13
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livetrax/gtk2_ardour/editor_canvas.cc

1495 lines
45 KiB
C++

/*
* Copyright (C) 2005-2017 Paul Davis <paul@linuxaudiosystems.com>
* Copyright (C) 2006-2015 David Robillard <d@drobilla.net>
* Copyright (C) 2007-2017 Tim Mayberry <mojofunk@gmail.com>
* Copyright (C) 2007 Doug McLain <doug@nostar.net>
* Copyright (C) 2009-2012 Carl Hetherington <carl@carlh.net>
* Copyright (C) 2013-2019 Robin Gareus <robin@gareus.org>
* Copyright (C) 2014-2019 Ben Loftis <ben@harrisonconsoles.com>
* Copyright (C) 2015-2017 Nick Mainsbridge <mainsbridge@gmail.com>
*
* 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.
*/
#ifdef WAF_BUILD
#include "gtk2ardour-config.h"
#endif
#include "gtkmm2ext/utils.h"
#include "ardour/profile.h"
#include "ardour/rc_configuration.h"
#include "ardour/smf_source.h"
#include "pbd/error.h"
#include "canvas/canvas.h"
#include "canvas/rectangle.h"
#include "canvas/pixbuf.h"
#include "canvas/scroll_group.h"
#include "canvas/text.h"
#include "canvas/debug.h"
#include "ardour_ui.h"
#include "automation_time_axis.h"
#include "editor.h"
#include "editing.h"
#include "rgb_macros.h"
#include "utils.h"
#include "audio_time_axis.h"
#include "editor_drag.h"
#include "region_view.h"
#include "editor_group_tabs.h"
#include "editor_summary.h"
#include "video_timeline.h"
#include "keyboard.h"
#include "editor_cursors.h"
#include "mouse_cursors.h"
#include "note_base.h"
#include "region_peak_cursor.h"
#include "ui_config.h"
#include "verbose_cursor.h"
#include "pbd/i18n.h"
using namespace std;
using namespace ARDOUR;
using namespace ARDOUR_UI_UTILS;
using namespace PBD;
using namespace Gtk;
using namespace Glib;
using namespace Gtkmm2ext;
using namespace Editing;
void
Editor::initialize_canvas ()
{
_track_canvas_viewport = new ArdourCanvas::GtkCanvasViewport (horizontal_adjustment, vertical_adjustment);
_track_canvas = _track_canvas_viewport->canvas ();
_track_canvas->set_background_color (UIConfiguration::instance().color ("arrange base"));
_track_canvas->use_nsglview ();
/* scroll group for items that should not automatically scroll
* (e.g verbose cursor). It shares the canvas coordinate space.
*/
no_scroll_group = new ArdourCanvas::Container (_track_canvas->root());
ArdourCanvas::ScrollGroup* hsg;
ArdourCanvas::ScrollGroup* hg;
ArdourCanvas::ScrollGroup* cg;
h_scroll_group = hg = new ArdourCanvas::ScrollGroup (_track_canvas->root(), ArdourCanvas::ScrollGroup::ScrollsHorizontally);
CANVAS_DEBUG_NAME (h_scroll_group, "canvas h scroll");
_track_canvas->add_scroller (*hg);
hv_scroll_group = hsg = new ArdourCanvas::ScrollGroup (_track_canvas->root(),
ArdourCanvas::ScrollGroup::ScrollSensitivity (ArdourCanvas::ScrollGroup::ScrollsVertically|
ArdourCanvas::ScrollGroup::ScrollsHorizontally));
CANVAS_DEBUG_NAME (hv_scroll_group, "canvas hv scroll");
_track_canvas->add_scroller (*hsg);
cursor_scroll_group = cg = new ArdourCanvas::ScrollGroup (_track_canvas->root(), ArdourCanvas::ScrollGroup::ScrollsHorizontally);
CANVAS_DEBUG_NAME (cursor_scroll_group, "canvas cursor scroll");
_track_canvas->add_scroller (*cg);
_verbose_cursor = new VerboseCursor (this);
_region_peak_cursor = new RegionPeakCursor (get_noscroll_group ());
/*a group to hold global rects like punch/loop indicators */
global_rect_group = new ArdourCanvas::Container (hv_scroll_group);
CANVAS_DEBUG_NAME (global_rect_group, "global rect group");
transport_loop_range_rect = new ArdourCanvas::Rectangle (global_rect_group, ArdourCanvas::Rect (0.0, 0.0, 0.0, ArdourCanvas::COORD_MAX));
CANVAS_DEBUG_NAME (transport_loop_range_rect, "loop rect");
transport_loop_range_rect->hide();
transport_punch_range_rect = new ArdourCanvas::Rectangle (global_rect_group, ArdourCanvas::Rect (0.0, 0.0, 0.0, ArdourCanvas::COORD_MAX));
CANVAS_DEBUG_NAME (transport_punch_range_rect, "punch rect");
transport_punch_range_rect->hide();
/*a group to hold time (measure) lines */
time_line_group = new ArdourCanvas::Container (h_scroll_group);
CANVAS_DEBUG_NAME (time_line_group, "time line group");
_trackview_group = new ArdourCanvas::Container (hv_scroll_group);
CANVAS_DEBUG_NAME (_trackview_group, "Canvas TrackViews");
// used as rubberband rect
rubberband_rect = new ArdourCanvas::Rectangle (hv_scroll_group, ArdourCanvas::Rect (0.0, 0.0, 0.0, 0.0));
rubberband_rect->hide();
/* a group to hold stuff while it gets dragged around. Must be the
* uppermost (last) group with hv_scroll_group as a parent
*/
_drag_motion_group = new ArdourCanvas::Container (hv_scroll_group);
CANVAS_DEBUG_NAME (_drag_motion_group, "Canvas Drag Motion");
/* TIME BAR CANVAS */
_time_markers_group = new ArdourCanvas::Container (h_scroll_group);
CANVAS_DEBUG_NAME (_time_markers_group, "time bars");
cd_marker_group = new ArdourCanvas::Container (_time_markers_group, ArdourCanvas::Duple (0.0, 0.0));
CANVAS_DEBUG_NAME (cd_marker_group, "cd marker group");
/* the vide is temporarily placed a the same location as the
cd_marker_group, but is moved later.
