def buttons_daemon (thread_name, delay):
gpio = GPIO(debug=False)
pinButtons = [2,3,4]
state = [0,0,0]
k = PyKeyboard()
for i in pinButtons:
gpio.pinMode(i, gpio.INPUT)
while True:
for i in xrange(3):
state[i] = gpio.digitalRead(pinButtons[i])
if state[1] == 1 and state[2] == 0 and state[3] == 0: #Up Arrow
k.tap_key('up')
if state[2] == 1 and state[1] == 0 and state[3] == 0: #Down Arrow (tab)
k.tap_key('tab')
if state[3] == 1 and state[1] == 0 and state[2] == 0: #OK (enter)
k.tap_key('enter')
#if state[]
time.sleep(delay)
def start_stream(sensor_pin=14, fs=10):
""" Reads values from analog pin 14 and forwards them to a LSL-stream. """
# Setup the LSL stream
uuid = binascii.b2a_hex(os.urandom(3))
stream_info = lsl.StreamInfo('luminosity', 'analog', 1, fs, 'float32', uuid)
stream_outlet = lsl.StreamOutlet(stream_info)
# Setup GPIO
gpio = GPIO(debug=False)
gpio.pinMode(sensor_pin, gpio.ANALOG_INPUT)
interval = 1.0 / fs
try:
while True:
value = gpio.analogRead(sensor_pin)
stream_outlet.push_sample([value])
time.sleep(interval)
except KeyboardInterrupt:
print("\nCleaning up...")
gpio.cleanup()
def start_stream(sensor_pin=14, fs=10):
# Setup the LSL stream
uuid = binascii.b2a_hex(os.urandom(3))
stream_info = lsl.StreamInfo('luminosity', 'analog', 1, fs, 'float32', uuid)
stream_outlet = lsl.StreamOutlet(stream_info)
# Setup GPIO
gpio = GPIO(debug=False)
gpio.pinMode(sensor_pin, gpio.ANALOG_INPUT)
interval = 1.0 / fs
try:
while True:
value = gpio.analogRead(sensor_pin)
stream_outlet.push_sample([value])
time.sleep(interval)
except KeyboardInterrupt:
print("\nCleaning up...")
gpio.cleanup()
from parse_rest.connection import register, ParseBatcher
# Alias the Object type to make clear is not a normal python Object
from parse_rest.datatypes import Object as ParseObject
from parse_rest.user import User
from wiringx86 import GPIOEdison as GPIO
import sys
gpio = GPIO(debug=False)
u_id = "A2837C04-4AE1-441A-95D5-C25E6D9D1D10"
def reg():
APPLICATION_ID = "TBhSWVtf7LUzCUxUlhF5wFfLKdquF4jEJjK1cVqQ"
REST_API_KEY = "j3QxkFjL9zzOiSMrUqlQYFh5VZRKSrvWh3A7Ob3a"
register(APPLICATION_ID, REST_API_KEY)
class UserTable(ParseObject):
pass
reg()
gpio.pinMode(4, gpio.OUTPUT)
gpio.pinMode(5, gpio.OUTPUT)
gpio.pinMode(6, gpio.OUTPUT)
gpio.pinMode(7, gpio.OUTPUT)
def handler_left():
import time
from wiringx86 import GPIOEdison as GPIO
gpio = GPIO(debug=False)
pin1 = 3
pin2 = 4
pin3 = 5
pin4 = 6
index = 0
print 'Setting up pin %d' % pin1
gpio.pinMode(pin1, gpio.OUTPUT)
print 'Setting up pin %d' % pin2
gpio.pinMode(pin2, gpio.OUTPUT)
print 'Setting up pin %d' % pin3
gpio.pinMode(pin3, gpio.OUTPUT)
print 'Setting up pin %d' % pin4
gpio.pinMode(pin4, gpio.OUTPUT)
print 'Go up now...'
try:
while (True):
gpio.digitalWrite(pin4, gpio.LOW)
gpio.digitalWrite(pin2, gpio.HIGH)
time.sleep(0.01)
gpio.digitalWrite(pin1, gpio.LOW)
gpio.digitalWrite(pin3, gpio.HIGH)
time.sleep(0.01)
gpio.digitalWrite(pin2, gpio.LOW)
gpio.digitalWrite(pin4, gpio.HIGH)
# This example is inspired on Arduino Analog Input example.
# http://arduino.cc/en/Tutorial/AnalogInput
#
# This example will work "out of the box" on an Intel® Edison board. If
# you are using a different board such as an Intel® Galileo Gen2, just change the
# import below. wiringx86 uses the same API for all the boards it supports.
# Import the time module enable sleeps between turning the led on and off.
import time
# Import the GPIOEdison class from the wiringx86 module.
from wiringx86 import GPIOEdison as GPIO
# Create a new instance of the GPIOEdison class.
# Setting debug=True gives information about the interaction with sysfs.
gpio = GPIO(debug=False)
pin = 13
analogpin = 14
print 'Setting up all pins...'
