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livetrax/gtk2_ardour/panner2d.cc

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/*
Copyright (C) 2002 Paul Davis
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., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <cmath>
#include <climits>
#include <string.h>
#include <cairo.h>
#include <gtkmm/menu.h>
#include "gtkmm2ext/gtk_ui.h"
#include "pbd/error.h"
#include "pbd/cartesian.h"
#include "ardour/panner.h"
#include "ardour/panner_shell.h"
#include "ardour/pannable.h"
#include "ardour/speakers.h"
#include "canvas/colors.h"
#include "panner2d.h"
#include "keyboard.h"
#include "gui_thread.h"
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#include "rgb_macros.h"
#include "utils.h"
#include "public_editor.h"
#include "ui_config.h"
#include "i18n.h"
using namespace std;
using namespace Gtk;
using namespace ARDOUR;
using namespace ARDOUR_UI_UTILS;
using namespace PBD;
using Gtkmm2ext::Keyboard;
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Panner2d::ColorScheme Panner2d::colors;
bool Panner2d::have_colors = false;
static const int large_size_threshold = 100;
static const int large_border_width = 25;
static const int small_border_width = 8;
Panner2d::Target::Target (const AngularVector& a, const char *txt)
: position (a)
, text (txt)
, _selected (false)
{
}
Panner2d::Target::~Target ()
{
}
void
Panner2d::Target::set_text (const char* txt)
{
text = txt;
}
Panner2d::Panner2d (boost::shared_ptr<PannerShell> p, int32_t h)
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: panner_shell (p)
, position (AngularVector (0.0, 0.0), "")
, width (0)
, height (h)
, last_width (0)
, have_elevation (false)
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, _send_mode (false)
{
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if (!have_colors) {
set_colors ();
have_colors = true;
}
UIConfiguration::instance().ColorsChanged.connect (sigc::mem_fun (*this, &Panner2d::color_handler));
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panner_shell->Changed.connect (panshell_connections, invalidator (*this), boost::bind (&Panner2d::handle_state_change, this), gui_context());
panner_shell->panner()->SignalPositionChanged.connect (panner_connections, invalidator(*this), boost::bind (&Panner2d::handle_position_change, this), gui_context());
drag_target = 0;
set_events (Gdk::BUTTON_PRESS_MASK|Gdk::BUTTON_RELEASE_MASK|Gdk::POINTER_MOTION_MASK);
handle_state_change ();
handle_position_change ();
}
Panner2d::~Panner2d()
{
for (Targets::iterator i = speakers.begin(); i != speakers.end(); ++i) {
delete *i;
}
}
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void
Panner2d::set_colors ()
{
// TODO get all colors from theme, resolve dups
colors.background = UIConfiguration::instance().color ("mono panner bg");
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colors.crosshairs = 0x4884a9ff; // 0.282, 0.517, 0.662, 1.0
colors.signalcircle_border = 0x84c5e1ff; // 0.517, 0.772, 0.882, 1.0
colors.signalcircle = 0x4884a9ff; // 0.282, 0.517, 0.662, 1.0 // also used with a = 0.9
colors.diffusion = 0x4884a973; // 0.282, 0.517, 0.662, 0.45
colors.diffusion_inv = 0xff6b6b73; // 1.0, 0.419, 0.419, 0.45
colors.pos_outline = 0xffe7e7d9; // 1.0, 0.905, 0.905, 0.85
colors.pos_fill = 0xff6b6bd9; // 1.0, 0.419, 0.419, 0.85
colors.signal_outline = 0x84c5e1cc; // 0.517, 0.772, 0.882, 0.8
colors.signal_fill = 0x4884a9bf; // 0.282, 0.517, 0.662, 0.75
colors.speaker_fill = 0x4884a9ff; // 0.282, 0.517, 0.662, 1.0
colors.text = 0x84c5e1e6; // 0.517, 0.772, 0.882, 0.9
}
void
Panner2d::color_handler ()
{
set_colors ();
queue_draw ();
}
void
Panner2d::reset (uint32_t n_inputs)
{
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uint32_t nouts = panner_shell->panner()->out().n_audio();
/* signals */
while (signals.size() < n_inputs) {
add_signal ("", AngularVector());
}
if (signals.size() > n_inputs) {
