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|
from tests.unit import base
from chirp import import_logic
from chirp import chirp_common
from chirp import errors
class FakeRadio(chirp_common.Radio):
def __init__(self, arg):
self.POWER_LEVELS = list([chirp_common.PowerLevel('lo', watts=5),
chirp_common.PowerLevel('hi', watts=50)])
self.TMODES = list(['', 'Tone', 'TSQL'])
self.HAS_CTONE = True
self.HAS_RX_DTCS = False
self.MODES = list(['FM', 'AM', 'DV'])
self.DUPLEXES = list(['', '-', '+'])
def filter_name(self, name):
return 'filtered-name'
def get_features(self):
rf = chirp_common.RadioFeatures()
rf.valid_power_levels = self.POWER_LEVELS
rf.valid_tmodes = self.TMODES
rf.valid_modes = self.MODES
rf.valid_duplexes = self.DUPLEXES
rf.has_ctone = self.HAS_CTONE
rf.has_rx_dtcs = self.HAS_RX_DTCS
return rf
class FakeDstarRadio(FakeRadio, chirp_common.IcomDstarSupport):
pass
class DstarTests(base.BaseTest):
def _test_ensure_has_calls(self, mem,
ini_urcalls, ini_rptcalls,
exp_urcalls, exp_rptcalls):
radio = FakeDstarRadio(None)
self.mox.StubOutWithMock(radio, 'get_urcall_list')
self.mox.StubOutWithMock(radio, 'get_repeater_call_list')
radio.get_urcall_list().AndReturn(ini_urcalls)
radio.get_repeater_call_list().AndReturn(ini_rptcalls)
self.mox.ReplayAll()
import_logic.ensure_has_calls(radio, mem)
self.assertEqual(sorted(ini_urcalls), sorted(exp_urcalls))
self.assertEqual(sorted(ini_rptcalls), sorted(exp_rptcalls))
def test_ensure_has_calls_empty(self):
mem = chirp_common.DVMemory()
mem.dv_urcall = 'KK7DS'
mem.dv_rpt1call = 'KD7RFI B'
mem.dv_rpt2call = 'KD7RFI G'
ini_urcalls = ['', '', '', '', '']
ini_rptcalls = ['', '', '', '', '']
exp_urcalls = list(ini_urcalls)
exp_rptcalls = list(ini_rptcalls)
exp_urcalls[0] = mem.dv_urcall
exp_rptcalls[0] = mem.dv_rpt1call
exp_rptcalls[1] = mem.dv_rpt2call
self._test_ensure_has_calls(mem, ini_urcalls, ini_rptcalls,
exp_urcalls, exp_rptcalls)
def test_ensure_has_calls_partial(self):
mem = chirp_common.DVMemory()
mem.dv_urcall = 'KK7DS'
mem.dv_rpt1call = 'KD7RFI B'
mem.dv_rpt2call = 'KD7RFI G'
ini_urcalls = ['FOO', 'BAR', '', '', '']
ini_rptcalls = ['FOO', 'BAR', '', '', '']
exp_urcalls = list(ini_urcalls)
exp_rptcalls = list(ini_rptcalls)
exp_urcalls[2] = mem.dv_urcall
exp_rptcalls[2] = mem.dv_rpt1call
exp_rptcalls[3] = mem.dv_rpt2call
self._test_ensure_has_calls(mem, ini_urcalls, ini_rptcalls,
exp_urcalls, exp_rptcalls)
def test_ensure_has_calls_almost_full(self):
mem = chirp_common.DVMemory()
mem.dv_urcall = 'KK7DS'
mem.dv_rpt1call = 'KD7RFI B'
mem.dv_rpt2call = 'KD7RFI G'
ini_urcalls = ['FOO', 'BAR', 'BAZ', 'BAT', '']
ini_rptcalls = ['FOO', 'BAR', 'BAZ', '', '']
exp_urcalls = list(ini_urcalls)
exp_rptcalls = list(ini_rptcalls)
exp_urcalls[4] = mem.dv_urcall
exp_rptcalls[3] = mem.dv_rpt1call
exp_rptcalls[4] = mem.dv_rpt2call
self._test_ensure_has_calls(mem, ini_urcalls, ini_rptcalls,
exp_urcalls, exp_rptcalls)
