use torch.testing.assertclose instead to get more details about error in cis (#35659)
* use torch.testing.assertclose instead to get more details about error in cis * fix * style * test_all * revert for I bert * fixes and updates * more image processing fixes * more image processors * fix mamba and co * style * less strick * ok I won't be strict * skip and be done * up
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@@ -248,31 +248,31 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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self.assertEqual(encoding["pixel_values"].shape, expected_shape)
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expected_slice = torch.tensor([0.2796, 0.3138, 0.3481])
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self.assertTrue(torch.allclose(encoding["pixel_values"][0, 0, 0, :3], expected_slice, atol=1e-4))
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torch.testing.assert_close(encoding["pixel_values"][0, 0, 0, :3], expected_slice, rtol=1e-4, atol=1e-4)
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# verify area
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expected_area = torch.tensor([5887.9600, 11250.2061, 489353.8438, 837122.7500, 147967.5156, 165732.3438])
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self.assertTrue(torch.allclose(encoding["labels"][0]["area"], expected_area))
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torch.testing.assert_close(encoding["labels"][0]["area"], expected_area)
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# verify boxes
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expected_boxes_shape = torch.Size([6, 4])
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self.assertEqual(encoding["labels"][0]["boxes"].shape, expected_boxes_shape)
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expected_boxes_slice = torch.tensor([0.5503, 0.2765, 0.0604, 0.2215])
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self.assertTrue(torch.allclose(encoding["labels"][0]["boxes"][0], expected_boxes_slice, atol=1e-3))
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torch.testing.assert_close(encoding["labels"][0]["boxes"][0], expected_boxes_slice, rtol=1e-3, atol=1e-3)
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# verify image_id
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expected_image_id = torch.tensor([39769])
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self.assertTrue(torch.allclose(encoding["labels"][0]["image_id"], expected_image_id))
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torch.testing.assert_close(encoding["labels"][0]["image_id"], expected_image_id)
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# verify is_crowd
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expected_is_crowd = torch.tensor([0, 0, 0, 0, 0, 0])
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self.assertTrue(torch.allclose(encoding["labels"][0]["iscrowd"], expected_is_crowd))
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torch.testing.assert_close(encoding["labels"][0]["iscrowd"], expected_is_crowd)
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# verify class_labels
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expected_class_labels = torch.tensor([75, 75, 63, 65, 17, 17])
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self.assertTrue(torch.allclose(encoding["labels"][0]["class_labels"], expected_class_labels))
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torch.testing.assert_close(encoding["labels"][0]["class_labels"], expected_class_labels)
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# verify orig_size
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expected_orig_size = torch.tensor([480, 640])
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self.assertTrue(torch.allclose(encoding["labels"][0]["orig_size"], expected_orig_size))
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torch.testing.assert_close(encoding["labels"][0]["orig_size"], expected_orig_size)
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# verify size
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expected_size = torch.tensor([800, 1066])
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self.assertTrue(torch.allclose(encoding["labels"][0]["size"], expected_size))
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torch.testing.assert_close(encoding["labels"][0]["size"], expected_size)
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@slow
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def test_call_pytorch_with_coco_panoptic_annotations(self):
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@@ -295,35 +295,35 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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self.assertEqual(encoding["pixel_values"].shape, expected_shape)
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expected_slice = torch.tensor([0.2796, 0.3138, 0.3481])
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self.assertTrue(torch.allclose(encoding["pixel_values"][0, 0, 0, :3], expected_slice, atol=1e-4))
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torch.testing.assert_close(encoding["pixel_values"][0, 0, 0, :3], expected_slice, rtol=1e-4, atol=1e-4)
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# verify area
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expected_area = torch.tensor([147979.6875, 165527.0469, 484638.5938, 11292.9375, 5879.6562, 7634.1147])
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self.assertTrue(torch.allclose(encoding["labels"][0]["area"], expected_area))
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torch.testing.assert_close(encoding["labels"][0]["area"], expected_area)
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# verify boxes
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expected_boxes_shape = torch.Size([6, 4])
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self.assertEqual(encoding["labels"][0]["boxes"].shape, expected_boxes_shape)
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expected_boxes_slice = torch.tensor([0.2625, 0.5437, 0.4688, 0.8625])
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self.assertTrue(torch.allclose(encoding["labels"][0]["boxes"][0], expected_boxes_slice, atol=1e-3))
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torch.testing.assert_close(encoding["labels"][0]["boxes"][0], expected_boxes_slice, rtol=1e-3, atol=1e-3)
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# verify image_id
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expected_image_id = torch.tensor([39769])
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self.assertTrue(torch.allclose(encoding["labels"][0]["image_id"], expected_image_id))
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torch.testing.assert_close(encoding["labels"][0]["image_id"], expected_image_id)
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# verify is_crowd
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expected_is_crowd = torch.tensor([0, 0, 0, 0, 0, 0])
