math: implement all Euler conversions for 3×3 matrices.

12 år sedan · f30105e675
--- a/src/lol/math/vector.h
+++ b/src/lol/math/vector.h
@@ -1676,8 +1676,32 @@ template <typename T> struct Mat3
    static Mat3<T> scale(Vec3<T> v);
    static Mat3<T> rotate(T angle, T x, T y, T z);
    static Mat3<T> rotate(T angle, Vec3<T> v);
    static Mat3<T> fromeuler(T x, T y, T z);
    static Mat3<T> fromeuler(Vec3<T> const &v);

    static Mat3<T> fromeuler_xyz(Vec3<T> const &v);
    static Mat3<T> fromeuler_xzy(Vec3<T> const &v);
    static Mat3<T> fromeuler_yxz(Vec3<T> const &v);
    static Mat3<T> fromeuler_yzx(Vec3<T> const &v);
    static Mat3<T> fromeuler_zxy(Vec3<T> const &v);
    static Mat3<T> fromeuler_zyx(Vec3<T> const &v);
    static Mat3<T> fromeuler_xyz(T phi, T theta, T psi);
    static Mat3<T> fromeuler_xzy(T phi, T theta, T psi);
    static Mat3<T> fromeuler_yxz(T phi, T theta, T psi);
    static Mat3<T> fromeuler_yzx(T phi, T theta, T psi);
    static Mat3<T> fromeuler_zxy(T phi, T theta, T psi);
    static Mat3<T> fromeuler_zyx(T phi, T theta, T psi);

    static Mat3<T> fromeuler_xyx(Vec3<T> const &v);
    static Mat3<T> fromeuler_xzx(Vec3<T> const &v);
    static Mat3<T> fromeuler_yxy(Vec3<T> const &v);
    static Mat3<T> fromeuler_yzy(Vec3<T> const &v);
    static Mat3<T> fromeuler_zxz(Vec3<T> const &v);
    static Mat3<T> fromeuler_zyz(Vec3<T> const &v);
    static Mat3<T> fromeuler_xyx(T phi, T theta, T psi);
    static Mat3<T> fromeuler_xzx(T phi, T theta, T psi);
    static Mat3<T> fromeuler_yxy(T phi, T theta, T psi);
    static Mat3<T> fromeuler_yzy(T phi, T theta, T psi);
    static Mat3<T> fromeuler_zxz(T phi, T theta, T psi);
    static Mat3<T> fromeuler_zyz(T phi, T theta, T psi);

    static inline Mat3<T> rotate(Mat3<T> mat, T angle, Vec3<T> v)
    {
@@ -1816,15 +1840,31 @@ template <typename T> struct Mat4
        return rotate(angle, v) * mat;
    }

    static inline Mat4<T> fromeuler(T x, T y, T z)
    {
        return Mat4<T>(Mat3<T>::fromeuler(x, y, z), (T)1);
    }

    static inline Mat4<T> fromeuler(Vec3<T> const &v)
    {
        return Mat4<T>(Mat3<T>::fromeuler(v), (T)1);
    }
    static Mat4<T> fromeuler_xyz(Vec3<T> const &v);
    static Mat4<T> fromeuler_xzy(Vec3<T> const &v);
    static Mat4<T> fromeuler_yxz(Vec3<T> const &v);
    static Mat4<T> fromeuler_yzx(Vec3<T> const &v);
    static Mat4<T> fromeuler_zxy(Vec3<T> const &v);
    static Mat4<T> fromeuler_zyx(Vec3<T> const &v);
    static Mat4<T> fromeuler_xyz(T phi, T theta, T psi);
    static Mat4<T> fromeuler_xzy(T phi, T theta, T psi);
    static Mat4<T> fromeuler_yxz(T phi, T theta, T psi);
    static Mat4<T> fromeuler_yzx(T phi, T theta, T psi);
    static Mat4<T> fromeuler_zxy(T phi, T theta, T psi);
    static Mat4<T> fromeuler_zyx(T phi, T theta, T psi);

    static Mat4<T> fromeuler_xyx(Vec3<T> const &v);
    static Mat4<T> fromeuler_xzx(Vec3<T> const &v);
    static Mat4<T> fromeuler_yxy(Vec3<T> const &v);
    static Mat4<T> fromeuler_yzy(Vec3<T> const &v);
    static Mat4<T> fromeuler_zxz(Vec3<T> const &v);
    static Mat4<T> fromeuler_zyz(Vec3<T> const &v);
    static Mat4<T> fromeuler_xyx(T phi, T theta, T psi);
    static Mat4<T> fromeuler_xzx(T phi, T theta, T psi);
    static Mat4<T> fromeuler_yxy(T phi, T theta, T psi);
    static Mat4<T> fromeuler_yzy(T phi, T theta, T psi);
    static Mat4<T> fromeuler_zxz(T phi, T theta, T psi);
    static Mat4<T> fromeuler_zyz(T phi, T theta, T psi);

