_VST_BYPASS_TO_FAIL // yet unused, see also vst_plugin.cc
+ /* special case VST.. bypass may fail */
+ if (_bypass_port == UINT32_MAX - 1) {
+ /* check if bypass worked */
+ if (ac->get_value () != val) {
+ warning << _("PluginInsert: VST Bypass failed, falling back to host bypass.") << endmsg;
+ // set plugin to enabled (not-byassed)
+ ac->set_value (1.0, Controllable::NoGroup);
+ // ..and use host-provided hard-bypass
+ if (yn) {
+ activate ();
+ } else {
+ deactivate ();
+ }
+ return;
+ }
+ }
+#endif
ActiveChanged ();
}
}
BypassableChanged ();
}
+bool
+PluginInsert::write_immediate_event (size_t size, const uint8_t* buf)
+{
+ bool rv = true;
+ for (Plugins::iterator i = _plugins.begin(); i != _plugins.end(); ++i) {
+ if (!(*i)->write_immediate_event (size, buf)) {
+ rv = false;
+ }
+ }
+ return rv;
+}
+
+void
+PluginInsert::preset_load_set_value (uint32_t p, float v)
+{
+ boost::shared_ptr<AutomationControl> ac = automation_control (Evoral::Parameter(PluginAutomation, 0, p));
+ if (!ac) {
+ return;
+ }
+
+ if (ac->automation_state() & Play) {
+ return;
+ }
+
+ start_touch (p);
+ ac->set_value (v, Controllable::NoGroup);
+ end_touch (p);
+}
+
void
-PluginInsert::inplace_silence_unconnected (BufferSet& bufs, const PinMappings& out_map, framecnt_t nframes, framecnt_t offset) const
+PluginInsert::inplace_silence_unconnected (BufferSet& bufs, const PinMappings& out_map, samplecnt_t nframes, samplecnt_t offset) const
{
// TODO optimize: store "unconnected" in a fixed set.
// it only changes on reconfiguration.
}
void
-PluginInsert::connect_and_run (BufferSet& bufs, framepos_t start, framepos_t end, double speed, pframes_t nframes, framecnt_t offset, bool with_auto)
+PluginInsert::connect_and_run (BufferSet& bufs, samplepos_t start, samplepos_t end, double speed, pframes_t nframes, samplecnt_t offset, bool with_auto)
{
- // TODO: atomically copy maps & _no_inplace
- PinMappings in_map (_in_map);
- PinMappings out_map (_out_map);
- ChanMapping thru_map (_thru_map);
- if (_mapping_changed) { // ToDo use a counters, increment until match.
+ if (_mapping_changed) { // ToDo use a counter, increment until match
_no_inplace = check_inplace ();
_mapping_changed = false;
}
+ // TODO: atomically copy maps & _no_inplace
+ PinMappings in_map (_in_map); // TODO Split case below overrides, use const& in_map
+ PinMappings const& out_map (_out_map);
+ ChanMapping const& thru_map (_thru_map);
if (_latency_changed) {
/* delaylines are configured with the max possible latency (as reported by the plugin)
continue;
}
bool valid;
- uint32_t first_idx = in_map[0].get (*t, 0, &valid);
+ uint32_t first_idx = in_map.p(0).get (*t, 0, &valid);
assert (valid && first_idx == 0); // check_inplace ensures this
/* copy the first stream's buffer contents to the others */
for (uint32_t i = 1; i < natural_input_streams ().get (*t); ++i) {
- uint32_t idx = in_map[0].get (*t, i, &valid);
+ uint32_t idx = in_map.p(0).get (*t, i, &valid);
if (valid) {
assert (idx == 0);
bufs.get (*t, i).read_from (bufs.get (*t, first_idx), nframes, offset, offset);
uint32_t n = 0;
- for (Controls::iterator li = controls().begin(); li != controls().end(); ++li, ++n) {
-
- boost::shared_ptr<AutomationControl> c
- = boost::dynamic_pointer_cast<AutomationControl>(li->second);
+ for (Controls::const_iterator li = controls().begin(); li != controls().end(); ++li, ++n) {
- if (c->list() && c->automation_playback()) {
+ /* boost::dynamic_pointer_cast<> has significant overhead, since we know that
+ * all controls are AutomationControl and their lists - if any - are AutomationList,
+ * we can use static_cast<>. This yields a speedup of 2.8/4.6 over to the
+ * previous code (measuerd with VeeSeeVSTRack 10k parameters, optimized build) */
+ AutomationControl& c = static_cast<AutomationControl&> (*(li->second));
