def test_timestamp_sensor(self):
"""Test timestamp sensor."""
s = Sensor.timestamp("a.timestamp", "A timestamp sensor.", "", None)
self.assertEqual(s.stype, "timestamp")
s.set(timestamp=12345, status=katcp.Sensor.NOMINAL, value=1001.9)
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()), ("12345.000000", "nominal", "1001.900000"))
self.assertEqual(s.read_formatted(), ("12345.000000", "nominal", "1001.900000"))
# Test with katcp v4 parsing formatting
self.assertEqual(s.format_reading(s.read(), major=4), ("12345000", "nominal", "1001900"))
self.assertEqual(s.read_formatted(major=4), ("12345000", "nominal", "1001900"))
self.assertAlmostEqual(s.parse_value("1002.100"), 1002.1)
self.assertRaises(ValueError, s.parse_value, "bicycle")
s = Sensor.timestamp("a.timestamp", "A timestamp sensor.", "", default=123)
self.assertEqual(s._value, 123)
s.set_formatted("12346.1", "nominal", "12246.1")
self.assertEqual(s.read(), (12346.1, katcp.Sensor.NOMINAL, 12246.1))
# Test with katcp v4 parsing
s.set_formatted("12347100", "nominal", "12247100", major=4)
self.assertEqual(s.read(), (12347.1, katcp.Sensor.NOMINAL, 12247.1))
s = Sensor.timestamp("a.timestamp", "A timestamp sensor.", "", initial_status=Sensor.NOMINAL)
self.assertEquals(s.status(), Sensor.NOMINAL)
def test_timestamp_sensor(self):
"""Test timestamp sensor."""
s = Sensor.timestamp("a.timestamp", "A timestamp sensor.", "", None)
self.assertEqual(s.stype, 'timestamp')
s.set(timestamp=12345, status=Sensor.NOMINAL, value=1001.9)
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()),
(b"12345.000000", b"nominal", b"1001.900000"))
self.assertEqual(s.read_formatted(),
(b"12345.000000", b"nominal", b"1001.900000"))
# Test with katcp v4 parsing formatting
self.assertEqual(s.format_reading(s.read(), major=4),
(b"12345000", b"nominal", b"1001900"))
self.assertEqual(s.read_formatted(major=4),
(b"12345000", b"nominal", b"1001900"))
self.assertAlmostEqual(s.parse_value(b"1002.100"), 1002.1)
self.assertRaises(ValueError, s.parse_value, b"bicycle")
s = Sensor.timestamp("a.timestamp",
"A timestamp sensor.",
"",
default=123)
self.assertEqual(s._value, 123)
s.set_formatted(b'12346.1', b'nominal', b'12246.1')
self.assertEqual(s.read(), (12346.1, Sensor.NOMINAL, 12246.1))
# Test with katcp v4 parsing
s.set_formatted(b'12347100', b'nominal', b'12247100', major=4)
self.assertEqual(s.read(), (12347.1, Sensor.NOMINAL, 12247.1))
s = Sensor.timestamp("a.timestamp",
"A timestamp sensor.",
"",
initial_status=Sensor.NOMINAL)
self.assertEqual(s.status(), Sensor.NOMINAL)
def test_discrete_sensor_from_native_strings(self):
"""Test discrete sensor initialised from native strings."""
s = Sensor.discrete("a.discrete", "A discrete sensor.", "state",
["on", "off"])
self.assertEqual(s.stype, 'discrete')
s.set(timestamp=12345, status=Sensor.ERROR, value="on")
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()),
(b"12345.000000", b"error", b"on"))
self.assertEqual(s.read_formatted(),
(b"12345.000000", b"error", b"on"))
self.assertEqual(s.parse_value(b"on"), "on")
self.assertRaises(ValueError, s.parse_value, b"fish")
s = Sensor.discrete("a.discrete",
"A discrete sensor.",
"state", ["on", "off"],
default='on')
self.assertEqual(s._value, 'on')
s = Sensor.discrete("a.discrete",
"A discrete sensor.",
"state", ["on", "off"],
default='off')
self.assertEqual(s._value, 'off')
s = Sensor.discrete("a.discrete",
"A discrete sensor.",
"state", ["on", "off"],
initial_status=Sensor.UNREACHABLE)
self.assertEqual(s.status(), Sensor.UNREACHABLE)
def test_lru_sensor(self):
"""Test LRU sensor."""
