def default_parameters(cls): rotation2 = Rotation.from_properties(0.0, [1, 0, 0], False) result = Parameters() result.connect_description1 = (Expression("True"), Expression("node.get_radius()")) result.repulse_description1 = (Expression("True"), Expression("node.get_radius()")) result.connect_description2 = (Expression("True"), Expression("node.get_radius()")) result.repulse_description2 = (Expression("True"), Expression("node.get_radius()")) result.action_radius = 7*angstrom result.distance_tolerance = 0.1*angstrom result.hit_tolerance = 0.1*angstrom result.allow_inversions = True result.minimum_triangle_size = 0.1*angstrom result.rotation_tolerance = 0.05 result.rotation2 = Undefined(rotation2) return result
def default_parameters(cls): rotation2 = Rotation.from_properties(0.0, [1, 0, 0], False) result = Parameters() result.connect_description1 = (Expression("True"), Expression("node.get_radius()")) result.repulse_description1 = (Expression("True"), Expression("node.get_radius()")) result.connect_description2 = (Expression("True"), Expression("node.get_radius()")) result.repulse_description2 = (Expression("True"), Expression("node.get_radius()")) result.action_radius = 7 * angstrom result.distance_tolerance = 0.1 * angstrom result.hit_tolerance = 0.1 * angstrom result.allow_inversions = True result.minimum_triangle_size = 0.1 * angstrom result.rotation_tolerance = 0.05 result.rotation2 = Undefined(rotation2) return result