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#pragma once
#include "diffvg.h"
#include <cmath>
#include <iostream>
template <typename T>
struct TVector2 {
DEVICE TVector2() {}
template <typename T2>
DEVICE
TVector2(T2 x, T2 y) : x(T(x)), y(T(y)) {}
template <typename T2>
DEVICE
TVector2(const TVector2<T2> &v) : x(T(v.x)), y(T(v.y)) {}
DEVICE T& operator[](int i) {
return *(&x + i);
}
DEVICE T operator[](int i) const {
return *(&x + i);
}
T x, y;
};
template <typename T>
struct TVector3 {
DEVICE TVector3() {}
template <typename T2>
DEVICE
TVector3(T2 x, T2 y, T2 z) : x(T(x)), y(T(y)), z(T(z)) {}
template <typename T2>
DEVICE
TVector3(const TVector3<T2> &v) : x(T(v.x)), y(T(v.y)), z(T(v.z)) {}
DEVICE T& operator[](int i) {
return *(&x + i);
}
DEVICE T operator[](int i) const {
return *(&x + i);
}
T x, y, z;
};
template <typename T>
struct TVector4 {
DEVICE TVector4() {}
template <typename T2>
DEVICE
TVector4(T2 x, T2 y, T2 z, T2 w) : x(T(x)), y(T(y)), z(T(z)), w(T(w)) {}
template <typename T2>
DEVICE
TVector4(const TVector4<T2> &v) : x(T(v.x)), y(T(v.y)), z(T(v.z)), w(T(v.w)) {}
DEVICE T& operator[](int i) {
return *(&x + i);
}
DEVICE T operator[](int i) const {
return *(&x + i);
}
T x, y, z, w;
};
using Vector2f = TVector2<float>;
using Vector2d = TVector2<double>;
using Vector2i = TVector2<int>;
using Vector2 = TVector2<Real>;
using Vector3i = TVector3<int>;
using Vector3f = TVector3<float>;
using Vector3d = TVector3<double>;
using Vector3 = TVector3<Real>;
using Vector4f = TVector4<float>;
using Vector4d = TVector4<double>;
using Vector4 = TVector4<Real>;
template <typename T0, typename T1>
DEVICE
inline auto operator+(const TVector2<T0> &v0,
const TVector2<T1> &v1) -> TVector2<decltype(v0[0] + v1[0])> {
return TVector2<decltype(v0[0] + v1[0])>{
v0[0] + v1[0], v0[1] + v1[1]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator+(const T0 &v0,
const TVector2<T1> &v1) -> TVector2<decltype(v0 + v1[0])> {
return TVector2<decltype(v0 + v1[0])>{v0 + v1[0], v0 + v1[1]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator+(const T0 &v0,
const TVector3<T1> &v1) -> TVector3<decltype(v0[0] + v1)> {
return TVector3<decltype(v0 + v1[0])>{
v0 + v1[0], v0 + v1[1], v0 + v1[2]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator+(const TVector2<T0> &v0,
const T1 &v1) -> TVector2<decltype(v0[0] + v1)> {
return TVector2<decltype(v0[0] + v1)>{
v0[0] + v1, v0[1] + v1};
}
template <typename T0, typename T1>
DEVICE
inline auto operator+(const TVector3<T0> &v0,
const T1 &v1) -> TVector3<decltype(v0[0] + v1[0])> {
return TVector3<decltype(v0[0] + v1)>{
v0[0] + v1, v0[1] + v1, v0[2] + v1};
}
template <typename T0, typename T1>
DEVICE
inline auto operator+(const TVector3<T0> &v0,
const TVector3<T1> &v1) -> TVector3<decltype(v0[0] + v1[0])> {
return TVector3<decltype(v0[0] + v1[0])>{
v0[0] + v1[0], v0[1] + v1[1], v0[2] + v1[2]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator+(const TVector4<T0> &v0,
const TVector4<T1> &v1) -> TVector4<decltype(v0[0] + v1[0])> {
return TVector4<decltype(v0[0] + v1[0])>{
