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fraktal/include/glm/gtx/dual_quaternion.inl

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2021-02-08 22:56:15 +01:00
/// @ref gtx_dual_quaternion
#include "../geometric.hpp"
#include <limits>
namespace glm
{
// -- Component accesses --
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER typename tdualquat<T, Q>::part_type & tdualquat<T, Q>::operator[](typename tdualquat<T, Q>::length_type i)
{
assert(i >= 0 && i < this->length());
return (&real)[i];
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER typename tdualquat<T, Q>::part_type const& tdualquat<T, Q>::operator[](typename tdualquat<T, Q>::length_type i) const
{
assert(i >= 0 && i < this->length());
return (&real)[i];
}
// -- Implicit basic constructors --
# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat<T, Q>::tdualquat()
# if GLM_CONFIG_DEFAULTED_FUNCTIONS != GLM_DISABLE
: real(qua<T, Q>())
, dual(qua<T, Q>(0, 0, 0, 0))
# endif
{}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat<T, Q>::tdualquat(tdualquat<T, Q> const& d)
: real(d.real)
, dual(d.dual)
{}
# endif
template<typename T, qualifier Q>
template<qualifier P>
GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat<T, Q>::tdualquat(tdualquat<T, P> const& d)
: real(d.real)
, dual(d.dual)
{}
// -- Explicit basic constructors --
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat<T, Q>::tdualquat(qua<T, Q> const& r)
: real(r), dual(qua<T, Q>(0, 0, 0, 0))
{}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat<T, Q>::tdualquat(qua<T, Q> const& q, vec<3, T, Q> const& p)
: real(q), dual(
T(-0.5) * ( p.x*q.x + p.y*q.y + p.z*q.z),
T(+0.5) * ( p.x*q.w + p.y*q.z - p.z*q.y),
T(+0.5) * (-p.x*q.z + p.y*q.w + p.z*q.x),
T(+0.5) * ( p.x*q.y - p.y*q.x + p.z*q.w))
{}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat<T, Q>::tdualquat(qua<T, Q> const& r, qua<T, Q> const& d)
: real(r), dual(d)
{}
// -- Conversion constructors --
template<typename T, qualifier Q>
template<typename U, qualifier P>
GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat<T, Q>::tdualquat(tdualquat<U, P> const& q)
: real(q.real)
, dual(q.dual)
{}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat<T, Q>::tdualquat(mat<2, 4, T, Q> const& m)
{
*this = dualquat_cast(m);
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat<T, Q>::tdualquat(mat<3, 4, T, Q> const& m)
{
*this = dualquat_cast(m);
}
// -- Unary arithmetic operators --
# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> & tdualquat<T, Q>::operator=(tdualquat<T, Q> const& q)
{
this->real = q.real;
this->dual = q.dual;
return *this;
}
# endif
template<typename T, qualifier Q>
template<typename U>
GLM_FUNC_QUALIFIER tdualquat<T, Q> & tdualquat<T, Q>::operator=(tdualquat<U, Q> const& q)
{
this->real = q.real;
this->dual = q.dual;
return *this;
}
template<typename T, qualifier Q>
template<typename U>
GLM_FUNC_QUALIFIER tdualquat<T, Q> & tdualquat<T, Q>::operator*=(U s)
{
this->real *= static_cast<T>(s);
this->dual *= static_cast<T>(s);
return *this;
}
template<typename T, qualifier Q>
template<typename U>
GLM_FUNC_QUALIFIER tdualquat<T, Q> & tdualquat<T, Q>::operator/=(U s)
{
this->real /= static_cast<T>(s);
this->dual /= static_cast<T>(s);
return *this;
}
// -- Unary bit operators --
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> operator+(tdualquat<T, Q> const& q)
{
return q;
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> operator-(tdualquat<T, Q> const& q)
{
return tdualquat<T, Q>(-q.real, -q.dual);
}
// -- Binary operators --
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> operator+(tdualquat<T, Q> const& q, tdualquat<T, Q> const& p)
{
return tdualquat<T, Q>(q.real + p.real,q.dual + p.dual);
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> operator*(tdualquat<T, Q> const& p, tdualquat<T, Q> const& o)
{
return tdualquat<T, Q>(p.real * o.real,p.real * o.dual + p.dual * o.real);
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER vec<3, T, Q> operator*(tdualquat<T, Q> const& q, vec<3, T, Q> const& v)
{
vec<3, T, Q> const real_v3(q.real.x,q.real.y,q.real.z);
vec<3, T, Q> const dual_v3(q.dual.x,q.dual.y,q.dual.z);
return (cross(real_v3, cross(real_v3,v) + v * q.real.w + dual_v3) + dual_v3 * q.real.w - real_v3 * q.dual.w) * T(2) + v;
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER vec<3, T, Q> operator*(vec<3, T, Q> const& v, tdualquat<T, Q> const& q)
{
return glm::inverse(q) * v;
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER vec<4, T, Q> operator*(tdualquat<T, Q> const& q, vec<4, T, Q> const& v)
{
return vec<4, T, Q>(q * vec<3, T, Q>(v), v.w);
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER vec<4, T, Q> operator*(vec<4, T, Q> const& v, tdualquat<T, Q> const& q)
{
return glm::inverse(q) * v;
