/* Copyright (C) 2017 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. */ #include #include #include "pbd/compose.h" #include "pbd/i18n.h" #ifdef HAVE_BEATBOX #include "ardour/beatbox.h" #endif #include "ardour/parameter_descriptor.h" #include "ardour/session.h" #include "ardour/smf_source.h" #include "ardour/source_factory.h" #include "ardour/step_sequencer.h" #include "ardour/region.h" #include "ardour/region_factory.h" #include "ardour/utils.h" #include "canvas/canvas.h" #include "canvas/grid.h" #include "canvas/box.h" #include "canvas/constrained_item.h" #include "canvas/rectangle.h" #include "canvas/polygon.h" #include "canvas/scroll_group.h" #include "canvas/step_button.h" #include "canvas/text.h" #include "canvas/widget.h" #include "gtkmm2ext/gui_thread.h" #include "gtkmm2ext/utils.h" #include "gtkmm2ext/colors.h" #include "beatbox_gui.h" #include "floating_text_entry.h" #include "timers.h" #include "ui_config.h" using namespace PBD; using namespace ARDOUR; using namespace Gtkmm2ext; using namespace ArdourCanvas; using std::cerr; using std::endl; const double _step_dimen = 32; BBGUI::BBGUI (std::shared_ptr bb) : ArdourDialog (_("BeatBox")) , bbox (bb) , horizontal_adjustment (0.0, 0.0, 800.0) , vertical_adjustment (0.0, 0.0, 10.0, 400.0) , export_as_region_button (_("Export as Region")) { _canvas_viewport = new GtkCanvasViewport (horizontal_adjustment, vertical_adjustment); _canvas = _canvas_viewport->canvas(); _canvas->set_background_color (UIConfiguration::instance().color ("gtk_bases")); _canvas->use_nsglview (); _sequencer = new SequencerView (bbox->sequencer(), _canvas->root()); canvas_hbox.pack_start (*_canvas_viewport, true, true); get_vbox()->set_spacing (12); get_vbox()->pack_start (canvas_hbox, true, true); export_as_region_button.signal_clicked.connect (sigc::mem_fun (*this, &BBGUI::export_as_region)); get_action_area()->pack_end (export_as_region_button); bbox->sequencer().PropertyChanged.connect (sequencer_connection, invalidator (*this), std::bind (&BBGUI::sequencer_changed, this, _1), gui_context()); { /* trigger initial draw */ PropertyChange pc; sequencer_changed (pc); } show_all (); } BBGUI::~BBGUI () { } void BBGUI::update () { _sequencer->update (); } void BBGUI::on_map () { timer_connection = Timers::rapid_connect (sigc::mem_fun (*this, &BBGUI::update)); ArdourDialog::on_map (); } void BBGUI::on_unmap () { timer_connection.disconnect (); ArdourDialog::on_unmap (); } #if 0 bool BBGUI::SwitchRow::switch_event (GdkEvent* ev, int col) { Timecode::BBT_Time at; const int beats_per_bar = owner.bbox->meter_beats(); at.bars = col / beats_per_bar; at.beats = col % beats_per_bar; at.ticks = 0; at.bars++; at.beats++; Switch* s = switches[col]; if (ev->type == GDK_BUTTON_PRESS) { /* XXX changes should be driven by model */ if (s->button->value()) { owner.bbox->remove_note (note, at); s->button->set_value (0); } else { s->button->set_value (64); owner.bbox->add_note (note, rint (s->button->value()), at); } return true; } else if (ev->type == GDK_SCROLL) { switch (ev->scroll.direction) { case GDK_SCROLL_UP: case GDK_SCROLL_RIGHT: s->button->set_value (s->button->value() + 1); break; case GDK_SCROLL_DOWN: case GDK_SCROLL_LEFT: s->button->set_value (s->button->value() - 1); break; } return true; } return false; } #endif void BBGUI::clear () { } void BBGUI::export_as_region () { std::string path = bbox->session().new_midi_source_path (bbox->owner()->name()); std::shared_ptr src = bbox->sequencer().write_to_source (bbox->session(), path); if (!src) { return; } std::string region_name = region_name_from_path (src->name(), true); PBD::PropertyList plist; plist.add (ARDOUR::Properties::start, 0); plist.add (ARDOUR::Properties::length, src->length (0)); plist.add (ARDOUR::Properties::name, region_name); plist.add (ARDOUR::Properties::layer, 0); plist.add (ARDOUR::Properties::whole_file, true); plist.add (ARDOUR::Properties::external, false); std::shared_ptr region = RegionFactory::create (src, plist, true); } void BBGUI::sequencer_changed (PropertyChange