+ boost::shared_ptr<const Evoral::ControlList> clist (c.list());
+ if (clist && (static_cast<AutomationList const&> (*clist)).automation_playback ()) {
bool valid;
-
- const float val = c->list()->rt_safe_eval (start, valid);
-
+ const float val = c.list()->rt_safe_eval (start, valid);
if (valid) {
- /* This is the ONLY place where we are
- * allowed to call
- * AutomationControl::set_value_unchecked(). We
- * know that the control is in
- * automation playback mode, so no
- * check on writable() is required
- * (which must be done in AutomationControl::set_value()
- *
- */
- c->set_value_unchecked(val);
+ c.set_value_unchecked(val);
}
-
}
}
}
- /* Calculate if, and how many frames we need to collect for analysis */
- framecnt_t collect_signal_nframes = (_signal_analysis_collect_nframes_max -
+ /* Calculate if, and how many samples we need to collect for analysis */
+ samplecnt_t collect_signal_nframes = (_signal_analysis_collect_nframes_max -
_signal_analysis_collected_nframes);
- if (nframes < collect_signal_nframes) { // we might not get all frames now
+ if (nframes < collect_signal_nframes) { // we might not get all samples now
collect_signal_nframes = nframes;
}
// collect input
//std::cerr << "collect input, bufs " << bufs.count().n_audio() << " count, " << bufs.available().n_audio() << " available" << std::endl;
//std::cerr << " streams " << internal_input_streams().n_audio() << std::endl;
- //std::cerr << "filling buffer with " << collect_signal_nframes << " frames at " << _signal_analysis_collected_nframes << std::endl;
+ //std::cerr << "filling buffer with " << collect_signal_nframes << " samples at " << _signal_analysis_collected_nframes << std::endl;
- _signal_analysis_inputs.set_count(input_streams());
+ _signal_analysis_inputs.set_count (ChanCount (DataType::AUDIO, input_streams().n_audio()));
for (uint32_t i = 0; i < input_streams().n_audio(); ++i) {
_signal_analysis_inputs.get_audio(i).read_from (
for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) {
for (uint32_t out = 0; out < natural_output_streams().get (*t); ++out) {
bool valid;
- uint32_t out_idx = out_map[pc].get (*t, out, &valid);
+ uint32_t out_idx = out_map.p(pc).get (*t, out, &valid);
if (valid) {
used_outputs.set (*t, out_idx, 1); // mark as used
}
for (Plugins::iterator i = _plugins.begin(); i != _plugins.end(); ++i, ++pc) {
ARDOUR::ChanMapping i_in_map (natural_input_streams());
- ARDOUR::ChanMapping i_out_map (out_map[pc]);
+ ARDOUR::ChanMapping i_out_map (out_map.p(pc));
ARDOUR::ChanCount mapped;
/* map inputs sequentially */
for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) {
for (uint32_t in = 0; in < natural_input_streams().get (*t); ++in) {
bool valid;
- uint32_t in_idx = in_map[pc].get (*t, in, &valid);
+ uint32_t in_idx = in_map.p(pc).get (*t, in, &valid);
uint32_t m = mapped.get (*t);
if (valid) {
inplace_bufs.get (*t, m).read_from (bufs.get (*t, in_idx), nframes, offset, offset);
/* in-place processing */
uint32_t pc = 0;
for (Plugins::iterator i = _plugins.begin(); i != _plugins.end(); ++i, ++pc) {
- if ((*i)->connect_and_run(bufs, start, end, speed, in_map[pc], out_map[pc], nframes, offset)) {
+ if ((*i)->connect_and_run(bufs, start, end, speed, in_map.p(pc), out_map.p(pc), nframes, offset)) {
deactivate ();
}
}
//std::cerr << " output, bufs " << bufs.count().n_audio() << " count, " << bufs.available().n_audio() << " available" << std::endl;
//std::cerr << " streams " << internal_output_streams().n_audio() << std::endl;
- _signal_analysis_outputs.set_count(output_streams());
+ _signal_analysis_outputs.set_count (ChanCount (DataType::AUDIO, output_streams().n_audio()));
for (uint32_t i = 0; i < output_streams().n_audio(); ++i) {
_signal_analysis_outputs.get_audio(i).read_from(
/* bypass the plugin(s) not the whole processor.
