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1 | #!/usr/bin/env python |
2 | ||
3 | import time | |
4 | import colorsys | |
5 | import os | |
6 | import sys | |
7 | import ST7735 | |
8 | import ltr559 | |
9 | ||
10 | from bme280 import BME280 | |
11 | from pms5003 import PMS5003 | |
12 | from enviroplus import gas | |
9d2c6929 | 13 | from subprocess import PIPE, Popen |
d7b32dab SM |
14 | from PIL import Image |
15 | from PIL import ImageDraw | |
16 | from PIL import ImageFont | |
10b73e18 | 17 | import logging |
d7b32dab | 18 | |
10b73e18 CM |
19 | logging.basicConfig( |
20 | format='%(asctime)s.%(msecs)03d %(levelname)-8s %(message)s', | |
21 | level=logging.INFO, | |
22 | datefmt='%Y-%m-%d %H:%M:%S') | |
23 | ||
24 | logging.info("""all-in-one.py - Displays readings from all of Enviro plus' sensors | |
d7b32dab SM |
25 | |
26 | Press Ctrl+C to exit! | |
27 | ||
28 | """) | |
29 | ||
30 | # BME280 temperature/pressure/humidity sensor | |
31 | bme280 = BME280() | |
32 | ||
33 | # PMS5003 particulate sensor | |
34 | pms5003 = PMS5003() | |
35 | ||
36 | # Create ST7735 LCD display class | |
37 | st7735 = ST7735.ST7735( | |
38 | port=0, | |
39 | cs=1, | |
40 | dc=9, | |
41 | backlight=12, | |
42 | rotation=270, | |
43 | spi_speed_hz=10000000 | |
44 | ) | |
45 | ||
46 | # Initialize display | |
47 | st7735.begin() | |
48 | ||
49 | WIDTH = st7735.width | |
50 | HEIGHT = st7735.height | |
51 | ||
52 | # Set up canvas and font | |
53 | img = Image.new('RGB', (WIDTH, HEIGHT), color=(0, 0, 0)) | |
54 | draw = ImageDraw.Draw(img) | |
55 | path = os.path.dirname(os.path.realpath(__file__)) | |
56 | font = ImageFont.truetype(path + "/fonts/Asap/Asap-Bold.ttf", 20) | |
57 | ||
58 | message = "" | |
59 | ||
60 | # The position of the top bar | |
61 | top_pos = 25 | |
62 | ||
ec075941 | 63 | |
d7b32dab SM |
64 | # Displays data and text on the 0.96" LCD |
65 | def display_text(variable, data, unit): | |
66 | # Maintain length of list | |
67 | values[variable] = values[variable][1:] + [data] | |
68 | # Scale the values for the variable between 0 and 1 | |
ec075941 SM |
69 | colours = [(v - min(values[variable]) + 1) / (max(values[variable]) |
70 | - min(values[variable]) + 1) for v in values[variable]] | |
d7b32dab SM |
71 | # Format the variable name and value |
72 | message = "{}: {:.1f} {}".format(variable[:4], data, unit) | |
10b73e18 | 73 | logging.info(message) |
d7b32dab SM |
74 | draw.rectangle((0, 0, WIDTH, HEIGHT), (255, 255, 255)) |
75 | for i in range(len(colours)): | |
76 | # Convert the values to colours from red to blue | |
77 | colour = (1.0 - colours[i]) * 0.6 | |
ec075941 SM |
78 | r, g, b = [int(x * 255.0) for x in colorsys.hsv_to_rgb(colour, |
79 | 1.0, 1.0)] | |
d7b32dab SM |
80 | # Draw a 1-pixel wide rectangle of colour |
81 | draw.rectangle((i, top_pos, i+1, HEIGHT), (r, g, b)) | |
82 | # Draw a line graph in black | |
ec075941 SM |
83 | line_y = HEIGHT - (top_pos + (colours[i] * (HEIGHT - top_pos)))\ |
84 | + top_pos | |
d7b32dab SM |
85 | draw.rectangle((i, line_y, i+1, line_y+1), (0, 0, 0)) |
86 | # Write the text at the top in black | |
87 | draw.text((0, 0), message, font=font, fill=(0, 0, 0)) | |
88 | st7735.display(img) | |
89 | ||
ec075941 | 90 | |
9d2c6929 SM |
91 | # Get the temperature of the CPU for compensation |
92 | def get_cpu_temperature(): | |
e2d010e2 | 93 | process = Popen(['vcgencmd', 'measure_temp'], stdout=PIPE, universal_newlines=True) |
9d2c6929 SM |
94 | output, _error = process.communicate() |
95 | return float(output[output.index('=') + 1:output.rindex("'")]) | |
96 | ||
ec075941 | 97 | |
9d2c6929 SM |
98 | # Tuning factor for compensation. Decrease this number to adjust the |
99 | # temperature down, and increase to adjust up | |
100 | factor = 0.8 | |
101 | ||
27156d25 | 102 | cpu_temps = [get_cpu_temperature()] * 5 |
9d2c6929 | 103 | |
