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livetrax/gtk2_ardour/velocity_ghost_region.cc

437 lines
12 KiB
C++

/*
* Copyright (C) 2022 Paul Davis <paul@linuxaudiosystems.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.
*/
#include <utility>
#include "pbd/memento_command.h"
#include "ardour/automation_control.h"
#include "ardour/event_type_map.h"
#include "ardour/midi_automation_list_binder.h"
#include "ardour/midi_region.h"
#include "ardour/midi_track.h"
#include "ardour/session.h"
#include "gtkmm2ext/keyboard.h"
#include "gtkmm2ext/utils.h"
#include "canvas/lollipop.h"
#include "velocity_ghost_region.h"
#include "editing.h"
#include "editor.h"
#include "editor_drag.h"
#include "gui_thread.h"
#include "midi_automation_line.h"
#include "midi_region_view.h"
#include "note_base.h"
#include "public_editor.h"
#include "ui_config.h"
#include "verbose_cursor.h"
#include "pbd/i18n.h"
using namespace Temporal;
static double const lollipop_radius = 6.0;
VelocityGhostRegion::VelocityGhostRegion (MidiRegionView& mrv, TimeAxisView& tv, TimeAxisView& source_tv, double initial_unit_pos)
: MidiGhostRegion (mrv, tv, source_tv, initial_unit_pos)
, dragging (false)
, dragging_line (nullptr)
, last_drag_x (-1)
, drag_did_change (false)
, selected (false)
{
base_rect->set_data (X_("ghostregionview"), this);
base_rect->Event.connect (sigc::mem_fun (*this, &VelocityGhostRegion::base_event));
base_rect->set_fill_color (UIConfiguration::instance().color_mod ("ghost track base", "ghost track midi fill"));
base_rect->set_outline_color (UIConfiguration::instance().color ("automation track outline"));
base_rect->set_outline (true);
base_rect->set_outline_what (ArdourCanvas::Rectangle::What (ArdourCanvas::Rectangle::LEFT|ArdourCanvas::Rectangle::RIGHT));
}
VelocityGhostRegion::~VelocityGhostRegion ()
{
}
bool
VelocityGhostRegion::line_draw_motion (ArdourCanvas::Duple const & d, ArdourCanvas::Rectangle const & r, double last_x)
{
std::vector<GhostEvent*> affected_lollis;
if (last_x < 0) {
lollis_close_to_x (d.x, 20., affected_lollis);
} else if (last_x < d.x) {
/* rightward, "later" motion */
lollis_between (last_x, d.x, affected_lollis);
} else {
/* leftward, "earlier" motion */
lollis_between (d.x, last_x, affected_lollis);
}
if (affected_lollis.empty()) {
return false;
}
int velocity = y_position_to_velocity (r.height() - (r.y1() - d.y));
for (auto & lolli : affected_lollis) {
lolli->velocity_while_editing = velocity;
set_size_and_position (*lolli);
}
return true;
}
bool
VelocityGhostRegion::line_extended (ArdourCanvas::Duple const & from, ArdourCanvas::Duple const & to, ArdourCanvas::Rectangle const & r, double last_x)
{
std::vector<GhostEvent*> affected_lollis;
lollis_between (from.x, to.x, affected_lollis);
if (affected_lollis.empty()) {
return false;
}
if (to.x == from.x) {
/* no x-axis motion */
return false;
}
double slope = (to.y - from.y) / (to.x - from.x);
for (auto const & lolli : affected_lollis) {
ArdourCanvas::Item* item = lolli->item;
ArdourCanvas::Duple pos = item->item_to_canvas (ArdourCanvas::Duple (lolli->event->x0(), 0.0));
int y = from.y + (slope * (pos.x - from.x));
lolli->velocity_while_editing = y_position_to_velocity (r.height() - (r.y1() - y));
set_size_and_position (*lolli);
}
return true;
}
bool
VelocityGhostRegion::base_event (GdkEvent* ev)
{
return trackview.editor().canvas_velocity_base_event (ev, base_rect);
}
void
VelocityGhostRegion::update_contents_height ()
{
for (auto const & i : events) {
set_size_and_position (*i.second);
}
}
bool
VelocityGhostRegion::lollevent (GdkEvent* ev, MidiGhostRegion::GhostEvent* gev)
{
return trackview.editor().canvas_velocity_event (ev, gev->item);
}
void
