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/* Copyright (c) 2013, 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.
*/
#include "pose-widget.hpp"
#include "compat/util.hpp"
#include "compat/timer.hpp"
#include "compat/sleep.hpp"
#include <cmath>
#include <algorithm>
#include <QPainter>
#include <QPaintEvent>
#include <QDebug>
using namespace pose_widget_impl;
pose_transform::pose_transform(QWidget* dst) :
dst(dst),
image(w, h, QImage::Format_ARGB32),
image2(w, h, QImage::Format_ARGB32),
width(w), height(h),
fresh(false)
{
front = QImage(QString(":/images/side1.png"));
back = QImage(QString(":/images/side6.png"));
image.fill(Qt::transparent);
image2.fill(Qt::transparent);
start();
}
pose_transform::~pose_transform()
{
requestInterruption();
wait();
}
void pose_widget::paintEvent(QPaintEvent* event)
{
QPainter p(this);
xform.with_image_lock([&](const QImage& image) {
p.drawImage(event->rect(), image);
});
}
void pose_transform::run()
{
for (;;)
{
if (isInterruptionRequested())
break;
{
lock_guard l(mtx);
if (fresh)
goto end;
rotation = rotation_;
translation = translation_;
}
project_quad_texture();
end:
portable::sleep(9);
}
}
pose_widget::pose_widget(QWidget* parent) : QWidget(parent), xform(this)
{
rotate_sync(0,0,0, 0,0,0);
}
pose_widget::~pose_widget()
{
}
void pose_widget::rotate_async(double xAngle, double yAngle, double zAngle, double x, double y, double z)
{
bool expected = true;
if (xform.fresh.compare_exchange_weak(expected, false))
{
repaint();
xform.rotate_async(xAngle, yAngle, zAngle, x, y, z);
}
}
template<typename F>
void pose_transform::with_rotate(F&& fun, double xAngle, double yAngle, double zAngle, double x, double y, double z)
{
using std::sin;
using std::cos;
static constexpr double d2r = M_PI / 180;
euler::euler_t euler(-zAngle * d2r, xAngle * d2r, -yAngle * d2r);
euler::rmat r = euler::euler_to_rmat(euler);
lock_guard l(mtx);
for (int i = 0; i < 3; i++)
for (int j = 0; j < 3; j++)
rotation_(i, j) = num(r(i, j));
translation_ = vec3(x, y, z);
fun();
}
void pose_widget::rotate_sync(double xAngle, double yAngle, double zAngle, double x, double y, double z)
{
xform.rotate_sync(xAngle, yAngle, zAngle, x, y, z);
}
void pose_transform::rotate_async(double xAngle, double yAngle, double zAngle, double x, double y, double z)
{
with_rotate([this]() {}, xAngle, yAngle, zAngle, x, y, z);
}
void pose_transform::rotate_sync(double xAngle, double yAngle, double zAngle, double x, double y, double z)
{
with_rotate([this]() {
rotation = rotation_;
translation = translation_;
project_quad_texture();
dst->repaint();
}, xAngle, yAngle, zAngle, x, y, z);
}
class Triangle {
num dot00, dot01, dot11, invDenom;
vec2 v0, v1, origin;
public:
Triangle(const vec2& p1, const vec2& p2, const vec2& p3);
bool barycentric_coords(const vec2& px, vec2& uv, int& i) const;
};
inline vec3 pose_transform::normal(const vec3& p1, const vec3& p2, const vec3& p3)
{
using std::sqrt;
vec3 u = p2 - p1;
vec3 v = p3 - p1;
vec3 tmp = u.cross(v);
num i = 1/sqrt(tmp.dot(tmp));
return tmp * i;
}
Triangle::Triangle(const vec2& p1, const vec2& p2, const vec2& p3)
{
origin = p1;
v0 = vec2(p3 - p1);
v1 = vec2(p2 - p1);
dot00 = v0.dot(v0);
dot01 = v0.dot(v1);
dot11 = v1.dot(v1);
const num denom = dot00 * dot11 - dot01 * dot01;
const num area = std::fabs(v0.x() * v1.y() - v0.y() * v1.x()) * .5;
static constexpr num min_area = 2;
if (area < min_area*min_area)
{
// for perpendicular plane, ensure u and v don't come out right
origin = vec2(-1e6, -1e6);
invDenom = -1;
dot00 = dot01 = dot11 = 1;
v0 = v1 = vec2(1, 1);
}
else
invDenom = 1 / denom;
}
bool Triangle::barycentric_coords(const vec2& px, vec2& uv, int& i) const
{
i = 0;
const vec2 v2 = px - origin;
const num dot12 = v1.dot(v2);
const num dot02 = v0.dot(v2);
num u = (dot11 * dot02 - dot01 * dot12) * invDenom;
num v = (dot00 * dot12 - dot01 * dot02) * invDenom;
if (!(u >= 0 && v >= 0))
{
return false;
}
if (u + v > 1)
{
i = 1;
u = 1 - u;
v = 1 - v;
}
uv = vec2(u, v);
return u >= 0 && v >= 0 && u + v <= 1;
}
void pose_transform::project_quad_texture()
{
num dir;
vec2 pt[4];
const int sx = width - 1, sy = height - 1;
vec2 projected[3];
{
const int sx_ = (sx - std::max(0, (sx - sy)/2)) * 5/9;
const int sy_ = (sy - std::max(0, (sy - sx)/2)) * 5/9;
static constexpr const double c = 85/100.;
const vec3 dst_corners[] =
{
vec3(-sx_/2. * c, -sy_/2., 0),
vec3(sx_/2. * c, -sy_/2., 0),
vec3(-sx_/2. * c, sy_/2., 0),
vec3(sx_/2. * c, sy_/2., 0.)
