Efficientformer (#20459)
- Adds EfficientFormer V1 to transformers - PR co-authored by @novice03 and @Bearnardd Co-authored-by: novice <pranavpulijala@gmail.com> Co-authored-by: novice <44259234+novice03@users.noreply.github.com>
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tests/models/efficientformer/__init__.py
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tests/models/efficientformer/__init__.py
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# coding=utf-8
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# Copyright 2021 HuggingFace Inc.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import unittest
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import numpy as np
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from transformers.testing_utils import require_torch, require_vision
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from transformers.utils import is_torch_available, is_vision_available
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from ...test_feature_extraction_common import FeatureExtractionSavingTestMixin, 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 PIL import Image
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from transformers import ViTFeatureExtractor
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class EfficientFormerImageProcessorTester(unittest.TestCase):
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def __init__(
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self,
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parent,
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batch_size=13,
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num_channels=3,
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image_size=224,
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min_resolution=30,
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max_resolution=400,
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do_resize=True,
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size=None,
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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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):
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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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self.batch_size = batch_size
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self.num_channels = num_channels
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self.image_size = image_size
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self.min_resolution = min_resolution
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self.max_resolution = max_resolution
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self.do_resize = do_resize
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self.size = size
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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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def prepare_feat_extract_dict(self):
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return {
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"image_mean": self.image_mean,
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"image_std": self.image_std,
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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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}
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@require_torch
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@require_vision
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class EfficientFormerImageProcessorTest(FeatureExtractionSavingTestMixin, unittest.TestCase):
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feature_extraction_class = ViTFeatureExtractor if is_vision_available() else None
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def setUp(self):
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self.feature_extract_tester = EfficientFormerImageProcessorTester(self)
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@property
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def feat_extract_dict(self):
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return self.feature_extract_tester.prepare_feat_extract_dict()
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def test_feat_extract_properties(self):
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feature_extractor = self.feature_extraction_class(**self.feat_extract_dict)
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self.assertTrue(hasattr(feature_extractor, "image_mean"))
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self.assertTrue(hasattr(feature_extractor, "image_std"))
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self.assertTrue(hasattr(feature_extractor, "do_normalize"))
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self.assertTrue(hasattr(feature_extractor, "do_resize"))
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self.assertTrue(hasattr(feature_extractor, "size"))
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def test_batch_feature(self):
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pass
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def test_call_pil(self):
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# Initialize feature_extractor
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feature_extractor = self.feature_extraction_class(**self.feat_extract_dict)
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# create random PIL images
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image_inputs = prepare_image_inputs(self.feature_extract_tester, equal_resolution=False)
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for image in image_inputs:
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self.assertIsInstance(image, Image.Image)
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# Test not batched input
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encoded_images = feature_extractor(image_inputs[0], return_tensors="pt").pixel_values
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self.assertEqual(
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encoded_images.shape,
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(
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1,
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self.feature_extract_tester.num_channels,
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self.feature_extract_tester.size["height"],
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self.feature_extract_tester.size["width"],
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),
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)
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# Test batched
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encoded_images = feature_extractor(image_inputs, return_tensors="pt").pixel_values
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self.assertEqual(
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encoded_images.shape,
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(
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self.feature_extract_tester.batch_size,
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self.feature_extract_tester.num_channels,
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self.feature_extract_tester.size["height"],
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self.feature_extract_tester.size["width"],
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),
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)
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def test_call_numpy(self):
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# Initialize feature_extractor
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feature_extractor = self.feature_extraction_class(**self.feat_extract_dict)
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# create random numpy tensors
