/* * Copyright (C) 2005-2006 Taybin Rutkin * Copyright (C) 2006-2014 David Robillard * Copyright (C) 2006-2018 Paul Davis * Copyright (C) 2006 Doug McLain * Copyright (C) 2006 Nick Mainsbridge * Copyright (C) 2007-2012 Carl Hetherington * Copyright (C) 2012-2017 Tim Mayberry * Copyright (C) 2012-2019 Robin Gareus * Copyright (C) 2013-2015 John Emmas * Copyright (C) 2013 Colin Fletcher * Copyright (C) 2019-2018 Ben Loftis * * 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. */ #ifdef WAF_BUILD #include "gtk2ardour-config.h" #endif #ifdef PLATFORM_WINDOWS #include #endif #include #include #include #include #include #include #include "pbd/gstdio_compat.h" #include #include #include #include #include "pbd/tokenizer.h" #include "pbd/enumwriter.h" #include "pbd/file_utils.h" #include "pbd/pthread_utils.h" #include "pbd/string_convert.h" #include "pbd/xml++.h" #include #include "evoral/SMF.h" #include "ardour/audio_library.h" #include "ardour/auditioner.h" #include "ardour/audioregion.h" #include "ardour/audiofilesource.h" #include "ardour/midi_region.h" #include "ardour/smf_source.h" #include "ardour/region_factory.h" #include "ardour/source_factory.h" #include "ardour/session.h" #include "ardour/session_directory.h" #include "ardour/srcfilesource.h" #include "ardour/profile.h" #include "ardour_ui.h" #include "editing.h" #include "gui_thread.h" #include "sfdb_ui.h" #include "editing.h" #include "gain_meter.h" #include "main_clock.h" #include "public_editor.h" #include "timers.h" #include "ui_config.h" #include "sfdb_freesound_mootcher.h" #include "pbd/i18n.h" using namespace ARDOUR; using namespace PBD; using namespace std; using namespace Gtk; using namespace Gtkmm2ext; using namespace Editing; using std::string; string SoundFileBrowser::persistent_folder; typedef TreeView::Selection::ListHandle_Path ListPath; static MidiTrackNameSource string2miditracknamesource (string const & str) { if (str == _("by track number")) { return SMFTrackNumber; } else if (str == _("by track name")) { return SMFTrackName; } else if (str == _("by instrument name")) { return SMFInstrumentName; } warning << string_compose (_("programming error: unknown midi track name source string %1"), str) << endmsg; return SMFTrackNumber; } static ImportMode string2importmode (string const & str) { if (str == _("as new tracks")) { return ImportAsTrack; } else if (str == _("to selected tracks")) { return ImportToTrack; } else if (str == _("to source list")) { return ImportAsRegion; } warning << string_compose (_("programming error: unknown import mode string %1"), str) << endmsg; return ImportAsTrack; } static string importmode2string (ImportMode mode) { switch (mode) { case ImportAsTrack: return _("as new tracks"); case ImportToTrack: return _("to selected tracks"); case ImportAsRegion: return _("to source list"); case ImportAsTrigger: /* TODO: n/a */ break; } abort(); /*NOTREACHED*/ return _("as new tracks"); } SoundFileBox::SoundFileBox (bool /*persistent*/) : table (7, 2), length_clock ("sfboxLengthClock", true, "", false, false, true, false), timecode_clock ("sfboxTimecodeClock", true, "", false, false, false, false), main_box (false, 6), autoplay_btn (_("Auto-play")), seek_slider(0,1000,1), _seeking(false), _src_quality (SrcBest), _import_position (ImportAtTimestamp) { set_name (X_("SoundFileBox")); preview_label.set_markup (_("Sound File Information")); border_frame.set_label_widget (preview_label); border_frame.add (main_box); pack_start (border_frame, true, true); set_border_width (6); main_box.set_border_width (6); length.set_text (_("Length:")); length.set_alignment (1, 0.5); timecode.set_text (_("Timestamp:")); timecode.set_alignment (1, 0.5); format.set_text (_("Format:")); format.set_alignment (1, 0.5); channels.set_text (_("Channels:")); channels.set_alignment (1, 0.5); samplerate.set_text (_("Sample rate:")); samplerate.set_alignment (1, 0.5); tempomap.set_text (_("Tempo Map:")); tempomap.set_alignment (1, 0.5); preview_label.set_max_width_chars (50); preview_label.set_ellipsize (Pango::ELLIPSIZE_END); format_text.set_max_width_chars (20); format_text.set_ellipsize (Pango::ELLIPSIZE_END); format_text.set_alignment (0, 1); table.set_col_spacings (6); table.set_homogeneous (false); table.set_row_spacings (6); int row = 0; table.attach (format, 0, 1, row, row+2, FILL, FILL); row+=2; table.attach (channels, 0, 1, row, row+1, FILL, FILL); row+=1; table.attach (samplerate, 0, 1, row, row+1, FILL, FILL); row+=1; table.attach (length, 0, 1, row, row+1, FILL, FILL); row+=1; table.attach (timecode, 0, 1, row, row+1, FILL, FILL); row+=1; table.attach (tempomap, 0, 1, row, row+1, FILL, FILL); row = 0; table.attach (format_text, 1, 2, row, row+2, FILL, FILL); row+=2; table.attach (channels_value, 1, 2, row, row+1, FILL, FILL); row+=1; table.attach (samplerate_value,1, 2, row, row+1, FILL, FILL); row+=1; table.attach (length_clock, 1, 2, row, row+1, FILL, FILL); row+=1; table.attach (timecode_clock, 1, 2, row, row+1, FILL, FILL); row+=1; table.attach (tempomap_value, 1, 2, row, row+1, FILL, FILL); row+=1; length_clock.set_is_duration (true, timepos_t()); length_clock.set_mode (ARDOUR_UI::instance()->primary_clock->mode()); timecode_clock.set_mode (AudioClock::Timecode); main_box.pack_start (table, false, false); tags_entry.set_editable (true); tags_entry.set_wrap_mode(Gtk::WRAP_WORD); tags_entry.signal_focus_out_event().connect (sigc::mem_fun (*this, &SoundFileBox::tags_entry_left)); Label* label = manage (new Label (_("Tags:"))); label->set_alignment (0.0f, 0.5f); main_box.pack_start (*label, false, false); main_box.pack_start (tags_entry, true, true); main_box.pack_start (bottom_box, false, false); play_btn.set_image (*(manage (new Image (Stock::MEDIA_PLAY, ICON_SIZE_BUTTON)))); // play_btn.set_label (_("Play")); stop_btn.set_image (*(manage (new Image (Stock::MEDIA_STOP, ICON_SIZE_BUTTON)))); // stop_btn.set_label (_("Stop")); bottom_box.set_homogeneous (false); bottom_box.set_spacing (6); bottom_box.pack_start(play_btn, true, true); bottom_box.pack_start(stop_btn, true, true); bottom_box.pack_start(autoplay_btn, false, false); seek_slider.set_draw_value(false); seek_slider.add_events(Gdk::BUTTON_PRESS_MASK|Gdk::BUTTON_RELEASE_MASK); seek_slider.signal_button_press_event().connect(sigc::mem_fun(*this, &SoundFileBox::seek_button_press), false); seek_slider.signal_button_release_event().connect(sigc::mem_fun(*this, &SoundFileBox::seek_button_release), false); main_box.pack_start (seek_slider, false, false); play_btn.signal_clicked().connect (sigc::mem_fun (*this, &SoundFileBox::audition)); stop_btn.signal_clicked().connect (sigc::mem_fun (*this, &SoundFileBox::stop_audition)); update_autoplay (); autoplay_btn.signal_toggled().connect(sigc::mem_fun (*this, &SoundFileBox::autoplay_toggled)); stop_btn.set_sensitive (false); channels_value.set_alignment (0.0f, 0.5f); samplerate_value.set_alignment (0.0f, 0.5f); } void SoundFileBox::on_size_request (Gtk::Requisition* req) { VBox::on_size_request (req); req->width = std::max (req->width, 300 * UIConfiguration::instance().get_ui_scale ()); } void SoundFileBox::set_session(Session* s) { SessionHandlePtr::set_session (s); length_clock.set_session (s); timecode_clock.set_session (s); if (!