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🐛 Fix operators for V axis (#24866)

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Co-authored-by: Scott Lahteine <thinkyhead@users.noreply.github.com>
This commit is contained in:
ellensp 2022-10-16 13:40:00 +13:00 committed by Scott Lahteine
parent f39f4d0288
commit b3e7d1e91e
2 changed files with 102 additions and 102 deletions
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202
Marlin/src/core/types.h
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@ -226,8 +226,8 @@ typedef const_float_t const_celsius_float_t;
// Helpers
#define _RECIP(N) ((N) ? 1.0f / static_cast<float>(N) : 0.0f)
#define _ABS(N) ((N) < 0 ? -(N) : (N))
#define _LS(N) (N = (T)(uint32_t(N) << v))
#define _RS(N) (N = (T)(uint32_t(N) >> v))
#define _LS(N) (N = (T)(uint32_t(N) << p))
#define _RS(N) (N = (T)(uint32_t(N) >> p))
#define FI FORCE_INLINE
// Forward declarations
@ -409,18 +409,18 @@ struct XYval {
FI XYval<T> operator* (const XYZEval<T> &rs) { XYval<T> ls = *this; ls.x *= rs.x; ls.y *= rs.y; return ls; }
FI XYval<T> operator/ (const XYZEval<T> &rs) const { XYval<T> ls = *this; ls.x /= rs.x; ls.y /= rs.y; return ls; }
FI XYval<T> operator/ (const XYZEval<T> &rs) { XYval<T> ls = *this; ls.x /= rs.x; ls.y /= rs.y; return ls; }
FI XYval<T> operator* (const float &v) const { XYval<T> ls = *this; ls.x *= v; ls.y *= v; return ls; }
FI XYval<T> operator* (const float &v) { XYval<T> ls = *this; ls.x *= v; ls.y *= v; return ls; }
FI XYval<T> operator* (const int &v) const { XYval<T> ls = *this; ls.x *= v; ls.y *= v; return ls; }
FI XYval<T> operator* (const int &v) { XYval<T> ls = *this; ls.x *= v; ls.y *= v; return ls; }
FI XYval<T> operator/ (const float &v) const { XYval<T> ls = *this; ls.x /= v; ls.y /= v; return ls; }
FI XYval<T> operator/ (const float &v) { XYval<T> ls = *this; ls.x /= v; ls.y /= v; return ls; }
FI XYval<T> operator/ (const int &v) const { XYval<T> ls = *this; ls.x /= v; ls.y /= v; return ls; }
FI XYval<T> operator/ (const int &v) { XYval<T> ls = *this; ls.x /= v; ls.y /= v; return ls; }
FI XYval<T> operator>>(const int &v) const { XYval<T> ls = *this; _RS(ls.x); _RS(ls.y); return ls; }
FI XYval<T> operator>>(const int &v) { XYval<T> ls = *this; _RS(ls.x); _RS(ls.y); return ls; }
FI XYval<T> operator<<(const int &v) const { XYval<T> ls = *this; _LS(ls.x); _LS(ls.y); return ls; }
FI XYval<T> operator<<(const int &v) { XYval<T> ls = *this; _LS(ls.x); _LS(ls.y); return ls; }
FI XYval<T> operator* (const float &p) const { XYval<T> ls = *this; ls.x *= p; ls.y *= p; return ls; }
FI XYval<T> operator* (const float &p) { XYval<T> ls = *this; ls.x *= p; ls.y *= p; return ls; }
FI XYval<T> operator* (const int &p) const { XYval<T> ls = *this; ls.x *= p; ls.y *= p; return ls; }
FI XYval<T> operator* (const int &p) { XYval<T> ls = *this; ls.x *= p; ls.y *= p; return ls; }
FI XYval<T> operator/ (const float &p) const { XYval<T> ls = *this; ls.x /= p; ls.y /= p; return ls; }
FI XYval<T> operator/ (const float &p) { XYval<T> ls = *this; ls.x /= p; ls.y /= p; return ls; }
FI XYval<T> operator/ (const int &p) const { XYval<T> ls = *this; ls.x /= p; ls.y /= p; return ls; }
FI XYval<T> operator/ (const int &p) { XYval<T> ls = *this; ls.x /= p; ls.y /= p; return ls; }
FI XYval<T> operator>>(const int &p) const { XYval<T> ls = *this; _RS(ls.x); _RS(ls.y); return ls; }
FI XYval<T> operator>>(const int &p) { XYval<T> ls = *this; _RS(ls.x); _RS(ls.y); return ls; }
FI XYval<T> operator<<(const int &p) const { XYval<T> ls = *this; _LS(ls.x); _LS(ls.y); return ls; }
FI XYval<T> operator<<(const int &p) { XYval<T> ls = *this; _LS(ls.x); _LS(ls.y); return ls; }
FI const XYval<T> operator-() const { XYval<T> o = *this; o.x = -x; o.y = -y; return o; }
FI XYval<T> operator-() { XYval<T> o = *this; o.x = -x; o.y = -y; return o; }
@ -434,10 +434,10 @@ struct XYval {
FI XYval<T>& operator+=(const XYZEval<T> &rs) { x += rs.x; y += rs.y; return *this; }
FI XYval<T>& operator-=(const XYZEval<T> &rs) { x -= rs.x; y -= rs.y; return *this; }
FI XYval<T>& operator*=(const XYZEval<T> &rs) { x *= rs.x; y *= rs.y; return *this; }
FI XYval<T>& operator*=(const float &v) { x *= v; y *= v; return *this; }
FI XYval<T>& operator*=(const int &v) { x *= v; y *= v; return *this; }
FI XYval<T>& operator>>=(const int &v) { _RS(x); _RS(y); return *this; }
FI XYval<T>& operator<<=(const int &v) { _LS(x); _LS(y); return *this; }
FI XYval<T>& operator*=(const float &p) { x *= p; y *= p; return *this; }
FI XYval<T>& operator*=(const int &p) { x *= p; y *= p; return *this; }
FI XYval<T>& operator>>=(const int &p) { _RS(x); _RS(y); return *this; }
FI XYval<T>& operator<<=(const int &p) { _LS(x); _LS(y); return *this; }
// Exact comparisons. For floats a "NEAR" operation may be better.
