fix quat::get_hpr(), set_hpr() in non-standard coordinate systems

panda/src/linmath/lquaternion_src.cxx

@@ -86,22 +86,22 @@ extract_to_matrix(FLOATNAME(LMatrix4) &m) const {
 //               (from Real-time Rendering, p.49)
 ////////////////////////////////////////////////////////////////////
 void FLOATNAME(LQuaternion)::
-set_hpr(const FLOATNAME(LVecBase3) &hpr) {
+set_hpr(const FLOATNAME(LVecBase3) &hpr, CoordinateSystem cs) {
   FLOATNAME(LQuaternion) quat_h, quat_p, quat_r;
 
   FLOATNAME(LVector3) v;
   FLOATTYPE a, s, c;
 
-  v = FLOATNAME(LVector3)::up();
+  v = FLOATNAME(LVector3)::up(cs);
   a = deg_2_rad(hpr[0] * 0.5f);
   csincos(a, &s, &c);
   quat_h.set(c, v[0] * s, v[1] * s, v[2] * s);
-  v = FLOATNAME(LVector3)::right();
+  v = FLOATNAME(LVector3)::right(cs);
   a = deg_2_rad(hpr[1] * 0.5f);
   csincos(a, &s, &c);
   s = csin(a);
   quat_p.set(c, v[0] * s, v[1] * s, v[2] * s);
-  v = FLOATNAME(LVector3)::forward();
+  v = FLOATNAME(LVector3)::forward(cs);
   a = deg_2_rad(hpr[2] * 0.5f);
   csincos(a, &s, &c);
   quat_r.set(c, v[0] * s, v[1] * s, v[2] * s);
@@ -136,7 +136,7 @@ set_hpr(const FLOATNAME(LVecBase3) &hpr) {
 //               quaternion.
 ////////////////////////////////////////////////////////////////////
 FLOATNAME(LVecBase3) FLOATNAME(LQuaternion)::
-get_hpr() const {
+get_hpr(CoordinateSystem cs) const {
   if (!temp_hpr_fix) {
     // With the old, broken hpr code in place, just go through the
     // existing matrix decomposition code.  Not particularly speedy,
@@ -146,11 +146,17 @@ get_hpr() const {
     FLOATNAME(LMatrix3) mat;
     extract_to_matrix(mat);
     FLOATNAME(LVecBase3) scale, hpr;
-    decompose_matrix(mat, scale, hpr);
+    decompose_matrix(mat, scale, hpr, cs);
     return hpr;
   }
 
+  if (cs == CS_default) {
+    cs = get_default_coordinate_system();
+  }
+
   FLOATNAME(LVecBase3) hpr;
+
+  if (cs == CS_zup_right) {
     FLOATTYPE N = (_v.data[0] * _v.data[0]) + (_v.data[1] * _v.data[1]) + (_v.data[2] * _v.data[2]) + (_v.data[3] * _v.data[3]);
     FLOATTYPE s = (N == 0.0f) ? 0.0f : (2.0f / N);
     FLOATTYPE xs, ys, zs, wx, wy, wz, xx, xy, xz, yy, yz, zz, c1, c2, c3, c4;
@@ -190,6 +196,18 @@ get_hpr() const {
     hpr[0] = rad_2_deg(catan2(sh, ch));
     hpr[1] = rad_2_deg(catan2(sp, cp));
 
+  } else {
+    // The code above implements quat-to-hpr for CS_zup_right only.
+    // For other coordinate systems, someone is welcome to extend the
+    // implementation; I'm going to choose the lazy path till then.
+    FLOATNAME(LMatrix3) mat;
+    extract_to_matrix(mat);
+    FLOATNAME(LVecBase3) scale;
+    decompose_matrix(mat, scale, hpr, cs);
+    return hpr;
+  }
+
+
 #ifndef NDEBUG
   if (paranoid_hpr_quat) {
     FLOATNAME(LMatrix3) mat;

panda/src/linmath/lquaternion_src.h

@@ -67,8 +67,8 @@ PUBLISHED:
 
   void set_from_matrix(const FLOATNAME(LMatrix3) &m);
   INLINE_LINMATH void set_from_matrix(const FLOATNAME(LMatrix4) &m);
-  void set_hpr(const FLOATNAME(LVecBase3) &hpr);
-  FLOATNAME(LVecBase3) get_hpr() const;
+  void set_hpr(const FLOATNAME(LVecBase3) &hpr, CoordinateSystem cs = CS_default);
+  FLOATNAME(LVecBase3) get_hpr(CoordinateSystem cs = CS_default) const;
 
   INLINE_LINMATH FLOATNAME(LVector3) get_axis() const;
   INLINE_LINMATH FLOATTYPE get_angle() const;