/* * Copyright (C) 2006-2014 David Robillard * Copyright (C) 2006-2017 Paul Davis * Copyright (C) 2006 Taybin Rutkin * Copyright (C) 2007 Tim Mayberry * Copyright (C) 2009-2012 Carl Hetherington * Copyright (C) 2012-2019 Robin Gareus * Copyright (C) 2013-2014 Colin Fletcher * Copyright (C) 2015-2017 Nick Mainsbridge * * 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 #include #include #include #include "pbd/pthread_utils.h" #include "pbd/basename.h" #include "pbd/shortpath.h" #include "pbd/stateful_diff_command.h" #include "widgets/choice.h" #include "ardour/audio_track.h" #include "ardour/audiofilesource.h" #include "ardour/audioregion.h" #include "ardour/midi_region.h" #include "ardour/midi_track.h" #include "ardour/operations.h" #include "ardour/profile.h" #include "ardour/region_factory.h" #include "ardour/smf_source.h" #include "ardour/source_factory.h" #include "ardour/utils.h" #include "pbd/memento_command.h" #include "ardour_message.h" #include "ardour_ui.h" #include "cursor_context.h" #include "editor.h" #include "sfdb_ui.h" #include "editing.h" #include "audio_time_axis.h" #include "midi_time_axis.h" #include "session_import_dialog.h" #include "gui_thread.h" #include "interthread_progress_window.h" #include "mouse_cursors.h" #include "editor_cursors.h" #include "pbd/i18n.h" using namespace std; using namespace ARDOUR; using namespace PBD; using namespace Gtk; using namespace Gtkmm2ext; using namespace Editing; using std::string; /* Functions supporting the incorporation of external (non-captured) audio material into ardour */ void Editor::add_external_audio_action (ImportMode mode_hint) { if (_session == 0) { ArdourMessageDialog msg (_("You can't import or embed an audiofile until you have a session loaded.")); msg.run (); return; } if (sfbrowser == 0) { sfbrowser = new SoundFileOmega (_("Add Existing Media"), _session, 0, 0, true, mode_hint); } else { sfbrowser->set_mode (mode_hint); } external_audio_dialog (); } void Editor::external_audio_dialog () { vector paths; uint32_t audio_track_cnt; uint32_t midi_track_cnt; if (_session == 0) { ArdourMessageDialog msg (_("You can't import or embed an audiofile until you have a session loaded.")); msg.run (); return; } audio_track_cnt = 0; midi_track_cnt = 0; for (TrackSelection::iterator x = selection->tracks.begin(); x != selection->tracks.end(); ++x) { AudioTimeAxisView* atv = dynamic_cast(*x); if (atv) { if (atv->is_audio_track()) { audio_track_cnt++; } } else { MidiTimeAxisView* mtv = dynamic_cast(*x); if (mtv) { if (mtv->is_midi_track()) { midi_track_cnt++; } } } } if (sfbrowser == 0) { sfbrowser = new SoundFileOmega (_("Add Existing Media"), _session, audio_track_cnt, midi_track_cnt, true); } else { sfbrowser->reset (audio_track_cnt, midi_track_cnt); } sfbrowser->show_all (); } void Editor::session_import_dialog () { SessionImportDialog dialog (_session); dialog.run (); } typedef std::map > SourceMap; /** * Updating is still disabled, see note in libs/ardour/import.cc Session::import_files() * * all_or_nothing: * true = show "Update", "Import" and "Skip" * false = show "Import", and "Cancel" * * Returns: * 0 To update an existing source of the same name * 1 To import/embed the file normally (make sure the new name will be unique) * 2 If the user wants to skip this file **/ int Editor::check_whether_and_how_to_import(string path, bool all_or_nothing) { string wave_name (Glib::path_get_basename(path)); bool already_exists = false; uint32_t existing; if ((existing = _session->count_sources_by_origin (path)) > 0) { already_exists = true; } int function = 1; if (already_exists) { string message; if (all_or_nothing) { // updating is still disabled //message = string_compose(_("The session already contains a source file named %1. Do you want to update that file (and thus all regions using the file) or import this file as a new file?"),wave_name); message = string_compose (_("The session already contains a source file named %1. Do you want to import %1 