MotionEyeOS Day and Night Python script: Difference between revisions

From WickyWiki
← Older editNewer edit →
mNo edit summary
mNo edit summary
Line 38: Line 38:
import os.path
import os.path
import shutil
import shutil
import filecmp
import time as time2


# variant of time zone available on MotionEyeOS
# Variant of time zone available on MotionEyeOS
localTimezone = timezone('Europe/Amsterdam')
localTimezone = timezone('Europe/Amsterdam')


# Location of here in lat / long (consult your favourite maps app to determine this)
# Location of here in lat / long
localLat = 51.5
localLat = 51.49
localLong = 5.5
localLong = 5.48


# Sunrise and sunset fudge factor (in minutes)
# Sunrise and sunset delay (in minutes)
# Positive minutes is later, negative minutes is earlier.
# + is later, - is earlier.
sunriseFudgeMinutes = -20
sunriseDelayMins = -10
sunsetFudgeMinutes = 20
sunsetDelayMins = +10


# Current state of day / night is stored in this file.
# Current state of day / night is stored in this file.
scriptDir = '/data/script_daynight/'
dayNightStateFile = '/data/etc/daynight/daynight.dat'
dayAndNightStateFile = scriptDir + 'daynight.dat'


# sun module
class sun:
class sun:
  """  
  """  
Line 61: Line 61:
  http://www.srrb.noaa.gov/highlights/sunrise/calcdetails.html
  http://www.srrb.noaa.gov/highlights/sunrise/calcdetails.html
  """
  """
  def __init__(self,lat=52.37,long=4.90): # default Amsterdam
  def __init__(self,lat=52.37,long=4.90,when=None):
  """
  default Amsterdam + local time zone
  (including daylight saving if present)
  """
   self.lat=lat
   self.lat=lat
   self.long=long
   self.long=long
 
def sunrise(self,when=None):
  """
  return the time of sunrise as a datetime.time object
  when is a datetime.datetime object. If none is given
  a local time zone is assumed (including daylight saving
  if present)
  """
  if when is None : when = datetime.now(tz=localTimezone)
  self.__preptime(when)
  self.__calc()
  return sun.timefromdecimalday(self.sunrise_t)
 
def sunset(self,when=None):
   if when is None : when = datetime.now(tz=localTimezone)
   if when is None : when = datetime.now(tz=localTimezone)
   self.__preptime(when)
   self.__preptime(when)
   self.__calc()
   self.__calc()
  return sun.timefromdecimalday(self.sunset_t)
 
 
def solarnoon(self,when=None):
  if when is None : when = datetime.now(tz=localTimezone)
  self.__preptime(when)
  self.__calc()
  return sun.timefromdecimalday(self.solarnoon_t)
  """
  """
  The two fudge factors are in minutes. Negative is earlier.  
  The two fudge factors are in minutes. Negative is earlier.  
Line 122: Line 105:
   a datetime.datetime object.
   a datetime.datetime object.
   """
   """
  # datetime days are numbered in the Gregorian calendar
  # while the calculations from NOAA are distibuted as
  # OpenOffice spreadsheets with days numbered from
  # 1/1/1900. The difference are those numbers taken for
  # 18/12/2010
   self.day = when.toordinal()-(734124-40529)
   self.day = when.toordinal()-(734124-40529)
   t=when.time()
   t=when.time()
Line 139: Line 117:
   """
   """
   Perform the actual calculations for sunrise, sunset and
   Perform the actual calculations for sunrise, sunset and
   a number of related quantities.  
   a number of related quantities.   
    
