def indoorAir(Msg, wfpiconsole):
""" Handles Websocket messages received from indoor AIR module
INPUTS:
Msg Websocket messages received from indoor AIR module
wfpiconsole wfpiconsole object
"""
# Replace missing observations in latest indoor AIR Websocket JSON with NaN
Ob = [x if x != None else NaN for x in Msg['obs'][0]]
# Discard duplicate indoor AIR Websocket messages
if 'inAirMsg' in wfpiconsole.Obs:
if wfpiconsole.Obs['inAirMsg']['obs'][0] == Ob[0]:
print('Discarding duplicate indoor AIR Websocket message')
return
# Extract indoor AIR device ID and API flag, and station configuration
# object
Device = wfpiconsole.config['Station']['InAirID']
flagAPI = wfpiconsole.flagAPI[3]
Config = wfpiconsole.config
# Extract required observations from latest indoor AIR Websocket JSON
Time = [Ob[0], 's']
Temp = [Ob[2], 'c']
# Store latest indoor AIR Websocket message
wfpiconsole.Obs['inAirMsg'] = Msg
# Extract required derived observations
minTemp = wfpiconsole.Obs['inTempMin']
maxTemp = wfpiconsole.Obs['inTempMax']
# Calculate derived variables from indoor AIR observations
MaxTemp, MinTemp = derive.TempMaxMin(Time, Temp, maxTemp, minTemp, Device,
Config, flagAPI)
# Convert observation units as required
Temp = observation.Units(Temp, Config['Units']['Temp'])
MaxTemp = observation.Units(MaxTemp, Config['Units']['Temp'])
MinTemp = observation.Units(MinTemp, Config['Units']['Temp'])
# Store derived indoor AIR observations in Data dictionary
derivedObs = {}
derivedObs['inTemp'] = observation.Format(Temp, 'Temp')
derivedObs['inTempMax'] = observation.Format(MaxTemp, 'Temp')
derivedObs['inTempMin'] = observation.Format(MinTemp, 'Temp')
# Update wfpiconsole display with derived indoor AIR observations
updateDisplay(derivedObs, wfpiconsole, 'indoorAir')
# Set flags for required API calls
wfpiconsole.flagAPI[3] = 0
# Return wfpiconsole object
return wfpiconsole
def Tempest(Msg, wfpiconsole):
""" Handles Websocket messages received from TEMPEST module
INPUTS:
Msg Websocket messages received from TEMPEST module
wfpiconsole wfpiconsole object
"""
# Replace missing observations from latest TEMPEST Websocket JSON with NaN
Ob = [x if x != None else NaN for x in Msg['obs'][0]]
# Discard duplicate TEMPEST Websocket messages
if 'TempestMsg' in wfpiconsole.Obs:
if wfpiconsole.Obs['TempestMsg']['obs'][0] == Ob[0]:
print('Discarding duplicate TEMPEST Websocket message')
return
# Extract TEMPEST device ID, API flag, and station configuration object
Device = wfpiconsole.config['Station']['TempestID']
flagAPI = wfpiconsole.flagAPI[0]
Config = wfpiconsole.config
# Extract required observations from latest TEMPEST Websocket JSON
Time = [Ob[0], 's']
WindSpd = [Ob[2], 'mps']
WindGust = [Ob[3], 'mps']
WindDir = [Ob[4], 'degrees']
Pres = [Ob[6], 'mb']
Temp = [Ob[7], 'c']
Humidity = [Ob[8], '%']
UV = [Ob[10], 'index']
Radiation = [Ob[11], 'Wm2']
Rain = [Ob[12], 'mm']
Strikes = [Ob[15], 'count']
# Extract lightning strike data from the latest AIR Websocket JSON "Summary"
# object
StrikeTime = [
Msg['summary']['strike_last_epoch']
if 'strike_last_epoch' in Msg['summary'] else NaN, 's'
]
StrikeDist = [
Msg['summary']['strike_last_dist']
if 'strike_last_dist' in Msg['summary'] else NaN, 'km'
]
Strikes3hr = [
Msg['summary']['strike_count_3h']
if 'strike_count_3h' in Msg['summary'] else NaN, 'count'
]
# Store latest TEMPEST Websocket message
wfpiconsole.Obs['TempestMsg'] = Msg
# Extract required derived observations
minPres = wfpiconsole.Obs['MinPres']
maxPres = wfpiconsole.Obs['MaxPres']
