Python on Examples, rcpy.led.red.on Python Examples

Example #1

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 def __init__(self):
     # Start-up in 'paused' mode and
     # handle button presses to exit paused mode
     red.on()
     green.off()
     #from rcpy.button import modeAI, pauseAI
     button.ButtonEvent.__init__(self, pause, button.ButtonEvent.PRESSED)

Example #2

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 def toggle(self):
     self.state = not self.state
     if self.state:
         red.on()
         green.off()
     else:
         green.on()
         red.off()

Example #3

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File: line_follower.py Project: pegacat-nest/BlueDonkey

 def action(self, event):
     global paused
     paused = not paused
     if paused:
         red.on()
         green.off()
     else:
         green.on()
         red.off()

Example #4

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File: PushLights.py Project: wstroy/ENGR2310

def PushLights():

    # Get rcpy running

    rcpy.set_state(rcpy.RUNNING)

    # Welcome message

    print("=" * 65)

    print("Welcome to PressyLights!")

    print(
        "Press <PAUSE> to turn on the red light, or <MODE> to turn on the green light."
    )

    print("Press both <PAUSE> and <MODE> to exit.")

    print("-" * 65)

    # Main loop

    while not (mode.is_pressed() and pause.is_pressed()):

        if pause.is_pressed():

            red.on()

            green.off()

        elif mode.is_pressed():

            red.off()

            green.on()

    # Exit message

    print("Bye Beaglebone!")

    print("=" * 65)

    red.off()

    green.off()

Example #5

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def main():

    # import blocks and controller
    from pyctrl.rc.mip import Controller
    from pyctrl.block.container import Container, Input, Output
    from pyctrl.block.system import System, Subtract, Differentiator, Sum, Gain
    from pyctrl.block.nl import ControlledCombination, Product
    from pyctrl.block import Fade, Printer
    from pyctrl.system.ss import DTSS
    from pyctrl.block.logic import CompareAbsWithHysterisis, SetFilter, State
    from rcpy.gpio import GRN_LED, PAUSE_BTN
    from rcpy.led import red

    # export json?
    export_json = True

    # create mip
    mip = Controller()

    # phi is the average of the encoders
    mip.add_signal('phi')
    mip.add_filter('phi', Sum(gain=0.5), ['encoder1', 'encoder2'], ['phi'])

    # phi dot
    mip.add_signal('phi_dot')
    mip.add_filter('phi_dot', Differentiator(), ['clock', 'phi'], ['phi_dot'])

    # phi dot and steer reference
    mip.add_signals('phi_dot_reference', 'phi_dot_reference_fade')
    mip.add_signals('steer_reference', 'steer_reference_fade')

    # add fade in filter
    mip.add_filter('fade', Fade(target=[0, 0.5], period=5),
                   ['clock', 'phi_dot_reference', 'steer_reference'],
                   ['phi_dot_reference_fade', 'steer_reference_fade'])

    # state-space matrices
    A = np.array([[0.913134, 0.0363383], [-0.0692862, 0.994003]])
    B = np.array([[0.00284353, -0.000539063], [0.00162443, -0.00128745]])
    C = np.array([[-383.009, 303.07]])
    D = np.array([[-1.22015, 0]])

    B = 2 * np.pi * (100 / 7.4) * np.hstack((-B, B[:, 1:]))
    D = 2 * np.pi * (100 / 7.4) * np.hstack((-D, D[:, 1:]))

    ssctrl = DTSS(A, B, C, D)

    # state-space controller
    mip.add_signals('pwm')
    mip.add_filter('controller', System(model=ssctrl),
                   ['theta_dot', 'phi_dot', 'phi_dot_reference_fade'], ['pwm'])

    # enable pwm only if about small_angle
    mip.add_signals('small_angle', 'small_angle_pwm')
    mip.add_filter('small_angle_pwm', Product(), ['small_angle', 'pwm'],
                   ['small_angle_pwm'])

