/* * Copyright (C) 2005-2006 Taybin Rutkin * Copyright (C) 2005-2018 Paul Davis * Copyright (C) 2006-2012 David Robillard * Copyright (C) 2007 Doug McLain * Copyright (C) 2009-2012 Carl Hetherington * Copyright (C) 2012-2019 Robin Gareus * Copyright (C) 2013-2017 John Emmas * Copyright (C) 2015-2016 Tim Mayberry * Copyright (C) 2015 Ben Loftis * Copyright (C) 2015 Colin Fletcher * Copyright (C) 2016-2017 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 // for sprintf #include #include "pbd/convert.h" #include "pbd/enumwriter.h" #include #include #include "gtkmm2ext/utils.h" #include "gtkmm2ext/rgb_macros.h" #include "widgets/tooltips.h" #include "ardour/profile.h" #include "ardour/lmath.h" #include "ardour/session.h" #include "ardour/transport_master.h" #include "ardour/tempo.h" #include "ardour/transport_master_manager.h" #include "ardour/types.h" #include "ardour_ui.h" #include "audio_clock.h" #include "enums_convert.h" #include "gui_thread.h" #include "keyboard.h" #include "ui_config.h" #include "utils.h" #include "pbd/i18n.h" using namespace ARDOUR; using namespace ARDOUR_UI_UTILS; using namespace ArdourWidgets; using namespace PBD; using namespace Gtk; using namespace std; using namespace Temporal; using Gtkmm2ext::Keyboard; vector AudioClock::clocks; #define BBT_BAR_CHAR "|" #define BBT_SCANF_FORMAT "%" PRIu32 "%*c%" PRIu32 "%*c%" PRIu32 AudioClock::AudioClock (const string& clock_name, bool transient, const string& widget_name, bool allow_edit, bool follows_playhead, bool duration, bool with_info, bool accept_on_focus_out) : ops_menu (0) , _name (clock_name) , is_duration (duration) , editable (allow_edit) , _follows_playhead (follows_playhead) , _accept_on_focus_out (accept_on_focus_out) , _off (false) , _negative_allowed (false) , edit_is_negative (false) , _limit_pos (timepos_t::max (Temporal::AudioTime)) , _with_info (with_info) , editing_attr (0) , foreground_attr (0) , first_height (0) , first_width (0) , style_resets_first (true) , layout_height (0) , layout_width (0) , corner_radius (4) , font_size (10240) , editing (false) , dragging (false) , drag_field (Field (0)) , xscale (1.0) , yscale (1.0) { if (editable) { set_can_focus (); } _layout = Pango::Layout::create (get_pango_context()); _layout->set_attributes (normal_attributes); set_widget_name (widget_name); _mode = BBT; /* lie to force mode switch */ set_mode (Timecode); if (!transient) { clocks.push_back (this); } _left_btn.set_name ("transport option button"); _right_btn.set_name ("transport option button"); _left_btn.set_sizing_text (_("0000000000000")); _right_btn.set_sizing_text (_("0000000000000")); _left_btn.set_layout_font (UIConfiguration::instance().get_ArdourSmallFont()); _right_btn.set_layout_font (UIConfiguration::instance().get_ArdourSmallFont()); UIConfiguration::instance().ColorsChanged.connect (sigc::mem_fun (*this, &AudioClock::set_colors)); UIConfiguration::instance().DPIReset.connect (sigc::mem_fun (*this, &AudioClock::dpi_reset)); TempoMap::MapChanged.connect (tempo_map_connection, invalidator (*this), std::bind (&AudioClock::tempo_map_changed, this), gui_context()); } AudioClock::~AudioClock () { delete ops_menu; delete foreground_attr; delete editing_attr; } void AudioClock::set_widget_name (const string& str) { if (str.empty()) { set_name ("clock"); } else { set_name (str + " clock"); } if (get_realized()) { set_colors (); } } void AudioClock::on_realize () { Gtk::Requisition req; CairoWidget::on_realize (); set_clock_dimensions (req); first_width = req.width; first_height = req.height; set_colors (); } void AudioClock::set_active_state (Gtkmm2ext::ActiveState s) { CairoWidget::set_active_state (s); set_colors (); } void AudioClock::set_colors () { int r, g, b, a; uint32_t bg_color; uint32_t text_color; uint32_t editing_color; uint32_t cursor_color; if (active_state()) { bg_color = UIConfiguration::instance().color (string_compose ("%1 active: background", get_name())); text_color = UIConfiguration::instance().color (string_compose ("%1 active: text", get_name())); editing_color = UIConfiguration::instance().color (string_compose ("%1 active: edited text", get_name())); cursor_color = UIConfiguration::instance().color (string_compose ("%1 active: cursor", get_name())); } else { bg_color = UIConfiguration::instance().color (string_compose ("%1: background", get_name())); text_color = UIConfiguration::instance().color (string_compose ("%1: text", get_name())); editing_color = UIConfiguration::instance().color (string_compose ("%1: edited text", get_name())); cursor_color = UIConfiguration::instance().color (string_compose ("%1: cursor", get_name())); } /* store for bg and cursor in render() */ UINT_TO_RGBA (bg_color, &r, &g, &b, &a); bg_r = r/255.0; bg_g = g/255.0; bg_b = b/255.0; bg_a = a/255.0; UINT_TO_RGBA (cursor_color, &r, &g, &b, &a); cursor_r = r/255.0; cursor_g = g/255.0; cursor_b = b/255.0; cursor_a = a/255.0; /* rescale for Pango colors ... sigh */ r = lrint (r * 65535.0); g = lrint (g * 65535.0); b = lrint (b * 65535.0); UINT_TO_RGBA (text_color, &r, &g, &b, &a); r = lrint ((r/255.0) * 65535.0); g = lrint ((g/255.0) * 65535.0); b = lrint ((b/255.0) * 65535.0); delete foreground_attr; foreground_attr = new Pango::AttrColor (Pango::Attribute::create_attr_foreground (r, g, b)); UINT_TO_RGBA (editing_color, &r, &g, &b, &a); r = lrint ((r/255.0) * 65535.0); g = lrint ((g/255.0) * 65535.0); b = lrint ((b/255.0) * 65535.0); delete editing_attr; editing_attr = new Pango::AttrColor (Pango::Attribute::create_attr_foreground (r, g, b)); normal_attributes.change (*foreground_attr); editing_attributes.change (*foreground_attr); editing_attributes.change (*editing_attr); if (!editing) { _layout->set_attributes (normal_attributes); } else { _layout->set_attributes (editing_attributes); } queue_draw (); } void AudioClock::set_scale (double x, double y) { xscale = x; yscale = y; queue_draw (); } void AudioClock::render (Cairo::RefPtr const& ctx, cairo_rectangle_t*) { cairo_t* cr = ctx->cobj(); /* main layout: rounded rect, plus the text */ if (_need_bg) { cairo_set_source_rgba (cr, bg_r, bg_g, bg_b, bg_a); if (corner_radius) { Gtkmm2ext::rounded_rectangle (cr, 0, 0, get_width(), get_height(), corner_radius); } else { cairo_rectangle (cr, 0, 0, get_width(), get_height()); } cairo_fill (cr); } double lw = layout_width * xscale; double lh = layout_height * yscale; cairo_move_to (cr, (get_width() - lw) / 2.0, (get_height() - lh) / 2.0); if (xscale != 1.0 || yscale != 1.0) { cairo_save (cr); cairo_scale (cr, xscale, yscale); } pango_cairo_show_layout (cr, _layout->gobj()); if (xscale != 1.0 || yscale != 1.0) { cairo_restore (cr); } if (editing) { if (!insert_map.empty()) { int xcenter = (get_width() - layout_width) /2; if (input_string.length() < insert_map.size()) { Pango::Rectangle cursor; if (input_string.empty()) { /* nothing entered yet, put cursor at the end of string */ cursor = _layout->get_cursor_strong_pos (edit_string.length()); } else { cursor = _layout->get_cursor_strong_pos (1 + insert_map[input_string.length()]); } cairo_set_source_rgba (cr, cursor_r, cursor_g, cursor_b, cursor_a); cairo_rectangle (cr, min (get_width() - 2.0, (double) xcenter + cursor.get_x()/PANGO_SCALE), (get_height() - layout_height)/2.0, 2.0, cursor.get_height()/PANGO_SCALE); cairo_fill (cr); } else { /* we've entered all possible digits, no cursor */ } } else { if (input_string.empty()) { cairo_set_source_rgba (cr, cursor_r, cursor_g, cursor_b, cursor_a); cairo_rectangle (cr, (get_width()/2.0), (get_height() - layout_height)/2.0, 2.0, get_height()); cairo_fill (cr); } } } } void AudioClock::set_clock_dimensions (Gtk::Requisition& req) { Glib::RefPtr tmp; Glib::RefPtr style = get_style (); Pango::FontDescription font; tmp = Pango::Layout::create (get_pango_context()); if (!get_realized()) { font = get_font_for_style (get_name()); } else { font = style->get_font(); } tmp->set_font_description (font); /* this string is the longest thing we will ever display */ if (_mode == MinSec) tmp->set_text (" 88:88:88,888 "); else tmp->set_text (" 88:88:88,88 "); tmp->get_pixel_size (req.width, req.height); layout_height = req.height; layout_width = req.width; } void AudioClock::on_size_request (Gtk::Requisition* req) { /* even for non fixed width clocks, the size we *ask* for never changes, even though the size we receive might. so once we've computed it, just return it. */ if (first_width) { req->width = first_width; req->height = first_height; return; } set_clock_dimensions (*req); /* now tackle height, for which we need to know the height of the lower * layout */ } void AudioClock::show_edit_status (int length) { editing_attr->set_start_index (edit_string.length() - length); editing_attr->set_end_index (edit_string.length()); editing_attributes.change (*foreground_attr); editing_attributes.change (*editing_attr); _layout->set_attributes (editing_attributes); } void AudioClock::start_edit (Field f) { if (!editing) { pre_edit_string = _layout->get_text (); if (!insert_map.empty()) { edit_string = pre_edit_string; } else { edit_string.clear (); _layout->set_text (""); } input_string.clear (); editing = true; edit_is_negative = false; if (f) { input_string = get_field (f); show_edit_status (merge_input_and_edit_string ()); _layout->set_text (edit_string); } queue_draw (); Keyboard::magic_widget_grab_focus (); grab_focus (); } } string AudioClock::get_field (Field f) { switch (f) { case Timecode_Hours: return edit_string.substr (1, 2); break; case Timecode_Minutes: return edit_string.substr (4, 2); break; case Timecode_Seconds: return edit_string.substr (7, 2); break; case Timecode_frames: return edit_string.substr (10, 2); break; case MS_Hours: return edit_string.substr (1, 2); break; case MS_Minutes: return edit_string.substr (4, 2); break; case MS_Seconds: return edit_string.substr (7, 2); break; case MS_Milliseconds: return edit_string.substr (10, 3); break; case Bars: return edit_string.substr (1, 3); break; case Beats: return edit_string.substr (5, 2); break; case Ticks: return edit_string.substr (8, 4); break; case SS_Seconds: return edit_string.substr (0, 8); case SS_Deciseconds: return edit_string.substr (9, 1); case S_Samples: return edit_string; break; } return ""; } void AudioClock::end_edit (bool modify) { if (modify) { bool ok = true; switch (_mode) { case Timecode: ok = timecode_validate_edit (edit_string); break; case BBT: ok = bbt_validate_edit (edit_string); break; case MinSec: ok = minsec_validate_edit (edit_string); break; case Seconds: /* fallthrough */ case Samples: if (edit_string.length() < 1) { edit_string = pre_edit_string; } break; } if (!ok) { edit_string = pre_edit_string; input_string.clear (); _layout->set_text (edit_string); show_edit_status (0); /* edit attributes remain in use */ } else { editing = false; samplepos_t samples = 0; /* stupid gcc */ switch (_mode) { case Timecode: samples = samples_from_timecode_string (edit_string); break; case BBT: if (is_duration) { samples = sample_duration_from_bbt_string (last_when(), edit_string); } else { samples = samples_from_bbt_string (timepos_t(), edit_string); } break; case MinSec: samples = samples_from_minsec_string (edit_string); break; case Seconds: samples = samples_from_seconds_string (edit_string); break; case Samples: samples = samples_from_audiosamples_string (edit_string); break; } if (is_duration) { AudioClock::set_duration (timecnt_t (samples), true); } else { AudioClock::set (timepos_t (samples), true); } _layout->set_attributes (normal_attributes); ValueChanged(); /* EMIT_SIGNAL */ } } else { editing = false; edit_is_negative = false; _layout->set_attributes (normal_attributes); _layout->set_text (pre_edit_string); } queue_draw (); if (!editing) { drop_focus (); } } void AudioClock::drop_focus () { Keyboard::magic_widget_drop_focus (); if (has_focus()) { /* move focus back to the default widget in the top level window */ ARDOUR_UI::instance()->reset_focus (this); } } timecnt_t AudioClock::parse_as_seconds_distance (const std::string& str) { float f; if (sscanf (str.c_str(), "%f", &f) == 1) { return timecnt_t (f * _session->sample_rate()); } return timecnt_t (samplecnt_t (0)); } timecnt_t AudioClock::parse_as_samples_distance (const std::string& str) { samplecnt_t samples = 0; if (sscanf (str.c_str(), "%" PRId64, &samples) == 1) { return timecnt_t (samples); } return timecnt_t (samples); } timecnt_t AudioClock::parse_as_minsec_distance (const std::string& str) { samplecnt_t sr = _session->sample_rate(); int msecs; int secs; int mins; int hrs; samplecnt_t samples = 0; switch (str.length()) { case 0: break; case 1: case 2: case 3: case 4: sscanf (str.c_str(), "%" PRId32, &msecs); samples = msecs * (sr / 1000); break; case 5: sscanf (str.c_str(), "%1" PRId32 "%" PRId32, &secs, &msecs); samples = (secs * sr) + (msecs * (sr/1000)); break; case 6: sscanf (str.c_str(), "%2" PRId32 "%" PRId32, &secs, &msecs); samples = (secs * sr) + (msecs * (sr/1000)); break; case 7: sscanf (str.c_str(), "%1" PRId32 "%2" PRId32 "%" PRId32, &mins, &secs, &msecs); samples = (mins * 60 * sr) + (secs * sr) + (msecs * (sr/1000)); break; case 8: sscanf (str.c_str(), "%2" PRId32 "%2" PRId32 "%" PRId32, &mins, &secs, &msecs); samples = (mins * 60 * sr) + (secs * sr) + (msecs * (sr/1000)); break; case 9: sscanf (str.c_str(), "%1" PRId32 "%2" PRId32 "%2" PRId32 "%" PRId32, &hrs, &mins, &secs, &msecs); samples = (hrs * 3600 * sr) + (mins * 60 * sr) + (secs * sr) + (msecs * (sr/1000)); break; case 10: sscanf (str.c_str(), "%1" PRId32 "%2" PRId32 "%2" PRId32 "%" PRId32, &hrs, &mins, &secs, &msecs); samples = (hrs * 3600 * sr) + (mins * 60 * sr) + (secs * sr) + (msecs * (sr/1000)); break; default: break; } return timecnt_t (samples); } timecnt_t AudioClock::parse_as_timecode_distance (const std::string& str) { double fps = _session->timecode_frames_per_second(); samplecnt_t sr = _session->sample_rate(); int samples; int secs; int mins; int hrs; samplecnt_t ret = 0; switch (str.length()) { case 0: break; case 1: case 2: sscanf (str.c_str(), "%" PRId32, &samples); ret = llrint ((samples/(float)fps) * sr); break; case 3: sscanf (str.c_str(), "%1" PRId32 "%" PRId32, &secs, &samples); ret = (secs * sr) + llrint ((samples/(float)fps) * sr); break; case 4: sscanf (str.c_str(), "%2" PRId32 "%" PRId32, &secs, &samples); ret = (secs * sr) + llrint ((samples/(float)fps) * sr); break; case 5: sscanf (str.c_str(), "%1" PRId32 "%2" PRId32 "%" PRId32, &mins, &secs, &samples); ret = (mins * 60 * sr) + (secs * sr) + llrint ((samples/(float)fps) * sr); break; case 6: sscanf (str.c_str(), "%2" PRId32 "%2" PRId32 "%" PRId32, &mins, &secs, &samples); ret = (mins * 60 * sr) + (secs * sr) + llrint ((samples/(float)fps) * sr); break; case 7: sscanf (str.c_str(), "%1" PRId32 "%2" PRId32 "%2" PRId32 "%" PRId32, &hrs, &mins, &secs, &samples); ret = (hrs * 3600 * sr) + (mins * 60 * sr) + (secs * sr) + llrint ((samples/(float)fps) * sr); break; case 8: sscanf (str.c_str(), "%2" PRId32 "%2" PRId32 "%2" PRId32 "%" PRId32, &hrs, &mins, &secs, &samples); ret = (hrs * 3600 * sr) + (mins * 60 * sr) + (secs * sr) + llrint ((samples/(float)fps) * sr); break; default: break; } return timecnt_t (ret); } timecnt_t AudioClock::parse_as_bbt_distance (const std::string&) { return timecnt_t (); } timecnt_t AudioClock::parse_as_distance (const std::string& instr) { switch (_mode) { case Timecode: return parse_as_timecode_distance (instr); break; case Samples: return parse_as_samples_distance (instr); break; case BBT: return parse_as_bbt_distance (instr); break; case MinSec: return parse_as_minsec_distance (instr); break; case Seconds: return parse_as_seconds_distance (instr); break; } return timecnt_t(); } void AudioClock::end_edit_relative (bool add) { bool ok = true; switch (_mode) { case Timecode: ok = timecode_validate_edit (edit_string); break; case BBT: ok = bbt_validate_edit (edit_string); break; case MinSec: ok = minsec_validate_edit (edit_string); break; case Seconds: break; case Samples: break; } if (!ok) { edit_string = pre_edit_string; input_string.clear (); _layout->set_text (edit_string); show_edit_status (0); /* edit attributes remain in use */ queue_draw (); return; } timecnt_t distance = parse_as_distance (input_string); editing = false; editing = false; _layout->set_attributes (normal_attributes); if (!distance.is_zero ()) { if (add) { AudioClock::set (last_when() + timepos_t (distance), true); } else { timepos_t c = last_when(); if (c > timepos_t (distance)|| _negative_allowed) { AudioClock::set (c.earlier (distance), true); } else { AudioClock::set (timepos_t(), true); } } ValueChanged (); /* EMIT SIGNAL */ } input_string.clear (); queue_draw (); drop_focus (); } void AudioClock::tempo_map_changed () { if (is_duration) { set_duration (current_duration(), true); } else { AudioClock::set (last_when(), true); } } void AudioClock::session_configuration_changed (std::string p) { if (_negative_allowed) { /* session option editor clock */ return; } if (p == "sync-source" || p == "external-sync") { if (is_duration) { set_duration (current_duration(), true); } else { AudioClock::set (last_when(), true); } return; } if (p == "timecode-offset" && p == "timecode-offset-negative") { switch (_mode) { case Timecode: if (is_duration) { set_duration (current_duration(), true); } else { AudioClock::set (last_when(), true); } break; default: break; } } } void AudioClock::set_duration (Temporal::timecnt_t const & dur, bool force) { is_duration = true; if ((!force && !get_visible()) || !_session) { return; } timepos_t when; timecnt_t d; /* durations for timecode display should use extent, not length * * reminder: * length = end - start * extent = end - start - 1 * * and thus: * start + length = end * start + extent = last_point_inside duration */ switch (_mode) { case Timecode: d = dur.is_zero() ? dur : dur.decrement (); break; default: d = dur; break; } /* Converting a negative duration to a position throws */ if (d.is_negative()) { when = timepos_t (d); } else { when = -timepos_t (-d); } if (when == last_when() && !force) { return; } bool btn_en = false; if (!editing) { switch (_mode) { case Timecode: set_timecode (when); break; case BBT: set_bbt (dur); btn_en = true; break; case MinSec: set_minsec (when); break; case Seconds: set_seconds (when); break; case Samples: set_samples (when); break; } } finish_set (when, btn_en); last_time = dur; } void AudioClock::set (timepos_t const & w, bool force) { is_duration = false; timepos_t when (w); if ((!force && !get_visible()) || !