/* Copyright (C) 2002 Paul Davis 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifdef WAF_BUILD #include "gtk2ardour-config.h" #endif #include // for sprintf, grrr #include #include #include #include #include "pbd/error.h" #include "pbd/memento_command.h" #include #include #include "ardour/session.h" #include "ardour/tempo.h" #include #include #include "canvas/canvas.h" #include "canvas/item.h" #include "canvas/line_set.h" #include "editor.h" #include "marker.h" #include "tempo_dialog.h" #include "rgb_macros.h" #include "gui_thread.h" #include "time_axis_view.h" #include "tempo_lines.h" #include "ui_config.h" #include "pbd/i18n.h" using namespace std; using namespace ARDOUR; using namespace PBD; using namespace Gtk; using namespace Gtkmm2ext; using namespace Editing; void Editor::remove_metric_marks () { /* don't delete these while handling events, just punt till the GUI is idle */ for (Marks::iterator x = metric_marks.begin(); x != metric_marks.end(); ++x) { delete_when_idle (*x); } metric_marks.clear (); for (Curves::iterator x = tempo_curves.begin(); x != tempo_curves.end(); ++x) { delete (*x); } tempo_curves.clear (); } struct CurveComparator { bool operator() (TempoCurve const * a, TempoCurve const * b) { return a->tempo().frame() < b->tempo().frame(); } }; void Editor::draw_metric_marks (const Metrics& metrics) { char buf[64]; double max_tempo = 0.0; double min_tempo = DBL_MAX; remove_metric_marks (); // also clears tempo curves for (Metrics::const_iterator i = metrics.begin(); i != metrics.end(); ++i) { const MeterSection *ms; const TempoSection *ts; if ((ms = dynamic_cast(*i)) != 0) { snprintf (buf, sizeof(buf), "%g/%g", ms->divisions_per_bar(), ms->note_divisor ()); if (ms->position_lock_style() == MusicTime) { metric_marks.push_back (new MeterMarker (*this, *meter_group, UIConfiguration::instance().color ("meter marker music"), buf, *(const_cast(ms)))); } else { metric_marks.push_back (new MeterMarker (*this, *meter_group, UIConfiguration::instance().color ("meter marker"), buf, *(const_cast(ms)))); } } else if ((ts = dynamic_cast(*i)) != 0) { if (UIConfiguration::instance().get_allow_non_quarter_pulse()) { snprintf (buf, sizeof (buf), "%.3f/%.0f", ts->note_types_per_minute(), ts->note_type()); } else { snprintf (buf, sizeof (buf), "%.3f", ts->note_types_per_minute()); } max_tempo = max (max_tempo, ts->note_types_per_minute()); min_tempo = min (min_tempo, ts->note_types_per_minute()); tempo_curves.push_back (new TempoCurve (*this, *tempo_group, UIConfiguration::instance().color ("tempo curve"), *(const_cast(ts)), ts->frame(), false)); if (ts->position_lock_style() == MusicTime) { metric_marks.push_back (new TempoMarker (*this, *tempo_group, UIConfiguration::instance().color ("tempo marker music"), buf, *(const_cast(ts)))); } else { metric_marks.push_back (new TempoMarker (*this, *tempo_group, UIConfiguration::instance().color ("tempo marker"), buf, *(const_cast(ts)))); } } } tempo_curves.sort (CurveComparator()); const double min_tempo_range = 5.0; const double tempo_delta = fabs (max_tempo - min_tempo); if (tempo_delta < min_tempo_range) { max_tempo += min_tempo_range - tempo_delta; min_tempo += tempo_delta - min_tempo_range; } for (Curves::iterator x = tempo_curves.begin(); x != tempo_curves.end(); ) { Curves::iterator tmp = x; (*x)->set_max_tempo (max_tempo); (*x)->set_min_tempo (min_tempo); ++tmp; if (tmp != tempo_curves.end()) { (*x)->set_position ((*x)->tempo().frame(), (*tmp)->tempo().frame()); } else { (*x)->set_position ((*x)->tempo().frame(), UINT32_MAX); } if (!(*x)->tempo().active()) { (*x)->hide(); } else { (*x)->show(); } ++x; } for (Marks::iterator x = metric_marks.begin(); x != metric_marks.end(); ++x) { TempoMarker* tempo_marker; if ((tempo_marker = dynamic_cast (*x)) != 0) { tempo_marker->update_height_mark ((tempo_marker->tempo().note_types_per_minute() - min_tempo) / max (10.0, max_tempo - min_tempo)); } } } void Editor::tempo_map_changed (const PropertyChange& /*ignored*/) { if (!