Add EfficientNet Image PreProcessor (#37055)
* added efficientnet image preprocessor but tests fail * ruff checks pass * ruff formatted * properly pass rescale_offset through the functions * - corrected indentation, ordering of methods - reshape test passes when casted to float64 - equivalence test doesn't pass * all tests now pass - changes order of rescale, normalize acc to slow - rescale_offset defaults to False acc to slow - resample was causing difference in fast and slow. Changing test to bilinear resolves this difference * ruff reformat * F.InterpolationMode.NEAREST_EXACT gives TypeError: Object of type InterpolationMode is not JSON serializable * fixes offset not being applied when do_rescale and do_normalization are both true * - using nearest_exact sampling - added tests for rescale + normalize * resolving reviews --------- Co-authored-by: Yoni Gozlan <74535834+yonigozlan@users.noreply.github.com>
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@@ -17,15 +17,26 @@ import unittest
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import numpy as np
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from transformers.image_utils import PILImageResampling
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from transformers.testing_utils import require_torch, require_vision
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from transformers.utils import is_vision_available
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from transformers.utils import (
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is_torch_available,
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is_torchvision_available,
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is_vision_available,
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)
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from ...test_image_processing_common import ImageProcessingTestMixin, prepare_image_inputs
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if is_torch_available():
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import torch
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if is_vision_available():
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from transformers import EfficientNetImageProcessor
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if is_torchvision_available():
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from transformers import EfficientNetImageProcessorFast
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class EfficientNetImageProcessorTester:
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def __init__(
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@@ -41,6 +52,10 @@ class EfficientNetImageProcessorTester:
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do_normalize=True,
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image_mean=[0.5, 0.5, 0.5],
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image_std=[0.5, 0.5, 0.5],
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do_rescale=True,
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rescale_offset=True,
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rescale_factor=1 / 127.5,
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resample=PILImageResampling.BILINEAR, # NEAREST is too different between PIL and torchvision
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):
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size = size if size is not None else {"height": 18, "width": 18}
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self.parent = parent
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@@ -54,6 +69,7 @@ class EfficientNetImageProcessorTester:
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self.do_normalize = do_normalize
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self.image_mean = image_mean
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self.image_std = image_std
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self.resample = resample
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def prepare_image_processor_dict(self):
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return {
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@@ -62,6 +78,7 @@ class EfficientNetImageProcessorTester:
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"do_normalize": self.do_normalize,
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"do_resize": self.do_resize,
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"size": self.size,
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"resample": self.resample,
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}
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def expected_output_image_shape(self, images):
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@@ -83,6 +100,7 @@ class EfficientNetImageProcessorTester:
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@require_vision
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class EfficientNetImageProcessorTest(ImageProcessingTestMixin, unittest.TestCase):
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image_processing_class = EfficientNetImageProcessor if is_vision_available() else None
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fast_image_processing_class = EfficientNetImageProcessorFast if is_torchvision_available() else None
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def setUp(self):
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super().setUp()
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@@ -93,30 +111,80 @@ class EfficientNetImageProcessorTest(ImageProcessingTestMixin, unittest.TestCase
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return self.image_processor_tester.prepare_image_processor_dict()
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def test_image_processor_properties(self):
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image_processing = self.image_processing_class(**self.image_processor_dict)
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self.assertTrue(hasattr(image_processing, "image_mean"))
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self.assertTrue(hasattr(image_processing, "image_std"))
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self.assertTrue(hasattr(image_processing, "do_normalize"))
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self.assertTrue(hasattr(image_processing, "do_resize"))
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self.assertTrue(hasattr(image_processing, "size"))
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for image_processing_class in self.image_processor_list:
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image_processing = image_processing_class(**self.image_processor_dict)
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self.assertTrue(hasattr(image_processing, "image_mean"))
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self.assertTrue(hasattr(image_processing, "image_std"))
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self.assertTrue(hasattr(image_processing, "do_normalize"))
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self.assertTrue(hasattr(image_processing, "do_resize"))
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self.assertTrue(hasattr(image_processing, "size"))
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def test_image_processor_from_dict_with_kwargs(self):