   The results are stored in the instance variables
   The results are stored in the instance variables
   sunrise_t, sunset_t and solarnoon_t
   sunrise_t, sunset_t and solarnoon_t
Line 184: Line 161:
  f.write(data)
  f.write(data)
  f.close()
  f.close()
# The main program
if __name__ == "__main__":
   
   
if __name__ == "__main__":
# Calculate
  s=sun(lat=localLat,long=localLong)
  s=sun(lat=localLat,long=localLong)
# Calculate
s.solarnoon()
   
   
  # Track day / night state in file.
  # Previous day/night -state from file.
  fileDayOrNight = readLineOfFile(dayAndNightStateFile)
  fileDayOrNight = readLineOfFile(dayNightStateFile)
   
   
  #log
  # Log
  print(datetime.now().strftime('%Y-%m-%d_%H.%M.%S ')  
  print(datetime.now().strftime('%Y-%m-%d_%H.%M.%S ')  
   + 'Day ' + sun.timefromdecimalday(s.sunrise_t).strftime('%H.%M') + ['', '+'][sunriseFudgeMinutes > 0] + str(sunriseFudgeMinutes)
   + 'Day from ' + sun.timefromdecimalday(s.sunrise_t).strftime('%H.%M') + ['(', '(+'][sunriseDelayMins > 0] + str(sunriseDelayMins)+')'
   + ' - ' + sun.timefromdecimalday(s.sunset_t).strftime('%H.%M') + ['', '+'][sunsetFudgeMinutes > 0] + str(sunsetFudgeMinutes)
   + ' to ' + sun.timefromdecimalday(s.sunset_t).strftime('%H.%M') + ['(', '(+'][sunsetDelayMins > 0] + str(sunsetDelayMins)+')'
   + ', state: ' + fileDayOrNight
   + ', current state: ' + fileDayOrNight
   )
   )
 
# Determine current day / night state based on current time of day.
currentDayOrNight = s.dayornight(sunriseFudge=sunriseFudgeMinutes,sunsetFudge=sunsetFudgeMinutes)
   
   
# Current day/night -state based on time-of-day.
currentDayOrNight = s.dayornight(sunriseFudge=sunriseDelayMins,sunsetFudge=sunsetDelayMins)
# New day/night -state?
  if fileDayOrNight != currentDayOrNight:
  if fileDayOrNight != currentDayOrNight:
   print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'Changing state to: ' + currentDayOrNight)
   print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'Changing state to: ' + currentDayOrNight)
    
    
   # backup the old settings if the selected config was updated
   # Backup the old settings if the selected config is newer 
   if not filecmp.cmp("/data/etc/thread-1.conf", scriptDir + "thread-1.conf." + fileDayOrNight):
   if os.stat("/data/etc/thread-1.conf").st_mtime > os.stat("/data/etc/thread-1.conf." + fileDayOrNight).st_mtime:
     # backup old day/night file
     # Backup old day/night settings file
     shutil.move(scriptDir + "thread-1.conf." + fileDayOrNight
     shutil.copy2("/data/etc/thread-1.conf." + fileDayOrNight
       , scriptDir + "thread-1.conf." + fileDayOrNight + "." + datetime.now().strftime('%Y-%m-%d_%H.%M'))
       , "/data/etc/thread-1.conf." + fileDayOrNight + "." + datetime.now().strftime('%Y-%m-%d_%H.%M'))
     # store updated day/night file
     # Store new day/night settings file
     shutil.copyfile("/data/etc/thread-1.conf", scriptDir + "thread-1.conf." + fileDayOrNight)
     shutil.copy2("/data/etc/thread-1.conf", "/data/etc/thread-1.conf." + fileDayOrNight)


   # select the other day/night file
   # Select the other day/night settings file
   shutil.copyfile(scriptDir + "thread-1.conf." + currentDayOrNight, "/data/etc/thread-1.conf")
   shutil.copy2("/data/etc/thread-1.conf." + currentDayOrNight, "/data/etc/thread-1.conf")


   print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'Restart motionEye...')
  # Restart MotionEye
   os.system("/etc/init.d/S85motioneye restart")
   print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'Stop MotionEye...')
   print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'MotionEye restarted.')
  os.system("/etc/init.d/S85motioneye stop")
  time2.sleep(10)
  print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'Start MotionEye...')
   os.system("/etc/init.d/S85motioneye start")
   print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'MotionEye Started.')
    