for (uint32_t i = signals.size(); i < n_inputs; ++i) {
delete signals[i];
}
signals.resize (n_inputs);
}
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label_signals ();
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for (uint32_t i = 0; i < n_inputs; ++i) {
signals[i]->position = panner_shell->panner()->signal_position (i);
}
/* add all outputs */
while (speakers.size() < nouts) {
add_speaker (AngularVector());
}
if (speakers.size() > nouts) {
for (uint32_t i = nouts; i < speakers.size(); ++i) {
delete speakers[i];
}
speakers.resize (nouts);
}
for (Targets::iterator x = speakers.begin(); x != speakers.end(); ++x) {
(*x)->visible = false;
}
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vector<Speaker>& the_speakers (panner_shell->panner()->get_speakers()->speakers());
for (uint32_t n = 0; n < nouts; ++n) {
char buf[16];
snprintf (buf, sizeof (buf), "%d", n+1);
speakers[n]->set_text (buf);
speakers[n]->position = the_speakers[n].angles();
speakers[n]->visible = true;
}
queue_draw ();
}
void
Panner2d::on_size_allocate (Gtk::Allocation& alloc)
{
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width = alloc.get_width();
height = alloc.get_height();
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if (height > large_size_threshold) {
border = large_border_width;
} else {
border = small_border_width;
}
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radius = min (width, height);
radius -= border;
radius /= 2;
radius = rint(radius) + .5;
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hoffset = max ((double) (width - height), border);
voffset = max ((double) (height - width), border);
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hoffset = rint(hoffset / 2.0);
voffset = rint(voffset / 2.0);
DrawingArea::on_size_allocate (alloc);
}
int
Panner2d::add_signal (const char* text, const AngularVector& a)
{
Target* signal = new Target (a, text);
signals.push_back (signal);
signal->visible = true;
return 0;
}
int
Panner2d::add_speaker (const AngularVector& a)
{
Target* speaker = new Target (a, "");
speakers.push_back (speaker);
speaker->visible = true;
queue_draw ();
return speakers.size() - 1;
}
void
Panner2d::handle_state_change ()
{
panner_connections.drop_connections();
if (!panner_shell->panner()) {
return;
}
panner_shell->panner()->SignalPositionChanged.connect (panner_connections, invalidator(*this), boost::bind (&Panner2d::handle_position_change, this), gui_context());
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set<Evoral::Parameter> params = panner_shell->panner()->what_can_be_automated();
set<Evoral::Parameter>::iterator p = params.find(PanElevationAutomation);
bool elev = have_elevation;
have_elevation = (p == params.end()) ? false : true;
if (elev != have_elevation) {
handle_position_change();
}
queue_draw ();
}
void
Panner2d::label_signals ()
{
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uint32_t sz = signals.size();
switch (sz) {
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case 0:
break;
case 1:
signals[0]->set_text ("");
break;
case 2:
signals[0]->set_text (S_("Panner|L"));
signals[1]->set_text (S_("Panner|R"));
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break;
default:
for (uint32_t i = 0; i < sz; ++i) {
char buf[64];
snprintf (buf, sizeof (buf), "%" PRIu32, i + 1);
signals[i]->set_text (buf);
}
break;
}
}
void
Panner2d::handle_position_change ()
{
uint32_t n;
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double w = panner_shell->pannable()->pan_width_control->get_value();
position.position = AngularVector (panner_shell->pannable()->pan_azimuth_control->get_value() * 360.0,
panner_shell->pannable()->pan_elevation_control->get_value() * 90.0);
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for (uint32_t i = 0; i < signals.size(); ++i) {
signals[i]->position = panner_shell->panner()->signal_position (i);
}
