#include "ardour/debug.h"
#include "ardour/file_source.h"
#include "ardour/midi_channel_filter.h"
+#include "ardour/midi_cursor.h"
#include "ardour/midi_model.h"
#include "ardour/midi_source.h"
#include "ardour/midi_state_tracker.h"
#include "ardour/session.h"
-#include "ardour/tempo.h"
#include "ardour/session_directory.h"
#include "ardour/source_factory.h"
+#include "ardour/tempo.h"
#include "pbd/i18n.h"
using namespace ARDOUR;
using namespace PBD;
-PBD::Signal1<void,MidiSource*> MidiSource::MidiSourceCreated;
-
MidiSource::MidiSource (Session& s, string name, Source::Flag flags)
: Source(s, DataType::MIDI, name, flags)
, _writing(false)
- , _model_iter_valid(false)
, _length_beats(0.0)
- , _last_read_end(0)
, _capture_length(0)
, _capture_loop_length(0)
{
MidiSource::MidiSource (Session& s, const XMLNode& node)
: Source(s, node)
, _writing(false)
- , _model_iter_valid(false)
, _length_beats(0.0)
- , _last_read_end(0)
, _capture_length(0)
, _capture_loop_length(0)
{
MidiSource::~MidiSource ()
{
+ /* invalidate any existing iterators */
+ Invalidated (false);
}
XMLNode&
XMLNode& node (Source::get_state());
if (_captured_for.length()) {
- node.add_property ("captured-for", _captured_for);
+ node.set_property ("captured-for", _captured_for);
}
for (InterpolationStyleMap::const_iterator i = _interpolation_style.begin(); i != _interpolation_style.end(); ++i) {
XMLNode* child = node.add_child (X_("InterpolationStyle"));
- child->add_property (X_("parameter"), EventTypeMap::instance().to_symbol (i->first));
- child->add_property (X_("style"), enum_2_string (i->second));
+ child->set_property (X_("parameter"), EventTypeMap::instance().to_symbol (i->first));
+ child->set_property (X_("style"), enum_2_string (i->second));
}
for (AutomationStateMap::const_iterator i = _automation_state.begin(); i != _automation_state.end(); ++i) {
XMLNode* child = node.add_child (X_("AutomationState"));
- child->add_property (X_("parameter"), EventTypeMap::instance().to_symbol (i->first));
- child->add_property (X_("state"), enum_2_string (i->second));
+ child->set_property (X_("parameter"), EventTypeMap::instance().to_symbol (i->first));
+ child->set_property (X_("state"), enum_2_string (i->second));
}
return node;
int
MidiSource::set_state (const XMLNode& node, int /*version*/)
{
- XMLProperty const * prop;
- if ((prop = node.property ("captured-for")) != 0) {
- _captured_for = prop->value();
- }
+ node.get_property ("captured-for", _captured_for);
+ std::string str;
XMLNodeList children = node.children ();
for (XMLNodeConstIterator i = children.begin(); i != children.end(); ++i) {
if ((*i)->name() == X_("InterpolationStyle")) {
- if ((prop = (*i)->property (X_("parameter"))) == 0) {
+ if (!(*i)->get_property (X_("parameter"), str)) {
error << _("Missing parameter property on InterpolationStyle") << endmsg;
return -1;
}
- Evoral::Parameter p = EventTypeMap::instance().from_symbol (prop->value());
+ Evoral::Parameter p = EventTypeMap::instance().from_symbol (str);
- if ((prop = (*i)->property (X_("style"))) == 0) {
+ if (!(*i)->get_property (X_("style"), str)) {
error << _("Missing style property on InterpolationStyle") << endmsg;
return -1;
}
- Evoral::ControlList::InterpolationStyle s = static_cast<Evoral::ControlList::InterpolationStyle>(
- string_2_enum (prop->value(), s));
+ Evoral::ControlList::InterpolationStyle s =
+ static_cast<Evoral::ControlList::InterpolationStyle>(string_2_enum (str, s));
set_interpolation_of (p, s);
