def disp_stats():
write("--- Enviro pHAT Monitoring ---")
rgb = light.rgb()
analog_values = analog.read_all()
mag_values = motion.magnetometer()
acc_values = [round(x, 2) for x in motion.accelerometer()]
# DHT Type 11, Pin 17 (Line 41 Github)
humidity, temp2 = Adafruit_DHT.read_retry(11, 17)
currentDT = datetime.datetime.now()
output = """
Time: {tm}; Temp: {t}c; Plant Temp: {t2}c; Humd: {hd}%; Pressure: {p}Pa; Light: {c}, RGB: {r}, {g}, {b}; Soil: {a0}%
""".format(tm=currentDT.strftime("%Y-%m-%d %H:%M:%S"),
t=abs(weather.temperature() * 9 / 5.0 + 32),
t2=abs((temp2 * 9 / 5.0 + 32)),
hd=round(humidity, 0),
p=round(weather.pressure(), 0),
c=light.light(),
r=rgb[0],
g=rgb[1],
b=rgb[2],
h=motion.heading(),
a0=round((analog_values[0] * 100) / 434, 2) * 100,
a1=analog_values[1],
a2=analog_values[2],
a3=analog_values[3],
mx=mag_values[0],
my=mag_values[1],
mz=mag_values[2],
ax=acc_values[0],
ay=acc_values[1],
az=acc_values[2])
#output = output.replace("\n","\n\033[K")
write(output)
def publish_Sensor_Values_to_MQTT():
threading.Timer(3.0, publish_Sensor_Values_to_MQTT).start()
global toggle
if toggle == 0:
Pressure_Value = weather.pressure(unit='hPa')
Pressure_light = light.light()
Pressure_Data = {}
Pressure_Data['Sensor_ID'] = "Sensor-1"
Pressure_Data['Pressure'] = Pressure_Value
Pressure_Data['Light'] = Pressure_light
Pressure_json_data = json.dumps(Pressure_Data)
print("Publishing fake Pressure Value: " + str(Pressure_Value) + "...")
print("Publishing light amount: " + str(Pressure_light) + "...")
publish_To_Topic(MQTT_Topic_Pressure, Pressure_json_data)
toggle = 1
else:
Temperature_Value = weather.temperature() - 17
Temperature_colour = light.rgb()
Temperature_Data = {}
Temperature_Data['Sensor_ID'] = "Sensor-1"
Temperature_Data['Temperature'] = Temperature_Value
Temperature_Data['Colour'] = Temperature_colour
temperature_json_data = json.dumps(Temperature_Data)
print("Publishing Temperature Value: " + str(Temperature_Value) +
"...")
print("Publishing light colour: " + str(Temperature_colour) + "...")
publish_To_Topic(MQTT_Topic_Temperature, temperature_json_data)
toggle = 0
def update(self):
"""Get the latest data from Enviro pHAT."""
from envirophat import analog, leds, light, motion, weather
# Light sensor reading: 16-bit integer
self.light = light.light()
if self.use_leds:
# pylint: disable=no-value-for-parameter
leds.on()
# the three color values scaled agains the overall light, 0-255
self.light_red, self.light_green, self.light_blue = light.rgb()
if self.use_leds:
# pylint: disable=no-value-for-parameter
leds.off()
# accelerometer readings in G
self.accelerometer_x, self.accelerometer_y, self.accelerometer_z = \
motion.accelerometer()
# raw magnetometer reading
self.magnetometer_x, self.magnetometer_y, self.magnetometer_z = \
motion.magnetometer()
# temperature resolution of BMP280 sensor: 0.01°C
self.temperature = round(weather.temperature(), 2)
# pressure resolution of BMP280 sensor: 0.16 Pa, rounding to 0.1 Pa
# with conversion to 100 Pa = 1 hPa
self.pressure = round(weather.pressure() / 100.0, 3)
# Voltage sensor, reading between 0-3.3V
self.voltage_0, self.voltage_1, self.voltage_2, self.voltage_3 = \
analog.read_all()
def sbc_rpi0_envirophat():
update = {}
update["phatlightrgb"] = light.rgb()
update["phatlight"] = light.light()
update["phattemperature"] = round(weather.temperature(), 1)
update["phatpressure"] = round(weather.pressure(unit='hPa'), 1)
update["phataltitude"] = round(weather.altitude(qnh=1020), 1)
update["phatanalog"] = analog.read_all()
update["phatmagnetometer"] = str(motion.magnetometer())
update["phataccelerometer"] = str(motion.accelerometer())
update["phatheading"] = round(motion.heading(), 1)
update["soiltemp"] = round(
