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/* Copyright (c) 2012-2015 Stanislaw Halik <sthalik@misaki.pl>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*/
/*
* this file appeared originally in facetracknoir, was rewritten completely
* following opentrack fork.
*
* originally written by Wim Vriend.
*/
#include "compat/sleep.hpp"
#include "compat/util.hpp"
#include "tracker.h"
#include <cmath>
#include <algorithm>
#include <cstdio>
using namespace euler;
using namespace gui_tracker_impl;
constexpr double Tracker::r2d;
constexpr double Tracker::d2r;
Tracker::Tracker(Mappings& m, SelectedLibraries& libs, TrackLogger& logger) :
m(m),
libs(libs),
logger(logger),
backlog_time(0),
tracking_started(false)
{
}
Tracker::~Tracker()
{
set(f_should_quit, true);
wait();
}
Tracker::rmat Tracker::get_camera_offset_matrix(double c)
{
const double off[] =
{
d2r * c * (double)-s.camera_yaw,
d2r * c * (double)-s.camera_pitch,
d2r * c * (double)-s.camera_roll
};
return euler::euler_to_rmat(off);
}
double Tracker::map(double pos, Map& axis)
{
bool altp = (pos < 0) && axis.opts.altp;
axis.spline_main.set_tracking_active( !altp );
axis.spline_alt.set_tracking_active( altp );
auto& fc = altp ? axis.spline_alt : axis.spline_main;
return double(fc.get_value(pos));
}
void Tracker::t_compensate(const rmat& rmat, const euler_t& xyz, euler_t& output,
bool disable_tx, bool disable_ty, bool disable_tz)
{
enum { tb_Z, tb_X, tb_Y };
// TY is really yaw axis. need swapping accordingly.
// sign changes are due to right-vs-left handedness of coordinate system used
const euler_t ret = rmat * euler_t(xyz(TZ), -xyz(TX), -xyz(TY));
if (disable_tz)
output(TZ) = xyz(TZ);
else
output(TZ) = ret(tb_Z);
if (disable_ty)
output(TY) = xyz(TY);
else
output(TY) = -ret(tb_Y);
if (disable_tx)
output(TX) = xyz(TX);
else
output(TX) = -ret(tb_X);
}
#include "compat/nan.hpp"
static inline double elide_nan(double value, double def)
{
if (nanp(value))
{
if (nanp(def))
return 0;
return def;
}
return value;
}
template<int u, int w>
static bool is_nan(const dmat<u,w>& r)
{
for (int i = 0; i < u; i++)
for (int j = 0; j < w; j++)
if (nanp(r(i, j)))
return true;
return false;
}
constexpr double Tracker::c_mult;
constexpr double Tracker::c_div;
void Tracker::logic()
{
using namespace euler;
logger.write_dt();
logger.reset_dt();
const bool center_ordered = get(f_center) && tracking_started;
set(f_center, false);
const bool own_center_logic = center_ordered && libs.pTracker->center();
Pose value, raw;
for (int i = 0; i < 6; i++)
{
auto& axis = m(i);
int k = axis.opts.src;
if (k < 0 || k >= 6)
value(i) = 0;
else
value(i) = newpose(k);
raw(i) = newpose(i);
}
// hatire, udp, and freepie trackers can mess up here
for (unsigned i = 3; i < 6; i++)
{
using std::fmod;
using std::copysign;
using std::fabs;
const double x = value(i);
if (fabs(x) - 1e-2 > 180)
value(i) = fmod(x + copysign(180, x), 360) - copysign(180, x);
else
value(i) = clamp(x, -180, 180);
}
logger.write_pose(raw); // raw
bool nanp = is_nan(raw) | is_nan(value);
// TODO split this function, it's too big
