示例#1
0
 def __init__(self, gpio_in, devices=1, dinpin='GPIO-E', cspin='GPIO-D', clkpin='GPIO-C', intensity=5, scanlimit=7):
     """Constructor"""
     global gpio
     gpio = gpio_in
     global DIN
     global CS
     global CLK
     DIN = GPIO.gpio_id(dinpin)
     CS = GPIO.gpio_id(cspin)
     CLK = GPIO.gpio_id(clkpin)
     global numOfDevices
     numOfDevices = devices
     for i in range(0,numOfDevices):
         self.shutDown(False,i+1)
     for i in range(0,numOfDevices):
         self.setScanLimit(scanlimit,i+1)
     for i in range(0,numOfDevices):
         self.setIntensity(intensity,i+1)
     self.clearDisplays()
     global Characters
     Characters = AL()
示例#2
0
import spidev
import time
from libsoc import gpio
from gpio_96boards import GPIO
from dweet import Dweet

VOLUME = GPIO.gpio_id('GPIO_CS')  #SENSOR VOLUME DAGUA
TEMPERATURA = GPIO.gpio_id('GPIO_CS')  #SENSOR DE TEMPERATURA
SOL = GPIO.gpio_id('GPIO_CS')  #SENSOR DE LUMINOSIDADE
HUMIDADE = GPIO.gpio_id('GPIO_CS')  #SENSOR DE HUMIDADE

ILUMINACAO = GPIO.gpio_id('GPIO_C')  #LED
IRRIGACAO = GPIO.gpio_id('GPIO_B')  #RELE - LIGADO A VALVULA SOLENOIDE

pins = (
    (VOLUME, 'out'),
    (TEMPERATURA, 'out'),
    (SOL, 'out'),
    (IRRIGACAO, 'out'),
    (ILUMINACAO, 'out'),
    (HUMIDADE, 'out'),
)

spi = spidev.SpiDev()
spi.open(0, 0)
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8

dweet = Dweet()
示例#3
0
        msg['To'] = ", ".join(recipients)
        msg['Subject'] = subject
        msg.attach(MIMEText(message, 'plain'))
        image = MIMEImage(img_data, name='snapshot.png')
        msg.attach(image)

        server = smtplib.SMTP('smtp.gmail.com', 587)
        server.starttls()
        server.login(fromaddr, pwd)
        text = msg.as_string()
        server.sendmail(fromaddr, recipients, text)
        server.quit()
    except socket.gaierror:
        print("Network down, can't send email...")

pin = GPIO.gpio_id('GPIO-B')
pins = (
    (pin, 'in'),
)
cam = SimpleCV.Camera()
last_detection = True
detection_enabled = True
IMAGE_PATH = "/home/linaro/motion_detection.png"

with GPIO(pins) as gpio:
    while True:
        # If motion detection enabled AND pin is high, take picture and send to alert recipients
        with open('settings.json', 'r') as settingsfile:
            data = json.load(settingsfile)
            if not data['motion_detection']:
                if detection_enabled:
示例#4
0
#!/usr/bin/env python

#Declaracao e importacao das Bibliotecas
from dweet import Dweet
import spidev
import time
from libsoc import gpio
from gpio_96boards import GPIO

#Declaracao e definição das Entradas e Saidas
GPIO_CS = GPIO.gpio_id('GPIO_CS')
RELE = GPIO.gpio_id('GPIO_A')
BOTAO = GPIO.gpio_id('GPIO_C')

pins = ((GPIO_CS, 'out'), (RELE, 'out'), (BOTAO, 'in'))

#Definição de parâmetros para portas analógicas
spi = spidev.SpiDev()
spi.open(0, 0)
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8

#Declaração de uma variável Dweet para interface com sistema
# de nuvem
dweet = Dweet()

#Declaração de variáveis
alarme_bebe = 0
reset_nuvem = 0
bam_nuvem = 0
示例#5
0
from bluetooth import *
import sys
import time
from gpio_96boards import GPIO
GPIO_A = GPIO.gpio_id('GPIO_A')
pins = ((GPIO_A, 'out'), )


def blink(gpio):
    gpio.digital_write(GPIO_A, GPIO.HIGH)
    time.sleep(1)
    gpio.digital_write(GPIO_A, GPIO.LOW)


if sys.version < '3':
    input = raw_input

addr = None

if len(sys.argv) < 2:
    print("no device specified.  Searching all nearby bluetooth devices for")
    print("the SampleServer service")
else:
    addr = sys.argv[1]
    print("Searching for SampleServer on %s" % addr)

