pooling.py 51.1 KB
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#   Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

from ...fluid.layer_helper import LayerHelper
from .. import functional as F
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from .. import Layer
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__all__ = []

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class AvgPool1D(Layer):
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    r"""
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    This operation applies a 1D average pooling over an input signal composed
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    of several input planes, based on the input, output_size, return_mask parameters.
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    Input(X) and output(Out) are in NCL format, where N is batch
    size, C is the number of channels, L is the length of the feature.
    The output tensor shape will be [N, C, output_size].

    The output value of the layer with input size (N, C, L),
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    output (N, C, :math:`L_{out}`) and kernel_size ksize can be precisely described as
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    For average pool1d:

    ..  math::

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        Output(N_i, C_i, l) = \frac{Input[N_i, C_i, stride \times l:stride \times l+k]}{ksize}
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    Parameters:
        kernel_size(int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list,
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            it must contain an integer.
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        stride(int|list|tuple, optional): The pool stride size. If pool stride size is a tuple or list,
            it must contain an integer. Default None, then stride will be equal to the kernel_size.
        padding(str|int|list|tuple, optional): The padding size. Padding could be in one of the following forms.
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            1. A string in ['valid', 'same'].
            2. An int, which means the feature map is zero padded by size of `padding` on every sides.
            3. A list[int] or tuple(int) whose length is 1, which means the feature map is zero padded by the size of `padding[0]` on every sides.
            4. A list[int] or tuple(int) whose length is 2. It has the form [pad_before, pad_after].
            5. A list or tuple of pairs of integers. It has the form [[pad_before, pad_after], [pad_before, pad_after], ...]. Note that, the batch dimension and channel dimension should be [0,0] or (0,0).
            The default value is 0.
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        exclusive(bool, optional): Whether to exclude padding points in average pooling mode, default is `True`.
        ceil_mode(bool, optional): ${ceil_mode_comment}Whether to use the ceil function to calculate output height
            and width. If it is set to False, the floor function will be used. The default value is False.
        name(str, optional): For eed to detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no nset and None by default.
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    Returns:
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        A callable object of AvgPool1D.
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    Raises:
        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is "VALID", but `ceil_mode` is True.
        ValueError: If `padding` is a list or tuple but its length greater than 1.
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        ShapeError: If the input is not a 3-D tensor.
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        ShapeError: If the output's shape calculated is not greater than 0.

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    Shape:
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        - x(Tensor): The input tensor of avg pool1d operator, which is a 3-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of avg pool1d  operator, which is a 3-D tensor.
          The data type is same as input x.
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    Examples:

        .. code-block:: python
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            import paddle
            import paddle.nn as nn
            import numpy as np
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            data = paddle.to_tensor(np.random.uniform(-1, 1, [1, 3, 32]).astype(np.float32))
            AvgPool1D = nn.AvgPool1D(kernel_size=2, stride=2, padding=0)
            pool_out = AvgPool1D(data)
            # pool_out shape: [1, 3, 16]
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    """

    def __init__(self,
                 kernel_size,
                 stride=None,
                 padding=0,
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                 exclusive=True,
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                 ceil_mode=False,
                 name=None):
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        super(AvgPool1D, self).__init__()
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        self.kernel_size = kernel_size
        self.stride = stride
        self.padding = padding
        self.ceil_mode = ceil_mode
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        self.exclusive = exclusive
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        self.name = name

    def forward(self, x):
        out = F.avg_pool1d(x, self.kernel_size, self.stride, self.padding,
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                           self.exclusive, self.ceil_mode, self.name)
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        return out

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    def extra_repr(self):
        return 'kernel_size={kernel_size}, stride={stride}, padding={padding}'.format(
            **self.__dict__)

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class AvgPool2D(Layer):
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    r"""
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    This operation applies 2D average pooling over input features based on the input,
    and kernel_size, stride, padding parameters. Input(X) and Output(Out) are
    in NCHW format, where N is batch size, C is the number of channels,
    H is the height of the feature, and W is the width of the feature.
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    Example:
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        Input:
            X shape: :math:`(N, C, :math:`H_{in}`, :math:`W_{in}`)`
        Attr:
            kernel_size: ksize

        Output:
            Out shape: :math:`(N, C, :math:`H_{out}`, :math:`W_{out}`)`

        ..  math::

            Output(N_i, C_j, h, w)  = \frac{\sum_{m=0}^{ksize[0]-1} \sum_{n=0}^{ksize[1]-1}
                Input(N_i, C_j, stride[0] \times h + m, stride[1] \times w + n)}{ksize[0] * ksize[1]}

