def main():
time.sleep(1)
led = [0, 0, 0]
while not exitapp:
p = power_consumption[0] + power_consumption[1] + power_consumption[2]
basemax = max(maximum[0], maximum[1], maximum[2])
print "Maximum base:" + str(basemax)
for i in [0, 1, 2]:
print phases[i]["uri"], "Current:" + str(power_consumption[i])
led[i] = map_value_to_leds(basemax, power_consumption[i], 7)
print led[i]
arduinoGauge.write(led[0], led[1], led[2])
time.sleep(0.5)
setText("Total Power: " + str(p) + " W")
setRGB(60, 60, 60)
time.sleep(10)
for i in [0, 1, 2]:
setText("Phase " + str(i + 1) + " " +
str(power_consumption[i]) + " W")
setRGB(R[i], G[i], B[i])
time.sleep(5)
def main():
time.sleep(1)
while not exitapp:
basemax = max(maximum[0], maximum[1], maximum[2])
print "Maximum base:" + str(basemax)
for i in [0, 1, 2]:
print phases[i]["uri"], "This 5 min estimate:" + str(
power_consumption[i]) + "Wh", "This hour estimate:" + str(
power_consumption[i] * 12) + "Wh", map_value_to_leds(basemax, power_consumption[i], 7)
arduinoGauge.write(map_value_to_leds(basemax, power_consumption[0], 7),
map_value_to_leds(basemax, power_consumption[1], 7),
map_value_to_leds(basemax, power_consumption[2], 7))
time.sleep(0.5)
setText("Total Power: " + str(power) + " Wh")
setRGB(60, 60, 60)
time.sleep(10)
for i in [0, 1, 2]:
setText("Phase " + str(i + 1) + " " + str(power_consumption[i]) + " Wh")
setRGB(R[i], G[i], B[i])
time.sleep(5)
current[i] = data[0] / 1000
power_consumption[i] = (current[i] * 230)
maximum[i] = data[1] * 230 / 1000
def threaded_function(arg):
global power_consumption, current, maximum
while not exitapp:
getData()
print("Username: \n\t%s\n" % properties.username).encode("utf8", "replace")
print "Sensors:"
arduinoGauge.connect()
arduinoGauge.write(1, 2, 3)
sparkworks.connect(properties.username, properties.password)
for room in properties.the_power_room:
print '\t%s' % room.decode('utf-8')
room = sparkworks.select_rooms(properties.the_power_room)
phases = sparkworks.current_phases(room[0])
print "\t%s" % phases[0]["uri"]
print "\t%s" % phases[1]["uri"]
print "\t%s" % phases[2]["uri"]
print "Collecting data, please wait..."
getData()
thread = Thread(target=threaded_function, args=(10, ))
def main():
global text, new_text, dev, ph, timestamp
time.sleep(1)
led = [0, 0, 0]
led_part = [0, 0, 0]
t = 0
ph = 0
new_t = 0
while not exitapp:
#detect Button that choose houre
try:
if (grovepi.digitalRead(ButtonH)):
setText("New Houre")
t = t + 1
if t == 24:
setText("Take new data")
t = 0
time.sleep(.5)
print "houre" + str(t)
except IOError:
print "Button Error"
#detect button that choose phase
try:
if (grovepi.digitalRead(ButtonPh)):
setText("click...")
ph = ph + 1
if ph >= 4:
ph = 0
print "Ph" + str(ph)
time.sleep(.5)
except IOError:
print "Button Error"
#Show Total Power (dev=0)
if t == 0:
getData()
basemax = max(maximum[0], maximum[1], maximum[2])
new_text = "Getting data..."
t = 1
else:
if new_t != t:
new_t = t
p = power_consumption[0][t - 1] + power_consumption[1][
t - 1] + power_consumption[2][t - 1]
timevalue = datetime.datetime.fromtimestamp((timestamp /
1000.0) - 3600 *
(t - 1))
strtime = timevalue.strftime('%Y-%m-%d %H:%M:%S')
print strtime
#print p
for i in [0, 1, 2]:
print phases[i]["uri"], " Current: " + str(
float("{0:.2f}".format(current[i][t - 1] / 1000))
) + " A " + "Power: " + str(
float("{0:.2f}".format(
power_consumption[i][t - 1] * 230 / 1000))) + " W"
led[i] = map_value_to_leds(
basemax, power_consumption[i][t - 1] * 230 / 1000, 11)
print led[i]
time.sleep(.1)
arduinoGauge.write(led[0], led[1], led[2])
#time.sleep(0.1)
if ph == 0:
new_text = strtime + ": " + str(float(
"{0:.2f}".format(p))) + "W"
setRGB(60, 60, 60)
else:
new_text = "ph" + str(ph) + ":" + str(
float("{0:.2f}".format(
power_consumption[ph - 1][t - 1] * 230 / 1000))) + "W"
setRGB(R[ph - 1], G[ph - 1], B[ph - 1])
#time.sleep(.1)
if text != new_text:
text = new_text
print "LCD show:", text
setText(text)
data = updateData(phases[i])
power_consumption[i] = data[0]
maximum[i] = data[1]
def threaded_function(arg):
global power_consumption, power, maximum
while not exitapp:
getData()
print("Username: \n\t%s\n" % properties.username).encode("utf8", "replace")
print "Sensors:"
arduinoGauge.connect()
arduinoGauge.write(3, 2, 1)
sparkworks.connect(properties.username, properties.password)
main_site = sparkworks.main_site()
phases = sparkworks.current_phases(main_site)
print "\t%s" % phases[0]["uri"]
print "\t%s" % phases[1]["uri"]
print "\t%s" % phases[2]["uri"]
print "Collecting data, please wait..."
getData()
thread = Thread(target=threaded_function, args=(10, ))
thread.start()
data = updateData(total_power)
power = data[0]
print power, power_consumption
def threaded_function(arg):
global power_consumption, power, maximum
while not exitapp:
getData()
print ("Username: \n\t%s\n" % properties.username).encode("utf8", "replace")
print "Sensors:"
arduinoGauge.connect()
arduinoGauge.write(0, 0, 0)
sparkworks.connect(properties.username, properties.password)
main_site = sparkworks.main_site()
phases = sparkworks.power_phases(main_site)
total_power = sparkworks.total_power(main_site)
print "\t%s" % phases[0]["uri"]
print "\t%s" % phases[1]["uri"]
print "\t%s" % phases[2]["uri"]
print ""
print "\t%s" % total_power["uri"]
print ""
print "Collecting data, please wait..."
getData()
