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livetrax/gtk2_ardour/mini_timeline.cc

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/*
* Copyright (C) 2016-2017 Robin Gareus <robin@gareus.org>
* Copyright (C) 2016-2018 Ben Loftis <ben@harrisonconsoles.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 "ardour/audioengine.h"
#include "ardour/session.h"
#include "ardour/tempo.h"
#include "gtkmm2ext/colors.h"
#include "gtkmm2ext/gui_thread.h"
#include "gtkmm2ext/keyboard.h"
#include "gtkmm2ext/utils.h"
#include "widgets/tooltips.h"
#include "ardour_ui.h"
#include "public_editor.h"
#include "main_clock.h"
#include "mini_timeline.h"
#include "timers.h"
#include "ui_config.h"
#include "pbd/i18n.h"
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#define PADDING 3
#define BBT_BAR_CHAR "|"
using namespace ARDOUR;
using namespace Gtkmm2ext;
MiniTimeline::MiniTimeline ()
: _last_update_sample (-1)
, _clock_mode (AudioClock::Timecode)
, _time_width (0)
, _time_height (0)
, _n_labels (0)
, _px_per_sample (0)
, _time_granularity (0)
, _time_span_samples (0)
, _marker_height (0)
, _pointer_x (-1)
, _pointer_y (-1)
, _minitl_context_menu (0)
{
add_events (Gdk::ENTER_NOTIFY_MASK|Gdk::LEAVE_NOTIFY_MASK|Gdk::BUTTON_RELEASE_MASK|Gdk::BUTTON_PRESS_MASK|Gdk::POINTER_MOTION_MASK|Gdk::SCROLL_MASK);
_layout = Pango::Layout::create (get_pango_context());
UIConfiguration::instance().ColorsChanged.connect (sigc::mem_fun (*this, &MiniTimeline::set_colors));
UIConfiguration::instance().DPIReset.connect (sigc::mem_fun (*this, &MiniTimeline::dpi_changed));
UIConfiguration::instance().ParameterChanged.connect (sigc::mem_fun (*this, &MiniTimeline::parameter_changed));
set_name ("minitimeline");
Location::cue_change.connect (marker_connection, invalidator (*this), boost::bind (&MiniTimeline::update_minitimeline, this), gui_context ());
Location::name_changed.connect (marker_connection, invalidator (*this), boost::bind (&MiniTimeline::update_minitimeline, this), gui_context ());
Location::end_changed.connect (marker_connection, invalidator (*this), boost::bind (&MiniTimeline::update_minitimeline, this), gui_context ());
Location::start_changed.connect (marker_connection, invalidator (*this), boost::bind (&MiniTimeline::update_minitimeline, this), gui_context ());
Location::changed.connect (marker_connection, invalidator (*this), boost::bind (&MiniTimeline::update_minitimeline, this), gui_context ());
Location::flags_changed.connect (marker_connection, invalidator (*this), boost::bind (&MiniTimeline::update_minitimeline, this), gui_context ());
Temporal::TempoMap::MapChanged.connect (tempo_map_connection, invalidator (*this), boost::bind (&MiniTimeline::update_minitimeline, this), gui_context());
ArdourWidgets::set_tooltip (*this,
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string_compose (_("<b>Navigation Timeline</b>. Use left-click to locate to time position or marker; scroll-wheel to jump, hold %1 for fine grained and %2 + %3 for extra-fine grained control. Right-click to set display range. The display unit is defined by the primary clock."),
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Gtkmm2ext::Keyboard::primary_modifier_name(),
Gtkmm2ext::Keyboard::primary_modifier_name (),
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Gtkmm2ext::Keyboard::secondary_modifier_name ()));
}
MiniTimeline::~MiniTimeline ()
{
delete _minitl_context_menu;
_minitl_context_menu = 0;
}
void
MiniTimeline::session_going_away ()
{
super_rapid_connection.disconnect ();
session_connection.drop_connections ();
SessionHandlePtr::session_going_away ();
_jumplist.clear ();
delete _minitl_context_menu;
_minitl_context_menu = 0;
}
void
MiniTimeline::set_session (Session* s)
{