    Parameters:
        kernel_size(int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list,
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            it must contain two integers, (pool_size_Height, pool_size_Width).
            Otherwise, the pool kernel size will be a square of an int.
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        stride(int|list|tuple, optional): The pool stride size. If pool stride size is a tuple or list,
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            it must contain two integers, (pool_stride_Height, pool_stride_Width).
            Otherwise, the pool stride size will be a square of an int.
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            Default None, then stride will be equal to the kernel_size.
        padding(str|int|list|tuple, optional): The padding size. Padding could be in one of the following forms.
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            1. A string in ['valid', 'same'].
            2. An int, which means the feature map is zero padded by size of `padding` on every sides.
            3. A list[int] or tuple(int) whose length is 2, [pad_height, pad_weight] whose value means the padding size of each dimension.
            4. A list[int] or tuple(int) whose length is 4. [pad_height_top, pad_height_bottom, pad_width_left, pad_width_right] whose value means the padding size of each side.
            5. A list or tuple of pairs of integers. It has the form [[pad_before, pad_after], [pad_before, pad_after], ...]. Note that, the batch dimension and channel dimension should be [0,0] or (0,0).
            The default value is 0.
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        ceil_mode(bool, optional): When True, will use `ceil` instead of `floor` to compute the output shape.
        exclusive(bool, optional): Whether to exclude padding points in average pooling
            mode, default is `true`.
        divisor_override(float, optional): If specified, it will be used as divisor, otherwise kernel_size will be
            used. Default None.
        data_format(str, optional): The data format of the input and output data. An optional string from: `"NCHW"`,
            `"NDHW"`. The default is `"NCHW"`. When it is `"NCHW"`, the data is stored in the order of:
            `[batch_size, input_channels, input_height, input_width]`.
        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Shape:
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        - x(Tensor): The input tensor of avg pool2d operator, which is a 4-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of avg pool2d  operator, which is a 4-D tensor.
          The data type is same as input x.
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    Returns:
        A callable object of AvgPool2D.
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    Raises:
        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is "VALID", but `ceil_mode` is True.
        ShapeError: If the output's shape calculated is not greater than 0.
    Examples:
        .. code-block:: python
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            import paddle
            import paddle.nn as nn
            import numpy as np
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            # max pool2d
            input = paddle.to_tensor(np.random.uniform(-1, 1, [1, 3, 32, 32]).astype(np.float32))
            AvgPool2D = nn.AvgPool2D(kernel_size=2,
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                                stride=2, padding=0)
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            output = AvgPool2D(input)
            # output.shape [1, 3, 16, 16]
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    """

    def __init__(self,
                 kernel_size,
                 stride=None,
                 padding=0,
                 ceil_mode=False,
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                 exclusive=True,
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                 divisor_override=None,
                 data_format="NCHW",
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                 name=None):
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        super(AvgPool2D, self).__init__()
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        self.ksize = kernel_size
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        self.stride = stride
        self.padding = padding
        self.ceil_mode = ceil_mode
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        self.exclusive = exclusive
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        self.divisor = divisor_override
        self.data_format = data_format
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        self.name = name

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    def forward(self, x):
        return F.avg_pool2d(
            x,
            kernel_size=self.ksize,
            stride=self.stride,
            padding=self.padding,
            ceil_mode=self.ceil_mode,
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            exclusive=self.exclusive,
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            divisor_override=self.divisor,
            data_format=self.data_format,
            name=self.name)
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    def extra_repr(self):
        return 'kernel_size={ksize}, stride={stride}, padding={padding}'.format(
            **self.__dict__)

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class AvgPool3D(Layer):
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    """
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    This operation applies 3D max pooling over input features based on the input,
    and kernel_size, stride, padding parameters. Input(X) and Output(Out) are
    in NCDHW format, where N is batch size, C is the number of channels,
    H is the height of the feature,  D is the depth of the feature, and W is the width of the feature.
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    Parameters:
        kernel_size(int|list|tuple): The pool kernel size. If pool kernel size
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            is a tuple or list, it must contain three integers,
            (kernel_size_Depth, kernel_size_Height, kernel_size_Width).
            Otherwise, the pool kernel size will be the cube of an int.
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        stride(int|list|tuple, optional): The pool stride size. If pool stride size is a tuple or list,
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            it must contain three integers, [stride_Depth, stride_Height, stride_Width).
            Otherwise, the pool stride size will be a cube of an int.
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            Default None, then stride will be equal to the kernel_size.
        padding(str|int|list|tuple, optional): The padding size. Padding could be in one of the following forms.
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            1. A string in ['valid', 'same'].
            2. An int, which means the feature map is zero padded by size of `padding` on every sides.
            3. A list[int] or tuple(int) whose length is 3, [pad_depth, pad_height, pad_weight] whose value means the padding size of each dimension.
            4. A list[int] or tuple(int) whose length is 6. [pad_depth_front, pad_depth_back, pad_height_top, pad_height_bottom, pad_width_left, pad_width_right] whose value means the padding size of each side.
            5. A list or tuple of pairs of integers. It has the form [[pad_before, pad_after], [pad_before, pad_after], ...]. Note that, the batch dimension and channel dimension should be [0,0] or (0,0).
            The default value is 0.
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        ceil_mode(bool, optional): ${ceil_mode_comment}
        exclusive(bool, optional): Whether to exclude padding points in average pooling mode, default is True.
        divisor_override(int|float, optional): if specified, it will be used as divisor, otherwise kernel_size will
            be used. Default None.
        data_format(str, optional): The data format of the input and output data. An optional string from: `"NCDHW"`,
             `"NDHWC"`. The default is `"NCDHW"`. When it is `"NCDHW"`, the data is stored in the order of:
             `[batch_size, input_channels, input_depth, input_height, input_width]`.
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        name(str, optional): For detailed information, please refer
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             to :ref:`api_guide_Name`. Usually name is no need to set and
             None by default.
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    Returns:
        A callable object of AvgPool3D.
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    Raises:
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        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is "VALID", but `ceil_mode` is True.
        ShapeError: If the output's shape calculated is not greater than 0.

