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gpu_symbol / engine /data /transforms /_transforms.py

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	"""
	Copied from RT-DETR (https://github.com/lyuwenyu/RT-DETR)
	Copyright(c) 2023 lyuwenyu. All Rights Reserved.
	"""

	import torch
	import torch.nn as nn

	import torchvision
	import torchvision.transforms.v2 as T
	import torchvision.transforms.v2.functional as F

	import PIL
	import PIL.Image

	from typing import Any, Dict, List, Optional

	from .._misc import convert_to_tv_tensor, _boxes_keys
	from .._misc import Image, Video, Mask, BoundingBoxes
	from .._misc import SanitizeBoundingBoxes

	from ...core import register
	torchvision.disable_beta_transforms_warning()


	RandomPhotometricDistort = register()(T.RandomPhotometricDistort)
	RandomZoomOut = register()(T.RandomZoomOut)
	RandomHorizontalFlip = register()(T.RandomHorizontalFlip)
	Resize = register()(T.Resize)
	# ToImageTensor = register()(T.ToImageTensor)
	# ConvertDtype = register()(T.ConvertDtype)
	# PILToTensor = register()(T.PILToTensor)
	SanitizeBoundingBoxes = register(name='SanitizeBoundingBoxes')(SanitizeBoundingBoxes)
	RandomCrop = register()(T.RandomCrop)
	Normalize = register()(T.Normalize)


	@register()
	class EmptyTransform(T.Transform):
	def __init__(self, ) -> None:
	super().__init__()

	def forward(self, *inputs):
	inputs = inputs if len(inputs) > 1 else inputs[0]
	return inputs


	@register()
	class PadToSize(T.Pad):
	_transformed_types = (
	PIL.Image.Image,
	Image,
	Video,
	Mask,
	BoundingBoxes,
	)
	def _get_params(self, flat_inputs: List[Any]) -> Dict[str, Any]:
	sp = F.get_spatial_size(flat_inputs[0])
	h, w = self.size[1] - sp[0], self.size[0] - sp[1]
	self.padding = [0, 0, w, h]
	return dict(padding=self.padding)

	def __init__(self, size, fill=0, padding_mode='constant') -> None:
	if isinstance(size, int):
	size = (size, size)
	self.size = size
	super().__init__(0, fill, padding_mode)

	def _transform(self, inpt: Any, params: Dict[str, Any]) -> Any:
	fill = self._fill[type(inpt)]
	padding = params['padding']
	return F.pad(inpt, padding=padding, fill=fill, padding_mode=self.padding_mode) # type: ignore[arg-type]

	def __call__(self, *inputs: Any) -> Any:
	outputs = super().forward(*inputs)
	if len(outputs) > 1 and isinstance(outputs[1], dict):
	outputs[1]['padding'] = torch.tensor(self.padding)
	return outputs


	@register()
	class RandomIoUCrop(T.RandomIoUCrop):
	def __init__(self, min_scale: float = 0.3, max_scale: float = 1, min_aspect_ratio: float = 0.5, max_aspect_ratio: float = 2, sampler_options: Optional[List[float]] = None, trials: int = 40, p: float = 1.0):
	super().__init__(min_scale, max_scale, min_aspect_ratio, max_aspect_ratio, sampler_options, trials)
	self.p = p

	def __call__(self, *inputs: Any) -> Any:
	if torch.rand(1) >= self.p:
	return inputs if len(inputs) > 1 else inputs[0]

	return super().forward(*inputs)


	@register()
	class ConvertBoxes(T.Transform):
	_transformed_types = (
	BoundingBoxes,
	)
	def __init__(self, fmt='', normalize=False) -> None:
	super().__init__()
	self.fmt = fmt
	self.normalize = normalize

	def _transform(self, inpt: Any, params: Dict[str, Any]) -> Any:
	spatial_size = getattr(inpt, _boxes_keys[1])
	if self.fmt:
	in_fmt = inpt.format.value.lower()
	inpt = torchvision.ops.box_convert(inpt, in_fmt=in_fmt, out_fmt=self.fmt.lower())
	inpt = convert_to_tv_tensor(inpt, key='boxes', box_format=self.fmt.upper(), spatial_size=spatial_size)

	if self.normalize:
	inpt = inpt / torch.tensor(spatial_size[::-1]).tile(2)[None]

	return inpt


	@register()
	class ConvertPILImage(T.Transform):
	_transformed_types = (
	PIL.Image.Image,
	)
	def __init__(self, dtype='float32', scale=True) -> None:
	super().__init__()
	self.dtype = dtype
	self.scale = scale

	def _transform(self, inpt: Any, params: Dict[str, Any]) -> Any:
	inpt = F.pil_to_tensor(inpt)
	if self.dtype == 'float32':
	inpt = inpt.float()

	if self.scale:
	inpt = inpt / 255.

	inpt = Image(inpt)

	return inpt