    # steering biasing
    mip.add_filter(
        'steer', ControlledCombination(),
        ['steer_reference_fade', 'small_angle_pwm', 'small_angle_pwm'],
        ['pwm1', 'pwm2'])

    # set references
    mip.set_signal('phi_dot_reference', 0)
    mip.set_signal('steer_reference', 0.5)

    # add supervisor actions on a timer
    # actions are inside a container so that they are executed all at once
    mip.add_timer('supervisor',
                  Container(), ['theta'], ['small_angle', 'is_running'],
                  period=0.5,
                  repeat=True)

    mip.add_signals('timer/supervisor/theta', 'timer/supervisor/small_angle')

    mip.add_source('timer/supervisor/theta', Input(), ['theta'])

    mip.add_sink('timer/supervisor/small_angle', Output(), ['small_angle'])

    mip.add_sink('timer/supervisor/is_running', Output(), ['is_running'])

    # add small angle sensor
    mip.add_filter(
        'timer/supervisor/is_angle_small',
        CompareAbsWithHysterisis(threshold=0.11,
                                 hysterisis=0.09,
                                 offset=-0.07,
                                 state=(State.LOW, )), ['theta'],
        ['small_angle'])

    # reset controller and fade
    mip.add_sink(
        'timer/supervisor/reset_controller',
        SetFilter(label=['/controller', '/fade'], on_rise={'reset': True}),
        ['small_angle'])

    # add green led
    mip.add_sink('timer/supervisor/green_led', ('pyctrl.rc.led', 'LED'),
                 ['small_angle'],
                 kwargs={'pin': GRN_LED},
                 enable=True)

    # add pause button on a timer
    mip.add_source('timer/supervisor/pause_button',
                   ('pyctrl.rc.button', 'Button'), ['is_running'],
                   kwargs={
                       'pin': PAUSE_BTN,
                       'invert': True
                   },
                   enable=True)

    # print controller
    print(mip.info('all'))

    # export json?
    if export_json:

        from pyctrl.flask import JSONEncoder

        # export controller as json
        json = JSONEncoder(sort_keys=True, indent=4).encode(mip)
        with open('rc_mip_balance.json', 'w') as f:
            f.write(json)

    fd = sys.stdin.fileno()
    old_settings = termios.tcgetattr(fd)
    try:

        print("""
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*                       M I P   B A L A N C E                       *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
""")

        print("""
Hold your MIP upright to start balancing

Use your keyboard to control the mip:

* UP and DOWN arrows move forward and back
* LEFT and RIGHT arrows steer
* / stops forward motion
* . stops steering
* SPACE resets forward motion and steering

""")

        # reset everything
        mip.set_source('clock', reset=True)
        mip.set_source('encoder1', reset=True)
        mip.set_source('encoder2', reset=True)
        mip.set_filter('controller', reset=True)
        mip.set_source('inclinometer', reset=True)

        # turn on red led
        red.on()

        # start the controller
        mip.start()

        print("Press Ctrl-C or press the <PAUSE> button to exit")

        # fire thread to update velocities
        thread = threading.Thread(target=get_arrows, args=(mip, fd))
        thread.daemon = False
        thread.start()

        # and wait until controller dies
        mip.join()

        # print message
        print("\nDone with balancing")

    except KeyboardInterrupt:

        print("\nBalancing aborted")

    finally:

        # turn off red led
        red.off()

        # make sure it exits
        mip.set_state(pyctrl.EXITING)

        print("Press any key to exit")

        thread.join()

        termios.tcsetattr(fd, termios.TCSADRAIN, old_settings)

Example #6

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def main():

    # import blocks and controller
    from pyctrl.rc.mip import Controller
    from pyctrl.block.container import Container, Input, Output
    from pyctrl.block.system import System, Subtract, Differentiator, Sum, Gain
    from pyctrl.block.nl import ControlledCombination, Product
    from pyctrl.block import Fade, Printer
    from pyctrl.system.ss import DTSS
    from pyctrl.block.logic import CompareAbsWithHysterisis, SetFilter, State
    from rcpy.gpio import GRN_LED, PAUSE_BTN
    from rcpy.led import red

