Exemplo n.º 1
0
    def __init__(self, bulb_mac=None, bulb_ip=None):
        logging.debug("Initialising LifxController.")
        self.lan = LifxLAN()
        self.bulbs = None
        self.groups = None
        self.bulb_labels: list = []
        self.group_labels: list = []
        self.bulb = None
        self.group = None
        self.bulb_mac = bulb_mac
        self.bulb_ip = bulb_ip

        # Logger config
        self.logger = logging.getLogger(__name__)
        self.logger.setLevel(logging.DEBUG)
        self.ch = logging.StreamHandler()
        self.ch.setLevel(logging.DEBUG)
        self.formatter = logging.Formatter(
            '%(asctime)s - %(name)s - %(levelname)s - %(message)s')
        self.ch.setFormatter(self.formatter)
        self.logger.addHandler(self.ch)

        # When loading config, we don't need to discover the bulb
        if self.bulb_mac and self.bulb_ip:
            from lifxlan import Light
            self.bulb = Light(self.bulb_mac, self.bulb_ip)
Exemplo n.º 2
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def light_to_dict(light: Light):
    return {
        'name': light.get_label(),
        'power': bool(light.get_power()),
        'color': light.get_color(),
        'macAddress': light.get_mac_addr()
    }
Exemplo n.º 3
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 def get(self, name):
     if (name == "test"):
         light = Light("d0:73:d5:26:91:07", "10.10.1.146")
         light.set_color(BLUE, rapid=True)
         #toggle_light_color(light, 0.2)
         return "test activated", 200
     return "Scene not found", 404
Exemplo n.º 4
0
    def state(self, device):
        bulbRef = Light(device['mac'], device['ip'])
        hsbk = bulbRef.get_color()
        dev = Device(device['mac'], device['ip'], bulbRef.get_power(), hsbk[0],
                     hsbk[1], hsbk[2], hsbk[3])

        return json.dumps(dev.__dict__)
Exemplo n.º 5
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def power_status(mac, ip):

    try:
        light = Light(mac, ip)
        power_state = light.get_power()

        return power_state

    except Exception as e:
        print(e)
Exemplo n.º 6
0
 def __init__(self, mac = None, ip = None):
     self.bulb = None
     if mac != None and ip != None:
         self.bulb = Light(mac, ip) # put a try block in here later
     elif self.bulb == None: #put this in the catch block later
         lights = LifxLAN(1)
         self.bulb = lights.get_lights()[0]  # just get whatever light you find
     else:
         lights = LifxLAN(1)
         self.bulb = lights.get_lights()[0]
     self.color = 0
     #self.colors = [BLUE, CYAN, GREEN, ORANGE, PINK, PURPLE, RED, YELLOW, WHITE]
     self.colors = [BLUE, GREEN, RED, WHITE]
def toggle_device_power(device: lifxlan.Light, interval=.5, num_cycles=3):
    original_power_state = device.get_power()
    device.set_power("off")
    rapid = True if interval < 1 else False
    for i in range(num_cycles):
        device.set_power("on", rapid)
        sleep(interval)
        device.set_power("off", rapid)
        sleep(interval)
    device.set_power(original_power_state)
Exemplo n.º 8
0
    def set_brightness(self, br):

        br = br * 65535

        try:
            for x in self.lifx_lights:
                mac, ip = x[0], x[1]
                light = Light(mac, ip)
                current_hue, current_sat, current_br, current_ke = light.get_color(
                )
                light.set_color([current_hue, current_sat, br, current_ke],
                                duration=.1 * 1000,
                                rapid=False)