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image_inputs = prepare_image_inputs(self.feature_extract_tester, equal_resolution=False, numpify=True)
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for image in image_inputs:
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self.assertIsInstance(image, np.ndarray)
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# Test not batched input
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encoded_images = feature_extractor(image_inputs[0], return_tensors="pt").pixel_values
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self.assertEqual(
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encoded_images.shape,
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(
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1,
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self.feature_extract_tester.num_channels,
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self.feature_extract_tester.size["height"],
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self.feature_extract_tester.size["width"],
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),
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)
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# Test batched
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encoded_images = feature_extractor(image_inputs, return_tensors="pt").pixel_values
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self.assertEqual(
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encoded_images.shape,
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(
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self.feature_extract_tester.batch_size,
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self.feature_extract_tester.num_channels,
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self.feature_extract_tester.size["height"],
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self.feature_extract_tester.size["width"],
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),
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)
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def test_call_pytorch(self):
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# Initialize feature_extractor
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feature_extractor = self.feature_extraction_class(**self.feat_extract_dict)
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# create random PyTorch tensors
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image_inputs = prepare_image_inputs(self.feature_extract_tester, equal_resolution=False, torchify=True)
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for image in image_inputs:
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self.assertIsInstance(image, torch.Tensor)
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# Test not batched input
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encoded_images = feature_extractor(image_inputs[0], return_tensors="pt").pixel_values
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self.assertEqual(
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encoded_images.shape,
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(
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1,
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self.feature_extract_tester.num_channels,
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self.feature_extract_tester.size["height"],
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self.feature_extract_tester.size["width"],
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),
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)
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# Test batched
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encoded_images = feature_extractor(image_inputs, return_tensors="pt").pixel_values
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self.assertEqual(
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encoded_images.shape,
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(
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self.feature_extract_tester.batch_size,
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self.feature_extract_tester.num_channels,
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self.feature_extract_tester.size["height"],
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self.feature_extract_tester.size["width"],
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),
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)
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466
tests/models/efficientformer/test_modeling_efficientformer.py
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tests/models/efficientformer/test_modeling_efficientformer.py
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# coding=utf-8
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# Copyright 2022 The HuggingFace Inc. team. All rights reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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""" Testing suite for the PyTorch EfficientFormer model. """
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import inspect
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import unittest
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import warnings
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from transformers import EfficientFormerConfig
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from transformers.models.auto import get_values
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from transformers.testing_utils import require_torch, require_vision, slow, torch_device
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from transformers.utils import cached_property, is_torch_available, is_vision_available
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from ...test_configuration_common import ConfigTester
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from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor
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if is_torch_available():
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import torch
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from transformers import (
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MODEL_FOR_IMAGE_CLASSIFICATION_MAPPING,
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MODEL_MAPPING,
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EfficientFormerForImageClassification,
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EfficientFormerForImageClassificationWithTeacher,
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EfficientFormerModel,
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)
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from transformers.models.efficientformer.modeling_efficientformer import (
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EFFICIENTFORMER_PRETRAINED_MODEL_ARCHIVE_LIST,
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)
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if is_vision_available():
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from PIL import Image
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from transformers import EfficientFormerImageProcessor
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class EfficientFormerModelTester:
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def __init__(
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self,
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parent,
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batch_size: int = 13,
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image_size: int = 224,
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patch_size: int = 2,
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embed_dim: int = 48, # last embed dim of stem
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num_channels: int = 3,
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is_training: bool = True,
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use_labels: bool = True,
