X-Git-Url: https://zdv2.bktei.com/gitweb/EVA-2020-02-2.git/blobdiff_plain/2fe226f8a1755e1cf487c972b56b9166b4f2ff4b..f8d88341a5c4dbc710ada549f5d7a9dc272c4040:/examples/weather-and-light.py diff --git a/examples/weather-and-light.py b/examples/weather-and-light.py old mode 100644 new mode 100755 index a0d755d..fde1d96 --- a/examples/weather-and-light.py +++ b/examples/weather-and-light.py @@ -1,3 +1,6 @@ +#!/usr/bin/env python3 + +import os import time import numpy import colorsys @@ -9,7 +12,8 @@ from bme280 import BME280 from ltr559 import LTR559 import pytz -from astral import Astral +from astral.geocoder import database, lookup +from astral.sun import sun from datetime import datetime, timedelta try: @@ -79,8 +83,7 @@ def sun_moon_time(dt, 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'.""" - a = Astral() - city = a[city_name] + city = lookup(city_name, database()) # Datetime objects for yesterday, today, tomorrow today = dt.date() @@ -89,14 +92,14 @@ def sun_moon_time(dt, city_name, time_zone): tomorrow = today + timedelta(1) # Sun objects for yesterfay, today, tomorrow - sun_yesterday = city.sun(date=yesterday, local=True) - sun = city.sun(date=today, local=True) - sun_tomorrow = city.sun(date=tomorrow, local=True) + sun_yesterday = sun(city.observer, date=yesterday) + sun_today = sun(city.observer, date=today) + sun_tomorrow = sun(city.observer, date=tomorrow) # Work out sunset yesterday, sunrise/sunset today, and sunrise tomorrow sunset_yesterday = sun_yesterday["sunset"] - sunrise_today = sun["sunrise"] - sunset_today = sun["sunset"] + sunrise_today = sun_today["sunrise"] + sunset_today = sun_today["sunset"] sunrise_tomorrow = sun_tomorrow["sunrise"] # Work out lengths of day or night period and progress through period @@ -322,8 +325,8 @@ dt = datetime.now() bus = SMBus(1) bme280 = BME280(i2c_dev=bus) -min_temp = bme280.get_temperature() -max_temp = bme280.get_temperature() +min_temp = None +max_temp = None factor = 2.25 cpu_temps = [get_cpu_temperature()] * 5 @@ -338,13 +341,17 @@ num_vals = 1000 interval = 1 trend = "-" +# Keep track of time elapsed +start_time = time.time() + while True: + path = os.path.dirname(os.path.realpath(__file__)) dt = datetime.now() -# dt += timedelta(minutes=5) progress, period, day = sun_moon_time(dt, 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") img = overlay_text(background, (0 + margin, 0 + margin), time_string, font_lg) @@ -359,17 +366,25 @@ while True: avg_cpu_temp = sum(cpu_temps) / float(len(cpu_temps)) corr_temperature = temperature - ((avg_cpu_temp - temperature) / factor) - if corr_temperature < min_temp: - min_temp = corr_temperature - elif corr_temperature > max_temp: - max_temp = corr_temperature + if time_elapsed > 30: + if min_temp is not None and max_temp is not None: + if corr_temperature < min_temp: + min_temp = corr_temperature + elif corr_temperature > max_temp: + max_temp = corr_temperature + else: + min_temp = corr_temperature + max_temp = corr_temperature temp_string = f"{corr_temperature:.0f}°C" img = overlay_text(img, (68, 18), temp_string, font_lg, align_right=True) spacing = font_lg.getsize(temp_string)[1] + 1 - range_string = f"{min_temp:.0f}-{max_temp:.0f}" + if min_temp is not None and max_temp is not None: + range_string = f"{min_temp:.0f}-{max_temp:.0f}" + else: + range_string = "------" img = overlay_text(img, (68, 18 + spacing), range_string, font_sm, align_right=True, rectangle=True) - temp_icon = Image.open("icons/temperature.png") + temp_icon = Image.open(path + "/icons/temperature.png") img.paste(temp_icon, (margin, 18), mask=temp_icon) # Humidity @@ -380,7 +395,7 @@ 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("icons/humidity-" + humidity_desc.lower() + ".png") + humidity_icon = Image.open(path + "/icons/humidity-" + humidity_desc.lower() + ".png") img.paste(humidity_icon, (margin, 48), mask=humidity_icon) # Light @@ -390,7 +405,7 @@ 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("icons/bulb-" + light_desc.lower() + ".png") + light_icon = Image.open(path + "/icons/bulb-" + light_desc.lower() + ".png") img.paste(humidity_icon, (80, 18), mask=light_icon) # Pressure @@ -402,7 +417,7 @@ 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("icons/weather-" + pressure_desc.lower() + ".png") + pressure_icon = Image.open(path + "/icons/weather-" + pressure_desc.lower() + ".png") img.paste(pressure_icon, (80, 48), mask=pressure_icon) # Display image