    Shape:
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        - x(Tensor): The input tensor of avg pool3d operator, which is a 5-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of avg pool3d  operator, which is a 5-D tensor.
          The data type is same as input x.
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    Examples:
        .. code-block:: python
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            import paddle
            import paddle.nn as nn
            import numpy as np
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            # avg pool3d
            input = paddle.to_tensor(np.random.uniform(-1, 1, [1, 2, 3, 32, 32]).astype(np.float32))
            AvgPool3D = nn.AvgPool3D(kernel_size=2,
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                                   stride=2, padding=0)
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            output = AvgPool3D(input)
            # output.shape [1, 2, 3, 16, 16]
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    """

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    def __init__(self,
                 kernel_size,
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                 stride=None,
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                 padding=0,
                 ceil_mode=False,
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                 exclusive=True,
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                 divisor_override=None,
                 data_format="NCDHW",
                 name=None):
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        super(AvgPool3D, self).__init__()
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        self.ksize = kernel_size
        self.stride = stride
        self.padding = padding
        self.ceil_mode = ceil_mode
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        self.exclusive = exclusive
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        self.divisor = divisor_override
        self.data_format = data_format
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        self.name = name

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    def forward(self, x):
        return F.avg_pool3d(
            x,
            kernel_size=self.ksize,
            stride=self.stride,
            padding=self.padding,
            ceil_mode=self.ceil_mode,
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            exclusive=self.exclusive,
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            divisor_override=self.divisor,
            data_format=self.data_format,
            name=self.name)
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    def extra_repr(self):
        return 'kernel_size={ksize}, stride={stride}, padding={padding}'.format(
            **self.__dict__)

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class MaxPool1D(Layer):
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    """
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    This operation applies 1D max pooling over input signal
    composed of several input planes based on the input,
    and kernel_size, stride, padding parameters. Input(X) and Output(Out) are
    in NCL format, where N is batch size, C is the number of channels,
    L is the length of the feature.
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    The output value of the layer with input size (N, C, L),
    output (N, C, L_{out}) and kernel_size k can be precisely described as
    For average pool1d:
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    ..  math::

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        Output(N_i, C_i, l) =  max(Input[N_i, C_i, stride \times l:stride \times l+k])
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    Parameters:
        kernel_size(int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list,
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            it must contain an integer.
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        stride(int|list|tuple, optional): The pool stride size. If pool stride size is a tuple or list,
            it must contain an integer. Default None, then stride will be equal to the kernel_size.
        padding(str|int|list|tuple, optional): The padding size. Padding could be in one of the following forms.
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            1. A string in ['valid', 'same'].
            2. An integer, which means the feature map is zero padded by size of `padding` on every sides.
            3. A list[int] or tuple(int) whose length is 1, which means the feature map is zero padded by the size of `padding[0]` on every sides.
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            4. A list[int] or tuple(int) whose length is 2, It has the form [pad_before, pad_after].
            5. A list or tuple of pairs of integers. It has the form [[pad_before, pad_after], [pad_before, pad_after], ...]. Note that, the batch dimension and channel dimension should be [0,0] or(0,0).
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            The default value is 0.
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        return_mask(bool, optional): Whether return the max indices along with the outputs. default is `False`.
        ceil_mode(bool, optional): Whether to use the ceil function to calculate output height and width.
            False is the default. If it is set to False, the floor function will be used. Default False.
        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Returns:
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        A callable object of MaxPool1D.
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    Raises:
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        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is "VALID", but `ceil_mode` is True.
        ValueError: If `padding` is a list or tuple but its length greater than 1.
        ShapeError: If the input is not a 3-D.
        ShapeError: If the output's shape calculated is not greater than 0.


    Shape:
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        - x(Tensor): The input tensor of max pool1d operator, which is a 3-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of max pool1d  operator, which is a 3-D tensor.
          The data type is same as input x.
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    Examples:
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        .. code-block:: python

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            import paddle
            import paddle.nn as nn
            import numpy as np
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            data = paddle.to_tensor(np.random.uniform(-1, 1, [1, 3, 32]).astype(np.float32))
            MaxPool1D = nn.MaxPool1D(kernel_size=2, stride=2, padding=0)
            pool_out = MaxPool1D(data)
            # pool_out shape: [1, 3, 16]
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            MaxPool1D = nn.MaxPool1D(kernel_size=2, stride=2, padding=0, return_mask=True)
            pool_out, indices = MaxPool1D(data)
            # pool_out shape: [1, 3, 16], indices shape: [1, 3, 16]
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    """

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    def __init__(self,
                 kernel_size,
                 stride=None,
                 padding=0,
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                 return_mask=False,
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                 ceil_mode=False,
                 name=None):
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        super(MaxPool1D, self).__init__()
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        self.kernel_size = kernel_size
        self.stride = stride
        self.padding = padding
        self.ceil_mode = ceil_mode
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        self.return_mask = return_mask
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        self.name = name

    def forward(self, input):
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        out = F.max_pool1d(input, self.kernel_size, self.stride, self.padding,
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                           self.return_mask, self.ceil_mode, self.name)
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        return out
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    def extra_repr(self):
        return 'kernel_size={kernel_size}, stride={stride}, padding={padding}'.format(
            **self.__dict__)

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class MaxPool2D(Layer):
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    r"""
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    This operation applies 2D max pooling over input feature based on the input,
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    and kernel_size, stride, padding parameters. Input(X) and Output(Out) are
    in NCHW format, where N is batch size, C is the number of channels,
    H is the height of the feature, and W is the width of the feature.