s = Sensor.lru("an.lru", "An LRU sensor.", "state", None)
self.assertEqual(s.stype, 'lru')
s.set(timestamp=12345, status=Sensor.FAILURE, value=Sensor.LRU_ERROR)
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()),
(b"12345.000000", b"failure", b"error"))
self.assertEqual(s.read_formatted(),
(b"12345.000000", b"failure", b"error"))
self.assertEqual(s.parse_value(b"nominal"), Sensor.LRU_NOMINAL)
self.assertRaises(ValueError, s.parse_value, b"fish")
s = Sensor.lru("an.lru",
"An LRU sensor.",
"state",
default=Sensor.LRU_ERROR)
self.assertEqual(s._value, Sensor.LRU_ERROR)
s = Sensor.lru("an.lru",
"An LRU sensor.",
"state",
default=Sensor.LRU_NOMINAL)
self.assertEqual(s._value, Sensor.LRU_NOMINAL)
s = Sensor.lru("an.lru",
"An LRU sensor.",
"state",
initial_status=Sensor.FAILURE)
self.assertEqual(s.status(), Sensor.FAILURE)
def test_string_sensor(self):
"""Test string sensor."""
s = Sensor.string("a.string", "A string sensor.", "filename", None)
self.assertEqual(s.stype, 'string')
s.set(timestamp=12345, status=katcp.Sensor.NOMINAL, value="zwoop")
self.assertEqual(s.read_formatted(), ("12345.000000", "nominal", "zwoop"))
self.assertEquals(s.parse_value("bar foo"), "bar foo")
s = Sensor.string(
"a.string", "A string sensor.", "filename", default='baz')
self.assertEqual(s._value, 'baz')
def test_address_sensor(self):
"""Test address sensor."""
s = Sensor.address("a.address", "An address sensor.", "", None)
self.assertEqual(s.stype, 'address')
s.set(timestamp=12345, status=Sensor.NOMINAL, value=("127.0.0.1", 80))
self.assertEqual(s.read_formatted(),
("12345.000000", "nominal", "127.0.0.1:80"))
self.assertEqual(s.parse_value("[::1]:80"), ("::1", 80))
self.assertRaises(ValueError, s.parse_value, "[::1]:foo")
s = Sensor.address("a.address", "An address sensor.", "",
default=('192.168.101.1', 81))
self.assertEqual(s._value, ('192.168.101.1', 81))
def test_string_sensor(self):
"""Test string sensor."""
s = Sensor.string("a.string", "A string sensor.", "filename", None)
self.assertEqual(s.stype, "string")
s.set(timestamp=12345, status=katcp.Sensor.NOMINAL, value="zwoop")
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()), ("12345.000000", "nominal", "zwoop"))
self.assertEqual(s.read_formatted(), ("12345.000000", "nominal", "zwoop"))
self.assertEquals(s.parse_value("bar foo"), "bar foo")
s = Sensor.string("a.string", "A string sensor.", "filename", default="baz")
self.assertEqual(s._value, "baz")
s = Sensor.string("a.string", "A string sensor.", "filename", initial_status=Sensor.WARN)
self.assertEquals(s.status(), Sensor.WARN)
def test_boolean_sensor(self):
"""Test boolean sensor."""
s = Sensor.boolean("a.boolean", "A boolean.", "on/off", None)
self.assertEqual(s.stype, 'boolean')
s.set(timestamp=12345, status=katcp.Sensor.UNKNOWN, value=True)
self.assertEqual(s.read_formatted(), ("12345.000000", "unknown", "1"))
self.assertEquals(s.parse_value("1"), True)
self.assertEquals(s.parse_value("0"), False)
self.assertRaises(ValueError, s.parse_value, "asd")
s = Sensor.boolean("a.boolean", "A boolean.", "on/off", default=True)
self.assertEqual(s._value, True)
s = Sensor.boolean("a.boolean", "A boolean.", "on/off", default=False)
self.assertEqual(s._value, False)
def test_address_sensor(self):
"""Test address sensor."""