        except Exception as e:
            print(e)
Exemplo n.º 9
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def Main():
    while True:
        i = GPIO.input(23)
        if i == 0:  #When output from motion sensor is LOW
            now = datetime.now()
            dt_string = now.strftime("%m/%d/%Y %H:%M:%S")
            print dt_string, "No Motion Detected. Pin reads", i
            while True:
                try:
                    powerstatus = Light.get_power(doorlight)
                except:
                    now = datetime.now()
                    dt_string = now.strftime("%m/%d/%Y %H:%M:%S")
                    print dt_string, "Couldn't get powerstatus while no motion is detected. Return is", powerstatus
                    continue
                break
            now = datetime.now()
            dt_string = now.strftime("%m/%d/%Y %H:%M:%S")
            print dt_string, "Before no motion power check", powerstatus
            if powerstatus != 0:  #Check if lights are currently turned on
                now = datetime.now()
                dt_string = now.strftime("%m/%d/%Y %H:%M:%S")
                print dt_string, "After power check inside no motion", powerstatus
                officelights.set_power(0)  #Turn lights off
            time.sleep(10)
        elif i == 1:  #When output from motion sensor is HIGH
            now = datetime.now()
            dt_string = now.strftime("%m/%d/%Y %H:%M:%S")
            print dt_string, "Motion Detected. Pin reads", i
            while True:
                try:
                    powerstatus = Light.get_power(doorlight)
                except:
                    now = datetime.now()
                    dt_string = now.strftime("%m/%d/%Y %H:%M:%S")
                    print dt_string, "Couldn't get powerstatus while motion is detected. Return is", powerstatus
                    continue
                break
            now = datetime.now()
            dt_string = now.strftime("%m/%d/%Y %H:%M:%S")
            print dt_string, "Motion detected powerstatus", powerstatus
            if powerstatus == 0:  #Check if lights are currently turned off
                now = datetime.now()
                dt_string = now.strftime("%m/%d/%Y %H:%M:%S")
                print dt_string, "After power check inside motion detected", powerstatus
                officelights.set_power(65535)  #Turn lights on full
            time.sleep(600)
Exemplo n.º 10
0
def _update_light(light: Light, midi_message: MidiMessage):
    # TODO: Probably need to fiddle with these and see what happens. They could become parameters.
    MIN_BRIGHTNESS = 500  # 0 - 65535
    BRIGHTNESS_INCREASE_SPEED = 100  # 0-?
    BRIGHTNESS_DROP_SPEED = 200  # 0-? in ms, so 1000 is 1s

    velocity = midi_message.getVelocity()
    mapped_velocity = _map_value_to_range(value=velocity,
                                          from_min=MIDI_VALUE_MIN,
                                          from_max=MIDI_VALUE_MAX,
                                          to_min=LIFX_VALUE_MIN,
                                          to_max=LIFX_VALUE_MAX)

    ########
    # TODO: We should try some different stuff here, but I'm making something up that I think will be interesting?
    ########

    # Set the color to w/e the velocity is. This could be really erratic, so maybe add duration
    # which transitions to the given color over the # of ms. Just not sure if it blocks execution.
    light.set_hue(hue=mapped_velocity, rapid=True)

    # Push the brightness up by some function of the velocity. Will need to mess with this.
    def _new_brightness(current_brightness: int):
        return current_brightness + BRIGHTNESS_INCREASE_SPEED

    light.set_brightness(brightness=_new_brightness(current_brightness=light.get_color()[2]), rapid=True)

    # Then start to lower the brightness to some min level slowly
    light.set_brightness(brightness=MIN_BRIGHTNESS, duration=BRIGHTNESS_DROP_SPEED, rapid=True)
def toggle_light_color(light: lifxlan.Light, interval=0.5, num_cycles=3):
    original_color = light.get_color()
    rapid = True if interval < 1 else False
    for i in range(num_cycles):
        light.set_color(lifxlan.BLUE, rapid=rapid)
        sleep(interval)
        light.set_color(lifxlan.GREEN, rapid=rapid)
        sleep(interval)
    light.set_color(original_color)
Exemplo n.º 12
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async def get_light_color(name: str, light: lifx.Light):
    try:
        return (
            name,
            light.get_color(),
        )
    except lifx.WorkflowException as e:
        logging.exception("Failed to communicate with lights")
        return (
            name,
            None,
        )
Exemplo n.º 13
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def assign_light_group(lifx, group, singles):
    lights = []
    if singles is not None:
        for light in singles:
            if type(light) is list:
                lights.append(Light(light[0], light[1]))
            else:
                lights.append(
                    lifx.get_devices_by_name(light).get_device_list())
    if group is not None:
        lights = lights + lifx.get_devices_by_group(group).get_device_list()
    return Group(lights)
Exemplo n.º 14
0
class Lifx(Block):