    Example:
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        - Input:
            X shape: :math:`(N, C, H_{in}, W_{in})`
        - Attr:
            kernel_size: ksize

        - Output:
            Out shape: :math:`(N, C, H_{out}, W_{out})`

        ..  math::

            Output(N_i, C_j, h, w) = \max_{m=0, \ldots, ksize[0] -1} \max_{n=0, \ldots, ksize[1]-1}
                Input(N_i, C_j, stride[0] \times h + m, stride[1] \times w + n)

    Parameters:
        kernel_size(int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list,
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            it must contain two integers, (pool_size_Height, pool_size_Width).
            Otherwise, the pool kernel size will be a square of an int.
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        stride(int|list|tuple, optional): The pool stride size. If pool stride size is a tuple or list,
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            it must contain two integers, (pool_stride_Height, pool_stride_Width).
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            Otherwise, the pool stride size will be a square of an int.
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            Default None, then stride will be equal to the kernel_size.
        padding(str|int|list|tuple, optional): The padding size. Padding could be in one of the following forms.
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            1. A string in ['valid', 'same'].
            2. An int, which means the feature map is zero padded by size of `padding` on every sides.
            3. A list[int] or tuple(int) whose length is 2, [pad_height, pad_weight] whose value means the padding size of each dimension.
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            4. A list[int] or tuple(int) whose length is \4. [pad_height_top, pad_height_bottom, pad_width_left, pad_width_right] whose value means the padding size of each side.
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            5. A list or tuple of pairs of integers. It has the form [[pad_before, pad_after], [pad_before, pad_after], ...]. Note that, the batch dimension and channel dimension should be [0,0] or (0,0).
            The default value is 0.
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        ceil_mode(bool, optional): when True, will use `ceil` instead of `floor` to compute the output shape
        return_mask(bool, optional): Whether to return the max indices along with the outputs.
        data_format(str, optional): The data format of the input and output data. An optional string from: `"NCHW"`, `"NDHW"`.
            The default is `"NCHW"`. When it is `"NCHW"`, the data is stored in the order of:
            `[batch_size, input_channels, input_height, input_width]`.
        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Returns:
        A callable object of MaxPool2D.
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    Raises:
        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is "VALID", but `ceil_mode` is True.
        ShapeError: If the output's shape calculated is not greater than 0.
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    Shape:
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        - x(Tensor): The input tensor of max pool2d operator, which is a 4-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of max pool2d  operator, which is a 4-D tensor.
          The data type is same as input x.
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    Examples:
        .. code-block:: python
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            import paddle
            import paddle.nn as nn
            import numpy as np
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            # max pool2d
            input = paddle.to_tensor(np.random.uniform(-1, 1, [1, 3, 32, 32]).astype(np.float32))
            MaxPool2D = nn.MaxPool2D(kernel_size=2,
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                                   stride=2, padding=0)
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            output = MaxPool2D(input)
            # output.shape [1, 3, 16, 16]
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            # for return_mask=True
            MaxPool2D = nn.MaxPool2D(kernel_size=2, stride=2, padding=0, return_mask=True)
            output, max_indices = MaxPool2D(input)
            # output.shape [1, 3, 16, 16], max_indices.shape [1, 3, 16, 16],
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    """

    def __init__(self,
                 kernel_size,
                 stride=None,
                 padding=0,
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                 return_mask=False,
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                 ceil_mode=False,
                 data_format="NCHW",
                 name=None):
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        super(MaxPool2D, self).__init__()
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        self.ksize = kernel_size
        self.stride = stride
        self.padding = padding
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        self.return_mask = return_mask
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        self.ceil_mode = ceil_mode
        self.data_format = data_format
        self.name = name

    def forward(self, x):
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        return F.max_pool2d(
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            x,
            kernel_size=self.ksize,
            stride=self.stride,
            padding=self.padding,
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            return_mask=self.return_mask,
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            ceil_mode=self.ceil_mode,
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            data_format=self.data_format,
            name=self.name)

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    def extra_repr(self):
        return 'kernel_size={ksize}, stride={stride}, padding={padding}'.format(
            **self.__dict__)

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class MaxPool3D(Layer):
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    """
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    This operation applies 3D max pooling over input features based on the input,
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    and kernel_size, stride, padding parameters. Input(X) and Output(Out) are
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    in NCDHW format, where N is batch size, C is the number of channels,
    H is the height of the feature,  D is the depth of the feature, and W is the width of the feature.
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    Parameters:
        kernel_size(int|list|tuple): The pool kernel size. If the kernel size
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            is a tuple or list, it must contain three integers,
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            (kernel_size_Depth, kernel_size_Height, kernel_size_Width).
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            Otherwise, the pool kernel size will be the cube of an int.
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        stride(int|list|tuple, optional): The pool stride size. If pool stride size is a tuple or list,
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            it must contain three integers, [stride_Depth, stride_Height, stride_Width).
            Otherwise, the pool stride size will be a cube of an int.
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            Default None, then stride will be equal to the kernel_size.
        padding(str|int|list|tuple, optional): The padding size. Padding could be in one of the following forms.
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            1. A string in ['valid', 'same'].
            2. An int, which means the feature map is zero padded by size of `padding` on every sides.
            3. A list[int] or tuple(int) whose length is 3, [pad_depth, pad_height, pad_weight] whose value means the padding size of each dimension.
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            4. A list[int] or tuple(int) whose length is \6. [pad_depth_front, pad_depth_back, pad_height_top, pad_height_bottom, pad_width_left, pad_width_right] whose value means the padding size of each side.
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            5. A list or tuple of pairs of integers. It has the form [[pad_before, pad_after], [pad_before, pad_after], ...]. Note that, the batch dimension and channel dimension should be [0,0] or (0,0).
            The default value is 0.
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        ceil_mode(bool, optional): ${ceil_mode_comment}
        return_mask(bool, optional): Whether to return the max indices along with the outputs.
        data_format(str, optional): The data format of the input and output data. An optional string from: `"NCDHW"`,
            `"NDHWC"`. The default is `"NCDHW"`. When it is `"NCDHW"`, the data is stored in the order of:
            `[batch_size, input_channels, input_depth, input_height, input_width]`.
        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Returns:
        A callable object of MaxPool3D.
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    Raises:
        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is "VALID", but `ceil_mode` is True.
        ShapeError: If the output's shape calculated is not greater than 0.
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    Shape:
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        - x(Tensor): The input tensor of max pool3d operator, which is a 5-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of max pool3d  operator, which is a 5-D tensor.
          The data type is same as input x.
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    Examples:
        .. code-block:: python
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            import paddle
            import paddle.nn as nn
            import numpy as np
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            # max pool3d
            input = paddle.to_tensor(np.random.uniform(-1, 1, [1, 2, 3, 32, 32]).astype(np.float32))
            MaxPool3D = nn.MaxPool3D(kernel_size=2,
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                                   stride=2, padding=0)
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            output = MaxPool3D(input)
            # output.shape [1, 2, 3, 16, 16]
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            # for return_mask=True
            MaxPool3D = nn.MaxPool3D(kernel_size=2, stride=2, padding=0, return_mask=True)
            output, max_indices = MaxPool3D(input)
            # output.shape [1, 2, 3, 16, 16], max_indices.shape [1, 2, 3, 16, 16],
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    """