*/
videotl_group = new ArdourCanvas::Container (_time_markers_group, ArdourCanvas::Duple(0.0, 0.0));
CANVAS_DEBUG_NAME (videotl_group, "videotl group");
marker_group = new ArdourCanvas::Container (_time_markers_group, ArdourCanvas::Duple (0.0, timebar_height + 1.0));
CANVAS_DEBUG_NAME (marker_group, "marker group");
transport_marker_group = new ArdourCanvas::Container (_time_markers_group, ArdourCanvas::Duple (0.0, (timebar_height * 2.0) + 1.0));
CANVAS_DEBUG_NAME (transport_marker_group, "transport marker group");
range_marker_group = new ArdourCanvas::Container (_time_markers_group, ArdourCanvas::Duple (0.0, (timebar_height * 3.0) + 1.0));
CANVAS_DEBUG_NAME (range_marker_group, "range marker group");
tempo_group = new ArdourCanvas::Container (_time_markers_group, ArdourCanvas::Duple (0.0, (timebar_height * 4.0) + 1.0));
CANVAS_DEBUG_NAME (tempo_group, "tempo group");
meter_group = new ArdourCanvas::Container (_time_markers_group, ArdourCanvas::Duple (0.0, (timebar_height * 5.0) + 1.0));
CANVAS_DEBUG_NAME (meter_group, "meter group");
meter_bar = new ArdourCanvas::Rectangle (meter_group, ArdourCanvas::Rect (0.0, 0.0, ArdourCanvas::COORD_MAX, timebar_height));
CANVAS_DEBUG_NAME (meter_bar, "meter Bar");
meter_bar->set_outline_what (ArdourCanvas::Rectangle::BOTTOM);
tempo_bar = new ArdourCanvas::Rectangle (tempo_group, ArdourCanvas::Rect (0.0, 0.0, ArdourCanvas::COORD_MAX, timebar_height));
CANVAS_DEBUG_NAME (tempo_bar, "Tempo Bar");
tempo_bar->set_outline_what (ArdourCanvas::Rectangle::BOTTOM);
range_marker_bar = new ArdourCanvas::Rectangle (range_marker_group, ArdourCanvas::Rect (0.0, 0.0, ArdourCanvas::COORD_MAX, timebar_height));
CANVAS_DEBUG_NAME (range_marker_bar, "Range Marker Bar");
range_marker_bar->set_outline_what (ArdourCanvas::Rectangle::BOTTOM);
transport_marker_bar = new ArdourCanvas::Rectangle (transport_marker_group, ArdourCanvas::Rect (0.0, 0.0, ArdourCanvas::COORD_MAX, timebar_height));
CANVAS_DEBUG_NAME (transport_marker_bar, "transport Marker Bar");
transport_marker_bar->set_outline_what (ArdourCanvas::Rectangle::BOTTOM);
marker_bar = new ArdourCanvas::Rectangle (marker_group, ArdourCanvas::Rect (0.0, 0.0, ArdourCanvas::COORD_MAX, timebar_height));
CANVAS_DEBUG_NAME (marker_bar, "Marker Bar");
marker_bar->set_outline_what (ArdourCanvas::Rectangle::BOTTOM);
cd_marker_bar = new ArdourCanvas::Rectangle (cd_marker_group, ArdourCanvas::Rect (0.0, 0.0, ArdourCanvas::COORD_MAX, timebar_height));
CANVAS_DEBUG_NAME (cd_marker_bar, "CD Marker Bar");
cd_marker_bar->set_outline_what (ArdourCanvas::Rectangle::BOTTOM);
ARDOUR_UI::instance()->video_timeline = new VideoTimeLine(this, videotl_group, (timebar_height * videotl_bar_height));
cd_marker_bar_drag_rect = new ArdourCanvas::Rectangle (cd_marker_group, ArdourCanvas::Rect (0.0, 0.0, 100, timebar_height));
CANVAS_DEBUG_NAME (cd_marker_bar_drag_rect, "cd marker drag");
cd_marker_bar_drag_rect->set_outline (false);
cd_marker_bar_drag_rect->hide ();
range_bar_drag_rect = new ArdourCanvas::Rectangle (range_marker_group, ArdourCanvas::Rect (0.0, 0.0, 100, timebar_height));
CANVAS_DEBUG_NAME (range_bar_drag_rect, "range drag");
range_bar_drag_rect->set_outline (false);
range_bar_drag_rect->hide ();
transport_bar_drag_rect = new ArdourCanvas::Rectangle (transport_marker_group, ArdourCanvas::Rect (0.0, 0.0, 100, timebar_height));
CANVAS_DEBUG_NAME (transport_bar_drag_rect, "transport drag");
transport_bar_drag_rect->set_outline (false);
transport_bar_drag_rect->hide ();
transport_punchin_line = new ArdourCanvas::Line (hv_scroll_group);
transport_punchin_line->set_x0 (0);
transport_punchin_line->set_y0 (0);
transport_punchin_line->set_x1 (0);
transport_punchin_line->set_y1 (ArdourCanvas::COORD_MAX);
transport_punchin_line->hide ();
transport_punchout_line = new ArdourCanvas::Line (hv_scroll_group);
transport_punchout_line->set_x0 (0);
transport_punchout_line->set_y0 (0);
transport_punchout_line->set_x1 (0);
transport_punchout_line->set_y1 (ArdourCanvas::COORD_MAX);
transport_punchout_line->hide();
tempo_bar->Event.connect (sigc::bind (sigc::mem_fun (*this, &Editor::canvas_tempo_bar_event), tempo_bar));
meter_bar->Event.connect (sigc::bind (sigc::mem_fun (*this, &Editor::canvas_meter_bar_event), meter_bar));
marker_bar->Event.connect (sigc::bind (sigc::mem_fun (*this, &Editor::canvas_marker_bar_event), marker_bar));
cd_marker_bar->Event.connect (sigc::bind (sigc::mem_fun (*this, &Editor::canvas_cd_marker_bar_event), cd_marker_bar));
videotl_group->Event.connect (sigc::bind (sigc::mem_fun (*this, &Editor::canvas_videotl_bar_event), videotl_group));
range_marker_bar->Event.connect (sigc::bind (sigc::mem_fun (*this, &Editor::canvas_range_marker_bar_event), range_marker_bar));
transport_marker_bar->Event.connect (sigc::bind (sigc::mem_fun (*this, &Editor::canvas_transport_marker_bar_event), transport_marker_bar));
_playhead_cursor = new EditorCursor (*this, &Editor::canvas_playhead_cursor_event);
_snapped_cursor = new EditorCursor (*this);
_canvas_drop_zone = new ArdourCanvas::Rectangle (hv_scroll_group, ArdourCanvas::Rect (0.0, 0.0, ArdourCanvas::COORD_MAX, 0.0));
/* this thing is transparent */
_canvas_drop_zone->set_fill (false);
_canvas_drop_zone->set_outline (false);
_canvas_drop_zone->Event.connect (sigc::mem_fun (*this, &Editor::canvas_drop_zone_event));
/* these signals will initially be delivered to the canvas itself, but if they end up remaining unhandled, they are passed to Editor-level
handlers.