SessionHandlePtr::set_session (s);
if (!s) {
return;
}
assert (!super_rapid_connection.connected ());
super_rapid_connection = Timers::super_rapid_connect (
sigc::mem_fun (*this, &MiniTimeline::super_rapid_update)
);
_session->config.ParameterChanged.connect (session_connection,
invalidator (*this),
boost::bind (&MiniTimeline::parameter_changed, this, _1), gui_context()
);
_session->locations()->added.connect (session_connection,
invalidator (*this),
boost::bind (&MiniTimeline::update_minitimeline, this), gui_context()
);
_session->locations()->removed.connect (session_connection,
invalidator (*this),
boost::bind (&MiniTimeline::update_minitimeline, this), gui_context()
);
_session->locations()->changed.connect (session_connection,
invalidator (*this),
boost::bind (&MiniTimeline::update_minitimeline, this), gui_context()
);
_jumplist.clear ();
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calculate_time_spacing ();
update_minitimeline ();
}
void
MiniTimeline::dpi_changed ()
{
calculate_time_width ();
if (get_realized()) {
queue_resize ();
}
}
void
MiniTimeline::set_colors ()
{
// TODO UIConfiguration::instance().color & font
_phead_color = UIConfiguration::instance().color ("play head");
}
void
MiniTimeline::parameter_changed (std::string const& p)
{
if (p == "cue-behavior") {
update_minitimeline ();
}
if (p == "minitimeline-span") {
calculate_time_spacing ();
update_minitimeline ();
}
}
void
MiniTimeline::on_size_request (Gtk::Requisition* req)
{
req->width = req->height = 0;
CairoWidget::on_size_request (req);
req->width = std::max (req->width, 1);
req->height = std::max (req->height, 20);
}
void
MiniTimeline::on_size_allocate (Gtk::Allocation& alloc)
{
CairoWidget::on_size_allocate (alloc);
calculate_time_spacing ();
}
void
MiniTimeline::set_span (samplecnt_t ts)
{
assert (_session);
if (_session->config.get_minitimeline_span () == ts) {
return;
}
_session->config.set_minitimeline_span (ts);
calculate_time_spacing ();
update_minitimeline ();
}
void
MiniTimeline::super_rapid_update ()
{
if (!_session || !_session->engine().running() || !get_mapped ()) {
return;
}
samplepos_t const sample = PublicEditor::instance().playhead_cursor_sample ();
AudioClock::Mode m = ARDOUR_UI::instance()->primary_clock->mode();
bool change = false;
if (fabs ((_last_update_sample - sample) * _px_per_sample) >= 1.0) {
change = true;
}
if (m != _clock_mode) {
_clock_mode = m;
calculate_time_width ();
change = true;
}
if (change) {
_last_update_sample = sample;
update_minitimeline ();
}
}
void
MiniTimeline::update_minitimeline ()
{
CairoWidget::set_dirty ();
}
void
MiniTimeline::calculate_time_width ()
{
switch (_clock_mode) {
case AudioClock::Timecode:
_layout->set_text (" 88:88:88,888 ");
break;
case AudioClock::BBT:
_layout->set_text ("888|00|00");
break;
case AudioClock::MinSec:
_layout->set_text ("88:88:88,88");
break;
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case AudioClock::Seconds:
case AudioClock::Samples:
_layout->set_text ("8888888888");
break;
}
_layout->get_pixel_size (_time_width, _time_height);
}
void
MiniTimeline::calculate_time_spacing ()
{
_n_labels = floor (get_width () / (_time_width * 1.15));
if (_n_labels == 0 || !_session) {
return;
}
const samplecnt_t time_span = _session->config.get_minitimeline_span () / 2;
_time_span_samples = time_span * _session->nominal_sample_rate ();
_time_granularity = _session->nominal_sample_rate () * ceil (2. * time_span / _n_labels);
_px_per_sample = get_width () / (2. * _time_span_samples);
//_px_per_sample = 1.0 / round (1.0 / _px_per_sample);
}
void
MiniTimeline::format_time (samplepos_t when)
{
switch (_clock_mode) {
case AudioClock::Timecode:
{
Timecode::Time TC;
_session->timecode_time (when, TC);
// chop of leading space or minus.
