/* * Copyright (C) 2009-2015 David Robillard * Copyright (C) 2009-2017 Paul Davis * Copyright (C) 2014-2023 Robin Gareus * * 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 #include #include #include "evoral/Note.h" #include "evoral/midi_util.h" #include "ardour/midi_model.h" #include "ardour/midi_region.h" #include "ardour/midi_source.h" #include "ardour/session.h" #include "ardour/tempo.h" #include "gtkmm2ext/actions.h" #include "gtkmm2ext/gui_thread.h" #include "gtkmm2ext/keyboard.h" #include "midi_list_editor.h" #include "note_player.h" #include "ui_config.h" #include "pbd/i18n.h" using namespace std; using namespace Gtk; using namespace Gtkmm2ext; using namespace Glib; using namespace ARDOUR; using Temporal::BBT_Time; static map note_length_map; static void fill_note_length_map () { note_length_map.insert (make_pair (Temporal::ticks_per_beat * 4, _("Whole"))); note_length_map.insert (make_pair (Temporal::ticks_per_beat * 2, _("Half"))); note_length_map.insert (make_pair (Temporal::ticks_per_beat * 2 / 3, _("Triplet"))); note_length_map.insert (make_pair (Temporal::ticks_per_beat / 1, _("Quarter"))); note_length_map.insert (make_pair (Temporal::ticks_per_beat / 2, _("Eighth"))); note_length_map.insert (make_pair (Temporal::ticks_per_beat / 4, _("Sixteenth"))); note_length_map.insert (make_pair (Temporal::ticks_per_beat / 8, _("Thirty-second"))); note_length_map.insert (make_pair (Temporal::ticks_per_beat / 16, _("Sixty-fourth"))); } MidiListEditor::MidiListEditor (Session* s, std::shared_ptr r, std::shared_ptr tr) : ArdourWindow (r->name ()) , buttons (1, 1) , region (r) , track (tr) { if (note_length_map.empty ()) { fill_note_length_map (); } /* We do not handle nested sources/regions. Caller should have tackled this */ if (r->max_source_level () > 0) { throw failed_constructor (); } set_session (s); edit_column = -1; editing_renderer = 0; editing_editable = 0; model = ListStore::create (columns); view.set_model (model); note_length_model = ListStore::create (note_length_columns); TreeModel::Row row; for (std::map::iterator i = note_length_map.begin (); i != note_length_map.end (); ++i) { row = *(note_length_model->append ()); row[note_length_columns.ticks] = i->first; row[note_length_columns.name] = i->second; } view.signal_key_press_event ().connect (sigc::mem_fun (*this, &MidiListEditor::key_press), false); view.signal_key_release_event ().connect (sigc::mem_fun (*this, &MidiListEditor::key_release), false); view.signal_scroll_event ().connect (sigc::mem_fun (*this, &MidiListEditor::scroll_event), false); view.append_column (_("Start"), columns.start); view.append_column (_("Channel"), columns.channel); view.append_column (_("Num"), columns.note); view.append_column (_("Name"), columns.note_name); view.append_column (_("Vel"), columns.velocity); /* use a combo renderer for length, so that we can offer a selection * of pre-defined note lengths. we still allow edited values with * arbitrary length (in ticks). */ Gtk::TreeViewColumn* lenCol = Gtk::manage (new Gtk::TreeViewColumn (_("Length"))); Gtk::CellRendererCombo* comboCell = Gtk::manage (new Gtk::CellRendererCombo); lenCol->pack_start (*comboCell); lenCol->add_attribute (comboCell->property_text (), columns.length); comboCell->property_model () = note_length_model; comboCell->property_text_column () = 1; comboCell->property_has_entry () = false; view.append_column (*lenCol); view.set_headers_visible (true); view.set_rules_hint (true); view.get_selection ()->set_mode (SELECTION_MULTIPLE); view.get_selection ()->signal_changed ().connect (sigc::mem_fun (*this, &MidiListEditor::selection_changed)); /* Editing the first column (BBT) as text is currently not supported * -> use editable AudioClock, implement parse_as_bbt */ for (int i = 1; i < 6; ++i) { CellRendererText* renderer = dynamic_cast (view.get_column_cell_renderer (i)); TreeViewColumn* col = view.get_column (i); col->set_data (X_("colnum"), GUINT_TO_POINTER (i)); renderer->property_editable () = true; renderer->signal_editing_started ().connect (sigc::bind (sigc::mem_fun (*this, &MidiListEditor::editing_started), i)); renderer->signal_editing_canceled ().connect (sigc::mem_fun (*this, &MidiListEditor::editing_canceled)); renderer->signal_edited ().connect (sigc::mem_fun (*this, &MidiListEditor::edited)); } scroller.add (view); scroller.set_policy (POLICY_NEVER, POLICY_AUTOMATIC); redisplay_model (); region->midi_source (0)->model ()->ContentsChanged.connect (content_connections, invalidator (*this), std::bind (&MidiListEditor::redisplay_model, this), gui_context ()); region->PropertyChanged.connect (content_connections, invalidator (*this), std::bind (&MidiListEditor::redisplay_model, this), gui_context ()); buttons.attach (sound_notes_button, 0, 1, 0, 1); Glib::RefPtr act = ActionManager::get_action ("Editor", "sound-midi-notes"); if (act) { gtk_activatable_set_related_action (GTK_ACTIVATABLE (sound_notes_button.gobj ()), act->gobj ()); } view.show (); scroller.show (); buttons.show (); vbox.show (); sound_notes_button.show (); vbox.set_spacing (6); vbox.set_border_width (6); vbox.pack_start (buttons, false, false); vbox.pack_start (scroller, true, true); add (vbox); set_size_request (-1, 400); } MidiListEditor::~MidiListEditor () { } bool MidiListEditor::scroll_event (GdkEventScroll* ev) { TreeModel::Path path; TreeViewColumn* col; int cellx; int celly; int idelta = 0; Temporal::Beats beat_delta; bool apply = false; bool was_selected = false; char const* opname; MidiModel::NoteDiffCommand::Property prop (MidiModel::NoteDiffCommand::NoteNumber); if (!view.get_path_at_pos (ev->x, ev->y, path, col, cellx, celly)) { return false; } if (view.get_selection ()->count_selected_rows () == 0) { was_selected = false; } else if (view.get_selection ()->is_selected (path)) { was_selected = true; } else { was_selected = false; } int colnum = GPOINTER_TO_UINT (col->get_data (X_("colnum"))); switch (colnum) { case 0: /* This is dangerous. Changing position with the mouse-wheel can reorder * notes. The mouse-position does not change and then affect different notes. */ if (Keyboard::modifier_state_equals (ev->state, Keyboard::GainFineScaleModifier)) { beat_delta = Temporal::Beats::ticks (Temporal::ticks_per_beat / 64); } else { beat_delta = Temporal::Beats (1, 0); } if (ev->direction == GDK_SCROLL_DOWN || ev->direction == GDK_SCROLL_LEFT) { beat_delta = -beat_delta; } prop = MidiModel::NoteDiffCommand::StartTime; opname = _("edit note start"); apply = true; break; case 1: idelta = 1; if (ev->direction == GDK_SCROLL_DOWN || ev->direction == GDK_SCROLL_LEFT) { idelta = -idelta; } prop = MidiModel::NoteDiffCommand::Channel; opname = _("edit note channel"); apply = true; break; case 2: case 3: idelta = 1; if (ev->direction == GDK_SCROLL_DOWN || ev->direction == GDK_SCROLL_LEFT) { idelta = -idelta; } prop = MidiModel::NoteDiffCommand::NoteNumber; opname = _("edit note number"); apply = true; break; case 4: idelta = 1; if (ev->direction == GDK_SCROLL_DOWN || ev->direction == GDK_SCROLL_LEFT) { idelta = -idelta; } prop = MidiModel::NoteDiffCommand::Velocity; opname = _("edit note velocity"); apply = true; break; case 5: if (Keyboard::modifier_state_equals (ev->state, Keyboard::GainFineScaleModifier)) { beat_delta = Temporal::Beats::ticks (Temporal::ticks_per_beat / 64); } else { beat_delta = Temporal::Beats (1, 0); } if (ev->direction == GDK_SCROLL_DOWN || ev->direction == GDK_SCROLL_LEFT) { beat_delta = -beat_delta; } prop = MidiModel::NoteDiffCommand::Length; opname = _("edit note length"); apply = true; break; default: break; } if (apply) { std::shared_ptr m (region->midi_source (0)->model ()); MidiModel::NoteDiffCommand* cmd = m->new_note_diff_command (opname); vector previous_selection; if (was_selected) { /* use selection */ TreeView::Selection::ListHandle_Path rows = view.get_selection ()->get_selected_rows (); TreeModel::iterator iter; std::shared_ptr note; for (TreeView::Selection::ListHandle_Path::iterator i = rows.begin (); i != rows.end (); ++i) { previous_selection.push_back (*i); if ((iter = model->get_iter (*i))) { note = (*iter)[columns._note]; switch (prop) { case MidiModel::NoteDiffCommand::StartTime: