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/*
* Copyright (C) 2007-2016 David Robillard <d@drobilla.net>
* Copyright (C) 2008-2012 Hans Baier <hansfbaier@googlemail.com>
* Copyright (C) 2008-2017 Paul Davis <paul@linuxaudiosystems.com>
* Copyright (C) 2009-2011 Carl Hetherington <carl@carlh.net>
* Copyright (C) 2014-2016 Robin Gareus <robin@gareus.org>
* Copyright (C) 2015-2017 Nick Mainsbridge <mainsbridge@gmail.com>
* Copyright (C) 2015 André Nusser <andre.nusser@googlemail.com>
* Copyright (C) 2016 Julien "_FrnchFrgg_" RIVAUD <frnchfrgg@free.fr>
*
* 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.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <algorithm>
#include <iostream>
#include <set>
#include <stdexcept>
#include <stdint.h>
#include "pbd/compose.h"
#include "pbd/enumwriter.h"
#include "pbd/error.h"
#include "evoral/Control.h"
#include "midi++/events.h"
#include "ardour/automation_control.h"
#include "ardour/evoral_types_convert.h"
#include "ardour/midi_automation_list_binder.h"
#include "ardour/midi_model.h"
#include "ardour/midi_source.h"
#include "ardour/midi_state_tracker.h"
#include "ardour/session.h"
#include "ardour/types.h"
#include "pbd/i18n.h"
namespace PBD {
DEFINE_ENUM_CONVERT(ARDOUR::MidiModel::NoteDiffCommand::Property);
DEFINE_ENUM_CONVERT(ARDOUR::MidiModel::SysExDiffCommand::Property);
DEFINE_ENUM_CONVERT(ARDOUR::MidiModel::PatchChangeDiffCommand::Property);
}
using namespace std;
using namespace ARDOUR;
using namespace PBD;
MidiModel::MidiModel (MidiSource& s)
: AutomatableSequence<TimeType> (s.session(), Temporal::TimeDomainProvider (Temporal::BeatTime))
, _midi_source (s)
{
_midi_source.InterpolationChanged.connect_same_thread (_midi_source_connections, boost::bind (&MidiModel::source_interpolation_changed, this, _1, _2));
_midi_source.AutomationStateChanged.connect_same_thread (_midi_source_connections, boost::bind (&MidiModel::source_automation_state_changed, this, _1, _2));
}
MidiModel::NoteDiffCommand*
MidiModel::new_note_diff_command (const string& name)
{
/* return via the MidiSource to get a shared_ptr to
* ourselves. Probably faster than shared_from_this()
*/
return new NoteDiffCommand (_midi_source.model(), name);
}
MidiModel::SysExDiffCommand*
MidiModel::new_sysex_diff_command (const string& name)
{
/* return via the MidiSource to get a shared_ptr to
* ourselves. Probably faster than shared_from_this()
*/
return new SysExDiffCommand (_midi_source.model(), name);
}
MidiModel::PatchChangeDiffCommand*
MidiModel::new_patch_change_diff_command (const string& name)
{
return new PatchChangeDiffCommand (_midi_source.model(), name);
}
void
MidiModel::apply_diff_command_as_commit(Session& session, Command* cmd)
{
session.begin_reversible_command (cmd->name());
(*cmd)();
session.commit_reversible_command (cmd);
set_edited (true);
}
void
MidiModel::apply_diff_command_as_subcommand(Session& session, Command* cmd)
{
(*cmd)();
session.add_command (cmd);
set_edited (true);
}
void
MidiModel::apply_diff_command_only(Session& session, Command* cmd)
{
(*cmd)();
set_edited (true);
}
/* ************* DIFF COMMAND ********************/
#define NOTE_DIFF_COMMAND_ELEMENT "NoteDiffCommand"
#define DIFF_NOTES_ELEMENT "ChangedNotes"
#define ADDED_NOTES_ELEMENT "AddedNotes"
#define REMOVED_NOTES_ELEMENT "RemovedNotes"
#define SIDE_EFFECT_REMOVALS_ELEMENT "SideEffectRemovals"
#define SYSEX_DIFF_COMMAND_ELEMENT "SysExDiffCommand"
#define DIFF_SYSEXES_ELEMENT "ChangedSysExes"
#define PATCH_CHANGE_DIFF_COMMAND_ELEMENT "PatchChangeDiffCommand"
#define ADDED_PATCH_CHANGES_ELEMENT "AddedPatchChanges"
#define REMOVED_PATCH_CHANGES_ELEMENT "RemovedPatchChanges"
#define DIFF_PATCH_CHANGES_ELEMENT "ChangedPatchChanges"
MidiModel::DiffCommand::DiffCommand(std::shared_ptr<MidiModel> m, const std::string& name)
: Command (name)
, _model (m)
, _name (name)
{
assert(_model);
}
MidiModel::NoteDiffCommand::NoteDiffCommand (std::shared_ptr<MidiModel> m, const XMLNode& node)
: DiffCommand (m, "")
{
assert (_model);
set_state (node, Stateful::loading_state_version);
}
void
MidiModel::NoteDiffCommand::add (const NotePtr note)
{
_removed_notes.remove(note);
_added_notes.push_back(note);
}
void
MidiModel::NoteDiffCommand::remove (const NotePtr note)
{
_added_notes.remove(note);
_removed_notes.push_back(note);
}
void
MidiModel::NoteDiffCommand::side_effect_remove (const NotePtr note)
{
side_effect_removals.insert (note);
}
Variant
MidiModel::NoteDiffCommand::get_value (const NotePtr note, Property prop)
{
switch (prop) {
case NoteNumber:
return Variant(note->note());
case Velocity:
return Variant(note->velocity());
case Channel:
return Variant(note->channel());
case StartTime:
return Variant(note->time());
case Length:
return Variant(note->length());
}
return Variant();
}
Variant::Type
MidiModel::NoteDiffCommand::value_type(Property prop)
{
switch (prop) {
case NoteNumber:
case Velocity:
case Channel:
return Variant::INT;
case StartTime:
case Length:
return Variant::BEATS;
}
return Variant::NOTHING;
}
void
MidiModel::NoteDiffCommand::change (const NotePtr note,
Property prop,
const Variant& new_value)
{
assert (note);
const NoteChange change = {
prop, note, 0, get_value(note, prop), new_value
};
if (change.old_value == new_value) {
return;
}
_changes.push_back (change);
}
MidiModel::NoteDiffCommand &
MidiModel::NoteDiffCommand::operator+= (const NoteDiffCommand& other)
{
if (this == &other) {
return *this;
}
if (_model != other._model) {
return *this;
}
_added_notes.insert (_added_notes.end(), other._added_notes.begin(), other._added_notes.end());
_removed_notes.insert (_removed_notes.end(), other._removed_notes.begin(), other._removed_notes.end());
side_effect_removals.insert (other.side_effect_removals.begin(), other.side_effect_removals.end());
_changes.insert (_changes.end(), other._changes.begin(), other._changes.end());
return *this;
}
void
MidiModel::NoteDiffCommand::operator() ()
{
{
MidiModel::WriteLock lock(_model->edit_lock());
for (NoteList::iterator i = _added_notes.begin(); i != _added_notes.end(); ++i) {
if (!_model->add_note_unlocked(*i)) {
/* failed to add it, so don't leave it in the removed list, to
avoid apparent errors on undo.
