From: Kostadin Date: Sat, 26 Oct 2019 11:45:18 +0000 (+0300) Subject: Added a new combined mode example X-Git-Url: https://zdv2.bktei.com/gitweb/EVA-2020-02-2.git/commitdiff_plain/71dc2962df1f5a90752c1dedc135bba82e1b3b7a Added a new combined mode example This is a modification of all-in-one.py. It adds another mode where all EnviroPlus and PMS5003 sensor readings are combined on one screen. Each variable that is displayed can have custom warning limits assigned which change the color of the text according to a predefined RGB palette. It allows for a quick glance of all sensor readings at once in order to jugde if everything is OK in the air or to quickly pinpoint a sensor reading that requires attention. In addition, the new combined mode saves each reading as soon as it is received for graphing later. As in all-in-one.py, moving your finger close to the proximity sensor switches the mode. --- diff --git a/examples/combined.py b/examples/combined.py new file mode 100644 index 0000000..e863de3 --- /dev/null +++ b/examples/combined.py @@ -0,0 +1,345 @@ +#!/usr/bin/env python + +import time +import colorsys +import os +import sys +import ST7735 +try: + # Transitional fix for breaking change in LTR559 + from ltr559 import LTR559 + ltr559 = LTR559() +except ImportError: + import ltr559 + +from bme280 import BME280 +from pms5003 import PMS5003, ReadTimeoutError as pmsReadTimeoutError +from enviroplus import gas +from subprocess import PIPE, Popen +from PIL import Image +from PIL import ImageDraw +from PIL import ImageFont +import logging + +logging.basicConfig( + format='%(asctime)s.%(msecs)03d %(levelname)-8s %(message)s', + level=logging.INFO, + datefmt='%Y-%m-%d %H:%M:%S') + +logging.info("""all-in-one.py - Displays readings from all of Enviro plus' sensors + +Press Ctrl+C to exit! + +""") + +# BME280 temperature/pressure/humidity sensor +bme280 = BME280() + +# PMS5003 particulate sensor +pms5003 = PMS5003() + +# Create ST7735 LCD display class +st7735 = ST7735.ST7735( + port=0, + cs=1, + dc=9, + backlight=12, + rotation=270, + spi_speed_hz=10000000 +) + +# Initialize display +st7735.begin() + +WIDTH = st7735.width +HEIGHT = st7735.height + +# Set up canvas and font +img = Image.new('RGB', (WIDTH, HEIGHT), color=(0, 0, 0)) +draw = ImageDraw.Draw(img) +path = os.path.dirname(os.path.realpath(__file__)) +font = ImageFont.truetype(path + "/fonts/Asap/Asap-Bold.ttf", 20) +smallfont = ImageFont.truetype(path + "/fonts/Asap/Asap-Bold.ttf", 10) +x_offset = 2 +y_offset = 2 + +message = "" + +# The position of the top bar +top_pos = 25 + +# Create a values dict to store the data +variables = ["temperature", + "pressure", + "humidity", + "light", + "oxidised", + "reduced", + "nh3", + "pm1", + "pm25", + "pm10"] + +units = ["C", + "hPa", + "%", + "Lux", + "kO", + "kO", + "kO", + "ug/m3", + "ug/m3", + "ug/m3"] + +# Define your own warning limits +# The limits definition follows the order of the variables array +# Example limits explanation for temperature: +# [4,18,28,35] means +# [-273.15 .. 4] -> Dangerously Low +# (4 .. 18] -> Low +# (18 .. 28] -> Normal +# (28 .. 35] -> High +# (35 .. MAX] -> Dangerously High +# DISCLAIMER: The limits provided here are just examples and come +# with NO WARRANTY. The authors of this example code claim +# NO RESPONSIBILITY if reliance on the following values or this +# code in general leads to ANY DAMAGES or DEATH. +limits = [[4,18,28,35], + [250,650,1013.25,1015], + [20,30,60,70], + [-1,-1,30000,100000], + [-1,-1,40,50], + [-1,-1,450,550], + [-1,-1,200,300], + [-1,-1,50,100], + [-1,-1,50,100], + [-1,-1,50,100]] + +# RGB palette for values on the combined screen +palette = [(0,0,255), # Dangerously Low + (0,255,255), # Low + (0,255,0), # Normal + (255,255,0), # High + (255,0,0)] # Dangerously High + +values = {} + + +# Displays data and text on the 0.96" LCD +def display_text(variable, data, unit): + # Maintain length of list + values[variable] = values[variable][1:] + [data] + # Scale the values for the variable between 0 and 1 + colours = [(v - min(values[variable]) + 1) / (max(values[variable]) + - min(values[variable]) + 1) for v in values[variable]] + # Format the variable name and value + message = "{}: {:.1f} {}".format(variable[:4], data, unit) + logging.info(message) + draw.rectangle((0, 0, WIDTH, HEIGHT), (255, 255, 255)) + for i in range(len(colours)): + # Convert the values to colours from red to blue + colour = (1.0 - colours[i]) * 0.6 + r, g, b = [int(x * 255.0) for x in colorsys.hsv_to_rgb(colour, + 1.0, 1.0)] + # Draw a 1-pixel wide rectangle of colour + draw.rectangle((i, top_pos, i+1, HEIGHT), (r, g, b)) + # Draw a line graph in black + line_y = HEIGHT - (top_pos + (colours[i] * (HEIGHT - top_pos)))\ + + top_pos + draw.rectangle((i, line_y, i+1, line_y+1), (0, 0, 0)) + # Write the text at the top in black + draw.text((0, 0), message, font=font, fill=(0, 0, 0)) + st7735.display(img) + +# Saves the data to be used in the graphs later and prints to the log +def