    version = VersionProperty('0.1.0')
    mac = StringProperty(title='MAC address', default='[[LIFX_MAC]]')
    ip = StringProperty(title='IP Address', default='[[LIFX_IP]]')
    power = IntProperty(title='1 for on 0 for off', default=0)
    hue = IntProperty(title='Hue (0-65535)', default=0)
    sat = IntProperty(title='Saturation (0-65535)', default=0)
    bri = IntProperty(title='Brightness (0-65535)', default=65535)
    kelvin = IntProperty(title='Kelvin (2500-9000)', default=3500)
    kill_switch = BoolProperty(title='Turn off Light at Service Stop?',
                               default=True, advanced=True)

    def configure(self, context):
        super().configure(context)
        self.bulb = Light(self.mac(), self.ip())

    def process_signals(self, signals):
        for signal in signals:
            if self.power(signal) == 0:
                brightness = 0
            else:
                brightness = self.bri(signal)
                self.bulb.set_power(True)
            self.bulb.set_color([self.hue(signal),
                                 self.sat(signal),
                                 brightness,
                                 self.kelvin(signal)])
            pass
        self.notify_signals(signals)

    def stop(self):
        if self.kill_switch():
            self.bulb.set_power(False)
        super().stop()
Exemplo n.º 15
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async def set_light_color(name: str, light: lifx.Light, new_color: dict):
    try:
        orig_color = light.get_color()
        color = list(orig_color)

        for i, param in enumerate(["hue", "saturation", "brightness", "kelvin"]):
            if param in new_color:
                color[i] = new_color[param]

        if tuple(color) != orig_color:
            light.set_color(color, 500)

        return (
            name,
            color,
        )
    except lifx.WorkflowException as e:
        logging.exception("Failed to communicate with lights")
        return (
            name,
            None,
        )
class LifxOutputDevice(OutputDevice):
    _light: Light
    _brightness: int

    def __init__(self, mac_address: str, ip_address: str):
        self._light = Light(mac_addr=mac_address, ip_addr=ip_address)

    def on(self, color: RGBColor):
        self._light.set_power("off")  # type: ignore
        self._light.set_power("on")  # type: ignore
        self._light.set_color(
            color=color.to_lifx_colors(HIGH_BRIGHTNESS))  # type: ignore
        self._light.set_waveform(  # type: ignore
            is_transient=1,
            color=color.to_lifx_colors(LOW_BRIGHTNESS),
            period=2000,
            cycles=INFINITE_CYCLES,
            duty_cycle=0.5,
            waveform=1,
            rapid=True,
        )

    def off(self):
        self._light.set_power("off")  # type: ignore
Exemplo n.º 17
0
    def __init__(self, no_blink=False, use_light_list=True):
        light_macs = json.load(open('light_macs.json', 'r')).get('lights')
        lan = LifxLAN()

        if light_macs is None or not use_light_list:
            self.lights = lan.get_lights()
        else:
            self.lights = [Light(mac['mac'], mac['ip']) for mac in light_macs]
            #self.lights = filter(lambda x: x.mac_addr in [mac['mac'] for mac in light_macs], lan.get_lights())

        self.prev_light_power_color = self.store_power_color()
        if not no_blink:
            print "Blink lights"

            for light in self.lights:
                power = light.get_power()
                light.set_power(0)
                light.set_power(power)
Exemplo n.º 18
0
class LifxLightBulb(LightBulb):
    def __init__(self, ip_addr, mac_addr):
        _LOGGER.info('creating ip_addr=%s mac_addr=%s', ip_addr, mac_addr)
        self._device = Light(mac_addr, ip_addr)

    def get_power(self):
        _LOGGER.info('getting power')
        return self._device.get_power() == 65536

    def turn_on(self):
        _LOGGER.info('turning on')
        self._device.set_power(True)

    def turn_off(self):
        _LOGGER.info('turning off')
        self._device.set_power(False)