FI bool operator==(const XYval<T> &rs) const { return x == rs.x && y == rs.y; }
@ -567,18 +567,18 @@ struct XYZval {
FI XYZval<T> operator* (const XYZEval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= rs.x, ls.y *= rs.y, ls.z *= rs.z, ls.i *= rs.i, ls.j *= rs.j, ls.k *= rs.k, ls.u *= rs.u, ls.v *= rs.v, ls.w *= rs.w); return ls; }
FI XYZval<T> operator/ (const XYZEval<T> &rs) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZval<T> operator/ (const XYZEval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZval<T> operator* (const float &v) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= v, ls.y *= v, ls.z *= v, ls.i *= v, ls.j *= v, ls.k *= v, ls.u *= v, ls.v *= v, ls.w *= v ); return ls; }
FI XYZval<T> operator* (const float &v) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= v, ls.y *= v, ls.z *= v, ls.i *= v, ls.j *= v, ls.k *= v, ls.u *= v, ls.v *= v, ls.w *= v ); return ls; }
FI XYZval<T> operator* (const int &v) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= v, ls.y *= v, ls.z *= v, ls.i *= v, ls.j *= v, ls.k *= v, ls.u *= v, ls.v *= v, ls.w *= v ); return ls; }
FI XYZval<T> operator* (const int &v) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= v, ls.y *= v, ls.z *= v, ls.i *= v, ls.j *= v, ls.k *= v, ls.u *= v, ls.v *= v, ls.w *= v ); return ls; }
FI XYZval<T> operator/ (const float &v) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= v, ls.y /= v, ls.z /= v, ls.i /= v, ls.j /= v, ls.k /= v, ls.u /= v, ls.v /= v, ls.w /= v ); return ls; }
FI XYZval<T> operator/ (const float &v) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= v, ls.y /= v, ls.z /= v, ls.i /= v, ls.j /= v, ls.k /= v, ls.u /= v, ls.v /= v, ls.w /= v ); return ls; }
FI XYZval<T> operator/ (const int &v) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= v, ls.y /= v, ls.z /= v, ls.i /= v, ls.j /= v, ls.k /= v, ls.u /= v, ls.v /= v, ls.w /= v ); return ls; }
FI XYZval<T> operator/ (const int &v) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= v, ls.y /= v, ls.z /= v, ls.i /= v, ls.j /= v, ls.k /= v, ls.u /= v, ls.v /= v, ls.w /= v ); return ls; }
FI XYZval<T> operator>>(const int &v) const { XYZval<T> ls = *this; NUM_AXIS_CODE(_RS(ls.x), _RS(ls.y), _RS(ls.z), _RS(ls.i), _RS(ls.j), _RS(ls.k), _RS(ls.u), _RS(ls.v), _RS(ls.w) ); return ls; }
FI XYZval<T> operator>>(const int &v) { XYZval<T> ls = *this; NUM_AXIS_CODE(_RS(ls.x), _RS(ls.y), _RS(ls.z), _RS(ls.i), _RS(ls.j), _RS(ls.k), _RS(ls.u), _RS(ls.v), _RS(ls.w) ); return ls; }
FI XYZval<T> operator<<(const int &v) const { XYZval<T> ls = *this; NUM_AXIS_CODE(_LS(ls.x), _LS(ls.y), _LS(ls.z), _LS(ls.i), _LS(ls.j), _LS(ls.k), _LS(ls.u), _LS(ls.v), _LS(ls.w) ); return ls; }
FI XYZval<T> operator<<(const int &v) { XYZval<T> ls = *this; NUM_AXIS_CODE(_LS(ls.x), _LS(ls.y), _LS(ls.z), _LS(ls.i), _LS(ls.j), _LS(ls.k), _LS(ls.u), _LS(ls.v), _LS(ls.w) ); return ls; }
FI XYZval<T> operator* (const float &p) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= p, ls.y *= p, ls.z *= p, ls.i *= p, ls.j *= p, ls.k *= p, ls.u *= p, ls.v *= p, ls.w *= p ); return ls; }
FI XYZval<T> operator* (const float &p) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= p, ls.y *= p, ls.z *= p, ls.i *= p, ls.j *= p, ls.k *= p, ls.u *= p, ls.v *= p, ls.w *= p ); return ls; }
FI XYZval<T> operator* (const int &p) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= p, ls.y *= p, ls.z *= p, ls.i *= p, ls.j *= p, ls.k *= p, ls.u *= p, ls.v *= p, ls.w *= p ); return ls; }
FI XYZval<T> operator* (const int &p) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= p, ls.y *= p, ls.z *= p, ls.i *= p, ls.j *= p, ls.k *= p, ls.u *= p, ls.v *= p, ls.w *= p ); return ls; }