v0[0] + v1[0], v0[1] + v1[1], v0[2] + v1[2], v0[3] + v1[3]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator+=(TVector2<T0> &v0,
const TVector2<T1> &v1) -> TVector2<T0>& {
v0[0] += v1[0];
v0[1] += v1[1];
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator+=(TVector3<T0> &v0,
const TVector3<T1> &v1) -> TVector3<T0>& {
v0[0] += v1[0];
v0[1] += v1[1];
v0[2] += v1[2];
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator+=(TVector3<T0> &v0,
const T1 &v1) -> TVector3<T0>& {
v0[0] += v1;
v0[1] += v1;
v0[2] += v1;
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator+=(TVector4<T0> &v0,
const TVector4<T1> &v1) -> TVector4<T0>& {
v0[0] += v1[0];
v0[1] += v1[1];
v0[2] += v1[2];
v0[3] += v1[3];
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator+=(TVector4<T0> &v0,
const T1 &v1) -> TVector4<T0>& {
v0[0] += v1;
v0[1] += v1;
v0[2] += v1;
v0[3] += v1;
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator-(const T0 &v0,
const TVector2<T1> &v1) -> TVector2<decltype(v0 - v1[0])> {
return TVector2<decltype(v0 - v1[0])>{v0 - v1[0], v0 - v1[1]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator-(const T0 &v0,
const TVector3<T1> &v1) -> TVector2<decltype(v0 - v1[0])> {
return TVector3<decltype(v0 - v1[0])>{v0 - v1[0], v0 - v1[1], v0 - v1[2]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator-(const TVector2<T0> &v0,
const T1 &v1) -> TVector2<decltype(v0[0] - v1)> {
return TVector2<decltype(v0[0] - v1)>{v0[0] - v1, v0[1] - v1};
}
template <typename T0, typename T1>
DEVICE
inline auto operator-(const TVector3<T0> &v0,
const T1 &v1) -> TVector3<decltype(v0[0] - v1)> {
return TVector3<decltype(v0[0] - v1)>{v0[0] - v1, v0[1] - v1, v0[2] - v1};
}
template <typename T0, typename T1>
DEVICE
inline auto operator-(const TVector2<T0> &v0,
const TVector2<T1> &v1) -> TVector2<decltype(v0[0] - v1[0])> {
return TVector2<decltype(v0[0] - v1[0])>{
v0[0] - v1[0], v0[1] - v1[1]};
}
template <typename T>
DEVICE
inline auto operator-(const TVector2<T> &v) -> TVector2<T> {
return TVector2<T>{-v[0], -v[1]};
}
template <typename T>
DEVICE
inline auto operator-(const TVector3<T> &v) -> TVector3<T> {
return TVector3<T>{-v[0], -v[1], -v[2]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator-(const TVector3<T0> &v0,
const TVector3<T1> &v1) -> TVector3<decltype(v0[0] - v1[0])> {
return TVector3<decltype(v0[0] - v1[0])>{
v0[0] - v1[0], v0[1] - v1[1], v0[2] - v1[2]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator-(const TVector4<T0> &v0,
const TVector4<T1> &v1) -> TVector4<decltype(v0[0] - v1[0])> {
return TVector4<decltype(v0[0] - v1[0])>{
v0[0] - v1[0], v0[1] - v1[1], v0[2] - v1[2], v0[3] - v1[3]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator-=(TVector2<T0> &v0,
const TVector2<T1> &v1) -> TVector2<T0>& {
v0[0] -= v1[0];
v0[1] -= v1[1];
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator-=(TVector3<T0> &v0,
const TVector3<T1> &v1) -> TVector3<T0>& {
v0[0] -= v1[0];
v0[1] -= v1[1];
v0[2] -= v1[2];
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator*(const TVector2<T0> &v0,
const TVector2<T1> &v1) -> TVector2<decltype(v0[0] * v1[0])> {
