/* * Copyright (C) 2009-2012 Carl Hetherington * Copyright (C) 2009-2015 David Robillard * Copyright (C) 2009-2017 Paul Davis * Copyright (C) 2013-2014 Colin Fletcher * Copyright (C) 2013-2019 Robin Gareus * Copyright (C) 2015-2017 Nick Mainsbridge * Copyright (C) 2015-2018 Ben Loftis * Copyright (C) 2016 Tim Mayberry * * 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 __gtk2_ardour_editor_drag_h_ #define __gtk2_ardour_editor_drag_h_ #include #include #include #include "ardour/tempo.h" #include "ardour/types.h" #include "canvas/types.h" #include "cursor_context.h" #include "editor_items.h" #include "mouse_cursors.h" #include "editing.h" #include "track_selection.h" namespace ARDOUR { class Location; class Region; class TempoSection; } namespace ArdourCanvas { class Item; class Line; class Rectangle; } namespace PBD { class StatefulDiffCommand; } class PatchChange; class Editor; class EditorCursor; class TimeAxisView; class MidiTimeAxisView; class Drag; class NoteBase; class RegionView; class TimeAxisView; class RouteTimeAxisView; class RegionSelection; class MidiRegionView; class MeterMarker; class ArdourMarker; class TempoMarker; class ControlPoint; class AudioRegionView; class AutomationLine; class AutomationTimeAxisView; /** Class to manage current drags */ class DragManager { public: DragManager (Editor* e); ~DragManager (); bool motion_handler (GdkEvent *, bool); void abort (); void add (Drag *); void set (Drag *, GdkEvent *, Gdk::Cursor* c = MouseCursors::invalid_cursor()); void start_grab (GdkEvent *, Gdk::Cursor* c = MouseCursors::invalid_cursor()); bool end_grab (GdkEvent *); bool have_item (ArdourCanvas::Item *) const; void mark_double_click (); /** @return true if an end drag or abort is in progress */ bool ending () const { return _ending; } bool active () const { return !_drags.empty (); } /** @return current pointer x position in canvas coordinates */ double current_pointer_x () const { return _current_pointer_x; } /** @return current pointer y position in canvas coordinates */ double current_pointer_y () const { return _current_pointer_y; } /** @return current pointer sample */ ARDOUR::samplepos_t current_pointer_sample () const { return _current_pointer_time.samples(); } /** @return current pointer time */ Temporal::timepos_t current_pointer_time () const { return _current_pointer_time; } /** return drag-motion displays video-frame of drag-location */ bool preview_video () const; private: Editor* _editor; std::list _drags; bool _ending; ///< true if end_grab or abort is in progress, otherwise false double _current_pointer_x; ///< canvas-coordinate space x of the current pointer double _current_pointer_y; ///< canvas-coordinate space y of the current pointer Temporal::timepos_t _current_pointer_time; ///< time that the pointer is now at bool _old_follow_playhead; ///< state of Editor::follow_playhead() before the drags started }; /** Abstract base class for dragging of things within the editor */ class Drag { public: Drag (Editor *, ArdourCanvas::Item *, bool trackview_only = true); virtual ~Drag () {} void set_manager (DragManager* m) { _drags = m; } /** @return the canvas item being dragged */ ArdourCanvas::Item* item () const { return _item; } void swap_grab (ArdourCanvas::Item *, Gdk::Cursor *, uint32_t); bool motion_handler (GdkEvent*, bool); void abort (); Temporal::timepos_t adjusted_time (Temporal::timepos_t const &, GdkEvent const *, bool snap = true) const; Temporal::timepos_t adjusted_current_time (GdkEvent const *, bool snap = true) const; bool was_double_click() const { return _was_double_click; } void set_double_click (bool yn) { _was_double_click = yn; } /** Called to start a grab of an item. * @param e Event that caused the grab to start. * @param c Cursor to use, or 0. */ virtual void start_grab (GdkEvent* e, Gdk::Cursor* c = 0); virtual bool end_grab (GdkEvent *); /** Called when a drag motion has occurred. * @param e Event describing the motion. * @param f true if this is the first movement, otherwise false. */ virtual void motion (GdkEvent* e, bool f) = 0; /** Called when a drag has finished. * @param e Event describing the finish. * @param m true if some movement occurred, otherwise false. */ virtual void finished (GdkEvent* e, bool m) = 0; /** Called to abort a drag and return things to how * they were before it started. * @param m true if some movement occurred, otherwise