# search for the SampleServer service
uuid = "94f39d29-7d6d-437d-973b-fba39e49d4ee"
service_matches = find_service(uuid=uuid, address=addr)

if len(service_matches) == 0:
示例#6
0
import spidev
import time
from libsoc import gpio

from gpio_96boards import GPIO

GPIO_CS = GPIO.gpio_id('GPIO_CS')
LED = GPIO.gpio_id('GPIO_A')

pins = (
    (GPIO_CS, 'out'),
    (LED, 'out'),
)

spi = spidev.SpiDev()
spi.open(0, 0)
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8


def readpotenc(gpio):

    gpio.digital_write(GPIO_CS, GPIO.HIGH)
    time.sleep(0.0002)
    gpio.digital_write(GPIO_CS, GPIO.LOW)
    r = spi.xfer2([0x01, 0xA0, 0x00])
    gpio.digital_write(GPIO_CS, GPIO.HIGH)
    adcout = (r[1] << 8) & 0b1100000000
    adcout = adcout | (r[2] & 0xff)
    print("Valor do Potenciometro.:%d" % adcout)
示例#7
0
import spidev
import time
from libsoc import gpio

from gpio_96boards import GPIO

TOQUE = GPIO.gpio_id('GPIO_A')
RELAY = GPIO.gpio_id('GPIO_C')

pins = ((TOQUE, 'in'), (RELAY, 'out'),)

with GPIO(pins) as gpio:
	while True:

		button_value = gpio.digital_read(TOQUE)

		if button_value == 1:
			gpio.digital_write(RELAY, 1)
		else:
			gpio.digital_write(RELAY, 0)

		print("Status do Rele: %d" %button_value)

		time.sleep(1)
示例#8
0
#GPIO Library===================================
import time
from gpio_96boards import GPIO
GPA = GPIO.gpio_id('GPIO_A')
GPB = GPIO.gpio_id('GPIO_B')
GPC = GPIO.gpio_id('GPIO_C')
GPD = GPIO.gpio_id('GPIO_D')


def gpio_h(gpid):
    pins = ((gpid, 'out'), )
    with GPIO(pins) as gpio:
        gpio.digital_write(gpid, GPIO.HIGH)


def gpio_l(gpid):
    pins = ((gpid, 'out'), )
    with GPIO(pins) as gpio:
        gpio.digital_write(gpid, GPIO.LOW)


def gpio_r(gpid):
    pins = ((gpid, 'in'), )
    with GPIO(pins) as gpio:
        data = gpio.digital_read(gpid)
    return data


#gpio_h(GPC)
#time.sleep(1)
#gpio_l(GPC)
示例#9
0
import time
from gpio_96boards import GPIO


PortaLed = GPIO.gpio_id('GPIO_E')
Btn = GPIO.gpio_id('GPIO_A')

pins = ((PortaLed, 'out'),(Btn, 'in'),)


def readDigital(gpio):
	digital = [0,0]
	digital[0] = gpio.digital_read(PortaLed)
        digital[1] = gpio.digital_read(Btn)
	return digital

def piscaled(gpio):
	gpio.digital_write(PortaLed, GPIO.HIGH)
        print('Led Turn Off')
        time.sleep(1)
        gpio.digital_write(PortaLed, GPIO.LOW)	
        print('Led Turn On')	
        time.sleep(1)
	
while True:
    with GPIO(pins) as gpio:
        digital = readDigital(gpio)
        if digital[1]==1:
            print('Pisca led acionado')
            piscaled(gpio)  
            time.sleep(1)
示例#10
0
from dweet import Dweet
import spidev
import time
from libsoc import gpio
from gpio_96boards import GPIO

GPIO_CS = GPIO.gpio_id('GPIO_CS')
RELE = GPIO.gpio_id('GPIO_A')
LED = GPIO.gpio_id('GPIO_C')
TOQUE = GPIO.gpio_id('GPIO_E')

pins = (
    (GPIO_CS, 'out'),
    (LED, 'out'),
    (RELE, 'out'),
    (TOQUE, 'in'),
)

sensibilidade = 400
temperatura = 19
dwligatoque = 0

spi = spidev.SpiDev()
spi.open(0, 0)
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8

dweet = Dweet()

