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12
LINEUPS.md
12
LINEUPS.md
@@ -2,14 +2,12 @@
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## These are the line-up positions for the robot game for various missions.
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- Mission Run #1 (Mission #1) [Right/Blue Home] - The left yellow part of the right arm attachment is positioned with its right edge on the 5th thin line from the left. Note that this is NOT positioned from the back of the robot.
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- Mission Run #1 (Run #1) [Right/Blue Home] - The left yellow part of the right arm attachment is positioned with its right edge on the 5th thin line from the left. Note that this is NOT positioned from the back of the robot.
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- Mission Run #2 (Send Over) [Right/Blue Home] - The robot should be lined up on the vertical edge of the left home. The robot's right side should be positioned on the 1st thin line from the top. Note that the 0th line is the one that is not part of the curve.
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- Mission Run #2 (Tip the scales) [Right/Blue Home] - The middle of the left edge of the robot should be positioned on the 2nd thick line from the left.
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- Mission Run #3 (Sand mission) [Right/Blue Home] - The robot should be lined up on the vertical edge of the left home. The robot's left side should be positioned on the 1/2th thin line from the bottom.
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- Mission Run #3 (Send Over) [Right/Blue Home] - The robot should be lined up on the vertical edge of the right home. The robot's right edge should be positioned on the 1st thin line from the top. Note that the 0th line is the one that is in the inner curve.
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- Mission Run #4 (Boat mission) [Left/Red Home] - The robot should be lined up on the vertical edge of the left home. The robot's right side should be positioned on the 2nd thick line from the bottom.
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- Mission Run #4 (Run #4) [Left/Red Home] - The robot's left edge should be positioned on the 2nd thin line from the left.
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- Mission Run #5 (Bautism) [Left/Red Home] - The robot's left edge should be positioned at the 1st thick, 2nd thin line from the left.
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- Mission Run #6 (Not-so-heavy Lifting) [Right/Blue Home] - The robot's right edge should be positioned at the 1st thick from the right.
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- Mission Run #5 (Boat mission) [Left/Red Home] - There are two alignments for this. When sending off the robot for part 1, the robot should be facing the right home. It's right edge should be positioned at the very bottom edge of the board. Once it completes the pulling part, once it comes back begin part 2. For part 2, the middle of the robot's right side should be positioned in the middle of the 3rd thick and the 3rd thick, 1st thin lines.
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@@ -45,35 +45,45 @@ async def monitor_distance():
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# New Section
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async def Run1(): # From M8_5.py
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left_arm.run_angle(1000, 300)
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right_arm.run_angle(1000,500)
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await drive_base.straight(320)
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right_arm.run_angle(1000,450)
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left_arm.run_angle(500,80)
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await drive_base.straight(200)
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await right_arm.run_angle(5000,-500, Stop.HOLD)
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await right_arm.run_angle(5000,500, Stop.HOLD)
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await right_arm.run_angle(5000,-500, Stop.HOLD)
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await right_arm.run_angle(5000,500, Stop.HOLD)
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await right_arm.run_angle(5000,-500, Stop.HOLD)
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await drive_base.turn(-40)
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await drive_base.straight(325)
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await left_arm.run_angle(500,-80)
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await drive_base.turn(-20)
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await drive_base.straight(277)
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await drive_base.turn(20)
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await drive_base.straight(65)
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await drive_base.straight(-100)
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await drive_base.straight(50)
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await left_arm.run_angle(500,170)
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await drive_base.straight(-270)
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await drive_base.turn(40)
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await drive_base.straight(135)
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left_arm.run_angle(1000,670)
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await right_arm.run_angle(5000,-450, Stop.HOLD)
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await right_arm.run_angle(5000,450, Stop.HOLD)
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await right_arm.run_angle(5000,-450, Stop.HOLD)
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await right_arm.run_angle(5000,450, Stop.HOLD)
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await right_arm.run_angle(5000,-450, Stop.HOLD)
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right_arm.run_angle(5000,450, Stop.HOLD)
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await drive_base.turn(-35)
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await drive_base.straight(300)
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await drive_base.turn(63)
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await drive_base.straight(170)
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await drive_base.turn(-80)
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await drive_base.straight(87)
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await drive_base.turn(-15)
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await drive_base.straight(-120)
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await drive_base.turn(-100)
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await drive_base.straight(300)
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await drive_base.turn(-45)
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await drive_base.straight(500)
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await drive_base.turn(-30)
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right_arm.run_angle(70,500)
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await drive_base.turn(45)
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await drive_base.straight(-145)
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await drive_base.turn(-60)
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await drive_base.straight(90)
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await left_arm.run_angle(1000,-450)
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await drive_base.straight(-150)
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await left_arm.run_angle(1000,450)
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await drive_base.straight(27.67) #turns back to solve market place
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await drive_base.turn(90) #Will solve market place
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await drive_base.straight(-450)
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await drive_base.turn(70)
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await drive_base.straight(600)
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async def Run2(): # From Heavy_lifting_final.py
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await drive_base.straight(200)
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@@ -133,14 +143,14 @@ async def Run4(): # From Send_Over_Final.py
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# Add Rishi's code here
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async def Run5():
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await drive_base.straight(700)
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await drive_base.turn(-18)
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await drive_base.straight(100)
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await drive_base.straight(-205)
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await drive_base.turn(-20)
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await drive_base.straight(110)
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await drive_base.straight(-220)
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await drive_base.turn(63)
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await drive_base.straight(125)
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await arm_motor.run_angle(1000, -1200)
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await drive_base.straight(130)
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await right_arm.run_angle(1000, -1200)
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await drive_base.straight(84)
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await arm_motor.run_angle(300, 1200)
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await right_arm.run_angle(300, 1200)
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await drive_base.straight(-875)
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# Add - Adi's code here
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@@ -166,7 +176,6 @@ async def Run6():
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await drive_base.straight(-60)
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await drive_base.turn(80)
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await drive_base.straight(-900)
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# Function to classify color based on HSV
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def detect_color(h, s, v, reflected):
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if reflected > 4:
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@@ -2,26 +2,36 @@ from pybricks.hubs import PrimeHub
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from pybricks.pupdevices import Motor, ColorSensor, UltrasonicSensor, ForceSensor
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from pybricks.parameters import Button, Color, Direction, Port, Side, Stop
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from pybricks.robotics import DriveBase
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from pybricks.tools import wait, StopWatch
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from pybricks.tools import run_task,multitask
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from pybricks.tools import wait, StopWatch, run_task, multitask
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hub = PrimeHub()
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# Initialize both motors. In this example, the motor on the
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# left must turn counterclockwise to make the robot go forward.
