Firmata: Difference between revisions
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==Setting up Arduino== | ==Setting up Arduino== | ||
Make sure your user is in dialout group: | |||
gpasswd -a $USER dialout | |||
If necessary, log out and log in again. When you run following the 'dialout' should appear in the list: | |||
groups | |||
Clone Arduino library to your machine: | Clone Arduino library to your machine: | ||
git clone http://github.com/firmata/arduino ~/Documents/Arduino/libraries/Firmata | |||
Select Examples -> Firmata -> StandardFirmata from the menu and hit the Upload button. | Select Examples -> Firmata -> StandardFirmata from the menu and hit the Upload button. | ||
==Classic Python 3.4== | ==Classic Python 3.4== | ||
Make sure you have pip: | |||
sudo apt-get install python3-pip | |||
Install PyMata: | Install PyMata: | ||
git clone https://github.com/MrYsLab/PyMata | |||
cd PyMata | |||
sudo python3 setup.py install | |||
Code example for test.py: | Code example for test.py: | ||
<source lang="python"> | |||
import signal | |||
import sys | |||
from PyMata.pymata import PyMata | |||
def signal_handler(sig, frame): | |||
if board is not None: board.reset() | |||
sys.exit(0) | |||
signal.signal(signal.SIGINT, signal_handler) | |||
board = PyMata() | |||
board.set_pin_mode(5, board.PWM, board.DIGITAL) | |||
while True: | |||
for i in range(0, 255): | |||
board.analog_write(5, i) | |||
for i in range(255, 0, -1): | |||
board.analog_write(5, i) | |||
</source> | |||
Run the example: | Run the example: | ||
python3 test.py | |||
Line 70: | Line 82: | ||
Create test.py with following code: | Create test.py with following code: | ||
<source lang="python"> | |||
from pymata_aio.pymata3 import PyMata3 | |||
from pymata_aio.constants import Constants | |||
# instantiate the pymata_core API | |||
board = PyMata3() | |||
# set the pin mode | |||
board.set_pin_mode(13, Constants.PWM) | |||
for j in range(0, 10): | |||
for i in range(0, 255): | |||
board.analog_write(13, i) | |||
for i in range(255, 0, -1): | |||
board.analog_write(13, i) | |||
# reset the board and exit | |||
board.shutdown() | |||
</source> | |||
Plug the Arduino to your machine via USB cable and run the code: | Plug the Arduino to your machine via USB cable and run the code: | ||
python3.5 test.py | |||
=Driving triple omniwheel robot= | |||
<source lang="python"> | |||
import signal | |||
import sys | |||
from PyMata.pymata import PyMata | |||
# Pin mapping | |||
MOTOR_1_PWM = 2 | |||
MOTOR_1_A = 3 | |||
MOTOR_1_B = 4 | |||
MOTOR_2_PWM = 5 | |||
MOTOR_2_A = 6 | |||
MOTOR_2_B = 7 | |||
MOTOR_3_PWM = 8 | |||
MOTOR_3_A = 9 | |||
MOTOR_3_B = 10 | |||
def signal_handler(sig, frame): | |||
if board is not None: board.reset() | |||
sys.exit(0) | |||
signal.signal(signal.SIGINT, signal_handler) | |||
board = PyMata() | |||
board.set_pin_mode(MOTOR_1_PWM, board.PWM, board.DIGITAL) | |||
board.set_pin_mode(MOTOR_1_A, board.OUTPUT, board.DIGITAL) | |||
board.set_pin_mode(MOTOR_1_B, board.OUTPUT, board.DIGITAL) | |||
board.digital_write(MOTOR_1_A, 1) # This motor goes forward | |||
board.digital_write(MOTOR_1_B, 0) | |||
board.set_pin_mode(MOTOR_2_PWM, board.PWM, board.DIGITAL) | |||
board.set_pin_mode(MOTOR_2_A, board.OUTPUT, board.DIGITAL) | |||
board.set_pin_mode(MOTOR_2_B, board.OUTPUT, board.DIGITAL) | |||
board.digital_write(MOTOR_2_A, 1) # This motor also goes forward | |||
board.digital_write(MOTOR_2_B, 0) | |||
board.set_pin_mode(MOTOR_3_PWM, board.PWM, board.DIGITAL) | |||
board.set_pin_mode(MOTOR_3_A, board.OUTPUT, board.DIGITAL) | |||
board.set_pin_mode(MOTOR_3_B, board.OUTPUT, board.DIGITAL) | |||
board.digital_write(MOTOR_3_A, 0) # This motor goes in reverse | |||
board.digital_write(MOTOR_3_B, 1) | |||
while True: | |||
for i in range(0, 250): | |||
board.analog_write(MOTOR_1_PWM, i) | |||
board.analog_write(MOTOR_2_PWM, i) | |||
board.analog_write(MOTOR_3_PWM, i) | |||
for i in range(250, 0, -1): | |||
board.analog_write(MOTOR_1_PWM, i) | |||
board.analog_write(MOTOR_2_PWM, i) | |||
board.analog_write(MOTOR_3_PWM, i) | |||
</source> |
Latest revision as of 17:36, 29 February 2016
Setting up Arduino
Make sure your user is in dialout group:
gpasswd -a $USER dialout
If necessary, log out and log in again. When you run following the 'dialout' should appear in the list:
groups
Clone Arduino library to your machine:
git clone http://github.com/firmata/arduino ~/Documents/Arduino/libraries/Firmata
Select Examples -> Firmata -> StandardFirmata from the menu and hit the Upload button.
