from typing import List
from .......Internal.Core import Core
from .......Internal.CommandsGroup import CommandsGroup
# noinspection PyPep8Naming,PyAttributeOutsideInit,SpellCheckingInspection
[docs]class DataCls:
"""Data commands group definition. 3 total commands, 2 Subgroups, 1 group commands"""
def __init__(self, core: Core, parent):
self._core = core
self._cmd_group = CommandsGroup("data", core, parent)
@property
def memory(self):
"""memory commands group. 0 Sub-classes, 1 commands."""
if not hasattr(self, '_memory'):
from .Memory import MemoryCls
self._memory = MemoryCls(self._core, self._cmd_group)
return self._memory
@property
def memoryAll(self):
"""memoryAll commands group. 0 Sub-classes, 1 commands."""
if not hasattr(self, '_memoryAll'):
from .MemoryAll import MemoryAllCls
self._memoryAll = MemoryAllCls(self._core, self._cmd_group)
return self._memoryAll
[docs] def get(self) -> List[float]:
"""SCPI: TRACe:IQ:DATA \n
Snippet: value: List[float] = driver.applications.k149Uwb.trace.iq.data.get() \n
Initiates a measurement with the current settings and returns the captured data from I/Q measurements. Corresponds to:
INIT:IMM;*WAI;method RsFsw.Trace.Iq.Data.Memory.get_ However, the method RsFsw.Trace.Iq.Data.get_ command is quicker in
comparison. Note: Using the command with the *RST values for the TRACe:IQ:SET command, the following minimum buffer sizes
for the response data are recommended: ASCII format 10 kBytes, binary format: 2 kBytes \n
:return: iq_data: Measured voltage for I and Q component for each sample that has been captured during the measurement. For analog baseband input in real baseband mode, the results for the irrelevant component are all 0. For more information see 'I/Q processing modes'. The number of samples depends on TRACe:IQ:SET. In ASCII format, the number of results is 2* the number of samples. The data format depends on method RsFsw.Applications.K18_AmplifierEt.Trace.Iq.Data.FormatPy.set. Unit: V"""
response = self._core.io.query_bin_or_ascii_float_list(f'FORMAT REAL,32;TRACe:IQ:DATA?')
return response
def clone(self) -> 'DataCls':
"""Clones the group by creating new object from it and its whole existing subgroups
Also copies all the existing default Repeated Capabilities setting,
which you can change independently without affecting the original group"""
new_group = DataCls(self._core, self._cmd_group.parent)
self._cmd_group.synchronize_repcaps(new_group)
return new_group