def sensorreading(sensorname, MinutesOfAverage, operation):
isok = False
# operation "average", "min" , "max" , "sum"
if sensorname:
timelist = hardwaremod.gettimedata(sensorname)
theinterval = timelist[1] # minutes
if theinterval > 0:
samplesnumber = int(MinutesOfAverage / theinterval + 1)
else:
samplesnumber = 1
theinterval = 15
quantity = 0
MinutesOfAverage = samplesnumber * theinterval
if samplesnumber > 0:
sensordata = []
sensordbmod.getsensordbdatasamplesN(sensorname, sensordata,
samplesnumber)
datenow = datetime.now() # dont put UTC here !!!
starttimecalc = datenow - timedelta(
minutes=(MinutesOfAverage + theinterval)
) #if Minutes of average is zero, it allows to have at least one sample
isok, quantitylist = sensordbmod.EvaluateDataPeriod(
sensordata, starttimecalc, datenow)
quantity = quantitylist[operation]
# sensor reading value
logger.info('Sensor reading <%s>=<%s>', sensorname, str(quantity))
print "sensor Reading ", sensorname, "=", quantity
return isok, quantity
def sensorreading(sensorname,MinutesOfAverage,operation): isok=False # operation "average", "min" , "max" , "sum" if sensorname: timelist=hardwaremod.gettimedata(sensorname) theinterval=timelist[1] # minutes if theinterval>0: samplesnumber=int(MinutesOfAverage/theinterval+1) else: samplesnumber=1 theinterval=15 quantity=0 MinutesOfAverage=samplesnumber*theinterval if samplesnumber>0: sensordata=[] sensordbmod.getsensordbdatasamplesN(sensorname,sensordata,samplesnumber) starttimecalc=datetime.now()-timedelta(minutes=(MinutesOfAverage+theinterval)) #if Minutes of average is zero, it allows to have at least one sample quantity=sensordbmod.EvaluateDataPeriod(sensordata,starttimecalc,datetime.now())[operation] isok=True return isok , quantity
def sensorreading(sensorname): MinutesOfAverage=70 #about one hour, 4 samples at 15min samples rate if sensorname: # old #sensordata=[] #sensordbmod.getsensordbdata(sensorname,sensordata) # get number of samples timelist=hardwaremod.gettimedata(sensorname) theinterval=timelist[1] # minutes if theinterval>0: samplesnumber=int(MinutesOfAverage/theinterval+1) else: samplesnumber=1 # new procedure should be faster on database reading for large amount of data sensordata=[] sensordbmod.getsensordbdatasamplesN(sensorname,sensordata,samplesnumber) # still necessary to filter the sample based on timestamp, due to the possibility of missing samples starttimecalc=datetime.now()-timedelta(minutes=int(MinutesOfAverage)) quantity=sensordbmod.EvaluateDataPeriod(sensordata,starttimecalc,datetime.now())["max"] return quantity
def sensorreading(sensorname):
MinutesOfAverage = 70 #about one hour, 4 samples at 15min samples rate
if sensorname:
# old
#sensordata=[]
#sensordbmod.getsensordbdata(sensorname,sensordata)
# get number of samples
timelist = hardwaremod.gettimedata(sensorname)
theinterval = timelist[1] # minutes
if theinterval > 0:
samplesnumber = int(MinutesOfAverage / theinterval + 1)
else:
samplesnumber = 1
# new procedure should be faster on database reading for large amount of data
sensordata = []
sensordbmod.getsensordbdatasamplesN(sensorname, sensordata,
samplesnumber)
# still necessary to filter the sample based on timestamp, due to the possibility of missing samples
starttimecalc = datetime.now() - timedelta(
minutes=int(MinutesOfAverage))
quantity = sensordbmod.EvaluateDataPeriod(sensordata, starttimecalc,
datetime.now())["max"]
return quantity
def sensorreading(sensorname, MinutesOfAverage, operation):
isok = False
# operation "average", "min" , "max" , "sum"
if sensorname:
timelist = hardwaremod.gettimedata(sensorname)
theinterval = timelist[1] # minutes
if theinterval > 0:
samplesnumber = int(MinutesOfAverage / theinterval + 1)
else:
samplesnumber = 1
theinterval = 15
quantity = 0