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self.assertTrue(torch.allclose(encoding["labels"][0]["iscrowd"], expected_is_crowd))
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torch.testing.assert_close(encoding["labels"][0]["iscrowd"], expected_is_crowd)
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# verify class_labels
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expected_class_labels = torch.tensor([17, 17, 63, 75, 75, 93])
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self.assertTrue(torch.allclose(encoding["labels"][0]["class_labels"], expected_class_labels))
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torch.testing.assert_close(encoding["labels"][0]["class_labels"], expected_class_labels)
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# verify masks
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expected_masks_sum = 822873
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relative_error = torch.abs(encoding["labels"][0]["masks"].sum() - expected_masks_sum) / expected_masks_sum
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self.assertTrue(relative_error < 1e-3)
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# verify orig_size
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expected_orig_size = torch.tensor([480, 640])
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self.assertTrue(torch.allclose(encoding["labels"][0]["orig_size"], expected_orig_size))
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torch.testing.assert_close(encoding["labels"][0]["orig_size"], expected_orig_size)
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# verify size
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expected_size = torch.tensor([800, 1066])
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self.assertTrue(torch.allclose(encoding["labels"][0]["size"], expected_size))
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torch.testing.assert_close(encoding["labels"][0]["size"], expected_size)
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@slow
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def test_batched_coco_detection_annotations(self):
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@@ -389,8 +389,8 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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[0.5790, 0.4115, 0.3430, 0.7161],
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]
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)
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self.assertTrue(torch.allclose(encoding["labels"][0]["boxes"], expected_boxes_0, rtol=1e-3))
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self.assertTrue(torch.allclose(encoding["labels"][1]["boxes"], expected_boxes_1, rtol=1e-3))
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torch.testing.assert_close(encoding["labels"][0]["boxes"], expected_boxes_0, atol=1e-3, rtol=1e-3)
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torch.testing.assert_close(encoding["labels"][1]["boxes"], expected_boxes_1, atol=1e-3, rtol=1e-3)
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# Check the masks have also been padded
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self.assertEqual(encoding["labels"][0]["masks"].shape, torch.Size([6, 800, 1066]))
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@@ -441,8 +441,8 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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unnormalized_boxes_1[:, 1] + unnormalized_boxes_1[:, 3] / 2,
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]
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).T
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self.assertTrue(torch.allclose(encoding["labels"][0]["boxes"], expected_boxes_0, rtol=1))
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self.assertTrue(torch.allclose(encoding["labels"][1]["boxes"], expected_boxes_1, rtol=1))
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torch.testing.assert_close(encoding["labels"][0]["boxes"], expected_boxes_0, atol=1, rtol=1)
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torch.testing.assert_close(encoding["labels"][1]["boxes"], expected_boxes_1, atol=1, rtol=1)
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def test_batched_coco_panoptic_annotations(self):
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# prepare image, target and masks_path
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@@ -511,8 +511,8 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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[0.2997, 0.2994, 0.5994, 0.5987],
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]
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)
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self.assertTrue(torch.allclose(encoding["labels"][0]["boxes"], expected_boxes_0, rtol=1e-3))
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self.assertTrue(torch.allclose(encoding["labels"][1]["boxes"], expected_boxes_1, rtol=1e-3))
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torch.testing.assert_close(encoding["labels"][0]["boxes"], expected_boxes_0, atol=1e-3, rtol=1e-3)
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torch.testing.assert_close(encoding["labels"][1]["boxes"], expected_boxes_1, atol=1e-3, rtol=1e-3)
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# Check the masks have also been padded
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self.assertEqual(encoding["labels"][0]["masks"].shape, torch.Size([6, 800, 1066]))
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@@ -564,8 +564,8 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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unnormalized_boxes_1[:, 1] + unnormalized_boxes_1[:, 3] / 2,
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]
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).T
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self.assertTrue(torch.allclose(encoding["labels"][0]["boxes"], expected_boxes_0, rtol=1))
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self.assertTrue(torch.allclose(encoding["labels"][1]["boxes"], expected_boxes_1, rtol=1))
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torch.testing.assert_close(encoding["labels"][0]["boxes"], expected_boxes_0, atol=1, rtol=1)
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torch.testing.assert_close(encoding["labels"][1]["boxes"], expected_boxes_1, atol=1, rtol=1)
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def test_max_width_max_height_resizing_and_pad_strategy(self):
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for image_processing_class in self.image_processor_list:
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@@ -694,7 +694,7 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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)
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)
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# verify area
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self.assertTrue(torch.allclose(encoding_cpu["labels"][0]["area"], encoding_gpu["labels"][0]["area"].to("cpu")))
