Source code for RsCmwLteMeas.Implementations.MultiEval.ListPy.Segment.Aclr.Average

from ......Internal.Core import Core
from ......Internal.CommandsGroup import CommandsGroup
from ......Internal.StructBase import StructBase
from ......Internal.ArgStruct import ArgStruct
from ...... import enums
from ...... import repcap


# noinspection PyPep8Naming,PyAttributeOutsideInit,SpellCheckingInspection


class AverageCls:
	"""Average commands group definition. 2 total commands, 0 Subgroups, 2 group commands"""

	def __init__(self, core: Core, parent):
		self._core = core
		self._cmd_group = CommandsGroup("average", core, parent)

	# noinspection PyTypeChecker


	class FetchStruct(StructBase):
		"""Response structure. Fields: \n
			- 1 Reliability: int: decimal 'Reliability indicator'
			- 2 Seg_Reliability: int: decimal Reliability indicator for the segment
			- 3 Statist_Expired: int: decimal Reached statistical length in slots
			- 4 Out_Of_Tolerance: int: decimal Percentage of measured subframes with failed limit check Unit: %
			- 5 Utra_2_Neg: float: float ACLR for the second UTRA channel with lower frequency Unit: dB
			- 6 Utra_1_Neg: float: float ACLR for the first UTRA channel with lower frequency Unit: dB
			- 7 Eutra_Negativ: float: float ACLR for the first E-UTRA channel below the carrier frequency Unit: dB
			- 8 Eutra: float: float Power in the allocated E-UTRA channel Unit: dBm
			- 9 Eutra_Positiv: float: float ACLR for the first E-UTRA channel above the carrier frequency Unit: dB
			- 10 Utra_1_Pos: float: float ACLR for the first UTRA channel with higher frequency Unit: dB
			- 11 Utra_2_Pos: float: float ACLR for the second UTRA channel with higher frequency Unit: dB"""
		__meta_args_list = [
			ArgStruct.scalar_int('Reliability', 'Reliability'),
			ArgStruct.scalar_int('Seg_Reliability'),
			ArgStruct.scalar_int('Statist_Expired'),
			ArgStruct.scalar_int('Out_Of_Tolerance'),
			ArgStruct.scalar_float('Utra_2_Neg'),
			ArgStruct.scalar_float('Utra_1_Neg'),
			ArgStruct.scalar_float('Eutra_Negativ'),
			ArgStruct.scalar_float('Eutra'),
			ArgStruct.scalar_float('Eutra_Positiv'),
			ArgStruct.scalar_float('Utra_1_Pos'),
			ArgStruct.scalar_float('Utra_2_Pos')]

		def __init__(self):
			StructBase.__init__(self, self)
			self.Reliability: int = None
			self.Seg_Reliability: int = None
			self.Statist_Expired: int = None
			self.Out_Of_Tolerance: int = None
			self.Utra_2_Neg: float = None
			self.Utra_1_Neg: float = None
			self.Eutra_Negativ: float = None
			self.Eutra: float = None
			self.Eutra_Positiv: float = None
			self.Utra_1_Pos: float = None
			self.Utra_2_Pos: float = None




	def fetch(self, segment=repcap.Segment.Default) -> FetchStruct:
		"""FETCh:LTE:MEASurement<Instance>:MEValuation:LIST:SEGMent<nr>:ACLR:AVERage \n
		Snippet: value: FetchStruct = driver.multiEval.listPy.segment.aclr.average.fetch(segment = repcap.Segment.Default) \n
		Return ACLR single value results for segment <no> in list mode. The values described below are returned by FETCh commands.
		The first four values (reliability to out of tolerance result) are also returned by CALCulate commands. The remaining
		values returned by CALCulate commands are limit check results, one value for each result listed below. \n
			:param segment: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Segment')
			:return: structure: for return value, see the help for FetchStruct structure arguments."""
		segment_cmd_val = self._cmd_group.get_repcap_cmd_value(segment, repcap.Segment)
		return self._core.io.query_struct(f'FETCh:LTE:MEASurement<Instance>:MEValuation:LIST:SEGMent{segment_cmd_val}:ACLR:AVERage?', self.__class__.FetchStruct())


