/* * Copyright (C) 2006-2015 David Robillard * Copyright (C) 2008-2012 Hans Baier * Copyright (C) 2008-2017 Paul Davis * Copyright (C) 2009-2012 Carl Hetherington * Copyright (C) 2015-2016 Tim Mayberry * Copyright (C) 2015-2017 Nick Mainsbridge * Copyright (C) 2015-2017 Robin Gareus * * 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. */ #ifndef __gtk_ardour_midi_region_view_h__ #define __gtk_ardour_midi_region_view_h__ #include #include #include #include "pbd/signals.h" #include "ardour/midi_model.h" #include "ardour/types.h" #include "editing.h" #include "region_view.h" #include "midi_time_axis.h" #include "time_axis_view_item.h" #include "automation_line.h" #include "enums.h" namespace ARDOUR { class MidiRegion; class MidiModel; class Filter; }; namespace MIDI { namespace Name { struct PatchPrimaryKey; }; }; class SysEx; class Note; class Hit; class MidiTimeAxisView; class NoteBase; class GhostRegion; class AutomationTimeAxisView; class AutomationRegionView; class MidiCutBuffer; class MidiListEditor; class EditNoteDialog; class PatchChange; class ItemCounts; class CursorContext; class VelocityGhostRegion; class MidiRegionView : public RegionView { public: typedef Evoral::Note NoteType; typedef Evoral::Sequence::Notes Notes; MidiRegionView (ArdourCanvas::Container* parent, RouteTimeAxisView& tv, std::shared_ptr r, double samples_per_pixel, uint32_t basic_color); MidiRegionView (ArdourCanvas::Container* parent, RouteTimeAxisView& tv, std::shared_ptr r, double samples_per_pixel, uint32_t basic_color, bool recording, Visibility visibility); MidiRegionView (const MidiRegionView& other); MidiRegionView (const MidiRegionView& other, std::shared_ptr); ~MidiRegionView (); void init (bool wfd); void set_selected (bool yn); const std::shared_ptr midi_region() const; inline MidiTimeAxisView* midi_view() const { return dynamic_cast(&trackview); } inline MidiStreamView* midi_stream_view() const { return midi_view()->midi_view(); } void step_add_note (uint8_t channel, uint8_t number, uint8_t velocity, Temporal::Beats pos, Temporal::Beats len); void step_sustain (Temporal::Beats beats); void set_height (double); void apply_note_range(uint8_t lowest, uint8_t highest, bool force=false); inline ARDOUR::ColorMode color_mode() const { return midi_view()->color_mode(); } uint32_t get_fill_color() const; void color_handler (); void show_step_edit_cursor (Temporal::Beats pos); void move_step_edit_cursor (Temporal::Beats pos); void hide_step_edit_cursor (); void set_step_edit_cursor_width (Temporal::Beats beats); GhostRegion* add_ghost (TimeAxisView&); NoteBase* add_note(const std::shared_ptr note, bool visible); void cut_copy_clear (Editing::CutCopyOp); bool paste (Temporal::timepos_t const & pos, const ::Selection& selection, PasteContext& ctx); void paste_internal (Temporal::timepos_t const & pos, unsigned paste_count, float times, const MidiCutBuffer&); void add_canvas_patch_change (ARDOUR::MidiModel::PatchChangePtr patch); /** Look up the given time and channel in the 'automation' and set keys accordingly. * @param time the time of the patch change event * @param channel the MIDI channel of the event * @param key a reference to an instance of MIDI::Name::PatchPrimaryKey whose fields will * will be set according to the result of the lookup */ void get_patch_key_at (Temporal::Beats time, uint8_t channel, MIDI::Name::PatchPrimaryKey& key) const; /** Convert a given PatchChange into a PatchPrimaryKey */ MIDI::Name::PatchPrimaryKey patch_change_to_patch_key (ARDOUR::MidiModel::PatchChangePtr); /** Change old_patch to new_patch. * @param old_patch the canvas patch change which is to be altered * @param new_patch new patch */ void change_patch_change (PatchChange& old_patch, const MIDI::Name::PatchPrimaryKey& new_patch); void change_patch_change (ARDOUR::MidiModel::PatchChangePtr, Evoral::PatchChange const &); void add_patch_change (Temporal::timecnt_t const &, Evoral::PatchChange const &); void move_patch_change (PatchChange &, Temporal::Beats); void delete_patch_change (PatchChange *); void edit_patch_change (PatchChange *); void delete_sysex (SysEx*); /** Change a patch to the next or previous bank/program. * * @param patch The patch-change instance (canvas item) * @param bank If true, step bank, otherwise, step