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# Copyright (c) 2018 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.
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"""
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All layers just related to the neural network.
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"""

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from __future__ import print_function

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import numpy as np
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import warnings
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import six
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import os
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import inspect
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from ..layer_helper import LayerHelper
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from ..initializer import Normal, Constant, NumpyArrayInitializer
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from ..framework import Variable, OpProtoHolder, in_dygraph_mode, dygraph_only, _dygraph_tracer, default_main_program
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from .. import dygraph_utils
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from ..param_attr import ParamAttr
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from .layer_function_generator import autodoc, templatedoc, _generate_doc_string_
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from .tensor import concat, assign, fill_constant, zeros, tensor_array_to_tensor
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from . import utils
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from .. import unique_name
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from functools import reduce
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from .. import core
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from ..data_feeder import convert_dtype, check_variable_and_dtype, check_type, check_dtype
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__all__ = [
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    'fc',
    'embedding',
    'linear_chain_crf',
    'crf_decoding',
    'cos_sim',
    'chunk_eval',
    'conv2d',
    'conv3d',
    'softmax',
    'pool2d',
    'pool3d',
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    'adaptive_pool2d',
    'adaptive_pool3d',
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    'batch_norm',
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    'instance_norm',
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    'data_norm',
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    'conv2d_transpose',
    'conv3d_transpose',
    'reduce_sum',
    'reduce_mean',
    'reduce_max',
    'reduce_min',
    'reduce_prod',
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    'reduce_all',
    'reduce_any',
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    'dropout',
    'split',
    'ctc_greedy_decoder',
    'l2_normalize',
    'matmul',
    'topk',
    'transpose',
    'im2sequence',
    'row_conv',
    'multiplex',
    'layer_norm',
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    'group_norm',
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    'spectral_norm',
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    'smooth_l1',
    'one_hot',
    'autoincreased_step_counter',
    'reshape',
    'squeeze',
    'unsqueeze',
    'lod_reset',
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    'lod_append',
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    'lrn',
    'pad',
    'pad_constant_like',
    'label_smooth',
    'roi_pool',
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    'roi_align',
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    'dice_loss',
    'image_resize',
    'image_resize_short',
    'resize_bilinear',
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    'resize_trilinear',
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    'resize_nearest',
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    'gather',
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    'gather_nd',
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    'scatter',
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    'scatter_nd_add',
    'scatter_nd',
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    'random_crop',
    'mean_iou',
    'relu',
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    'selu',
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    'log',
    'crop',
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    'crop_tensor',
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    'elu',
    'relu6',
    'pow',
    'stanh',
    'hard_sigmoid',
    'swish',
    'prelu',
    'brelu',
    'leaky_relu',
    'soft_relu',
    'flatten',
    'stack',
    'pad2d',
    'unstack',
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    'unique',
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    'unique_with_counts',
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    'expand',
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    'expand_as',
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    'scale',
    'elementwise_add',
    'elementwise_div',
    'elementwise_sub',
    'elementwise_mul',
    'elementwise_max',
    'elementwise_min',
    'elementwise_pow',
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    'elementwise_mod',
    'elementwise_floordiv',
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    'uniform_random_batch_size_like',
    'gaussian_random',
    'sampling_id',
    'gaussian_random_batch_size_like',
    'sum',
    'slice',
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    'strided_slice',
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    'shape',
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    'rank',
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    'size',
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    'logical_and',
    'logical_or',
    'logical_xor',
    'logical_not',
    'clip',
    'clip_by_norm',
    'mean',
    'mul',
    'maxout',
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    'space_to_depth',
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    'affine_grid',
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    'affine_channel',
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    'similarity_focus',
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    'hash',
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    'grid_sampler',
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    'log_loss',
    'add_position_encoding',
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    'bilinear_tensor_product',
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    'merge_selected_rows',
    'get_tensor_from_selected_rows',
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    'shuffle_channel',
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    'temporal_shift',
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    'py_func',
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    'psroi_pool',
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    'prroi_pool',
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    'pixel_shuffle',
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    'fsp_matrix',
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    'continuous_value_model',
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    'where',
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    'sign',
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    'deformable_conv',
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    'unfold',
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    'deformable_roi_pooling',
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    'filter_by_instag',
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    'shard_index',
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    'hard_swish',
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    'gather_tree',
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    'uniform_random',
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]


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@dygraph_only
def _elementwise_op_in_dygraph(x,
                               y,
                               axis=-1,
                               act=None,
                               use_mkldnn=False,
                               op_name=None):
    attrs = {'axis': axis, 'use_mkldnn': use_mkldnn}
    inputs = {'X': [x], 'Y': [y]}
    op = getattr(core.ops, op_name)
    outs = op(inputs, attrs)
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    out = outs['Out'][0]
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    return dygraph_utils._append_activation_in_dygraph(
        out, act, use_mkldnn=use_mkldnn)
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def fc(input,
       size,
       num_flatten_dims=1,
       param_attr=None,
       bias_attr=None,
       act=None,
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       name=None):
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    """
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    **Fully Connected Layer**
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    This operator creates a fully connected layer in the network. It can take
    a Tensor(or LoDTensor) or a list of Tensor(or LoDTensor) as its inputs(see
    Args in detail). It creates a variable called weight for each input Tensor,
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    which represents a fully connected weight matrix from each input unit to
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    each output unit. The fully connected layer multiplies each input Tensor
    with its corresponding weight to produce an output Tensor with shape :math:`[M, size]` ,
    where M is batch size. If a list of Tensor is given, the results of
    multiple output Tensors with shape :math:`[M, size]` will be summed up. If :attr:`bias_attr`
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    is not None, a bias variable will be created and added to the output.
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    Finally, if :attr:`act` is not None, it will be applied to the output as well.
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    When the input is a single Tensor(or LoDTensor):
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    .. math::

        Out = Act({XW + b})

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    When the input is a list of Tensor(or LoDTensor):
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    .. math::

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        Out = Act({\sum_{i=0}^{N-1}X_iW_i + b})
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    In the above equation:

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    * :math:`N`: Number of the input. N equals to len(input) if input is list of Variable.
    * :math:`X_i`: The i-th input tensor.
    * :math:`W_i`: The i-th weights matrix corresponding i-th input tensor.
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    * :math:`b`: The bias parameter created by this layer (if needed).
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    * :math:`Act`: The activation function.
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    * :math:`Out`: The output Tensor.
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    .. code-block:: text

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        Case 1:
        Given a single Tensor data_1, and num_flatten_dims = 2:
            data_1.data = [[[0.1, 0.2],
                            [0.3, 0.4]]]
            data_1.shape = (1, 2, 2) # 1 is batch_size

            out = fluid.layers.fc(input=data_1, size=1, num_flatten_dims=2)

        Then output is:
            out.data = [[0.83234344], [0.34936576]]
            out.shape = (1, 2, 1)

        Case 2:
        Given a list of Tensor:
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            data_1.data = [[[0.1, 0.2],
                           [0.3, 0.4]]]
            data_1.shape = (1, 2, 2) # 1 is batch_size

            data_2 = [[[0.1, 0.2, 0.3]]]
            data_2.shape = (1, 1, 3)

            out = fluid.layers.fc(input=[data_1, data_2], size=2)

        Then:
            out.data = [[0.18669507, 0.1893476]]
            out.shape = (1, 2)

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    Args:
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        input (Variable|list of Variable): A Tensor(or LoDTensor) with shape :math:`[N_1, N_2,..., N_k]` or
            a list of Tensor(or LoDTensor). The dimensions of the input Tensor is at least 2 and the data
            type should be float32 or float64.
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        size(int): The number of output units in this layer, which also means the feature size of output
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            Tensor(or LoDTensor).
        num_flatten_dims (int): The fc layer can accept an input Tensor with more than
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            two dimensions. If this happens, the multidimensional tensor will first be flattened
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            into a 2-D matrix. The parameter :attr:`num_flatten_dims` determines how the input
            Tensor is flattened: the first :attr:`num_flatten_dims` (inclusive, index starts from 1)
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            dimensions will be flatten to form the first dimension of the final matrix (height of
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            the matrix), and the rest :math:`rank(X) - num\_flatten\_dims` dimensions are flattened to
            form the second dimension of the final matrix (width of the matrix). For example, assuming that
            X is a 5-dimensional Tensor with a shape [2, 3, 4, 5, 6], and :attr:`num_flatten_dims` = 3.
            Then, the flattened matrix will have a shape [2 x 3 x 4, 5 x 6] = [24, 30]. Default: 1.
        param_attr (ParamAttr): To specify the weight parameter property. Default: None, which means the
            default weight parameter property is used. See usage for details in :ref:`api_fluid_ParamAttr` .
        bias_attr (ParamAttr): To specify the bias parameter property. Default: None, which means the
            default bias parameter property is used. See usage for details in :ref:`api_fluid_ParamAttr` .
        act (str): Activation to be applied to the output of this layer, such as tanh, softmax,
            sigmoid, relu. For more information, please refer to :ref:`api_guide_activations_en` . Default: None.
        name (str, optional): The default value is None.  Normally there is no need for user to set this property.
            For more information, please refer to :ref:`api_guide_Name` .

    Returns:
        Variable: Tensor or LoDTensor calculated by fc layer. The data type is same with input.
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    Raises:
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        ValueError: If dimensions of the input Tensor is less than 2.
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    Examples:
        .. code-block:: python

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          import paddle.fluid as fluid
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          # when input is single tensor
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          data = fluid.data(name="data", shape=[-1, 32], dtype="float32")
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          fc = fluid.layers.fc(input=data, size=1000, act="tanh")
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          # when input are multiple tensors
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          data_1 = fluid.data(name="data_1", shape=[-1, 32], dtype="float32")
          data_2 = fluid.data(name="data_2", shape=[-1, 36], dtype="float32")
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          fc = fluid.layers.fc(input=[data_1, data_2], size=1000, act="tanh")
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    """
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    helper = LayerHelper("fc", **locals())
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    check_type(input, 'input', (list, tuple, Variable), 'fc')
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    if isinstance(input, (list, tuple)):
        for i, input_x in enumerate(input):
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            check_type(input_x, 'input[' + str(i) + ']', Variable, 'fc')
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    dtype = helper.input_dtype()
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    check_dtype(dtype, 'input', ['float16', 'float32', 'float64'], 'fc')
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    mul_results = []
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    for input_var, param_attr in helper.iter_inputs_and_params():
        input_shape = input_var.shape
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        if num_flatten_dims == -1:
            num_flatten_dims = len(input_shape) - 1
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        param_shape = [
            reduce(lambda a, b: a * b, input_shape[num_flatten_dims:], 1)
        ] + [size]
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        w = helper.create_parameter(
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            attr=param_attr, shape=param_shape, dtype=dtype, is_bias=False)
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        tmp = helper.create_variable_for_type_inference(dtype)
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        helper.append_op(
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            type="mul",
            inputs={"X": input_var,
                    "Y": w},
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            outputs={"Out": tmp},
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            attrs={"x_num_col_dims": num_flatten_dims,
                   "y_num_col_dims": 1})
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        mul_results.append(tmp)

    if len(mul_results) == 1:
        pre_bias = mul_results[0]
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    else:
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        pre_bias = helper.create_variable_for_type_inference(dtype)
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        helper.append_op(
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            type="sum",
            inputs={"X": mul_results},
            outputs={"Out": pre_bias},
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            attrs={"use_mkldnn": False})
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    # add bias
    pre_activation = helper.append_bias_op(pre_bias, dim_start=num_flatten_dims)
    # add activation
    return helper.append_activation(pre_activation)
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def embedding(input,
              size,
              is_sparse=False,
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              is_distributed=False,
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              padding_idx=None,
              param_attr=None,
              dtype='float32'):
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    """
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    **WARING:** This OP will be deprecated in a future release. This OP requires the
    last dimension of Tensor shape must be equal to 1. It is recommended to use
    fluid. :ref:`api_fluid_embedding` .

    The operator is used to lookup embeddings vector of ids provided by :attr:`input` .
    It automatically constructs a 2D embedding matrix based on the
    input :attr:`size` (vocab_size, emb_size) and :attr:`dtype` .

    This OP requires the last dimension of Tensor shape must be equal to 1. The shape
    of output Tensor is generated by replacing the last dimension of the input Tensor shape
    with emb_size.

    **Note:** The id in :attr:`input` must satisfy :math:`0 =< id < size[0]` , 
    otherwise the program will throw an exception and exit.

    .. code-block:: text

        Case 1:

        input is a Tensor. padding_idx = -1
            input.data = [[[1], [3]], [[2], [4]], [[4], [127]]]
            input.shape = [3, 2, 1]
        Given size = [128, 16]
        output is a Tensor:
            out.shape = [3, 2, 16]
            out.data = [[[0.129435295, 0.244512452, ..., 0.436322452],
                        [0.345421456, 0.524563927, ..., 0.144534654]],

                        [[0.345249859, 0.124939536, ..., 0.194353745],
                        [0.945345345, 0.435394634, ..., 0.435345365]],
                        
                        [[0.945345345, 0.435394634, ..., 0.435345365],
                        [0.0,         0.0,         ..., 0.0        ]]]  # padding data
        The input padding_idx is less than 0, it is automatically converted to padding_idx = -1 + 128 = 127
        It will pad all-zero data when ids is 127.
        
        Case 2:
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        input is a LoDTensor with 1-level LoD. padding_idx = 0
            input.lod = [[2, 3]]
            input.data = [[1], [3], [2], [4], [0]]
            input.shape = [5, 1]
        Given size = [128, 16]
        output is a LoDTensor:
            out.lod = [[2, 3]]
            out.shape = [5, 16]
            out.data = [[0.129435295, 0.244512452, ..., 0.436322452],
                        [0.345421456, 0.524563927, ..., 0.144534654],
                        [0.345249859, 0.124939536, ..., 0.194353745],
                        [0.945345345, 0.435394634, ..., 0.435345365],
                        [0.0,         0.0,         ..., 0.0        ]]  # padding data
        It will pad all-zero data when ids is 0.
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    Args:
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        input(Variable): A Tensor or LoDTensor with type int64, which contains the id information.
            The last dimension of Tensor shape must be equal to 1. The value of the input id should
            satisfy :math:`0<= id < size[0]` .
        size(tuple|list): The shape of lookup table parameter. It should have two elements which
            indicates the size of the dictionary of embeddings and the size of each embedding vector respectively.
        is_sparse(bool): The flag indicating whether to use sparse update. This parameter only
            affects the performance of the backwards gradient update. It is recommended to set 
            True because sparse update is faster. But some optimizer does not support sparse update,
            such as :ref:`api_fluid_optimizer_AdadeltaOptimizer` , :ref:`api_fluid_optimizer_AdamaxOptimizer` , 
            :ref:`api_fluid_optimizer_DecayedAdagradOptimizer` , :ref:`api_fluid_optimizer_FtrlOptimizer` ,
            :ref:`api_fluid_optimizer_LambOptimizer` and :ref:`api_fluid_optimizer_LarsMomentumOptimizer` .
            In these case, is_sparse must be False. Default: False.
        is_distributed(bool): Whether to store the embedding matrix in a distributed manner. Only used
            in multi-machine distributed CPU training. Default: False.
        padding_idx(int|long|None): padding_idx needs to be in the interval [-vocab_size, vocab_size). 
            If :math:`padding\_idx < 0`, the :math:`padding\_idx` will automatically be converted
            to :math:`vocab\_size + padding\_idx` . It will output all-zero padding data whenever lookup
            encounters :math:`padding\_idx` in id. And the padding data will not be updated while training.
            If set None, it makes no effect to output. Default: None.
        param_attr(ParamAttr): To specify the weight parameter property. Default: None, which means the
            default weight parameter property is used. See usage for details in :ref:`api_fluid_ParamAttr` . In addition,
            user-defined or pre-trained word vectors can be loaded with the :attr:`param_attr` parameter. 
            The local word vector needs to be transformed into numpy format, and the shape of local word
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            vector should be consistent with :attr:`size` . Then :ref:`api_fluid_initializer_NumpyArrayInitializer`
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            is used to load custom or pre-trained word vectors. See code example 2 for details.
        dtype(str|core.VarDesc.VarType): It refers to the data type of output Tensor.
            It must be float32 or float64. Default: float32.
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    Returns:
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        Variable: Embedding Tensor or LoDTensor mapped by input. The data type is the same as :attr:`dtype` .
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    Examples:
        .. code-block:: python
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          import paddle.fluid as fluid
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          import numpy as np
          data = fluid.data(name='x', shape=[None, 1], dtype='int64')

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          # example 1
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          emb_1 = fluid.embedding(input=data, size=[128, 64])

          # example 2: load custom or pre-trained word vectors
          weight_data = np.random.random(size=(128, 100))  # word vectors with numpy format
          w_param_attrs = fluid.ParamAttr(
              name="emb_weight",
              learning_rate=0.5,
              initializer=fluid.initializer.NumpyArrayInitializer(weight_data),
              trainable=True)
          emb_2 = fluid.layers.embedding(input=data, size=(128, 100), param_attr=w_param_attrs, dtype='float32')   
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    """

    helper = LayerHelper('embedding', **locals())
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    check_variable_and_dtype(input, 'input', ['int64'],
                             'fluid.layers.embedding')
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    check_dtype(dtype, 'dtype', ['float16', 'float32', 'float64'],
                'fluid.layers.embedding')
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    remote_prefetch = is_sparse and (not is_distributed)
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    if remote_prefetch:
        assert is_sparse is True and is_distributed is False
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    w = helper.create_parameter(
        attr=helper.param_attr, shape=size, dtype=dtype, is_bias=False)
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    tmp = helper.create_variable_for_type_inference(dtype)
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    padding_idx = -1 if padding_idx is None else padding_idx if padding_idx >= 0 else (
        size[0] + padding_idx)
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    helper.append_op(
        type='lookup_table',
        inputs={'Ids': input,
                'W': w},
        outputs={'Out': tmp},
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        attrs={
            'is_sparse': is_sparse,
            'is_distributed': is_distributed,
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            'remote_prefetch': remote_prefetch,
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            'padding_idx': padding_idx
        })
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    return tmp


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def _pull_box_sparse(input, size, dtype='float32'):
    """
    **Pull Box Sparse Layer**

    This layer is used to lookup embeddings of IDs, provided by :attr:`input`, in
    BoxPS lookup table. The result of this lookup is the embedding of each ID in the
    :attr:`input`.

