/* * Copyright (C) 2007-2012 Carl Hetherington * Copyright (C) 2007-2015 David Robillard * Copyright (C) 2007-2018 Paul Davis * Copyright (C) 2013-2017 Nick Mainsbridge * Copyright (C) 2013-2019 Robin Gareus * Copyright (C) 2014-2019 Ben Loftis * Copyright (C) 2015 André Nusser * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include "pbd/unwind.h" #include "ardour/control_protocol_manager.h" #include "ardour/midi_region.h" #include "ardour/playlist.h" #include "ardour/profile.h" #include "ardour/route_group.h" #include "ardour/selection.h" #include "ardour/session.h" #include "ardour/vca.h" #include "editor.h" #include "editor_drag.h" #include "editor_routes.h" #include "editor_section_box.h" #include "editor_sources.h" #include "actions.h" #include "audio_time_axis.h" #include "audio_region_view.h" #include "audio_streamview.h" #include "editor_automation_line.h" #include "control_point.h" #include "editor_regions.h" #include "editor_cursors.h" #include "keyboard.h" #include "midi_region_view.h" #include "sfdb_ui.h" #include "pbd/i18n.h" using namespace std; using namespace ARDOUR; using namespace PBD; using namespace Gtk; using namespace Glib; using namespace Gtkmm2ext; using namespace Editing; struct TrackViewByPositionSorter { bool operator() (const TimeAxisView* a, const TimeAxisView *b) { return a->y_position() < b->y_position(); } }; bool Editor::extend_selection_to_track (TimeAxisView& view) { if (selection->selected (&view)) { /* already selected, do nothing */ return false; } if (selection->tracks.empty()) { if (!selection->selected (&view)) { selection->set (&view); return true; } else { return false; } } /* something is already selected, so figure out which range of things to add */ TrackViewList to_be_added; TrackViewList sorted = track_views; TrackViewByPositionSorter cmp; bool passed_clicked = false; bool forwards = true; sorted.sort (cmp); /* figure out if we should go forward or backwards */ for (TrackViewList::iterator i = sorted.begin(); i != sorted.end(); ++i) { if ((*i) == &view) { passed_clicked = true; } if (selection->selected (*i)) { if (passed_clicked) { forwards = true; } else { forwards = false; } break; } } passed_clicked = false; if (forwards) { for (TrackViewList::iterator i = sorted.begin(); i != sorted.end(); ++i) { if ((*i) == &view) { passed_clicked = true; continue; } if (passed_clicked) { if ((*i)->hidden()) { continue; } if (selection->selected (*i)) { break; } else if (!(*i)->hidden()) { to_be_added.push_back (*i); } } } } else { for (TrackViewList::reverse_iterator r = sorted.rbegin(); r != sorted.rend(); ++r) { if ((*r) == &view) { passed_clicked = true; continue; } if (passed_clicked) { if ((*r)->hidden()) { continue; } if (selection->selected (*r)) { break; } else if (!(*r)->hidden()) { to_be_added.push_back (*r); } } } } if (!selection->selected (&view)) { to_be_added.push_back (&view); } if (!to_be_added.empty()) { selection->add (to_be_added); return true; } return false; } void Editor::select_all_tracks () { TrackViewList tracks; for (TrackViewList::iterator i = track_views.begin(); i != track_views.end(); ++i) { RouteTimeAxisView* rtv = dynamic_cast(*i); if ( rtv && rtv->route()->is_track() ) { tracks.push_back (*i); } } PBD::Unwinder uw (_track_selection_change_without_scroll, true); selection->set (tracks); } void Editor::select_all_visible_lanes () { TrackViewList visible_views; for (TrackViewList::iterator i = track_views.begin(); i != track_views.end(); ++i) { if ((*i)->marked_for_display()) { visible_views.push_back (*i); } } PBD::Unwinder uw (_track_selection_change_without_scroll, true); selection->set (visible_views); } /** Select clicked_axisview, unless there are no currently selected * tracks, in which case nothing will happen unless `force' is true. */ void Editor::set_selected_track_as_side_effect (SelectionOperation op, Controllable::GroupControlDisposition gcd) { if (!clicked_axisview) { return; } PBD::Unwinder uw (_editor_track_selection_change_without_scroll, true); switch (op) { case SelectionToggle: if (selection->selected (clicked_axisview)) { selection->remove (clicked_axisview); } else { selection->add (clicked_axisview); } break; case SelectionAdd: selection->add (clicked_axisview); break; case SelectionSet: selection->clear(); selection->set (clicked_axisview); break; case SelectionExtend: selection->clear(); break; default: break; } } void Editor::set_selected_track (TimeAxisView& view, SelectionOperation op, bool no_remove) { switch (op) { case SelectionToggle: begin_reversible_selection_op (X_("Toggle track selection")); if (selection->selected (&view)) { if (!no_remove) { selection->remove (&view); } } else { selection->add (&view); } break; case SelectionAdd: begin_reversible_selection_op (X_("Add track selection")); selection->add (&view); break; case SelectionSet: begin_reversible_selection_op (X_("Set track selection")); selection->set (&view); break; case SelectionExtend: begin_reversible_selection_op (X_("Extend track selection")); extend_selection_to_track (view); break; default: return; } commit_reversible_selection_op (); } void Editor::set_selected_track_from_click (bool press, SelectionOperation op, bool no_remove) { if (!clicked_routeview) { return; } if (!press) { return; } set_selected_track (*clicked_routeview, op, no_remove); } bool Editor::set_selected_control_point_from_click (bool press, SelectionOperation op) { if (!clicked_control_point) { return false; } bool ret = false; switch (op) { case SelectionSet: if (!selection->selected (clicked_control_point)) { selection->set (clicked_control_point); ret = true; } else { /* clicked on an already selected point */ if (press) { break; } else { if (selection->points.size() > 1) { selection->set (clicked_control_point); ret = true; } } } break; case SelectionAdd: if (press) { selection->add (clicked_control_point); ret = true; } break; case SelectionToggle: /* This is a bit of a hack; if we Primary-Click-Drag a control point (for push drag) we want the point we clicked on to be selected, otherwise we end up confusingly dragging an unselected point. So here we ensure that the point is selected after the press, and if we subsequently get a release (meaning no drag occurred) we set things up so that the toggle has happened. */ if (press && !selection->selected (clicked_control_point)) { /* This is the button press, and the control point is not selected; make it so, in case this press leads to a drag. Also note that having done this, we don't need to toggle again on release. */ selection->toggle (clicked_control_point); _control_point_toggled_on_press = true; ret = true; } else if (!press && !