* -> use mappings just like connect_and_run
*/
-
- // TODO: atomically copy maps & _no_inplace
- const ChanMapping in_map (no_sc_input_map ());
- const ChanMapping out_map (output_map ());
if (_mapping_changed) {
_no_inplace = check_inplace ();
_mapping_changed = false;
}
+ // TODO: atomically copy maps & _no_inplace
+ ChanMapping const& in_map (no_sc_input_map ());
+ ChanMapping const& out_map (output_map ());
bufs.set_count(ChanCount::max(bufs.count(), _configured_internal));
bufs.set_count(ChanCount::max(bufs.count(), _configured_out));
}
void
-PluginInsert::silence (framecnt_t nframes, framepos_t start_frame)
+PluginInsert::silence (samplecnt_t nframes, samplepos_t start_sample)
{
+ automation_run (start_sample, nframes); // evaluate automation only
+
if (!active ()) {
+ // XXX delaybuffers need to be offset by nframes
return;
}
_delaybuffers.flush ();
- ChanMapping in_map (natural_input_streams ());
- ChanMapping out_map (natural_output_streams ());
+ const ChanMapping in_map (natural_input_streams ());
+ const ChanMapping out_map (natural_output_streams ());
ChanCount maxbuf = ChanCount::max (natural_input_streams (), natural_output_streams());
#ifdef MIXBUS
if (is_channelstrip ()) {
if (_configured_in.n_audio() > 0) {
- _plugins.front()->connect_and_run (_session.get_scratch_buffers (maxbuf, true), start_frame, start_frame + nframes, 1.0, in_map, out_map, nframes, 0);
+ _plugins.front()->connect_and_run (_session.get_scratch_buffers (maxbuf, true), start_sample, start_sample + nframes, 1.0, in_map, out_map, nframes, 0);
}
} else
#endif
for (Plugins::iterator i = _plugins.begin(); i != _plugins.end(); ++i) {
- (*i)->connect_and_run (_session.get_scratch_buffers (maxbuf, true), start_frame, start_frame + nframes, 1.0, in_map, out_map, nframes, 0);
+ (*i)->connect_and_run (_session.get_scratch_buffers (maxbuf, true), start_sample, start_sample + nframes, 1.0, in_map, out_map, nframes, 0);
}
}
void
-PluginInsert::run (BufferSet& bufs, framepos_t start_frame, framepos_t end_frame, double speed, pframes_t nframes, bool)
+PluginInsert::run (BufferSet& bufs, samplepos_t start_sample, samplepos_t end_sample, double speed, pframes_t nframes, bool)
{
if (_sidechain) {
// collect sidechain input for complete cycle (!)
// TODO we need delaylines here for latency compensation
- _sidechain->run (bufs, start_frame, end_frame, speed, nframes, true);
+ _sidechain->run (bufs, start_sample, end_sample, speed, nframes, true);
+ }
+
+ if (g_atomic_int_compare_and_exchange (&_stat_reset, 1, 0)) {
+ _timing_stats.reset ();
}
if (_pending_active) {
+#if defined MIXBUS && !defined NDEBUG
+ if (!is_channelstrip ()) {
+ _timing_stats.start ();
+ }
+#else
+ _timing_stats.start ();
+#endif
/* run as normal if we are active or moving from inactive to active */
if (_session.transport_rolling() || _session.bounce_processing()) {
- automation_run (bufs, start_frame, end_frame, speed, nframes);
+ automate_and_run (bufs, start_sample, end_sample, speed, nframes);
} else {
Glib::Threads::Mutex::Lock lm (control_lock(), Glib::Threads::TRY_LOCK);
- connect_and_run (bufs, start_frame, end_frame, speed, nframes, 0, lm.locked());
+ connect_and_run (bufs, start_sample, end_sample, speed, nframes, 0, lm.locked());
}
+#if defined MIXBUS && !defined NDEBUG
+ if (!is_channelstrip ()) {
+ _timing_stats.update ();
+ }
+#else
+ _timing_stats.update ();
+#endif
} else {
+ _timing_stats.reset ();
+ // XXX should call ::silence() to run plugin(s) for consistent load.