};
for (int i = 0; i < 4; i++)
pt[i] = project(dst_corners[i]) + vec2(sx/2, sy/2);
vec3 normal1(0, 0, 1);
vec3 normal2;
{
vec3 foo[3];
for (int i = 0; i < 3; i++)
{
foo[i] = project2(dst_corners[i]);
projected[i] = project(dst_corners[i]) + vec2(sx/2, sy/2);
}
normal2 = normal(foo[0], foo[1], foo[2]);
}
dir = normal1.dot(normal2);
}
const QImage& tex = dir < 0 ? back : front;
const int ow = tex.width(), oh = tex.height();
vec2 origs[2][3] =
{
{
vec2(0, 0),
vec2(ow-1, 0),
vec2(0, oh-1)
},
{
vec2(ow-1, oh-1),
vec2(0, oh-1) - vec2(ow-1, oh-1),
vec2(ow-1, 0) - vec2(ow-1, oh-1),
}
};
Triangle t(projected[0], projected[1], projected[2]);
const unsigned orig_pitch = tex.bytesPerLine();
const unsigned dest_pitch = image.bytesPerLine();
const unsigned char* orig = tex.bits();
unsigned char* dest = image.bits();
const int orig_depth = tex.depth() / 8;
const int dest_depth = image.depth() / 8;
/* image breakage? */
if (orig_depth != 4)
{
qDebug() << "pose-widget: octopus must be saved as .png with 32 bits pixel";
return;
}
if (dest_depth != 4)
{
qDebug() << "pose-widget: target texture must be ARGB32";
return;
}
for (int y = 1; y < sy; y++)
for (int x = 1; x < sx; x++)
{
vec2 pos(x, y);
vec2 uv;
int i;
if (t.barycentric_coords(pos, uv, i))
{
const float fx = origs[i][0].x()
+ uv.x() * origs[i][2].x()
+ uv.y() * origs[i][1].x();
const float fy = origs[i][0].y()
+ uv.x() * origs[i][2].y()
+ uv.y() * origs[i][1].y();
using uc = unsigned char;
const unsigned px_ = fx + 1;
const unsigned py_ = fy + 1;
const unsigned px = fx;
const unsigned py = fy;
const unsigned orig_pos = py * orig_pitch + px * orig_depth;
const unsigned orig_pos_ = py_ * orig_pitch + px_ * orig_depth;
const unsigned orig_pos__ = py * orig_pitch + px_ * orig_depth;
const unsigned orig_pos___ = py_ * orig_pitch + px * orig_depth;
// 1, 0 -- ax_, ay
// 0, 1 -- ax, ay_
// 1, 1 -- ax_, ay_
// 0, 0 -- ax, ay
//const uc alpha = (a1 * ax + a3 * ax_) * ay + (a4 * ax + a2 * ax_) * ay_;
const float ax_ = fx - unsigned(fx);
const float ay_ = fy - unsigned(fy);
const float ax = 1 - ax_;
const float ay = 1 - ay_;
const unsigned pos = y * dest_pitch + x * dest_depth;
for (int k = 0; k < 4; k++)
{
const uc i = orig[orig_pos + k];
const uc i_ = orig[orig_pos_ + k];
const uc i__ = orig[orig_pos__ + k];
const uc i___ = orig[orig_pos___ + k];
dest[pos + k] = uc((i * ax + i__ * ax_) * ay + (i___ * ax + i_ * ax_) * ay_);
}
}
}
{
lock_guard l2(mtx2);
image2.fill(Qt::transparent);
std::swap(image, image2);
fresh = true;
}
}
vec2 pose_transform::project(const vec3 &point)
{
using std::fabs;
vec3 ret = rotation * point;
num z = std::fmax(num(.5), 1 + translation.z()/-80);
num w = width, h = height;
num x = w * translation.x() / 2 / -80;
if (fabs(x) > w/2)
x = x > 0 ? w/2 : w/-2;
num y = h * translation.y() / 2 / -80;
if (fabs(y) > h/2)
y = y > 0 ? h/2 : h/-2;
return vec2(z * (ret.x() + x), z * (ret.y() + y));
}
vec3 pose_transform::project2(const vec3 &point)
{
return rotation * point;
}
template<typename F>
inline void pose_transform::with_image_lock(F&& fun)
{
lock_guard l(mtx2);
fun(image2);
}
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