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if (w * last_width <= 0) {
/* changed sign */
label_signals ();
}
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last_width = w;
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vector<Speaker>& the_speakers (panner_shell->panner()->get_speakers()->speakers());
for (n = 0; n < speakers.size(); ++n) {
speakers[n]->position = the_speakers[n].angles();
}
queue_draw ();
}
void
Panner2d::move_signal (int which, const AngularVector& a)
{
if (which >= int (speakers.size())) {
return;
}
speakers[which]->position = a;
queue_draw ();
}
Panner2d::Target *
Panner2d::find_closest_object (gdouble x, gdouble y, bool& is_signal)
{
Target *closest = 0;
Target *candidate;
float distance;
float best_distance = FLT_MAX;
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CartesianVector c;
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/* start with the position itself */
PBD::AngularVector dp = position.position;
if (!have_elevation) dp.ele = 0;
dp.azi = 270 - dp.azi;
dp.cartesian (c);
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cart_to_gtk (c);
best_distance = sqrt ((c.x - x) * (c.x - x) +
(c.y - y) * (c.y - y));
closest = &position;
#if 0 // TODO signal grab -> change width, not position
for (Targets::const_iterator i = signals.begin(); i != signals.end(); ++i) {
candidate = *i;
candidate->position.cartesian (c);
cart_to_gtk (c);
distance = sqrt ((c.x - x) * (c.x - x) +
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(c.y - y) * (c.y - y));
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if (distance < best_distance) {
closest = candidate;
best_distance = distance;
}
}
#endif
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is_signal = true;
if (height > large_size_threshold) {
/* "big" */
if (best_distance > 30) { // arbitrary
closest = 0;
}
} else {
/* "small" */
if (best_distance > 10) { // arbitrary
closest = 0;
}
}
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/* if we didn't find a signal close by, check the speakers */
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if (!closest) {
for (Targets::const_iterator i = speakers.begin(); i != speakers.end(); ++i) {
candidate = *i;
PBD::AngularVector sp = candidate->position;
sp.azi = 270 -sp.azi;
CartesianVector c;
sp.cartesian (c);
cart_to_gtk (c);
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distance = sqrt ((c.x - x) * (c.x - x) +
(c.y - y) * (c.y - y));
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if (distance < best_distance) {
closest = candidate;
best_distance = distance;
}
}
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if (height > large_size_threshold) {
/* "big" */
if (best_distance < 30) { // arbitrary
is_signal = false;
} else {
closest = 0;
}
} else {
/* "small" */
if (best_distance < 10) { // arbitrary
is_signal = false;
} else {
closest = 0;
}
}
}
return closest;
}
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void
Panner2d::set_send_drawing_mode (bool onoff)
{
if (_send_mode != onoff) {
_send_mode = onoff;
queue_draw ();
}
}
bool
Panner2d::on_motion_notify_event (GdkEventMotion *ev)
{
gint x, y;
GdkModifierType state;
if (ev->is_hint) {
gdk_window_get_pointer (ev->window, &x, &y, &state);
} else {
x = (int) floor (ev->x);
y = (int) floor (ev->y);
state = (GdkModifierType) ev->state;
}
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if (ev->state & (GDK_BUTTON1_MASK|GDK_BUTTON2_MASK)) {
did_move = true;
}
return handle_motion (x, y, state);
}
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#define CSSRGBA(CL) \
cairo_set_source_rgba (cr, UINT_RGBA_R_FLT(CL), UINT_RGBA_G_FLT(CL), UINT_RGBA_B_FLT(CL), UINT_RGBA_A_FLT(CL));
#define CSSRGB(CL, A) \
cairo_set_source_rgba (cr, UINT_RGBA_R_FLT(CL), UINT_RGBA_G_FLT(CL), UINT_RGBA_B_FLT(CL), A);
bool
Panner2d::on_expose_event (GdkEventExpose *event)
{
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CartesianVector c;
cairo_t* cr;
