HackRF-Treasure-Chest/Software/Universal Radio Hacker/tests/test_spectrogram.py

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2022-09-22 22:46:47 +02:00
from PyQt5.QtCore import QTimer
from tests.QtTestCase import QtTestCase
from urh import colormaps
from urh.signalprocessing.Signal import Signal
from urh.signalprocessing.Spectrogram import Spectrogram
class TestSpectrogram(QtTestCase):
def setUp(self):
self.signal = Signal(self.get_path_for_filename("two_participants.complex16s"), "test")
self.spectrogram = Spectrogram(self.signal.iq_array.data)
def test_create_spectrogram_image(self):
image = self.spectrogram.create_spectrogram_image()
self.assertEqual(image.width(), self.spectrogram.time_bins - 2)
self.assertEqual(image.height(), self.spectrogram.freq_bins)
def test_create_colormap_image(self):
image = self.spectrogram.create_colormap_image("magma", height=42)
self.assertEqual(image.height(), 42)
self.assertEqual(image.width(), len(colormaps.chosen_colormap_numpy_bgra))
def test_channel_separation_with_negative_frequency(self):
super().setUp()
self.add_signal_to_form("three_channels.complex")
self.assertEqual(self.form.signal_tab_controller.num_frames, 1)
signal_frame = self.form.signal_tab_controller.signal_frames[0]
self.__prepare_channel_separation(signal_frame)
self.__test_extract_channel(signal_frame, freq1=650, freq2=850, bandwidth="195,312KHz", target_bits="11001101", center=0.1)
self.__test_extract_channel(signal_frame, freq1=500, freq2=620, bandwidth="117,188KHz", target_bits="10101001", center=0.1)
self.__test_extract_channel(signal_frame, freq1=217, freq2=324, bandwidth="104,492KHz", target_bits="10010111", center=0.1)
def test_cancel_filtering(self):
super().setUp()
self.add_signal_to_form("two_participants.complex16s")
signal_frame = self.form.signal_tab_controller.signal_frames[0]
signal_frame.ui.cbSignalView.setCurrentIndex(2)
signal_frame.ui.spinBoxSelectionStart.setValue(100)
signal_frame.ui.spinBoxSelectionEnd.setValue(200)
menu = signal_frame.ui.gvSpectrogram.create_context_menu()
create_action = next(action for action in menu.actions() if "bandpass filter" in action.text())
timer = QTimer(self.form)
timer.setSingleShot(True)
timer.timeout.connect(self.form.cancel_action.trigger)
timer.start(1)
create_action.trigger()
self.assertTrue(signal_frame.filter_abort_wanted)
self.assertEqual(self.form.signal_tab_controller.num_frames, 1)
def __prepare_channel_separation(self, signal_frame):
self.assertEqual(self.form.signal_tab_controller.num_frames, 1)
signal_frame = self.form.signal_tab_controller.signal_frames[0]
signal_frame.ui.spinBoxNoiseTreshold.setValue(0)
signal_frame.ui.spinBoxNoiseTreshold.editingFinished.emit()
self.assertEqual(signal_frame.signal.num_samples, 800)
signal_frame.ui.cbSignalView.setCurrentIndex(2)
self.assertTrue(signal_frame.spectrogram_is_active)
def __test_extract_channel(self, signal_frame, freq1, freq2, bandwidth: str, target_bits: str, center=None):
num_frames = self.form.signal_tab_controller.num_frames
signal_frame.ui.spinBoxSelectionStart.setValue(freq1)
signal_frame.ui.spinBoxSelectionEnd.setValue(freq2 - 1)
signal_frame.ui.spinBoxSelectionEnd.setValue(freq2)
self.assertEqual(signal_frame.ui.lNumSelectedSamples.text(), str(freq2 - freq1))
self.assertEqual(signal_frame.ui.lDuration.text().replace(".", ","), bandwidth)
menu = signal_frame.ui.gvSpectrogram.create_context_menu()
create_action = next(action for action in menu.actions() if "bandpass filter" in action.text())
create_action.trigger()
self.assertEqual(self.form.signal_tab_controller.num_frames, num_frames + 1)
filtered_frame = self.form.signal_tab_controller.signal_frames[1]
filtered_frame.ui.cbModulationType.setCurrentText("ASK")
filtered_frame.ui.spinBoxNoiseTreshold.setValue(0)
filtered_frame.ui.spinBoxNoiseTreshold.editingFinished.emit()
filtered_frame.ui.spinBoxSamplesPerSymbol.setValue(100)
filtered_frame.ui.spinBoxSamplesPerSymbol.editingFinished.emit()
if center is not None:
filtered_frame.ui.spinBoxCenterOffset.setValue(center)
filtered_frame.ui.spinBoxCenterOffset.editingFinished.emit()
self.assertEqual(len(filtered_frame.proto_analyzer.plain_bits_str), 1)
self.assertEqual(filtered_frame.proto_analyzer.plain_bits_str[0], target_bits)