therm200_convert_analog(update["phatanalog"][2]), 1)
update["soilmoist"] = round(vh400_convert_analog(update["phatanalog"][1]),
1)
update["relhum"] = round(vghumid_convert_analog(update["phatanalog"][0]),
1)
(result, mid) = mqttc.publish(hass_autogen_topic + "/" + cid + "/state",
json.dumps(update),
qos=1,
retain=True)
return update
def show_pressure():
# Makes sure scrollphat buffer is clear
sphd.clear()
# Pressure value is fetched from weather module
pressurevalue = (weather.pressure())
# Uses say_value() to speak the current pressure value
speakpressure = ("The current pressure is " +
str(round(pressurevalue / 1000, 1)) + " kilopascals")
print(speakpressure)
say_value(x=speakpressure)
# Writes the currnet pressure value to scrollphat buffer
sphd.write_string("Pressure: " + str(round(pressurevalue / 1000, 1)) +
" kPa",
brightness=0.25)
# Length of buffer is calculated
length = sphd.get_buffer_shape()[0] - 17
# Scrolls for the total length value
for x in range(length):
sphd.show()
sphd.scroll(1)
time.sleep(0.03)
# Sleeps for 1 second once complete
time.sleep(1)
# Clears buffer and runs show() to clear display
sphd.clear()
sphd.show()
# Makes sure all button LED's are turned off
touchphat.all_off()
def pressure():
"""Pressure"""
global weather
data = {
"pressure": weather.pressure() / 100.00
}
return jsonify(data)
def get_environment():
data = {'boardTemp': weather.temperature(), 'atm': weather.pressure(), 'light': light.light()}
data['cpuTemp'] = get_cpu_temperature()
data['calibTemp'] = data['boardTemp'] - ((data['cpuTemp'] - data['boardTemp'])/FACTOR)
# print data
return data
def update(self):
"""Get the latest data from Enviro pHAT."""
from envirophat import analog, leds, light, motion, weather
# Light sensor reading: 16-bit integer
self.light = light.light()
if self.use_leds:
# pylint: disable=no-value-for-parameter
leds.on()
# the three color values scaled agains the overall light, 0-255
self.light_red, self.light_green, self.light_blue = light.rgb()
if self.use_leds:
# pylint: disable=no-value-for-parameter
leds.off()
# accelerometer readings in G
self.accelerometer_x, self.accelerometer_y, self.accelerometer_z = \
motion.accelerometer()
# raw magnetometer reading
self.magnetometer_x, self.magnetometer_y, self.magnetometer_z = \
motion.magnetometer()
# temperature resolution of BMP280 sensor: 0.01°C
self.temperature = round(weather.temperature(), 2)
# pressure resolution of BMP280 sensor: 0.16 Pa, rounding to 0.1 Pa
# with conversion to 100 Pa = 1 hPa
self.pressure = round(weather.pressure() / 100.0, 3)
# Voltage sensor, reading between 0-3.3V
self.voltage_0, self.voltage_1, self.voltage_2, self.voltage_3 = \
analog.read_all()
def harvest():
date = datetime.now()
##### Grab Sense Hat data #####
t = round((weather.temperature() - equartT), 1)
p = round((weather.pressure() / 100), 1)
l = light.light()
##### MySQL sign in #####
conn = pymysql.connect(user="******",
passwd="userpassWD",
host="192.168.x.x",
database="sensors")
cursor = conn.cursor()
##### Database insertion #####
##### Global cursor ####
cursor.execute(queryInsert("temperature", t, "Enviro pHAT", "room 1"))
cursor.execute(queryInsert("pression", p, "Enviro pHAT", "room 1"))
cursor.execute(queryInsert("light", l, "Enviro pHAT", "room 1"))
##### Disconnect the database #####
conn.commit()
cursor.close()
conn.close()
def iothub_client_sample_run():
id = 0
iot.initialise(callback)
while True:
try:
leds.on()
openWeather.getWeather()
humidity = 50
## normalise light to something of 100%
lightLevel = light.light();
if lightLevel > 1024:
lightLevel = 1024
lightLevel = lightLevel * 100 / 1024
id += 1
msg_txt_formatted = msg_txt % (sensorLocation, humidity, round(weather.pressure()/100,2), round(weather.temperature(),2), lightLevel, id)
