77 lines
1.8 KiB
Python
77 lines
1.8 KiB
Python
from time import sleep
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import robot
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START_VALUES = [50, 50]
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THRESHOLD = 1.01
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def test_forward(arlo, l_power, r_power):
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arlo.reset_encoder_counts()
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arlo.go_diff(l_power, r_power, 1, 1)
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sleep(1)
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arlo.stop()
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return (
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int(arlo.read_left_wheel_encoder()),
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int(arlo.read_right_wheel_encoder())
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)
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def test_back(arlo, l_power, r_power):
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arlo.reset_encoder_counts()
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arlo.go_diff(l_power, r_power, 0, 0)
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sleep(1)
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arlo.stop()
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return (
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int(arlo.read_left_wheel_encoder()),
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int(arlo.read_right_wheel_encoder())
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)
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def test_clockwise(arlo, l_power, r_power):
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arlo.reset_encoder_counts()
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arlo.go_diff(l_power, r_power, 1, 0)
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sleep(1)
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arlo.stop()
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return (
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int(arlo.read_left_wheel_encoder()),
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int(arlo.read_right_wheel_encoder())
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)
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def test_anticlockwise(arlo, l_power, r_power):
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arlo.reset_encoder_counts()
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arlo.go_diff(l_power, r_power, 0, 1)
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sleep(1)
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arlo.stop()
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return (
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int(arlo.read_left_wheel_encoder()),
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int(arlo.read_right_wheel_encoder())
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)
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def main():
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values = [START_VALUES for _ in range(4)]
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calibrated = [False for _ in range(4)]
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tests = [
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test_forward,
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test_back,
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test_clockwise,
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test_anticlockwise
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]
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arlo = robot.Robot()
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while not all(calibrated):
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for i, function in enumerate(tests):
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if not calibrated[i]:
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wheels = function(arlo, *values[i])
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fraction = max(wheels)/min(wheels)
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if fraction < THRESHOLD:
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calibrated[i] = True
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elif wheels[0] < wheels[1]:
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values[i][0] += 1
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else:
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values[i][1] += 1
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print(values)
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if __name__ == "__main__":
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main() |