def plot_arrow(color, center_line, dist, normalized=False): ARROW_LENGTH = 3.0 origin_p = center_line.interpolate(dist, normalized=normalized) normal_line = get_normal_to_line(center_line, dist, normalized=normalized) half_arrow = extend_line(normal_line, ARROW_LENGTH - normal_line.length, direction="forward") half_arrow = affinity.rotate(half_arrow, -55.0, origin=origin_p) plot_line(color, half_arrow) half_arrow = affinity.rotate(half_arrow, -70.0, origin=origin_p) plot_line(color, half_arrow)
def plot_sample_intersection_curvature(samples, title="Sample curvature over intersection coordinates", ax=None, color=None): """Plot each sample's curvature relative to the intersection distances coordinate system""" print "Curvature calculation..." sample_steps = 100 curvatures = np.zeros((len(samples), sample_steps)) line_dists = np.array(curvatures) for i, s in enumerate(samples): track_line = s['geometry']['track_line'] entry_line = s['geometry']['entry_line'] exit_line = s['geometry']['exit_line'] try: half_angle_vec = extract_features.get_half_angle_vec(exit_line, s['X'][_feature_types.index('intersection_angle')]) # Limit path to a set s_di interval at intersection # _, track_line = split_path_at_line_dist(track_line, entry_line, half_angle_vec, entry_line.length-36.0) # track_line, _ = split_path_at_line_dist(track_line, exit_line, half_angle_vec, 36.0) curvature_sample_coords = [track_line.interpolate(dist).coords[0] for dist in np.linspace(0, track_line.length, sample_steps)] X, Y = zip(*curvature_sample_coords) way_line, dists = extract_features.set_up_way_line_and_distances(entry_line, exit_line) way_line = extract_features.extend_line(way_line, 1000.0, direction="both") # Make sure the way_line is not too short to cover the whole track LineDistances, _ = extract_features.get_distances_from_cartesian(X, Y, way_line, half_angle_vec) line_dists[i] = LineDistances - 1000.0 - INT_DIST # Shift to the actual coordinate system curvatures[i] = extract_features.get_line_curvature(track_line, sample_steps) except extract_features.NoIntersectionError as e: #plot_helper.plot_intersection(s, additional_lines=[way_line]) print e continue # fig = plt.figure() # sns.plt.hold(True) for i in range(curvatures.shape[0]): handle, = ax.plot(line_dists[i], np.degrees(curvatures[i]), color=color, linestyle='-') return handle # Only need one