s = Sensor.address("a.address", "An address sensor.", "", None)
self.assertEqual(s.stype, "address")
s.set(timestamp=12345, status=Sensor.NOMINAL, value=("127.0.0.1", 80))
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()), ("12345.000000", "nominal", "127.0.0.1:80"))
self.assertEqual(s.read_formatted(), ("12345.000000", "nominal", "127.0.0.1:80"))
self.assertEqual(s.parse_value("[::1]:80"), ("::1", 80))
self.assertRaises(ValueError, s.parse_value, "[::1]:foo")
s = Sensor.address("a.address", "An address sensor.", "", default=("192.168.101.1", 81))
self.assertEqual(s._value, ("192.168.101.1", 81))
s = Sensor.address("a.address", "An address sensor.", "", initial_status=Sensor.NOMINAL)
self.assertEquals(s.status(), Sensor.NOMINAL)
def test_lru_sensor(self):
"""Test LRU sensor."""
s = Sensor.lru("an.lru", "An LRU sensor.", "state", None)
self.assertEqual(s.stype, 'lru')
s.set(timestamp=12345, status=Sensor.FAILURE, value=Sensor.LRU_ERROR)
self.assertEqual(s.read_formatted(), ("12345.000000", "failure", "error"))
self.assertEquals(s.parse_value("nominal"), katcp.Sensor.LRU_NOMINAL)
self.assertRaises(ValueError, s.parse_value, "fish")
s = Sensor.lru(
"an.lru", "An LRU sensor.", "state", default=Sensor.LRU_ERROR)
self.assertEqual(s._value, Sensor.LRU_ERROR)
s = Sensor.lru(
"an.lru", "An LRU sensor.", "state", default=Sensor.LRU_NOMINAL)
self.assertEqual(s._value, Sensor.LRU_NOMINAL)
def test_discrete_sensor(self):
"""Test discrete sensor."""
s = Sensor.discrete(
"a.discrete", "A discrete sensor.", "state", ["on", "off"])
self.assertEqual(s.stype, 'discrete')
s.set(timestamp=12345, status=katcp.Sensor.ERROR, value="on")
self.assertEqual(s.read_formatted(), ("12345.000000", "error", "on"))
self.assertEquals(s.parse_value("on"), "on")
self.assertRaises(ValueError, s.parse_value, "fish")
s = Sensor.discrete("a.discrete", "A discrete sensor.", "state",
["on", "off"], default='on')
self.assertEqual(s._value, 'on')
s = Sensor.discrete("a.discrete", "A discrete sensor.", "state",
["on", "off"], default='off')
self.assertEqual(s._value, 'off')
def test_discrete_sensor(self):
"""Test discrete sensor."""
s = Sensor.discrete("a.discrete", "A discrete sensor.", "state", ["on", "off"])
self.assertEqual(s.stype, "discrete")
s.set(timestamp=12345, status=katcp.Sensor.ERROR, value="on")
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()), ("12345.000000", "error", "on"))
self.assertEqual(s.read_formatted(), ("12345.000000", "error", "on"))
self.assertEquals(s.parse_value("on"), "on")
self.assertRaises(ValueError, s.parse_value, "fish")
s = Sensor.discrete("a.discrete", "A discrete sensor.", "state", ["on", "off"], default="on")
self.assertEqual(s._value, "on")
s = Sensor.discrete("a.discrete", "A discrete sensor.", "state", ["on", "off"], default="off")
self.assertEqual(s._value, "off")
s = Sensor.discrete(
"a.discrete", "A discrete sensor.", "state", ["on", "off"], initial_status=Sensor.UNREACHABLE
)
self.assertEquals(s.status(), Sensor.UNREACHABLE)
def test_int_sensor(self):
"""Test integer sensor."""