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hidden_size: int = 448,
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num_hidden_layers: int = 7, # For the l1
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num_attention_heads: int = 8,
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intermediate_size: int = 37,
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hidden_act: str = "gelu",
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hidden_dropout_prob: float = 0.1,
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attention_probs_dropout_prob: float = 0.1,
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type_sequence_label_size: int = 10,
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initializer_range: float = 0.02,
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encoder_stride: int = 2,
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num_attention_outputs: int = 1, # For l1
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):
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self.parent = parent
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self.batch_size = batch_size
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self.image_size = image_size
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self.patch_size = patch_size
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self.num_channels = num_channels
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self.is_training = is_training
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self.use_labels = use_labels
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self.hidden_size = hidden_size
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self.num_hidden_layers = num_hidden_layers
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self.num_attention_heads = num_attention_heads
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self.intermediate_size = intermediate_size
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self.hidden_act = hidden_act
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self.hidden_dropout_prob = hidden_dropout_prob
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self.attention_probs_dropout_prob = attention_probs_dropout_prob
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self.type_sequence_label_size = type_sequence_label_size
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self.initializer_range = initializer_range
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self.encoder_stride = encoder_stride
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self.num_attention_outputs = num_attention_outputs
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self.embed_dim = embed_dim
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self.seq_length = embed_dim + 1
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def prepare_config_and_inputs(self):
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pixel_values = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size])
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labels = None
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if self.use_labels:
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labels = ids_tensor([self.batch_size], self.type_sequence_label_size)
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config = self.get_config()
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return config, pixel_values, labels
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def get_config(self):
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return EfficientFormerConfig(
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image_size=self.image_size,
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patch_size=self.patch_size,
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num_channels=self.num_channels,
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hidden_size=self.hidden_size,
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num_hidden_layers=self.num_hidden_layers,
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num_attention_heads=self.num_attention_heads,
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intermediate_size=self.intermediate_size,
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hidden_act=self.hidden_act,
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hidden_dropout_prob=self.hidden_dropout_prob,
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attention_probs_dropout_prob=self.attention_probs_dropout_prob,
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is_decoder=False,
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initializer_range=self.initializer_range,
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encoder_stride=self.encoder_stride,
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)
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def create_and_check_model(self, config, pixel_values, labels):
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model = EfficientFormerModel(config=config)
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model.to(torch_device)
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model.eval()
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result = model(pixel_values)
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self.parent.assertEqual(result.last_hidden_state.shape, (self.batch_size, self.seq_length, self.hidden_size))
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def create_and_check_for_image_classification(self, config, pixel_values, labels):
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config.num_labels = self.type_sequence_label_size
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model = EfficientFormerForImageClassification(config)
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model.to(torch_device)
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model.eval()
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result = model(pixel_values, labels=labels)
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self.parent.assertEqual(result.logits.shape, (self.batch_size, self.type_sequence_label_size))
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# test greyscale images
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config.num_channels = 1
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model = EfficientFormerForImageClassification(config)
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model.to(torch_device)
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model.eval()
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pixel_values = floats_tensor([self.batch_size, 1, self.image_size, self.image_size])
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result = model(pixel_values)
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self.parent.assertEqual(result.logits.shape, (self.batch_size, self.type_sequence_label_size))
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def prepare_config_and_inputs_for_common(self):
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config_and_inputs = self.prepare_config_and_inputs()
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(
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config,
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pixel_values,
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labels,
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) = config_and_inputs
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inputs_dict = {"pixel_values": pixel_values}
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return config, inputs_dict
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@require_torch
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class EfficientFormerModelTest(ModelTesterMixin, unittest.TestCase):
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"""
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Here we also overwrite some of the tests of test_modeling_common.py, as EfficientFormer does not use input_ids, inputs_embeds,
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attention_mask and seq_length.