false. */ virtual void aborted (bool m) = 0; /** @param m Mouse mode. * @return true if this drag should happen in this mouse mode. */ virtual bool active (Editing::MouseMode m) { return true; } bool preview_video () const { return _preview_video; } /** @return minimum number of samples (in x) and pixels (in y) that should be considered a movement */ std::pair move_threshold () const { return std::make_pair (Temporal::timecnt_t (1, Temporal::AudioTime), 1); } virtual bool allow_vertical_autoscroll () const { return true; } /** @return true if x movement matters to this drag */ virtual bool x_movement_matters () const { return true; } /** @return true if y movement matters to this drag */ virtual bool y_movement_matters () const { return true; } bool initially_vertical() const { return _initially_vertical; } /** Set up the _pointer_offset */ virtual void setup_pointer_offset () { _pointer_offset = Temporal::timecnt_t(); } /** Set up the _video_offset - relative to _current_pointer_time */ virtual void setup_video_offset () { /* video offset is always in audio time */ _video_offset = Temporal::timecnt_t (Temporal::AudioTime); _preview_video = false; } int grab_button() const { return _grab_button; } protected: double grab_x () const { return _grab_x; } double grab_y () const { return _grab_y; } Temporal::timepos_t raw_grab_time () const { return _raw_grab_time; } ARDOUR::samplepos_t grab_sample () const { return _grab_time.samples(); } Temporal::timepos_t grab_time () const { return _grab_time; } double last_pointer_x () const { return _last_pointer_x; } double last_pointer_y () const { return _last_pointer_y; } ARDOUR::samplepos_t last_pointer_sample () const { return _last_pointer_time.samples(); } Temporal::timepos_t last_pointer_time () const { return _last_pointer_time; } Temporal::timecnt_t snap_delta (guint const) const; Temporal::Beats snap_delta_music (guint const) const; double current_pointer_x () const; double current_pointer_y () const; /* sets snap delta from unsnapped pos */ void setup_snap_delta (Temporal::timepos_t const & pos); boost::shared_ptr add_midi_region (MidiTimeAxisView*, bool commit); void show_verbose_cursor_time (Temporal::timepos_t const &); void show_verbose_cursor_duration (Temporal::timepos_t const & , Temporal::timepos_t const & , double xoffset = 0); void show_verbose_cursor_text (std::string const &); void show_view_preview (Temporal::timepos_t const &); Editor* _editor; ///< our editor DragManager* _drags; ArdourCanvas::Item* _item; ///< our item /** Offset from the mouse's position for the drag to the start of the thing that is being dragged */ Temporal::timecnt_t _pointer_offset; Temporal::timecnt_t _video_offset; bool _preview_video; bool _x_constrained; ///< true if x motion is constrained, otherwise false bool _y_constrained; ///< true if y motion is constrained, otherwise false bool _was_rolling; ///< true if the session was rolling before the drag started, otherwise false ARDOUR::samplepos_t _earliest_time_limit; ///< time we cannot drag before (defaults to 0, indicating no such limit) private: bool _trackview_only; ///< true if pointer y value should always be relative to the top of the trackview group bool _move_threshold_passed; ///< true if the move threshold has been passed, otherwise false bool _starting_point_passed; ///< true if we called move () with first_move flag, otherwise false bool _initially_vertical; ///< true if after move threshold is passed we appear to be moving vertically; undefined before that bool _was_double_click; ///< true if drag initiated by a double click event double _grab_x; ///< trackview x of the grab start position double _grab_y; ///< y of the grab start position, possibly adjusted if _trackview_only is true double _last_pointer_x; ///< trackview x of the pointer last time a motion occurred double _last_pointer_y; ///< trackview y of the pointer last time a motion occurred Temporal::timepos_t _raw_grab_time; ///< unsnapped time that the mouse was at when start_grab was called, or 0 Temporal::timepos_t _grab_time; ///< adjusted_time that the mouse was at when start_grab was called, or 0 Temporal::timepos_t _last_pointer_time; ///< adjusted_time the last time a motion occurred /* difference between some key position's snapped and unsnapped * samplepos. used for relative snap. */ Temporal::timecnt_t _snap_delta; Temporal::Beats _snap_delta_music; CursorContext::Handle _cursor_ctx; ///< cursor change context bool _constraint_pressed; ///< if the keyboard indicated constraint modifier was pressed on start_grab() int _grab_button; }; class RegionDrag; /** Container for details about a region being dragged */ class DraggingView { public: DraggingView (RegionView *, RegionDrag *, TimeAxisView* original_tav); RegionView* view; ///< the view /** index into RegionDrag::_time_axis_views of the view that this region is currently being displayed on, * or -1 if it is not visible. */ int time_axis_view; /** layer that this region is currently being displayed on. This is a double rather than a layer_t as we use fractional layers during drags to allow the user to indicate a new layer to put a region on. */ double layer; double initial_y; ///< the initial y position of the view before any reparenting Temporal::timepos_t initial_position; ///< initial position of the region Temporal::timepos_t initial_end; ///< initial end position of the region samplepos_t anchored_fade_length; ///< fade_length when anchored during drag boost::shared_ptr initial_playlist; TimeAxisView* initial_time_axis_view; }; /** Abstract base class for drags that involve region(s) */ class RegionDrag : public Drag, public sigc::trackable { public: RegionDrag (Editor *, ArdourCanvas::Item *, RegionView *, std::list const &); virtual ~RegionDrag () {} protected: RegionView* _primary; ///< the view that was clicked on (or whatever) to start the drag std::list _views; ///< information about all views that are being dragged /** a list of the non-hidden TimeAxisViews sorted by editor order key */ std::vector _time_axis_views; int find_time_axis_view (TimeAxisView *) const; int apply_track_delta (const int start, const int delta, const int skip, const bool distance_only = false) const; int _visible_y_low; int _visible_y_high; uint32_t _ntracks; void setup_video_offset (); friend class DraggingView; protected: typedef std::set > PlaylistSet; void add_stateful_diff_commands_for_playlists (PlaylistSet const &); private: void region_going_away (RegionView *); PBD::ScopedConnection death_connection; }; /** Drag the Contents rather than the bounds of a region (i.e. Slip) */ class RegionSlipContentsDrag : public RegionDrag { public: RegionSlipContentsDrag (Editor *, ArdourCanvas::Item *, RegionView *, std::list const &); virtual ~RegionSlipContentsDrag () {} virtual void start_grab (GdkEvent *, Gdk::Cursor *); virtual void motion (GdkEvent *, bool); virtual void finished (GdkEvent *, bool); virtual void aborted (bool); }; /** Brush on a region to repeat it */ class RegionBrushDrag : public RegionDrag { public: RegionBrushDrag (Editor *, ArdourCanvas::Item *, RegionView *, std::list const &); virtual ~RegionBrushDrag () {} virtual void start_grab (GdkEvent *, Gdk::Cursor *); virtual void motion (GdkEvent *, bool); virtual void finished (GdkEvent *, bool); virtual void aborted (bool); private: typedef std::set SamplePositionSet; SamplePositionSet _already_pasted; }; /** Drags involving region motion from somewhere */ class RegionMotionDrag : public RegionDrag { public: RegionMotionDrag (Editor *, ArdourCanvas::Item *, RegionView *, std::list const &); virtual ~RegionMotionDrag () {} virtual void start_grab (GdkEvent *, Gdk::Cursor *); virtual void motion (GdkEvent *, bool); virtual void finished (GdkEvent *, bool); virtual void aborted (bool); /** @return true if the regions being `moved' came from somewhere on the canvas; * false if they came from outside (e.g. from the region list). */ virtual bool regions_came_from_canvas () const = 0; protected: double compute_x_delta (GdkEvent const *, Temporal::timepos_t &); virtual bool y_movement_allowed (int, double, int skip_invisible = 0) const; void collect_ripple_views (); bool _ignore_video_lock; Temporal::timepos_t _last_position; ///< last position of the thing being dragged double _total_x_delta; int _last_pointer_time_axis_view; double _last_pointer_layer; std::vector ripple_markers; private: uint32_t _ndropzone; uint32_t _pdropzone; uint32_t _ddropzone; }; /** Drags to move (or copy) regions that are already shown in the GUI to * somewhere different. */ class RegionMoveDrag : public RegionMotionDrag { public: RegionMoveDrag (Editor *, ArdourCanvas::Item *, RegionView *, std::list const &, bool); virtual ~RegionMoveDrag () {} void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); void