def main(): """main part""" temphumi = DHT22_AM2302(19) # BCM 19 = PIN 35 temp_cpu = CPU() measurements = { DS_TEMP1: Measurements(3), DS_TEMPCPU: Measurements(3), DS_TEMP2: Measurements(3), DS_HUMI: Measurements(3), } rrd_template = DS_TEMP1 + ":" + DS_TEMPCPU + ":" + DS_TEMP2 + ":" + DS_HUMI while True: _temp, _humi = temphumi.read() measurements[DS_TEMP1].append(_temp) measurements[DS_HUMI].append(_humi) measurements[DS_TEMPCPU].append(temp_cpu.read()) measurements[DS_TEMP2].append(0) # empty, for later useage rrd_data = ( "N:{:.2f}".format(measurements[DS_TEMP1].last()) + ":{:.2f}".format(measurements[DS_TEMPCPU].last()) + ":{:.2f}".format(measurements[DS_TEMP2].last()) + ":{:.2f}".format(measurements[DS_HUMI].last()) ) print strftime("%H:%M:%S", localtime()), rrd_data rrdtool.update(RRDFILE, "--template", rrd_template, rrd_data) sleep(35)
def main(): """main part""" temphumi = DHT22_AM2302(19) # BCM 19 = PIN 35 temp_cpu = CPU() measurements = {DS_TEMP1: Measurements(3), \ DS_TEMPCPU: Measurements(3), \ DS_TEMP2: Measurements(3), \ DS_HUMI: Measurements(3)} rrd_template = DS_TEMP1 + ":" + \ DS_TEMPCPU + ":" + \ DS_TEMP2 + ":" + \ DS_HUMI while (True): _temp, _humi = temphumi.read() measurements[DS_TEMP1].append(_temp) measurements[DS_HUMI].append(_humi) measurements[DS_TEMPCPU].append(temp_cpu.read()) measurements[DS_TEMP2].append(0) # empty, for later useage rrd_data = "N:{:.2f}".format(measurements[DS_TEMP1].last()) + \ ":{:.2f}".format(measurements[DS_TEMPCPU].last()) + \ ":{:.2f}".format(measurements[DS_TEMP2].last()) + \ ":{:.2f}".format(measurements[DS_HUMI].last()) print strftime("%H:%M:%S", localtime()), rrd_data rrdtool.update(RRDFILE, "--template", rrd_template, rrd_data) sleep(35)
def main(): """main part""" temp1 = DS1820("/sys/bus/w1/devices/28-000006d62eb1/w1_slave") temp2 = DS1820("/sys/bus/w1/devices/28-000006dd6ac1/w1_slave") temp4 = DS1820("/sys/bus/w1/devices/28-000006de535b/w1_slave") temphumi = DHT22_AM2302(21) # BCM 21 = PIN 40 tempcpu = CPU() heatcontrol = Schedules.Control(Schedules.ScheduleHeat(), heatlamp) lightcontrol = Schedules.Control(Schedules.ScheduleLight(), lightlamp) measurements = {DS_TEMP1: Measurements(), \ DS_TEMP2: Measurements(), \ DS_TEMP3: Measurements(), \ DS_TEMP4: Measurements(), \ DS_TEMPCPU: Measurements(), \ DS_HUMI: Measurements()} rrd_template = DS_TEMP1 + ":" + \ DS_TEMP2 + ":" + \ DS_TEMP3 + ":" + \ DS_TEMP4 + ":" + \ DS_TEMPCPU + ":" + \ DS_HUMI + ":" + \ DS_HEATING + ":" + \ DS_LIGHTING while (True): measurements[DS_TEMP1].append(temp1.read()) measurements[DS_TEMP2].append(temp2.read()) measurements[DS_TEMP4].append(temp4.read()) _temp3, _humi = temphumi.read() measurements[DS_TEMP3].append(_temp3) measurements[DS_HUMI].append(_humi) measurements[DS_TEMPCPU].append(tempcpu.read()) heatcontrol.control(measurements[DS_TEMP3].avg()) lightcontrol.control(measurements[DS_TEMP3].avg()) rrd_data = "N:{:.2f}".format(measurements[DS_TEMP1].last()) + \ ":{:.2f}".format(measurements[DS_TEMP2].last()) + \ ":{:.2f}".format(measurements[DS_TEMP3].last()) + \ ":{:.2f}".format(measurements[DS_TEMP4].last()) + \ ":{:.2f}".format(measurements[DS_TEMPCPU].last()) + \ ":{:.2f}".format(measurements[DS_HUMI].last()) + \ ":{:}".format(heatlamp.status()) + \ ":{:}".format(lightlamp.status()) print strftime("%H:%M:%S", localtime()), rrd_data rrdtool.update(RRDFILE, "--template", rrd_template, rrd_data) sleep(35)