+ // We'll need to change this anyway when bypass can be automated
bypass (bufs, nframes);
+ automation_run (start_sample, nframes); // evaluate automation only
_delaybuffers.flush ();
}
}
void
-PluginInsert::automation_run (BufferSet& bufs, framepos_t start, framepos_t end, double speed, pframes_t nframes)
+PluginInsert::automate_and_run (BufferSet& bufs, samplepos_t start, samplepos_t end, double speed, pframes_t nframes)
{
Evoral::ControlEvent next_event (0, 0.0f);
- framecnt_t offset = 0;
+ samplecnt_t offset = 0;
Glib::Threads::Mutex::Lock lm (control_lock(), Glib::Threads::TRY_LOCK);
return;
}
+ /* map start back into loop-range, adjust end */
+ map_loop_range (start, end);
+
if (!find_next_event (start, end, next_event) || _plugins.front()->requires_fixed_sized_buffers()) {
/* no events have a time within the relevant range */
while (nframes) {
- framecnt_t cnt = min (((framecnt_t) ceil (next_event.when) - start), (framecnt_t) nframes);
+ samplecnt_t cnt = min (((samplecnt_t) ceil (next_event.when) - start), (samplecnt_t) nframes);
connect_and_run (bufs, start, start + cnt, speed, cnt, offset, true); // XXX (start + cnt) * speed
offset += cnt;
start += cnt;
+ map_loop_range (start, end);
+
if (!find_next_event (start, end, next_event)) {
break;
}
#ifdef LXVST_SUPPORT
boost::shared_ptr<LXVSTPlugin> lxvp;
#endif
+#ifdef MACVST_SUPPORT
+ boost::shared_ptr<MacVSTPlugin> mvp;
+#endif
#ifdef AUDIOUNIT_SUPPORT
boost::shared_ptr<AUPlugin> ap;
#endif
} else if ((lxvp = boost::dynamic_pointer_cast<LXVSTPlugin> (other)) != 0) {
return boost::shared_ptr<Plugin> (new LXVSTPlugin (*lxvp));
#endif
+#ifdef MACVST_SUPPORT
+ } else if ((mvp = boost::dynamic_pointer_cast<MacVSTPlugin> (other)) != 0) {
+ return boost::shared_ptr<Plugin> (new MacVSTPlugin (*mvp));
+#endif
#ifdef AUDIOUNIT_SUPPORT
} else if ((ap = boost::dynamic_pointer_cast<AUPlugin> (other)) != 0) {
return boost::shared_ptr<Plugin> (new AUPlugin (*ap));
PluginInsert::is_channelstrip () const {
return _plugins.front()->is_channelstrip();
}
+bool
+PluginInsert::is_nonbypassable () const {
+ return _plugins.front()->is_nonbypassable ();
+}
#endif
bool
*
* but allows in-port 1 -> sink-pin 2 || source-pin 2 -> out port 1
*/
- ChanMapping in_map (input_map ());
+ ChanMapping const& in_map (input_map ());
const ChanMapping::Mappings out_m (output_map ().mappings ());
for (ChanMapping::Mappings::const_iterator t = out_m.begin (); t != out_m.end () && inplace_ok; ++t) {
for (ChanMapping::TypeMapping::const_iterator c = (*t).second.begin (); c != (*t).second.end () ; ++c) {
&& _in_map.size() == _out_map.size()
&& _in_map.size() == get_count ()
) {
- assert (_maps_from_state == false);
/* If the configuration has not changed, keep the mapping */
mapping_changed = sanitize_maps ();
} else if (_match.custom_cfg && _configured) {
- assert (_maps_from_state == false);
/* don't touch the map in manual mode */
mapping_changed = sanitize_maps ();
} else {
_delaybuffers.configure (_configured_out, _plugins.front ()->max_latency ());
_latency_changed = true;
- // we don't know the analysis window size, so we must work with the
- // current buffer size here. each request for data fills in these
- // buffers and the analyser makes sure it gets enough data for the
- // analysis window
- session().ensure_buffer_set (_signal_analysis_inputs, in);
- _signal_analysis_inputs.set_count (in);
+ /* we don't know the analysis window size, so we must work with the
+ * current buffer size here. each request for data fills in these
+ * buffers and the analyser makes sure it gets enough data for the
+ * analysis window. We also only analyze audio, so we can ignore
+ * MIDI buffers.