_control_point_toggled_on_press) { /* This is the release, and the point wasn't toggled on the press, so do it now */ selection->toggle (clicked_control_point); ret = true; } else { /* Reset our flag */ _control_point_toggled_on_press = false; } break; case SelectionExtend: /* XXX */ break; default: break; } return ret; } void Editor::get_onscreen_tracks (TrackViewList& tvl) { for (TrackViewList::iterator i = track_views.begin(); i != track_views.end(); ++i) { if ((*i)->y_position() < _visible_canvas_height) { tvl.push_back (*i); } } } /** Call a slot for a given `basis' track and also for any track that is in the same * active route group with a particular set of properties. * * @param sl Slot to call. * @param basis Basis track. * @param prop Properties that active edit groups must share to be included in the map. */ void Editor::mapover_grouped_routes (sigc::slot sl, RouteUI* basis, PBD::PropertyID prop) const { set routes; routes.insert(basis); RouteGroup* group = basis->route()->route_group(); if (group && group->enabled_property(prop) && group->enabled_property (Properties::active.property_id)) { /* the basis is a member of an active route group, with the appropriate * properties; find other members */ for (TrackViewList::const_iterator i = track_views.begin(); i != track_views.end(); ++i) { RouteUI* v = dynamic_cast (*i); if ( v && (v->route() != basis->route()) && v->route()->route_group() == group) { routes.insert (v); } } } /* call the slots */ for (set::iterator i = routes.begin(); i != routes.end(); ++i) { sl (**i); } } void Editor::mapover_armed_routes (sigc::slot sl) const { set routes; for (TrackViewList::const_iterator i = track_views.begin(); i != track_views.end(); ++i) { RouteUI* v = dynamic_cast (*i); if (v && v->route()->is_track()) { if ( v->track()->rec_enable_control()->get_value()) { routes.insert (v); } } } for (set::iterator i = routes.begin(); i != routes.end(); ++i) { sl (**i); } } void Editor::mapover_selected_routes (sigc::slot sl) const { set routes; for (TrackSelection::iterator i = selection->tracks.begin(); i != selection->tracks.end(); ++i) { RouteTimeAxisView* r = dynamic_cast (*i); if (r) { routes.insert (r); } } for (set::iterator i = routes.begin(); i != routes.end(); ++i) { sl (**i); } } void Editor::mapover_all_routes (sigc::slot sl) const { set routes; for (TrackViewList::const_iterator i = track_views.begin(); i != track_views.end(); ++i) { RouteTimeAxisView* r = dynamic_cast (*i); if (r) { routes.insert (r); } } for (set::iterator i = routes.begin(); i != routes.end(); ++i) { sl (**i); } } /** Call a slot for a given `basis' track and also for any track that is in the same * active route group with a particular set of properties. * * @param sl Slot to call. * @param basis Basis track. * @param prop Properties that active edit groups must share to be included in the map. */ void Editor::mapover_tracks_with_unique_playlists (sigc::slot sl, TimeAxisView* basis, PBD::PropertyID prop) const { RouteTimeAxisView* route_basis = dynamic_cast (basis); PlaylistSet playlists; if (route_basis == 0) { return; } set tracks; tracks.insert (route_basis); RouteGroup* group = route_basis->route()->route_group(); // could be null, not a problem if (group && group->enabled_property(prop) && group->enabled_property (Properties::active.property_id)) { /* the basis is a member of an active route group, with the appropriate properties; find other members */ for (TrackViewList::const_iterator i = track_views.begin(); i != track_views.end(); ++i) { RouteTimeAxisView* v = dynamic_cast (*i); if (v && v->route()->route_group() == group) { std::shared_ptr t = v->track(); if (t) { if (playlists.insert (t->playlist()).second) { /* haven't seen this playlist yet */ tracks.insert (v); } } else { /* not actually a "Track", but a timeaxis view that we should mapover anyway. */ tracks.insert (v); } } } } /* call the slots */ uint32_t const sz = tracks.size (); for (set::iterator i = tracks.begin(); i != tracks.end(); ++i) { sl (**i, sz); } } void Editor::mapover_all_tracks_with_unique_playlists (sigc::slot sl) const { PlaylistSet playlists; set tracks; for (TrackViewList::const_iterator i = track_views.begin(); i != track_views.end(); ++i) { RouteTimeAxisView* v = dynamic_cast (*i); if (!v) { /* Ignore VCAs */ continue; } std::shared_ptr t = v->track(); if (t) { if (playlists.insert (t->playlist()).second) { /* haven't seen this playlist yet */ tracks.insert (v); } } else { /* not actually a "Track", but a timeaxis view that we should mapover anyway. */ tracks.insert (v); } } /* call the slots */ uint32_t const sz = tracks.size (); for (set::iterator i = tracks.begin(); i != tracks.end(); ++i) { sl (**i, sz); } } void Editor::mapped_get_equivalent_regions (RouteTimeAxisView& tv, uint32_t, RegionView * basis, vector* all_equivs) const { std::shared_ptr pl; vector > results; RegionView* marv; std::shared_ptr tr; if ((tr = tv.track()) == 0) { /* bus */ return; } if (basis->region()->is_explicitly_ungrouped ()) { /* this region is explicitly ungrouped; no need to check further */ return; } if (&tv == &basis->get_time_axis_view () && basis->region()->is_implicitly_ungrouped ()) { /* fallback to region-equivalence: we do not check for equivalent regions in the same track as the basis */ return; } if ((pl = tr->playlist()) != 0) { pl->get_equivalent_regions (basis->region(), results); } for (vector >::iterator ir = results.begin(); ir != results.end(); ++ir) { if ((marv = tv.view()->find_view (*ir)) != 0) { all_equivs->push_back (marv); } } } void Editor::get_equivalent_regions (RegionView* basis, vector& equivalent_regions, PBD::PropertyID property) const { if (basis->region()->is_explicitly_grouped ()) { /* if the user made an explicit region group, it can span tracks outside of the track-group */ mapover_all_tracks_with_unique_playlists (sigc::bind (sigc::mem_fun (*this, &Editor::mapped_get_equivalent_regions), basis, &equivalent_regions)); } else { mapover_tracks_with_unique_playlists (sigc::bind (sigc::mem_fun (*this, &Editor::mapped_get_equivalent_regions), basis, &equivalent_regions), &basis->get_time_axis_view(), property); } /* add clicked regionview since we skipped all other regions in the same track as the one it was in */ equivalent_regions.push_back (basis); } void Editor::get_all_equivalent_regions (RegionView* basis, vector& equivalent_regions) const { mapover_all_tracks_with_unique_playlists (sigc::bind (sigc::mem_fun (*this, &Editor::mapped_get_equivalent_regions), basis, &equivalent_regions)); /* add clicked regionview since we skipped all other regions in the same track as the one it was in */ equivalent_regions.push_back (basis); } RegionSelection Editor::get_equivalent_regions (RegionSelection & basis, PBD::PropertyID prop) const { RegionSelection equivalent; for (RegionSelection::const_iterator i = basis.begin(); i != basis.end(); ++i) { vector eq; mapover_tracks_with_unique_playlists ( sigc::bind (sigc::mem_fun (*this, &Editor::mapped_get_equivalent_regions), *i, &eq), &(*i)->get_time_axis_view(), prop); for (vector::iterator j = eq.begin(); j != eq.end(); ++j) { equivalent.add (*j); } equivalent.add (*i); } return equivalent; } bool Editor::set_selected_regionview_from_click (bool press, SelectionOperation op) { vector all_equivalent_regions; bool commit = false; if (!clicked_regionview || !clicked_routeview) { return false; } if (press) { button_release_can_deselect = false; } if (op == SelectionToggle || op == SelectionSet) { switch (op) { case SelectionToggle: if (selection->selected (clicked_regionview)) { if (press) { /* whatever was clicked was selected already; do nothing here but allow the button release to deselect it */ button_release_can_deselect = true; } else { if (button_release_can_deselect) { /* just remove this