_session) { return; } if (when > _limit_pos) { when = _limit_pos; } else if (when < -_limit_pos) { when = -_limit_pos; } if (when == last_when() && !force) { return; } bool btn_en = false; if (!editing) { switch (_mode) { case Timecode: set_timecode (when); break; case BBT: set_bbt (timecnt_t (when)); btn_en = true; break; case MinSec: set_minsec (when); break; case Seconds: set_seconds (when); break; case Samples: set_samples (when); break; } } finish_set (when, btn_en); last_time = timecnt_t (last_time.distance(), when); } void AudioClock::finish_set (Temporal::timepos_t const & when, bool btn_en) { if (_with_info) { _left_btn.set_sensitive (btn_en); _right_btn.set_sensitive (btn_en); _left_btn.set_visual_state (Gtkmm2ext::NoVisualState); _right_btn.set_visual_state (Gtkmm2ext::NoVisualState); if (btn_en) { _left_btn.set_elements (ArdourButton::Element(ArdourButton::Edge|ArdourButton::Body|ArdourButton::Text)); _right_btn.set_elements (ArdourButton::Element(ArdourButton::Edge|ArdourButton::Body|ArdourButton::Text)); _left_btn.set_alignment (.5, .5); _right_btn.set_alignment (.5, .5); set_tooltip (_left_btn, _("Change current tempo")); set_tooltip (_right_btn, _("Change current time signature")); } else { _left_btn.set_elements (ArdourButton::Text); _right_btn.set_elements (ArdourButton::Text); _left_btn.set_alignment (0, .5); _right_btn.set_alignment (1, .5); set_tooltip (_left_btn, ("")); set_tooltip (_right_btn, ("")); } } queue_draw (); } void AudioClock::set_slave_info () { if (!_with_info || !_session) { return; } std::shared_ptr tm = TransportMasterManager::instance().current(); if (_session->transport_master_is_external()) { switch (tm->type()) { case Engine: _left_btn.set_text (tm->name(), true); _right_btn.set_text ("", true); break; case MIDIClock: if (tm) { _left_btn.set_text (tm->display_name(), true); _right_btn.set_text (tm->delta_string (), true); } else { _left_btn.set_text (_("--pending--"), true); _right_btn.set_text ("", true); } break; case LTC: case MTC: if (tm) { std::shared_ptr tcmaster; if ((tcmaster = std::dynamic_pointer_cast(tm)) != 0) { //TODO: _left_btn.set_name () // tcmaster->apparent_timecode_format() != _session->config.get_timecode_format(); _left_btn.set_text (string_compose ("%1%2", tm->display_name()[0], tcmaster->position_string ()), false); _right_btn.set_text (tm->delta_string (), false); } } else { _left_btn.set_text (_("--pending--"), false); _right_btn.set_text ("", false); } break; } } else { _left_btn.set_text (string_compose ("%1/%2", _("INT"), tm->display_name()), false); _right_btn.set_text ("", false); } } void AudioClock::set_out_of_bounds (bool negative) { if (is_duration) { if (negative) { _layout->set_text (" >>> -- <<< "); } else { _layout->set_text (" >>> ++ <<< "); } } else { if (negative) { _layout->set_text (" <<<<<<<<<< "); } else { _layout->set_text (" >>>>>>>>>> "); } } } void AudioClock::set_samples (timepos_t const & w) { timepos_t when (w); char buf[32]; bool negative = false; if (_off) { _layout->set_text (" ----------"); _left_btn.set_text ("", false); _right_btn.set_text ("", false); return; } if (when.is_negative ()) { when = -when; negative = true; } if (when >= _limit_pos) { set_out_of_bounds (negative); } else if (negative) { snprintf (buf, sizeof (buf), "-%10" PRId64, when.samples()); _layout->set_text (buf); } else { snprintf (buf, sizeof (buf), " %10" PRId64, when.samples()); _layout->set_text (buf); } if (_with_info) { samplecnt_t rate = _session->sample_rate(); if (fmod (rate, 100.0) == 0.0) { sprintf (buf, "%.1fkHz", rate/1000.0); } else { sprintf (buf, "%" PRId64 "Hz", rate); } _left_btn.set_text (string_compose ("%1 %2", _("SR"), buf), false); float vid_pullup = _session->config.get_video_pullup(); if (vid_pullup == 0.0) { _right_btn.set_text ("", false); } else { sprintf (buf, _("%+.4f%%"), vid_pullup); _right_btn.set_text (string_compose ("%1 %2", _("Pull"), buf), false); } } } void AudioClock::set_seconds (timepos_t const & when) { char buf[32]; if (_off) { _layout->set_text (" ----------"); _left_btn.set_text ("", false); _right_btn.set_text ("", false); return; } if (when >= _limit_pos || when <= -_limit_pos) { set_out_of_bounds (when.is_negative ()); } else { if (when.is_negative ()) { snprintf (buf, sizeof (buf), "%12.1f", when.samples() / (float)_session->sample_rate()); } else { snprintf (buf, sizeof (buf), " %11.1f", when.samples() / (float)_session->sample_rate()); } _layout->set_text (buf); } set_slave_info(); } void AudioClock::print_minsec (samplepos_t when, char* buf, size_t bufsize, float sample_rate, int decimals) { samplecnt_t left; int hrs; int mins; int secs; int millisecs; bool negative; if (when < 0) { when = -when; negative = true; } else { negative = false; } float dmult; switch (decimals) { case 1: dmult = 10.f; break; case 2: dmult = 100.f; break; default: case 3: dmult = 1000.f; break; } left = when; hrs = (int) floor (left / (sample_rate * 60.0f * 60.0f)); left -= (samplecnt_t) floor (hrs * sample_rate * 60.0f * 60.0f); mins = (int) floor (left / (sample_rate * 60.0f)); left -= (samplecnt_t) floor (mins * sample_rate * 60.0f); secs = (int) floor (left / (float) sample_rate); left -= (samplecnt_t) floor ((double)(secs * sample_rate)); millisecs = floor (left * dmult / (float) sample_rate); switch (decimals) { case 0: snprintf (buf, bufsize, "%c%02" PRId32 ":%02" PRId32 ":%02" PRId32, negative ? '-' : ' ', hrs, mins, secs); break; case 1: snprintf (buf, bufsize, "%c%02" PRId32 ":%02" PRId32 ":%02" PRId32 ".%01" PRId32, negative ? '-' : ' ', hrs, mins, secs, millisecs); break; case 2: snprintf (buf, bufsize, "%c%02" PRId32 ":%02" PRId32 ":%02" PRId32 ".