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CoAdapter / t2i_adapters /t2i_adapters_for_style.py

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c05d22e about 1 year ago

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	import torch
	import numpy as np
	from transformers import CLIPVisionModel

	from ldm.models.diffusion.ddpm import LatentDiffusion, disabled_train
	from ldm.util import instantiate_from_config


	class T2IAdapterStyleV3(LatentDiffusion):

	def __init__(self, adapter_config, extra_cond_key, noise_schedule, args, *kwargs):
	super(T2IAdapterStyleV3, self).__init__(args, *kwargs)
	self.adapter = instantiate_from_config(adapter_config)
	self.extra_cond_key = extra_cond_key
	self.noise_schedule = noise_schedule
	self.clip_vision_model = CLIPVisionModel.from_pretrained(
	'openai/clip-vit-large-patch14'
	)

	self.clip_vision_model = self.clip_vision_model.eval()
	self.clip_vision_model.train = disabled_train
	for param in self.clip_vision_model.parameters():
	param.requires_grad = False


	def shared_step(self, batch, **kwargs):
	for k in self.ucg_training:
	if k == self.extra_cond_key:
	continue
	p = self.ucg_training[k]
	for i in range(len(batch[k])):
	if self.ucg_prng.choice(2, p=[1 - p, p]):
	if isinstance(batch[k], list):
	batch[k][i] = ""
	batch['jpg'] = batch['jpg'] * 2 - 1
	x, c = self.get_input(batch, self.first_stage_key)
	extra_cond = super(LatentDiffusion, self).get_input(batch, self.extra_cond_key).to(self.device)
	extra_cond = self.clip_vision_model(extra_cond)['last_hidden_state']
	features_adapter = self.adapter(extra_cond)
	if self.extra_cond_key in self.ucg_training:
	idx = np.random.choice(self.adapter.num_token, np.random.randint(1, self.adapter.num_token+1), replace=False)
	idx_tensor = torch.from_numpy(idx).to(features_adapter.device)
	features_adapter = torch.index_select(features_adapter, 1, idx_tensor)
	t = self.get_time_with_schedule(self.noise_schedule, x.size(0))
	loss, loss_dict = self(x, c, t=t, append_to_context=features_adapter)
	return loss, loss_dict

	def configure_optimizers(self):
	lr = self.learning_rate
	params = list(self.adapter.parameters())
	opt = torch.optim.AdamW(params, lr=lr)
	return opt

	def on_save_checkpoint(self, checkpoint):
	keys = list(checkpoint['state_dict'].keys())
	for key in keys:
	if 'adapter' not in key:
	del checkpoint['state_dict'][key]

	def on_load_checkpoint(self, checkpoint):
	for name in self.state_dict():
	if 'adapter' not in name:
	checkpoint['state_dict'][name] = self.state_dict()[name]