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any idea how I figure out if it's currently night/day or sunrise/dawn based on time and location of the user?

I haven't found anything useful that I could use within either the client or backend.

What makes it tricky is the hour doesn't necessarily define if it is night and day, this depends pretty much on the year, month, day, hour and geo coordinates.


For clarification... to emulate something like this.

enter image description here


A way to approximate this would be very useful as well.


Hope that someone can help!

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1  
Can you please define what night and day means? It can be between them and how it is called then? –  Serban Razvan Feb 23 '13 at 19:17
    
Night and Day are very fuzzy concepts. Unless you have a criteria in mind that you can use to delineate the two, it can't be solved. –  jitendra Feb 23 '13 at 19:20
1  
from the dusk till dawn ;) good question by the way, I think google people challenged already on it, case I have skin on gmail which shows me night or day depending on hours, but it is still very much approximated. –  dmi3y Feb 23 '13 at 19:21
2  
This piqued my interest and I'm bored and I'm going to write a nice JS library for it. –  Ethan Feb 23 '13 at 19:38
1  
possible duplicate of How can I compute sunrise/sunset times? –  Celada Feb 23 '13 at 20:04

3 Answers 3

up vote 10 down vote accepted

You can do as I did and use this public domain Sun.py module to compute the position of the sun relative to positions on the Earth. It's pretty old, but has worked well for me for many years. I made a few superficial modifications to it to be more up-to-date with Python 2.7, such as making the few classes in it new-style, but for the most part it's unchanged.

Here's one module I created, called sunriseset.py, which shows how to use it to calculate the sunrise and sunset times for a specific location given its geographic coordinates and timezone. The referenced timezone module is an implementation of the tzinfo abstract base class described in the datetime module's documentation on tzinfoobjects.

# -*- coding: iso-8859-1 -*-
import datetime
import timezone  # concrete tzinfo subclass based on the Python docs
import math
from Sun import Sun

__all__ = ['getsuninfo', 'Place']

class Place(object):
    def __init__(self, name, coords, tz=timezone.Pacific):
        self.name = name        # string
        self.coords = coords    # tuple (E/W long, N/S lat)
        self.tz = tz            # tzinfo constant

def _hoursmins(hours):
    """Convert floating point decimal time in hours to integer hrs,mins"""
    frac,h = math.modf(hours)
    m = round(frac*60, 0)
    if m == 60: # rounded up to next hour
        h += 1; m = 0
    return int(h),int(m)

def _ymd(date):
    """Return y,m,d from datetime object as tuple"""
    return date.timetuple()[:3]

def getsuninfo(location, date=None):
    """Return local datetime of sunrise, sunset, and length of day in hrs,mins)"""
    if date == None:
        querydate = datetime.date.today()
    else: # date given should be datetime instance
        querydate = date

    args = _ymd(querydate) + location.coords
    utcrise, utcset = Sun().sunRiseSet(*args)
    daylength = Sun().dayLength(*args)
    hrs,mins = _hoursmins(daylength)

    risehour, risemin = _hoursmins(utcrise)
    sethour, setmin   = _hoursmins(utcset)

    # convert times to timedelta values (ie from midnight utc of the date)
    midnight = datetime.datetime(tzinfo=timezone.utc, *_ymd(querydate))
    deltarise = datetime.timedelta(hours=risehour, minutes=risemin)
    utcdatetimerise = midnight+deltarise
    deltaset = datetime.timedelta(hours=sethour, minutes=setmin)
    utcdatetimeset  = midnight+deltaset

    # convert results from UTC time to local time of location
    localrise = utcdatetimerise.astimezone(location.tz)
    localset  = utcdatetimeset.astimezone(location.tz)

    return localrise, localset, hrs, mins

if __name__ == "__main__":
    import datetime, timezone

    def unittest(location, testdate):
        risetime, settime, hrs, mins = getsuninfo(location, testdate)

        print "Location:", location.name
        print "Date:", testdate.strftime("%a %x")
        print risetime.strftime("Sunrise %I:%M %p"), settime.strftime("- Sunset %I:%M %p (%Z)")
        print "daylight: %d:%02d" % (hrs,mins)
        print

    place = Place("My House", (-121.990278, 47.204444), timezone.Pacific)

    # test dates just before and after DST transitions
    print "pre 2007"
    print "========="
    unittest(place, datetime.date(2006, 4, 1))
    unittest(place, datetime.date(2006, 4, 2))
    unittest(place, datetime.date(2006, 10, 28))
    unittest(place, datetime.date(2006, 10, 29))

    print "2007"
    print "========="
    unittest(place, datetime.date(2007, 3, 10))
    unittest(place, datetime.date(2007, 3, 11))
    unittest(place, datetime.date(2007, 11, 3))
    unittest(place, datetime.date(2007, 11, 4))
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If the link to Sun.py in my answer ever breaks, here's another copy. –  martineau May 31 '13 at 0:48

A concise description of an algorithm to calculate the sunrise and sunset is provided by the United States Naval Observatory, available here:

http://williams.best.vwh.net/sunrise_sunset_algorithm.htm

In addition to providing the date and location, you also need to select a Zenith angle (at which the sun will be considered to have "risen" or "set") - the page linked has several options.

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PyEphem can be used to calculate the time to the next sunrise and sunset. Building upon a blog post I found and the documentation of rise-set, your problem can be solved as follows. Lets assume I am your user, and my location is Oldenburg (Oldb), Germany.

import ephem

user = ephem.Observer()
user.lat = '53.143889'    # See wikipedia.org/Oldenburg
user.lon = '8.213889'     # See wikipedia.org/Oldenburg
user.elevation = 4        # See wikipedia.org/Oldenburg
user.temp = 20            # current air temperature gathered manually
user.pressure = 1019.5    # current air pressure gathered manually

next_sunrise_datetime = user.next_rising(ephem.Sun()).datetime()
next_sunset_datetime = user.next_setting(ephem.Sun()).datetime()

# If it is daytime, we will see a sunset sooner than a sunrise.
it_is_day = next_sunset_datetime < next_sunrise_datetime
print("It's day." if it_is_day else "It's night.")

# If it is nighttime, we will see a sunrise sooner than a sunset.
it_is_night = next_sunrise_datetime < next_sunset_datetime
print("It's night." if it_is_night else "It's day.")

Notes

  • For some reason lat and lon need to be strings but ephem does not complain if they are floats.
  • For best results, you might want to get the current air temperature and air pressure.

Prerequisites

This should work with at least Python 2.7 (with pip-2.7 install pyephem) and Python 3.2 (with pip-3.2 install ephem).

Make sure to have a network time protocol client running on the system. E.g. on Debian Linux:

$ sudo apt-get install ntp
$ sudo /etc/init.d/ntp start

Make sure to have the correct timezone set on your system. E.g. on Debian Linux:

$ sudo dpkg-reconfigure tzdata
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