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siz3d / hy3dgen /shapegen /models /conditioner.py

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	# Open Source Model Licensed under the Apache License Version 2.0
	# and Other Licenses of the Third-Party Components therein:
	# The below Model in this distribution may have been modified by THL A29 Limited
	# ("Tencent Modifications"). All Tencent Modifications are Copyright (C) 2024 THL A29 Limited.

	# Copyright (C) 2024 THL A29 Limited, a Tencent company. All rights reserved.
	# The below software and/or models in this distribution may have been
	# modified by THL A29 Limited ("Tencent Modifications").
	# All Tencent Modifications are Copyright (C) THL A29 Limited.

	# Hunyuan 3D is licensed under the TENCENT HUNYUAN NON-COMMERCIAL LICENSE AGREEMENT
	# except for the third-party components listed below.
	# Hunyuan 3D does not impose any additional limitations beyond what is outlined
	# in the repsective licenses of these third-party components.
	# Users must comply with all terms and conditions of original licenses of these third-party
	# components and must ensure that the usage of the third party components adheres to
	# all relevant laws and regulations.

	# For avoidance of doubts, Hunyuan 3D means the large language models and
	# their software and algorithms, including trained model weights, parameters (including
	# optimizer states), machine-learning model code, inference-enabling code, training-enabling code,
	# fine-tuning enabling code and other elements of the foregoing made publicly available
	# by Tencent in accordance with TENCENT HUNYUAN COMMUNITY LICENSE AGREEMENT.

	import torch
	import torch.nn as nn
	from torchvision import transforms
	from transformers import (
	CLIPVisionModelWithProjection,
	CLIPVisionConfig,
	Dinov2Model,
	Dinov2Config,
	)


	class ImageEncoder(nn.Module):
	def __init__(
	self,
	version=None,
	config=None,
	use_cls_token=True,
	image_size=224,
	**kwargs,
	):
	super().__init__()

	if config is None:
	self.model = self.MODEL_CLASS.from_pretrained(version)
	else:
	self.model = self.MODEL_CLASS(self.MODEL_CONFIG_CLASS.from_dict(config))
	self.model.eval()
	self.model.requires_grad_(False)
	self.use_cls_token = use_cls_token
	self.size = image_size // 14
	self.num_patches = (image_size // 14) ** 2
	if self.use_cls_token:
	self.num_patches += 1

	self.transform = transforms.Compose(
	[
	transforms.Resize(image_size, transforms.InterpolationMode.BILINEAR, antialias=True),
	transforms.CenterCrop(image_size),
	transforms.Normalize(
	mean=self.mean,
	std=self.std,
	),
	]
	)

	def forward(self, image, mask=None, value_range=(-1, 1)):
	if value_range is not None:
	low, high = value_range
	image = (image - low) / (high - low)

	image = image.to(self.model.device, dtype=self.model.dtype)
	inputs = self.transform(image)
	outputs = self.model(inputs)

	last_hidden_state = outputs.last_hidden_state
	if not self.use_cls_token:
	last_hidden_state = last_hidden_state[:, 1:, :]

	return last_hidden_state

	def unconditional_embedding(self, batch_size):
	device = next(self.model.parameters()).device
	dtype = next(self.model.parameters()).dtype
	zero = torch.zeros(
	batch_size,
	self.num_patches,
	self.model.config.hidden_size,
	device=device,
	dtype=dtype,
	)

	return zero


	class CLIPImageEncoder(ImageEncoder):
	MODEL_CLASS = CLIPVisionModelWithProjection
	MODEL_CONFIG_CLASS = CLIPVisionConfig
	mean = [0.48145466, 0.4578275, 0.40821073]
	std = [0.26862954, 0.26130258, 0.27577711]


	class DinoImageEncoder(ImageEncoder):
	MODEL_CLASS = Dinov2Model
	MODEL_CONFIG_CLASS = Dinov2Config
	mean = [0.485, 0.456, 0.406]
	std = [0.229, 0.224, 0.225]


	def build_image_encoder(config):
	if config['type'] == 'CLIPImageEncoder':
	return CLIPImageEncoder(**config['kwargs'])
	elif config['type'] == 'DinoImageEncoder':
	return DinoImageEncoder(**config['kwargs'])
	else:
	raise ValueError(f'Unknown image encoder type: {config["type"]}')


	class DualImageEncoder(nn.Module):
	def __init__(
	self,
	main_image_encoder,
	additional_image_encoder,
	):
	super().__init__()
	self.main_image_encoder = build_image_encoder(main_image_encoder)
	self.additional_image_encoder = build_image_encoder(additional_image_encoder)

	def forward(self, image, mask=None):
	outputs = {
	'main': self.main_image_encoder(image, mask=mask),
	'additional': self.additional_image_encoder(image, mask=mask),
	}
	return outputs

	def unconditional_embedding(self, batch_size):
	outputs = {
	'main': self.main_image_encoder.unconditional_embedding(batch_size),
	'additional': self.additional_image_encoder.unconditional_embedding(batch_size),
	}
	return outputs


	class SingleImageEncoder(nn.Module):
	def __init__(
	self,
	main_image_encoder,
	):
	super().__init__()
	self.main_image_encoder = build_image_encoder(main_image_encoder)

	def forward(self, image, mask=None):
	outputs = {
	'main': self.main_image_encoder(image, mask=mask),
	}
	return outputs

	def unconditional_embedding(self, batch_size):
	outputs = {
	'main': self.main_image_encoder.unconditional_embedding(batch_size),
	}
	return outputs