def test_turn_led(myid):
global wsensor
if myid=="blue_off":
myid="blue_off2"
else:
myid="blue_off"
if wsensor.value()==1:
do_later(2,test_turn_led,id=myid) # check again in 2s and keep led on
else:
blue.high()
def main():
global wsensor
blue.low() # turn on to signal start
wsensor = analog("water", threshold=450, precision=10, on_change=light_up_blue)
time.sleep(0.5)
blue.high() # turn off
run(60)
def main():
global wsensor
blue.low() # turn on to signal start
mqtt("192.168.43.1", "pipe07/wsens01")
wsensor=analog("water",threshold=450, precision=10, on_change=light_up_blue)
time.sleep(0.5)
blue.high() # turn off
run(60)
# Always start with this to make everything from ulnoiot available.
# Therefore, do not delete the following line.
from ulnoiot import *
# The following is just example code, adjust to your needs accordingly.
# wifi and mqtt connect are done automatically, we assume for this example
# the following configuration.
# mqtt("ulnoiotgw", "myroom/test1")
## Use some shields
# The onboard-led is always available.
# With this configuration it will report under myroom/test1/blue
# and can be set via sending off or on to myroom/test1/blue/test.
from ulnoiot.shield.onboardled import blue
blue.high() # make sure it's off (it's reversed)
## Add some other devices
# Add a button with a slightly higher debounce rate, which will report
# in the topic myroom/test1/button1.
button("b1", d6, pullup=False, threshold=2)
# Count rising signals on d2=Pin(4) and
# report number counted at myroom/test1/shock1.
#trigger("shock1",Pin(4))
## Start to transmit every 10 seconds (or when status changed).
# Don't forget the run-comamnd at the end.
run(5)