    Args:
        input(Variable|list of Variable): Input is a Tensor<int64> Variable, which 
            contains the IDs information.
        size(int): The embedding size parameter, which indicates the size of 
            each embedding vector respectively.
        dtype(str): The dtype refers to the data type of output tensor. Only supports 
	    float32 now.

    Returns:
        Variable|list of Variable: The tensor variable storing the embeddings of the \
                  supplied inputs.

    Examples:
        .. code-block:: python

          import paddle.fluid as fluid
          data = fluid.layers.data(name='sequence', shape=[1], dtype='int64', lod_level=1)
          emb = fluid.layers.pull_box_sparse(input=data, size=[11])    
    """
    helper = LayerHelper('pull_box_sparse', **locals())
    if dtype != 'float32':
        raise ValueError(
            "BoxPS only support float type embedding now, and your type is: " +
            dtype)
    helper.input_dtype()
    inputs = helper.multiple_input()
    outs = [
        helper.create_variable_for_type_inference(dtype)
        for i in range(len(inputs))
    ]
    helper.append_op(
        type='pull_box_sparse',
        inputs={'Ids': inputs},
        outputs={'Out': outs},
        attrs={'size': size})
    if len(outs) == 1:
        return outs[0]
    return outs


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@templatedoc()
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def linear_chain_crf(input, label, param_attr=None, length=None):
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    """
    Linear Chain CRF.

    ${comment}

    Args:
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        input(${emission_type}): ${emission_comment} 
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        label(${label_type}): ${label_comment}
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        Length(${length_type}): ${length_comment}
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        param_attr(ParamAttr): The attribute of the learnable parameter for transition parameter.
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    Returns:
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        output(${emission_exps_type}): ${emission_exps_comment} \n
        output(${transition_exps_type}): ${transition_exps_comment} \n
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        output(${log_likelihood_type}): ${log_likelihood_comment} \n
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
            import numpy as np

            #define net structure, using LodTensor
            train_program = fluid.Program()
            startup_program = fluid.Program()
            with fluid.program_guard(train_program, startup_program):
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                input_data = fluid.data(name='input_data', shape=[-1,10], dtype='float32')
                label = fluid.data(name='label', shape=[-1,1], dtype='int')
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                emission= fluid.layers.fc(input=input_data, size=10, act="tanh")
                crf_cost = fluid.layers.linear_chain_crf(
                    input=emission,
                    label=label,
                    param_attr=fluid.ParamAttr(
                    name='crfw',
                    learning_rate=0.01)) 
            use_cuda = False
            place = fluid.CUDAPlace(0) if use_cuda else fluid.CPUPlace()
            exe = fluid.Executor(place)
            exe.run(startup_program)    
            #define data, using LoDTensor
            a = fluid.create_lod_tensor(np.random.rand(12,10).astype('float32'), [[3,3,4,2]], place)
            b = fluid.create_lod_tensor(np.array([[1],[1],[2],[3],[1],[1],[1],[3],[1],[1],[1],[1]]),[[3,3,4,2]] , place)
            feed1 = {'input_data':a,'label':b}
            loss= exe.run(train_program,feed=feed1, fetch_list=[crf_cost])
            print(loss) 

            #define net structure, using padding
            train_program = fluid.Program()
            startup_program = fluid.Program()
            with fluid.program_guard(train_program, startup_program):
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                input_data2 = fluid.data(name='input_data2', shape=[-1,10,10], dtype='float32')
                label2 = fluid.data(name='label2', shape=[-1,10,1], dtype='int')
                label_length = fluid.data(name='length', shape=[-1,1], dtype='int')
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                emission2= fluid.layers.fc(input=input_data2, size=10, act="tanh", num_flatten_dims=2)
                crf_cost2 = fluid.layers.linear_chain_crf(
                    input=emission2,
                    label=label2,
                    length=label_length,
                    param_attr=fluid.ParamAttr(
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                     name='crfw',
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                     learning_rate=0.01))

            use_cuda = False
            place = fluid.CUDAPlace(0) if use_cuda else fluid.CPUPlace()
            exe = fluid.Executor(place)
            exe.run(startup_program)
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            #define data, using padding
            cc=np.random.rand(4,10,10).astype('float32')
            dd=np.random.rand(4,10,1).astype('int64')
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            ll=np.array([[3],[3],[4],[2]])
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            feed2 = {'input_data2':cc,'label2':dd,'length':ll}
            loss2= exe.run(train_program,feed=feed2, fetch_list=[crf_cost2])
            print(loss2) 
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            #[array([[ 7.8902354],
            #        [ 7.3602567],
            #        [ 10.004011],
            #        [ 5.86721  ]], dtype=float32)]

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            #you can use find_var to get transition parameter.
            transition=np.array(fluid.global_scope().find_var('crfw').get_tensor())
            print(transition)
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    """
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    helper = LayerHelper('linear_chain_crf', **locals())
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    size = input.shape[2] if length else input.shape[1]
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    transition = helper.create_parameter(
        attr=helper.param_attr,
        shape=[size + 2, size],
        dtype=helper.input_dtype())
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    alpha = helper.create_variable_for_type_inference(
        dtype=helper.input_dtype())
    emission_exps = helper.create_variable_for_type_inference(
        dtype=helper.input_dtype())
    transition_exps = helper.create_variable_for_type_inference(
        dtype=helper.input_dtype())
    log_likelihood = helper.create_variable_for_type_inference(
        dtype=helper.input_dtype())
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    this_inputs = {
        "Emission": [input],
        "Transition": transition,
        "Label": [label]
    }
    if length:
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        this_inputs['Length'] = [length]
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    helper.append_op(
        type='linear_chain_crf',
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        inputs=this_inputs,
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        outputs={
            "Alpha": [alpha],
            "EmissionExps": [emission_exps],
            "TransitionExps": transition_exps,
            "LogLikelihood": log_likelihood
        })

    return log_likelihood


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@templatedoc()
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def crf_decoding(input, param_attr, label=None, length=None):
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    """
    ${comment}
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    Args:
        input(${emission_type}): ${emission_comment}
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        param_attr (ParamAttr|None): To specify the weight parameter attribute. 
            Default: None, which means the default weight parameter property is 
            used. See usage for details in :ref:`api_fluid_ParamAttr` .
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        label(${label_type}, optional): ${label_comment}
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        length(${length_type}, optional): ${length_comment}
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    Returns:
        Variable: ${viterbi_path_comment}
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    Examples:
        .. code-block:: python
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           import paddle.fluid as fluid
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           # LoDTensor-based example
           num_labels = 10
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           feature = fluid.data(name='word_emb', shape=[-1, 784], dtype='float32', lod_level=1)
           label = fluid.data(name='label', shape=[-1, 1], dtype='int64', lod_level=1)
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           emission = fluid.layers.fc(input=feature, size=num_labels)
           
           crf_cost = fluid.layers.linear_chain_crf(input=emission, label=label, 
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                     param_attr=fluid.ParamAttr(name="crfw"))
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           crf_decode = fluid.layers.crf_decoding(input=emission, 
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                     param_attr=fluid.ParamAttr(name="crfw"))
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           # Common tensor example
           num_labels, max_len = 10, 20
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           feature = fluid.data(name='word_emb_pad', shape=[-1, max_len, 784], dtype='float32')
           label = fluid.data(name='label_pad', shape=[-1, max_len, 1], dtype='int64')
           length = fluid.data(name='length', shape=[-1, 1], dtype='int64')
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           emission = fluid.layers.fc(input=feature, size=num_labels,
                                      num_flatten_dims=2)
           
           crf_cost = fluid.layers.linear_chain_crf(input=emission, label=label, length=length, 
                     param_attr=fluid.ParamAttr(name="crfw_pad"))
           crf_decode = fluid.layers.crf_decoding(input=emission, length=length,
                     param_attr=fluid.ParamAttr(name="crfw_pad"))
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    """
    helper = LayerHelper('crf_decoding', **locals())
    transition = helper.get_parameter(param_attr.name)
    viterbi_path = helper.create_variable_for_type_inference(
        dtype=helper.input_dtype())
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    inputs = {"Emission": [input], "Transition": transition, "Label": label}
    if length:
        inputs['Length'] = length
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    helper.append_op(
        type='crf_decoding',
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        inputs=inputs,
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        outputs={"ViterbiPath": [viterbi_path]})
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    return viterbi_path
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@templatedoc()
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def cos_sim(X, Y):
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    """
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    ${comment}

    Args:
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        X (Variable): ${x_comment}.
        Y (Variable): ${y_comment}.
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    Returns:
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        A Variable holding LoDTensor representing the output of cosine(X, Y).
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            x = fluid.data(name='x', shape=[3, 7], dtype='float32')
            y = fluid.data(name='y', shape=[1, 7], dtype='float32')
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            out = fluid.layers.cos_sim(x, y)
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    """
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    helper = LayerHelper('cos_sim', **locals())
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    out = helper.create_variable_for_type_inference(dtype=X.dtype)
    xnorm = helper.create_variable_for_type_inference(dtype=X.dtype)
    ynorm = helper.create_variable_for_type_inference(dtype=X.dtype)
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    helper.append_op(
        type='cos_sim',
        inputs={'X': [X],
                'Y': [Y]},
        outputs={'Out': [out],
                 'XNorm': [xnorm],
                 'YNorm': [ynorm]})
    return out


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def dropout(x,
            dropout_prob,
            is_test=False,
            seed=None,
            name=None,
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            dropout_implementation="downgrade_in_infer"):
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    """
    Computes dropout.

    Drop or keep each element of `x` independently. Dropout is a regularization
    technique for reducing overfitting by preventing neuron co-adaption during
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    training. The dropout operator randomly sets (according to the given dropout
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    probability) the outputs of some units to zero, while others are remain
    unchanged.

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    dropout op can be removed from the program to make the program more efficient.

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    Args:
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        x (Variable): The input tensor variable. The data type is float16 or float32 or float64.
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        dropout_prob (float): Probability of setting units to zero.
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        is_test (bool): A flag indicating whether it is in test phrase or not.
        seed (int): A Python integer used to create random seeds. If this
                    parameter is set to None, a random seed is used.
                    NOTE: If an integer seed is given, always the same output
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                    units will be dropped. DO NOT use a fixed seed in training.Default: None.
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        name (str|None): A name for this layer(optional). If set None, the layer
                         will be named automatically.
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        dropout_implementation(string): ['downgrade_in_infer'(default)|'upscale_in_train']

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                                        1. downgrade_in_infer(default), downgrade the outcome at inference
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                                           - train: out = input * mask
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                                           - inference: out = input * (1.0 - dropout_prob)
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                                           (mask is a tensor same shape with input, value is 0 or 1
                                           ratio of 0 is dropout_prob)
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                                        2. upscale_in_train, upscale the outcome at training time
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                                           - train: out = input * mask / ( 1.0 - dropout_prob )
                                           - inference: out = input
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                                           (mask is a tensor same shape with input, value is 0 or 1
                                           ratio of 0 is dropout_prob)
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    Returns:
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        A Variable holding Tensor representing the dropout, has same shape and data type with `x`.
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    Examples:
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        .. code-block:: python

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            import paddle.fluid as fluid
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            x = fluid.data(name="data", shape=[None, 32, 32], dtype="float32")
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            dropped = fluid.layers.dropout(x, dropout_prob=0.5)
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    """

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    def get_attrs(prog, dropout_prob, is_test, seed):
        if (seed is None or seed == 0) and prog.random_seed != 0:
            seed = prog.random_seed
        attrs = {
            'dropout_prob': dropout_prob,
            'is_test': is_test,
            'fix_seed': seed is not None,
            'seed': seed if seed is not None else 0,
            'dropout_implementation': dropout_implementation,
        }
        return attrs

    if in_dygraph_mode():
        attrs = get_attrs(default_main_program(), dropout_prob, is_test, seed)
        attrs['is_test'] = not _dygraph_tracer()._train_mode
        inputs = {'X': [x]}
        outs = core.ops.dropout(inputs, attrs)
        return outs['Out'][0]

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    helper = LayerHelper('dropout', **locals())
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    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64'],
                             'dropout')
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
    mask = helper.create_variable_for_type_inference(
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        dtype=core.VarDesc.VarType.UINT8, stop_gradient=True)
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    attrs = get_attrs(helper.main_program, dropout_prob, is_test, seed)
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    helper.append_op(
        type='dropout',
        inputs={'X': [x]},
        outputs={'Out': [out],
                 'Mask': [mask]},
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        attrs=attrs)
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    return out


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@templatedoc()
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def chunk_eval(input,
               label,
               chunk_scheme,
               num_chunk_types,
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               excluded_chunk_types=None,
               seq_length=None):
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    """
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    This operator computes the precision, recall and F1-score for chunk detection.
    It is often used in sequence tagging tasks, such as Named Entity Recognition(NER).
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    For some basics of chunking, please refer to
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    `Chunking with Support Vector Machines <https://aclanthology.info/pdf/N/N01/N01-1025.pdf>`_ .
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    This operator supports IOB, IOE, IOBES and IO (also known as plain) tagging schemes.
    Here is a NER example for the usage of these tagging schemes:
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    .. code-block:: python
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       ====== ====== ======  =====  ==  ============   =====  ===== =====  ==  =========
              Li     Ming    works  at  Agricultural   Bank   of    China  in  Beijing.
       ====== ====== ======  =====  ==  ============   =====  ===== =====  ==  =========
       IO     I-PER  I-PER   O      O   I-ORG          I-ORG  I-ORG I-ORG  O   I-LOC
       IOB    B-PER  I-PER   O      O   B-ORG          I-ORG  I-ORG I-ORG  O   B-LOC
       IOE    I-PER  E-PER   O      O   I-ORG          I-ORG  I-ORG E-ORG  O   E-LOC
       IOBES  B-PER  E-PER   O      O   I-ORG          I-ORG  I-ORG E-ORG  O   S-LOC
       ====== ====== ======  =====  ==  ============   =====  ===== =====  ==  =========

    There are three chunk types(named entity types) including PER(person), ORG(organization)
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    and LOC(location), and we can see that the labels have the form `<tag type>-<chunk type>` .
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    Since the implementation of this operator actually uses label ids rather than
    label strings, to make it work, there should be a way to map label ids to
    tag types and chunk types. This operator uses the following way to do mapping:
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    .. code-block:: python

       tag_type = label % num_tag_type
       chunk_type = label / num_tag_type

    where `num_tag_type` is the num of tag types in the tagging scheme, `num_chunk_type`
    is the num of chunk types, and `tag_type` get its value from the following table.