program. * @param delta Amount to adjust number. */ void step_patch (PatchChange& patch, bool bank, int delta); /** Displays all patch change events in the region as flags on the canvas. */ void display_patch_changes(); /** Displays all system exclusive events in the region as flags on the canvas. */ void display_sysexes(); void begin_write(); void end_write(); void extend_active_notes(); void begin_drag_edit (std::string const & why); void end_drag_edit (); void display_model(std::shared_ptr model); std::shared_ptr model() const { return _model; } /* note_diff commands should start here; this initiates an undo record */ void start_note_diff_command (std::string name = "midi edit"); void note_diff_add_change (NoteBase* ev, ARDOUR::MidiModel::NoteDiffCommand::Property, uint8_t val); void note_diff_add_change (NoteBase* ev, ARDOUR::MidiModel::NoteDiffCommand::Property, Temporal::Beats val); void note_diff_add_note (const std::shared_ptr note, bool selected, bool show_velocity = false); void note_diff_remove_note (NoteBase* ev); /* note_diff commands should be completed with one of these calls; they may (or may not) commit the undo record */ void apply_note_diff (bool as_subcommand = false, bool was_copy = false); void abort_note_diff(); void note_entered(NoteBase* ev); void note_left(NoteBase* ev); void patch_entered (PatchChange *); void patch_left (PatchChange *); void sysex_entered (SysEx* p); void sysex_left (SysEx* p); void note_mouse_position (float xfraction, float yfraction, bool can_set_cursor=true); void unique_select(NoteBase* ev); void note_selected(NoteBase* ev, bool add, bool extend=false); void note_deselected(NoteBase* ev); void delete_selection(); void delete_note (std::shared_ptr); size_t selection_size() { return _selection.size(); } void select_all_notes (); void select_range(Temporal::timepos_t const & start, Temporal::timepos_t const & end); void invert_selection (); void extend_selection (); void duplicate_selection (); Temporal::Beats earliest_in_selection (); void move_selection(Temporal::timecnt_t const & dx, double dy, double cumulative_dy); void note_dropped (NoteBase* ev, Temporal::timecnt_t const & d_qn, int8_t d_note, bool copy); NoteBase* copy_selection (NoteBase* primary); void move_copies(Temporal::timecnt_t const & dx_qn, double dy, double cumulative_dy); void select_notes (std::list, bool allow_audition); void select_matching_notes (uint8_t notenum, uint16_t channel_mask, bool add, bool extend); void toggle_matching_notes (uint8_t notenum, uint16_t channel_mask); /** Test if a note is within this region's range * * @param note the note to test * @param visible will be set to true if the note is within the visible note range, false otherwise. * @return true iff the note is within the (time) extent of the region. */ bool note_in_region_range(const std::shared_ptr note, bool& visible) const; /* Test if a note is withing this region's time range. Return true if so */ bool note_in_region_time_range(const std::shared_ptr note) const; /** Get the region position in pixels relative to session. */ double get_position_pixels(); /** Get the region end position in pixels relative to session. */ double get_end_position_pixels(); /** Begin resizing of some notes. * Called by CanvasMidiNote when resizing starts. * @param at_front which end of the note (true == note on, false == note off) */ void begin_resizing(bool at_front); void update_resizing (NoteBase* primary, bool at_front, double delta_x, bool relative, double snap_delta, bool with_snap); void finish_resizing (NoteBase* primary, bool at_front, double delat_x, bool relative, double snap_delta, bool with_snap); void abort_resizing (); /** Change the channel of the selection. * @param channel - the channel number of the new channel, zero-based */ void change_channel(uint8_t channel); enum MouseState { None, Pressed, SelectTouchDragging, SelectRectDragging, SelectVerticalDragging, AddDragging }; MouseState mouse_state() const { return _mouse_state; } struct NoteResizeData { ::Note *note; ArdourCanvas::Rectangle *resize_rect; }; /** Snap a region relative pixel coordinate to pixel units. * @param x a pixel coordinate relative to region start * @param ensure_snap do not use magnetic snap (required for snap delta calculation) * @return the