*/
_removed_notes.remove (*i);
}
}
for (NoteList::iterator i = _removed_notes.begin(); i != _removed_notes.end(); ++i) {
_model->remove_note_unlocked(*i);
}
/* notes we modify in a way that requires remove-then-add to maintain ordering */
set<NotePtr> temporary_removals;
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
Property prop = i->property;
if (!i->note) {
/* note found during deserialization, so try
again now that the model state is different.
*/
i->note = _model->find_note (i->note_id);
assert (i->note);
}
switch (prop) {
case NoteNumber:
if (temporary_removals.find (i->note) == temporary_removals.end()) {
_model->remove_note_unlocked (i->note);
temporary_removals.insert (i->note);
}
i->note->set_note (i->new_value.get_int());
break;
case StartTime:
if (temporary_removals.find (i->note) == temporary_removals.end()) {
_model->remove_note_unlocked (i->note);
temporary_removals.insert (i->note);
}
i->note->set_time (i->new_value.get_beats());
break;
case Channel:
if (temporary_removals.find (i->note) == temporary_removals.end()) {
_model->remove_note_unlocked (i->note);
temporary_removals.insert (i->note);
}
i->note->set_channel (i->new_value.get_int());
break;
/* no remove-then-add required for these properties, since we do not index them
*/
case Velocity:
i->note->set_velocity (i->new_value.get_int());
break;
case Length:
i->note->set_length (i->new_value.get_beats());
break;
}
}
for (set<NotePtr>::iterator i = temporary_removals.begin(); i != temporary_removals.end(); ++i) {
NoteDiffCommand side_effects (model(), "side effects");
if (_model->add_note_unlocked (*i, &side_effects)) {
/* The note was re-added ok */
*this += side_effects;
} else {
/* The note that we removed earlier could not be re-added. This change record
must say that the note was removed. We'll keep the changes we made, though,
as if the note is re-added by the undo the changes must also be undone.
*/
_removed_notes.push_back (*i);
}
}
if (!side_effect_removals.empty()) {
cerr << "SER: \n";
for (set<NotePtr>::iterator i = side_effect_removals.begin(); i != side_effect_removals.end(); ++i) {
cerr << "\t" << *i << ' ' << **i << endl;
}
}
}
_model->ContentsChanged(); /* EMIT SIGNAL */
}
void
MidiModel::NoteDiffCommand::undo ()
{
{
MidiModel::WriteLock lock(_model->edit_lock());
for (NoteList::iterator i = _added_notes.begin(); i != _added_notes.end(); ++i) {
_model->remove_note_unlocked(*i);
}
/* Apply changes first; this is important in the case of a note change which
resulted in the note being removed by the overlap checker. If the overlap
checker removes a note, it will be in _removed_notes. We are going to re-add
it below, but first we must undo the changes we made so that the overlap
checker doesn't refuse the re-add.
*/
/* notes we modify in a way that requires remove-then-add to maintain ordering */
set<NotePtr> temporary_removals;
/* lazily discover any affected notes that were not discovered when
* loading the history because of deletions, etc.
*/
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
if (!i->note) {
i->note = _model->find_note (i->note_id);
assert (i->note);
}
}
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
Property prop = i->property;
switch (prop) {
case NoteNumber:
if (temporary_removals.find (i->note) == temporary_removals.end() &&
find (_removed_notes.begin(), _removed_notes.end(), i->note) == _removed_notes.end()) {
/* We only need to mark this note for re-add if (a) we haven't
already marked it and (b) it isn't on the _removed_notes
list (which means that it has already been removed and it
will be re-added anyway)
*/
_model->remove_note_unlocked (i->note);
temporary_removals.insert (i->note);
}
i->note->set_note (i->old_value.get_int());
break;
case StartTime:
if (temporary_removals.find (i->note) == temporary_removals.end() &&
find (_removed_notes.begin(), _removed_notes.end(), i->note) == _removed_notes.end()) {
/* See above ... */
_model->remove_note_unlocked (i->note);
temporary_removals.insert (i->note);
}
i->note->set_time (i->old_value.get_beats());
break;
case Channel:
if (temporary_removals.find (i->note) == temporary_removals.end() &&
find (_removed_notes.begin(), _removed_notes.end(), i->note) == _removed_notes.end()) {
/* See above ... */
_model->remove_note_unlocked (i->note);
temporary_removals.insert (i->note);
}
i->note->set_channel (i->old_value.get_int());
break;
/* no remove-then-add required for these properties, since we do not index them
*/
case Velocity:
i->note->set_velocity (i->old_value.get_int());
break;
case Length:
i->note->set_length (i->old_value.get_beats());
break;
}
}
for (NoteList::iterator i = _removed_notes.begin(); i != _removed_notes.end(); ++i) {
_model->add_note_unlocked(*i);
}
for (set<NotePtr>::iterator i = temporary_removals.begin(); i != temporary_removals.end(); ++i) {
_model->add_note_unlocked (*i);
}
/* finally add back notes that were removed by the "do". we don't care
about side effects here since the model should be back to its original
state once this is done.