    .. code-block:: python
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       Scheme Begin Inside End   Single
        plain   0     -      -     -
        IOB     0     1      -     -
        IOE     -     0      1     -
        IOBES   0     1      2     3

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    Accordingly, in the above NER example, if the tagging scheme is IOB and chunk
    types are ORG, PER and LOC, then the label ids would be as follows:
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    .. code-block:: python

       B-ORG  0
       I-ORG  1
       B-PER  2
       I-PER  3
       B-LOC  4
       I-LOC  5
       O      6

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    With which we can map each label id to the corresponding tag type and chunk
    type correctly.
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    Args:
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        input (Variable): A Tensor or LoDTensor, representing the predicted labels
            from the network. When it is a Tensor, its shape would be `[N, M, 1]`,
            where `N` stands for batch size, `M` for sequence length; When it is
            a LoDTensor, its shape would be `[N, 1]` where `N` stands for the total
            sequence lengths in this mini-batch. The data type should be int64.
        label (Variable): A Tensor or LoDTensor representing the ground-truth labels.
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            It should have the same shape, lod and data type as ``input`` .
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        chunk_scheme (str): Indicate the tagging schemes used here. The value must
            be IOB, IOE, IOBES or plain.
        num_chunk_types (int): The number of chunk types.
        excluded_chunk_types (list, optional): Indicate the chunk types shouldn't
            be taken into account. It should be a list of chunk type ids(integer).
            Default None.
        seq_length(Variable, optional): A 1D Tensor containing the length of each
            sequence when ``input`` and ``label`` are Tensor. It needn't be
            provided if ``input`` and ``label`` are LoDTensor. Default None.
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    Returns:
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        tuple: A tuple including precision, recall, F1-score, chunk number detected, \
            chunk number in ground-truth, chunk number correctly detected. Each \
            is a Tensor with shape `[1]`. The data type of precision, recall and \
            F1-score all is float32, and the others' data type all is int64.
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid

            dict_size = 10000
            label_dict_len = 7
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            sequence = fluid.data(
                name='id', shape=[-1, 1], lod_level=1, dtype='int64')
            embedding = fluid.embedding(
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                input=sequence, size=[dict_size, 512])
            hidden = fluid.layers.fc(input=embedding, size=512)
            label = fluid.layers.data(
                name='label', shape=[1], lod_level=1, dtype='int32')
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            crf = fluid.layers.linear_chain_crf(
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                input=hidden, label=label, param_attr=fluid.ParamAttr(name="crfw"))
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            crf_decode = fluid.layers.crf_decoding(
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                input=hidden, param_attr=fluid.ParamAttr(name="crfw"))
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            fluid.layers.chunk_eval(
                input=crf_decode,
                label=label,
                chunk_scheme="IOB",
                num_chunk_types=(label_dict_len - 1) / 2)
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    """
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    helper = LayerHelper("chunk_eval", **locals())
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    # prepare output
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    precision = helper.create_variable_for_type_inference(dtype="float32")
    recall = helper.create_variable_for_type_inference(dtype="float32")
    f1_score = helper.create_variable_for_type_inference(dtype="float32")
    num_infer_chunks = helper.create_variable_for_type_inference(dtype="int64")
    num_label_chunks = helper.create_variable_for_type_inference(dtype="int64")
    num_correct_chunks = helper.create_variable_for_type_inference(
        dtype="int64")
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    this_input = {"Inference": [input], "Label": [label]}

    if seq_length:
        this_input["SeqLength"] = [seq_length]

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    helper.append_op(
        type="chunk_eval",
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        inputs=this_input,
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        outputs={
            "Precision": [precision],
            "Recall": [recall],
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            "F1-Score": [f1_score],
            "NumInferChunks": [num_infer_chunks],
            "NumLabelChunks": [num_label_chunks],
            "NumCorrectChunks": [num_correct_chunks]
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        },
        attrs={
            "num_chunk_types": num_chunk_types,
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            "chunk_scheme": chunk_scheme,
            "excluded_chunk_types": excluded_chunk_types or []
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        })
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    return (precision, recall, f1_score, num_infer_chunks, num_label_chunks,
            num_correct_chunks)
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def softmax(input, use_cudnn=False, name=None, axis=-1):
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    """
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    This operator implements the softmax layer. The calculation process is as follows:
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    1. The dimension :attr:`axis` of the ``input`` will be permuted to the last.
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    2. Then the input tensor will be logically flattened to a 2-D matrix. The matrix's
    second dimension(row length) is the same as the dimension :attr:`axis` of the input
    tensor, and the first dimension(column length) is the product of all other
    dimensions of the input tensor. For each row of the matrix, the softmax operator
    squashes the K-dimensional(K is the width of the matrix, which is also the size
    of the input tensor's dimension :attr:`axis`) vector of arbitrary real values to a
    K-dimensional vector of real values in the range [0, 1] that add up to 1.
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    3. After the softmax operation is completed, the inverse operations of steps 1 and 2 
    are performed to restore the two-dimensional matrix to the same dimension as the ``input``.
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    It computes the exponential of the given dimension and the sum of exponential
    values of all the other dimensions in the K-dimensional vector input.
    Then the ratio of the exponential of the given dimension and the sum of
    exponential values of all the other dimensions is the output of the softmax
    operator.
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    For each row :math:`i` and each column :math:`j` in the matrix, we have:
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    .. math::
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        Out[i, j] = \\frac{\exp(X[i, j])}{\sum_j(exp(X[i, j])}
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    Example:
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    .. code-block:: text

        Case 1:
          Input:
            X.shape = [2, 3, 4]
            X.data = [[[2.0, 3.0, 4.0, 5.0],
                       [3.0, 4.0, 5.0, 6.0],
                       [7.0, 8.0, 8.0, 9.0]],
                      [[1.0, 2.0, 3.0, 4.0],
                       [5.0, 6.0, 7.0, 8.0],
                       [6.0, 7.0, 8.0, 9.0]]]

          Attrs:
            axis = -1

          Output:
            Out.shape = [2, 3, 4]
            Out.data = [[[0.0320586 , 0.08714432, 0.23688282, 0.64391426],
                         [0.0320586 , 0.08714432, 0.23688282, 0.64391426],
                         [0.07232949, 0.19661193, 0.19661193, 0.53444665]],
                        [[0.0320586 , 0.08714432, 0.23688282, 0.64391426],
                         [0.0320586 , 0.08714432, 0.23688282, 0.64391426],
                         [0.0320586 , 0.08714432, 0.23688282, 0.64391426]]]

        Case 2:
          Input:
            X.shape = [2, 3, 4]
            X.data = [[[2.0, 3.0, 4.0, 5.0],
                       [3.0, 4.0, 5.0, 6.0],
                       [7.0, 8.0, 8.0, 9.0]],
                      [[1.0, 2.0, 3.0, 4.0],
                       [5.0, 6.0, 7.0, 8.0],
                       [6.0, 7.0, 8.0, 9.0]]]
          Attrs:
            axis = 1

          Output:
            Out.shape = [2, 3, 4]
            Out.data = [[[0.00657326, 0.00657326, 0.01714783, 0.01714783],
                         [0.01786798, 0.01786798, 0.04661262, 0.04661262],
                         [0.97555875, 0.97555875, 0.93623955, 0.93623955]],
                        [[0.00490169, 0.00490169, 0.00490169, 0.00490169],
                         [0.26762315, 0.26762315, 0.26762315, 0.26762315],
                         [0.72747516, 0.72747516, 0.72747516, 0.72747516]]] 

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    Args:
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        input (Variable): The input variable. A multi-dimension ``Tensor`` with type float32 or float64.
        use_cudnn (bool, optional): Use cudnn kernel or not, it is valid only when the cudnn \
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            library is installed. To improve numerical stability, set use_cudnn to \
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            False by default.
        name (str, optional): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name` . Default: None.
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            will be named automatically. Default: None.
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        axis (int, optional): The index of dimension to perform softmax calculations, it should
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            be in range :math:`[-1, rank - 1]`, while :math:`rank` is the rank of
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            input variable. Default: -1. -1 means the last dimension.
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    Returns:
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        Variable: ``Tensor`` indicates the output of softmax. The data type and shape are the same as ``input`` .
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
            import numpy as np
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            data = fluid.data(name="input", shape=[-1, 3],dtype="float32")
            result = fluid.layers.softmax(data,axis=1)
            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            exe.run(fluid.default_startup_program())
            x = np.random.rand(3, 3).astype("float32")
            output= exe.run(feed={"input": x},
                             fetch_list=[result[0]])
            print(output)
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    """
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    inputs = {"X": [input]}
    attrs = {"axis": axis, "use_cudnn": use_cudnn}

    if in_dygraph_mode():
        outs = core.ops.softmax(inputs, attrs)
        return outs['Out'][0]

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    helper = LayerHelper('softmax', **locals())
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    check_variable_and_dtype(input, 'input', ['float16', 'float32', 'float64'],
                             'softmax')
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    dtype = helper.input_dtype()
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    softmax_out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type="softmax",
        inputs={"X": input},
        outputs={"Out": softmax_out},
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        attrs=attrs)
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    return softmax_out


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def conv2d(input,
           num_filters,
           filter_size,
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           stride=1,
           padding=0,
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           dilation=1,
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           groups=None,
           param_attr=None,
           bias_attr=None,
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           use_cudnn=True,
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           act=None,
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           name=None,
           data_format="NCHW"):
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    """
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    The convolution2D layer calculates the output based on the input, filter
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    and strides, paddings, dilations, groups parameters. Input and
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    Output are in NCHW or NHWC format, where N is batch size, C is the number of
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    channels, H is the height of the feature, and W is the width of the feature.
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    Filter is in MCHW format, where M is the number of output image channels,
    C is the number of input image channels, H is the height of the filter,
    and W is the width of the filter. If the groups is greater than 1,
    C will equal the number of input image channels divided by the groups.
    Please refer to UFLDL's `convolution
    <http://ufldl.stanford.edu/tutorial/supervised/FeatureExtractionUsingConvolution/>`_
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    for more details.
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    If bias attribution and activation type are provided, bias is added to the
    output of the convolution, and the corresponding activation function is
    applied to the final result.
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    For each input :math:`X`, the equation is:
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    .. math::

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        Out = \sigma (W \\ast X + b)
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    Where:
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    * :math:`X`: Input value, a tensor with NCHW or NHWC format.
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    * :math:`W`: Filter value, a tensor with MCHW format.
    * :math:`\\ast`: Convolution operation.
    * :math:`b`: Bias value, a 2-D tensor with shape [M, 1].
    * :math:`\\sigma`: Activation function.
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    * :math:`Out`: Output value, the shape of :math:`Out` and :math:`X` may be different.
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    Example:

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        - Input:

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          Input shape: :math:`(N, C_{in}, H_{in}, W_{in})`
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          Filter shape: :math:`(C_{out}, C_{in}, H_f, W_f)`
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        - Output:
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          Output shape: :math:`(N, C_{out}, H_{out}, W_{out})`
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        Where
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        .. math::
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            H_{out}&= \\frac{(H_{in} + 2 * paddings[0] - (dilations[0] * (H_f - 1) + 1))}{strides[0]} + 1 \\\\
            W_{out}&= \\frac{(W_{in} + 2 * paddings[1] - (dilations[1] * (W_f - 1) + 1))}{strides[1]} + 1
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    Args:
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        input (Variable): The input is 4-D Tensor with shape [N, C, H, W], the data type 
            of input is float16 or float32 or float64.
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        num_filters(int): The number of filter. It is as same as the output
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            image channel.
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        filter_size (int|tuple): The filter size. If filter_size 
            is a tuple, it must contain two integers, (filter_size_height, 
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            filter_size_width). Otherwise, filter_size_height = filter_size_width =\
            filter_size.
        stride (int|tuple): The stride size. It means the stride in convolution. 
            If stride is a tuple, it must contain two integers, (stride_height, stride_width). 
            Otherwise, stride_height = stride_width = stride. Default: stride = 1.
        padding (string|int|list|tuple): The padding size. It means the number of zero-paddings
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            on both sides for each dimension.If `padding` is a string, either 'VALID' or
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            'SAME' which is the padding algorithm. If padding size is a tuple or list,
            it could be in three forms: `[pad_height, pad_width]` or
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            `[pad_height_top, pad_height_bottom, pad_width_left, pad_width_right]`, and when 
            `data_format` is `"NCHW"`, `padding` can be in the form `[[0,0], [0,0], 
            [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right]]`.
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            when `data_format` is `"NHWC"`, `pool_padding` can be in the form
            `[[0,0], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right], [0,0]]`.
            Default: padding = 0.
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        dilation (int|tuple): The dilation size. It means the spacing between the kernel
            points. If dilation is a tuple, it must contain two integers, (dilation_height, 
            dilation_width). Otherwise, dilation_height = dilation_width = dilation. 
            Default: dilation = 1.
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        groups (int): The groups number of the Conv2d Layer. According to grouped
            convolution in Alex Krizhevsky's Deep CNN paper: when group=2,
            the first half of the filters is only connected to the first half
            of the input channels, while the second half of the filters is only
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            connected to the second half of the input channels. Default: groups=1.
        param_attr (ParamAttr|None): The parameter attribute for learnable parameters/weights
            of conv2d. If it is set to None or one attribute of ParamAttr, conv2d
            will create ParamAttr as param_attr. If the Initializer of the param_attr
            is not set, the parameter is initialized with :math:`Normal(0.0, std)`,
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            and the :math:`std` is :math:`(\\frac{2.0 }{filter\_elem\_num})^{0.5}`. Default: None.
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        bias_attr (ParamAttr|bool|None): The parameter attribute for the bias of conv2d.
            If it is set to False, no bias will be added to the output units.
            If it is set to None or one attribute of ParamAttr, conv2d
            will create ParamAttr as bias_attr. If the Initializer of the bias_attr
            is not set, the bias is initialized zero. Default: None.
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        use_cudnn (bool): Use cudnn kernel or not, it is valid only when the cudnn
            library is installed. Default: True
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        act (str): Activation type, if it is set to None, activation is not appended.
            Default: None
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        name(str|None): 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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        data_format (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string from: `"NCHW"`, `"NHWC"`.
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            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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    Returns:
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        A Variable holding Tensor representing the conv2d, whose data type is the 
        same with input. If act is None, the tensor variable storing the convolution 
        result, and if act is not None, the tensor variable storing convolution 
        and non-linearity activation result.
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    Raises:
        ValueError: If the type of `use_cudnn` is not bool.
        ValueError: If `data_format` is not "NCHW" or "NHWC".
        ValueError: If the channel dimmention of the input is less than or equal to zero.
        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is a tuple, but the element corresponding to the input's batch size is not 0 
            or the element corresponding to the input's channel is not 0.
        ShapeError: If the input is not 4-D Tensor.
        ShapeError: If the input's dimension size and filter's dimension size not equal.
        ShapeError: If the dimension size of input minus the size of `stride` is not 2.
        ShapeError: If the number of input channels is not equal to filter's channels * groups.
        ShapeError: If the number of output channels is not be divided by groups.

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    Examples:
        .. code-block:: python

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          import paddle.fluid as fluid
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          data = fluid.data(name='data', shape=[None, 3, 32, 32], dtype='float32')
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          conv2d = fluid.layers.conv2d(input=data, num_filters=2, filter_size=3, act="relu")
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    """

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    check_variable_and_dtype(input, 'input', ['float16', 'float32', 'float64'],
                             'conv2d')
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    num_channels = input.shape[1]
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    if not isinstance(use_cudnn, bool):
        raise ValueError("Attr(use_cudnn) should be True or False. Received "
                         "Attr(use_cudnn): %s. " % str(use_cudnn))

    if data_format not in ["NCHW", "NHWC"]:
        raise ValueError(
            "Attr(data_format) should be 'NCHW' or 'NHWC'. Received "
            "Attr(data_format): %s." % str(data_format))

    channel_last = (data_format == "NHWC")
    num_channels = input.shape[3] if channel_last else input.shape[1]
    if num_channels < 0:
        raise ValueError(
            "The channel dimmention of the input(%s) should be defined. "
            "Received: %s." % (str(input.shape), str(num_channels)))
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    assert param_attr is not False, "param_attr should not be False here."
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    l_type = 'conv2d'
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    if (num_channels == groups and num_filters % num_channels == 0 and
            not use_cudnn):
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        l_type = 'depthwise_conv2d'
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    helper = LayerHelper(l_type, **locals())
    dtype = helper.input_dtype()

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    if groups is None:
        num_filter_channels = num_channels
    else:
        if num_channels % groups != 0:
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            raise ValueError(
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                "the channel of input must be divisible by groups,"
                "received: the channel of input is {}, the shape of input is {}"
                ", the groups is {}".format(num_channels, input.shape, groups))
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        num_filter_channels = num_channels // groups
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    filter_size = utils.convert_to_list(filter_size, 2, 'filter_size')
    stride = utils.convert_to_list(stride, 2, 'stride')
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    dilation = utils.convert_to_list(dilation, 2, 'dilation')
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    # padding
    def _update_padding(padding, data_format):
        def is_list_or_tuple(ele):
            if isinstance(ele, list) or isinstance(ele, tuple):
                return True
            return False

        if is_list_or_tuple(padding) and len(padding) == 4:
            if is_list_or_tuple(padding[0]) and (data_format == "NCHW"):
                if not (padding[0] == [0, 0] and padding[1] == [0, 0]):
                    raise ValueError(
                        "Non-zero padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[2:4]
                padding = [ele for a_list in padding for ele in a_list]
            elif is_list_or_tuple(padding[0]) and (data_format == "NHWC"):
                if not (padding[0] == [0, 0] and padding[3] == [0, 0]):
                    raise ValueError(
                        "Non-zero padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[1:3]
                padding = [ele for a_list in padding for ele in a_list]
            padding = utils.convert_to_list(padding, 4, 'padding')
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            if utils._is_symmetric_padding(padding, 2):
                padding = [padding[0], padding[2]]

