meme / augment.py

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	import math
	import os
	from typing import Optional, Tuple, Union

	import torch
	from torchvision import transforms

	from PIL import Image

	from timm.data.constants import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD, DEFAULT_CROP_PCT
	from timm.data.auto_augment import rand_augment_transform, augment_and_mix_transform, auto_augment_transform
	from timm.data.transforms import str_to_interp_mode, str_to_pil_interp, RandomResizedCropAndInterpolation, \
	ResizeKeepRatio, CenterCropOrPad, RandomCropOrPad, TrimBorder, ToNumpy, MaybeToTensor, MaybePILToTensor
	from timm.data.random_erasing import RandomErasing

	def augment_meme(img_size: Union[int, Tuple[int, int]] = 224,
	scale: Optional[Tuple[float, float]] = None,
	ratio: Optional[Tuple[float, float]] = None,
	train_crop_mode: Optional[str] = None,
	color_jitter: Union[float, Tuple[float, ...]] = 0.4,
	color_jitter_prob: Optional[float] = None,
	force_color_jitter: bool = False,
	grayscale_prob: float = 0.,
	gaussian_blur_prob: float = 0.,
	auto_augment: Optional[str] = None,
	interpolation: str = 'random',
	mean: Tuple[float, ...] = IMAGENET_DEFAULT_MEAN,
	std: Tuple[float, ...] = IMAGENET_DEFAULT_STD,
	re_prob: float = 0.,
	re_mode: str = 'const',
	re_count: int = 1,
	re_num_splits: int = 0,
	use_prefetcher: bool = False,
	normalize: bool = True,
	separate: bool = False,
	hflip = 0,
	vflip = 0
	):

	train_crop_mode = train_crop_mode or 'rrc'
	assert train_crop_mode in {'rrc', 'rkrc', 'rkrr'}
	if train_crop_mode in ('rkrc', 'rkrr'):
	# FIXME integration of RKR is a WIP
	scale = tuple(scale or (0.8, 1.00))
	ratio = tuple(ratio or (0.9, 1/.9))
	primary_tfl = [
	ResizeKeepRatio(
	img_size,
	interpolation=interpolation,
	random_scale_prob=0.5,
	random_scale_range=scale,
	random_scale_area=True, # scale compatible with RRC
	random_aspect_prob=0.5,
	random_aspect_range=ratio,
	),
	CenterCropOrPad(img_size, padding_mode='reflect')
	if train_crop_mode == 'rkrc' else
	RandomCropOrPad(img_size, padding_mode='reflect')
	]
	else:
	scale = tuple(scale or (0.08, 1.0)) # default imagenet scale range
	ratio = tuple(ratio or (3. / 4., 4. / 3.)) # default imagenet ratio range
	primary_tfl = []
	if hflip > 0.:
	primary_tfl += [transforms.RandomHorizontalFlip(p=hflip)]
	if vflip > 0.:
	primary_tfl += [transforms.RandomVerticalFlip(p=vflip)]

	secondary_tfl = []
	disable_color_jitter = False
	if auto_augment:
	assert isinstance(auto_augment, str)
	# color jitter is typically disabled if AA/RA on,
	# this allows override without breaking old hparm cfgs
	disable_color_jitter = not (force_color_jitter or '3a' in auto_augment)
	if isinstance(img_size, (tuple, list)):
	img_size_min = min(img_size)
	else:
	img_size_min = img_size
	aa_params = dict(
	translate_const=int(img_size_min * 0.45),
	img_mean=tuple([min(255, round(255 * x)) for x in mean]),
	)
	if interpolation and interpolation != 'random':
	aa_params['interpolation'] = str_to_pil_interp(interpolation)
	if auto_augment.startswith('rand'):
	secondary_tfl += [rand_augment_transform(auto_augment, aa_params)]
	elif auto_augment.startswith('augmix'):
	aa_params['translate_pct'] = 0.3
	secondary_tfl += [augment_and_mix_transform(auto_augment, aa_params)]
	else:
	secondary_tfl += [auto_augment_transform(auto_augment, aa_params)]

	if color_jitter is not None and not disable_color_jitter:
	# color jitter is enabled when not using AA or when forced
	if isinstance(color_jitter, (list, tuple)):
	# color jitter should be a 3-tuple/list if spec brightness/contrast/saturation
	# or 4 if also augmenting hue
	assert len(color_jitter) in (3, 4)
	else:
	# if it's a scalar, duplicate for brightness, contrast, and saturation, no hue
	color_jitter = (float(color_jitter),) * 3
	if color_jitter_prob is not None:
	secondary_tfl += [
	transforms.RandomApply([
	transforms.ColorJitter(*color_jitter),
	],
	p=color_jitter_prob
	)
	]
	else:
	secondary_tfl += [transforms.ColorJitter(*color_jitter)]

	if grayscale_prob:
	secondary_tfl += [transforms.RandomGrayscale(p=grayscale_prob)]

	if gaussian_blur_prob:
	secondary_tfl += [
	transforms.RandomApply([
	transforms.GaussianBlur(kernel_size=23), # hardcoded for now
	],
	p=gaussian_blur_prob,
	)
	]

	final_tfl = []
	if use_prefetcher:
	# prefetcher and collate will handle tensor conversion and norm
	final_tfl += [ToNumpy()]
	elif not normalize:
	# when normalize disable, converted to tensor without scaling, keeps original dtype
	final_tfl += [MaybePILToTensor()]
	else:
	final_tfl += [
	MaybeToTensor(),
	transforms.Normalize(
	mean=torch.tensor(mean),
	std=torch.tensor(std),
	),
	]
	if re_prob > 0.:
	final_tfl += [
	RandomErasing(
	re_prob,
	mode=re_mode,
	max_count=re_count,
	num_splits=re_num_splits,
	device='cpu',
	)
	]

	if separate:
	return transforms.Compose(secondary_tfl), transforms.Compose(final_tfl)
	else:
	return transforms.Compose(primary_tfl + secondary_tfl)


	transform_meme = augment_meme(
	img_size=224,
	color_jitter=0.4,
	grayscale_prob=0.2,
	gaussian_blur_prob=0.5,
	auto_augment='rand-m9-mstd0.5',
	normalize=True
	)


	# 遍历输入目录下的所有文件
	input_dir = '/mnt/afs/niuyazhe/data/meme/data/Cimages/Cimages/Cimages/'
	N = 3
	for filename in os.listdir(input_dir):
	# 检查文件是否为图片文件
	if filename.lower().endswith(('.png', '.jpg', '.jpeg', '.bmp', '.gif')) and filename.lower()[-5]==')':
	# 构建输入文件的完整路径
	input_path = os.path.join(input_dir, filename)

	# 打开图片
	try:
	image = Image.open(input_path).convert('RGB')
	except Exception as e:
	print(e)
	continue

	# 对图片进行 N 次增强
	for i in range(N):
	# 应用变换
	try:
	transformed_image = transform_meme(image)
	# 将张量转换回 PIL 图像
	# transformed_image = transforms.ToPILImage()(transformed_image)

	# 构建输出文件的完整路径
	base_name, ext = os.path.splitext(filename)
	output_filename = f"{base_name}_{i}{ext}"
	output_path = os.path.join(input_dir, output_filename)

	# 保存变换后的图片
	transformed_image.save(output_path)
	print(f"Saved {output_path}")

	except Exception as e:
	print(e)
	continue