_layout->set_text (Timecode::timecode_format_time (TC).substr(1));
}
break;
case AudioClock::BBT:
{
char buf[64];
Temporal::BBT_Time BBT = Temporal::TempoMap::use()->bbt_at (timepos_t (when));
snprintf (buf, sizeof (buf), "%d" BBT_BAR_CHAR "00" BBT_BAR_CHAR "00", BBT.bars);
_layout->set_text (buf);
}
break;
case AudioClock::MinSec:
{
char buf[32];
AudioClock::print_minsec (when, buf, sizeof (buf), _session->sample_rate());
_layout->set_text (std::string(buf).substr(1));
}
break;
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case AudioClock::Seconds:
{
char buf[32];
snprintf (buf, sizeof (buf), "%.1f", when / (float)_session->sample_rate());
_layout->set_text (buf);
}
break;
case AudioClock::Samples:
{
char buf[32];
snprintf (buf, sizeof (buf), "%" PRId64, when);
_layout->set_text (buf);
}
break;
}
}
void
MiniTimeline::draw_dots (cairo_t* cr, int left, int right, int y, Gtkmm2ext::Color color)
{
if (left + 1 >= right) {
return;
}
cairo_move_to (cr, left + .5, y + .5);
cairo_line_to (cr, right - .5, y + .5);
Gtkmm2ext::set_source_rgb_a(cr, color, 0.3);
const double dashes[] = { 0, 1 };
cairo_set_dash (cr, dashes, 2, 1);
cairo_set_line_cap (cr, CAIRO_LINE_CAP_ROUND);
cairo_set_line_width (cr, 1.0);
cairo_stroke (cr);
cairo_set_dash (cr, 0, 0, 0);
}
int
MiniTimeline::draw_mark (cairo_t* cr, int marker_loc, int marker_right_edge, const std::string& label, bool& prelight)
{
int h = _marker_height;
/* ArdourMarker shape
* MH = 13
*
* Mark:
*
* (0,0) -- (6,0)
* | |
* | |
* (0,MH*.4) (6,MH*.4)
* \ /
* (3,MH)
*/
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const int y = PADDING;
int w2 = (h - 1) / 4;
double h0 = h * .6;
double h1 = h - h0;
int lw, lh;
_layout->set_text (label);
_layout->get_pixel_size (lw, lh);
int rw = std::min (marker_right_edge, marker_loc + w2 + lw + 2);
if (_pointer_y >= 0 && _pointer_y <= y + h && _pointer_x >= marker_loc - w2 && _pointer_x <= rw) {
prelight = true;
}
const double scale = UIConfiguration::instance ().get_ui_scale ();
uint32_t color = UIConfiguration::instance().color (
prelight ? "entered marker" : "location marker");
//shrink the height of the 'flag' part, a bit.
