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from __future__ import annotations |
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from contextlib import contextmanager |
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from typing import Any, Generator, Optional, Sequence, Tuple, Union |
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import torch |
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import torch.nn as nn |
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from timm.models.layers import trunc_normal_ |
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from .resnet import resnet18, resnet50 |
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from .transformer import VisionTransformerPooler |
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from .types import ImageEncoderType |
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DEFAULT_DILATION_VALUES_FOR_RESNET = (False, False, True) |
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ImageEncoderOutputType = Union[torch.Tensor, Tuple[torch.Tensor, torch.Tensor]] |
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class ImageEncoder(nn.Module): |
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"""Image encoder trunk module for the ``ImageModel`` class. |
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:param img_encoder_type : Type of image encoder model to use, either ``"resnet18_multi_image"`` or |
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``"resnet50_multi_image"``. |
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""" |
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def __init__(self, img_encoder_type: str): |
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super().__init__() |
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self.img_encoder_type = img_encoder_type |
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self.encoder = self._create_encoder() |
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def _create_encoder(self, **kwargs: Any) -> nn.Module: |
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if self.img_encoder_type in [ImageEncoderType.RESNET18, ImageEncoderType.RESNET18_MULTI_IMAGE]: |
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encoder_class = resnet18 |
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elif self.img_encoder_type in [ImageEncoderType.RESNET50, ImageEncoderType.RESNET50_MULTI_IMAGE]: |
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encoder_class = resnet50 |
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else: |
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supported = ImageEncoderType.get_members(multi_image_encoders_only=False) |
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raise NotImplementedError(f"Image encoder type \"{self.img_encoder_type}\" must be in {supported}") |
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encoder = encoder_class(pretrained=True, **kwargs) |
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return encoder |
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def forward(self, |
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current_image: torch.Tensor, |
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return_patch_embeddings: bool = False) -> ImageEncoderOutputType: |
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"""Get image global and patch embeddings""" |
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patch_emb = self.encoder(current_image) |
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avg_pooled_emb = torch.flatten(torch.nn.functional.adaptive_avg_pool2d(patch_emb, (1, 1)), 1) |
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if return_patch_embeddings: |
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return patch_emb, avg_pooled_emb |
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return avg_pooled_emb |
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def reload_encoder_with_dilation(self, replace_stride_with_dilation: Optional[Sequence[bool]] = None) -> None: |
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"""Workaround for enabling dilated convolutions after model initialization. |
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:param replace_stride_with_dilation: Replace the 2x2 standard convolution stride with a dilated convolution |
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in each layer in the last three blocks of ResNet architecture. |
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""" |
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if self.img_encoder_type == ImageEncoderType.RESNET18: |
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raise NotImplementedError("resnet18 does not support dilated convolutions") |
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if replace_stride_with_dilation is None: |
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replace_stride_with_dilation = DEFAULT_DILATION_VALUES_FOR_RESNET |
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device = next(self.encoder.parameters()).device |
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new_encoder = self._create_encoder(replace_stride_with_dilation=replace_stride_with_dilation).to(device) |
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if self.encoder.training: |
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new_encoder.train() |
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else: |
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new_encoder.eval() |
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new_encoder.load_state_dict(self.encoder.state_dict()) |
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self.encoder = new_encoder |
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class MultiImageEncoder(ImageEncoder): |
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"""Multi-image encoder trunk module for the ``ImageModel`` class. |
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It can be used to encode multiple images into combined latent representation. |
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Currently it only supports two input images but can be extended to support more in future. |
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:param img_encoder_type: Type of image encoder model to use: either ``"resnet18"`` or ``"resnet50"``. |
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""" |
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def __init__(self, img_encoder_type: str): |
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super().__init__(img_encoder_type) |
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output_dim = 256 |
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grid_shape = (14, 14) |
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backbone_output_feature_dim = get_encoder_output_dim(self.encoder, device=torch.device("cuda")) |
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self.backbone_to_vit = nn.Conv2d(in_channels=backbone_output_feature_dim, out_channels=output_dim, |
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kernel_size=1, stride=1, padding=0, bias=False) |
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self.vit_pooler = VisionTransformerPooler(input_dim=output_dim, grid_shape=grid_shape) |
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self.missing_previous_emb = nn.Parameter(torch.zeros(1, output_dim, 1, 1)) |
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trunc_normal_(self.missing_previous_emb, std=.02) |
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def forward(self, |
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current_image: torch.Tensor, |
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previous_image: Optional[torch.Tensor] = None, |
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return_patch_embeddings: bool = False) -> ImageEncoderOutputType: |
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batch_size = current_image.shape[0] |
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if previous_image is not None: |
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assert current_image.shape == previous_image.shape |
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x = torch.cat([current_image, previous_image], dim=0) |
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x = super().forward(x, return_patch_embeddings=True)[0] |
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x = self.backbone_to_vit(x) |
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patch_x, patch_x_previous = x[:batch_size], x[batch_size:] |
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diff_x = self.vit_pooler(current_image=patch_x, previous_image=patch_x_previous) |
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else: |
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x = super().forward(current_image, return_patch_embeddings=True)[0] |
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patch_x = self.backbone_to_vit(x) |
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B, _, W, H = patch_x.shape |
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diff_x = self.missing_previous_emb.repeat(B, 1, W, H) |
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patch_fused = torch.cat([patch_x, diff_x], dim=1) |
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avg_pooled_emb = torch.flatten(torch.nn.functional.adaptive_avg_pool2d(patch_fused, (1, 1)), 1) |
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if return_patch_embeddings: |
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return patch_fused, avg_pooled_emb |
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return avg_pooled_emb |
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def reload_encoder_with_dilation(self, replace_stride_with_dilation: Optional[Sequence[bool]] = None) -> None: |
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raise NotImplementedError |
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@torch.no_grad() |
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def get_encoder_output_dim(module: torch.nn.Module, device: torch.device) -> int: |
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"""Calculate the output dimension of an encoder by making a single forward pass. |
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:param module: Encoder module. |
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:param device: Compute device to use. |
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""" |
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assert isinstance(device, torch.device) |
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x = torch.rand((1, 3, 448, 448)).to(device) |
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with restore_training_mode(module): |
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module.eval() |
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representations = module(x) |
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return representations.shape[1] |
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@contextmanager |
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def restore_training_mode(module: nn.Module) -> Generator[None, None, None]: |
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"""Restore the training mode of a module after some operation. |
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:param module: PyTorch module. |
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""" |
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training_mode = module.training |
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yield |
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module.train(mode=training_mode) |
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def get_encoder_from_type(img_encoder_type: str) -> ImageEncoder: |
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"""Returns the encoder class for the given encoder type. |
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:param img_encoder_type: Encoder type. {RESNET18, RESNET50, RESNET18_MULTI_IMAGE, RESNET50_MULTI_IMAGE} |
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""" |
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if img_encoder_type in ImageEncoderType.get_members(multi_image_encoders_only=True): |
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return MultiImageEncoder(img_encoder_type=img_encoder_type) |
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else: |
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return ImageEncoder(img_encoder_type=img_encoder_type) |
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