_session) { play_btn.set_sensitive (false); stop_btn.set_sensitive (false); auditioner_connections.drop_connections(); } else { auditioner_connections.drop_connections(); _session->AuditionActive.connect(auditioner_connections, invalidator (*this), boost::bind (&SoundFileBox::audition_active, this, _1), gui_context()); _session->the_auditioner()->AuditionProgress.connect(auditioner_connections, invalidator (*this), boost::bind (&SoundFileBox::audition_progress, this, _1, _2), gui_context()); } } void SoundFileBox::audition_active(bool active) { stop_btn.set_sensitive (active); seek_slider.set_sensitive (active); if (!active) { seek_slider.set_value(0); _seeking = false; } } void SoundFileBox::audition_progress(ARDOUR::samplecnt_t pos, ARDOUR::samplecnt_t len) { if (!_seeking) { seek_slider.set_value( 1000.0 * pos / len); seek_slider.set_sensitive (true); } } bool SoundFileBox::seek_button_press(GdkEventButton*) { _seeking = true; return false; // pass on to slider } bool SoundFileBox::seek_button_release(GdkEventButton*) { _seeking = false; _session->the_auditioner()->seek_to_percent(seek_slider.get_value() / 10.0); seek_slider.set_sensitive (false); return false; // pass on to slider } bool SoundFileBox::setup_labels (const string& filename) { if (!path.empty()) { // save existing tags tags_changed (); } path = filename; string error_msg; if (SMFSource::valid_midi_file (path)) { boost::shared_ptr ms; try { ms = boost::dynamic_pointer_cast ( SourceFactory::createExternal (DataType::MIDI, *_session, path, 0, Source::Flag (0), false)); } catch (const std::exception& e) { error << string_compose(_("Could not read file: %1 (%2)."), path, e.what()) << endmsg; } preview_label.set_markup (_("Midi File Information")); samplerate_value.set_text ("-"); tags_entry.get_buffer()->set_text (""); timecode_clock.set (timepos_t ()); tags_entry.set_sensitive (false); if (ms) { if (ms->smf_format()==0) { format_text.set_text ("MIDI Type 0"); } else { format_text.set_text (string_compose("%1 (%2 Tracks)", ms->smf_format()==2 ? "MIDI Type 2" : "MIDI Type 1", ms->num_tracks())); } channels_value.set_text (ARDOUR_UI_UTILS::midi_channels_as_string (ms->used_channels())); length_clock.set_duration (timecnt_t (0)); switch (ms->num_tempos()) { case 0: tempomap_value.set_text (_("No tempo data")); break; case 1: { Evoral::SMF::Tempo* t = ms->nth_tempo (0); assert (t); tempomap_value.set_text (string_compose (_("%1/%2 \u2669 = %3"), t->numerator, t->denominator, t->tempo ())); break; } default: tempomap_value.set_text (string_compose (_("map with %1 sections"), ms->num_tempos())); break; } } else { channels_value.set_text (""); length_clock.set (timepos_t()); tempomap_value.set_text (_("No tempo data")); } if (_session && ms) { play_btn.set_sensitive (true); } else { play_btn.set_sensitive (false); } return true; } if(!AudioFileSource::get_soundfile_info (filename, sf_info, error_msg)) { preview_label.set_markup (_("Sound File Information")); format_text.set_text (""); channels_value.set_text (""); samplerate_value.set_text (""); tags_entry.get_buffer()->set_text (""); length_clock.set (timepos_t()); timecode_clock.set (timepos_t()); tags_entry.set_sensitive (false); play_btn.set_sensitive (false); return false; } preview_label.set_markup (string_compose ("%1", Glib::Markup::escape_text (Glib::path_get_basename (filename)))); std::string n = sf_info.format_name; if (n.substr (0, 8) == X_("Format: ")) { n = n.substr (8); } format_text.set_text (n); channels_value.set_text (to_string (sf_info.channels)); if (_session && sf_info.samplerate != _session->sample_rate()) { samplerate.set_markup (string_compose ("%1", _("Sample rate:"))); samplerate_value.set_markup (string_compose (X_("%1 Hz"), sf_info.samplerate)); samplerate_value.set_name ("NewSessionSR1Label"); samplerate.set_name ("NewSessionSR1Label"); } else { samplerate.set_text (_("Sample rate:")); samplerate_value.set_text (string_compose (X_("%1 Hz"), sf_info.samplerate)); samplerate_value.set_name ("NewSessionSR2Label"); samplerate.set_name ("NewSessionSR2Label"); } samplecnt_t const nfr = _session ? _session->nominal_sample_rate() : 25; double src_coef = (double) nfr / sf_info.samplerate; length_clock.set_is_duration (true, timepos_t()); length_clock.set_duration (timecnt_t (samplecnt_t (llrint (sf_info.length * src_coef + 0.5))), true); timecode_clock.set (timepos_t (samplepos_t (llrint (sf_info.timecode * src_coef + 0.5))), true); // this is a hack that is fixed in trunk, i think (august 26th, 2007) vector tags = Library->get_tags (string ("//") + filename); stringstream tag_string; for (vector::iterator i = tags.begin(); i != tags.end(); ++i) { if (i != tags.begin()) { tag_string << ", "; } tag_string << *i; } tags_entry.get_buffer()->set_text (tag_string.str()); tags_entry.set_sensitive (true); if (_session) { play_btn.set_sensitive (true); } return true; } void SoundFileBox::update_autoplay () { const bool config_autoplay = UIConfiguration::instance().get_autoplay_files(); if (autoplay_btn.get_active() != config_autoplay) { autoplay_btn.set_active (config_autoplay); } } void SoundFileBox::autoplay_toggled() { UIConfiguration::instance().set_autoplay_files(autoplay_btn.get_active()); } bool SoundFileBox::autoplay() const { return autoplay_btn.get_active(); } bool SoundFileBox::audition_oneshot() { audition (); return false; } void SoundFileBox::audition () { if (!