def test_ensure_has_calls_urcall_full(self):
mem = chirp_common.DVMemory()
mem.dv_urcall = 'KK7DS'
mem.dv_rpt1call = 'KD7RFI B'
mem.dv_rpt2call = 'KD7RFI G'
ini_urcalls = ['FOO', 'BAR', 'BAZ', 'BAT', 'BOOM']
ini_rptcalls = ['FOO', 'BAR', 'BAZ', '', '']
exp_urcalls = list(ini_urcalls)
exp_rptcalls = list(ini_rptcalls)
exp_urcalls[4] = mem.dv_urcall
exp_rptcalls[3] = mem.dv_rpt1call
exp_rptcalls[4] = mem.dv_rpt2call
self.assertRaises(errors.RadioError,
self._test_ensure_has_calls,
mem, ini_urcalls, ini_rptcalls,
exp_urcalls, exp_rptcalls)
def test_ensure_has_calls_rptcall_full1(self):
mem = chirp_common.DVMemory()
mem.dv_urcall = 'KK7DS'
mem.dv_rpt1call = 'KD7RFI B'
mem.dv_rpt2call = 'KD7RFI G'
ini_urcalls = ['FOO', 'BAR', 'BAZ', 'BAT', '']
ini_rptcalls = ['FOO', 'BAR', 'BAZ', 'BAT', '']
exp_urcalls = list(ini_urcalls)
exp_rptcalls = list(ini_rptcalls)
exp_urcalls[4] = mem.dv_urcall
exp_rptcalls[3] = mem.dv_rpt1call
exp_rptcalls[4] = mem.dv_rpt2call
self.assertRaises(errors.RadioError,
self._test_ensure_has_calls,
mem, ini_urcalls, ini_rptcalls,
exp_urcalls, exp_rptcalls)
def test_ensure_has_calls_rptcall_full2(self):
mem = chirp_common.DVMemory()
mem.dv_urcall = 'KK7DS'
mem.dv_rpt1call = 'KD7RFI B'
mem.dv_rpt2call = 'KD7RFI G'
ini_urcalls = ['FOO', 'BAR', 'BAZ', 'BAT', '']
ini_rptcalls = ['FOO', 'BAR', 'BAZ', 'BAT', 'BOOM']
exp_urcalls = list(ini_urcalls)
exp_rptcalls = list(ini_rptcalls)
exp_urcalls[4] = mem.dv_urcall
exp_rptcalls[3] = mem.dv_rpt1call
exp_rptcalls[4] = mem.dv_rpt2call
self.assertRaises(errors.RadioError,
self._test_ensure_has_calls,
mem, ini_urcalls, ini_rptcalls,
exp_urcalls, exp_rptcalls)
class ImportFieldTests(base.BaseTest):
def test_import_name(self):
mem = chirp_common.Memory()
mem.name = 'foo'
import_logic._import_name(FakeRadio(None), None, mem)
self.assertEqual(mem.name, 'filtered-name')
def test_import_power_same(self):
radio = FakeRadio(None)
same_rf = radio.get_features()
mem = chirp_common.Memory()
mem.power = same_rf.valid_power_levels[0]
import_logic._import_power(radio, same_rf, mem)
self.assertEqual(mem.power, same_rf.valid_power_levels[0])
def test_import_power_no_src(self):
radio = FakeRadio(None)
src_rf = chirp_common.RadioFeatures()
mem = chirp_common.Memory()
mem.power = None
import_logic._import_power(radio, src_rf, mem)
self.assertEqual(mem.power, radio.POWER_LEVELS[0])
def test_import_power_no_dst(self):
radio = FakeRadio(None)
src_rf = radio.get_features() # Steal a copy before we stub out
self.mox.StubOutWithMock(radio, 'get_features')
radio.get_features().AndReturn(chirp_common.RadioFeatures())
self.mox.ReplayAll()
mem = chirp_common.Memory()
mem.power = src_rf.valid_power_levels[0]
import_logic._import_power(radio, src_rf, mem)
self.assertEqual(mem.power, None)
def test_import_power_closest(self):
radio = FakeRadio(None)
src_rf = chirp_common.RadioFeatures()
src_rf.valid_power_levels = [
chirp_common.PowerLevel('foo', watts=7),