_session) { return; } ENSURE_GUI_THREAD (*this, &Editor::tempo_map_changed, ignored); if (tempo_lines) { tempo_lines->tempo_map_changed(); } compute_bbt_ruler_scale (leftmost_frame, leftmost_frame + current_page_samples()); std::vector grid; if (bbt_ruler_scale != bbt_show_many) { compute_current_bbt_points (grid, leftmost_frame, leftmost_frame + current_page_samples()); } _session->tempo_map().apply_with_metrics (*this, &Editor::draw_metric_marks); // redraw metric markers draw_measures (grid); update_tempo_based_rulers (); } void Editor::tempometric_position_changed (const PropertyChange& /*ignored*/) { if (!_session) { return; } ENSURE_GUI_THREAD (*this, &Editor::tempo_map_changed); if (tempo_lines) { tempo_lines->tempo_map_changed(); } double max_tempo = 0.0; double min_tempo = DBL_MAX; for (Marks::iterator x = metric_marks.begin(); x != metric_marks.end(); ++x) { TempoMarker* tempo_marker; MeterMarker* meter_marker; const TempoSection *ts; const MeterSection *ms; if ((tempo_marker = dynamic_cast (*x)) != 0) { if ((ts = &tempo_marker->tempo()) != 0) { tempo_marker->set_position (ts->frame ()); char buf[64]; if (UIConfiguration::instance().get_allow_non_quarter_pulse()) { snprintf (buf, sizeof (buf), "%.3f/%.0f", ts->note_types_per_minute(), ts->note_type()); } else { snprintf (buf, sizeof (buf), "%.3f", ts->note_types_per_minute()); } tempo_marker->set_name (buf); max_tempo = max (max_tempo, ts->note_types_per_minute()); min_tempo = min (min_tempo, ts->note_types_per_minute()); } } if ((meter_marker = dynamic_cast (*x)) != 0) { if ((ms = &meter_marker->meter()) != 0) { meter_marker->set_position (ms->frame ()); } } } tempo_curves.sort (CurveComparator()); const double min_tempo_range = 5.0; const double tempo_delta = fabs (max_tempo - min_tempo); if (tempo_delta < min_tempo_range) { max_tempo += min_tempo_range - tempo_delta; min_tempo += tempo_delta - min_tempo_range; } for (Curves::iterator x = tempo_curves.begin(); x != tempo_curves.end(); ) { Curves::iterator tmp = x; (*x)->set_max_tempo (max_tempo); (*x)->set_min_tempo (min_tempo); ++tmp; if (tmp != tempo_curves.end()) { (*x)->set_position ((*x)->tempo().frame(), (*tmp)->tempo().frame()); } else { (*x)->set_position ((*x)->tempo().frame(), UINT32_MAX); } if (!(*x)->tempo().active()) { (*x)->hide(); } else { (*x)->show(); } ++x; } for (Marks::iterator x = metric_marks.begin(); x != metric_marks.end(); ++x) { TempoMarker* tempo_marker; if ((tempo_marker = dynamic_cast (*x)) != 0) { tempo_marker->update_height_mark ((tempo_marker->tempo().note_types_per_minute() - min_tempo) / max (max_tempo - min_tempo, 10.0)); } } compute_bbt_ruler_scale (leftmost_frame, leftmost_frame + current_page_samples()); std::vector grid; if (bbt_ruler_scale != bbt_show_many) { compute_current_bbt_points (grid, leftmost_frame, leftmost_frame + current_page_samples()); } draw_measures (grid); update_tempo_based_rulers (); } void Editor::redisplay_tempo (bool immediate_redraw) { if (!_session) { return; } if (immediate_redraw) { compute_bbt_ruler_scale (leftmost_frame, leftmost_frame + current_page_samples()); std::vector grid; if (bbt_ruler_scale != bbt_show_many) { compute_current_bbt_points (grid, leftmost_frame, leftmost_frame + current_page_samples()); } draw_measures (grid); update_tempo_based_rulers (); // redraw rulers and measure lines } else { Glib::signal_idle().connect (sigc::bind_return (sigc::bind (sigc::mem_fun (*this, &Editor::redisplay_tempo), true), false)); } } /* computes a grid starting a beat before and ending a beat after leftmost and rightmost respectively */ void Editor::compute_current_bbt_points (std::vector& grid, framepos_t leftmost, framepos_t rightmost) { if (!