# Set pin 14 to be used as an analog input GPIO pin.
gpio.pinMode(analogpin, gpio.ANALOG_INPUT)
# Set pin 13 to be used as an output GPIO pin.
gpio.pinMode(pin, gpio.OUTPUT)
print 'Analog reading from pin %d now...' % analogpin
try:
while (True):
# Read the voltage on pin 14
from wiringx86 import GPIOEdison as GPIO
import paho.mqtt.client as paho, os, urlparse, time
gpio = GPIO(debug=False)
analogpin = 17
gpio.pinMode(analogpin, gpio.ANALOG_INPUT)
# Define event callbacks
def on_connect(mosq, obj, rc):
print("rc: " + str(rc))
def on_message(mosq, obj, msg):
print(msg.topic + " " + str(msg.qos) + " " + str(msg.payload))
def on_publish(mosq, obj, mid):
print("mid: " + str(mid))
def on_subscribe(mosq, obj, mid, granted_qos):
print("Subscribed: " + str(mid) + " " + str(granted_qos))
def on_log(mosq, obj, level, string):
print(string)
mqttc = paho.Client()
# Assign event callbacks
mqttc.on_message = on_message
mqttc.on_connect = on_connect
mqttc.on_publish = on_publish
mqttc.on_subscribe = on_subscribe
# Uncomment to enable debug messages
# This example is inspired on Arduino Analog Input example.
# http://arduino.cc/en/Tutorial/AnalogInput
#
# This example will work "out of the box" on an Intel® Edison board. If
# you are using a different board such as an Intel® Galileo Gen2, just change the
# import below. wiringx86 uses the same API for all the boards it supports.
# Import the time module enable sleeps between turning the led on and off.
import time
# Import the GPIOEdison class from the wiringx86 module.
from wiringx86 import GPIOEdison as GPIO
# Create a new instance of the GPIOEdison class.
# Setting debug=True gives information about the interaction with sysfs.
gpio = GPIO(debug=False)
pin = 13
analogpin = 14
print 'Setting up all pins...'
# Set pin 14 to be used as an analog input GPIO pin.
gpio.pinMode(analogpin, gpio.ANALOG_INPUT)
# Set pin 13 to be used as an output GPIO pin.
gpio.pinMode(pin, gpio.OUTPUT)
print 'Analog reading from pin %d now...' % analogpin
try:
while(True):
# Read the voltage on pin 14
# This example is inspired on Arduino Fade example.
# http://arduino.cc/en/Tutorial/Fade
#
# This example will work "out of the box" on an Intel® Edison board. If
# you are using a different board such as an Intel® Galileo Gen2, just change the
# import below. wiringx86 uses the same API for all the boards it supports.
# Import the time module enable sleeps between turning the led on and off.
import time
# Import the GPIOEdison class from the wiringx86 module.
from wiringx86 import GPIOEdison as GPIO
# Create a new instance of the GPIOEdison class.
# Setting debug=True gives information about the interaction with sysfs.
gpio = GPIO(debug=False)
pin = 3
brightness = 0
fadeAmount = 5
# Set pin 3 to be used as a PWM pin.
print 'Setting up pin %d' % pin
gpio.pinMode(pin, gpio.PWM)
print 'Fading pin %d now...' % pin
try:
while(True):
# Write brightness to the pin. The value must be between 0 and 255.
gpio.analogWrite(pin, brightness)
# Increment or decrement the brightness.
GPIO 49 - j20 Pin 6 - 8
GPIO 42 - j20 Pin 9 - 12
GPIO 41 - j20 Pin 10 - 10
"""
# Import the GPIOEdison class from the wiringx86 module.
#The Module can be downloaded from: https://github.com/emutex/wiring-x86
from wiringx86 import GPIOEdison as GPIO
#import pymongo
#from pymongo import MongoClient
import time
import urllib2
# Create a new instance of the GPIOEdison class.
# Setting debug=True gives information about the interaction with sysfs.
gpio = GPIO(debug=False)
pin = [1, 7, 8, 10, 11, 12, 13, 14, 16, 18]
# Set pins to be used as an output GPIO pin.
for i in pin:
print 'Setting up pin %d' % i
gpio.pinMode(i, gpio.OUTPUT)
####### MONGODB STUFF ########
#Connect to the database at mongolab.com
#client = MongoClient('mongodb://*****:*****@ds051640.mongolab.com:51640/thesis_prototype_1')
#client = MongoClient('mongodb://technoshaman.local:27017')
#client = MongoClient('mongodb://technoshaman.noip.me:4400')
