def setUp(self):
self.dt0 = pyuaf.util.DateTime()
self.now = time.time()
self.dt1 = DateTime(self.now)
self.dt1_ = DateTime(self.dt1)
self.dt2 = DateTime(self.now + 3.0) # 3 seconds later
self.dt3 = DateTime(self.now + 60 * 60 * 24 * 3) # 3 days later
def test_client_Client_historyReadRaw(self):
result = self.client.historyReadRaw([self.address_byte, self.address_double], # addresses
DateTime(time.time() - 1.0), # startTime
DateTime(time.time())) # endTime
self.assertTrue( result.overallStatus.isGood() )
self.assertGreater( result.targets[0].dataValues , 0 )
self.assertGreater( result.targets[1].dataValues , 0 )
def test_client_Client_processRequest_some_historyReadRawModifiedRequest(self):
request = HistoryReadRawModifiedRequest(2)
request.targets[0].address = self.address_byte
request.targets[1].address = self.address_double
request.serviceSettingsGiven = True
serviceSettings = pyuaf.client.settings.HistoryReadRawModifiedSettings()
serviceSettings.startTime = DateTime(time.time() - 1.0)
serviceSettings.endTime = DateTime(time.time())
request.serviceSettings = serviceSettings
result = self.client.processRequest(request)
self.assertTrue( result.overallStatus.isGood() )
self.assertGreater( result.targets[0].dataValues , 0 )
self.assertGreater( result.targets[1].dataValues , 0 )
def setUp(self):
self.dt0 = pyuaf.util.DateTime()
self.now = time.time()
self.dt1 = DateTime(self.now)
self.dt1_ = DateTime(self.dt1)
self.dt2 = DateTime(self.now + 3.0) # 3 seconds later
self.dt3 = DateTime(self.now + 60 * 60 * 24 * 3) # 3 days later
def test_client_Client_processRequest_some_historyReadRawModifiedRequest_with_automatic_continuation(
self):
request = HistoryReadRawModifiedRequest(2)
request.targets[0].address = self.address_byte
request.targets[1].address = self.address_double
request.serviceConfig.serviceSettings.startTime = DateTime(
self.startTime)
request.serviceConfig.serviceSettings.endTime = DateTime(time.time())
request.serviceConfig.serviceSettings.maxAutoReadMore = 20
request.serviceConfig.serviceSettings.numValuesPerNode = 1 # ridiculously low, to force automatic calls
result = self.client.processRequest(request)
self.assertTrue(result.overallStatus.isGood())
self.assertGreater(result.targets[0].dataValues, 0)
self.assertGreater(result.targets[1].dataValues, 0)
self.assertGreater(result.targets[0].autoReadMore, 0)
self.assertGreater(result.targets[1].autoReadMore, 0)
def test_client_Client_processRequest_some_historyReadRawModifiedRequest_with_manual_continuation(self):
request = HistoryReadRawModifiedRequest(1)
request.targets[0].address = self.address_byte
serviceSettings = pyuaf.client.settings.HistoryReadRawModifiedSettings()
serviceSettings.startTime = DateTime(self.startTime)
serviceSettings.endTime = DateTime(time.time())
serviceSettings.maxAutoReadMore = 0 # force no automatic calls by the UAF
serviceSettings.numValuesPerNode = 1 # ridiculously low, to force automatic calls
request.serviceSettingsGiven = True
request.serviceSettings = serviceSettings
noOfManualBrowseNext = 0
allData = pyuaf.util.DataValueVector()
result = self.client.processRequest(request)
while len(result.targets[0].continuationPoint) > 0 and noOfManualBrowseNext < 50:
request.targets[0].continuationPoint = result.targets[0].continuationPoint
result = self.client.processRequest(request)
for i in xrange(len(result.targets[0].dataValues)):