    
   # Update the file day / night state.
   # Update day/night -state file
   updateContentsOfFile(dayAndNightStateFile, currentDayOrNight)
   updateContentsOfFile(dayNightStateFile, currentDayOrNight)
</syntaxhighlight>
</syntaxhighlight>

Revision as of 19:22, 7 March 2019


See also:

Source:

Setup crontab to execute the script (here every 10 minutes) 

crontab -e
  02,12,22,32,42,52 * * * * /usr/bin/python /data/etc/daynight/daynight.py >> /data/log/daynight.log

Setup logrotate to limit the size of the logfile.

Script

nano /data/etc/daynight/daynight.py
from math import cos,sin,acos,asin,tan
from math import degrees as deg, radians as rad
from datetime import date,datetime,time
from pytz import timezone
import os
import os.path
import shutil
import time as time2

# Variant of time zone available on MotionEyeOS
localTimezone = timezone('Europe/Amsterdam')

# Location of here in lat / long
localLat = 51.49
localLong = 5.48

# Sunrise and sunset delay (in minutes)
# + is later, - is earlier.
sunriseDelayMins = -10
sunsetDelayMins = +10

# Current state of day / night is stored in this file.
dayNightStateFile = '/data/etc/daynight/daynight.dat'

# sun module
class sun:
 """ 
 Calculate sunrise and sunset based on equations from NOAA
 http://www.srrb.noaa.gov/highlights/sunrise/calcdetails.html
 """
 def __init__(self,lat=52.37,long=4.90,when=None):
  """
  default Amsterdam + local time zone
  (including daylight saving if present)
  """
  self.lat=lat
  self.long=long
  if when is None : when = datetime.now(tz=localTimezone)
  self.__preptime(when)
  self.__calc()
   
 """
 The two fudge factors are in minutes. Negative is earlier. 
 """
 def dayornight(self,now=None,sunriseFudge=0,sunsetFudge=0):
  if now is None : now = datetime.now(tz=localTimezone)
  self.__preptime(when=now)
  self.__calc()
  sunriseFudge = sunriseFudge/60.0/24.0
  sunsetFudge = sunsetFudge/60.0/24.0
  if (self.time >= (self.sunrise_t + sunriseFudge) and self.time <= (self.sunset_t + sunsetFudge)):
   return 'day'
  else:
   return 'night'
  
 @staticmethod
 def timefromdecimalday(day):
  """
  returns a datetime.time object.
  day is a decimal day between 0.0 and 1.0, e.g. noon = 0.5
  """
  hours  = 24.0*day
  h      = int(hours)
  minutes= (hours-h)*60
  m      = int(minutes)
  seconds= (minutes-m)*60
  s      = int(seconds)
  return time(hour=h,minute=m,second=s)

 def __preptime(self,when):
  """
  Extract information in a suitable format from when, 
  a datetime.datetime object.
  """
  self.day = when.toordinal()-(734124-40529)
  t=when.time()
  self.time= (t.hour + t.minute/60.0 + t.second/3600.0)/24.0
  
  self.timezone=0
  offset=when.utcoffset()
  if not offset is None:
   self.timezone=offset.seconds/3600.0
  
 def __calc(self):
  """
  Perform the actual calculations for sunrise, sunset and
  a number of related quantities.   
  The results are stored in the instance variables
  sunrise_t, sunset_t and solarnoon_t
  """
  timezone = self.timezone # in hours, east is positive
  longitude= self.long     # in decimal degrees, east is positive
  latitude = self.lat      # in decimal degrees, north is positive

  time     = self.time    # percentage past midnight, i.e. noon  is 0.5
  day      = self.day     # daynumber 1=1/1/1900
 
  Jday     = day+2415018.5+time-timezone/24 # Julian day
  Jcent    = (Jday-2451545)/36525           # Julian century