VelocityGhostRegion::add_note (NoteBase* nb)
{
ArdourCanvas::Lollipop* l = new ArdourCanvas::Lollipop (_note_group);
l->set_bounding_parent (base_rect);
GhostEvent* event = new GhostEvent (nb, _note_group, l);
events.insert (std::make_pair (nb->note(), event));
_optimization_iterator = events.end();
l->Event.connect (sigc::bind (sigc::mem_fun (*this, &VelocityGhostRegion::lollevent), event));
l->set_ignore_events (true);
l->raise_to_top ();
l->set_data (X_("ghostregionview"), this);
l->set_data (X_("note"), nb);
l->set_fill_color (nb->base_color());
l->set_outline_color (_outline);
MidiStreamView* mv = midi_view();
if (mv) {
MidiRegionView* mrv = dynamic_cast<MidiRegionView*> (&parent_rv);
if (mrv->note_in_region_time_range (nb->note())) {
set_size_and_position (*event);
} else {
l->hide();
}
}
}
void
VelocityGhostRegion::set_size_and_position (GhostEvent& gev)
{
ArdourCanvas::Lollipop* l = dynamic_cast<ArdourCanvas::Lollipop*> (gev.item);
const double available_height = base_rect->y1();
const double actual_height = ((dragging ? gev.velocity_while_editing : gev.event->note()->velocity()) / 127.0) * available_height;
const double scale = UIConfiguration::instance ().get_ui_scale ();
if (gev.is_hit) {
/* compare to Hit::points , offset by w/2 */
l->set (ArdourCanvas::Duple (gev.event->x0() + (gev.event->x1() - gev.event->x0()) / 2, base_rect->y1() - actual_height), actual_height, lollipop_radius * scale);
} else {
l->set (ArdourCanvas::Duple (gev.event->x0(), base_rect->y1() - actual_height), actual_height, lollipop_radius * scale);
}
}
void
VelocityGhostRegion::update_note (GhostEvent* gev)
{
set_size_and_position (*gev);
gev->item->set_fill_color (gev->event->base_color());
}
void
VelocityGhostRegion::update_hit (GhostEvent* gev)
{
set_size_and_position (*gev);
gev->item->set_fill_color (gev->event->base_color());
}
void
VelocityGhostRegion::remove_note (NoteBase* nb)
{
MidiGhostRegion::remove_note (nb);
}
void
VelocityGhostRegion::set_colors ()
{
base_rect->set_fill_color (UIConfiguration::instance().color_mod ("ghost track base", "ghost track midi fill"));
for (auto & gev : events) {
gev.second->item->set_fill_color (gev.second->event->base_color());
}
}
void
VelocityGhostRegion::drag_lolli (ArdourCanvas::Lollipop* l, GdkEventMotion* ev)
{
ArdourCanvas::Rect r (base_rect->item_to_canvas (base_rect->get()));
/* translate event y-coord so that zero matches the top of base_rect
* (event coordinates use window coordinate space)
*/
ev->y -= r.y0;
/* clamp y to be within the range defined by the base_rect height minus
* the lollipop radius at top and bottom
*/
const double effective_y = std::max (0.0, std::min (r.height(), ev->y));
const double newlen = r.height() - effective_y;
const double delta = newlen - l->length();
MidiRegionView* mrv = dynamic_cast<MidiRegionView*> (&parent_rv);
assert (mrv);
/* This will redraw the velocity bars for the selected notes, without
* changing the note velocities.
*/
const double factor = newlen / base_rect->height();
mrv->sync_velocity_drag (factor);
MidiRegionView::Selection const & sel (mrv->selection());
int verbose_velocity = -1;
GhostEvent* primary_ghost = 0;
const double scale = UIConfiguration::instance ().get_ui_scale ();
for (auto & s : sel) {
GhostEvent* x = find_event (s->note());
if (x) {
ArdourCanvas::Lollipop* lolli = dynamic_cast<ArdourCanvas::Lollipop*> (x->item);
lolli->set (ArdourCanvas::Duple (lolli->x(), lolli->y0() - delta), lolli->length() + delta, lollipop_radius * scale);
/* note: length is now set to the new value */
const int newvel = floor (127. * (l->length() / r.height()));
/* since we're not actually changing the note velocity
(yet), we have to use the static method to compute
the color.
