from base_tef import BaseTEF668X, ADDRESS, Concatenate, P, T, Callable from typing import overload, TypeVar from functools import wraps T = TypeVar("T") @overload def _command_wrapper(func: Callable[Concatenate["TEF6686", P],tuple[bytes, int | None, None],],) -> Callable[Concatenate["TEF6686", P], bytes]: ... @overload def _command_wrapper(func: Callable[Concatenate["TEF6686", P],tuple[bytes, int | None, Callable[[bytes], T]],],) -> Callable[Concatenate["TEF6686", P], T]: ... def _command_wrapper( func: Callable[Concatenate["TEF6686", P], tuple[bytes, int | None, Callable[[bytes], T] | None], ]) -> Callable[Concatenate["TEF6686", P], bytes | T]: @wraps(func) def inner(self: "TEF6686", *args: P.args, **kwargs: P.kwargs) -> bytes | T: data, read_bytes, out_parser = func(self, *args, **kwargs) if read_bytes: data = self.p.write_read_i2c(ADDRESS, data, read_bytes) else: data = self.p.write_i2c(ADDRESS, data) if out_parser: return out_parser(data) return data return inner class TEF6686(BaseTEF668X): @_command_wrapper def FM_Tune_To(self, mode: int, frequency: int | None): return b"\x20\x01\x01" + mode.to_bytes(2, "big") + (frequency.to_bytes(2, "big") if frequency else b""), None, None @_command_wrapper def AM_Tune_To(self, mode: int, frequency: int | None): return b"\x21\x01\x01" + mode.to_bytes(2, "big") + (frequency.to_bytes(2, "big") if frequency else b""), None, None @_command_wrapper def FM_Set_Tune_Options(self, afu_bw_mode: bool = False, afu_bandwidth: int = 2360, afu_mute_time: int = 1000, afu_sample_time: int = 2000): return b"\x20\x02\x01" + afu_bw_mode.to_bytes(2, "big") + afu_bandwidth.to_bytes(2, "big") + afu_mute_time.to_bytes(2, "big") + afu_sample_time.to_bytes(2, "big"), None, None @_command_wrapper def FM_Set_Bandwidth(self, mode: bool = True, bandwidth: int = 2360, control_sensitivity: int = 1000, low_level_sensitivity: int = 1000): return b"\x20\x0a\x01" + mode.to_bytes(2, "big") + bandwidth.to_bytes(2, "big") + control_sensitivity.to_bytes(2, "big") + low_level_sensitivity.to_bytes(2, "big"), None, None @_command_wrapper def AM_Set_Bandwidth(self, bandwidth: int = 40): return b"\x21\x0a\x01\x00\x00" + bandwidth.to_bytes(2, "big"), None, None # todo: Set_RFAGC @_command_wrapper def AM_Set_Antenna(self, attenuation: int = 0): return b"\x21\x0c\x01" + attenuation.to_bytes(2, "big"), None, None @_command_wrapper def FM_Set_MphSuppression(self, mode: bool = False): return b"\x20\x14\x01" + mode.to_bytes(2, "big"), None, None @_command_wrapper def FM_Set_ChannelEqualizer(self, mode: bool = False): return b"\x20\x16\x01" + mode.to_bytes(2, "big"), None, None @_command_wrapper def FM_Set_Deemphasis(self, timeconstant: int = 500): return b"\x20\x1f\x01" + timeconstant.to_bytes(2, "big"), None, None @_command_wrapper def AM_Set_LevelOffset(self, offset: int = 0): return b"\x21\x27\x01" + offset.to_bytes(2, "big", signed=True), None, None @_command_wrapper def FM_Set_RDS(self, mode: int = 0, restart: int = 2, interface: int = 0): return b"\x20\x51\x01" + mode.to_bytes(2, "big") + restart.to_bytes(2, "big") + interface.to_bytes(2, "big"), None, None @_command_wrapper def FM_Set_Specials(self, mode: int = 0): return b"\x20\x55\x01" + mode.to_bytes(2, "big"), None, None @_command_wrapper def AUDIO_Set_Volume(self, volume: int = 0): return b"\x30\x0a\x01" + volume.to_bytes(2, "big", signed=True), None, None @_command_wrapper def AUDIO_Set_Mute(self, mute: bool = True): return b"\x30\x0b\x01" + int(mute).to_bytes(2, "big"), None, None @_command_wrapper def AUDIO_Set_Input(self, source: int = 0): return b"\x30\x0c\x01" + source.to_bytes(2, "big"), None, None @_command_wrapper def AUDIO_Set_Output_Source(self, signal: int, source: int = 224): return b"\x30\x0d\x01" + signal.to_bytes(2, "big") + source.to_bytes(2, "big"), None, None @_command_wrapper