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actions.py
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actions.py
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import os
from time import sleep, time
from typing import Optional
from createserial.encoders import Encoders
from createserial.constants import Opcode
from createserial.serial import query_create
from createserial.shutdown import shutdown_create_in
from kipr import disable_servos, enable_servos, motor_power, clear_motor_position_counter, camera_close
import servo
from camera import init_camera, load_config, card_scan
from common.gyro_movements import gyro_init, gyro_turn, straight_drive_distance, calibrate_straight_drive_distance, \
straight_drive
from common.light import wait_4_light
from common.multitasker import MultitaskedMotor
from constants.ports import RAKE, LIGHT
from constants.servos import Claw, Arm
from constants.rake import RakePositions
from drive import drive, untimed_drive, square_up_black, square_up_white, stop_motors, straight_drive_black
from common import ROBOT, post
from utilities import wait_for_button
rake_manager = None
encoders: Optional[Encoders] = None
start_time: float
def msleep(milliseconds):
sleep(milliseconds/1000)
def rake_test():
rake_manager.position = RakePositions.START
wait_for_button()
rake_manager.position = RakePositions.LOW_KEY_REST
wait_for_button()
rake_manager.position = RakePositions.LOW_KEY
wait_for_button()
rake_manager.position = RakePositions.REST
wait_for_button()
rake_manager.position = RakePositions.MIDDLE_KEY
wait_for_button()
rake_manager.position = RakePositions.REST
wait_for_button()
rake_manager.position = RakePositions.HIGH_KEY
wait_for_button()
rake_manager.position = RakePositions.REST
wait_for_button()
rake_manager.position = RakePositions.END
def init():
global start_time
post.post_core(servo_test, test_motor, test_sensors, initial_setup, calibration_function=calibrate)
load_config()
init_camera()
wait_4_light(LIGHT, function=card_scan, function_every=1)
camera_close()
shutdown_create_in(119)
start_time = time()
def calibrate():
rake_manager.position = RakePositions.REST
servo.move(Arm.STRAIGHT_UP, 1)
wait_for_button("Press button to begin drive distance calibration.")
calibrate_straight_drive_distance(11.5, direction=-1, speed=20)
wait_for_button("push button to reset arm to start position")
servo.move(Arm.START, 1)
def initial_setup():
if ROBOT.is_red:
gyro_init(untimed_drive, stop_motors, get_encoder_values, get_bumps, 0.99, 0.07, 0.03, 0.9, 0.0)
elif ROBOT.is_green:
gyro_init(untimed_drive, stop_motors, get_encoder_values, get_bumps, 0.987, 0.11, 0.1, 0.5, 0.0)
else:
raise Exception("This robot is not set up to use gyro_init located in main, please set this color up.")
print("Gyro calibration complete.")
motor_power(3, 100)
enable_servos()
motor_power(RAKE, -40)
msleep(1500)
motor_power(RAKE, 0)
servo.move(Arm.DRIVING_RELAXED, 1)
servo.move(Claw.CLOSED, 0)
servo.move(Arm.START, 1)
motor_power(RAKE, -15)
msleep(500)
global encoders
encoders = Encoders()
clear_motor_position_counter(RAKE)
global rake_manager
rake_manager = MultitaskedMotor(RAKE, RakePositions.START)
def servo_test():
servo.move(Arm.NINETY, 1, 2)
servo.move(Claw.CLOSED, 1, 3)
servo.move(Claw.OPEN, 1, 3)
servo.move(Arm.DRIVING_RELAXED, 1, 2)
servo.move(Claw.CLOSED, 1, 3)
def test_motor():
rake_manager.position = RakePositions.POST_HIGH
msleep(1000)
rake_manager.position = RakePositions.POST_LOW
msleep(1000)
rake_manager.position = RakePositions.START
msleep(1000)
def test_sensors():
square_up_black(30, 30)
square_up_white(-15, -15)
servo.move(Arm.START, 1, 2)
def get_red_ring():
rake_manager.position = RakePositions.LOW_KEY_REST
servo.move(Arm.DRIVING_RELAXED, 1, 2)
msleep(200)
gyro_turn(40, 0, 5, False)
gyro_turn(70, 0, 49, False)
gyro_turn(40, 0, 5, False)
square_up_black(25, 25)
square_up_white(-10, -10)
square_up_black(10, 10)
square_up_white(20, 20)
stop_motors(100)
ROBOT.run(gyro_turn, red=(-20, 20, 10, False), green=(-20, 20, 7, False))
stop_motors()
servo.move(Arm.RED_RING_PICKUP, 1, 2)
servo.move(Claw.OPEN, 0)
msleep(200)
straight_drive_distance(40, 2, False)
straight_drive_distance(70, 6, False)
straight_drive_distance(50, 6, False)
stop_motors(500)
print(str(round(time()-start_time, 2)) + " seconds elapsed when grabbing red ring.")