if (note->time () + beat_delta >= Temporal::Beats ()) { cmd->change (note, prop, note->time () + beat_delta); } else { cmd->change (note, prop, Temporal::Beats ()); } break; case MidiModel::NoteDiffCommand::Velocity: cmd->change (note, prop, (uint8_t) (note->velocity () + idelta)); break; case MidiModel::NoteDiffCommand::Length: if (note->length () <= Temporal::Beats::one_tick () && beat_delta.to_ticks () > 0) { /* Special case increments starting at 1 tick. * Next step up after 1 is 1920 (not 1921) - or fine grained 30 (not 31). */ cmd->change (note, prop, beat_delta); } else if (note->length () + beat_delta >= Temporal::Beats::one_tick ()) { cmd->change (note, prop, note->length () + beat_delta); } else { cmd->change (note, prop, Temporal::Beats::one_tick ()); } break; case MidiModel::NoteDiffCommand::Channel: cmd->change (note, prop, (uint8_t) (note->channel () + idelta)); break; case MidiModel::NoteDiffCommand::NoteNumber: cmd->change (note, prop, (uint8_t) (note->note () + idelta)); break; default: continue; } } } } else { /* just this row */ TreeModel::iterator iter; iter = model->get_iter (path); previous_selection.push_back (path); if (iter) { std::shared_ptr note = (*iter)[columns._note]; switch (prop) { case MidiModel::NoteDiffCommand::StartTime: if (note->time () + beat_delta >= Temporal::Beats ()) { cmd->change (note, prop, note->time () + beat_delta); } else { cmd->change (note, prop, Temporal::Beats ()); } break; case MidiModel::NoteDiffCommand::Velocity: cmd->change (note, prop, (uint8_t) (note->velocity () + idelta)); break; case MidiModel::NoteDiffCommand::Length: if (note->length () + beat_delta >= Temporal::Beats::one_tick ()) { cmd->change (note, prop, note->length () + beat_delta); } else { cmd->change (note, prop, Temporal::Beats::one_tick ()); } break; case MidiModel::NoteDiffCommand::Channel: cmd->change (note, prop, (uint8_t) (note->channel () + idelta)); break; case MidiModel::NoteDiffCommand::NoteNumber: cmd->change (note, prop, (uint8_t) (note->note () + idelta)); break; default: break; } } } m->apply_diff_command_as_commit (*_session, cmd); /* reset selection to be as it was before we rebuilt */ for (vector::iterator i = previous_selection.begin (); i != previous_selection.end (); ++i) { view.get_selection ()->select (*i); } } return true; } bool MidiListEditor::key_press (GdkEventKey* ev) { bool ret = false; TreeModel::Path path; TreeViewColumn* col; int colnum; switch (ev->keyval) { case GDK_Tab: if (edit_column > 0) { colnum = edit_column; path = edit_path; if (editing_editable) { editing_editable->editing_done (); } if (colnum >= 5) { /* wrap to next line */ /* XXX never reached. Editing Length shows a dropdown menu, * which returns edit focus to the dialog. */ colnum = 0; path.next (); } else { colnum++; } if (!path.empty ()) { col = view.get_column (colnum); view.set_cursor (path, *col, true); } ret = true; } break; case GDK_Up: case GDK_uparrow: if (edit_column > 0) { colnum = edit_column; path = edit_path; if (editing_editable) { editing_editable->editing_done (); } path.prev (); if (!path.empty ()) { col = view.get_column (colnum); view.set_cursor (path, *col, true); } ret = true; } break; case GDK_Down: case GDK_downarrow: if (edit_column > 0) { colnum = edit_column; path = edit_path; if (editing_editable) { editing_editable->editing_done (); } path.next (); if (!path.empty ()) { col = view.get_column (colnum); view.set_cursor (path, *col, true); } ret = true; } break; case GDK_Escape: stop_editing (true); break; } return ret; } bool MidiListEditor::key_release (GdkEventKey* ev) { bool ret = false; TreeModel::Path path; TreeViewColumn* col; TreeModel::iterator iter; MidiModel::NoteDiffCommand* cmd; std::shared_ptr m (region->midi_source (0)->model ()); std::shared_ptr note; std::shared_ptr copy; switch (ev->keyval) { case GDK_Insert: /* add a new note to the model, based on the note at the cursor pos */ view.get_cursor (path, col); iter = model->get_iter (path); cmd = m->new_note_diff_command (_("insert new note")); if (iter) { note = (*iter)[columns._note]; copy.reset (new NoteType (*note.get ())); } else { Temporal::Beats pos = Temporal::TempoMap::use ()->quarters_at_sample (region->start ().samples ()); copy.reset (new NoteType (0, pos, Temporal::Beats (1, 0), 60, 100)); } cmd->add (copy); m->apply_diff_command_as_commit (*_session, cmd); /* model has been redisplayed by now */ path.next (); if (!path.empty ()) { /* select, start editing column 2 (note) */ col = view.get_column (2); view.set_cursor (path, *col, true); } break; case GDK_Delete: case GDK_BackSpace: if (edit_column < 0) { delete_selected_note (); } ret = true; break; case GDK_z: if (_session && Gtkmm2ext::Keyboard::modifier_state_contains (ev->state, Gtkmm2ext::Keyboard::PrimaryModifier)) { _session->undo (1); ret = true; } break; case GDK_r: if (_session && Gtkmm2ext::Keyboard::modifier_state_contains (ev->state, Gtkmm2ext::Keyboard::PrimaryModifier)) { _session->redo (1); ret = true; } break; default: break; } return ret; } void MidiListEditor::delete_selected_note () { Glib::RefPtr selection = view.get_selection (); TreeView::Selection::ListHandle_Path rows = selection->get_selected_rows (); if (rows.empty ()) { return; } typedef vector> Notes; Notes to_delete; for (TreeView::Selection::ListHandle_Path::iterator i = rows.begin (); i != rows.end (); ++i) { TreeIter iter; if ((iter = model->get_iter (*i))) { std::shared_ptr note = (*iter)[columns._note]; to_delete.push_back (note); } } std::shared_ptr m (region->midi_source (0)->model ()); MidiModel::NoteDiffCommand* cmd = m->new_note_diff_command (_("delete notes (from list)")); for (Notes::iterator i = to_delete.begin (); i != to_delete.end (); ++i) { cmd->remove (*i); } m->apply_diff_command_as_commit (*_session, cmd); } void MidiListEditor::stop_editing (bool cancelled) { if (!cancelled) { if (editing_editable) { editing_editable->editing_done (); } } else { if (editing_renderer) { editing_renderer->stop_editing (cancelled); } } } void MidiListEditor::editing_started (CellEditable* ed, const string& path, int colno) { edit_path = TreePath (path); edit_column = colno; editing_renderer = dynamic_cast (view.get_column_cell_renderer (colno)); editing_editable = ed; if (ed) { Gtk::Entry* e = dynamic_cast (ed); if (e) { e->signal_key_press_event ().connect (sigc::mem_fun (*this, &MidiListEditor::key_press), false); e->signal_key_release_event ().connect (sigc::mem_fun (*this, &MidiListEditor::key_release), false); } } } void MidiListEditor::editing_canceled () { edit_path.clear (); edit_column = -1; editing_renderer = 0; editing_editable = 0; } void MidiListEditor::edited (const std::string& path, const std::string& text) { TreeModel::iterator iter = model->get_iter (path); if (!iter || text.empty ()) { return; } std::shared_ptr note = (*iter)[columns._note]; MidiModel::NoteDiffCommand::Property prop (MidiModel::NoteDiffCommand::NoteNumber); Temporal::Beats bval; int ival; bool apply = false; int idelta = 0; Temporal::Beats delta; char const* opname; switch (edit_column) { case 0: // start break; case 1: // channel /* correct ival for zero-based counting after scan */ if (sscanf (text.c_str (), "%d", &ival) == 1 && --ival != note->channel ()) { idelta = ival - note->channel (); prop = MidiModel::NoteDiffCommand::Channel; opname = _("change note channel"); apply = true; } break; case 2: // note if (sscanf (text.c_str (), "%d", &ival) == 1 && ival != note->note ()) { idelta = ival - note->note (); prop = MidiModel::NoteDiffCommand::NoteNumber; opname = _("change note number"); apply = true; } break; case 3: // name ival = ParameterDescriptor::midi_note_num (text); if (ival < 128) { idelta = ival - note->note (); prop = MidiModel::NoteDiffCommand::NoteNumber; opname = _("change note number"); apply = true; } break; case 4: // velocity if (sscanf (text.c_str (), "%d", &ival) == 1 && ival != note->velocity ()) { idelta = ival - note->velocity (); prop = MidiModel::NoteDiffCommand::Velocity; opname = _("change note velocity"); apply = true; } break; case 5: // length try { stringstream ss (text); ss >> bval; } catch (...) { /* assume its text from the