_session) { return; } /* prevent negative values of leftmost from creeping into tempomap */ const double lower_beat = floor (max (0.0, _session->tempo_map().beat_at_frame (leftmost))) - 1.0; switch (bbt_ruler_scale) { case bbt_show_beats: case bbt_show_ticks: case bbt_show_ticks_detail: case bbt_show_ticks_super_detail: _session->tempo_map().get_grid (grid, max (_session->tempo_map().frame_at_beat (lower_beat), (framepos_t) 0), rightmost); break; case bbt_show_1: _session->tempo_map().get_grid (grid, max (_session->tempo_map().frame_at_beat (lower_beat), (framepos_t) 0), rightmost, 1); break; case bbt_show_4: _session->tempo_map().get_grid (grid, max (_session->tempo_map().frame_at_beat (lower_beat), (framepos_t) 0), rightmost, 4); break; case bbt_show_16: _session->tempo_map().get_grid (grid, max (_session->tempo_map().frame_at_beat (lower_beat), (framepos_t) 0), rightmost, 16); break; case bbt_show_64: _session->tempo_map().get_grid (grid, max (_session->tempo_map().frame_at_beat (lower_beat), (framepos_t) 0), rightmost, 64); break; default: /* bbt_show_many */ _session->tempo_map().get_grid (grid, max (_session->tempo_map().frame_at_beat (lower_beat), (framepos_t) 0), rightmost, 128); break; } } void Editor::hide_measures () { if (tempo_lines) { tempo_lines->hide(); } } void Editor::draw_measures (std::vector& grid) { if (_session == 0 || _show_measures == false || distance (grid.begin(), grid.end()) == 0) { return; } if (tempo_lines == 0) { tempo_lines = new TempoLines (time_line_group, ArdourCanvas::LineSet::Vertical); } const unsigned divisions = get_grid_beat_divisions(leftmost_frame); tempo_lines->draw (grid, divisions, leftmost_frame, _session->frame_rate()); } void Editor::mouse_add_new_tempo_event (framepos_t frame) { if (_session == 0) { return; } TempoMap& map(_session->tempo_map()); begin_reversible_command (_("add tempo mark")); const double pulse = map.exact_qn_at_frame (frame, get_grid_music_divisions (0)) / 4.0; if (pulse > 0.0) { XMLNode &before = map.get_state(); /* add music-locked ramped (?) tempo using the bpm/note type at frame*/ map.add_tempo (map.tempo_at_frame (frame), pulse, 0, TempoSection::Ramp, MusicTime); XMLNode &after = map.get_state(); _session->add_command(new MementoCommand(map, &before, &after)); commit_reversible_command (); } //map.dump (cerr); } void Editor::mouse_add_new_meter_event (framepos_t frame) { if (_session == 0) { return; } TempoMap& map(_session->tempo_map()); MeterDialog meter_dialog (map, frame, _("add")); switch (meter_dialog.run ()) { case RESPONSE_ACCEPT: break; default: return; } double bpb = meter_dialog.get_bpb (); bpb = max (1.0, bpb); // XXX is this a reasonable limit? double note_type = meter_dialog.get_note_type (); Timecode::BBT_Time requested; meter_dialog.get_bbt_time (requested); const double beat = map.beat_at_bbt (requested); const double al_frame = map.frame_at_beat (beat); begin_reversible_command (_("add meter mark")); XMLNode &before = map.get_state(); if (meter_dialog.get_lock_style() == MusicTime) { map.add_meter (Meter (bpb, note_type), beat, requested, 0, MusicTime); } else { map.add_meter (Meter (bpb, note_type), beat, requested, al_frame, AudioTime); } _session->add_command(new MementoCommand(map, &before, &map.get_state())); commit_reversible_command (); //map.dump (cerr); } void Editor::remove_tempo_marker (ArdourCanvas::Item* item) { ArdourMarker* marker; TempoMarker* tempo_marker; if ((marker = reinterpret_cast (item->get_data ("marker"))) == 0) { fatal << _("programming error: tempo marker canvas item has no marker object pointer!") << endmsg; abort(); /*NOTREACHED*/ } if ((tempo_marker = dynamic_cast (marker)) == 0) { fatal << _("programming error: marker for tempo is not a tempo marker!") << endmsg; abort(); /*NOTREACHED*/ } if (!tempo_marker->tempo().locked_to_meter() && tempo_marker->tempo().active()) { Glib::signal_idle().connect (sigc::bind (sigc::mem_fun(*this, &Editor::real_remove_tempo_marker), &tempo_marker->tempo())); } } void Editor::edit_meter_section (MeterSection* section) { MeterDialog meter_dialog (_session->tempo_map(), *section, _("done")); switch (meter_dialog.run()) { case RESPONSE_ACCEPT: break; default: return; } double bpb = meter_dialog.get_bpb (); bpb = max (1.0, bpb); // XXX is this a reasonable limit? double const note_type = meter_dialog.get_note_type (); const Meter meter (bpb, note_type); Timecode::BBT_Time when; meter_dialog.get_bbt_time (when); const framepos_t frame = _session->tempo_map().frame_at_bbt (when); const PositionLockStyle pls = (meter_dialog.get_lock_style() == AudioTime) ? AudioTime : MusicTime; begin_reversible_command (_("replace meter mark")); XMLNode &before = _session->tempo_map().get_state(); _session->tempo_map().replace_meter (*section, meter, when, frame, pls); XMLNode &after = _session->tempo_map().get_state(); _session->add_command(new MementoCommand(_session->tempo_map(), &before, &after)); commit_reversible_command (); } void Editor::edit_tempo_section (TempoSection* section) { TempoDialog tempo_dialog (_session->tempo_map(), *section, _("done")); switch (tempo_dialog.run ()) { case RESPONSE_ACCEPT: break; default: return; } double bpm = tempo_dialog.get_bpm (); double nt = tempo_dialog.get_note_type (); bpm = max (0.01, bpm); const Tempo tempo (bpm, nt); Timecode::BBT_Time when; tempo_dialog.get_bbt_time (when); const TempoSection::Type ttype (tempo_dialog.get_tempo_type()); begin_reversible_command (_("replace tempo mark")); XMLNode &before = _session->tempo_map().get_state(); if (tempo_dialog.get_lock_style() == AudioTime) { framepos_t const f = _session->tempo_map().predict_tempo_position (section, when).second; _session->tempo_map().replace_tempo (*section, tempo, 0.0, f, ttype, AudioTime); } else { double const p = _session->tempo_map().predict_tempo_position (section, when).first; _session->tempo_map().replace_tempo (*section, tempo, p, 0, ttype, MusicTime); } XMLNode &after = _session->tempo_map().get_state(); _session->add_command (new MementoCommand(_session->tempo_map(), &before, &after)); commit_reversible_command (); } void Editor::edit_tempo_marker (TempoMarker& tm) { edit_tempo_section (&tm.tempo()); } void Editor::edit_meter_marker (MeterMarker& mm) { edit_meter_section (&mm.meter()); } gint Editor::real_remove_tempo_marker (TempoSection *section) { begin_reversible_command (_("remove tempo mark")); XMLNode &before = _session->tempo_map().get_state(); _session->tempo_map().remove_tempo (*section, true); XMLNode &after = _session->tempo_map().get_state(); _session->add_command(new MementoCommand(_session->tempo_map(), &before, &after)); commit_reversible_command (); return FALSE; } void Editor::remove_meter_marker (ArdourCanvas::Item* item) { ArdourMarker* marker; MeterMarker* meter_marker; if ((marker = reinterpret_cast (item->get_data ("marker"))) == 0) { fatal << _("programming error: meter marker canvas item has no marker object pointer!") << endmsg; abort(); /*NOTREACHED*/ } if ((meter_marker = dynamic_cast (marker)) == 0) { fatal << _("programming error: marker for meter is not a meter marker!") << endmsg; abort(); /*NOTREACHED*/ } if (!meter_marker->meter().initial()) { Glib::signal_idle().connect (sigc::bind (sigc::mem_fun(*this, &Editor::real_remove_meter_marker), &meter_marker->meter())); } } gint Editor::real_remove_meter_marker (MeterSection *section) { begin_reversible_command (_("remove tempo mark")); XMLNode &before = _session->tempo_map().get_state(); _session->tempo_map().remove_meter (*section, true); XMLNode &after = _session->tempo_map().get_state(); _session->add_command(new MementoCommand(_session->tempo_map(), &before, &after)); commit_reversible_command (); return FALSE; }