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	# -- coding: utf-8 --
	# Copyright (c) Alibaba, Inc. and its affiliates.
	import copy
	import math
	import random
	import numpy as np
	from PIL import Image

	import torch
	import torch.nn as nn
	import torch.nn.functional as F
	import torchvision.transforms.functional as TF

	from scepter.modules.model.registry import DIFFUSIONS
	from scepter.modules.utils.distribute import we
	from scepter.modules.utils.logger import get_logger
	from scepter.modules.inference.diffusion_inference import DiffusionInference, get_model

	from modules.model.utils.basic_utils import (
	check_list_of_list,
	pack_imagelist_into_tensor_v2 as pack_imagelist_into_tensor,
	to_device,
	unpack_tensor_into_imagelist
	)


	def process_edit_image(images,
	masks,
	tasks,
	max_seq_len=1024,
	max_aspect_ratio=4,
	d=16,
	**kwargs):

	if not isinstance(images, list):
	images = [images]
	if not isinstance(masks, list):
	masks = [masks]
	if not isinstance(tasks, list):
	tasks = [tasks]

	img_tensors = []
	mask_tensors = []
	for img, mask, task in zip(images, masks, tasks):
	if mask is None or mask == '':
	mask = Image.new('L', img.size, 0)
	W, H = img.size
	if H / W > max_aspect_ratio:
	img = TF.center_crop(img, [int(max_aspect_ratio * W), W])
	mask = TF.center_crop(mask, [int(max_aspect_ratio * W), W])
	elif W / H > max_aspect_ratio:
	img = TF.center_crop(img, [H, int(max_aspect_ratio * H)])
	mask = TF.center_crop(mask, [H, int(max_aspect_ratio * H)])

	H, W = img.height, img.width
	scale = min(1.0, math.sqrt(max_seq_len / ((H / d) * (W / d))))
	rH = int(H * scale) // d * d # ensure divisible by self.d
	rW = int(W * scale) // d * d

	img = TF.resize(img, (rH, rW),
	interpolation=TF.InterpolationMode.BICUBIC)
	mask = TF.resize(mask, (rH, rW),
	interpolation=TF.InterpolationMode.NEAREST_EXACT)

	mask = np.asarray(mask)
	mask = np.where(mask > 128, 1, 0)
	mask = mask.astype(
	np.float32) if np.any(mask) else np.ones_like(mask).astype(
	np.float32)

	img_tensor = TF.to_tensor(img).to(we.device_id)
	img_tensor = TF.normalize(img_tensor,
	mean=[0.5, 0.5, 0.5],
	std=[0.5, 0.5, 0.5])
	mask_tensor = TF.to_tensor(mask).to(we.device_id)
	if task in ['inpainting', 'Try On', 'Inpainting']:
	mask_indicator = mask_tensor.repeat(3, 1, 1)
	img_tensor[mask_indicator == 1] = -1.0
	img_tensors.append(img_tensor)
	mask_tensors.append(mask_tensor)
	return img_tensors, mask_tensors


	class TextEmbedding(nn.Module):
	def __init__(self, embedding_shape):
	super().__init__()
	self.pos = nn.Parameter(data=torch.zeros(embedding_shape))


	class ACEInference(DiffusionInference):
	def __init__(self, logger=None):
	if logger is None:
	logger = get_logger(name='scepter')
	self.logger = logger
	self.loaded_model = {}
	self.loaded_model_name = [
	'diffusion_model', 'first_stage_model', 'cond_stage_model'
	]

	def init_from_cfg(self, cfg):
	self.name = cfg.NAME
	self.is_default = cfg.get('IS_DEFAULT', False)
	module_paras = self.load_default(cfg.get('DEFAULT_PARAS', None))
	assert cfg.have('MODEL')

	self.diffusion_model = self.infer_model(
	cfg.MODEL.DIFFUSION_MODEL, module_paras.get(
	'DIFFUSION_MODEL',
	None)) if cfg.MODEL.have('DIFFUSION_MODEL') else None
	self.first_stage_model = self.infer_model(
	cfg.MODEL.FIRST_STAGE_MODEL,
	module_paras.get(
	'FIRST_STAGE_MODEL',
	None)) if cfg.MODEL.have('FIRST_STAGE_MODEL') else None
	self.cond_stage_model = self.infer_model(
	cfg.MODEL.COND_STAGE_MODEL,
	module_paras.get(
	'COND_STAGE_MODEL',
	None)) if cfg.MODEL.have('COND_STAGE_MODEL') else None
	self.diffusion = DIFFUSIONS.build(cfg.MODEL.DIFFUSION,
	logger=self.logger)