Classic Python 3.4
Make sure you have pip:
sudo apt-get install python3-pip
Install PyMata:
git clone https://github.com/MrYsLab/PyMata cd PyMata sudo python3 setup.py install
Code example for test.py:
import signal
import sys
from PyMata.pymata import PyMata
def signal_handler(sig, frame):
if board is not None: board.reset()
sys.exit(0)
signal.signal(signal.SIGINT, signal_handler)
board = PyMata()
board.set_pin_mode(5, board.PWM, board.DIGITAL)
while True:
for i in range(0, 255):
board.analog_write(5, i)
for i in range(255, 0, -1):
board.analog_write(5, i)
Run the example:
python3 test.py
Asynchronous Python 3.5
For Ubuntu 14.04 first add Python 3.5 repository:
sudo add-apt-repository ppa:fkrull/deadsnakes sudo apt-get update sudo apt-get install python3.5 python3-serial
Ubuntu 15.10 already has Python 3.5 available, simply install it:
sudo apt-get install python3.5 python3-serial
Ubuntu 16.04 will ship Python 3.5 by default just add serial module:
sudo apt-get install python3-serial
Install PyMata for Python 3.5:
git clone https://github.com/MrYsLab/pymata-aio cd pymata-aio sudo python3.5 setup.py install
Create test.py with following code:
from pymata_aio.pymata3 import PyMata3
from pymata_aio.constants import Constants
# instantiate the pymata_core API
board = PyMata3()
# set the pin mode
board.set_pin_mode(13, Constants.PWM)
for j in range(0, 10):
for i in range(0, 255):
board.analog_write(13, i)
for i in range(255, 0, -1):
board.analog_write(13, i)
# reset the board and exit
board.shutdown()
Plug the Arduino to your machine via USB cable and run the code:
python3.5 test.py
Driving triple omniwheel robot
import signal
import sys
from PyMata.pymata import PyMata
# Pin mapping
MOTOR_1_PWM = 2
MOTOR_1_A = 3
MOTOR_1_B = 4
MOTOR_2_PWM = 5
MOTOR_2_A = 6
MOTOR_2_B = 7
MOTOR_3_PWM = 8
MOTOR_3_A = 9
MOTOR_3_B = 10
def signal_handler(sig, frame):
if board is not None: board.reset()
sys.exit(0)
signal.signal(signal.SIGINT, signal_handler)
board = PyMata()
board.set_pin_mode(MOTOR_1_PWM, board.PWM, board.DIGITAL)
board.set_pin_mode(MOTOR_1_A, board.OUTPUT, board.DIGITAL)
board.set_pin_mode(MOTOR_1_B, board.OUTPUT, board.DIGITAL)
board.digital_write(MOTOR_1_A, 1) # This motor goes forward
board.digital_write(MOTOR_1_B, 0)
board.set_pin_mode(MOTOR_2_PWM, board.PWM, board.DIGITAL)
board.set_pin_mode(MOTOR_2_A, board.OUTPUT, board.DIGITAL)
board.set_pin_mode(MOTOR_2_B, board.OUTPUT, board.DIGITAL)
board.digital_write(MOTOR_2_A, 1) # This motor also goes forward
board.digital_write(MOTOR_2_B, 0)
board.set_pin_mode(MOTOR_3_PWM, board.PWM, board.DIGITAL)
board.set_pin_mode(MOTOR_3_A, board.OUTPUT, board.DIGITAL)
board.set_pin_mode(MOTOR_3_B, board.OUTPUT, board.DIGITAL)
board.digital_write(MOTOR_3_A, 0) # This motor goes in reverse
board.digital_write(MOTOR_3_B, 1)
while True:
for i in range(0, 250):
board.analog_write(MOTOR_1_PWM, i)
board.analog_write(MOTOR_2_PWM, i)
board.analog_write(MOTOR_3_PWM, i)
for i in range(250, 0, -1):
board.analog_write(MOTOR_1_PWM, i)
board.analog_write(MOTOR_2_PWM, i)
board.analog_write(MOTOR_3_PWM, i)