    def set_color(self, color):
        _LOGGER.debug('setting color=%s', color)
        self._device.set_color(to_hsbk(color), rapid=True)
Exemplo n.º 19
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def lifx_lights():
    single_zone_lights = [{
        "mac_addr": "12:34:56:78:9a:bc",
        "ip_addr": "192.168.0.2"
    }, {
        "mac_addr": "12:45:56:99:9a:bc",
        "ip_addr": "192.168.0.3"
    }]

    multi_zone_lights = [{
        "mac_addr": "23:45:67:89:ab:cd",
        "ip_addr": "192.168.0.4"
    }]

    light_objects = []
    for light in single_zone_lights:
        light_objects.append(Light(light["mac_addr"], light["ip_addr"]))

    for light in multi_zone_lights:
        light_objects.append(
            MultiZoneLight(light["mac_addr"], light["ip_addr"]))

    return light_objects
Exemplo n.º 20
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class LightController:
    def __init__(self, mac = None, ip = None):
        self.bulb = None
        if mac != None and ip != None:
            self.bulb = Light(mac, ip) # put a try block in here later
        elif self.bulb == None: #put this in the catch block later
            lights = LifxLAN(1)
            self.bulb = lights.get_lights()[0]  # just get whatever light you find
        else:
            lights = LifxLAN(1)
            self.bulb = lights.get_lights()[0]
        self.color = 0
        #self.colors = [BLUE, CYAN, GREEN, ORANGE, PINK, PURPLE, RED, YELLOW, WHITE]
        self.colors = [BLUE, GREEN, RED, WHITE]

    def shiftColor(self):
        self.color = (1 + self.color) % len(self.colors)
        self.bulb.set_color(self.colors[self.color])

    def togglePower(self):
        if self.bulb.get_power() == 65535:
            self.bulb.set_power(0)
        else:
            self.bulb.set_power(65535)
Exemplo n.º 21
0
import json

from lifxlan import Light, Group, WorkflowException
from retrying import retry

# Discover all lights on LAN and create a LifxLAN object
# lifx = LifxLAN()
## Get all devices, a list of Device objects
#devices = lifx.get_devices()
#
#for i in devices:
#    print(i)

# Create all the objects
p = json.loads(os.environ['PARENT'])
parent_light = Light(p['mac'], p['ip'])

c1 = json.loads(os.environ['CHILD1'])
child1_light = Light(c1['mac'], c1['ip'])

c2 = json.loads(os.environ['CHILD2'])
child2_light = Light(c2['mac'], c2['ip'])

# create the groups
g = Group([child1_light, child2_light])
full_group = Group([parent_light, child1_light, child2_light])

def get_power_state(l):
    state = "off" # default
    try:
        if l.get_power() > 0:
Exemplo n.º 22
0
import pyaudio
import wave
import numpy as np
import serial
from lifxlan import Light
# import matplotlib.pyplot as plt

bulb = Light("d0:73:d5:28:0b:4a", "10.0.0.16")
FORMAT = pyaudio.paInt16
CHANNELS = 1
RATE = 44100
CHUNK = 1024
RECORD_SECONDS = 5
WAVE_OUTPUT_FILENAME = "file.wav"

# s = serial.Serial(port='/dev/cu.usbmodem1411', baudrate=9600)

audio = pyaudio.PyAudio()

# start Recording
stream = audio.open(format=FORMAT,
                    channels=CHANNELS,
                    rate=RATE,
                    input=True,
                    frames_per_buffer=CHUNK)
print "recording..."
frames = []
amplitudes = []
max = 10000