*/
for (set<NotePtr>::iterator i = side_effect_removals.begin(); i != side_effect_removals.end(); ++i) {
_model->add_note_unlocked (*i);
}
}
_model->ContentsChanged(); /* EMIT SIGNAL */
}
XMLNode&
MidiModel::NoteDiffCommand::marshal_note(const NotePtr note) const
{
XMLNode* xml_note = new XMLNode("note");
xml_note->set_property ("id", note->id ());
xml_note->set_property ("note", note->note ());
xml_note->set_property ("channel", note->channel ());
xml_note->set_property ("time", note->time ());
xml_note->set_property ("length", note->length ());
xml_note->set_property ("velocity", note->velocity ());
return *xml_note;
}
Evoral::Sequence<MidiModel::TimeType>::NotePtr
MidiModel::NoteDiffCommand::unmarshal_note (XMLNode *xml_note)
{
Evoral::event_id_t id = -1;
if (!xml_note->get_property ("id", id)) {
error << "note information missing ID value" << endmsg;
}
uint8_t note = 127;
if (!xml_note->get_property("note", note)) {
warning << "note information missing note value" << endmsg;
}
uint8_t channel = 0;
if (!xml_note->get_property("channel", channel)) {
warning << "note information missing channel" << endmsg;
}
MidiModel::TimeType time = MidiModel::TimeType();
if (!xml_note->get_property("time", time)) {
warning << "note information missing time" << endmsg;
}
MidiModel::TimeType length = MidiModel::TimeType();
if (!xml_note->get_property("length", length)) {
warning << "note information missing length" << endmsg;
}
uint8_t velocity = 127;
if (!xml_note->get_property("velocity", velocity)) {
warning << "note information missing velocity" << endmsg;
}
NotePtr note_ptr(new Evoral::Note<TimeType>(channel, time, length, note, velocity));
note_ptr->set_id (id);
return note_ptr;
}
XMLNode&
MidiModel::NoteDiffCommand::marshal_change (const NoteChange& change) const
{
XMLNode* xml_change = new XMLNode("Change");
/* first, the change itself */
xml_change->set_property ("property", change.property);
if (change.property == StartTime || change.property == Length) {
xml_change->set_property ("old", change.old_value.get_beats ());
} else {
xml_change->set_property ("old", change.old_value.get_int ());
}
if (change.property == StartTime || change.property == Length) {
xml_change->set_property ("new", change.new_value.get_beats ());
} else {
xml_change->set_property ("new", change.new_value.get_int ());
}
if (change.note) {
xml_change->set_property ("id", change.note->id());
} else if (change.note_id) {
warning << _("Change has no note, using note ID") << endmsg;
xml_change->set_property ("id", change.note_id);
} else {
error << _("Change has no note or note ID") << endmsg;
}
return *xml_change;
}
MidiModel::NoteDiffCommand::NoteChange
MidiModel::NoteDiffCommand::unmarshal_change (XMLNode *xml_change)
{
NoteChange change;
change.note_id = 0;
if (!xml_change->get_property("property", change.property)) {
fatal << "!!!" << endmsg;
abort(); /*NOTREACHED*/
}
int note_id;
if (!xml_change->get_property ("id", note_id)) {
error << _("No NoteID found for note property change - ignored") << endmsg;
return change;
}
int old_val;
Temporal::Beats old_time;
if ((change.property == StartTime || change.property == Length) &&
xml_change->get_property ("old", old_time)) {
change.old_value = old_time;
} else if (xml_change->get_property ("old", old_val)) {
change.old_value = old_val;
} else {
fatal << "!!!" << endmsg;
abort(); /*NOTREACHED*/
}
int new_val;
Temporal::Beats new_time;
if ((change.property == StartTime || change.property == Length) &&
xml_change->get_property ("new", new_time)) {
change.new_value = new_time;
} else if (xml_change->get_property ("new", new_val)) {
change.new_value = new_val;
} else {
fatal << "!!!" << endmsg;
abort(); /*NOTREACHED*/
}
/* we must point at the instance of the note that is actually in the model.
so go look for it ... it may not be there (it could have been
deleted in a later operation, so store the note id so that we can
look it up again later).
*/
change.note = _model->find_note (note_id);
change.note_id = note_id;
return change;
}
int
MidiModel::NoteDiffCommand::set_state (const XMLNode& diff_command, int /*version*/)
{
if (diff_command.name() != string (NOTE_DIFF_COMMAND_ELEMENT)) {
return 1;
}
/* additions */
_added_notes.clear();
XMLNode* added_notes = diff_command.child(ADDED_NOTES_ELEMENT);
if (added_notes) {
XMLNodeList notes = added_notes->children();
transform(notes.begin(), notes.end(), back_inserter(_added_notes),
boost::bind (&NoteDiffCommand::unmarshal_note, this, _1));
}
/* removals */
_removed_notes.clear();
XMLNode* removed_notes = diff_command.child(REMOVED_NOTES_ELEMENT);
if (removed_notes) {
XMLNodeList notes = removed_notes->children();
transform(notes.begin(), notes.end(), back_inserter(_removed_notes),
boost::bind (&NoteDiffCommand::unmarshal_note, this, _1));
}
/* changes */
_changes.clear();
XMLNode* changed_notes = diff_command.child(DIFF_NOTES_ELEMENT);
if (changed_notes) {
XMLNodeList notes = changed_notes->children();
transform (notes.begin(), notes.end(), back_inserter(_changes),
boost::bind (&NoteDiffCommand::unmarshal_change, this, _1));
}
/* side effect removals caused by changes */
side_effect_removals.clear();
XMLNode* side_effect_notes = diff_command.child(SIDE_EFFECT_REMOVALS_ELEMENT);
if (side_effect_notes) {
XMLNodeList notes = side_effect_notes->children();
for (XMLNodeList::iterator n = notes.begin(); n != notes.end(); ++n) {
side_effect_removals.insert (unmarshal_note (*n));
}
}
return 0;
}
XMLNode&
MidiModel::NoteDiffCommand::get_state () const
{
XMLNode* diff_command = new XMLNode (NOTE_DIFF_COMMAND_ELEMENT);
diff_command->set_property("midi-source", _model->midi_source().id().to_s());
XMLNode* changes = diff_command->add_child(DIFF_NOTES_ELEMENT);
for_each(_changes.cbegin(), _changes.cend(),
boost::bind (
boost::bind (&XMLNode::add_child_nocopy, changes, _1),
boost::bind (&NoteDiffCommand::marshal_change, this, _1)));
XMLNode* added_notes = diff_command->add_child(ADDED_NOTES_ELEMENT);
for_each(_added_notes.cbegin(), _added_notes.cend(),
boost::bind(
boost::bind (&XMLNode::add_child_nocopy, added_notes, _1),
boost::bind (&NoteDiffCommand::marshal_note, this, _1)));
XMLNode* removed_notes = diff_command->add_child(REMOVED_NOTES_ELEMENT);
for_each(_removed_notes.cbegin(), _removed_notes.cend(),
boost::bind (
boost::bind (&XMLNode::add_child_nocopy, removed_notes, _1),
boost::bind (&NoteDiffCommand::marshal_note, this, _1)));
/* if this command had side-effects, store that state too
*/
if (!side_effect_removals.empty()) {
