import unittest
from sohstationviewer.database.extractData import (
getChanPlotInfo,
getWFPlotInfo,
getChanLabel,
signatureChannels,
getColorDef,
getColorRanges,
)
class TestExtractData(unittest.TestCase):
def test_get_chan_plot_info_good_channel_and_data_type(self):
"""
Test basic functionality of getChanPlotInfo - channel and data type
combination exists in database table `Channels`
"""
expected_result = {'channel': 'SOH/Data Def',
'plotType': 'upDownDots',
'height': 2,
'unit': '',
'linkedChan': None,
'convertFactor': 1,
'label': 'SOH/Data Def',
'fixPoint': 0,
'valueColors': '0:W|1:C'}
self.assertDictEqual(getChanPlotInfo('SOH/Data Def', 'RT130'),
expected_result)
def test_get_chan_plot_info_data_type_is_unknown(self):
"""
Test basic functionality of getChanPlotInfo - data type is the string
'Unknown'.
"""
# Channel does not exist in database
expected_result = {'channel': 'DEFAULT',
'plotType': 'linesDots',
'height': 2,
'unit': '',
'linkedChan': None,
'convertFactor': 1,
'label': 'DEFAULT-Bad Channel ID',
'fixPoint': '0',
'valueColors': None}
self.assertDictEqual(getChanPlotInfo('Bad Channel ID', 'Unknown'),
expected_result)
# Channel exist in database
expected_result = {'channel': 'LCE',
'plotType': 'linesDots',
'height': 3,
'unit': 'us',
'linkedChan': None,
'convertFactor': 1,
'label': 'LCE-PhaseError',
'fixPoint': 0,
'valueColors': 'L:W|D:Y'}
self.assertDictEqual(getChanPlotInfo('LCE', 'Unknown'),
expected_result)
def test_get_chan_plot_info_bad_channel_or_data_type(self):
"""
Test basic functionality of getChanPlotInfo - channel and data type
combination does not exist in database table Channels and data type is
not the string 'Unknown'.
"""
# noinspection PyDictCreation
expected_result = {'channel': 'DEFAULT',
'plotType': 'linesDots',
'height': 2,
'unit': '',
'linkedChan': None,
'convertFactor': 1,
'label': None, # Change for each test case
'fixPoint': '0',
'valueColors': None}
# Data type has None value. None value comes from
# controller.processing.detectDataType.
expected_result['label'] = 'DEFAULT-SOH/Data Def'
self.assertDictEqual(getChanPlotInfo('SOH/Data Def', None),
expected_result)
# Channel and data type are empty strings
expected_result['label'] = 'DEFAULT-'
self.assertDictEqual(getChanPlotInfo('', ''), expected_result)
# Channel exists in database but data type does not
expected_result['label'] = 'DEFAULT-SOH/Data Def'
self.assertDictEqual(getChanPlotInfo('SOH/Data Def', 'Bad Data Type'),
expected_result)
# Data type exists in database but channel does not
expected_result['label'] = 'DEFAULT-Bad Channel ID'
self.assertDictEqual(getChanPlotInfo('Bad Channel ID', 'RT130'),
expected_result)
# Both channel and data type exists in database but not their
# combination
expected_result['label'] = 'DEFAULT-SOH/Data Def'
self.assertDictEqual(getChanPlotInfo('SOH/Data Def', 'Q330'),
expected_result)
def test_get_wf_plot_info(self):
"""
Test basic functionality of getWFPlotInfo - ensures returned dictionary
contains all the needed key. Bad channel IDs cases are handled in tests
for getChanLabel.
"""
result = getWFPlotInfo('CH1')
expected_keys = ('param', 'plotType', 'valueColors', 'height',
'label', 'unit', 'channel')
self.assertTupleEqual(tuple(result.keys()), expected_keys)
def test_get_chan_label_good_channel_id(self):
"""
Test basic functionality of getChanLabel - channel ID ends in one
of the keys in conf.dbSettings.dbConf['seisLabel'] or starts with 'DS'
"""
# Channel ID does not start with 'DS'
self.assertEqual(getChanLabel('CH1'), 'CH1-NS')
self.assertEqual(getChanLabel('CH2'), 'CH2-EW')
# Channel ID starts with 'DS'
self.assertEqual(getChanLabel('DS-TEST-CHANNEL'), 'DS-TEST-CHANNEL')
def test_get_chan_label_bad_channel_id(self):
"""
Test basic functionality of getChanLabel - channel ID does not end in
one of the keys in conf.dbSettings.dbConf['seisLabel'] or is the empty
string.
"""
self.assertRaises(KeyError, getChanLabel, 'CHG')
self.assertRaises(IndexError, getChanLabel, '')
def test_signature_channels(self):
"""Test basic functionality of signatureChannels"""
self.assertIsInstance(signatureChannels(), dict)
def test_get_color_def(self):
"""Test basic functionality of getColorDef"""
colors = getColorDef()
expected_colors = ['K', 'U', 'C', 'G', 'Y', 'R', 'M', 'E']
self.assertListEqual(colors, expected_colors)
def test_get_color_ranges(self):
"""Test basic functionality of getColorDef"""
names, all_counts, all_display_strings = getColorRanges()
num_color_def = 7
expected_names = ['antarctica', 'low', 'med', 'high']
self.assertEqual(names, expected_names)
# Check that each name correspond to a list of counts and list of
# of strings to display
self.assertEqual(len(names), len(all_counts))
self.assertEqual(len(names), len(all_display_strings))
# Check that each list of counts have enough items
for counts in all_counts:
self.assertEqual(len(counts), num_color_def)
# Check that each list of strings to display have enough items
for display_strings in all_display_strings:
self.assertEqual(len(display_strings), num_color_def + 1)