*/
lolli->set_fill_color (NoteBase::base_color (newvel, mrv->color_mode(), mrv->midi_stream_view()->get_region_color(), x->event->note()->channel(), true));
if (l == lolli) {
/* This is the value we will display */
verbose_velocity = newvel;
primary_ghost = x;
}
}
}
assert (verbose_velocity >= 0);
char buf[128];
const int oldvel = primary_ghost->event->note()->velocity();
if (verbose_velocity > oldvel) {
snprintf (buf, sizeof (buf), "Velocity %d (+%d)", verbose_velocity, verbose_velocity - oldvel);
} else if (verbose_velocity == oldvel) {
snprintf (buf, sizeof (buf), "Velocity %d", verbose_velocity);
} else {
snprintf (buf, sizeof (buf), "Velocity %d (%d)", verbose_velocity, verbose_velocity - oldvel);
}
trackview.editor().verbose_cursor()->set (buf);
trackview.editor().verbose_cursor()->show ();
trackview.editor().verbose_cursor()->set_offset (ArdourCanvas::Duple (10., 10.));
}
int
VelocityGhostRegion::y_position_to_velocity (double y) const
{
const ArdourCanvas::Rect r (base_rect->get());
int velocity;
if (y >= r.height()) {
velocity = 0;
} else if (y <= 0.) {
velocity = 127;
} else {
velocity = floor (127. * (1.0 - (y / r.height())));
}
return velocity;
}
void
VelocityGhostRegion::note_selected (NoteBase* ev)
{
GhostEvent* gev = find_event (ev->note());
if (!gev) {
return;
}
ArdourCanvas::Lollipop* lolli = dynamic_cast<ArdourCanvas::Lollipop*> (gev->item);
lolli->set_outline_color (ev->selected() ? UIConfiguration::instance().color ("midi note selected outline") : 0x000000ff);
lolli->raise_to_top();
}
void
VelocityGhostRegion::lollis_between (int x0, int x1, std::vector<GhostEvent*>& within)
{
MidiRegionView* mrv = dynamic_cast<MidiRegionView*> (&parent_rv);
assert (mrv);
MidiRegionView::Selection const & sel (mrv->selection());
bool only_selected = !sel.empty();
for (auto & gev : events) {
if (only_selected) {
if (!gev.second->event->selected()) {
continue;
}
}
ArdourCanvas::Lollipop* l = dynamic_cast<ArdourCanvas::Lollipop*> (gev.second->item);
if (l) {
ArdourCanvas::Duple pos = l->item_to_canvas (ArdourCanvas::Duple (l->x(), l->y0()));
if (pos.x >= x0 && pos.x < x1) {
within.push_back (gev.second);
}
}
}
}
void
VelocityGhostRegion::lollis_close_to_x (int x, double distance, std::vector<GhostEvent*>& within)
{
for (auto & gev : events) {
ArdourCanvas::Lollipop* l = dynamic_cast<ArdourCanvas::Lollipop*> (gev.second->item);
if (l) {
ArdourCanvas::Duple pos = l->item_to_canvas (ArdourCanvas::Duple (l->x(), l->y0()));
if (std::abs (pos.x - x) < distance) {
within.push_back (gev.second);
}
}
}
}
void
VelocityGhostRegion::start_line_drag ()
{
MidiRegionView* mrv = dynamic_cast<MidiRegionView*> (&parent_rv);
mrv->begin_drag_edit (_("draw velocities"));
for (auto & e : events) {
GhostEvent* gev (e.second);
gev->velocity_while_editing = gev->event->note()->velocity();
}
dragging = true;
desensitize_lollis ();
}
void
VelocityGhostRegion::end_line_drag (bool did_change)
{
MidiRegionView* mrv = dynamic_cast<MidiRegionView*> (&parent_rv);
dragging = false;
if (did_change) {
std::vector<NoteBase*> notes;
std::vector<int> velocities;
for (auto & e : events) {
GhostEvent* gev (e.second);
if (gev->event->note()->velocity() != gev->velocity_while_editing) {
notes.push_back (gev->event);
velocities.push_back (gev->velocity_while_editing);
}
}
mrv->set_velocities_for_notes (notes, velocities);
}
mrv->end_drag_edit ();
sensitize_lollis ();
}
void
VelocityGhostRegion::desensitize_lollis ()
{
for (auto & gev : events) {
gev.second->item->set_ignore_events (true);
}
}
void
VelocityGhostRegion::sensitize_lollis ()
{
for (auto & gev : events) {
gev.second->item->set_ignore_events (false);
}
}
void
VelocityGhostRegion::set_selected (bool yn)
{
selected = yn;
set_colors ();
if (yn) {
group->raise_to_top ();
}
}