iot.publish(msg_txt_formatted, id)
leds.off()
time.sleep(4)
except IoTHubError as e:
print("Unexpected error %s from IoTHub" % e)
print_last_message_time(iot.iotHubClient)
time.sleep(4)
except KeyboardInterrupt:
print("IoTHubClient sample stopped")
return
def get_values():
global temperature
global pressure
global amblight
temperature = weather.temperature()
pressure = round(weather.pressure(), 2)
amblight = light.light()
json_response = {
"prtg": {
"result": [{
"channel": "temperature",
"float": 1,
"value": temperature
}, {
"channel": "pressure",
"float": 1,
"value": pressure
}, {
"channel": "ambient light",
"float": 1,
"value": amblight
}]
}
}
return json_response
def getFrame():
raw_data = { "time" : (time.time()),
"flight_mode": 0,
"squib_deployed": 0,
"a_x": round(motion.accelerometer().x, roundOff),
"a_y": round(motion.accelerometer().y, roundOff),
"a_z": round(motion.accelerometer().z, roundOff),
"temp": round(weather.temperature(), roundOff),
"pressure": round(weather.pressure(), roundOff),
"s1": round(ina219A.getShuntVoltage_mV(), roundOff),
"volt_b1": round(ina219A.getBusVoltage_V(), roundOff),
"current_1": round(ina219A.getCurrent_mA(), roundOff),
"s2": round(ina219B.getShuntVoltage_mV(), roundOff),
"volt_b2": round(ina219B.getBusVoltage_V(), roundOff),
"current_2": round(ina219B.getCurrent_mA(), roundOff),
"gps_lat" : 12,
"gps_lon" : 13,
"gps_alt" : 14,
"gps_spd" : 15,
#"gps_lat": round(gpsd.fix.latitude, roundOff),
#"gps_lon": round(gpsd.fix.longitude, roundOff),
#"gps_alt": round(gpsd.fix.altitude, roundOff),
#"gps_spd": round(gpsd.fix.speed, roundOff),
"mag_x": round(motion.magnetometer().x, roundOff),
"mag_y": round(motion.magnetometer().y, roundOff),
"mag_z": round(motion.magnetometer().z, roundOff)
}
frame.append(raw_data)
def run(self):
print '[CarMonitor::EnviroPoller] Starting...'
try:
while not self.stopRequest.isSet():
temperature = weather.temperature()
pressure = weather.pressure()
accelerometer = motion.accelerometer()
magnetometer = motion.magnetometer()
heading = motion.heading()
self.enviroData = {
'temperature': temperature,
'pressure': pressure,
'accelerometer': {
'x': accelerometer.x,
'y': accelerometer.y,
'z': accelerometer.z
},
'magnetometer': {
'x': magnetometer.x,
'y': magnetometer.y,
'z': magnetometer.z
},
'heading': heading
}
time.sleep(.5)
except StopIteration:
pass
def write():
try:
p = round(weather.pressure(),2)
c = light.light()
print('{"light": '+str(c)+', "pressure": '+str(p)+' }')
except KeyboardInterrupt:
pass
def run():
with SocketIO('4d36143b.ngrok.io', 80, LoggingNamespace) as socketIO:
print 'got connection'
# capture frames from the camera
for frame in camera.capture_continuous(rawCapture,
format="bgr",
use_video_port=True):
time.sleep(0.5)
# grab the raw NumPy array representing the image, then initialize the timestamp
# and occupied/unoccupied text
image = frame.array
pil_img = Image.fromarray(image)
buff = BytesIO()
pil_img.save(buff, format="JPEG")
base64_image = base64.b64encode(buff.getvalue()).decode('utf-8')
# clear the stream in preparation for the next frame
rawCapture.truncate(0)
# print base64_image
temperature = 32 + round(weather.temperature())
air_pressure = weather.pressure()
altitude = weather.altitude()
output = json.dumps({
'image': base64_image,
'username': '******',
'business': '1',
'temperature': temperature,
'air_pressure': air_pressure,
'altitude': altitude
})
socketIO.emit('stream', output)
def get_enviro_line():
return {
'temperature': weather.temperature(),
'pressure': weather.pressure(),
'light': light.light(),
'deviceId': DEVICE_ID,
'time': millis()
}
def index():
"""Video streaming home page."""