    def __init__(self,
                 kernel_size,
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                 stride=None,
                 padding=0,
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                 return_mask=False,
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                 ceil_mode=False,
                 data_format="NCDHW",
                 name=None):
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        super(MaxPool3D, self).__init__()
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        self.ksize = kernel_size
        self.stride = stride
        self.padding = padding
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        self.return_mask = return_mask
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        self.ceil_mode = ceil_mode
        self.data_format = data_format
        self.name = name

    def forward(self, x):
        return F.max_pool3d(
            x,
            kernel_size=self.ksize,
            stride=self.stride,
            padding=self.padding,
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            return_mask=self.return_mask,
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            ceil_mode=self.ceil_mode,
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            data_format=self.data_format,
            name=self.name)

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    def extra_repr(self):
        return 'kernel_size={ksize}, stride={stride}, padding={padding}'.format(
            **self.__dict__)

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class AdaptiveAvgPool1D(Layer):
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    r"""
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    This operation applies a 1D adaptive average pooling over an input signal composed
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    of several input planes, based on the input, output_size, return_mask parameters.
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    Input(X) and output(Out) are in NCL format, where N is batch
    size, C is the number of channels, L is the length of the feature.
    The output tensor shape will be [N, C, output_size].

    For average adaptive pool1d:

    ..  math::

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        lstart &= floor(i * L_{in} / L_{out})
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        lend &= ceil((i + 1) * L_{in} / L_{out})
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        Output(i) &= \frac{ \sum Input[lstart:lend]}{lend - lstart}
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    Parameters:
        output_size(int): The target output size. It must be an integer.
        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Returns:
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        A callable object of AdaptiveAvgPool1D.
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    Raises:
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        ValueError: 'output_size' should be an integer.
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    Shape:
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        - x(Tensor): 3-D tensor. The input tensor of adaptive avg pool1d operator, which is a 3-D tensor.
          The data type can be float32, float64.
        - output(Tensor): 3-D tensor. The output tensor of adaptive avg pool1d operator, which is a 3-D tensor.
          The data type is same as input x.
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    Examples:
        .. code-block:: python
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            # average adaptive pool1d
            # suppose input data in shape of [N, C, L], `output_size` is m or [m],
            # output shape is [N, C, m], adaptive pool divide L dimension
            # of input data into m grids averagely and performs poolings in each
            # grid to get output.
            # adaptive max pool performs calculations as follow:
            #
            #     for i in range(m):
            #         lstart = floor(i * L / m)
            #         lend = ceil((i + 1) * L / m)
            #         output[:, :, i] = sum(input[:, :, lstart: lend])/(lend - lstart)
            #
            import paddle
            import paddle.nn as nn
            import numpy as np

            data = paddle.to_tensor(np.random.uniform(-1, 1, [1, 3, 32]).astype(np.float32))
            AdaptiveAvgPool1D = nn.AdaptiveAvgPool1D(output_size=16)
            pool_out = AdaptiveAvgPool1D(data)
            # pool_out shape: [1, 3, 16]
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    """

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    def __init__(self, output_size, name=None):
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        super(AdaptiveAvgPool1D, self).__init__()
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        self.output_size = output_size
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        self.name = name

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    def forward(self, input):
        return F.adaptive_avg_pool1d(input, self.output_size, self.name)

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    def extra_repr(self):
        return 'output_size={}'.format(self.output_size)

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class AdaptiveAvgPool2D(Layer):
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    r"""
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    This operation applies 2D adaptive avg pooling on input tensor. The h and w dimensions
    of the output tensor are determined by the parameter output_size.

    For avg adaptive pool2d:

    ..  math::

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        hstart &= floor(i * H_{in} / H_{out})
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        hend &= ceil((i + 1) * H_{in} / H_{out})
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        wstart &= floor(j * W_{in} / W_{out})
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        wend &= ceil((j + 1) * W_{in} / W_{out})
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        Output(i ,j) &= \frac{\sum Input[hstart:hend, wstart:wend]}{(hend - hstart) * (wend - wstart)}
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    Parameters:
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        output_size(int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list,
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            it must contain two element, (H, W). H and W can be either a int, or None which means
            the size will be the same as that of the input.
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        data_format(str, optional): The data format of the input and output data. An optional string
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            from: "NCHW", "NHWC". The default is "NCHW". When it is "NCHW", the data is stored in
            the order of: [batch_size, input_channels, input_height, input_width].
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        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Shape:
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        - x(Tensor): The input tensor of adaptive avg pool2d operator, which is a 4-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of adaptive avg pool2d operator, which is a 4-D tensor.
          The data type is same as input x.
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    Returns:
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        A callable object of AdaptiveAvgPool2D.
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    Examples:
        .. code-block:: python