minTemp = wfpiconsole.Obs['outTempMin']
maxTemp = wfpiconsole.Obs['outTempMax']
StrikeCount = {
'Today': wfpiconsole.Obs['StrikesToday'],
'Month': wfpiconsole.Obs['StrikesMonth'],
'Year': wfpiconsole.Obs['StrikesYear']
}
rainAccum = {
'Today': wfpiconsole.Obs['TodayRain'],
'Yesterday': wfpiconsole.Obs['YesterdayRain'],
'Month': wfpiconsole.Obs['MonthRain'],
'Year': wfpiconsole.Obs['YearRain']
}
peakSun = wfpiconsole.Obs['peakSun']
avgWind = wfpiconsole.Obs['AvgWind']
maxGust = wfpiconsole.Obs['MaxGust']
# Request TEMPEST data from the previous three hours
Data3h = requestAPI.weatherflow.Last3h(Device, Time[0], Config)
# Calculate derived variables from TEMPEST observations
DewPoint = derive.DewPoint(Temp, Humidity)
SLP = derive.SLP(Pres, Config)
PresTrend = derive.SLPTrend(Pres, Time, Data3h, Config)
FeelsLike = derive.FeelsLike(Temp, Humidity, WindSpd, Config)
MaxTemp, MinTemp = derive.TempMaxMin(Time, Temp, maxTemp, minTemp, Device,
Config, flagAPI)
MaxPres, MinPres = derive.SLPMaxMin(Time, Pres, maxPres, minPres, Device,
Config, flagAPI)
StrikeCount = derive.StrikeCount(Strikes, StrikeCount, Device, Config,
flagAPI)
StrikeFreq = derive.StrikeFrequency(Time, Data3h, Config)
StrikeDeltaT = derive.StrikeDeltaT(StrikeTime)
FeelsLike = derive.FeelsLike(Temp, Humidity, WindSpd, Config)
RainRate = derive.RainRate(Rain)
rainAccum = derive.RainAccumulation(Rain, rainAccum, Device, Config,
flagAPI)
AvgWind = derive.MeanWindSpeed(WindSpd, avgWind, Device, Config, flagAPI)
MaxGust = derive.MaxWindGust(WindGust, maxGust, Device, Config, flagAPI)
WindSpd = derive.BeaufortScale(WindSpd)
WindDir = derive.CardinalWindDirection(WindDir, WindSpd)
peakSun = derive.peakSunHours(Radiation, peakSun, wfpiconsole.Astro,
Device, Config, flagAPI)
UVIndex = derive.UVIndex(UV)
# Convert observation units as required
Temp = observation.Units(Temp, Config['Units']['Temp'])
MaxTemp = observation.Units(MaxTemp, Config['Units']['Temp'])
MinTemp = observation.Units(MinTemp, Config['Units']['Temp'])
DewPoint = observation.Units(DewPoint, Config['Units']['Temp'])
FeelsLike = observation.Units(FeelsLike, Config['Units']['Temp'])
SLP = observation.Units(SLP, Config['Units']['Pressure'])
MaxPres = observation.Units(MaxPres, Config['Units']['Pressure'])
MinPres = observation.Units(MinPres, Config['Units']['Pressure'])
PresTrend = observation.Units(PresTrend, Config['Units']['Pressure'])
StrikeDist = observation.Units(StrikeDist, Config['Units']['Distance'])
RainRate = observation.Units(RainRate, Config['Units']['Precip'])
TodayRain = observation.Units(rainAccum['Today'],
Config['Units']['Precip'])
YesterdayRain = observation.Units(rainAccum['Yesterday'],
Config['Units']['Precip'])
MonthRain = observation.Units(rainAccum['Month'],
Config['Units']['Precip'])
YearRain = observation.Units(rainAccum['Year'], Config['Units']['Precip'])
WindSpd = observation.Units(WindSpd, Config['Units']['Wind'])
WindDir = observation.Units(WindDir, Config['Units']['Direction'])
WindGust = observation.Units(WindGust, Config['Units']['Wind'])
AvgWind = observation.Units(AvgWind, Config['Units']['Wind'])
MaxGust = observation.Units(MaxGust, Config['Units']['Wind'])
FeelsLike = observation.Units(FeelsLike, Config['Units']['Temp'])
# Store derived TEMPEST observations in dictionary
derivedObs = {}
derivedObs['outTemp'] = observation.Format(Temp, 'Temp')
derivedObs['outTempMax'] = observation.Format(MaxTemp, 'Temp')
derivedObs['outTempMin'] = observation.Format(MinTemp, 'Temp')
