# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import numpy as np from shapely.geometry import Polygon """ :param det_x: [1, N] Xs of detection's vertices :param det_y: [1, N] Ys of detection's vertices :param gt_x: [1, N] Xs of groundtruth's vertices :param gt_y: [1, N] Ys of groundtruth's vertices ############## All the calculation of 'AREA' in this script is handled by: 1) First generating a binary mask with the polygon area filled up with 1's 2) Summing up all the 1's """ def area(x, y): polygon = Polygon(np.stack([x, y], axis=1)) return float(polygon.area) def approx_area_of_intersection(det_x, det_y, gt_x, gt_y): """ This helper determine if both polygons are intersecting with each others with an approximation method. Area of intersection represented by the minimum bounding rectangular [xmin, ymin, xmax, ymax] """ det_ymax = np.max(det_y) det_xmax = np.max(det_x) det_ymin = np.min(det_y) det_xmin = np.min(det_x) gt_ymax = np.max(gt_y) gt_xmax = np.max(gt_x) gt_ymin = np.min(gt_y) gt_xmin = np.min(gt_x) all_min_ymax = np.minimum(det_ymax, gt_ymax) all_max_ymin = np.maximum(det_ymin, gt_ymin) intersect_heights = np.maximum(0.0, (all_min_ymax - all_max_ymin)) all_min_xmax = np.minimum(det_xmax, gt_xmax) all_max_xmin = np.maximum(det_xmin, gt_xmin) intersect_widths = np.maximum(0.0, (all_min_xmax - all_max_xmin)) return intersect_heights * intersect_widths def area_of_intersection(det_x, det_y, gt_x, gt_y): p1 = Polygon(np.stack([det_x, det_y], axis=1)).buffer(0) p2 = Polygon(np.stack([gt_x, gt_y], axis=1)).buffer(0) return float(p1.intersection(p2).area) def area_of_union(det_x, det_y, gt_x, gt_y): p1 = Polygon(np.stack([det_x, det_y], axis=1)).buffer(0) p2 = Polygon(np.stack([gt_x, gt_y], axis=1)).buffer(0) return float(p1.union(p2).area) def iou(det_x, det_y, gt_x, gt_y): return area_of_intersection(det_x, det_y, gt_x, gt_y) / ( area_of_union(det_x, det_y, gt_x, gt_y) + 1.0) def iod(det_x, det_y, gt_x, gt_y): """ This helper determine the fraction of intersection area over detection area """ return area_of_intersection(det_x, det_y, gt_x, gt_y) / ( area(det_x, det_y) + 1.0)