temp = weather.temperature()
press = weather.pressure()
li = light.light()
return render_template('index.html',
temperature=temp,
pressure=press,
light=li)
def environment(bot, update):
output = """
Temp: {t}c
Pressure: {p}Pa
Light: {c}
""".format(t=round(weather.temperature(), 2),
p=round(weather.pressure(), 2),
c=light.light())
bot.send_message(chat_id=update.message.chat_id, text=output)
def publish_sensor_data(hostname, root):
messages = []
for i, data in enumerate(analog.read_all()):
messages.append(('%s/analog/%d' % (root, i), str(data), 0, True))
messages.append((root+'/light/light', str(light.light()), 0, True))
messages.append((root+'/light/rgb', str(light.rgb()), 0, True))
messages.append((root+'/motion/accelerometer', str(motion.accelerometer()), 0, True))
messages.append((root+'/motion/heading', str(motion.heading()), 0, True))
messages.append((root+'/weather/pressure', str(weather.pressure()), 0, True))
messages.append((root+'/weather/temperature', str(weather.temperature()), 0, True))
publish.multiple(messages), hostname=hostname)
def get_sensor_data():
data = {}
data['analog'] = analog.read_all()
data['accelerometer'] = tuple(motion.accelerometer())
data['heading'] = motion.heading()
data['leds'] = leds.is_on()
data['light'] = light.light()
data['rgb'] = light.rgb()
data['pressure'] = weather.pressure()
data['temperature'] = weather.temperature()
return data
def get_environment():
data = {
'board_temp': round(weather.temperature(), 2),
'pressure': round(weather.pressure(), 0),
'light': round(light.light(), 2)
}
data['cpu_temp'] = get_cpu_temperature()
data['est_temp'] = round(
data['board_temp'] -
((data['cpu_temp'] - data['board_temp']) / FACTOR), 2)
return data
def process_bmp_req(message):
global bmp_sub
global bmp_sub_rate
global bmp_sub_ticks
if message_list[3] == 'CMD=READ':
#
# Get the values
#
temp = round(weather.temperature(),2)
pressure = round(weather.pressure(),2)
altitude = round(weather.altitude(),2)
#
# format the message
#
message = "SENSOR_REP,DEV=ENVIRO_PHAT,SUB_DEV=BMP,TEMP=%.2f,PRES=%.2f,ALT=%.2f,SENSOR_REP_END" % (temp,pressure,altitude)
elif message_list[3] == 'CMD=SUB_START':
rate_message_list = message_list[4].split('=')
if rate_message_list[0] == 'RATE':
rate = int(rate_message_list[1])
if rate < 250:
bmp_sub_rate = 250
else:
bmp_sub_rate = rate
bmp_sub_ticks = 0
bmp_sub = True
# SENSOR_REQ,DEV=ENVIRO_PHAT,SUB_DEV=BMP,CMD=SUB_START,RATE=1000,SENSOR_REQ_END
# SENSOR_REP,DEV=ENVIRO_PHAT,SUB_DEV=BMP,STATUS=OK|BUSY,SENSOR_REP_END
message = "SENSOR_REP,DEV=ENVIRO_PHAT,SUB_DEV=BMP,STATUS=OK,SENSOR_REP_END"
elif message_list[3] == 'CMD=SUB_STOP':
bmp_sub = False
bmp_sub_rate = 0
bmp_sub_ticks = 0
# SENSOR_REQ,DEV=ENVIRO_PHAT,SUB_DEV=BMP,CMD=SUB_STOP,SENSOR_REQ_END
# SENSOR_REP,DEV=ENVIRO_PHAT,SUB_DEV=BMP,STATUS=OK,SENSOR_REP_END
message = "SENSOR_REP,DEV=ENVIRO_PHAT,SUB_DEV=BMP,STATUS=OK,SENSOR_REP_END"
else:
# unknown Command
message = "SENSOR_REP," + message_list[1] + ",SUB_DEV=BMP,ERROR=UNKNOWN_CMD,SENSOR_REP_END"
#
# Send reply back to client
#
return message
def __getPressure(self):
"""
Read pressure in Pa.