	# noinspection PyTypeChecker


	class CalculateStruct(StructBase):
		"""Response structure. Fields: \n
			- 1 Reliability: int: decimal 'Reliability indicator'
			- 2 Seg_Reliability: int: decimal Reliability indicator for the segment
			- 3 Statist_Expired: int: decimal Reached statistical length in slots
			- 4 Out_Of_Tolerance: int: decimal Percentage of measured subframes with failed limit check Unit: %
			- 5 Utra_2_Neg: enums.ResultStatus2: float ACLR for the second UTRA channel with lower frequency Unit: dB
			- 6 Utra_1_Neg: enums.ResultStatus2: float ACLR for the first UTRA channel with lower frequency Unit: dB
			- 7 Eutra_Negativ: enums.ResultStatus2: float ACLR for the first E-UTRA channel below the carrier frequency Unit: dB
			- 8 Eutra: enums.ResultStatus2: float Power in the allocated E-UTRA channel Unit: dBm
			- 9 Eutra_Positiv: enums.ResultStatus2: float ACLR for the first E-UTRA channel above the carrier frequency Unit: dB
			- 10 Utra_1_Pos: enums.ResultStatus2: float ACLR for the first UTRA channel with higher frequency Unit: dB
			- 11 Utra_2_Pos: enums.ResultStatus2: float ACLR for the second UTRA channel with higher frequency Unit: dB"""
		__meta_args_list = [
			ArgStruct.scalar_int('Reliability', 'Reliability'),
			ArgStruct.scalar_int('Seg_Reliability'),
			ArgStruct.scalar_int('Statist_Expired'),
			ArgStruct.scalar_int('Out_Of_Tolerance'),
			ArgStruct.scalar_enum('Utra_2_Neg', enums.ResultStatus2),
			ArgStruct.scalar_enum('Utra_1_Neg', enums.ResultStatus2),
			ArgStruct.scalar_enum('Eutra_Negativ', enums.ResultStatus2),
			ArgStruct.scalar_enum('Eutra', enums.ResultStatus2),
			ArgStruct.scalar_enum('Eutra_Positiv', enums.ResultStatus2),
			ArgStruct.scalar_enum('Utra_1_Pos', enums.ResultStatus2),
			ArgStruct.scalar_enum('Utra_2_Pos', enums.ResultStatus2)]

		def __init__(self):
			StructBase.__init__(self, self)
			self.Reliability: int = None
			self.Seg_Reliability: int = None
			self.Statist_Expired: int = None
			self.Out_Of_Tolerance: int = None
			self.Utra_2_Neg: enums.ResultStatus2 = None
			self.Utra_1_Neg: enums.ResultStatus2 = None
			self.Eutra_Negativ: enums.ResultStatus2 = None
			self.Eutra: enums.ResultStatus2 = None
			self.Eutra_Positiv: enums.ResultStatus2 = None
			self.Utra_1_Pos: enums.ResultStatus2 = None
			self.Utra_2_Pos: enums.ResultStatus2 = None




	def calculate(self, segment=repcap.Segment.Default) -> CalculateStruct:
		"""CALCulate:LTE:MEASurement<Instance>:MEValuation:LIST:SEGMent<nr>:ACLR:AVERage \n
		Snippet: value: CalculateStruct = driver.multiEval.listPy.segment.aclr.average.calculate(segment = repcap.Segment.Default) \n
		Return ACLR single value results for segment <no> in list mode. The values described below are returned by FETCh commands.
		The first four values (reliability to out of tolerance result) are also returned by CALCulate commands. The remaining
		values returned by CALCulate commands are limit check results, one value for each result listed below. \n
			:param segment: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Segment')
			:return: structure: for return value, see the help for CalculateStruct structure arguments."""
		segment_cmd_val = self._cmd_group.get_repcap_cmd_value(segment, repcap.Segment)
		return self._core.io.query_struct(f'CALCulate:LTE:MEASurement<Instance>:MEValuation:LIST:SEGMent{segment_cmd_val}:ACLR:AVERage?', self.__class__.CalculateStruct())