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Marees-Magical-Photo-Tool-Free / SUPIR /models /SUPIR_model.py

Fabrice-TIERCELIN

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	import torch
	from sgm.models.diffusion import DiffusionEngine
	from sgm.util import instantiate_from_config
	import copy
	from sgm.modules.distributions.distributions import DiagonalGaussianDistribution
	import random
	from SUPIR.utils.colorfix import wavelet_reconstruction, adaptive_instance_normalization
	from pytorch_lightning import seed_everything
	from torch.nn.functional import interpolate
	from SUPIR.utils.tilevae import VAEHook

	class SUPIRModel(DiffusionEngine):
	def __init__(self, control_stage_config, ae_dtype='fp32', diffusion_dtype='fp32', p_p='', n_p='', args, *kwargs):
	super().__init__(args, *kwargs)
	control_model = instantiate_from_config(control_stage_config)
	self.model.load_control_model(control_model)
	self.first_stage_model.denoise_encoder = copy.deepcopy(self.first_stage_model.encoder)
	self.sampler_config = kwargs['sampler_config']

	assert (ae_dtype in ['fp32', 'fp16', 'bf16']) and (diffusion_dtype in ['fp32', 'fp16', 'bf16'])
	if ae_dtype == 'fp32':
	ae_dtype = torch.float32
	elif ae_dtype == 'fp16':
	raise RuntimeError('fp16 cause NaN in AE')
	elif ae_dtype == 'bf16':
	ae_dtype = torch.bfloat16

	if diffusion_dtype == 'fp32':
	diffusion_dtype = torch.float32
	elif diffusion_dtype == 'fp16':
	diffusion_dtype = torch.float16
	elif diffusion_dtype == 'bf16':
	diffusion_dtype = torch.bfloat16

	self.ae_dtype = ae_dtype
	self.model.dtype = diffusion_dtype

	self.p_p = p_p
	self.n_p = n_p

	@torch.no_grad()
	def encode_first_stage(self, x):
	with torch.autocast("cuda", dtype=self.ae_dtype):
	z = self.first_stage_model.encode(x)
	z = self.scale_factor * z
	return z

	@torch.no_grad()
	def encode_first_stage_with_denoise(self, x, use_sample=True, is_stage1=False):
	with torch.autocast("cuda", dtype=self.ae_dtype):
	if is_stage1:
	h = self.first_stage_model.denoise_encoder_s1(x)
	else:
	h = self.first_stage_model.denoise_encoder(x)
	moments = self.first_stage_model.quant_conv(h)
	posterior = DiagonalGaussianDistribution(moments)
	if use_sample:
	z = posterior.sample()
	else:
	z = posterior.mode()
	z = self.scale_factor * z
	return z

	@torch.no_grad()
	def decode_first_stage(self, z):
	z = 1.0 / self.scale_factor * z
	with torch.autocast("cuda", dtype=self.ae_dtype):
	out = self.first_stage_model.decode(z)
	return out.float()

	@torch.no_grad()
	def batchify_denoise(self, x, is_stage1=False):
	'''
	[N, C, H, W], [-1, 1], RGB
	'''
	x = self.encode_first_stage_with_denoise(x, use_sample=False, is_stage1=is_stage1)
	return self.decode_first_stage(x)

	@torch.no_grad()
	def batchify_sample(self, x, p, p_p='default', n_p='default', num_steps=100, restoration_scale=4.0, s_churn=0, s_noise=1.003, cfg_scale=4.0, seed=-1,
	num_samples=1, control_scale=1, color_fix_type='None', use_linear_CFG=False, use_linear_control_scale=False,
	cfg_scale_start=1.0, control_scale_start=0.0, **kwargs):
	'''
	[N, C], [-1, 1], RGB
	'''
	assert len(x) == len(p)
	assert color_fix_type in ['Wavelet', 'AdaIn', 'None']

	N = len(x)
	if num_samples > 1:
	assert N == 1
	N = num_samples
	x = x.repeat(N, 1, 1, 1)
	p = p * N

	if p_p == 'default':
	p_p = self.p_p
	if n_p == 'default':
	n_p = self.n_p

	self.sampler_config.params.num_steps = num_steps
	if use_linear_CFG:
	self.sampler_config.params.guider_config.params.scale_min = cfg_scale
	self.sampler_config.params.guider_config.params.scale = cfg_scale_start
	else:
	self.sampler_config.params.guider_config.params.scale_min = cfg_scale
	self.sampler_config.params.guider_config.params.scale = cfg_scale
	self.sampler_config.params.restore_cfg = restoration_scale
	self.sampler_config.params.s_churn = s_churn
	self.sampler_config.params.s_noise = s_noise
	self.sampler = instantiate_from_config(self.sampler_config)

	if seed == -1:
	seed = random.randint(0, 65535)
	seed_everything(seed)