	self.interpolate_func = lambda x: (F.interpolate(
	x.unsqueeze(0),
	scale_factor=1 / self.size_factor,
	mode='nearest-exact') if x is not None else None)
	self.text_indentifers = cfg.MODEL.get('TEXT_IDENTIFIER', [])
	self.use_text_pos_embeddings = cfg.MODEL.get('USE_TEXT_POS_EMBEDDINGS',
	False)
	if self.use_text_pos_embeddings:
	self.text_position_embeddings = TextEmbedding(
	(10, 4096)).eval().requires_grad_(False).to(we.device_id)
	else:
	self.text_position_embeddings = None

	self.max_seq_len = cfg.MODEL.DIFFUSION_MODEL.MAX_SEQ_LEN
	self.scale_factor = cfg.get('SCALE_FACTOR', 0.18215)
	self.size_factor = cfg.get('SIZE_FACTOR', 8)
	self.decoder_bias = cfg.get('DECODER_BIAS', 0)
	self.default_n_prompt = cfg.get('DEFAULT_N_PROMPT', '')

	self.dynamic_load(self.first_stage_model, 'first_stage_model')
	self.dynamic_load(self.cond_stage_model, 'cond_stage_model')
	self.dynamic_load(self.diffusion_model, 'diffusion_model')

	@torch.no_grad()
	def encode_first_stage(self, x, **kwargs):
	_, dtype = self.get_function_info(self.first_stage_model, 'encode')
	with torch.autocast('cuda',
	enabled=(dtype != 'float32'),
	dtype=getattr(torch, dtype)):
	z = [
	self.scale_factor * get_model(self.first_stage_model)._encode(
	i.unsqueeze(0).to(getattr(torch, dtype))) for i in x
	]
	return z

	@torch.no_grad()
	def decode_first_stage(self, z):
	_, dtype = self.get_function_info(self.first_stage_model, 'decode')
	with torch.autocast('cuda',
	enabled=(dtype != 'float32'),
	dtype=getattr(torch, dtype)):
	x = [
	get_model(self.first_stage_model)._decode(
	1. / self.scale_factor * i.to(getattr(torch, dtype)))
	for i in z
	]
	return x

	@torch.no_grad()
	def __call__(self,
	image=None,
	mask=None,
	prompt='',
	task=None,
	negative_prompt='',
	output_height=512,
	output_width=512,
	sampler='ddim',
	sample_steps=20,
	guide_scale=4.5,
	guide_rescale=0.5,
	seed=-1,
	history_io=None,
	tar_index=0,
	**kwargs):
	input_image, input_mask = image, mask
	g = torch.Generator(device=we.device_id)
	seed = seed if seed >= 0 else random.randint(0, 2**32 - 1)
	g.manual_seed(int(seed))

	if input_image is not None:
	assert isinstance(input_image, list) and isinstance(
	input_mask, list)
	if task is None:
	task = [''] * len(input_image)
	if not isinstance(prompt, list):
	prompt = [prompt] * len(input_image)
	if history_io is not None and len(history_io) > 0:
	his_image, his_maks, his_prompt, his_task = history_io[
	'image'], history_io['mask'], history_io[
	'prompt'], history_io['task']
	assert len(his_image) == len(his_maks) == len(
	his_prompt) == len(his_task)
	input_image = his_image + input_image
	input_mask = his_maks + input_mask
	task = his_task + task
	prompt = his_prompt + [prompt[-1]]
	prompt = [
	pp.replace('{image}', f'{{image{i}}}') if i > 0 else pp
	for i, pp in enumerate(prompt)
	]

	edit_image, edit_image_mask = process_edit_image(
	input_image, input_mask, task, max_seq_len=self.max_seq_len)

	image, image_mask = edit_image[tar_index], edit_image_mask[
	tar_index]
	edit_image, edit_image_mask = [edit_image], [edit_image_mask]

	else:
	edit_image = edit_image_mask = [[]]
	image = torch.zeros(
	size=[3, int(output_height),
	int(output_width)])
	image_mask = torch.ones(
	size=[1, int(output_height),
	int(output_width)])
	if not isinstance(prompt, list):
	prompt = [prompt]

	image, image_mask, prompt = [image], [image_mask], [prompt]
	assert check_list_of_list(prompt) and check_list_of_list(
	edit_image) and check_list_of_list(edit_image_mask)
	# Assign Negative Prompt
	if isinstance(negative_prompt, list):
	negative_prompt = negative_prompt[0]
	assert isinstance(negative_prompt, str)

	n_prompt = copy.deepcopy(prompt)
	for nn_p_id, nn_p in enumerate(n_prompt):
	assert isinstance(nn_p, list)
	n_prompt[nn_p_id][-1] = negative_prompt