    /* Helpers for view matrices */
    static Mat4<T> lookat(Vec3<T> eye, Vec3<T> center, Vec3<T> up);
--- a/src/math/vector.cpp
+++ b/src/math/vector.cpp
@@ -506,36 +506,74 @@ template<> vec3 vec3::toeuler(quat const &q)
    return (180.0f / M_PI / n) * ret;
 }

 template<> mat3 mat3::fromeuler(vec3 const &v)
 static inline mat3 mat3_fromeuler_generic(vec3 const &v, int i, int j, int k)
 {
    using std::sin;
    using std::cos;

    mat3 ret;

    vec3 radians = (M_PI / 180.0f) * v;
    float sx = sin(radians.x), cx = cos(radians.x);
    float sy = sin(radians.y), cy = cos(radians.y);
    float sz = sin(radians.z), cz = cos(radians.z);
    float s0 = sin(radians[0]), c0 = cos(radians[0]);
    float s1 = sin(radians[1]), c1 = cos(radians[1]);
    float s2 = sin(radians[2]), c2 = cos(radians[2]);

    ret[0][0] =   cy * cz;
    ret[1][0] = - cx * sz + sx * sy * cz;
    ret[2][0] =   sx * sz + cx * sy * cz;
    if (k == i)
    {
        k = 3 - i - j;

    ret[0][1] =   cy * sz;
    ret[1][1] =   cx * cz + sx * sy * sz;
    ret[2][1] = - sx * cz + cx * sy * sz;
        ret[i][i] =   c1;
        ret[j][i] =   s1 * s2;
        ret[i][j] =   s0 * s1;
        ret[j][j] =   c0 * c2 - s0 * c1 * s2;
        ret[k][k] = - s0 * s2 + c0 * c1 * c2;

    ret[0][2] = - sy;
    ret[1][2] =   sx * cy;
    ret[2][2] =   cx * cy;
        if ((2 + i - j) % 3)
        {
            ret[k][i] =   s1 * c2;
            ret[k][j] = - c0 * s2 - s0 * c1 * c2;
            ret[i][k] = - c0 * s1;
            ret[j][k] =   s0 * c2 + c0 * c1 * s2;
        }
        else
        {
            ret[k][i] = - s1 * c2;
            ret[k][j] =   c0 * s2 + s0 * c1 * c2;
            ret[i][k] =   c0 * s1;
            ret[j][k] = - s0 * c2 - c0 * c1 * s2;
        }
    }
    else
    {
        ret[i][i] =   c1 * c2;
        ret[k][k] =   c0 * c1;

    return ret;
 }
        if ((2 + i - j) % 3)
        {
            ret[j][i] = - c1 * s2;
            ret[k][i] =   s1;

 template<> mat3 mat3::fromeuler(float x, float y, float z)
 {
    return mat3::fromeuler(vec3(x, y, z));
            ret[i][j] =   c0 * s2 + s0 * s1 * c2;
            ret[j][j] =   c0 * c2 - s0 * s1 * s2;
            ret[k][j] = - s0 * c1;

            ret[i][k] =   s0 * s2 - c0 * s1 * c2;
            ret[j][k] =   s0 * c2 + c0 * s1 * s2;
        }
        else
        {
            ret[j][i] =   c1 * s2;
            ret[k][i] = - s1;

            ret[i][j] = - c0 * s2 + s0 * s1 * c2;
            ret[j][j] =   c0 * c2 + s0 * s1 * s2;
            ret[k][j] =   s0 * c1;

            ret[i][k] =   s0 * s2 + c0 * s1 * c2;
            ret[j][k] = - s0 * c2 + c0 * s1 * s2;
        }
    }

    return ret;
 }

 static inline quat quat_fromeuler_generic(vec3 const &v, int i, int j, int k)
@@ -550,15 +588,15 @@ static inline quat quat_fromeuler_generic(vec3 const &v, int i, int j, int k)

    quat ret;

    if (i == k)
    if (k == i)
    {
        k = 3 - i - j;