*/
_track_canvas->signal_scroll_event().connect (sigc::bind (sigc::mem_fun (*this, &Editor::canvas_scroll_event), true));
_track_canvas->signal_motion_notify_event().connect (sigc::mem_fun (*this, &Editor::track_canvas_motion_notify_event));
_track_canvas->signal_button_press_event().connect (sigc::mem_fun (*this, &Editor::track_canvas_button_press_event));
_track_canvas->signal_button_release_event().connect (sigc::mem_fun (*this, &Editor::track_canvas_button_release_event));
_track_canvas->signal_drag_motion().connect (sigc::mem_fun (*this, &Editor::track_canvas_drag_motion));
_track_canvas->signal_key_press_event().connect (sigc::mem_fun (*this, &Editor::track_canvas_key_press));
_track_canvas->signal_key_release_event().connect (sigc::mem_fun (*this, &Editor::track_canvas_key_release));
_track_canvas->set_name ("EditorMainCanvas");
_track_canvas->add_events (Gdk::POINTER_MOTION_HINT_MASK | Gdk::SCROLL_MASK | Gdk::KEY_PRESS_MASK | Gdk::KEY_RELEASE_MASK);
_track_canvas->signal_leave_notify_event().connect (sigc::mem_fun(*this, &Editor::left_track_canvas), false);
_track_canvas->signal_enter_notify_event().connect (sigc::mem_fun(*this, &Editor::entered_track_canvas), false);
_track_canvas->set_flags (CAN_FOCUS);
_track_canvas->PreRender.connect (sigc::mem_fun(*this, &Editor::pre_render));
/* set up drag-n-drop */
vector<TargetEntry> target_table;
target_table.push_back (TargetEntry ("regions")); // DnD from the region list will generate this target
target_table.push_back (TargetEntry ("sources")); // DnD from the source list will generate this target
target_table.push_back (TargetEntry ("text/uri-list"));
target_table.push_back (TargetEntry ("text/plain"));
target_table.push_back (TargetEntry ("application/x-rootwin-drop"));
_track_canvas->drag_dest_set (target_table);
_track_canvas->signal_drag_data_received().connect (sigc::mem_fun(*this, &Editor::track_canvas_drag_data_received));
_track_canvas_viewport->signal_size_allocate().connect (sigc::mem_fun(*this, &Editor::track_canvas_viewport_allocate));
initialize_rulers ();
UIConfiguration::instance().ColorsChanged.connect (sigc::mem_fun (*this, &Editor::color_handler));
color_handler();
}
void
Editor::track_canvas_viewport_allocate (Gtk::Allocation alloc)
{
_canvas_viewport_allocation = alloc;
track_canvas_viewport_size_allocated ();
}
void
Editor::track_canvas_viewport_size_allocated ()
{
bool height_changed = _visible_canvas_height != _canvas_viewport_allocation.get_height();
_visible_canvas_width = _canvas_viewport_allocation.get_width ();
_visible_canvas_height = _canvas_viewport_allocation.get_height ();
_canvas_drop_zone->set_y1 (_canvas_drop_zone->y0() + (_visible_canvas_height - 20.0));
// SHOWTRACKS
if (height_changed) {
for (LocationMarkerMap::iterator i = location_markers.begin(); i != location_markers.end(); ++i) {
i->second->canvas_height_set (_visible_canvas_height);
}
vertical_adjustment.set_page_size (_visible_canvas_height);
if ((vertical_adjustment.get_value() + _visible_canvas_height) >= vertical_adjustment.get_upper()) {
/*
We're increasing the size of the canvas while the bottom is visible.
We scroll down to keep in step with the controls layout.
*/
vertical_adjustment.set_value (_full_canvas_height - _visible_canvas_height);
}
set_visible_track_count (_visible_track_count);
}
update_fixed_rulers();
update_tempo_based_rulers ();
redisplay_grid (false);
_summary->set_overlays_dirty ();
}
void
Editor::reset_controls_layout_width ()
{
GtkRequisition req = { 0, 0 };
gint w;
edit_controls_vbox.size_request (req);
w = req.width;
if (_group_tabs->is_visible()) {
_group_tabs->size_request (req);
w += req.width;
}
/* the controls layout has no horizontal scrolling, its visible
width is always equal to the total width of its contents.
*/
controls_layout.property_width() = w;
controls_layout.property_width_request() = w;
}
void
Editor::reset_controls_layout_height (int32_t h)
{
/* ensure that the rect that represents the "bottom" of the canvas
* (the drag-n-drop zone) is, in fact, at the bottom.
*/
_canvas_drop_zone->set_position (ArdourCanvas::Duple (0, h));
/* track controls layout must span the full height of "h" (all tracks)
* plus the bottom rect.
*/
h += _canvas_drop_zone->height ();
/* set the height of the scrollable area (i.e. the sum of all contained widgets)
* for the controls layout. The size request is set elsewhere.
*/
controls_layout.property_height() = h;
}
bool
Editor::track_canvas_map_handler (GdkEventAny* /*ev*/)
{
if (!_cursor_stack.empty()) {
set_canvas_cursor (get_canvas_cursor());
} else {
PBD::error << "cursor stack is empty" << endmsg;
}
return false;
}
/** This is called when something is dropped onto the track canvas */
void
Editor::track_canvas_drag_data_received (const RefPtr<Gdk::DragContext>& context,
int x, int y,
const SelectionData& data,
guint info, guint time)
{
if (!ARDOUR_UI_UTILS::engine_is_running ()) {
return;
}
if (data.get_target() == X_("regions")) {
drop_regions (context, x, y, data, info, time, true);
} else if (data.get_target() == X_("sources")) {
drop_regions (context, x, y, data, info, time, false);
} else {
drop_paths (context, x, y, data, info, time);
}
}
bool
Editor::idle_drop_paths (vector<string> paths, samplepos_t sample, double ypos, bool copy)
{
drop_paths_part_two (paths, sample, ypos, copy);
return false;
}
void
Editor::drop_paths_part_two (const vector<string>& paths, samplepos_t sample, double ypos, bool copy)
{
RouteTimeAxisView* tv;
/* MIDI files must always be imported, because we consider them
* writable. So split paths into two vectors, and follow the import
* path on the MIDI part.