_session) { return; } _session->cancel_audition(); if (!Glib::file_test (path, Glib::FILE_TEST_EXISTS)) { warning << string_compose(_("Could not read file: %1 (%2)."), path, strerror(errno)) << endmsg; return; } boost::shared_ptr r; if (SMFSource::valid_midi_file (path)) { boost::shared_ptr ms = boost::dynamic_pointer_cast ( SourceFactory::createExternal (DataType::MIDI, *_session, path, 0, Source::Flag (0), false)); string rname = region_name_from_path (ms->path(), false); PropertyList plist; plist.add (ARDOUR::Properties::start, timepos_t (Temporal::Beats())); plist.add (ARDOUR::Properties::length, ms->length()); plist.add (ARDOUR::Properties::name, rname); plist.add (ARDOUR::Properties::layer, 0); r = boost::dynamic_pointer_cast (RegionFactory::create (boost::dynamic_pointer_cast(ms), plist, false)); assert(r); } else { SourceList srclist; boost::shared_ptr afs; bool old_sbp = AudioSource::get_build_peakfiles (); /* don't even think of building peakfiles for these files */ AudioSource::set_build_peakfiles (false); for (int n = 0; n < sf_info.channels; ++n) { try { afs = boost::dynamic_pointer_cast ( SourceFactory::createExternal (DataType::AUDIO, *_session, path, n, Source::Flag (ARDOUR::AudioFileSource::NoPeakFile), false)); if (afs->sample_rate() != _session->nominal_sample_rate()) { boost::shared_ptr sfs (new SrcFileSource(*_session, afs, _src_quality)); srclist.push_back(sfs); } else { srclist.push_back(afs); } } catch (failed_constructor& err) { error << _("Could not access soundfile: ") << path << endmsg; AudioSource::set_build_peakfiles (old_sbp); return; } } AudioSource::set_build_peakfiles (old_sbp); if (srclist.empty()) { return; } afs = boost::dynamic_pointer_cast (srclist[0]); string rname = region_name_from_path (afs->path(), false); PropertyList plist; plist.add (ARDOUR::Properties::start, timepos_t (0)); plist.add (ARDOUR::Properties::length, srclist[0]->length()); plist.add (ARDOUR::Properties::name, rname); plist.add (ARDOUR::Properties::layer, 0); r = boost::dynamic_pointer_cast (RegionFactory::create (srclist, plist, false)); } timepos_t audition_position; switch (_import_position) { case ImportAtTimestamp: break; case ImportAtPlayhead: audition_position = timepos_t (_session->transport_sample()); break; case ImportAtStart: audition_position = timepos_t (_session->current_start_sample()); break; case ImportAtEditPoint: audition_position = PublicEditor::instance().get_preferred_edit_position (); break; } r->set_position(audition_position); _session->audition_region(r); } void SoundFileBox::stop_audition () { if (_session) { _session->cancel_audition(); } } bool SoundFileBox::tags_entry_left (GdkEventFocus *) { tags_changed (); return false; } void SoundFileBox::tags_changed () { string tag_string = tags_entry.get_buffer()->get_text (); if (tag_string.empty()) { return; } vector tags; if (!PBD::tokenize (tag_string, string(",\n"), std::back_inserter (tags), true)) { warning << _("SoundFileBox: Could not tokenize string: ") << tag_string << endmsg; return; } save_tags (tags); } void SoundFileBox::save_tags (const vector& tags) { Library->set_tags (string ("//") + path, tags); Library->save_changes (); } SoundFileBrowser::SoundFileBrowser (string title, ARDOUR::Session* s, bool persistent) : ArdourWindow (title) , found_list (ListStore::create(found_list_columns)) , freesound_list (ListStore::create(freesound_list_columns)) , chooser (FILE_CHOOSER_ACTION_OPEN) , preview (persistent) , found_search_btn (_("Search")) , found_list_view (found_list) , freesound_search_btn (_("Search")) , freesound_list_view (freesound_list) , resetting_ourselves (false) , matches (0) , _status (0) , _done (false) , import_button (_("Import")) , gm (0) { #ifdef __APPLE__ try { /* add_shortcut_folder throws an exception if the folder being added already has a shortcut */ chooser.add_shortcut_folder_uri("file:///Library/GarageBand/Apple Loops"); chooser.add_shortcut_folder_uri("file:///Library/Audio/Apple Loops"); chooser.add_shortcut_folder_uri("file:///Library/Application Support/GarageBand/Instrument Library/Sampler/Sampler Files"); } catch (Glib::Error & e) { std::cerr << "sfdb.add_shortcut_folder() threw Glib::Error " << e.what() << std::endl; } #endif Gtkmm2ext::add_volume_shortcuts (chooser); //add the file chooser chooser.set_border_width (12); audio_and_midi_filter.add_custom (FILE_FILTER_FILENAME, sigc::mem_fun (*this, &SoundFileBrowser::on_audio_and_midi_filter)); audio_and_midi_filter.set_name (_("Audio and MIDI files")); audio_filter.add_custom (FILE_FILTER_FILENAME, sigc::mem_fun(*this, &SoundFileBrowser::on_audio_filter)); audio_filter.set_name (_("Audio files")); midi_filter.add_custom (FILE_FILTER_FILENAME, sigc::mem_fun(*this, &SoundFileBrowser::on_midi_filter)); midi_filter.set_name (_("MIDI files")); matchall_filter.add_pattern ("*.*"); matchall_filter.set_name (_("All files")); chooser.add_filter (audio_and_midi_filter); chooser.add_filter (audio_filter); chooser.add_filter (midi_filter); chooser.add_filter (matchall_filter); chooser.set_select_multiple (true); chooser.signal_update_preview().connect(sigc::mem_fun(*this, &SoundFileBrowser::update_preview)); chooser.signal_file_activated().connect (sigc::mem_fun (*this, &SoundFileBrowser::chooser_file_activated)); #ifdef __APPLE__ /* some broken redraw behaviour - this is a bandaid */ chooser.signal_selection_changed().connect (mem_fun (chooser, &Widget::queue_draw)); #endif if (!persistent_folder.empty()) { chooser.set_current_folder (persistent_folder); } notebook.append_page (chooser, _("Browse Files")); hpacker.set_spacing (6); hpacker.pack_start (notebook, true, true); hpacker.pack_start (preview, false, false); vpacker.set_spacing (6); vpacker.pack_start (hpacker, true, true); add (vpacker); //add tag search VBox* vbox; HBox* hbox; hbox = manage(new HBox); hbox->pack_start (found_entry); hbox->pack_start (found_search_btn); Gtk::ScrolledWindow *scroll = manage(new ScrolledWindow); scroll->add(found_list_view); scroll->set_policy(Gtk::POLICY_AUTOMATIC, Gtk::POLICY_AUTOMATIC); vbox = manage(new VBox); vbox->pack_start (*hbox, PACK_SHRINK); vbox->pack_start (*scroll); found_list_view.append_column(_("Paths"), found_list_columns.pathname); found_list_view.get_selection()->signal_changed().connect(sigc::mem_fun(*this, &SoundFileBrowser::found_list_view_selected)); found_list_view.signal_row_activated().connect (sigc::mem_fun (*this, &SoundFileBrowser::found_list_view_activated)); found_search_btn.signal_clicked().connect(sigc::mem_fun(*this, &SoundFileBrowser::found_search_clicked)); found_entry.signal_activate().connect(sigc::mem_fun(*this, &SoundFileBrowser::found_search_clicked)); notebook.append_page (*vbox, _("Search Tags")); //add freesound search #ifdef FREESOUND_GOT_FIXED HBox* passbox; Label* label; passbox = manage(new HBox); passbox->set_spacing (6); label = manage (new Label); label->set_text (_("Tags:")); passbox->pack_start (*label, false, false); passbox->pack_start (freesound_entry, true, true); label = manage (new Label); label->set_text (_("Sort:")); passbox->pack_start (*label, false, false); passbox->pack_start (freesound_sort, false, false); freesound_sort.clear_items(); // Order of the following must correspond with enum sortMethod // in sfdb_freesound_mootcher.h freesound_sort.append_text(_("None")); freesound_sort.append_text(_("Longest")); freesound_sort.append_text(_("Shortest")); freesound_sort.append_text(_("Newest")); freesound_sort.append_text(_("Oldest")); freesound_sort.append_text(_("Most downloaded")); freesound_sort.append_text(_("Least downloaded")); freesound_sort.append_text(_("Highest