+ */
+ ChanCount cc_analysis_in (DataType::AUDIO, in.n_audio());
+ ChanCount cc_analysis_out (DataType::AUDIO, out.n_audio());
+
+ session().ensure_buffer_set (_signal_analysis_inputs, cc_analysis_in);
+ _signal_analysis_inputs.set_count (cc_analysis_in);
- session().ensure_buffer_set (_signal_analysis_outputs, out);
- _signal_analysis_outputs.set_count (out);
+ session().ensure_buffer_set (_signal_analysis_outputs, cc_analysis_out);
+ _signal_analysis_outputs.set_count (cc_analysis_out);
// std::cerr << "set counts to i" << in.n_audio() << "/o" << out.n_audio() << std::endl;
XMLNode&
-PluginInsert::get_state ()
-{
- return state (true);
-}
-
-XMLNode&
-PluginInsert::state (bool full)
+PluginInsert::state ()
{
- XMLNode& node = Processor::state (full);
+ XMLNode& node = Processor::state ();
- node.add_property("type", _plugins[0]->state_node_name());
- node.add_property("unique-id", _plugins[0]->unique_id());
- node.add_property("count", string_compose("%1", _plugins.size()));
+ node.set_property("type", _plugins[0]->state_node_name());
+ node.set_property("unique-id", _plugins[0]->unique_id());
+ node.set_property("count", (uint32_t)_plugins.size());
/* remember actual i/o configuration (for later placeholder
* in case the plugin goes missing) */
node.add_child_nocopy (* _preset_out.state (X_("PresetOutput")));
/* save custom i/o config */
- node.add_property("custom", _custom_cfg ? "yes" : "no");
+ node.set_property("custom", _custom_cfg);
for (uint32_t pc = 0; pc < get_count(); ++pc) {
char tmp[128];
snprintf (tmp, sizeof(tmp), "InputMap-%d", pc);
node.add_child_nocopy (* _thru_map.state ("ThruMap"));
if (_sidechain) {
- node.add_child_nocopy (_sidechain->state (full));
+ node.add_child_nocopy (_sidechain->get_state ());
}
_plugins[0]->set_insert_id(this->id());
for (iter = nlist.begin(); iter != nlist.end(); ++iter) {
if ((*iter)->name() == Controllable::xml_node_name) {
- XMLProperty const * prop;
uint32_t p = (uint32_t)-1;
#ifdef LV2_SUPPORT
- if ((prop = (*iter)->property (X_("symbol"))) != 0) {
+ std::string str;
+ if ((*iter)->get_property (X_("symbol"), str)) {
boost::shared_ptr<LV2Plugin> lv2plugin = boost::dynamic_pointer_cast<LV2Plugin> (_plugins[0]);
if (lv2plugin) {
- p = lv2plugin->port_index(prop->value().c_str());
+ p = lv2plugin->port_index(str.c_str());
}
}
#endif
- if (p == (uint32_t)-1 && (prop = (*iter)->property (X_("parameter"))) != 0) {
- p = atoi (prop->value());
+ if (p == (uint32_t)-1) {
+ (*iter)->get_property (X_("parameter"), p);
}
if (p != (uint32_t)-1) {
XMLNodeList nlist = node.children();
XMLNodeIterator niter;
XMLPropertyList plist;
- XMLProperty const * prop;
ARDOUR::PluginType type;
- if ((prop = node.property ("type")) == 0) {
+ std::string str;
+ if (!node.get_property ("type", str)) {
error << _("XML node describing plugin is missing the `type' field") << endmsg;
return -1;
}
- if (prop->value() == X_("ladspa") || prop->value() == X_("Ladspa")) { /* handle old school sessions */
+ if (str == X_("ladspa") || str == X_("Ladspa")) { /* handle old school sessions */
type = ARDOUR::LADSPA;
- } else if (prop->value() == X_("lv2")) {
+ } else if (str == X_("lv2")) {
type = ARDOUR::LV2;
- } else if (prop->value() == X_("windows-vst")) {
+ } else if (str == X_("windows-vst")) {
type = ARDOUR::Windows_VST;
- } else if (prop->value() == X_("lxvst")) {
+ } else if (str == X_("lxvst")) {
type = ARDOUR::LXVST;
- } else if (prop->value() == X_("audiounit")) {
+ } else if (str == X_("mac-vst")) {
+ type = ARDOUR::MacVST;
+ } else if (str == X_("audiounit")) {
type = ARDOUR::AudioUnit;
- } else if (prop->value() == X_("luaproc")) {
+ } else if (str == X_("luaproc")) {
type = ARDOUR::Lua;
} else {
- error << string_compose (_("unknown plugin type %1 in plugin insert state"),
- prop->value())
- << endmsg;
+ error << string_compose (_("unknown plugin type %1 in plugin insert state"), str) << endmsg;
return -1;
}
- prop = node.property ("unique-id");
+ XMLProperty const * prop = node.property ("unique-id");
if (prop == 0) {
#ifdef WINDOWS_VST_SUPPORT
- /* older sessions contain VST plugins with only an "id" field.