return TVector2<decltype(v0[0] * v1[0])>{
v0[0] * v1[0], v0[1] * v1[1]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator*(const TVector2<T0> &v0,
const T1 &s) -> TVector2<decltype(v0[0] * s)> {
return TVector2<decltype(v0[0] * s)>{
v0[0] * s, v0[1] * s};
}
template <typename T0, typename T1>
DEVICE
inline auto operator*(const T0 &s,
const TVector2<T1> &v0) -> TVector2<decltype(s * v0[0])> {
return TVector2<decltype(s * v0[0])>{s * v0[0], s * v0[1]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator*=(TVector2<T0> &v0,
const T1 &s) -> TVector2<T0>& {
v0[0] *= s;
v0[1] *= s;
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator*(const TVector3<T0> &v0,
const T1 &s) -> TVector3<decltype(v0[0] * s)> {
return TVector3<decltype(v0[0] * s)>{
v0[0] * s, v0[1] * s, v0[2] * s};
}
template <typename T0, typename T1>
DEVICE
inline auto operator*(const T0 &s,
const TVector3<T1> &v0) -> TVector3<decltype(s * v0[0])> {
return TVector3<decltype(s * v0[0])>{
s * v0[0], s * v0[1], s * v0[2]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator*=(TVector3<T0> &v0,
const T1 &s) -> TVector3<T0>& {
v0[0] *= s;
v0[1] *= s;
v0[2] *= s;
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator*=(TVector4<T0> &v0,
const T1 &s) -> TVector4<T0>& {
v0[0] *= s;
v0[1] *= s;
v0[2] *= s;
v0[3] *= s;
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator*(const TVector3<T0> &v0,
const TVector3<T1> &v1) -> TVector3<decltype(v0[0] * v1[0])> {
return TVector3<decltype(v0[0] * v1[0])>{
v0[0] * v1[0], v0[1] * v1[1], v0[2] * v1[2]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator*(const TVector4<T0> &v0,
const T1 &s) -> TVector4<decltype(v0[0] * s)> {
return TVector4<decltype(v0[0] * s)>{
v0[0] * s, v0[1] * s, v0[2] * s, v0[3] * s};
}
template <typename T0, typename T1>
DEVICE
inline auto operator*(const T0 &s,
const TVector4<T1> &v0) -> TVector4<decltype(s * v0[0])> {
return TVector4<decltype(s * v0[0])>{
s * v0[0], s * v0[1], s * v0[2], s * v0[3]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator*(const TVector4<T0> &v0,
const TVector4<T1> &v1) -> TVector4<decltype(v0[0] * v1[0])> {
return TVector4<decltype(v0[0] * v1[0])>{
v0[0] * v1[0], v0[1] * v1[1], v0[2] * v1[2], v0[3] * v1[3]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator/(const TVector2<T0> &v0,
const T1 &s) -> TVector2<decltype(v0[0] / s)> {
auto inv_s = 1.f / s;
return v0 * inv_s;
}
template <typename T0, typename T1>
DEVICE
inline auto operator/(const TVector3<T0> &v0,
const T1 &s) -> TVector3<decltype(v0[0] / s)> {
auto inv_s = 1.f / s;
return v0 * inv_s;
}
template <typename T0, typename T1>
DEVICE
inline auto operator/(const TVector4<T0> &v0,
const T1 &s) -> TVector4<decltype(v0[0] / s)> {
auto inv_s = 1.f / s;
return v0 * inv_s;
}
template <typename T0, typename T1>
DEVICE
inline auto operator/(const T0 &s,
const TVector3<T1> &v1) -> TVector3<decltype(s / v1[0])> {
return TVector3<decltype(s / v1[0])>{
s / v1[0], s / v1[2], s / v1[2]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator/(const TVector3<T0> &v0,
const TVector3<T1> &v1) -> TVector3<decltype(v0[0] / v1[0])> {