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        else:
            padding = utils.convert_to_list(padding, 2, 'padding')

        return padding

    padding_algorithm = "EXPLICIT"
    if isinstance(padding, str):
        padding = padding.upper()
        if padding not in ["SAME", "VALID"]:
            raise ValueError(
                "Unknown padding: '%s'. It can only be 'SAME' or 'VALID'." %
                str(padding))
        if padding == "VALID":
            padding_algorithm = "VALID"
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            padding = [0, 0]
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        elif padding == "SAME":
            padding_algorithm = "SAME"
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            padding = [0, 0]
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    padding = _update_padding(padding, data_format)
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    filter_shape = [num_filters, int(num_filter_channels)] + filter_size
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    def _get_default_param_initializer():
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        filter_elem_num = filter_size[0] * filter_size[1] * num_channels
        std = (2.0 / filter_elem_num)**0.5
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        return Normal(0.0, std, 0)

    filter_param = helper.create_parameter(
        attr=helper.param_attr,
        shape=filter_shape,
        dtype=dtype,
        default_initializer=_get_default_param_initializer())

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    pre_bias = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
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        type=l_type,
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        inputs={
            'Input': input,
            'Filter': filter_param,
        },
        outputs={"Output": pre_bias},
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        attrs={
            'strides': stride,
            'paddings': padding,
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            'dilations': dilation,
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            'groups': groups,
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            'use_cudnn': use_cudnn,
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            'use_mkldnn': False,
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            'fuse_relu_before_depthwise_conv': False,
            "padding_algorithm": padding_algorithm,
            "data_format": data_format,
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        })
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    if data_format == 'NCHW':
        pre_act = helper.append_bias_op(pre_bias, dim_start=1, dim_end=2)
    else:
        pre_act = helper.append_bias_op(pre_bias, dim_start=3, dim_end=4)
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    return helper.append_activation(pre_act)


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def conv3d(input,
           num_filters,
           filter_size,
           stride=1,
           padding=0,
           dilation=1,
           groups=None,
           param_attr=None,
           bias_attr=None,
           use_cudnn=True,
           act=None,
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           name=None,
           data_format="NCDHW"):
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    """
    The convolution3D layer calculates the output based on the input, filter
    and strides, paddings, dilations, groups parameters. Input(Input) and
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    Output(Output) are in NCDHW or NDHWC format. Where N is batch size C is the number of
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    channels, D is the depth of the feature, H is the height of the feature,
    and W is the width of the feature. Convlution3D is similar with Convlution2D
    but adds one dimension(depth). If bias attribution and activation type are
    provided, bias is added to the output of the convolution, and the
    corresponding activation function is applied to the final result.
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    For each input :math:`X`, the equation is:

    .. math::

        Out = \sigma (W \\ast X + b)

    In the above equation:

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    * :math:`X`: Input value, a tensor with NCDHW or NDHWC format.
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    * :math:`W`: Filter value, a tensor with MCDHW format.
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    * :math:`\\ast`: Convolution operation.
    * :math:`b`: Bias value, a 2-D tensor with shape [M, 1].
    * :math:`\\sigma`: Activation function.
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    * :math:`Out`: Output value, the shape of :math:`Out` and :math:`X` may be different.
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    Example:

        - Input:

          Input shape: :math:`(N, C_{in}, D_{in}, H_{in}, W_{in})`

          Filter shape: :math:`(C_{out}, C_{in}, D_f, H_f, W_f)`

        - Output:
          Output shape: :math:`(N, C_{out}, D_{out}, H_{out}, W_{out})`

        Where

        .. math::

            D_{out}&= \\frac{(D_{in} + 2 * paddings[0] - (dilations[0] * (D_f - 1) + 1))}{strides[0]} + 1 \\\\
            H_{out}&= \\frac{(H_{in} + 2 * paddings[1] - (dilations[1] * (H_f - 1) + 1))}{strides[1]} + 1 \\\\
            W_{out}&= \\frac{(W_{in} + 2 * paddings[2] - (dilations[2] * (W_f - 1) + 1))}{strides[2]} + 1

    Args:
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        input (Variable): The input is 5-D Tensor with shape [N, C, D, H, W], the data 
            type of input is float16 or float32 or float64.
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        num_filters(int): The number of filter. It is as same as the output
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            image channel.
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        filter_size (int|tuple): The filter size. If filter_size is a tuple,
            it must contain three integers, (filter_size_depth, filter_size_height, 
            filter_size_width). Otherwise, filter_size_depth = filter_size_height = \
            filter_size_width = filter_size.
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        stride (int|tuple): The stride size. It means the stride in convolution. If stride is a 
            tuple, it must contain three integers, (stride_depth, stride_height, stride_width). 
            Otherwise, stride_depth = stride_height = stride_width = stride. Default: stride = 1.
        padding (string|int|list|tuple): The padding size. It means the number of zero-paddings 
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            on both sides for each dimension. If `padding` is a string, either 'VALID' or
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            'SAME' which is the padding algorithm. If padding size is a tuple or list,
            it could be in three forms: `[pad_depth, pad_height, pad_width]` or
            `[pad_depth_front, pad_depth_back, pad_height_top, pad_height_bottom, pad_width_left, pad_width_right]`,
            and when `data_format` is `"NCDHW"`, `pool_padding` can be in the form
            `[[0,0], [0,0], [pad_depth_front, pad_depth_back], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right]]`.
            when `data_format` is `"NDHWC"`, `pool_padding` can be in the form
            `[[0,0], [pad_depth_front, pad_depth_back], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right], [0,0]]`.
            Default: padding = 0.
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        dilation (int|tuple): The dilation size. It means the spacing between the kernel points. 
            If dilation is a tuple, it must contain three integers, (dilation_depth, dilation_height,
            dilation_width). Otherwise, dilation_depth = dilation_height = dilation_width = dilation. 
            Default: dilation = 1.
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        groups (int): The groups number of the Conv3d Layer. According to grouped
            convolution in Alex Krizhevsky's Deep CNN paper: when group=2,
            the first half of the filters is only connected to the first half
            of the input channels, while the second half of the filters is only
            connected to the second half of the input channels. Default: groups=1
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        param_attr (ParamAttr|None): The parameter attribute for learnable parameters/weights
            of conv3d. If it is set to None or one attribute of ParamAttr, conv3d
            will create ParamAttr as param_attr. If it is set to None, the parameter
            is initialized with :math:`Normal(0.0, std)`, and the :math:`std` is
            :math:`(\\frac{2.0 }{filter\_elem\_num})^{0.5}`. Default: None.
        bias_attr (ParamAttr|bool|None): The parameter attribute for the bias of conv3d.
            If it is set to False, no bias will be added to the output units.
            If it is set to None or one attribute of ParamAttr, conv3d
            will create ParamAttr as bias_attr. If the Initializer of the bias_attr
            is not set, the bias is initialized zero. Default: None.
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        use_cudnn (bool): Use cudnn kernel or not, it is valid only when the cudnn
            library is installed. Default: True
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        act (str): Activation type, if it is set to None, activation is not appended.
            Default: None.
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        name(str|None): 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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        data_format (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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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    Returns:
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        A Variable holding Tensor representing the conv3d, whose data type is 
        the same with input. If act is None, the tensor variable storing the 
        convolution result, and if act is not None, the tensor variable storing 
        convolution and non-linearity activation result.
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    Raises:
        ValueError: If the type of `use_cudnn` is not bool.
        ValueError: If `data_format` is not "NCDHW" or "NDHWC".
        ValueError: If the channel dimmention of the input is less than or equal to zero.
        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is a tuple, but the element corresponding to the input's batch size is not 0 
            or the element corresponding to the input's channel is not 0.
        ShapeError: If the input is not 5-D Tensor.
        ShapeError: If the input's dimension size and filter's dimension size not equal.
        ShapeError: If the dimension size of input minus the size of `stride` is not 2.
        ShapeError: If the number of input channels is not equal to filter's channels * groups.
        ShapeError: If the number of output channels is not be divided by groups.

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    Examples:
        .. code-block:: python

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          import paddle.fluid as fluid
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          data = fluid.data(name='data', shape=[None, 3, 12, 32, 32], dtype='float32')
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          conv3d = fluid.layers.conv3d(input=data, num_filters=2, filter_size=3, act="relu")
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    """

    l_type = 'conv3d'
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    assert param_attr is not False, "param_attr should not be False here."
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    helper = LayerHelper(l_type, **locals())
    dtype = helper.input_dtype()

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    if not isinstance(use_cudnn, bool):
        raise ValueError("Attr(use_cudnn) should be True or False. Received "
                         "Attr(use_cudnn): %s. " % str(use_cudnn))

    if data_format not in ["NCDHW", "NDHWC"]:
        raise ValueError(
            "Attr(data_format) should be 'NCDHW' or 'NDHWC'. Received "
            "Attr(data_format): %s." % str(data_format))

    channel_last = (data_format == "NDHWC")
    num_channels = input.shape[4] if channel_last else input.shape[1]
    if num_channels < 0:
        raise ValueError(
            "The channel dimmention of the input(%s) should be defined. "
            "Received: %s." % (str(input.shape), str(num_channels)))
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    if groups is None:
        num_filter_channels = num_channels
    else:
        if num_channels % groups != 0:
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            raise ValueError(
                "The number of input channels must be divisible by Attr(groups). "
                "Received: number of channels(%s), groups(%s)." %
                (str(num_channels), str(groups)))
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        num_filter_channels = num_channels // groups
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    filter_size = utils.convert_to_list(filter_size, 3, 'filter_size')
    stride = utils.convert_to_list(stride, 3, 'stride')
    dilation = utils.convert_to_list(dilation, 3, 'dilation')

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    def _update_padding(padding, data_format):
        def is_list_or_tuple(ele):
            if isinstance(ele, list) or isinstance(ele, tuple):
                return True
            return False

        if is_list_or_tuple(padding) and len(padding) == 5:
            if is_list_or_tuple(padding[0]) and (data_format == "NCDHW"):
                if not (padding[0] == [0, 0] and padding[1] == [0, 0]):
                    raise ValueError(
                        "Non-zero padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[2:5]
                padding = [ele for a_list in padding for ele in a_list]
            elif is_list_or_tuple(padding[0]) and (data_format == "NDHWC"):
                if not (padding[0] == [0, 0] and padding[4] == [0, 0]):
                    raise ValueError(
                        "Non-zero padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[1:4]
                padding = [ele for a_list in padding for ele in a_list]
            padding = utils.convert_to_list(padding, 6, 'padding')
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            if utils._is_symmetric_padding(padding, 3):
                padding = [padding[0], padding[2], padding[4]]
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        elif is_list_or_tuple(padding) and len(padding) == 6:
            padding = utils.convert_to_list(padding, 6, 'padding')
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            if utils._is_symmetric_padding(padding, 3):
                padding = [padding[0], padding[2], padding[4]]
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        else:
            padding = utils.convert_to_list(padding, 3, 'padding')

        return padding

    padding_algorithm = "EXPLICIT"
    if isinstance(padding, str):
        padding = padding.upper()
        if padding not in ["SAME", "VALID"]:
            raise ValueError(
                "Unknown padding: '%s'. It can only be 'SAME' or 'VALID'." %
                str(padding))
        if padding == "VALID":
            padding_algorithm = "VALID"
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            padding = [0, 0, 0]
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        elif padding == "SAME":
            padding_algorithm = "SAME"
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            padding = [0, 0, 0]
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    padding = _update_padding(padding, data_format)
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    input_shape = input.shape
    filter_shape = [num_filters, num_filter_channels] + filter_size

    def _get_default_param_initializer():
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        filter_elem_num = filter_size[0] * filter_size[1] * filter_size[
            2] * num_channels
        std = (2.0 / filter_elem_num)**0.5
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        return Normal(0.0, std, 0)

    filter_param = helper.create_parameter(
        attr=helper.param_attr,
        shape=filter_shape,
        dtype=dtype,
        default_initializer=_get_default_param_initializer())

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    pre_bias = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type=l_type,
        inputs={
            'Input': input,
            'Filter': filter_param,
        },
        outputs={"Output": pre_bias},
        attrs={
            'strides': stride,
            'paddings': padding,
            'dilations': dilation,
            'groups': groups,
            'use_cudnn': use_cudnn,
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            'use_mkldnn': False,
            "padding_algorithm": padding_algorithm,
            "data_format": data_format,
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        })

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    if data_format == 'NCDHW':
        pre_act = helper.append_bias_op(pre_bias, dim_start=1, dim_end=2)
    else:
        pre_act = helper.append_bias_op(pre_bias, dim_start=4, dim_end=5)
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    return helper.append_activation(pre_act)


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@templatedoc()
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def pool2d(input,
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           pool_size=-1,
           pool_type="max",
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           pool_stride=1,
           pool_padding=0,
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           global_pooling=False,
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           use_cudnn=True,
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           ceil_mode=False,
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           name=None,
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           exclusive=True,
           data_format="NCHW"):
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    """
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    ${comment}
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    Args:
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        input (Variable): The input tensor of pooling operator which is a 4-D tensor with
                          shape [N, C, H, W]. The format of input tensor is `"NCHW"` or
                          `"NHWC"`, 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. The data type if float32 or float64.
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        pool_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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        pool_type: ${pooling_type_comment}
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        pool_stride (int|list|tuple): The pool stride size. If pool stride size is a tuple or list,
            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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        pool_padding (string|int|list|tuple): The pool padding. If `pool_padding` is a string, either 'VALID' or
            'SAME' which is the padding algorithm. If pool padding size is a tuple or list,
            it could be in three forms: `[pad_height, pad_width]` or
            `[pad_height_top, pad_height_bottom, pad_width_left, pad_width_right]`, and when `data_format` is `"NCHW"`,
            `pool_padding` can be in the form `[[0,0], [0,0], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right]]`.
            when `data_format` is `"NHWC"`, `pool_padding` can be in the form
            `[[0,0], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right], [0,0]]`.
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            Otherwise, the pool padding size will be a square of an int.
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        global_pooling (bool): ${global_pooling_comment}
        use_cudnn (bool): ${use_cudnn_comment}
        ceil_mode (bool): ${ceil_mode_comment}
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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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        exclusive (bool): Whether to exclude padding points in average pooling
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                          mode, default is `true`.
        data_format (string): 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]`.
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    Returns:
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        Variable: The output tensor of pooling result. The data type is same as input tensor.
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    Raises:
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        ValueError: If `pool_type` is not "max" nor "avg".
        ValueError: If `global_pooling` is False and `pool_size` is -1.
        TypeError: If `use_cudnn` is not a bool value.
        ValueError: If `data_format` is not "NCHW" or "NHWC".
        ValueError: If `pool_padding` is a string, but not "SAME" or "VALID".
        ValueError: If `pool_padding` is "VALID", but `ceil_mode` is True.
        ValueError: If `pool_padding` is a list or tuple, but the elements in the batch or channel dimensions are non-zero.
        ShapeError: If the input is not a 4-D or 5-D Tensor.
        ShapeError: If the dimension of input minus the size of `pool_stride` is not 2.
        ShapeError: If the size of `pool_size` and `pool_stride` is not equal.
        ShapeError: If the output's shape calculated is not greater than 0.