%02" PRId32, negative ? '-' : ' ', hrs, mins, secs, millisecs); break; default: case 3: snprintf (buf, bufsize, "%c%02" PRId32 ":%02" PRId32 ":%02" PRId32 ".%03" PRId32, negative ? '-' : ' ', hrs, mins, secs, millisecs); break; } } void AudioClock::set_minsec (timepos_t const & when) { char buf[32]; if (_off) { _layout->set_text (" --:--:--.---"); _left_btn.set_text ("", false); _right_btn.set_text ("", false); return; } if (when >= _limit_pos || when <= -_limit_pos) { set_out_of_bounds (when.is_negative ()); } else { print_minsec (when.samples(), buf, sizeof (buf), _session->sample_rate()); _layout->set_text (buf); } set_slave_info(); } void AudioClock::set_timecode (timepos_t const & w) { timepos_t when (w); Timecode::Time TC; bool negative = false; if (_off) { _layout->set_text (" --:--:--:--"); _left_btn.set_text ("", false); _right_btn.set_text ("", false); return; } if (when.is_negative ()) { when = -when; negative = true; } if (when >= _limit_pos) { set_out_of_bounds (negative); set_slave_info(); return; } if (is_duration) { _session->timecode_duration (when.samples(), TC); } else { _session->timecode_time (when.samples(), TC); } TC.negative = TC.negative || negative; _layout->set_text (Timecode::timecode_format_time(TC)); set_slave_info(); } void AudioClock::set_bbt (timecnt_t const & w) { timepos_t pos (w); char buf[64]; Temporal::BBT_Time BBT; bool negative = false; if (_off || pos >= _limit_pos || pos < -_limit_pos) { _layout->set_text (" ---|--|----"); _left_btn.set_text ("", false); _right_btn.set_text ("", false); return; } if (pos.is_negative ()) { pos = -pos; negative = true; } /* handle a common case */ TempoMap::SharedPtr tmap (TempoMap::use()); if (is_duration) { if (pos.is_zero ()) { BBT.bars = 0; BBT.beats = 0; BBT.ticks = 0; } else { const int divisions = tmap->meter_at (w.position()).divisions_per_bar(); Temporal::BBT_Time sub_bbt; if (negative) { BBT = tmap->bbt_at (timepos_t (tmap->quarters_at (w.position()))); sub_bbt = tmap->bbt_at (last_when().earlier (w.position())); } else { BBT = tmap->bbt_at (timepos_t (tmap->quarters_at (w.end()))); sub_bbt = tmap->bbt_at (w.position()); } BBT.bars -= sub_bbt.bars; if (BBT.ticks < sub_bbt.ticks) { if (BBT.beats == 1) { BBT.bars--; BBT.beats = divisions; } else { BBT.beats--; } BBT.ticks = Temporal::ticks_per_beat - (sub_bbt.ticks - BBT.ticks); } else { BBT.ticks -= sub_bbt.ticks; } if (BBT.beats < sub_bbt.beats) { BBT.bars--; BBT.beats = divisions - (sub_bbt.beats - BBT.beats); } else { BBT.beats -= sub_bbt.beats; } } } else { BBT = tmap->bbt_at (pos); } if (negative) { snprintf (buf, sizeof (buf), "-%03" PRIu32 BBT_BAR_CHAR "%02" PRIu32 BBT_BAR_CHAR "%04" PRIu32, BBT.bars, BBT.beats, BBT.ticks); } else { snprintf (buf, sizeof (buf), " %03" PRIu32 BBT_BAR_CHAR "%02" PRIu32 BBT_BAR_CHAR "%04" PRIu32, BBT.bars, BBT.beats, BBT.ticks); } _layout->set_text (buf); if (_with_info) { TempoMetric m (tmap->metric_at (pos)); if (m.tempo().note_type() == 4) { snprintf (buf, sizeof(buf), u8"\u2669 = %.3f", m.tempo().note_types_per_minute_at_DOUBLE (pos)); _left_btn.set_text (string_compose ("%1", buf), false); } else if (m.tempo().note_type() == 8) { snprintf (buf, sizeof(buf), u8"\u266a = %.3f", m.tempo().note_types_per_minute_at_DOUBLE (pos)); _left_btn.set_text (string_compose ("%1", buf), false); } else { snprintf (buf, sizeof(buf), "1/%d = %.3f",m.tempo().note_type(), m.tempo().note_types_per_minute_at_DOUBLE (pos)); _left_btn.set_text (buf, false); } snprintf (buf, sizeof(buf), "%d/%d", m.meter().divisions_per_bar(), m.meter().note_value()); _right_btn.set_text (string_compose ("%1: %2", S_("TimeSignature|TS"), buf), false); } } void AudioClock::set_session (Session *s) { SessionHandlePtr::set_session (s); if (_session) { int64_t limit_sec = UIConfiguration::instance().get_clock_display_limit (); if (limit_sec > 0) { _limit_pos = timepos_t (limit_sec * _session->sample_rate()); } Config->ParameterChanged.connect (_session_connections, invalidator (*this), std::bind (&AudioClock::session_configuration_changed, this, _1), gui_context()); _session->config.ParameterChanged.connect (_session_connections, invalidator (*this), std::bind (&AudioClock::session_configuration_changed, this, _1), gui_context()); /* try load v6 style settings (session file) */ XMLNode* node = _session->extra_xml (X_("ClockModes")); if (!node) { /* get new v7+ settings from instant_xml */ node = ARDOUR_UI::instance ()->clock_mode_settings (); } for (XMLNodeList::const_iterator i = node->children().begin(); i != node->children().end(); ++i) { std::string name; if ((*i)->get_property (X_("name"), name) && name == _name) { AudioClock::Mode amode; if ((*i)->get_property (X_("mode"), amode)) { set_mode (amode); } bool on; if ((*i)->get_property (X_("on"), on)) { set_off (!on); } break; } } if (is_duration) { AudioClock::set_duration (current_duration (), true); } else { AudioClock::set (last_when(), true); } } } bool AudioClock::on_key_press_event (GdkEventKey* ev) { if (!editing) { return false; } string new_text; char new_char = 0; int highlight_length; samplepos_t pos; switch (ev->keyval) { case GDK_0: case GDK_KP_0: new_char = '0'; break; case GDK_1: case GDK_KP_1: new_char = '1'; break; case GDK_2: case GDK_KP_2: new_char = '2'; break; case GDK_3: case GDK_KP_3: new_char = '3'; break; case GDK_4: case GDK_KP_4: new_char = '4'; break; case GDK_5: case GDK_KP_5: new_char = '5'; break; case GDK_6: case GDK_KP_6: new_char = '6'; break; case GDK_7: case GDK_KP_7: new_char = '7'; break; case GDK_8: case GDK_KP_8: new_char = '8'; break; case GDK_9: case GDK_KP_9: new_char = '9'; break; case GDK_minus: case GDK_KP_Subtract: if (_negative_allowed && input_string.empty()) { edit_is_negative = true; edit_string.replace(0,1,"-"); _layout->set_text (edit_string); queue_draw (); } else { end_edit_relative (false); } return true; break; case GDK_plus: end_edit_relative (true); return true; break; case GDK_Tab: case GDK_Return: case GDK_KP_Enter: end_edit (true); return true; break; case GDK_Escape: end_edit (false); return true; case GDK_Delete: case GDK_BackSpace: if (!input_string.empty()) { /* delete the last key entered */ input_string = input_string.substr (0, input_string.length() - 1); } goto use_input_string; default: /* do not allow other keys to passthru to the rest of the GUI when editing. */ return true; } if (!insert_map.empty() && (input_string.length() >= insert_map.size())) { /* too many digits: eat the key event, but do nothing with it */ return true; } input_string.push_back (new_char); use_input_string: switch (_mode) { case Samples: /* get this one in the right order, and to the right width */ if (ev->keyval == GDK_Delete || ev->keyval == GDK_BackSpace) { edit_string = edit_string.substr (0, edit_string.length() - 1); } else { edit_string.push_back (new_char); } if (!edit_string.empty()) { char buf[32]; sscanf (edit_string.c_str(), "%" PRId64, &pos); snprintf (buf, sizeof (buf), " %10" PRId64, pos); edit_string = buf; } /* highlight the whole thing */ highlight_length = edit_string.length(); break; default: highlight_length = merge_input_and_edit_string (); } if (edit_is_negative) { edit_string.replace(0,1,"-"); } else { if (!pre_edit_string.empty() && (pre_edit_string.at(0) == '-')) { edit_string.replace(0,1,"_"); } else { edit_string.replace(0,1," "); } } show_edit_status (highlight_length); _layout->set_text (edit_string); queue_draw (); return true; } int AudioClock::merge_input_and_edit_string () { /* merge with pre-edit-string into edit string */ edit_string = pre_edit_string; if (input_string.empty()) { return 0; } string::size_type target; for (string::size_type i = 0; i < input_string.length(); ++i) { target = insert_map[input_string.length() - 1 - i]; edit_string[target] = input_string[i]; } /* highlight from end to wherever the last character was added */ return edit_string.length() - insert_map[input_string.length()-1]; } bool AudioClock::on_key_release_event (GdkEventKey *ev) { if (!editing) { return false; } /* return true for keys that we used on press so that they cannot possibly do double-duty */ switch (ev->keyval) { case GDK_0: case GDK_KP_0: case GDK_1: case GDK_KP_1: case GDK_2: case GDK_KP_2: case GDK_3: case GDK_KP_3: case GDK_4: case GDK_KP_4: case GDK_5: case GDK_KP_5: case GDK_6: case GDK_KP_6: case GDK_7: case GDK_KP_7: case GDK_8: case GDK_KP_8: case GDK_9: case GDK_KP_9: case GDK_period: case GDK_comma: case GDK_KP_Decimal: case GDK_Tab: case GDK_Return: case GDK_KP_Enter: case GDK_Escape: case GDK_minus: case GDK_plus: case GDK_KP_Add: case GDK_KP_Subtract: return true; default: return false; } } AudioClock::Field AudioClock::index_to_field (int index) const { switch (_mode) { case Timecode: if (index < 4) { return Timecode_Hours; } else if (index < 7) { return Timecode_Minutes; } else if (index < 10) { return Timecode_Seconds; } else { return Timecode_frames; } break; case BBT: if (index < 5) { return Bars; } else if (index < 7) { return Beats; } else { return Ticks; } break; case MinSec: if (index < 3) { return Timecode_Hours; } else if (index < 6) { return MS_Minutes; } else if (index < 9) { return MS_Seconds; } else { return MS_Milliseconds; } break; case Seconds: if (index < 10) { return SS_Seconds; } else { return SS_Deciseconds; } break; case Samples: return S_Samples; break; } return Field (0); } bool AudioClock::on_button_press_event (GdkEventButton *ev) { if (!_session || _session->actively_recording()) { /* swallow event, do nothing */ return true; } switch (ev->button) { case 1: if (editable && !_off) { int index; int trailing; int y; int x; /* the text has been centered vertically, so adjust * x and y. */ int xcenter = (get_width() - layout_width) /2; y = ev->y - ((get_height() - layout_height)/2); x = ev->x - xcenter; if (!_layout->xy_to_index (x * PANGO_SCALE, y * PANGO_SCALE, index, trailing)) { /* pretend it is a character on the far right */ index = 99; } drag_field = index_to_field (index); dragging = true; /* make absolutely sure that the pointer is grabbed */ gdk_pointer_grab(ev->window,false , GdkEventMask( Gdk::POINTER_MOTION_MASK | Gdk::BUTTON_PRESS_MASK |Gdk::BUTTON_RELEASE_MASK), NULL,NULL,ev->time); drag_accum = 0; drag_start_y = ev->y; drag_y = ev->y; } break; default: return false; break; } return true; } bool AudioClock::on_button_release_event (GdkEventButton *ev) { if (!_session || _session->actively_recording()) { /* swallow event, do nothing */ return true; } if (editable && !_off) { if (dragging) { gdk_pointer_ungrab (GDK_CURRENT_TIME); dragging = false; if (ev->y > drag_start_y+1 || ev->y < drag_start_y-1 || Keyboard::modifier_state_equals (ev->state, Keyboard::TertiaryModifier)){ // we actually dragged so return without // setting editing focus, or we shift clicked return true; } else { if (ev->button == 1) { start_edit (); } } } } if (Keyboard::is_context_menu_event (ev)) { if (ops_menu == 0) { build_ops_menu (); } ops_menu->popup (ev->button, ev->time); return true; } return false; } bool AudioClock::on_focus_out_event (GdkEventFocus* ev) { bool ret = CairoWidget::on_focus_out_event (ev); if (editing) { end_edit (_accept_on_focus_out); } return ret; } bool AudioClock::on_scroll_event (GdkEventScroll *ev) { int index; int trailing; if (editing || _session == 0 || !editable || _off || _session->actively_recording()) { return false; } int y; int x; /* the text has been centered vertically, so adjust * x and y. */ int xcenter = (get_width() - layout_width) /2; y = ev->y - ((get_height() - layout_height)/2); x = ev->x - xcenter; if (!_layout->xy_to_index (x * PANGO_SCALE, y * PANGO_SCALE, index, trailing)) { /* not in the main layout */ return false; } Field f = index_to_field (index); timepos_t step; switch (ev->direction) { case GDK_SCROLL_UP: step = get_incremental_step (f, last_when()); if (!step.is_zero ()) { if (Keyboard::modifier_state_equals (ev->state, Keyboard::PrimaryModifier)) { step *= 10; } if (is_duration) { AudioClock::set_duration (current_duration() + step, true); // XXX step is too small ?! } else { AudioClock::set (last_when() + step, true); } ValueChanged (); /* EMIT_SIGNAL */ } break; case GDK_SCROLL_DOWN: step = get_incremental_step (f, last_when()); if (!step.is_zero ()) { if (Keyboard::modifier_state_equals (ev->state, Keyboard::PrimaryModifier)) { step *= 10; } if (is_duration) { if (!