"""Provides methods to fetch and read the FrequencyRange measurement results."""
import functools
import nirfmxbluetooth.attributes as attributes
import nirfmxbluetooth.errors as errors
import nirfmxbluetooth.internal._helper as _helper
def _raise_if_disposed(f):
"""From https://stackoverflow.com/questions/5929107/decorators-with-parameters."""
@functools.wraps(f)
def aux(*xs, **kws):
meas_obj = xs[0] # parameter 0 is 'self' which is the measurement object
if meas_obj._signal_obj.is_disposed:
raise Exception("Cannot access a disposed BT signal configuration")
return f(*xs, **kws)
return aux
[docs]
class FrequencyRangeResults(object):
"""Provides methods to fetch and read the FrequencyRange measurement results."""
def __init__(self, signal_obj):
"""Provides methods to fetch and read the FrequencyRange measurement results."""
self._signal_obj = signal_obj
self._session_function_lock = signal_obj._session_function_lock
self._interpreter = signal_obj._interpreter
[docs]
@_raise_if_disposed
def get_high_frequency(self, selector_string):
r"""Gets the highest frequency above the center frequency at which the transmit power drops below -30 dBm measured in a
100 kHz bandwidth. This value is expressed in Hz.
You do not need to use a selector string to read this result for the default signal and result instance. Refer
to the `Selector String <https://www.ni.com/docs/en-US/bundle/rfmx/page/selector-strings-net.html>`_ topic for
information about the string syntax for named signals and results.
Args:
selector_string (string):
Pass an empty string.
Returns:
Tuple (attr_val, error_code):
attr_val (float):
Returns the highest frequency above the center frequency at which the transmit power drops below -30 dBm measured in a
100 kHz bandwidth. This value is expressed in Hz.
error_code (int):
Returns the status code of this method. The status code either indicates success or describes a warning condition.
"""
try:
self._session_function_lock.enter_read_lock()
updated_selector_string = _helper.validate_and_update_selector_string(
selector_string, self._signal_obj
)
attr_val, error_code = self._interpreter.get_attribute_f64(
updated_selector_string,
attributes.AttributeID.FREQUENCY_RANGE_RESULTS_HIGH_FREQUENCY.value,
)
finally:
self._session_function_lock.exit_read_lock()
return attr_val, error_code
[docs]
@_raise_if_disposed
def get_low_frequency(self, selector_string):
r"""Gets the lowest frequency below the center frequency at which the transmit power drops below -30 dBm measured in a
100 kHz bandwidth. This value is expressed in Hz.
You do not need to use a selector string to read this result for the default signal and result instance. Refer
to the `Selector String <https://www.ni.com/docs/en-US/bundle/rfmx/page/selector-strings-net.html>`_ topic for
information about the string syntax for named signals and results.
Args:
selector_string (string):
Pass an empty string.
Returns:
Tuple (attr_val, error_code):
attr_val (float):
Returns the lowest frequency below the center frequency at which the transmit power drops below -30 dBm measured in a
100 kHz bandwidth. This value is expressed in Hz.
error_code (int):
Returns the status code of this method. The status code either indicates success or describes a warning condition.
"""
try:
self._session_function_lock.enter_read_lock()
updated_selector_string = _helper.validate_and_update_selector_string(
selector_string, self._signal_obj
)
attr_val, error_code = self._interpreter.get_attribute_f64(
updated_selector_string,
attributes.AttributeID.FREQUENCY_RANGE_RESULTS_LOW_FREQUENCY.value,
)
finally:
self._session_function_lock.exit_read_lock()
return attr_val, error_code
[docs]
@_raise_if_disposed
def fetch_measurement(self, selector_string, timeout):
r"""Fetches the FrequencyRange measurement results.
Args:
selector_string (string):
This parameter specifies a `Selector String
<https://www.ni.com/docs/en-US/bundle/rfmx/page/selector-strings-net.html>`_ comprising of the
result name.
Example:
"result::r1"
You can use the :py:meth:`build_result_string` method to build the selector string.
timeout (float):
This parameter specifies the timeout for fetching the specified measurement. This value is expressed in seconds. Set
this value to an appropriate time, longer than expected for fetching the measurement. A value of -1 specifies that the
method waits until the measurement is complete. The default value is 10.
Returns:
Tuple (high_frequency, low_frequency, error_code):
high_frequency (float):
This parameter returns the highest frequency above the center frequency at which the transmit power drops below -30 dBm
measured in a 100 kHz bandwidth. This value is expressed in Hz.
low_frequency (float):
This parameter returns the lowest frequency below the center frequency at which the transmit power drops below -30 dBm
measured in a 100 kHz bandwidth. This value is expressed in Hz.
error_code (int):
Returns the status code of this method. The status code either indicates success or describes a warning condition.
"""
try:
self._session_function_lock.enter_read_lock()
_helper.validate_not_none(selector_string, "selector_string")
updated_selector_string = _helper.validate_and_update_selector_string(
selector_string, self._signal_obj
)
high_frequency, low_frequency, error_code = (
self._interpreter.frequency_range_fetch_measurement(
updated_selector_string, timeout
)
)
finally:
self._session_function_lock.exit_read_lock()
return high_frequency, low_frequency, error_code
[docs]
@_raise_if_disposed
def fetch_spectrum(self, selector_string, timeout, spectrum):
r"""Fetches the FrequencyRange spectrum trace.
Args:
selector_string (string):
This parameter specifies a `Selector String
<https://www.ni.com/docs/en-US/bundle/rfmx/page/selector-strings-net.html>`_ comprising of the
result name.
Example:
"result::r1"
You can use the :py:meth:`build_result_string` method to build the selector string.
timeout (float):
This parameter specifies the timeout for fetching the specified measurement. This value is expressed in seconds. Set
this value to an appropriate time, longer than expected for fetching the measurement. A value of -1 specifies that the
method waits until the measurement is complete. The default value is 10.
spectrum (numpy.float32):
This parameter returns the averaged power measured at each frequency bin. This value is expressed in dBm.
Returns:
Tuple (x0, dx, error_code):
x0 (float):
This parameter returns the start frequency. This value is expressed in Hz.
dx (float):
This parameter returns the frequency bin spacing. This value is expressed in Hz.
error_code (int):
Returns the status code of this method. The status code either indicates success or describes a warning condition.
"""
try:
self._session_function_lock.enter_read_lock()
_helper.validate_not_none(selector_string, "selector_string")
updated_selector_string = _helper.validate_and_update_selector_string(
selector_string, self._signal_obj
)
x0, dx, error_code = self._interpreter.frequency_range_fetch_spectrum(
updated_selector_string, timeout, spectrum
)
finally:
self._session_function_lock.exit_read_lock()
return x0, dx, error_code