示例#11
0
文件: pot.py 项目: bmfmata/Bruno_IoT
import spidev
import time
from libsoc import gpio
from gpio_96boards import GPIO

GPIO_A = GPIO.gpio_id('GPIO_B')
pins = ((GPIO_A, 'out'), )

spi = spidev.SpiDev()
spi.open(0, 0)
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8


def readadc(gpio):
    gpio.digital_write(GPIO_A, GPIO.HIGH)
    time.sleep(0.0002)
    gpio.digital_write(GPIO_A, GPIO.LOW)
    r = spi.xfer2([0x01, 0x80, 0x00])
    gpio.digital_write(GPIO_A, GPIO.HIGH)
    adcout = (r[1] << 8) & 0b1100000000
    adcout = adcout | (r[2] & 0xff)
    return adcout


while True:
    with GPIO(pins) as gpio:
        value = readadc(gpio)
        print("value = %d" % value)
        print(" ---------------------- ")
示例#12
0
#!/usr/bin/python
import time

from gpio_96boards import GPIO

GPIO_A = GPIO.gpio_id('GPIO_A')
pins = ((GPIO_A, 'out'), )
GPIO_B = GPIO.gpio_id('GPIO_B')
pins = ((GPIO_B, 'in'), )


def blink(gpio):
    gpio.digital_write(GPIO_A, GPIO.HIGH)
    time.sleep(1)
    gpio.digital_write(GPIO_A, GPIO.LOW)
    time.sleep(1)
    alto = gpio.digital_read(GPIO_B)


if __name__ == '__main__':
    import argparse

    parser = argparse.ArgumentParser(
        description='Blink LED on GPIO A (pin 23)')
    args = parser.parse_args()

    with GPIO(pins) as gpio:
        blink(gpio)
示例#13
0
import time
import signal
import json
import threading
import os
from gpio_96boards import GPIO

#serial communication settings
data = json.load(open('config.json'))
usb_setting = data['usb_setting']
se = serial.Serial(usb_setting, 115200)
sensor_count = int(data['sensor_count'])
print(sensor_count)

#GPIO settings
GPIO_A = GPIO.gpio_id('GPIO_A')
GPIO_B = GPIO.gpio_id('GPIO_B')
GPIO_C = GPIO.gpio_id('GPIO_C')
GPIO_D = GPIO.gpio_id('GPIO_D')
GPIO_E = GPIO.gpio_id('GPIO_E')
GPIO_H = GPIO.gpio_id('GPIO_H')
GPIO_K = GPIO.gpio_id('GPIO_K')

pins_a = ((GPIO_A, 'in'), )
pins_b = ((GPIO_B, 'in'), )
pins_c = ((GPIO_C, 'in'), )
pins_d = ((GPIO_D, 'in'), )
pins_e = ((GPIO_E, 'in'), )
pins_h = ((GPIO_H, 'in'), )
pins_k = ((GPIO_K, 'in'), )
#Initializing config parser to load configurations.
parser = SafeConfigParser()
parser.read('/home/linaro/latest/IIOT-Projects/config.ini')

# REST API url to start the screen transition for moisture
# and REST API url to update the flag state of the drought_screen_transition whenever the mosture back to normal
highMoistureScreenTransitionAPI = parser.get(
    'resturls', 'highMoistureScreenTransitionAPI')
droughtScreenTransitionAPI = parser.get('resturls',
                                        'droughtScreenTransitionAPI')

#Initializing logger
logger = logging.getLogger(__name__)
logging.basicConfig(stream=sys.stdout, level=logging.INFO)

gpio_c = GPIO.gpio_id('GPIO_K')
gpio_d = GPIO.gpio_id('GPIO_L')

pins = ((gpio_c, 'out'), (gpio_d, 'out'))

green = 0
red = 0
blue = 0

with GPIO(pins) as gpio:

    screenTransit = False

    # configuring certificates for making secure connection to the greengrass
    rootCAPath = parser.get('certsinfo', 'rootcapath')
    privateKeyPath = parser.get('certsinfo', 'rgbprivatekeypath')
示例#15
0
文件: iplug.py 项目: thiagokarni/iot
#!/usr/bin/env python
from dweet import Dweet