*/
vector<string> midi_paths;
vector<string> audio_paths;
for (vector<string>::const_iterator i = paths.begin(); i != paths.end(); ++i) {
if (SMFSource::safe_midi_file_extension (*i)) {
midi_paths.push_back (*i);
} else {
audio_paths.push_back (*i);
}
}
std::pair<TimeAxisView*, int> const tvp = trackview_by_y_position (ypos, false);
if (tvp.first == 0) {
/* drop onto canvas background: create new tracks */
InstrumentSelector is; // instantiation builds instrument-list and sets default.
do_import (midi_paths, Editing::ImportDistinctFiles, ImportAsTrack, SrcBest, SMFTrackName, SMFTempoIgnore, sample, is.selected_instrument(), false);
if (UIConfiguration::instance().get_only_copy_imported_files() || copy) {
do_import (audio_paths, Editing::ImportDistinctFiles, Editing::ImportAsTrack,
SrcBest, SMFTrackName, SMFTempoIgnore, sample);
} else {
do_embed (audio_paths, Editing::ImportDistinctFiles, ImportAsTrack, sample);
}
} else if ((tv = dynamic_cast<RouteTimeAxisView*> (tvp.first)) != 0) {
/* check that its a track, not a bus */
if (tv->track()) {
/* select the track, then embed/import */
selection->set (tv);
do_import (midi_paths, Editing::ImportSerializeFiles, ImportToTrack,
SrcBest, SMFTrackName, SMFTempoIgnore, sample);
if (UIConfiguration::instance().get_only_copy_imported_files() || copy) {
do_import (audio_paths, Editing::ImportSerializeFiles, Editing::ImportToTrack,
SrcBest, SMFTrackName, SMFTempoIgnore, sample, boost::shared_ptr<PluginInfo>(), false);
} else {
do_embed (audio_paths, Editing::ImportSerializeFiles, ImportToTrack, sample);
}
}
}
}
void
Editor::drop_paths (const RefPtr<Gdk::DragContext>& context,
int x, int y,
const SelectionData& data,
guint info, guint time)
{
vector<string> paths;
GdkEvent ev;
double cy;
if (convert_drop_to_paths (paths, context, x, y, data, info, time) == 0) {
/* D-n-D coordinates are window-relative, so convert to canvas coordinates
*/
ev.type = GDK_BUTTON_RELEASE;
ev.button.x = x;
ev.button.y = y;
MusicSample when (window_event_sample (&ev, 0, &cy), 0);
snap_to (when);
bool copy = ((context->get_actions() & (Gdk::ACTION_COPY | Gdk::ACTION_LINK | Gdk::ACTION_MOVE)) == Gdk::ACTION_COPY);
#ifdef __APPLE__
/* We are not allowed to call recursive main event loops from within
the main event loop with GTK/Quartz. Since import/embed wants
to push up a progress dialog, defer all this till we go idle.
*/
Glib::signal_idle().connect (sigc::bind (sigc::mem_fun (*this, &Editor::idle_drop_paths), paths, when.sample, cy, copy));
#else
drop_paths_part_two (paths, when.sample, cy, copy);
#endif
}
context->drag_finish (true, false, time);
}
/** @param allow_horiz true to allow horizontal autoscroll, otherwise false.
*
* @param allow_vert true to allow vertical autoscroll, otherwise false.
*
*/
void
Editor::maybe_autoscroll (bool allow_horiz, bool allow_vert, bool from_headers)
{
Gtk::Window* toplevel = dynamic_cast<Gtk::Window*>(contents().get_toplevel());
if (!toplevel) {
return;
}
if (!UIConfiguration::instance().get_autoscroll_editor () || autoscroll_active ()) {
return;
}
/* define a rectangular boundary for scrolling. If the mouse moves
* outside of this area and/or continue to be outside of this area,
* then we will continuously auto-scroll the canvas in the appropriate
* direction(s)
*
* the boundary is defined in coordinates relative to the toplevel
* window since that is what we're going to call ::get_pointer() on
* during autoscrolling to determine if we're still outside the
* boundary or not.
*/
ArdourCanvas::Rect scrolling_boundary;
Gtk::Allocation alloc;
if (from_headers) {
alloc = controls_layout.get_allocation ();
int wx, wy;
controls_layout.get_parent()->translate_coordinates (*toplevel,
alloc.get_x(), alloc.get_y(),
wx, wy);
scrolling_boundary = ArdourCanvas::Rect (wx, wy, wx + alloc.get_width(), wy + alloc.get_height());
} else {
alloc = _track_canvas_viewport->get_allocation ();
/* reduce height by the height of the timebars, which happens
to correspond to the position of the hv_scroll_group.
*/
alloc.set_height (alloc.get_height() - hv_scroll_group->position().y);
alloc.set_y (alloc.get_y() + hv_scroll_group->position().y);
/* now reduce it again so that we start autoscrolling before we
* move off the top or bottom of the canvas
*/
alloc.set_height (alloc.get_height() - 20);
alloc.set_y (alloc.get_y() + 10);
/* the effective width of the autoscroll boundary so
that we start scrolling before we hit the edge.
this helps when the window is slammed up against the
right edge of the screen, making it hard to scroll
effectively.