{
euler_t tmp = d2r * euler_t(&value[Yaw]);
scaled_rotation.rotation = euler_to_rmat(c_div * tmp);
real_rotation.rotation = euler_to_rmat(tmp);
}
scaled_rotation.camera = get_camera_offset_matrix(c_div);
real_rotation.camera = get_camera_offset_matrix(1);
nanp |= is_nan(value) || is_nan(scaled_rotation.rotation) || is_nan(real_rotation.rotation);
if (!tracking_started)
{
using std::fabs;
for (int i = 0; i < 6; i++)
if (fabs(newpose(i)) != 0)
{
tracking_started = true;
break;
}
tracking_started &= !nanp;
if (tracking_started && s.center_at_startup)
{
set(f_center, true);
}
}
if (center_ordered)
{
if (libs.pFilter)
libs.pFilter->center();
if (own_center_logic)
{
scaled_rotation.rotation = scaled_rotation.camera.t();
real_rotation.rotation = real_rotation.camera.t();
scaled_rotation.rotation = rmat::eye();
real_rotation.rotation = rmat::eye();
}
else
{
real_rotation.rot_center = real_rotation.rotation.t();
scaled_rotation.rot_center = scaled_rotation.rotation.t();
}
t_center = euler_t(&value(TX));
}
{
rmat rotation;
switch (s.center_method)
{
// inertial
case 0:
default:
//scaled_rotation.rotation = scaled_rotation
rotation = scaled_rotation.rot_center * scaled_rotation.rotation;
break;
// camera
case 1:
rotation = scaled_rotation.rotation * scaled_rotation.rot_center;
break;
}
euler_t rot = r2d * c_mult * rmat_to_euler(rotation);
euler_t pos = euler_t(&value[TX]) - t_center;
for (int i = 0; i < 3; i++)
{
// don't invert after t_compensate
// inverting here doesn't break centering
if (m(i+3).opts.invert)
rot(i) = -rot(i);
if (m(i).opts.invert)
pos(i) = -pos(i);
}
t_compensate(real_rotation.camera.t(), pos, pos, false, false, false);
for (int i = 0; i < 3; i++)
{
value(i) = pos(i);
value(i+3) = rot(i);
}
}
logger.write_pose(value); // "corrected" - after various transformations to account for camera position
nanp |= is_nan(value);
{
{
Pose tmp(value);
// nan/inf values will corrupt filter internal state
if (!nanp && libs.pFilter)
libs.pFilter->filter(tmp, value);
logger.write_pose(value); // "filtered"
}
}
nanp |= is_nan(value);
{
euler_t neck, rel;
if (s.neck_enable)
{
double ny = s.neck_y, nz = -s.neck_z;
if (ny != 0 || nz != 0)
{
const rmat R = euler_to_rmat(
euler_t(value(Yaw) * d2r,
value(Pitch) * d2r,
value(Roll) * d2r));
euler_t xyz(0, ny, nz);
t_compensate(R, xyz, xyz, false, false, false);
neck(TX) = xyz(TX);
neck(TY) = xyz(TY) - ny;
neck(TZ) = xyz(TZ) - nz;
}
}
// CAVEAT rotation only, due to tcomp
for (int i = 3; i < 6; i++)
value(i) = map(value(i), m(i));
if (get(f_zero))
for (int i = 0; i < 6; i++)
value(i) = 0;
const bool reltrans = !get(f_tcomp_disabled);
if (s.tcomp_p && reltrans)
{
const double tcomp_c[] =
{
double(!s.tcomp_disable_src_yaw),
double(!s.tcomp_disable_src_pitch),
double(!s.tcomp_disable_src_roll),
};
const rmat R = euler_to_rmat(
euler_t(value(Yaw) * d2r * tcomp_c[0],
value(Pitch) * d2r * tcomp_c[1],
value(Roll) * d2r * tcomp_c[2]));
euler_t ret;
t_compensate(R,
euler_t(value(TX), value(TY), value(TZ)),
ret,
s.tcomp_disable_tx,
s.tcomp_disable_ty,
s.tcomp_disable_tz);