        ret[0] = c1 * (c0 * c2 - s0 * s2);
        ret[1 + i] = c1 * (c0 * s2 + s0 * c2);
        ret[1 + j] = s1 * (c0 * c2 + s0 * s2);
        if ((2 + i - j) % 3)
            ret[4 - i - j] = s1 * (s0 * c2 - c0 * s2);
        else
            ret[4 - i - j] = s1 * (c0 * s2 - s0 * c2);
        ret[1 + k] = ((2 + i - j) % 3) ? s1 * (s0 * c2 - c0 * s2)
                                       : s1 * (c0 * s2 - s0 * c2);
    }
    else
    {
@@ -573,13 +611,13 @@ static inline quat quat_fromeuler_generic(vec3 const &v, int i, int j, int k)
        ret[0] = v1[0];
        ret[1 + i] = v1[1];
        ret[1 + j] = v1[2];
        ret[4 - i - j] = v1[3];
        ret[1 + k] = v1[3];
    }

    return ret;
 }

 #define QUAT_FROMEULER_GENERIC(name, i, j, k) \
 #define DEFINE_FROMEULER_GENERIC(name, i, j, k) \
    template<> quat quat::fromeuler_##name(vec3 const &v) \
    { \
        return quat_fromeuler_generic(v, i, j, k); \
@@ -588,23 +626,43 @@ static inline quat quat_fromeuler_generic(vec3 const &v, int i, int j, int k)
    template<> quat quat::fromeuler_##name(float phi, float theta, float psi) \
    { \
        return quat::fromeuler_##name(vec3(phi, theta, psi)); \
    } \
    \
    template<> mat3 mat3::fromeuler_##name(vec3 const &v) \
    { \
        return mat3_fromeuler_generic(v, i, j, k); \
    } \
    \
    template<> mat3 mat3::fromeuler_##name(float phi, float theta, float psi) \
    { \
        return mat3::fromeuler_##name(vec3(phi, theta, psi)); \
    } \
    \
    template<> mat4 mat4::fromeuler_##name(vec3 const &v) \
    { \
        return mat4(mat3_fromeuler_generic(v, i, j, k), 1.f); \
    } \
    \
    template<> mat4 mat4::fromeuler_##name(float phi, float theta, float psi) \
    { \
        return mat4::fromeuler_##name(vec3(phi, theta, psi)); \
    }

 QUAT_FROMEULER_GENERIC(xyx, 0, 1, 0)
 QUAT_FROMEULER_GENERIC(xzx, 0, 2, 0)
 QUAT_FROMEULER_GENERIC(yxy, 1, 0, 1)
 QUAT_FROMEULER_GENERIC(yzy, 1, 2, 1)
 QUAT_FROMEULER_GENERIC(zxz, 2, 0, 2)
 QUAT_FROMEULER_GENERIC(zyz, 2, 1, 2)

 QUAT_FROMEULER_GENERIC(xyz, 0, 1, 2)
 QUAT_FROMEULER_GENERIC(xzy, 0, 2, 1)
 QUAT_FROMEULER_GENERIC(yxz, 1, 0, 2)
 QUAT_FROMEULER_GENERIC(yzx, 1, 2, 0)
 QUAT_FROMEULER_GENERIC(zxy, 2, 0, 1)
 QUAT_FROMEULER_GENERIC(zyx, 2, 1, 0)

 #undef QUAT_FROMEULER_GENERIC
 DEFINE_FROMEULER_GENERIC(xyx, 0, 1, 0)
 DEFINE_FROMEULER_GENERIC(xzx, 0, 2, 0)
 DEFINE_FROMEULER_GENERIC(yxy, 1, 0, 1)
 DEFINE_FROMEULER_GENERIC(yzy, 1, 2, 1)
 DEFINE_FROMEULER_GENERIC(zxz, 2, 0, 2)
 DEFINE_FROMEULER_GENERIC(zyz, 2, 1, 2)

 DEFINE_FROMEULER_GENERIC(xyz, 0, 1, 2)
 DEFINE_FROMEULER_GENERIC(xzy, 0, 2, 1)
 DEFINE_FROMEULER_GENERIC(yxz, 1, 0, 2)
 DEFINE_FROMEULER_GENERIC(yzx, 1, 2, 0)
 DEFINE_FROMEULER_GENERIC(zxy, 2, 0, 1)
 DEFINE_FROMEULER_GENERIC(zyx, 2, 1, 0)

 #undef DEFINE_FROMEULER_GENERIC

 template<> mat4 mat4::lookat(vec3 eye, vec3 center, vec3 up)
 {