return TVector3<decltype(v0[0] / v1[0])>{
v0[0] / v1[0], v0[1] / v1[2], v0[2] / v1[2]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator/(const TVector2<T0> &v0,
const TVector2<T1> &v1) -> TVector2<decltype(v0[0] / v1[0])> {
return TVector2<decltype(v0[0] / v1[0])>{
v0[0] / v1[0], v0[1] / v1[1]};
}
template <typename T0, typename T1>
DEVICE
inline auto operator/=(TVector3<T0> &v0,
const T1 &s) -> TVector3<T0>& {
auto inv_s = 1.f / s;
v0[0] *= inv_s;
v0[1] *= inv_s;
v0[2] *= inv_s;
return v0;
}
template <typename T0, typename T1>
DEVICE
inline auto operator/=(TVector4<T0> &v0,
const T1 &s) -> TVector4<T0>& {
auto inv_s = 1.f / s;
v0[0] *= inv_s;
v0[1] *= inv_s;
v0[2] *= inv_s;
v0[3] *= inv_s;
return v0;
}
template <typename T0, typename T1>
DEVICE
inline bool operator==(const TVector2<T0> &v0,
const TVector2<T1> &v1) {
return v0.x == v1.x && v0.y == v1.y;
}
template <typename T0, typename T1>
DEVICE
inline bool operator==(const TVector3<T0> &v0,
const TVector3<T1> &v1) {
return v0.x == v1.x && v0.y == v1.y && v0.z == v1.z;
}
template <typename T0, typename T1>
DEVICE
inline bool operator!=(const TVector3<T0> &v0,
const TVector3<T1> &v1) {
return v0.x != v1.x || v0.y != v1.y || v0.z != v1.z;
}
template <typename T>
DEVICE
inline TVector2<T> get_normal(const TVector2<T> &v) {
return TVector2<T>{v.y, -v.x};
}
template <typename T>
DEVICE
inline T length_squared(const TVector2<T> &v0) {
return square(v0[0]) + square(v0[1]);
}
template <typename T>
DEVICE
inline TVector2<T> d_length_squared(const TVector2<T> &v0, const T &d_l_sq) {
//l_sq = square(v0[0]) + square(v0[1])
return 2 * d_l_sq * v0;
}
template <typename T>
DEVICE
inline T length(const TVector2<T> &v0) {
return sqrt(length_squared(v0));
}
template <typename T>
DEVICE
inline TVector2<T> d_length(const TVector2<T> &v0, const T &d_l) {
auto l_sq = length_squared(v0);
auto l = sqrt(l_sq);
auto d_l_sq = 0.5f * d_l / l;
return d_length_squared(v0, T(d_l_sq));
}
template <typename T>
DEVICE
inline T length_squared(const TVector3<T> &v0) {
return square(v0[0]) + square(v0[1]) + square(v0[2]);
}
template <typename T>
DEVICE
inline TVector3<T> d_length_squared(const TVector3<T> &v0, const T &d_l_sq) {
//l_sq = square(v0[0]) + square(v0[1]) + square(v0[2])
return 2 * d_l_sq * v0;
}
template <typename T>
DEVICE
inline T length(const TVector3<T> &v0) {
return sqrt(length_squared(v0));
}
template <typename T>
DEVICE
inline TVector3<T> d_length(const TVector3<T> &v0, const T &d_l) {
auto l_sq = length_squared(v0);
auto l = sqrt(l_sq);
auto d_l_sq = 0.5f * d_l / l;
return d_length_squared(v0, d_l_sq);
}
template <typename T0, typename T1>
DEVICE
inline auto distance_squared(const TVector2<T0> &v0,
const TVector2<T1> &v1) -> decltype(length_squared(v1 - v0)) {
return length_squared(v1 - v0);
}
template <typename T0, typename T1>
DEVICE
inline auto distance_squared(const TVector3<T0> &v0,
const TVector3<T1> &v1) -> decltype(length_squared(v1 - v0)) {
return length_squared(v1 - v0);
}
template <typename T0, typename T1>
DEVICE
inline auto distance(const TVector2<T0> &v0,