clear_draggingview_list (); bool regions_came_from_canvas () const { return true; } std::pair move_threshold () const { return std::make_pair (Temporal::timecnt_t (4, Temporal::AudioTime), 4); } void setup_pointer_offset (); private: void finished_no_copy ( bool const, bool const, Temporal::timepos_t const &, int32_t const ev_state ); void finished_copy ( bool const, bool const, Temporal::timepos_t const &, int32_t const ev_state ); RegionView* insert_region_into_playlist ( boost::shared_ptr, RouteTimeAxisView*, ARDOUR::layer_t, Temporal::timepos_t const &, PlaylistSet&, bool for_music = false ); void remove_region_from_playlist ( boost::shared_ptr, boost::shared_ptr, PlaylistSet& modified_playlists ); void collect_new_region_view (RegionView *); RouteTimeAxisView* create_destination_time_axis (boost::shared_ptr, TimeAxisView* original); bool _copy; RegionView* _new_region_view; }; /** Drag to insert a region from somewhere */ class RegionInsertDrag : public RegionMotionDrag { public: RegionInsertDrag (Editor *, boost::shared_ptr, RouteTimeAxisView*, Temporal::timepos_t const &); void finished (GdkEvent *, bool); void aborted (bool); bool regions_came_from_canvas () const { return false; } }; /** Region drag in ripple mode */ class RegionRippleDrag : public RegionMoveDrag { public: RegionRippleDrag (Editor *, ArdourCanvas::Item *, RegionView *, std::list const &); ~RegionRippleDrag () { delete exclude; } void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); protected: bool y_movement_allowed (int delta_track, double delta_layer, int skip_invisible = 0) const; private: TimeAxisView *prev_tav; // where regions were most recently dragged from TimeAxisView *orig_tav; // where drag started Temporal::timecnt_t prev_amount; Temporal::timepos_t prev_position; Temporal::timecnt_t selection_length; bool allow_moves_across_tracks; // only if all selected regions are on one track ARDOUR::RegionList *exclude; void add_all_after_to_views (TimeAxisView *tav, Temporal::timepos_t const & where, const RegionSelection &exclude, bool drag_in_progress); void remove_unselected_from_views (Temporal::timecnt_t const & amount, bool move_regions); std::list > _orig_tav_ripples; }; /** "Drag" to cut a region (action only on button release) */ class RegionCutDrag : public Drag { public: RegionCutDrag (Editor*, ArdourCanvas::Item*, samplepos_t); ~RegionCutDrag (); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent*, bool); void finished (GdkEvent*, bool); void aborted (bool); private: }; /** Drags to create regions */ class RegionCreateDrag : public Drag { public: RegionCreateDrag (Editor *, ArdourCanvas::Item *, TimeAxisView *); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); private: MidiTimeAxisView* _view; boost::shared_ptr _region; }; /** Drags to resize MIDI notes */ class NoteResizeDrag : public Drag { public: NoteResizeDrag (Editor *, ArdourCanvas::Item *); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } private: MidiRegionView* region; bool relative; bool at_front; bool _was_selected; double _snap_delta; }; /** Drags to move MIDI notes */ class NoteDrag : public Drag { public: NoteDrag (Editor*, ArdourCanvas::Item*); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); void setup_pointer_sample_offset (); bool allow_vertical_autoscroll () const { return false; } private: Temporal::timecnt_t total_dx (GdkEvent * event) const; // total movement in quarter notes int8_t total_dy () const; MidiRegionView* _region; NoteBase* _primary; Temporal::timecnt_t _cumulative_dx; double _cumulative_dy; Temporal::timepos_t _earliest; // earliest note in note selection bool _was_selected; double _note_height; bool _copy; }; class NoteCreateDrag : public Drag { public: NoteCreateDrag (Editor *, ArdourCanvas::Item *, MidiRegionView *); ~NoteCreateDrag (); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool active (Editing::MouseMode mode) { return mode == Editing::MouseDraw || mode == Editing::MouseContent; } bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return false; } private: double y_to_region (double) const; Temporal::Beats grid_aligned_beats (Temporal::timepos_t const & pos, GdkEvent const * event) const; /** @return minimum number of samples (in x) and pixels (in y) that should be considered a movement */ std::pair move_threshold () const { return std::make_pair (Temporal::timecnt_t (0, Temporal::AudioTime), 