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#!/usr/bin/env python3
# See LICENSE file for copyright and license details.
import sys, os, pwd, time
import solar_python as sol
loc = None
stop_date = None
human = False
unix = False
local = False
noon = False
night = False
blue = False
gold = False
unblue = False
ungold = False
morning = []
evening = []
dderiv = []
nderiv = []
res = '1s'
## Parse command line
argv0 = sys.argv[0] if len(sys.argv) > 0 else 'blue'
def usage():
opts = '[-d delev]* [-D delev]* [-e elev]* [-m elev]* [-h [-L] | -u | -L]'
opts += ' [-l lat:lon | -l loc] [-s year-month-day | -s -] [-r num[h|m|s]]'
opts += ' [-bBgGnN]'
print('Usage: %s %s' % (argv0, opts), file = sys.stderr)
sys.exit(1)
i, n = 1, len(sys.argv)
def getarg():
global i, j, n, m
if j < m:
rc = arg[j:]
j = m
return rc
else:
j = m
i += 1
if i == n:
usage()
return sys.argv[i]
while i < n:
arg = sys.argv[i]
if arg == '--':
i += 1
break
elif arg.startswith('-'):
j, m = 1, len(arg)
while j < m:
c = arg[j]
j += 1
if c == 'd':
dderiv.append(getarg())
elif c == 'D':
nderiv.append(getarg())
elif c == 'e':
evening.append(getarg())
elif c == 'm':
morning.append(getarg())
elif c == 'l':
loc = getarg()
elif c == 's':
stop_date = getarg()
elif c == 'r':
res = getarg()
elif c == 'b':
blue = True
elif c == 'B':
unblue = True
elif c == 'g':
gold = True
elif c == 'G':
ungold = True
elif c == 'h':
human = True
elif c == 'u':
unix = True
elif c == 'L':
local = True
elif c == 'n':
noon = True
elif c == 'N':
night = True
else:
usage()
i += 1
else:
break
if i != n or (human and unix):
usage()
## Parse resolution
if len(res) < 2:
usage()
mul = {'s' : 1.0, 'm' : 60.0, 'h' : 60 * 60.0}
suffix = res[-1]
value = res[:-1]
if '.' in value:
usage()
try:
res = int(value) * mul[suffix]
except:
usage()
## Parse elevations
try:
evening = [float(e) for e in evening]
morning = [float(e) for e in morning]
dderiv = [float(e) for e in dderiv]
nderiv = [float(e) for e in nderiv]
for e in evening + morning:
if abs(e) > 90:
usage()
except:
usage()
## Parse -bBgGnN
if blue:
morning.append(sol.SOLAR_ELEVATION_RANGE_BLUE_HOUR[0])
evening.append(sol.SOLAR_ELEVATION_RANGE_BLUE_HOUR[1])
if unblue:
morning.append(sol.SOLAR_ELEVATION_RANGE_BLUE_HOUR[1])
evening.append(sol.SOLAR_ELEVATION_RANGE_BLUE_HOUR[0])
if gold:
morning.append(sol.SOLAR_ELEVATION_RANGE_GOLDEN_HOUR[0])
evening.append(sol.SOLAR_ELEVATION_RANGE_GOLDEN_HOUR[1])
if ungold:
morning.append(sol.SOLAR_ELEVATION_RANGE_GOLDEN_HOUR[1])
evening.append(sol.SOLAR_ELEVATION_RANGE_GOLDEN_HOUR[0])
if noon:
dderiv.append(0.0)
if night:
nderiv.append(0.0)
## Fallback options
if len(morning) == 0 and len(evening) == 0 and len(dderiv) == 0 and len(nderiv) == 0:
morning.append(sol.SOLAR_ELEVATION_RANGE_BLUE_HOUR[0])
evening.append(sol.SOLAR_ELEVATION_RANGE_BLUE_HOUR[1])
## Get geolocation
def get_geolocation_from_conf(filename, ispath = False):
filenames, lat, lon = [], None, None
if ispath:
filenames.append(filename)
else:
if 'HOME' in os.environ and len(os.environ['HOME']) > 0:
filenames.append(os.environ['HOME'] + '/.config/' + filename)
try:
filenames.append(pwd.getpwuid(os.getuid()).pw_dir + '/.config/' + filename)
except:
pass
filenames.append('/etc/' + filename)
for filename in filenames:
try:
with open(filename, 'rb') as file:
loc = file.read().decode('utf-8', 'replace').split('\n')[0]
(lat, lon) = loc.split(' ')
lat, lon = float(lat), float(lon)
break
except:
lat, lon = None, None
return (lat, lon)
if loc is not None:
try:
(lat, lon) = loc.split(':')
lat = float(lat)
lon = float(lon)
if (abs(lat) > 90 or abs(lon) > 180):
lat = None
except:
lat = None
if lat is None:
if loc.startswith('./') or loc.startswith('../') or loc.startswith('/'):
locfile = loc
else:
locfile = 'geolocation.d/' + loc
(lat, lon) = get_geolocation_from_conf(locfile, locfile is loc)
if lat is None:
print('%s: bad location: %s' % (argv0, loc), file = sys.stderr)
sys.exit(1)
else:
(lat, lon) = get_geolocation_from_conf('geolocation')
if lat is None:
print('%s: no geolocation set' % argv0, file = sys.stderr)
sys.exit(1)
## Parse stop date
if stop_date is not None:
if stop_date == '-':
stop_date = ...