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left_motor = Motor(Port.A, Direction.COUNTERCLOCKWISE)
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right_motor = Motor(Port.B)
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left_arm = Motor(Port.C, Direction.COUNTERCLOCKWISE)
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right_arm = Motor(Port.D)
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arm_motor = Motor(Port.D, Direction.CLOCKWISE)
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arm_motor_left= Motor(Port.C, Direction.CLOCKWISE)
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# Initialize the drive base. In this example, the wheel diameter is 56mm.
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# The distance between the two wheel-ground contact points is 112mm.
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drive_base = DriveBase(left_motor, right_motor, wheel_diameter=68.8, axle_track=180)
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drive_base.settings(550,700,100,100)
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print('The default settings are: ' + str(drive_base.settings()))
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drive_base.settings(300,1000,300,750)
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# Optionally, uncomment the line below to use the gyro for improved accuracy.
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drive_base.use_gyro(True)
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first_run = False
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async def main():
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await drive_base.straight(750)
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await drive_base.straight(-650)
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await drive_base.straight(700)
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await drive_base.turn(-17)
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await drive_base.straight(100)
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await drive_base.straight(-205)
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await drive_base.turn(62)
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await drive_base.straight(125)
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await arm_motor.run_angle(1000, -1200)
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await drive_base.straight(87)
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await arm_motor.run_angle(300, 1200)
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await drive_base.straight(-875)
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run_task(main())
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69
utils/tests/colorsensortest.py
Normal file
69
utils/tests/colorsensortest.py
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from pybricks.pupdevices import Motor, ColorSensor, UltrasonicSensor, ForceSensor
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from pybricks.parameters import Button, Color, Direction, Port, Side, Stop
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from pybricks.tools import run_task, multitask
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from pybricks.tools import wait, StopWatch
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from pybricks.robotics import DriveBase
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from pybricks.hubs import PrimeHub
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# Initialize hub and devices
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hub = PrimeHub()
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color_sensor = ColorSensor(Port.F)
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# Color Settings
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# https://docs.pybricks.com/en/latest/parameters/color.html
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print("Default Detected Colors:", color_sensor.detectable_colors())
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# Custom color Hue, Saturation, Brightness value for Lego bricks
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Color.MAGENTA = Color(315,100,60)
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Color.BLUE = Color(240,100,100)
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Color.CYAN = Color(180,100,100)
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Color.RED = Color(350, 100, 100)
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LEGO_BRICKS_COLOR = [
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Color.BLUE,
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Color.GREEN,
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Color.WHITE,
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Color.RED,
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Color.YELLOW,
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Color.MAGENTA,
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Color.NONE
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]
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magenta_counter = 0
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stable_color = None
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real_color = None
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#Update Detectable colors
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color_sensor.detectable_colors(LEGO_BRICKS_COLOR)
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print(f'Yellow:{Color.YELLOW} : {Color.YELLOW.h}, {Color.YELLOW.s}, {Color.YELLOW.v}')
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print("Updated Detected Colors:", color_sensor.detectable_colors())
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async def main():
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while True:
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global magenta_counter, stable_color, real_color
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color_reflected_percent = await color_sensor.reflection()
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print("Reflection: ", color_reflected_percent)
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if color_reflected_percent > 15:
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color_detected = await color_sensor.color()
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if color_detected == Color.MAGENTA:
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magenta_counter += 1
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else:
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magenta_counter = 0
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stable_color = color_detected
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# Only accept magenta if it's been stable for a while - usually triggers before other colors so we gotta do this :|
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if magenta_counter > 10:
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stable_color = Color.MAGENTA
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if stable_color != Color.MAGENTA:
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stable_color = await color_sensor.color()
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real_color = stable_color
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#if(color_detected != Color.NONE):
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# return
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print("Magenta counter: ", magenta_counter)
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if real_color is not None:
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print(f'Detected color: {real_color} : {real_color.h}, {real_color.s}, {real_color.v}')
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else:
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print("No valid color detected yet.")
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await wait(50)
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run_task(main())
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Reference in New Issue
Block a user