FI XYZval<T> operator/ (const float &p) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= p, ls.y /= p, ls.z /= p, ls.i /= p, ls.j /= p, ls.k /= p, ls.u /= p, ls.v /= p, ls.w /= p ); return ls; }
FI XYZval<T> operator/ (const float &p) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= p, ls.y /= p, ls.z /= p, ls.i /= p, ls.j /= p, ls.k /= p, ls.u /= p, ls.v /= p, ls.w /= p ); return ls; }
FI XYZval<T> operator/ (const int &p) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= p, ls.y /= p, ls.z /= p, ls.i /= p, ls.j /= p, ls.k /= p, ls.u /= p, ls.v /= p, ls.w /= p ); return ls; }
FI XYZval<T> operator/ (const int &p) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= p, ls.y /= p, ls.z /= p, ls.i /= p, ls.j /= p, ls.k /= p, ls.u /= p, ls.v /= p, ls.w /= p ); return ls; }
FI XYZval<T> operator>>(const int &p) const { XYZval<T> ls = *this; NUM_AXIS_CODE(_RS(ls.x), _RS(ls.y), _RS(ls.z), _RS(ls.i), _RS(ls.j), _RS(ls.k), _RS(ls.u), _RS(ls.v), _RS(ls.w) ); return ls; }
FI XYZval<T> operator>>(const int &p) { XYZval<T> ls = *this; NUM_AXIS_CODE(_RS(ls.x), _RS(ls.y), _RS(ls.z), _RS(ls.i), _RS(ls.j), _RS(ls.k), _RS(ls.u), _RS(ls.v), _RS(ls.w) ); return ls; }
FI XYZval<T> operator<<(const int &p) const { XYZval<T> ls = *this; NUM_AXIS_CODE(_LS(ls.x), _LS(ls.y), _LS(ls.z), _LS(ls.i), _LS(ls.j), _LS(ls.k), _LS(ls.u), _LS(ls.v), _LS(ls.w) ); return ls; }
FI XYZval<T> operator<<(const int &p) { XYZval<T> ls = *this; NUM_AXIS_CODE(_LS(ls.x), _LS(ls.y), _LS(ls.z), _LS(ls.i), _LS(ls.j), _LS(ls.k), _LS(ls.u), _LS(ls.v), _LS(ls.w) ); return ls; }
FI const XYZval<T> operator-() const { XYZval<T> o = *this; NUM_AXIS_CODE(o.x = -x, o.y = -y, o.z = -z, o.i = -i, o.j = -j, o.k = -k, o.u = -u, o.v = -v, o.w = -w); return o; }
FI XYZval<T> operator-() { XYZval<T> o = *this; NUM_AXIS_CODE(o.x = -x, o.y = -y, o.z = -z, o.i = -i, o.j = -j, o.k = -k, o.u = -u, o.v = -v, o.w = -w); return o; }
@ -595,10 +595,10 @@ struct XYZval {
FI XYZval<T>& operator-=(const XYZEval<T> &rs) { NUM_AXIS_CODE(x -= rs.x, y -= rs.y, z -= rs.z, i -= rs.i, j -= rs.j, k -= rs.k, u -= rs.u, v -= rs.v, w -= rs.w); return *this; }
FI XYZval<T>& operator*=(const XYZEval<T> &rs) { NUM_AXIS_CODE(x *= rs.x, y *= rs.y, z *= rs.z, i *= rs.i, j *= rs.j, k *= rs.k, u *= rs.u, v *= rs.v, w *= rs.w); return *this; }
FI XYZval<T>& operator/=(const XYZEval<T> &rs) { NUM_AXIS_CODE(x /= rs.x, y /= rs.y, z /= rs.z, i /= rs.i, j /= rs.j, k /= rs.k, u /= rs.u, v /= rs.v, w /= rs.w); return *this; }
FI XYZval<T>& operator*=(const float &v) { NUM_AXIS_CODE(x *= v, y *= v, z *= v, i *= v, j *= v, k *= v, u *= v, v *= v, w *= v); return *this; }
FI XYZval<T>& operator*=(const int &v) { NUM_AXIS_CODE(x *= v, y *= v, z *= v, i *= v, j *= v, k *= v, u *= v, v *= v, w *= v); return *this; }
FI XYZval<T>& operator>>=(const int &v) { NUM_AXIS_CODE(_RS(x), _RS(y), _RS(z), _RS(i), _RS(j), _RS(k), _RS(u), _RS(v), _RS(w)); return *this; }
FI XYZval<T>& operator<<=(const int &v) { NUM_AXIS_CODE(_LS(x), _LS(y), _LS(z), _LS(i), _LS(j), _LS(k), _LS(u), _LS(v), _LS(w)); return *this; }
FI XYZval<T>& operator*=(const float &p) { NUM_AXIS_CODE(x *= p, y *= p, z *= p, i *= p, j *= p, k *= p, u *= p, v *= p, w *= p); return *this; }
FI XYZval<T>& operator*=(const int &p) { NUM_AXIS_CODE(x *= p, y *= p, z *= p, i *= p, j *= p, k *= p, u *= p, v *= p, w *= p); return *this; }
FI XYZval<T>& operator>>=(const int &p) { NUM_AXIS_CODE(_RS(x), _RS(y), _RS(z), _RS(i), _RS(j), _RS(k), _RS(u), _RS(v), _RS(w)); return *this; }
FI XYZval<T>& operator<<=(const int &p) { NUM_AXIS_CODE(_LS(x), _LS(y), _LS(z), _LS(i), _LS(j), _LS(k), _LS(u), _LS(v), _LS(w)); return *this; }
// Exact comparisons. For floats a "NEAR" operation may be better.
