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multilingual-font-style-transfer / datasets /googlefont.py

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	import os
	import pickle
	import random
	import string
	import json
	import logging
	from pathlib import Path

	from omegaconf import OmegaConf
	import numpy as np
	import PIL.Image as Image
	import torch
	from torch.utils.data import Dataset
	from tqdm import tqdm

	REPEATE_NUM = 10000

	WHITE = 255

	MAX_TRIAL = 10

	_upper_case = set(map(lambda s: f"{ord(s):04X}", string.ascii_uppercase))
	_digits = set(map(lambda s: f"{ord(s):04X}", string.digits))
	english_set = list(_upper_case.union(_digits))

	NOTO_FONT_DIRNAME = "Noto"


	class GoogleFontDataset(Dataset):
	def __init__(self, args, mode='train',
	metadata_path="./lang_set.json"):
	super(GoogleFontDataset, self).__init__()
	self.args = args
	self.font_dir = Path(args.font_dir)
	self.mode = mode
	self.lang_list = sorted([x.stem for x in self.font_dir.iterdir() if x.is_dir()])
	self.min_tight_bound = 10000
	self.min_font_name = None

	if self.mode == 'train':
	self.lang_list = self.lang_list[:-2]
	else:
	self.lang_list = self.lang_list[-2:]
	with open(metadata_path, "r") as json_f:
	self.data = json.load(json_f)

	self.num_lang = None
	self.num_font = None
	self.num_char = None
	self.content_meta, self.style_meta, self.num_lang, self.num_font, self.num_char = self.get_meta()
	logging.info(f"min_tight_bound: {self.min_tight_bound}") # 20

	@staticmethod
	def center_align(bg_img, item_img, fit=False):
	bg_img = bg_img.copy()
	item_img = item_img.copy()
	item_w, item_h = item_img.size
	W, H = bg_img.size
	if fit:
	item_ratio = item_w / item_h
	bg_ratio = W / H

	if bg_ratio > item_ratio:
	# height fitting
	resize_ratio = H / item_h
	else:
	# width fitting
	resize_ratio = W / item_w
	item_img = item_img.resize((int(item_w * resize_ratio), int(item_h * resize_ratio)))
	item_w, item_h = item_img.size

	bg_img.paste(item_img, ((W - item_w) // 2, (H - item_h) // 2))
	return bg_img

	def _get_content_image(self, png_path):
	im = Image.open(png_path)
	bg_img = Image.new('RGB', (self.args.imsize, self.args.imsize), color='white')
	blend_img = self.center_align(bg_img, im, fit=True)
	return blend_img

	def _get_style_image(self, png_path):
	im = Image.open(png_path)
	w, h = im.size

	# tight_bound_check & update
	tight_bound = self.get_tight_bound_size(np.array(im))
	if self.min_tight_bound > tight_bound:
	self.min_tight_bound = tight_bound
	self.min_font_name = png_path
	logging.debug(f"min_tight_bound: {self.min_tight_bound}, min_font_name: {self.min_font_name}")

	bg_img = Image.new('RGB', (max([w, h, self.args.imsize]), max([w, h, self.args.imsize])), color='white')
	blend_img = self.center_align(bg_img, im)
	return blend_img

	def get_meta(self):
	content_meta = dict()
	style_meta = dict()

	num_lang = 0
	num_font = 0
	num_char = 0
	for lang_dir in tqdm(self.lang_list, total=len(self.lang_list)):
	font_list = sorted([x for x in (self.font_dir / lang_dir).iterdir() if x.is_dir()])

	font_content_dict = dict()
	font_style_dict = dict()

	for font_dir in font_list:
	image_content_dict = dict()
	image_style_dict = dict()

	png_list = [x for x in font_dir.glob("*.png")]

	for png_path in png_list:

	# image_content_dict[png_path.stem] = self._get_content_image(png_path)
	# image_style_dict[png_path.stem] = self._get_style_image(png_path)
	image_content_dict[png_path.stem] = png_path
	image_style_dict[png_path.stem] = png_path
	num_char += 1

	font_content_dict[font_dir.stem] = image_content_dict
	font_style_dict[font_dir.stem] = image_style_dict
	num_font += 1

	content_meta[lang_dir] = font_content_dict
	style_meta[lang_dir] = font_style_dict
	num_lang += 1

	return content_meta, style_meta, num_lang, num_font, num_char

	@staticmethod
	def get_tight_bound_size(img):
	contents_cell = np.where(img < WHITE)

	if len(contents_cell[0]) == 0:
	return 0

	size = {
	'xmin': np.min(contents_cell[1]),
	'ymin': np.min(contents_cell[0]),
	'xmax': np.max(contents_cell[1]) + 1,
	'ymax': np.max(contents_cell[0]) + 1,
	}
	return max(size['xmax'] - size['xmin'], size['ymax'] - size['ymin'])

	def get_patch_from_style_image(self, image, patch_per_image=1):
	w, h = image.size
	image_list = []
	relative_patch_size = int(self.args.imsize * 2)
	for _ in range(patch_per_image):
	offset = w - relative_patch_size
	if offset < relative_patch_size // 2:
	# if image is too small, just resize
	crop_candidate = np.array(image.resize((self.args.imsize, self.args.imsize)))
	else:
	# if image is sufficent to be cropped, randomly crop
	x = np.random.randint(0, offset)
	y = np.random.randint(0, offset)
	crop_candidate = image.crop((x, y, x + relative_patch_size, y + relative_patch_size))