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torch.testing.assert_close(encoding_cpu["labels"][0]["area"], encoding_gpu["labels"][0]["area"].to("cpu"))
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# verify boxes
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self.assertEqual(encoding_cpu["labels"][0]["boxes"].shape, encoding_gpu["labels"][0]["boxes"].shape)
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self.assertTrue(
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@@ -703,12 +703,12 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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)
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)
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# verify image_id
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self.assertTrue(
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torch.allclose(encoding_cpu["labels"][0]["image_id"], encoding_gpu["labels"][0]["image_id"].to("cpu"))
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torch.testing.assert_close(
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encoding_cpu["labels"][0]["image_id"], encoding_gpu["labels"][0]["image_id"].to("cpu")
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)
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# verify is_crowd
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self.assertTrue(
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torch.allclose(encoding_cpu["labels"][0]["iscrowd"], encoding_gpu["labels"][0]["iscrowd"].to("cpu"))
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torch.testing.assert_close(
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encoding_cpu["labels"][0]["iscrowd"], encoding_gpu["labels"][0]["iscrowd"].to("cpu")
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)
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# verify class_labels
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self.assertTrue(
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@@ -717,11 +717,11 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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)
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)
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# verify orig_size
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self.assertTrue(
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torch.allclose(encoding_cpu["labels"][0]["orig_size"], encoding_gpu["labels"][0]["orig_size"].to("cpu"))
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torch.testing.assert_close(
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encoding_cpu["labels"][0]["orig_size"], encoding_gpu["labels"][0]["orig_size"].to("cpu")
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)
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# verify size
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self.assertTrue(torch.allclose(encoding_cpu["labels"][0]["size"], encoding_gpu["labels"][0]["size"].to("cpu")))
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torch.testing.assert_close(encoding_cpu["labels"][0]["size"], encoding_gpu["labels"][0]["size"].to("cpu"))
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@slow
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@require_torch_gpu
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@@ -756,7 +756,7 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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)
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)
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# verify area
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self.assertTrue(torch.allclose(encoding_cpu["labels"][0]["area"], encoding_gpu["labels"][0]["area"].to("cpu")))
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torch.testing.assert_close(encoding_cpu["labels"][0]["area"], encoding_gpu["labels"][0]["area"].to("cpu"))
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# verify boxes
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self.assertEqual(encoding_cpu["labels"][0]["boxes"].shape, encoding_gpu["labels"][0]["boxes"].shape)
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self.assertTrue(
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@@ -765,12 +765,12 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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)
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)
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# verify image_id
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self.assertTrue(
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torch.allclose(encoding_cpu["labels"][0]["image_id"], encoding_gpu["labels"][0]["image_id"].to("cpu"))
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torch.testing.assert_close(
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encoding_cpu["labels"][0]["image_id"], encoding_gpu["labels"][0]["image_id"].to("cpu")
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)
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# verify is_crowd
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self.assertTrue(
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torch.allclose(encoding_cpu["labels"][0]["iscrowd"], encoding_gpu["labels"][0]["iscrowd"].to("cpu"))
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torch.testing.assert_close(
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encoding_cpu["labels"][0]["iscrowd"], encoding_gpu["labels"][0]["iscrowd"].to("cpu")
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)
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# verify class_labels
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self.assertTrue(
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@@ -784,8 +784,8 @@ class DetrImageProcessingTest(AnnotationFormatTestMixin, ImageProcessingTestMixi
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relative_error = torch.abs(masks_sum_cpu - masks_sum_gpu) / masks_sum_cpu
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self.assertTrue(relative_error < 1e-3)
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# verify orig_size
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self.assertTrue(
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torch.allclose(encoding_cpu["labels"][0]["orig_size"], encoding_gpu["labels"][0]["orig_size"].to("cpu"))
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torch.testing.assert_close(
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encoding_cpu["labels"][0]["orig_size"], encoding_gpu["labels"][0]["orig_size"].to("cpu")
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)
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# verify size
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self.assertTrue(torch.allclose(encoding_cpu["labels"][0]["size"], encoding_gpu["labels"][0]["size"].to("cpu")))
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torch.testing.assert_close(encoding_cpu["labels"][0]["size"], encoding_gpu["labels"][0]["size"].to("cpu"))
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