import time

from gpio_96boards import GPIO

GPIO_A = GPIO.gpio_id('GPIO_A')
GPIO_C = GPIO.gpio_id('GPIO_C')
GPIO_E = GPIO.gpio_id('GPIO_E')

pins = (
    (GPIO_A, 'out'),(GPIO_C, 'out'),(GPIO_E, 'in'),
)

dweet = Dweet()

def liga():

	gpio.digital_write(GPIO_A, GPIO.HIGH)
	gpio.digital_write(GPIO_C, GPIO.HIGH)

	dweet.dweet_by_name(name="iplug", data={"button":1})
	resposta = dweet.latest_dweet(name="iplug")
	#print resposta['with'][0]['content']['button']


def desliga():

	gpio.digital_write(GPIO_A, GPIO.LOW)
	gpio.digital_write(GPIO_C, GPIO.LOW)
示例#16
0
# from ggts import gTTS
from gpio_96boards import GPIO
import cv2
import json
import os
import requests
import sys
import time

DEVICE_NUMBER = 0
IMAGE_FILE = "output.jpg"
API = "http://ec2-18-219-99-191.us-east-2.compute.amazonaws.com:5000/verify"
no_face = True

GPIO_A = GPIO.gpio_id('GPIO_A')
GPIO_C = GPIO.gpio_id('GPIO_C')
GPIO_E = GPIO.gpio_id('GPIO_E')
GPIO_I = GPIO.gpio_id('GPIO_I')
GPIO_K = GPIO.gpio_id('GPIO_K')
light_pins = (
    (GPIO_A, 'out'),
)
gpioc = ((GPIO_C, 'out'),)
gpioe = ((GPIO_E, 'out'),)
gpioi = ((GPIO_I, 'out'),)
gpiok = ((GPIO_K, 'out'),)

steps = 0
direction = 1

示例#17
0
#Initiallizing config parser to load configurations
parser = SafeConfigParser()
parser.read('/home/linaro/latest/IIOT-Projects/config.ini')

#REST API url to start the screen transition for temperature
#and REST API url to update the flag state of the fan_screen_transition when ever the temperature back to normal
screenTransitionAPI = parser.get('resturls', 'screenTransitionAPI')
changeFanScreenTransitionStateAPI = parser.get(
    'resturls', 'changeFanScreenTransitionStateAPI')

#Initializing logger
logger = logging.getLogger(__name__)
logging.basicConfig(stream=sys.stdout, level=logging.INFO)

gpio_f = GPIO.gpio_id('GPIO_G')
pins = ((gpio_f, 'out'), )
with GPIO(pins) as gpio:

    # configuring certificates for making secure connection to the greengrass
    rootCAPath = parser.get('certsinfo', 'rootcapath')
    privateKeyPath = parser.get('certsinfo', 'fanprivatekeypath')
    certificatePath = parser.get('certsinfo', 'fancertificatepath')
    host = parser.get('hostinfo', 'hostip')
    host_port = parser.get('hostinfo', 'hostport')
    clientId = parser.get('deviceinfo', 'fanawsdeviceclientid')
    subscribeTopic = parser.get('mqttinfo', 'fansubscribe_topic')

    # This function handle keyboard interrupt
    def signal_handler(signal, frame):
        gpio.digital_write(gpio_f, 0)
示例#18
0
#!/usr/bin/python
import time
import subprocess
import numpy as np
import matplotlib.pyplot as plt
from scipy.fftpack import fft
from scipy.io.wavfile import read
from sklearn.preprocessing import normalize
from math import floor

from gpio_96boards import GPIO

GPIO_C = GPIO.gpio_id ('GPIO_C') # TODO switchPin
GPIO_E = GPIO.gpio_id ('GPIO_E') # corr tiltPin
GPIO_G = GPIO.gpio_id ('GPIO_G') # corr tiltDirPin

