]
numbers = ["-----", ".----", "..---", "...--", "....-", ".....", "-....", "--...", "---..", "----."] # digits
if __name__ == "__main__":
board = Arduino()
led = Led(board, morsePin)
while(True):
message = raw_input("Type your message ('EOF' to finish): ")
if message == 'EOF':
break
for ch in message.upper():
if ch.isalpha():
morsech = letters[ord(ch) - ord('A')]
elif ch.isdigit():
morsech = numbers[ord(ch) - ord('0')]
elif ch == " ":
sleep(4 * dotDelay) # gab between words
continue
for dotOrDash in morsech:
led.on()
if dotOrDash == ".":
sleep(dotDelay) # dot duration
else: # must be "-"
sleep(dotDelay * 3) # dash duration
led.off()
sleep(dotDelay) # gap between flashes
sleep(dotDelay * 3) # gap between letters
class RGBLed(EventEmitter):
def __init__(self, board, pins):
if not board:
raise ArduinoNotSuppliedException
# TODO: Check that pins is dict
super(RGBLed, self).__init__()
self._red = Led(board, pins["red"])
self._green = Led(board, pins["green"])
self._blue = Led(board, pins["blue"])
def off(self):
self._red.off()
self._green.off()
self._blue.off()
return self
def red(self):
self._red.on()
self._green.off()
self._blue.off()
return self
def green(self):
self._red.off()
self._green.on()
self._blue.off()
return self
def blue(self):
self._red.off()
self._green.off()
self._blue.on()
return self
def yellow(self):
self._red.on()
self._green.on()
self._blue.off()
return self
def cyan(self):
self._red.off()
self._green.on()
self._blue.on()
return self
def purple(self):
self._red.on()
self._green.off()
self._blue.on()
return self
def white(self):
self._red.on()
self._green.on()
self._blue.on()
return self
class RGBLed(EventEmitter):
def __init__(self, board, pins):
if not board:
raise ArduinoNotSuppliedException
# TODO: Check that pins is dict
super(RGBLed, self).__init__()
self._red = Led(board, pins["red"])
self._green = Led(board, pins["green"])
self._blue = Led(board, pins["blue"])
def off(self):
self._red.off()
self._green.off()
self._blue.off()
return self
def red(self):
self._red.on()
self._green.off()
self._blue.off()
return self
def green(self):
self._red.off()
self._green.on()
self._blue.off()
return self
def blue(self):
self._red.off()
self._green.off()
self._blue.on()
return self
def yellow(self):
self._red.on()
self._green.on()
self._blue.off()
return self
def cyan(self):
self._red.off()
self._green.on()
self._blue.on()
return self
def purple(self):
self._red.on()
self._green.off()
self._blue.on()
return self
def white(self):
self._red.on()
self._green.on()
self._blue.on()
return self
sleep(1) # Cyan (R: off, G: on, B: on) led.cyan() sleep(1) # Purple (R: on, G: off, B: on) led.purple() sleep(1) # White (R: on, G: on, B: on) led.white() sleep(1) # Off (R: off, G: off, B: off) led.off() # Run an interactive shell so you can play (not required) import code code.InteractiveConsole(locals=globals()).interact() ########NEW FILE######## __FILENAME__ = servo #! /usr/bin/env python """ This is an example that demonstrates how to use a servo with BreakfastSerial. It assumes you have a servo wired up to pin 10. """ from BreakfastSerial import Arduino, Servo from time import sleep