FI bool operator==(const XYZEval<T> &rs) const { return true NUM_AXIS_GANG(&& x == rs.x, && y == rs.y, && z == rs.z, && i == rs.i, && j == rs.j, && k == rs.k, && u == rs.u, && v == rs.v, && w == rs.w); }
@ -654,15 +654,15 @@ struct XYZEval {
#endif
// Length reduced to one dimension
FI T magnitude() const { return (T)sqrtf(LOGICAL_AXIS_GANG(+ e*e, + x*x, + y*y, + z*z, + i*i, + j*j, + k*k, + u*u, + v*v, + w*w)); }
FI T magnitude() const { return (T)sqrtf(LOGICAL_AXIS_GANG(+ e*e, + x*x, + y*y, + z*z, + i*i, + j*j, + k*k, + u*u, + v*v, + w*w)); }
// Pointer to the data as a simple array
FI operator T* () { return pos; }
FI operator T* () { return pos; }
// If any element is true then it's true
FI operator bool() { return 0 LOGICAL_AXIS_GANG(|| e, || x, || y, || z, || i, || j, || k, || u, || v, || w); }
FI operator bool() { return 0 LOGICAL_AXIS_GANG(|| e, || x, || y, || z, || i, || j, || k, || u, || v, || w); }
// Smallest element
FI T small() const { return _MIN(LOGICAL_AXIS_LIST(e, x, y, z, i, j, k, u, v, w)); }
FI T small() const { return _MIN(LOGICAL_AXIS_LIST(e, x, y, z, i, j, k, u, v, w)); }
// Largest element
FI T large() const { return _MAX(LOGICAL_AXIS_LIST(e, x, y, z, i, j, k, u, v, w)); }
FI T large() const { return _MAX(LOGICAL_AXIS_LIST(e, x, y, z, i, j, k, u, v, w)); }
// Explicit copy and copies with conversion
FI XYZEval<T> copy() const { XYZEval<T> v = *this; return v; }
@ -688,76 +688,76 @@ struct XYZEval {
FI operator const XYZval<T>&() const { return *(const XYZval<T>*)this; }
// Accessor via an AxisEnum (or any integer) [index]
FI T& operator[](const int n) { return pos[n]; }
FI const T& operator[](const int n) const { return pos[n]; }
FI T& operator[](const int n) { return pos[n]; }
FI const T& operator[](const int n) const { return pos[n]; }
// Assignment operator overrides do the expected thing
FI XYZEval<T>& operator= (const T v) { set(LOGICAL_AXIS_LIST_1(v)); return *this; }
FI XYZEval<T>& operator= (const XYval<T> &rs) { set(rs.x, rs.y); return *this; }
FI XYZEval<T>& operator= (const XYZval<T> &rs) { set(NUM_AXIS_ELEM(rs)); return *this; }
FI XYZEval<T>& operator= (const T v) { set(LOGICAL_AXIS_LIST_1(v)); return *this; }
FI XYZEval<T>& operator= (const XYval<T> &rs) { set(rs.x, rs.y); return *this; }
FI XYZEval<T>& operator= (const XYZval<T> &rs) { set(NUM_AXIS_ELEM(rs)); return *this; }
// Override other operators to get intuitive behaviors
FI XYZEval<T> operator+ (const XYval<T> &rs) const { XYZEval<T> ls = *this; ls.x += rs.x; ls.y += rs.y; return ls; }
FI XYZEval<T> operator+ (const XYval<T> &rs) { XYZEval<T> ls = *this; ls.x += rs.x; ls.y += rs.y; return ls; }
FI XYZEval<T> operator- (const XYval<T> &rs) const { XYZEval<T> ls = *this; ls.x -= rs.x; ls.y -= rs.y; return ls; }
FI XYZEval<T> operator- (const XYval<T> &rs) { XYZEval<T> ls = *this; ls.x -= rs.x; ls.y -= rs.y; return ls; }
FI XYZEval<T> operator* (const XYval<T> &rs) const { XYZEval<T> ls = *this; ls.x *= rs.x; ls.y *= rs.y; return ls; }
FI XYZEval<T> operator* (const XYval<T> &rs) { XYZEval<T> ls = *this; ls.x *= rs.x; ls.y *= rs.y; return ls; }
FI XYZEval<T> operator/ (const XYval<T> &rs) const { XYZEval<T> ls = *this; ls.x /= rs.x; ls.y /= rs.y; return ls; }
FI XYZEval<T> operator/ (const XYval<T> &rs) { XYZEval<T> ls = *this; ls.x /= rs.x; ls.y /= rs.y; return ls; }
FI XYZEval<T> operator+ (const XYZval<T> &rs) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x += rs.x, ls.y += rs.y, ls.z += rs.z, ls.i += rs.i, ls.j += rs.j, ls.k += rs.k, ls.u += rs.u, ls.v += rs.v, ls.w += rs.w); return ls; }
FI XYZEval<T> operator+ (const XYZval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x += rs.x, ls.y += rs.y, ls.z += rs.z, ls.i += rs.i, ls.j += rs.j, ls.k += rs.k, ls.u += rs.u, ls.v += rs.v, ls.w += rs.w); return ls; }
FI XYZEval<T> operator- (const XYZval<T> &rs) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x -= rs.x, ls.y -= rs.y, ls.z -= rs.z, ls.i -= rs.i, ls.j -= rs.j, ls.k -= rs.k, ls.u -= rs.u, ls.v -= rs.v, ls.w -= rs.w); return ls; }
FI XYZEval<T> operator- (const XYZval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x -= rs.x, ls.y -= rs.y, ls.z -= rs.z, ls.i -= rs.i, ls.j -= rs.j, ls.k -= rs.k, ls.u -= rs.u, ls.v -= rs.v, ls.w -= rs.w); return ls; }
FI XYZEval<T> operator* (const XYZval<T> &rs) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= rs.x, ls.y *= rs.y, ls.z *= rs.z, ls.i *= rs.i, ls.j *= rs.j, ls.k *= rs.k, ls.u *= rs.u, ls.v *= rs.v, ls.w *= rs.w); return ls; }