            # adaptive avg pool2d
            # suppose input data in shape of [N, C, H, W], `output_size` is [m, n],
            # output shape is [N, C, m, n], adaptive pool divide H and W dimensions
            # of input data into m * n grids averagely and performs poolings in each
            # grid to get output.
            # adaptive avg pool performs calculations as follow:
            #
            #     for i in range(m):
            #         for j in range(n):
            #             hstart = floor(i * H / m)
            #             hend = ceil((i + 1) * H / m)
            #             wstart = floor(i * W / n)
            #             wend = ceil((i + 1) * W / n)
            #             output[:, :, i, j] = avg(input[:, :, hstart: hend, wstart: wend])
            #
            import paddle
            import numpy as np
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            input_data = np.random.rand(2, 3, 32, 32)
            x = paddle.to_tensor(input_data)
            # x.shape is [2, 3, 32, 32]
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            adaptive_avg_pool = paddle.nn.AdaptiveAvgPool2D(output_size=3)
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            pool_out = adaptive_avg_pool(x = x)
            # pool_out.shape is [2, 3, 3, 3]
    """

    def __init__(self, output_size, data_format="NCHW", name=None):
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        super(AdaptiveAvgPool2D, self).__init__()
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        self._output_size = output_size
        self._data_format = data_format
        self._name = name

    def forward(self, x):
        return F.adaptive_avg_pool2d(
            x,
            output_size=self._output_size,
            data_format=self._data_format,
            name=self._name)

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    def extra_repr(self):
        return 'output_size={}'.format(self._output_size)

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class AdaptiveAvgPool3D(Layer):
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    r"""
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    This operation applies 3D adaptive avg pooling on input tensor. The h and w dimensions
    of the output tensor are determined by the parameter output_size.

    For avg adaptive pool3d:

    ..  math::

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        dstart &= floor(i * D_{in} / D_{out})
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        dend &= ceil((i + 1) * D_{in} / D_{out})
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        hstart &= floor(j * H_{in} / H_{out})
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        hend &= ceil((j + 1) * H_{in} / H_{out})
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        wstart &= floor(k * W_{in} / W_{out})
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        wend &= ceil((k + 1) * W_{in} / W_{out})
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        Output(i ,j, k) &= \frac{\sum Input[dstart:dend, hstart:hend, wstart:wend]}
            {(dend - dstart) * (hend - hstart) * (wend - wstart)}
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    Parameters:
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        output_size(int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list,
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            it must contain three elements, (D, H, W). D, H and W can be either a int, or None which means
            the size will be the same as that of the input.
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        data_format(str, optional): The data format of the input and output data. An optional string
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            from: "NCDHW", "NDHWC". The default is "NCDHW". When it is "NCDHW", the data is stored in
            the order of: [batch_size, input_channels, input_depth, input_height, input_width].
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        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Shape:
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        - x(Tensor): The input tensor of adaptive avg pool3d operator, which is a 5-D tensor.
          The data type can be float32, float64\.
        - output(Tensor): The output tensor of adaptive avg pool3d operator, which is a 5-D tensor.
          The data type is same as input x.
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    Returns:
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        A callable object of AdaptiveAvgPool3D.
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    Examples:
        .. code-block:: python

            # adaptive avg pool3d
            # suppose input data in shape of [N, C, D, H, W], `output_size` is [l, m, n],
            # output shape is [N, C, l, m, n], adaptive pool divide D, H and W dimensions
            # of input data into l * m * n grids averagely and performs poolings in each
            # grid to get output.
            # adaptive avg pool performs calculations as follow:
            #
            #     for i in range(l):
            #         for j in range(m):
            #             for k in range(n):
            #                 dstart = floor(i * D / l)
            #                 dend = ceil((i + 1) * D / l)
            #                 hstart = floor(j * H / m)
            #                 hend = ceil((j + 1) * H / m)
            #                 wstart = floor(k * W / n)
            #                 wend = ceil((k + 1) * W / n)
            #                 output[:, :, i, j, k] =
            #                     avg(input[:, :, dstart:dend, hstart: hend, wstart: wend])
            import paddle
            import numpy as np
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            input_data = np.random.rand(2, 3, 8, 32, 32)
            x = paddle.to_tensor(input_data)
            # x.shape is [2, 3, 8, 32, 32]
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            adaptive_avg_pool = paddle.nn.AdaptiveAvgPool3D(output_size=3)
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            pool_out = adaptive_avg_pool(x = x)
            # pool_out = [2, 3, 3, 3, 3]
    """

    def __init__(self, output_size, data_format="NCDHW", name=None):
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        super(AdaptiveAvgPool3D, self).__init__()
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        self._output_size = output_size
        self._data_format = data_format
        self._name = name

    def forward(self, x):
        return F.adaptive_avg_pool3d(
            x,
            output_size=self._output_size,
            data_format=self._data_format,
            name=self._name)

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    def extra_repr(self):
        return 'output_size={}'.format(self._output_size)

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class AdaptiveMaxPool1D(Layer):
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    """

    This operation applies a 1D adaptive max pooling over an input signal composed
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    of several input planes, based on the input, output_size, return_mask parameters.
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    Input(X) and output(Out) are in NCL format, where N is batch
    size, C is the number of channels, L is the length of the feature.
    The output tensor shape will be [N, C, output_size].

    For max adaptive pool1d:

    ..  math::

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        lstart &= floor(i * L_{in} / L_{out})
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        lend &= ceil((i + 1) * L_{in} / L_{out})
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        Output(i) &= max(Input[lstart:lend])
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    Parameters:
        output_size(int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list,
            it must contain one int.
        return_mask(bool, optional): If true, the index of max pooling point will be returned along
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            with outputs. It cannot be set in average pooling type. Default False.
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        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Returns:
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        A callable object of AdaptiveMaxPool1D.
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    Raises:
        ValueError: 'pool_size' should be a integer or list or tuple with length as 1.