h -= 4*scale;
// draw marker first
cairo_move_to (cr, marker_loc - .5, y + .5);
cairo_rel_line_to (cr, -w2 , 0);
cairo_rel_line_to (cr, 0, h0);
cairo_rel_line_to (cr, w2, h1);
cairo_rel_line_to (cr, w2, -h1);
cairo_rel_line_to (cr, 0, -h0);
cairo_close_path (cr);
set_source_rgba (cr, color);
cairo_set_line_width (cr, 1.0);
cairo_stroke_preserve (cr);
cairo_fill (cr);
if (rw < marker_loc) {
rw = marker_right_edge;
} else {
cairo_save (cr);
set_source_rgba (cr, color);
cairo_rectangle (cr, marker_loc-5*scale, y, rw - marker_loc + 4*scale, h);
cairo_fill_preserve (cr);
cairo_clip (cr);
// marker label
cairo_move_to (cr, marker_loc + w2 - 4*scale, y + .5 * (h - lh));
cairo_set_source_rgb (cr, 0, 0, 0);
pango_cairo_show_layout (cr, _layout->gobj());
cairo_restore (cr);
/* right line */
cairo_rectangle (cr, rw-2*scale, y, 1*scale, h);
cairo_set_source_rgba (cr, 0, 0, 0, 0.7);
cairo_fill (cr);
}
return rw;
}
int
MiniTimeline::draw_cue (cairo_t* cr, int marker_loc, int next_cue_left_edge, int tl_width, int cue_index, bool& prelight)
{
const double scale = UIConfiguration::instance ().get_ui_scale ();
int h = _marker_height;
int y_center = PADDING + _marker_height + 2*scale + h/2;
int marker_left_edge = marker_loc - h/2; //left side of circle
int marker_right_edge = marker_loc + h/2; //right side of circle (we ignore the arg, which is the next marker's edge)
if (_pointer_y >= y_center-h/2 && _pointer_y <= y_center+h/2 && _pointer_x >= marker_left_edge && _pointer_x <= marker_right_edge) {
prelight = true;
}
uint32_t color = UIConfiguration::instance().color (
prelight ? "entered marker" : "location marker");
CueBehavior cb (_session->config.get_cue_behavior());
if (!(cb & ARDOUR::FollowCues)) {
color = Gtkmm2ext::HSV(color).darker(0.5).color();
};
// draw a bar to show that the Cue continues forever
if (cue_index!=CueRecord::stop_all) {
cairo_rectangle (cr, marker_loc, y_center-2*scale, next_cue_left_edge - marker_loc, 4*scale);
set_source_rgba (cr, color);
cairo_fill (cr);
}
// draw the Cue
if (cue_index!=CueRecord::stop_all) { //regular cues are a circle
cairo_arc(cr, marker_loc, y_center, (h/2), 0, 2*M_PI);
cairo_set_source_rgb (cr, 0, 0, 0); //black
cairo_fill (cr);
cairo_arc(cr, marker_loc, y_center, (h/2)-1*scale, 0, 2*M_PI);
set_source_rgba (cr, color);
cairo_fill (cr);
} else { //'Stop' cues are a square
float size = h- 4*scale;
cairo_rectangle(cr, marker_loc - (size/2), y_center-(size/2), size, size);
cairo_set_source_rgb (cr, 0, 0, 0); //black
cairo_fill (cr);
size -= 1*scale;
cairo_rectangle(cr, marker_loc - (size/2), y_center-(size/2), size, size);
set_source_rgba (cr, color);
cairo_fill (cr);
}
//draw cue letter
if (cue_index!=CueRecord::stop_all) {
_layout->set_text (cue_marker_name (cue_index));
cairo_set_source_rgb (cr, 0, 0, 0); //black
cairo_move_to (cr, marker_loc, y_center); //move to center of circle
int tw, th;
_layout->get_pixel_size (tw, th);
cairo_rel_move_to (cr, -tw/2, -th/2); //move to top-left of text
pango_cairo_show_layout (cr, _layout->gobj());
}
return marker_right_edge;
}
int
MiniTimeline::draw_edge (cairo_t* cr, int x0, int x1, bool left, const std::string& label, bool& prelight)
{
const double scale = UIConfiguration::instance ().get_ui_scale ();
int h = _marker_height - 4*scale;
int w2 = (h - 1) / 4;
const int y = PADDING;
