import cv2 import numpy as np from scipy import interpolate def intersection(x, p1, p2): x1, y1 = p1 x2, y2 = p2 if x2 == x1: return 0 k = (x - x1) / (x2 - x1) return k * (y2 - y1) + y1 def midpoint(p1, p2, typed=float): return [typed((p1[0] + p2[0]) / 2), typed((p1[1] + p2[1]) / 2)] def resize_with_coordinates(image, width, height, coordinates): original_height, original_width = image.shape[:2] resized_image = cv2.resize(image, (width, height)) if coordinates is not None: assert coordinates.ndim == 2 assert coordinates.shape[-1] == 2 rate_x = width / original_width rate_y = height / original_height coordinates = coordinates * (rate_x, rate_y) return resized_image, coordinates def box2seg(image, boxes, label): height, width = image.shape[:2] mask = np.zeros((height, width), dtype=np.float32) seg = np.zeros((height, width), dtype=np.float32) points = [] for box_index in range(boxes.shape[0]): box = boxes[box_index, :, :] # 4x2 left_top = box[0] right_top = box[1] right_bottom = box[2] left_bottom = box[3] left = [(left_top[0] + left_bottom[0]) / 2, (left_top[1] + left_bottom[1]) / 2] right = [(right_top[0] + right_bottom[0]) / 2, (right_top[1] + right_bottom[1]) / 2] center = midpoint(left, right) points.append(midpoint(left, center)) points.append(midpoint(right, center)) poly = np.array([midpoint(left_top, center), midpoint(right_top, center), midpoint(right_bottom, center), midpoint(left_bottom, center) ]) seg = cv2.fillPoly(seg, [poly.reshape(4, 1, 2).astype(np.int32)], int(label[box_index])) left_y = intersection(0, points[0], points[1]) right_y = intersection(width, points[-1], points[-2]) points.insert(0, [0, left_y]) points.append([width, right_y]) points = np.array(points) f = interpolate.interp1d(points[:, 0], points[:, 1], fill_value='extrapolate') xnew = np.arange(0, width, 1) ynew = f(xnew).clip(0, height-1) for x in range(width - 1): mask[int(ynew[x]), x] = 1 return ynew.reshape(1, -1).round(), seg