MinutesOfAverage = samplesnumber * theinterval
if samplesnumber > 0:
sensordata = []
sensordbmod.getsensordbdatasamplesN(sensorname, sensordata,
samplesnumber)
starttimecalc = datetime.now() - timedelta(
minutes=(MinutesOfAverage + theinterval)
) #if Minutes of average is zero, it allows to have at least one sample
quantity = sensordbmod.EvaluateDataPeriod(
sensordata, starttimecalc, datetime.now())[operation]
isok = True
return isok, quantity
def startpump(target, activationseconds, MinAveragetemp, MaxAverageHumid):
logger.info('WateringPlan Startpump evaluation: %s', target)
#workmode=autowateringmod.checkworkmode(target)
#if workmode=="Full Auto":
if target in autowateringmod.allowwateringplan:
if not autowateringmod.allowwateringplan[target]:
logger.info(
'WateringPlan: %s pump activation blocked by automation',
target)
pumpit = False
return False
duration = hardwaremod.toint(activationseconds, 0)
print(target, " ", duration, " ", datetime.now())
# evaluate parameters
#MinAverageLight=500 not used now
MinutesOfAverage = 120 #minutes in which the average data is calculated from sensor sampling
print("waterpump check")
logger.info('execute water pump check %s',
datetime.now().strftime("%Y-%m-%d %H:%M:%S"))
# then check the temperature and Humidity
print("Check Humidity and Temperature")
MinAveragetempnum = hardwaremod.tonumber(MinAveragetemp, "NA")
MaxAverageHumidnum = hardwaremod.tonumber(MaxAverageHumid, "NA")
# all the below conditions should be verified to start the PUMP
pumpit = True
hsensornamelist = hardwaremod.getsensornamebymeasure(
hardwaremod.MEASURELIST[1])
if hsensornamelist:
sensordata = []
hsensorname = hsensornamelist[0] # get first found sensor in the list
sensordbmod.getsensordbdata(hsensorname, sensordata)
starttimecalc = datetime.now() - timedelta(
minutes=int(MinutesOfAverage))
isok, quantitylist = sensordbmod.EvaluateDataPeriod(
sensordata, starttimecalc, datetime.now())
humquantity = quantitylist["average"]
logger.info(
'Waterpump Check parameter if humquantity=%s < MaxAverageHumid=%s ',
str(humquantity), str(MaxAverageHumid))
print('Waterpump Check parameter if humquantity=', humquantity,
' < MaxAverageHumid=', MaxAverageHumid)
if (MaxAverageHumidnum != "NA"):
if (humquantity < MaxAverageHumidnum):
logger.info(
'Humidity check PASSED, humquantity=%s < MaxAverageHumid=%s ',
str(humquantity), str(MaxAverageHumid))
else:
logger.info('Humidity check FAILED')
print('Humidity check FAILED')
pumpit = False
tsensornamelist = hardwaremod.getsensornamebymeasure(
hardwaremod.MEASURELIST[0])
if tsensornamelist:
sensordata = []
tsensorname = tsensornamelist[0] # get first found sensor in the list
sensordbmod.getsensordbdata(tsensorname, sensordata)
starttimecalc = datetime.now() - timedelta(
minutes=int(MinutesOfAverage))
isok, quantitylist = sensordbmod.EvaluateDataPeriod(
sensordata, starttimecalc, datetime.now())
tempquantity = quantitylist["average"]
logger.info(
'Waterpump Check parameter if tempquantity=%s > MinAveragetemp=%s ',
str(tempquantity), str(MinAveragetemp))
print('Waterpump Check parameter if tempquantity=', tempquantity,
' > MinAveragetemp=', MinAveragetemp)
if (MinAveragetempnum != "NA"):
if (tempquantity > MinAveragetempnum):
logger.info(
'Temperature check PASSED, tempquantity=%s > MinAveragetemp=%s ',
str(tempquantity), str(MinAveragetemp))
else:
logger.info('Temperature check FAILED')
print('Temperature check FAILED')
pumpit = False
# weather Forecast
sensorname = weatherAPImod.DefaultCounterName()
sensorlist = sensordbmod.gettablelist()
if sensorname in sensorlist:
ActiveActuatorList = weatherAPImod.ActiveActuatorList()
if target in ActiveActuatorList:
sensordata = []
samplesnumber = 1
sensordbmod.getsensordbdatasamplesN(sensorname, sensordata,