def main(): """main part""" temp_fridge = DS1820("/sys/bus/w1/devices/28-000006dc8d42/w1_slave") temp_cpu = CPU() temphumi = DHT22_AM2302(21) # BCM 21 = PIN 40 measurements = {DS_TEMP1: Measurements(3), \ DS_TEMPCPU: Measurements(3), \ DS_TEMP2: Measurements(3), \ DS_HUMI: Measurements(3)} rrd_template = DS_TEMP1 + ":" + \ DS_TEMPCPU + ":" + \ DS_TEMP2 + ":" + \ DS_HUMI + ":" + \ DS_ON + ":" + \ DS_OPEN while (True): measurements[DS_TEMP1].append(temp_fridge.read_temperature()) measurements[DS_TEMPCPU].append(temp_cpu.read()) _temp, _humi = temphumi.read() measurements[DS_TEMP2].append(_temp) measurements[DS_HUMI].append(_humi) if (measurements[DS_TEMP2].avg() > 5.2): fridge.on() if (measurements[DS_TEMP2].avg() < 5.0): fridge.off() # if (temp > 6): fridge.on() # else if (temp > 5): # fridge_on_time(60,90) # für 60 sekunden einschalten; 90 Sekunden mindestens aus # else if (temp < 5.0): # fridge.off() # class fridge_... derived from class Heating # threading: https://docs.python.org/2/library/threading.html # multi inheritance: https://docs.python.org/2/tutorial/classes.html#multiple-inheritance # class DerivedClassName(Base1, Base2, Base3): # fridge_on_time: # thread: # with lock: # timing = active # __on() # sleep(60) # __off() # sleep(90) # with lock: # timing = non_active # in on(), off() # ... # if (active): pass rrd_data = "N:{:.2f}".format(measurements[DS_TEMP1].last()) + \ ":{:.2f}".format(measurements[DS_TEMPCPU].last()) + \ ":{:.2f}".format(measurements[DS_TEMP2].last()) + \ ":{:.2f}".format(measurements[DS_HUMI].last()) + \ ":{:}".format(fridge.status()) + \ ":{:}".format(reedcontact.status_stretched()) print strftime("%H:%M:%S", localtime()), rrd_data rrdtool.update(RRDFILE, "--template", rrd_template, rrd_data) writeMonitoringData(rrd_data) sleep(35)
def main(): """main part""" qvalue_tempbox = SensorValueLock("ID_08", "TempDonutBox", SensorValue.Types.Temp, u'°C', Lock()) qvalue_humi = SensorValueLock("ID_09", "HumiDonut", SensorValue.Types.Humi, u'% rF', Lock()) qvalue_tempoutdoor = SensorValueLock("ID_12", "TempDonutOutDoor", SensorValue.Types.Temp, u'°C', Lock()) qvalue_heatlamp = SensorValueLock("ID_10", "SwitchHeatlamp", SensorValue.Types.Switch, u'Heizung:', Lock()) qvalue_lightlamp = SensorValueLock("ID_11", "SwitchLightlamp", SensorValue.Types.Switch, u'Beleuchtung:', Lock()) sq.register(qvalue_tempbox) sq.register(qvalue_humi) sq.register(qvalue_tempoutdoor) sq.register(qvalue_heatlamp) sq.register(qvalue_lightlamp) sq.start() temp1 = DS1820("/sys/bus/w1/devices/28-000006d62eb1/w1_slave", qvalue_tempoutdoor) temp2 = DS1820("/sys/bus/w1/devices/28-000006dd6ac1/w1_slave") temp4 = DS1820("/sys/bus/w1/devices/28-000006de535b/w1_slave") temphumi = DHT22_AM2302(21, qvalue_tempbox, qvalue_humi) # BCM 21 = PIN 40 tempcpu = CPU() heatcontrol = Schedules.Control(Schedules.ScheduleHeat(), heatlamp, qvalue_heatlamp) lightcontrol = Schedules.Control(Schedules.ScheduleLight(), lightlamp, qvalue_lightlamp) measurements = {DS_TEMP1: Measurements(), \ DS_TEMP2: Measurements(), \ DS_TEMP3: Measurements(), \ DS_TEMP4: Measurements(), \ DS_TEMPCPU: Measurements(), \ DS_HUMI: Measurements()} rrd_template = DS_TEMP1 + ":" + \ DS_TEMP2 + ":" + \ DS_TEMP3 + ":" + \ DS_TEMP4 + ":" + \ DS_TEMPCPU + ":" + \ DS_HUMI + ":" + \ DS_HEATING + ":" + \ DS_LIGHTING while (True): measurements[DS_TEMP1].append(temp1.read_temperature()) measurements[DS_TEMP2].append(temp2.read_temperature()) measurements[DS_TEMP4].append(temp4.read_temperature()) _temp3, _humi = temphumi.read() measurements[DS_TEMP3].append(_temp3) measurements[DS_HUMI].append(_humi) measurements[DS_TEMPCPU].append(tempcpu.read()) heatcontrol.control(measurements[DS_TEMP3].avg()) lightcontrol.control(measurements[DS_TEMP3].avg()) rrd_data = "N:{:.2f}".format(measurements[DS_TEMP1].last()) + \ ":{:.2f}".format(measurements[DS_TEMP2].last()) + \ ":{:.2f}".format(measurements[DS_TEMP3].last()) + \ ":{:.2f}".format(measurements[DS_TEMP4].last()) + \ ":{:.2f}".format(measurements[DS_TEMPCPU].last()) + \ ":{:.2f}".format(measurements[DS_HUMI].last()) + \ ":{:}".format(heatlamp.status()) + \ ":{:}".format(lightlamp.status()) print strftime("%H:%M:%S", localtime()), rrd_data rrdtool.update(RRDFILE, "--template", rrd_template, rrd_data) sleep(35)
def main(): """main part""" temp_fridge = DS1820("/sys/bus/w1/devices/28-000006dc8d42/w1_slave") temp_cpu = CPU() temphumi = DHT22_AM2302(21) # BCM 21 = PIN 40 measurements = {DS_TEMP1: Measurements(3), \ DS_TEMPCPU: Measurements(3), \ DS_TEMP2: Measurements(3), \ DS_HUMI: Measurements(3)} rrd_template = DS_TEMP1 + ":" + \ DS_TEMPCPU + ":" + \ DS_TEMP2 + ":" + \ DS_HUMI + ":" + \ DS_ON + ":" + \ DS_OPEN while (True): measurements[DS_TEMP1].append(temp_fridge.read()) measurements[DS_TEMPCPU].append(temp_cpu.read()) _temp, _humi = temphumi.read() measurements[DS_TEMP2].append(_temp) measurements[DS_HUMI].append(_humi) if (measurements[DS_TEMP2].avg() > 5.2): fridge.on() if (measurements[DS_TEMP2].avg() < 5.0): fridge.off() # if (temp > 6): fridge.on() # else if (temp > 5): # fridge_on_time(60,90) # für 60 sekunden einschalten; 90 Sekunden mindestens aus # else if (temp < 5.0): # fridge.off() # class fridge_... derived from class Heating # threading: https://docs.python.org/2/library/threading.html # multi inheritance: https://docs.python.org/2/tutorial/classes.html#multiple-inheritance # class DerivedClassName(Base1, Base2, Base3): # fridge_on_time: # thread: # with lock: # timing = active # __on() # sleep(60) # __off() # sleep(90) # with lock: # timing = non_active # in on(), off() # ... # if (active): pass rrd_data = "N:{:.2f}".format(measurements[DS_TEMP1].last()) + \ ":{:.2f}".format(measurements[DS_TEMPCPU].last()) + \ ":{:.2f}".format(measurements[DS_TEMP2].last()) + \ ":{:.2f}".format(measurements[DS_HUMI].last()) + \ ":{:}".format(fridge.status()) + \ ":{:}".format(reedcontact.status_stretched()) print strftime("%H:%M:%S", localtime()), rrd_data rrdtool.update(RRDFILE, "--template", rrd_template, rrd_data) writeMonitoringData(rrd_data) sleep(35)