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    Examples:

        .. code-block:: python

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          import paddle.fluid as fluid
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          data = fluid.data(name='data', shape=[None, 3, 32, 32], dtype='float32')

          # max pool2d
          pool2d = fluid.layers.pool2d(
            input = data,
            pool_size = 2,
            pool_type = "max",
            pool_stride = 1,
            global_pooling=False)

          # average pool2d
          pool2d = fluid.layers.pool2d(
            input = data,
            pool_size = 2,
            pool_type = "avg",
            pool_stride = 1,
            global_pooling=False)

          # global average pool2d
          pool2d = fluid.layers.pool2d(
            input = data,
            pool_size = 2,
            pool_type = "avg",
            pool_stride = 1,
            global_pooling=True)
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          # Attr(pool_padding) is a list with 4 elements, Attr(data_format) is "NCHW".
          out_1 = fluid.layers.pool2d(
            input = data,
            pool_size = 3,
            pool_type = "avg",
            pool_stride = 1,
            pool_padding = [1, 2, 1, 0],
            data_format = "NCHW")

          # Attr(pool_padding) is a string, Attr(data_format) is "NCHW".
          out_2 = fluid.layers.pool2d(
            input = data,
            pool_size = 3,
            pool_type = "avg",
            pool_stride = 1,
            pool_padding = "VALID",
            data_format = "NCHW")
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    """
    if pool_type not in ["max", "avg"]:
        raise ValueError(
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            "Unknown Attr(pool_type): '%s'. It can only be 'max' or 'avg'.",
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            str(pool_type))
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    if global_pooling is False and pool_size == -1:
        raise ValueError(
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            "When Attr(global_pooling) is False, Attr(pool_size) must be passed "
            "and be a valid value. Received pool_size: %s." % str(pool_size))

    if not isinstance(use_cudnn, bool):
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        raise TypeError("Attr(use_cudnn) should be True or False. Received "
                        "Attr(use_cudnn): %s." % str(use_cudnn))
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    if data_format not in ["NCHW", "NHWC"]:
        raise ValueError(
            "Attr(data_format) should be 'NCHW' or 'NHWC'. Received "
            "Attr(data_format): %s." % str(data_format))
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    pool_size = utils.convert_to_list(pool_size, 2, 'pool_size')
    pool_stride = utils.convert_to_list(pool_stride, 2, 'pool_stride')

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    def update_padding(padding, data_format):
        def is_list_or_tuple(ele):
            if isinstance(ele, list) or isinstance(ele, tuple):
                return True
            return False

        if is_list_or_tuple(padding) and len(padding) == 4:
            if is_list_or_tuple(padding[0]) and (data_format == "NCHW"):
                if not (padding[0] == [0, 0] and padding[1] == [0, 0]):
                    raise ValueError(
                        "Non-zero pool_padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[2:4]
                padding = [ele for a_list in padding for ele in a_list]
            elif is_list_or_tuple(padding[0]) and (data_format == "NHWC"):
                if not (padding[0] == [0, 0] and padding[3] == [0, 0]):
                    raise ValueError(
                        "Non-zero pool_padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[1:3]
                padding = [ele for a_list in padding for ele in a_list]
            padding = utils.convert_to_list(padding, 4, 'padding')
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            if utils._is_symmetric_padding(padding, 2):
                padding = [padding[0], padding[2]]
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        else:
            padding = utils.convert_to_list(padding, 2, 'padding')

        return padding

    padding_algorithm = "EXPLICIT"
    if isinstance(pool_padding, str):
        pool_padding = pool_padding.upper()
        if pool_padding not in ["SAME", "VALID"]:
            raise ValueError(
                "Unknown Attr(pool_padding): '%s'. It can only be 'SAME' or 'VALID'."
                % str(pool_padding))
        if pool_padding == "VALID":
            padding_algorithm = "VALID"
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            pool_padding = [0, 0]
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            if ceil_mode != False:
                raise ValueError(
                    "When Attr(pool_padding) is \"VALID\", Attr(ceil_mode) must be False. "
                    "Received ceil_mode: True.")
        elif pool_padding == "SAME":
            padding_algorithm = "SAME"
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            pool_padding = [0, 0]
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    pool_padding = update_padding(pool_padding, data_format)

    op_type = 'pool2d'
    helper = LayerHelper(op_type, **locals())
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    dtype = helper.input_dtype()
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    pool_out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
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        type=op_type,
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        inputs={"X": input},
        outputs={"Out": pool_out},
        attrs={
            "pooling_type": pool_type,
            "ksize": pool_size,
            "global_pooling": global_pooling,
            "strides": pool_stride,
            "paddings": pool_padding,
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            "padding_algorithm": padding_algorithm,
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            "use_cudnn": use_cudnn,
            "ceil_mode": ceil_mode,
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            "use_mkldnn": False,
            "exclusive": exclusive,
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            "data_format": data_format,
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        })

    return pool_out


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@templatedoc()
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def pool3d(input,
           pool_size=-1,
           pool_type="max",
           pool_stride=1,
           pool_padding=0,
           global_pooling=False,
           use_cudnn=True,
           ceil_mode=False,
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           name=None,
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           exclusive=True,
           data_format="NCDHW"):
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    """
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    ${comment}
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    Args:
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        input (Variable): The input tensor of pooling operator, which is a 5-D tensor with
                          shape [N, C, D, H, W]. The format of
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                          input tensor is `"NCDHW"` or `"NDHWC"`, where `N` is batch size, `C` is
                          the number of channels, `D` is the depth of the feature,
                          `H` is the height of the feature, and `W` is the width
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                          of the feature.
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        pool_size (int|list|tuple): The pool kernel size. If pool kernel size 
            is a tuple or list, it must contain three integers, 
            (pool_size_Depth, pool_size_Height, pool_size_Width).
            Otherwise, the pool kernel size will be the cube of an int.
        pool_type (string): ${pooling_type_comment}
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        pool_stride (string|int|list|tuple)): The pool padding. If `pool_padding` is a string, either 'VALID' or
            'SAME' which is the padding algorithm. If pool stride size is a tuple or list,
            it must contain three integers, `[stride_Depth, stride_Height, stride_Width]`.
            Otherwise, the pool stride size will be a cube of an int.
        pool_padding (int|list|tuple): The pool padding size. If pool padding size is a tuple or list,
            it could be in three forms: `[pad_depth, pad_height, pad_width]` or
            `[pad_depth_front, pad_depth_back, pad_height_top, pad_height_bottom, pad_width_left, pad_width_right]`,
            and when `data_format` is `"NCDHW"`, `pool_padding` can be in the form
            `[[0,0], [0,0], [pad_depth_front, pad_depth_back], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right]]`.
            when `data_format` is `"NDHWC"`, `pool_padding` can be in the form
            `[[0,0], [pad_depth_front, pad_depth_back], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right], [0,0]]`.
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        global_pooling (bool): ${global_pooling_comment}
        use_cudnn (bool): ${use_cudnn_comment}
        ceil_mode (bool): ${ceil_mode_comment}
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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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        exclusive (bool): Whether to exclude padding points in average pooling
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                          mode, default is true.
        data_format (string): 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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    Returns:
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        Variable: The output tensor of pooling result. The data type is same as input tensor.
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    Raises:
        ValueError: If `pool_type` is not "max" nor "avg".
        ValueError: If `global_pooling` is False and `pool_size` is -1.
        TypeError: If `use_cudnn` is not a bool value.
        ValueError: If `data_format` is not "NCDHW" or "NDHWC".
        ValueError: If `pool_padding` is a string, but not "SAME" or "VALID".
        ValueError: If `pool_padding` is "VALID", but `ceil_mode` is True.
        ValueError: If `pool_padding` is a list or tuple, but the elements in the batch or channel dimensions are non-zero.
        ShapeError: If the input is not a 4-D or 5-D Tensor.
        ShapeError: If the dimension of input minus the size of `pool_stride` is not 2.
        ShapeError: If the size of `pool_size` and `pool_stride` is not equal.
        ShapeError: If the output's shape calculated is not greater than 0.

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    Examples:

        .. code-block:: python

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          import paddle.fluid as fluid
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          data = fluid.data(name='data', shape=[None, 3, 32, 32, 32], dtype='float32')

          # max pool3d
          pool3d = fluid.layers.pool3d(
            input = data,
            pool_size = 2,
            pool_type = "max",
            pool_stride = 1,
            global_pooling=False)

          # average pool3d
          pool3d = fluid.layers.pool3d(
            input = data,
            pool_size = 2,
            pool_type = "avg",
            pool_stride = 1,
            global_pooling=False)

          # global average pool3d
          pool3d = fluid.layers.pool3d(
            input = data,
            pool_size = 2,
            pool_type = "avg",
            pool_stride = 1,
            global_pooling=True)
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          # example 1:
          # Attr(pool_padding) is a list with 6 elements, Attr(data_format) is "NCDHW".
          out_1 = fluid.layers.pool3d(
            input = data,
            pool_size = 2,
            pool_type = "avg",
            pool_stride = 1,
            pool_padding = [1, 2, 1, 0, 1, 2],
            global_pooling = False,
            data_format = "NCDHW")

          # example 2:
          # Attr(pool_padding) is a string, Attr(data_format) is "NCDHW".
          out_2 = fluid.layers.pool3d(
            input = data,
            pool_size = 3,
            pool_type = "avg",
            pool_stride = 1,
            pool_padding = "VALID",
            global_pooling = False,
            data_format = "NCDHW")

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    """
    if pool_type not in ["max", "avg"]:
        raise ValueError(
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            "Unknown Attr(pool_type): '%s'. It can only be 'max' or 'avg'.",
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            str(pool_type))
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    if global_pooling is False and pool_size == -1:
        raise ValueError(
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            "When Attr(global_pooling) is False, Attr(pool_size) must be passed "
            "and be a valid value. Received Attr(pool_size): %s." %
            str(pool_size))

    if not isinstance(use_cudnn, bool):
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        raise TypeError("Attr(use_cudnn) should be True or False. Received "
                        "Attr(use_cudnn): %s. " % str(use_cudnn))
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    if data_format not in ["NCDHW", "NDHWC"]:
        raise ValueError(
            "Attr(data_format) should be 'NCDHW' or 'NDHWC'. Received "
            "Attr(data_format): %s" % str(data_format))
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    pool_size = utils.convert_to_list(pool_size, 3, 'pool_size')
    pool_stride = utils.convert_to_list(pool_stride, 3, 'pool_stride')
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    def update_padding(padding, data_format):
        def is_list_or_tuple(ele):
            if isinstance(ele, (list, tuple)):
                return True
            return False

        if is_list_or_tuple(padding) and len(padding) == 5:
            if is_list_or_tuple(padding[0]) and (data_format == "NCDHW"):
                if not (padding[0] == [0, 0] and padding[1] == [0, 0]):
                    raise ValueError(
                        "Non-zero pool_padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[2:5]
                padding = [ele for a_list in padding for ele in a_list]
            elif is_list_or_tuple(padding[0]) and (data_format == "NDHWC"):
                if not (padding[0] == [0, 0] and padding[4] == [0, 0]):
                    raise ValueError(
                        "Non-zero pool_padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[1:4]
                padding = [ele for a_list in padding for ele in a_list]
            padding = utils.convert_to_list(padding, 6, 'padding')
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            if utils._is_symmetric_padding(padding, 3):
                padding = [padding[0], padding[2], padding[4]]
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        elif is_list_or_tuple(padding) and len(padding) == 6:
            padding = utils.convert_to_list(padding, 6, 'padding')
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            if utils._is_symmetric_padding(padding, 3):
                padding = [padding[0], padding[2], padding[4]]
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        else:
            padding = utils.convert_to_list(padding, 3, 'padding')

        return padding

    padding_algorithm = "EXPLICIT"
    if isinstance(pool_padding, str):
        pool_padding = pool_padding.upper()
        if pool_padding not in ["SAME", "VALID"]:
            raise ValueError(
                "Unknown Attr(pool_padding): '%s'. It can only be 'SAME' or 'VALID'."
                % str(pool_padding))
        if pool_padding == "VALID":
            padding_algorithm = "VALID"
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            pool_padding = [0, 0, 0]
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            if ceil_mode != False:
                raise ValueError(
                    "When Attr(pool_padding) is \"VALID\", ceil_mode must be False. "
                    "Received ceil_mode: True.")
        elif pool_padding == "SAME":
            padding_algorithm = "SAME"
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            pool_padding = [0, 0, 0]
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    pool_padding = update_padding(pool_padding, data_format)

    op_type = "pool3d"
    helper = LayerHelper(op_type, **locals())
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    dtype = helper.input_dtype()
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    pool_out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
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        type=op_type,
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        inputs={"X": input},
        outputs={"Out": pool_out},
        attrs={
            "pooling_type": pool_type,
            "ksize": pool_size,
            "global_pooling": global_pooling,
            "strides": pool_stride,
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            "paddings": pool_padding,
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            "padding_algorithm": padding_algorithm,
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            "use_cudnn": use_cudnn,
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            "ceil_mode": ceil_mode,
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            "use_mkldnn": False,
            "exclusive": exclusive,
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            "data_format": data_format,
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        })

    return pool_out


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@templatedoc(op_type="pool2d")
def adaptive_pool2d(input,
                    pool_size,
                    pool_type="max",
                    require_index=False,
                    name=None):
    """
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    This operation calculates the output based on the input, pool_size,
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    pool_type 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. Parameters(pool_size) should contain two elements which
    represent height and width, respectively. Also the H and W dimensions of output(Out)
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    is same as Parameter(pool_size). The output tensor shape will be [N, C, pool_size[0], pool_size[1]]
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    For average adaptive pool2d:

    ..  math::

       hstart &= floor(i * H_{in} / H_{out})

       hend &= ceil((i + 1) * H_{in} / H_{out})

       wstart &= floor(j * W_{in} / W_{out})

       wend &= ceil((j + 1) * W_{in} / W_{out})

       Output(i ,j) &= \\frac{sum(Input[hstart:hend, wstart:wend])}{(hend - hstart) * (wend - wstart)}
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    Args:
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        input (Variable): The input tensor of pooling operator, which is a 4-D tensor
                          with shape [N, C, H, W].  The format of input tensor is NCHW,
                          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.
                          The data type is float32 or float64.
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        pool_size (int|list|tuple): The pool kernel size. If pool kernel size is a tuple or list,
            it must contain two integers, (pool_size_Height, pool_size_Width).
        pool_type: ${pooling_type_comment}
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        require_index (bool): 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.
        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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        Variable: The output tensor of adaptive pooling result. The data type is same 
                  as input tensor.
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    Raises:
        ValueError: 'pool_type' is not 'max' nor 'avg'.
        ValueError: invalid setting 'require_index' true when 'pool_type' is 'avg'.
        ValueError: 'pool_size' should be a list or tuple with length as 2.

    Examples:
        .. code-block:: python

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          # average adaptive pool2d
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          # suppose input data in shape of [N, C, H, W], `pool_size` is [m, n],
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          # output shape is [N, C, m, n], adaptive pool divide H and W dimensions
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          # of input data into m * n grids averagely and performs poolings in each
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          # grid to get output.
          # adaptive average pool performs calculations as follow:
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          #
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          #     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])
          #
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          import paddle.fluid as fluid
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          data = fluid.data(name='data', shape=[None, 3, 32, 32], dtype='float32')
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          pool_out = fluid.layers.adaptive_pool2d(
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                            input=data,
                            pool_size=[3, 3],
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                            pool_type='avg')
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          # max adaptive pool2d
          # suppose input data in shape of [N, C, H, W], `pool_size` is [m, n],
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          # output shape is [N, C, m, n], adaptive pool divide H and W dimensions
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          # of input data into m * n grids averagely and performs poolings in each
          # grid to get output.
          # adaptive average 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.fluid as fluid
          data = fluid.data(name='data', shape=[None, 3, 32, 32], dtype='float32')
          pool_out = fluid.layers.adaptive_pool2d(
                            input=data,
                            pool_size=[3, 3],
                            pool_type='max')
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    """
    if pool_type not in ["max", "avg"]:
        raise ValueError(
            "Unknown pool_type: '%s'. It can only be 'max' or 'avg'.",
            str(pool_type))

    if pool_type == "avg" and require_index:
        raise ValueError(
            "invalid setting 'require_index' true when 'pool_type' is 'avg'.")

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    pool_size = utils.convert_to_list(pool_size, 2, 'pool_size')
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    if pool_type == "max":
        l_type = 'max_pool2d_with_index'
    else:
        l_type = "pool2d"

    helper = LayerHelper(l_type, **locals())
    dtype = helper.input_dtype()
    pool_out = helper.create_variable_for_type_inference(dtype)

    outputs = {"Out": pool_out}
    if pool_type == "max":
        mask = helper.create_variable_for_type_inference(dtype)
        outputs["Mask"] = mask

    helper.append_op(
        type=l_type,
        inputs={"X": input},
        outputs=outputs,
        attrs={
            "pooling_type": pool_type,
            "ksize": pool_size,
            "adaptive": True,
        })

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    return (pool_out, mask) if require_index else pool_out
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@templatedoc(op_type="pool3d")
def adaptive_pool3d(input,
                    pool_size,
                    pool_type="max",
                    require_index=False,
                    name=None):
    """
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    This operation calculates the output based on the input, pool_size,
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    pool_type parameters. Input(X) and output(Out) are in NCDHW format, where N is batch
    size, C is the number of channels, D is the depth of the feature, H is the height of
    the feature, and W is the width of the feature. Parameters(pool_size) should contain
    three elements which represent height and width, respectively. Also the D, H and W
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    dimensions of output(Out) is same as Parameter(pool_size). The output tensor shape
    will be [N, C, pool_size[0], pool_size[1], pool_size[2]]
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    For average adaptive pool3d:

    ..  math::

      dstart &= floor(i * D_{in} / D_{out})

      dend &= ceil((i + 1) * D_{in} / D_{out})

      hstart &= floor(j * H_{in} / H_{out})

      hend &= ceil((j + 1) * H_{in} / H_{out})

      wstart &= floor(k * W_{in} / W_{out})

      wend &= ceil((k + 1) * W_{in} / W_{out})

      Output(i ,j, k) &= \\frac{sum(Input[dstart:dend, hstart:hend, wstart:wend])}{(dend - dstart) * (hend - hstart) * (wend - wstart)}
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    Args:
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        input (Variable): The input tensor of pooling operator, which is a 5-D tensor with 
                          shape [N, C, D, H, W]. The format of input tensor is NCDHW, where
                          N is batch size, C is the number of channels, D is the depth of the feature,
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                          H is the height of the feature, and W is the width of the feature.
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                          The data type is float32 or float64.
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        pool_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 integers, (Depth, Height, Width).
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        pool_type: ${pooling_type_comment}
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        require_index (bool): 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.
        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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        Variable: The output tensor of adaptive pooling result. The data type is same as input tensor.
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    Raises:
        ValueError: 'pool_type' is not 'max' nor 'avg'.
        ValueError: invalid setting 'require_index' true when 'pool_type' is 'avg'.
        ValueError: 'pool_size' should be a list or tuple with length as 2.