chirp_common.PowerLevel('bar', watts=51),
chirp_common.PowerLevel('baz', watts=1),
]
mem = chirp_common.Memory()
mem.power = src_rf.valid_power_levels[0]
import_logic._import_power(radio, src_rf, mem)
self.assertEqual(mem.power, radio.POWER_LEVELS[0])
def test_import_tone_diffA_tsql(self):
radio = FakeRadio(None)
src_rf = chirp_common.RadioFeatures()
src_rf.has_ctone = False
mem = chirp_common.Memory()
mem.tmode = 'TSQL'
mem.rtone = 100.0
import_logic._import_tone(radio, src_rf, mem)
self.assertEqual(mem.ctone, 100.0)
def test_import_tone_diffB_tsql(self):
radio = FakeRadio(None)
radio.HAS_CTONE = False
src_rf = chirp_common.RadioFeatures()
src_rf.has_ctone = True
mem = chirp_common.Memory()
mem.tmode = 'TSQL'
mem.ctone = 100.0
import_logic._import_tone(radio, src_rf, mem)
self.assertEqual(mem.rtone, 100.0)
def test_import_dtcs_diffA_dtcs(self):
radio = FakeRadio(None)
src_rf = chirp_common.RadioFeatures()
src_rf.has_rx_dtcs = True
mem = chirp_common.Memory()
mem.tmode = 'DTCS'
mem.rx_dtcs = 32
import_logic._import_dtcs(radio, src_rf, mem)
self.assertEqual(mem.dtcs, 32)
def test_import_dtcs_diffB_dtcs(self):
radio = FakeRadio(None)
radio.HAS_RX_DTCS = True
src_rf = chirp_common.RadioFeatures()
src_rf.has_rx_dtcs = False
mem = chirp_common.Memory()
mem.tmode = 'DTCS'
mem.dtcs = 32
import_logic._import_dtcs(radio, src_rf, mem)
self.assertEqual(mem.rx_dtcs, 32)
def test_import_mode_valid_fm(self):
radio = FakeRadio(None)
mem = chirp_common.Memory()
mem.mode = 'Auto'
mem.freq = 146000000
import_logic._import_mode(radio, None, mem)
self.assertEqual(mem.mode, 'FM')
def test_import_mode_valid_am(self):
radio = FakeRadio(None)
mem = chirp_common.Memory()
mem.mode = 'Auto'
mem.freq = 18000000
import_logic._import_mode(radio, None, mem)
self.assertEqual(mem.mode, 'AM')
def test_import_mode_invalid(self):
radio = FakeRadio(None)
radio.MODES.remove('AM')
mem = chirp_common.Memory()
mem.mode = 'Auto'
mem.freq = 1800000
self.assertRaises(import_logic.DestNotCompatible,
import_logic._import_mode, radio, None, mem)
def test_import_duplex_vhf(self):
radio = FakeRadio(None)
mem = chirp_common.Memory()
mem.freq = 146000000
mem.offset = 146600000
mem.duplex = 'split'
import_logic._import_duplex(radio, None, mem)
self.assertEqual(mem.duplex, '+')
self.assertEqual(mem.offset, 600000)
def test_import_duplex_negative(self):
radio = FakeRadio(None)
mem = chirp_common.Memory()
mem.freq = 146600000
mem.offset = 146000000
mem.duplex = 'split'
import_logic._import_duplex(radio, None, mem)
self.assertEqual(mem.duplex, '-')
self.assertEqual(mem.offset, 600000)
def test_import_duplex_uhf(self):
radio = FakeRadio(None)
mem = chirp_common.Memory()
mem.freq = 431000000
mem.offset = 441000000
mem.duplex = 'split'
import_logic._import_duplex(radio, None, mem)
self.assertEqual(mem.duplex, '+')
self.assertEqual(mem.offset, 10000000)
def test_import_duplex_too_big_vhf(self):