one region * (or all equivalent regions * for RippleAll, but only on a * permitted button release */ if (should_ripple_all()) { get_all_equivalent_regions (clicked_regionview, all_equivalent_regions); selection->remove (all_equivalent_regions); } else { selection->remove (clicked_regionview); } commit = true; /* no more deselect action on button release till a new press finds an already selected object. */ button_release_can_deselect = false; } } } else { if (press) { if (should_ripple_all()) { get_all_equivalent_regions (clicked_regionview, all_equivalent_regions); } else { if (selection->selected (clicked_routeview)) { get_equivalent_regions (clicked_regionview, all_equivalent_regions, ARDOUR::Properties::group_select.property_id); } else { all_equivalent_regions.push_back (clicked_regionview); } } /* add all the equivalent regions, but only on button press */ if (!all_equivalent_regions.empty()) { commit = true; } selection->add (all_equivalent_regions); } } break; case SelectionSet: if (!selection->selected (clicked_regionview)) { if (should_ripple_all()) { get_all_equivalent_regions (clicked_regionview, all_equivalent_regions); } else { get_equivalent_regions (clicked_regionview, all_equivalent_regions, ARDOUR::Properties::group_select.property_id); } selection->set (all_equivalent_regions); commit = true; } else { /* clicked on an already selected region */ if (press) goto out; else { if (selection->regions.size() > 1) { /* collapse region selection down to just this one region (and its equivalents) */ if (should_ripple_all()) { get_all_equivalent_regions (clicked_regionview, all_equivalent_regions); } else { get_equivalent_regions(clicked_regionview, all_equivalent_regions, ARDOUR::Properties::group_select.property_id); } selection->set(all_equivalent_regions); commit = true; } } } break; default: /* silly compiler */ break; } } else if (op == SelectionExtend) { list results; timepos_t last_pos; timepos_t first_pos; bool same_track = false; /* 1. find the last selected regionview in the track that was clicked in */ const Temporal::TimeDomain time_domain = (selection->regions.empty() ? Temporal::AudioTime : selection->regions.front()->region()->position().time_domain()); last_pos = timepos_t (time_domain); first_pos = timepos_t::max (time_domain); for (RegionSelection::iterator x = selection->regions.begin(); x != selection->regions.end(); ++x) { if (&(*x)->get_time_axis_view() == &clicked_regionview->get_time_axis_view()) { if ((*x)->region()->nt_last() > last_pos) { last_pos = (*x)->region()->nt_last(); } if ((*x)->region()->position() < first_pos) { first_pos = (*x)->region()->position(); } same_track = true; } } if (same_track) { /* 2. figure out the boundaries for our search for new objects */ switch (clicked_regionview->region()->coverage (first_pos, last_pos)) { case Temporal::OverlapNone: if (last_pos < clicked_regionview->region()->position()) { first_pos = last_pos; last_pos = clicked_regionview->region()->nt_last(); } else { last_pos = first_pos; first_pos = clicked_regionview->region()->position(); } break; case Temporal::OverlapExternal: if (last_pos < clicked_regionview->region()->position()) { first_pos = last_pos; last_pos = clicked_regionview->region()->nt_last(); } else { last_pos = first_pos; first_pos = clicked_regionview->region()->position(); } break; case Temporal::OverlapInternal: if (last_pos < clicked_regionview->region()->position()) { first_pos = last_pos; last_pos = clicked_regionview->region()->nt_last(); } else { last_pos = first_pos; first_pos = clicked_regionview->region()->position(); } break; case Temporal::OverlapStart: case Temporal::OverlapEnd: /* nothing to do except add clicked region to selection, since it overlaps with the existing selection in this track. */ break; } } else { /* click in a track that has no regions selected, so extend vertically to pick out all regions that are defined by the existing selection plus this one. */ first_pos = clicked_regionview->region()->position(); last_pos = clicked_regionview->region()->nt_last(); for (RegionSelection::iterator i = selection->regions.begin(); i != selection->regions.end(); ++i) { if ((*i)->region()->position() < first_pos) { first_pos = (*i)->region()->position(); } if ((*i)->region()->end() > last_pos) { last_pos = (*i)->region()->nt_last(); } } } /* 2. find all the tracks we should select in */ set relevant_tracks; if (should_ripple_all()) { for (TrackSelection::iterator i = track_views.begin(); i != track_views.end(); ++i) { RouteTimeAxisView* r = dynamic_cast (*i); if (r) { relevant_tracks.insert (r); } } } else { for (TrackSelection::iterator i = selection->tracks.begin(); i != selection->tracks.end(); ++i) { RouteTimeAxisView* r = dynamic_cast (*i); if (r) { relevant_tracks.insert (r); } } } set already_in_selection; if (relevant_tracks.empty()) { /* no tracks selected .. thus .. if the regionview we're in isn't selected (i.e. we're about to extend to it), then find all tracks between the this one and any selected ones. */ if (!selection->selected (clicked_regionview)) { RouteTimeAxisView* rtv = dynamic_cast (&clicked_regionview->get_time_axis_view()); if (rtv) { /* add this track to the ones we will search */ relevant_tracks.insert (rtv); /* find the track closest to this one that already a selected region. */ RouteTimeAxisView* closest = 0; int distance = INT_MAX; int key = rtv->route()->presentation_info().order (); for (RegionSelection::iterator x = selection->regions.begin(); x != selection->regions.end(); ++x) { RouteTimeAxisView* artv = dynamic_cast(&(*x)->get_time_axis_view()); if (artv && artv != rtv) { pair::iterator,bool> result; result = already_in_selection.insert (artv); if (result.second) { /* newly added to already_in_selection */ int d = artv->route()->presentation_info().order (); d -= key; if (abs (d) < distance) { distance = abs (d); closest = artv; } } } } if (closest) { /* now add all tracks between that one and this one */ int okey = closest->route()->presentation_info().order (); if (okey > key) { swap (okey, key); } for (TrackViewList::iterator x = track_views.begin(); x != track_views.end(); ++x) { RouteTimeAxisView* artv = dynamic_cast(*x); if (artv && artv != rtv) { int k = artv->route()->presentation_info().order (); if (k >= okey && k <= key) { /* in range but don't add it if it already has tracks selected. this avoids odd selection behaviour that feels wrong. */ if (find (already_in_selection.begin(), already_in_selection.end(), artv) == already_in_selection.end()) { relevant_tracks.insert (artv); } } } } } } } } /* 3. find all selectable objects (regionviews in this case) between that one and the end of the one that was clicked. */ for (set::iterator t = relevant_tracks.begin(); t != relevant_tracks.end(); ++t) { (*t)->get_selectables (first_pos, last_pos, -1.0, -1.0, results); } /* 4. convert to a vector of regions */ vector regions; for (list::iterator x = results.begin(); x != results.end(); ++x) { RegionView* arv; if ((arv = dynamic_cast(*x)) != 0) { regions.push_back (arv); } } if (!regions.empty()) { selection->add (regions); commit = true; } else if (selection->regions.empty() && !selection->selected (clicked_regionview)) { /* ensure that at least the