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"""
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all_model_classes = (
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(
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EfficientFormerModel,
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EfficientFormerForImageClassificationWithTeacher,
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EfficientFormerForImageClassification,
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)
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if is_torch_available()
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else ()
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)
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fx_compatible = False
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test_pruning = False
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test_resize_embeddings = False
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test_head_masking = False
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def setUp(self):
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self.model_tester = EfficientFormerModelTester(self)
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self.config_tester = ConfigTester(
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self, config_class=EfficientFormerConfig, has_text_modality=False, hidden_size=37
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)
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def test_config(self):
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self.config_tester.run_common_tests()
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@unittest.skip(reason="EfficientFormer does not use inputs_embeds")
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def test_inputs_embeds(self):
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pass
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@unittest.skip(reason="EfficientFormer does not support input and output embeddings")
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def test_model_common_attributes(self):
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pass
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def test_forward_signature(self):
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config, _ = self.model_tester.prepare_config_and_inputs_for_common()
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for model_class in self.all_model_classes:
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model = model_class(config)
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signature = inspect.signature(model.forward)
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# signature.parameters is an OrderedDict => so arg_names order is deterministic
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arg_names = [*signature.parameters.keys()]
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expected_arg_names = ["pixel_values"]
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self.assertListEqual(arg_names[:1], expected_arg_names)
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def test_hidden_states_output(self):
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def check_hidden_states_output(inputs_dict, config, model_class):
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model = model_class(config)
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model.to(torch_device)
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model.eval()
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with torch.no_grad():
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outputs = model(**self._prepare_for_class(inputs_dict, model_class))
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hidden_states = outputs.encoder_hidden_states if config.is_encoder_decoder else outputs.hidden_states
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expected_num_layers = getattr(
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self.model_tester, "expected_num_hidden_layers", self.model_tester.num_hidden_layers + 1
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)
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self.assertEqual(len(hidden_states), expected_num_layers)
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if hasattr(self.model_tester, "encoder_seq_length"):
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seq_length = self.model_tester.encoder_seq_length
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if hasattr(self.model_tester, "chunk_length") and self.model_tester.chunk_length > 1:
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seq_length = seq_length * self.model_tester.chunk_length
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else:
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seq_length = self.model_tester.seq_length
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self.assertListEqual(
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list(hidden_states[-1].shape[-2:]),
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[seq_length, self.model_tester.hidden_size],
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)
