from collections import OrderedDict import torch from common_utils import TestCase from torchvision.models.detection.anchor_utils import AnchorGenerator from torchvision.models.detection.image_list import ImageList class Tester(TestCase): def test_incorrect_anchors(self): incorrect_sizes = ((2, 4, 8), (32, 8), ) incorrect_aspects = (0.5, 1.0) anc = AnchorGenerator(incorrect_sizes, incorrect_aspects) image1 = torch.randn(3, 800, 800) image_list = ImageList(image1, [(800, 800)]) feature_maps = [torch.randn(1, 50)] self.assertRaises(ValueError, anc, image_list, feature_maps) def _init_test_anchor_generator(self): anchor_sizes = ((10,),) aspect_ratios = ((1,),) anchor_generator = AnchorGenerator(anchor_sizes, aspect_ratios) return anchor_generator def get_features(self, images): s0, s1 = images.shape[-2:] features = [torch.rand(2, 8, s0 // 5, s1 // 5)] return features def test_anchor_generator(self): images = torch.randn(2, 3, 15, 15) features = self.get_features(images) image_shapes = [i.shape[-2:] for i in images] images = ImageList(images, image_shapes) model = self._init_test_anchor_generator() model.eval() anchors = model(images, features) # Estimate the number of target anchors grid_sizes = [f.shape[-2:] for f in features] num_anchors_estimated = 0 for sizes, num_anchors_per_loc in zip(grid_sizes, model.num_anchors_per_location()): num_anchors_estimated += sizes[0] * sizes[1] * num_anchors_per_loc anchors_output = torch.tensor([[-5., -5., 5., 5.], [0., -5., 10., 5.], [5., -5., 15., 5.], [-5., 0., 5., 10.], [0., 0., 10., 10.], [5., 0., 15., 10.], [-5., 5., 5., 15.], [0., 5., 10., 15.], [5., 5., 15., 15.]]) self.assertEqual(num_anchors_estimated, 9) self.assertEqual(len(anchors), 2) self.assertEqual(tuple(anchors[0].shape), (9, 4)) self.assertEqual(tuple(anchors[1].shape), (9, 4)) self.assertEqual(anchors[0], anchors_output) self.assertEqual(anchors[1], anchors_output)