#db = client.thesis_prototype_1
#connect to the collection
#collection = db.data_consume
#
# See license in LICENSE.txt file.
#
# This example is inspired on Arduino Button example.
# http://arduino.cc/en/Tutorial/Button
#
# This example will work "out of the box" on an Intel® Edison board. If
# you are using a different board such as an Intel® Galileo Gen2, just change the
# import below. wiringx86 uses the same API for all the boards it supports.
# Import the GPIOEdison class from the wiringx86 module.
from wiringx86 import GPIOEdison as GPIO
# Create a new instance of the GPIOEdison class.
# Setting debug=True gives information about the interaction with sysfs.
gpio = GPIO(debug=False)
pin = 13
button = 2
print 'Setting up pins %d and %d...' % (pin, button)
# Set pin 13 to be used as an output GPIO pin.
gpio.pinMode(pin, gpio.OUTPUT)
# Set pin 2 to be used as an input GPIO pin.
gpio.pinMode(button, gpio.INPUT)
print 'Reading from pin %d now...' % button
try:
while (True):
# Read the state of the button
# This example is inspired on Arduino Blink example.
# http://arduino.cc/en/Tutorial/Blink
#
# This example will work "out of the box" on an Intel® Edison board. If
# you are using a different board such as an Intel® Galileo Gen2, just change the
# import below. wiringx86 uses the same API for all the boards it supports.
# Import the time module enable sleeps between turning the led on and off.
import time
# Import the GPIOEdison class from the wiringx86 module.
from wiringx86 import GPIOEdison as GPIO
# Create a new instance of the GPIOEdison class.
# Setting debug=True gives information about the interaction with sysfs.
gpio = GPIO(debug=False)
state = gpio.HIGH
pins = 20
# Set all pins to be used as output GPIO pins.
print 'Setting up all pins...'
for pin in range(0, pins):
gpio.pinMode(pin, gpio.OUTPUT)
print 'Blinking all pins now...'
try:
while(True):
for pin in range(0, pins):
# Write a state to the pin. ON or OFF.
gpio.digitalWrite(pin, state)
#!/usr/bin/python
# https://github.com/SavinaRoja/PyUserInput
import time
from wiringx86 import GPIOEdison as GPIO
gpio = GPIO(debug=False)
pinButtons = [2,3,4]
state = [0,0,0]
for i in pinButtons:
gpio.pinMode(i, gpio.INPUT)
while True:
for i in range(3):
state[i] = gpio.digitalRead(pinButtons[i])
if state[i] == 1:
print "Boton en pin " + str(pinButtons[i]) + " pulsado."
time.sleep(3)
#
# See license in LICENSE.txt file.
#
# This example is inspired on Arduino Button example.
# http://arduino.cc/en/Tutorial/Button
#
# This example will work "out of the box" on an Intel® Edison board. If
# you are using a different board such as an Intel® Galileo Gen2, just change the
# import below. wiringx86 uses the same API for all the boards it supports.
# Import the GPIOEdison class from the wiringx86 module.
from wiringx86 import GPIOEdison as GPIO
# Create a new instance of the GPIOEdison class.
# Setting debug=True gives information about the interaction with sysfs.
gpio = GPIO(debug=False)
pin = 13
button = 2
print 'Setting up pins %d and %d...' % (pin, button)
# Set pin 13 to be used as an output GPIO pin.
gpio.pinMode(pin, gpio.OUTPUT)
# Set pin 2 to be used as an input GPIO pin.
gpio.pinMode(button, gpio.INPUT)
print 'Reading from pin %d now...' % button
try:
while(True):
# Read the state of the button
# SOURCE: https://github.com/emutex/wiring-x86/blob/master/examples/analog_input.py
# Import the time module enable sleeps between turning the led on and off.
import time
# Import the GPIOEdison class from the wiringx86 module.
from wiringx86 import GPIOEdison as GPIO
import requests
# Create a new instance of the GPIOEdison class.
# Setting debug=True gives information about the interaction with sysfs.
gpio = GPIO(debug=False)
outpin = 3
analogpins = range(14, 17)
url_finger = "http://dev.studalt.ru/store.php?mode=r&id=finger"
url_sensor = "http://dev.studalt.ru/store.php?mode=w&id=sensor"
print 'Setting up all pins...'