s = Sensor.integer("an.int", "An integer.", "count", [-4, 3])
self.assertEqual(s.stype, 'integer')
s.set(timestamp=12345, status=katcp.Sensor.NOMINAL, value=3)
self.assertEqual(s.read_formatted(), ("12345.000000", "nominal", "3"))
self.assertEquals(s.parse_value("3"), 3)
self.assertEquals(s.parse_value("4"), 4)
self.assertEquals(s.parse_value("-10"), -10)
self.assertRaises(ValueError, s.parse_value, "asd")
s = Sensor(Sensor.INTEGER, "an.int", "An integer.", "count", [-20, 20])
self.assertEquals(s.value(), 0)
s = Sensor(Sensor.INTEGER, "an.int", "An integer.", "count", [2, 20])
self.assertEquals(s.value(), 2)
s = Sensor.integer("an.int", "An integer.", "count", [2, 20], default=5)
self.assertEquals(s.value(), 5)
def test_float_sensor(self):
"""Test float sensor."""
s = Sensor.float("a.float", "A float.", "power", [0.0, 5.0])
self.assertEqual(s.stype, 'float')
s.set(timestamp=12345, status=katcp.Sensor.WARN, value=3.0)
self.assertEqual(s.read_formatted(), ("12345.000000", "warn", "3"))
self.assertEquals(s.parse_value("3"), 3.0)
self.assertEquals(s.parse_value("10"), 10.0)
self.assertEquals(s.parse_value("-10"), -10.0)
self.assertRaises(ValueError, s.parse_value, "asd")
s = Sensor(katcp.Sensor.FLOAT, "a.float", "A float.", "", [-20.0, 20.0])
self.assertEquals(s.value(), 0.0)
s = Sensor(katcp.Sensor.FLOAT, "a.float", "A float.", "", [2.0, 20.0])
self.assertEquals(s.value(), 2.0)
s = Sensor.float("a.float", "A float.", "", [2.0, 20.0], default=5.0)
self.assertEquals(s.value(), 5.0)
def test_int_sensor(self):
"""Test integer sensor."""
s = Sensor.integer("an.int", "An integer.", "count", [-4, 3])
self.assertEqual(s.stype, "integer")
s.set(timestamp=12345, status=katcp.Sensor.NOMINAL, value=3)
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()), ("12345.000000", "nominal", "3"))
self.assertEqual(s.read_formatted(), ("12345.000000", "nominal", "3"))
self.assertEquals(s.parse_value("3"), 3)
self.assertEquals(s.parse_value("4"), 4)
self.assertEquals(s.parse_value("-10"), -10)
self.assertRaises(ValueError, s.parse_value, "asd")
s = Sensor(Sensor.INTEGER, "an.int", "An integer.", "count", [-20, 20])
self.assertEquals(s.value(), 0)
s = Sensor(Sensor.INTEGER, "an.int", "An integer.", "count", [2, 20])
self.assertEquals(s.value(), 2)
s = Sensor.integer("an.int", "An integer.", "count", [2, 20], default=5)
self.assertEquals(s.value(), 5)
self.assertEquals(s.status(), Sensor.UNKNOWN)
s = Sensor.integer("an.int", "An integer.", "count", [2, 20], initial_status=Sensor.NOMINAL)
self.assertEquals(s.status(), Sensor.NOMINAL)
def test_boolean_sensor(self):
"""Test boolean sensor."""
s = Sensor.boolean("a.boolean", "A boolean.", "on/off", None)
self.assertEqual(s.stype, 'boolean')
s.set(timestamp=12345, status=Sensor.UNKNOWN, value=True)
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()),
(b"12345.000000", b"unknown", b"1"))
self.assertEqual(s.read_formatted(),
(b"12345.000000", b"unknown", b"1"))
self.assertEqual(s.parse_value(b"1"), True)
self.assertEqual(s.parse_value(b"0"), False)
self.assertRaises(ValueError, s.parse_value, b"asd")
s = Sensor.boolean("a.boolean", "A boolean.", "on/off", default=True)
self.assertEqual(s._value, True)
s = Sensor.boolean("a.boolean", "A boolean.", "on/off", default=False)
self.assertEqual(s._value, False)
s = Sensor.boolean("a.boolean",
"A boolean.",
"on/off",
initial_status=Sensor.ERROR)
self.assertEqual(s.status(), Sensor.ERROR)
def test_float_sensor(self):
"""Test float sensor."""