const double dy = (0.5*h); //half the triangle pointer's height
const double yc = dy;
bool with_label;
int lw, lh, lx;
_layout->set_text (label);
_layout->get_pixel_size (lw, lh);
double px, dx;
if (left) {
if (x0 + 2 * w2 + lw + 2 < x1) {
x1 = std::min (x1, x0 + 2 * w2 + lw + 2);
with_label = true;
} else {
x1 = std::min (x1, x0 + 2 * w2);
with_label = false;
}
px = x0;
dx = 2 * w2;
lx = x0 + dx;
} else {
if (x1 - 2 * w2 - lw - 2 > x0) {
x0 = std::max (x0, x1 - 2 * w2 - lw - 2);
with_label = true;
} else {
x0 = std::max (x0, x1 - 2 * w2);
with_label = false;
}
px = x1;
dx = -2 * w2;
lx = x1 + dx - lw - 2;
}
if (x1 - x0 < 2 * w2) {
return left ? x0 : x1;
}
if (_pointer_y >= 0 && _pointer_y <= y + h && _pointer_x >= x0 && _pointer_x <= x1) {
prelight = true;
}
uint32_t color = UIConfiguration::instance().color (
prelight ? "entered marker" : "location marker");
double r, g, b, a;
Gtkmm2ext::color_to_rgba (color, r, g, b, a);
if (with_label) {
const int y = PADDING;
cairo_save (cr);
cairo_rectangle (cr, lx, y, lw + 2, h);
set_source_rgba (cr, color);
cairo_fill_preserve (cr);
cairo_clip (cr);
// marker label
cairo_move_to (cr, lx + 1, y + .5 * (h - lh));
cairo_set_source_rgb (cr, 0, 0, 0); //black text
pango_cairo_show_layout (cr, _layout->gobj());
cairo_restore (cr);
}
// draw arrow
cairo_move_to (cr, px - .5*scale, PADDING + yc - .5*scale);
cairo_rel_line_to (cr, dx , dy);
cairo_rel_line_to (cr, 0, -2. * dy);
cairo_close_path (cr);
set_source_rgba (cr, color);
cairo_set_line_width (cr, 1.0);
cairo_stroke_preserve (cr);
cairo_fill (cr);
return left ? x1 : x0;
}
struct LocationMarker {
LocationMarker (int idx, const std::string& l, Temporal::timepos_t const & w)
: cue_index(idx), label (l), when (w) {}
int cue_index;
std::string label;
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Temporal::timepos_t when;
};
struct LocationMarkerSort {
bool operator() (const LocationMarker& a, const LocationMarker& b) {
return (a.when < b.when);
}
};
void
MiniTimeline::render (Cairo::RefPtr<Cairo::Context> const& ctx, cairo_rectangle_t*)
{
cairo_t* cr = ctx->cobj();
// TODO cache, set_colors()
Gtkmm2ext::Color base = UIConfiguration::instance().color ("ruler base");
Gtkmm2ext::Color text = UIConfiguration::instance().color ("ruler text");
const double scale = UIConfiguration::instance ().get_ui_scale ();
if (_n_labels == 0) {
return;
}
cairo_push_group (cr);
const int width = get_width ();
const int height = get_height ();
Gtkmm2ext::rounded_rectangle (cr, 0, 0, width, height, 4);
Gtkmm2ext::set_source_rgba(cr, base);
cairo_fill (cr);
Gtkmm2ext::rounded_rectangle (cr, PADDING, PADDING, width - PADDING - PADDING, height - PADDING - PADDING, 4);
cairo_clip (cr);
if (_session == 0) {
cairo_pop_group_to_source (cr);
cairo_paint (cr);
return;
}
/* time */
const samplepos_t phead = _last_update_sample; //playhead location
const samplepos_t lower = (std::max ((samplepos_t)0, (phead - _time_span_samples)) / _time_granularity) * _time_granularity;
int dot_left = width * .5 + (lower - phead) * _px_per_sample;
for (int i = 0; i < 2 + _n_labels; ++i) {
samplepos_t when = lower + i * _time_granularity;
/* in BBT, we should round to the nearest bar */
if (_clock_mode == AudioClock::BBT) {
Temporal::TempoMap::SharedPtr tmap (Temporal::TempoMap::use());
timepos_t rounded = timepos_t (tmap->quarters_at (tmap->round_to_bar (tmap->bbt_at (timepos_t(when)))));