*/
if (alloc.get_width() > 20) {
alloc.set_width (alloc.get_width() - 20);
alloc.set_x (alloc.get_x() + 10);
}
int wx, wy;
_track_canvas_viewport->get_parent()->translate_coordinates (*toplevel,
alloc.get_x(), alloc.get_y(),
wx, wy);
scrolling_boundary = ArdourCanvas::Rect (wx, wy, wx + alloc.get_width(), wy + alloc.get_height());
}
int x, y;
Gdk::ModifierType mask;
toplevel->get_window()->get_pointer (x, y, mask);
if ((allow_horiz && ((x < scrolling_boundary.x0 && _leftmost_sample > 0) || x >= scrolling_boundary.x1)) ||
(allow_vert && ((y < scrolling_boundary.y0 && vertical_adjustment.get_value() > 0)|| y >= scrolling_boundary.y1))) {
start_canvas_autoscroll (allow_horiz, allow_vert, scrolling_boundary);
}
}
bool
Editor::drag_active () const
{
return _drags->active();
}
bool
Editor::preview_video_drag_active () const
{
return _drags->preview_video ();
}
bool
Editor::autoscroll_active () const
{
return autoscroll_connection.connected ();
}
std::pair <samplepos_t,samplepos_t>
Editor::session_gui_extents (bool use_extra) const
{
if (!_session) {
return std::pair <samplepos_t,samplepos_t>(max_samplepos,0);
}
samplecnt_t session_extent_start = _session->current_start_sample();
samplecnt_t session_extent_end = _session->current_end_sample();
/* calculate the extents of all regions in every playlist
* NOTE: we should listen to playlists, and cache these values so we don't calculate them every time.
*/
{
boost::shared_ptr<RouteList> rl = _session->get_routes();
for (RouteList::iterator r = rl->begin(); r != rl->end(); ++r) {
boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (*r);
if (!tr) {
continue;
}
if (tr->presentation_info ().hidden ()) {
continue;
}
pair<samplepos_t, samplepos_t> e = tr->playlist()->get_extent ();
if (e.first == e.second) {
/* no regions present */
continue;
}
session_extent_start = std::min (session_extent_start, e.first);
session_extent_end = std::max (session_extent_end, e.second);
}
}
/* ToDo: also incorporate automation regions (in case the session has no audio/midi but is just used for automating plugins or the like) */
/* add additional time to the ui extents (user-defined in config) */
if (use_extra) {
samplecnt_t const extra = UIConfiguration::instance().get_extra_ui_extents_time() * 60 * _session->nominal_sample_rate();
session_extent_end += extra;
session_extent_start -= extra;
}
/* range-check */
if (session_extent_end > max_samplepos) {
session_extent_end = max_samplepos;
}
if (session_extent_start < 0) {
session_extent_start = 0;
}
std::pair <samplepos_t,samplepos_t> ret (session_extent_start, session_extent_end);
return ret;
}
bool
Editor::autoscroll_canvas ()
{
int x, y;
Gdk::ModifierType mask;
sampleoffset_t dx = 0;
bool no_stop = false;
Gtk::Window* toplevel = dynamic_cast<Gtk::Window*>(contents().get_toplevel());
if (!toplevel) {
return false;
}
toplevel->get_window()->get_pointer (x, y, mask);
VisualChange vc;
bool vertical_motion = false;
if (autoscroll_horizontal_allowed) {
samplepos_t new_sample = _leftmost_sample;
/* horizontal */
if (x > autoscroll_boundary.x1) {
/* bring it back into view */
dx = x - autoscroll_boundary.x1;
dx += 10 + (2 * (autoscroll_cnt/2));
dx = pixel_to_sample (dx);
dx *= UIConfiguration::instance().get_draggable_playhead_speed();
if (_leftmost_sample < max_samplepos - dx) {
new_sample = _leftmost_sample + dx;
} else {
new_sample = max_samplepos;
}
no_stop = true;
} else if (x < autoscroll_boundary.x0) {
dx = autoscroll_boundary.x0 - x;
dx += 10 + (2 * (autoscroll_cnt/2));
dx = pixel_to_sample (dx);
dx *= UIConfiguration::instance().get_draggable_playhead_speed();
if (_leftmost_sample >= dx) {
new_sample = _leftmost_sample - dx;
} else {
new_sample = 0;
}
no_stop = true;
}
if (new_sample != _leftmost_sample) {
vc.time_origin = new_sample;
vc.add (VisualChange::TimeOrigin);
}
}
if (autoscroll_vertical_allowed) {
// const double vertical_pos = vertical_adjustment.get_value();
const int speed_factor = 10;
/* vertical */
if (y < autoscroll_boundary.y0) {
/* scroll to make higher tracks visible */
if (autoscroll_cnt && (autoscroll_cnt % speed_factor == 0)) {
scroll_up_one_track ();
vertical_motion = true;
}
no_stop = true;
} else if (y > autoscroll_boundary.y1) {
if (autoscroll_cnt && (autoscroll_cnt % speed_factor == 0)) {
scroll_down_one_track ();
vertical_motion = true;
}
no_stop = true;
}
}
if (vc.pending || vertical_motion) {
/* change horizontal first */
if (vc.pending) {
visual_changer (vc);
}
/* now send a motion event to notify anyone who cares
that we have moved to a new location (because we scrolled)
*/
GdkEventMotion ev;
ev.type = GDK_MOTION_NOTIFY;
ev.state = Gdk::BUTTON1_MASK;
/* the motion handler expects events in canvas coordinate space */
/* we asked for the mouse position above (::get_pointer()) via
* our own top level window (we being the Editor). Convert into
* coordinates within the canvas window.