0); } MidiRegionView* _region_view; ArdourCanvas::Rectangle* _drag_rect; Temporal::timepos_t _note[2]; }; class HitCreateDrag : public Drag { public: HitCreateDrag (Editor *, ArdourCanvas::Item *, MidiRegionView *); ~HitCreateDrag (); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool active (Editing::MouseMode mode) { return mode == Editing::MouseDraw || mode == Editing::MouseContent; } bool y_movement_matters () const { return false; } private: double y_to_region (double) const; /** @return minimum number of samples (in x) and pixels (in y) that should be considered a movement */ std::pair move_threshold () const { return std::make_pair (Temporal::timecnt_t::zero (Temporal::AudioTime), 0); } MidiRegionView* _region_view; samplepos_t _last_pos; double _y; }; /** Drag to move MIDI patch changes */ class PatchChangeDrag : public Drag { public: PatchChangeDrag (Editor *, PatchChange *, MidiRegionView *); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool y_movement_matters () const { return false; } bool allow_vertical_autoscroll () const { return false; } void setup_pointer_offset (); private: MidiRegionView* _region_view; PatchChange* _patch_change; double _cumulative_dx; }; /** Container for details about audio regions being dragged along with video */ class AVDraggingView { public: AVDraggingView (RegionView *); RegionView* view; ///< the view samplepos_t initial_position; ///< initial position of the region }; /** Drag of video offset */ class VideoTimeLineDrag : public Drag { public: VideoTimeLineDrag (Editor *e, ArdourCanvas::Item *i); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); bool y_movement_matters () const { return false; } bool allow_vertical_autoscroll () const { return false; } void aborted (bool); protected: std::list _views; ///< information about all audio that are being dragged along private: ARDOUR::sampleoffset_t _startdrag_video_offset; ARDOUR::sampleoffset_t _max_backwards_drag; bool _stuck; }; /** Drag to trim region(s) */ class TrimDrag : public RegionDrag { public: enum Operation { StartTrim, EndTrim }; TrimDrag (Editor *, ArdourCanvas::Item *, RegionView*, std::list const &, bool preserve_fade_anchor = false); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool y_movement_matters () const { return false; } bool allow_vertical_autoscroll () const { return false; } void setup_pointer_offset (); private: Operation _operation; bool _preserve_fade_anchor; bool _jump_position_when_done; }; /** Meter marker drag */ class MeterMarkerDrag : public Drag { public: MeterMarkerDrag (Editor *, ArdourCanvas::Item *, bool); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return false; } void setup_pointer_offset (); private: MeterMarker* _marker; Temporal::MeterPoint* _real_section; bool _copy; Editing::GridType _old_grid_type; Editing::SnapMode _old_snap_mode; XMLNode* before_state; }; /** Tempo marker drag */ class TempoMarkerDrag : public Drag { public: TempoMarkerDrag (Editor *, ArdourCanvas::Item *, bool); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return true; } void setup_pointer_offset (); private: TempoMarker* _marker; Temporal::TempoPoint* _real_section; bool _copy; bool _movable; Temporal::Tempo _grab_bpm; double _grab_qn; XMLNode* _before_state; }; /** BBT Ruler drag */ class BBTRulerDrag : public Drag { public: BBTRulerDrag (Editor *, ArdourCanvas::Item *); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return false; } void setup_pointer_offset (); private: double _grab_qn; Temporal::TempoPoint* _tempo; XMLNode* _before_state; bool _drag_valid; }; #warning NUTEMPO may or may not need this in the new world #if 0 /** tempo curve twist drag */ class TempoTwistDrag : public Drag { public: TempoTwistDrag (Editor *, ArdourCanvas::Item *); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return true; } void setup_pointer_offset (); private: double _grab_qn; Temporal::Tempo _grab_tempo; Temporal::TempoPoint* _tempo; Temporal::TempoPoint* _next_tempo; bool _drag_valid; XMLNode* _before_state; }; #endif /** tempo curve twist drag */ class TempoEndDrag : public Drag { public: TempoEndDrag (Editor *, ArdourCanvas::Item *); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return true; } void setup_pointer_offset (); private: double _grab_qn; Temporal::TempoPoint* _tempo; XMLNode* _before_state; bool _drag_valid; }; /** Drag of the playhead cursor */ class