s = Sensor.float("a.float", "A float.", "power", [0.0, 5.0])
self.assertEqual(s.stype, "float")
s.set(timestamp=12345, status=katcp.Sensor.WARN, value=3.0)
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()), ("12345.000000", "warn", "3"))
self.assertEqual(s.read_formatted(), ("12345.000000", "warn", "3"))
self.assertEquals(s.parse_value("3"), 3.0)
self.assertEquals(s.parse_value("10"), 10.0)
self.assertEquals(s.parse_value("-10"), -10.0)
self.assertRaises(ValueError, s.parse_value, "asd")
s = Sensor(katcp.Sensor.FLOAT, "a.float", "A float.", "", [-20.0, 20.0])
self.assertEquals(s.value(), 0.0)
s = Sensor(katcp.Sensor.FLOAT, "a.float", "A float.", "", [2.0, 20.0])
self.assertEquals(s.value(), 2.0)
s = Sensor.float("a.float", "A float.", "", [2.0, 20.0], default=5.0)
self.assertEquals(s.value(), 5.0)
self.assertEquals(s.status(), Sensor.UNKNOWN)
s = Sensor.float("a.float", "A float.", "", [2.0, 20.0], initial_status=Sensor.WARN)
self.assertEquals(s.status(), Sensor.WARN)
def test_int_sensor_from_byte_strings(self):
"""Test integer sensor initialised from byte strings."""
s = Sensor.integer(b"an.int", b"An integer.", b"count", [-4, 3])
# sensor attributes must be native strings
self.assertEqual(s.name, "an.int")
self.assertEqual(s.units, "count")
self.assertEqual(s.description, "An integer.")
self.assertEqual(s.stype, "integer")
s.set(timestamp=12345, status=Sensor.NOMINAL, value=3)
self.assertEqual(s.value(), 3)
# after formatting, byte strings are required
self.assertEqual(s.format_reading(s.read()),
(b"12345.000000", b"nominal", b"3"))
self.assertEqual(s.read_formatted(),
(b"12345.000000", b"nominal", b"3"))
def test_discrete_sensor_from_byte_strings(self):
"""Test discrete sensor initialised from byte strings."""
s = Sensor.discrete(b"a.discrete", b"A discrete sensor.", b"state",
[b"on", b"off"])
# sensor attributes must be native strings
self.assertEqual(s.name, "a.discrete")
self.assertEqual(s.units, "state")
self.assertEqual(s.description, "A discrete sensor.")
self.assertEqual(s.stype, "discrete")
s.set(timestamp=12345, status=Sensor.ERROR, value="on")
self.assertEqual(s.value(), "on")
# after formatting, byte strings are required
self.assertEqual(s.format_reading(s.read()),
(b"12345.000000", b"error", b"on"))
self.assertEqual(s.read_formatted(),
(b"12345.000000", b"error", b"on"))
def collectd_sensor_update(self, sensor_name, value_time, status, value):
"""Update the sensor value, register the sensor if it do not exists."""
if sensor_name not in self.sensor_db:
description = ''
units = ''
params = None
sensor_obj = Sensor(type(value), sensor_name, description, units,
params)
self.sensor_db[sensor_name] = sensor_obj
self.add_sensor(sensor_obj)
self._send_interface_change = True
self.sensor_db[sensor_name].set(value_time, status, value)
if self._send_interface_change:
# first update the sensor value then send out the inform
# to tell connected clients that a sensor was added.
msg = katcp.Message.inform('interface-changed', 'sensor',
sensor_name, 'added')
self._send_interface_change = False
self.mass_inform(msg)
def test_set_and_get_value(self):
"""Test getting and setting a sensor value."""
