def viewing_angle_of_point(self, point):
# as measured from the positive x-axis
v1 = self.project(RIGHT)
v2 = self.project(np.array(point) - self.get_source_point())
absolute_angle = angle_between_vectors(v1, v2)
# determine the angle's sign depending on their plane's
# choice of orientation. That choice is set by the camera
# position, i. e. projection direction
if np.dot(self.projection_direction(), np.cross(v1, v2)) > 0:
return absolute_angle
else:
return -absolute_angle
def viewing_angle_of_point(self, point):
# as measured from the positive x-axis
v1 = self.project(RIGHT)
v2 = self.project(np.array(point) - self.get_source_point())
absolute_angle = angle_between_vectors(v1, v2)
# determine the angle's sign depending on their plane's
# choice of orientation. That choice is set by the camera
# position, i. e. projection direction
if np.dot(self.projection_direction(), np.cross(v1, v2)) > 0:
return absolute_angle
else:
return -absolute_angle
def new_sector(self, r, dr, lower_angle, upper_angle):
alpha = self.max_opacity * self.opacity_function(r)
annular_sector = AnnularSector(inner_radius=r,
outer_radius=r + dr,
color=self.color,
fill_opacity=alpha,
start_angle=lower_angle,
angle=upper_angle - lower_angle)
# rotate (not project) it into the viewing plane
rotation_matrix = z_to_vector(self.projection_direction())
annular_sector.apply_matrix(rotation_matrix)
# now rotate it inside that plane
rotated_RIGHT = np.dot(RIGHT, rotation_matrix.T)
projected_RIGHT = self.project(RIGHT)
omega = angle_between_vectors(rotated_RIGHT, projected_RIGHT)
annular_sector.rotate(omega, axis=self.projection_direction())
annular_sector.move_arc_center_to(self.get_source_point())
return annular_sector
def new_sector(self, r, dr, lower_angle, upper_angle):
alpha = self.max_opacity * self.opacity_function(r)
annular_sector = AnnularSector(
inner_radius=r,
outer_radius=r + dr,
color=self.color,
fill_opacity=alpha,
start_angle=lower_angle,
angle=upper_angle - lower_angle
)
# rotate (not project) it into the viewing plane
rotation_matrix = z_to_vector(self.projection_direction())
annular_sector.apply_matrix(rotation_matrix)
# now rotate it inside that plane
rotated_RIGHT = np.dot(RIGHT, rotation_matrix.T)
projected_RIGHT = self.project(RIGHT)
omega = angle_between_vectors(rotated_RIGHT, projected_RIGHT)
annular_sector.rotate(omega, axis=self.projection_direction())
annular_sector.move_arc_center_to(self.get_source_point())
return annular_sector