Exemplo n.º 1
0
 def test_insert_reading_collision(self):
     '''
         Test that if we insert two readings with the same timestamp and datastream we get a collision
     '''
     
     sensor = Sensor.objects.get(uuid="sensor_one_id")
     ds = DataStream.objects.get(pk=1)
     timestamp = int(time.time())
     insert_reading(ds, sensor, 10.5, timestamp) 
     self.assertRaises(SensorReadingCollision, insert_reading, *(ds, sensor, 10.5, timestamp) )
Exemplo n.º 2
0
 def test_insert_reading_no_timestamp(self):
     '''
         Test that a sensor reading get's creating without an explicit timestamp
     '''
     
     sensor = Sensor.objects.get(uuid="sensor_one_id")
     ds = DataStream.objects.get(pk=1)
     reading = insert_reading(ds, sensor, 10.5) 
     self.assertTrue(isinstance(reading, SensorReading))
Exemplo n.º 3
0
    def test_insert_reading_no_ds(self):
        '''
            Test that we get a new sensor reading even with no datastream
        '''

        sensor = Sensor.objects.get(uuid="sensor_one_id")
        timestamp = int(time.time())
        reading = insert_reading(None, sensor, 10.5, timestamp) 
        self.assertEqual(reading, SensorReading.objects.get(datastream=None, timestamp=timestamp))
Exemplo n.º 4
0
 def test_insert_reading_ds(self):
     '''
         Test that we get a new sensor reading with a datastream
     '''
     
     sensor = Sensor.objects.get(uuid="sensor_one_id")
     ds = DataStream.objects.get(pk=1)
     timestamp = int(time.time())
     reading = insert_reading(ds, sensor, 10.5, timestamp) 
     self.assertEqual(reading, SensorReading.objects.get(datastream=ds, timestamp=timestamp))
Exemplo n.º 5
0
if len(foundSensors) <= 0:
    msg = "Out of the possible test Sensors " + ", ".join(sensors)
    msg += " not a single one was found. Aborting"
    sys.exit(msg)


print "Found Sensors " +", ".join(map(lambda d: str(d.uuid), foundSensors))
print "Found Streams " +", ".join(map(lambda d: str(d.pk), foundStreams))


for t in range(startTime, startTime + 60*60*24*31, 1000*60):
    print "Time = %s" % time.localtime(t)

    for i in range(t, t + 1000*60, 60):

        for si, sensor in enumerate(foundSensors):
            
            if si % 2 == 0:
                value = 50 * math.sin(i*math.pi/(86400))
                insert_reading(foundStreams[si], sensor, value, i)
            elif si % 3 == 0:
                value = 50 * math.sin(i*2*math.pi/(60*60*24*30)) * math.sin(i*math.pi/(86400))
                insert_reading(foundStreams[si], sensor, value, i)
            else:
                value = random.randint(0, 50) * math.sin(i*math.pi/(86400))
                insert_reading(foundStreams[si], sensor, value, i)

    time.sleep(1)

print 'Done'
Exemplo n.º 6
0
        description="Random amplitude modulation",
        color="blue",
        min_value=-50.0,
        max_value=50.0,
        scaling_function=scaleF,
        owner=AuthUser.objects.get(username="******"),
    )
    ds3.save()

if len(sys.argv) > 1:
    startTime = int(time.mktime(time.strptime(sys.argv[1], strf)))
else:
    print "You must give a date in the format: YYYY-MM-DD"
    sys.exit(1)

if len(sys.argv) > 2:
    nMonths = int(sys.argv[2])
else:
    nMonths = 1

for t in range(startTime, startTime + 60 * 60 * 24 * 31 * nMonths, 1000 * 60):
    print "Time = %s" % time.localtime(t)

    for i in range(t, t + 1000 * 60, 60):
        insert_reading(ds1, 50 * math.sin(i * math.pi / (86400)), i)
        insert_reading(ds2, 50 * math.sin(i * 2 * math.pi / (60 * 60 * 24 * 30)) * math.sin(i * math.pi / (86400)), i)
        insert_reading(ds3, random.randint(0, 50) * math.sin(i * math.pi / (86400)), i)
    time.sleep(1)

print "Done"