const TVector2<T1> &v1) -> decltype(length(v1 - v0)) {
return length(v1 - v0);
}
template <typename T>
DEVICE
inline void d_distance(const TVector2<T> &v0,
const TVector2<T> &v1,
const T &d_output,
TVector2<T> &d_v0,
TVector2<T> &d_v1) {
auto d_v1_v0 = d_length(v1 - v0, d_output);
d_v0 -= d_v1_v0;
d_v1 += d_v1_v0;
}
template <typename T0, typename T1>
DEVICE
inline auto distance(const TVector3<T0> &v0,
const TVector3<T1> &v1) -> decltype(length(v1 - v0)) {
return length(v1 - v0);
}
template <typename T>
DEVICE
inline void d_distance(const TVector3<T> &v0,
const TVector3<T> &v1,
const T &d_output,
TVector3<T> &d_v0,
TVector3<T> &d_v1) {
auto d_v1_v0 = d_length(v1 - v0, d_output);
d_v0 -= d_v1_v0;
d_v1 += d_v1_v0;
}
template <typename T>
DEVICE
inline TVector2<T> normalize(const TVector2<T> &v0) {
return v0 / length(v0);
}
template <typename T>
DEVICE
inline TVector2<T> d_normalize(const TVector2<T> &v0, const TVector2<T> &d_n) {
auto l = length(v0);
auto n = v0 / l;
auto d_v0 = d_n / l;
auto d_l = -dot(d_n, n) / l;
// l = length(v0)
d_v0 += d_length(v0, d_l);
return d_v0;
}
template <typename T>
DEVICE
inline TVector3<T> normalize(const TVector3<T> &v0) {
return v0 / length(v0);
}
template <typename T>
DEVICE
inline TVector3<T> d_normalize(const TVector3<T> &v0, const TVector3<T> &d_n) {
auto l = length(v0);
auto n = v0 / l;
auto d_v0 = d_n / l;
auto d_l = -dot(d_n, n) / l;
// l = length(v0)
d_v0 += d_length(v0, d_l);
return d_v0;
}
template <typename T0, typename T1>
DEVICE
inline auto dot(const TVector2<T0> &v0, const TVector2<T1> &v1) -> decltype(v0[0] * v1[0]) {
return v0[0] * v1[0] +
v0[1] * v1[1];
}
template <typename T0, typename T1>
DEVICE
inline auto dot(const TVector3<T0> &v0, const TVector3<T1> &v1) -> decltype(v0[0] * v1[0]) {
return v0[0] * v1[0] +
v0[1] * v1[1] +
v0[2] * v1[2];
}
template <typename T0, typename T1>
DEVICE
inline auto dot(const TVector4<T0> &v0, const TVector4<T1> &v1) -> decltype(v0[0] * v1[0]) {
return v0[0] * v1[0] +
v0[1] * v1[1] +
v0[2] * v1[2] +
v0[3] * v1[3];
}
template <typename T0, typename T1>
DEVICE
inline auto cross(const TVector3<T0> &v0, const TVector3<T1> &v1) -> TVector3<decltype(v0[1] * v1[2] - v0[2] * v1[1])> {
return TVector3<decltype(v0[1] * v1[2] - v0[2] * v1[1])>{
v0[1] * v1[2] - v0[2] * v1[1],
v0[2] * v1[0] - v0[0] * v1[2],
v0[0] * v1[1] - v0[1] * v1[0]};
}
template <typename T>
DEVICE
inline void d_cross(const TVector3<T> &v0, const TVector3<T> &v1, const TVector3<T> &d_output,
TVector3<T> &d_v0, TVector3<T> &d_v1) {
d_v0 += cross(v1, d_output);
d_v1 += cross(d_output, v0);
}
template <typename T>
DEVICE
inline T luminance(const TVector3<T> &v) {
return 0.212671f * v[0] +
0.715160f * v[1] +
0.072169f * v[2];
}
template <typename T>
DEVICE
inline T sum(const T &v) {
return v;
}
template <typename T>
DEVICE
inline T sum(const TVector2<T> &v) {
return v[0] + v[1];
}
template <typename T>
DEVICE
inline T sum(const TVector3<T> &v) {
return v[0] + v[1] + v[2];
}
template <typename T>
DEVICE
inline T sum(const TVector4<T> &v) {
return v[0] + v[1] + v[2] + v[3];
}
template <typename T>