FI XYZEval<T> operator* (const XYZval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= rs.x, ls.y *= rs.y, ls.z *= rs.z, ls.i *= rs.i, ls.j *= rs.j, ls.k *= rs.k, ls.u *= rs.u, ls.v *= rs.v, ls.w *= rs.w); return ls; }
FI XYZEval<T> operator/ (const XYZval<T> &rs) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZEval<T> operator/ (const XYZval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZEval<T> operator+ (const XYZEval<T> &rs) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e += rs.e, ls.x += rs.x, ls.y += rs.y, ls.z += rs.z, ls.i += rs.i, ls.j += rs.j, ls.k += rs.k, ls.u += rs.u, ls.v += rs.v, ls.w += rs.w); return ls; }
FI XYZEval<T> operator+ (const XYZEval<T> &rs) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e += rs.e, ls.x += rs.x, ls.y += rs.y, ls.z += rs.z, ls.i += rs.i, ls.j += rs.j, ls.k += rs.k, ls.u += rs.u, ls.v += rs.v, ls.w += rs.w); return ls; }
FI XYZEval<T> operator- (const XYZEval<T> &rs) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e -= rs.e, ls.x -= rs.x, ls.y -= rs.y, ls.z -= rs.z, ls.i -= rs.i, ls.j -= rs.j, ls.k -= rs.k, ls.u -= rs.u, ls.v -= rs.v, ls.w -= rs.w); return ls; }
FI XYZEval<T> operator- (const XYZEval<T> &rs) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e -= rs.e, ls.x -= rs.x, ls.y -= rs.y, ls.z -= rs.z, ls.i -= rs.i, ls.j -= rs.j, ls.k -= rs.k, ls.u -= rs.u, ls.v -= rs.v, ls.w -= rs.w); return ls; }
FI XYZEval<T> operator* (const XYZEval<T> &rs) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= rs.e, ls.x *= rs.x, ls.y *= rs.y, ls.z *= rs.z, ls.i *= rs.i, ls.j *= rs.j, ls.k *= rs.k, ls.u *= rs.u, ls.v *= rs.v, ls.w *= rs.w); return ls; }
FI XYZEval<T> operator* (const XYZEval<T> &rs) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= rs.e, ls.x *= rs.x, ls.y *= rs.y, ls.z *= rs.z, ls.i *= rs.i, ls.j *= rs.j, ls.k *= rs.k, ls.u *= rs.u, ls.v *= rs.v, ls.w *= rs.w); return ls; }
FI XYZEval<T> operator/ (const XYZEval<T> &rs) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= rs.e, ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZEval<T> operator/ (const XYZEval<T> &rs) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= rs.e, ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZEval<T> operator* (const float &v) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= v, ls.x *= v, ls.y *= v, ls.z *= v, ls.i *= v, ls.j *= v, ls.k *= v, ls.u *= v, ls.v *= v, ls.w *= v ); return ls; }
FI XYZEval<T> operator* (const float &v) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= v, ls.x *= v, ls.y *= v, ls.z *= v, ls.i *= v, ls.j *= v, ls.k *= v, ls.u *= v, ls.v *= v, ls.w *= v ); return ls; }
FI XYZEval<T> operator* (const int &v) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= v, ls.x *= v, ls.y *= v, ls.z *= v, ls.i *= v, ls.j *= v, ls.k *= v, ls.u *= v, ls.v *= v, ls.w *= v ); return ls; }
FI XYZEval<T> operator* (const int &v) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= v, ls.x *= v, ls.y *= v, ls.z *= v, ls.i *= v, ls.j *= v, ls.k *= v, ls.u *= v, ls.v *= v, ls.w *= v ); return ls; }
FI XYZEval<T> operator/ (const float &v) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= v, ls.x /= v, ls.y /= v, ls.z /= v, ls.i /= v, ls.j /= v, ls.k /= v, ls.u /= v, ls.v /= v, ls.w /= v ); return ls; }
FI XYZEval<T> operator/ (const float &v) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= v, ls.x /= v, ls.y /= v, ls.z /= v, ls.i /= v, ls.j /= v, ls.k /= v, ls.u /= v, ls.v /= v, ls.w /= v ); return ls; }
FI XYZEval<T> operator/ (const int &v) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= v, ls.x /= v, ls.y /= v, ls.z /= v, ls.i /= v, ls.j /= v, ls.k /= v, ls.u /= v, ls.v /= v, ls.w /= v ); return ls; }
FI XYZEval<T> operator/ (const int &v) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= v, ls.x /= v, ls.y /= v, ls.z /= v, ls.i /= v, ls.j /= v, ls.k /= v, ls.u /= v, ls.v /= v, ls.w /= v ); return ls; }
FI XYZEval<T> operator>>(const int &v) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(_RS(ls.e), _RS(ls.x), _RS(ls.y), _RS(ls.z), _RS(ls.i), _RS(ls.j), _RS(ls.k), _RS(ls.u), _RS(ls.v), _RS(ls.w) ); return ls; }
FI XYZEval<T> operator>>(const int &v) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(_RS(ls.e), _RS(ls.x), _RS(ls.y), _RS(ls.z), _RS(ls.i), _RS(ls.j), _RS(ls.k), _RS(ls.u), _RS(ls.v), _RS(ls.w) ); return ls; }
FI XYZEval<T> operator<<(const int &v) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(_LS(ls.e), _LS(ls.x), _LS(ls.y), _LS(ls.z), _LS(ls.i), _LS(ls.j), _LS(ls.k), _LS(ls.u), _LS(ls.v), _LS(ls.w) ); return ls; }
