Internet of Things/Testprogramma MQTT: verschil tussen versies

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=== Versie met sensoren ===


<syntaxhighlight lang="Python">
<syntaxhighlight lang="Python">

Versie van 4 jun 2015 12:12

Versie met sensoren

import time
import grovepi
import grove_barometer_lib
import paho.mqtt.client as mqtt

led = 4     # led-relais op grovepi D4 
valve = 3   # klep-relais op grovepi D3
valveOn = 1 # klep aan (initieel)
ledOn = 0   # lamp uit (initeel)

moisturePin = 0 # grovepi A0
# barometer op grovepi I2C-2

now = 0

grovepi.pinMode(led, "OUTPUT")
grovepi.pinMode(valve, "OUTPUT")

## MQTT Callbacks
def on_connect(client, userdata, flags, rc):
    if rc != 0:
        print "Connection failed. RC: {}".format(rc)
    else:
        print "Connected successfully"

def on_publish(client, userdata, mid):
    print "Message {} published.".format(mid)

def on_disconnect(client, userdata, rc):
    if rc != 0:
        print "Client disconnected unexpectedly, trying to reconnect."
        hasDisconnected = True
        mqttClient.reconnect()

def init_mqtt():
    mqttClient = mqtt.Client("testClient123") # je eigen ID
    mqttClient.on_connect = on_connect
    mqttClient.on_publish = on_publish
    mqttClient.on_disconnect = on_disconnect
    mqttClient.loop_start()
    mqttClient.connect("129.168.178.130", 1883) # local: 129.168.178.130, global: 82.161.55.218

def send_sensordata(sensorValues):
    mqttClient.publish("test/123", json.dumps(sensorValues))

sensorValues = dict()

# The main loop:

while True:
  try:
    print("hi")
    b = grove_barometer_lib.barometer()
    print("Pressure: " + str(b.pressure) + " temperature: " + str(b.temperature))
    sensorValues["Pressure"] = b.pressure
    sensorValues["Temperature"] = b.temperature

    moisture = grovepi.analogRead(moisturePin)
    print("Moisture: " + str(moisture))
    sensorValues["Moisture"] = moisture

    send_sensordata(sensorValues)

    # grovepi.digitalWrite(led, ledOn)
    # ledOn = 1 - ledOn

    # grovepi.digitalWrite(valve, valveOn)
    # valveOn = 1 - valveOn

    time.sleep(10)
    now += 10

  except KeyboardInterrupt:
    # reset outputs
    grovepi.digitalWrite(led, 0)
    grovepi.digitalWrite(valve, 0)
    break
  except IOError:
    print("error")

Eenvoudige versie

Een eenvoudige versie zonder sensoren:

import time
import grovepi
import grove_barometer_lib
import paho.mqtt.client as mqtt

led = 4     # led-relais op grovepi D4 
valve = 3   # klep-relais op grovepi D3
valveOn = 1 # klep aan (initieel)
ledOn = 0   # lamp uit (initeel)

moisturePin = 0 # grovepi A0
# barometer op grovepi I2C-2

now = 0

grovepi.pinMode(led, "OUTPUT")
grovepi.pinMode(valve, "OUTPUT")

## MQTT Callbacks
def on_connect(client, userdata, flags, rc):
    if rc != 0:
        print "Connection failed. RC: {}".format(rc)
    else:
        print "Connected successfully"

def on_publish(client, userdata, mid):
    print "Message {} published.".format(mid)

def on_disconnect(client, userdata, rc):
    if rc != 0:
        print "Client disconnected unexpectedly, trying to reconnect."
        hasDisconnected = True
        mqttClient.reconnect()

def init_mqtt():
    mqttClient = mqtt.Client("testClient123") # je eigen ID
    mqttClient.on_connect = on_connect
    mqttClient.on_publish = on_publish
    mqttClient.on_disconnect = on_disconnect
    mqttClient.loop_start()
    mqttClient.connect("129.168.178.130", 1883) # local: 129.168.178.130, global: 82.161.55.218

def send_sensordata(sensorValues):
    mqttClient.publish("test/123", json.dumps(sensorValues))

sensorValues = dict()

# The main loop:

while True:
  try:
    print("hi")
    b = grove_barometer_lib.barometer()
    print("Pressure: " + str(b.pressure) + " temperature: " + str(b.temperature))
    sensorValues["Pressure"] = b.pressure
    sensorValues["Temperature"] = b.temperature

    moisture = grovepi.analogRead(moisturePin)
    print("Moisture: " + str(moisture))
    sensorValues["Moisture"] = moisture

    send_sensordata(sensorValues)

    # grovepi.digitalWrite(led, ledOn)
    # ledOn = 1 - ledOn

    # grovepi.digitalWrite(valve, valveOn)
    # valveOn = 1 - valveOn

    time.sleep(10)
    now += 10

  except KeyboardInterrupt:
    # reset outputs
    grovepi.digitalWrite(led, 0)
    grovepi.digitalWrite(valve, 0)
    break
  except IOError:
    print("error")