derivedObs['DewPoint'] = observation.Format(DewPoint, 'Temp')
derivedObs['FeelsLike'] = observation.Format(FeelsLike, 'Temp')
derivedObs['Pres'] = observation.Format(SLP, 'Pressure')
derivedObs['MaxPres'] = observation.Format(MaxPres, 'Pressure')
derivedObs['MinPres'] = observation.Format(MinPres, 'Pressure')
derivedObs['PresTrend'] = observation.Format(PresTrend, 'Pressure')
derivedObs['StrikeDeltaT'] = observation.Format(StrikeDeltaT, 'TimeDelta')
derivedObs['StrikeDist'] = observation.Format(StrikeDist, 'StrikeDistance')
derivedObs['StrikeFreq'] = observation.Format(StrikeFreq,
'StrikeFrequency')
derivedObs['Strikes3hr'] = observation.Format(Strikes3hr, 'StrikeCount')
derivedObs['StrikesToday'] = observation.Format(StrikeCount['Today'],
'StrikeCount')
derivedObs['StrikesMonth'] = observation.Format(StrikeCount['Month'],
'StrikeCount')
derivedObs['StrikesYear'] = observation.Format(StrikeCount['Year'],
'StrikeCount')
derivedObs['Humidity'] = observation.Format(Humidity, 'Humidity')
derivedObs['FeelsLike'] = observation.Format(FeelsLike, 'Temp')
derivedObs['RainRate'] = observation.Format(RainRate, 'Precip')
derivedObs['TodayRain'] = observation.Format(TodayRain, 'Precip')
derivedObs['YesterdayRain'] = observation.Format(YesterdayRain, 'Precip')
derivedObs['MonthRain'] = observation.Format(MonthRain, 'Precip')
derivedObs['YearRain'] = observation.Format(YearRain, 'Precip')
derivedObs['WindSpd'] = observation.Format(WindSpd, 'Wind')
derivedObs['WindGust'] = observation.Format(WindGust, 'Wind')
derivedObs['AvgWind'] = observation.Format(AvgWind, 'Wind')
derivedObs['MaxGust'] = observation.Format(MaxGust, 'Wind')
derivedObs['WindDir'] = observation.Format(WindDir, 'Direction')
derivedObs['Radiation'] = observation.Format(Radiation, 'Radiation')
derivedObs['peakSun'] = observation.Format(peakSun, 'peakSun')
derivedObs['UVIndex'] = observation.Format(UVIndex, 'UV')
# Update wfpiconsole display with derived TEMPEST observations
updateDisplay(derivedObs, wfpiconsole, 'Tempest')
# Set flags for required API calls
wfpiconsole.flagAPI[0] = 0
# Return wfpiconsole object
return wfpiconsole
def outdoorAir(Msg, wfpiconsole):
""" Handles Websocket messages received from outdoor AIR module
INPUTS:
Msg Websocket messages received from outdoor AIR module
wfpiconsole wfpiconsole object
"""
# Replace missing observations in latest outdoor AIR Websocket JSON with NaN
Ob = [x if x != None else NaN for x in Msg['obs'][0]]
# Discard duplicate outdoor AIR Websocket messages
if 'outAirMsg' in wfpiconsole.Obs:
if wfpiconsole.Obs['outAirMsg']['obs'][0] == Ob[0]:
print('Discarding duplicate outdoor AIR Websocket message')
return
# Extract outdoor AIR device ID and API flag, and station configuration
# object
Device = wfpiconsole.config['Station']['OutAirID']
flagAPI = wfpiconsole.flagAPI[2]
Config = wfpiconsole.config
# Extract required observations from latest outdoor AIR Websocket JSON
Time = [Ob[0], 's']
Pres = [Ob[1], 'mb']
Temp = [Ob[2], 'c']
Humidity = [Ob[3], '%']
Strikes = [Ob[4], 'count']
# Extract lightning strike data from the latest outdoor AIR Websocket JSON
# "Summary" object
StrikeTime = [
Msg['summary']['strike_last_epoch']
if 'strike_last_epoch' in Msg['summary'] else NaN, 's'
]
StrikeDist = [
Msg['summary']['strike_last_dist']
if 'strike_last_dist' in Msg['summary'] else NaN, 'km'
]
Strikes3hr = [
Msg['summary']['strike_count_3h']
if 'strike_count_3h' in Msg['summary'] else NaN, 'count'
]
# Extract required derived observations
minPres = wfpiconsole.Obs['MinPres']