FI XYZEval<T> operator<<(const int &v) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(_LS(ls.e), _LS(ls.x), _LS(ls.y), _LS(ls.z), _LS(ls.i), _LS(ls.j), _LS(ls.k), _LS(ls.u), _LS(ls.v), _LS(ls.w) ); return ls; }
FI const XYZEval<T> operator-() const { return LOGICAL_AXIS_ARRAY(-e, -x, -y, -z, -i, -j, -k, -u, -v, -w); }
FI XYZEval<T> operator-() { return LOGICAL_AXIS_ARRAY(-e, -x, -y, -z, -i, -j, -k, -u, -v, -w); }
FI XYZEval<T> operator+ (const XYval<T> &rs) const { XYZEval<T> ls = *this; ls.x += rs.x; ls.y += rs.y; return ls; }
FI XYZEval<T> operator+ (const XYval<T> &rs) { XYZEval<T> ls = *this; ls.x += rs.x; ls.y += rs.y; return ls; }
FI XYZEval<T> operator- (const XYval<T> &rs) const { XYZEval<T> ls = *this; ls.x -= rs.x; ls.y -= rs.y; return ls; }
FI XYZEval<T> operator- (const XYval<T> &rs) { XYZEval<T> ls = *this; ls.x -= rs.x; ls.y -= rs.y; return ls; }
FI XYZEval<T> operator* (const XYval<T> &rs) const { XYZEval<T> ls = *this; ls.x *= rs.x; ls.y *= rs.y; return ls; }
FI XYZEval<T> operator* (const XYval<T> &rs) { XYZEval<T> ls = *this; ls.x *= rs.x; ls.y *= rs.y; return ls; }
FI XYZEval<T> operator/ (const XYval<T> &rs) const { XYZEval<T> ls = *this; ls.x /= rs.x; ls.y /= rs.y; return ls; }
FI XYZEval<T> operator/ (const XYval<T> &rs) { XYZEval<T> ls = *this; ls.x /= rs.x; ls.y /= rs.y; return ls; }
FI XYZEval<T> operator+ (const XYZval<T> &rs) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x += rs.x, ls.y += rs.y, ls.z += rs.z, ls.i += rs.i, ls.j += rs.j, ls.k += rs.k, ls.u += rs.u, ls.v += rs.v, ls.w += rs.w); return ls; }
FI XYZEval<T> operator+ (const XYZval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x += rs.x, ls.y += rs.y, ls.z += rs.z, ls.i += rs.i, ls.j += rs.j, ls.k += rs.k, ls.u += rs.u, ls.v += rs.v, ls.w += rs.w); return ls; }
FI XYZEval<T> operator- (const XYZval<T> &rs) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x -= rs.x, ls.y -= rs.y, ls.z -= rs.z, ls.i -= rs.i, ls.j -= rs.j, ls.k -= rs.k, ls.u -= rs.u, ls.v -= rs.v, ls.w -= rs.w); return ls; }
FI XYZEval<T> operator- (const XYZval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x -= rs.x, ls.y -= rs.y, ls.z -= rs.z, ls.i -= rs.i, ls.j -= rs.j, ls.k -= rs.k, ls.u -= rs.u, ls.v -= rs.v, ls.w -= rs.w); return ls; }
FI XYZEval<T> operator* (const XYZval<T> &rs) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= rs.x, ls.y *= rs.y, ls.z *= rs.z, ls.i *= rs.i, ls.j *= rs.j, ls.k *= rs.k, ls.u *= rs.u, ls.v *= rs.v, ls.w *= rs.w); return ls; }
FI XYZEval<T> operator* (const XYZval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x *= rs.x, ls.y *= rs.y, ls.z *= rs.z, ls.i *= rs.i, ls.j *= rs.j, ls.k *= rs.k, ls.u *= rs.u, ls.v *= rs.v, ls.w *= rs.w); return ls; }
FI XYZEval<T> operator/ (const XYZval<T> &rs) const { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZEval<T> operator/ (const XYZval<T> &rs) { XYZval<T> ls = *this; NUM_AXIS_CODE(ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZEval<T> operator+ (const XYZEval<T> &rs) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e += rs.e, ls.x += rs.x, ls.y += rs.y, ls.z += rs.z, ls.i += rs.i, ls.j += rs.j, ls.k += rs.k, ls.u += rs.u, ls.v += rs.v, ls.w += rs.w); return ls; }
FI XYZEval<T> operator+ (const XYZEval<T> &rs) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e += rs.e, ls.x += rs.x, ls.y += rs.y, ls.z += rs.z, ls.i += rs.i, ls.j += rs.j, ls.k += rs.k, ls.u += rs.u, ls.v += rs.v, ls.w += rs.w); return ls; }
FI XYZEval<T> operator- (const XYZEval<T> &rs) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e -= rs.e, ls.x -= rs.x, ls.y -= rs.y, ls.z -= rs.z, ls.i -= rs.i, ls.j -= rs.j, ls.k -= rs.k, ls.u -= rs.u, ls.v -= rs.v, ls.w -= rs.w); return ls; }
FI XYZEval<T> operator- (const XYZEval<T> &rs) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e -= rs.e, ls.x -= rs.x, ls.y -= rs.y, ls.z -= rs.z, ls.i -= rs.i, ls.j -= rs.j, ls.k -= rs.k, ls.u -= rs.u, ls.v -= rs.v, ls.w -= rs.w); return ls; }
FI XYZEval<T> operator* (const XYZEval<T> &rs) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= rs.e, ls.x *= rs.x, ls.y *= rs.y, ls.z *= rs.z, ls.i *= rs.i, ls.j *= rs.j, ls.k *= rs.k, ls.u *= rs.u, ls.v *= rs.v, ls.w *= rs.w); return ls; }
FI XYZEval<T> operator* (const XYZEval<T> &rs) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= rs.e, ls.x *= rs.x, ls.y *= rs.y, ls.z *= rs.z, ls.i *= rs.i, ls.j *= rs.j, ls.k *= rs.k, ls.u *= rs.u, ls.v *= rs.v, ls.w *= rs.w); return ls; }
FI XYZEval<T> operator/ (const XYZEval<T> &rs) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= rs.e, ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZEval<T> operator/ (const XYZEval<T> &rs) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= rs.e, ls.x /= rs.x, ls.y /= rs.y, ls.z /= rs.z, ls.i /= rs.i, ls.j /= rs.j, ls.k /= rs.k, ls.u /= rs.u, ls.v /= rs.v, ls.w /= rs.w); return ls; }