Returns
-------
touple
Pressure reading in Pa.
"""
try:
value = (weather.pressure(unit='Pa'), )
except:
DinoLog.logMsg("ERROR - Envirophat fail to read pressure.")
value = (None, )
return value
def get_url_params():
t = weather.temperature()
p = weather.pressure(unit='hPa')
h = None
l = light.light()
# Python's datetmie doesn't have timezone info.
# You may need to set system timezone as JST. (hint: sudo raspi-config)
ts = time.strftime("%Y-%m-%dT%H:%M:%S%z")
s = "dt=%s" % (ts)
s += "&temperature=%f" % (t)
s += "&pressure=%f" % (p)
# s += "&humidity=%f" % (h)
s += "&illuminance=%f" % (l)
# s += "&voltage=#{v}"
return s
def get_url_params():
t = weather.temperature()
p = weather.pressure(unit='hPa')
h = None
l = light.light()
# Python's datetmie doesn't have timezone info.
# You may need to set system timezone as JST. (hint: sudo raspi-config)
# FIXME: the code will post wrong datetime. should be keep in UTC??(is the hint wrong?)
ts = datetime.datetime.now().strftime("%Y-%m-%dT%H:%M:%S%z")
s = "dt=%s" % (ts)
s += "&temperature=%f" % (t)
s += "&pressure=%f" % (p)
# s += "&humidity=%f" % (h)
s += "&illuminance=%f" % (l)
# s += "&voltage=#{v}"
return s
def get_data_points():
temp_cpu = get_cpu_temp()
temperature = weather.temperature()
pressure = round(weather.pressure(), 2)
light_val = light.light()
iso = time.ctime()
json_body = [{
"measurement": "ambient_celcius",
"tags": {
"host": host
},
"time": iso,
"fields": {
"value": temperature,
"val": float(temperature)
}
}, {
"measurement": "cpu_celcius",
"tags": {
"host": host
},
"time": iso,
"fields": {
"value": temp_cpu,
}
}, {
"measurement": "ambient_light",
"tags": {
"host": host
},
"time": iso,
"fields": {
"value": light_val,
}
}, {
"measurement": "ambient_pressure",
"tags": {
"host": host
},
"time": iso,
"fields": {
"value": pressure,
}
}]
return json_body
def update(timer):
sphd.clear()
t = weather.temperature()
p = weather.pressure()
# Record
if timer % 60 == 0: log(t, p)
# Draw
if (timer / 10) % 2 == 0 or len(history['temperature']) < 5:
s = round(t if (timer / 5) % 2 == 0 else p, 3)
typography.write("%s" % s)
else:
graph.draw(history['temperature' if
(timer / 5) % 2 == 0 else 'pressure'])
sphd.show()
# Trim history
history['temperature'] = history['temperature'][-60:]
history['pressure'] = history['pressure'][-60:]
def measure(self):
leds.on()
self.openWeather.getWeather()
self.id += 1
humidity = 50
## normalise light to something of 100%
lightLevel = light.light();
if lightLevel > 1024:
lightLevel = 1024
lightLevel = lightLevel * 100 / 1024
json = self.msg_txt % (self.sensorLocation, humidity, round(weather.pressure()/100,2), round(weather.temperature(),2), lightLevel, self.id)
leds.off()
return json
def append_row(session, workbookItemId):
"""
Appends a new row with current measurement values to the worksheet.