    Shape:
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        - x(Tensor): The input tensor of adaptive max pool1d operator, which is a 3-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of adaptive max pool1d operator, which is a 3-D tensor.
          The data type is same as input x.
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    Examples:
        .. code-block:: python

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            # max adaptive pool1d
            # suppose input data in shape of [N, C, L], `output_size` is m or [m],
            # output shape is [N, C, m], adaptive pool divide L dimension
            # of input data into m grids averagely and performs poolings in each
            # grid to get output.
            # adaptive max pool performs calculations as follow:
            #
            #     for i in range(m):
            #         lstart = floor(i * L / m)
            #         lend = ceil((i + 1) * L / m)
            #         output[:, :, i] = max(input[:, :, lstart: lend])
            #
            import paddle
            import paddle.nn as nn
            import numpy as np

            data = paddle.to_tensor(np.random.uniform(-1, 1, [1, 3, 32]).astype(np.float32))
            AdaptiveMaxPool1D = nn.AdaptiveMaxPool1D(output_size=16)
            pool_out = AdaptiveMaxPool1D(data)
            # pool_out shape: [1, 3, 16]

            # for return_mask = true
            AdaptiveMaxPool1D = nn.AdaptiveMaxPool1D(output_size=16, return_mask=True)
            pool_out, indices = AdaptiveMaxPool1D(data)
            # pool_out shape: [1, 3, 16], indices shape: [1, 3, 16]
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    """

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    def __init__(self, output_size, return_mask=False, name=None):
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        super(AdaptiveMaxPool1D, self).__init__()
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        self.output_size = output_size
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        self.return_mask = return_mask
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        self.name = name

    def forward(self, input):
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        return F.adaptive_max_pool1d(input, self.output_size, self.return_mask,
                                     self.name)
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    def extra_repr(self):
        return 'output_size={}, return_mask={}'.format(self.output_size,
                                                       self.return_mask)

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class AdaptiveMaxPool2D(Layer):
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    """
    This operation applies 2D adaptive max pooling on input tensor. The h and w dimensions
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    of the output tensor are determined by the parameter output_size. The difference between adaptive pooling and
    pooling is adaptive one focus on the output size.
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    For adaptive max pool2d:
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    ..  math::
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        hstart &= floor(i * H_{in} / H_{out})
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        hend &= ceil((i + 1) * H_{in} / H_{out})
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        wstart &= floor(j * W_{in} / W_{out})
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        wend &= ceil((j + 1) * W_{in} / W_{out})
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        Output(i ,j) &= max(Input[hstart:hend, wstart:wend])
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    Parameters:
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        output_size(int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list, it must contain
            two element, (H, W). H and W can be either a int, or None which means the size will be the same as that of
            the input.
        return_mask(bool, optional): If true, the index of max pooling point will be returned along with outputs.
            It cannot be set in average pooling type. Default False.
        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Shape:
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        - x(Tensor): The input tensor of adaptive max pool2d operator, which is a 4-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of adaptive max pool2d operator, which is a 4-D tensor.
          The data type is same as input x.
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    Returns:
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        A callable object of AdaptiveMaxPool2D.
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    Examples:
        .. code-block:: python
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            # adaptive max pool2d
            # suppose input data in shape of [N, C, H, W], `output_size` is [m, n],
            # output shape is [N, C, m, n], adaptive pool divide H and W dimensions
            # of input data into m * n grids averagely and performs poolings in each
            # grid to get output.
            # adaptive max pool performs calculations as follow:
            #
            #     for i in range(m):
            #         for j in range(n):
            #             hstart = floor(i * H / m)
            #             hend = ceil((i + 1) * H / m)
            #             wstart = floor(i * W / n)
            #             wend = ceil((i + 1) * W / n)
            #             output[:, :, i, j] = max(input[:, :, hstart: hend, wstart: wend])
            #
            import paddle
            import numpy as np
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            input_data = np.random.rand(2, 3, 32, 32)
            x = paddle.to_tensor(input_data)
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            adaptive_max_pool = paddle.nn.AdaptiveMaxPool2D(output_size=3, return_mask=True)
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            pool_out, indices = adaptive_max_pool(x = x)
    """

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    def __init__(self, output_size, return_mask=False, name=None):
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        super(AdaptiveMaxPool2D, self).__init__()
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        self._output_size = output_size
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        self._return_mask = return_mask
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        self._name = name

    def forward(self, x):
        return F.adaptive_max_pool2d(
            x,
            output_size=self._output_size,
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            return_mask=self._return_mask,
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            name=self._name)

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    def extra_repr(self):
        return 'output_size={}, return_mask={}'.format(self._output_size,
                                                       self._return_mask)

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class AdaptiveMaxPool3D(Layer):
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    """
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    This operation applies 3D adaptive max pooling on input tensor. The h and w dimensions of the output tensor are
    determined by the parameter output_size. The difference between adaptive pooling and pooling is adaptive one focus
    on the output size.
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    For adaptive max pool3d:
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    ..  math::
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        dstart &= floor(i * D_{in} / D_{out})
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        dend &= ceil((i + 1) * D_{in} / D_{out})
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        hstart &= floor(j * H_{in} / H_{out})
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        hend &= ceil((j + 1) * H_{in} / H_{out})
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        wstart &= floor(k * W_{in} / W_{out})
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        wend &= ceil((k + 1) * W_{in} / W_{out})
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        Output(i ,j, k) &= max(Input[dstart:dend, hstart:hend, wstart:wend])
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    Parameters:
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        output_size(int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list, it must contain
            three elements, (D, H, W). D, H and W can be either a int, or None which means the size will be the same as
            that of the input.
        return_mask(bool, optional): If true, the index of max pooling point will be returned along with outputs.
            Default False.
        name(str, optional): For detailed information, please refer to :ref:`api_guide_Name`.
            Usually name is no need to set and None by default.
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    Shape:
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        - x(Tensor): The input tensor of adaptive max pool3d operator, which is a 5-D tensor.
          The data type can be float32, float64.
        - output(Tensor): The output tensor of adaptive max pool3d operator, which is a 5-D tensor.
          The data type is same as input x.