CursorDrag : public Drag { public: CursorDrag (Editor *, EditorCursor&, bool); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return true; } private: void fake_locate (samplepos_t); EditorCursor& _cursor; bool _stop; ///< true to stop the transport on starting the drag, otherwise false double _grab_zoom; ///< editor samples per unit when our grab started //used for zooming int _last_mx; int _last_my; int _last_dx; int _last_y_delta; }; /** Region fade-in drag */ class FadeInDrag : public RegionDrag { public: FadeInDrag (Editor *, ArdourCanvas::Item *, RegionView *, std::list const &); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool y_movement_matters () const { return false; } bool allow_vertical_autoscroll () const { return false; } void setup_pointer_offset (); }; /** Region fade-out drag */ class FadeOutDrag : public RegionDrag { public: FadeOutDrag (Editor *, ArdourCanvas::Item *, RegionView *, std::list const &); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool y_movement_matters () const { return false; } bool allow_vertical_autoscroll () const { return false; } void setup_pointer_offset (); }; /** Marker drag */ class MarkerDrag : public Drag { public: MarkerDrag (Editor *, ArdourCanvas::Item *); ~MarkerDrag (); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return false; } void setup_pointer_offset (); void setup_video_offset (); private: void update_item (ARDOUR::Location *); ArdourMarker* _marker; ///< marker being dragged bool _selection_changed; struct CopiedLocationMarkerInfo { ARDOUR::Location* location; std::vector markers; bool move_both; CopiedLocationMarkerInfo (ARDOUR::Location* l, ArdourMarker* m); }; typedef std::list CopiedLocationInfo; CopiedLocationInfo _copied_locations; ArdourCanvas::Points _points; }; /** Control point drag */ class ControlPointDrag : public Drag { public: ControlPointDrag (Editor *, ArdourCanvas::Item *); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool active (Editing::MouseMode m); bool allow_vertical_autoscroll () const { return false; } private: ControlPoint* _point; double _fixed_grab_x; double _fixed_grab_y; double _cumulative_x_drag; double _cumulative_y_drag; bool _pushing; uint32_t _final_index; static double _zero_gain_fraction; }; /** Gain or automation line drag */ class LineDrag : public Drag { public: LineDrag (Editor *e, ArdourCanvas::Item *i); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } private: AutomationLine* _line; double _fixed_grab_x; double _fixed_grab_y; double _cumulative_y_drag; uint32_t _before; uint32_t _after; }; /** Transient feature line drags*/ class FeatureLineDrag : public Drag { public: FeatureLineDrag (Editor *e, ArdourCanvas::Item *i); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); private: ArdourCanvas::Line* _line; AudioRegionView* _arv; double _region_view_grab_x; double _cumulative_x_drag; float _before; uint32_t _max_x; }; /** Dragging of a rubberband rectangle for selecting things */ class RubberbandSelectDrag : public Drag { public: RubberbandSelectDrag (Editor *, ArdourCanvas::Item *); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); std::pair move_threshold () const { return std::make_pair (Temporal::timecnt_t (8, Temporal::AudioTime), 1); } void do_select_things (GdkEvent *, bool); /** Select some things within a rectangle. * @param button_state The button state from the GdkEvent. * @param x1 The left-hand side of the rectangle as a timepos_t * @param x2 The right-hand side of the rectangle as a timepos_t. * @param y1 The top of the rectangle in trackview coordinates. * @param y2 The bottom of the rectangle in trackview coordinates. * @param drag_in_progress true if the drag is currently happening. */ virtual void select_things (int button_state, Temporal::timepos_t const & x1, Temporal::timepos_t const & x2, double y1, double y2, bool drag_in_progress) = 0; virtual void deselect_things () = 0; protected: bool _vertical_only; }; /** A general editor RubberbandSelectDrag (for regions, automation points etc.) */ class EditorRubberbandSelectDrag : public RubberbandSelectDrag { public: EditorRubberbandSelectDrag (Editor *, ArdourCanvas::Item *); void select_things (int, Temporal::timepos_t const &, Temporal::timepos_t const &, double, double, bool); void deselect_things (); }; /** A RubberbandSelectDrag for selecting MIDI notes */ class MidiRubberbandSelectDrag : public