XMLNode* side_effect_notes = diff_command->add_child(SIDE_EFFECT_REMOVALS_ELEMENT);
for_each(side_effect_removals.begin(), side_effect_removals.end(),
boost::bind (
boost::bind (&XMLNode::add_child_nocopy, side_effect_notes, _1),
boost::bind (&NoteDiffCommand::marshal_note, this, _1)));
}
return *diff_command;
}
MidiModel::SysExDiffCommand::SysExDiffCommand (std::shared_ptr<MidiModel> m, const XMLNode& node)
: DiffCommand (m, "")
{
assert (_model);
set_state (node, Stateful::loading_state_version);
}
void
MidiModel::SysExDiffCommand::change (std::shared_ptr<Evoral::Event<TimeType> > s, TimeType new_time)
{
Change change;
change.sysex = s;
change.property = Time;
change.old_time = s->time ();
change.new_time = new_time;
_changes.push_back (change);
}
void
MidiModel::SysExDiffCommand::operator() ()
{
{
MidiModel::WriteLock lock (_model->edit_lock ());
for (list<SysExPtr>::iterator i = _removed.begin(); i != _removed.end(); ++i) {
_model->remove_sysex_unlocked (*i);
}
/* find any sysex events that were missing when unmarshalling */
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
if (!i->sysex) {
i->sysex = _model->find_sysex (i->sysex_id);
assert (i->sysex);
}
}
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
switch (i->property) {
case Time:
i->sysex->set_time (i->new_time);
}
}
}
_model->ContentsChanged (); /* EMIT SIGNAL */
}
void
MidiModel::SysExDiffCommand::undo ()
{
{
MidiModel::WriteLock lock (_model->edit_lock ());
for (list<SysExPtr>::iterator i = _removed.begin(); i != _removed.end(); ++i) {
_model->add_sysex_unlocked (*i);
}
/* find any sysex events that were missing when unmarshalling */
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
if (!i->sysex) {
i->sysex = _model->find_sysex (i->sysex_id);
assert (i->sysex);
}
}
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
switch (i->property) {
case Time:
i->sysex->set_time (i->old_time);
break;
}
}
}
_model->ContentsChanged(); /* EMIT SIGNAL */
}
void
MidiModel::SysExDiffCommand::remove (SysExPtr sysex)
{
_removed.push_back(sysex);
}
XMLNode&
MidiModel::SysExDiffCommand::marshal_change (const Change& change) const
{
XMLNode* xml_change = new XMLNode ("Change");
/* first, the change itself */
xml_change->set_property ("property", change.property);
xml_change->set_property ("old", change.old_time);
xml_change->set_property ("new", change.new_time);
xml_change->set_property ("id", change.sysex->id());
return *xml_change;
}
MidiModel::SysExDiffCommand::Change
MidiModel::SysExDiffCommand::unmarshal_change (XMLNode *xml_change)
{
Change change;
if (!xml_change->get_property ("property", change.property)) {
fatal << "!!!" << endmsg;
abort(); /*NOTREACHED*/
}
int sysex_id;
if (!xml_change->get_property ("id", sysex_id)) {
error << _("No SysExID found for sys-ex property change - ignored") << endmsg;
return change;
}
if (!xml_change->get_property ("old", change.old_time)) {
fatal << "!!!" << endmsg;
abort(); /*NOTREACHED*/
}
if (!xml_change->get_property ("new", change.new_time)) {
fatal << "!!!" << endmsg;
abort(); /*NOTREACHED*/
}
/* we must point at the instance of the sysex that is actually in the model.
so go look for it ...
*/
change.sysex = _model->find_sysex (sysex_id);
change.sysex_id = sysex_id;
return change;
}
int
MidiModel::SysExDiffCommand::set_state (const XMLNode& diff_command, int /*version*/)
{
if (diff_command.name() != string (SYSEX_DIFF_COMMAND_ELEMENT)) {
return 1;
}
/* changes */
_changes.clear();
XMLNode* changed_sysexes = diff_command.child (DIFF_SYSEXES_ELEMENT);
if (changed_sysexes) {
XMLNodeList sysexes = changed_sysexes->children();
transform (sysexes.begin(), sysexes.end(), back_inserter (_changes),
boost::bind (&SysExDiffCommand::unmarshal_change, this, _1));
}
return 0;
}
XMLNode&
MidiModel::SysExDiffCommand::get_state () const
{
XMLNode* diff_command = new XMLNode (SYSEX_DIFF_COMMAND_ELEMENT);
diff_command->set_property ("midi-source", _model->midi_source().id().to_s());
XMLNode* changes = diff_command->add_child(DIFF_SYSEXES_ELEMENT);
for_each (_changes.begin(), _changes.end(),
boost::bind (
boost::bind (&XMLNode::add_child_nocopy, changes, _1),
boost::bind (&SysExDiffCommand::marshal_change, this, _1)));
return *diff_command;
}
MidiModel::PatchChangeDiffCommand::PatchChangeDiffCommand (std::shared_ptr<MidiModel> m, const string& name)
: DiffCommand (m, name)
{
assert (_model);
}
MidiModel::PatchChangeDiffCommand::PatchChangeDiffCommand (std::shared_ptr<MidiModel> m, const XMLNode & node)
: DiffCommand (m, "")
{
assert (_model);
set_state (node, Stateful::loading_state_version);
}
void
MidiModel::PatchChangeDiffCommand::add (PatchChangePtr p)
{
_added.push_back (p);
}
void
MidiModel::PatchChangeDiffCommand::remove (PatchChangePtr p)
{
_removed.push_back (p);
}
void
MidiModel::PatchChangeDiffCommand::change_time (PatchChangePtr patch, TimeType t)
{
Change c;
c.property = Time;
c.patch = patch;
c.old_time = patch->time ();
c.new_time = t;
_changes.push_back (c);
}
void
MidiModel::PatchChangeDiffCommand::change_channel (PatchChangePtr patch, uint8_t channel)
{
Change c;
c.property = Channel;
c.patch = patch;
c.old_channel = patch->channel ();
c.new_channel = channel;
c.patch_id = patch->id();
_changes.push_back (c);
}
void
MidiModel::PatchChangeDiffCommand::change_program (PatchChangePtr patch, uint8_t program)
{
Change c;
c.property = Program;
c.patch = patch;
c.old_program = patch->program ();
c.new_program = program;
c.patch_id = patch->id();
_changes.push_back (c);
}
void
MidiModel::PatchChangeDiffCommand::change_bank (PatchChangePtr patch, int bank)
{
Change c;
c.property = Bank;
c.patch = patch;
c.old_bank = patch->bank ();
c.new_bank = bank;
_changes.push_back (c);
}
void
MidiModel::PatchChangeDiffCommand::operator() ()
{
{
MidiModel::WriteLock lock (_model->edit_lock ());
for (list<PatchChangePtr>::iterator i = _added.begin(); i != _added.end(); ++i) {
_model->add_patch_change_unlocked (*i);
}
for (list<PatchChangePtr>::iterator i = _removed.begin(); i != _removed.end(); ++i) {
_model->remove_patch_change_unlocked (*i);
}
/* find any patch change events that were missing when unmarshalling */
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
if (!i->patch) {
i->patch = _model->find_patch_change (i->patch_id);
assert (i->patch);
}
}
set<PatchChangePtr> temporary_removals;
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
switch (i->property) {
case Time:
if (temporary_removals.find (i->patch) == temporary_removals.end()) {
_model->remove_patch_change_unlocked (i->patch);
