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livetrax/libs/ardour/midi_region.cc

437 lines
12 KiB
C++

/*
Copyright (C) 2000-2006 Paul Davis
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
$Id: midiregion.cc 746 2006-08-02 02:44:23Z drobilla $
*/
#include <cmath>
#include <climits>
#include <cfloat>
#include <set>
#include <glibmm/thread.h>
#include "pbd/basename.h"
#include "pbd/xml++.h"
#include "pbd/enumwriter.h"
#include "ardour/automation_control.h"
#include "ardour/dB.h"
#include "ardour/gain.h"
#include "ardour/midi_model.h"
#include "ardour/midi_region.h"
#include "ardour/midi_ring_buffer.h"
#include "ardour/midi_source.h"
#include "ardour/playlist.h"
#include "ardour/region_factory.h"
#include "ardour/session.h"
#include "ardour/tempo.h"
#include "ardour/types.h"
#include "i18n.h"
#include <locale.h>
using namespace std;
using namespace ARDOUR;
using namespace PBD;
namespace ARDOUR {
namespace Properties {
PBD::PropertyDescriptor<void*> midi_data;
PBD::PropertyDescriptor<Evoral::MusicalTime> start_beats;
PBD::PropertyDescriptor<Evoral::MusicalTime> length_beats;
}
}
void
MidiRegion::make_property_quarks ()
{
Properties::midi_data.property_id = g_quark_from_static_string (X_("midi-data"));
DEBUG_TRACE (DEBUG::Properties, string_compose ("quark for midi-data = %1\n", Properties::midi_data.property_id));
Properties::start_beats.property_id = g_quark_from_static_string (X_("start-beats"));
DEBUG_TRACE (DEBUG::Properties, string_compose ("quark for start-beats = %1\n", Properties::start_beats.property_id));
Properties::length_beats.property_id = g_quark_from_static_string (X_("length-beats"));
DEBUG_TRACE (DEBUG::Properties, string_compose ("quark for length-beats = %1\n", Properties::length_beats.property_id));
}
void
MidiRegion::register_properties ()
{
add_property (_start_beats);
add_property (_length_beats);
}
/* Basic MidiRegion constructor (many channels) */
MidiRegion::MidiRegion (const SourceList& srcs)
: Region (srcs)
, _start_beats (Properties::start_beats, 0)
, _length_beats (Properties::length_beats, midi_source(0)->length_beats())
{
register_properties ();
midi_source(0)->ModelChanged.connect_same_thread (_source_connection, boost::bind (&MidiRegion::model_changed, this));
model_changed ();
assert(_name.val().find("/") == string::npos);
assert(_type == DataType::MIDI);
}
MidiRegion::MidiRegion (boost::shared_ptr<const MidiRegion> other)
: Region (other)
, _start_beats (Properties::start_beats, other->_start_beats)
, _length_beats (Properties::length_beats, (Evoral::MusicalTime) 0)
{
update_length_beats ();
register_properties ();
assert(_name.val().find("/") == string::npos);
midi_source(0)->ModelChanged.connect_same_thread (_source_connection, boost::bind (&MidiRegion::model_changed, this));
model_changed ();
}
/** Create a new MidiRegion that is part of an existing one */
MidiRegion::MidiRegion (boost::shared_ptr<const MidiRegion> other, frameoffset_t offset)
: Region (other, offset)
, _start_beats (Properties::start_beats, (Evoral::MusicalTime) 0)
, _length_beats (Properties::length_beats, (Evoral::MusicalTime) 0)
{
BeatsFramesConverter bfc (_session.tempo_map(), _position);
Evoral::MusicalTime const offset_beats = bfc.from (offset);
_start_beats = other->_start_beats + offset_beats;
_length_beats = other->_length_beats - offset_beats;
register_properties ();
assert(_name.val().find("/") == string::npos);
midi_source(0)->ModelChanged.connect_same_thread (_source_connection, boost::bind (&MidiRegion::model_changed, this));
model_changed ();
}
MidiRegion::~MidiRegion ()
{
}
/** Create a new MidiRegion that has its own version of some/all of the Source used by another.