servo.move(Claw.CLOSED, 0)
servo.move(Arm.DELIVER_SHORT_RING, 1, 2)
msleep(200)
def deliver_red_ring():
# back up after grabbing the red ring
ROBOT.run(straight_drive_distance, red=(-50, 16.3, False), green=(-50, 15.7, False))
stop_motors(400)
print(str(round(time()-start_time, 2)) + " seconds elapsed when arriving at red tower.")
# turn towards the cube
ROBOT.run(gyro_turn, red=(-40, 40, 74, False), green=(-40, 40, 74, False))
stop_motors(200)
# drive until the cube goes over the edge
straight_drive_distance(40, 2, False)
ROBOT.run(straight_drive_distance, red=(70, 24.5, False), green=(70, 23.5, False))
straight_drive_distance(40, 3, False)
# move the encryption key arm into place
rake_manager.position = RakePositions.LOW_KEY
stop_motors()
print(str(round(time()-start_time, 2)) + " seconds elapsed when delivering red ring.")
# raise arm to release the cube
servo.move(Arm.SHORT_RING_UP, 1, 2)
msleep(200)
# back up and pull encryption key
straight_drive_distance(-40, 0.5, False)
rake_manager.position = RakePositions.LOW_KEY_PULL
straight_drive_distance(-40, 3.5, False)
stop_motors()
# lower arm for delivery
servo.move(Arm.SHORT_RING_DOWN, 1, 2)
rake_manager.position = RakePositions.REST
msleep(200)
# drop ring on tower
servo.move(Claw.OPEN, 1)
servo.move(Arm.SHORT_RING_UP, 1, 2)
msleep(200)
# back away from tower
ROBOT.run(straight_drive_distance, red=(-40, 4, False), green=(-40, 4, False))
print(str(round(time()-start_time, 2)) + " seconds elapsed when leaving red tower.")
stop_motors(300)
def get_orange_ring():
ROBOT.run(gyro_turn, red=(40, -40, 89.5, False), green=(40, -40, 86, False))
stop_motors(200)
straight_drive_distance(30, 1.5, False)
straight_drive_distance(70, 25, False)
straight_drive_black(40, False)
print(str(round(time()-start_time, 2)) + " seconds elapsed when squaring up to get orange ring.")
square_up_black(20, 20)
square_up_white(-10, -10)
square_up_black(5, 5)
stop_motors(100)
straight_drive_distance(-40, 3, False)
stop_motors(200)
gyro_turn(40, -40, 90, False)
stop_motors(200)
square_up_black(40, 40)
square_up_white(-15, -15)
stop_motors(100)
straight_drive_distance(-30, 5, False)
stop_motors(200)
ROBOT.run(gyro_turn, red=(-40, 40, 19, False), green=(-40, 40, 29, False))
stop_motors(200)
straight_drive_distance(-30, 2, False)
stop_motors(500)
print(str(round(time()-start_time, 2)) + " seconds elapsed when grabbing orange ring.")
servo.move(Arm.ORANGE_RING_PICKUP, 1, 2)
msleep(200)
straight_drive_distance(30, 4, False)
stop_motors(400)
servo.move(Claw.CLOSED, 0)
msleep(100)
def deliver_orange_ring():
servo.move(Arm.DELIVER_SHORT_RING, 1, 2)
msleep(100)
straight_drive_distance(-30, 0.5)
ROBOT.run(gyro_turn, red=(-40, 40, 69, False), green=(-40, 40, 58, False))
stop_motors(200)
square_up_white(-20, -20)
square_up_black(20, 20)
square_up_white(-10, -10)
square_up_black(10, 10)
square_up_white(-6, -6)
stop_motors(200)
gyro_turn(20, 0, 3.5, False)
stop_motors(200)
straight_drive_distance(40, 1, False)
straight_drive_distance(60, 2, False)
ROBOT.run(straight_drive_distance, red=(80, 23.4, False), green=(80, 23, False))
straight_drive_distance(60, 2, False)
straight_drive_distance(40, 2, False)
straight_drive_distance(20, 1, False)
stop_motors(200)
print(str(round(time()-start_time, 2)) + " seconds elapsed when arriving at orange tower.")
