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	from typing import Optional, Union, List
	from .decoder import UnetPlusPlusDecoder
	from ..encoders import get_encoder
	from ..base import SegmentationModel
	from ..base import SegmentationHead, ClassificationHead


	class UnetPlusPlus(SegmentationModel):
	"""Unet++ is a fully convolution neural network for image semantic segmentation. Consist of encoder
	and decoder parts connected with skip connections. Encoder extract features of different spatial
	resolution (skip connections) which are used by decoder to define accurate segmentation mask. Decoder of
	Unet++ is more complex than in usual Unet.

	Args:
	encoder_name: Name of the classification model that will be used as an encoder (a.k.a backbone)
	to extract features of different spatial resolution
	encoder_depth: A number of stages used in encoder in range [3, 5]. Each stage generate features
	two times smaller in spatial dimensions than previous one (e.g. for depth 0 we will have features
	with shapes [(N, C, H, W),], for depth 1 - [(N, C, H, W), (N, C, H // 2, W // 2)] and so on).
	Default is 5
	encoder_weights: One of None (random initialization), "imagenet" (pre-training on ImageNet) and
	other pretrained weights (see table with available weights for each encoder_name)
	decoder_channels: List of integers which specify in_channels parameter for convolutions used in decoder.
	Length of the list should be the same as encoder_depth
	decoder_use_batchnorm: If True, BatchNorm2d layer between Conv2D and Activation layers
	is used. If "inplace" InplaceABN will be used, allows to decrease memory consumption.
	Available options are True, False, "inplace"
	decoder_attention_type: Attention module used in decoder of the model. Available options are None and scse.
	SCSE paper - https://arxiv.org/abs/1808.08127
	in_channels: A number of input channels for the model, default is 3 (RGB images)
	classes: A number of classes for output mask (or you can think as a number of channels of output mask)
	activation: An activation function to apply after the final convolution layer.
	Available options are "sigmoid", "softmax", "logsoftmax", "tanh", "identity", callable and None.
	Default is None
	aux_params: Dictionary with parameters of the auxiliary output (classification head). Auxiliary output is build
	on top of encoder if aux_params is not None (default). Supported params:
	- classes (int): A number of classes
	- pooling (str): One of "max", "avg". Default is "avg"
	- dropout (float): Dropout factor in [0, 1)
	- activation (str): An activation function to apply "sigmoid"/"softmax" (could be None to return logits)

	Returns:
	``torch.nn.Module``: Unet++

	Reference:
	https://arxiv.org/abs/1807.10165

	"""

	def __init__(
	self,
	encoder_name: str = "resnet34",
	encoder_depth: int = 5,
	encoder_weights: Optional[str] = "imagenet",
	decoder_use_batchnorm: bool = True,
	decoder_channels: List[int] = (256, 128, 64, 32, 16),
	decoder_attention_type: Optional[str] = None,
	in_channels: int = 3,
	classes: int = 1,
	activation: Optional[Union[str, callable]] = None,
	aux_params: Optional[dict] = None,
	):
	super().__init__()

	self.encoder = get_encoder(
	encoder_name,
	in_channels=in_channels,
	depth=encoder_depth,
	weights=encoder_weights,
	)

	self.decoder = UnetPlusPlusDecoder(
	encoder_channels=self.encoder.out_channels,
	decoder_channels=decoder_channels,
	n_blocks=encoder_depth,
	use_batchnorm=decoder_use_batchnorm,
	center=True if encoder_name.startswith("vgg") else False,
	attention_type=decoder_attention_type,
	)

	self.segmentation_head = SegmentationHead(
	in_channels=decoder_channels[-1],
	out_channels=classes,
	activation=activation,
	kernel_size=3,
	)

	if aux_params is not None:
	self.classification_head = ClassificationHead(
	in_channels=self.encoder.out_channels[-1], **aux_params
	)
	else:
	self.classification_head = None

	self.name = "unetplusplus-{}".format(encoder_name)
	self.initialize()