as a new file, or skip it?"), wave_name); } else { message = string_compose (_("The session already contains a source file named %1. Do you want to import %2 as a new source, or skip it?"), wave_name, wave_name); } ArdourMessageDialog dialog(message, false, Gtk::MESSAGE_QUESTION, Gtk::BUTTONS_NONE, true); if (all_or_nothing) { // disabled //dialog.add_button("Update", 0); dialog.add_button("Import", 1); dialog.add_button("Skip", 2); } else { dialog.add_button("Import", 1); dialog.add_button("Cancel", 2); } //dialog.add_button("Skip all", 4); // All or rest? function = dialog.run (); dialog.hide(); } return function; } boost::shared_ptr Editor::get_nth_selected_audio_track (int nth) const { AudioTimeAxisView* atv; TrackSelection::iterator x; for (x = selection->tracks.begin(); nth > 0 && x != selection->tracks.end(); ++x) { atv = dynamic_cast(*x); if (!atv) { continue; } else if (atv->is_audio_track()) { --nth; } } if (x == selection->tracks.end()) { atv = dynamic_cast(selection->tracks.back()); } else { atv = dynamic_cast(*x); } if (!atv || !atv->is_audio_track()) { return boost::shared_ptr(); } return atv->audio_track(); } boost::shared_ptr Editor::get_nth_selected_midi_track (int nth) const { MidiTimeAxisView* mtv; TrackSelection::iterator x; for (x = selection->tracks.begin(); nth > 0 && x != selection->tracks.end(); ++x) { mtv = dynamic_cast(*x); if (!mtv) { continue; } else if (mtv->is_midi_track()) { --nth; } } if (x == selection->tracks.end()) { mtv = dynamic_cast(selection->tracks.back()); } else { mtv = dynamic_cast(*x); } if (!mtv || !mtv->is_midi_track()) { return boost::shared_ptr(); } return mtv->midi_track(); } void Editor::import_smf_tempo_map (Evoral::SMF const & smf, samplepos_t pos) { if (!_session) { return; } const size_t num_tempos = smf.num_tempos (); if (num_tempos == 0) { return; } const samplecnt_t sample_rate = _session->sample_rate (); TempoMap new_map (sample_rate); Meter last_meter (4.0, 4.0); bool have_initial_meter = false; for (size_t n = 0; n < num_tempos; ++n) { Evoral::SMF::Tempo* t = smf.nth_tempo (n); assert (t); Tempo tempo (t->tempo(), 32.0 / (double) t->notes_per_note); Meter meter (t->numerator, t->denominator); Timecode::BBT_Time bbt; /* 1|1|0 which is correct for the no-meter case */ if (have_initial_meter) { new_map.add_tempo (tempo, t->time_pulses/ (double)smf.ppqn() / 4.0, 0, MusicTime); if (!(meter == last_meter)) { bbt = new_map.bbt_at_quarter_note (t->time_pulses/(double)smf.ppqn()); new_map.add_meter (meter, bbt, 0, MusicTime); } } else { new_map.replace_meter (new_map.meter_section_at_sample (0), meter, bbt, pos, AudioTime); new_map.replace_tempo (new_map.tempo_section_at_sample (0), tempo, 0.0, pos, AudioTime); have_initial_meter = true; } last_meter = meter; } _session->tempo_map() = new_map; } void Editor::do_import (vector paths, ImportDisposition disposition, ImportMode mode, SrcQuality quality, MidiTrackNameSource midi_track_name_source, MidiTempoMapDisposition smf_tempo_disposition, samplepos_t& pos, ARDOUR::PluginInfoPtr instrument) { boost::shared_ptr track; vector to_import; int nth = 0; bool use_timestamp = (pos == -1); if (smf_tempo_disposition == SMFTempoUse) { /* Find the first MIDI file with a tempo map, and import it before we do anything else. */ for (vector::iterator a = paths.begin(); a != paths.end(); ++a) { Evoral::SMF smf; if (smf.open (*a)) { continue; } if (smf.num_tempos() > 0) { import_smf_tempo_map (smf, pos); smf.close (); break; } smf.close (); } } current_interthread_info = &import_status; import_status.current = 1; import_status.total = paths.size (); import_status.all_done = false; import_status.midi_track_name_source = midi_track_name_source; ImportProgressWindow ipw (&import_status, _("Import"), _("Cancel Import")); if (disposition == Editing::ImportMergeFiles) { /* create 1 region from all paths, add to 1 track, ignore "track" */ bool cancel = false; for (vector::iterator a = paths.begin(); a != paths.end(); ++a) { int check = check_whether_and_how_to_import(*a, false); if (check == 2) { cancel = true; break; } } if (!cancel) { ipw.show (); import_sndfiles (paths, disposition, mode, quality, pos, 1, 1, track, false, instrument); import_status.clear(); } } else { bool replace = false; for (vector::iterator a = paths.begin(); a != paths.end() && !import_status.cancel; ++a) { const int check = check_whether_and_how_to_import (*a, true); switch (check) { case 2: // user said skip continue; case 0: fatal << "Updating existing sources should be disabled!" << endmsg; abort(); /* NOTREACHED*/ break; case 1: replace = false; break; default: fatal << "Illegal return " << check << " from check_whether_and_how_to_import()!" << endmsg; abort(); /* NOTREACHED*/ } /* have to reset this for every file we handle */ if (use_timestamp) { pos = -1; } ipw.show (); switch (disposition) { case Editing::ImportDistinctFiles: to_import.clear (); to_import.push_back (*a); if (mode == Editing::ImportToTrack) { track = get_nth_selected_audio_track (nth++); } import_sndfiles (to_import, disposition, mode, quality, pos, 1, -1, track, replace, instrument); import_status.clear(); break; case Editing::ImportDistinctChannels: to_import.clear (); to_import.push_back (*a); import_sndfiles (to_import, disposition, mode, quality, pos, -1, -1, track, replace, instrument); import_status.clear(); break; case Editing::ImportSerializeFiles: to_import.clear (); to_import.push_back (*a); import_sndfiles (to_import, disposition, mode, quality, pos, 1, 1, track, replace, instrument); import_status.clear(); break; case Editing::ImportMergeFiles: // Not entered, handled in earlier if() branch break; } } } import_status.all_done = true; } void Editor::do_embed (vector paths, ImportDisposition import_as, ImportMode mode, samplepos_t& pos, ARDOUR::PluginInfoPtr instrument) { boost::shared_ptr track; bool check_sample_rate = true; vector to_embed; bool multi = paths.size() > 1; int nth = 0; bool use_timestamp = (pos == -1); switch (import_as) { case Editing::ImportDistinctFiles: for (vector::iterator a = paths.begin(); a != paths.end(); ++a) { /* have to reset this for every file we handle */ if (use_timestamp) { pos = -1; } to_embed.clear (); to_embed.push_back (*a); if (mode == Editing::ImportToTrack) { track = get_nth_selected_audio_track (nth++); } if (embed_sndfiles (to_embed, multi, check_sample_rate, import_as, mode, pos, 1, -1, track, instrument) < -1) { /* error, bail out */ return; } } break; case Editing::ImportDistinctChannels: for (vector::iterator a = paths.begin(); a != paths.end(); ++a) { /* have to reset this for every file we handle */ if (use_timestamp) { pos = -1; } to_embed.clear (); to_embed.push_back (*a); if (embed_sndfiles (to_embed, multi, check_sample_rate, import_as, mode, pos, -1, -1, track, instrument) < -1) { /* error, bail out */ return; } } break; case Editing::ImportMergeFiles: if (embed_sndfiles (paths, multi, check_sample_rate, import_as, mode, pos, 1, 1, track, instrument) < -1) { /* error, bail out */ return; } break; case Editing::ImportSerializeFiles: for (vector::iterator a = paths.begin(); a != paths.end(); ++a) { /* have to reset this for every file we handle */ if (use_timestamp) { pos = -1; } to_embed.clear (); to_embed.push_back (*a); if (embed_sndfiles (to_embed, multi, check_sample_rate, import_as, mode, pos, 1, 1, track, instrument) < -1) { /* error, bail out */ return; } } break; } } int Editor::import_sndfiles (vector paths, ImportDisposition disposition, ImportMode mode, SrcQuality quality, samplepos_t& pos, int target_regions, int target_tracks, boost::shared_ptr& track, bool replace, ARDOUR::PluginInfoPtr instrument) { /* skip periodic saves while importing */ Session::StateProtector sp (_session); import_status.paths = paths; import_status.done = false; import_status.freeze = false; import_status.quality = quality; import_status.replace_existing_source = replace; import_status.split_midi_channels = (disposition == Editing::ImportDistinctChannels); import_status.mode = mode; import_status.pos = pos; import_status.target_tracks = target_tracks; import_status.target_regions = target_regions; import_status.track = track; import_status.replace = replace; CursorContext::Handle cursor_ctx = CursorContext::create(*this, _cursors->wait); gdk_flush (); /* start import thread for this spec. this will ultimately call Session::import_files() which, if successful, will add the files as regions to the region list. its up to us (the GUI) to direct additional steps after that. */ pthread_create_and_store ("import", &import_status.thread, _import_thread, this); pthread_detach (import_status.thread); while (!import_status.done && !import_status.cancel) { gtk_main_iteration (); } // wait for thread to terminate while (!import_status.done) { gtk_main_iteration (); } int result = -1; if (!import_status.cancel && !import_status.sources.empty()) { result = add_sources ( import_status.paths, import_status.sources, import_status.pos, disposition, import_status.mode, import_status.target_regions, import_status.target_tracks, track, false, instrument ); /* update position from results */ pos = import_status.pos; } return result; } int Editor::embed_sndfiles (vector paths, bool multifile, bool& check_sample_rate, ImportDisposition disposition, ImportMode mode, samplepos_t& pos, int target_regions, int target_tracks, boost::shared_ptr& track, ARDOUR::PluginInfoPtr instrument) { boost::shared_ptr source; SourceList sources; string linked_path; SoundFileInfo finfo; /* skip periodic saves while importing */ Session::StateProtector sp (_session); CursorContext::Handle cursor_ctx = CursorContext::create(*this, _cursors->wait); gdk_flush (); for (vector::iterator p = paths.begin(); p != paths.end(); ++p) { string path = *p; string error_msg; /* note that we temporarily truncated _id at the colon */ if (!AudioFileSource::get_soundfile_info (path, finfo, error_msg)) { error << string_compose(_("Editor: cannot open file \"%1\", (%2)"), path, error_msg ) << endmsg; return -3; } if (!finfo.seekable) { ArdourMessageDialog msg (string_compose (_("%1\nThis audiofile cannot be embedded. It must be imported!"), short_path (path, 40)), false, Gtk::MESSAGE_ERROR); msg.run (); return -2; } if (check_sample_rate && (finfo.samplerate != (int) _session->sample_rate())) { vector choices; if (multifile) { choices.push_back (_("Cancel entire import")); choices.push_back (_("Don't embed it")); choices.push_back (_("Embed all without questions")); ArdourWidgets::Choice rate_choice ( _("Sample rate"), string_compose (_("%1\nThis audiofile's sample rate doesn't match the session sample rate!"), short_path (path, 40)), choices, false ); int resx = rate_choice.run (); switch (resx) { case 0: /* stop a multi-file import */ return -2; case 1: /* don't embed this one */ return -1; case 2: /* do it, and the rest without asking */ check_sample_rate = false; break; case 3: /* do it */ break; default: return -2; } } else { choices.push_back (_("Cancel")); choices.push_back (_("Embed it anyway")); ArdourWidgets::Choice rate_choice ( _("Sample rate"), string_compose (_("%1\nThis audiofile's sample rate doesn't match the session sample rate!"), path), choices, false ); int resx = rate_choice.run (); switch (resx) { case 0: /* don't import */ return -1; case 1: /* do it */ break; default: return -2; } } } for (int n = 0; n < finfo.channels; ++n) { try { /* check if we have this thing embedded already */ boost::shared_ptr s; if ((s = _session->audio_source_by_path_and_channel (path, n)) == 0) { source = boost::dynamic_pointer_cast ( SourceFactory::createExternal (DataType::AUDIO, *_session, path, n, Source::Flag (0), true, true)); } else { source = boost::dynamic_pointer_cast (s); } sources.push_back(source); } catch (failed_constructor& err) { error << string_compose(_("could not open %1"), path) << endmsg; return -3; } gtk_main_iteration(); } } if (!sources.empty()) { return add_sources (paths, sources, pos, disposition, mode, target_regions, target_tracks, track, true, instrument); } return 0; } int Editor::add_sources (vector paths, SourceList& sources, samplepos_t& pos, ImportDisposition disposition, ImportMode mode, int target_regions, int target_tracks, boost::shared_ptr& track, bool /*add_channel_suffix*/, ARDOUR::PluginInfoPtr instrument) { vector > regions; string region_name; uint32_t input_chan = 0; uint32_t output_chan = 0; bool use_timestamp; vector track_names; use_timestamp = (pos == -1); // kludge (for MIDI we're abusing "channel" for "track" here) if (SMFSource::safe_midi_file_extension (paths.front())) { target_regions = -1; } if (target_regions == 1) { /* take all the sources we have and package them up as a region */ region_name = region_name_from_path (paths.front(), (sources.size() > 1), false); /* we checked in import_sndfiles() that there were not too many */ while (RegionFactory::region_by_name (region_name)) { region_name = bump_name_once (region_name, '.'); } PropertyList plist; plist.add (ARDOUR::Properties::start, 0); plist.add (ARDOUR::Properties::length, sources[0]->length (pos)); plist.add (ARDOUR::Properties::name, region_name); plist.add (ARDOUR::Properties::layer, 0); plist.add (ARDOUR::Properties::whole_file, true); plist.add (ARDOUR::Properties::external, true); boost::shared_ptr r = RegionFactory::create (sources, plist); if (boost::dynamic_pointer_cast(r)) { boost::dynamic_pointer_cast(r)->special_set_position(sources[0]->natural_position()); } regions.push_back (r); /* if we're creating a new track, name it after the cleaned-up * and "merged" region name. */ track_names.push_back (region_name); } else if (target_regions == -1 || target_regions > 1) { /* take each source and create a region for each one */ SourceList just_one; SourceList::iterator x; uint32_t n; for (n = 0, x = sources.begin(); x != sources.end(); ++x, ++n) { just_one.clear (); just_one.push_back (*x); boost::shared_ptr fs = boost::dynamic_pointer_cast (*x); if (sources.size() > 1 && disposition == ImportDistinctChannels) { /* generate a per-channel region name so that things work as * intended */ string path; if (fs) { region_name = basename_nosuffix (fs->path()); } else { region_name = (*x)->name(); } if (sources.size() == 2) { if (n == 0) { region_name += "-L"; } else { region_name += "-R"; } } else if (sources.size() > 2) { region_name += string_compose ("-%1", n+1); } track_names.push_back (region_name); } else { if (fs) { region_name = region_name_from_path (fs->path(), false, false, sources.size(), n); } else { region_name = (*x)->name(); } if (SMFSource::safe_midi_file_extension (paths.front())) { string track_name = string_compose ("%1-t%2", PBD::basename_nosuffix (fs->path()), (n + 1)); track_names.push_back (track_name); } else { track_names.push_back (PBD::basename_nosuffix (paths[n])); } } PropertyList plist; /* Fudge region length to ensure it is non-zero; make it 1 beat at 120bpm for want of a better idea. It can't be too small, otherwise if this is a MIDI region the conversion from samples -> beats -> samples will round it back down to 0 again. */ samplecnt_t len = (*x)->length (pos); if (len == 0) { len = (60.0 / 120.0) * _session->sample_rate (); } plist.add (ARDOUR::Properties::start, 0); plist.add (ARDOUR::Properties::length, len); plist.add (ARDOUR::Properties::name, region_name); plist.add (ARDOUR::Properties::layer, 0); plist.add (ARDOUR::Properties::whole_file, true); plist.add (ARDOUR::Properties::external, true); boost::shared_ptr r = RegionFactory::create (just_one, plist); if (boost::dynamic_pointer_cast(r)) { boost::dynamic_pointer_cast(r)->special_set_position((*x)->natural_position()); } regions.push_back (r); } } if (target_regions == 1) { input_chan = regions.front()->n_channels(); } else { if (target_tracks == 1) { input_chan = regions.size(); } else { input_chan = 1; } } if (Config->get_output_auto_connect() & AutoConnectMaster) { output_chan = (_session->master_out() ? _session->master_out()->n_inputs().n_audio() : input_chan); } else { output_chan = input_chan; } int n = 0; samplepos_t rlen = 0; begin_reversible_command (Operations::insert_file); /* we only use tracks names when importing to new tracks, but we * require that one is defined for every region, just to keep * the API simpler. */ assert (regions.size() == track_names.size()); for (vector >::iterator r = regions.begin(); r != regions.end(); ++r, ++n) { boost::shared_ptr ar = boost::dynamic_pointer_cast (*r); if (use_timestamp) { if (ar) { /* get timestamp for this region */ const boost::shared_ptr s (ar->sources().front()); const boost::shared_ptr as = boost::dynamic_pointer_cast (s); assert (as); if (as->natural_position() != 0) { pos = as->natural_position(); } else if (target_tracks == 1) { /* hmm, no timestamp available, put it after the previous region */ if (n == 0) { pos = get_preferred_edit_position (); } else { pos += rlen; } } else { pos = get_preferred_edit_position (); } } else { /* should really get first position in MIDI file, but for now, use edit position*/ pos = get_preferred_edit_position (); } } finish_bringing_in_material (*r, input_chan, output_chan, pos, mode, track, track_names[n], instrument); rlen = (*r)->length(); if (target_tracks != 1) { track.reset (); } else { if (!use_timestamp || !ar) { /* line each one up right after the other */ pos += (*r)->length(); } } } commit_reversible_command (); /* setup peak file building in another thread */ for (SourceList::iterator x = sources.begin(); x != sources.end(); ++x) { SourceFactory::setup_peakfile (*x, true); } return 0; } int Editor::finish_bringing_in_material (boost::shared_ptr region, uint32_t in_chans, uint32_t out_chans, samplepos_t& pos, ImportMode mode, boost::shared_ptr& existing_track, const string& new_track_name, ARDOUR::PluginInfoPtr instrument) { boost::shared_ptr ar = boost::dynamic_pointer_cast(region); boost::shared_ptr mr = boost::dynamic_pointer_cast(region); switch (mode) { case ImportAsRegion: /* relax, its been done */ break; case ImportToTrack: { if (!existing_track) { if (ar) { existing_track = get_nth_selected_audio_track (0); } else if (mr) { existing_track = get_nth_selected_midi_track (0); } if (!existing_track) { return -1; } } boost::shared_ptr playlist = existing_track->playlist(); boost::shared_ptr copy (RegionFactory::create (region, region->properties())); playlist->clear_changes (); playlist->add_region (copy, pos); if (Config->get_edit_mode() == Ripple) playlist->ripple (pos, copy->length(), copy); _session->add_command (new StatefulDiffCommand (playlist)); break; } case ImportAsTrack: { if (!existing_track) { if (ar) { list > at (_session->new_audio_track (in_chans, out_chans, 0, 1, string(), PresentationInfo::max_order, Normal)); if (at.empty()) { return -1; } if (Config->get_strict_io ()) { for (list >::iterator i = at.begin(); i != at.end(); ++i) { (*i)->set_strict_io (true); } } existing_track = at.front(); } else if (mr) { list > mt ( _session->new_midi_track (ChanCount (DataType::MIDI, 1), ChanCount (DataType::MIDI, 1), Config->get_strict_io () || Profile->get_mixbus (), instrument, (Plugin::PresetRecord*) 0, (RouteGroup*) 0, 1, string(), PresentationInfo::max_order)); if (mt.empty()) { return -1; } // TODO set strict_io from preferences existing_track = mt.front(); } if (!new_track_name.empty()) { existing_track->set_name (new_track_name); } else { existing_track->set_name (region->name()); } } boost::shared_ptr playlist = existing_track->playlist(); boost::shared_ptr copy (RegionFactory::create (region, true)); playlist->clear_changes (); playlist->add_region (copy, pos); _session->add_command (new StatefulDiffCommand (playlist)); break; } } return 0; } void * Editor::_import_thread (void *arg) { SessionEvent::create_per_thread_pool ("import events", 64); Editor *ed = (Editor *) arg; return ed->import_thread (); } void * Editor::import_thread () { _session->import_files (import_status); return 0; }