- */
-
+ /* older sessions contain VST plugins with only an "id" field. */
if (type == ARDOUR::Windows_VST) {
prop = node.property ("id");
}
#ifdef LXVST_SUPPORT
/*There shouldn't be any older sessions with linuxVST support.. but anyway..*/
-
if (type == ARDOUR::LXVST) {
prop = node.property ("id");
}
#endif
+
/* recheck */
if (prop == 0) {
}
boost::shared_ptr<Plugin> plugin = find_plugin (_session, prop->value(), type);
+ bool any_vst = false;
- /* treat linux and windows VST plugins equivalent if they have the same uniqueID
+ /* treat VST plugins equivalent if they have the same uniqueID
* allow to move sessions windows <> linux */
#ifdef LXVST_SUPPORT
- if (plugin == 0 && type == ARDOUR::Windows_VST) {
+ if (plugin == 0 && (type == ARDOUR::Windows_VST || type == ARDOUR::MacVST)) {
type = ARDOUR::LXVST;
plugin = find_plugin (_session, prop->value(), type);
+ if (plugin) { any_vst = true; }
}
#endif
#ifdef WINDOWS_VST_SUPPORT
- if (plugin == 0 && type == ARDOUR::LXVST) {
+ if (plugin == 0 && (type == ARDOUR::LXVST || type == ARDOUR::MacVST)) {
type = ARDOUR::Windows_VST;
plugin = find_plugin (_session, prop->value(), type);
+ if (plugin) { any_vst = true; }
+ }
+#endif
+
+#ifdef MACVST_SUPPORT
+ if (plugin == 0 && (type == ARDOUR::Windows_VST || type == ARDOUR::LXVST)) {
+ type = ARDOUR::MacVST;
+ plugin = find_plugin (_session, prop->value(), type);
+ if (plugin) { any_vst = true; }
}
#endif
set_control_ids (node, version);
}
- if ((prop = node.property ("count")) != 0) {
- sscanf (prop->value().c_str(), "%u", &count);
- }
+ node.get_property ("count", count);
if (_plugins.size() != count) {
for (uint32_t n = 1; n < count; ++n) {
PBD::ID new_id = this->id();
PBD::ID old_id = this->id();
- if ((prop = node.property ("id")) != 0) {
- old_id = prop->value ();
- }
+ node.get_property ("id", old_id);
for (niter = nlist.begin(); niter != nlist.end(); ++niter) {
and set all plugins to the same state.
*/
- if ((*niter)->name() == plugin->state_node_name()) {
+ if ( ((*niter)->name() == plugin->state_node_name())
+ || (any_vst && ((*niter)->name() == "lxvst" || (*niter)->name() == "windows-vst" || (*niter)->name() == "mac-vst"))
+ ) {
for (Plugins::iterator i = _plugins.begin(); i != _plugins.end(); ++i) {
/* Plugin state can include external files which are named after the ID.