	_z = self.encode_first_stage_with_denoise(x, use_sample=False)
	x_stage1 = self.decode_first_stage(_z)
	z_stage1 = self.encode_first_stage(x_stage1)

	c, uc = self.prepare_condition(_z, p, p_p, n_p, N)

	denoiser = lambda input, sigma, c, control_scale: self.denoiser(
	self.model, input, sigma, c, control_scale, **kwargs
	)

	noised_z = torch.randn_like(_z).to(_z.device)

	_samples = self.sampler(denoiser, noised_z, cond=c, uc=uc, x_center=z_stage1, control_scale=control_scale,
	use_linear_control_scale=use_linear_control_scale, control_scale_start=control_scale_start)
	samples = self.decode_first_stage(_samples)
	if color_fix_type == 'Wavelet':
	samples = wavelet_reconstruction(samples, x_stage1)
	elif color_fix_type == 'AdaIn':
	samples = adaptive_instance_normalization(samples, x_stage1)
	return samples

	def init_tile_vae(self, encoder_tile_size=512, decoder_tile_size=64):
	self.first_stage_model.denoise_encoder.original_forward = self.first_stage_model.denoise_encoder.forward
	self.first_stage_model.encoder.original_forward = self.first_stage_model.encoder.forward
	self.first_stage_model.decoder.original_forward = self.first_stage_model.decoder.forward
	self.first_stage_model.denoise_encoder.forward = VAEHook(
	self.first_stage_model.denoise_encoder, encoder_tile_size, is_decoder=False, fast_decoder=False,
	fast_encoder=False, color_fix=False, to_gpu=True)
	self.first_stage_model.encoder.forward = VAEHook(
	self.first_stage_model.encoder, encoder_tile_size, is_decoder=False, fast_decoder=False,
	fast_encoder=False, color_fix=False, to_gpu=True)
	self.first_stage_model.decoder.forward = VAEHook(
	self.first_stage_model.decoder, decoder_tile_size, is_decoder=True, fast_decoder=False,
	fast_encoder=False, color_fix=False, to_gpu=True)

	def prepare_condition(self, _z, p, p_p, n_p, N):
	batch = {}
	batch['original_size_as_tuple'] = torch.tensor([1024, 1024]).repeat(N, 1).to(_z.device)
	batch['crop_coords_top_left'] = torch.tensor([0, 0]).repeat(N, 1).to(_z.device)
	batch['target_size_as_tuple'] = torch.tensor([1024, 1024]).repeat(N, 1).to(_z.device)
	batch['aesthetic_score'] = torch.tensor([9.0]).repeat(N, 1).to(_z.device)
	batch['control'] = _z

	batch_uc = copy.deepcopy(batch)
	batch_uc['txt'] = [n_p for _ in p]

	if not isinstance(p[0], list):
	batch['txt'] = [''.join([_p, p_p]) for _p in p]
	with torch.cuda.amp.autocast(dtype=self.ae_dtype):
	c, uc = self.conditioner.get_unconditional_conditioning(batch, batch_uc)
	else:
	assert len(p) == 1, 'Support bs=1 only for local prompt conditioning.'
	p_tiles = p[0]
	c = []
	for i, p_tile in enumerate(p_tiles):
	batch['txt'] = [''.join([p_tile, p_p])]
	with torch.cuda.amp.autocast(dtype=self.ae_dtype):
	if i == 0:
	_c, uc = self.conditioner.get_unconditional_conditioning(batch, batch_uc)
	else:
	_c, _ = self.conditioner.get_unconditional_conditioning(batch, None)
	c.append(_c)
	return c, uc


	if __name__ == '__main__':
	from SUPIR.util import create_model, load_state_dict

	model = create_model('../../options/dev/SUPIR_paper_version.yaml')

	SDXL_CKPT = '/opt/data/private/AIGC_pretrain/SDXL_cache/sd_xl_base_1.0_0.9vae.safetensors'
	SUPIR_CKPT = '/opt/data/private/AIGC_pretrain/SUPIR_cache/SUPIR-paper.ckpt'
	model.load_state_dict(load_state_dict(SDXL_CKPT), strict=False)
	model.load_state_dict(load_state_dict(SUPIR_CKPT), strict=False)
	model = model.cuda()

	x = torch.randn(1, 3, 512, 512).cuda()
	p = ['a professional, detailed, high-quality photo']
	samples = model.batchify_sample(x, p, num_steps=50, restoration_scale=4.0, s_churn=0, cfg_scale=4.0, seed=-1, num_samples=1)