    # export json?
    export_json = True

    # create mip
    mip = Controller()

    # phi is the average of the encoders
    mip.add_signal('phi')
    mip.add_filter('phi', Sum(gain=0.5), ['encoder1', 'encoder2'], ['phi'])

    # phi dot
    mip.add_signal('phi_dot')
    mip.add_filter('phi_dot', Differentiator(), ['clock', 'phi'], ['phi_dot'])

    # phi dot and steer reference
    mip.add_signals('pwm', 'pwm_fade')
    mip.add_signals('steer_reference', 'steer_reference_fade')

    # add fade in filter
    mip.add_filter('fade', Fade(target=[0, 0.5],
                                period=5), ['clock', 'pwm', 'steer_reference'],
                   ['pwm_fade', 'steer_reference_fade'])

    # steering biasing
    mip.add_filter('steer', ControlledCombination(),
                   ['steer_reference_fade', 'pwm_fade', 'pwm_fade'],
                   ['pwm1', 'pwm2'])

    # set references
    mip.set_signal('steer_reference', 0.5)

    # print controller
    print(mip.info('all'))

    # export json?
    if export_json:

        from pyctrl.flask import JSONEncoder

        # export controller as json
        json = JSONEncoder(sort_keys=True, indent=4).encode(mip)
        with open('rc_mip_drive.json', 'w') as f:
            f.write(json)

    fd = sys.stdin.fileno()
    old_settings = termios.tcgetattr(fd)
    try:

        print("""
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*                         M I P   D R I V E                         *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
""")

        print("""
Use your keyboard to drive the mip as a car:

* UP and DOWN arrows move forward and back
* LEFT and RIGHT arrows steer
* / stops forward motion
* . stops steering
* SPACE resets forward motion and steering

""")

        # reset everything
        mip.set_source('clock', reset=True)
        mip.set_source('encoder1', reset=True)
        mip.set_source('encoder2', reset=True)
        mip.set_source('inclinometer', reset=True)

        # turn on red led
        red.on()

        # start the controller
        mip.start()

        print("Press Ctrl-C or press the <PAUSE> button to exit")

        # fire thread to update velocities
        thread = threading.Thread(target=get_arrows, args=(mip, fd))
        thread.daemon = False
        thread.start()

        # and wait until controller dies
        mip.join()

        # print message
        print("\nDone with driving")

    except KeyboardInterrupt:

        print("\nDriving aborted")

    finally:

        # turn off red led
        red.off()

        # make sure it exits
        mip.set_state(pyctrl.EXITING)

        print("Press any key to exit")

        thread.join()

        termios.tcsetattr(fd, termios.TCSADRAIN, old_settings)

Example #7

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File: car_control.py Project: jadonk/BlueDonkey-old

 def __init__(self):
     # Start-up in 'paused' mode and handle button presses to exit paused mode
     red.on()
     green.off()
     #button.ButtonEvent.__init__(self, pause, button.ButtonEvent.PRESSED)
     button.ButtonEvent.__init__(self, pauseAI, button.ButtonEvent.PRESSED)

Example #8

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File: line_follower.py Project: pegacat-nest/BlueDonkey

# Redirect input/output to a socket
SOCK_OUT = 3001
SOCK_IN = 3002
sock_out = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
sock_out.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
sock_out.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)
sock_out.connect(("255.255.255.255", SOCK_OUT))
sys.stdout = sock_out.makefile('w', buffering=None)
#sock_in = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
#sock_in.connect(("127.0.0.1", SOCK_IN))
#sys.stdin = sock_in.makefile('r', buffering=None)

# Start-up in 'paused' mode and handle button presses to exit paused mode
paused = True
red.on()
green.off()


class PauseButtonEvent(button.ButtonEvent):
    def action(self, event):
        global paused
        paused = not paused
        if paused:
            red.on()
            green.off()
        else:
            green.on()
            red.off()