def __init__(self, db_file="realaqi.db"):
Thread.__init__(self)
# assign GPIO pins that control mux selector pins
# (If you're using a GPIO)
# Set Mux pin
self.mux = [easyGpio(24), easyGpio(25), easyGpio(26), easyGpio(27)]
for sel in self.mux:
sel.pinOUT()
# initialize ADC library to read ADC value(s)
self.A0 = ADC(0)
self.A1 = ADC(1)
#Set sensor's output data
self.sensor_output = {
"type": "real",
"timestamp": 0.,
"so2": 0.,
"co": 0.,
"no2": 0.,
"o3": 0.,
"pm25": 0.,
"temp": 0.
}
# Make Sensors aqi data form
self.sensor_aqi = {
"type": "aqi",
"timestamp": 0.,
"so2aqi": 0.,
"coaqi": 0.,
"no2aqi": 0.,
"o3aqi": 0.,
"pm25aqi": 0.,
"totalaqi": 0.
}
self.sensor_output_lock = Lock()
self.db_file = db_file
try:
self.db_conn = sqlite3.connect(self.db_file,
check_same_thread=False)
self.db_cur = self.db_conn.cursor()
except Exception as e:
print "ERROR (sensor.py) : {}".format(repr(e))
self.__del__()
#execute query to create table using IF NOT EXISTS keywords
self.db_cur.execute(
"CREATE TABLE IF NOT EXISTS history (type TEXT, timestamp INT, so2 REAL, co REAL, no2 REAL, o3 REAL, pm25 REAL, temp REAL)"
)
self.db_conn.commit()
self.db_cur.execute(
"CREATE TABLE IF NOT EXISTS aqi (type TEXT, timestamp INT, so2aqi REAL, coaqi REAL, no2aqi REAL, o3aqi REAL, pm25aqi REAL, totalaqi REAL)"
)
self.db_conn.commit()
def __init__(self, db_file="blue.db"):
Thread.__init__(self)
# assign GPIO pins that control mux selector pins
# (if you're using a GPIO)
self.mux = [
easyGpio(24),
easyGpio(25),
easyGpio(26),
easyGpio(27)
]
for sel in self.mux:
sel.pinOUT()
# initialize ADC library to read ADC value(s)
self.A0 = ADC(0) # alphasense, PM 2.5
self.A1 = ADC(1) # temperature sensor
# json format output
self.sensor_output = {
"date": 0.,
"temp": 0.,
"no2": 0.,
"no2_1h_aqi": 0.,
"o3": 0.,
"o3_1h_aqi": 0.,
"o3_8h_aqi": 0.,
"co": 0.,
"co_8h_aqi": 0.,
"so2": 0.,
"so2_1h_aqi": 0.,
"so2_24h_aqi": 0.,
"pm25": 0.,
"pm25_aqi": 0.
}
self.sensor_output_lock = Lock()
self.db_file = db_file
try:
self.db_conn = sqlite3.connect(self.db_file)
self.db_cur = self.db_conn.cursor()
except Exception as e:
print "ERROR (sensor.py): {}".format(repr(e))
self.__del__()
self.db_cur.execute("select datetime('now')")
# delete all data on the table
'''self.db_cur.execute("DROP TABLE history")
self.db_conn.commit()'''
# execute query to create table using IF NOT EXISTS keywords
self.db_cur.execute("CREATE TABLE IF NOT EXISTS history (time INT PRIMARY KEY NOT NULL, temp REAL, no2 REAL, o3 REAL, co REAL, so2 REAL, pm25 REAL)")
self.db_conn.commit()
def __init__(self, db_file):
Thread.__init__(self)
############# A D C
self.A0 = ADC(0)
self.A1 = ADC(1)
############# M U X
self.mux = [easyGpio(24), easyGpio(25), easyGpio(26), easyGpio(27)]
############# S Q L i t e
self.sensor_output = {
"temp": 0.,
"NO2": 0.,
"O3": 0.,
"CO": 0.,
"SO2": 0.,
"date": 0,
"PM25": 0.
}
############# SENSOR CALI TABLE INIT
self.WE_NO2 = 0
self.WE_O3 = 0
self.WE_CO = 0
self.WE_SO2 = 0
self.AE_NO2 = 0
self.AE_O3 = 0
self.AE_CO = 0
self.AE_SO2 = 0
self.SE_NO2 = 0.
self.SE_O3 = 0.
self.SE_CO = 0.
self.SE_SO2 = 0.
############# RESET SENSOR_NUM
self.sensor_num = 0
self.mac = ""
self.sensor_output_lock = Lock()
self.db_file = db_file
self.send_status = 1
try:
self.db_conn = sqlite3.connect(self.db_file)
self.db_cur = self.db_conn.cursor()
except Exception as e:
print "ERROR (sensor.py): {}".format(repr(e))
self.__del__()
# execute query to create table using IF NOT EXISTS keywords
self.db_cur.execute(
"CREATE TABLE IF NOT EXISTS history (date INT PRIMARY KEY NOT NULL, TEMP REAL, NO2 REAL, O3 REAL, CO REAL, SO2 REAL, PM25 REAL)"
)
self.db_conn.commit()
from neo import easyGpio
from time import sleep
flash = easyGpio(21)
flash.pinOUT()
while True:
flash.on()
sleep(1)
flash.off()
sleep(1)
flash.on()
sleep(2)
flash.off()
sleep(1)
from neo_adc import ADC
from bluetooth import *
import json
from collections import OrderedDict
from time import sleep
from neo import easyGpio
A0 = ADC(0)
mux = [
easyGpio(24),
easyGpio(25),
easyGpio(26),
easyGpio(27)
]
for sel in mux:
sel.pinOUT()
def set_mux_channel(ch):
bits = "{0:04b}".format(ch)
for i in range(0, 4):
bit = int(bits[i])
sel = mux[i]
sel.on() if bit else sel.off()
server_sock = BluetoothSocket(RFCOMM)
server_sock.bind(("", PORT_ANY))
server_sock.listen(1)
port = server_sock.getsockname()[1]
from neo import easyGpio from time import sleep pin = easyGpio(2) # Pin 2 with LED readpin = easyGpio(3) # Pin 3 with switch pin.pinOUT() # Make pin output readpin.pinIN() # Make pin in while True: pin.on() # Turn pin on sleep(1) # wait one second pin.off() # Turn pin off print "pin 3 state %d" % readpin.get() # Get current pin state sleep(1)