*/
int cx;
int cy;
toplevel->translate_coordinates (*_track_canvas, x, y, cx, cy);
/* clamp x and y to remain within the autoscroll boundary,
* which is defined in window coordinates
*/
x = min (max ((ArdourCanvas::Coord) cx, autoscroll_boundary.x0), autoscroll_boundary.x1);
y = min (max ((ArdourCanvas::Coord) cy, autoscroll_boundary.y0), autoscroll_boundary.y1);
/* now convert from Editor window coordinates to canvas
* window coordinates
*/
ArdourCanvas::Duple d = _track_canvas->window_to_canvas (ArdourCanvas::Duple (cx, cy));
ev.x = d.x;
ev.y = d.y;
ev.state = mask;
motion_handler (0, (GdkEvent*) &ev, true);
} else if (no_stop) {
/* not changing visual state but pointer is outside the scrolling boundary
* so we still need to deliver a fake motion event
*/
GdkEventMotion ev;
ev.type = GDK_MOTION_NOTIFY;
ev.state = Gdk::BUTTON1_MASK;
/* the motion handler expects events in canvas coordinate space */
/* first convert from Editor window coordinates to canvas
* window coordinates
*/
int cx;
int cy;
/* clamp x and y to remain within the visible area. except
* .. if horizontal scrolling is allowed, always allow us to
* move back to zero
*/
if (autoscroll_horizontal_allowed) {
x = min (max ((ArdourCanvas::Coord) x, 0.0), autoscroll_boundary.x1);
} else {
x = min (max ((ArdourCanvas::Coord) x, autoscroll_boundary.x0), autoscroll_boundary.x1);
}
y = min (max ((ArdourCanvas::Coord) y, autoscroll_boundary.y0), autoscroll_boundary.y1);
toplevel->translate_coordinates (*_track_canvas_viewport, x, y, cx, cy);
ArdourCanvas::Duple d = _track_canvas->window_to_canvas (ArdourCanvas::Duple (cx, cy));
ev.x = d.x;
ev.y = d.y;
ev.state = mask;
motion_handler (0, (GdkEvent*) &ev, true);
} else {
stop_canvas_autoscroll ();
return false;
}
autoscroll_cnt++;
return true; /* call me again */
}
void
Editor::start_canvas_autoscroll (bool allow_horiz, bool allow_vert, const ArdourCanvas::Rect& boundary)
{
if (!_session) {
return;
}
stop_canvas_autoscroll ();
autoscroll_horizontal_allowed = allow_horiz;
autoscroll_vertical_allowed = allow_vert;
autoscroll_boundary = boundary;
/* do the first scroll right now
*/
autoscroll_canvas ();
/* scroll again at very very roughly 30FPS */
autoscroll_connection = Glib::signal_timeout().connect (sigc::mem_fun (*this, &Editor::autoscroll_canvas), 30);
}
void
Editor::stop_canvas_autoscroll ()
{
autoscroll_connection.disconnect ();
autoscroll_cnt = 0;
}
Editor::EnterContext*
Editor::get_enter_context(ItemType type)
{
for (ssize_t i = _enter_stack.size() - 1; i >= 0; --i) {
if (_enter_stack[i].item_type == type) {
return &_enter_stack[i];
}
}
return NULL;
}
bool
Editor::left_track_canvas (GdkEventCrossing* ev)
{
const bool was_within = within_track_canvas;
DropDownKeys ();
within_track_canvas = false;
set_entered_track (0);
set_entered_regionview (0);
reset_canvas_action_sensitivity (false);
if (was_within) {
if (ev->detail == GDK_NOTIFY_NONLINEAR ||
ev->detail == GDK_NOTIFY_NONLINEAR_VIRTUAL) {
/* context menu or something similar */
sensitize_the_right_region_actions (false);
} else {
sensitize_the_right_region_actions (true);
}
}
return false;
}
bool
Editor::entered_track_canvas (GdkEventCrossing* ev)
{
const bool was_within = within_track_canvas;
within_track_canvas = true;
reset_canvas_action_sensitivity (true);
if (!was_within) {
if (internal_editing()) {
/* ensure that key events go here because there are
internal editing bindings associated only with the
canvas. if the focus is elsewhere, we cannot find them.
*/
_track_canvas->grab_focus ();
}
if (ev->detail == GDK_NOTIFY_NONLINEAR ||
ev->detail == GDK_NOTIFY_NONLINEAR_VIRTUAL) {
/* context menu or something similar */
sensitize_the_right_region_actions (false);
} else {
sensitize_the_right_region_actions (true);
}
}
return false;
}
void
Editor::ensure_time_axis_view_is_visible (TimeAxisView const & track, bool at_top)
{
if (track.hidden()) {
return;
}
/* compute visible area of trackview group, as offsets from top of
* trackview group.
*/
double const current_view_min_y = vertical_adjustment.get_value();
double const current_view_max_y = current_view_min_y + vertical_adjustment.get_page_size();
double const track_min_y = track.y_position ();
double const track_max_y = track.y_position () + track.effective_height ();
if (!at_top &&
(track_min_y >= current_view_min_y &&
track_max_y < current_view_max_y)) {
/* already visible, and caller did not ask to place it at the
* top of the track canvas
*/
return;
}
double new_value;
if (at_top) {
new_value = track_min_y;
} else {
if (track_min_y < current_view_min_y) {
// Track is above the current view
new_value = track_min_y;
} else if (track_max_y > current_view_max_y) {
// Track is below the current view
new_value = track.y_position () + track.effective_height() - vertical_adjustment.get_page_size();
} else {
new_value = track_min_y;
}
}
vertical_adjustment.set_value(new_value);
}
/** Called when the main vertical_adjustment has changed */
void
Editor::tie_vertical_scrolling ()
{
if (pending_visual_change.idle_handler_id < 0) {
_region_peak_cursor->hide ();
_summary->set_overlays_dirty ();
}
}
void
Editor::set_horizontal_position (double p)
{
horizontal_adjustment.set_value (p);
_leftmost_sample = (samplepos_t) floor (p * samples_per_pixel);
}
void
Editor::color_handler()
{
Gtkmm2ext::Color base = UIConfiguration::instance().color ("ruler base");
Gtkmm2ext::Color text = UIConfiguration::instance().color ("ruler text");
timecode_ruler->set_fill_color (base);
timecode_ruler->set_outline_color (text);
minsec_ruler->set_fill_color (base);
minsec_ruler->set_outline_color (text);
samples_ruler->set_fill_color (base);
samples_ruler->set_outline_color (text);
bbt_ruler->set_fill_color (base);
bbt_ruler->set_outline_color (text);
_playhead_cursor->set_color (UIConfiguration::instance().color ("play head"));
meter_bar->set_fill_color (UIConfiguration::instance().color_mod ("meter bar", "marker bar"));
meter_bar->set_outline_color (UIConfiguration::instance().color ("marker bar separator"));
tempo_bar->set_fill_color (UIConfiguration::instance().color_mod ("tempo bar", "marker bar"));
tempo_bar->set_outline_color (UIConfiguration::instance().color ("marker bar separator"));