clicked regionview is selected. */ selection->set (clicked_regionview); commit = true; } } out: return commit; } void Editor::set_selection (std::list s, SelectionOperation op) { if (s.empty()) { return; } switch (op) { case SelectionToggle: begin_reversible_selection_op (X_("toggle selection")); selection->toggle (s); break; case SelectionSet: begin_reversible_selection_op (X_("set selection")); selection->set (s); break; case SelectionExtend: begin_reversible_selection_op (X_("extend selection")); selection->add (s); break; case SelectionAdd: begin_reversible_selection_op (X_("add to selection")); selection->add (s); break; default: return; } commit_reversible_selection_op () ; } void Editor::set_selected_regionview_from_region_list (std::shared_ptr region, SelectionOperation op) { vector regionviews; get_regionview_corresponding_to (region, regionviews); if (regionviews.empty()) { return; } switch (op) { case SelectionToggle: /* XXX this is not correct */ begin_reversible_selection_op (X_("toggle selected regions")); selection->toggle (regionviews); break; case SelectionSet: begin_reversible_selection_op (X_("toggle selected regions")); selection->set (regionviews); break; case SelectionExtend: begin_reversible_selection_op (X_("extend selected regions")); selection->add (regionviews); break; case SelectionAdd: begin_reversible_selection_op (X_("add selected regions")); selection->add (regionviews); break; default: return; } commit_reversible_selection_op () ; } bool Editor::set_selected_regionview_from_map_event (GdkEventAny* /*ev*/, StreamView* sv, std::weak_ptr weak_r) { RegionView* rv; std::shared_ptr r (weak_r.lock()); if (!r) { return true; } if ((rv = sv->find_view (r)) == 0) { return true; } /* don't reset the selection if its something other than a single other region. */ if (selection->regions.size() > 1) { return true; } begin_reversible_selection_op (X_("set selected regions")); selection->set (rv); commit_reversible_selection_op () ; return true; } void Editor::presentation_info_changed (PropertyChange const & what_changed) { uint32_t n_tracks = 0; uint32_t n_busses = 0; uint32_t n_vcas = 0; uint32_t n_routes = 0; uint32_t n_stripables = 0; /* We cannot ensure ordering of the handlers for * PresentationInfo::Changed, so we have to do everything in order * here, as a single handler. */ if (what_changed.contains (Properties::selected)) { for (TrackViewList::iterator i = selection->tracks.begin(); i != selection->tracks.end(); ++i) { (*i)->set_selected (false); (*i)->hide_selection (); } } /* STEP 1: set the GUI selection state (in which TimeAxisViews for the * currently selected stripable/controllable duples are found and added */ selection->core_selection_changed (what_changed); /* STEP 2: update TimeAxisView's knowledge of their selected state */ if (what_changed.contains (Properties::selected)) { StripableNotificationListPtr stripables (new StripableNotificationList); switch (selection->tracks.size()) { case 0: break; default: set_selected_mixer_strip (*(selection->tracks.back())); if (!_track_selection_change_without_scroll && !_editor_track_selection_change_without_scroll) { ensure_time_axis_view_is_visible (*(selection->tracks.back()), false); } break; } CoreSelection::StripableAutomationControls sc; _session->selection().get_stripables (sc); for (CoreSelection::StripableAutomationControls::const_iterator i = sc.begin(); i != sc.end(); ++i) { AxisView* av = axis_view_by_stripable ((*i).stripable); if (!av) { continue; } n_stripables++; if (std::dynamic_pointer_cast ((*i).stripable)) { n_tracks++; n_routes++; } else if (std::dynamic_pointer_cast ((*i).stripable)) { n_busses++; n_routes++; } else if (std::dynamic_pointer_cast ((*i).stripable)) { n_vcas++; } TimeAxisView* tav = dynamic_cast (av); if (!tav) { assert (0); continue; /* impossible */ } if (!(*i).controllable) { /* "parent" track selected */ tav->set_selected (true); tav->reshow_selection (selection->time); } else { /* possibly a child */ TimeAxisView::Children c = tav->get_child_list (); for (TimeAxisView::Children::iterator j = c.begin(); j != c.end(); ++j) { std::shared_ptr control = (*j)->control (); if (control != (*i).controllable) { continue; } (*j)->set_selected (true); (*j)->reshow_selection (selection->time); } } stripables->push_back ((*i).stripable); } ActionManager::set_sensitive (ActionManager::stripable_selection_sensitive_actions, (n_stripables > 0)); ActionManager::set_sensitive (ActionManager::track_selection_sensitive_actions, (n_tracks > 0)); ActionManager::set_sensitive (ActionManager::bus_selection_sensitive_actions, (n_busses > 0)); ActionManager::set_sensitive (ActionManager::route_selection_sensitive_actions, (n_routes > 0)); ActionManager::set_sensitive (ActionManager::vca_selection_sensitive_actions, (n_vcas > 0)); sensitize_the_right_region_actions (false); /* STEP 4: notify control protocols */ ControlProtocolManager::instance().stripable_selection_changed (stripables); if (sfbrowser && _session && !_session->deletion_in_progress()) { uint32_t audio_track_cnt = 0; uint32_t midi_track_cnt = 0; for (TrackSelection::iterator x = selection->tracks.begin(); x != selection->tracks.end(); ++x) { AudioTimeAxisView* atv = dynamic_cast(*x); if (atv) { if (atv->is_audio_track()) { audio_track_cnt++; } } else { MidiTimeAxisView* mtv = dynamic_cast(*x); if (mtv) { if (mtv->is_midi_track()) { midi_track_cnt++; } } } } sfbrowser->reset (audio_track_cnt, midi_track_cnt); } } /* STEP 4: update Editor::track_views */ PropertyChange soh; soh.add (Properties::order); soh.add (Properties::hidden); if (what_changed.contains (soh)) { queue_redisplay_track_views (); } } void Editor::update_section_box () { if (selection->tracks.size() == 0 && selection->regions.size () == 0 && selection->time.length() != 0) { _section_box->set_position (selection->time.start_time().samples(), selection->time.end_time().samples()); _section_box->show (); } else { _section_box->hide(); } } void Editor::track_selection_changed () { /* reset paste count, so the plaste location doesn't get incremented * if we want to paste in the same place, but different track. */ paste_count = 0; if ( _session->solo_selection_active() ) play_solo_selection(false); update_selection_markers (); update_section_box (); } void Editor::time_selection_changed () { /* XXX this is superficially inefficient. Hide the selection in all * tracks, then show it in all selected tracks. * * However, if you investigate what this actually does, it isn't * anywhere nearly as bad as it may appear. Remember: nothing is * redrawn or even recomputed during these two loops - that only * happens when we next render ... */ for (TrackViewList::iterator i = track_views.begin(); i != track_views.end(); ++i) { (*i)->hide_selection (); } update_selection_markers (); update_section_box (); for (TrackSelection::iterator i = selection->tracks.begin(); i != selection->tracks.end(); ++i) { (*i)->show_selection (selection->time); } if (selection->time.empty()) { ActionManager::set_sensitive (ActionManager::time_selection_sensitive_actions, false); } else { ActionManager::set_sensitive (ActionManager::time_selection_sensitive_actions, true); } /* propagate into backend, but only when there is no drag or we are at * the end of a drag, otherwise this is too expensive (could case a * locate per mouse motion event. */ if (_session && !