when = tmap->sample_at(rounded);
}
double xpos = width * .5 + (when - phead) * _px_per_sample;
// TODO round to nearest display TC in +/- 1px
// prefer to display BBT |0 or .0
int lw, lh;
format_time (when);
_layout->get_pixel_size (lw, lh);
int x0 = xpos - lw / 2.0;
int y0 = height - PADDING - _time_height;
draw_dots (cr, dot_left, x0, y0 + _time_height * .5, text);
cairo_move_to (cr, x0, y0);
Gtkmm2ext::set_source_rgba(cr, text);
pango_cairo_show_layout (cr, _layout->gobj());
dot_left = x0 + lw;
}
draw_dots (cr, dot_left, width, height - PADDING - _time_height * .5, text);
/* playhead beneath locations */
int xc = width * 0.5f;
cairo_set_line_width (cr, 1.0);
double r,g,b,a; Gtkmm2ext::color_to_rgba(_phead_color, r,g,b,a);
cairo_set_source_rgb (cr, r,g,b); // playhead color
cairo_move_to (cr, xc + .5, 0);
cairo_rel_line_to (cr, 0, height);
cairo_stroke (cr);
cairo_move_to (cr, xc + .5, height);
cairo_rel_line_to (cr, -3, 0);
cairo_rel_line_to (cr, 3, -4);
cairo_rel_line_to (cr, 3, 4);
cairo_close_path (cr);
cairo_fill (cr);
/* locations */
samplepos_t left_edge_samples = std::max ((samplepos_t)0, (phead - _time_span_samples));
samplepos_t right_edge_samples = phead + _time_span_samples;
int tw, th;
_layout->set_text (X_("Marker@"));
_layout->get_pixel_size (tw, th);
_marker_height = th + 2;
assert (_marker_height > 4);
const int marker_width = (_marker_height - 1) / 4;
left_edge_samples -= marker_width / _px_per_sample;
right_edge_samples += marker_width / _px_per_sample;
std::vector<LocationMarker> lm;
const Locations::LocationList& ll (_session->locations ()->list ());
for (Locations::LocationList::const_iterator l = ll.begin(); l != ll.end(); ++l) {
if ((*l)->is_session_range ()) {
lm.push_back (LocationMarker(-1, _("start"), (*l)->start ()));
lm.push_back (LocationMarker(-1, _("end"), (*l)->end ()));
continue;
}
if (!(*l)->is_mark () || (*l)->name().substr (0, 4) == "xrun") {
continue;
}
int cue_idx = (*l)->is_cue_marker () ? (*l)->cue_id() : -1;
lm.push_back (LocationMarker(cue_idx, (*l)->name(), (*l)->start ()));
}
_jumplist.clear ();
LocationMarkerSort location_marker_sort;
std::sort (lm.begin(), lm.end(), location_marker_sort);
std::vector<LocationMarker>::const_iterator outside_left_marker = lm.end();
std::vector<LocationMarker>::const_iterator outside_right_marker = lm.end();
int rightmost_marker_right_edge = width * .5 + marker_width;
int id = 0;
int leftmost_marker_left_edge = width;
/* calculate positions of cue markers immediately before and inside my width*/
int prior_cue_pos = width;
int prior_cue_idx = -1;
int first_shown_cue_pos = width;
for (std::vector<LocationMarker>::const_iterator l = lm.begin(); l != lm.end(); l++) {
if ((*l).cue_index >=0 ) {
const samplepos_t when = (*l).when.samples();
int cue_pos = floor (width * .5 + (when - phead) * _px_per_sample);
if (cue_pos < 0) {
prior_cue_pos = cue_pos;
prior_cue_idx = (*l).cue_index;
} else if (cue_pos < width) {
first_shown_cue_pos = cue_pos;
break;
} else {
break;
}
}
}
/* if there is a cue off-window immediately to the left, we need to draw its bar to show that Cues are continuous */
if (prior_cue_pos < 0 && prior_cue_idx != INT32_MAX) {
uint32_t color = UIConfiguration::instance().color ("location marker");
CueBehavior cb (_session->config.get_cue_behavior());
if (!(cb & ARDOUR::FollowCues)) {