*/
boost::shared_ptr<MidiRegion>
MidiRegion::clone () const
{
BeatsFramesConverter bfc (_session.tempo_map(), _position);
Evoral::MusicalTime const bbegin = bfc.from (_start);
Evoral::MusicalTime const bend = bfc.from (_start + _length);
boost::shared_ptr<MidiSource> ms = midi_source(0)->clone (bbegin, bend);
PropertyList plist;
plist.add (Properties::name, ms->name());
plist.add (Properties::whole_file, true);
plist.add (Properties::start, _start);
plist.add (Properties::start_beats, _start_beats);
plist.add (Properties::length, _length);
plist.add (Properties::length_beats, _length_beats);
plist.add (Properties::layer, 0);
return boost::dynamic_pointer_cast<MidiRegion> (RegionFactory::create (ms, plist, true));
}
void
MidiRegion::post_set (const PropertyChange& pc)
{
Region::post_set (pc);
if (pc.contains (Properties::length) && !pc.contains (Properties::length_beats)) {
update_length_beats ();
} else if (pc.contains (Properties::start) && !pc.contains (Properties::start_beats)) {
set_start_beats_from_start_frames ();
}
}
void
MidiRegion::set_start_beats_from_start_frames ()
{
BeatsFramesConverter c (_session.tempo_map(), _position - _start);
_start_beats = c.from (_start);
}
void
MidiRegion::set_length_internal (framecnt_t len)
{
Region::set_length_internal (len);
update_length_beats ();
}
void
MidiRegion::update_after_tempo_map_change ()
{
Region::update_after_tempo_map_change ();
/* _position has now been updated for the new tempo map */
_start = _position - _session.tempo_map().framepos_minus_beats (_position, _start_beats);
send_change (Properties::start);
}
void
MidiRegion::update_length_beats ()
{
BeatsFramesConverter converter (_session.tempo_map(), _position);
_length_beats = converter.from (_length);
}
void
MidiRegion::set_position_internal (framepos_t pos, bool allow_bbt_recompute)
{
Region::set_position_internal (pos, allow_bbt_recompute);
/* zero length regions don't exist - so if _length_beats is zero, this object
is under construction.
*/
if (_length_beats) {
/* leave _length_beats alone, and change _length to reflect the state of things
at the new position (tempo map may dictate a different number of frames
*/
BeatsFramesConverter converter (_session.tempo_map(), _position);
Region::set_length_internal (converter.to (_length_beats));
}
}
framecnt_t
MidiRegion::read_at (Evoral::EventSink<framepos_t>& out, framepos_t position, framecnt_t dur, uint32_t chan_n, NoteMode mode, MidiStateTracker* tracker) const
{
return _read_at (_sources, out, position, dur, chan_n, mode, tracker);
}
framecnt_t
MidiRegion::master_read_at (MidiRingBuffer<framepos_t>& out, framepos_t position, framecnt_t dur, uint32_t chan_n, NoteMode mode) const
{
return _read_at (_master_sources, out, position, dur, chan_n, mode); /* no tracker */
}
framecnt_t
MidiRegion::_read_at (const SourceList& /*srcs*/, Evoral::EventSink<framepos_t>& dst, framepos_t position, framecnt_t dur, uint32_t chan_n,
NoteMode mode, MidiStateTracker* tracker) const
{
frameoffset_t internal_offset = 0;
framecnt_t to_read = 0;
/* precondition: caller has verified that we cover the desired section */
assert(chan_n == 0);
if (muted()) {
return 0; /* read nothing */
}
if (position < _position) {
/* we are starting the read from before the start of the region */
internal_offset = 0;
dur -= _position - position;
} else {
/* we are starting the read from after the start of the region */
internal_offset = position - _position;
}
if (internal_offset >= _length) {
return 0; /* read nothing */
}
if ((to_read = min (dur, _length - internal_offset)) == 0) {
return 0; /* read nothing */
}
boost::shared_ptr<MidiSource> src = midi_source(chan_n);
src->set_note_mode(mode);
/*
cerr << "MR " << name () << " read @ " << position << " * " << to_read
<< " _position = " << _position
<< " _start = " << _start
<< " intoffset = " << internal_offset
<< endl;
*/
/* This call reads events from a source and writes them to `dst' timed in session frames */
if (src->midi_read (
dst, // destination buffer
_position - _start, // start position of the source in session frames
_start + internal_offset, // where to start reading in the source
to_read, // read duration in frames
tracker,
_filtered_parameters
) != to_read) {
return 0; /* "read nothing" */
}
return to_read;
}
XMLNode&
MidiRegion::state ()
{
return Region::state ();
}
int
MidiRegion::set_state (const XMLNode& node, int version)
{
int ret = Region::set_state (node, version);
if (ret == 0) {
update_length_beats ();
}
return ret;
}
void
MidiRegion::recompute_at_end ()
{
/* our length has changed
* so what? stuck notes are dealt with via a note state tracker
*/
}
void
MidiRegion::recompute_at_start ()
{
/* as above, but the shift was from the front
* maybe bump currently active note's note-ons up so they sound here?