bool xsmall = (height <= large_size_threshold);
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const double diameter = radius*2.0;
cr = gdk_cairo_create (get_window()->gobj());
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/* background */
cairo_rectangle (cr, event->area.x, event->area.y, event->area.width, event->area.height);
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uint32_t bg = colors.background;
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if (_send_mode) {
bg = UIConfiguration::instance().color ("send bg");
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}
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if (!panner_shell->bypassed()) {
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CSSRGBA(bg);
} else {
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CSSRGB(bg, 0.2);
}
cairo_fill_preserve (cr);
cairo_clip (cr);
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/* offset to give us some border */
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cairo_translate (cr, hoffset, voffset);
cairo_set_line_width (cr, 1.0);
/* horizontal line of "crosshairs" */
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CSSRGBA(colors.crosshairs);
cairo_move_to (cr, 0.0, radius);
cairo_line_to (cr, diameter, radius);
cairo_stroke (cr);
/* vertical line of "crosshairs" */
cairo_move_to (cr, radius, 0);
cairo_line_to (cr, radius, diameter);
cairo_stroke (cr);
/* the circle on which signals live */
cairo_set_line_width (cr, 1.5);
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CSSRGBA(colors.signalcircle_border);
cairo_arc (cr, radius, radius, radius, 0.0, 2.0 * M_PI);
cairo_stroke (cr);
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for (uint32_t rad = 15; rad < 90; rad += 15) {
cairo_set_line_width (cr, .5 + (float)rad / 150.0);
if (rad == 45) {
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CSSRGBA(colors.signalcircle);
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} else {
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CSSRGB(colors.signalcircle, 0.9);
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}
cairo_new_path (cr);
cairo_arc (cr, radius, radius, radius * sin(M_PI * (float) rad / 180.0), 0, 2.0 * M_PI);
cairo_stroke (cr);
}
if (!panner_shell->bypassed()) {
/* convention top == front ^= azimuth == .5 (same as stereo/mono panners) */
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if (signals.size() > 1) {
/* arc to show "diffusion" */
double width_angle = fabs (panner_shell->pannable()->pan_width_control->get_value()) * 2 * M_PI;
double position_angle = panner_shell->pannable()->pan_azimuth_control->get_value() * 2 * M_PI;
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cairo_save (cr);
cairo_translate (cr, radius, radius);
cairo_rotate (cr, M_PI / 2.0);
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cairo_rotate (cr, position_angle - (width_angle/2.0));
cairo_move_to (cr, 0, 0);
cairo_arc_negative (cr, 0, 0, radius, width_angle, 0.0);
cairo_close_path (cr);
if (panner_shell->pannable()->pan_width_control->get_value() >= 0.0) {
/* normal width */
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CSSRGBA(colors.diffusion);
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} else {
/* inverse width */
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CSSRGBA(colors.diffusion_inv);
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}
cairo_fill (cr);
cairo_restore (cr);
}
double arc_radius;
cairo_select_font_face (cr, "sans", CAIRO_FONT_SLANT_NORMAL, CAIRO_FONT_WEIGHT_NORMAL);
if (xsmall) {
arc_radius = 4.0;
} else {
cairo_set_font_size (cr, 10);
arc_radius = 12.0;
}
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/* draw position */
PBD::AngularVector dp = position.position;
if (!have_elevation) dp.ele = 0;
dp.azi = 270 - dp.azi;
dp.cartesian (c);
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cart_to_gtk (c);