}
}
+ /* when copying plugin state, notify UI */
+ for (Controls::const_iterator li = controls().begin(); li != controls().end(); ++li) {
+ boost::shared_ptr<PBD::Controllable> c = boost::dynamic_pointer_cast<PBD::Controllable> (li->second);
+ if (c) {
+ c->Changed (false, Controllable::NoGroup); /* EMIT SIGNAL */
+ }
+ }
+
break;
}
}
set_parameter_state_2X (node, version);
}
- if ((prop = node.property (X_("custom"))) != 0) {
- _custom_cfg = string_is_affirmative (prop->value());
- }
+ node.get_property (X_("custom"), _custom_cfg);
uint32_t in_maps = 0;
uint32_t out_maps = 0;
// sidechain is a Processor (IO)
if ((*i)->name () == Processor::state_node_name) {
if (!_sidechain) {
- add_sidechain (0);
+ if (regenerate_xml_or_string_ids ()) {
+ add_sidechain_from_xml (**i, version);
+ } else {
+ add_sidechain (0);
+ }
+ }
+ if (!regenerate_xml_or_string_ids ()) {
+ _sidechain->set_state (**i, version);
+ } else {
+ update_sidechain_name ();
}
- _sidechain->set_state (**i, version);
}
}
}
XMLNodeList cnodes;
- XMLProperty const * cprop;
XMLNodeConstIterator iter;
XMLNode *child;
- const char *port;
uint32_t port_id;
cnodes = (*niter)->children ("port");
child = *iter;
- if ((cprop = child->property("number")) != 0) {
- port = cprop->value().c_str();
- } else {
+ if (!child->get_property("number", port_id)) {
warning << _("PluginInsert: Auto: no ladspa port number") << endmsg;
continue;
}
- sscanf (port, "%" PRIu32, &port_id);
-
if (port_id >= _plugins[0]->parameter_count()) {
warning << _("PluginInsert: Auto: port id out of range") << endmsg;
continue;
if (c && c->alist()) {
if (!child->children().empty()) {
c->alist()->set_state (*child->children().front(), version);
-
- /* In some cases 2.X saves lists with min_yval and max_yval
- being FLT_MIN and FLT_MAX respectively. This causes problems
- in A3 because these min/max values are used to compute
- where GUI control points should be drawn. If we see such
- values, `correct' them to the min/max of the appropriate
- parameter.
- */
-
- float min_y = c->alist()->get_min_y ();
- float max_y = c->alist()->get_max_y ();
-
- ParameterDescriptor desc;
- _plugins.front()->get_parameter_descriptor (port_id, desc);
-
- if (min_y == FLT_MIN) {
- min_y = desc.lower;
- }
-
- if (max_y == FLT_MAX) {
- max_y = desc.upper;
- }
-
- c->alist()->set_yrange (min_y, max_y);
}
} else {
error << string_compose (_("PluginInsert: automatable control %1 not found - ignored"), port_id) << endmsg;
}
}
+boost::shared_ptr<ReadOnlyControl>
+PluginInsert::control_output (uint32_t num) const
+{
+ CtrlOutMap::const_iterator i = _control_outputs.find (num);
+ if (i == _control_outputs.end ()) {
+ return boost::shared_ptr<ReadOnlyControl> ();
+ } else {
+ return (*i).second;
+ }
+}
string
PluginInsert::describe_parameter (Evoral::Parameter param)
return Automatable::describe_parameter(param);
}
-ARDOUR::framecnt_t
+ARDOUR::samplecnt_t
PluginInsert::signal_latency() const
{
if (!_pending_active) {
, _plugin (p)
{
if (alist()) {
- alist()->reset_default (desc.normal);
if (desc.toggled) {
list->set_interpolation(Evoral::ControlList::Discrete);
}
XMLNode&
PluginInsert::PluginControl::get_state ()
{
- stringstream ss;
-
XMLNode& node (AutomationControl::get_state());
- ss << parameter().id();
- node.add_property (X_("parameter"), ss.str());
+ node.set_property (X_("parameter"), parameter().id());
#ifdef LV2_SUPPORT
boost::shared_ptr<LV2Plugin> lv2plugin = boost::dynamic_pointer_cast<LV2Plugin> (_plugin->_plugins[0]);
if (lv2plugin) {
- node.add_property (X_("symbol"), lv2plugin->port_symbol (parameter().id()));
+ node.set_property (X_("symbol"), lv2plugin->port_symbol (parameter().id()));
}
#endif