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> operator*(tdualquat<T, Q> const& q, T const& s)
{
return tdualquat<T, Q>(q.real * s, q.dual * s);
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> operator*(T const& s, tdualquat<T, Q> const& q)
{
return q * s;
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> operator/(tdualquat<T, Q> const& q, T const& s)
{
return tdualquat<T, Q>(q.real / s, q.dual / s);
}
// -- Boolean operators --
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER bool operator==(tdualquat<T, Q> const& q1, tdualquat<T, Q> const& q2)
{
return (q1.real == q2.real) && (q1.dual == q2.dual);
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER bool operator!=(tdualquat<T, Q> const& q1, tdualquat<T, Q> const& q2)
{
return (q1.real != q2.real) || (q1.dual != q2.dual);
}
// -- Operations --
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> dual_quat_identity()
{
return tdualquat<T, Q>(
qua<T, Q>(static_cast<T>(1), static_cast<T>(0), static_cast<T>(0), static_cast<T>(0)),
qua<T, Q>(static_cast<T>(0), static_cast<T>(0), static_cast<T>(0), static_cast<T>(0)));
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> normalize(tdualquat<T, Q> const& q)
{
return q / length(q.real);
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> lerp(tdualquat<T, Q> const& x, tdualquat<T, Q> const& y, T const& a)
{
// Dual Quaternion Linear blend aka DLB:
// Lerp is only defined in [0, 1]
assert(a >= static_cast<T>(0));
assert(a <= static_cast<T>(1));
T const k = dot(x.real,y.real) < static_cast<T>(0) ? -a : a;
T const one(1);
return tdualquat<T, Q>(x * (one - a) + y * k);
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> inverse(tdualquat<T, Q> const& q)
{
const glm::qua<T, Q> real = conjugate(q.real);
const glm::qua<T, Q> dual = conjugate(q.dual);
return tdualquat<T, Q>(real, dual + (real * (-2.0f * dot(real,dual))));
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER mat<2, 4, T, Q> mat2x4_cast(tdualquat<T, Q> const& x)
{
return mat<2, 4, T, Q>( x[0].x, x[0].y, x[0].z, x[0].w, x[1].x, x[1].y, x[1].z, x[1].w );
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER mat<3, 4, T, Q> mat3x4_cast(tdualquat<T, Q> const& x)
{
qua<T, Q> r = x.real / length2(x.real);
qua<T, Q> const rr(r.w * x.real.w, r.x * x.real.x, r.y * x.real.y, r.z * x.real.z);
r *= static_cast<T>(2);
T const xy = r.x * x.real.y;
T const xz = r.x * x.real.z;
T const yz = r.y * x.real.z;
T const wx = r.w * x.real.x;
T const wy = r.w * x.real.y;
T const wz = r.w * x.real.z;
vec<4, T, Q> const a(
rr.w + rr.x - rr.y - rr.z,
xy - wz,
xz + wy,
-(x.dual.w * r.x - x.dual.x * r.w + x.dual.y * r.z - x.dual.z * r.y));
vec<4, T, Q> const b(
xy + wz,
rr.w + rr.y - rr.x - rr.z,
yz - wx,
-(x.dual.w * r.y - x.dual.x * r.z - x.dual.y * r.w + x.dual.z * r.x));
vec<4, T, Q> const c(
xz - wy,
yz + wx,
rr.w + rr.z - rr.x - rr.y,
-(x.dual.w * r.z + x.dual.x * r.y - x.dual.y * r.x - x.dual.z * r.w));
return mat<3, 4, T, Q>(a, b, c);
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> dualquat_cast(mat<2, 4, T, Q> const& x)
{
return tdualquat<T, Q>(
qua<T, Q>( x[0].w, x[0].x, x[0].y, x[0].z ),
qua<T, Q>( x[1].w, x[1].x, x[1].y, x[1].z ));
}
template<typename T, qualifier Q>
GLM_FUNC_QUALIFIER tdualquat<T, Q> dualquat_cast(mat<3, 4, T, Q> const& x)
{
qua<T, Q> real;
T const trace = x[0].x + x[1].y + x[2].z;
if(trace > static_cast<T>(0))
{
T const r = sqrt(T(1) + trace);
T const invr = static_cast<T>(0.5) / r;
real.w = static_cast<T>(0.5) * r;
real.x = (x[2].y - x[1].z) * invr;
real.y = (x[0].z - x[2].x) * invr;
real.z = (x[1].x - x[0].y) * invr;
}
else if(x[0].x > x[1].y && x[0].x > x[2].z)
{
T const r = sqrt(T(1) + x[0].x - x[1].y - x[2].z);
T const invr = static_cast<T>(0.5) / r;
real.x = static_cast<T>(0.5)*r;
real.y = (x[1].x + x[0].y) * invr;
real.z = (x[0].z + x[2].x) * invr;
real.w = (x[2].y - x[1].z) * invr;
}
else if(x[1].y > x[2].z)
{
T const r = sqrt(T(1) + x[1].y - x[0].x - x[2].z);
T const invr = static_cast<T>(0.5) / r;
real.x = (x[1].x + x[0].y) * invr;
real.y = static_cast<T>(0.5) * r;
real.z = (x[2].y + x[1].z) * invr;
real.w = (x[0].z - x[2].x) * invr;
}
else
{
T const r = sqrt(T(1) + x[2].z - x[0].x - x[1].y);
T const invr = static_cast<T>(0.5) / r;
real.x = (x[0].z + x[2].x) * invr;
real.y = (x[2].y + x[1].z) * invr;
real.z = static_cast<T>(0.5) * r;
real.w = (x[1].x - x[0].y) * invr;
}
qua<T, Q> dual;
dual.x = static_cast<T>(0.5) * ( x[0].w * real.w + x[1].w * real.z - x[2].w * real.y);
dual.y = static_cast<T>(0.5) * (-x[0].w * real.z + x[1].w * real.w + x[2].w * real.x);
dual.z = static_cast<T>(0.5) * ( x[0].w * real.y - x[1].w * real.x + x[2].w * real.w);
dual.w = -static_cast<T>(0.5) * ( x[0].w * real.x + x[1].w * real.y + x[2].w * real.z);
return tdualquat<T, Q>(real, dual);
}
}//namespace glm
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