color = Gtkmm2ext::HSV(color).darker(0.5).color();
};
int y_center = PADDING + _marker_height + 2*scale + _marker_height/2;
cairo_rectangle (cr, 0, y_center-2*scale, first_shown_cue_pos, 4*scale);
set_source_rgba (cr, color);
cairo_fill (cr);
}
/* draw the location and cue markers */
for (std::vector<LocationMarker>::const_iterator l = lm.begin(); l != lm.end(); ++id) {
const std::string& label = (*l).label;
const int cue_index = (*l).cue_index;
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const samplepos_t when = (*l).when.samples();
if (when < left_edge_samples && cue_index==-1) {
outside_left_marker = l;
++l;
continue;
}
if (when > right_edge_samples && cue_index==-1) {
outside_right_marker = l;
break;
}
int marker_loc = floor (width * .5 + (when - phead) * _px_per_sample);
//peek forward to set our marker's right-side limit
int next_marker_left_edge = width;
std::vector<LocationMarker>::const_iterator peek = l;
for (peek++; peek != lm.end(); peek++) {
if ((*peek).cue_index == -1) {
next_marker_left_edge = floor (width * .5 + ((*peek).when.samples() - phead) * _px_per_sample) - 1 - marker_width;
break;
}
}
//peek forward to set our cue's right side limit
int next_cue_left_edge = width;
peek = l;
for (peek++; peek != lm.end(); peek++) {
if ((*peek).cue_index >= 0) {
next_cue_left_edge = floor (width * .5 + ((*peek).when.samples() - phead) * _px_per_sample) - 1 - marker_width;
break;
}
}
//draw the mark
if (when > left_edge_samples) {
bool prelight = false;
int marker_left_edge = marker_loc - marker_width/2;
int marker_right_edge = 0;
if (cue_index >= 0) {
marker_right_edge = draw_cue (cr, marker_loc, next_cue_left_edge, width, cue_index, prelight);
} else {
marker_right_edge = draw_mark (cr, marker_loc, next_marker_left_edge, label, prelight);
leftmost_marker_left_edge = std::min(marker_left_edge, leftmost_marker_left_edge);
rightmost_marker_right_edge = std::max (marker_right_edge, rightmost_marker_right_edge);
}
_jumplist.push_back (JumpRange (marker_left_edge, marker_right_edge, when, prelight));
}
l++;
}
if (outside_left_marker != lm.end ()) {
if ( leftmost_marker_left_edge > 3 * marker_width) {
int x0 = PADDING + 1;
int x1 = leftmost_marker_left_edge;
bool prelight = false;
x1 = draw_edge (cr, x0, x1, true, (*outside_left_marker).label, prelight);
if (x0 != x1) {
_jumplist.push_back (JumpRange (x0, x1, (*outside_left_marker).when.samples(), prelight));
rightmost_marker_right_edge = std::max (x1, rightmost_marker_right_edge);
}
}
}
if (outside_right_marker != lm.end ()) {
if (rightmost_marker_right_edge + PADDING < width - 3 * marker_width) {
int x0 = rightmost_marker_right_edge;
int x1 = width - PADDING;
bool prelight = false;
x0 = draw_edge (cr, x0, x1, false, (*outside_right_marker).label, prelight);
if (x0 != x1) {
_jumplist.push_back (JumpRange (x0, x1, (*outside_right_marker).when.samples(), prelight));
}
}
}
cairo_pop_group_to_source (cr);
cairo_paint (cr);
}
void
MiniTimeline::build_minitl_context_menu ()
{
using namespace Gtk;
using namespace Gtk::Menu_Helpers;
assert (_session);
const samplecnt_t time_span = _session->config.get_minitimeline_span ();
_minitl_context_menu = new Gtk::Menu();
MenuList& items = _minitl_context_menu->items();
// ideally this would have a heading (or rather be a sub-menu to "Visible Time")
std::map<samplecnt_t, std::string> spans;