temporary_removals.insert (i->patch);
}
i->patch->set_time (i->new_time);
break;
case Channel:
i->patch->set_channel (i->new_channel);
break;
case Program:
i->patch->set_program (i->new_program);
break;
case Bank:
i->patch->set_bank (i->new_bank);
break;
}
}
for (set<PatchChangePtr>::iterator i = temporary_removals.begin(); i != temporary_removals.end(); ++i) {
_model->add_patch_change_unlocked (*i);
}
}
_model->ContentsChanged (); /* EMIT SIGNAL */
}
void
MidiModel::PatchChangeDiffCommand::undo ()
{
{
MidiModel::WriteLock lock (_model->edit_lock());
for (list<PatchChangePtr>::iterator i = _added.begin(); i != _added.end(); ++i) {
_model->remove_patch_change_unlocked (*i);
}
for (list<PatchChangePtr>::iterator i = _removed.begin(); i != _removed.end(); ++i) {
_model->add_patch_change_unlocked (*i);
}
/* find any patch change events that were missing when unmarshalling */
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
if (!i->patch) {
i->patch = _model->find_patch_change (i->patch_id);
assert (i->patch);
}
}
set<PatchChangePtr> temporary_removals;
for (ChangeList::iterator i = _changes.begin(); i != _changes.end(); ++i) {
switch (i->property) {
case Time:
if (temporary_removals.find (i->patch) == temporary_removals.end()) {
_model->remove_patch_change_unlocked (i->patch);
temporary_removals.insert (i->patch);
}
i->patch->set_time (i->old_time);
break;
case Channel:
i->patch->set_channel (i->old_channel);
break;
case Program:
i->patch->set_program (i->old_program);
break;
case Bank:
i->patch->set_bank (i->old_bank);
break;
}
}
for (set<PatchChangePtr>::iterator i = temporary_removals.begin(); i != temporary_removals.end(); ++i) {
_model->add_patch_change_unlocked (*i);
}
}
_model->ContentsChanged (); /* EMIT SIGNAL */
}
XMLNode &
MidiModel::PatchChangeDiffCommand::marshal_patch_change (constPatchChangePtr p) const
{
XMLNode* n = new XMLNode ("patch-change");
n->set_property ("id", p->id ());
n->set_property ("time", p->time ());
n->set_property ("channel", p->channel ());
n->set_property ("program", p->program ());
n->set_property ("bank", p->bank ());
return *n;
}
XMLNode&
MidiModel::PatchChangeDiffCommand::marshal_change (const Change& c) const
{
XMLNode* n = new XMLNode (X_("Change"));
n->set_property (X_("property"), c.property);
if (c.property == Time) {
n->set_property (X_("old"), c.old_time);
} else if (c.property == Channel) {
n->set_property (X_("old"), c.old_channel);
} else if (c.property == Program) {
n->set_property (X_("old"), c.old_program);
} else if (c.property == Bank) {
n->set_property (X_("old"), c.old_bank);
}
if (c.property == Time) {
n->set_property (X_ ("new"), c.new_time);
} else if (c.property == Channel) {
n->set_property (X_ ("new"), c.new_channel);
} else if (c.property == Program) {
n->set_property (X_ ("new"), c.new_program);
} else if (c.property == Bank) {
n->set_property (X_ ("new"), c.new_bank);
}
n->set_property ("id", c.patch->id ());
return *n;
}
MidiModel::PatchChangePtr
MidiModel::PatchChangeDiffCommand::unmarshal_patch_change (XMLNode* n)
{
Evoral::event_id_t id = 0;
if (!n->get_property ("id", id)) {
assert(false);
}
Temporal::Beats time = Temporal::Beats();
if (!n->get_property ("time", time)) {
// warning??
}
uint8_t channel = 0;
if (!n->get_property ("channel", channel)) {
// warning??
}
int program = 0;
if (!n->get_property ("program", program)) {
// warning??
}
int bank = 0;
if (!n->get_property ("bank", bank)) {
// warning??
}
PatchChangePtr p (new Evoral::PatchChange<TimeType> (time, channel, program, bank));
p->set_id (id);
return p;
}
MidiModel::PatchChangeDiffCommand::Change
MidiModel::PatchChangeDiffCommand::unmarshal_change (XMLNode* n)
{
Change c;
Evoral::event_id_t id;
if (!n->get_property ("property", c.property) || !n->get_property ("id", id)) {
assert(false);
}
if ((c.property == Time && !n->get_property ("old", c.old_time)) ||
(c.property == Channel && !n->get_property ("old", c.old_channel)) ||
(c.property == Program && !n->get_property ("old", c.old_program)) ||
(c.property == Bank && !n->get_property ("old", c.old_bank))) {
assert (false);
}
if ((c.property == Time && !n->get_property ("new", c.new_time)) ||
(c.property == Channel && !n->get_property ("new", c.new_channel)) ||
(c.property == Program && !n->get_property ("new", c.new_program)) ||
(c.property == Bank && !n->get_property ("new", c.new_bank))) {
assert (false);
}
c.patch = _model->find_patch_change (id);
c.patch_id = id;
return c;
}
int
MidiModel::PatchChangeDiffCommand::set_state (const XMLNode& diff_command, int /*version*/)
{
if (diff_command.name() != PATCH_CHANGE_DIFF_COMMAND_ELEMENT) {
return 1;
}
_added.clear ();
XMLNode* added = diff_command.child (ADDED_PATCH_CHANGES_ELEMENT);
if (added) {
XMLNodeList p = added->children ();
transform (p.begin(), p.end(), back_inserter (_added), boost::bind (&PatchChangeDiffCommand::unmarshal_patch_change, this, _1));
}
_removed.clear ();
XMLNode* removed = diff_command.child (REMOVED_PATCH_CHANGES_ELEMENT);
if (removed) {
XMLNodeList p = removed->children ();
transform (p.begin(), p.end(), back_inserter (_removed), boost::bind (&PatchChangeDiffCommand::unmarshal_patch_change, this, _1));
}
_changes.clear ();
XMLNode* changed = diff_command.child (DIFF_PATCH_CHANGES_ELEMENT);
if (changed) {
XMLNodeList p = changed->children ();
transform (p.begin(), p.end(), back_inserter (_changes), boost::bind (&PatchChangeDiffCommand::unmarshal_change, this, _1));
}
return 0;
}
XMLNode &
MidiModel::PatchChangeDiffCommand::get_state () const
{
XMLNode* diff_command = new XMLNode (PATCH_CHANGE_DIFF_COMMAND_ELEMENT);
diff_command->set_property("midi-source", _model->midi_source().id().to_s());
XMLNode* added = diff_command->add_child (ADDED_PATCH_CHANGES_ELEMENT);
for_each (_added.cbegin(), _added.cend(),
boost::bind (
boost::bind (&XMLNode::add_child_nocopy, added, _1),
boost::bind (&PatchChangeDiffCommand::marshal_patch_change, this, _1)
)
);
XMLNode* removed = diff_command->add_child (REMOVED_PATCH_CHANGES_ELEMENT);
for_each (_removed.cbegin(), _removed.cend(),
boost::bind (
boost::bind (&XMLNode::add_child_nocopy, removed, _1),
boost::bind (&PatchChangeDiffCommand::marshal_patch_change, this, _1)
)
);
XMLNode* changes = diff_command->add_child (DIFF_PATCH_CHANGES_ELEMENT);
for_each (_changes.cbegin(), _changes.cend(),
boost::bind (
boost::bind (&XMLNode::add_child_nocopy, changes, _1),
boost::bind (&PatchChangeDiffCommand::marshal_change, this, _1)
)
);
return *diff_command;
}
/** Write all of the model to a MidiSource (i.e. save the model).