cairo_new_path (cr);
cairo_arc (cr, c.x, c.y, arc_radius + 1.0, 0, 2.0 * M_PI);
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CSSRGBA(colors.pos_fill);
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cairo_fill_preserve (cr);
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CSSRGBA(colors.pos_outline);
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cairo_stroke (cr);
/* signals */
if (signals.size() > 0) {
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for (Targets::iterator i = signals.begin(); i != signals.end(); ++i) {
Target* signal = *i;
if (signal->visible) {
/* TODO check for overlap - multiple src at same position
* -> visualize it properly
*/
PBD::AngularVector sp = signal->position;
if (!have_elevation) sp.ele = 0;
sp.azi += 270.0;
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sp.cartesian (c);
cart_to_gtk (c);
cairo_new_path (cr);
cairo_arc (cr, c.x, c.y, arc_radius, 0, 2.0 * M_PI);
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CSSRGBA(colors.signal_fill);
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cairo_fill_preserve (cr);
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CSSRGBA(colors.signal_outline);
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cairo_stroke (cr);
if (!xsmall && !signal->text.empty()) {
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CSSRGBA(colors.text);
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/* the +/- adjustments are a hack to try to center the text in the circle
* TODO use pango get_pixel_size() -- see mono_panner.cc
*/
if (xsmall) {
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cairo_move_to (cr, c.x - 1, c.y + 1);
} else {
cairo_move_to (cr, c.x - 4, c.y + 4);
}
cairo_show_text (cr, signal->text.c_str());
}
}
}
}
/* speakers */
int n = 0;
for (Targets::iterator i = speakers.begin(); i != speakers.end(); ++i) {
Target *speaker = *i;
char buf[256];
++n;
if (speaker->visible) {
PBD::AngularVector sp = speaker->position;
sp.azi += 270.0;
CartesianVector c;
sp.cartesian (c);
cart_to_gtk (c);
snprintf (buf, sizeof (buf), "%d", n);
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/* stroke out a speaker shape */
cairo_move_to (cr, c.x, c.y);
cairo_save (cr);
cairo_rotate (cr, -(sp.azi/360.0) * (2.0 * M_PI));
if (xsmall) {
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cairo_scale (cr, 0.8, 0.8);
} else {
cairo_scale (cr, 1.2, 1.2);
}
cairo_rel_line_to (cr, 4, -2);
cairo_rel_line_to (cr, 0, -7);
cairo_rel_line_to (cr, 5, +5);
cairo_rel_line_to (cr, 5, 0);
cairo_rel_line_to (cr, 0, 5);
cairo_rel_line_to (cr, -5, 0);
cairo_rel_line_to (cr, -5, +5);
cairo_rel_line_to (cr, 0, -7);
cairo_close_path (cr);
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CSSRGBA(colors.speaker_fill);
cairo_fill (cr);
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cairo_restore (cr);
if (!xsmall) {
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cairo_set_font_size (cr, 16);
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/* move the text in just a bit */
AngularVector textpos (speaker->position.azi + 270.0, speaker->position.ele, 0.85);
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textpos.cartesian (c);
cart_to_gtk (c);
cairo_move_to (cr, c.x, c.y);
cairo_show_text (cr, buf);
}
}
}
}
cairo_destroy (cr);
return true;
}
bool
Panner2d::on_button_press_event (GdkEventButton *ev)
{
GdkModifierType state;
int x;
int y;
bool is_signal;
if (ev->type == GDK_2BUTTON_PRESS && ev->button == 1) {
return false;
}
did_move = false;
switch (ev->button) {
case 1:
case 2:
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x = ev->x - hoffset;
y = ev->y - voffset;
if ((drag_target = find_closest_object (x, y, is_signal)) != 0) {
if (!is_signal) {
panner_shell->panner()->set_position (drag_target->position.azi/360.0);
drag_target = 0;
} else {
drag_target->set_selected (true);
}
}
state = (GdkModifierType) ev->state;