# Set pin 14 to be used as an analog input GPIO pin.
for analogpin in analogpins:
gpio.pinMode(analogpin, gpio.ANALOG_INPUT)
# Set pin 13 to be used as an output GPIO pin.
gpio.setPWMPeriod(outpin, 20000000)
gpio.pinMode(outpin, gpio.PWM)
#print 'Analog reading from pin %d now...' % analogpin
while (True):
data = []
level = 12
gpio.analogWrite(outpin, level)
for analogpin in analogpins:
from parse_rest.connection import register, ParseBatcher # Alias the Object type to make clear is not a normal python Object from parse_rest.datatypes import Object as ParseObject from parse_rest.user import User from wiringx86 import GPIOEdison as GPIO import sys gpio = GPIO(debug=False) u_id = "A2837C04-4AE1-441A-95D5-C25E6D9D1D10" def reg(): APPLICATION_ID = "TBhSWVtf7LUzCUxUlhF5wFfLKdquF4jEJjK1cVqQ" REST_API_KEY = "j3QxkFjL9zzOiSMrUqlQYFh5VZRKSrvWh3A7Ob3a" register(APPLICATION_ID, REST_API_KEY) class UserTable(ParseObject): pass reg() gpio.pinMode(4, gpio.OUTPUT) gpio.pinMode(5, gpio.OUTPUT) gpio.pinMode(6, gpio.OUTPUT) gpio.pinMode(7, gpio.OUTPUT) def handler_left(): gpio.digitalWrite(4, gpio.LOW) gpio.digitalWrite(5, gpio.LOW)
# This example is inspired on Arduino Blink example.
# http://arduino.cc/en/Tutorial/Blink
#
# This example will work "out of the box" on an Intel® Edison board. If
# you are using a different board such as an Intel® Galileo Gen2, just change the
# import below. wiringx86 uses the same API for all the boards it supports.
# Import the time module enable sleeps between turning the led on and off.
import time
# Import the GPIOEdison class from the wiringx86 module.
from wiringx86 import GPIOEdison as GPIO
# Create a new instance of the GPIOEdison class.
# Setting debug=True gives information about the interaction with sysfs.
gpio = GPIO(debug=False)
pin = 13
state = gpio.HIGH
# Set pin 13 to be used as an output GPIO pin.
print 'Setting up pin %d' % pin
gpio.pinMode(pin, gpio.OUTPUT)
print 'Blinking pin %d now...' % pin
try:
while (True):
# Write a state to the pin. ON or OFF.
gpio.digitalWrite(pin, state)
# Toggle the state.
state = gpio.LOW if state == gpio.HIGH else gpio.HIGH
"""
Using Wiring-x86 to power motor A which turns the left wheel forward.
Hitting Ctrl-C stops motor.
"""
#!usr/bin/python
from wiringx86 import GPIOEdison as GPIO
import time
gpio = GPIO(debug=False)
pin = 9
pin2 = 13
fastness = 100
delta = 5
gpio.pinMode(pin, gpio.PWM)
gpio.pinMode(pin2, gpio.OUTPUT)
gpio.digitalWrite(pin2, gpio.HIGH)
try:
while (True):
gpio.analogWrite(pin, fastness)
fastness = fastness + delta
if fastness == 0 or fastness == 255:
delta = -delta
time.sleep(0.03)
except KeyboardInterrupt:
gpio.analogWrite(pin, 0)
from wiringx86 import GPIOEdison as GPIO import time gpio = GPIO(debug=False) time.sleep(2) gpio.setPWMPeriod(3, 20000000) gpio.pinMode(3, gpio.PWM) gpio.pinMode(14, gpio.ANALOG_INPUT) gpio.pinMode(15, gpio.ANALOG_INPUT) gpio.pinMode(16, gpio.ANALOG_INPUT) time.sleep(1) while 1: gpio.analogWrite(3, 5) time.sleep(3) gpio.analogWrite(3, 9) time.sleep(2) print "14: " + str(gpio.analogRead(14)) print "15: " + str(gpio.analogRead(15)) time.sleep(1)
from wiringx86 import GPIOEdison as GPIO
import time
gpio = GPIO(debug=False)
time.sleep(2)
gpio.setPWMPeriod(3, 20000000)
gpio.pinMode(3, gpio.PWM)
gpio.pinMode(14, gpio.ANALOG_INPUT)
gpio.pinMode(15, gpio.ANALOG_INPUT)
gpio.pinMode(16, gpio.ANALOG_INPUT)
time.sleep(1)
while 1:
gpio.analogWrite(3, 5)
time.sleep(3)
gpio.analogWrite(3, 9)
time.sleep(2)
print "14: " + str(gpio.analogRead(14))
print "15: " + str(gpio.analogRead(15))
time.sleep(1)