# IMPORTANT: use <DataValueVector>.allData.append(result.targets[0].dataValues[i])
# or <Python list>.append(DataValue(result.targets[0].dataValues[i]))
# but NOT <Python list>.append(result.targets[0].dataValues[i]))
#
# because <Python list>.append() will NOT COPY THE DATA! It will only
# store the the pointer that was returned by (...).dataValues[i]!
allData.append(result.targets[0].dataValues[i])
noOfManualBrowseNext += 1
self.assertTrue( result.overallStatus.isGood() )
self.assertGreater( len(allData) , 2 )
self.assertGreater( noOfManualBrowseNext , 0 )
def test(args):
print("util.datetime")
print(" - testing pyuaf.util.DateTime()")
dt0 = pyuaf.util.DateTime()
now = time.time()
dt1 = DateTime(now)
dt1_ = DateTime(dt1)
dt2 = DateTime(now + 3.0) # 3 seconds later
dt3 = DateTime(now + 60*60*24*3) # 3 days later
print(" - testing pyuaf.util.DateTime().isNull()")
assert dt0.isNull() == True
assert dt1.isNull() == False
print(" - testing pyuaf.util.DateTime().ctime()")
# check if the difference is smaller than 1 msec
assert now - dt1.ctime() <= 0.001
print(" - testing pyuaf.util.DateTime().setCtime()")
dt = DateTime()
dt.setCtime(now)
assert now - dt.ctime() <= 0.001
print(" - testing pyuaf.util.DateTime().toTime_t()")
assert long(now) == dt1.toTime_t()
print(" - testing pyuaf.util.DateTime().msec()")
assert (now % 1) * 1000 - dt1.msec() <= 1
print(" - testing pyuaf.util.DateTime().daysTo()")
assert dt1.daysTo(dt3) == 3
print(" - testing pyuaf.util.DateTime().secsTo()")
assert dt1.secsTo(dt2) == 3
print(" - testing pyuaf.util.DateTime().msecsTo()")
assert dt1.msecsTo(dt2) == 3000
print(" - testing pyuaf.util.DateTime().addSecs()")
dt = DateTime(dt1)
dt.addSecs(3)
assert dt == dt2
print(" - testing pyuaf.util.DateTime().addMilliSecs()")
dt = DateTime(dt1)
dt.addMilliSecs(3000)
assert dt == dt2
print(" - testing pyuaf.util.DateTime().__eq__()")
assert dt1 == dt1_
assert not (dt1 == dt2)
print(" - testing pyuaf.util.DateTime().__ne__()")
assert dt1 != dt2
assert not (dt1 != dt1_)
print(" - testing pyuaf.util.DateTime().__lt__()")
assert dt1 < dt2
print(" - testing pyuaf.util.DateTime().__gt__()")
assert dt3 > dt2
print("======================================================================================")
print("")
print("First example:")
print("-------------")
# Read the raw historical data
# - that is provided by the double node,
# - that was recorded during the past second
# - with a maximum of a 100 returned values
# (we expect around 10 values, so 100 is a very safe margin)
# - and let the UAF invoke at most 10 "continuation calls"
# (we expect that all data can be returned by a single call, so a maximum of 10
# additional calls is again a very safe margin)
result = myClient.historyReadRaw(addresses = [doubleAddress],
startTime = DateTime(time.time() - 1.5),
endTime = DateTime(time.time()),
numValuesPerNode = 100,
maxAutoReadMore = 10)
# print the result:
print(str(result))
# do some processing on the result
if result.targets[0].status.isNotGood():
print("Could not read historical data from the double: %s" %str(result.targets[0].status))
else:
if len(result.targets[0].dataValues) == 0:
# Strange, we didn't receive any historical data.
# Check if this is expected behavior:
if result.targets[0].opcUaStatusCode == opcuastatuscodes.OpcUa_GoodNoData:
def test_util_DateTime_addMilliSecs(self):
dt = DateTime(self.dt1)
dt.addMilliSecs(3000)
self.assertEqual(dt, self.dt2)
def test_util_DateTime_setCtime(self):
dt = DateTime()
dt.setCtime(self.now)
# check if the difference is smaller than 1 msec
self.assertTrue(self.now - dt.ctime() <= 0.001)
class DateTimeTest(unittest.TestCase):
def setUp(self):
self.dt0 = pyuaf.util.DateTime()
self.now = time.time()
self.dt1 = DateTime(self.now)
self.dt1_ = DateTime(self.dt1)
self.dt2 = DateTime(self.now + 3.0) # 3 seconds later
self.dt3 = DateTime(self.now + 60 * 60 * 24 * 3) # 3 days later
def test_util_DateTime_isNull(self):
self.assertEqual(self.dt0.isNull(), True)
self.assertEqual(self.dt1.isNull(), False)
def test_util_DateTime_ctime(self):
# check if the difference is smaller than 1 msec
self.assertTrue(self.now - self.dt1.ctime() <= 0.001)
def test_util_DateTime_setCtime(self):
dt = DateTime()
dt.setCtime(self.now)
# check if the difference is smaller than 1 msec
self.assertTrue(self.now - dt.ctime() <= 0.001)
def test_util_DateTime_toTime_t(self):
self.assertEqual(long(self.now), self.dt1.toTime_t())
def test_util_DateTime_msec(self):
self.assertLessEqual((self.now % 1) * 1000 - self.dt1.msec(), 1)
def test_util_DateTime_daysTo(self):
self.assertEqual(self.dt1.daysTo(self.dt3), 3)
def test_util_DateTime_secsTo(self):
self.assertEqual(self.dt1.secsTo(self.dt2), 3)
def test_util_DateTime_msecsTo(self):
self.assertEqual(self.dt1.msecsTo(self.dt2), 3000)
def test_util_DateTime_addSecs(self):
dt = DateTime(self.dt1)
dt.addSecs(3)
self.assertEqual(dt, self.dt2)
def test_util_DateTime_addMilliSecs(self):
dt = DateTime(self.dt1)
dt.addMilliSecs(3000)
self.assertEqual(dt, self.dt2)
def test_util_DateTime___eq__(self):
self.assertTrue(self.dt1 == self.dt1_)
self.assertFalse(self.dt1 == self.dt2)
def test_util_DateTime___ne__(self):
self.assertTrue(self.dt1 != self.dt2)
self.assertFalse(self.dt1 != self.dt1_)
def test_util_DateTime___lt__(self):
self.assertTrue(self.dt1 < self.dt2)
def test_util_DateTime___gt__(self):
self.assertTrue(self.dt3 > self.dt2)
def test_util_DateTimeVector(self):
testVector(self, pyuaf.util.DateTimeVector, [self.dt0, self.dt1, self.dt2, self.dt3])
