from ...basic import __cell_arg__ as __cell_arg__ from ...routing import Route as Route from ...structures import Clothoid as Clothoid, circle as circle, hole as hole from _typeshed import Incomplete class Nano_ant: w_wg: Incomplete xs_wg: Incomplete etch_type: str vector: Incomplete teeth_number: Incomplete pitch: Incomplete duty_cycle: Incomplete taper_length: Incomplete ant_length: Incomplete width: Incomplete max_theta: Incomplete define_type: Incomplete etch_depth: Incomplete show_pins: Incomplete cell: Incomplete def __init__(self, w_wg: float = 0.41, xs_wg: str = 'strip', define_type: str = 'non-periodic', vector: float | list = [0.5, 0.5, 0.5, 0.5, 0.5, 0.5], taper_length: float = 3, width: float = 6, max_theta: float = 110, pitch: float | list = 0.6, duty_cycle: float | list = 0.3, teeth_number: float = 6, etch_depth: str | list = ['METCH'], show_pins: bool = True) -> None: ... def generate_gds(self, sample_step: float = 0.1, cell_name: str = 'Nanoantenna'): ... def generate_gds_positive(self, sample_step: float = 0.1): ... def generate_gds_error(self) -> None: ... class Taper: width1: Incomplete width2: Incomplete length: Incomplete type: Incomplete order: int show_pins: Incomplete cell: Incomplete def __init__(self, width1: int = 4, width2: float = 0.45, length: int = 30, type: str = 'linear', show_pins: bool = False) -> None: ... def generate_gds(self): ... class Grating_2D_Hole: w_wg: Incomplete w_gt: Incomplete l_taper: Incomplete type_taper: Incomplete gt_vector: Incomplete gt_num: Incomplete gt_diameter: Incomplete gt_layer: Incomplete polysi_vector: Incomplete polysi_num: Incomplete polysi_diameter: Incomplete polysi_layer: Incomplete reflector_vector: Incomplete l_field_center: Incomplete cell: Incomplete def __init__(self, w_wg: float = 0.5, w_gt: int = 5, l_taper: int = 30, type_taper: str = 'parabolic', gt_vector=[0.5, 0.5, 0.5, 0.5, 0.5], gt_diameter: float = 0.4, gt_layer: str = 'STRIP_COR', polysi_vector=[0.5, 0.5, 0.5, 0.5, 0.5], polysi_diameter: float = 0.4, polysi_layer: str = 'FCW_TRE', reflector_vector=[0.3, 0.3, 0.3, 0.3, 0.3, 0.3], l_field_center: int = 1) -> None: ... reflector_num: Incomplete def generate_gds(self): ... class GC_STD_2D: name: Incomplete instantiate: bool num_x: Incomplete num_y: Incomplete Lx_taper: Incomplete Ly_taper: Incomplete Lx_end: Incomplete Ly_end: Incomplete Lx_side: Incomplete Ly_side: Incomplete Lx_port: Incomplete Ly_port: Incomplete xs_open: Incomplete w_wg: Incomplete xs_wg: Incomplete etch_type: Incomplete shape: Incomplete hole_shape: Incomplete Dx_hole: Incomplete Dy_hole: Incomplete Px: Incomplete Py: Incomplete P_AR: Incomplete L_AR: Incomplete show_pins: Incomplete positive: bool layer_etch: Incomplete cell: Incomplete def __init__(self, name=None, etch_type: str = 'FETCH', xs_wg: str = 'grating', Dx_hole: float = 0.3, Dy_hole: float = 0.3, hole_shape: str = 'circle', shape: str = 'circle', xs_open: str = None, Px: float = 0.57, Py: float = 0.57, num_x: float = 25, num_y: float = 25, Lx_taper: float = 50.0, Ly_taper: float = 0.0, Lx_end: float = 1.0, Ly_end: float = 1.0, Lx_side: float = 0.5, Ly_side: float = 0.5, Lx_port: float = 5.0, Ly_port: float = 5.0, w_wg: float = 0.5, show_pins: bool = False, P_AR: float = 0.6, L_AR: float = 1) -> None: ... def generate_negative(self): ... def generate_positive(self): ... def generate_test_gds(self, dX_gc2gc: int = 300): ... class GC_STD_1D: name: Incomplete instantiate: bool xs_open: Incomplete xs_wg: Incomplete w_wg: Incomplete L_taper: Incomplete L_end: Incomplete A_taper: Incomplete show_pins: Incomplete L_tail: Incomplete positive: bool Period: Incomplete eta_etch: Incomplete num: Incomplete sector_gc: Incomplete L_AR: Incomplete P_AR: Incomplete layer_etch: Incomplete cell: Incomplete def __init__(self, name=None, xs_wg: str = 'strip', w_wg: float = 0.5, etch_type: str = 'FETCH', xs_open: str = None, L_taper: float = 10.0, L_end: float = 2.0, A_taper: float = 30.0, Period: float = 0.5, eta_etch: float = 0.5, num: int = 20, sector_gc: bool = True, show_pins: bool = False, L_tail: int = 2, P_AR: float = 1.0, L_AR: float = 2.0) -> None: ... def generate_negative(self): ... def generate_positive(self): ... def generate_test_dev(self, dX_gc2gc): ... class FA: pitch: Incomplete number: Incomplete cell: Incomplete def __init__(self, fiber_coupler, pitch, number, show_pins: bool = False) -> None: ...