samplesnumber)
MaxPastMinutes = 1200
starttimecalc = datetime.now() - timedelta(minutes=MaxPastMinutes)
isok, quantitylist = sensordbmod.EvaluateDataPeriod(
sensordata, starttimecalc, datetime.now())
if isok:
RainMultipier = quantitylist["average"]
logger.info('Waterpump weather multiplier =%s ',
str(RainMultipier))
else:
logger.warning(
'Waterpump weather multiplier NOT found within 20 Hours apply 100 '
)
RainMultipier = 100
duration = int(duration * RainMultipier / 100)
else:
logger.warning('Weather Sensor not found, no multpilier applied ')
if pumpit:
# activation of the doser before the pump
doseron = autofertilizermod.checkactivate(target, duration)
# watering
#hardwaremod.makepulse(target,duration)
activateandregister(target, duration)
# salva su database
#logger.info('Switch Pump %s ON, optional time for sec = %s', target, duration)
#print 'Pump ON, optional time for sec =', duration
#actuatordbmod.insertdataintable(target,duration)
return True
def startpump(target,activationseconds,ThesholdOFFON,ThesholdONOFF):
logger.info('WateringPlan Startpump evaluation: %s', target)
#workmode=autowateringmod.checkworkmode(target)
#if workmode=="Full Auto":
if target in autowateringmod.allowwateringplan:
if not autowateringmod.allowwateringplan[target]:
logger.info('WateringPlan: %s pump activation blocked by automation', target)
pumpit=False
return False
duration=hardwaremod.toint(activationseconds,0)
print(target, " ",duration, " " , datetime.now())
print("waterpump check")
logger.info('execute water pump check %s', datetime.now().strftime("%Y-%m-%d %H:%M:%S"))
# evaluate parameters
MinutesOfAverage=hardwaremod.toint(wateringplansensordbmod.getselduration(),120) #minutes in which the average data is calculated from sensor sampling
tsensornamelist, hsensornamelist=wateringplansensordbmod.getactivesensor()
valid1, passed1 = checksensorcondition(tsensornamelist,ThesholdOFFON, MinutesOfAverage, False)
valid2, passed2 = checksensorcondition(hsensornamelist,ThesholdONOFF, MinutesOfAverage, True)
# apply AND or OR condition
condition=wateringplansensordbmod.getselcondition() # "AND" , "OR"
pumpit=True
if valid1 and valid2:
if condition=="AND":
pumpit=passed1 and passed2
elif condition=="OR":
pumpit=passed1 or passed2
else:
if valid1:
pumpit=passed1
if valid2:
pumpit=passed2
print('valid1= ' , valid1 , 'valid2= ' , valid2)
print('passed1= ' , passed1 , 'passed2= ' , passed2)
print('pumpit= ' , pumpit, 'condition= ' , condition)
logger.info('Condition for activation =%s ', pumpit)
# weather Forecast
sensorname=weatherAPImod.DefaultCounterName()
sensorlist=sensordbmod.gettablelist()
if sensorname in sensorlist:
ActiveActuatorList=weatherAPImod.ActiveActuatorList()
if target in ActiveActuatorList:
sensordata=[]
samplesnumber=1
sensordbmod.getsensordbdatasamplesN(sensorname,sensordata,samplesnumber)
MaxPastMinutes=1200
starttimecalc=datetime.now()-timedelta(minutes=MaxPastMinutes)
isok , quantitylist=sensordbmod.EvaluateDataPeriod(sensordata,starttimecalc,datetime.now())
if isok:
RainMultipier=quantitylist["average"]
logger.info('Waterpump weather multiplier =%s ', str(RainMultipier))
else:
logger.warning('Waterpump weather multiplier NOT found within 20 Hours apply 100 ')
RainMultipier=100
duration=int(duration*RainMultipier/100)
else:
logger.warning('Weather Sensor not found, no multpilier applied ')
if pumpit:
# activation of the doser before the pump
doseron=autofertilizermod.checkactivate(target,duration)
# watering
#hardwaremod.makepulse(target,duration)
activateandregister(target,duration)
# salva su database
#logger.info('Switch Pump %s ON, optional time for sec = %s', target, duration)
#print 'Pump ON, optional time for sec =', duration
#actuatordbmod.insertdataintable(target,duration)
return True
