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Text2Human / model.py

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	from __future__ import annotations

	import pathlib
	import sys
	import zipfile

	import huggingface_hub
	import numpy as np
	import PIL.Image
	import torch

	sys.path.insert(0, 'Text2Human')

	from models.sample_model import SampleFromPoseModel
	from utils.language_utils import (generate_shape_attributes,
	generate_texture_attributes)
	from utils.options import dict_to_nonedict, parse
	from utils.util import set_random_seed

	COLOR_LIST = [
	(0, 0, 0),
	(255, 250, 250),
	(220, 220, 220),
	(250, 235, 215),
	(255, 250, 205),
	(211, 211, 211),
	(70, 130, 180),
	(127, 255, 212),
	(0, 100, 0),
	(50, 205, 50),
	(255, 255, 0),
	(245, 222, 179),
	(255, 140, 0),
	(255, 0, 0),
	(16, 78, 139),
	(144, 238, 144),
	(50, 205, 174),
	(50, 155, 250),
	(160, 140, 88),
	(213, 140, 88),
	(90, 140, 90),
	(185, 210, 205),
	(130, 165, 180),
	(225, 141, 151),
	]


	class Model:
	def __init__(self):
	device = torch.device('cuda:0' if torch.cuda.is_available() else 'cpu')
	self.config = self._load_config()
	self.config['device'] = device.type
	self._download_models()
	self.model = SampleFromPoseModel(self.config)
	self.model.batch_size = 1

	def _load_config(self) -> dict:
	path = 'Text2Human/configs/sample_from_pose.yml'
	config = parse(path, is_train=False)
	config = dict_to_nonedict(config)
	return config

	def _download_models(self) -> None:
	model_dir = pathlib.Path('pretrained_models')
	if model_dir.exists():
	return
	path = huggingface_hub.hf_hub_download('yumingj/Text2Human_SSHQ',
	'pretrained_models.zip')
	model_dir.mkdir()
	with zipfile.ZipFile(path) as f:
	f.extractall(model_dir)

	@staticmethod
	def preprocess_pose_image(image: PIL.Image.Image) -> torch.Tensor:
	image = np.array(
	image.resize(
	size=(256, 512),
	resample=PIL.Image.Resampling.LANCZOS))[:, :, 2:].transpose(
	2, 0, 1).astype(np.float32)
	image = image / 12. - 1
	data = torch.from_numpy(image).unsqueeze(1)
	return data

	@staticmethod
	def process_mask(mask: np.ndarray) -> np.ndarray:
	if mask.shape != (512, 256, 3):
	return None
	seg_map = np.full(mask.shape[:-1], -1)
	for index, color in enumerate(COLOR_LIST):
	seg_map[np.sum(mask == color, axis=2) == 3] = index
	if not (seg_map != -1).all():
	return None
	return seg_map

	@staticmethod
	def postprocess(result: torch.Tensor) -> np.ndarray:
	result = result.permute(0, 2, 3, 1)
	result = result.detach().cpu().numpy()
	result = result * 255
	result = np.asarray(result[0, :, :, :], dtype=np.uint8)
	return result

	def process_pose_image(self, pose_image: PIL.Image.Image) -> torch.Tensor:
	if pose_image is None:
	return
	data = self.preprocess_pose_image(pose_image)
	self.model.feed_pose_data(data)
	return data

	def generate_label_image(self, pose_data: torch.Tensor,
	shape_text: str) -> np.ndarray:
	if pose_data is None:
	return
	self.model.feed_pose_data(pose_data)
	shape_attributes = generate_shape_attributes(shape_text)
	shape_attributes = torch.LongTensor(shape_attributes).unsqueeze(0)
	self.model.feed_shape_attributes(shape_attributes)
	self.model.generate_parsing_map()
	self.model.generate_quantized_segm()
	colored_segm = self.model.palette_result(self.model.segm[0].cpu())
	return colored_segm

	def generate_human(self, label_image: np.ndarray, texture_text: str,
	sample_steps: int, seed: int) -> np.ndarray:
	if label_image is None:
	return
	mask = label_image.copy()
	seg_map = self.process_mask(mask)
	if seg_map is None:
	return
	self.model.segm = torch.from_numpy(seg_map).unsqueeze(0).unsqueeze(
	0).to(self.model.device)
	self.model.generate_quantized_segm()

	set_random_seed(seed)

	texture_attributes = generate_texture_attributes(texture_text)
	texture_attributes = torch.LongTensor(texture_attributes)
	self.model.feed_texture_attributes(texture_attributes)
	self.model.generate_texture_map()

	self.model.sample_steps = sample_steps
	out = self.model.sample_and_refine()
	res = self.postprocess(out)
	return res