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if config.is_encoder_decoder:
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hidden_states = outputs.decoder_hidden_states
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self.assertIsInstance(hidden_states, (list, tuple))
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self.assertEqual(len(hidden_states), expected_num_layers)
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seq_len = getattr(self.model_tester, "seq_length", None)
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decoder_seq_length = getattr(self.model_tester, "decoder_seq_length", seq_len)
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self.assertListEqual(
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list(hidden_states[-1].shape[-2:]),
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[decoder_seq_length, self.model_tester.hidden_size],
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)
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config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common()
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for model_class in self.all_model_classes:
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inputs_dict["output_hidden_states"] = True
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check_hidden_states_output(inputs_dict, config, model_class)
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# check that output_hidden_states also work using config
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del inputs_dict["output_hidden_states"]
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config.output_hidden_states = True
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check_hidden_states_output(inputs_dict, config, model_class)
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def _prepare_for_class(self, inputs_dict, model_class, return_labels=False):
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inputs_dict = super()._prepare_for_class(inputs_dict, model_class, return_labels=return_labels)
|
||||
|
||||
if return_labels:
|
||||
if model_class.__name__ == "EfficientFormerForImageClassificationWithTeacher":
|
||||
del inputs_dict["labels"]
|
||||
|
||||
return inputs_dict
|
||||
|
||||
def test_model(self):
|
||||
config_and_inputs = self.model_tester.prepare_config_and_inputs()
|
||||
self.model_tester.create_and_check_model(*config_and_inputs)
|
||||
|
||||
@unittest.skip(reason="EfficientFormer does not implement masked image modeling yet")
|
||||
def test_for_masked_image_modeling(self):
|
||||
config_and_inputs = self.model_tester.prepare_config_and_inputs()
|
||||
self.model_tester.create_and_check_for_masked_image_modeling(*config_and_inputs)
|
||||
|
||||
def test_for_image_classification(self):
|
||||
config_and_inputs = self.model_tester.prepare_config_and_inputs()
|
||||
self.model_tester.create_and_check_for_image_classification(*config_and_inputs)
|
||||
|
||||
# special case for EfficientFormerForImageClassificationWithTeacher model
|
||||
def test_training(self):
|
||||
if not self.model_tester.is_training:
|
||||
return
|
||||
|
||||
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common()
|
||||
config.return_dict = True
|
||||
|
||||
for model_class in self.all_model_classes:
|
||||
# EfficientFormerForImageClassificationWithTeacher supports inference-only
|
||||
if (
|
||||
model_class in get_values(MODEL_MAPPING)
|
||||
or model_class.__name__ == "EfficientFormerForImageClassificationWithTeacher"
|
||||
):
|
||||
continue
|
||||
model = model_class(config)
|
||||
model.to(torch_device)
|
||||
model.train()
|
||||
inputs = self._prepare_for_class(inputs_dict, model_class, return_labels=True)
|
||||
loss = model(**inputs).loss
|
||||
loss.backward()
|
||||
|
||||
def test_problem_types(self):
|
||||
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common()
|
||||
|
||||
problem_types = [
|
||||
{"title": "multi_label_classification", "num_labels": 2, "dtype": torch.float},
|
||||
{"title": "single_label_classification", "num_labels": 1, "dtype": torch.long},
|
||||
{"title": "regression", "num_labels": 1, "dtype": torch.float},
|
||||
]
|
||||
|
||||
for model_class in self.all_model_classes:
|
||||
if (
|
||||
model_class
|
||||
not in [
|
||||
*get_values(MODEL_FOR_IMAGE_CLASSIFICATION_MAPPING),
|
||||
]
|
||||
or model_class.__name__ == "EfficientFormerForImageClassificationWithTeacher"
|
||||
):
|
||||
continue
|
||||
|
||||
for problem_type in problem_types:
|
||||
with self.subTest(msg=f"Testing {model_class} with {problem_type['title']}"):
|
||||
|
||||
config.problem_type = problem_type["title"]
|
||||
config.num_labels = problem_type["num_labels"]
|
||||
|
||||
model = model_class(config)
|
||||
model.to(torch_device)
|
||||
model.train()
|
||||
|
||||
inputs = self._prepare_for_class(inputs_dict, model_class, return_labels=True)
|
||||
|
||||
if problem_type["num_labels"] > 1:
|
||||
inputs["labels"] = inputs["labels"].unsqueeze(1).repeat(1, problem_type["num_labels"])
|
||||
|
||||
inputs["labels"] = inputs["labels"].to(problem_type["dtype"])
|
||||
|
||||
# This tests that we do not trigger the warning form PyTorch "Using a target size that is different
|
||||