} else if ((*i)->name() == X_("AutomationState")) {
- if ((prop = (*i)->property (X_("parameter"))) == 0) {
+ if (!(*i)->get_property (X_("parameter"), str)) {
error << _("Missing parameter property on AutomationState") << endmsg;
return -1;
}
- Evoral::Parameter p = EventTypeMap::instance().from_symbol (prop->value());
+ Evoral::Parameter p = EventTypeMap::instance().from_symbol (str);
- if ((prop = (*i)->property (X_("state"))) == 0) {
+ if (!(*i)->get_property (X_("state"), str)) {
error << _("Missing state property on AutomationState") << endmsg;
return -1;
}
- AutoState s = static_cast<AutoState> (string_2_enum (prop->value(), s));
+ AutoState s = static_cast<AutoState>(string_2_enum (str, s));
set_automation_state_of (p, s);
}
}
}
void
-MidiSource::invalidate (const Lock& lock, std::set<Evoral::Sequence<Evoral::Beats>::WeakNotePtr>* notes)
+MidiSource::invalidate (const Lock& lock)
{
- _model_iter_valid = false;
- _model_iter.invalidate(notes);
+ Invalidated(_session.transport_rolling());
}
framecnt_t
framepos_t start,
framecnt_t cnt,
Evoral::Range<framepos_t>* loop_range,
+ MidiCursor& cursor,
MidiStateTracker* tracker,
MidiChannelFilter* filter,
const std::set<Evoral::Parameter>& filtered,
- const double pulse,
- const double start_beats) const
+ const double pos_beats,
+ const double start_beats) const
{
- //BeatsFramesConverter converter(_session.tempo_map(), source_start);
- const int32_t tpb = Timecode::BBT_Time::ticks_per_beat;
- const double pulse_tick_res = floor ((pulse * 4.0 * tpb) + 0.5) / tpb;
- const double start_qn = (pulse * 4.0) - start_beats;
+ BeatsFramesConverter converter(_session.tempo_map(), source_start);
+
+ const double start_qn = pos_beats - start_beats;
DEBUG_TRACE (DEBUG::MidiSourceIO,
string_compose ("MidiSource::midi_read() %5 sstart %1 start %2 cnt %3 tracker %4\n",
}
// Find appropriate model iterator
- Evoral::Sequence<Evoral::Beats>::const_iterator& i = _model_iter;
- const bool linear_read = _last_read_end != 0 && start == _last_read_end;
- if (!linear_read || !_model_iter_valid) {
-#if 0
- // Cached iterator is invalid, search for the first event past start
- i = _model->begin(converter.from(start), false, filtered,
- linear_read ? &_model->active_notes() : NULL);
- _model_iter_valid = true;
- if (!linear_read) {
- _model->active_notes().clear();
- }
-#else
- /* hot-fix http://tracker.ardour.org/view.php?id=6541
- * "parallel playback of linked midi regions -> no note-offs"
- *
- * A midi source can be used by multiple tracks simultaneously,
- * in which case midi_read() may be called from different tracks for
- * overlapping time-ranges.
- *
- * However there is only a single iterator for a given midi-source.
- * This results in every midi_read() performing a seek.
- *
- * If seeking is performed with
- * _model->begin(converter.from(start),...)
- * the model is used for seeking. That method seeks to the first
- * *note-on* event after 'start'.
- *
- * _model->begin(converter.from( ) ,..) eventually calls
- * Sequence<Time>::const_iterator() in libs/evoral/src/Sequence.cpp
- * which looks up the note-event via seq.note_lower_bound(t);
- * but the sequence 'seq' only contains note-on events(!).
- * note-off events are implicit in Sequence<Time>::operator++()
- * via _active_notes.pop(); and not part of seq.
- *
- * see also http://tracker.ardour.org/view.php?id=6287#c16671
- *
- * The linear search below assures that reading starts at the first
- * event for the given time, regardless of its event-type.