	ctx, null_ctx = {}, {}

	# Get Noise Shape
	image = to_device(image)
	x = self.encode_first_stage(image)
	noise = [
	torch.empty(*i.shape, device=we.device_id).normal_(generator=g)
	for i in x
	]
	noise, x_shapes = pack_imagelist_into_tensor(noise)
	ctx['x_shapes'] = null_ctx['x_shapes'] = x_shapes

	image_mask = to_device(image_mask, strict=False)
	cond_mask = [self.interpolate_func(i) for i in image_mask
	] if image_mask is not None else [None] * len(image)
	ctx['x_mask'] = null_ctx['x_mask'] = cond_mask

	# Encode Prompt

	function_name, dtype = self.get_function_info(self.cond_stage_model)
	cont, cont_mask = getattr(get_model(self.cond_stage_model),
	function_name)(prompt)
	cont, cont_mask = self.cond_stage_embeddings(prompt, edit_image, cont,
	cont_mask)
	null_cont, null_cont_mask = getattr(get_model(self.cond_stage_model),
	function_name)(n_prompt)
	null_cont, null_cont_mask = self.cond_stage_embeddings(
	prompt, edit_image, null_cont, null_cont_mask)
	ctx['crossattn'] = cont
	null_ctx['crossattn'] = null_cont

	# Encode Edit Images
	edit_image = [to_device(i, strict=False) for i in edit_image]
	edit_image_mask = [to_device(i, strict=False) for i in edit_image_mask]
	e_img, e_mask = [], []
	for u, m in zip(edit_image, edit_image_mask):
	if u is None:
	continue
	if m is None:
	m = [None] * len(u)
	e_img.append(self.encode_first_stage(u, **kwargs))
	e_mask.append([self.interpolate_func(i) for i in m])

	null_ctx['edit'] = ctx['edit'] = e_img
	null_ctx['edit_mask'] = ctx['edit_mask'] = e_mask

	# Diffusion Process
	function_name, dtype = self.get_function_info(self.diffusion_model)
	with torch.autocast('cuda',
	enabled=dtype in ('float16', 'bfloat16'),
	dtype=getattr(torch, dtype)):
	latent = self.diffusion.sample(
	noise=noise,
	sampler=sampler,
	model=get_model(self.diffusion_model),
	model_kwargs=[{
	'cond':
	ctx,
	'mask':
	cont_mask,
	'text_position_embeddings':
	self.text_position_embeddings.pos if hasattr(
	self.text_position_embeddings, 'pos') else None
	}, {
	'cond':
	null_ctx,
	'mask':
	null_cont_mask,
	'text_position_embeddings':
	self.text_position_embeddings.pos if hasattr(
	self.text_position_embeddings, 'pos') else None
	}] if guide_scale is not None and guide_scale > 1 else {
	'cond':
	null_ctx,
	'mask':
	cont_mask,
	'text_position_embeddings':
	self.text_position_embeddings.pos if hasattr(
	self.text_position_embeddings, 'pos') else None
	},
	steps=sample_steps,
	show_progress=True,
	seed=seed,
	guide_scale=guide_scale,
	guide_rescale=guide_rescale,
	return_intermediate=None,
	**kwargs)

	# Decode to Pixel Space
	samples = unpack_tensor_into_imagelist(latent, x_shapes)
	x_samples = self.decode_first_stage(samples)

	imgs = [
	torch.clamp((x_i + 1.0) / 2.0 + self.decoder_bias / 255,
	min=0.0,
	max=1.0).squeeze(0).permute(1, 2, 0).cpu().numpy()
	for x_i in x_samples
	]
	imgs = [Image.fromarray((img * 255).astype(np.uint8)) for img in imgs]
	return imgs

	def cond_stage_embeddings(self, prompt, edit_image, cont, cont_mask):
	if self.use_text_pos_embeddings and not torch.sum(
	self.text_position_embeddings.pos) > 0:
	identifier_cont, _ = getattr(get_model(self.cond_stage_model),
	'encode')(self.text_indentifers,
	return_mask=True)
	self.text_position_embeddings.load_state_dict(
	{'pos': identifier_cont[:, 0, :]})

	cont_, cont_mask_ = [], []
	for pp, edit, c, cm in zip(prompt, edit_image, cont, cont_mask):
	if isinstance(pp, list):
	cont_.append([c[-1], *c] if len(edit) > 0 else [c[-1]])
	cont_mask_.append([cm[-1], *cm] if len(edit) > 0 else [cm[-1]])
	else:
	raise NotImplementedError

	return cont_, cont_mask_