(current_duration () - step).is_negative()) { AudioClock::set_duration (current_duration () - step, true); } } else if (!_negative_allowed && last_when() < step) { AudioClock::set (timepos_t (), true); } else { AudioClock::set (last_when().earlier (step), true); } ValueChanged (); /* EMIT_SIGNAL */ } break; default: return false; break; } return true; } bool AudioClock::on_motion_notify_event (GdkEventMotion *ev) { if (editing || _session == 0 || !dragging || _session->actively_recording()) { return false; } const double y_delta = ev->y - drag_y; drag_accum += y_delta; drag_y = ev->y; if (drag_accum) { timepos_t pos = last_when (); timepos_t step = get_incremental_step (drag_field, pos); step *= fabs (drag_accum); if (drag_accum > 0) { /* positive, so downward motion ... decrement clock */ if (is_duration) { if (!step.is_zero () && (current_duration () >= timecnt_t(step))) { AudioClock::set_duration (current_duration () - step, false); } } else if (!step.is_zero () && (step < pos)) { AudioClock::set (pos.earlier (step), false); } else { AudioClock::set (timepos_t () , false); } } else if (is_duration) { /* negative so upward motion .. increment clock */ AudioClock::set_duration (current_duration () + step, false); } else { /* negative so upward motion .. increment clock */ AudioClock::set (pos + step, false); } drag_accum = 0; ValueChanged(); /* EMIT_SIGNAL */ } return true; } timepos_t AudioClock::get_incremental_step (Field field, timepos_t const & pos) { timepos_t f; Temporal::BBT_Time BBT; switch (field) { case Timecode_Hours: f = timepos_t (floor (3600.0 * _session->sample_rate())); break; case Timecode_Minutes: f = timepos_t (floor (60.0 * _session->sample_rate())); break; case Timecode_Seconds: f = timepos_t (_session->sample_rate()); break; case Timecode_frames: f = timepos_t (floor (_session->sample_rate() / _session->timecode_frames_per_second())); break; case S_Samples: f = timepos_t (1); break; case SS_Seconds: f = timepos_t (_session->sample_rate()); break; case SS_Deciseconds: f = timepos_t (_session->sample_rate() / 10.f); break; case MS_Hours: f = timepos_t (floor (3600.0 * _session->sample_rate())); break; case MS_Minutes: f = timepos_t (floor (60.0 * _session->sample_rate())); break; case MS_Seconds: f = timepos_t (_session->sample_rate()); break; case MS_Milliseconds: f = timepos_t (floor (_session->sample_rate() / 1000.0)); break; case Bars: BBT.bars = 1; BBT.beats = 0; BBT.ticks = 0; f = TempoMap::use()->bbt_duration_at (pos,BBT); break; case Beats: f = timepos_t (Temporal::Beats (1, 0)); break; case Ticks: f = timepos_t (Temporal::Beats (0, 1)); break; default: error << string_compose (_("programming error: %1"), "attempt to get samples from non-text field!") << endmsg; f = timepos_t (0); break; } return f; } timecnt_t AudioClock::current_duration (timepos_t pos) const { assert (is_duration); timecnt_t ret; switch (_mode) { case BBT: ret = timecnt_t (sample_duration_from_bbt_string (pos, _layout->get_text())); break; case Timecode: case MinSec: case Seconds: case Samples: ret = last_time; break; } return ret; } bool AudioClock::bbt_validate_edit (string & str) { BBT_Time bbt; if (sscanf (str.c_str(), BBT_SCANF_FORMAT, &bbt.bars, &bbt.beats, &bbt.ticks) != 3) { return false; } if (bbt.ticks > Temporal::ticks_per_beat) { return false; } if (!is_duration && bbt.bars == 0) { return false; } if (!is_duration && bbt.beats == 0) { /* user could not have mean zero beats because for a * non-duration clock that's impossible. Assume that they * mis-entered things and meant Bar|1|ticks */ char buf[128]; snprintf (buf, sizeof (buf), "%" PRIu32 "|%" PRIu32 "|%" PRIu32, bbt.bars, 1, bbt.ticks); str = buf; } return true; } bool AudioClock::timecode_validate_edit (const string& str) { Timecode::Time TC; int hours; if (sscanf (str.c_str(), "%*[- _]%" PRId32 ":%" PRId32 ":%" PRId32 "%*[:;]%" PRId32, &hours, &TC.minutes, &TC.seconds, &TC.frames) != 4) { return false; } if (hours < 0) { TC.hours = hours * -1; TC.negative = true; } else { TC.hours = hours; TC.negative = false; } if (TC.negative && !_negative_allowed) { return false; } if (TC.hours > 23U || TC.minutes > 59U || TC.seconds > 59U) { return false; } if (TC.frames > (uint32_t) rint (_session->timecode_frames_per_second()) - 1) { return false; } if (_session->timecode_drop_frames()) { if (TC.minutes % 10 && TC.seconds == 0U && TC.frames < 2U) { return false; } } return true; } bool AudioClock::minsec_validate_edit (const string& str) { int hrs, mins, secs, millisecs; if (sscanf (str.c_str(), "%d:%d:%d.%d", &hrs, &mins, &secs, &millisecs) != 4) { return false; } if (hrs > 23 || mins > 59 || secs > 59 || millisecs > 999) { return false; } return true; } samplepos_t AudioClock::samples_from_timecode_string (const string& str) const { if (_session == 0) { return 0; } Timecode::Time TC; samplepos_t sample; int hours; if (sscanf (str.c_str(), "%*[- _]%d:%d:%d%*[:;]%d", &hours, &TC.minutes, &TC.seconds, &TC.frames) != 4) { error << string_compose (_("programming error: %1 %2"), "badly formatted timecode clock string", str) << endmsg; return 0; } TC.hours = abs(hours); TC.rate = _session->timecode_frames_per_second(); TC.drop= _session->timecode_drop_frames(); _session->timecode_to_sample (TC, sample, false /* use_offset */, false /* use_subframes */ ); // timecode_tester (); if (edit_is_negative) { sample = - sample; } return sample; } samplepos_t AudioClock::samples_from_minsec_string (const string& str) const { if (_session == 0) { return 0; } int hrs, mins, secs, millisecs; samplecnt_t sr = _session->sample_rate(); if (sscanf (str.c_str(), "%d:%d:%d.