# for i in range(0, int(RATE / CHUNK * RECORD_SECONDS)):
Exemplo n.º 23
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 def apply(self, device_profile):
     duration = device_profile['duration']  #milliseconds
     dev = Light(device_profile['mac'], device_profile['ip'])
     dev.set_power(device_profile['power'], duration)  #range [0,65535]
     dev.set_hue(device_profile['hue'], duration)  #range [0-65535]
     dev.set_saturation(device_profile['saturation'],
                        duration)  #range [0-65535]
     dev.set_brightness(device_profile['brightness'],
                        duration)  #range [0-65535]
     dev.set_colortemp(device_profile['temperature'],
                       duration)  #range [2500-9000]
Exemplo n.º 24
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 def configure(self, context):
     super().configure(context)
     self.bulb = Light(self.mac(), self.ip())
Exemplo n.º 25
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 def __init__(self, ip, mac, multizone=False):
     self.rapid = False
     if multizone:
         self.bulb = MultiZoneLight(mac, ip)
     else:
         self.bulb = Light(mac, ip)
Exemplo n.º 26
0
    def set_lights(self, postvars={}):
        sched.pause()
        resp = 'no post data found'
        l = None
        if any(postvars):
            resp = 'vars!'
            mac = postvars.get('mac', None)
            if mac:
                ip = postvars.get('ip', None)
                if ip:
                    l = Light(mac[0], ip[0])
            light = postvars.get('light', None)
            if light:
                logging.debug(light)
                if light[0] in LIGHTS:
                    logging.debug('found {}'.format(light[0]))
                    light = LIGHTS.get(light[0])
                    mac = light.get('mac')
                    ip = light.get('ip')
                    colour = light.get('colour')
                    l = Light(mac, ip)
                else:
                    logging.debug(LIGHTS)
                    l = self.devices.get_device_by_name(light[0])
                    if l:
                        colour = l.get_color()

            if l:
                level = postvars.get('level', None)
                dim = postvars.get('dim', None)
                white = postvars.get('white', None)
                if level is not None:
                    try:
                        if (level[0] == 'full'):
                            h, s, b, k = colour
                            b = 65535
                            l.set_power('on')
                            l.set_color([h, s, b, k], 300)
                        else:
                            l.set_power(level[0])
                            resp = 'set power {}'.format(level)
                    except Exception as e:
                        resp = 'err... {}'.format(repr(e))
                elif dim is not None:
                    switch_after_dim = False
                    try:
                        h, s, b, k = colour
                        if l.get_power() == 0:
                            switch_after_dim = True
                            b = 0
                        dim = dim[0]
                        if dim not in ('up', 'down'):
                            dim = LIGHTS[l.get_label()].get('last_dim', None)
                            if dim is None or b in (0, 65535):
                                if b > 32000:
                                    dim = 'down'
                                else:
                                    dim = 'up'
                        if dim == 'down':
                            b -= 6554
                        if dim == 'up':
                            b += 6554
                        if b < 0:
                            b = 0
                        if b > 65535:
                            b = 65535
                        l.set_color([h, s, b, k], 600)
                        if LIGHTS.get(l.get_label(), None) is None:
                            LIGHTS[l.get_label()] = {'mac': l.get_mac_addr(),
                                                     'ip': l.get_ip_addr(),
                                                     'colour': l.get_color(),
                                                     'last_dim': dim}
                        else:
                            LIGHTS[l.get_label()]['colour'] = [h, s, b, k]
                            LIGHTS[l.get_label()]['last_dim'] = dim
                        if switch_after_dim is True:
                            l.set_power('on')
                        resp = 'set brightness {}'.format(b)
                    except Exception as e:
                        resp = 'dim... {}'.format(repr(e))
                elif white is not None:
                    try:
                        h, s, b, k = colour
                        white = white[0]
                        if white not in ('warm', 'cool'):
                            k = int(white)
                        if white == 'warm':
                            k -= 500
                        if white == 'cool':
                            k += 500
                        if k < 2500:
                            k = 2500
                        if k > 9000:
                            k = 9000
                        l.set_color([h, s, b, k], 500)
                        if LIGHTS.get(l.get_label(), None) is None:
                            LIGHTS[l.get_label()] = {'mac': l.get_mac_addr(),
                                                     'ip': l.get_ip_addr(),
                                                     'colour': l.get_color()}
                        else:
                            LIGHTS[l.get_label()]['colour'] = [h, s, b, k]
                        resp = 'set white level {}'.format(k)
                    except Exception as e:
                        resp = 'white... {}'.format(repr(e))

                else:
                    try:
                        if l.get_power() > 0:
                            l.set_power(0)
                        else:
                            l.set_power('on')
                    except:
                        resp = 'nope...'
            else:
                resp = "<p>Light not found ):</p>"
        sched.resume()
        return resp
Exemplo n.º 27
0
from lifxlan import Light
import sys