    Examples:
        .. code-block:: python

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          # average adaptive pool3d
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          # suppose input data in shape of [N, C, D, H, W], `pool_size` is [l, m, n],
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          # output shape is [N, C, l, m, n], adaptive pool divide D, H and W dimensions
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          # of input data into l * m * n grids averagely and performs poolings in each
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          # grid to get output.
          # adaptive average pool performs calculations as follow:
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          #
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          #     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)
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          #                 output[:, :, i, j, k] =
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          #                     avg(input[:, :, dstart:dend, hstart: hend, wstart: wend])
          #
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          import paddle.fluid as fluid

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          data = fluid.data(
              name='data', shape=[None, 3, 32, 32, 32], dtype='float32')
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          pool_out = fluid.layers.adaptive_pool3d(
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                            input=data,
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                            pool_size=[3, 3, 3],
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                            pool_type='avg')
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          # max adaptive pool3d
          # suppose input data in shape of [N, C, D, H, W], `pool_size` is [l, m, n],
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          # output shape is [N, C, l, m, n], adaptive pool divide D, H and W dimensions
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          # of input data into l * m * n grids averagely and performs poolings in each
          # grid to get output.
          # adaptive average 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.fluid as fluid

          data = fluid.data(
              name='data', shape=[None, 3, 32, 32, 32], dtype='float32')
          pool_out = fluid.layers.adaptive_pool3d(
                            input=data,
                            pool_size=[3, 3, 3],
                            pool_type='max')
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    """
    if pool_type not in ["max", "avg"]:
        raise ValueError(
            "Unknown pool_type: '%s'. It can only be 'max' or 'avg'.",
            str(pool_type))

    if pool_type == "avg" and require_index:
        raise ValueError(
            "invalid setting 'require_index' true when 'pool_type' is 'avg'.")

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    pool_size = utils.convert_to_list(pool_size, 3, 'pool_size')
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    if pool_type == "max":
        l_type = 'max_pool3d_with_index'
    else:
        l_type = "pool3d"

    helper = LayerHelper(l_type, **locals())
    dtype = helper.input_dtype()
    pool_out = helper.create_variable_for_type_inference(dtype)

    outputs = {"Out": pool_out}
    if pool_type == "max":
        mask = helper.create_variable_for_type_inference(dtype)
        outputs["Mask"] = mask

    helper.append_op(
        type=l_type,
        inputs={"X": input},
        outputs=outputs,
        attrs={
            "pooling_type": pool_type,
            "ksize": pool_size,
            "adaptive": True,
        })

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    return (pool_out, mask) if require_index else pool_out
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def batch_norm(input,
               act=None,
               is_test=False,
               momentum=0.9,
               epsilon=1e-05,
               param_attr=None,
               bias_attr=None,
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               data_layout='NCHW',
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               in_place=False,
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               name=None,
               moving_mean_name=None,
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               moving_variance_name=None,
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               do_model_average_for_mean_and_var=True,
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               use_global_stats=False):
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    """
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    **Batch Normalization Layer**

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    Can be used as a normalizer function for convolution or fully_connected operations.
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    The required data format for this layer is one of the following:
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    1. NHWC `[batch, in_height, in_width, in_channels]`
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    2. NCHW `[batch, in_channels, in_height, in_width]`

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    Refer to `Batch Normalization: Accelerating Deep Network Training by Reducing
    Internal Covariate Shift <https://arxiv.org/pdf/1502.03167.pdf>`_
    for more details.
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    :math:`input` is the input features over a mini-batch.

    ..  math::

        \\mu_{\\beta} &\\gets \\frac{1}{m} \\sum_{i=1}^{m} x_i \\qquad &//\\
        \ mini-batch\ mean \\\\
        \\sigma_{\\beta}^{2} &\\gets \\frac{1}{m} \\sum_{i=1}^{m}(x_i - \\
        \\mu_{\\beta})^2 \\qquad &//\ mini-batch\ variance \\\\
        \\hat{x_i} &\\gets \\frac{x_i - \\mu_\\beta} {\\sqrt{\\
        \\sigma_{\\beta}^{2} + \\epsilon}} \\qquad &//\ normalize \\\\
        y_i &\\gets \\gamma \\hat{x_i} + \\beta \\qquad &//\ scale\ and\ shift
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        moving\_mean = moving\_mean * momentum + mini-batch\_mean * (1. - momentum) \\\\
        moving\_var = moving\_var * momentum + mini-batch\_var * (1. - momentum) 

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    moving_mean is global mean and moving_var is global variance.
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    When use_global_stats = True, the :math:`\\mu_{\\beta}`
    and :math:`\\sigma_{\\beta}^{2}` are not the statistics of one mini-batch.
    They are global (or running) statistics. (It usually got from the
    pre-trained model.)
    The training and testing (or inference) have the same behavior:

    ..  math::

        \\hat{x_i} &\\gets \\frac{x_i - \\mu_\\beta} {\\sqrt{\\
        \\sigma_{\\beta}^{2} + \\epsilon}}  \\\\
        y_i &\\gets \\gamma \\hat{x_i} + \\beta

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    Note:
        if build_strategy.sync_batch_norm=True, the batch_norm in network will use 
        sync_batch_norm automatically.
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        `is_test = True` can only be used in test program and inference program, `is_test` CANNOT be set to True in train program, if you want to use global status from pre_train model in train program, please set `use_global_stats = True`.
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    Args:
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        input(Variable): The rank of input variable can be 2, 3, 4, 5. The data type 
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            is float16 or float32 or float64.
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        act(string, Default None): Activation type, linear|relu|prelu|...
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        is_test (bool, Default False): A flag indicating whether it is in
            test phrase or not.
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        momentum(float|Variable, Default 0.9): The value used for the moving_mean and
            moving_var computation. This should be a float number or a Variable with
            shape [1] and data type as float32. The updated formula is:
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            :math:`moving\_mean = moving\_mean * momentum + new\_mean * (1. - momentum)`
            :math:`moving\_var = moving\_var * momentum + new\_var * (1. - momentum)`
            Default is 0.9.
        epsilon(float, Default 1e-05): A value added to the denominator for
            numerical stability. Default is 1e-5.
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        param_attr(ParamAttr|None): The parameter attribute for Parameter `scale`
             of batch_norm. If it is set to None or one attribute of ParamAttr, batch_norm
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	     will create ParamAttr as param_attr, the name of scale can be set in ParamAttr.
	     If the Initializer of the param_attr is not set, the parameter is initialized 
	     with Xavier. Default: None.
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        bias_attr(ParamAttr|None): The parameter attribute for the bias of batch_norm.
             If it is set to None or one attribute of ParamAttr, batch_norm
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	     will create ParamAttr as bias_attr, the name of bias can be set in ParamAttr. 
	     If the Initializer of the bias_attr is not set, the bias is initialized zero. 
	     Default: None.
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        data_layout (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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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        in_place(bool, Default False): Make the input and output of batch norm reuse memory.
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        name(str|None): For detailed information, please refer to :ref:`api_guide_Name`. 
            Usually name is no need to set and None by default. 
        moving_mean_name(str, Default None): The name of moving_mean which store the global Mean. If it 
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            is set to None, batch_norm will save global mean with a random name, otherwise, batch_norm 
            will save global mean with the string.
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        moving_variance_name(str, Default None): The name of the moving_variance which store the global Variance.
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            If it is set to None, batch_norm will save global variance with a random name, otherwise, batch_norm 
            will save global variance with the string.
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        do_model_average_for_mean_and_var(bool, Default True): Whether parameter mean and variance should do model
            average when model average is enabled.
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        use_global_stats(bool, Default False): Whether to use global mean and
            variance. In inference or test mode, set use_global_stats to true
            or is_test to true, and the behavior is equivalent.
            In train mode, when setting use_global_stats True, the global mean
            and variance are also used during train period.
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    Returns:
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        A Variable holding Tensor which is the result after applying batch normalization on the input, 
        has same shape and data type with input. 
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
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            x = fluid.data(name='x', shape=[3, 7, 3, 7], dtype='float32')
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            hidden1 = fluid.layers.fc(input=x, size=200, param_attr='fc1.w')
            hidden2 = fluid.layers.batch_norm(input=hidden1)
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        .. code-block:: python

            # batch_norm with momentum as Variable
            import paddle.fluid as fluid
            import paddle.fluid.layers.learning_rate_scheduler as lr_scheduler

            def get_decay_momentum(momentum_init, decay_steps, decay_rate):
                global_step = lr_scheduler._decay_step_counter()
                momentum = fluid.layers.create_global_var(
		    shape=[1],
		    value=float(momentum_init),
		    dtype='float32',
		    # set persistable for save checkpoints and resume
		    persistable=True,
		    name="momentum")
                div_res = global_step / decay_steps
                decayed_momentum = momentum_init * (decay_rate**div_res)
                fluid.layers.assign(decayed_momentum, momentum)

                return momentum

            x = fluid.data(name='x', shape=[3, 7, 3, 7], dtype='float32')
            hidden1 = fluid.layers.fc(input=x, size=200, param_attr='fc1.w')
            momentum = get_decay_momentum(0.9, 1e5, 0.9)
            hidden2 = fluid.layers.batch_norm(input=hidden1, momentum=momentum)

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    """
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    assert bias_attr is not False, "bias_attr should not be False in batch_norm."
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    helper = LayerHelper('batch_norm', **locals())

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    check_variable_and_dtype(input, 'input', ['float16', 'float32', 'float64'],
                             'batch_norm')
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    dtype = helper.input_dtype()
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    has_reserve_space = False
    if data_layout == 'NHWC':
        flag = os.environ.get('FLAGS_cudnn_batchnorm_spatial_persistent')
        if flag is not None and flag.lower() in ['true', '1']:
            has_reserve_space = True

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    # use fp32 for bn parameter
    if dtype == core.VarDesc.VarType.FP16:
        dtype = core.VarDesc.VarType.FP32

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    input_shape = input.shape
    if data_layout == 'NCHW':
        channel_num = input_shape[1]
    else:
        if data_layout == 'NHWC':
            channel_num = input_shape[-1]
        else:
            raise ValueError("unsupported data layout:" + data_layout)

    param_shape = [channel_num]

    # create parameter
    scale = helper.create_parameter(
        attr=helper.param_attr,
        shape=param_shape,
        dtype=dtype,
        default_initializer=Constant(1.0))
    bias = helper.create_parameter(
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        attr=helper.bias_attr, shape=param_shape, dtype=dtype, is_bias=True)
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    mean = helper.create_parameter(
        attr=ParamAttr(
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            name=moving_mean_name,
            initializer=Constant(0.0),
            trainable=False,
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            do_model_average=do_model_average_for_mean_and_var),
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        shape=param_shape,
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        dtype=dtype)
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    mean.stop_gradient = True

    variance = helper.create_parameter(
        attr=ParamAttr(
            name=moving_variance_name,
            initializer=Constant(1.0),
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            trainable=False,
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            do_model_average=do_model_average_for_mean_and_var),
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        shape=param_shape,
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        dtype=dtype)
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    variance.stop_gradient = True
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    # create output
    # mean and mean_out share the same memory
    mean_out = mean
    # variance and variance out share the same memory
    variance_out = variance
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    saved_mean = helper.create_variable_for_type_inference(
        dtype=dtype, stop_gradient=True)
    saved_variance = helper.create_variable_for_type_inference(
        dtype=dtype, stop_gradient=True)
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    reserve_space = None
    if has_reserve_space:
        reserve_space = helper.create_variable_for_type_inference(
            dtype=core.VarDesc.VarType.FP16, stop_gradient=True)

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    batch_norm_out = input if in_place else helper.create_variable_for_type_inference(
        dtype)
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    inputs = {
        "X": input,
        "Scale": scale,
        "Bias": bias,
        "Mean": mean,
        "Variance": variance
    }
    attrs = {
        "epsilon": epsilon,
        "is_test": is_test,
        "data_layout": data_layout,
        "use_mkldnn": False,
        "fuse_with_relu": False,
        "use_global_stats": use_global_stats
    }
    if isinstance(momentum, Variable):
        inputs['MomemtumTensor'] = momentum
    else:
        attrs['momentum'] = momentum
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    outputs = {
        "Y": batch_norm_out,
        "MeanOut": mean_out,
        "VarianceOut": variance_out,
        "SavedMean": saved_mean,
        "SavedVariance": saved_variance
    }
    if reserve_space is not None:
        outputs["ReserveSpace"] = reserve_space

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    helper.append_op(
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        type="batch_norm", inputs=inputs, outputs=outputs, attrs=attrs)
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    return helper.append_activation(batch_norm_out)


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def instance_norm(input,
                  epsilon=1e-05,
                  param_attr=None,
                  bias_attr=None,
                  name=None):
    """
    **Instance Normalization Layer**

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    Can be used as a normalizer function for convolution or fully_connected operations.
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    The required data format for this layer is one of the following:

    DataLayout: NCHW `[batch, in_channels, in_height, in_width]`

    Refer to `Instance Normalization: The Missing Ingredient for 
    Fast Stylization <https://arxiv.org/pdf/1607.08022.pdf>`_
    for more details.

    :math:`input` is the input features over a mini-batch.

    ..  math::

        \\mu_{\\beta} &\\gets \\frac{1}{HW} \\sum_{i=1}^{HW} x_i \\qquad &//\\
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        \\ mean\ of\ one\  feature\ map\ in\ mini-batch \\\\
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        \\sigma_{\\beta}^{2} &\\gets \\frac{1}{HW} \\sum_{i=1}^{HW}(x_i - \\
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        \\mu_{\\beta})^2 \\qquad &//\ variance\ of\ one\ feature\ map\ in\ mini-batch \\\\
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        \\hat{x_i} &\\gets \\frac{x_i - \\mu_\\beta} {\\sqrt{\\
        \\sigma_{\\beta}^{2} + \\epsilon}} \\qquad &//\ normalize \\\\
        y_i &\\gets \\gamma \\hat{x_i} + \\beta \\qquad &//\ scale\ and\ shift

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    Note:
        `H` means height of feature map, `W` means width of feature map.
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    Args:
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        input(variable): The rank of input variable can be 2, 3, 4, 5. 
            The data type is float32 or float64.
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        epsilon(float, Default 1e-05): A value added to the denominator for
            numerical stability. Default is 1e-5.
        param_attr(ParamAttr|None): The parameter attribute for Parameter `scale`
             of instance_norm. If it is set to None or one attribute of ParamAttr, instance_norm
	     will create ParamAttr as param_attr, the name of scale can be set in ParamAttr.
	     If the Initializer of the param_attr is not set, the parameter is initialized 
	     with Xavier. Default: None.
        bias_attr(ParamAttr|None): The parameter attribute for the bias of instance_norm.
             If it is set to None or one attribute of ParamAttr, instance_norm
	     will create ParamAttr as bias_attr, the name of bias can be set in ParamAttr. 
	     If the Initializer of the bias_attr is not set, the bias is initialized zero. 
	     Default: None.
        name(string, Default None): A name for this layer(optional). If set None, the layer
            will be named automatically.

    Returns:
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        A Variable holding Tensor which is the result after applying instance normalization on the input, 
        has same shape and data type with input. 
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    Examples:

        .. code-block:: python

            import paddle.fluid as fluid
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            x = fluid.data(name='x', shape=[3, 7, 3, 7], dtype='float32')
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            hidden1 = fluid.layers.fc(input=x, size=200, param_attr='fc1.w')
            hidden2 = fluid.layers.instance_norm(input=hidden1)
    """
    assert bias_attr is not False, "bias_attr should not be False in instance_norm."
    helper = LayerHelper('instance_norm', **locals())
    dtype = helper.input_dtype()

    # use fp32 for in parameter
    if dtype == core.VarDesc.VarType.FP16:
        dtype = core.VarDesc.VarType.FP32

    input_shape = input.shape
    channel_num = input_shape[1]

    param_shape = [channel_num]

    # create parameter
    scale = helper.create_parameter(
        attr=helper.param_attr,
        shape=param_shape,
        dtype=dtype,
        default_initializer=Constant(1.0))
    bias = helper.create_parameter(
        attr=helper.bias_attr,
        shape=param_shape,
        dtype=dtype,
        is_bias=True,
        default_initializer=Constant(0.0))

    # create output
    saved_mean = helper.create_variable_for_type_inference(
        dtype=dtype, stop_gradient=True)
    saved_variance = helper.create_variable_for_type_inference(
        dtype=dtype, stop_gradient=True)

    instance_norm_out = helper.create_variable_for_type_inference(dtype)

    helper.append_op(
        type="instance_norm",
        inputs={
            "X": input,
            "Scale": scale,
            "Bias": bias,
        },
        outputs={
            "Y": instance_norm_out,
            "SavedMean": saved_mean,
            "SavedVariance": saved_variance
        },
        attrs={"epsilon": epsilon, })

    return instance_norm_out


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def data_norm(input,
              act=None,
              epsilon=1e-05,
              param_attr=None,
              data_layout='NCHW',
              in_place=False,
              name=None,
              moving_mean_name=None,
              moving_variance_name=None,
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              do_model_average_for_mean_and_var=True,
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              slot_dim=-1,
              sync_stats=False,
              summary_decay_rate=0.9999999):
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    """
    **Data Normalization Layer**

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    This op can be used as a normalizer function for conv2d and fully_connected operations.
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    The required data format for this layer is one of the following:

    1. NHWC `[batch, in_height, in_width, in_channels]`

    2. NCHW `[batch, in_channels, in_height, in_width]`

    :math:`input` is the input features over a mini-batch.