maxPres = wfpiconsole.Obs['MaxPres']
minTemp = wfpiconsole.Obs['outTempMin']
maxTemp = wfpiconsole.Obs['outTempMax']
StrikeCount = {
'Today': wfpiconsole.Obs['StrikesToday'],
'Month': wfpiconsole.Obs['StrikesMonth'],
'Year': wfpiconsole.Obs['StrikesYear']
}
# Request outdoor AIR data from the previous three hours
Data3h = requestAPI.weatherflow.Last3h(Device, Time[0], Config)
# Store latest outdoor AIR Websocket message
wfpiconsole.Obs['outAirMsg'] = Msg
# Extract required observations from latest SKY Websocket JSON
while not 'SkyMsg' in wfpiconsole.Obs:
time.sleep(0.01)
Ob = [x if x != None else NaN for x in wfpiconsole.Obs['SkyMsg']['obs'][0]]
WindSpd = [Ob[5], 'mps']
# Calculate derived variables from AIR observations
DewPoint = derive.DewPoint(Temp, Humidity)
SLP = derive.SLP(Pres, Config)
PresTrend = derive.SLPTrend(Pres, Time, Data3h, Config)
FeelsLike = derive.FeelsLike(Temp, Humidity, WindSpd, Config)
MaxTemp, MinTemp = derive.TempMaxMin(Time, Temp, maxTemp, minTemp, Device,
Config, flagAPI)
MaxPres, MinPres = derive.SLPMaxMin(Time, Pres, maxPres, minPres, Device,
Config, flagAPI)
StrikeCount = derive.StrikeCount(Strikes, StrikeCount, Device, Config,
flagAPI)
StrikeFreq = derive.StrikeFrequency(Time, Data3h, Config)
StrikeDeltaT = derive.StrikeDeltaT(StrikeTime)
# Convert observation units as required
Temp = observation.Units(Temp, Config['Units']['Temp'])
MaxTemp = observation.Units(MaxTemp, Config['Units']['Temp'])
MinTemp = observation.Units(MinTemp, Config['Units']['Temp'])
DewPoint = observation.Units(DewPoint, Config['Units']['Temp'])
FeelsLike = observation.Units(FeelsLike, Config['Units']['Temp'])
SLP = observation.Units(SLP, Config['Units']['Pressure'])
MaxPres = observation.Units(MaxPres, Config['Units']['Pressure'])
MinPres = observation.Units(MinPres, Config['Units']['Pressure'])
PresTrend = observation.Units(PresTrend, Config['Units']['Pressure'])
StrikeDist = observation.Units(StrikeDist, Config['Units']['Distance'])
# Store derived outdoor AIR observations in dictionary
derivedObs = {}
derivedObs['outTemp'] = observation.Format(Temp, 'Temp')
derivedObs['outTempMax'] = observation.Format(MaxTemp, 'Temp')
derivedObs['outTempMin'] = observation.Format(MinTemp, 'Temp')
derivedObs['DewPoint'] = observation.Format(DewPoint, 'Temp')
derivedObs['FeelsLike'] = observation.Format(FeelsLike, 'Temp')
derivedObs['Pres'] = observation.Format(SLP, 'Pressure')
derivedObs['MaxPres'] = observation.Format(MaxPres, 'Pressure')
derivedObs['MinPres'] = observation.Format(MinPres, 'Pressure')
derivedObs['PresTrend'] = observation.Format(PresTrend, 'Pressure')
derivedObs['StrikeDeltaT'] = observation.Format(StrikeDeltaT, 'TimeDelta')
derivedObs['StrikeDist'] = observation.Format(StrikeDist, 'StrikeDistance')
derivedObs['StrikeFreq'] = observation.Format(StrikeFreq,
'StrikeFrequency')
derivedObs['Strikes3hr'] = observation.Format(Strikes3hr, 'StrikeCount')
derivedObs['StrikesToday'] = observation.Format(StrikeCount['Today'],
'StrikeCount')
derivedObs['StrikesMonth'] = observation.Format(StrikeCount['Month'],
'StrikeCount')
derivedObs['StrikesYear'] = observation.Format(StrikeCount['Year'],
'StrikeCount')
derivedObs['Humidity'] = observation.Format(Humidity, 'Humidity')
# Update wfpiconsole display with derived outdoor AIR observations
updateDisplay(derivedObs, wfpiconsole, 'outdoorAir')
# Set flags for required API calls
wfpiconsole.flagAPI[2] = 0
# Return wfpiconsole object
return wfpiconsole