# declaring GPIO pins as input or output
pins = (
    (GPIO_C, 'in'),
    (GPIO_E, 'out'),
    (GPIO_G, 'out')
)


def switch(gpio):
    gpio.digital_write(GPIO_A, GPIO.LOW)
    while True:
        if gpio.digital_read(GPIO_C) == GPIO.HIGH:
            gpio.digital_write(GPIO_A, GPIO.HIGH)
            subprocess.call("./recordScript.sh")
            if getObject(): #bottle object
示例#19
0
import spidev
import time
from libsoc import gpio

from gpio_96boards import GPIO

POTENCIOMETRO = GPIO.gpio_id('GPIO_CS')  #analogica ADC1
LED = GPIO.gpio_id('GPIO_A')  #Porta Digital

pins = (
    (POTENCIOMETRO, 'out'),
    (LED, 'out'),
)

spi = spidev.SpiDev()  #biblioteca SPI para acessar os pinos ADC1 e ADC2
spi.open(0, 0)  #acessando ADC2
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8


def readPotenciometro(gpio):

    r = spi.xfer2([0x01, 0xA0, 0x00])
    gpio.digital_write(POTENCIOMETRO, GPIO.HIGH)  #liga o potenciometro
    adcout = (r[1] << 8) & 0b1100000000
    adcout = adcout | (r[2] & 0xff)
    print("Valor do Pot.:%d" % adcout)
    return adcout

示例#20
0
#!/usr/bin/env python
from dweet import Dweet
import spidev  #lib
import time

from gpio_96boards import GPIO

TEMP = GPIO.gpio_id('GPIO_CS')

pins = ((TEMP, 'out'), )

spi = spidev.SpiDev()  #biblioteca SPI para acessar os pinos ADC1 e ADC2
spi.open(0, 0)  #acessando ADC2
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8

#cria o objeto de comunicacao com o portal dweet
dweet = Dweet()


#le a temperatudo no conectaor ADC2 e retorna o float
def readTemperature(gpio):

    r = spi.xfer2([0x01, 0xA0, 0x00])
    gpio.digital_write(TEMP, GPIO.HIGH)  #liga o termometro
    adcout = (r[1] << 8) & 0b1100000000
    adcout = adcout | (r[2] & 0xff)
    adc_temp = (adcout * 5.0 / 1023 - 0.5) * 100
    gpio.digital_write(TEMP, GPIO.LOW)
    print("Temperatura.:%2.1f" % adc_temp)
示例#21
0
import spidev
import time
from libsoc import gpio

from gpio_96boards import GPIO

GPIO_CS = GPIO.gpio_id('GPIO_CS')

pins = ((GPIO_CS, 'out'),)

spi = spidev.SpiDev()
spi.open(0,0)
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8

def readTemparature(gpio):

	gpio.digital_write(GPIO_CS, GPIO.HIGH)
	time.sleep(0.0002)
	gpio.digital_write(GPIO_CS, GPIO.LOW)
	r = spi.xfer2([0x01, 0xA0, 0x00])
	gpio.digital_write(GPIO_A, GPIO.HIGH)
	adcout = (r[1] << 8) & 0b1100000000
	adcout = adcout | (r[2] & 0xff)

	adc_temp = (adcout *5.0/1023-0.5)*100

	return adc_temp

示例#22
0
#!/usr/bin/python
import time

from gpio_96boards import GPIO

GPIO_A = GPIO.gpio_id('GPIO-A')
pins = (
    (GPIO_A, 'out'),
)


def blink(gpio):
    for i in range(5):
        gpio.digital_write(GPIO_A, GPIO.HIGH)
        time.sleep(i)
        gpio.digital_write(GPIO_A, GPIO.LOW)
        time.sleep(1)


if __name__ == '__main__':
    import argparse

    parser = argparse.ArgumentParser(
        description='Blink LED on GPIO A (pin 23)')
    args = parser.parse_args()

    with GPIO(pins) as gpio:
        blink(gpio)
示例#23
0
import spidev
import time

from libsoc import gpio
from dweet import Dweet
from gpio_96boards import GPIO

GPIO_CS = GPIO.gpio_id('GPIO_CS')
BUTTON = GPIO.gpio_id('GPIO_A')
RELE = GPIO.gpio_id('GPIO_C')
LED = GPIO.gpio_id('GPIO_E')

pins = (
    (GPIO_CS, 'out'),
    (RELE, 'out'),
    (LED, 'out'),
    (BUTTON, 'in'),
)

spi = spidev.SpiDev()
spi.open(0, 0)
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8

dweet = Dweet()


def readTemp(gpio):

    gpio.digital_write(GPIO_CS, GPIO.HIGH)
示例#24
0
import time
from gpio_96boards import GPIO