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image_processor = self.image_processing_class.from_dict(self.image_processor_dict)
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self.assertEqual(image_processor.size, {"height": 18, "width": 18})
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for image_processing_class in self.image_processor_list:
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image_processor = image_processing_class.from_dict(self.image_processor_dict)
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self.assertEqual(image_processor.size, {"height": 18, "width": 18})
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image_processor = self.image_processing_class.from_dict(self.image_processor_dict, size=42)
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self.assertEqual(image_processor.size, {"height": 42, "width": 42})
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image_processor = image_processing_class.from_dict(self.image_processor_dict, size=42)
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self.assertEqual(image_processor.size, {"height": 42, "width": 42})
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def test_rescale(self):
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# EfficientNet optionally rescales between -1 and 1 instead of the usual 0 and 1
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image = np.arange(0, 256, 1, dtype=np.uint8).reshape(1, 8, 32)
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image_processor = self.image_processing_class(**self.image_processor_dict)
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for image_processing_class in self.image_processor_list:
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image_processor = image_processing_class(**self.image_processor_dict)
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if image_processing_class == EfficientNetImageProcessorFast:
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image = torch.from_numpy(image)
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rescaled_image = image_processor.rescale(image, scale=1 / 127.5)
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expected_image = (image * (1 / 127.5)).astype(np.float32) - 1
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self.assertTrue(np.allclose(rescaled_image, expected_image))
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# Scale between [-1, 1] with rescale_factor 1/127.5 and rescale_offset=True
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rescaled_image = image_processor.rescale(image, scale=1 / 127.5, offset=True)
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expected_image = (image * (1 / 127.5)) - 1
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self.assertTrue(torch.allclose(rescaled_image, expected_image))
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rescaled_image = image_processor.rescale(image, scale=1 / 255, offset=False)
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expected_image = (image / 255.0).astype(np.float32)
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self.assertTrue(np.allclose(rescaled_image, expected_image))
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# Scale between [0, 1] with rescale_factor 1/255 and rescale_offset=True
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rescaled_image = image_processor.rescale(image, scale=1 / 255, offset=False)
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expected_image = image / 255.0
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self.assertTrue(torch.allclose(rescaled_image, expected_image))
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else:
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rescaled_image = image_processor.rescale(image, scale=1 / 127.5, dtype=np.float64)
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expected_image = (image * (1 / 127.5)).astype(np.float64) - 1
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self.assertTrue(np.allclose(rescaled_image, expected_image))
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rescaled_image = image_processor.rescale(image, scale=1 / 255, offset=False, dtype=np.float64)
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expected_image = (image / 255.0).astype(np.float64)
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self.assertTrue(np.allclose(rescaled_image, expected_image))
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@require_vision
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@require_torch
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def test_rescale_normalize(self):
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if self.image_processing_class is None or self.fast_image_processing_class is None:
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self.skipTest(reason="Skipping slow/fast equivalence test as one of the image processors is not defined")
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image = torch.arange(0, 256, 1, dtype=torch.uint8).reshape(1, 8, 32).repeat(3, 1, 1)
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image_mean_0 = (0.0, 0.0, 0.0)
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image_std_0 = (1.0, 1.0, 1.0)
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image_mean_1 = (0.5, 0.5, 0.5)
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image_std_1 = (0.5, 0.5, 0.5)
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image_processor_fast = self.fast_image_processing_class(**self.image_processor_dict)
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# Rescale between [-1, 1] with rescale_factor=1/127.5 and rescale_offset=True. Then normalize
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rescaled_normalized = image_processor_fast.rescale_and_normalize(
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image, True, 1 / 127.5, True, image_mean_0, image_std_0, True
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)
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expected_image = (image * (1 / 127.5)) - 1
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expected_image = (expected_image - torch.tensor(image_mean_0).view(3, 1, 1)) / torch.tensor(image_std_0).view(
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3, 1, 1
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)
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self.assertTrue(torch.allclose(rescaled_normalized, expected_image, rtol=1e-3))
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# Rescale between [0, 1] with rescale_factor=1/255 and rescale_offset=False. Then normalize
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rescaled_normalized = image_processor_fast.rescale_and_normalize(
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image, True, 1 / 255, True, image_mean_1, image_std_1, False
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)
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expected_image = image * (1 / 255.0)
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expected_image = (expected_image - torch.tensor(image_mean_1).view(3, 1, 1)) / torch.tensor(image_std_1).view(
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3, 1, 1
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)
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self.assertTrue(torch.allclose(rescaled_normalized, expected_image, rtol=1e-3))
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