RubberbandSelectDrag { public: MidiRubberbandSelectDrag (Editor *, MidiRegionView *); void select_things (int, Temporal::timepos_t const &, Temporal::timepos_t const &, double, double, bool); void deselect_things (); private: MidiRegionView* _region_view; }; /** A RubberbandSelectDrag for selecting MIDI notes but with no horizonal component */ class MidiVerticalSelectDrag : public RubberbandSelectDrag { public: MidiVerticalSelectDrag (Editor *, MidiRegionView *); void select_things (int, Temporal::timepos_t const &, Temporal::timepos_t const &, double, double, bool); void deselect_things (); private: MidiRegionView* _region_view; }; /** Region drag in time-FX mode */ class TimeFXDrag : public RegionDrag { public: TimeFXDrag (Editor *, ArdourCanvas::Item *, RegionView *, std::list const &); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); }; /** Scrub drag in audition mode */ class ScrubDrag : public Drag { public: ScrubDrag (Editor *, ArdourCanvas::Item *); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); }; /** Drag in range select mode */ class SelectionDrag : public Drag { public: enum Operation { CreateSelection, SelectionStartTrim, SelectionEndTrim, SelectionMove, SelectionExtend }; SelectionDrag (Editor *, ArdourCanvas::Item *, Operation); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); void setup_pointer_offset (); private: Operation _operation; bool _add; TrackSelection _track_selection_at_start; bool _time_selection_at_start; Temporal::timepos_t start_at_start; Temporal::timepos_t end_at_start; }; /** Range marker drag */ class RangeMarkerBarDrag : public Drag { public: enum Operation { CreateSkipMarker, CreateRangeMarker, CreateTransportMarker, CreateCDMarker }; RangeMarkerBarDrag (Editor *, ArdourCanvas::Item *, Operation); ~RangeMarkerBarDrag (); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return false; } private: void update_item (ARDOUR::Location *); Operation _operation; ArdourCanvas::Rectangle* _drag_rect; bool _copy; }; /** Drag of rectangle to set zoom */ class MouseZoomDrag : public Drag { public: MouseZoomDrag (Editor *, ArdourCanvas::Item *); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); std::pair move_threshold () const { return std::make_pair (Temporal::timecnt_t (4, Temporal::AudioTime), 4); } private: bool _zoom_out; }; /** Drag of a range of automation data (either on an automation track or region gain), * changing value but not position. */ class AutomationRangeDrag : public Drag { public: AutomationRangeDrag (Editor *, AutomationTimeAxisView *, std::list const &); AutomationRangeDrag (Editor *, std::list const &, std::list const &, double y_origin, double y_height); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool x_movement_matters () const { return false; } private: void setup (std::list > const &); double y_fraction (double global_y_position) const; double value (boost::shared_ptr list, Temporal::timepos_t const & x) const; std::list _ranges; /** A line that is part of the drag */ struct Line { boost::shared_ptr line; ///< the line std::list points; ///< points to drag on the line std::pair range; ///< the range of all points on the line, in session time XMLNode* state; ///< the XML state node before the drag }; std::list _lines; double _y_origin; double _y_height; bool _nothing_to_drag; bool _integral; }; /** Drag of one edge of an xfade */ class CrossfadeEdgeDrag : public Drag { public: CrossfadeEdgeDrag (Editor*, AudioRegionView*, ArdourCanvas::Item*, bool start); void start_grab (GdkEvent*, Gdk::Cursor* c = 0); void motion (GdkEvent*, bool); void finished (GdkEvent*, bool); void aborted (bool); bool y_movement_matters () const { return false; } std::pair move_threshold () const { return std::make_pair (Temporal::timecnt_t (4, Temporal::AudioTime), 4); } private: AudioRegionView* arv; bool start; }; class RegionMarkerDrag : public Drag { public: RegionMarkerDrag (Editor*, RegionView*, ArdourCanvas::Item*); ~RegionMarkerDrag (); void start_grab (GdkEvent *, Gdk::Cursor* c = 0); void motion (GdkEvent *, bool); void finished (GdkEvent *, bool); void aborted (bool); bool allow_vertical_autoscroll () const { return false; } bool y_movement_matters () const { return false; } void setup_pointer_sample_offset (); private: RegionView* rv; ArdourMarker* view; ARDOUR::CueMarker model; ARDOUR::CueMarker dragging_model; }; #endif /* __gtk2_ardour_editor_drag_h_ */