s = Sensor.integer("an.int", "An integer.", "count", [-4, 3])
s.set(timestamp=12345, status=Sensor.NOMINAL, value=3)
self.assertEqual(s.value(), 3)
s.set_value(2)
self.assertEqual(s.value(), 2)
s.set_value(3, timestamp=12345)
self.assertEqual(s.read(), (12345, Sensor.NOMINAL, 3))
s.set_value(5, timestamp=12345)
self.assertEqual(s.read(), (12345, Sensor.NOMINAL, 5))
s.set_formatted(b'12346.1', b'nominal', b'-2')
self.assertEqual(s.read(), (12346.1, Sensor.NOMINAL, -2))
# Test setting with katcp v4 parsing
s.set_formatted(b'12347100', b'warn', b'-3', major=4)
self.assertEqual(s.read(), (12347.1, Sensor.WARN, -3))
def test_set_and_get_value(self):
"""Test getting and setting a sensor value."""
s = Sensor.integer("an.int", "An integer.", "count", [-4, 3])
s.set(timestamp=12345, status=katcp.Sensor.NOMINAL, value=3)
self.assertEqual(s.value(), 3)
s.set_value(2)
self.assertEqual(s.value(), 2)
s.set_value(3, timestamp=12345)
self.assertEqual(s.read(), (12345, katcp.Sensor.NOMINAL, 3))
s.set_value(5, timestamp=12345)
self.assertEqual(s.read(), (12345, katcp.Sensor.NOMINAL, 5))
s.set_formatted("12346.1", "nominal", "-2")
self.assertEqual(s.read(), (12346.1, katcp.Sensor.NOMINAL, -2))
# Test setting with katcp v4 parsing
s.set_formatted("12347100", "warn", "-3", major=4)
self.assertEqual(s.read(), (12347.1, katcp.Sensor.WARN, -3))
def test_default_descriptions(self):
s = Sensor(Sensor.INTEGER, 'a sens', params=[0, 10])
self.assertEqual(s.description, "Integer sensor 'a sens' with no unit")
s = Sensor(Sensor.FLOAT, 'fsens', None, 'microseconds', params=[0, 10])
self.assertEqual(s.description,
"Float sensor 'fsens' in unit microseconds")
def test_units_none(self):
"""Test units initialised to None results in empty string."""
s = Sensor.integer("a sens", None, None, None)
self.assertEqual(s.units, "")
def test_int_sensor_from_native_strings(self):
"""Test integer sensor initialised from native strings."""
s = Sensor.integer("an.int", "An integer.", "count", [-4, 3])
# sensor attributes must be native strings
self.assertEqual(s.name, "an.int")
self.assertEqual(s.units, "count")
self.assertEqual(s.description, "An integer.")
self.assertEqual(s.stype, "integer")
s.set(timestamp=12345, status=Sensor.NOMINAL, value=3)
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()),
(b"12345.000000", b"nominal", b"3"))
self.assertEqual(s.read_formatted(),
(b"12345.000000", b"nominal", b"3"))
self.assertEqual(s.parse_value(b"3"), 3)
self.assertEqual(s.parse_value(b"4"), 4)
self.assertEqual(s.parse_value(b"-10"), -10)
self.assertRaises(ValueError, s.parse_value, b"asd")
self.assertRaises(KatcpTypeError, s.parse_value, u"asd")
self.assertRaises(KatcpTypeError, s.parse_value, u"3")
s = Sensor(Sensor.INTEGER, "an.int", "An integer.", "count", [-20, 20])
self.assertEqual(s.value(), 0)
s = Sensor(Sensor.INTEGER, "an.int", "An integer.", "count", [2, 20])
self.assertEqual(s.value(), 2)
s = Sensor.integer("an.int",
"An integer.",
"count", [2, 20],
default=5)
self.assertEqual(s.value(), 5)
self.assertEqual(s.status(), Sensor.UNKNOWN)
s = Sensor.integer("an.int",
"An integer.",
"count", [2, 20],
initial_status=Sensor.NOMINAL)
self.assertEqual(s.status(), Sensor.NOMINAL)
def test_float_sensor(self):
"""Test float sensor."""