for (int i = 0; i < 3; i++)
rel(i) = ret(i) - value(i);
}
// don't t_compensate existing compensated values
for (int i = 0; i < 3; i++)
value(i) += neck(i) + rel(i);
nanp |= is_nan(neck) | is_nan(rel) | is_nan(value);
}
// CAVEAT translation only, due to tcomp
for (int i = 0; i < 3; i++)
value(i) = map(value(i), m(i));
if (nanp)
{
QMutexLocker foo(&mtx);
value = output_pose;
raw = raw_6dof;
// for widget last value display
for (int i = 0; i < 6; i++)
(void) map(raw_6dof(i), m(i));
}
// custom zero position
for (int i = 0; i < 6; i++)
value(i) += m(i).opts.zero * (m(i).opts.invert ? -1 : 1);
if (!nanp)
libs.pProtocol->pose(value);
QMutexLocker foo(&mtx);
output_pose = value;
raw_6dof = raw;
logger.write_pose(value); // "mapped"
logger.reset_dt();
logger.next_line();
}
void Tracker::run()
{
setPriority(QThread::HighPriority);
{
static constexpr const char* posechannels[6] = { "TX", "TY", "TZ", "Yaw", "Pitch", "Roll" };
static constexpr const char* datachannels[5] = { "dt", "raw", "corrected", "filtered", "mapped" };
logger.write(datachannels[0]);
char buffer[128];
for (unsigned j = 1; j < 5; ++j)
{
for (unsigned i = 0; i < 6; ++i)
{
std::sprintf(buffer, "%s%s", datachannels[j], posechannels[i]);
logger.write(buffer);
}
}
logger.next_line();
}
logger.reset_dt();
t.start();
while (!get(f_should_quit))
{
Pose tmp;
libs.pTracker->data(tmp);
if (get(f_enabled))
for (int i = 0; i < 6; i++)
newpose[i] = elide_nan(tmp(i), newpose(i));
logic();
static constexpr long const_sleep_us = 4000;
const long elapsed_usecs = t.elapsed_usecs();
t.start();
backlog_time += elapsed_usecs - const_sleep_us;
if (std::fabs(backlog_time) > 3000 * 1000)
{
qDebug() << "tracker: backlog interval overflow" << backlog_time;
backlog_time = 0;
}
const unsigned sleep_time = unsigned(std::round(clamp((const_sleep_us - backlog_time)/1000., 0, const_sleep_us*2.5/1000)));
portable::sleep(sleep_time);
}
{
// filter may inhibit exact origin
Pose p;
libs.pProtocol->pose(p);
}
for (int i = 0; i < 6; i++)
{
m(i).spline_main.set_tracking_active(false);
m(i).spline_alt.set_tracking_active(false);
}
}
void Tracker::get_raw_and_mapped_poses(double* mapped, double* raw) const
{
QMutexLocker foo(&const_cast<Tracker&>(*this).mtx);
for (int i = 0; i < 6; i++)
{
raw[i] = raw_6dof(i);
mapped[i] = output_pose(i);
}
}
void bits::set(bits::flags flag_, bool val_)
{
const unsigned flag = unsigned(flag_);
const unsigned val = unsigned(val_);
for (;;)
{
unsigned b_(b);
if (b.compare_exchange_weak(b_,
unsigned((b_ & ~flag) | (flag * val)),
std::memory_order_seq_cst,
std::memory_order_seq_cst))
break;
}
}
void bits::negate(bits::flags flag_)
{
const unsigned flag = unsigned(flag_);
for (;;)
{
unsigned b_(b);
if (b.compare_exchange_weak(b_,
b_ ^ flag,
std::memory_order_seq_cst,
std::memory_order_seq_cst))
break;
}
}
bool bits::get(bits::flags flag)
{
return !!(b & flag);
}
bits::bits() : b(0u)
{
set(f_center, true);
set(f_enabled, true);
set(f_zero, false);
set(f_tcomp_disabled, false);
set(f_should_quit, false);
}
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