marker_bar->set_fill_color (UIConfiguration::instance().color_mod ("marker bar", "marker bar"));
marker_bar->set_outline_color (UIConfiguration::instance().color ("marker bar separator"));
cd_marker_bar->set_fill_color (UIConfiguration::instance().color_mod ("cd marker bar", "marker bar"));
cd_marker_bar->set_outline_color (UIConfiguration::instance().color ("marker bar separator"));
range_marker_bar->set_fill_color (UIConfiguration::instance().color_mod ("range marker bar", "marker bar"));
range_marker_bar->set_outline_color (UIConfiguration::instance().color ("marker bar separator"));
transport_marker_bar->set_fill_color (UIConfiguration::instance().color_mod ("transport marker bar", "marker bar"));
transport_marker_bar->set_outline_color (UIConfiguration::instance().color ("marker bar separator"));
cd_marker_bar_drag_rect->set_fill_color (UIConfiguration::instance().color ("range drag bar rect"));
cd_marker_bar_drag_rect->set_outline_color (UIConfiguration::instance().color ("range drag bar rect"));
range_bar_drag_rect->set_fill_color (UIConfiguration::instance().color ("range drag bar rect"));
range_bar_drag_rect->set_outline_color (UIConfiguration::instance().color ("range drag bar rect"));
transport_bar_drag_rect->set_fill_color (UIConfiguration::instance().color ("transport drag rect"));
transport_bar_drag_rect->set_outline_color (UIConfiguration::instance().color ("transport drag rect"));
transport_loop_range_rect->set_fill_color (UIConfiguration::instance().color_mod ("transport loop rect", "loop rectangle"));
transport_loop_range_rect->set_outline_color (UIConfiguration::instance().color ("transport loop rect"));
transport_punch_range_rect->set_fill_color (UIConfiguration::instance().color ("transport punch rect"));
transport_punch_range_rect->set_outline_color (UIConfiguration::instance().color ("transport punch rect"));
transport_punchin_line->set_outline_color (UIConfiguration::instance().color ("punch line"));
transport_punchout_line->set_outline_color (UIConfiguration::instance().color ("punch line"));
rubberband_rect->set_outline_color (UIConfiguration::instance().color ("rubber band rect"));
rubberband_rect->set_fill_color (UIConfiguration::instance().color_mod ("rubber band rect", "selection rect"));
location_marker_color = UIConfiguration::instance().color ("location marker");
location_range_color = UIConfiguration::instance().color ("location range");
location_cd_marker_color = UIConfiguration::instance().color ("location cd marker");
location_loop_color = UIConfiguration::instance().color ("location loop");
location_punch_color = UIConfiguration::instance().color ("location punch");
refresh_location_display ();
NoteBase::set_colors ();
/* redraw the whole thing */
_track_canvas->set_background_color (UIConfiguration::instance().color ("arrange base"));
_track_canvas->queue_draw ();
/*
redisplay_grid (true);
if (_session)
_session->tempo_map().apply_with_metrics (*this, &Editor::draw_metric_marks); // redraw metric markers
*/
}
double
Editor::horizontal_position () const
{
return sample_to_pixel (_leftmost_sample);
}
bool
Editor::track_canvas_key_press (GdkEventKey*)
{
return false;
}
bool
Editor::track_canvas_key_release (GdkEventKey*)
{
return false;
}
double
Editor::clamp_verbose_cursor_x (double x)
{
if (x < 0) {
x = 0;
} else {
x = min (_visible_canvas_width - 200.0, x);
}
return x;
}
double
Editor::clamp_verbose_cursor_y (double y)
{
y = max (0.0, y);
y = min (_visible_canvas_height - 50, y);
return y;
}
ArdourCanvas::GtkCanvasViewport*
Editor::get_track_canvas() const
{
return _track_canvas_viewport;
}
Gdk::Cursor*
Editor::get_canvas_cursor () const
{
/* The top of the cursor stack is always the currently visible cursor. */
return _cursor_stack.back();
}
void
Editor::set_canvas_cursor (Gdk::Cursor* cursor)
{
Glib::RefPtr<Gdk::Window> win = _track_canvas->get_window();
if (win && !_cursors->is_invalid (cursor)) {
/* glibmm 2.4 doesn't allow null cursor pointer because it uses
a Gdk::Cursor& as the argument to Gdk::Window::set_cursor().
But a null pointer just means "use parent window cursor",
and so should be allowed. Gtkmm 3.x has fixed this API.
For now, drop down and use C API
*/
gdk_window_set_cursor (win->gobj(), cursor ? cursor->gobj() : 0);
}
}
size_t
Editor::push_canvas_cursor (Gdk::Cursor* cursor)
{
if (!_cursors->is_invalid (cursor)) {
_cursor_stack.push_back (cursor);
set_canvas_cursor (cursor);
}
return _cursor_stack.size() - 1;
}
void
Editor::pop_canvas_cursor ()
{
while (true) {
if (_cursor_stack.size() <= 1) {
PBD::error << "attempt to pop default cursor" << endmsg;
return;
}
_cursor_stack.pop_back();
if (_cursor_stack.back()) {
/* Popped to an existing cursor, we're done. Otherwise, the
context that created this cursor has been destroyed, so we need
to skip to the next down the stack. */
set_canvas_cursor (_cursor_stack.back());
return;
}
}
}
Gdk::Cursor*
Editor::which_trim_cursor (bool left) const
{
if (!entered_regionview) {
return 0;
}
Trimmable::CanTrim ct = entered_regionview->region()->can_trim ();
if (left) {
if (ct & Trimmable::FrontTrimEarlier) {
return _cursors->left_side_trim;
} else {
return _cursors->left_side_trim_right_only;
}
} else {
if (ct & Trimmable::EndTrimLater) {
return _cursors->right_side_trim;
} else {
return _cursors->right_side_trim_left_only;
}
}
}
Gdk::Cursor*
Editor::which_mode_cursor () const
{
Gdk::Cursor* mode_cursor = MouseCursors::invalid_cursor ();
switch (mouse_mode) {
case MouseRange:
mode_cursor = _cursors->selector;
break;
case MouseCut:
mode_cursor = _cursors->scissors;
break;
case MouseObject:
case MouseContent:
/* don't use mode cursor, pick a grabber cursor based on the item */
break;
case MouseDraw:
mode_cursor = _cursors->midi_pencil;
break;
case MouseTimeFX:
mode_cursor = _cursors->time_fx; // just use playhead
break;
case MouseAudition:
mode_cursor = _cursors->speaker;
break;
}
/* up-down cursor as a cue that automation can be dragged up and down when in join object/range mode */
if (get_smart_mode()) {
double x, y;
get_pointer_position (x, y);
if (x >= 0 && y >= 0) {
vector<ArdourCanvas::Item const *> items;
/* Note how we choose a specific scroll group to get
* items from. This could be problematic.