combo. look for the map * entry for the actual note ticks */ uint64_t len_ticks = note->length ().to_ticks (); std::map::iterator x = note_length_map.find (len_ticks); if (x == note_length_map.end ()) { /* tick length not in map - was * displaying numeric value ... use new value * from note length map, and convert to beats. */ for (x = note_length_map.begin (); x != note_length_map.end (); ++x) { if (x->second == text) { break; } } if (x != note_length_map.end ()) { bval = Temporal::Beats::ticks (x->first); } } else { bval = Temporal::Beats (); if (text != x->second) { /* get ticks for the newly selected * note length */ for (x = note_length_map.begin (); x != note_length_map.end (); ++x) { if (x->second == text) { break; } } if (x != note_length_map.end ()) { /* convert to beats */ bval = Temporal::Beats::ticks (x->first); } } } } if (bval) { delta = bval - note->length (); prop = MidiModel::NoteDiffCommand::Length; opname = _("change note length"); apply = true; } break; default: break; } if (apply) { std::shared_ptr m (region->midi_source (0)->model ()); MidiModel::NoteDiffCommand* cmd = m->new_note_diff_command (opname); TreeView::Selection::ListHandle_Path rows = view.get_selection ()->get_selected_rows (); for (TreeView::Selection::ListHandle_Path::iterator i = rows.begin (); i != rows.end (); ++i) { if ((iter = model->get_iter (*i))) { note = (*iter)[columns._note]; switch (prop) { case MidiModel::NoteDiffCommand::Velocity: cmd->change (note, prop, (uint8_t) (note->velocity () + idelta)); break; case MidiModel::NoteDiffCommand::Length: cmd->change (note, prop, note->length () + delta); break; case MidiModel::NoteDiffCommand::Channel: cmd->change (note, prop, (uint8_t) (note->channel () + idelta)); break; case MidiModel::NoteDiffCommand::NoteNumber: cmd->change (note, prop, (uint8_t) (note->note () + idelta)); break; default: continue; } } } m->apply_diff_command_as_commit (*_session, cmd); /* model has been redisplayed by now */ /* keep selected row(s), move cursor there, don't continue editing */ TreeViewColumn* col = view.get_column (edit_column); view.set_cursor (edit_path, *col, 0); /* reset edit info, since we're done */ edit_path.clear (); edit_column = -1; editing_renderer = 0; editing_editable = 0; } } void MidiListEditor::redisplay_model () { view.set_model (Glib::RefPtr (0)); model->clear (); if (_session) { std::shared_ptr m (region->midi_source (0)->model ()); TreeModel::Row row; stringstream ss; MidiModel::Notes::const_iterator i = m->note_lower_bound (region->start ().beats ()); Temporal::Beats end_time = (region->start () + region->length ()).beats (); for (; i != m->notes ().end () && (*i)->time () < end_time; ++i) { row = *(model->append ()); row[columns.channel] = (*i)->channel () + 1; row[columns.note_name] = ParameterDescriptor::midi_note_name ((*i)->note ()); row[columns.note] = (*i)->note (); row[columns.velocity] = (*i)->velocity (); Temporal::BBT_Time bbt = Temporal::TempoMap::use ()->bbt_at ((region->position () + timepos_t ((*i)->time ())).earlier (region->start ())); ss.str (""); ss << bbt; row[columns.start] = ss.str (); bbt.bars = 0; const Temporal::Beats dur = (*i)->end_time () - (*i)->time (); bbt.beats = dur.get_beats (); bbt.ticks = dur.get_ticks (); uint64_t len_ticks = (*i)->length ().to_ticks (); std::map::iterator x = note_length_map.find (len_ticks); if (x != note_length_map.end ()) { row[columns.length] = x->second; } else { ss.str (""); ss << len_ticks; row[columns.length] = ss.str (); } row[columns._note] = (*i); } } view.set_model (model); } void MidiListEditor::selection_changed () { if (!UIConfiguration::instance ().get_sound_midi_notes ()) { return; } TreeModel::Path path; TreeModel::iterator iter; std::shared_ptr note; TreeView::Selection::ListHandle_Path rows = view.get_selection ()->get_selected_rows (); NotePlayer* player = new NotePlayer (track); for (TreeView::Selection::ListHandle_Path::iterator i = rows.begin (); i != rows.end (); ++i) { if ((iter = model->get_iter (*i))) { note = (*iter)[columns._note]; player->add (note); } } player->play (); }