def right(self):
v_module = self.modules[self.selected_module]
isRunning = self.getModuleStatus(self.modules[self.selected_module])
if isRunning == "Y":
# module is running, stop it
execute = "/module/" + v_module + "/stop"
self.consoleMessages.show_info("Stoping module: " + str(v_module) + "")
else:
# module is not running, start it
execute = "/module/" + v_module + "/start"
self.consoleMessages.show_info("Starting module: " + str(v_module) + "")
backlight.set_bar(0, 20)
result = self.webclient.call_api(execute)
# fire up bargraph leds! Wohoo
for i in range(100):
backlight.set_graph(i / 70.0)
time.sleep(0.005)
# disable leds =(
backlight.set_graph(0)
self.ready = True
try:
if result[0] == True:
return "Y"
else:
return "N"
except:
return "E"
def right(self):
v_module = self.modules[self.selected_module]
isRunning = self.getModuleStatus(self.modules[self.selected_module])
if isRunning == "Y":
# module is running, stop it
execute = "/module/" + v_module + "/stop"
self.consoleMessages.show_info("Stoping module: " + str(v_module) + "")
else:
# module is not running, start it
execute = "/module/" + v_module + "/start"
self.consoleMessages.show_info("Starting module: " + str(v_module) + "")
backlight.set_bar(0, 20)
result = self.webclient.call_api(execute)
# fire up bargraph leds! Wohoo
for i in range(100):
backlight.set_graph(i / 70.0)
time.sleep(0.005)
# disable leds =(
backlight.set_graph(0)
self.ready = True
try:
if result[0] == True:
return "Y"
else:
return "N"
except:
return "E"
def loadingScreen():
lcd.clear()
# set brigthness
backlight.set_bar(0, 20)
# write loading message to lcd
lcd.set_cursor_position(3,1)
lcd.write("Loading...")
# fire up bargraph leds! Wohoo
for i in range(100):
backlight.set_graph(i / 70.0)
time.sleep(0.005)
# disable leds =(
backlight.set_graph(0)
def ledNodes():
global nodesList
#shutdown all LEDs
for x in range(0, 9):
backlight.set_bar(x, 0)
time.sleep(0.05)
threading.Timer(5.0, ledNodes).start()
if len(nodesList) <= 0:
for x in range(0, 9):
backlight.set_bar(x, 100)
else:
for x in range(0, len(nodesList)):
backlight.set_bar(x, 255)
#!/usr/bin/env python
import dot3k.lcd as lcd
import dot3k.backlight as backlight
import time
# Clear the LCD and display Hello World
lcd.clear()
lcd.write("Hello World")
# Turn off the backlight
backlight.rgb(0,0,0)
"""
set_graph accepts a float between 0.0 and 1.0
and lights up the LEDs accordingly
"""
for i in range(100):
backlight.set_graph(i/100.0)
time.sleep(0.05)
"""
set_bar will set a specific bargraph LED to
a brightness between 0 and 255
"""
for i in range(256):
backlight.set_bar(0,[255-i]*9)
time.sleep(0.01)
backlight.set_graph(0)
backlight.use_rbg()
elif command == 'setBrightnessOfLed':
backlight.set(parameters['ledIndex'], parameters['brightness'])
elif command == 'setToHue':
backlight.hue(parameters['hue'])
elif command == 'setLeftToHue':
backlight.left_hue(parameters['hue'])
elif command == 'setMiddleToHue':
backlight.mid_hue(parameters['hue'])
elif command == 'setRightToHue':
backlight.right_hue(parameters['hue'])
elif command == 'setToRGB':
backlight.rgb(parameters['red'], parameters['green'],
parameters['blue'])
elif command == 'setLeftToRGB':
backlight.left_rgb(parameters['red'], parameters['green'],
parameters['blue'])
elif command == 'setMiddleToRGB':
backlight.mid_rgb(parameters['red'], parameters['green'],
parameters['blue'])
elif command == 'setRightToRGB':
backlight.right_rgb(parameters['red'], parameters['green'],
parameters['blue'])
elif component == 'BarGraph':
if command == 'turnOff':
backlight.set_graph(0.0)
elif command == 'setByPercentage':
backlight.set_graph(float(parameters['percentage']) / 100)
elif command == 'setBrightnessOfLed':
backlight.set_bar(parameters['ledIndex'], parameters['brightness'])
lcd.write(outputeth)
lcd.set_cursor_position(0, 2)
if wlxinterface != 'Disconnected':
outputwlan = ('W:' + wlxinterface)
outputwlan = outputwlan + (16 - len(outputwlan)) * ' '
lcd.write(outputwlan)
else:
outputwlan = ('W:{}'.format(wlxinterface))
outputwlan = outputwlan + (16 - len(outputwlan)) * ' '
lcd.write(outputwlan)
#Sets the bar LED lights to a percentage of cputemp to the thermal throttle 80 degrees
CpuTemp = getCPUtemperature()
backlight.set_bar(0, [155] * int(float(CpuTemp) / 80 * 10))
# Puts the display to sleep after a minute the button press turns it on again
if loopcount == 60:
while loopcount >= 60:
lcd.clear()
backlight.off()
time.sleep(1)
loopcount = loopcount + 1
time.sleep(1)
# lcd.set_cursor_position(0,1)
# CPUUse = getCPUuse()
# CPUUse = CPUUse + (16 - len(CPUUse)) * ' '
# lcd.write(CPUUse)
elif component == 'Backlight':
if command == 'turnOff':
backlight.off()
elif command == 'useRBGMode':
backlight.use_rbg()
elif command == 'setBrightnessOfLed':
backlight.set(parameters['ledIndex'], parameters['brightness'])
elif command == 'setToHue':
backlight.hue(parameters['hue'])
elif command == 'setLeftToHue':
backlight.left_hue(parameters['hue'])
elif command == 'setMiddleToHue':
backlight.mid_hue(parameters['hue'])
elif command == 'setRightToHue':
backlight.right_hue(parameters['hue'])
elif command == 'setToRGB':
backlight.rgb(parameters['red'], parameters['green'], parameters['blue'])
elif command == 'setLeftToRGB':
backlight.left_rgb(parameters['red'], parameters['green'], parameters['blue'])
elif command == 'setMiddleToRGB':
backlight.mid_rgb(parameters['red'], parameters['green'], parameters['blue'])
elif command == 'setRightToRGB':
backlight.right_rgb(parameters['red'], parameters['green'], parameters['blue'])
elif component == 'BarGraph':
if command == 'turnOff':
backlight.set_graph(0.0)
elif command == 'setByPercentage':
backlight.set_graph(float(parameters['percentage']) / 100)
elif command == 'setBrightnessOfLed':
backlight.set_bar(parameters['ledIndex'], parameters['brightness'])
#!/usr/bin/env python
import dot3k.lcd as lcd
import dot3k.backlight as backlight
import time
# Clear the LCD and display Hello World
lcd.clear()
lcd.write("Hello World")
# Turn off the backlight
backlight.rgb(0, 0, 0)
"""
set_graph accepts a float between 0.0 and 1.0
and lights up the LEDs accordingly
"""
for i in range(100):
backlight.set_graph(i / 100.0)
time.sleep(0.05)
"""
set_bar will set a specific bargraph LED to
a brightness between 0 and 255
"""
for i in range(256):
backlight.set_bar(0, [255 - i] * 9)
time.sleep(0.01)
backlight.set_graph(0)