radio = FakeRadio(None)
mem = chirp_common.Memory()
mem.freq = 146000000
mem.offset = 246000000
mem.duplex = 'split'
self.assertRaises(import_logic.DestNotCompatible,
import_logic._import_duplex, radio, None, mem)
def test_import_mem(self, errors=[]):
radio = FakeRadio(None)
src_rf = chirp_common.RadioFeatures()
mem = chirp_common.Memory()
self.mox.StubOutWithMock(mem, 'dupe')
self.mox.StubOutWithMock(import_logic, '_import_name')
self.mox.StubOutWithMock(import_logic, '_import_power')
self.mox.StubOutWithMock(import_logic, '_import_tone')
self.mox.StubOutWithMock(import_logic, '_import_dtcs')
self.mox.StubOutWithMock(import_logic, '_import_mode')
self.mox.StubOutWithMock(import_logic, '_import_duplex')
self.mox.StubOutWithMock(radio, 'validate_memory')
mem.dupe().AndReturn(mem)
import_logic._import_name(radio, src_rf, mem)
import_logic._import_power(radio, src_rf, mem)
import_logic._import_tone(radio, src_rf, mem)
import_logic._import_dtcs(radio, src_rf, mem)
import_logic._import_mode(radio, src_rf, mem)
import_logic._import_duplex(radio, src_rf, mem)
radio.validate_memory(mem).AndReturn(errors)
self.mox.ReplayAll()
import_logic.import_mem(radio, src_rf, mem)
def test_import_mem_with_warnings(self):
self.test_import_mem([chirp_common.ValidationWarning('Test')])
def test_import_mem_with_errors(self):
self.assertRaises(import_logic.DestNotCompatible,
self.test_import_mem,
[chirp_common.ValidationError('Test')])
def test_import_bank(self):
dst_mem = chirp_common.Memory()
dst_mem.number = 1
src_mem = chirp_common.Memory()
src_mem.number = 2
dst_radio = FakeRadio(None)
src_radio = FakeRadio(None)
dst_bm = chirp_common.BankModel(dst_radio)
src_bm = chirp_common.BankModel(src_radio)
dst_banks = [chirp_common.Bank(dst_bm, 0, 'A'),
chirp_common.Bank(dst_bm, 1, 'B'),
chirp_common.Bank(dst_bm, 2, 'C'),
]
src_banks = [chirp_common.Bank(src_bm, 1, '1'),
chirp_common.Bank(src_bm, 2, '2'),
chirp_common.Bank(src_bm, 3, '3'),
]
self.mox.StubOutWithMock(dst_radio, 'get_mapping_models')
self.mox.StubOutWithMock(src_radio, 'get_mapping_models')
self.mox.StubOutWithMock(dst_bm, 'get_mappings')
self.mox.StubOutWithMock(src_bm, 'get_mappings')
self.mox.StubOutWithMock(dst_bm, 'get_memory_mappings')
self.mox.StubOutWithMock(src_bm, 'get_memory_mappings')
self.mox.StubOutWithMock(dst_bm, 'remove_memory_from_mapping')
self.mox.StubOutWithMock(dst_bm, 'add_memory_to_mapping')
dst_radio.get_mapping_models().AndReturn([dst_bm])
dst_bm.get_mappings().AndReturn(dst_banks)
src_radio.get_mapping_models().AndReturn([src_bm])
src_bm.get_mappings().AndReturn(src_banks)
src_bm.get_memory_mappings(src_mem).AndReturn([src_banks[0]])
dst_bm.get_memory_mappings(dst_mem).AndReturn([dst_banks[1]])
dst_bm.remove_memory_from_mapping(dst_mem, dst_banks[1])
dst_bm.add_memory_to_mapping(dst_mem, dst_banks[0])
self.mox.ReplayAll()
import_logic.import_bank(dst_radio, src_radio, dst_mem, src_mem)
|