: AutomationControl (p->session(), param, desc, list)
, _plugin (p)
{
- if (alist()) {
- alist()->set_yrange (desc.lower, desc.upper);
- alist()->reset_default (desc.normal);
- }
}
void
XMLNode&
PluginInsert::PluginPropertyControl::get_state ()
{
- stringstream ss;
-
XMLNode& node (AutomationControl::get_state());
- ss << parameter().id();
- node.add_property (X_("property"), ss.str());
+ node.set_property (X_("property"), parameter().id());
node.remove_property (X_("value"));
return node;
assert (out == internal_output_streams ());
}
ret->configure_io (internal_input_streams (), out);
+ ret->set_owner (_owner);
_impulseAnalysisPlugin = ret;
} else {
ret = _impulseAnalysisPlugin.lock();
}
void
-PluginInsert::collect_signal_for_analysis (framecnt_t nframes)
+PluginInsert::collect_signal_for_analysis (samplecnt_t nframes)
{
// called from outside the audio thread, so this should be safe
// only do audio as analysis is (currently) only for audio plugins
}
}
}
-#if (defined WINDOWS_VST_SUPPORT || defined LXVST_SUPPORT)
+#if (defined WINDOWS_VST_SUPPORT || defined LXVST_SUPPORT || defined MACVST_SUPPORT)
boost::shared_ptr<VSTPlugin> vst = boost::dynamic_pointer_cast<VSTPlugin> (plugin);
if (vst) {
vst->set_insert (this, _plugins.size ());
_plugins.push_back (plugin);
}
+void
+PluginInsert::add_sidechain_from_xml (const XMLNode& node, int version)
+{
+ if (version < 3000) {
+ return;
+ }
+
+ XMLNodeList nlist = node.children();
+
+ if (nlist.size() == 0) {
+ return;
+ }
+
+ uint32_t audio = 0;
+ uint32_t midi = 0;
+
+ XMLNodeConstIterator it = nlist.front()->children().begin();
+ for ( ; it != nlist.front()->children().end(); ++ it) {
+ if ((*it)->name() == "Port") {
+ DataType type(DataType::NIL);
+ (*it)->get_property ("type", type);
+ if (type == DataType::AUDIO) {
+ ++audio;
+ } else if (type == DataType::MIDI) {
+ ++midi;
+ }
+ }
+ }
+
+ ChanCount in_cc = ChanCount();
+ in_cc.set (DataType::AUDIO, audio);
+ in_cc.set (DataType::MIDI, midi);
+
+ add_sidechain (audio, midi);
+}
+
bool
PluginInsert::load_preset (ARDOUR::Plugin::PresetRecord pr)
{
void
PluginInsert::start_touch (uint32_t param_id)
{
- boost::shared_ptr<AutomationControl> ac = automation_control (Evoral::Parameter (PluginAutomation, 0, param_id));
- if (ac) {
- ac->start_touch (session().audible_frame());
- }
+ boost::shared_ptr<AutomationControl> ac = automation_control (Evoral::Parameter (PluginAutomation, 0, param_id));
+ if (ac) {
+ // ToDo subtract _plugin_signal_latency from audible_sample() when rolling, assert > 0
+ ac->start_touch (session().audible_sample());
+ }
}
void
PluginInsert::end_touch (uint32_t param_id)
{
- boost::shared_ptr<AutomationControl> ac = automation_control (Evoral::Parameter (PluginAutomation, 0, param_id));
- if (ac) {
- ac->stop_touch (true, session().audible_frame());
- }
+ boost::shared_ptr<AutomationControl> ac = automation_control (Evoral::Parameter (PluginAutomation, 0, param_id));
+ if (ac) {
+ // ToDo subtract _plugin_signal_latency from audible_sample() when rolling, assert > 0
+ ac->stop_touch (session().audible_sample());
+ }
+}
+
+bool
+PluginInsert::provides_stats () const
+{
+#if defined MIXBUS && !defined NDEBUG
+ if (is_channelstrip () || !display_to_user ()) {
+ return false;
+ }
+#endif
+ return true;
+}
+
+bool
+PluginInsert::get_stats (uint64_t& min, uint64_t& max, double& avg, double& dev) const
+{
+ /* TODO: consider taking a try/lock: Don't run concurrently with
+ * TimingStats::update, TimingStats::reset.
+ */
+ return _timing_stats.get_stats (min, max, avg, dev);
+}
+
+void
+PluginInsert::clear_stats ()
+{
+ g_atomic_int_set (&_stat_reset, 1);
}
std::ostream& operator<<(std::ostream& o, const ARDOUR::PluginInsert::Match& m)