# coding=utf-8
import time
from time import sleep
from pylgbst import *
from pylgbst.hub import MoveHub
from pylgbst.peripherals import EncodedMotor, TiltSensor, Current, Voltage, COLORS, COLOR_BLACK
log = logging.getLogger("demo")
def demo_led_colors(movehub):
# LED colors demo
log.info("LED colors demo")
# We get a response with payload and port, not x and y here...
def colour_callback(named):
log.info("LED Color callback: %s", named)
movehub.led.subscribe(colour_callback)
for color in list(COLORS.keys())[1:] + [COLOR_BLACK]:
log.info("Setting LED color to: %s", COLORS[color])
movehub.led.set_color(color)
sleep(1)
def demo_motors_timed(movehub):
log.info("Motors movement demo: timed")
for level in range(0, 101, 10):
level /= 100.0
log.info("Speed level: %s%%", level * 100)
movehub.motor_A.timed(0.2, level)
movehub.motor_B.timed(0.2, -level)
movehub.motor_AB.timed(1.5, -0.2, 0.2)
movehub.motor_AB.timed(0.5, 1)
movehub.motor_AB.timed(0.5, -1)
def demo_motors_angled(movehub):
log.info("Motors movement demo: angled")
for angle in range(0, 361, 90):
log.info("Angle: %s", angle)
movehub.motor_B.angled(angle, 1)
sleep(1)
movehub.motor_B.angled(angle, -1)
sleep(1)
movehub.motor_AB.angled(360, 1, -1)
sleep(1)
movehub.motor_AB.angled(360, -1, 1)
sleep(1)
def demo_port_cd_motor(movehub):
motor = None
if isinstance(movehub.port_D, EncodedMotor):
log.info("Rotation motor is on port D")
motor = movehub.port_D
elif isinstance(movehub.port_C, EncodedMotor):
log.info("Rotation motor is on port C")
motor = movehub.port_C
else:
log.warning("Motor not found on ports C or D")
if motor:
motor.angled(20, 0.2)
sleep(3)
motor.angled(20, -0.2)
sleep(1)
motor.angled(20, -0.1)
sleep(2)
motor.angled(20, 0.1)
sleep(1)
def demo_tilt_sensor_simple(movehub):
log.info("Tilt sensor simple test. Turn device in different ways.")
demo_tilt_sensor_simple.cnt = 0
limit = 10
def callback(state):
demo_tilt_sensor_simple.cnt += 1
log.info("Tilt #%s of %s: %s=%s", demo_tilt_sensor_simple.cnt, limit, TiltSensor.TRI_STATES[state], state)
movehub.tilt_sensor.subscribe(callback, mode=TiltSensor.MODE_3AXIS_SIMPLE)
while demo_tilt_sensor_simple.cnt < limit:
time.sleep(1)
movehub.tilt_sensor.unsubscribe(callback)
def demo_tilt_sensor_precise(movehub):
log.info("Tilt sensor precise test. Turn device in different ways.")
demo_tilt_sensor_simple.cnt = 0
limit = 50
def callback(pitch, roll, yaw):
demo_tilt_sensor_simple.cnt += 1
log.info("Tilt #%s of %s: roll:%s pitch:%s yaw:%s", demo_tilt_sensor_simple.cnt, limit, pitch, roll, yaw)
movehub.tilt_sensor.subscribe(callback, mode=TiltSensor.MODE_3AXIS_ACCEL)
while demo_tilt_sensor_simple.cnt < limit:
time.sleep(1)
movehub.tilt_sensor.unsubscribe(callback)
def demo_color_sensor(movehub):
log.info("Color sensor test: wave your hand in front of it")
demo_color_sensor.cnt = 0
limit = 20
def callback(color, distance=None):
demo_color_sensor.cnt += 1
log.info("#%s/%s: Color %s, distance %s", demo_color_sensor.cnt, limit, COLORS[color], distance)
movehub.vision_sensor.subscribe(callback)
while demo_color_sensor.cnt < limit:
time.sleep(1)
movehub.vision_sensor.unsubscribe(callback)
def demo_motor_sensors(movehub):
log.info("Motor rotation sensors test. Rotate all available motors once")
demo_motor_sensors.states = {movehub.motor_A: 0, movehub.motor_B: 0, movehub.motor_external: 0}
def callback_a(param1):
demo_motor_sensors.states[movehub.motor_A] = param1
log.info("%s", demo_motor_sensors.states)
def callback_b(param1):
demo_motor_sensors.states[movehub.motor_B] = param1
