Exemplo n.º 1
0
    def test_is_decreasing_should_not_be_cooling(self):
        t = Temperature(c, debug=True, has_heater=True, has_cooler=True)
        last_temp = 60.
        t.add(last_temp)
        t.update()

        while True:
            last_temp = temp_gen(last_temp, False)
            t.add(last_temp)
            t.update()
            if t.temperature_average_f() <= c.min_temp_f:
                self.assertTrue(t.heating_on)
                self.assertFalse(t.cooling_on)
                break
            else:
                self.assertFalse(t.cooling_on)
Exemplo n.º 2
0
    def test_is_decreasing_should_be_heating(self):
        t = Temperature(c, debug=True, has_heater=True, has_cooler=True)
        last_temp = 60.
        t.add(last_temp)
        t.update()
        increasing = False

        while True:
            last_temp = temp_gen(last_temp, increasing)
            t.add(last_temp)
            t.update()
            if not increasing and t.temperature_average_f() > c.min_temp_f:
                self.assertFalse(t.heating_on)
                increasing = False
            elif not increasing and t.temperature_average_f() <= c.min_temp_f:
                self.assertTrue(t.heating_on)
                increasing = True
            elif increasing and (now() - t.heater_enabled_at) >= timedelta(seconds=t.heat_for_s):
                self.assertFalse(t.heating_on)
                break
Exemplo n.º 3
0
    def test_learns_heat_for_time(self):
        t = Temperature(c, debug=True, has_heater=True)
        last_temp = 60.
        t.add(last_temp)
        t.update()

        increasing = False

        i = e = 0
        works = False
        while i < 10000:
            i += 1
            last_temp = temp_gen(last_temp, increasing)
            t.add(last_temp)
            t.update()

            if t.heating_on:
                e += 1
                maximum = t.temperature_average_f() + temp_by_s(t.heat_for_s)
                last_temp = maximum
                if abs(maximum - c.max_temp_f) < .05:
                    works = True
                    break
                [t.add(maximum + j*.01) for j in range(t.queue.cap)]
                t.heating_on = False
                t.waiting_for_temp_decrease = True

        self.assertTrue(works, msg="Failed to learn the correct temperature.")
        print('NOTE: heating steady after {} learned updates'.format(e))
Exemplo n.º 4
0
    def test_temp_avg(self):
        t = Temperature(c, debug=True)
        for i in range(1, 11, 1):
            t.add(i)

        self.assertEqual(5.5, t.temperature_average_f())
import logging
log = logging.getLogger(__name__)


g.setmode(g.BCM)
SENSOR = Adafruit_DHT.DHT22

conf = Config()
conf.load()

temperature = Temperature(
    conf,
    queue_size=10,
    debug=False,
    cool_for_s=20.,
    heat_for_s=20.,
    has_cooler=True,
    has_heater=False,
    recently_minutes=5.)
humidity = Humidity(
    conf,
    queue_size=10,
    debug=False,
    has_humidifier=False,
    has_dehumidifier=True,
    recently_minutes=5.)


# Reversed since that's what's working for me (must have reversed polarity
# on current socket?)