* This is different from manually using read to write to a source in that
* note off events are written regardless of the track mode. This is so the
* user can switch a recorded track (with note durations from some instrument)
* to percussive, save, reload, then switch it back to sustained without
* destroying the original note durations.
*
* Similarly, control events are written without interpolation (as with the
* `Discrete' mode).
*/
bool
MidiModel::write_to (std::shared_ptr<MidiSource> source,
const Source::WriterLock& source_lock)
{
ReadLock lock (read_lock()); /* Sequence read-lock */
source->drop_model(source_lock);
/* as of March 2022 or long before , the note mode argument does nothing */
source->mark_streaming_midi_write_started (source_lock, Sustained);
for (Evoral::Sequence<TimeType>::const_iterator i = begin(TimeType(), true); i != end(); ++i) {
source->append_event_beats(source_lock, *i);
}
source->mark_streaming_write_completed(source_lock);
/* no call to set_edited() because writing to "newsrc" doesn't remove
* the need to write to "our own" source in ::sync_to_source()
*/
return true;
}
/** very similar to ::write_to() but writes to the model's own
existing midi_source, without making it call MidiSource::drop_model().
the caller is a MidiSource that needs to catch up with the state
of the model.
*/
bool
MidiModel::sync_to_source (const Source::WriterLock& source_lock)
{
ReadLock lock(read_lock());
/* Invalidate and store active notes, which will be picked up by the iterator
on the next roll if time progresses linearly. */
_midi_source.invalidate(source_lock);
/* as of March 2022 or long before , the note mode argument does nothing */
_midi_source.mark_streaming_midi_write_started (source_lock, Sustained);
for (Evoral::Sequence<TimeType>::const_iterator i = begin(TimeType(), true); i != end(); ++i) {
_midi_source.append_event_beats(source_lock, *i);
}
_midi_source.mark_streaming_write_completed (source_lock);
set_edited (false);
return true;
}
/** Write part or all of the model to a MidiSource (i.e. save the model).
* This is different from manually using read to write to a source in that
* note off events are written regardless of the track mode. This is so the
* user can switch a recorded track (with note durations from some instrument)
* to percussive, save, reload, then switch it back to sustained without
* destroying the original note durations.
*/
bool
MidiModel::write_section_to (std::shared_ptr<MidiSource> source,
const Source::WriterLock& source_lock,
TimeType begin_time,
TimeType end_time,
bool offset_events)
{
ReadLock lock(read_lock());
MidiNoteTracker mst;
source->drop_model(source_lock);
/* as of March 2022 or long before , the note mode argument does nothing */
source->mark_streaming_midi_write_started (source_lock, Sustained);
for (Evoral::Sequence<TimeType>::const_iterator i = begin(TimeType(), true); i != end(); ++i) {
if (i->time() >= begin_time && i->time() < end_time) {
Evoral::Event<TimeType> mev (*i, true); /* copy the event */
if (offset_events) {
mev.set_time(mev.time() - begin_time);
}
if (mev.is_note_off()) {
if (!mst.active (mev.note(), mev.channel())) {
/* the matching note-on was outside the
time range we were given, so just
ignore this note-off.
*/
continue;
}
source->append_event_beats (source_lock, mev);
mst.remove (mev.note(), mev.channel());
} else if (mev.is_note_on()) {
mst.add (mev.note(), mev.channel());
source->append_event_beats(source_lock, mev);
} else {
source->append_event_beats(source_lock, mev);
}
}
}
if (offset_events) {
end_time -= begin_time;
}
mst.resolve_notes (*source, source_lock, end_time);
source->mark_streaming_write_completed(source_lock);
set_edited(false);
return true;
}
XMLNode&
MidiModel::get_state() const
{
XMLNode *node = new XMLNode("MidiModel");
return *node;
}
Evoral::Sequence<MidiModel::TimeType>::NotePtr
MidiModel::find_note (NotePtr other)
{
Notes::iterator l = notes().lower_bound(other);
if (l != notes().end()) {
for (; (*l)->time() == other->time(); ++l) {
/* NB: compare note contents, not note pointers.
If "other" was a ptr to a note already in
the model, we wouldn't be looking for it,
would we now?
*/
if (**l == *other) {
return *l;
}
}
}
return NotePtr();
}
Evoral::Sequence<MidiModel::TimeType>::NotePtr
MidiModel::find_note (Evoral::event_id_t note_id)
{
/* used only for looking up notes when reloading history from disk,
so we don't care about performance *too* much.
*/
for (Notes::iterator l = notes().begin(); l != notes().end(); ++l) {
if ((*l)->id() == note_id) {
return *l;
}
}
return NotePtr();
}
MidiModel::PatchChangePtr
MidiModel::find_patch_change (Evoral::event_id_t id)
{
for (PatchChanges::iterator i = patch_changes().begin(); i != patch_changes().end(); ++i) {
if ((*i)->id() == id) {
return *i;
}
}
return PatchChangePtr ();
}
std::shared_ptr<Evoral::Event<MidiModel::TimeType> >
MidiModel::find_sysex (Evoral::event_id_t sysex_id)
{
/* used only for looking up notes when reloading history from disk,
so we don't care about performance *too* much.
*/
for (SysExes::iterator l = sysexes().begin(); l != sysexes().end(); ++l) {
if ((*l)->id() == sysex_id) {
return *l;
}
}
return std::shared_ptr<Evoral::Event<TimeType> > ();
}
/** Lock and invalidate the source.
* This should be used by commands and editing things
*/
MidiModel::WriteLock
MidiModel::edit_lock()
{
Source::WriterLock* source_lock = 0;
/* Take source lock and invalidate iterator to release its lock on model.
* Add currently active notes to _active_notes so we can restore them
* if playback resumes at the same point after the edit.