snapped pixel coordinate relative to region start */ double snap_to_pixel(double x, bool ensure_snap = false); /** Snap a region relative pixel coordinate to time units. * @param x a pixel coordinate relative to region start * @param ensure_snap ignore SnapOff and magnetic snap. * Required for inverting snap logic with modifier keys and snap delta calculation. * @return the snapped timecnt_t coordinate relative to region start */ Temporal::timecnt_t snap_pixel_to_time (double x, bool ensure_snap = false); void goto_previous_note (bool add_to_selection); void goto_next_note (bool add_to_selection); void change_note_lengths (bool, bool, Temporal::Beats beats, bool start, bool end); void change_velocities (bool up, bool fine, bool allow_smush, bool all_together); void set_velocity (NoteBase* primary, int velocity); bool set_velocity_for_notes (std::vector& notes, int velocity); bool set_velocities_for_notes (std::vector& notes, std::vector& velocities); void transpose (bool up, bool fine, bool allow_smush); void nudge_notes (bool forward, bool fine); void channel_edit (); void velocity_edit (); void show_list_editor (); typedef std::set Selection; Selection const & selection () const { return _selection; } void selection_as_notelist (Notes& selected, bool allow_all_if_none_selected = false); void set_channel_selector_scoped_note(NoteBase* note){ _channel_selection_scoped_note = note; } NoteBase* channel_selector_scoped_note(){ return _channel_selection_scoped_note; } void trim_front_starting (); void trim_front_ending (); /** Add a note to the model, and the view, at a canvas (click) coordinate. * \param t time in samples relative to the position of the region * \param y vertical position in pixels * \param length duration of the note in beats * \param state the keyboard modifier mask for the canvas event (click). * \param shift_snap true alters snap behavior to round down always (false if the gui has already done that). */ void create_note_at (Temporal::timepos_t const & t, double y, Temporal::Beats length, uint32_t state, bool shift_snap); /** An external request to clear the note selection, remove MRV from editor * selection. */ void clear_selection (); ARDOUR::InstrumentInfo& instrument_info() const; void note_deleted (NoteBase*); void clear_note_selection (); void show_verbose_cursor_for_new_note_value(std::shared_ptr current_note, uint8_t new_note) const; protected: void region_resized (const PBD::PropertyChange&); void set_flags (XMLNode *); void store_flags (); void reset_width_dependent_items (double pixel_width); void parameter_changed (std::string const & p); void _redisplay (bool view_only); protected: friend class Editor; void invert_note_selection (); void extend_note_selection (); void move_note_starts_earlier_fine () { change_note_lengths (true, false, Temporal::Beats(), true, false); } void move_note_starts_earlier () { change_note_lengths (false, false, Temporal::Beats(), true, false); } void move_note_ends_later_fine () { change_note_lengths (true, false, Temporal::Beats(), false, true); } void move_note_ends_later () { change_note_lengths (false, false, Temporal::Beats(), false, true); } void move_note_starts_later_fine () { change_note_lengths (true, true, Temporal::Beats(), true, false); } void move_note_starts_later () { change_note_lengths (false, true, Temporal::Beats(), true, false); } void move_note_ends_earlier_fine () { change_note_lengths (true, true, Temporal::Beats(), false, true); } void move_note_ends_earlier () { change_note_lengths (false, true, Temporal::Beats(), false, true); } void select_next_note () { goto_next_note (false); } void select_previous_note () { goto_previous_note (false); } void add_select_next_note () { goto_next_note (true); } void add_select_previous_note () { goto_previous_note (true); } void increase_note_velocity () { change_velocities (true, false, false, false); } void increase_note_velocity_fine () { change_velocities (true, true, false, false); } void increase_note_velocity_smush () { change_velocities (true, false, true, false); } void increase_note_velocity_together () { change_velocities (true, false, false, true); } void increase_note_velocity_fine_smush () { change_velocities (true, true, true, false); } void increase_note_velocity_fine_together () { change_velocities (true, true, false, true); } void increase_note_velocity_smush_together () { change_velocities (true, false, true, true); } void increase_note_velocity_fine_smush_together () { change_velocities (true, true, true, true); } void decrease_note_velocity () { change_velocities (false, false, false, false); } void decrease_note_velocity_fine () { change_velocities (false, true, false, false); } void decrease_note_velocity_smush () { change_velocities (false, false, true, false); } void decrease_note_velocity_together () { change_velocities (false, false, false, true); } void decrease_note_velocity_fine_smush () { change_velocities (false, true, true, false); } void decrease_note_velocity_fine_together () { change_velocities (false, true, false, true); } void decrease_note_velocity_smush_together () { change_velocities (false, false, true, true); } void decrease_note_velocity_fine_smush_together () { change_velocities (false, true, true, true); } void transpose_up_octave () { transpose (true, false, false); } void transpose_up_octave_smush () { transpose (true, false, true); } void transpose_up_tone () { transpose (true, true, false); } void transpose_up_tone_smush () { transpose (true, true, true); } void transpose_down_octave () { transpose (false, false, false); } void transpose_down_octave_smush () { transpose (false, false, true); } void transpose_down_tone () { transpose (false, true, false); } void transpose_down_tone_smush () { transpose (false, true, true); } void nudge_notes_later () { nudge_notes (true, false); } void nudge_notes_later_fine () { nudge_notes (true, true); } void nudge_notes_earlier () { nudge_notes (false, false); } void nudge_notes_earlier_fine () { nudge_notes (false, true); } void quantize_selected_notes (); private: friend class MidiRubberbandSelectDrag; friend class MidiVerticalSelectDrag; friend class NoteDrag; friend class NoteCreateDrag; friend class HitCreateDrag; friend class MidiGhostRegion; friend class EditNoteDialog; /** Play the NoteOn event of the given note immediately * and schedule the playback of the corresponding NoteOff event. */ void play_midi_note (std::shared_ptr note); void start_playing_midi_note (std::shared_ptr note); void start_playing_midi_chord (std::vector > notes); /** Clear the note selection of just this midi region */ void clear_selection_internal (); void clear_events (); bool canvas_group_event(GdkEvent* ev); bool note_canvas_event(GdkEvent* ev); void midi_channel_mode_changed (); PBD::ScopedConnection _channel_mode_changed_connection; void instrument_settings_changed (); PBD::ScopedConnection _instrument_changed_connection; void change_note_channel (NoteBase *, int8_t, bool relative=false); void change_note_velocity(NoteBase* ev, int8_t vel, bool relative=false); uint8_t change_note_note(NoteBase* ev, int8_t note, bool relative=false); void change_note_time(NoteBase* ev, ARDOUR::MidiModel::TimeType, bool relative=false); void change_note_length (NoteBase *, ARDOUR::MidiModel::TimeType); void trim_note(NoteBase* ev, ARDOUR::MidiModel::TimeType start_delta, ARDOUR::MidiModel::TimeType end_delta); void update_drag_selection (Temporal::timepos_t const & start, Temporal::timepos_t const & end, double y0, double y1, bool extend); void update_vertical_drag_selection (double last_y, double y, bool extend); void add_to_selection (NoteBase*); void remove_from_selection (NoteBase*); std::string get_note_name (std::shared_ptr note, uint8_t note_value) const; void show_verbose_cursor (std::string const &, double, double) const; void show_verbose_cursor (std::shared_ptr) const; uint8_t get_velocity_for_add (ARDOUR::MidiModel::TimeType time) const; uint8_t get_channel_for_add (ARDOUR::MidiModel::TimeType time) const; uint8_t _current_range_min; uint8_t _current_range_max; typedef boost::unordered_map, NoteBase*> Events; typedef boost::unordered_map > PatchChanges; typedef boost::unordered_map > SysExes; typedef std::vector CopyDragEvents; std::shared_ptr _model; Events _events; CopyDragEvents _copy_drag_events; PatchChanges _patch_changes; SysExes _sys_exes; Note** _active_notes; ArdourCanvas::Container* _note_group; ARDOUR::MidiModel::NoteDiffCommand* _note_diff_command; NoteBase* _ghost_note; double _last_ghost_x; double _last_ghost_y; ArdourCanvas::Rectangle* _step_edit_cursor; Temporal::Beats _step_edit_cursor_width; Temporal::Beats _step_edit_cursor_position; NoteBase* _channel_selection_scoped_note; MouseState _mouse_state; int _pressed_button; /** Currently selected NoteBase objects */ Selection _selection; MidiCutBuffer* selection_as_cut_buffer () const; /** New notes (created in the current command) which should be selected * when they appear after the command is applied. */ std::set< std::shared_ptr > _marked_for_selection; /** Notes that should be selected when the model is redisplayed. */ std::set _pending_note_selection; /** New notes (created in the current command) which should have visible velocity * when they appear after the command is applied. */ std::set< std::shared_ptr > _marked_for_velocity; std::vector _resize_data; /** connection used to connect to model's ContentChanged signal */ PBD::ScopedConnection content_connection; NoteBase* find_canvas_note (std::shared_ptr); NoteBase* find_canvas_note (Evoral::event_id_t id); Events::iterator _optimization_iterator; std::shared_ptr find_canvas_patch_change (ARDOUR::MidiModel::PatchChangePtr p); std::shared_ptr find_canvas_sys_ex (ARDOUR::MidiModel::SysExPtr s); friend class VelocityGhostRegion; void sync_velocity_drag (double factor); void update_note (NoteBase*, bool update_ghost_regions = true); void update_sustained (Note *, bool update_ghost_regions = true); void update_hit (Hit *, bool update_ghost_regions = true); void create_ghost_note (double, double, uint32_t state); void update_ghost_note (double, double, uint32_t state); MidiListEditor* _list_editor; bool _no_sound_notes; void snap_changed (); PBD::ScopedConnection snap_changed_connection; bool motion (GdkEventMotion*); bool scroll (GdkEventScroll*); bool key_press (GdkEventKey*); bool key_release (GdkEventKey*); bool button_press (GdkEventButton*); bool button_release (GdkEventButton*); bool enter_notify (GdkEventCrossing*); bool leave_notify (GdkEventCrossing*); void drop_down_keys (); void maybe_select_by_position (GdkEventButton* ev, double x, double y); void get_events (Events& e, Evoral::Sequence::NoteOperator op, uint8_t val, int chan_mask = 0); void display_patch_changes_on_channel (uint8_t, bool, PatchChanges&); void connect_to_diskstream (); void data_recorded (std::weak_ptr); /** Get grid type as beats, or default to 1 if not snapped to beats. */ Temporal::Beats get_grid_beats(Temporal::timepos_t const & pos) const; Temporal::Beats get_draw_length_beats(Temporal::timepos_t const & pos) const; void remove_ghost_note (); void mouse_mode_changed (); void enter_internal (uint32_t state); void leave_internal (); void hide_verbose_cursor (); samplecnt_t _last_display_zoom; double _last_event_x; double _last_event_y; bool _entered; NoteBase* _entered_note; bool _select_all_notes_after_add; bool _mouse_changed_selection; Gtkmm2ext::Color _patch_change_outline; Gtkmm2ext::Color _patch_change_fill; PBD::ScopedConnection _mouse_mode_connection; std::shared_ptr _press_cursor_ctx; ARDOUR::ChannelMode get_channel_mode() const; uint16_t get_selected_channels () const; inline double contents_height() const { return (_height - TimeAxisViewItem::NAME_HIGHLIGHT_SIZE - 2); } inline double contents_note_range () const { return (double)(_current_range_max - _current_range_min + 1); } inline double note_height() const { return contents_height() / contents_note_range(); } double note_to_y (uint8_t note) const; uint8_t y_to_note (double y) const; void update_patch_changes (); void update_sysexes (); void view_changed (); void model_changed (); void sync_ghost_selection (NoteBase*); struct SplitInfo { Temporal::Beats time; Temporal::Beats base_len; int note; int channel; int velocity; int off_velocity; SplitInfo (Temporal::Beats const & t, Temporal::Beats const & l, int n, int c, int v, int ov) : time (t) , base_len (l) , note (n) , channel (c) , velocity (v) , off_velocity (ov) {} }; std::vector split_info; uint32_t split_tuple; bool note_splitting; void start_note_splitting (); void end_note_splitting (); void split_notes_grid (); void split_notes_more (); void split_notes_less (); void join_notes (); void join_notes_on_channel (int channel); void add_split_notes (); }; #endif /* __gtk_ardour_midi_region_view_h__ */