DEVICE
void coordinate_system(const TVector3<T> &n, TVector3<T> &x, TVector3<T> &y) {
if (n[2] < -1.f + 1e-6f) {
x = TVector3<T>{T(0), T(-1), T(0)};
y = TVector3<T>{T(-1), T(0), T(0)};
} else {
auto a = 1.f / (1.f + n[2]);
auto b = -n[0] * n[1] * a;
x = TVector3<T>{1.f - square(n[0]) * a, b, -n[0]};
y = TVector3<T>{b, 1.f - square(n[1]) * a, -n[1]};
}
}
template <typename T>
DEVICE
void d_coordinate_system(const TVector3<T> &n, const TVector3<T> &d_x, const TVector3<T> &d_y,
TVector3<T> &d_n) {
if (n[2] < -1.f + 1e-6f) {
//x = TVector3<T>{T(0), T(-1), T(0)};
//y = TVector3<T>{T(-1), T(0), T(0)};
// don't need to do anything
} else {
auto a = 1.f / (1.f + n[2]);
// auto b = -n[0] * n[1] * a;
// x = TVector3<T>{1.f - square(n[0]) * a, b, -n[0]}
d_n[0] -= 2.f * n[0] * d_x[0] * a;
auto d_a = -square(n[0]) * d_x[0];
auto d_b = d_x[1];
d_n[0] -= d_x[2];
// y = TVector3<T>{b, 1.f - square(n[1]) * a, -n[1]}
d_b += d_y[0];
d_n[1] -= 2.f * d_y[1] * n[1] * a;
d_a -= d_y[1] * square(n[1]);
d_n[1] -= d_y[2];
// b = -n[0] * n[1] * a
d_n[0] -= d_b * n[1] * a;
d_n[1] -= d_b * n[0] * a;
d_a -= d_b * n[0] * n[1];
// a = 1 / (1 + n[2])
d_n[2] -= d_a * a / (1 + n[2]);
}
}
DEVICE
inline bool isfinite(const Vector2 &v) {
return isfinite(v.x) &&
isfinite(v.y);
}
DEVICE
inline bool isfinite(const Vector3 &v) {
return isfinite(v.x) &&
isfinite(v.y) &&
isfinite(v.z);
}
DEVICE
inline bool isfinite(const Vector4 &v) {
return isfinite(v.x) &&
isfinite(v.y) &&
isfinite(v.z) &&
isfinite(v.w);
}
DEVICE
inline bool is_zero(const Vector3 &v) {
return v.x == 0 && v.y == 0 && v.z == 0;
}
template <typename T>
inline std::ostream& operator<<(std::ostream &os, const TVector2<T> &v) {
return os << "(" << v[0] << ", " << v[1] << ")";
}
template <typename T>
inline std::ostream& operator<<(std::ostream &os, const TVector3<T> &v) {
return os << "(" << v[0] << ", " << v[1] << ", " << v[2] << ")";
}
template <typename T>
inline std::ostream& operator<<(std::ostream &os, const TVector4<T> &v) {
return os << "(" << v[0] << ", " << v[1] << ", " << v[2] << ", " << v[3] << ")";
}
DEVICE
inline
float det(const Vector2f &a, const Vector2f &b) {
return a.x*b.y-b.x*a.y;
}
DEVICE
inline
Vector2f quadratic_closest_pt_approx(const Vector2f &b0,
const Vector2f &b1,
const Vector2f &b2,
float *t_ = nullptr) {
// From http://w3.impa.br/~diego/publications/NehHop08.pdf
float a=det(b0,b2), b=2*det(b1,b0), d=2*det(b2,b1);
float f=b*d-a*a;
Vector2f d21=b2-b1, d10=b1-b0, d20=b2-b0;
Vector2f gf=2*(b*d21+d*d10+a*d20);
gf=Vector2f(gf.y,-gf.x);
Vector2f pp=-f*gf/dot(gf,gf);
Vector2f d0p=b0-pp;
float ap=det(d0p,d20), bp=2*det(d10,d0p);
float t=clamp((ap+bp)/(2*a+b+d),0.f,1.f);
float tt = 1 - t;
if (t_ != nullptr) {
*t_ = t;
}
return (tt*tt)*b0 + (2*tt*t)*b1 + (t*t)*b2;
}
DEVICE
inline
Vector2f quadratic_closest_pt_approx(const Vector2f &b0,
const Vector2f &b1,
const Vector2f &b2,
const Vector2f &pt,
float *t = nullptr) {
// Approximate closest point to a quadratic curve
return quadratic_closest_pt_approx(b0 - pt, b1 - pt, b2 - pt, t) + pt;
}
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