FI XYZEval<T> operator* (const float &p) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= p, ls.x *= p, ls.y *= p, ls.z *= p, ls.i *= p, ls.j *= p, ls.k *= p, ls.u *= p, ls.v *= p, ls.w *= p ); return ls; }
FI XYZEval<T> operator* (const float &p) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= p, ls.x *= p, ls.y *= p, ls.z *= p, ls.i *= p, ls.j *= p, ls.k *= p, ls.u *= p, ls.v *= p, ls.w *= p ); return ls; }
FI XYZEval<T> operator* (const int &p) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= p, ls.x *= p, ls.y *= p, ls.z *= p, ls.i *= p, ls.j *= p, ls.k *= p, ls.u *= p, ls.v *= p, ls.w *= p ); return ls; }
FI XYZEval<T> operator* (const int &p) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e *= p, ls.x *= p, ls.y *= p, ls.z *= p, ls.i *= p, ls.j *= p, ls.k *= p, ls.u *= p, ls.v *= p, ls.w *= p ); return ls; }
FI XYZEval<T> operator/ (const float &p) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= p, ls.x /= p, ls.y /= p, ls.z /= p, ls.i /= p, ls.j /= p, ls.k /= p, ls.u /= p, ls.v /= p, ls.w /= p ); return ls; }
FI XYZEval<T> operator/ (const float &p) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= p, ls.x /= p, ls.y /= p, ls.z /= p, ls.i /= p, ls.j /= p, ls.k /= p, ls.u /= p, ls.v /= p, ls.w /= p ); return ls; }
FI XYZEval<T> operator/ (const int &p) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= p, ls.x /= p, ls.y /= p, ls.z /= p, ls.i /= p, ls.j /= p, ls.k /= p, ls.u /= p, ls.v /= p, ls.w /= p ); return ls; }
FI XYZEval<T> operator/ (const int &p) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(ls.e /= p, ls.x /= p, ls.y /= p, ls.z /= p, ls.i /= p, ls.j /= p, ls.k /= p, ls.u /= p, ls.v /= p, ls.w /= p ); return ls; }
FI XYZEval<T> operator>>(const int &p) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(_RS(ls.e), _RS(ls.x), _RS(ls.y), _RS(ls.z), _RS(ls.i), _RS(ls.j), _RS(ls.k), _RS(ls.u), _RS(ls.v), _RS(ls.w) ); return ls; }
FI XYZEval<T> operator>>(const int &p) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(_RS(ls.e), _RS(ls.x), _RS(ls.y), _RS(ls.z), _RS(ls.i), _RS(ls.j), _RS(ls.k), _RS(ls.u), _RS(ls.v), _RS(ls.w) ); return ls; }
FI XYZEval<T> operator<<(const int &p) const { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(_LS(ls.e), _LS(ls.x), _LS(ls.y), _LS(ls.z), _LS(ls.i), _LS(ls.j), _LS(ls.k), _LS(ls.u), _LS(ls.v), _LS(ls.w) ); return ls; }
FI XYZEval<T> operator<<(const int &p) { XYZEval<T> ls = *this; LOGICAL_AXIS_CODE(_LS(ls.e), _LS(ls.x), _LS(ls.y), _LS(ls.z), _LS(ls.i), _LS(ls.j), _LS(ls.k), _LS(ls.u), _LS(ls.v), _LS(ls.w) ); return ls; }
FI const XYZEval<T> operator-() const { return LOGICAL_AXIS_ARRAY(-e, -x, -y, -z, -i, -j, -k, -u, -v, -w); }
FI XYZEval<T> operator-() { return LOGICAL_AXIS_ARRAY(-e, -x, -y, -z, -i, -j, -k, -u, -v, -w); }
// Modifier operators
FI XYZEval<T>& operator+=(const XYval<T> &rs) { x += rs.x; y += rs.y; return *this; }
FI XYZEval<T>& operator-=(const XYval<T> &rs) { x -= rs.x; y -= rs.y; return *this; }
FI XYZEval<T>& operator*=(const XYval<T> &rs) { x *= rs.x; y *= rs.y; return *this; }
FI XYZEval<T>& operator/=(const XYval<T> &rs) { x /= rs.x; y /= rs.y; return *this; }
FI XYZEval<T>& operator+=(const XYZval<T> &rs) { NUM_AXIS_CODE(x += rs.x, y += rs.y, z += rs.z, i += rs.i, j += rs.j, k += rs.k, u += rs.u, v += rs.v, w += rs.w); return *this; }
FI XYZEval<T>& operator-=(const XYZval<T> &rs) { NUM_AXIS_CODE(x -= rs.x, y -= rs.y, z -= rs.z, i -= rs.i, j -= rs.j, k -= rs.k, u -= rs.u, v -= rs.v, w -= rs.w); return *this; }
FI XYZEval<T>& operator*=(const XYZval<T> &rs) { NUM_AXIS_CODE(x *= rs.x, y *= rs.y, z *= rs.z, i *= rs.i, j *= rs.j, k *= rs.k, u *= rs.u, v *= rs.v, w *= rs.w); return *this; }
FI XYZEval<T>& operator/=(const XYZval<T> &rs) { NUM_AXIS_CODE(x /= rs.x, y /= rs.y, z /= rs.z, i /= rs.i, j /= rs.j, k /= rs.k, u /= rs.u, v /= rs.v, w /= rs.w); return *this; }
FI XYZEval<T>& operator+=(const XYZEval<T> &rs) { LOGICAL_AXIS_CODE(e += rs.e, x += rs.x, y += rs.y, z += rs.z, i += rs.i, j += rs.j, k += rs.k, u += rs.u, v += rs.v, w += rs.w); return *this; }
FI XYZEval<T>& operator-=(const XYZEval<T> &rs) { LOGICAL_AXIS_CODE(e -= rs.e, x -= rs.x, y -= rs.y, z -= rs.z, i -= rs.i, j -= rs.j, k -= rs.k, u -= rs.u, v -= rs.v, w -= rs.w); return *this; }
FI XYZEval<T>& operator*=(const XYZEval<T> &rs) { LOGICAL_AXIS_CODE(e *= rs.e, x *= rs.x, y *= rs.y, z *= rs.z, i *= rs.i, j *= rs.j, k *= rs.k, u *= rs.u, v *= rs.v, w *= rs.w); return *this; }