s = Sensor.float("a.float", "A float.", "power", [0.0, 5.0])
self.assertEqual(s.stype, 'float')
s.set(timestamp=12345, status=Sensor.WARN, value=3.0)
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()),
(b"12345.000000", b"warn", b"3.0"))
self.assertEqual(s.read_formatted(),
(b"12345.000000", b"warn", b"3.0"))
self.assertEqual(s.parse_value(b"3.0"), 3.0)
self.assertEqual(s.parse_value(b"10"), 10.0)
self.assertEqual(s.parse_value(b"-10"), -10.0)
self.assertRaises(ValueError, s.parse_value, b"asd")
s = Sensor(Sensor.FLOAT, "a.float", "A float.", "", [-20.0, 20.0])
self.assertEqual(s.value(), 0.0)
s = Sensor(Sensor.FLOAT, "a.float", "A float.", "", [2.0, 20.0])
self.assertEqual(s.value(), 2.0)
s = Sensor.float("a.float", "A float.", "", [2.0, 20.0], default=5.0)
self.assertEqual(s.value(), 5.0)
self.assertEqual(s.status(), Sensor.UNKNOWN)
s = Sensor.float("a.float",
"A float.",
"", [2.0, 20.0],
initial_status=Sensor.WARN)
self.assertEqual(s.status(), Sensor.WARN)
def test_string_sensor(self):
"""Test string sensor."""
s = Sensor.string("a.string", "A string sensor.", "filename", None)
self.assertEqual(s.stype, 'string')
s.set(timestamp=12345, status=Sensor.NOMINAL, value="zwoop")
self.assertEqual(s._value, "zwoop")
# test both read_formatted and format_reading
self.assertEqual(s.format_reading(s.read()),
(b"12345.000000", b"nominal", b"zwoop"))
self.assertEqual(s.read_formatted(),
(b"12345.000000", b"nominal", b"zwoop"))
# test parsing byte string returns native string
self.assertEqual(s.parse_value(b"bar foo"), "bar foo")
# test default value
s = Sensor.string("a.string",
"A string sensor.",
"filename",
default='baz')
self.assertEqual(s._value, 'baz')
# test initial status
s = Sensor.string("a.string",
"A string sensor.",
"filename",
initial_status=Sensor.WARN)
self.assertEqual(s.status(), Sensor.WARN)
# Test using non-string types from set_value are "stringified"
s = Sensor.string("a.string", "Value from list.")
s.set_value([1, 2, 3])
self.assertEqual(s.value(), [1, 2, 3])
_, _, formatted_value = s.read_formatted()
self.assertEqual(formatted_value, b'[1, 2, 3]')
# But this is "one-way", if set from formatted byte string, the
# "original" type is not inferred
s.set_formatted(b'1.23', b'nominal', b'[4, 5, 6]')
self.assertEqual(s.value(), '[4, 5, 6]')
# Test Python version-specific limitations
if future.utils.PY2:
test_cases = [
# name, input, raw, from raw
('non-ascii', b"\x00\xff", b"\x00\xff", b"\x00\xff"),
('utf-8', u"räm", b"r\xc3\xa4m", b"r\xc3\xa4m"),
]
else:
test_cases = [
# name, input, raw, from raw
('non-ascii', b"\x00\xff", b"\x00\xff", UnicodeDecodeError),
('utf-8', u"räm", b"r\xc3\xa4m", u"räm"),
('invalid', u"\ud83d", UnicodeEncodeError, None),
]
for name, input_, raw, from_raw in test_cases:
# set from input, then try to read back raw
s.set_value(input_)
if type(raw) is type and issubclass(raw, Exception):
with self.assertRaises(raw):
s.read_formatted()
continue # cannot test setting from raw, so move on
else:
_, _, formatted_value = s.read_formatted()
self.assertEqual(raw, formatted_value)
# set raw, and try to read back value
s.set_value(None)
if type(from_raw) is type and issubclass(from_raw, Exception):
with self.assertRaises(from_raw):
s.set_formatted(b'1.23', b'nominal', raw)
else:
s.set_formatted(b'1.23', b'nominal', raw)
self.assertEqual(s.value(), from_raw)
