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test_dubins_path_planning.py
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from unittest import TestCase
import numpy as np
np.random.seed(12345)
from PathPlanning.DubinsPath import dubins_path_planning
class Test(TestCase):
@staticmethod
def check_edge_condition(px, py, pyaw, start_x, start_y, start_yaw, end_x, end_y, end_yaw):
assert (abs(px[0] - start_x) <= 0.01)
assert (abs(py[0] - start_y) <= 0.01)
assert (abs(pyaw[0] - start_yaw) <= 0.01)
print("x", px[-1], end_x)
assert (abs(px[-1] - end_x) <= 0.01)
print("y", py[-1], end_y)
assert (abs(py[-1] - end_y) <= 0.01)
print("yaw", pyaw[-1], end_yaw)
assert (abs(pyaw[-1] - end_yaw) <= 0.01)
def test1(self):
start_x = 1.0 # [m]
start_y = 1.0 # [m]
start_yaw = np.deg2rad(45.0) # [rad]
end_x = -3.0 # [m]
end_y = -3.0 # [m]
end_yaw = np.deg2rad(-45.0) # [rad]
curvature = 1.0
px, py, pyaw, mode, clen = dubins_path_planning.dubins_path_planning(
start_x, start_y, start_yaw, end_x, end_y, end_yaw, curvature)
self.check_edge_condition(px, py, pyaw, start_x, start_y, start_yaw, end_x, end_y, end_yaw)
def test2(self):
dubins_path_planning.show_animation = False
dubins_path_planning.main()
def test3(self):
N_TEST = 10
for i in range(N_TEST):
start_x = (np.random.rand() - 0.5) * 10.0 # [m]
start_y = (np.random.rand() - 0.5) * 10.0 # [m]
start_yaw = np.deg2rad((np.random.rand() - 0.5) * 180.0) # [rad]
end_x = (np.random.rand() - 0.5) * 10.0 # [m]
end_y = (np.random.rand() - 0.5) * 10.0 # [m]
end_yaw = np.deg2rad((np.random.rand() - 0.5) * 180.0) # [rad]
curvature = 1.0 / (np.random.rand() * 5.0)
px, py, pyaw, mode, clen = dubins_path_planning.dubins_path_planning(
start_x, start_y, start_yaw, end_x, end_y, end_yaw, curvature)
self.check_edge_condition(px, py, pyaw, start_x, start_y, start_yaw, end_x, end_y, end_yaw)