*/
hv_scroll_group->add_items_at_point (ArdourCanvas::Duple (x,y), items);
// first item will be the upper most
if (!items.empty()) {
const ArdourCanvas::Item* i = items.front();
if (i && i->parent() && i->parent()->get_data (X_("timeselection"))) {
pair<TimeAxisView*, int> tvp = trackview_by_y_position (_last_motion_y);
if (dynamic_cast<AutomationTimeAxisView*> (tvp.first)) {
mode_cursor = _cursors->up_down;
}
}
}
}
}
return mode_cursor;
}
Gdk::Cursor*
Editor::which_track_cursor () const
{
Gdk::Cursor* cursor = MouseCursors::invalid_cursor();
switch (_join_object_range_state) {
case JOIN_OBJECT_RANGE_NONE:
case JOIN_OBJECT_RANGE_OBJECT:
cursor = _cursors->grabber;
break;
case JOIN_OBJECT_RANGE_RANGE:
cursor = _cursors->selector;
break;
}
return cursor;
}
Gdk::Cursor*
Editor::which_canvas_cursor(ItemType type) const
{
Gdk::Cursor* cursor = which_mode_cursor ();
if (mouse_mode == MouseRange) {
switch (type) {
case StartSelectionTrimItem:
cursor = _cursors->left_side_trim;
break;
case EndSelectionTrimItem:
cursor = _cursors->right_side_trim;
break;
default:
break;
}
}
if ((mouse_mode == MouseObject || get_smart_mode ()) ||
mouse_mode == MouseContent) {
/* find correct cursor to use in object/smart mode */
switch (type) {
case RegionItem:
/* We don't choose a cursor for these items on top of a region view,
because this would push a new context on the enter stack which
means switching the region context for things like smart mode
won't actualy change the cursor. */
// case WaveItem:
case StreamItem:
case AutomationTrackItem:
cursor = which_track_cursor ();
break;
case PlayheadCursorItem:
cursor = _cursors->grabber;
break;
case SelectionItem:
cursor = _cursors->selector;
break;
case ControlPointItem:
cursor = _cursors->fader;
break;
case GainLineItem:
cursor = _cursors->cross_hair;
break;
case AutomationLineItem:
cursor = _cursors->cross_hair;
break;
case StartSelectionTrimItem:
cursor = _cursors->left_side_trim;
break;
case EndSelectionTrimItem:
cursor = _cursors->right_side_trim;
break;
case FadeInItem:
cursor = _cursors->fade_in;
break;
case FadeInHandleItem:
cursor = _cursors->fade_in;
break;
case FadeInTrimHandleItem:
cursor = _cursors->fade_in;
break;
case FadeOutItem:
cursor = _cursors->fade_out;
break;
case FadeOutHandleItem:
cursor = _cursors->fade_out;
break;
case FadeOutTrimHandleItem:
cursor = _cursors->fade_out;
break;
case FeatureLineItem:
cursor = _cursors->cross_hair;
break;
case LeftFrameHandle:
if (effective_mouse_mode() == MouseObject) // (smart mode): if the user is in the btm half, show the trim cursor
cursor = which_trim_cursor (true);
else
cursor = _cursors->selector; // (smart mode): in the top half, just show the selection (range) cursor
break;
case RightFrameHandle:
if (effective_mouse_mode() == MouseObject) // see above
cursor = which_trim_cursor (false);
else
cursor = _cursors->selector;
break;
case RegionViewName:
case RegionViewNameHighlight:
/* the trim bar is used for trimming, but we have to determine if we are on the left or right side of the region */
cursor = MouseCursors::invalid_cursor ();
if (entered_regionview) {
samplepos_t where;
bool in_track_canvas;
if (mouse_sample (where, in_track_canvas)) {
samplepos_t start = entered_regionview->region()->first_sample();
samplepos_t end = entered_regionview->region()->last_sample();
cursor = which_trim_cursor ((where - start) < (end - where));
}
}
break;
case StartCrossFadeItem:
cursor = _cursors->fade_in;
break;
case EndCrossFadeItem:
cursor = _cursors->fade_out;
break;
case CrossfadeViewItem:
cursor = _cursors->cross_hair;
break;
case NoteItem:
cursor = _cursors->grabber_note;
default:
break;
}
} else if (mouse_mode == MouseDraw) {
/* ControlPointItem is not really specific to region gain mode
but it is the same cursor so don't worry about this for now.
The result is that we'll see the fader cursor if we enter
non-region-gain-line control points while in MouseDraw
mode, even though we can't edit them in this mode.
*/
switch (type) {
case GainLineItem:
case ControlPointItem:
cursor = _cursors->fader;
break;
case NoteItem:
cursor = _cursors->grabber_note;
default:
break;
}
}
switch (type) {
/* These items use the timebar cursor at all times */
case TimecodeRulerItem:
case MinsecRulerItem:
case BBTRulerItem:
case SamplesRulerItem:
cursor = _cursors->timebar;
break;
/* These items use the grabber cursor at all times */
case MeterMarkerItem:
case TempoMarkerItem:
case MeterBarItem:
case TempoBarItem:
case MarkerItem:
case MarkerBarItem:
case RangeMarkerBarItem:
case CdMarkerBarItem:
case VideoBarItem:
case TransportMarkerBarItem:
case DropZoneItem:
cursor = _cursors->grabber;
break;
default:
break;
}
return cursor;
}
void
Editor::choose_canvas_cursor_on_entry (ItemType type)
{
if (_drags->active()) {
return;
}
Gdk::Cursor* cursor = which_canvas_cursor(type);
if (!_cursors->is_invalid (cursor)) {
// Push a new enter context
const EnterContext ctx = { type, CursorContext::create(*this, cursor) };
_enter_stack.push_back(ctx);
}
}
void
Editor::update_all_enter_cursors ()
{
for (std::vector<EnterContext>::iterator i = _enter_stack.begin(); i != _enter_stack.end(); ++i) {
i->cursor_ctx->change(which_canvas_cursor(i->item_type));
}
}
double
Editor::trackviews_height() const
{
if (!_trackview_group) {
return 0;
}
return _visible_canvas_height - _trackview_group->canvas_origin().y;
}