Roboteksperimentarium/rally.py

import time

import numpy as np
import cv2

import robot

LANDMARKS = [11,6,10] # SET ARUCO NUMBERS

POWER = 70

TURN_T = 7.9 # 1 degree
DRIVE_T = 22 # 1 centimeter

RIGHT_WHEEL_OFFSET = 4

CLOCKWISE_OFFSET = 0.96

FOCAL_LENGTH = 1691

CAMERA_MATRIX = np.array(
    [[FOCAL_LENGTH,0,512],[0,FOCAL_LENGTH,360],[0,0,1]],
    dtype=np.float32
)
DIST_COEF = np.array([0,0,0,0,0], dtype=np.float32)

def find_aruco(image):
    aruco_dict = cv2.aruco.Dictionary_get(cv2.aruco.DICT_6X6_250)
    aruco_params = cv2.aruco.DetectorParameters_create()
    corners, ids, _ = cv2.aruco.detectMarkers(
        image,
        aruco_dict,
        parameters=aruco_params
    )

    if corners is None:
        return []

    return {ids[i][0]: box[0] for i, box in enumerate(corners)}

def careful_forward(drive_time, arlo):
    start = time.time()
    end = start + drive_time
    turning = None
    while time.time() < end:
        forward_dist = arlo.read_front_ping_sensor()
        right_dist = arlo.read_right_ping_sensor()
        left_dist = arlo.read_left_ping_sensor()
        if forward_dist > 600 and all(x > 200 for x in [right_dist, left_dist]):
            print("not blocked")
            turning = None
            arlo.go_diff(POWER, POWER + RIGHT_WHEEL_OFFSET, 1, 1)
        else:
            print("blocked")
            if turning == "R" or (forward_dist > 600 and right_dist > 200 and turning is None):
                arlo.go_diff(POWER, POWER, 1, 0)
                turning = "R"
            else:
                arlo.go_diff(POWER, POWER + RIGHT_WHEEL_OFFSET, 0, 1)
                turning = "L"

        time.sleep(0.01)

def main():
    landmark_order = LANDMARKS + [
        LANDMARKS[0]
    ]

    noah = robot.Robot()

    while landmark_order != []:
        landmark = landmark_order.pop(0)

        while True:
            for _ in range(24):
                arucos = find_aruco(noah.take_photo())
                if landmark in arucos:
                    break
                noah.go_diff(POWER, POWER, 0, 1)
                time.sleep((20 * TURN_T)/1000)
                noah.stop()

            if landmark in arucos:
                break

            careful_forward(5, noah)


        position = cv2.aruco.estimatePoseSingleMarkers(
            np.array([arucos[landmark]]), 14.5, CAMERA_MATRIX, DIST_COEF
        )[1][0][0]

        angle = np.rad2deg(np.arctan(position[0]/position[2]))
        drive_distance = np.sqrt(position[0]**2 + position[2]**2) - 10
        if angle < 0:
            noah.go_diff(POWER, POWER, 0, 1)
            time.sleep((abs(angle) * TURN_T)/1000)
            noah.stop()
        else:
            noah.go_diff(POWER, POWER, 1, 0)
            time.sleep((abs(angle) * TURN_T * CLOCKWISE_OFFSET)/1000)
            noah.stop()

        noah.go_diff(POWER, POWER + RIGHT_WHEEL_OFFSET, 1, 1)
        time.sleep((drive_distance * DRIVE_T)/1000)
        noah.stop()

if __name__ == "__main__":
    main()