/* * Copyright (C) 2005-2017 Paul Davis * Copyright (C) 2005 Taybin Rutkin * Copyright (C) 2006-2012 David Robillard * Copyright (C) 2007-2010 Carl Hetherington * Copyright (C) 2007-2017 Tim Mayberry * Copyright (C) 2008-2012 Sakari Bergen * Copyright (C) 2014-2017 Robin Gareus * Copyright (C) 2015 André Nusser * * 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. */ /* Note: public Editor methods are documented in public_editor.h */ #include #include #include #include #include "pbd/gstdio_compat.h" #include "pbd/pthread_utils.h" #include "pbd/unwind.h" #include "ardour/audio_track.h" #include "ardour/audiofilesource.h" #include "ardour/audioplaylist.h" #include "ardour/audioregion.h" #include "ardour/chan_count.h" #include "ardour/clip_library.h" #include "ardour/midi_region.h" #include "ardour/session.h" #include "ardour/session_directory.h" #include "ardour/source_factory.h" #include "ardour/types.h" #include "ardour_ui.h" #include "ardour_message.h" #include "widgets/prompter.h" #include "audio_region_view.h" #include "audio_time_axis.h" #include "editor.h" #include "export_dialog.h" #include "loudness_dialog.h" #include "midi_export_dialog.h" #include "midi_region_view.h" #include "public_editor.h" #include "selection.h" #include "simple_export_dialog.h" #include "time_axis_view.h" #include "utils.h" #include "pbd/i18n.h" using namespace std; using namespace ARDOUR; using namespace PBD; using namespace Gtk; void Editor::export_audio () { ExportDialog dialog (*this, _("Export"), ExportProfileManager::RegularExport); dialog.set_session (_session); dialog.run(); } void Editor::stem_export () { StemExportDialog dialog (*this); PBD::Unwinder uw (_no_not_select_reimported_tracks, true); dialog.set_session (_session); dialog.run(); } void Editor::export_selection () { ExportSelectionDialog dialog (*this); dialog.set_session (_session); dialog.run(); } void Editor::quick_export () { SimpleExportDialog dialog (*this); dialog.set_session (_session); dialog.run(); } void Editor::surround_export () { if (!_session || !_session->vapor_export_barrier ()) { return; } SimpleExportDialog dialog (*this, true); dialog.set_session (_session); dialog.run(); } void Editor::loudness_assistant_marker () { ArdourMarker* marker; if ((marker = reinterpret_cast (marker_menu_item->get_data ("marker"))) == 0) { fatal << _("programming error: marker canvas item has no marker object pointer!") << endmsg; abort(); /*NOTREACHED*/ } Location* l; bool is_start; if (((l = find_location_from_marker (marker, is_start)) != 0) && (l->end() > l->start())) { measure_master_loudness (l->start().samples(), l->end().samples(), true); } } void Editor::loudness_assistant (bool range_selection) { samplepos_t start, end; TimeSelection const& ts (get_selection().time); if (range_selection && !ts.empty ()) { start = ts.start_sample(); end = ts.end_sample(); } else { start = _session->current_start_sample(); end = _session->current_end_sample(); } measure_master_loudness (start, end, range_selection); } void Editor::measure_master_loudness (samplepos_t start, samplepos_t end, bool is_range_selection) { if (!Config->get_use_master_volume ()) { ArdourMessageDialog md (_("Master bus output gain control is disabled.\nVisit preferences to enable it?"), false, MESSAGE_QUESTION, BUTTONS_YES_NO); if (md.run () == RESPONSE_YES) { ARDOUR_UI::instance()->show_mixer_prefs (); } return; } if (start >= end) { if (is_range_selection) { ArdourMessageDialog (_("Loudness Analysis requires a session-range or range-selection."), false, MESSAGE_ERROR).run (); } else { ArdourMessageDialog (_("Loudness Analysis requires a session-range."), false, MESSAGE_ERROR).run (); } return; } if (!_session->master_volume()) { ArdourMessageDialog (_("Loudness Analysis is only available for sessions with a master-bus"), false, MESSAGE_ERROR).run (); return; } assert (_session->master_out()); if (_session->master_out()->output()->n_ports().n_audio() != 2) { ArdourMessageDialog (_("Loudness Analysis is only available for sessions with a stereo master-bus"), false, MESSAGE_ERROR).run (); return; } ARDOUR::TimelineRange ar (timepos_t (start), timepos_t (end), 0); LoudnessDialog ld (_session, ar, is_range_selection); #ifndef __APPLE__ if (own_window ()) { ld.set_transient_for (*own_window ()); } #endif ld.run (); } void Editor::export_range () { ArdourMarker* marker; if ((marker = reinterpret_cast (marker_menu_item->get_data ("marker"))) == 0) { fatal << _("programming error: marker canvas item has no marker object pointer!") << endmsg; abort(); /*NOTREACHED*/ } Location* l; bool is_start; if (((l = find_location_from_marker (marker, is_start)) != 0) && (l->end() > l->start())) { ExportRangeDialog dialog (*this, l->id().to_s()); dialog.set_session (_session); dialog.run(); } } bool Editor::process_midi_export_dialog (MidiExportDialog& dialog, std::shared_ptr midi_region) { string path = dialog.get_path (); if (Glib::file_test (path, Glib::FILE_TEST_EXISTS)) { bool overwrite = ARDOUR_UI_UTILS::overwrite_file_dialog (dialog, _("Confirm MIDI File Overwrite"), _("A file with the same name already exists. Do you want to overwrite it?")); if (!overwrite) { return false; } /* force ::g_unlink because the backend code will go wrong if it tries to open an existing file for writing. */ ::g_unlink (path.c_str()); } return midi_region->do_export (path); } /** Export the first selected region */ void Editor::export_region () { if (selection->regions.empty()) { return; } std::shared_ptr r = selection->regions.front()->region(); std::shared_ptr audio_region = std::dynamic_pointer_cast(r); std::shared_ptr midi_region = std::dynamic_pointer_cast(r); if (audio_region) { RouteTimeAxisView & rtv (dynamic_cast (selection->regions.front()->get_time_axis_view())); AudioTrack & track (dynamic_cast (*rtv.route())); ExportRegionDialog dialog (*this, *(audio_region.get()), track); dialog.set_session (_session); dialog.run (); } else if (midi_region) { MidiExportDialog dialog (*this, midi_region); dialog.set_session (_session); bool finished = false; while (!finished) { switch (dialog.run ()) { case Gtk::RESPONSE_ACCEPT: finished = process_midi_export_dialog (dialog, midi_region); break; default: return; } } } } int Editor::write_region_selection (RegionSelection& regions) { for (RegionSelection::iterator i = regions.begin(); i != regions.end(); ++i) { AudioRegionView* arv = dynamic_cast(*i); if (arv) { if (write_region ("", arv->audio_region()) == false) return -1; } MidiRegionView* mrv = dynamic_cast(*i); if (mrv) { warning << "MIDI region export not implemented" << endmsg; } } return 0; } void Editor::bounce_region_selection (bool with_processing) { /* this code is largely similar to editor_ops ::bounce_range_selection */ if (selection->regions.empty ()) { return; } bool multiple_selected = selection->regions.size () > 1; bool multiple_per_track = false; if (multiple_selected) { std::set> route_set; for (auto const& i: selection->regions) { RouteTimeAxisView* rtv = dynamic_cast(&i->get_time_axis_view()); auto rv = route_set.insert (rtv->route ()); if (!rv.second) { multiple_per_track = true; break; } } } /* no need to check for bounceable() because this operation never puts * its results back in the playlist (only in the region list). */ string bounce_name; bool copy_to_clip_library = false; bool copy_to_trigger = false; uint32_t trigger_slot = 0; { /*prompt the user for a new name*/ ArdourWidgets::Prompter dialog (true); if (multiple_selected) { dialog.set_prompt (_("Prefix for Bounced Regions:")); dialog.set_initial_text (""); dialog.set_allow_empty (); } else { std::shared_ptr region (selection->regions.front()->region ()); dialog.set_prompt (_("Name for Bounced Region:")); dialog.set_initial_text (region->name()); } dialog.set_name ("BounceNameWindow"); dialog.set_size_request (400, -1); dialog.set_position (Gtk::WIN_POS_MOUSE); dialog.add_button (_("Bounce"), RESPONSE_ACCEPT); Table* table = manage (new Table); table->set_spacings (4); table->set_border_width (8); dialog.get_vbox()->pack_start (*table); dialog.get_vbox()->set_spacing (4); /* copy to a slot on this track ? */ Gtk::CheckButton *to_slot = NULL; if (!with_processing && !multiple_per_track) { to_slot = manage (new Gtk::CheckButton (_("Bounce to Trigger Slot:"))); Gtk::Alignment *slot_align = manage (new Gtk::Alignment (0, .5, 0, 0)); slot_align->add (*to_slot); ArdourWidgets::ArdourDropdown *tslot = manage (new ArdourWidgets::ArdourDropdown ()); for (int c = 0; c < TriggerBox::default_triggers_per_box; ++c) { std::string lbl = cue_marker_name (c); tslot->AddMenuElem (Menu_Helpers::MenuElem (lbl, sigc::bind ([] (uint32_t* t, uint32_t v, ArdourWidgets::ArdourDropdown* s, std::string l) {*t = v; s->set_text (l);}, &trigger_slot, c, tslot, lbl))); } tslot->set_active ("A"); HBox *tbox = manage (new HBox()); tbox->pack_start(*slot_align, false, false); tbox->pack_start(*tslot, false, false); table->attach (*tbox, 0, 2, 0,1, Gtk::FILL, Gtk::SHRINK); } /* copy to the user's Clip Library ? */ Gtk::CheckButton *cliplib = manage (new Gtk::CheckButton (_("Bounce to Clip Library"))); Gtk::Alignment *align = manage (new Gtk::Alignment (0, .5, 0, 0)); align->add (*cliplib); align->show_all (); table->attach (*align, 0, 2, 1,2, Gtk::FILL, Gtk::SHRINK); /* in all cases, the selected Range will appear in the Source list */ Label* s_label = manage (new Label (_("Bounced Region will appear in the Source list"))); table->attach (*s_label, 0, 2, 2,3, Gtk::FILL, Gtk::SHRINK); dialog.get_vbox()->show_all (); dialog.show (); switch (dialog.run ()) { case RESPONSE_ACCEPT: break; default: return; } dialog.get_result(bounce_name); if (to_slot && to_slot->get_active()) { copy_to_trigger = true; } if (cliplib->get_active ()) { copy_to_clip_library = true; } } /* prevent user from accidentally overwriting a slot that they can't see */ bool overwriting = false; if (copy_to_trigger) { for (RegionSelection::iterator i = selection->regions.begin(); i != selection->regions.end(); ++i) { std::shared_ptr region ((*i)->region()); RouteTimeAxisView* rtv = dynamic_cast(&(*i)->get_time_axis_view()); std::shared_ptr track = std::dynamic_pointer_cast (rtv->route()); if (!track) { continue; } if (track->triggerbox()->trigger(trigger_slot)->playable()) { overwriting = true; } } if (overwriting) { ArdourMessageDialog msg (string_compose(_("Are you sure you want to overwrite the contents in slot %1?"),cue_marker_name(trigger_slot)), false, MESSAGE_QUESTION, BUTTONS_YES_NO, true); msg.set_title (_("Overwriting slot")); msg.set_secondary_text (_("One of your selected tracks has content in this slot.")); if (msg.run () != RESPONSE_YES) { return; } } } for (RegionSelection::iterator i = selection->regions.begin(); i != selection->regions.end(); ++i) { std::shared_ptr region ((*i)->region()); RouteTimeAxisView* rtv = dynamic_cast(&(*i)->get_time_axis_view()); std::shared_ptr track = std::dynamic_pointer_cast (rtv->route()); InterThreadInfo itt; std::string name; if (multiple_selected) { name = string_compose ("%1%2", bounce_name, region->name ()); } else { name = bounce_name; } std::shared_ptr r; if (with_processing) { r = track->bounce_range (region->position_sample(), region->position_sample() + region->length_samples(), itt, track->main_outs(), false, name); } else { r = track->bounce_range (region->position_sample(), region->position_sample() + region->length_samples(), itt, std::shared_ptr(), false, name); } if (copy_to_clip_library) { export_to_clip_library (r); } if (copy_to_trigger) { std::shared_ptr state (new Trigger::UIState()); if (multiple_selected) { state->name = string_compose ("%1%2", bounce_name, r->name ()); } else { state->name = bounce_name; } //ToDo: can/should we get the tempo for this region? track->triggerbox ()->enqueue_trigger_state_for_region(r, state); track->triggerbox ()->set_from_selection (trigger_slot, r); track->presentation_info ().set_trigger_track (true); } } } bool Editor::write_region (string path, std::shared_ptr region) { std::shared_ptr fs; const samplepos_t chunk_size = 4096; samplepos_t to_read; Sample buf[chunk_size]; gain_t gain_buffer[chunk_size]; samplepos_t pos; char s[PATH_MAX+1]; uint32_t cnt; vector > sources; uint32_t nchans; const string sound_directory = _session->session_directory().sound_path(); nchans = region->n_channels(); /* don't do duplicate of the entire source if that's what is going on here */ if (region->start().is_zero () && region->length() == region->source_length(0)) { /* XXX should link(2) to create a new inode with "path" */ return true; } if (path.length() == 0) { for (uint32_t n=0; n < nchans; ++n) { for (cnt = 0; cnt < 999999; ++cnt) { if (nchans == 1) { snprintf (s, sizeof(s), "%s/%s_%" PRIu32 ".wav", sound_directory.c_str(), legalize_for_universal_path(region->name()).c_str(), cnt); } else { snprintf (s, sizeof(s), "%s/%s_%" PRIu32 "-%" PRId32 ".wav", sound_directory.c_str(), legalize_for_universal_path(region->name()).c_str(), cnt, n); } path = s; if (!Glib::file_test (path, Glib::FILE_TEST_EXISTS)) { break; } } if (cnt == 999999) { error << "" << endmsg; goto