const &) { const size_t nsteps = bbox->sequencer().step_capacity (); const size_t nsequences = bbox->sequencer().nsequences(); _width = _step_dimen * nsteps; _height = (_step_dimen * (1+nsequences)) + SequencerView::mode_button_ydim; size_t required_scroll = _height - _canvas_viewport->get_allocation().get_height(); vertical_adjustment.set_upper (required_scroll); /* height is 1 step_dimen larger to accommodate the "step indicator" * line at the top */ _canvas_viewport->set_size_request (SequencerView::rhs_xoffset + _width, _height); } /**/ Gtkmm2ext::Color SequencerView::current_mode_color = Gtkmm2ext::Color (0); Gtkmm2ext::Color SequencerView::not_current_mode_color = Gtkmm2ext::Color (0); double SequencerView::rhs_xoffset = 250.0; double SequencerView::mode_button_width = 110.0; double SequencerView::mode_button_height = 60.0; double SequencerView::mode_button_spacing = 10; double SequencerView::mode_button_xdim = mode_button_width + mode_button_spacing; double SequencerView::mode_button_ydim = mode_button_height + mode_button_spacing; SequencerView::SequencerView (StepSequencer& s, ArdourCanvas::Item *p) : ConstraintPacker (p, Vertical) , _sequencer (s) , _mode (Velocity) { name = "SequencerView"; set_fill (false); if (current_mode_color == 0) { current_mode_color = UIConfiguration::instance().color ("gtk_lightest"); not_current_mode_color = contrasting_text_color (current_mode_color); } const Duple mode_button_center (mode_button_width/2.0, mode_button_height/2.0); button_packer = new ArdourCanvas::ConstraintPacker (_canvas, ArdourCanvas::Horizontal); button_packer->name = "ButtonPacker"; pack_start (button_packer); sequence_hbox = new ConstraintPacker (_canvas, Horizontal); sequence_hbox->name = "shbox"; pack_start (sequence_hbox); lhs_vbox = new ArdourCanvas::ConstraintPacker (_canvas, Vertical); lhs_vbox->name = "lhs"; ConstrainedItem* ci; ci = sequence_hbox->pack_start (lhs_vbox); ci->add_constraint (ci->width() == 0.8 * sequence_hbox->width); steps_vbox = new ConstraintPacker (_canvas, Vertical); steps_vbox->name = "steps"; sequence_hbox->pack_start (steps_vbox, PackOptions (PackExpand|PackFill)); rhs_vbox = new ConstraintPacker (_canvas, Vertical); rhs_vbox->name = "rhs"; sequence_hbox->pack_start (rhs_vbox); velocity_mode_button = new Rectangle (_canvas); velocity_mode_button->set_corner_radius (10.0); velocity_mode_button->set_intrinsic_size (mode_button_width, mode_button_height); velocity_mode_button->set_fill_color (current_mode_color); velocity_mode_text = new Text (_canvas); velocity_mode_text->set_font_description (UIConfiguration::instance().get_LargeFont()); velocity_mode_text->set (_("Velocity")); velocity_mode_text->set_color (contrasting_text_color (velocity_mode_button->fill_color())); pitch_mode_button = new Rectangle (_canvas); pitch_mode_button->set_corner_radius (10.0); pitch_mode_button->set_intrinsic_size (mode_button_width, mode_button_height); pitch_mode_button->set_fill_color (not_current_mode_color); pitch_mode_text = new Text (pitch_mode_button); pitch_mode_text->set_font_description (UIConfiguration::instance().get_LargeFont()); pitch_mode_text->set (_("Pitch")); pitch_mode_text->set_color (contrasting_text_color (pitch_mode_button->fill_color())); gate_mode_button = new Rectangle (_canvas); gate_mode_button->set_corner_radius (10.0); gate_mode_button->set_intrinsic_size (mode_button_width, mode_button_height); gate_mode_button->set_fill_color (not_current_mode_color); gate_mode_text = new Text (gate_mode_button); gate_mode_text->set_font_description (UIConfiguration::instance().get_LargeFont()); gate_mode_text->set (_("Gate")); gate_mode_text->set_color (contrasting_text_color (gate_mode_button->fill_color())); octave_mode_button = new Rectangle (_canvas); octave_mode_button->set_corner_radius (10.0); octave_mode_button->set_intrinsic_size (mode_button_width, mode_button_height); octave_mode_button->set_fill_color (not_current_mode_color); octave_mode_text = new Text (octave_mode_button); octave_mode_text->set_font_description (UIConfiguration::instance().get_LargeFont()); octave_mode_text->set (_("Octave")); octave_mode_text->set_color (contrasting_text_color (octave_mode_button->fill_color())); timing_mode_button = new Rectangle (_canvas); timing_mode_button->set_corner_radius (10.0); timing_mode_button->set_intrinsic_size (mode_button_width, mode_button_height); timing_mode_button->set_fill_color (not_current_mode_color); timing_mode_text = new Text (timing_mode_button); timing_mode_text->set_font_description (UIConfiguration::instance().get_LargeFont()); timing_mode_text->set (_("Timing")); timing_mode_text->set_color (contrasting_text_color (timing_mode_button->fill_color())); ConstrainedItem* b; ConstrainedItem* t; b = button_packer->pack_start (velocity_mode_button, PackOptions (PackExpand|PackFill), PackOptions (0)); t = button_packer->add_constrained (velocity_mode_text); t->centered_on (*b); b = button_packer->pack_start (pitch_mode_button, PackOptions (PackExpand|PackFill), PackOptions (0)); t = button_packer->add_constrained (pitch_mode_text); t->centered_on (*b); b = button_packer->pack_start (gate_mode_button, PackOptions (PackExpand|PackFill), PackOptions (0)); t = button_packer->add_constrained (gate_mode_text); t->centered_on (*b); b = button_packer->pack_start (octave_mode_button, PackOptions (PackExpand|PackFill), PackOptions (0)); t = button_packer->add_constrained (octave_mode_text); t->centered_on (*b); b = button_packer->pack_start (timing_mode_button, PackOptions (PackExpand|PackFill), PackOptions (0)); t = button_packer->add_constrained (timing_mode_text); t->centered_on (*b); octave_mode_button->Event.connect (sigc::bind (sigc::mem_fun (*this, &SequencerView::mode_button_event), Octave)); gate_mode_button->Event.connect (sigc::bind (sigc::mem_fun (*this, &SequencerView::mode_button_event), Duration)); pitch_mode_button->Event.connect (sigc::bind (sigc::mem_fun (*this, &SequencerView::mode_button_event), Pitch)); velocity_mode_button->Event.connect (sigc::bind (sigc::mem_fun (*this, &SequencerView::mode_button_event), Velocity)); timing_mode_button->Event.connect (sigc::bind (sigc::mem_fun (*this, &SequencerView::mode_button_event), Timing)); octave_mode_text->set_ignore_events (true); gate_mode_text->set_ignore_events (true); pitch_mode_text->set_ignore_events (true); velocity_mode_text->set_ignore_events (true); timing_mode_text->set_ignore_events (true); _sequencer.PropertyChanged.connect (sequencer_connection, invalidator (*this), std::bind (&SequencerView::sequencer_changed, this, _1), gui_context()); { /* trigger initial draw */ PropertyChange pc; sequencer_changed (pc); } } bool SequencerView::mode_button_event (GdkEvent* ev, Mode m) { switch (ev->type) { case GDK_BUTTON_RELEASE: set_mode (m); return true; default: break; } return false; } void SequencerView::update () { bool running = true; size_t step = _sequencer.last_step (); for (SequenceViews::iterator s = sequence_views.begin(); s != sequence_views.end(); ++s) { } } void SequencerView::sequencer_changed (PropertyChange const &) { const size_t nsteps = _sequencer.step_capacity (); const size_t nsequences = _sequencer.nsequences(); size_t n; _width = _step_dimen * nsteps; _height = _step_dimen * nsequences; /* indicator row */ #if 0 while (step_indicators.size() > nsteps) { SequencerStepIndicator* ssi = step_indicators.back(); step_indicators.pop_back(); step_indicator_box->remove (ssi); delete ssi; } n = step_indicators.size(); while (step_indicators.size() < nsteps) { SequencerStepIndicator* ssi = new SequencerStepIndicator (*this, canvas(), n); step_indicator_box->pack_start (ssi, PackOptions (PackExpand|PackFill), PackOptions (0)); step_indicators.push_back (ssi); ++n; } #endif while (sequence_views.size() > nsequences) { SequenceView* sh = sequence_views.back (); sequence_views.pop_back (); delete sh; } n = sequence_views.size(); while (sequence_views.size() < nsequences) { SequenceView* sv = new SequenceView (*this, _sequencer.sequence (n), canvas()); lhs_vbox->pack_start (sv->lhs_box); steps_vbox->pack_start (sv->step_box); rhs_vbox->pack_start (sv->rhs_box); sequence_views.push_back (sv); ++n; } } void SequencerView::set_mode (Mode m) { if (_mode == m) { return; } _mode = m; switch (_mode) { case Octave: octave_mode_button->set_fill_color (current_mode_color); octave_mode_text->set_color (contrasting_text_color (current_mode_color)); timing_mode_button->set_fill_color (not_current_mode_color); velocity_mode_button->set_fill_color (not_current_mode_color); gate_mode_button->set_fill_color (not_current_mode_color); pitch_mode_button->set_fill_color (not_current_mode_color); pitch_mode_text->set_color (contrasting_text_color (not_current_mode_color)); gate_mode_text->set_color (pitch_mode_text->color ()); velocity_mode_text->set_color (pitch_mode_text->color()); timing_mode_text->set_color (pitch_mode_text->color()); break; case Duration: gate_mode_button->set_fill_color (current_mode_color); gate_mode_text->set_color (contrasting_text_color (current_mode_color)); timing_mode_button->set_fill_color (not_current_mode_color); velocity_mode_button->set_fill_color (not_current_mode_color); octave_mode_button->set_fill_color (not_current_mode_color); pitch_mode_button->set_fill_color (not_current_mode_color); pitch_mode_text->set_color (contrasting_text_color (not_current_mode_color)); octave_mode_text->set_color (pitch_mode_text->color ()); velocity_mode_text->set_color (pitch_mode_text->color()); timing_mode_text->set_color (pitch_mode_text->color()); break; case Pitch: pitch_mode_button->set_fill_color (current_mode_color); pitch_mode_text->set_color (contrasting_text_color (current_mode_color)); timing_mode_button->set_fill_color (not_current_mode_color); velocity_mode_button->set_fill_color (not_current_mode_color); octave_mode_button->set_fill_color (not_current_mode_color); gate_mode_button->set_fill_color (not_current_mode_color); gate_mode_text->set_color (contrasting_text_color (not_current_mode_color)); octave_mode_text->set_color (gate_mode_text->color ()); velocity_mode_text->set_color (gate_mode_text->color()); timing_mode_text->set_color (gate_mode_text->color()); break; case Velocity: velocity_mode_button->set_fill_color (current_mode_color); velocity_mode_text->set_color (contrasting_text_color (current_mode_color)); timing_mode_button->set_fill_color (not_current_mode_color); pitch_mode_button->set_fill_color (not_current_mode_color); octave_mode_button->set_fill_color (not_current_mode_color); gate_mode_button->set_fill_color (not_current_mode_color); pitch_mode_text->set_color (contrasting_text_color (not_current_mode_color)); octave_mode_text->set_color (pitch_mode_text->color ()); gate_mode_text->set_color (pitch_mode_text->color()); timing_mode_text->set_color (pitch_mode_text->color()); break; case Timing: timing_mode_button->set_fill_color (current_mode_color); timing_mode_text->set_color (contrasting_text_color (current_mode_color)); velocity_mode_button->set_fill_color (not_current_mode_color); pitch_mode_button->set_fill_color (not_current_mode_color); octave_mode_button->set_fill_color (not_current_mode_color); gate_mode_button->set_fill_color (not_current_mode_color); pitch_mode_text->set_color (contrasting_text_color (not_current_mode_color)); octave_mode_text->set_color (pitch_mode_text->color ()); gate_mode_text->set_color (pitch_mode_text->color()); velocity_mode_text->set_color (gate_mode_text->color()); default: break; } for (SequenceViews::iterator s = sequence_views.begin(); s != sequence_views.end(); ++s) { (*s)->view_mode_changed (); } redraw ();} void SequencerView::render (Rect const & area, Cairo::RefPtr context) const { /* might do more one day */ ConstraintPacker::render (area, context); } SequenceView& SequencerView::sequence_view (size_t n) const { assert (n < sequence_views.size()); return *sequence_views[n]; } /**/ Gtkmm2ext::Color SequencerStepIndicator::other_color = Gtkmm2ext::Color (0); Gtkmm2ext::Color SequencerStepIndicator::current_color = Gtkmm2ext::Color (0); Gtkmm2ext::Color SequencerStepIndicator::other_text_color = Gtkmm2ext::Color (0); Gtkmm2ext::Color SequencerStepIndicator::current_text_color = Gtkmm2ext::Color (0); Gtkmm2ext::Color SequencerStepIndicator::bright_outline_color = Gtkmm2ext::Color (0); int SequencerStepIndicator::dragging = 0; SequencerStepIndicator::SequencerStepIndicator (SequencerView& s, ArdourCanvas::Canvas* c, size_t n) : Rectangle (c) , sv (s) , number (n) , being_dragged (false) { if (current_color == 0) { /* zero alpha? not set */ other_color = UIConfiguration::instance().color ("gtk_bases"); current_color = UIConfiguration::instance().color ("gtk_bright_color"); other_text_color = contrasting_text_color (other_color); current_text_color = contrasting_text_color (current_color); bright_outline_color = UIConfiguration::instance().color ("gtk_bright_indicator"); } set_intrinsic_size (_step_dimen - 1, _step_dimen - 1); set_fill_color (HSV (UIConfiguration::instance().color ("gtk_bases")).lighter (0.1)); set_fill (true); set_outline (false); poly = new Polygon (this); Points points; points.push_back (Duple (1, 1)); points.push_back (Duple (_step_dimen - 3.0, 1)); points.push_back (Duple (_step_dimen - 3.0, (_step_dimen - 3.0)/2.0)); points.push_back (Duple ((_step_dimen - 3.0)/2.0, _step_dimen - 3.0)); points.push_back (Duple (1, (_step_dimen - 3.0)/2.0)); poly->set (points); poly->set_fill_color (current_color); poly->set_outline_color (other_color); poly->set_ignore_events (true); poly->move (Duple (-0.5, -0.5)); text = new Text (this); set_text (); text->set_font_description (UIConfiguration::instance ().get_NormalFont ()); text->set_position (Duple ((_step_dimen/2.0) - (text->width()/2.0), 5.0)); text->set_color (other_text_color); text->set_ignore_events (true); text->name = string_compose ("SI %1", n); Event.connect (sigc::mem_fun (*this, &SequencerStepIndicator::on_event)); sv.sequencer().PropertyChanged.connect (sequencer_connection, invalidator (*this), std::bind (&SequencerStepIndicator::sequencer_changed, this, _1), gui_context()); } void SequencerStepIndicator::sequencer_changed (PropertyChange const &) { set_text (); } void SequencerStepIndicator::set_text () { if (number == sv.sequencer().end_step() - 1) { text->set (u8"\u21a9"); } else if (number == sv.sequencer().start_step()) { text->set (u8"\u21aa"); } else { text->set (string_compose ("%1", number+1)); } } bool SequencerStepIndicator::on_event (GdkEvent* ev) { bool ret = false; switch (ev->type) { case GDK_ENTER_NOTIFY: switch (dragging) { case 1: /* end */ poly->set_outline_color (bright_outline_color); poly->set_fill_color (current_color); being_dragged = true; break; case -1: poly->set_outline_color (bright_outline_color); poly->set_fill_color (current_color); being_dragged = true; break; default: poly->set_outline_color (other_color); poly->set_fill_color (other_color); } break; case GDK_LEAVE_NOTIFY: if (dragging) { poly->set_outline_color (other_color); poly->set_fill_color (other_color); being_dragged = false; } break; case GDK_MOTION_NOTIFY: ret = motion_event (&ev->motion); break; case GDK_BUTTON_PRESS: ret = button_press_event (&ev->button); break; case GDK_BUTTON_RELEASE: ret = button_release_event (&ev->button); break; default: break; } return ret; } bool SequencerStepIndicator::motion_event (GdkEventMotion* ev) { return true; } bool SequencerStepIndicator::button_press_event (GdkEventButton* ev) { if (number == sv.sequencer().end_step() - 1) { dragging = 1; } else if (number == sv.sequencer().start_step()) { dragging = -1; } return true; } bool SequencerStepIndicator::button_release_event (GdkEventButton* ev) { switch (dragging) { case 1: sv.sequencer().set_end_step (number+1); break; case -1: sv.sequencer().set_start_step (number); break; default: break; } dragging = 0; being_dragged = false; return true; } void SequencerStepIndicator::set_current (bool yn) { if (being_dragged) { return; } if (yn) { poly->set_fill_color (current_color); text->set_color (current_text_color); } else { poly->set_fill_color (other_color); text->set_color (other_text_color); } } void