spans[30] = _("30 sec");
spans[60] = _("1 min");
spans[120] = _("2 mins");
spans[300] = _("5 mins");
spans[600] = _("10 mins");
spans[1200] = _("20 mins");
RadioMenuItem::Group span_group;
for (std::map<samplecnt_t, std::string>::const_iterator i = spans.begin (); i != spans.end (); ++i) {
items.push_back (RadioMenuElem (span_group, i->second, sigc::bind (sigc::mem_fun (*this, &MiniTimeline::set_span), i->first)));
if (time_span == i->first) {
static_cast<RadioMenuItem*>(&items.back())->set_active ();
}
}
}
bool
MiniTimeline::on_button_press_event (GdkEventButton *ev)
{
if (Gtkmm2ext::Keyboard::is_context_menu_event (ev)) {
if (_session) {
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if (_minitl_context_menu == 0) {
build_minitl_context_menu ();
}
_minitl_context_menu->popup (ev->button, ev->time);
}
return true;
}
return true;
}
bool
MiniTimeline::on_button_release_event (GdkEventButton *ev)
{
if (!_session) { return true; }
if (_session->actively_recording ()) { return true; }
/* check that the release is still inside the timeline */
if (ev->y < 0 || ev->y > get_height () || ev->x < 0 || ev->x > get_width ()) {
return true;
}
/* check whether any marker was prelighted; if so, that's where the user will expect to jump */
for (JumpList::const_iterator i = _jumplist.begin (); i != _jumplist.end(); ++i) {
if (i->prelight) {
_session->request_locate (i->to);
return true;
}
}
if (ev->button == 1) {
samplepos_t when = _last_update_sample + (ev->x - get_width() * .5) / _px_per_sample;
_session->request_locate (std::max ((samplepos_t)0, when));
}
return true;
}
bool
MiniTimeline::on_motion_notify_event (GdkEventMotion *ev)
{
if (!_session) { return true; }
if (_session->actively_recording ()) { return true; }
_pointer_x = ev->x;
_pointer_y = ev->y;
bool need_expose = false;
for (JumpList::const_iterator i = _jumplist.begin (); i != _jumplist.end(); ++i) {
if (i->left < ev->x && ev->x < i->right && ev->y <= PADDING + _marker_height*3) {
if (!(*i).prelight) {
need_expose = true;
break;
}
} else {
if ((*i).prelight) {
need_expose = true;
break;
}
}
}
if (need_expose) {
update_minitimeline ();
}
return true;
}
bool
MiniTimeline::on_leave_notify_event (GdkEventCrossing *ev)
{
CairoWidget::on_leave_notify_event (ev);
_pointer_x = _pointer_y = -1;
for (JumpList::const_iterator i = _jumplist.begin (); i != _jumplist.end(); ++i) {
if ((*i).prelight) {
update_minitimeline ();
break;
}
}
return true;
}
bool
MiniTimeline::on_scroll_event (GdkEventScroll *ev)
{
if (!_session) { return true; }
if (_session->actively_recording ()) { return true; }
const samplecnt_t time_span = _session->config.get_minitimeline_span ();
samplepos_t when = _session->audible_sample ();
double scale = time_span / 60.0;
if (ev->state & Gtkmm2ext::Keyboard::GainFineScaleModifier) {
if (ev->state & Gtkmm2ext::Keyboard::GainExtraFineScaleModifier) {
scale = 0.1;
} else {
scale = 0.5;
}
}
switch (ev->direction) {
case GDK_SCROLL_UP:
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case GDK_SCROLL_RIGHT:
when += scale * _session->nominal_sample_rate ();
break;
case GDK_SCROLL_DOWN:
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case GDK_SCROLL_LEFT:
when -= scale * _session->nominal_sample_rate ();
break;
default:
return true;
break;
}
_session->request_locate (std::max ((samplepos_t)0, when));
return true;
}