def test_decode_rvr_with_variation(self):
val = "R25R/2000V4000FT"
decoder = MetarDecoderDefault()
decoder.decode_rvr(val)
res = decoder.decoded_metar["rvr"][self.DECODED_KEY]
assert_equals(res, "variable, from 2,000 to 4,000 feet " \
"(runway 25R)")
def test_decode_rvr_with_variation(self):
val = "R25R/2000V4000FT"
decoder = MetarDecoderDefault()
decoder.decode_rvr(val)
res = decoder.decoded_metar["rvr"][self.DECODED_KEY]
assert_equals(res, "variable, from 2,000 to 4,000 feet " \
"(runway 25R)")
def test_decode_rvr_with_no_change(self):
val = "R20/5500FT/N"
decoder = MetarDecoderDefault()
decoder.decode_rvr(val)
res = decoder.decoded_metar["rvr"][self.DECODED_KEY]
assert_equals(res, "5,500 feet, no change (runway 20)")
def test_decode_rvr_with_upward_trend(self):
val = "R02C/1500FT/U"
decoder = MetarDecoderDefault()
decoder.decode_rvr(val)
res = decoder.decoded_metar["rvr"][self.DECODED_KEY]
assert_equals(res, "1,500 feet, trending upward (runway 02C)")
def test_decode_rvr_with_downward_trend(self):
val = "R36/4000FT/D"
decoder = MetarDecoderDefault()
decoder.decode_rvr(val)
res = decoder.decoded_metar["rvr"][self.DECODED_KEY]
assert_equals(res, "4,000 feet, trending downward (runway 36)")
def test_decode_rvr_with_more_than_modifier(self):
val = "R36/P6000FT"
decoder = MetarDecoderDefault()
decoder.decode_rvr(val)
res = decoder.decoded_metar["rvr"][self.DECODED_KEY]
assert_equals(res, "more than 6,000 feet (runway 36)")
def test_decode_rvr_with_less_than_modifier(self):
val = "R10/M4000FT"
decoder = MetarDecoderDefault()
decoder.decode_rvr(val)
res = decoder.decoded_metar["rvr"][self.DECODED_KEY]
assert_equals(res, "less than 4,000 feet (runway 10)")
def test_decode_rvr_with_parallel_runways(self):
val = "R32C/3500FT"
decoder = MetarDecoderDefault()
decoder.decode_rvr(val)
res = decoder.decoded_metar["rvr"][self.DECODED_KEY]
assert_equals(res, "3,500 feet (runway 32C)")
def test_decode_rvr(self):
val = "R06/2000FT"
decoder = MetarDecoderDefault()
decoder.decode_rvr(val)
res = decoder.decoded_metar["rvr"][self.DECODED_KEY]
assert_equals(res, "2,000 feet (runway 06)")
def test_decode_rvr_with_no_change(self): val = "R20/5500FT/N" decoder = MetarDecoderDefault() decoder.decode_rvr(val) res = decoder.decoded_metar["rvr"][self.DECODED_KEY] assert_equals(res, "5,500 feet, no change (runway 20)")
def test_decode_rvr_with_upward_trend(self): val = "R02C/1500FT/U" decoder = MetarDecoderDefault() decoder.decode_rvr(val) res = decoder.decoded_metar["rvr"][self.DECODED_KEY] assert_equals(res, "1,500 feet, trending upward (runway 02C)")
def test_decode_rvr_with_downward_trend(self): val = "R36/4000FT/D" decoder = MetarDecoderDefault() decoder.decode_rvr(val) res = decoder.decoded_metar["rvr"][self.DECODED_KEY] assert_equals(res, "4,000 feet, trending downward (runway 36)")
def test_decode_rvr_with_more_than_modifier(self): val = "R36/P6000FT" decoder = MetarDecoderDefault() decoder.decode_rvr(val) res = decoder.decoded_metar["rvr"][self.DECODED_KEY] assert_equals(res, "more than 6,000 feet (runway 36)")
def test_decode_rvr_with_less_than_modifier(self): val = "R10/M4000FT" decoder = MetarDecoderDefault() decoder.decode_rvr(val) res = decoder.decoded_metar["rvr"][self.DECODED_KEY] assert_equals(res, "less than 4,000 feet (runway 10)")
def test_decode_rvr_with_parallel_runways(self): val = "R32C/3500FT" decoder = MetarDecoderDefault() decoder.decode_rvr(val) res = decoder.decoded_metar["rvr"][self.DECODED_KEY] assert_equals(res, "3,500 feet (runway 32C)")
def test_decode_rvr(self): val = "R06/2000FT" decoder = MetarDecoderDefault() decoder.decode_rvr(val) res = decoder.decoded_metar["rvr"][self.DECODED_KEY] assert_equals(res, "2,000 feet (runway 06)")