else:
try:
tm = time.strptime(stop_date, '%Y-%m-%d')
stop_date = (tm.tm_year, tm.tm_mon, tm.tm_mday)
except:
usage()
else:
tm = time.localtime()
if tm.tm_mon < 12:
stop_date = (tm.tm_year, tm.tm_mon + 1, tm.tm_mday)
else:
stop_date = (tm.tm_year + 1, 1, tm.tm_mday)
## Get stop time
if stop_date is ...:
stop_time = None
else:
stop_time = '%i-%02i-%02i 12:00:00' % stop_date
guessed = time.mktime(time.strptime(stop_time, '%Y-%m-%d %H:%M:%S'))
is_summer = False
for tzname, summer in zip(time.tzname, (False, True)):
if time.mktime(time.strptime('%s %s' % (stop_time, tzname), '%Y-%m-%d %H:%M:%S %Z')) == guessed:
is_summer = summer
break
(y, m, d) = stop_date
days = 29 if y % 400 == 0 or (y % 4 == 0 and not y % 100 == 0) else 28
days = [31, days, 31, 30, 31, 30, 30, 31, 30, 31, 30, 31]
stop_time = d - 1
for i in range(m - 1):
stop_time += days[i]
y -= 1
stop_time += y * 365 + y // 4 - y // 100 + y // 400
stop_time -= 1969 * 365 + 1969 // 4 - 1969 // 100 + 1969 // 400
stop_time *= 24 * 60 * 60
stop_time += 24 * 60 * 60
stop_time -= (time.altzone if is_summer else time.timezone)
def get_elev(elev, start, morning):
end = start + 0.0099
while start < end:
rc = sol.future_elevation(lat, lon, elev, start)
if rc is None:
return (None, end)
else:
start = rc + 1e-06
d = sol.solar_elevation(lat, lon, rc + 3e-09)
d -= sol.solar_elevation(lat, lon, rc)
if d >= 0 if morning else d <= 0:
return (sol.julian_centuries_to_epoch(rc), start)
return (None, end)
def get_deriv(delev, start, daytime):
end = start + 0.0099
while start < end:
rc = sol.future_elevation_derivative(lat, lon, delev, start)
if rc is None:
return (None, end)
else:
start = rc + 1e-06
elev = sol.solar_elevation(lat, lon, rc)
if elev >= 0 if daytime else elev <= 0:
return (sol.julian_centuries_to_epoch(rc), start)
return (None, end)
def get_morning(elev, start):
return get_elev(elev, start, True)
def get_evening(elev, start):
return get_elev(elev, start, False)
def get_day(delev, start):
return get_deriv(delev, start, True)
def get_night(delev, start):
return get_deriv(delev, start, False)
now = sol.epoch_to_julian_centuries(time.time())
class State:
def __init__(self, val, fun):
self.start = now
self.val = val
self.fun = fun
def next(self):
(rc, self.start) = self.fun(self.val, self.start)
return (rc, self.start)
morning = [State(v, get_morning) for v in morning]
evening = [State(v, get_evening) for v in evening]
dderiv = [State(v, get_day) for v in dderiv]
nderiv = [State(v, get_night) for v in nderiv]
states = morning + evening + dderiv + nderiv
# So we can stop of the pipe breaks (useful with -s -)
def print(msg):
msg = (str(msg) + '\n').encode('utf-8')
ptr, n = 0, len(msg)
while ptr < n:
ptr += os.write(1, msg[ptr:])
def parse_time(t, localtime, tzname):
tm = time.localtime(t) if localtime else time.gmtime(t)
if localtime and tm.tm_isdst < 0:
tm = time.gmtime(t)
localtime = False
if not localtime:
tz = 'UTC' if tzname else 'Z'
else:
tz = time.strftime('%Z' if tzname else '%z', tm)
return (tm.tm_year, tm.tm_mon, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec, tz)
jc_stop_time = sol.epoch_to_julian_centuries(stop_time) if stop_time is not None else None
months = ('Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec')
try:
while len(states) > 0:
n = len(states)
i = 0
while i < n:
(t, s) = states[i].next()
if t is not None and (stop_time is None or t < stop_time):
t = int(t / res + 0.5) * res
if unix:
print(int(t))
else:
t = parse_time(t, local, human)
if human:
(y, m, d, H, M, S, z) = t
t = (y, m, months[m - 1], d, H, M, S, z)
print('%i-(%02i)%s-%02i %02i:%02i:%02i %s' % t)
else:
print('%i-%02i-%02iT%02i:%02i:%02i%s' % t)
if jc_stop_time is not None and s >= jc_stop_time:
del states[i]
n -= 1
else:
i += 1
except KeyboardInterrupt as e:
sys.exit(0)
except BrokenPipeError as e:
sys.exit(0)
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