return handle_motion (ev->x, ev->y, state);
break;
default:
break;
}
return false;
}
bool
Panner2d::on_button_release_event (GdkEventButton *ev)
{
gint x, y;
GdkModifierType state;
bool ret = false;
switch (ev->button) {
case 1:
x = (int) floor (ev->x);
y = (int) floor (ev->y);
state = (GdkModifierType) ev->state;
ret = handle_motion (x, y, state);
drag_target = 0;
break;
case 2:
x = (int) floor (ev->x);
y = (int) floor (ev->y);
state = (GdkModifierType) ev->state;
if (Keyboard::modifier_state_contains (state, Keyboard::TertiaryModifier)) {
toggle_bypass ();
ret = true;
} else {
ret = handle_motion (x, y, state);
}
drag_target = 0;
break;
case 3:
break;
}
return ret;
}
gint
Panner2d::handle_motion (gint evx, gint evy, GdkModifierType state)
{
if (drag_target == 0) {
return false;
}
if ((state & (GDK_BUTTON1_MASK|GDK_BUTTON2_MASK)) == 0) {
return false;
}
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evx -= hoffset;
evy -= voffset;
if (state & GDK_BUTTON1_MASK && !(state & GDK_BUTTON2_MASK)) {
CartesianVector c;
bool need_move = false;
drag_target->position.cartesian (c);
cart_to_gtk (c);
if ((evx != c.x) || (evy != c.y)) {
need_move = true;
}
if (need_move) {
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CartesianVector cp (evx, evy, 0.0);
AngularVector av;
gtk_to_cart (cp);
if (!have_elevation) {
clamp_to_circle (cp.x, cp.y);
cp.angular (av);
av.azi = fmod(270 - av.azi, 360);
if (drag_target == &position) {
double degree_fract = av.azi / 360.0;
panner_shell->panner()->set_position (degree_fract);
}
} else {
/* sphere projection */
sphere_project (cp.x, cp.y, cp.z);
double r2d = 180.0 / M_PI;
av.azi = r2d * atan2(cp.y, cp.x);
av.ele = r2d * asin(cp.z);
av.azi = fmod(270 - av.azi, 360);
if (drag_target == &position) {
double azi_fract = av.azi / 360.0;
double ele_fract = av.ele / 90.0;
panner_shell->panner()->set_position (azi_fract);
panner_shell->panner()->set_elevation (ele_fract);
}
}
}
}
return true;
}
bool
Panner2d::on_scroll_event (GdkEventScroll* ev)
{
switch (ev->direction) {
case GDK_SCROLL_UP:
case GDK_SCROLL_RIGHT:
panner_shell->panner()->set_position (panner_shell->pannable()->pan_azimuth_control->get_value() - 1.0/360.0);
break;
case GDK_SCROLL_DOWN:
case GDK_SCROLL_LEFT:
panner_shell->panner()->set_position (panner_shell->pannable()->pan_azimuth_control->get_value() + 1.0/360.0);
break;
}
return true;
}
void
Panner2d::cart_to_gtk (CartesianVector& c) const
{
/* cartesian coordinate space:
center = 0.0
dimension = 2.0 * 2.0
increasing y moves up
so max values along each axis are -1..+1
GTK uses a coordinate space that is:
top left = 0.0
dimension = (radius*2.0) * (radius*2.0)
increasing y moves down
*/
const double diameter = radius*2.0;
c.x = diameter * ((c.x + 1.0) / 2.0);
/* extra subtraction inverts the y-axis to match "increasing y moves down" */
c.y = diameter - (diameter * ((c.y + 1.0) / 2.0));
}
void
Panner2d::gtk_to_cart (CartesianVector& c) const
{
const double diameter = radius*2.0;
c.x = ((c.x / diameter) * 2.0) - 1.0;
c.y = (((diameter - c.y) / diameter) * 2.0) - 1.0;
}
void
Panner2d::sphere_project (double& x, double& y, double& z)
{
double r, r2;
r2 = x * x + y * y;
if (r2 < 1.0) {
z = sqrt (1.0 - r2);
} else {
r = sqrt (r2);
x = x / r;
y = y / r;
z = 0.0;
}
}
void
Panner2d::clamp_to_circle (double& x, double& y)
{
double azi, ele;
double z = 0.0;
double l;
PBD::cartesian_to_spherical (x, y, z, azi, ele, l);
PBD::spherical_to_cartesian (azi, ele, 1.0, x, y, z);
}
void
Panner2d::toggle_bypass ()
{
panner_shell->set_bypassed (!panner_shell->bypassed());
}
Panner2dWindow::Panner2dWindow (boost::shared_ptr<PannerShell> p, int32_t h, uint32_t inputs)
: ArdourWindow (_("Panner (2D)"))
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, widget (p, h)
, bypass_button (_("Bypass"))
, width_adjustment (0, -100, 100, 1, 5, 0)
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, width_spinner (width_adjustment)
{