- *
- * The performance of this approach is O(N), while the previous
- * implementation is O(log(N)). This needs to be optimized:
- * The model-iterator or event-sequence needs to be re-designed in
- * some way (maybe keep an iterator per playlist).
- */
- for (i = _model->begin(); i != _model->end(); ++i) {
- if (floor (((i->time().to_double() + start_qn) * tpb) + 0.5) / tpb >= pulse_tick_res) {
- break;
- }
- }
- _model_iter_valid = true;
- if (!linear_read) {
- _model->active_notes().clear();
- }
-#endif
+ Evoral::Sequence<Evoral::Beats>::const_iterator& i = cursor.iter;
+ const bool linear_read = cursor.last_read_end != 0 && start == cursor.last_read_end;
+ if (!linear_read || !i.valid()) {
+ /* Cached iterator is invalid, search for the first event past start.
+ Note that multiple tracks can use a MidiSource simultaneously, so
+ all playback state must be in parameters (the cursor) and must not
+ be cached in the source of model itself.
+ See http://tracker.ardour.org/view.php?id=6541
+ */
+ cursor.connect(Invalidated);
+ cursor.iter = _model->begin(converter.from(start), false, filtered, &cursor.active_notes);
+ cursor.active_notes.clear();
}
- _last_read_end = start + cnt;
+ cursor.last_read_end = start + cnt;
// Copy events in [start, start + cnt) into dst
for (; i != _model->end(); ++i) {
// Offset by source start to convert event time to session time
- framecnt_t time_frames = _session.tempo_map().frame_at_quarter_note (i->time().to_double() + start_qn);
-
- if (time_frames < (start + source_start)) {
+ framepos_t time_frames = _session.tempo_map().frame_at_quarter_note (i->time().to_double() + start_qn);
+ if (time_frames < start + source_start) {
/* event too early */
continue;
/* in range */
- if (filter && filter->filter(i->buffer(), i->size())) {
- DEBUG_TRACE (DEBUG::MidiSourceIO,
- string_compose ("%1: filter event @ %2 type %3 size %4\n",
- _name, time_frames, i->event_type(), i->size()));
- continue;
- }
-
if (loop_range) {
time_frames = loop_range->squish (time_frames);
}
- dst.write (time_frames, i->event_type(), i->size(), i->buffer());
+ const uint8_t status = i->buffer()[0];
+ const bool is_channel_event = (0x80 <= (status & 0xF0)) && (status <= 0xE0);
+ if (filter && is_channel_event) {
+ /* Copy event so the filter can modify the channel. I'm not
+ sure if this is necessary here (channels are mapped later in
+ buffers anyway), but it preserves existing behaviour without
+ destroying events in the model during read. */
+ Evoral::Event<Evoral::Beats> ev(*i, true);
+ if (!filter->filter(ev.buffer(), ev.size())) {
+ dst.write(time_frames, ev.event_type(), ev.size(), ev.buffer());
+ } else {
+ DEBUG_TRACE (DEBUG::MidiSourceIO,
+ string_compose ("%1: filter event @ %2 type %3 size %4\n",
+ _name, time_frames, i->event_type(), i->size()));
+ }
+ } else {
+ dst.write (time_frames, i->event_type(), i->size(), i->buffer());
+ }
#ifndef NDEBUG
if (DEBUG_ENABLED(DEBUG::MidiSourceIO)) {
DEBUG_STR_DECL(a);
- DEBUG_STR_APPEND(a, string_compose ("%1 added event @ %2 sz %3 within %4 .. %5\n",
+ DEBUG_STR_APPEND(a, string_compose ("%1 added event @ %2 sz %3 within %4 .. %5 ",
_name, time_frames, i->size(),
start + source_start, start + cnt + source_start));
for (size_t n=0; n < i->size(); ++n) {
const framecnt_t ret = write_unlocked (lm, source, source_start, cnt);
if (cnt == max_framecnt) {
- _last_read_end = 0;
invalidate(lm);
} else {
_capture_length += cnt;