#Living Room Lights
L1 = Light("MAC", "IP")
L2 = Light("MAC", "IP")
L3 = Light("MAC", "IP")
L4 = Light("MAC", "IP")
L = (L1, L2, L3, L4)

#Kitchen Lights
K1 = Light("MAC", "IP")
K2 = Light("MAC", "IP")
K3 = Light("MAC", "IP")
K4 = Light("MAC", "IP")
K5 = Light("MAC", "IP")
K6 = Light("MAC", "IP")
K = (K1, K2, K3, K4)
Kalt = (K1, K2, K3, K4, K5, K6)

#Bedroom Lights
B1 = Light("MAC", "IP")
B2 = Light("MAC", "IP")
B = (B1, B2)

D = (K4, L1, L4)

All = (L1, L2, L3, L4, K1, K2, K3, K4, K5, K6, B1, B2)


def power_on(group):
Exemplo n.º 28
0
class Bulb(object):
    def __init__(self, ip, mac, multizone=False):
        self.rapid = False
        if multizone:
            self.bulb = MultiZoneLight(mac, ip)
        else:
            self.bulb = Light(mac, ip)

    def supports_multizone(self):
        return self.bulb.supports_multizone()

    def get_color_zones(self):
        return self.bulb.get_color_zones()

    def set_zone_color(self, startZone, endZone, color, duration=5):
        return self.bulb.set_zone_color(startZone,
                                        endZone,
                                        color,
                                        duration=duration,
                                        rapid=self.rapid)

    def set_zone_colors(self, colors, duration=5):
        return self.bulb.set_zone_colors(colors,
                                         duration=duration,
                                         rapid=self.rapid)

    def set_power(self, power, duration=5):
        if duration:
            self.bulb.set_power(power, duration=duration, rapid=self.rapid)
        else:
            self.bulb.set_power(power)

    def get_power(self):
        return self.bulb.get_power()

    def set_color(self, color, duration=5):
        if duration:
            self.bulb.set_color(color, duration=duration, rapid=self.rapid)
        else:
            self.bulb.set_color(color)

    def get_color(self):
        return self.bulb.get_color()

    def get_label(self):
        return self.bulb.get_label()

    def get_brightness(self):
        return self.bulb.get_color()[2]

    def set_brightness(self, brightness, duration=5):
        return self.bulb.set_brightness(brightness, duration, rapid=self.rapid)

    def fast_mode(self, hostIP=None):
        self.rapid = True

    def slow_mode(self):
        self.rapid = False
Exemplo n.º 29
0
def main():
    bulb = Light("d0:73:d5:28:0b:4a", "10.0.0.16")
    print("Selected {}".format(bulb.get_label()))

    # get original state
    original_power = bulb.get_power()
    original_color = bulb.get_color()
    bulb.set_power("on")

    sleep(0.2)  # to look pretty

    print("Toggling power...")
    toggle_device_power(bulb, 0.2)

    print("Toggling color...")
    toggle_light_color(bulb, 0.2)

    # restore original color
    # color can be restored after the power is turned off as well
    print("Restoring original color and power...")
    bulb.set_color(original_color)

    sleep(1)  # to look pretty.

    # restore original power
    bulb.set_power(original_power)
Exemplo n.º 30
0
import cv2
import math
import numpy as np
import imutils
from collections import deque
from imutils.video import VideoStream
from lifxlan import Light


def scaleValue(unscaled, to_min, to_max, from_min, from_max):
    return int((to_max - to_min) * (unscaled - from_min) /
               (from_max - from_min) + to_min)


light = Light("d0:73:d5:13:f4:17", "10.52.242.195")

brightness_Deque = deque(maxlen=10)
hue_angleDeque = deque(maxlen=10)
saturation_lineDeque = deque(maxlen=10)
vs = VideoStream(src=1).start()
state = 'OFF'
brightness = 0
prev_brightness = 0
current_brightness = 0
# greenCenter = (0,0)
yellowCenter = (-300, -300)

while True:
    image = vs.read()