# Now read the historical data.
# Notice the 'maxAutoReadMore' argument: it says that *if* the historical data was split up into
# several chunks, then the UAF may automatically fetch the remaining data by sending additional
# requests for 10 times in a row.
# The reason is that a server (or a client) can choose to receive a large number of historical
# data in chunks, instead of all at once. Normally, as a client, you need to check the result
# of the HistoryRead request to see if all historical data is received (by checking the
# "continuationPoint"). If there is still historical data left on the server, you would have to
# fetch the remaining data manually by invoking more HistoryRead requests.
# Luckily, the UAF implements this behavior for you: you just have to specify the maximum number of
# requests that the UAF may automatically invoke for you.
now = time.time()
result = myClient.historyReadRaw(
addresses=[address_ByteWithHistory, address_DoubleWithHistory],
startTime=DateTime(now - 5.0),
endTime=DateTime(now),
maxAutoReadMore=10)
print("Result of the historical read:")
print(result)
# delete the client and create a new instance, so we can proceed cleanly with the next step of the tutorial
del myClient
myClient = Client(settings)
# =====================================================================================================================
print("")
print("Asynchronous calling methods")
print("============================")
print("")
def test_util_DateTime_addMilliSecs(self):
dt = DateTime(self.dt1)
dt.addMilliSecs(3000)
self.assertEqual(dt, self.dt2)
def test_util_DateTime_setCtime(self):
dt = DateTime()
dt.setCtime(self.now)
# check if the difference is smaller than 1 msec
self.assertTrue(self.now - dt.ctime() <= 0.001)
class DateTimeTest(unittest.TestCase):
def setUp(self):
self.dt0 = pyuaf.util.DateTime()
self.now = time.time()
self.dt1 = DateTime(self.now)
self.dt1_ = DateTime(self.dt1)
self.dt2 = DateTime(self.now + 3.0) # 3 seconds later
self.dt3 = DateTime(self.now + 60 * 60 * 24 * 3) # 3 days later
def test_util_DateTime_isNull(self):
self.assertEqual(self.dt0.isNull(), True)
self.assertEqual(self.dt1.isNull(), False)
def test_util_DateTime_ctime(self):
# check if the difference is smaller than 1 msec
self.assertTrue(self.now - self.dt1.ctime() <= 0.001)
def test_util_DateTime_setCtime(self):
dt = DateTime()
dt.setCtime(self.now)
# check if the difference is smaller than 1 msec
self.assertTrue(self.now - dt.ctime() <= 0.001)
def test_util_DateTime_toTime_t(self):
self.assertEqual(long(self.now), self.dt1.toTime_t())
def test_util_DateTime_msec(self):
self.assertLessEqual((self.now % 1) * 1000 - self.dt1.msec(), 1)
def test_util_DateTime_daysTo(self):
self.assertEqual(self.dt1.daysTo(self.dt3), 3)
def test_util_DateTime_secsTo(self):
self.assertEqual(self.dt1.secsTo(self.dt2), 3)
def test_util_DateTime_msecsTo(self):
self.assertEqual(self.dt1.msecsTo(self.dt2), 3000)
def test_util_DateTime_addSecs(self):
dt = DateTime(self.dt1)
dt.addSecs(3)
self.assertEqual(dt, self.dt2)
def test_util_DateTime_addMilliSecs(self):
dt = DateTime(self.dt1)
dt.addMilliSecs(3000)
self.assertEqual(dt, self.dt2)
def test_util_DateTime___eq__(self):
self.assertTrue(self.dt1 == self.dt1_)
self.assertFalse(self.dt1 == self.dt2)
def test_util_DateTime___ne__(self):
self.assertTrue(self.dt1 != self.dt2)
self.assertFalse(self.dt1 != self.dt1_)
def test_util_DateTime___lt__(self):
self.assertTrue(self.dt1 < self.dt2)
def test_util_DateTime___gt__(self):
self.assertTrue(self.dt3 > self.dt2)
def test_util_DateTimeVector(self):
testVector(self, pyuaf.util.DateTimeVector,
[self.dt0, self.dt1, self.dt2, self.dt3])