_drags->active()) { if (selection->time.length() != 0) { _session->set_range_selection (selection->time.start_time(), selection->time.end_time()); } else { _session->clear_range_selection (); } } } /** Set all region actions to have a given sensitivity */ void Editor::sensitize_all_region_actions (bool s) { Glib::ListHandle > all = _region_actions->get_actions (); for (Glib::ListHandle >::iterator i = all.begin(); i != all.end(); ++i) { (*i)->set_sensitive (s); } _all_region_actions_sensitized = s; } /** Sensitize region-based actions. * * This method is called from whenever we leave the canvas, either by moving * the pointer out of it, or by popping up a context menu. See * Editor::{entered,left}_track_canvas() for details there. */ void Editor::sensitize_the_right_region_actions (bool because_canvas_crossing) { bool have_selection = false; bool have_entered = false; bool have_edit_point = false; bool have_selected_source = false; RegionSelection rs; // std::cerr << "STRRA: crossing ? " << because_canvas_crossing << " within ? " << within_track_canvas // << std::endl; if (!selection->regions.empty()) { have_selection = true; rs = selection->regions; } if (entered_regionview) { have_entered = true; rs.add (entered_regionview); } if ( _sources->get_single_selection() ) { have_selected_source = true; } if (rs.empty() && !selection->tracks.empty()) { /* no selected regions, but some selected tracks. */ if (_edit_point == EditAtMouse) { if (!within_track_canvas) { /* pointer is not in canvas, so edit point is meaningless */ have_edit_point = false; } else { /* inside canvas. we don't know where the edit point will be when an action is invoked, but assume it could intersect with a region. */ have_edit_point = true; } } else { RegionSelection at_edit_point; timepos_t const where = get_preferred_edit_position (Editing::EDIT_IGNORE_NONE, false, !within_track_canvas); get_regions_at (at_edit_point, where, selection->tracks); if (!at_edit_point.empty()) { have_edit_point = true; } if (rs.empty()) { rs.insert (rs.end(), at_edit_point.begin(), at_edit_point.end()); } } } //std::cerr << "\tfinal have selection: " << have_selection // << " have entered " << have_entered // << " have edit point " << have_edit_point // << " EP = " << enum_2_string (_edit_point) // << std::endl; typedef std::map RegionActionMap; _ignore_region_action = true; for (RegionActionMap::iterator x = region_action_map.begin(); x != region_action_map.end(); ++x) { RegionActionTarget tgt = x->second.target; bool sensitive = false; if ((tgt & SelectedRegions) && have_selection) { sensitive = true; } else if ((tgt & EnteredRegions) && have_entered) { sensitive = true; } else if ((tgt & EditPointRegions) && have_edit_point) { sensitive = true; } else if ((tgt & ListSelection) && have_selected_source ) { sensitive = true; } x->second.action->set_sensitive (sensitive); } /* Look through the regions that are selected and make notes about what we have got */ bool have_audio = false; bool have_multichannel_audio = false; bool have_midi = false; bool have_locked = false; bool have_unlocked = false; bool have_video_locked = false; bool have_video_unlocked = false; bool have_muted = false; bool have_unmuted = false; bool have_opaque = false; bool have_non_opaque = false; bool have_not_at_natural_position = false; bool have_envelope_active = false; bool have_envelope_inactive = false; bool have_non_unity_scale_amplitude = false; bool have_compound_regions = false; bool have_inactive_fade_in = false; bool have_inactive_fade_out = false; bool have_active_fade_in = false; bool have_active_fade_out = false; bool have_transients = false; bool have_inverted_polarity = false; bool have_non_inverted_polarity = false; for (list::const_iterator i = rs.begin(); i != rs.end(); ++i) { std::shared_ptr r = (*i)->region (); std::shared_ptr ar = std::dynamic_pointer_cast (r); if (ar) { have_audio = true; if (ar->n_channels() > 1) { have_multichannel_audio = true; } } if (std::dynamic_pointer_cast (r)) { have_midi = true; } if (r->is_compound()) { have_compound_regions = true; } if (r->locked()) { have_locked = true; } else { have_unlocked = true; } if (r->video_locked()) { have_video_locked = true; } else { have_video_unlocked = true; } if (r->muted()) { have_muted = true; } else { have_unmuted = true; } if (r->opaque()) { have_opaque = true; } else { have_non_opaque = true; } if (!r->at_natural_position()) { have_not_at_natural_position = true; } if (r->has_transients ()){ have_transients = true; } if (ar) { if (ar->envelope_active()) { have_envelope_active = true; } else { have_envelope_inactive = true; } if (ar->scale_amplitude() != 1) { have_non_unity_scale_amplitude = true; } if (ar->fade_in_active ()) { have_active_fade_in = true; } else { have_inactive_fade_in = true; } if (ar->fade_out_active ()) { have_active_fade_out = true; } else { have_inactive_fade_out = true; } if (ar->scale_amplitude () < 0) { have_inverted_polarity = true; } else { have_non_inverted_polarity = true; } } } _region_actions->get_action("split-region-at-transients")->set_sensitive (have_transients); if (rs.size() > 1) { _region_actions->get_action("show-region-list-editor")->set_sensitive (false); _region_actions->get_action("show-region-properties")->set_sensitive (false); _region_actions->get_action("rename-region")->set_sensitive (false); /* XXX need to check whether there is than 1 per playlist, because otherwise this makes no sense. */ _region_actions->get_action("combine-regions")->set_sensitive (true); } else if (rs.size() == 1) { _region_actions->get_action("add-range-markers-from-region")->set_sensitive (false); _region_actions->get_action("close-region-gaps")->set_sensitive (false); _region_actions->get_action("combine-regions")->set_sensitive (false); } if (!have_multichannel_audio) { _region_actions->get_action("split-multichannel-region")->set_sensitive (false); } if (!have_midi) { editor_menu_actions->get_action("RegionMenuMIDI")->set_sensitive (false); _region_actions->get_action("show-region-list-editor")->set_sensitive (false); _region_actions->get_action("quantize-region")->set_sensitive (false); _region_actions->get_action("legatize-region")->set_sensitive (false); _region_actions->get_action("remove-overlap")->set_sensitive (false); _region_actions->get_action("transform-region")->set_sensitive (false); _region_actions->get_action("fork-region")->set_sensitive (false); _region_actions->get_action("fork-regions-from-unselected")->set_sensitive (false); _region_actions->get_action("insert-patch-change-context")->set_sensitive (false); _region_actions->get_action("insert-patch-change")->set_sensitive (false); _region_actions->get_action("transpose-region")->set_sensitive (false); } else { editor_menu_actions->get_action("RegionMenuMIDI")->set_sensitive (true); /* others were already marked sensitive */ } /* ok, moving along... */ if (have_compound_regions) { _region_actions->get_action("uncombine-regions")->set_sensitive (true); } else { _region_actions->get_action("uncombine-regions")->set_sensitive (false); } if (have_audio) { if (have_envelope_active != have_envelope_inactive) { Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-gain-envelope-active"))->set_active (have_envelope_active); } else if (have_envelope_active && have_envelope_inactive) { // Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-gain-envelope-active"))->set_inconsistent (); // N/A Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-gain-envelope-active"))->set_sensitive (false); } if (have_inverted_polarity != have_non_inverted_polarity) { Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-polarity"))->set_active (have_inverted_polarity); } else if (have_inverted_polarity && have_non_inverted_polarity) { // Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-polarity"))->set_inconsistent (); // N/A Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-polarity"))->set_sensitive (false); } } else { _region_actions->get_action("loudness-analyze-region")->set_sensitive (false); _region_actions->get_action("spectral-analyze-region")->set_sensitive (false); _region_actions->get_action("reset-region-gain-envelopes")->set_sensitive (false); _region_actions->get_action("toggle-region-gain-envelope-active")->set_sensitive (false); _region_actions->get_action("pitch-shift-region")->set_sensitive (false); _region_actions->get_action("strip-region-silence")->set_sensitive (false); _region_actions->get_action("show-rhythm-ferret")->set_sensitive (false); _region_actions->get_action("toggle-region-polarity")->set_sensitive (false); } if (!have_non_unity_scale_amplitude || !have_audio) { _region_actions->get_action("reset-region-gain")->set_sensitive (false); } Glib::RefPtr a = Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-lock")); a->set_active (have_locked && !have_unlocked); if (have_locked && have_unlocked) { // a->set_inconsistent (); } a = Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-video-lock")); a->set_active (have_video_locked && !have_video_unlocked); if (have_video_locked && have_video_unlocked) { // a->set_inconsistent (); } a = Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-mute")); a->set_active (have_muted && !have_unmuted); if (have_muted && have_unmuted) { // a->set_inconsistent (); } a = Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-opaque-region")); a->set_active (have_opaque && !have_non_opaque); if (have_opaque && have_non_opaque) { // a->set_inconsistent (); } if (!have_not_at_natural_position) { _region_actions->get_action("naturalize-region")->set_sensitive (false); } /* Todo: insert-region-from-source-list */ /* XXX: should also check that there is a track of the appropriate type for the selected region */ #if 0 if (_edit_point == EditAtMouse || _regions->get_single_selection() == 0 || selection->tracks.empty()) { _region_actions->get_action("insert-region-from-source-list")->set_sensitive (false); } else { _region_actions->get_action("insert-region-from-source-list")->set_sensitive (true); } #endif a = Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-fade-in")); a->set_active (have_active_fade_in && !have_inactive_fade_in); if (have_active_fade_in && have_inactive_fade_in) { // a->set_inconsistent (); } a = Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-fade-out")); a->set_active (have_active_fade_out && !have_inactive_fade_out); if (have_active_fade_out && have_inactive_fade_out) { // a->set_inconsistent (); } bool const have_active_fade = have_active_fade_in || have_active_fade_out; bool const have_inactive_fade = have_inactive_fade_in || have_inactive_fade_out; a = Glib::RefPtr::cast_dynamic (_region_actions->get_action("toggle-region-fades")); a->set_active (have_active_fade && !have_inactive_fade); if (have_active_fade && have_inactive_fade) { // a->set_inconsistent (); } _ignore_region_action = false; _all_region_actions_sensitized = false; } void Editor::region_selection_changed () { _regions->block_change_connection (true); editor_regions_selection_changed_connection.block(true); if (_region_selection_change_updates_region_list) { _regions->unselect_all (); } for (TrackViewList::iterator i = track_views.begin(); i != track_views.end(); ++i) { (*i)->set_selected_regionviews (selection->regions); } if (_region_selection_change_updates_region_list) { _regions->set_selected (selection->regions); } _regions->block_change_connection (false); editor_regions_selection_changed_connection.block(false); sensitize_the_right_region_actions (false); /* propagate into backend */ assert (_session); if (!selection->regions.empty()) { _session->set_object_selection (selection->regions.start_time(), selection->regions.end_time()); } else { _session->clear_object_selection (); } if (_session->solo_selection_active()) { play_solo_selection(false); } /* set nudge button color */ if (! get_regions_from_selection_and_entered().empty()) { /* nudge regions */ nudge_forward_button.set_name ("nudge button"); nudge_backward_button.set_name ("nudge button"); } else { /* nudge marker or playhead */ nudge_forward_button.set_name ("transport button"); nudge_backward_button.set_name ("transport button"); } //there are a few global Editor->Select actions which select regions even if you aren't in Object mode. //if regions are selected, we must always force the mouse mode to Object... //... otherwise the user is confusingly left with selected regions that can't be manipulated. if (!selection->regions.empty() && !internal_editing()) { /* if in TimeFX mode and there's just 1 region selected * (i.e. we just clicked on it), leave things as they are */ if (selection->regions.size() > 1 || mouse_mode != Editing::MouseTimeFX) { set_mouse_mode (MouseObject, false); } } update_selection_markers (); } void Editor::point_selection_changed () { for (TrackViewList::iterator i = track_views.begin(); i != track_views.end(); ++i) { (*i)->set_selected_points (selection->points); } } void Editor::select_all_in_track (SelectionOperation op) { list touched; if (!clicked_routeview) { return; } clicked_routeview->get_selectables (timepos_t(), timepos_t::max (Temporal::AudioTime), 0, DBL_MAX, touched); switch (op) { case SelectionToggle: begin_reversible_selection_op (X_("Toggle Select All in Track")); selection->add (touched); break; case SelectionSet: begin_reversible_selection_op (X_("Select All in Track")); selection->set (touched); break; case SelectionAdd: begin_reversible_selection_op (X_("Add Select All in Track")); selection->add (touched); break; default: return; } commit_reversible_selection_op (); } bool Editor::select_all_internal_edit (SelectionOperation) { bool selected = false; RegionSelection copy (selection->regions); for (RegionSelection::iterator i = copy.begin(); i != copy.end(); ++i) { MidiRegionView* mrv = dynamic_cast(*i); if (mrv) { mrv->select_all_notes (); selected = true; } } MidiRegionView* mrv = dynamic_cast(entered_regionview); if (mrv) { mrv->select_all_notes (); selected = true; } return selected; } void Editor::select_all_objects (SelectionOperation op) { list touched; if (internal_editing() && select_all_internal_edit(op)) { return; // Selected notes } TrackViewList ts; if (selection->tracks.empty()) { ts = track_views; } else { ts = selection->tracks; } for (TrackViewList::iterator iter = ts.begin(); iter != ts.end(); ++iter) { if ((*iter)->hidden()) { continue; } (*iter)->get_selectables (timepos_t(), timepos_t::max (Temporal::AudioTime), 0, DBL_MAX, touched); } switch (op) { case SelectionAdd: begin_reversible_selection_op (X_("add select all")); selection->add (touched); break; case SelectionToggle: begin_reversible_selection_op (X_("toggle select all")); selection->toggle (touched); break; case SelectionSet: begin_reversible_selection_op (X_("select all")); selection->set (touched); break; default: return; } commit_reversible_selection_op (); } void Editor::invert_selection_in_track () { list touched; if (!clicked_routeview) { return; } begin_reversible_selection_op (X_("Invert Selection in Track")); clicked_routeview->get_inverted_selectables (*selection, touched); selection->set (touched); commit_reversible_selection_op (); } void Editor::invert_selection () { if (internal_editing()) { MidiRegionSelection ms = selection->midi_regions(); for (MidiRegionSelection::iterator i = ms.begin(); i != ms.end(); ++i) { MidiRegionView* mrv = dynamic_cast(*i); if (mrv) { mrv->invert_selection (); } } return; } if (!selection->tracks.empty()) { TrackViewList inverted; for (TrackViewList::iterator iter = track_views.begin(); iter != track_views.end(); ++iter) { if (!(*iter)->selected()) { inverted.push_back (*iter); } } begin_reversible_selection_op (X_("Invert Track Selection")); selection->set (inverted); commit_reversible_selection_op (); } else { list touched; for (TrackViewList::iterator iter = track_views.begin(); iter != track_views.end(); ++iter) { if ((*iter)->hidden()) { continue; } (*iter)->get_inverted_selectables (*selection, touched); } begin_reversible_selection_op (X_("Invert ObjectSelection")); selection->set (touched); commit_reversible_selection_op (); } } /** @param start Start time in session samples. * @param end End time in session samples. * @param top Top (lower) y limit in trackview coordinates (ie 0 at the top of the track view) * @param bottom Bottom (higher) y limit in trackview coordinates (ie 0 at the top of the track view) * @param preserve_if_selected true to leave the current selection alone if we're adding to the selection and all of the selectables * within the region are already selected. */ void Editor::select_all_within (timepos_t const & start, timepos_t const & end, double top, double bot, const TrackViewList& tracklist, SelectionOperation op, bool preserve_if_selected) { list found; for (TrackViewList::const_iterator iter = tracklist.begin(); iter != tracklist.end(); ++iter) { if ((*iter)->hidden()) { continue; } (*iter)->get_selectables (start, end, top, bot, found); } if (found.empty()) { selection->clear_objects(); selection->clear_time (); return; } if (preserve_if_selected && op != SelectionToggle) { list::iterator i = found.begin(); while (i != found.end() && (*i)->selected()) { ++i; } if (i == found.end()) { return; } } switch (op) { case SelectionAdd: begin_reversible_selection_op (X_("add select all within")); selection->add (found); break; case SelectionToggle: begin_reversible_selection_op (X_("toggle select all within")); selection->toggle (found); break; case SelectionSet: begin_reversible_selection_op (X_("select all within")); selection->set (found); break; default: return; } commit_reversible_selection_op (); } void Editor::set_selection_from_region () { if (selection->regions.empty()) { return; } /* find all the tracks that have selected regions */ set tracks; for (RegionSelection::const_iterator r = selection->regions.begin(); r != selection->regions.end(); ++r) { tracks.insert (&(*r)->get_time_axis_view()); } TrackViewList tvl; tvl.insert (tvl.end(), tracks.begin(), tracks.end()); /* select range (this will clear the region selection) */ selection->set (selection->regions.start_time(), selection->regions.end_time()); /* and select the tracks */ selection->set (tvl); if (!get_smart_mode () || !(mouse_mode == Editing::MouseObject) ) { set_mouse_mode (Editing::MouseRange, false); } } void Editor::set_selection_from_punch() { Location* location; if ((location = _session->locations()->auto_punch_location()) == 0) { return; } set_selection_from_range (*location); } void Editor::set_selection_from_loop() { Location* location; if ((location = _session->locations()->auto_loop_location()) == 0) { return; } set_selection_from_range (*location); } void Editor::set_selection_from_range (Location& loc) { begin_reversible_selection_op (X_("set selection from range")); selection->set (loc.start(), loc.end()); // if no tracks are selected, enable all tracks // (_something_ has to be selected for any range selection, otherwise the user won't see anything) if (selection->tracks.empty()) { select_all_visible_lanes(); } commit_reversible_selection_op (); if (!get_smart_mode () || mouse_mode != Editing::MouseObject) { set_mouse_mode (MouseRange, false); } } void Editor::select_all_selectables_using_time_selection () { list touched; if (selection->time.empty()) { return; } timepos_t start = selection->time[clicked_selection].start(); timepos_t end = selection->time[clicked_selection].end(); const timecnt_t distance = start.distance (end); if (distance.is_negative () || distance.is_zero ()) { return; } TrackViewList* ts; if (selection->tracks.empty()) { ts = &track_views; } else { ts = &selection->tracks; } for (TrackViewList::iterator iter = ts->begin(); iter != ts->end(); ++iter) { if ((*iter)->hidden()) { continue; } (*iter)->get_selectables (start, end, 0, DBL_MAX, touched); } begin_reversible_selection_op (X_("select all from range")); selection->set (touched); commit_reversible_selection_op (); } void Editor::select_all_selectables_using_punch() { Location* location = _session->locations()->auto_punch_location(); list touched; if (location == 0 || (location->length_samples() <= 1)) { return; } TrackViewList* ts; if (selection->tracks.empty()) { ts = &track_views; } else { ts = &selection->tracks; } for (TrackViewList::iterator iter = ts->begin(); iter != ts->end(); ++iter) { if ((*iter)->hidden()) { continue; } (*iter)->get_selectables (location->start(), location->end(), 0, DBL_MAX, touched); } begin_reversible_selection_op (X_("select all from punch")); selection->set (touched); commit_reversible_selection_op (); } void Editor::select_all_selectables_using_loop() { Location* location = _session->locations()->auto_loop_location(); list touched; if (location == 0 || (location->length_samples() <= 1)) { return; } TrackViewList* ts; if (selection->tracks.empty()) { ts = &track_views; } else { ts = &selection->tracks; } for (TrackViewList::iterator iter = ts->begin(); iter != ts->end(); ++iter) { if ((*iter)->hidden()) { continue; } (*iter)->get_selectables (location->start(), location->end(), 0, DBL_MAX, touched); } begin_reversible_selection_op (X_("select all from loop")); selection->set (touched); commit_reversible_selection_op (); } void Editor::select_all_selectables_using_cursor (EditorCursor *cursor, bool after) { timepos_t start; timepos_t end; list touched; if (after) { start = timepos_t (cursor->current_sample()); end = timepos_t (_session->current_end_sample()); } else { if (cursor->current_sample() > 0) { start = timepos_t(); end = timepos_t (cursor->current_sample() - 1); } else { return; } } if (internal_editing()) { for (RegionSelection::iterator i = selection->regions.begin(); i != selection->regions.end(); ++i) { MidiRegionView* mrv = dynamic_cast(*i); if (mrv) { mrv->select_range (start, end); } } return; } if (after) { begin_reversible_selection_op (X_("select all after cursor")); } else { begin_reversible_selection_op (X_("select all before cursor")); } TrackViewList* ts; if (selection->tracks.empty()) { ts = &track_views; } else { ts = &selection->tracks; } for (TrackViewList::iterator iter = ts->begin(); iter != ts->end(); ++iter) { if ((*iter)->hidden()) { continue; } (*iter)->get_selectables (start, end, 0, DBL_MAX, touched); } selection->set (touched); commit_reversible_selection_op (); } void Editor::select_all_selectables_using_edit (bool after, bool from_context_menu) { timepos_t start; timepos_t end; list touched; if (after) { start = get_preferred_edit_position(EDIT_IGNORE_NONE, from_context_menu); end = timepos_t (_session->current_end_sample()); } else { if ((end = get_preferred_edit_position(EDIT_IGNORE_NONE, from_context_menu)) > 1) { start = timepos_t (); end = end.decrement(); } else { return; } } if (internal_editing()) { for (RegionSelection::iterator i = selection->regions.begin(); i != selection->regions.end(); ++i) { MidiRegionView* mrv = dynamic_cast(*i); mrv->select_range (start, end); } return; } if (after) { begin_reversible_selection_op (X_("select all after edit")); } else { begin_reversible_selection_op (X_("select all before edit")); } TrackViewList* ts; if (selection->tracks.empty()) { ts = &track_views; } else { ts = &selection->tracks; } for (TrackViewList::iterator iter = ts->begin(); iter != ts->end(); ++iter) { if ((*iter)->hidden()) { continue; } (*iter)->get_selectables (start, end, 0, DBL_MAX, touched); } selection->set (touched); commit_reversible_selection_op (); } void Editor::select_all_selectables_between (bool within) { timepos_t start; timepos_t end; list touched; if (!get_edit_op_range (start, end)) { return; } if (internal_editing()) { for (RegionSelection::iterator i = selection->regions.begin(); i != selection->regions.end(); ++i) { MidiRegionView* mrv = dynamic_cast(*i); mrv->select_range (start, end); } return; } TrackViewList* ts; if (selection->tracks.empty()) { ts = &track_views; } else { ts = &selection->tracks; } for (TrackViewList::iterator iter = ts->begin(); iter != ts->end(); ++iter) { if ((*iter)->hidden()) { continue; } (*iter)->get_selectables (start, end, 0, DBL_MAX, touched, within); } begin_reversible_selection_op (X_("Select all Selectables Between")); selection->set (touched); commit_reversible_selection_op (); } void Editor::get_regionviews_at_or_after (timepos_t const & pos, RegionSelection& regions) { for (TrackViewList::iterator iter = track_views.begin(); iter != track_views.end(); ++iter) { (*iter)->get_regionviews_at_or_after (pos, regions); } } void Editor::select_range_between () { timepos_t start; timepos_t end; if (!selection->time.empty()) { selection->clear_time (); } if (!get_edit_op_range (start, end)) { return; } if (!get_smart_mode () || mouse_mode != Editing::MouseObject) { set_mouse_mode (MouseRange, false); } begin_reversible_selection_op (X_("Select Range Between")); selection->set (start, end); commit_reversible_selection_op (); } bool Editor::get_edit_op_range (timepos_t& start, timepos_t& end) const { /* if an explicit range exists, use it */ if ((mouse_mode == MouseRange || get_smart_mode()) && !selection->time.empty()) { /* we know that these are ordered */ start = selection->time.start_time(); end = selection->time.end_time(); return true; } else { start = timepos_t (); end = timepos_t (); return false; } } void Editor::deselect_all () { begin_reversible_selection_op (X_("Deselect All")); selection->clear (); commit_reversible_selection_op (); } long Editor::select_range (timepos_t const & s, timepos_t const & e) { begin_reversible_selection_op (X_("Select Range")); selection->add (clicked_axisview); selection->time.clear (); long ret = selection->set (s, e); commit_reversible_selection_op (); return ret; } void Editor::catch_up_on_midi_selection () { RegionSelection regions; for (TrackViewList::iterator iter = track_views.begin(); iter != track_views.end(); ++iter) { if ((*iter)->hidden()) { continue; } MidiTimeAxisView* matv = dynamic_cast (*iter); if (!matv) { continue; } matv->get_regions_with_selected_data (regions); } if (!regions.empty()) { selection->set (regions); } } struct ViewStripable { TimeAxisView* tav; std::shared_ptr stripable; ViewStripable (TimeAxisView* t, std::shared_ptr s) : tav (t), stripable (s) {} }; void Editor::move_selected_tracks (bool up) { TimeAxisView* scroll_to = 0; StripableList sl; _session->get_stripables (sl); if (sl.size() < 2) { /* nope */ return; } sl.sort (Stripable::Sorter()); /* Check if the selected tracks are already at the beginning or end of * the ordering, depending on direction. */ for (auto & s : sl) { if (s->is_selected()) { if (up && (s->presentation_info().order() <= 0)) { return; } else if (!up && (s->presentation_info().order() >= sl.size() - 1)) { return; } } } std::list view_stripables; /* build a list that includes time axis view information */ for (StripableList::const_iterator sli = sl.begin(); sli != sl.end(); ++sli) { TimeAxisView* tv = time_axis_view_from_stripable (*sli); view_stripables.push_back (ViewStripable (tv, *sli)); } /* for each selected stripable, move it above or below the adjacent * stripable that has a time-axis view representation here. If there's * no such representation, then */ list::iterator unselected_neighbour; list::iterator vsi; { PresentationInfo::ChangeSuspender cs; if (up) { unselected_neighbour = view_stripables.end (); vsi = view_stripables.begin(); while (vsi != view_stripables.end()) { if (vsi->stripable->is_selected()) { if (unselected_neighbour != view_stripables.end()) { PresentationInfo::order_t unselected_neighbour_order = unselected_neighbour->stripable->presentation_info().order(); PresentationInfo::order_t my_order = vsi->stripable->presentation_info().order(); unselected_neighbour->stripable->set_presentation_order (my_order); vsi->stripable->set_presentation_order (unselected_neighbour_order); if (!scroll_to) { scroll_to = vsi->tav; } } } else { if (vsi->tav) { unselected_neighbour = vsi; } } ++vsi; } } else { unselected_neighbour = view_stripables.end(); vsi = unselected_neighbour; do { --vsi; if (vsi->stripable->is_selected()) { if (unselected_neighbour != view_stripables.end()) { PresentationInfo::order_t unselected_neighbour_order = unselected_neighbour->stripable->presentation_info().order(); PresentationInfo::order_t my_order = vsi->stripable->presentation_info().order(); unselected_neighbour->stripable->set_presentation_order (my_order); vsi->stripable->set_presentation_order (unselected_neighbour_order); if (!scroll_to) { scroll_to = vsi->tav; } } } else { if (vsi->tav) { unselected_neighbour = vsi; } } } while (vsi != view_stripables.begin()); } } if (scroll_to) { ensure_time_axis_view_is_visible (*scroll_to, false); } } RegionSelection Editor::region_selection() { return get_regions_from_selection_and_entered (); }