  Manom    = 357.52911+Jcent*(35999.05029-0.0001537*Jcent)
  Mlong    = 280.46646+Jcent*(36000.76983+Jcent*0.0003032)%360
  Eccent   = 0.016708634-Jcent*(0.000042037+0.0001537*Jcent)
  Mobliq   = 23+(26+((21.448-Jcent*(46.815+Jcent*(0.00059-Jcent*0.001813))))/60)/60
  obliq    = Mobliq+0.00256*cos(rad(125.04-1934.136*Jcent))
  vary     = tan(rad(obliq/2))*tan(rad(obliq/2))
  Seqcent  = sin(rad(Manom))*(1.914602-Jcent*(0.004817+0.000014*Jcent))+sin(rad(2*Manom))*(0.019993-0.000101*Jcent)+sin(rad(3*Manom))*0.000289
  Struelong= Mlong+Seqcent
  Sapplong = Struelong-0.00569-0.00478*sin(rad(125.04-1934.136*Jcent))
  declination = deg(asin(sin(rad(obliq))*sin(rad(Sapplong))))
  
  eqtime   = 4*deg(vary*sin(2*rad(Mlong))-2*Eccent*sin(rad(Manom))+4*Eccent*vary*sin(rad(Manom))*cos(2*rad(Mlong))-0.5*vary*vary*sin(4*rad(Mlong))-1.25*Eccent*Eccent*sin(2*rad(Manom)))

  hourangle= deg(acos(cos(rad(90.833))/(cos(rad(latitude))*cos(rad(declination)))-tan(rad(latitude))*tan(rad(declination))))

  self.solarnoon_t=(720-4*longitude-eqtime+timezone*60)/1440
  self.sunrise_t  =self.solarnoon_t-hourangle*4/1440
  self.sunset_t   =self.solarnoon_t+hourangle*4/1440

def readLineOfFile(path):
 if not os.path.isfile(path): return ""
 f = open(path, "r")
 result = f.readline()
 f.close()
 return result.rstrip()
 
def updateContentsOfFile(path, data):
 f = open(path, "w")
 f.write(data)
 f.close()

# The main program
if __name__ == "__main__":
 
 # Calculate
 s=sun(lat=localLat,long=localLong)
 
 # Previous day/night -state from file.
 fileDayOrNight = readLineOfFile(dayNightStateFile)
 
 # Log
 print(datetime.now().strftime('%Y-%m-%d_%H.%M.%S ') 
  + 'Day from ' + sun.timefromdecimalday(s.sunrise_t).strftime('%H.%M') + ['(', '(+'][sunriseDelayMins > 0] + str(sunriseDelayMins)+')'
  + ' to ' + sun.timefromdecimalday(s.sunset_t).strftime('%H.%M') + ['(', '(+'][sunsetDelayMins > 0] + str(sunsetDelayMins)+')'
  + ', current state: ' + fileDayOrNight
  )
 
 # Current day/night -state based on time-of-day.
 currentDayOrNight = s.dayornight(sunriseFudge=sunriseDelayMins,sunsetFudge=sunsetDelayMins)

 # New day/night -state?
 if fileDayOrNight != currentDayOrNight:
  print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'Changing state to: ' + currentDayOrNight)
  
  # Backup the old settings if the selected config is newer  
  if os.stat("/data/etc/thread-1.conf").st_mtime > os.stat("/data/etc/thread-1.conf." + fileDayOrNight).st_mtime:
    # Backup old day/night settings file
    shutil.copy2("/data/etc/thread-1.conf." + fileDayOrNight
      , "/data/etc/thread-1.conf." + fileDayOrNight + "." + datetime.now().strftime('%Y-%m-%d_%H.%M'))
    # Store new day/night settings file
    shutil.copy2("/data/etc/thread-1.conf", "/data/etc/thread-1.conf." + fileDayOrNight)

  # Select the other day/night settings file
  shutil.copy2("/data/etc/thread-1.conf." + currentDayOrNight, "/data/etc/thread-1.conf")

  # Restart MotionEye
  print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'Stop MotionEye...')
  os.system("/etc/init.d/S85motioneye stop")
  time2.sleep(10)
  print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'Start MotionEye...')
  os.system("/etc/init.d/S85motioneye start")  
  print(datetime.now().strftime('%Y-%m-%d_%H:%M:%S ') + 'MotionEye Started.')
  
  # Update day/night -state file
  updateContentsOfFile(dayNightStateFile, currentDayOrNight)
Retrieved from "https://wjv.duckdns.org/mediawiki/index.php?title=MotionEyeOS_Day_and_Night_Python_script&oldid=2781"