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Basic usage:
>>> from pyfirmata import Arduino, util
>>> board = Arduino('/dev/tty.usbserial-A6008rIF')
>>> board.digital[13].write(1)
To use analog ports, it is probably handy to start an iterator thread. Otherwise the board will keep sending data to your serial, until it overflows:
>>> it = util.Iterator(board) >>> it.start() >>> board.analog[0].enable_reporting() >>> board.analog[0].read() 0.661440304938
If you use a pin more often, it can be worth it to use the get_pin method of the board. It let's you specify what pin you need by a string, composed of 'a' or 'd' (depending on wether you need an analog or digital pin), the pin number, and the mode ('i' for input, 'o' for output, 'p' for pwm). All seperated by :. Eg. a:0:i for analog 0 as input, or d:3:p for digital pin 3 as pwm.:
>>> analog_0 = board.get_pin('a:0:i')
>>> analog_0.read()
0.661440304938
>>> pin3 = board.get_pin('d:3:p')
>>> pin3.write(0.6)
If you want to use a board with a different layout than the standard Arduino, or the Arduino Mega (for wich there exist the shortcut classes pyfirmata.Arduino and pyfirmata.ArduinoMega), instantiate the Board class with a dictionary as the layout argument. This is the layout dict for the Mega for example:
>>> mega = {
... 'digital' : tuple(x for x in range(54)),
... 'analog' : tuple(x for x in range(16)),
... 'pwm' : tuple(x for x in range(2,14)),
... 'use_ports' : True,
... 'disabled' : (0, 1, 14, 15) # Rx, Tx, Crystal
... }
The next things on my list are to implement the new protocol changes in firmata:
- Capability Query, which would eliminate the need to instantiate a board with the layout dict, as it will be able to determine the layout itself (http://firmata.org/wiki/Proposals#Capability_Query_.28added_in_version_2.2.29)
- Pin State Query, which allows it to populate on-screen controls with an accurate representation of the hardware's configuration (http://firmata.org/wiki/Proposals#Pin_State_Query_.28added_in_version_2.2.29)