ROBOT.run(gyro_turn, red=(-40, 40, 89, False), green=(-40, 40, 92, False))
stop_motors(200)
ROBOT.run(straight_drive_distance, red=(40, 12, False), green=(40, 11, False))
stop_motors()
# raise arm to release the cube
servo.move(Arm.SHORT_RING_UP, 1, 2)
rake_manager.position = ROBOT.choose(red=RakePositions.MIDDLE_KEY + 180, green=RakePositions.MIDDLE_KEY)
print(str(round(time()-start_time, 2)) + " seconds elapsed when delivering orange ring.")
msleep(100)
# back up
ROBOT.run(straight_drive_distance, red=(-40, 0.8, False), green=(-40, 0.5, False))
rake_manager.position = RakePositions.MIDDLE_KEY_PULL
ROBOT.run(straight_drive_distance, red=(-40, 4.0, False), green=(-40, 4.3, False))
rake_manager.position = RakePositions.REST
stop_motors()
# lower arm back down
servo.move(Arm.SHORT_RING_DOWN, 1, 2)
msleep(100)
# drop ring on tower
servo.move(Claw.OPEN, 1)
straight_drive_distance(-40, 4, False)
stop_motors()
servo.move(Arm.STRAIGHT_UP, 1, 2)
msleep(400)
def get_yellow_ring():
gyro_turn(-40, 40, 90, False)
stop_motors(300)
print(str(round(time()-start_time, 2)) + " seconds elapsed when leaving orange tower.")
straight_drive_distance(40, 2, False)
ROBOT.run(straight_drive_distance, red=(70, 19, False), green=(70, 16, False))
straight_drive_black(30, False)
square_up_black(20, 20)
square_up_white(-10, -10)
stop_motors(200)
print(str(round(time()-start_time, 2)) + " seconds elapsed when squaring up to get yellow ring.")
ROBOT.run(gyro_turn, red=(-40, 40, 60, False), green=(-40, 40, 61, False))
stop_motors(200)
# put arm into position to grab ring
straight_drive_distance(-40, 2, False)
stop_motors()
servo.move(Arm.YELLOW_RING_PICKUP, 1, 2)
msleep(100)
straight_drive_distance(40, 5.5, False)
# grab ring
stop_motors(600)
servo.move(Claw.YELLOW_RING, 0)
straight_drive_distance(-40, 4.5, False)
stop_motors(200)
def deliver_yellow_ring():
servo.move(Arm.TALL_RING_DELIVERY, 1, 2)
msleep(100)
gyro_turn(20, -20, 5, False)
ROBOT.run(gyro_turn, red=(40, -40, 63, False), green=(40, -40, 64, False))
stop_motors(200)
square_up_black(30, 30)
square_up_white(-12, -12)
square_up_black(10, 10)
square_up_white(-8, -8)
square_up_black(6, 6)
straight_drive_distance(40, 6.1, False)
stop_motors(200)
print(str(round(time()-start_time, 2)) + " seconds elapsed when lined up with yellow tower.")