rated")); freesound_sort.append_text(_("Lowest rated")); freesound_sort.set_active(0); passbox->pack_start (freesound_search_btn, false, false); passbox->pack_start (freesound_more_btn, false, false); freesound_more_btn.set_label(_("More")); freesound_more_btn.set_sensitive(false); passbox->pack_start (freesound_similar_btn, false, false); freesound_similar_btn.set_label(_("Similar")); freesound_similar_btn.set_sensitive(false); scroll = manage(new ScrolledWindow); scroll->add(freesound_list_view); scroll->set_policy(Gtk::POLICY_AUTOMATIC, Gtk::POLICY_AUTOMATIC); vbox = manage(new VBox); vbox->set_spacing (3); vbox->pack_start (*passbox, PACK_SHRINK); vbox->pack_start (*scroll); freesound_list_view.append_column(_("ID") , freesound_list_columns.id); freesound_list_view.append_column(_("Filename"), freesound_list_columns.filename); // freesound_list_view.append_column(_("URI") , freesound_list_columns.uri); freesound_list_view.append_column(_("Duration"), freesound_list_columns.duration); freesound_list_view.append_column(_("Size"), freesound_list_columns.filesize); freesound_list_view.append_column(_("Samplerate"), freesound_list_columns.smplrate); freesound_list_view.append_column(_("License"), freesound_list_columns.license); freesound_list_view.get_column(0)->set_alignment(0.5); freesound_list_view.get_column(1)->set_expand(true); // filename freesound_list_view.get_column(1)->set_resizable(true); // filename freesound_list_view.get_column(2)->set_alignment(0.5); freesound_list_view.get_column(3)->set_alignment(0.5); freesound_list_view.get_column(4)->set_alignment(0.5); freesound_list_view.get_column(5)->set_alignment(0.5); freesound_list_view.get_selection()->signal_changed().connect(sigc::mem_fun(*this, &SoundFileBrowser::freesound_list_view_selected)); freesound_list_view.set_tooltip_column(1); freesound_list_view.get_selection()->set_mode (SELECTION_MULTIPLE); freesound_list_view.signal_row_activated().connect (sigc::mem_fun (*this, &SoundFileBrowser::freesound_list_view_activated)); freesound_search_btn.signal_clicked().connect(sigc::mem_fun(*this, &SoundFileBrowser::freesound_search_clicked)); freesound_entry.signal_activate().connect(sigc::mem_fun(*this, &SoundFileBrowser::freesound_search_clicked)); freesound_more_btn.signal_clicked().connect(sigc::mem_fun(*this, &SoundFileBrowser::freesound_more_clicked)); freesound_similar_btn.signal_clicked().connect(sigc::mem_fun(*this, &SoundFileBrowser::freesound_similar_clicked)); notebook.append_page (*vbox, _("Search Freesound")); #endif notebook.set_size_request (500, -1); notebook.signal_switch_page().connect (sigc::hide_return (sigc::hide (sigc::hide (sigc::mem_fun (*this, &SoundFileBrowser::reset_options))))); set_session (s); Gtk::HButtonBox* button_box = manage (new HButtonBox); button_box->set_layout (BUTTONBOX_END); button_box->pack_start (import_button, false, false); import_button.signal_clicked().connect (sigc::bind (sigc::mem_fun (*this, &SoundFileBrowser::do_something), RESPONSE_OK)); Gtkmm2ext::UI::instance()->set_tip (import_button, _("Press to import selected files")); vpacker.pack_end (*button_box, false, false); set_wmclass (X_("import"), PROGRAM_NAME); } SoundFileBrowser::~SoundFileBrowser () { persistent_folder = chooser.get_current_folder(); } int SoundFileBrowser::run () { set_modal (true); show_all (); present (); _done = false; while (!_done) { gtk_main_iteration (); } return _status; } void SoundFileBrowser::set_action_sensitive (bool yn) { import_button.set_sensitive (yn); } bool SoundFileBrowser::get_action_sensitive () const { return import_button.get_sensitive (); } void SoundFileBrowser::do_something (int action) { _done = true; _status = action; } void SoundFileBrowser::on_show () { ArdourWindow::on_show (); reset_options (); start_metering (); } bool SoundFileBrowser::on_key_press_event (GdkEventKey* ev) { if (ev->keyval == GDK_Escape) { do_something (RESPONSE_CLOSE); return true; } if (ev->keyval == GDK_space && ev->type == GDK_KEY_PRESS) { if (get_action_sensitive()) { preview.audition(); return true; } } return ArdourWindow::on_key_press_event (ev); } void SoundFileBrowser::clear_selection () { chooser.unselect_all (); found_list_view.get_selection()->unselect_all (); } void SoundFileBrowser::chooser_file_activated () { do_something (RESPONSE_OK); } void SoundFileBrowser::found_list_view_activated (const TreeModel::Path&, TreeViewColumn*) { preview.audition (); } void SoundFileBrowser::freesound_list_view_activated (const TreeModel::Path&, TreeViewColumn*) { preview.audition (); } void SoundFileBrowser::set_session (Session* s) { ArdourWindow::set_session (s); preview.set_session (s); if (_session) { add_gain_meter (); } else { remove_gain_meter (); } } void SoundFileBrowser::add_gain_meter () { delete gm; gm = new GainMeter (_session, 250); boost::shared_ptr r = _session->the_auditioner (); gm->set_controls (r, r->shared_peak_meter(), r->amp(), r->gain_control()); gm->set_fader_name (X_("GainFader")); meter_packer.set_border_width (12); meter_packer.pack_start (*gm, false, true); hpacker.pack_end (meter_packer, false, false); meter_packer.show_all (); start_metering (); } void SoundFileBrowser::remove_gain_meter () { if (gm) { meter_packer.remove (*gm); hpacker.remove (meter_packer); delete gm; gm = 0; } } void SoundFileBrowser::start_metering () { metering_connection = Timers::super_rapid_connect (sigc::mem_fun(*this, &SoundFileBrowser::meter)); } void SoundFileBrowser::stop_metering () { metering_connection.disconnect(); } void SoundFileBrowser::meter () { if (get_mapped () && _session && gm) { gm->update_meters (); } } bool SoundFileBrowser::on_audio_filter (const FileFilter::Info& filter_info) { return AudioFileSource::safe_audio_file_extension (filter_info.filename); } bool SoundFileBrowser::on_midi_filter (const FileFilter::Info& filter_info) { return SMFSource::safe_midi_file_extension (filter_info.filename); } bool SoundFileBrowser::on_audio_and_midi_filter (const FileFilter::Info& filter_info) { return on_audio_filter (filter_info) || on_midi_filter (filter_info); } void SoundFileBrowser::update_preview () { if (preview.setup_labels (chooser.get_preview_filename())) { if (preview.autoplay()) { Glib::signal_idle().connect (sigc::mem_fun (preview, &SoundFileBox::audition_oneshot)); } } } void SoundFileBrowser::found_list_view_selected () { if (!reset_options ()) { set_action_sensitive (false); } else { string file; ListPath rows = found_list_view.get_selection()->get_selected_rows (); if (!rows.empty()) { TreeIter iter = found_list->get_iter(*rows.begin()); file = (*iter)[found_list_columns.pathname]; chooser.set_filename (file); set_action_sensitive (true); } else { set_action_sensitive (false); } preview.setup_labels (file); } } void SoundFileBrowser::found_search_clicked () { string tag_string = found_entry.get_text (); vector tags; if (!PBD::tokenize (tag_string, string(","), std::back_inserter (tags), true)) { warning << _("SoundFileBrowser: Could not tokenize string: ") << tag_string << endmsg; return; } vector results; Library->search_members_and (results, tags); found_list->clear(); for (vector::iterator i = results.begin(); i != results.end(); ++i) { TreeModel::iterator new_row = found_list->append(); TreeModel::Row row = *new_row; string path = Glib::filename_from_uri (string ("file:") + *i); row[found_list_columns.pathname] = path; } } std::string SoundFileBrowser::freesound_get_audio_file(Gtk::TreeIter iter) { Mootcher *mootcher = new Mootcher; std::string file; string id = (*iter)[freesound_list_columns.id]; string uri = (*iter)[freesound_list_columns.uri]; string ofn = (*iter)[freesound_list_columns.filename]; if (mootcher->checkAudioFile(ofn, id)) { // file already exists, no need to download it again file = mootcher->audioFileName; delete mootcher; (*iter)[freesound_list_columns.started] = false; return file; } if (!(*iter)[freesound_list_columns.started]) { // start downloading the sound file (*iter)[freesound_list_columns.started] = true; mootcher->fetchAudioFile(ofn, id, uri, this); } return ""; } void SoundFileBrowser::freesound_list_view_selected () { if (!reset_options ()) { set_action_sensitive (false); } else { std::string file; ListPath rows = freesound_list_view.get_selection()->get_selected_rows (); for (ListPath::iterator i = rows.begin() ; i != rows.end(); ++i) { file = freesound_get_audio_file (freesound_list->get_iter(*i)); } switch (rows.size()) { case 0: // nothing selected freesound_similar_btn.set_sensitive(false); set_action_sensitive (false); break; case 1: // exactly one item selected if (file != "") { // file exists on disk already chooser.set_filename (file); preview.setup_labels (file); set_action_sensitive (true); } freesound_similar_btn.set_sensitive(true); break; default: // multiple items selected preview.setup_labels (""); freesound_similar_btn.set_sensitive(false); break; } } } void SoundFileBrowser::refresh_display(std::string ID, std::string file) { // called when the mootcher has finished downloading a file ListPath rows = freesound_list_view.get_selection()->get_selected_rows (); if (rows.size() == 1) { // there's a single item selected in the freesound list //XXX make a function to be used to construct the actual file name both here and in the mootcher Gtk::TreeIter row = freesound_list->get_iter(*rows.begin()); std::string selected_ID = (*row)[freesound_list_columns.id]; if (ID == selected_ID) { // the selected item in the freesound list is the item that has just finished downloading chooser.set_filename(file); preview.setup_labels (file); set_action_sensitive (true); } } } void SoundFileBrowser::freesound_search_clicked () { freesound_page = 1; freesound_list->clear(); matches = 0; freesound_search(); } void SoundFileBrowser::freesound_more_clicked () { char row_path[21]; freesound_page++; freesound_search(); snprintf(row_path, 21, "%d", (freesound_page - 1) * 100); freesound_list_view.scroll_to_row(Gtk::TreePath(row_path), 0); } void SoundFileBrowser::freesound_similar_clicked () { ListPath rows = freesound_list_view.get_selection()->get_selected_rows (); if (rows.size() == 1) { Mootcher mootcher; string id; Gtk::TreeIter iter = freesound_list->get_iter(*rows.begin()); id = (*iter)[freesound_list_columns.id]; freesound_list->clear(); GdkCursor *prev_cursor; prev_cursor = gdk_window_get_cursor (get_window()->gobj()); gdk_window_set_cursor (get_window()->gobj(), gdk_cursor_new(GDK_WATCH)); gdk_flush(); std::string theString = mootcher.searchSimilar(id); gdk_window_set_cursor (get_window()->gobj(), prev_cursor); handle_freesound_results(theString); } } void SoundFileBrowser::freesound_search() { Mootcher mootcher; string search_string = freesound_entry.get_text (); enum sortMethod sort_method = (enum sortMethod) freesound_sort.get_active_row_number(); GdkCursor *prev_cursor; prev_cursor = gdk_window_get_cursor (get_window()->gobj()); gdk_window_set_cursor (get_window()->gobj(), gdk_cursor_new(GDK_WATCH)); gdk_flush(); std::string theString = mootcher.searchText( search_string, freesound_page, #ifdef __APPLE__ "", // OSX eats anything incl mp3 #else "type:wav OR type:aiff OR type:flac OR type:aif OR type:ogg OR type:oga", #endif sort_method ); gdk_window_set_cursor (get_window()->gobj(), prev_cursor); handle_freesound_results(theString); } void SoundFileBrowser::handle_freesound_results(std::string theString) { XMLTree doc; doc.read_buffer (theString.c_str()); XMLNode *root = doc.root(); if (!root) { error << "no root XML node!" << endmsg; return; } if ( strcmp(root->name().c_str(), "response") != 0) { error << string_compose ("root node name == %1 != \"response\"", root->name()) << endmsg; return; } // find out how many pages are available to search int freesound_n_pages = 1; XMLNode *res = root->child("num_pages"); if (res) { string result = res->child("text")->content(); freesound_n_pages = atoi(result); } int more_pages = freesound_n_pages - freesound_page; if (more_pages > 0) { freesound_more_btn.set_sensitive(true); freesound_more_btn.set_tooltip_text(string_compose(P_( "%1 more page of 100 results available", "%1 more pages of 100 results available", more_pages), more_pages)); } else { freesound_more_btn.set_sensitive(false); freesound_more_btn.set_tooltip_text(_("No more results available")); } XMLNode *sounds_root = root->child("sounds"); if (!sounds_root) { error << "no child node \"sounds\" found!" << endmsg; return; } XMLNodeList sounds = sounds_root->children(); if (sounds.size() == 0) { /* nothing found */ return; } XMLNodeConstIterator niter; XMLNode *node; for (niter = sounds.begin(); niter != sounds.end(); ++niter) { node = *niter; if( strcmp( node->name().c_str(), "resource") != 0 ) { error << string_compose ("node->name()=%1 != \"resource\"", node->name()) << endmsg; break; } // node->dump(cerr, "node:"); XMLNode *id_node = node->child ("id"); XMLNode *uri_node = node->child ("serve"); XMLNode *ofn_node = node->child ("original_filename"); XMLNode *dur_node = node->child ("duration"); XMLNode *siz_node = node->child ("filesize"); XMLNode *srt_node = node->child ("samplerate"); XMLNode *lic_node = node->child ("license"); if (id_node && uri_node && ofn_node && dur_node && siz_node && srt_node) { std::string id = id_node->child("text")->content(); std::string uri = uri_node->child("text")->content(); std::string ofn = ofn_node->child("text")->content(); std::string dur = dur_node->child("text")->content(); std::string siz = siz_node->child("text")->content(); std::string