*/
source_lock = new Source::WriterLock (_midi_source.mutex());
_midi_source.invalidate(*source_lock);
return WriteLock (new WriteLockImpl (source_lock, _lock, _control_lock));
}
int
MidiModel::resolve_overlaps_unlocked (const NotePtr note, void* arg)
{
using namespace Evoral;
if (_writing || insert_merge_policy() == InsertMergeRelax) {
return 0;
}
NoteDiffCommand* cmd = static_cast<NoteDiffCommand*>(arg);
TimeType sa = note->time();
TimeType ea = note->end_time();
const Pitches& p (pitches (note->channel()));
NotePtr search_note(new Note<TimeType>(0, TimeType(), TimeType(), note->note()));
set<NotePtr> to_be_deleted;
bool set_note_length = false;
bool set_note_time = false;
TimeType note_time = note->time();
TimeType note_length = note->length();
DEBUG_TRACE (DEBUG::Sequence, string_compose ("%1 checking overlaps for note %2 @ %3\n", this, (int)note->note(), note->time()));
for (Pitches::const_iterator i = p.lower_bound (search_note);
i != p.end() && (*i)->note() == note->note(); ++i) {
TimeType sb = (*i)->time();
TimeType eb = (*i)->end_time();
Temporal::OverlapType overlap = Temporal::OverlapNone;
if ((sb > sa) && (eb <= ea)) {
overlap = Temporal::OverlapInternal;
} else if ((eb > sa) && (eb <= ea)) {
overlap = Temporal::OverlapStart;
} else if ((sb > sa) && (sb < ea)) {
overlap = Temporal::OverlapEnd;
} else if ((sa >= sb) && (sa <= eb) && (ea <= eb)) {
overlap = Temporal::OverlapExternal;
} else {
/* no overlap */
continue;
}
DEBUG_TRACE (DEBUG::Sequence, string_compose (
"\toverlap is %1 for (%2,%3) vs (%4,%5)\n",
enum_2_string(overlap), sa, ea, sb, eb));
if (insert_merge_policy() == InsertMergeReject) {
DEBUG_TRACE (DEBUG::Sequence, string_compose ("%1 just reject\n", this));
return -1;
}
switch (overlap) {
case Temporal::OverlapStart:
cerr << "OverlapStart\n";
/* existing note covers start of new note */
switch (insert_merge_policy()) {
case InsertMergeReplace:
to_be_deleted.insert (*i);
break;
case InsertMergeTruncateExisting:
if (cmd) {
cmd->change (*i, NoteDiffCommand::Length, (note->time() - (*i)->time()));
}
(*i)->set_length (note->time() - (*i)->time());
break;
case InsertMergeTruncateAddition:
set_note_time = true;
set_note_length = true;
note_time = (*i)->time() + (*i)->length();
note_length = min (note_length, (*i)->length() - ((*i)->end_time() - note->time()));
break;
case InsertMergeExtend:
if (cmd) {
cmd->change ((*i), NoteDiffCommand::Length, note->end_time() - (*i)->time());
}
(*i)->set_length (note->end_time() - (*i)->time());
return -1; /* do not add the new note */
break;
default:
abort(); /*NOTREACHED*/
/* stupid gcc */
break;
}
break;
case Temporal::OverlapEnd:
cerr << "OverlapEnd\n";
/* existing note covers end of new note */
switch (insert_merge_policy()) {
case InsertMergeReplace:
to_be_deleted.insert (*i);
break;
case InsertMergeTruncateExisting:
/* resetting the start time of the existing note
is a problem because of time ordering.
*/
break;
case InsertMergeTruncateAddition:
set_note_length = true;
note_length = min (note_length, ((*i)->time() - note->time()));
break;
case InsertMergeExtend:
/* we can't reset the time of the existing note because
that will corrupt time ordering. So remove the
existing note and change the position/length
of the new note (which has not been added yet)
*/
to_be_deleted.insert (*i);
set_note_length = true;
note_length = min (note_length, (*i)->end_time() - note->time());
break;
default:
abort(); /*NOTREACHED*/
/* stupid gcc */
break;
}
break;
case Temporal::OverlapExternal:
cerr << "OverlapExt\n";
/* existing note overlaps all the new note */
switch (insert_merge_policy()) {
case InsertMergeReplace:
to_be_deleted.insert (*i);
break;
case InsertMergeTruncateExisting:
case InsertMergeTruncateAddition:
case InsertMergeExtend:
/* cannot add in this case */
return -1;
default:
abort(); /*NOTREACHED*/
/* stupid gcc */
break;
}
break;
case Temporal::OverlapInternal:
cerr << "OverlapInt\n";
/* new note fully overlaps an existing note */
switch (insert_merge_policy()) {
case InsertMergeReplace:
case InsertMergeTruncateExisting:
case InsertMergeTruncateAddition:
case InsertMergeExtend:
/* delete the existing note, the new one will cover it */
to_be_deleted.insert (*i);
break;
default:
abort(); /*NOTREACHED*/
/* stupid gcc */
break;
}
break;
default:
abort(); /*NOTREACHED*/
/* stupid gcc */
break;
}
}
for (set<NotePtr>::iterator i = to_be_deleted.begin(); i != to_be_deleted.end(); ++i) {
remove_note_unlocked (*i);
if (cmd) {
cmd->side_effect_remove (*i);
}
}
if (set_note_time) {
if (cmd) {
cmd->change (note, NoteDiffCommand::StartTime, note_time);
}
note->set_time (note_time);
}
if (set_note_length) {
if (cmd) {
cmd->change (note, NoteDiffCommand::Length, note_length);
}
note->set_length (note_length);
}
return 0;
}
InsertMergePolicy
MidiModel::insert_merge_policy () const
{
/* XXX ultimately this should be a per-track or even per-model policy */
return _midi_source.session().config.get_insert_merge_policy ();
}
/** The source has signalled that the interpolation style for a parameter has changed. In order to
* keep MidiSource and ControlList interpolation state the same, we pass this change onto the
* appropriate ControlList.
*
* The idea is that MidiSource and the MidiModel's ControlList states are kept in sync, and one
* or the other is listened to by the GUI.
*/
void
MidiModel::source_interpolation_changed (Evoral::Parameter const& p, AutomationList::InterpolationStyle s)
{
{
Glib::Threads::Mutex::Lock lm (_control_lock);
control(p)->list()->set_interpolation (s);
}
/* re-read MIDI */
ContentsChanged (); /* EMIT SIGNAL */
}
/** A ControlList has signalled that its interpolation style has changed. Again, in order to keep
* MidiSource and ControlList interpolation state in sync, we pass this change onto our MidiSource.
