Add post_process_semantic_segmentation method to SegFormer (#19072)
* add post_process_semantic_segmentation method to SegformerFeatureExtractor * add test for semantic segmentation post-processing
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@@ -93,6 +93,7 @@ SegFormer's results on the segmentation datasets like ADE20k, refer to the [pape
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[[autodoc]] SegformerFeatureExtractor
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[[autodoc]] SegformerFeatureExtractor
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- __call__
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- __call__
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- post_process_semantic_segmentation
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## SegformerModel
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## SegformerModel
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@@ -14,7 +14,7 @@
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# limitations under the License.
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# limitations under the License.
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"""Feature extractor class for SegFormer."""
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"""Feature extractor class for SegFormer."""
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from typing import Optional, Union
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from typing import List, Optional, Tuple, Union
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import numpy as np
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import numpy as np
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from PIL import Image
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from PIL import Image
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@@ -27,9 +27,12 @@ from ...image_utils import (
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ImageInput,
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ImageInput,
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is_torch_tensor,
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is_torch_tensor,
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)
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)
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from ...utils import TensorType, logging
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from ...utils import TensorType, is_torch_available, logging
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if is_torch_available():
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import torch
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logger = logging.get_logger(__name__)
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logger = logging.get_logger(__name__)
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@@ -211,3 +214,45 @@ class SegformerFeatureExtractor(FeatureExtractionMixin, ImageFeatureExtractionMi
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encoded_inputs = BatchFeature(data=data, tensor_type=return_tensors)
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encoded_inputs = BatchFeature(data=data, tensor_type=return_tensors)
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return encoded_inputs
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return encoded_inputs
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def post_process_semantic_segmentation(self, outputs, target_sizes: List[Tuple] = None):
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"""
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Converts the output of [`SegformerForSemanticSegmentation`] into semantic segmentation maps. Only supports
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PyTorch.
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Args:
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outputs ([`SegformerForSemanticSegmentation`]):
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Raw outputs of the model.
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target_sizes (`List[Tuple]` of length `batch_size`, *optional*):
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List of tuples corresponding to the requested final size (height, width) of each prediction. If left to
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None, predictions will not be resized.
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Returns:
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semantic_segmentation: `List[torch.Tensor]` of length `batch_size`, where each item is a semantic
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segmentation map of shape (height, width) corresponding to the target_sizes entry (if `target_sizes` is
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specified). Each entry of each `torch.Tensor` correspond to a semantic class id.
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"""
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logits = outputs.logits
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# Resize logits and compute semantic segmentation maps
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if target_sizes is not None:
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if len(logits) != len(target_sizes):
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raise ValueError(
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"Make sure that you pass in as many target sizes as the batch dimension of the logits"
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)
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if is_torch_tensor(target_sizes):
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target_sizes = target_sizes.numpy()
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semantic_segmentation = []
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for idx in range(len(logits)):
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resized_logits = torch.nn.functional.interpolate(
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logits[idx].unsqueeze(dim=0), size=target_sizes[idx], mode="bilinear", align_corners=False
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)
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semantic_map = resized_logits[0].argmax(dim=0)
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semantic_segmentation.append(semantic_map)
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else:
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semantic_segmentation = logits.argmax(dim=1)
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semantic_segmentation = [semantic_segmentation[i] for i in range(semantic_segmentation.shape[0])]
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return semantic_segmentation
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@@ -395,3 +395,30 @@ class SegformerModelIntegrationTest(unittest.TestCase):
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]
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]
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).to(torch_device)
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).to(torch_device)
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self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3], expected_slice, atol=1e-1))
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self.assertTrue(torch.allclose(outputs.logits[0, :3, :3, :3], expected_slice, atol=1e-1))
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@slow
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def test_post_processing_semantic_segmentation(self):
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# only resize + normalize
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feature_extractor = SegformerFeatureExtractor(
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image_scale=(512, 512), keep_ratio=False, align=False, do_random_crop=False
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)
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model = SegformerForSemanticSegmentation.from_pretrained("nvidia/segformer-b0-finetuned-ade-512-512").to(
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torch_device
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)
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image = prepare_img()
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encoded_inputs = feature_extractor(images=image, return_tensors="pt")
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pixel_values = encoded_inputs.pixel_values.to(torch_device)
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with torch.no_grad():
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outputs = model(pixel_values)
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outputs.logits = outputs.logits.detach().cpu()
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segmentation = feature_extractor.post_process_semantic_segmentation(outputs=outputs, target_sizes=[(500, 300)])
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expected_shape = torch.Size((500, 300))
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self.assertEqual(segmentation[0].shape, expected_shape)
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segmentation = feature_extractor.post_process_semantic_segmentation(outputs=outputs)
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expected_shape = torch.Size((128, 128))
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self.assertEqual(segmentation[0].shape, expected_shape)
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