Fix noise_floor bug
[EVA-2020-02-2.git] / examples / weather-and-light.py
index fde1d9610ee31c031e1c294ec1043859bc797b53..a26ec7b004651d161f80c4f4afd25dca8773ef4d 100755 (executable)
@@ -12,6 +12,7 @@ from bme280 import BME280
 from ltr559 import LTR559
 
 import pytz
 from ltr559 import LTR559
 
 import pytz
+from pytz import timezone
 from astral.geocoder import database, lookup
 from astral.sun import sun
 from datetime import datetime, timedelta
 from astral.geocoder import database, lookup
 from astral.sun import sun
 from datetime import datetime, timedelta
@@ -79,19 +80,21 @@ def x_from_sun_moon_time(progress, period, x_range):
     return x
 
 
     return x
 
 
-def sun_moon_time(dt, city_name, time_zone):
+def sun_moon_time(city_name, time_zone):
     """Calculate the progress through the current sun/moon period (i.e day or
        night) from the last sunrise or sunset, given a datetime object 't'."""
 
     city = lookup(city_name, database())
 
     # Datetime objects for yesterday, today, tomorrow
     """Calculate the progress through the current sun/moon period (i.e day or
        night) from the last sunrise or sunset, given a datetime object 't'."""
 
     city = lookup(city_name, database())
 
     # Datetime objects for yesterday, today, tomorrow
-    today = dt.date()
-    dt = pytz.timezone(time_zone).localize(dt)
+    utc = pytz.utc
+    utc_dt = datetime.now(tz=utc)
+    local_dt = utc_dt.astimezone(pytz.timezone(time_zone))
+    today = local_dt.date()
     yesterday = today - timedelta(1)
     tomorrow = today + timedelta(1)
 
     yesterday = today - timedelta(1)
     tomorrow = today + timedelta(1)
 
-    # Sun objects for yesterfay, today, tomorrow
+    # Sun objects for yesterday, today, tomorrow
     sun_yesterday = sun(city.observer, date=yesterday)
     sun_today = sun(city.observer, date=today)
     sun_tomorrow = sun(city.observer, date=tomorrow)
     sun_yesterday = sun(city.observer, date=yesterday)
     sun_today = sun(city.observer, date=today)
     sun_tomorrow = sun(city.observer, date=tomorrow)
@@ -103,29 +106,29 @@ def sun_moon_time(dt, city_name, time_zone):
     sunrise_tomorrow = sun_tomorrow["sunrise"]
 
     # Work out lengths of day or night period and progress through period
     sunrise_tomorrow = sun_tomorrow["sunrise"]
 
     # Work out lengths of day or night period and progress through period
-    if sunrise_today < dt < sunset_today:
+    if sunrise_today < local_dt < sunset_today:
         day = True
         period = sunset_today - sunrise_today
         mid = sunrise_today + (period / 2)
         day = True
         period = sunset_today - sunrise_today
         mid = sunrise_today + (period / 2)
-        progress = dt - sunrise_today
+        progress = local_dt - sunrise_today
 
 
-    elif dt > sunset_today:
+    elif local_dt > sunset_today:
         day = False
         period = sunrise_tomorrow - sunset_today
         mid = sunset_today + (period / 2)
         day = False
         period = sunrise_tomorrow - sunset_today
         mid = sunset_today + (period / 2)
-        progress = dt - sunset_today
+        progress = local_dt - sunset_today
 
     else:
         day = False
         period = sunrise_today - sunset_yesterday
         mid = sunset_yesterday + (period / 2)
 
     else:
         day = False
         period = sunrise_today - sunset_yesterday
         mid = sunset_yesterday + (period / 2)
-        progress = dt - sunset_yesterday
+        progress = local_dt - sunset_yesterday
 
     # Convert time deltas to seconds
     progress = progress.total_seconds()
     period = period.total_seconds()
 
 
     # Convert time deltas to seconds
     progress = progress.total_seconds()
     period = period.total_seconds()
 
-    return (progress, period, day)
+    return (progress, period, day, local_dt)
 
 
 def draw_background(progress, period, day):
 
 
 def draw_background(progress, period, day):
@@ -139,7 +142,7 @@ def draw_background(progress, period, day):
     if day:
         x = WIDTH - x
 
     if day:
         x = WIDTH - x
 
-    # Calculate position on sun/moon's curve
+    # Calculate position on sun/moon's curve
     centre = WIDTH / 2
     y = calculate_y_pos(x, centre)
 
     centre = WIDTH / 2
     y = calculate_y_pos(x, centre)
 
@@ -319,7 +322,6 @@ font_lg = ImageFont.truetype(UserFont, 14)
 # Margins
 margin = 3
 
 # Margins
 margin = 3
 
-dt = datetime.now()
 
 # Set up BME280 weather sensor
 bus = SMBus(1)
 
 # Set up BME280 weather sensor
 bus = SMBus(1)
@@ -346,14 +348,13 @@ start_time = time.time()
 
 while True:
     path = os.path.dirname(os.path.realpath(__file__))
 
 while True:
     path = os.path.dirname(os.path.realpath(__file__))
-    dt = datetime.now()
-    progress, period, day = sun_moon_time(dt, city_name, time_zone)
+    progress, period, day, local_dt = sun_moon_time(city_name, time_zone)
     background = draw_background(progress, period, day)
 
     # Time.
     time_elapsed = time.time() - start_time
     background = draw_background(progress, period, day)
 
     # Time.
     time_elapsed = time.time() - start_time
-    date_string = dt.strftime("%d %b %y").lstrip('0')
-    time_string = dt.strftime("%H:%M")
+    date_string = local_dt.strftime("%d %b %y").lstrip('0')
+    time_string = local_dt.strftime("%H:%M")
     img = overlay_text(background, (0 + margin, 0 + margin), time_string, font_lg)
     img = overlay_text(img, (WIDTH - margin, 0 + margin), date_string, font_lg, align_right=True)
 
     img = overlay_text(background, (0 + margin, 0 + margin), time_string, font_lg)
     img = overlay_text(img, (WIDTH - margin, 0 + margin), date_string, font_lg, align_right=True)