Spaces:

Vishakaraj
/

DinoV2_Semantic_Segmentation

Runtime error

App Files Files Community

DinoV2_Semantic_Segmentation / hubconf.py

Vishakaraj

Upload folder using huggingface_hub

3fad000 10 months ago

raw history blame contribute delete

No virus

6.2 kB

	# Copyright (c) Meta Platforms, Inc. and affiliates.
	#
	# This source code is licensed under the Apache License, Version 2.0
	# found in the LICENSE file in the root directory of this source tree.

	import torch
	import torch.nn as nn


	dependencies = ["torch"]


	_DINOV2_BASE_URL = "https://dl.fbaipublicfiles.com/dinov2"


	def _make_dinov2_model_name(arch_name: str, patch_size: int) -> str:
	compact_arch_name = arch_name.replace("_", "")[:4]
	return f"dinov2_{compact_arch_name}{patch_size}"


	def _make_dinov2_model(
	*,
	arch_name: str = "vit_large",
	img_size: int = 518,
	patch_size: int = 14,
	init_values: float = 1.0,
	ffn_layer: str = "mlp",
	block_chunks: int = 0,
	pretrained: bool = True,
	**kwargs,
	):
	from dinov2.models import vision_transformer as vits

	model_name = _make_dinov2_model_name(arch_name, patch_size)
	vit_kwargs = dict(
	img_size=img_size,
	patch_size=patch_size,
	init_values=init_values,
	ffn_layer=ffn_layer,
	block_chunks=block_chunks,
	)
	vit_kwargs.update(**kwargs)
	model = vits.__dict__[arch_name](**vit_kwargs)

	if pretrained:
	url = _DINOV2_BASE_URL + f"/{model_name}/{model_name}_pretrain.pth"
	state_dict = torch.hub.load_state_dict_from_url(url, map_location="cpu")
	model.load_state_dict(state_dict, strict=False)

	return model


	def dinov2_vits14(, pretrained: bool = True, *kwargs):
	"""
	DINOv2 ViT-S/14 model (optionally) pretrained on the LVD-142M dataset.
	"""
	return _make_dinov2_model(arch_name="vit_small", pretrained=pretrained, **kwargs)


	def dinov2_vitb14(, pretrained: bool = True, *kwargs):
	"""
	DINOv2 ViT-B/14 model pretrained on the LVD-142M dataset.
	"""
	return _make_dinov2_model(arch_name="vit_base", pretrained=pretrained, **kwargs)


	def dinov2_vitl14(, pretrained: bool = True, *kwargs):
	"""
	DINOv2 ViT-L/14 model (optionally) pretrained on the LVD-142M dataset.
	"""
	return _make_dinov2_model(arch_name="vit_large", pretrained=pretrained, **kwargs)


	def dinov2_vitg14(, pretrained: bool = True, *kwargs):
	"""
	DINOv2 ViT-g/14 model (optionally) pretrained on the LVD-142M dataset.
	"""
	return _make_dinov2_model(arch_name="vit_giant2", ffn_layer="swiglufused", pretrained=pretrained, **kwargs)


	def _make_dinov2_linear_head(
	*,
	model_name: str = "dinov2_vitl14",
	embed_dim: int = 1024,
	layers: int = 4,
	pretrained: bool = True,
	**kwargs,
	):
	assert layers in (1, 4), f"Unsupported number of layers: {layers}"
	linear_head = nn.Linear((1 + layers) * embed_dim, 1_000)

	if pretrained:
	layers_str = str(layers) if layers == 4 else ""
	url = _DINOV2_BASE_URL + f"/{model_name}/{model_name}_linear{layers_str}_head.pth"
	state_dict = torch.hub.load_state_dict_from_url(url, map_location="cpu")
	linear_head.load_state_dict(state_dict, strict=False)

	return linear_head


	class _LinearClassifierWrapper(nn.Module):
	def __init__(self, *, backbone: nn.Module, linear_head: nn.Module, layers: int = 4):
	super().__init__()
	self.backbone = backbone
	self.linear_head = linear_head
	self.layers = layers

	def forward(self, x):
	if self.layers == 1:
	x = self.backbone.forward_features(x)
	cls_token = x["x_norm_clstoken"]
	patch_tokens = x["x_norm_patchtokens"]
	# fmt: off
	linear_input = torch.cat([
	cls_token,
	patch_tokens.mean(dim=1),
	], dim=1)
	# fmt: on
	elif self.layers == 4:
	x = self.backbone.get_intermediate_layers(x, n=4, return_class_token=True)
	# fmt: off
	linear_input = torch.cat([
	x[0][1],
	x[1][1],
	x[2][1],
	x[3][1],
	x[3][0].mean(dim=1),
	], dim=1)
	# fmt: on
	else:
	assert False, f"Unsupported number of layers: {self.layers}"
	return self.linear_head(linear_input)


	def _make_dinov2_linear_classifier(
	*,
	arch_name: str = "vit_large",
	layers: int = 4,
	pretrained: bool = True,
	**kwargs,
	):
	backbone = _make_dinov2_model(arch_name=arch_name, pretrained=pretrained, **kwargs)

	embed_dim = backbone.embed_dim
	patch_size = backbone.patch_size
	model_name = _make_dinov2_model_name(arch_name, patch_size)
	linear_head = _make_dinov2_linear_head(
	model_name=model_name, embed_dim=embed_dim, layers=layers, pretrained=pretrained
	)

	return _LinearClassifierWrapper(backbone=backbone, linear_head=linear_head, layers=layers)


	def dinov2_vits14_lc(, layers: int = 4, pretrained: bool = True, *kwargs):
	"""
	Linear classifier (1 or 4 layers) on top of a DINOv2 ViT-S/14 backbone (optionally) pretrained on the LVD-142M dataset and trained on ImageNet-1k.
	"""
	return _make_dinov2_linear_classifier(arch_name="vit_small", layers=layers, pretrained=pretrained, **kwargs)


	def dinov2_vitb14_lc(, layers: int = 4, pretrained: bool = True, *kwargs):
	"""
	Linear classifier (1 or 4 layers) on top of a DINOv2 ViT-B/14 backbone (optionally) pretrained on the LVD-142M dataset and trained on ImageNet-1k.
	"""
	return _make_dinov2_linear_classifier(arch_name="vit_base", layers=layers, pretrained=pretrained, **kwargs)


	def dinov2_vitl14_lc(, layers: int = 4, pretrained: bool = True, *kwargs):
	"""
	Linear classifier (1 or 4 layers) on top of a DINOv2 ViT-L/14 backbone (optionally) pretrained on the LVD-142M dataset and trained on ImageNet-1k.
	"""
	return _make_dinov2_linear_classifier(arch_name="vit_large", layers=layers, pretrained=pretrained, **kwargs)


	def dinov2_vitg14_lc(, layers: int = 4, pretrained: bool = True, *kwargs):
	"""
	Linear classifier (1 or 4 layers) on top of a DINOv2 ViT-g/14 backbone (optionally) pretrained on the LVD-142M dataset and trained on ImageNet-1k.
	"""
	return _make_dinov2_linear_classifier(
	arch_name="vit_giant2", layers=layers, ffn_layer="swiglufused", pretrained=pretrained, **kwargs
	)