%d", &hrs, &mins, &secs, &millisecs) != 4) { error << string_compose (_("programming error: %1 %2"), "badly formatted minsec clock string", str) << endmsg; return 0; } return (samplepos_t) floor ((hrs * 60.0f * 60.0f * sr) + (mins * 60.0f * sr) + (secs * sr) + (millisecs * sr / 1000.0)); } samplepos_t AudioClock::samples_from_bbt_string (timepos_t const & pos, const string& str) const { if (_session == 0) { #ifndef NDEBUG cout << "AudioClock::samples_from_bbt_string() called with BBT mode but without session!\n"; #endif return 0; } BBT_Argument bbt; if (sscanf (str.c_str(), BBT_SCANF_FORMAT, &bbt.bars, &bbt.beats, &bbt.ticks) != 3) { return 0; } if (is_duration) { bbt.bars++; bbt.beats++; return TempoMap::use()->bbt_duration_at (pos, bbt).samples(); } else { return TempoMap::use()->sample_at (bbt); } } samplepos_t AudioClock::sample_duration_from_bbt_string (timepos_t const & pos, const string& str) const { if (_session == 0) { #ifndef NDEBUG cout << "AudioClock::sample_duration_from_bbt_string() called with BBT mode but without session!\n"; #endif return 0; } Temporal::BBT_Time bbt; if (sscanf (str.c_str(), BBT_SCANF_FORMAT, &bbt.bars, &bbt.beats, &bbt.ticks) != 3) { return 0; } return TempoMap::use()->bbt_duration_at(pos,bbt).samples(); } samplepos_t AudioClock::samples_from_seconds_string (const string& str) const { float f; sscanf (str.c_str(), "%f", &f); return f * _session->sample_rate(); } samplepos_t AudioClock::samples_from_audiosamples_string (const string& str) const { samplepos_t f; sscanf (str.c_str(), "%" PRId64, &f); return f; } void AudioClock::copy_text_to_clipboard () const { string val; if (editing) { val = pre_edit_string; } else { val = _layout->get_text (); } const size_t trim = val.find_first_not_of(" "); if (trim == string::npos) { assert(0); // empty clock, can't be right. return; } Glib::RefPtr cl = Gtk::Clipboard::get(); cl->set_text (val.substr(trim)); } void AudioClock::build_ops_menu () { using namespace Menu_Helpers; ops_menu = new Menu; MenuList& ops_items = ops_menu->items(); ops_menu->set_name ("ArdourContextMenu"); ops_items.push_back (MenuElem (_("Timecode"), sigc::bind (sigc::mem_fun(*this, &AudioClock::set_mode), Timecode))); #ifndef LIVETRAX ops_items.push_back (MenuElem (_("Bars:Beats"), sigc::bind (sigc::mem_fun(*this, &AudioClock::set_mode), BBT))); #endif ops_items.push_back (MenuElem (_("Minutes:Seconds"), sigc::bind (sigc::mem_fun(*this, &AudioClock::set_mode), MinSec))); ops_items.push_back (MenuElem (_("Seconds"), sigc::bind (sigc::mem_fun(*this, &AudioClock::set_mode), Seconds))); ops_items.push_back (MenuElem (_("Samples"), sigc::bind (sigc::mem_fun(*this, &AudioClock::set_mode), Samples))); if (editable && !_off && !is_duration && !_follows_playhead) { ops_items.push_back (SeparatorElem()); ops_items.push_back (MenuElem (_("Set from Playhead"), sigc::mem_fun(*this, &AudioClock::set_from_playhead))); ops_items.push_back (MenuElem (_("Locate to This Time"), sigc::mem_fun(*this, &AudioClock::locate))); } ops_items.push_back (SeparatorElem()); ops_items.push_back (MenuElem (_("Copy to clipboard"), sigc::mem_fun(*this, &AudioClock::copy_text_to_clipboard))); } void AudioClock::set_from_playhead () { if (!_session) { return; } assert (!is_duration); AudioClock::set (timepos_t (_session->transport_sample())); ValueChanged (); } void AudioClock::locate () { if (!_session || is_duration) { return; } if (_session->actively_recording()) { return; } _session->request_locate (last_when().samples()); } void AudioClock::set_mode (Mode m) { if (Profile->get_livetrax() && m == BBT) { m = Timecode; } if (_mode == m) { return; } timecnt_t existing_duration; if (_session && is_duration) { existing_duration = current_duration (); } _mode = m; insert_map.clear(); Gtk::Requisition req; set_clock_dimensions (req); switch (_mode) { case Timecode: insert_map.push_back (11); insert_map.push_back (10); insert_map.push_back (8); insert_map.push_back (7); insert_map.push_back (5); insert_map.push_back (4); insert_map.push_back (2); insert_map.push_back (1); break; case BBT: insert_map.push_back (11); insert_map.push_back (10); insert_map.push_back (9); insert_map.push_back (8); insert_map.push_back (6); insert_map.push_back (5); insert_map.push_back (3); insert_map.push_back (2); insert_map.push_back (1); break; case MinSec: insert_map.push_back (12); insert_map.push_back (11); insert_map.push_back (10); insert_map.push_back (8); insert_map.push_back (7); insert_map.push_back (5); insert_map.push_back (4); insert_map.push_back (2); insert_map.push_back (1); break; case Seconds: insert_map.push_back (11); insert_map.push_back (9); insert_map.push_back (8); insert_map.push_back (7); insert_map.push_back (6); insert_map.push_back (5); insert_map.push_back (4); insert_map.push_back (3); insert_map.push_back (2); insert_map.push_back (1); break; case Samples: break; } if (is_duration) { AudioClock::set_duration (existing_duration, true); } else { AudioClock::set (last_when(), true); } mode_changed (); /* EMIT SIGNAL (the member one) */ } void AudioClock::on_style_changed (const Glib::RefPtr& old_style) { CairoWidget::on_style_changed (old_style); Glib::RefPtr const& new_style = get_style (); if (_layout && (_layout->get_font_description ().gobj () == 0 || _layout->get_font_description () != new_style->get_font ())) { _layout->set_font_description (new_style->get_font ()); queue_resize (); } else if (get_realized ()) { queue_resize (); } Gtk::Requisition req; set_clock_dimensions (req); /* set-colors also sets up font-attributes */ set_colors (); } void AudioClock::set_editable (bool yn) { editable = yn; } void AudioClock::set_off (bool yn) { if (_off == yn) { return; } _off = yn; /* force a redraw. last_time will be preserved, but the clock text will * change */ if (is_duration) { set_duration (last_time, true); } else { AudioClock::set (last_when(), true); } } void AudioClock::focus () { start_edit (Field (0)); } void AudioClock::set_corner_radius (double r) { corner_radius = r; first_width = 0; first_height = 0; queue_resize (); } void AudioClock::dpi_reset () { /* force recomputation of size even if we are fixed width */ first_width = 0; first_height = 0; if (get_realized ()) { queue_resize (); } } void AudioClock::set_negative_allowed (bool yn) { _negative_allowed = yn; }