log.info("%s", demo_motor_sensors.states)
def callback_e(param1):
demo_motor_sensors.states[movehub.motor_external] = param1
log.info("%s", demo_motor_sensors.states)
movehub.motor_A.subscribe(callback_a)
movehub.motor_B.subscribe(callback_b)
if movehub.motor_external is not None:
demo_motor_sensors.states[movehub.motor_external] = None
movehub.motor_external.subscribe(callback_e)
while not all([x is not None and abs(x) > 30 for x in demo_motor_sensors.states.values()]):
time.sleep(1)
movehub.motor_A.unsubscribe(callback_a)
movehub.motor_B.unsubscribe(callback_b)
if movehub.motor_external is not None:
movehub.motor_external.unsubscribe(callback_e)
def demo_voltage(movehub):
def callback1(value):
log.info("Amperage: %s", value)
def callback2(value):
log.info("Voltage: %s", value)
movehub.current.subscribe(callback1, mode=Current.CURRENT_L, granularity=0)
movehub.current.subscribe(callback1, mode=Current.CURRENT_L, granularity=1)
movehub.voltage.subscribe(callback2, mode=Voltage.VOLTAGE_L, granularity=0)
movehub.voltage.subscribe(callback2, mode=Voltage.VOLTAGE_L, granularity=1)
time.sleep(5)
movehub.current.unsubscribe(callback1)
movehub.voltage.unsubscribe(callback2)
def demo_all(movehub):
demo_motors_timed(movehub)
demo_motors_angled(movehub)
demo_port_cd_motor(movehub)
demo_led_colors(movehub)
demo_tilt_sensor_simple(movehub)
demo_tilt_sensor_precise(movehub)
demo_color_sensor(movehub)
demo_motor_sensors(movehub)
demo_voltage(movehub)
DEMO_CHOICES = {
'all': demo_all,
'voltage': demo_voltage,
'led_colors': demo_led_colors,
'motors_timed': demo_motors_timed,
'motors_angled': demo_motors_angled,
'port_cd_motor': demo_port_cd_motor,
'tilt_sensor': demo_tilt_sensor_simple,
'tilt_sensor_precise': demo_tilt_sensor_precise,
'color_sensor': demo_color_sensor,
'motor_sensors': demo_motor_sensors,
}
def get_options():
import argparse
arg_parser = argparse.ArgumentParser(
description='Demonstrate move-hub communications',
)
arg_parser.add_argument(
'-c', '--connection',
default='auto://',
help='''Specify connection URL to use, `protocol://mac?param=X` with protocol in:
"gatt","pygatt","gattlib","gattool", "bluepy","bluegiga"'''
)
arg_parser.add_argument(
'-d', '--demo',
default='all',
choices=sorted(DEMO_CHOICES.keys()),
help="Run a particular demo, default all"
)
return arg_parser
def connection_from_url(url):
import pylgbst
if url == 'auto://':
return None
try:
from urllib.parse import urlparse, parse_qs
except ImportError:
from urlparse import urlparse, parse_qs
parsed = urlparse(url)
name = 'get_connection_%s' % parsed.scheme
factory = getattr(pylgbst, name, None)
if not factory:
msg = "Unrecognised URL scheme/protocol, expect a get_connection_<protocol> in pylgbst: %s"
raise ValueError(msg % parsed.protocol)
params = {}
if parsed.netloc.strip():
params['hub_mac'] = parsed.netloc
for key, value in parse_qs(parsed.query).items():
if len(value) == 1:
params[key] = value[0]
else:
params[key] = value
return factory(
**params
)
if __name__ == '__main__':
logging.basicConfig(level=logging.INFO, format='%(relativeCreated)d\t%(levelname)s\t%(name)s\t%(message)s')
parser = get_options()
options = parser.parse_args()
parameters = {}
try:
connection = connection_from_url(options.connection) # get_connection_bleak(hub_name=MoveHub.DEFAULT_NAME)
parameters['connection'] = connection
except ValueError as err:
parser.error(err.args[0])
hub = MoveHub(**parameters)
try:
demo = DEMO_CHOICES[options.demo]
demo(hub)
finally:
hub.disconnect()