FI XYZEval<T>& operator/=(const XYZEval<T> &rs) { LOGICAL_AXIS_CODE(e /= rs.e, x /= rs.x, y /= rs.y, z /= rs.z, i /= rs.i, j /= rs.j, k /= rs.k, u /= rs.u, v /= rs.v, w /= rs.w); return *this; }
FI XYZEval<T>& operator*=(const T &v) { LOGICAL_AXIS_CODE(e *= v, x *= v, y *= v, z *= v, i *= v, j *= v, k *= v, u *= v, v *= v, w *= v); return *this; }
FI XYZEval<T>& operator>>=(const int &v) { LOGICAL_AXIS_CODE(_RS(e), _RS(x), _RS(y), _RS(z), _RS(i), _RS(j), _RS(k), _RS(u), _RS(v), _RS(w)); return *this; }
FI XYZEval<T>& operator<<=(const int &v) { LOGICAL_AXIS_CODE(_LS(e), _LS(x), _LS(y), _LS(z), _LS(i), _LS(j), _LS(k), _LS(u), _LS(v), _LS(w)); return *this; }
FI XYZEval<T>& operator+=(const XYval<T> &rs) { x += rs.x; y += rs.y; return *this; }
FI XYZEval<T>& operator-=(const XYval<T> &rs) { x -= rs.x; y -= rs.y; return *this; }
FI XYZEval<T>& operator*=(const XYval<T> &rs) { x *= rs.x; y *= rs.y; return *this; }
FI XYZEval<T>& operator/=(const XYval<T> &rs) { x /= rs.x; y /= rs.y; return *this; }
FI XYZEval<T>& operator+=(const XYZval<T> &rs) { NUM_AXIS_CODE(x += rs.x, y += rs.y, z += rs.z, i += rs.i, j += rs.j, k += rs.k, u += rs.u, v += rs.v, w += rs.w); return *this; }
FI XYZEval<T>& operator-=(const XYZval<T> &rs) { NUM_AXIS_CODE(x -= rs.x, y -= rs.y, z -= rs.z, i -= rs.i, j -= rs.j, k -= rs.k, u -= rs.u, v -= rs.v, w -= rs.w); return *this; }
FI XYZEval<T>& operator*=(const XYZval<T> &rs) { NUM_AXIS_CODE(x *= rs.x, y *= rs.y, z *= rs.z, i *= rs.i, j *= rs.j, k *= rs.k, u *= rs.u, v *= rs.v, w *= rs.w); return *this; }
FI XYZEval<T>& operator/=(const XYZval<T> &rs) { NUM_AXIS_CODE(x /= rs.x, y /= rs.y, z /= rs.z, i /= rs.i, j /= rs.j, k /= rs.k, u /= rs.u, v /= rs.v, w /= rs.w); return *this; }
FI XYZEval<T>& operator+=(const XYZEval<T> &rs) { LOGICAL_AXIS_CODE(e += rs.e, x += rs.x, y += rs.y, z += rs.z, i += rs.i, j += rs.j, k += rs.k, u += rs.u, v += rs.v, w += rs.w); return *this; }
FI XYZEval<T>& operator-=(const XYZEval<T> &rs) { LOGICAL_AXIS_CODE(e -= rs.e, x -= rs.x, y -= rs.y, z -= rs.z, i -= rs.i, j -= rs.j, k -= rs.k, u -= rs.u, v -= rs.v, w -= rs.w); return *this; }
FI XYZEval<T>& operator*=(const XYZEval<T> &rs) { LOGICAL_AXIS_CODE(e *= rs.e, x *= rs.x, y *= rs.y, z *= rs.z, i *= rs.i, j *= rs.j, k *= rs.k, u *= rs.u, v *= rs.v, w *= rs.w); return *this; }
FI XYZEval<T>& operator/=(const XYZEval<T> &rs) { LOGICAL_AXIS_CODE(e /= rs.e, x /= rs.x, y /= rs.y, z /= rs.z, i /= rs.i, j /= rs.j, k /= rs.k, u /= rs.u, v /= rs.v, w /= rs.w); return *this; }
FI XYZEval<T>& operator*=(const T &p) { LOGICAL_AXIS_CODE(e *= p, x *= p, y *= p, z *= p, i *= p, j *= p, k *= p, u *= p, v *= p, w *= p); return *this; }
FI XYZEval<T>& operator>>=(const int &p) { LOGICAL_AXIS_CODE(_RS(e), _RS(x), _RS(y), _RS(z), _RS(i), _RS(j), _RS(k), _RS(u), _RS(v), _RS(w)); return *this; }
FI XYZEval<T>& operator<<=(const int &p) { LOGICAL_AXIS_CODE(_LS(e), _LS(x), _LS(y), _LS(z), _LS(i), _LS(j), _LS(k), _LS(u), _LS(v), _LS(w)); return *this; }
// Exact comparisons. For floats a "NEAR" operation may be better.
FI bool operator==(const XYZval<T> &rs) const { return true NUM_AXIS_GANG(&& x == rs.x, && y == rs.y, && z == rs.z, && i == rs.i, && j == rs.j, && k == rs.k, && u == rs.u, && v == rs.v, && w == rs.w); }
FI bool operator==(const XYZEval<T> &rs) const { return true LOGICAL_AXIS_GANG(&& e == rs.e, && x == rs.x, && y == rs.y, && z == rs.z, && i == rs.i, && j == rs.j, && k == rs.k, && u == rs.u, && v == rs.v, && w == rs.w); }
FI bool operator!=(const XYZval<T> &rs) const { return !operator==(rs); }
FI bool operator!=(const XYZEval<T> &rs) const { return !operator==(rs); }
FI bool operator==(const XYZval<T> &rs) const { return true NUM_AXIS_GANG(&& x == rs.x, && y == rs.y, && z == rs.z, && i == rs.i, && j == rs.j, && k == rs.k, && u == rs.u, && v == rs.v, && w == rs.w); }
FI bool operator==(const XYZEval<T> &rs) const { return true LOGICAL_AXIS_GANG(&& e == rs.e, && x == rs.x, && y == rs.y, && z == rs.z, && i == rs.i, && j == rs.j, && k == rs.k, && u == rs.u, && v == rs.v, && w == rs.w); }
FI bool operator!=(const XYZval<T> &rs) const { return !operator==(rs); }
FI bool operator!=(const XYZEval<T> &rs) const { return !operator==(rs); }
};
#undef _RECIP

2
Marlin/src/module/probe.h
View File

@ -146,7 +146,7 @@ public:
#else
static constexpr xyz_pos_t offset = xyz_pos_t(NUM_AXIS_ARRAY(0, 0, 0, 0, 0, 0)); // See #16767
static constexpr xyz_pos_t offset = xyz_pos_t(NUM_AXIS_ARRAY_1(0)); // See #16767
static bool set_deployed(const bool) { return false; }