d7b32dab SM |
104 | delay = 0.5 # Debounce the proximity tap |
105 | mode = 0 # The starting mode | |
106 | last_page = 0 | |
107 | light = 1 | |
108 | ||
109 | # Create a values dict to store the data | |
110 | variables = ["temperature", | |
111 | "pressure", | |
112 | "humidity", | |
113 | "light", | |
114 | "oxidised", | |
115 | "reduced", | |
116 | "nh3", | |
117 | "pm1", | |
118 | "pm25", | |
119 | "pm10"] | |
120 | ||
121 | values = {} | |
122 | ||
123 | for v in variables: | |
124 | values[v] = [1] * WIDTH | |
125 | ||
126 | # The main loop | |
127 | try: | |
128 | while True: | |
129 | proximity = ltr559.get_proximity() | |
130 | ||
131 | # If the proximity crosses the threshold, toggle the mode | |
132 | if proximity > 1500 and time.time() - last_page > delay: | |
133 | mode += 1 | |
134 | mode %= len(variables) | |
135 | last_page = time.time() | |
136 | ||
137 | # One mode for each variable | |
138 | if mode == 0: | |
e8fa1c06 | 139 | # variable = "temperature" |
d7b32dab | 140 | unit = "C" |
9d2c6929 SM |
141 | cpu_temp = get_cpu_temperature() |
142 | # Smooth out with some averaging to decrease jitter | |
143 | cpu_temps = cpu_temps[1:] + [cpu_temp] | |
144 | avg_cpu_temp = sum(cpu_temps) / float(len(cpu_temps)) | |
145 | raw_temp = bme280.get_temperature() | |
146 | data = raw_temp - ((avg_cpu_temp - raw_temp) / factor) | |
e8fa1c06 | 147 | display_text(variables[mode], data, unit) |
d7b32dab SM |
148 | |
149 | if mode == 1: | |
e8fa1c06 | 150 | # variable = "pressure" |
d7b32dab SM |
151 | unit = "hPa" |
152 | data = bme280.get_pressure() | |
e8fa1c06 | 153 | display_text(variables[mode], data, unit) |
d7b32dab SM |
154 | |
155 | if mode == 2: | |
e8fa1c06 | 156 | # variable = "humidity" |
d7b32dab SM |
157 | unit = "%" |
158 | data = bme280.get_humidity() | |
e8fa1c06 | 159 | display_text(variables[mode], data, unit) |
d7b32dab SM |
160 | |
161 | if mode == 3: | |
e8fa1c06 | 162 | # variable = "light" |
d7b32dab SM |
163 | unit = "Lux" |
164 | if proximity < 10: | |
165 | data = ltr559.get_lux() | |
166 | else: | |
167 | data = 1 | |
e8fa1c06 | 168 | display_text(variables[mode], data, unit) |
d7b32dab SM |
169 | |
170 | if mode == 4: | |
e8fa1c06 | 171 | # variable = "oxidised" |
d7b32dab SM |
172 | unit = "kO" |
173 | data = gas.read_all() | |
174 | data = data.oxidising / 1000 | |
e8fa1c06 | 175 | display_text(variables[mode], data, unit) |
d7b32dab SM |
176 | |
177 | if mode == 5: | |
e8fa1c06 | 178 | # variable = "reduced" |
d7b32dab SM |
179 | unit = "kO" |
180 | data = gas.read_all() | |
181 | data = data.reducing / 1000 | |
e8fa1c06 | 182 | display_text(variables[mode], data, unit) |
d7b32dab SM |
183 | |
184 | if mode == 6: | |
e8fa1c06 | 185 | # variable = "nh3" |
d7b32dab SM |
186 | unit = "kO" |
187 | data = gas.read_all() | |
188 | data = data.nh3 / 1000 | |
e8fa1c06 | 189 | display_text(variables[mode], data, unit) |
d7b32dab SM |
190 | |
191 | if mode == 7: | |
69294f3c | 192 | # variable = "pm1" |
d7b32dab | 193 | unit = "ug/m3" |
e8fa1c06 CM |
194 | try: |
195 | data = pms5003.read() | |
196 | except pms5003.ReadTimeoutError: | |
197 | pass | |
198 | else: | |
199 | data = data.pm_ug_per_m3(1.0) | |
200 | display_text(variables[mode], data, unit) | |
d7b32dab SM |
201 | |
202 | if mode == 8: | |
e8fa1c06 | 203 | # variable = "pm25" |
d7b32dab SM |
204 | unit = "ug/m3" |
205 | data = pms5003.read() | |
206 | data = data.pm_ug_per_m3(2.5) | |
e8fa1c06 | 207 | display_text(variables[mode], data, unit) |
d7b32dab SM |
208 | |
209 | if mode == 9: | |
e8fa1c06 | 210 | # variable = "pm10" |
f86c4c6d | 211 | unit = "ug/m3" |
d7b32dab SM |
212 | data = pms5003.read() |
213 | data = data.pm_ug_per_m3(10) | |
e8fa1c06 | 214 | display_text(variables[mode], data, unit) |
d7b32dab SM |
215 | |
216 | # Exit cleanly | |
217 | except KeyboardInterrupt: | |
218 | sys.exit(0) |