SequencerStepIndicator::render (Rect const & area, Cairo::RefPtr context) const { Rectangle::render (area, context); render_children (area, context); } Gtkmm2ext::Color StepView::on_fill_color = Gtkmm2ext::Color (0); Gtkmm2ext::Color StepView::off_fill_color = Gtkmm2ext::Color (0); StepView::StepView (SequenceView& sview, Step& s, ArdourCanvas::Canvas* c) : ArdourCanvas::Rectangle (c) , _step (s) , sv (sview) , text (new Text (this)) , grabbed (false) { set_intrinsic_size (_step_dimen - 1, _step_dimen - 1); name = string_compose ("stepview for %1", _step.index()); if (on_fill_color == 0) { on_fill_color = UIConfiguration::instance().color ("gtk_bases"); off_fill_color = HSV (on_fill_color).lighter (0.1); } set_fill_color (off_fill_color); set_outline_color (UIConfiguration::instance().color ("gtk_bright_color")); set_outline (true); text->set_color (contrasting_text_color (fill_color())); text->set_font_description (UIConfiguration::instance ().get_SmallFont ()); text->hide (); text->name = string_compose ("step %1", _step.index()); Event.connect (sigc::mem_fun (*this, &StepView::on_event)); _step.PropertyChanged.connect (step_connection, invalidator (*this), std::bind (&StepView::step_changed, this, _1), gui_context()); } void StepView::view_mode_changed () { /* this should leave the text to the last text-displaying mode */ switch (sv.mode()) { case SequencerView::Octave: set_octave_text (); break; case SequencerView::Group: set_group_text (); break; case SequencerView::Timing: set_timing_text (); break; default: text->hide (); } } void StepView::set_group_text () { text->set ("-"); } void StepView::set_octave_text () { if (_step.octave_shift() > 0) { text->set (string_compose ("+%1", _step.octave_shift())); text->show (); } else if (_step.octave_shift() == 0) { text->hide (); } else { text->set (string_compose ("%1", _step.octave_shift())); text->show (); } if (text->self_visible()) { const double w = text->width(); const double h = text->height(); text->set_position (Duple (_step_dimen/2 - (w/2), _step_dimen/2 - (h/2))); } } void StepView::set_timing_text () { if (!_step.velocity()) { text->hide (); return; } if (_step.offset() == Temporal::Beats()) { text->set (X_("0")); } else { const int64_t gcd = std::gcd (_step.offset().to_ticks(), int64_t (1920)); const int64_t n = _step.offset().to_ticks() / gcd; const int64_t d = 1920 / gcd; text->set (string_compose ("%1/%2", n, d)); text->show (); } if (text->self_visible()) { const double w = text->width(); const double h = text->height(); text->set_position (Duple (_step_dimen/2 - (w/2), _step_dimen/2 - (h/2))); } } void StepView::step_changed (PropertyChange const &) { if (sv.mode() == SequencerView::Octave) { set_octave_text (); } else if (sv.mode() == SequencerView::Timing) { set_timing_text (); } if (_step.velocity()) { set_fill_color (on_fill_color); } else { set_fill_color (off_fill_color); } redraw (); } void StepView::render (ArdourCanvas::Rect const & area, Cairo::RefPtr context) const { Rectangle::render (area, context); if (sv.mode() == SequencerView::Velocity) { if (_step.velocity()) { const double height = (_step_dimen - 4) * _step.velocity(); const Duple origin = item_to_window (Duple (0, 0)); set_source_rgba (context, outline_color()); context->rectangle (origin.x + 2, origin.y + (_step_dimen - height - 2), _step_dimen - 4, height); context->fill (); } } else if (sv.mode() == SequencerView::Pitch) { if (_step.velocity()) { const double height = (_step_dimen - 4) * (_step.note() / 128.0); const Duple origin = item_to_window (Duple (0, 0)); set_source_rgba (context, outline_color()); context->rectangle (origin.x + 2, origin.y + (_step_dimen - height - 2), _step_dimen - 4, height); context->fill (); } } else if (sv.mode() == SequencerView::Duration) { if (_step.velocity()) { const Step::DurationRatio d (_step.duration()); const double height = ((_step_dimen - 4.0) * d.numerator()) / d.denominator(); const Duple origin = item_to_window (Duple (0, 0)); set_source_rgba (context, outline_color()); context->rectangle (origin.x + 2, origin.y + (_step_dimen - height - 2), _step_dimen - 4, height); context->fill (); } } else if (sv.mode() == SequencerView::Timing) { if (_step.velocity()) { Temporal::Beats offset = _step.offset (); const double fract = offset.to_ticks() / (double) sequencer().step_size().to_ticks(); const double width = ((_step_dimen - 4.0)/2.0) * fract; const Duple origin = item_to_window (Duple (_step_dimen / 2.0, 0.0)); /* draw sideways "bars" from center" to indicate extent * of time displacement from nominal time for this step */ set_source_rgba (context, outline_color()); context->rectangle (origin.x + 2.0, origin.y + 2.0, width, _step_dimen - 4.0); context->fill (); } } /* now deal with any children (e.g. text) */ render_children (area, context); } bool StepView::on_event (GdkEvent *ev) { bool ret = false; switch (ev->type) { case GDK_MOTION_NOTIFY: ret = motion_event (&ev->motion); break; case GDK_BUTTON_PRESS: ret = button_press_event (&ev->button); break; case GDK_BUTTON_RELEASE: ret = button_release_event (&ev->button); break; case GDK_SCROLL: ret = scroll_event (&ev->scroll); default: break; } return ret; } bool StepView::motion_event (GdkEventMotion* ev) { if (!grabbed) { return false; } int distance; switch (sv.mode()) { case SequencerView::Timing: distance = ev->x - last_motion.first; break; default: distance = last_motion.second - ev->y; break; } if ((ev->state & GDK_MOD1_MASK) || sv.mode() == SequencerView::Pitch) { adjust_step_pitch (distance); } else if (sv.mode() == SequencerView::Velocity) { adjust_step_velocity (distance); } else if (sv.mode() == SequencerView::Duration) { adjust_step_duration (Step::DurationRatio (distance, 32)); /* adjust by 1/32 of the sequencer step size */ } else if (sv.mode() == SequencerView::Octave) { adjust_step_octave (distance); } else if (sv.mode() == SequencerView::Timing) { adjust_step_timing (distance/(_step_dimen / 2.0)); } else if (sv.mode() == SequencerView::Group) { } last_motion = std::make_pair (ev->x, ev->y); return true; } bool StepView::button_press_event (GdkEventButton* ev) { grab_at = std::make_pair (ev->x, ev->y); last_motion = grab_at; grab (); grabbed = true; return true; } bool StepView::button_release_event (GdkEventButton* ev) { if (grabbed) { ungrab (); grabbed = false; int distance_moved; switch (sv.mode()) { case SequencerView::Timing: distance_moved = grab_at.first - last_motion.first; break; default: distance_moved = last_motion.second - grab_at.second; break; } if (::abs (distance_moved) < 4) { /* just a click */ /* in all modes except octave, turn step on if it is off */ if (sv.mode() == SequencerView::Octave) { if (_step.velocity()) { _step.set_octave_shift (0); } else { _step.set_velocity (0.8); } } else { if (_step.velocity()) { _step.set_velocity (0.0); } else { _step.set_velocity (0.8); } } } } return true; } bool StepView::scroll_event (GdkEventScroll* ev) { int amt = 0; switch (ev->direction) { case GDK_SCROLL_UP: amt = 1; break; case GDK_SCROLL_LEFT: amt = -1; break; case GDK_SCROLL_RIGHT: amt = 1; break; case GDK_SCROLL_DOWN: amt = -1; break; } if ((ev->state & GDK_MOD1_MASK) || sv.mode() == SequencerView::Pitch) { adjust_step_pitch (amt); } else if (sv.mode() == SequencerView::Velocity) { adjust_step_velocity (amt); } else if (sv.mode() == SequencerView::Duration) { /* adjust by 1/32 of the sequencer step size */ adjust_step_duration (Step::DurationRatio (amt, 32)); } else if (sv.mode() == SequencerView::Octave) { adjust_step_octave (amt); } else if (sv.mode() == SequencerView::Timing) { adjust_step_timing (amt); } else if (sv.mode() == SequencerView::Group) { } return true; } void StepView::adjust_step_timing (double fract) { _step.adjust_offset (fract); } void StepView::adjust_step_pitch (int amt) { _step.adjust_pitch (amt); } void StepView::adjust_step_velocity (int amt) { _step.adjust_velocity (amt); } void StepView::adjust_step_octave (int amt) { _step.adjust_octave (amt); } void StepView::adjust_step_duration (Step::DurationRatio const & amt) { _step.adjust_duration (amt); } /**/ SequenceView::SequenceView (SequencerView& sview, StepSequence& sq, Canvas* canvas) : sv (sview) , sequence (sq) { lhs_box = new ArdourCanvas::ConstraintPacker (canvas, ArdourCanvas::Horizontal); lhs_box->set_padding (12); rhs_box = new ArdourCanvas::ConstraintPacker (canvas, ArdourCanvas::Horizontal); rhs_box->set_padding (12); step_box = new ArdourCanvas::ConstraintPacker (canvas, ArdourCanvas::Horizontal); step_box->set_padding (6); lhs_box->set_fill_color (UIConfiguration::instance().color ("gtk_bright_color")); lhs_box->set_fill (true); lhs_box->set_outline (false); lhs_box->set_spacing (5.0); lhs_box->name = string_compose ("lhs box for %1", sequence.index()); number_text = new Text (canvas); number_text->set_font_description (UIConfiguration::instance().get_LargeFont()); number_text->set_intrinsic_size (_step_dimen - 1, _step_dimen - 1); number_text->name = string_compose ("%1 text bit", sequence.index() + 1); number_text->set_color (contrasting_text_color (lhs_box->fill_color())); number_text->set (string_compose ("%1", sequence.index() + 1)); name_text = new Text (canvas); name_text->set_font_description (UIConfiguration::instance().get_LargeFont()); name_text->set_color (contrasting_text_color (lhs_box->fill_color())); name_text->Event.connect (sigc::mem_fun (*this, &SequenceView::name_text_event)); name_text->set (_("Snare")); name_text->set_intrinsic_size (name_text->width(), name_text->height()); root_text = new Text (canvas); root_text->set ("F#2"); // likely widest root label root_text->set (ParameterDescriptor::midi_note_name (sequence.root())); root_text->set_font_description (UIConfiguration::instance().get_LargeFont()); root_text->set_intrinsic_size (root_text->width(), _step_dimen - 1); root_text->set_color (contrasting_text_color (lhs_box->fill_color())); lhs_box->pack_start (name_text); lhs_box->pack_start (number_text); lhs_box->pack_start (root_text); step_cnt_button = new Rectangle (canvas); step_cnt_button->set_fill_color (0x0000ffff); step_cnt_button->set_fill (true); const size_t nsteps = sequencer().nsteps(); for (size_t n = 0; n < nsteps; ++n) { StepView* stepview = new StepView (*this, sequence.step (n), canvas); step_views.push_back (stepview); step_box->pack_start (stepview, PackOptions (PackExpand|PackFill), PackOptions (PackExpand|PackFill)); } step_box->pack_start (step_cnt_button, PackOptions (PackExpand|PackFill), PackOptions (PackExpand|PackFill)); speed_slide = new Rectangle (canvas); speed_slide->set_intrinsic_size (_step_dimen - 1, _step_dimen - 1); speed_slide->set_fill_color (0xff0000ff); speed_slide->set_fill (true); rhs_box->pack_start (speed_slide, PackOptions (PackExpand|PackFill)); } void SequenceView::view_mode_changed () { for (StepViews::iterator s = step_views.begin(); s != step_views.end(); ++s) { (*s)->view_mode_changed (); } } bool SequenceView::name_text_event (GdkEvent *ev) { switch (ev->type) { case GDK_2BUTTON_PRESS: edit_name (); return true; default: break; } return false; } void SequenceView::edit_name () { GtkCanvas* gc = dynamic_cast (name_text->canvas()); assert (gc); Gtk::Window* toplevel = (Gtk::Window*) gc->get_toplevel(); assert (toplevel); floating_entry = new FloatingTextEntry (toplevel, name_text->text()); floating_entry->use_text.connect (sigc::mem_fun (*this, &SequenceView::name_edited)); floating_entry->set_name (X_("LargeTextEntry")); /* move fte top left corner to top left corner of name text */ Duple wc = name_text->item_to_window (Duple (0,0)); int x, y; int wx, wy; gc->translate_coordinates (*toplevel, wc.x, wc.y, x, y); toplevel->get_window()->get_origin (wx, wy); floating_entry->move (wx + x, wy + y); floating_entry->present (); } void SequenceView::name_edited (std::string str, int next) { name_text->set (str); switch (next) { case 0: break; case 1: if (sequence.index() < sv.sequencer().nsequences() - 1) { sv.sequence_view (sequence.index() + 1).edit_name(); } break; case -1: if (sequence.index() > 0) { sv.sequence_view (sequence.index() - 1).edit_name(); } break; } }