	_trial = 0
	while self.get_tight_bound_size(np.array(crop_candidate)) < relative_patch_size // 16 and _trial < MAX_TRIAL:
	x = np.random.randint(0, offset)
	y = np.random.randint(0, offset)
	crop_candidate = image.crop((x, y, x + relative_patch_size, y + relative_patch_size))
	_trial += 1

	crop_candidate = np.array(crop_candidate.resize((self.args.imsize, self.args.imsize)))
	image_list.append(crop_candidate)
	return image_list

	def get_pairs(self, content_english=False, style_english=False):
	lang_content = random.choice(self.lang_list)

	content_unicode_list = english_set if content_english else self.data[lang_content]
	style_unicode_list = english_set if style_english else self.data[lang_content]

	if content_english == style_english:
	# content_unicode_list == style_unicode_list
	chars = random.sample(content_unicode_list,
	k=self.args.reference_imgs.style + 1)
	content_char = chars[-1]
	style_chars = chars[:self.args.reference_imgs.style]
	else:
	content_char = random.choice(content_unicode_list)
	style_chars = random.sample(style_unicode_list, k=self.args.reference_imgs.style)

	# fonts = random.sample(self.content_meta[lang_content].keys(),
	# k=self.args.reference_imgs.char + 1)
	# content_fonts = fonts[:self.args.reference_imgs.char]
	# style_font = fonts[-1]

	style_font_list = list(self.content_meta[lang_content].keys())
	style_font_list.remove(NOTO_FONT_DIRNAME)
	style_font = random.choice(style_font_list)
	content_fonts = [NOTO_FONT_DIRNAME]

	content_fonts_image = [self.content_meta[lang_content][x][content_char] for x in content_fonts]
	style_chars_image = [self.content_meta[lang_content][style_font][x] for x in style_chars]

	# style_chars_image = [self.content_meta[lang_content][style_font][x] for x in style_chars]

	# style_chars_cropped = []
	# for style_char_image in style_chars_image:
	# style_chars_cropped.extend(self.get_patch_from_style_image(style_char_image,
	# patch_per_image=self.args.reference_imgs.style // self.args.reference_imgs.char))

	target_image = self.content_meta[lang_content][style_font][content_char]

	content_fonts_image = [self._get_content_image(image_path) for image_path in content_fonts_image]
	style_chars_image = [self._get_content_image(image_path) for image_path in style_chars_image]
	target_image = self._get_content_image(target_image)

	return content_char, content_fonts, content_fonts_image, style_font, style_chars, style_chars_image, target_image

	def __getitem__(self, idx):
	"""GoogleFontDataset의 __getitem__

	Args:
	idx (int): torch dataset index

	Returns:
	dict: return dict with following keys

	gt_images: target_image,
	content_images: same_chars_image,
	style_images: same_fonts_image,
	style_idx: font_idx,
	char_idx: char_idx,
	content_image_idxs: same_chars,
	style_image_idxs: same_fonts,
	image_paths: ''
	"""
	use_eng_content, use_eng_style = random.choice([(True, False), (False, True), (False, False)])

	if self.mode != 'train':
	use_eng_content = False
	use_eng_style = True

	content_char, content_fonts, content_fonts_image, style_font, style_chars, style_chars_image, target_image = \
	self.get_pairs(content_english=use_eng_content, style_english=use_eng_style)

	content_fonts_image = np.array([np.mean(np.array(x), axis=-1) / WHITE
	for x in content_fonts_image], dtype=np.float32)
	style_chars_image = np.array([np.mean(np.array(x), axis=-1) / WHITE
	for x in style_chars_image], dtype=np.float32)
	target_image = np.mean(np.array(target_image, dtype=np.float32), axis=-1)[np.newaxis, ...] / WHITE

	dict_return = {
	# data for training
	'gt_images': target_image,
	'content_images': content_fonts_image,
	'style_images': style_chars_image, # TODO: crop style image with fixed size
	# data for logging
	'style_idx': style_font,
	'char_idx': content_char,
	'content_image_idxs': content_fonts,
	'style_image_idxs': style_chars,
	'image_paths': '',
	}
	return dict_return

	def __len__(self):
	return len(self.lang_list) * REPEATE_NUM


	if __name__ == '__main__':
	hp = OmegaConf.load('config/datasets/googlefont.yaml').datasets.train
	metadata_path = "./lang_set.json"
	FONT_DIR = "/data2/hksong/DATA/fonts-image"

	_dataset = GoogleFontDataset(hp, metadata_path=metadata_path, font_dir=FONT_DIR)
	TEST_ITER_NUM = 4
	for i in range(TEST_ITER_NUM):
	data = _dataset[i]
	print(data.keys())
	print(data['gt_image'].size,
	data['content_images'][0].size,
	data['style_images'][0].size,
	data['lang'],
	data['style_idx'],
	data['char_idx'],
	data['content_image_idxs'],
	data['style_image_idxs'])