Exemplo n.º 1
0
    def _trackball_point(self, point):
        n_point = self._nearplane_point(point)

        v = n_point - self.prev_pos
        v /= np.sqrt(v.dot(v))

        l = self.prev_ref - self.prev_pos
        ll = l.dot(l)

        t = l.dot(v)
        dd = max(0.0, ll - t * t)
        d = np.sqrt(dd)

        r = min(self.radius, np.sqrt(l.dot(l)) - self.near)
        rr = r * r

        len_l = np.sqrt(ll)
        unit_l = l / len_l
        axis = np.cross(unit_l, v)

        if dd > rr:
            sin = r / len_l
            s = np.sqrt(ll - rr)
            cos = s / len_l
            q = qt.from_axis_and_angle(axis, sin, cos)
            p = self.prev_pos + s * qt.rotate(q, unit_l)
        else:  # intersects
            sin = d / len_l
            cos = t / len_l
            q = qt.from_axis_and_angle(axis, sin, cos)
            dt = np.sqrt(rr - dd)
            t -= dt
            p = self.prev_pos + t * qt.rotate(q, unit_l)

        return p
Exemplo n.º 2
0
    def rotate(self, target):
        s = self.t_source - self.prev_ref
        e = self._trackball_point(target) - self.prev_ref

        q = ~qt.from_two_vectors(s, e)

        v = self.prev_pos - self.prev_ref
        self.pos = self.prev_ref + qt.rotate(q, v)
        self.up = qt.rotate(q, self.prev_up)

        self._look_at()
Exemplo n.º 3
0
 def rotate(self, rot_about, theta):
     """rot_about = unit vector to rotate about
     theta = radians"""
     r = quaternion.rotate([self.vec[0][0], self.vec[1][0], self.vec[2][0]],
                           [rot_about[0], rot_about[1], rot_about[2]],
                           theta)
     return Position(r[0], r[1], r[2])
Exemplo n.º 4
0
 def roll(self, phi):
     """Roll camera, positive phi right."""
     self.up = quat.rotate(self.up, self.forward, phi).normalize()
Exemplo n.º 5
0
 def yaw(self, phi):
     """Yaw camera, positive phi right."""
     self.forward = quat.rotate(self.forward, self.up, -phi).normalize()
Exemplo n.º 6
0
 def pitch(self, phi):
     """Pitch camera, positive phi down."""
     left = (self.up @ self.forward).normalize()
     self.forward = quat.rotate(self.forward, left, phi).normalize()
     self.up = quat.rotate(self.up, left, phi).normalize()
Exemplo n.º 7
0
 def rotateZ(self, theta):
     r = quaternion.rotate([self.vec[0][0], self.vec[1][0], self.vec[2][0]],
                           [0, 0, 1], theta)
     return Position(r[0], r[1], r[2])
Exemplo n.º 8
0
 def rotateZ(self, theta):
     p = quaternion.rotate(self.pos, [0, 0, 1], theta)
     uv = quaternion.rotate(self.upvec, [0, 0, 1], theta)
     return Position.VCam(p, uv)
Exemplo n.º 9
0
 def roll(self, phi):
     """Roll camera, positive phi right."""
     self.up = quat.rotate(self.up, self.forward, phi).normalize()
Exemplo n.º 10
0
 def yaw(self, phi):
     """Yaw camera, positive phi right."""
     self.forward = quat.rotate(self.forward, self.up, -phi).normalize()
Exemplo n.º 11
0
 def pitch(self, phi):
     """Pitch camera, positive phi down."""
     left = (self.up @ self.forward).normalize()
     self.forward = quat.rotate(self.forward, left, phi).normalize()
     self.up = quat.rotate(self.up, left, phi).normalize()