ROBOT.run(gyro_turn, red=(40, -40, 88, False), green=(40, -40, 90, False))
stop_motors(200)
# drive towards botgal and square up
straight_drive_distance(40, 8, False)
servo.move(Arm.YELLOW_RING_DELIVERY, 1, 2)
msleep(100)
straight_drive_distance(40, 4, False)
stop_motors()
# deliver botgal
straight_drive_distance(-30, 3, False)
stop_motors(200)
straight_drive_distance(30, 3.2, False)
stop_motors(200)
straight_drive_distance(-30, 3, False)
stop_motors(200)
straight_drive_distance(30, 3.2, False)
stop_motors(600)
straight_drive_distance(-20, 0.8, False)
stop_motors(100)
servo.move(Claw.OPEN, 1, 2)
msleep(200)
rake_manager.position = RakePositions.HIGH_KEY+130
# put arm all the way up
servo.move(Arm.STRAIGHT_UP, 1, 2)
msleep(100)
# drive backwards
straight_drive_distance(-20, 1.4, False)
rake_manager.position = RakePositions.HIGH_KEY_PULL
straight_drive_distance(-20, 3.6, False)
rake_manager.position = RakePositions.REST
servo.move(Claw.CLOSED, 0)
stop_motors(200)
straight_drive_distance(20, 5.8, False)
straight_drive_distance(-40, 6.6, False)
servo.move(Claw.OPEN, 0)
stop_motors(200)
def deliver_tall_rings(left_green):
# turn 90 degrees
gyro_turn(-40, 40, 95, False)
stop_motors(200)
# back up
straight_drive_black(-40, False)
ROBOT.run(straight_drive_distance, red=(-40, 3, False), green=(-40, 4, False))
square_up_black(30, 30)
square_up_white(-15, -15)
square_up_black(10, 10)
square_up_white(-5, -5)
stop_motors(100)
# turn left towards green ring
ROBOT.run(gyro_turn, red=(-40, 40, 63, False), green=(-40, 40, 66, False))
stop_motors(200)
# back up
straight_drive_distance(-40, 3, False)
stop_motors()
# put arm into position to grab green ring
servo.move(Arm.GREEN_RING_PICKUP, 1, 2)
msleep(100)
# move forwards to pick up green ring
straight_drive_distance(40, 7.5, False)
stop_motors(200)
# grab the green ring
servo.move(Claw.YELLOW_RING, 0)
straight_drive_distance(-40, 2, False)
stop_motors()
# move the arm up
servo.move(Arm.TALL_RING_DELIVERY, 1, 2)
msleep(100)
# back up
straight_drive_distance(-40, 1.5, False)
stop_motors(200)
if left_green:
# turn right
gyro_turn(40, -40, 65, False)
stop_motors(200)
# square up on black
square_up_black(30, 30)
square_up_white(-15, -15)
square_up_black(5, 5)
square_up_white(-5, -5)
stop_motors(100)
# move forwards
straight_drive_distance(35, 2, False)
ROBOT.run(straight_drive_distance, red=(70, 17.5, False), green=(70, 16.9, False))
straight_drive_distance(35, 2, False)
stop_motors(200)
# turn right towards tower
ROBOT.run(gyro_turn, red=(40, -40, 85, False), green=(40, -40, 91, False))
stop_motors(200)
# move forwards
straight_drive_distance(40, 12, False)
stop_motors()
# open claw
servo.move(Claw.OPEN, 1)
rake_manager.position = RakePositions.MIDDLE_KEY
# back up so we don't break
straight_drive_distance(-20, 0.5, False)
rake_manager.position = RakePositions.MIDDLE_KEY_PULL
straight_drive_distance(-20, 4.9, False)
rake_manager.position = RakePositions.REST
straight_drive_distance(-40, 3, False)
stop_motors(200)
gyro_turn(40, -40, 90, False)
stop_motors(200)
straight_drive_distance(50, 12, False)
straight_drive_black(40, False)
square_up_white(-15, -15)
square_up_black(5, 5)
ROBOT.run(gyro_turn, red=(40, -40, 82), green=(40, -40, 79, False))
stop_motors(200)
straight_drive_distance(-40, 3, False)
stop_motors()
servo.move(Arm.BLUE_RING_PICKUP, 1, 2)
msleep(100)
straight_drive_distance(40, 4, False)
straight_drive_distance(30, 3.5, False)
servo.move(Claw.BLUE_RING, 0)
msleep(100)
straight_drive_distance(-30, 5, False)
stop_motors()
servo.move(Arm.TALL_RING_DELIVERY, 1, 2)
msleep(100)
ROBOT.run(gyro_turn, red=(-40, 40, 77), green=(-40, 40, 74, False))
stop_motors(200)
square_up_black(30, 30)
square_up_white(-15, -15)
square_up_black(5, 5)
square_up_white(-5, -5)
stop_motors(100)
# move forwards
straight_drive_distance(35, 2, False)
straight_drive_distance(70, 14, False)
straight_drive_distance(35, 2, False)
stop_motors(200)