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    Returns:
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        A callable object of AdaptiveMaxPool3D.
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    Examples:
        .. code-block:: python
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            # adaptive max pool3d
            # suppose input data in shape of [N, C, D, H, W], `output_size` is [l, m, n],
            # output shape is [N, C, l, m, n], adaptive pool divide D, H and W dimensions
            # of input data into l * m * n grids averagely and performs poolings in each
            # grid to get output.
            # adaptive max pool performs calculations as follow:
            #
            #     for i in range(l):
            #         for j in range(m):
            #             for k in range(n):
            #                 dstart = floor(i * D / l)
            #                 dend = ceil((i + 1) * D / l)
            #                 hstart = floor(j * H / m)
            #                 hend = ceil((j + 1) * H / m)
            #                 wstart = floor(k * W / n)
            #                 wend = ceil((k + 1) * W / n)
            #                 output[:, :, i, j, k] =
            #                     max(input[:, :, dstart:dend, hstart: hend, wstart: wend])
            import paddle
            import numpy as np
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            input_data = np.random.rand(2, 3, 8, 32, 32)
            x = paddle.to_tensor(input_data)
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            pool = paddle.nn.AdaptiveMaxPool3D(output_size=4)
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            out = pool(x)
            # out shape: [2, 3, 4, 4, 4]
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            pool = paddle.nn.AdaptiveMaxPool3D(output_size=3, return_mask=True)
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            out, indices = pool(x)
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            # out shape: [2, 3, 4, 4, 4], indices shape: [2, 3, 4, 4, 4]
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    """

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    def __init__(self, output_size, return_mask=False, name=None):
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        super(AdaptiveMaxPool3D, self).__init__()
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        self._output_size = output_size
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        self._return_mask = return_mask
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        self._name = name

    def forward(self, x):
        return F.adaptive_max_pool3d(
            x,
            output_size=self._output_size,
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            return_mask=self._return_mask,
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            name=self._name)
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    def extra_repr(self):
        return 'output_size={}, return_mask={}'.format(self._output_size,
                                                       self._return_mask)
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class MaxUnPool2D(Layer):
    """
    This API implements max unpooling 2d opereation.

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    'max_unpool2d' accepts the output of 'max_unpool2d' as input
    Including the indices of the maximum value and calculating the partial inverse
    All non-maximum values ​​are set to zero.
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    Parameters:
        kernel_size (int|list|tuple): The unpool kernel size. If unpool kernel size is a tuple or list,
            it must contain an integer.
        stride (int|list|tuple): The unpool stride size. If unpool stride size is a tuple or list,
            it must contain an integer.
        kernel_size (int|tuple): Size of the max unpooling window.
        padding (int | tuple): Padding that was added to the input.
        output_size(list|tuple, optional): The target output size. If output_size is not specified, 
                           the actual output shape will be automatically calculated by (input_shape,
                           kernel_size, padding).
        name(str, optional): For detailed information, please refer
                             to :ref:`api_guide_Name`. Usually name is no need to set and
                             None by default.


        - Input: :math:`(N, C, H_{in}, W_{in})`
        - Output: :math:`(N, C, H_{out}, W_{out})`, where

          .. math::
            H_{out} = (H_{in} - 1) \times \text{stride[0]} - 2 \times \text{padding[0]} + \text{kernel\_size[0]}

          .. math::
            W_{out} = (W_{in} - 1) \times \text{stride[1]} - 2 \times \text{padding[1]} + \text{kernel\_size[1]}

          or as given by :attr:`output_size` in the call operator

    Returns:
        A callable object of MaxUnPool2D.

            

    Examples:
        .. code-block:: python
        
        import paddle
        import paddle.nn.functional as F
        import numpy as np

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        data = paddle.rand(shape=[1,1,7,7])
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        pool_out, indices = F.max_pool2d(data, kernel_size=2, stride=2, padding=0, return_mask=True)
        # pool_out shape: [1, 1, 3, 3],  indices shape: [1, 1, 3, 3]
        Unpool2D = paddle.nn.MaxUnPool2D(kernel_size=2, padding=0)
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        unpool_out = Unpool2D(pool_out, indices)
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        # unpool_out shape: [1, 1, 6, 6]

    """

    def __init__(self,
                 kernel_size,
                 stride=None,
                 padding=0,
                 data_format="NCHW",
                 output_size=None,
                 name=None):
        super(MaxUnPool2D, self).__init__()
        self.ksize = kernel_size
        self.stride = stride
        self.padding = padding
        self.data_format = data_format
        self.output_size = output_size
        self.name = name

    def forward(self, x, indices):
        return F.max_unpool2d(
            x,
            indices,
            kernel_size=self.ksize,
            stride=self.stride,
            padding=self.padding,
            data_format=self.data_format,
            output_size=self.output_size,
            name=self.name)

    def extra_repr(self):
        return 'output_size={}'.format(self.output_size)