def init():
"""Start the Energenie system running"""
global registry, fsk_router, ook_router
radio.init()
OpenThings.init(Devices.CRYPT_PID)
fsk_router = Registry.Router("fsk")
#OOK receive not yet written
#It will be used to be able to learn codes from Energenie legacy hand remotes
##ook_router = Registry.Router("ook")
registry = Registry.DeviceRegistry()
registry.set_fsk_router(fsk_router)
##registry.set_ook_router(ook_router
path = os.path.join(sys.path[0], registry.DEFAULT_FILENAME)
if os.path.isfile(path):
registry.load_from(path)
print("loaded registry from file")
registry.list()
fsk_router.list()
# Default discovery mode, unless changed by app
##discovery_none()
##discovery_auto()
##discovery_ask(ask)
discovery_autojoin()
def init():
"""Start the Energenie system running"""
global registry, fsk_router, ook_router
radio.init()
OpenThings.init(Devices.CRYPT_PID)
fsk_router = Registry.Router("fsk")
#OOK receive not yet written
#It will be used to be able to learn codes from Energenie legacy hand remotes
##ook_router = Registry.Router("ook")
registry = Registry.DeviceRegistry()
registry.set_fsk_router(fsk_router)
##registry.set_ook_router(ook_router
if os.path.isfile(registry.DEFAULT_FILENAME):
registry.load_from(registry.DEFAULT_FILENAME)
print("loaded registry from file")
registry.list()
fsk_router.list()
# Default discovery mode, unless changed by app
##discovery_none()
##discovery_auto()
##discovery_ask(ask)
discovery_autojoin()
def main(): #Inicialización de los módulos radio.init() sensor.init() # gps.init() while True: #Graba los datos a la microSD sensor.writeLogLine() # gps.writeLogLine() #Envía los datos por radio packet = bytes(sensor.line(), "utf-8") #Paquetiza la información para que no supere el tamaño de 60 while len(packet) > 60: radio.rfm69.send(packet[:60]) packet = packet[60:] if len(packet) > 0: radio.rfm69.send(packet) time.sleep(0.5) radio.close() sensor.close()
def main():
radio.init()
sensor.init()
while True:
sensor.writeLogLine()
packet = bytes(sensor.line(), "utf-8")
radio.rfm69.send(packet)
time.sleep(0.5)
radio.close()
sensor.close()
def main():
radio.init()
i = 0
sensorLog = open('dataTARS.txt', 'at')
gpsLog = open('gpsData.txt', 'a')
while True:
packet = radio.rfm69.receive(timeout=2)
if packet is None:
print("No packet")
radio.display.fill(0)
radio.display.text('No packet', 25, 15, 1)
radio.display.show()
else:
dataLine = packet.decode()
fields = dataLine.split(' ')
for x in fields:
if x[:5] == '16204':
gpsLog.flush()
sensorLog.write(x + " ")
i += 1
elif i > 0:
if i == 4:
sensorLog.write(x + "\n")
sensorLog.flush()
i = 0
else:
sensorLog.write(x + " ")
i += 1
else:
gpsLog.write(x + "\n")
'''
radio.display.fill(0)
radio.display.text('%0.2f P:%0.1f hPa' % (float(fields[0]), float(fields[3])), 2, 2, 1)
radio.display.text('T:%0.1f C Hum:%0.2f%%' % (float(fields[1]), float(fields[2])), 2, 13, 1)
radio.display.text('Alt:%0.2fm' % (float(fields[4])), 2, 25, 1)
radio.display.show()
'''
radio.close()
sensorLog.close()
gpsLog.close()
def __init__(self, loop_hz):
self._loop_hz = loop_hz
self._loop_us = 1e6 / loop_hz
self._average_cpu = 1.0
self.inputs = hardware.Inputs()
self.display = hardware.Display()
radio.init()
self._connected = False
self._connected_id = None
self.packet_counter = PacketLossCounter()
self._loop_counter = loop_hz
def main():
radio.init()
outputLog = open('dataTARS.txt', 'a')
while True:
packet = radio.rfm69.receive(timeout = 2)
if packet is None:
radio.display.fill(0)
radio.display.text('No packet', 25, 15, 1)
radio.display.show()
else:
dataLine = packet.decode()
outputLog.write(dataLine)
outputLog.flush()
fields = dataLine.split (' ')
# timeStamp = float(fields[0])
temperature = float(fields[0])
humedad = float(fields[1])
presion = float(fields[2])
altitud = float(fields[3])
# outputLog.write("xxx %f %f %f %f %f\n" % (timeStamp, temperature, humedad, presion, altitud))
# print("\nTime: %0.2f s" % (timeStamp - startTime))
print("Temperature: %0.1f C" % temperature)
print("Humedad: %0.1f %%" % humedad)
print("Presión: %0.1f hPa" % presion)
print("Altitud: %0.2f meters" % altitud)
radio.display.fill(0)
# radio.display.text('%0.2f P:%0.1f hPa' % (timeStamp - startTime, presion), 2, 2, 1)
radio.display.text('T:%0.1f C Hum:%0.2f%%' % (temperature, humedad), 2, 13, 1)
radio.display.text('Alt:%0.2fm' % (altitud), 2, 25, 1)
radio.display.show()
radio.close()
outputLog.close()
def radio_test_ook():
"""Repeatedly test switch 1 ON then OFF"""
radio.init()
# init() defaults to standby()
try:
radio.modulation(ook=True)
while True:
print("Switch 1 ON")
radio.transmit(enc_1on, TIMES)
# auto returns to standby
if DELAY != 0: time.sleep(DELAY)
print("Switch 1 OFF")
radio.transmit(enc_1off, TIMES)
# auto returns to standby
if DELAY != 0: time.sleep(DELAY)
finally:
radio.finished()
def radio_test_ook():
"""Repeatedly test switch 1 ON then OFF"""
radio.init()
# init() defaults to standby()
try:
radio.modulation(ook=True)
while True:
print("Switch 1 ON")
radio.transmit(enc_1on, TIMES)
# auto returns to standby
if DELAY!=0: time.sleep(DELAY)
print("Switch 1 OFF")
radio.transmit(enc_1off, TIMES)
# auto returns to standby
if DELAY!=0: time.sleep(DELAY)
finally:
radio.finished()
def init():
"""Start the Energenie system running"""
radio.DEBUG = True
radio.init()
OpenThings.init(Devices.CRYPT_PID)
import time
import radio
import sensor
radio.init()
sensor.init()
gpsLines = []
gpsPacket = []
i = 0
while True:
sensor.writeLogLine()
#Se escribe en la lista gpsPacket las líneas a enviar
with open('gpsInfo.txt', 'rt') as gpsFile:
for line in gpsFile:
gpsLines.append(line)
gpsPacket.clear()
for x in gpsLines[i:]:
gpsPacket.append(x)
i += 1
gpsLines.clear()
#Envía los datos por radio
packet = bytes(sensor.line(), "utf-8")
gpsSend = bytes(str(gpsPacket), "utf-8")
def __init__(self, loop_hz):
self.drive = hardware.Drive()
radio.init()
self._loop_us = 1000 / loop_hz
self.telemetry_manager = TelemetryManager("Crawler", 100)
def init():
"""Start the Energenie system running"""
radio.DEBUG = True
radio.init()
OpenThings.init(Devices.CRYPT_PID)
