X-Git-Url: https://zdv2.bktei.com/gitweb/EVA-2020-02-2.git/blobdiff_plain/c8bf56890d0e7b6e7e1993e164f14d55d72f9544..4cc6c622eb92bbc223db977e37bd351f84ef2ee5:/examples/weather-and-light.py diff --git a/examples/weather-and-light.py b/examples/weather-and-light.py index fde1d96..bccf7cc 100755 --- a/examples/weather-and-light.py +++ b/examples/weather-and-light.py @@ -12,6 +12,7 @@ from bme280 import BME280 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 @@ -79,19 +80,21 @@ def x_from_sun_moon_time(progress, period, x_range): 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 - 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) - # 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) @@ -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 - 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) - progress = dt - sunrise_today + # mid = sunrise_today + (period / 2) + 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) - progress = dt - sunset_today + # mid = sunset_today + (period / 2) + progress = local_dt - sunset_today else: day = False period = sunrise_today - sunset_yesterday - mid = sunset_yesterday + (period / 2) - progress = dt - sunset_yesterday + # mid = sunset_yesterday + (period / 2) + progress = local_dt - sunset_yesterday # 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): @@ -139,7 +142,7 @@ def draw_background(progress, period, day): 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) @@ -148,7 +151,7 @@ def draw_background(progress, period, day): # New image for background colour img = Image.new('RGBA', (WIDTH, HEIGHT), color=background) - draw = ImageDraw.Draw(img) + # draw = ImageDraw.Draw(img) # New image for sun/moon overlay overlay = Image.new('RGBA', (WIDTH, HEIGHT), color=(0, 0, 0, 0)) @@ -213,12 +216,12 @@ def analyse_pressure(pressure, t): slope = line[0][0] intercept = line[0][1] variance = numpy.var(pressure_vals) - residuals = numpy.var([(slope * x + intercept - y) for x, y in zip(time_vals, pressure_vals)]) + residuals = numpy.var([(slope * x + intercept - y) for x, y in zip(time_vals, pressure_vals)]) r_squared = 1 - residuals / variance # Calculate change in pressure per hour change_per_hour = slope * 60 * 60 - variance_per_hour = variance * 60 * 60 + # variance_per_hour = variance * 60 * 60 mean_pressure = numpy.mean(pressure_vals) @@ -241,10 +244,10 @@ def analyse_pressure(pressure, t): change_per_hour = 0 trend = "-" -# time.sleep(interval) - + # time.sleep(interval) return (mean_pressure, change_per_hour, trend) + def describe_pressure(pressure): """Convert pressure into barometer-type description.""" if pressure < 970: @@ -319,7 +322,6 @@ font_lg = ImageFont.truetype(UserFont, 14) # Margins margin = 3 -dt = datetime.now() # 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__)) - 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 - 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) @@ -384,7 +385,7 @@ while True: else: range_string = "------" img = overlay_text(img, (68, 18 + spacing), range_string, font_sm, align_right=True, rectangle=True) - temp_icon = Image.open(path + "/icons/temperature.png") + temp_icon = Image.open(f"{path}/icons/temperature.png") img.paste(temp_icon, (margin, 18), mask=temp_icon) # Humidity @@ -395,7 +396,7 @@ while True: spacing = font_lg.getsize(humidity_string)[1] + 1 humidity_desc = describe_humidity(corr_humidity).upper() img = overlay_text(img, (68, 48 + spacing), humidity_desc, font_sm, align_right=True, rectangle=True) - humidity_icon = Image.open(path + "/icons/humidity-" + humidity_desc.lower() + ".png") + humidity_icon = Image.open(f"{path}/icons/humidity-{humidity_desc.lower()}.png") img.paste(humidity_icon, (margin, 48), mask=humidity_icon) # Light @@ -405,7 +406,7 @@ while True: spacing = font_lg.getsize(light_string.replace(",", ""))[1] + 1 light_desc = describe_light(light).upper() img = overlay_text(img, (WIDTH - margin - 1, 18 + spacing), light_desc, font_sm, align_right=True, rectangle=True) - light_icon = Image.open(path + "/icons/bulb-" + light_desc.lower() + ".png") + light_icon = Image.open(f"{path}/icons/bulb-{light_desc.lower()}.png") img.paste(humidity_icon, (80, 18), mask=light_icon) # Pressure @@ -417,7 +418,7 @@ while True: pressure_desc = describe_pressure(mean_pressure).upper() spacing = font_lg.getsize(pressure_string.replace(",", ""))[1] + 1 img = overlay_text(img, (WIDTH - margin - 1, 48 + spacing), pressure_desc, font_sm, align_right=True, rectangle=True) - pressure_icon = Image.open(path + "/icons/weather-" + pressure_desc.lower() + ".png") + pressure_icon = Image.open(f"{path}/icons/weather-{pressure_desc.lower()}.png") img.paste(pressure_icon, (80, 48), mask=pressure_icon) # Display image