widget.set_name ("MixerPanZone");
set_title (_("Panner"));
widget.set_size_request (h, h);
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bypass_button.signal_toggled().connect (sigc::mem_fun (*this, &Panner2dWindow::bypass_toggled));
width_spinner.signal_changed().connect (sigc::mem_fun (*this, &Panner2dWindow::width_changed));
p->Changed.connect (panshell_connections, invalidator (*this), boost::bind (&Panner2dWindow::set_bypassed, this), gui_context());
/* needed for the width-spinbox in the main window */
p->PannableChanged.connect (panshell_connections, invalidator (*this), boost::bind (&Panner2dWindow::pannable_handler, this), gui_context());
p->pannable()->pan_width_control->Changed.connect (panvalue_connections, invalidator(*this), boost::bind (&Panner2dWindow::set_width, this), gui_context());
button_box.set_spacing (6);
button_box.pack_start (bypass_button, false, false);
left_side.set_spacing (6);
left_side.pack_start (button_box, false, false);
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Gtk::Label* l = manage (new Label (
p->panner()->describe_parameter(PanWidthAutomation),
Gtk::ALIGN_LEFT, Gtk::ALIGN_CENTER, false));
spinner_box.pack_start (*l, false, false);
spinner_box.pack_start (width_spinner, false, false);
left_side.pack_start (spinner_box, false, false);
l->show ();
bypass_button.show ();
button_box.show ();
width_spinner.show ();
spinner_box.show ();
left_side.show ();
hpacker.set_spacing (6);
hpacker.set_border_width (12);
hpacker.pack_start (widget, false, false);
hpacker.pack_start (left_side, false, false);
hpacker.show ();
add (hpacker);
reset (inputs);
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set_width();
set_bypassed();
widget.show ();
}
void
Panner2dWindow::reset (uint32_t n_inputs)
{
widget.reset (n_inputs);
}
void
Panner2dWindow::bypass_toggled ()
{
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bool view = bypass_button.get_active ();
bool model = widget.get_panner_shell()->bypassed ();
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if (model != view) {
widget.get_panner_shell()->set_bypassed (view);
}
}
void
Panner2dWindow::width_changed ()
{
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float model = widget.get_panner_shell()->pannable()->pan_width_control->get_value();
float view = width_spinner.get_value() / 100.0;
if (model != view) {
widget.get_panner_shell()->panner()->set_width (view);
}
}
void
Panner2dWindow::pannable_handler ()
{
panvalue_connections.drop_connections();
widget.get_panner_shell()->pannable()->pan_width_control->Changed.connect (panvalue_connections, invalidator(*this), boost::bind (&Panner2dWindow::set_width, this), gui_context());
set_width();
}
void
Panner2dWindow::set_bypassed ()
{
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bool view = bypass_button.get_active ();
bool model = widget.get_panner_shell()->bypassed ();
if (model != view) {
bypass_button.set_active(model);
}
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set<Evoral::Parameter> params = widget.get_panner_shell()->panner()->what_can_be_automated();
set<Evoral::Parameter>::iterator p = params.find(PanWidthAutomation);
if (p == params.end()) {
spinner_box.set_sensitive(false);
} else {
spinner_box.set_sensitive(true);
}
}
void
Panner2dWindow::set_width ()
{
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// rounding of spinbox is different from slider -- TODO use slider
float model = (widget.get_panner_shell()->pannable()->pan_width_control->get_value() * 100.0);
float view = (width_spinner.get_value());
if (model != view) {
width_spinner.set_value (model);
}
}
bool
Panner2dWindow::on_key_press_event (GdkEventKey* event)
{
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return relay_key_press (event, &PublicEditor::instance());
}
bool
Panner2dWindow::on_key_release_event (GdkEventKey*)
{
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return true;
}