save_data(idx, data): + variable = variables[idx] + # Maintain length of list + values[variable] = values[variable][1:] + [data] + unit = units[idx] + message = "{}: {:.1f} {}".format(variable[:4], data, unit) + logging.info(message) + + +# Displays all the text on the 0.96" LCD +def display_everything(): + draw.rectangle((0, 0, WIDTH, HEIGHT), (0, 0, 0)) + column_count = 2 + row_count = (len(variables)/column_count) + for i in xrange(len(variables)): + variable = variables[i] + data_value = values[variable][-1] + unit = units[i] + x = x_offset + ((WIDTH/column_count) * (i / row_count)) + y = y_offset + ((HEIGHT/row_count) * (i % row_count)) + message = "{}: {:.1f} {}".format(variable[:4], data_value, unit) + lim = limits[i] + rgb = palette[0] + for j in xrange(len(lim)): + if data_value > lim[j]: + rgb = palette[j+1] + draw.text((x, y), message, font=smallfont, fill=rgb) + st7735.display(img) + + + +# Get the temperature of the CPU for compensation +def get_cpu_temperature(): + process = Popen(['vcgencmd', 'measure_temp'], stdout=PIPE, universal_newlines=True) + output, _error = process.communicate() + return float(output[output.index('=') + 1:output.rindex("'")]) + + +# Tuning factor for compensation. Decrease this number to adjust the +# temperature down, and increase to adjust up +factor = 1.95 + +cpu_temps = [get_cpu_temperature()] * 5 + +delay = 0.5 # Debounce the proximity tap +mode = 10 # The starting mode +last_page = 0 +light = 1 + +for v in variables: + values[v] = [1] * WIDTH + +# The main loop +try: + while True: + proximity = ltr559.get_proximity() + + # If the proximity crosses the threshold, toggle the mode + if proximity > 1500 and time.time() - last_page > delay: + mode += 1 + mode %= (len(variables)+1) + last_page = time.time() + + # One mode for each variable + if mode == 0: + # variable = "temperature" + unit = "C" + cpu_temp = get_cpu_temperature() + # Smooth out with some averaging to decrease jitter + cpu_temps = cpu_temps[1:] + [cpu_temp] + avg_cpu_temp = sum(cpu_temps) / float(len(cpu_temps)) + raw_temp = bme280.get_temperature() + data = raw_temp - ((avg_cpu_temp - raw_temp) / factor) + display_text(variables[mode], data, unit) + + if mode == 1: + # variable = "pressure" + unit = "hPa" + data = bme280.get_pressure() + display_text(variables[mode], data, unit) + + if mode == 2: + # variable = "humidity" + unit = "%" + data = bme280.get_humidity() + display_text(variables[mode], data, unit) + + if mode == 3: + # variable = "light" + unit = "Lux" + if proximity < 10: + data = ltr559.get_lux() + else: + data = 1 + display_text(variables[mode], data, unit) + + if mode == 4: + # variable = "oxidised" + unit = "kO" + data = gas.read_all() + data = data.oxidising / 1000 + display_text(variables[mode], data, unit) + + if mode == 5: + # variable = "reduced" + unit = "kO" + data = gas.read_all() + data = data.reducing / 1000 + display_text(variables[mode], data, unit) + + if mode == 6: + # variable = "nh3" + unit = "kO" + data = gas.read_all() + data = data.nh3 / 1000 + display_text(variables[mode], data, unit) + + if mode == 7: + # variable = "pm1" + unit = "ug/m3" + try: + data = pms5003.read() + except pmsReadTimeoutError: + logging.warn("Failed to read PMS5003") + else: + data = float(data.pm_ug_per_m3(1.0)) + display_text(variables[mode], data, unit) + + if mode == 8: + # variable = "pm25" + unit = "ug/m3" + try: + data = pms5003.read() + except pmsReadTimeoutError: + logging.warn("Failed to read PMS5003") + else: + data = float(data.pm_ug_per_m3(2.5)) + display_text(variables[mode], data, unit) + + if mode == 9: + # variable = "pm10" + unit = "ug/m3" + try: + data = pms5003.read() + except pmsReadTimeoutError: + logging.warn("Failed to read PMS5003") + else: + data = float(data.pm_ug_per_m3(10)) + display_text(variables[mode], data, unit) + if mode == 10: + # Everything on one screen + cpu_temp = get_cpu_temperature() + # Smooth out with some averaging to decrease jitter + cpu_temps = cpu_temps[1:] + [cpu_temp] + avg_cpu_temp = sum(cpu_temps) / float(len(cpu_temps)) + raw_temp = bme280.get_temperature() + raw_data = raw_temp - ((avg_cpu_temp - raw_temp) / factor) + save_data(0, raw_data) + display_everything() + raw_data = bme280.get_pressure() + save_data(1, raw_data) + display_everything() + raw_data = bme280.get_humidity() + save_data(2, raw_data) + if proximity < 10: + raw_data = ltr559.get_lux() + else: + raw_data = 1 + save_data(3, raw_data) + display_everything() + gas_data = gas.read_all() + save_data(4, gas_data.oxidising / 1000) + save_data(5, gas_data.reducing / 1000) + save_data(6, gas_data.nh3 / 1000) + display_everything() + pms_data = None + try: + pms_data = pms5003.read() + except pmsReadTimeoutError: + logging.warn("Failed to read PMS5003") + else: + save_data(7, float(pms_data.pm_ug_per_m3(1.0))) + save_data(8, float(pms_data.pm_ug_per_m3(2.5))) + save_data(9, float(pms_data.pm_ug_per_m3(10))) + display_everything() + + + +# Exit cleanly +except KeyboardInterrupt: + sys.exit(0)