PortaLed = GPIO.gpio_id('GPIO_E')

pins = ((PortaLed, 'out'), )


def piscaled(gpio):
    gpio.digital_write(PortaLed, GPIO.HIGH)
    print('Led Turn Off')
    time.sleep(1)
    gpio.digital_write(PortaLed, GPIO.LOW)
    print('Led Turn On')
    time.sleep(1)


while True:
    with GPIO(pins) as gpio:
        piscaled(gpio)
示例#25
0
import spidev
import time
from libsoc import gpio

from gpio_96boards import GPIO

GPIO_CS = GPIO.gpio_id('GPIO_CS')
RELE = GPIO.gpio_id('GPIO_A')

pins = ((GPIO_CS, 'out'),(RELE, 'out'),)

spi = spidev.SpiDev()
spi.open(0,0)
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8

def readtemp(gpio):

	gpio.digital_write(GPIO_CS, GPIO.HIGH)
	time.sleep(0.0002)
	gpio.digital_write(GPIO_CS, GPIO.LOW)
	r = spi.xfer2([0x01, 0xA0, 0x00])
	gpio.digital_write(GPIO_CS, GPIO.HIGH)
	adcout = (r[1] << 8) & 0b1100000000
	adcout = adcout | (r[2] & 0xff)		
	print ("Valor do Pot.:%d" %adcout)
	return adcout
	
while True:
	with GPIO(pins) as gpio:
示例#26
0
import requests, json
import serial
import time
from gpio_96boards import GPIO

LEFT = GPIO.gpio_id('GPIO_B')
RIGHT = GPIO.gpio_id('GPIO_A')

pins = ((LEFT, 'out'), (RIGHT, 'out'))


def blink(pin):
    with GPIO(pins) as gpio:
        for i in range(3):
            gpio.digital_write(pin[0], GPIO.HIGH)
            time.sleep(i)
            gpio.digital_write(pin[0], GPIO.LOW)
            time.sleep(1)


while True:
    try:
        signals = json.loads(requests.get('http://983f4cb9.ngrok.io').text)
        if signals['right']:
            blink(pins[1])
            reqeusts.get('http://983f4cb9.ngrok.io/right')
        elif signals['left']:
            reqeusts.get('http://983f4cb9.ngrok.io/left')
            blink(pins[0])

        time.sleep(1)
示例#27
0
def led_print_numbers(numbers):
    numbers = str(numbers)
    try:
        for i in range(0, len(numbers)):
            led.printNumber(numbers[i], False, 1)
            time.sleep(LED_SCROLL_PAUSE)
    finally:
        led.clearDisplays()
        led.cleanup()


if __name__ == '__main__':
    global DIN
    global CS
    global CLK
    DIN = GPIO.gpio_id('GPIO-E')
    CS = GPIO.gpio_id('GPIO-D')
    CLK = GPIO.gpio_id('GPIO-C')
    global pins
    print DIN
    pins = (
        (DIN, 'out'),
        (CS, 'out'),
        (CLK, 'out')
    )

    with GPIO(pins) as gpio:
        numOfDevices = 2
        led = LEDBlock(gpio, numOfDevices, 'GPIO-E', 'GPIO-D', 'GPIO-C')
        while 1 is 1:
            with open('sensordata.json', 'r') as datafile:
示例#28
0
import spidev
import time
from libsoc import gpio
from gpio_96boards import GPIO
from dweet import Dweet

TEMP = GPIO.gpio_id('GPIO_CS')
RELE = GPIO.gpio_id('GPIO_A')
LED = GPIO.gpio_id('GPIO_C')

pins = ((TEMP, 'in'), (RELE, 'out'), (LED, 'out'),)

spi = spidev.SpiDev()
spi.open(0,0)
spi.max_speed_hz = 10000
spi.mode = 0b00
spi.bits_per_word = 8

dweet = Dweet()


def readDigital(gpio):
	dados = [0,0]
	dados[0] = gpio.digital_read(LED)
	dados[1] = gpio.digital_read(RELE)

	return digital

def writeDigital(gpio, dados):
	escreve = dados
	gpio.digital_write(LED, escreve[0])