    ..  math::

        \\mu_{\\beta} &\\gets \\frac{1}{m} \\sum_{i=1}^{m} x_i \\qquad &//\\
        \ mini-batch\ mean \\\\
        \\sigma_{\\beta}^{2} &\\gets \\frac{1}{m} \\sum_{i=1}^{m}(x_i - \\
        \\mu_{\\beta})^2 \\qquad &//\ mini-batch\ variance \\\\
        \\hat{x_i} &\\gets \\frac{x_i - \\mu_\\beta} {\\sqrt{\\
        \\sigma_{\\beta}^{2} + \\epsilon}} \\qquad &//\ normalize \\\\
        y_i &\\gets \\gamma \\hat{x_i} + \\beta \\qquad &//\ scale\ and\ shift

    Args:
        input(variable): The input variable which is a LoDTensor.
        act(string, Default None): Activation type, linear|relu|prelu|...
        epsilon(float, Default 1e-05):
        param_attr(ParamAttr): The parameter attribute for Parameter `scale`.
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        data_layout (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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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        in_place(bool, Default False): Make the input and output of batch norm reuse memory.
        name(string, Default None): A name for this layer(optional). If set None, the layer
            will be named automatically.
        moving_mean_name(string, Default None): The name of moving_mean which store the global Mean.
        moving_variance_name(string, Default None): The name of the moving_variance which store the global Variance.
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        do_model_average_for_mean_and_var(bool, Default True): Whether parameter mean and variance
            should do model average when model average is enabled.
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        slot_dim(int): The embedding dimension of one slot. Slot is a set of one specific feature. In pslib mode, we 
            distinguish feature ids by slot and pull their embeddings from parameter server (pslib). The first
            place of the embedding is the historical show number (occurence time of this feature id with a label 0).
            If the input of this op is concated by slot-wise embeddings, and the show number is zero when this slot 
            is new or empty, the normalization result may be impractical. To avoid this, we add slot_dim to locate 
            the show number and judge if the show number is zero. If so, we choose to skip normalization on this
            embedding.
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        sync_stats(bool, Default False): When running with multiple GPU cards, using allreduce to sync the
            summary messages.
        summary_decay_rate(float, Default 0.9999999): The decay rate when updating summary.
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    Returns:
        Variable: A tensor variable which is the result after applying data normalization on the input.

    Examples:

        .. code-block:: python
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            import paddle.fluid as fluid
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            hidden1 = fluid.data(name="hidden1", shape=[64, 200])
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            hidden2 = fluid.layers.data_norm(name="hidden2", input=hidden1)
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    """
    helper = LayerHelper('data_norm', **locals())
    dtype = helper.input_dtype()

    input_shape = input.shape
    if data_layout == 'NCHW':
        channel_num = input_shape[1]
    else:
        if data_layout == 'NHWC':
            channel_num = input_shape[-1]
        else:
            raise ValueError("unsupported data layout:" + data_layout)

    param_shape = [channel_num]

    batch_size_default = 1e4
    batch_sum_default = 0.0
    batch_square_sum_default = 1e4

    if param_attr and isinstance(param_attr, dict):
        batch_size_default = param_attr.get("batch_size", 1e4)
        batch_sum_default = param_attr.get("batch_sum", 0.0)
        batch_square_sum_default = param_attr.get("batch_square", 1e4)

    # create parameter
    batch_size = helper.create_parameter(
        attr=ParamAttr(
            name=name + '.batch_size',
            initializer=Constant(value=float(batch_size_default)),
            trainable=True),
        shape=param_shape,
        dtype=input.dtype)

    batch_sum = helper.create_parameter(
        attr=ParamAttr(
            name=name + '.batch_sum',
            initializer=Constant(value=float(batch_sum_default)),
            trainable=True),
        shape=param_shape,
        dtype=input.dtype)

    batch_square_sum = helper.create_parameter(
        attr=ParamAttr(
            name=name + '.batch_square_sum',
            initializer=Constant(value=float(batch_square_sum_default)),
            trainable=True),
        shape=param_shape,
        dtype=input.dtype)

    means = helper.create_variable(dtype=dtype, stop_gradient=True)
    scales = helper.create_variable(dtype=dtype, stop_gradient=True)

    data_norm_out = input if in_place else helper.create_variable(dtype=dtype)

    helper.append_op(
        type="data_norm",
        inputs={
            "X": input,
            "BatchSize": batch_size,
            "BatchSum": batch_sum,
            "BatchSquareSum": batch_square_sum
        },
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        outputs={
            "Y": data_norm_out,
            "Means": means,
            "Scales": scales,
            "BatchSize": batch_size,
            "BatchSum": batch_sum,
            "BatchSquareSum": batch_square_sum
        },
        attrs={
            "epsilon": epsilon,
            "slot_dim": slot_dim,
            "sync_stats": sync_stats,
            "summary_decay_rate": summary_decay_rate
        })
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    return helper.append_activation(data_norm_out)


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@templatedoc()
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def layer_norm(input,
               scale=True,
               shift=True,
               begin_norm_axis=1,
               epsilon=1e-05,
               param_attr=None,
               bias_attr=None,
               act=None,
               name=None):
    """
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    **Layer Normalization Layer**

    The API implements the function of the Layer Normalization Layer and can be applied to mini-batch input data.
    Refer to `Layer Normalization <https://arxiv.org/pdf/1607.06450v1.pdf>`_
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    The formula is as follows:

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    ..  math::
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        \\mu & = \\frac{1}{H}\\sum_{i=1}^{H} x_i
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        \\sigma & = \\sqrt{\\frac{1}{H}\sum_{i=1}^{H}{(x_i - \\mu)^2} + \\epsilon}
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        y & = f(\\frac{g}{\\sigma}(x - \\mu) + b)
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    - :math:`x`: the vector representation of the summed inputs to the neurons in that layer.
    - :math:`H`: the number of hidden units in a layers
    - :math:`\\epsilon`: the small value added to the variance to prevent division by zero.
    - :math:`g`: the trainable scale parameter.
    - :math:`b`: the trainable bias parameter.
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    Args:
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        input(Variable): A multi-dimension ``Tensor`` , and the data type is float32 or float64.
        scale(bool, optional): Whether to learn the adaptive gain :math:`g` after
            normalization. Default: True.
        shift(bool, optional): Whether to learn the adaptive bias :math:`b` after
            normalization. Default: True.
        begin_norm_axis(int, optional): The normalization will be performed along
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            dimensions from :attr:`begin_norm_axis` to :attr:`rank(input)`.
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            Default: 1.
        epsilon(float, optional): The small value added to the variance to prevent
            division by zero. Default: 1e-05.
        param_attr(ParamAttr, optional): The parameter attribute for the learnable
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            gain :math:`g`. If :attr:`scale` is False, :attr:`param_attr` is
            omitted. If :attr:`scale` is True and :attr:`param_attr` is None,
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            a default :code:`ParamAttr` would be added as scale. The
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            :attr:`param_attr` is initialized as 1 if it is added. Default: None.
        bias_attr(ParamAttr, optional): The parameter attribute for the learnable
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            bias :math:`b`. If :attr:`shift` is False, :attr:`bias_attr` is
            omitted. If :attr:`shift` is True and :attr:`param_attr` is None,
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            a default :code:`ParamAttr` would be added as bias. The
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            :attr:`bias_attr` is initialized as 0 if it is added. Default: None.
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        act(str, optional): Activation to be applied to the output of layer normalization.
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                  Default: None.
        name(str): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name` .
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    Returns:
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        Variable: ``Tensor``  indicating the normalized result, the data type is the same as  ``input`` , and the return dimension is the same as  ``input`` .
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    Examples:

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        .. code-block:: python

            import paddle.fluid as fluid
            import numpy as np
            x = fluid.data(name='x', shape=[-1, 32, 32], dtype='float32')
            hidden1 = fluid.layers.layer_norm(input=x, begin_norm_axis=1)
            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            exe.run(fluid.default_startup_program())
            np_x = np.random.random(size=(8, 3, 32, 32)).astype('float32')
            output = exe.run(feed={"x": np_x}, fetch_list = [hidden1])
            print(output)
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    """
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    assert in_dygraph_mode(
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    ) is not True, "please use LayerNorm instead of layer_norm in dygraph mode!"
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    helper = LayerHelper('layer_norm', **locals())
    dtype = helper.input_dtype()

    # create intput and parameters
    inputs = {'X': input}
    input_shape = input.shape
    param_shape = [reduce(lambda x, y: x * y, input_shape[begin_norm_axis:])]
    if scale:
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        assert param_attr is not False, "param_attr should not be False when using scale."
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        scale = helper.create_parameter(
            attr=helper.param_attr,
            shape=param_shape,
            dtype=dtype,
            default_initializer=Constant(1.0))
        inputs['Scale'] = scale
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    else:
        if param_attr:
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            warnings.warn("param_attr is only available with scale is True.")
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    if shift:
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        assert bias_attr is not False, "bias_attr should not be False when using shift."
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        bias = helper.create_parameter(
            attr=helper.bias_attr, shape=param_shape, dtype=dtype, is_bias=True)
        inputs['Bias'] = bias
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    else:
        if bias_attr:
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            warnings.warn("bias_attr is only available with shift is True.")
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    # create output
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    mean_out = helper.create_variable_for_type_inference(
        dtype=dtype, stop_gradient=True)
    variance_out = helper.create_variable_for_type_inference(
        dtype=dtype, stop_gradient=True)
    layer_norm_out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type="layer_norm",
        inputs=inputs,
        outputs={
            "Y": layer_norm_out,
            "Mean": mean_out,
            "Variance": variance_out,
        },
        attrs={"epsilon": epsilon,
               "begin_norm_axis": begin_norm_axis})

    return helper.append_activation(layer_norm_out)


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@templatedoc()
def group_norm(input,
               groups,
               epsilon=1e-05,
               param_attr=None,
               bias_attr=None,
               act=None,
               data_layout='NCHW',
               name=None):
    """
    **Group Normalization Layer**

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    Refer to `Group Normalization <https://arxiv.org/abs/1803.08494>`_ .
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    Parameters:
        input(Variable): 4-D Tensor, the data type is float32 or float64.
        groups(int): The number of groups that divided from channels, the data type
            is int32.
        epsilon(float, optional): The small value added to the variance to prevent
            division by zero, the data type is float32. Default: 1e-05.
        param_attr(ParamAttr|bool, optional): ParamAttr object that specifies weight parameter
            attribute. If a bool type, only False is supported, which means there is no weight parameter.
            Default: None, the default weight parameter attribute is used. For more information, please
            refer to :ref:`api_guide_ParamAttr` .
        bias_attr(ParamAttr|bool, optional): ParamAttr object that specifies bias parameter
            attribute. If a bool type, only False is supported, which means there is no bias parameter.
            Default: None, the default bias parameter attribute is used. For more information, please
            refer to :ref:`api_guide_ParamAttr` .
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        act(str, optional): Activation to be applied to the output of group normalization.
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        data_layout(str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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): The default value is None. Normally there is no need for user to set this
            property. For more information, please refer to :ref:`api_guide_Name` .
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    Returns:
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        Variable: A 4-D Tensor has same data type and data format with `input`.

    Raises:
        ValueError: If `data_layout` is neither 'NCHW' nor 'NHWC'.
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        ValueError: If `groups` is greater than the number of input channels.
        ValueError: If `groups` is less than 1.
        ShapeError: If the param_attr(Scale) is not 1-D Tensor.
        ShapeError: If the param_attr(Scale)'s first dimension size is not equal to the input channels.
        ShapeError: If the bias_attr(Bias) is not 1-D Tensor.
        ShapeError: If the bias_attr(Bias)'s first dimension size is not equal to the input channels.
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    Examples:
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       .. code-block:: python
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            import paddle.fluid as fluid
            data = fluid.data(name='data', shape=[None, 8, 32, 32], dtype='float32')
            x = fluid.layers.group_norm(input=data, groups=4)
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    """
    helper = LayerHelper('group_norm', **locals())
    dtype = helper.input_dtype()

    # create intput and parameters
    inputs = {'X': input}
    input_shape = input.shape
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    if data_layout != 'NCHW' and data_layout != 'NHWC':
        raise ValueError(
            "Param(data_layout) of Op(fluid.layers.group_norm) got wrong value: received "
            + data_layout + " but only NCHW or NHWC supported.")
    channel_num = input_shape[1] if data_layout == 'NCHW' else input_shape[-1]
    param_shape = [channel_num]
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    if param_attr:
        scale = helper.create_parameter(
            attr=helper.param_attr,
            shape=param_shape,
            dtype=dtype,
            default_initializer=Constant(1.0))
        inputs['Scale'] = scale
    if bias_attr:
        bias = helper.create_parameter(
            attr=helper.bias_attr, shape=param_shape, dtype=dtype, is_bias=True)
        inputs['Bias'] = bias

    # create output
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    mean_out = helper.create_variable(dtype=dtype, stop_gradient=True)
    variance_out = helper.create_variable(dtype=dtype, stop_gradient=True)
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    group_norm_out = helper.create_variable(dtype=dtype)

    helper.append_op(
        type="group_norm",
        inputs=inputs,
        outputs={
            "Y": group_norm_out,
            "Mean": mean_out,
            "Variance": variance_out,
        },
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        attrs={
            "epsilon": epsilon,
            "groups": groups,
            "data_layout": data_layout
        })
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    return helper.append_activation(group_norm_out)


@templatedoc()
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def spectral_norm(weight, dim=0, power_iters=1, eps=1e-12, name=None):
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    """
    **Spectral Normalization Layer**

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    This operation calculates the spectral normalization value of weight parameters of
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    fc, conv1d, conv2d, conv3d layers which should be 2-D, 3-D, 4-D, 5-D
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    Parameters. Output tensor will be in same shape with input tensor.
    Calculations are showed as follows.
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    Step 1:
    Generate vector U in shape of [H], and V in shape of [W].
    While H is the :attr:`dim` th dimension of the input weights,
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    and W is the product result of remaining dimensions.
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    Step 2:
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    :attr:`power_iters` should be a positive integer, do following
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    calculations with U and V for :attr:`power_iters` rounds. Calculations
    as follows:
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    .. math:: 

        \mathbf{v} := \\frac{\mathbf{W}^{T} \mathbf{u}}{\|\mathbf{W}^{T} \mathbf{u}\|_2}

        \mathbf{u} := \\frac{\mathbf{W}^{T} \mathbf{v}}{\|\mathbf{W}^{T} \mathbf{v}\|_2}

    Step 3:
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    Calculate :math:`\sigma(\mathbf{W})` and normalize weight values.
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    .. math::

        \sigma(\mathbf{W}) = \mathbf{u}^{T} \mathbf{W} \mathbf{v}
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        \mathbf{W} = \\frac{\mathbf{W}}{\sigma(\mathbf{W})}
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    Refer to `Spectral Normalization <https://arxiv.org/abs/1802.05957>`_ .