* that could be undesireable in certain situations though.. maybe
* remove the note entirely, including it's note off? something needs to
* be done to keep the played MIDI sane to avoid messing up voices of
* polyhonic things etc........
*/
}
int
MidiRegion::separate_by_channel (ARDOUR::Session&, vector< boost::shared_ptr<Region> >&) const
{
// TODO
return -1;
}
boost::shared_ptr<Evoral::Control>
MidiRegion::control (const Evoral::Parameter& id, bool create)
{
return model()->control(id, create);
}
boost::shared_ptr<const Evoral::Control>
MidiRegion::control (const Evoral::Parameter& id) const
{
return model()->control(id);
}
boost::shared_ptr<MidiModel>
MidiRegion::model()
{
return midi_source()->model();
}
boost::shared_ptr<const MidiModel>
MidiRegion::model() const
{
return midi_source()->model();
}
boost::shared_ptr<MidiSource>
MidiRegion::midi_source (uint32_t n) const
{
// Guaranteed to succeed (use a static cast?)
return boost::dynamic_pointer_cast<MidiSource>(source(n));
}
void
MidiRegion::model_changed ()
{
if (!model()) {
return;
}
/* build list of filtered Parameters, being those whose automation state is not `Play' */
_filtered_parameters.clear ();
Automatable::Controls const & c = model()->controls();
for (Automatable::Controls::const_iterator i = c.begin(); i != c.end(); ++i) {
boost::shared_ptr<AutomationControl> ac = boost::dynamic_pointer_cast<AutomationControl> (i->second);
assert (ac);
if (ac->alist()->automation_state() != Play) {
_filtered_parameters.insert (ac->parameter ());
}
}
/* watch for changes to controls' AutoState */
midi_source()->AutomationStateChanged.connect_same_thread (
_model_connection, boost::bind (&MidiRegion::model_automation_state_changed, this, _1)
);
model()->ContentsChanged.connect_same_thread (
_model_contents_connection, boost::bind (&MidiRegion::model_contents_changed, this));
}
void
MidiRegion::model_contents_changed ()
{
send_change (PropertyChange (Properties::midi_data));
}
void
MidiRegion::model_automation_state_changed (Evoral::Parameter const & p)
{
/* Update our filtered parameters list after a change to a parameter's AutoState */
boost::shared_ptr<AutomationControl> ac = model()->automation_control (p);
assert (ac);
if (ac->alist()->automation_state() == Play) {
_filtered_parameters.erase (p);
} else {
_filtered_parameters.insert (p);
}
/* the source will have an iterator into the model, and that iterator will have been set up
for a given set of filtered_parameters, so now that we've changed that list we must invalidate
the iterator.
*/
Glib::Mutex::Lock lm (midi_source(0)->mutex());
midi_source(0)->invalidate ();
}
/** This is called when a trim drag has resulted in a -ve _start time for this region.
* Fix it up by adding some empty space to the source.
*/
void
MidiRegion::fix_negative_start ()
{
BeatsFramesConverter c (_session.tempo_map(), _position);
model()->insert_silence_at_start (c.from (-_start));
_start = 0;
}
/** Transpose the notes in this region by a given number of semitones */
void
MidiRegion::transpose (int semitones)
{
BeatsFramesConverter c (_session.tempo_map(), _start);
model()->transpose (c.from (_start), c.from (_start + _length), semitones);
}