# turn left towards tower
ROBOT.run(gyro_turn, red=(-40, 40, 95, False), green=(-40, 40, 93, False))
stop_motors(200)
# move forwards
straight_drive_distance(40, 12, False)
stop_motors()
# open claw
servo.move(Claw.OPEN, 1)
# back up so we don't break
straight_drive_distance(-15, 0.1, False)
rake_manager.position = RakePositions.HIGH_KEY + 220
straight_drive_distance(-15, 1.5, False)
rake_manager.position = RakePositions.HIGH_KEY_PULL
ROBOT.run(straight_drive_distance, red=(-15, 4, False), green=(-15, 4.4, False))
stop_motors(100)
rake_manager.position = RakePositions.REST
ROBOT.run(straight_drive_distance, red=(-50, 9.6), green=(-50, 9.2, False))
stop_motors(300)
else:
# turn left
gyro_turn(-40, 40, 120, False)
stop_motors(200)
# drive back past the black line
straight_drive_distance(-40, 2, False)
straight_drive_black(-70, False)
straight_drive_distance(-40, 2, False)
# square up on black
square_up_black(30, 30)
square_up_white(-20, -20)
square_up_black(10, 10)
square_up_white(-5, -5)
stop_motors(100)
# move forwards
straight_drive_distance(35, 2, False)
ROBOT.run(straight_drive_distance, red=(70, 13.2, False), green=(70, 13.5, False))
straight_drive_distance(35, 2, False)
stop_motors(200)
# turn left towards tower
gyro_turn(-40, 40, 91, False)
stop_motors(200)
# move forwards
straight_drive_distance(40, 12, False)
stop_motors()
# open claw
servo.move(Claw.OPEN, 1)
# back up so we don't break
straight_drive_distance(-20, 0.1, False)
rake_manager.position = RakePositions.HIGH_KEY
straight_drive_distance(-20, 0.5, False)
rake_manager.position = RakePositions.HIGH_KEY_PULL
straight_drive_distance(-20, 3.9, False)
rake_manager.position = RakePositions.REST
straight_drive_distance(-40, 4.5, False)
stop_motors(200)
gyro_turn(-40, 40, 90, False)
stop_motors(200)
straight_drive_distance(30, 2, False)
straight_drive_distance(70, 6, False)
straight_drive_black(30, False)
square_up_white(-15, -15)
square_up_black(5, 5)
stop_motors(100)
ROBOT.run(gyro_turn, red=(-40, 40, 60, False), green=(-40, 40, 62, False))
stop_motors(200)
straight_drive_distance(-30, 1, False)
stop_motors(400)
servo.move(Arm.BLUE_RING_PICKUP, 1, 2)
msleep(200)
straight_drive_distance(40, 4, False)
straight_drive_distance(30, 3.5, False)
servo.move(Claw.BLUE_RING, 0)
stop_motors(200)
straight_drive_distance(-30, 2, False)
straight_drive_distance(-60, 2.5, False)
straight_drive_distance(-30, 2, False)
stop_motors(200)
servo.move(Arm.TALL_RING_DELIVERY, 1, 2)
msleep(200)
gyro_turn(40, -40, 67, False)
stop_motors(200)
straight_drive_distance(-30, 2, False)
stop_motors(200)
square_up_black(30, 30)
square_up_white(-15, -15)
square_up_black(5, 5)
square_up_white(-5, -5)
# move forwards
straight_drive_distance(35, 2, False)
ROBOT.run(straight_drive_distance, red=(70, 17.6, False), green=(70, 16.3, False))
straight_drive_distance(35, 2, False)
stop_motors(200)
# turn right towards tower
ROBOT.run(gyro_turn, red=(40, -40, 88, False), green=(40, -40, 88, False))
stop_motors(200)
# move forwards
straight_drive_distance(40, 13, False)
stop_motors()
# open claw
rake_manager.position = RakePositions.MIDDLE_KEY + 140
servo.move(Claw.OPEN, 1)
# back up so we don't break
straight_drive_distance(-15, 1.2, False)
rake_manager.position = RakePositions.MIDDLE_KEY_PULL + 30
straight_drive_distance(-15, 4.2, False)
rake_manager.position = RakePositions.REST
straight_drive_distance(-40, 8.6, False)
stop_motors(200)
def get_bumps():
data = query_create([Opcode.QUERY_LIST, 1, 7], 1)
return data != b'\x00'
def get_encoder_values():
left, right = encoders.values
return -1 * left, -1 * right
def shutdown():
rake_manager.position = RakePositions.END
servo.move(Arm.REST_POSITION, 1)
rake_manager.running = False
disable_servos()
print(str(round(time()-start_time, 2)) + " seconds elapsed total.")
def wait(duration):
msleep(100)
drive(0, 0, duration - 200)
msleep(100)
print('waiting')
def drive_until_bump(speed):
straight_drive(speed, get_bumps, condition_is=False)