srt = srt_node->child("text")->content(); std::string lic = lic_node->child("text")->content(); std::string r; // cerr << "id=" << id << ",uri=" << uri << ",ofn=" << ofn << ",dur=" << dur << endl; double duration_seconds = atof(dur); double h, m, s; char duration_hhmmss[16]; if (duration_seconds >= 99 * 60 * 60) { strcpy(duration_hhmmss, ">99h"); } else { s = modf(duration_seconds/60, &m) * 60; m = modf(m/60, &h) * 60; sprintf(duration_hhmmss, "%02.fh:%02.fm:%04.1fs", h, m, s ); } double size_bytes = atof(siz); char bsize[32]; if (size_bytes < 1000) { sprintf(bsize, "%.0f %s", size_bytes, _("B")); } else if (size_bytes < 1000000 ) { sprintf(bsize, "%.1f %s", size_bytes / 1000.0, _("kB")); } else if (size_bytes < 10000000) { sprintf(bsize, "%.1f %s", size_bytes / 1000000.0, _("MB")); } else if (size_bytes < 1000000000) { sprintf(bsize, "%.2f %s", size_bytes / 1000000.0, _("MB")); } else { sprintf(bsize, "%.2f %s", size_bytes / 1000000000.0, _("GB")); } /* see http://www.freesound.org/help/faq/#licenses */ char shortlicense[64]; if(!lic.compare(0, 42, "http://creativecommons.org/licenses/by-nc/")){ sprintf(shortlicense, "CC-BY-NC"); } else if(!lic.compare(0, 39, "http://creativecommons.org/licenses/by/")) { sprintf(shortlicense, "CC-BY"); } else if(!lic.compare("http://creativecommons.org/licenses/sampling+/1.0/")) { sprintf(shortlicense, "sampling+"); } else if(!lic.compare(0, 40, "http://creativecommons.org/publicdomain/")) { sprintf(shortlicense, "PD"); } else { snprintf(shortlicense, 64, "%s", lic.c_str()); shortlicense[63]= '\0'; } TreeModel::iterator new_row = freesound_list->append(); TreeModel::Row row = *new_row; row[freesound_list_columns.id ] = id; row[freesound_list_columns.uri ] = uri; row[freesound_list_columns.filename] = ofn; row[freesound_list_columns.duration] = duration_hhmmss; row[freesound_list_columns.filesize] = bsize; row[freesound_list_columns.smplrate] = srt; row[freesound_list_columns.license ] = shortlicense; matches++; } } } vector SoundFileBrowser::get_paths () { vector results; int n = notebook.get_current_page (); if (n == 0) { vector filenames = chooser.get_filenames(); vector::iterator i; for (i = filenames.begin(); i != filenames.end(); ++i) { GStatBuf buf; if ((!g_stat((*i).c_str(), &buf)) && S_ISREG(buf.st_mode)) { results.push_back (*i); } } } else if (n == 1) { ListPath rows = found_list_view.get_selection()->get_selected_rows (); for (ListPath::iterator i = rows.begin() ; i != rows.end(); ++i) { TreeIter iter = found_list->get_iter(*i); string str = (*iter)[found_list_columns.pathname]; results.push_back (str); } } else { ListPath rows = freesound_list_view.get_selection()->get_selected_rows (); for (ListPath::iterator i = rows.begin() ; i != rows.end(); ++i) { string str = freesound_get_audio_file (freesound_list->get_iter(*i)); if (str != "") { results.push_back (str); } } } return results; } void SoundFileOmega::reset_options_noret () { if (!resetting_ourselves) { (void) reset_options (); } } bool SoundFileOmega::reset_options () { if (_import_active) { _reset_post_import = true; return true; } vector paths = get_paths (); if (paths.empty()) { channel_combo.set_sensitive (false); action_combo.set_sensitive (false); where_combo.set_sensitive (false); copy_files_btn.set_active (true); copy_files_btn.set_sensitive (false); return false; } else { channel_combo.set_sensitive (true); action_combo.set_sensitive (true); where_combo.set_sensitive (true); /* if we get through this function successfully, this may be reset at the end, once we know if we can use hard links to do embedding (or if we are importing a MIDI file). */ copy_files_btn.set_sensitive (false); } bool same_size; bool src_needed; bool must_copy; bool selection_includes_multichannel; bool selection_can_be_embedded_with_links = check_link_status (_session, paths); ImportMode mode; /* See if we are thinking about importing any MIDI files */ vector::iterator i = paths.begin (); while (i != paths.end() && SMFSource::valid_midi_file (*i) == false) { ++i; } bool const have_a_midi_file = (i != paths.end ()); if (check_info (paths, same_size, src_needed, selection_includes_multichannel, must_copy)) { Glib::signal_idle().connect (sigc::mem_fun (*this, &SoundFileOmega::bad_file_message)); return false; } if (have_a_midi_file) { smf_tempo_btn.show (); } else { smf_tempo_btn.hide (); } string existing_choice; vector action_strings; resetting_ourselves = true; if (chooser.get_filter() == &audio_filter) { /* AUDIO */ if (selected_audio_track_cnt > 0) { if (channel_combo.get_active_text().length()) { ImportDisposition id = get_channel_disposition(); switch (id) { case Editing::ImportDistinctFiles: if (selected_audio_track_cnt == paths.size()) { action_strings.push_back (importmode2string (ImportToTrack)); } break; case Editing::ImportDistinctChannels: /* XXX it would be nice to allow channel-per-selected track but its too hard we don't want to deal with all the different per-file + per-track channel configurations. */ break; default: action_strings.push_back (importmode2string (ImportToTrack)); break; } } } } else { /* MIDI ONLY */ if (selected_midi_track_cnt > 0) { action_strings.push_back (importmode2string (ImportToTrack)); } } action_strings.push_back (importmode2string (ImportAsTrack)); action_strings.push_back (importmode2string (ImportAsRegion)); existing_choice = action_combo.get_active_text(); set_popdown_strings (action_combo, action_strings); /* preserve any existing choice, if possible */ if (existing_choice.length()) { vector::iterator x; for (x = action_strings.begin(); x != action_strings.end(); ++x) { if (*x == existing_choice) { action_combo.set_active_text (existing_choice); break; } } if (x == action_strings.end()) { action_combo.set_active_text (action_strings.front()); } } else { action_combo.set_active_text (action_strings.front()); } resetting_ourselves = false; if ((mode = get_mode()) == ImportAsRegion) { where_combo.set_sensitive (false); } else { where_combo.set_sensitive (true); } vector channel_strings; if (mode == ImportAsTrack || mode == ImportToTrack) { channel_strings.push_back (_("one track per file")); if (selection_includes_multichannel) { channel_strings.push_back (_("one track per channel")); } if (paths.size() > 1) { /* tape tracks are a single region per track, so we cannot sequence multiple files. */ channel_strings.push_back (_("sequence files")); if (same_size) { channel_strings.push_back (_("all files in one track")); channel_strings.push_back (_("merge files")); } } } else { channel_strings.push_back (_("one region per file")); if (selection_includes_multichannel) { channel_strings.push_back (_("one region per channel")); } if (paths.size() > 1) { if (same_size) { channel_strings.push_back (_("all files in one region")); } } } resetting_ourselves = true; existing_choice = channel_combo.get_active_text(); set_popdown_strings (channel_combo, channel_strings); /* preserve any existing choice, if possible */ if (existing_choice.length()) { vector::iterator x; for (x = channel_strings.begin(); x != channel_strings.end(); ++x) { if (*x == existing_choice) { channel_combo.set_active_text (existing_choice); break; } } if (x == channel_strings.end()) { channel_combo.set_active_text (channel_strings.front()); } } else { channel_combo.set_active_text (channel_strings.front()); } resetting_ourselves = false; if (src_needed) { src_combo.set_sensitive (true); } else { src_combo.set_sensitive (false); } /* We must copy MIDI files or those from Freesound * or any file if we are under nsm control */ must_copy |= _session->get_nsm_state() || have_a_midi_file || notebook.get_current_page() == 2; if (must_copy || !selection_can_be_embedded_with_links) { copy_files_btn.set_active (true); } copy_files_btn.set_sensitive (!must_copy && selection_can_be_embedded_with_links); return true; } bool SoundFileOmega::bad_file_message() { MessageDialog msg (*this, string_compose (_("One or more of the selected files\ncannot be used by %1"), PROGRAM_NAME), true, Gtk::MESSAGE_INFO, Gtk::BUTTONS_OK); msg.run (); resetting_ourselves = true; chooser.unselect_uri (chooser.get_preview_uri()); resetting_ourselves = false; return false; } bool SoundFileOmega::check_info (const vector& paths, bool& same_size, bool& src_needed, bool& multichannel, bool& must_copy) { SoundFileInfo info; samplepos_t sz = 0; bool err = false; string errmsg; same_size = true; src_needed = false; multichannel = false; must_copy = false; for (vector::const_iterator i = paths.begin(); i != paths.end(); ++i) { if (AudioFileSource::get_soundfile_info (*i, info, errmsg)) { if (info.channels > 1) { multichannel = true; } if (sz == 0) { sz = info.length; } else { if (sz != info.length) { same_size = false; } } if (info.samplerate != _session->sample_rate()) { src_needed = true; } if (!info.seekable) { must_copy = true; } } else if (SMFSource::valid_midi_file (*i)) { Evoral::SMF reader; if (reader.open (*i)) { err = true; } else { if (reader.num_channels() > 1) { multichannel = true; } } } else { err = true; } } return err; } bool SoundFileOmega::check_link_status (const Session* s, const vector& paths) { std::string tmpdir(Glib::build_filename (s->session_directory().sound_path(), "linktest")); if (g_mkdir (tmpdir.c_str(), 0744)) { if (errno != EEXIST) { return false; } } for (vector::const_iterator i = paths.begin(); i != paths.end(); ++i) { char tmpc[PATH_MAX+1]; snprintf (tmpc, sizeof(tmpc), "%s/%s", tmpdir.c_str(), Glib::path_get_basename (*i).c_str()); /* can we link ? */ if (PBD::hard_link (/*existing file*/(*i).c_str(), tmpc)) { ::g_unlink (tmpc); } } g_rmdir (tmpdir.c_str()); return true; } SoundFileChooser::SoundFileChooser (string title, ARDOUR::Session* s) : SoundFileBrowser (title, s, false) { chooser.set_select_multiple (false); found_list_view.get_selection()->set_mode (SELECTION_SINGLE); freesound_list_view.get_selection()->set_mode (SELECTION_SINGLE); } void SoundFileChooser::on_hide () { ArdourWindow::on_hide(); stop_metering (); if (_session) { _session->cancel_audition(); } } string SoundFileChooser::get_filename () { vector paths; paths = get_paths (); if (paths.empty()) { return string (); } if (!Glib::file_test (paths.front(), Glib::FILE_TEST_EXISTS|Glib::FILE_TEST_IS_REGULAR)) { return string(); } return paths.front(); } SoundFileOmega::SoundFileOmega (string title, ARDOUR::Session* s, uint32_t selected_audio_tracks, uint32_t selected_midi_tracks, bool persistent, Editing::ImportMode mode_hint) : SoundFileBrowser (title, s, persistent) , instrument_combo (InstrumentSelector::ForTrackSelector) , copy_files_btn ( _("Copy files to session")) , smf_tempo_btn (_("Use MIDI Tempo Map (if defined)")) , smf_marker_btn (_("Import MIDI markers (if any)")) , selected_audio_track_cnt (selected_audio_tracks) , selected_midi_track_cnt (selected_midi_tracks) , _import_active (false) , _reset_post_import (false) { vector str; set_size_request (-1, 550); block_two.set_border_width (12); block_three.set_border_width (12); block_four.set_border_width (12); str.clear (); str.push_back (_("file timestamp")); str.push_back (_("edit point")); str.push_back (_("playhead")); str.push_back (_("session start")); set_popdown_strings (where_combo, str); where_combo.set_active_text (str.back()); where_combo.signal_changed().connect (sigc::mem_fun (*this, &SoundFileOmega::where_combo_changed)); instrument_combo_changed(); instrument_combo.signal_changed().connect(sigc::mem_fun(*this, &SoundFileOmega::instrument_combo_changed) ); Label* l = manage (new Label); l->set_markup (_("Add files ...")); options.attach (*l, 0, 1, 0, 1, FILL, SHRINK, 8, 0); options.attach (action_combo, 0, 1, 1, 2, FILL, SHRINK, 8, 0); l = manage (new Label); l->set_markup (_("Insert at")); options.attach (*l, 0, 1, 3, 4, FILL, SHRINK, 8, 0); options.attach (where_combo, 0, 1, 4, 5, FILL, SHRINK, 8, 0); l = manage (new Label); l->set_markup (_("Mapping")); options.attach (*l, 1, 2, 0, 1, FILL, SHRINK, 8, 0); options.attach (channel_combo, 1, 2, 1, 2, FILL, SHRINK, 8, 0); l = manage (new Label); l->set_markup (_("Conversion quality")); options.attach (*l, 1, 2, 3, 4, FILL, SHRINK, 8, 0); options.attach (src_combo, 1, 2, 4, 5, FILL, SHRINK, 8, 0); l = manage (new Label); l->set_markup (_("MIDI Track Names")); options.attach (*l, 2, 3, 0, 1, FILL, SHRINK, 8, 0); options.attach (midi_track_name_combo, 2, 3, 1, 2, FILL, SHRINK, 8, 0); options.attach (smf_tempo_btn, 2, 3, 3, 4, FILL, SHRINK, 8, 0); options.attach (smf_marker_btn, 2, 3, 4, 5, FILL, SHRINK, 8, 0); l = manage (new Label); l->set_markup (_("Instrument")); options.attach (*l, 3, 4, 0, 1, FILL, SHRINK, 8, 0); options.attach (instrument_combo, 3, 4, 1, 2, FILL, SHRINK, 8, 0); Alignment *hspace = manage (new Alignment ()); hspace->set_size_request (2, 2); options.attach (*hspace, 0, 3, 2, 3, FILL, SHRINK, 0, 8); Alignment *vspace = manage (new Alignment ()); vspace->set_size_request (2, 2); options.attach (*vspace, 2, 3, 0, 3, EXPAND, SHRINK, 0, 0); str.clear (); str.push_back (_("by track number")); str.push_back (_("by track name")); str.push_back (_("by instrument name")); set_popdown_strings (midi_track_name_combo, str); midi_track_name_combo.set_active_text (str.front()); str.clear (); str.push_back (_("one track per file")); set_popdown_strings (channel_combo, str); channel_combo.set_active_text (str.front()); channel_combo.set_sensitive (false); str.clear (); str.push_back (_("Best")); str.push_back (_("Good")); str.push_back (_("Quick")); str.push_back (_("Fast")); str.push_back (_("Fastest")); set_popdown_strings (src_combo, str); src_combo.set_active_text (str.front()); src_combo.set_sensitive (false); src_combo.signal_changed().connect (sigc::mem_fun (*this, &SoundFileOmega::src_combo_changed)); action_combo.signal_changed().connect (sigc::mem_fun (*this, &SoundFileOmega::reset_options_noret)); channel_combo.signal_changed().connect (sigc::mem_fun (*this, &SoundFileOmega::reset_options_noret)); copy_files_btn.set_active (true); Gtk::Label* copy_label = dynamic_cast(copy_files_btn.get_child()); if (copy_label) { copy_label->set_size_request (175, -1); copy_label->set_line_wrap (true); } block_four.pack_start (copy_files_btn, false, false); options.attach (block_four, 3, 4, 4, 5, FILL, SHRINK, 8, 0); vpacker.pack_start (options, false, true); /* setup disposition map */ disposition_map.insert (pair(_("one track per file"), ImportDistinctFiles)); disposition_map.insert (pair(_("one track per channel"), ImportDistinctChannels)); disposition_map.insert (pair(_("merge files"), ImportMergeFiles)); disposition_map.insert (pair(_("sequence files"), ImportSerializeFiles)); disposition_map.insert (pair(_("one region per file"), ImportDistinctFiles)); disposition_map.insert (pair(_("one region per channel"), ImportDistinctChannels)); disposition_map.insert (pair(_("all files in one region"), ImportMergeFiles)); disposition_map.insert (pair(_("all files in one track"), ImportMergeFiles)); chooser.signal_selection_changed().connect (sigc::mem_fun (*this, &SoundFileOmega::file_selection_changed)); /* set size requests for a couple of combos to allow them to display the longest text they will ever be asked to display. This prevents them being resized when the user selects a file to import, which in turn prevents the size of the dialog from jumping around. */ str.clear (); str.push_back (_("one track per file")); str.push_back (_("one track per channel")); str.push_back (_("sequence files")); str.push_back (_("all files in one region")); set_popdown_strings (channel_combo, str); str.clear (); str.push_back (importmode2string (ImportAsTrack)); str.push_back (importmode2string (ImportToTrack)); str.push_back (importmode2string (ImportAsRegion)); set_popdown_strings (action_combo, str); action_combo.set_active_text (importmode2string(mode_hint)); reset (selected_audio_tracks, selected_midi_tracks); } void SoundFileOmega::set_mode (ImportMode mode) { action_combo.set_active_text (importmode2string (mode)); } ImportMode SoundFileOmega::get_mode () const { return string2importmode (action_combo.get_active_text()); } void SoundFileOmega::on_hide () { ArdourWindow::on_hide(); if (_session) { _session->cancel_audition(); } } ImportPosition SoundFileOmega::get_position() const { string str = where_combo.get_active_text(); if (str == _("file timestamp")) { return ImportAtTimestamp; } else if (str == _("edit point")) { return ImportAtEditPoint; } else if (str == _("playhead")) { return ImportAtPlayhead; } else { return ImportAtStart; } } SrcQuality SoundFileOmega::get_src_quality() const { string str = src_combo.get_active_text(); if (str == _("Best")) { return SrcBest; } else if (str == _("Good")) { return SrcGood; } else if (str == _("Quick")) { return SrcQuick; } else if (str == _("Fast")) { return SrcFast; } else { return SrcFastest; } } void SoundFileOmega::src_combo_changed() { preview.set_src_quality(get_src_quality()); } void SoundFileOmega::where_combo_changed() { preview.set_import_position(get_position()); } void SoundFileOmega::instrument_combo_changed() { _session->the_auditioner()->set_audition_synth_info( instrument_combo.selected_instrument() ); } MidiTrackNameSource SoundFileOmega::get_midi_track_name_source () const { return string2miditracknamesource (midi_track_name_combo.get_active_text()); } bool SoundFileOmega::get_use_smf_tempo_map () const { return smf_tempo_btn.get_active (); } bool SoundFileOmega::get_use_smf_markers () const { return smf_marker_btn.get_active (); } ImportDisposition SoundFileOmega::get_channel_disposition () const { /* we use a map here because the channel combo can contain different strings depending on the state of the other combos. the map contains all possible strings and the ImportDisposition enum that corresponds to it. */ string str = channel_combo.get_active_text(); DispositionMap::const_iterator x = disposition_map.find (str); if (x == disposition_map.end()) { fatal << string_compose (_("programming error: %1 (%2)"), "unknown string for import disposition", str) << endmsg; abort(); /*NOTREACHED*/ } return x->second; } void SoundFileOmega::reset (uint32_t selected_audio_tracks, uint32_t selected_midi_tracks) { selected_audio_track_cnt = selected_audio_tracks; selected_midi_track_cnt = selected_midi_tracks; if (selected_audio_track_cnt == 0 && selected_midi_track_cnt > 0) { chooser.set_filter (midi_filter); } else if (selected_midi_track_cnt == 0 && selected_audio_track_cnt > 0) { chooser.set_filter (audio_filter); } else { chooser.set_filter (audio_and_midi_filter); } if (get_visible()) { reset_options (); } } void SoundFileOmega::file_selection_changed () { if (resetting_ourselves || !get_visible ()) { return; } if (!reset_options ()) { set_action_sensitive (false); } else { if (chooser.get_filenames().size() > 0) { set_action_sensitive (true); } else { set_action_sensitive (false); } } } void SoundFileOmega::do_something (int action) { SoundFileBrowser::do_something (action); if (action == RESPONSE_CLOSE || !ARDOUR_UI_UTILS::engine_is_running ()) { hide (); return; } /* lets do it */ vector paths = get_paths (); ImportPosition pos = get_position (); ImportMode mode = get_mode (); ImportDisposition chns = get_channel_disposition (); PluginInfoPtr instrument = instrument_combo.selected_instrument(); timepos_t where; MidiTrackNameSource mts = get_midi_track_name_source (); MidiTempoMapDisposition mtd = (get_use_smf_tempo_map () ? SMFTempoUse : SMFTempoIgnore); bool with_midi_markers = get_use_smf_markers (); switch (pos) { case ImportAtEditPoint: where = PublicEditor::instance().get_preferred_edit_position (); break; case ImportAtTimestamp: where = timepos_t::max (Temporal::AudioTime); break; case ImportAtPlayhead: where = timepos_t (_session->transport_sample()); break; case ImportAtStart: where = timepos_t (_session->current_start_sample()); break; } SrcQuality quality = get_src_quality(); _import_active = true; if (copy_files_btn.get_active()) { PublicEditor::instance().do_import (paths, chns, mode, quality, mts, mtd, where, instrument, with_midi_markers); } else { PublicEditor::instance().do_embed (paths, chns, mode, where, instrument); } _import_active = false; if (_reset_post_import) { _reset_post_import = false; reset_options (); } }