error_out; } try { fs = std::dynamic_pointer_cast (SourceFactory::createWritable (DataType::AUDIO, *_session, path, _session->sample_rate())); } catch (failed_constructor& err) { goto error_out; } sources.push_back (fs); } } else { /* TODO: make filesources based on passed path */ } to_read = region->length_samples(); pos = region->position_sample(); while (to_read) { samplepos_t this_time; this_time = min (to_read, chunk_size); uint32_t chn = 0; for (vector >::iterator src=sources.begin(); src != sources.end(); ++src, ++chn) { fs = (*src); if (region->read_at (buf, buf, gain_buffer, pos, this_time, chn) != this_time) { break; } if (fs->write (buf, this_time) != this_time) { error << "" << endmsg; goto error_out; } } to_read -= this_time; pos += this_time; } time_t tnow; struct tm* now; time (&tnow); now = localtime (&tnow); for (vector >::iterator src = sources.begin(); src != sources.end(); ++src) { (*src)->update_header (0, *now, tnow); (*src)->mark_immutable (); } return true; error_out: for (vector >::iterator i = sources.begin(); i != sources.end(); ++i) { (*i)->mark_for_remove (); } return 0; } int Editor::write_audio_selection (TimeSelection& ts) { int ret = 0; if (selection->tracks.empty()) { return 0; } for (TrackSelection::iterator i = selection->tracks.begin(); i != selection->tracks.end(); ++i) { AudioTimeAxisView* atv; if ((atv = dynamic_cast(*i)) == 0) { continue; } if (atv->is_audio_track()) { std::shared_ptr playlist = std::dynamic_pointer_cast(atv->track()->playlist()); if (playlist && write_audio_range (*playlist, atv->track()->n_channels(), ts) == 0) { ret = -1; break; } } } return ret; } bool Editor::write_audio_range (AudioPlaylist& playlist, const ChanCount& count, list& range) { std::shared_ptr fs; const samplepos_t chunk_size = 4096; samplecnt_t nframes; Sample buf[chunk_size]; gain_t gain_buffer[chunk_size]; samplepos_t pos; char s[PATH_MAX+1]; uint32_t cnt; string path; vector > sources; const string sound_directory = _session->session_directory().sound_path(); uint32_t channels = count.n_audio(); for (uint32_t n=0; n < channels; ++n) { for (cnt = 0; cnt < 999999; ++cnt) { if (channels == 1) { snprintf (s, sizeof(s), "%s/%s_%" PRIu32 ".wav", sound_directory.c_str(), legalize_for_universal_path(playlist.name()).c_str(), cnt); } else { snprintf (s, sizeof(s), "%s/%s_%" PRIu32 "-%" PRId32 ".wav", sound_directory.c_str(), legalize_for_universal_path(playlist.name()).c_str(), cnt, n); } if (!Glib::file_test (s, Glib::FILE_TEST_EXISTS)) { break; } } if (cnt == 999999) { error << "" << endmsg; goto error_out; } path = s; try { fs = std::dynamic_pointer_cast (SourceFactory::createWritable (DataType::AUDIO, *_session, path, _session->sample_rate())); } catch (failed_constructor& err) { goto error_out; } sources.push_back (fs); } for (list::iterator i = range.begin(); i != range.end();) { nframes = (*i).length().samples(); pos = (*i).start().samples(); while (nframes) { timecnt_t this_time = timecnt_t (min (nframes, chunk_size)); for (uint32_t n=0; n < channels; ++n) { fs = sources[n]; if (playlist.read (buf, buf, gain_buffer, timepos_t (pos), this_time, n) != this_time) { break; } if (fs->write (buf, this_time.samples()) != this_time.samples()) { goto error_out; } } nframes -= this_time.samples(); pos += this_time.samples(); } list::iterator tmp = i; ++tmp; if (tmp != range.end()) { /* fill gaps with silence */ nframes = (*i).end().distance ((*tmp).start()).samples(); while (nframes) { timecnt_t this_time = timecnt_t (min (nframes, chunk_size)); memset (buf, 0, sizeof (Sample) * this_time.samples()); for (uint32_t n=0; n < channels; ++n) { fs = sources[n]; if (fs->write (buf, this_time.samples()) != this_time.samples()) { goto error_out; } } nframes -= this_time.samples(); } } i = tmp; } time_t tnow; struct tm* now; time (&tnow); now = localtime (&tnow); for (vector >::iterator s = sources.begin(); s != sources.end(); ++s) { (*s)->update_header (0, *now, tnow); (*s)->mark_immutable (); // do we need to ref it again? } return true; error_out: /* unref created files */ for (vector >::iterator i = sources.begin(); i != sources.end(); ++i) { (*i)->mark_for_remove (); } return false; } void Editor::write_selection () { if (!selection->time.empty()) { write_audio_selection (selection->time); } else if (!selection->regions.empty()) { write_region_selection (selection->regions); } }