Remove update bounds function
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df6e7351c8
commit
dc7628ee8d
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@ -399,86 +399,6 @@ class ReferencePath:
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return self.waypoints[wp_id]
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return self.waypoints[wp_id]
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def update_bounds(self, wp_id, safety_margin):
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"""
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Compute upper and lower bounds of the drivable area orthogonal to
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the given waypoint.
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:param safety_margin: safety margin of the car orthogonal to path in m
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:param wp_id: ID of reference waypoint
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"""
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# Get reference waypoint
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wp = self.get_waypoint(wp_id)
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# Get waypoint's border cells in map coordinates
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ub_p = self.map.w2m(wp.border_cells[0][0], wp.border_cells[0][1])
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lb_p = self.map.w2m(wp.border_cells[1][0], wp.border_cells[1][1])
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# Compute path from left border cell to right border cell
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x_list, y_list = line(ub_p[0], ub_p[1], lb_p[0], lb_p[1])
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# Initialize upper and lower bound of drivable area to
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# upper bound of path
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ub_o, lb_o = ub_p, ub_p
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# Initialize upper and lower bound of best segment to upper bound of
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# path
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ub_ls, lb_ls = ub_p, ub_p
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# Iterate over path from left border to right border
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for x, y in zip(x_list[1:], y_list[1:]):
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# If cell is free, update lower bound
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if self.map.data[y, x] == 1:
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lb_o = (x, y)
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# If cell is occupied, end segment. Update best segment if current
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# segment is larger than previous best segment. Then, reset upper
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# and lower bound to current cell
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if self.map.data[y, x] == 0 or (x, y) == lb_p:
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if np.sqrt((ub_o[0]-lb_o[0])**2+(ub_o[1]-lb_o[1])**2) > \
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np.sqrt((ub_ls[0]-lb_ls[0])**2+(ub_ls[1]-lb_ls[1])**2):
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ub_ls = ub_o
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lb_ls = lb_o
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# Start new segment
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ub_o = (x, y)
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lb_o = (x, y)
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# Transform upper and lower bound cells to world coordinates
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ub_ls = self.map.m2w(ub_ls[0], ub_ls[1])
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lb_ls = self.map.m2w(lb_ls[0], lb_ls[1])
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# Check sign of upper and lower bound
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angle_ub = np.mod(np.arctan2(ub_ls[1] - wp.y, ub_ls[0] - wp.x)
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- wp.psi + math.pi, 2*math.pi) - math.pi
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angle_lb = np.mod(np.arctan2(lb_ls[1] - wp.y, lb_ls[0] - wp.x)
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- wp.psi + math.pi, 2*math.pi) - math.pi
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sign_ub = np.sign(angle_ub)
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sign_lb = np.sign(angle_lb)
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# Compute upper and lower bound of largest drivable area
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ub = sign_ub * np.sqrt((ub_ls[0]-wp.x)**2+(ub_ls[1]-wp.y)**2)
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lb = sign_lb * np.sqrt((lb_ls[0]-wp.x)**2+(lb_ls[1]-wp.y)**2)
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# Add safety margin (attribute of car) to bounds
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ub = ub - safety_margin
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lb = lb + safety_margin
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# Check feasibility of the path
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if ub < lb:
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# Upper and lower bound of 0 indicate an infeasible path
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# given the specified safety margin
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ub, lb = 0.0, 0.0
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# Compute absolute angle of bound cell
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angle_ub = np.mod(math.pi/2 + wp.psi + math.pi, 2 * math.pi) - math.pi
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angle_lb = np.mod(-math.pi/2 + wp.psi + math.pi, 2 * math.pi) - math.pi
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# Compute cell on bound for computed distance ub and lb
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ub_ls = wp.x + ub * np.cos(angle_ub), wp.y + ub * np.sin(angle_ub)
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lb_ls = wp.x - lb * np.cos(angle_lb), wp.y - lb * np.sin(angle_lb)
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border_cells = (ub_ls, lb_ls)
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return lb, ub, border_cells
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def add_obstacles(self, obstacles):
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def add_obstacles(self, obstacles):
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"""
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"""
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Add obstacles to the path.
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Add obstacles to the path.
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@ -753,7 +673,7 @@ class ReferencePath:
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if __name__ == '__main__':
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if __name__ == '__main__':
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# Select Path | 'Race' or 'Q'
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# Select Path | 'Race' or 'Q'
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path = 'Q'
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path = 'Race'
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# Create Map
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# Create Map
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if path == 'Race':
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if path == 'Race':
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@ -806,7 +726,7 @@ if __name__ == '__main__':
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print('Invalid path!')
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print('Invalid path!')
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exit(1)
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exit(1)
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ub, lb, border_cells = reference_path.update_path_constraints(0, reference_path.n_waypoints, 0.60, 0.1)
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ub, lb, border_cells = reference_path.update_path_constraints(0, reference_path.n_waypoints, 0.02, 0.01)
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# Get x and y locations of border cells for upper and lower bound
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# Get x and y locations of border cells for upper and lower bound
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for wp_id in range(reference_path.n_waypoints):
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for wp_id in range(reference_path.n_waypoints):
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if ub[wp_id] > 0.0 and lb[wp_id] > 0.0:
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if ub[wp_id] > 0.0 and lb[wp_id] > 0.0:
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