def AUDIO_Set_Ana_Out(self, signal: int, mode: bool = True): return b"\x30\x15\x01" + signal.to_bytes(2, "big") + mode.to_bytes(2, "big"), None, None @_command_wrapper def AUDIO_Set_WaveGen(self, mode: int = 0, offset: int = 0, amplitude1: int = -200, frequency1: int = 400, amplitude2: int = -200, frequency2: int = 1000): return b"\x30\x18\x01" + mode.to_bytes(2, "big") + offset.to_bytes(2, "big") + amplitude1.to_bytes(2, "big", signed=True) + frequency1.to_bytes(2, "big") + amplitude2.to_bytes(2, "big", signed=True) + frequency2.to_bytes(2, "big"), None, None @_command_wrapper def APPL_Set_OperationMode(self, mode: bool = True): return b"\x40\x01\x01" + mode.to_bytes(2, "big"), None, None @staticmethod def _get_quality_data(data) -> tuple[None, None, None, None, None, None, None] | tuple[int, int, int, int, int, int, int]: if data[1] != 0: return None, None, None, None, None, None, None status = (data[2] << 8) | data[3] level = int.from_bytes(bytes([data[4], data[5]]), "big", signed=True) usn = (data[6] << 8) | data[7] # "noise" on AM wam = (data[8] << 8) | data[9] # "co-channel" on AM offset = int.from_bytes(bytes([data[10], data[11]]), "big", signed=True) bandwidth = (data[12] << 8) | data[13] modulation = (data[14] << 8) | data[15] return status, level, usn, wam, offset, bandwidth, modulation @_command_wrapper def FM_Get_Quality_Status(self): return b"\x20\x80\x01", 14, self._get_quality_data @_command_wrapper def FM_Get_Quality_Data(self): return b"\x20\x81\x01", 14, self._get_quality_data @_command_wrapper def AM_Get_Quality_Status(self): return b"\x21\x80\x01", 14, self._get_quality_data @_command_wrapper def AM_Get_Quality_Data(self): return b"\x21\x81\x01", 14, self._get_quality_data @staticmethod def _get_rds_data_proc_decoder(data): if data[1] != 0: return None, None, None, None, None, None status = (data[2] << 8) | data[3] A_block = (data[4] << 8) | data[5] B_block = (data[6] << 8) | data[7] C_block = (data[8] << 8) | data[9] D_block = (data[10] << 8) | data[11] dec_error = (data[12] << 8) | data[13] return status, A_block, B_block, C_block, D_block, dec_error @staticmethod def _get_rds_data_proc_demodulator(data): if data[1] != 0: return None, None, None status = (data[2] << 8) | data[3] raw_data_high = (data[4] << 8) | data[5] raw_data_low = (data[6] << 8) | data[7] return status, (raw_data_high << 16) | raw_data_low @_command_wrapper def FM_Get_RDS_Status__decoder(self): return b"\x20\x82\x01", 12, self._get_rds_data_proc_decoder @_command_wrapper def FM_Get_RDS_Data__decoder(self): return b"\x20\x83\x01", 12, self._get_rds_data_proc_decoder @_command_wrapper def FM_Get_RDS_Status__demodulator(self): return b"\x20\x82\x01", 12, self._get_rds_data_proc_demodulator @_command_wrapper def FM_Get_RDS_Data__demodulator(self): return b"\x20\x83\x01", 12, self._get_rds_data_proc_demodulator @_command_wrapper def FM_Get_AGC(self): """ Returns None if there was a I2C error, or a tuple of booleans (FM Stereo/Mono and Analog/Digital radio [DR models]) """ def proc(data): if data[1] != 0: return None input_att = (data[2] << 8) | data[3] feedback_att = (data[4] << 8) | data[5] return input_att, feedback_att return b"\x20\x84\x01", 4, proc @_command_wrapper def FM_Get_Signal_Status(self): """ Returns None if there was a I2C error, or a tuple of booleans (FM Stereo/Mono and Analog/Digital radio [DR models]) """ def proc(data): if data[1] != 0: return None value = (data[-2] << 8) | data[-1] return (value & (1 << 15)) != 0, (value & (1 << 14)) != 0 return b"\x20\x85\x01", 2, proc @_command_wrapper def APPL_Get_Identification(self): def proc(data): if data[1] != 0: return None device = (data[2] << 8) | data[3] hw_version = (data[4] << 8) | data[5] sw_version = (data[6] << 8) | data[7] return device, hw_version, sw_version return b"\x40\x82\x01", 6, proc