*/
void
MidiModel::control_list_interpolation_changed (Evoral::Parameter const& p, AutomationList::InterpolationStyle s)
{
_midi_source.set_interpolation_of (p, s);
}
void
MidiModel::source_automation_state_changed (Evoral::Parameter const& p, AutoState s)
{
{
Glib::Threads::Mutex::Lock lm (_control_lock);
std::shared_ptr<AutomationList> al = std::dynamic_pointer_cast<AutomationList> (control(p)->list ());
al->set_automation_state (s);
}
/* re-read MIDI */
ContentsChanged (); /* EMIT SIGNAL */
}
void
MidiModel::automation_list_automation_state_changed (Evoral::Parameter const& p, AutoState s)
{
_midi_source.set_automation_state_of (p, s);
}
std::shared_ptr<Evoral::Control>
MidiModel::control_factory (Evoral::Parameter const & p)
{
std::shared_ptr<Evoral::Control> c = Automatable::control_factory (p);
/* Set up newly created control's lists to the appropriate interpolation and
automation state from our source.
*/
c->list()->set_interpolation (_midi_source.interpolation_of (p));
std::shared_ptr<AutomationList> al = std::dynamic_pointer_cast<AutomationList> (c->list ());
assert (al);
al->set_automation_state (_midi_source.automation_state_of (p));
return c;
}
/** Moves notes, patch changes, controllers and sys-ex to insert silence at the start of the model.
* Adds commands to the session's current undo stack to reflect the movements.
*/
void
MidiModel::insert_silence_at_start (TimeType t)
{
/* Notes */
if (!notes().empty ()) {
NoteDiffCommand* c = new_note_diff_command ("insert silence");
for (Notes::const_iterator i = notes().begin(); i != notes().end(); ++i) {
c->change (*i, NoteDiffCommand::StartTime, (*i)->time() + t);
}
apply_diff_command_as_subcommand (_midi_source.session(), c);
}
/* Patch changes */
if (!patch_changes().empty ()) {
PatchChangeDiffCommand* c = new_patch_change_diff_command ("insert silence");
for (PatchChanges::const_iterator i = patch_changes().begin(); i != patch_changes().end(); ++i) {
c->change_time (*i, (*i)->time() + t);
}
apply_diff_command_as_subcommand (_midi_source.session(), c);
}
/* Controllers */
for (Controls::iterator i = controls().begin(); i != controls().end(); ++i) {
std::shared_ptr<AutomationControl> ac = std::dynamic_pointer_cast<AutomationControl> (i->second);
XMLNode& before = ac->alist()->get_state ();
i->second->list()->shift (timepos_t::zero (i->second->list()->time_domain()), timecnt_t (t));
XMLNode& after = ac->alist()->get_state ();
_midi_source.session().add_command (new MementoCommand<AutomationList> (new MidiAutomationListBinder (_midi_source, i->first), &before, &after));
}
/* Sys-ex */
if (!sysexes().empty()) {
SysExDiffCommand* c = new_sysex_diff_command ("insert silence");
for (SysExes::iterator i = sysexes().begin(); i != sysexes().end(); ++i) {
c->change (*i, (*i)->time() + t);
}
apply_diff_command_as_subcommand (_midi_source.session(), c);
}
ContentsShifted (timecnt_t (t));
}
void
MidiModel::transpose (NoteDiffCommand* c, const NotePtr note_ptr, int semitones)
{
int new_note = note_ptr->note() + semitones;
if (new_note < 0) {
new_note = 0;
} else if (new_note > 127) {
new_note = 127;
}
c->change (note_ptr, NoteDiffCommand::NoteNumber, (uint8_t) new_note);
}
void
MidiModel::control_list_marked_dirty ()
{
AutomatableSequence<Temporal::Beats>::control_list_marked_dirty ();
ContentsChanged (); /* EMIT SIGNAL */
}
void
MidiModel::create_mapping_stash (Temporal::Beats const & src_pos_offset)
{
using namespace Evoral;
using namespace Temporal;
TempoMap::SharedPtr tmap (TempoMap::use());
if (!tempo_mapping_stash.empty()) {
return;
}
for (auto const & n : notes()) {
Event<Beats>& on (n->on_event());
superclock_t audio_time = tmap->superclock_at (src_pos_offset + on.time());
tempo_mapping_stash.insert (std::make_pair (&on, audio_time));
Event<Beats>& off (n->off_event());
audio_time = tmap->superclock_at (src_pos_offset + off.time());
tempo_mapping_stash.insert (std::make_pair (&off, audio_time));
}
for (auto const & s : sysexes()) {
superclock_t audio_time = tmap->superclock_at (src_pos_offset + s->time());
tempo_mapping_stash.insert (std::make_pair (s.get(), audio_time));
}
for (auto & pc : patch_changes()) {
superclock_t audio_time = tmap->superclock_at (src_pos_offset + pc->time());
tempo_mapping_stash.insert (std::make_pair (pc.get(), audio_time));
}
}
void
MidiModel::rebuild_from_mapping_stash (Temporal::Beats const & src_pos_offset)
{
using namespace Evoral;
using namespace Temporal;
if (tempo_mapping_stash.empty()) {
return;
}
TempoMap::SharedPtr tmap (TempoMap::use());
NoteDiffCommand* note_cmd = new_note_diff_command (_("conform to tempo map"));
for (auto & n : notes()) {
Event<Beats>& on (n->on_event());
Event<Beats>& off (n->off_event());
TempoMappingStash::iterator tms (tempo_mapping_stash.find (&on));
assert (tms != tempo_mapping_stash.end());
Beats start_time (tmap->quarters_at_superclock (tms->second) - src_pos_offset);
note_cmd->change (n, NoteDiffCommand::StartTime, start_time);
tms = tempo_mapping_stash.find (&off);
assert (tms != tempo_mapping_stash.end());
Beats end_time = tmap->quarters_at_superclock (tms->second) - src_pos_offset;
Beats len = end_time - start_time;
note_cmd->change (n, NoteDiffCommand::Length, len);
}
apply_diff_command_as_subcommand (_midi_source.session(), note_cmd);
SysExDiffCommand* sysex_cmd = new_sysex_diff_command (_("conform to tempo map"));
for (auto & s : sysexes()) {
TempoMappingStash::iterator tms (tempo_mapping_stash.find (s.get()));
assert (tms != tempo_mapping_stash.end());
Beats beat_time (tmap->quarters_at_superclock (tms->second) - src_pos_offset);
sysex_cmd->change (s, beat_time);
}
apply_diff_command_as_subcommand (_midi_source.session(), sysex_cmd);
PatchChangeDiffCommand* pc_cmd = new_patch_change_diff_command (_("conform to tempo map"));
for (auto & pc : patch_changes()) {
TempoMappingStash::iterator tms (tempo_mapping_stash.find (pc.get()));
assert (tms != tempo_mapping_stash.end());
Beats beat_time (tmap->quarters_at_superclock (tms->second) - src_pos_offset);
pc_cmd->change_time (pc, beat_time);
}
apply_diff_command_as_subcommand (_midi_source.session(), pc_cmd);
tempo_mapping_stash.clear ();
}
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