"""
url = 'https://graph.microsoft.com/v1.0/me/drive/items/{}/workbook/worksheets(\'Sheet1\')/tables(\'Table1\')/rows/add'.format(
workbookItemId)
# Get column values
now = formatted_now_long()
tempC = str(weather.temperature())
presHpa = str(weather.pressure(unit='hPa'))
lum = str(light.light())
# Build data string
data = '{ "values": [["' + now + '", "' + tempC + '", "' + presHpa + '", "' + lum + '"]]}'
# Post the new row to the Graph API.
session.post(url, data=data)
def main():
leds.on()
cputemp = get_cpu_temperature()
envtemp = weather.temperature()
caltemp = envtemp - ((cputemp - envtemp) / 1.3)
envdate = datetime.datetime.utcnow().strftime('%c')
json = {
"hostname": socket.gethostname(),
"envdate": envdate,
"light": light.light(),
"temp": round((caltemp * 1.8 + 32), 2),
"pressure": round(weather.pressure(), 2)
}
leds.off()
print(json)
def getFrame():
raw_data = { "linux_time" : (time.time()),
"a_x": round(motion.accelerometer().x, roundOff),
"a_y": round(motion.accelerometer().y, roundOff),
"a_z": round(motion.accelerometer().z, roundOff),
"t": round(weather.temperature(), roundOff),
"p": round(weather.pressure(), roundOff),
"s1": round(ina219A.getShuntVoltage_mV(), roundOff),
"b1": round(ina219A.getBusVoltage_V(), roundOff),
"c1": round(ina219A.getCurrent_mA(), roundOff),
"s2": round(ina219B.getShuntVoltage_mV(), roundOff),
"b2": round(ina219B.getBusVoltage_V(), roundOff),
"c2": round(ina219B.getCurrent_mA(), roundOff),
"lat": round(gpsd.fix.latitude, roundOff),
"lon": round(gpsd.fix.longitude, roundOff),
"alt": round(gpsd.fix.altitude, roundOff),
"sp": round(gpsd.fix.speed, roundOff)}
frame.append(raw_data)
def read_sensor():
fields = [
'timestamp', 'cpu_temp', 'weather_temp', 'weather_pressure', 'light_r',
'light_g', 'light_b', 'light_level'
]
w = csv.DictWriter(sys.stdout, fieldnames=fields)
lr, lg, lb = light.rgb()
data = {
'timestamp': time.time(),
'cpu_temp': get_cpu_temp(),
'weather_temp': weather.temperature(),
'weather_pressure': weather.pressure(),
'light_r': lr,
'light_g': lg,
'light_b': lb,
'light_level': light.light()
}
w.writerow(data)
try:
while True:
rgb = light.rgb()
analog_values = analog.read_all()
output = """
Temp: {t}c
Pressure: {p}Pa
Light: {c}
RGB: {r}, {g}, {b}
Heading: {h}
Analog: 0: {a0}, 1: {a1}, 2: {a2}, 3: {a3}
""".format(
t = round(weather.temperature(),2),
p = round(weather.pressure(),2),
c = light.light(),
r = rgb[0],
g = rgb[1],
b = rgb[2],
h = motion.heading(),
a0 = analog_values[0],
a1 = analog_values[1],
a2 = analog_values[2],
a3 = analog_values[3]
)
output = output.replace("\n","\n\033[K")
write(output)
lines = len(output.split("\n"))
write("\033[{}A".format(lines - 1))
#!/usr/bin/env python
from envirophat import light, motion, weather, analog, leds
import time
while True:
print("LEDs on...")
leds.on()
time.sleep(1)
print("LEDs off...")
leds.off()
print("Light...")
print(light.rgb())
print("Motion...")
print(motion.heading())
print(motion.magnetometer())
print(motion.accelerometer())
print("Weather...")
print(weather.temperature())
print(weather.pressure())
print("Analog...")
print(analog.values())
time.sleep(1)
import socket
import time
from envirophat import weather, leds , light
HOST, PORT = '', 8888
listen_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
listen_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
listen_socket.bind((HOST, PORT))
listen_socket.listen(1)
print 'Serving HTTP on port %s ...' % PORT
while True:
temperature = weather.temperature()
pressure = weather.pressure()
lightvalue = light.light()
client_connection, client_address = listen_socket.accept()
request = client_connection.recv(2048)
first_line = request.split('\r\n')
path = first_line[0].split(' ')
path_clean = path[1].split('?')
print request
if path_clean[0] == "/pressure":
humidi = "Pressure: %.2f hPa" % pressure
http_response = \
"HTTP/1.1 200 OK\n"\
"Content-Type: text/xml\n\n"\
"<?xml version='1.0' encoding='UTF-8'?>"\