# to the input size. This will likely lead to incorrect results due to broadcasting. Please ensure
|
||||
# they have the same size." which is a symptom something in wrong for the regression problem.
|
||||
# See https://github.com/huggingface/transformers/issues/11780
|
||||
with warnings.catch_warnings(record=True) as warning_list:
|
||||
loss = model(**inputs).loss
|
||||
for w in warning_list:
|
||||
if "Using a target size that is different to the input size" in str(w.message):
|
||||
raise ValueError(
|
||||
f"Something is going wrong in the regression problem: intercepted {w.message}"
|
||||
)
|
||||
|
||||
loss.backward()
|
||||
|
||||
@slow
|
||||
def test_model_from_pretrained(self):
|
||||
for model_name in EFFICIENTFORMER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
|
||||
model = EfficientFormerModel.from_pretrained(model_name)
|
||||
self.assertIsNotNone(model)
|
||||
|
||||
def test_attention_outputs(self):
|
||||
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common()
|
||||
config.return_dict = True
|
||||
|
||||
seq_len = getattr(self.model_tester, "seq_length", None)
|
||||
encoder_seq_length = getattr(self.model_tester, "encoder_seq_length", seq_len)
|
||||
encoder_key_length = getattr(self.model_tester, "key_length", encoder_seq_length)
|
||||
chunk_length = getattr(self.model_tester, "chunk_length", None)
|
||||
if chunk_length is not None and hasattr(self.model_tester, "num_hashes"):
|
||||
encoder_seq_length = encoder_seq_length * self.model_tester.num_hashes
|
||||
|
||||
for model_class in self.all_model_classes:
|
||||
inputs_dict["output_attentions"] = True
|
||||
inputs_dict["output_hidden_states"] = False
|
||||
config.return_dict = True
|
||||
model = model_class(config)
|
||||
model.to(torch_device)
|
||||
model.eval()
|
||||
with torch.no_grad():
|
||||
outputs = model(**self._prepare_for_class(inputs_dict, model_class))
|
||||
attentions = outputs.encoder_attentions if config.is_encoder_decoder else outputs.attentions
|
||||
self.assertEqual(len(attentions), self.model_tester.num_attention_outputs)
|
||||
|
||||
# check that output_attentions also work using config
|
||||
del inputs_dict["output_attentions"]
|
||||
config.output_attentions = True
|
||||
model = model_class(config)
|
||||
model.to(torch_device)
|
||||
model.eval()
|
||||
with torch.no_grad():
|
||||
outputs = model(**self._prepare_for_class(inputs_dict, model_class))
|
||||
attentions = outputs.encoder_attentions if config.is_encoder_decoder else outputs.attentions
|
||||
self.assertEqual(len(attentions), self.model_tester.num_attention_outputs)
|
||||
|
||||
if chunk_length is not None:
|
||||
self.assertListEqual(
|
||||
list(attentions[0].shape[-4:]),
|
||||
[self.model_tester.num_attention_heads, encoder_seq_length, chunk_length, encoder_key_length],
|
||||
)
|
||||
else:
|
||||
self.assertListEqual(
|
||||
list(attentions[0].shape[-3:]),
|
||||
[self.model_tester.num_attention_heads, encoder_seq_length, encoder_key_length],
|
||||
)
|
||||
|
||||
|
||||
# We will verify our results on an image of cute cats
|
||||
def prepare_img():
|
||||
image = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png")
|
||||
return image
|
||||
|
||||
|
||||
@require_torch
|
||||
@require_vision
|
||||
class EfficientFormerModelIntegrationTest(unittest.TestCase):
|
||||
@cached_property
|
||||
def default_feature_extractor(self):
|
||||
return (
|
||||
EfficientFormerImageProcessor.from_pretrained("snap-research/efficientformer-l1-300")
|
||||
if is_vision_available()
|
||||
else None
|
||||
)
|
||||
|
||||
@slow
|
||||
def test_inference_image_classification_head(self):
|
||||
model = EfficientFormerForImageClassification.from_pretrained("snap-research/efficientformer-l1-300").to(
|
||||
torch_device
|
||||
)
|
||||
|
||||
feature_extractor = self.default_feature_extractor
|
||||
image = prepare_img()
|
||||
inputs = feature_extractor(images=image, return_tensors="pt").to(torch_device)
|
||||
|
||||
# forward pass
|
||||
with torch.no_grad():
|
||||
outputs = model(**inputs)
|
||||
|
||||
# verify the logits
|
||||
expected_shape = (1, 1000)
|
||||
self.assertEqual(outputs.logits.shape, expected_shape)
|
||||
|
||||
expected_slice = torch.tensor([-0.0555, 0.4825, -0.0852]).to(torch_device)
|
||||
self.assertTrue(torch.allclose(outputs.logits[0][:3], expected_slice, atol=1e-4))
|
||||
|
||||
@slow
|
||||
def test_inference_image_classification_head_with_teacher(self):
|
||||
model = EfficientFormerForImageClassificationWithTeacher.from_pretrained(
|
||||
"snap-research/efficientformer-l1-300"
|
||||
).to(torch_device)
|
||||
|
||||
feature_extractor = self.default_feature_extractor
|
||||
image = prepare_img()
|
||||
inputs = feature_extractor(images=image, return_tensors="pt").to(torch_device)
|
||||
|
||||
# forward pass
|
||||
with torch.no_grad():
|
||||
outputs = model(**inputs)
|
||||
|
||||
# verify the logits
|
||||
expected_shape = (1, 1000)
|
||||
self.assertEqual(outputs.logits.shape, expected_shape)
|
||||
|
||||
expected_slice = torch.tensor([-0.1312, 0.4353, -1.0499]).to(torch_device)
|
||||
self.assertTrue(torch.allclose(outputs.logits[0][:3], expected_slice, atol=1e-4))
|
||||
Reference in New Issue
Block a user