    Args:
        weight(${weight_type}): ${weight_comment}
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        dim(int): ${dim_comment}
        power_iters(int): ${power_iters_comment}
        eps(float): ${eps_comment}
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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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        Variable: A tensor variable of weight parameters after spectral normalization.
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                  The data type and shape is same as input tensor.
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    Examples:
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       .. code-block:: python
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            import paddle.fluid as fluid

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            weight = fluid.data(name='weight', shape=[2, 8, 32, 32], dtype='float32')
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            x = fluid.layers.spectral_norm(weight=weight, dim=1, power_iters=2)
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    """
    helper = LayerHelper('spectral_norm', **locals())
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    dtype = weight.dtype
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    # create intput and parameters
    inputs = {'Weight': weight}
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    input_shape = weight.shape
    h = input_shape[dim]
    w = np.prod(input_shape) // h

    u = helper.create_parameter(
        attr=ParamAttr(),
        shape=[h],
        dtype=dtype,
        default_initializer=Normal(0., 1.))
    u.stop_gradient = True
    inputs['U'] = u
    v = helper.create_parameter(
        attr=ParamAttr(),
        shape=[w],
        dtype=dtype,
        default_initializer=Normal(0., 1.))
    inputs['V'] = v
    v.stop_gradient = True
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    # create output
3245
    out = helper.create_variable(dtype=dtype)
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    helper.append_op(
3248
        type="spectral_norm",
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        inputs=inputs,
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        outputs={"Out": out, },
        attrs={
            "dim": dim,
            "power_iters": power_iters,
            "eps": eps,
        })
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3257
    return out
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def conv2d_transpose(input,
                     num_filters,
                     output_size=None,
                     filter_size=None,
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                     padding=0,
                     stride=1,
                     dilation=1,
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                     groups=None,
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                     param_attr=None,
3269
                     bias_attr=None,
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                     use_cudnn=True,
3271
                     act=None,
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                     name=None,
                     data_format='NCHW'):
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    """
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    The convolution2D transpose layer calculates the output based on the input,
    filter, and dilations, strides, paddings. Input(Input) and output(Output)
3277
    are in NCHW or NHWC format. Where N is batch size, C is the number of channels,
3278 3279 3280
    H is the height of the feature, and W is the width of the feature.
    Parameters(dilations, strides, paddings) are two elements. These two elements
    represent height and width, respectively. The details of convolution transpose
3281
    layer, please refer to the following explanation and references
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    `therein <https://arxiv.org/pdf/1603.07285.pdf>`_.
3283 3284 3285
    If bias attribution and activation type are provided, bias is added to
    the output of the convolution, and the corresponding activation function
    is applied to the final result.
3286 3287 3288 3289 3290

    For each input :math:`X`, the equation is:

    .. math::

3291
        Out = \sigma (W \\ast X + b)
3292

3293
    Where:
3294

3295 3296
    * :math:`X`: Input value, a 4-D Tensor with NCHW or NHWC format.
    * :math:`W`: Filter value, a 4-D Tensor with MCHW format.
3297
    * :math:`\\ast`: Convolution operation.
3298
    * :math:`b`: Bias value, a 2-D Tensor with shape [M, 1].
3299
    * :math:`\\sigma`: Activation function.
3300
    * :math:`Out`: Output value, a 4-D Tensor with data format 'NCHW' or 'NHWC', the shape of :math:`Out` and :math:`X` may be different.
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3302 3303 3304 3305
    Example:

        - Input:

3306
          Input shape: :math:`(N, C_{in}, H_{in}, W_{in})`
3307

3308
          Filter shape: :math:`(C_{in}, C_{out}, H_f, W_f)`
3309 3310 3311

        - Output:

3312
          Output shape: :math:`(N, C_{out}, H_{out}, W_{out})`
3313 3314

        Where
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3316 3317
        .. math::

3318 3319
           H^\prime_{out} &= (H_{in} - 1) * strides[0] - pad_height_top - pad_height_bottom + dilations[0] * (H_f - 1) + 1 \\\\
           W^\prime_{out} &= (W_{in} - 1) * strides[1] - pad_width_left - pad_width_right + dilations[1] * (W_f - 1) + 1 \\\\
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           H_{out} &\in [ H^\prime_{out}, H^\prime_{out} + strides[0] ] \\\\
3321 3322
           W_{out} &\in [ W^\prime_{out}, W^\prime_{out} + strides[1] ]

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    Note:
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          The conv2d_transpose can be seen as the backward of the conv2d. For conv2d, 
          when stride > 1, conv2d maps multiple input shape to the same output shape, 
          so for conv2d_transpose, when stride > 1, input shape maps multiple output shape.
          If output_size is None, :math:`H_{out} = H^\prime_{out}, W_{out} = W^\prime_{out}`; 
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          else, the :math:`H_{out}` of the output size must between :math:`H^\prime_{out}` 
          and :math:`H^\prime_{out} + strides[0]`, and the :math:`W_{out}` of the output size must 
          between :math:`W^\prime_{out}` and :math:`W^\prime_{out} + strides[1]`, 
          conv2d_transpose can compute the kernel size automatically.
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    Args:
3334 3335
        input(Variable): 4-D Tensor with [N, C, H, W] or [N, H, W, C] format,
                         its data type is float32 or float64.
3336 3337
        num_filters(int): The number of the filter. It is as same as the output
            image channel.
3338
        output_size(int|tuple, optional): The output image size. If output size is a
3339
            tuple, it must contain two integers, (image_height, image_width). None if use
3340
            filter_size, padding, and stride to calculate output_size.
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            If output_size and filter_size are specified at the same time, They
            should follow the formula above. Default: None. output_size and filter_size 
            should not be None at the same time.
3344
        filter_size(int|tuple, optional): The filter size. If filter_size is a tuple,
3345 3346
            it must contain two integers, (filter_size_height, filter_size_width).
            Otherwise, filter_size_height = filter_size_width = filter_size. None if 
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            use output size to calculate filter_size. Default: None. filter_size and 
            output_size should not be None at the same time.
        stride(int|tuple, optional): The stride size. It means the stride in transposed convolution. 
            If stride is a tuple, it must contain two integers, (stride_height, stride_width). 
            Otherwise, stride_height = stride_width = stride. Default: stride = 1.
        padding(int|list|str|tuple, optional): The padding size. The padding argument effectively adds
             `dilation * (kernel - 1)` amount of zero-padding on both sides of input. If `padding` is a
3354 3355 3356 3357 3358 3359 3360 3361 3362
             string, either 'VALID' or 'SAME' supported, which is the padding algorithm.
             If `padding` is a tuple or list, it could be in three forms:
             `[pad_height, pad_width]` or
            `[pad_height_top, pad_height_bottom, pad_width_left, pad_width_right]`, and
            when `data_format` is `'NCHW'`,
            `padding` can be in the form `[[0,0], [0,0], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right]]`.
            when `data_format` is `'NHWC'`, `padding` can be in the form
            `[[0,0], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right], [0,0]]`.
            Default: padding = 0.
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        dilation(int|tuple, optional): The dilation size. It means the spacing between the kernel points. 
            If dilation is a tuple, it must contain two integers, (dilation_height, dilation_width). 
            Otherwise, dilation_height = dilation_width = dilation. Default: dilation = 1.
        filter_size(int|tuple, optional): The filter size. If filter_size is a tuple,
            it must contain two integers, (filter_size_height, filter_size_width).
            Otherwise, filter_size_height = filter_size_width = filter_size. None if 
            use output size to calculate filter_size. Default: None.
3370
        groups(int, optional): The groups number of the Conv2d transpose layer. Inspired by
3371 3372 3373 3374
            grouped convolution in Alex Krizhevsky's Deep CNN paper, in which
            when group=2, the first half of the filters is only connected to the
            first half of the input channels, while the second half of the
            filters is only connected to the second half of the input channels.
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            Default: groups = 1.
3376
        param_attr (ParamAttr, optional): The parameter attribute for learnable parameters/weights
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            of conv2d_transpose. If it is set to None or one attribute of ParamAttr, conv2d_transpose
            will create ParamAttr as param_attr. If the Initializer of the param_attr
            is not set, the parameter is initialized with Xavier. Default: None.
3380
        bias_attr (ParamAttr|bool, optional): The parameter attribute for the bias of conv2d_transpose.
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            If it is set to False, no bias will be added to the output units.
            If it is set to None or one attribute of ParamAttr, conv2d_transpose
            will create ParamAttr as bias_attr. If the Initializer of the bias_attr
            is not set, the bias is initialized zero. Default: None.
3385
        use_cudnn(bool, optional): Use cudnn kernel or not, it is valid only when the cudnn
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            library is installed. Default: True.
3387
        act (str, optional): Activation type, if it is set to None, activation is not appended.
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            Default: None.
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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.
3392 3393 3394 3395
        data_format (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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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    Returns:
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        A Variable holding Tensor representing the conv2d_transpose, whose 
        data type is the same with input and shape is (num_batches, channels, out_h, 
        out_w) or (num_batches, out_h, out_w, channels). If act is None, the tensor variable 
        storing the transposed convolution result, and if act is not None, the 
        tensor variable storing transposed convolution and non-linearity activation 
        result.
3404 3405

    Raises:
3406 3407 3408 3409 3410 3411 3412 3413 3414 3415 3416
        ValueError: If the type of `use_cudnn` is not bool.
        ValueError: If `data_format` is not "NCHW" or "NHWC".
        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is a tuple, but the element corresponding to the input's batch size is not 0 
            or the element corresponding to the input's channel is not 0.
        ValueError: If `output_size` and filter_size are None at the same time.
        ShapeError: If the input is not 4-D Tensor.
        ShapeError: If the input's dimension size and filter's dimension size not equal.
        ShapeError: If the dimension size of input minus the size of `stride` is not 2.
        ShapeError: If the number of input channels is not equal to filter's channels.
        ShapeError: If the size of `output_size` is not equal to that of `stride`.
3417 3418 3419 3420

    Examples:
       .. code-block:: python

3421
          import paddle.fluid as fluid
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          data = fluid.data(name='data', shape=[None, 3, 32, 32], dtype='float32')
3423
          conv2d_transpose = fluid.layers.conv2d_transpose(input=data, num_filters=2, filter_size=3)
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    """
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    assert param_attr is not False, "param_attr should not be False in conv2d_transpose."
3426 3427 3428 3429
    if data_format not in ['NCHW', 'NHWC']:
        raise ValueError(
            "Attr(data_format) of Op(fluid.layers.conv2d_transpose) got wrong value: received "
            + data_format + " but only NCHW or NHWC supported.")
3430

3431
    input_channel = input.shape[1] if data_format == 'NCHW' else input.shape[-1]
3432 3433 3434 3435 3436 3437
    op_type = 'conv2d_transpose'
    if (input_channel == groups and num_filters == input_channel and
            not use_cudnn):
        op_type = 'depthwise_conv2d_transpose'

    helper = LayerHelper(op_type, **locals())
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    if not isinstance(input, Variable):
        raise TypeError("Input of conv2d_transpose must be Variable")

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    stride = utils.convert_to_list(stride, 2, 'stride')
    dilation = utils.convert_to_list(dilation, 2, 'dilation')
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    if not isinstance(use_cudnn, bool):
        raise ValueError("use_cudnn should be True or False")
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    def _update_padding(padding, data_format):
        def is_list_or_tuple(ele):
            if isinstance(ele, list) or isinstance(ele, tuple):
                return True
            return False

        if is_list_or_tuple(padding) and len(padding) == 4:
            if is_list_or_tuple(padding[0]) and (data_format == "NCHW"):
                if not (padding[0] == [0, 0] and padding[1] == [0, 0]):
                    raise ValueError(
                        "Non-zero padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[2:4]
                padding = [ele for a_list in padding for ele in a_list]
            elif is_list_or_tuple(padding[0]) and (data_format == "NHWC"):
                if not (padding[0] == [0, 0] and padding[3] == [0, 0]):
                    raise ValueError(
                        "Non-zero padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[1:3]
                padding = [ele for a_list in padding for ele in a_list]
            padding = utils.convert_to_list(padding, 4, 'padding')
        else:
            padding = utils.convert_to_list(padding, 2, 'padding')
            padding = [padding[0], padding[0], padding[1], padding[1]]
        return padding

    padding_algorithm = "EXPLICIT"
    if isinstance(padding, str):
        padding = padding.upper()
        if padding not in ["SAME", "VALID"]:
            raise ValueError(
                "Unknown padding: '%s'. It can only be 'SAME' or 'VALID'." %
                str(padding))
        if padding == "VALID":
            padding_algorithm = "VALID"
            padding = [0, 0, 0, 0]
        elif padding == "SAME":
            padding_algorithm = "SAME"
            padding = [0, 0, 0, 0]

    padding = _update_padding(padding, data_format)

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    if filter_size is None:
        if output_size is None:
            raise ValueError("output_size must be set when filter_size is None")
        if isinstance(output_size, int):
            output_size = [output_size, output_size]
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3496 3497
        h_in = input.shape[2] if data_format == 'NCHW' else input.shape[1]
        w_in = input.shape[3] if data_format == 'NCHW' else input.shape[2]
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3499 3500 3501 3502
        filter_size_h = (output_size[0] - (h_in - 1) * stride[0] + padding[0] +
                         padding[1] - 1) // dilation[0] + 1
        filter_size_w = (output_size[1] - (w_in - 1) * stride[1] + padding[2] +
                         padding[3] - 1) // dilation[1] + 1
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        filter_size = [filter_size_h, filter_size_w]
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    else:
        filter_size = utils.convert_to_list(filter_size, 2,
                                            'conv2d_transpose.filter_size')
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3508 3509 3510
    if len(padding) == 4 and utils._is_symmetric_padding(padding, 2):
        padding = [padding[0], padding[2]]

3511 3512 3513 3514 3515 3516
    if output_size is None:
        output_size = []
    elif isinstance(output_size, list) or isinstance(output_size, int):
        output_size = utils.convert_to_list(output_size, 2, 'output_size')
    else:
        raise ValueError("output_size should be list or int")
3517
    groups = 1 if groups is None else groups
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    filter_shape = [input_channel, num_filters // groups] + filter_size
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    img_filter = helper.create_parameter(
        dtype=input.dtype, shape=filter_shape, attr=helper.param_attr)

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    pre_bias = helper.create_variable_for_type_inference(dtype=input.dtype)
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    helper.append_op(
3525
        type=op_type,
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3526 3527
        inputs={'Input': [input],
                'Filter': [img_filter]},
3528
        outputs={'Output': pre_bias},
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        attrs={
3530
            'output_size': output_size,
3531 3532
            'strides': stride,
            'paddings': padding,
3533
            'padding_algorithm': padding_algorithm,
3534 3535
            'dilations': dilation,
            'groups': groups,
3536 3537
            'use_cudnn': use_cudnn,
            'data_format': data_format
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        })

3540 3541 3542 3543
    if data_format == 'NCHW':
        pre_act = helper.append_bias_op(pre_bias, dim_start=1, dim_end=2)
    else:
        pre_act = helper.append_bias_op(pre_bias, dim_start=3, dim_end=4)
3544 3545
    out = helper.append_activation(pre_act)
    return out
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3548
def conv3d_transpose(input,
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                     num_filters,
                     output_size=None,
                     filter_size=None,
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                     padding=0,
                     stride=1,
                     dilation=1,
3555
                     groups=None,
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                     param_attr=None,
3557
                     bias_attr=None,
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                     use_cudnn=True,
3559
                     act=None,
3560 3561
                     name=None,
                     data_format='NCDHW'):
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    """
3563
    The convolution3D transpose layer calculates the output based on the input,
3564
    filter, and dilations, strides, paddings. Input(Input) and output(Output)
3565
    are in NCDHW or NDHWC format. Where N is batch size, C is the number of channels,
3566 3567 3568 3569
    D is the depth of the feature, H is the height of the feature, and W
    is the width of the feature. Parameters(dilations, strides, paddings) are
    two elements. These two elements represent height and width, respectively.
    The details of convolution transpose layer, please refer to the following
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    explanation and references `therein <https://arxiv.org/pdf/1603.07285.pdf>`_.
3571 3572 3573
    If bias attribution and activation type are provided, bias is added to
    the output of the convolution, and the corresponding activation function
    is applied to the final result.
3574 3575 3576 3577 3578

    For each input :math:`X`, the equation is:

    .. math::

3579
        Out = \sigma (W \\ast X + b)
3580 3581 3582

    In the above equation:

3583 3584
    * :math:`X`: Input value, a Tensor with NCDHW or NDHWC format.
    * :math:`W`: Filter value, a Tensor with MCDHW format.
3585
    * :math:`\\ast`: Convolution operation.
3586
    * :math:`b`: Bias value, a 2-D Tensor with shape [M, 1].
3587 3588
    * :math:`\\sigma`: Activation function.
    * :math:`Out`: Output value, the shape of :math:`Out` and :math:`X` may be different.
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3590 3591 3592 3593
    Example:

        - Input:

3594
          Input shape: :math:`(N, C_{in}, D_{in}, H_{in}, W_{in})`
3595

3596
          Filter shape: :math:`(C_{in}, C_{out}, D_f, H_f, W_f)`
3597 3598 3599

        - Output:

3600
          Output shape: :math:`(N, C_{out}, D_{out}, H_{out}, W_{out})`
3601 3602

        Where
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3604 3605
        .. math::

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           D^\prime_{out} &= (D_{in} - 1) * strides[0] - 2 * paddings[0] + dilations[0] * (D_f - 1) + 1 \\\\
           H^\prime_{out} &= (H_{in} - 1) * strides[1] - 2 * paddings[1] + dilations[1] * (H_f - 1) + 1 \\\\
           W^\prime_{out} &= (W_{in} - 1) * strides[2] - 2 * paddings[2] + dilations[2] * (W_f - 1) + 1 \\\\
           D_{out} &\in [ D^\prime_{out}, D^\prime_{out} + strides[0] ] \\\\
           H_{out} &\in [ H^\prime_{out}, H^\prime_{out} + strides[1] ] \\\\
           W_{out} &\in [ W^\prime_{out}, W^\prime_{out} + strides[2] ]
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    Note:
          The conv3d_transpose can be seen as the backward of the conv3d. For conv3d, 
          when stride > 1, conv3d maps multiple input shape to the same output shape, 
          so for conv3d_transpose, when stride > 1, input shape maps multiple output shape.
          If output_size is None, :math:`H_{out} = H^\prime_{out}, :math:`H_{out} = \
          H^\prime_{out}, W_{out} = W^\prime_{out}`; else, the :math:`D_{out}` of the output 
          size must between :math:`D^\prime_{out}` and :math:`D^\prime_{out} + strides[0]`, 
          the :math:`H_{out}` of the output size must between :math:`H^\prime_{out}` 
          and :math:`H^\prime_{out} + strides[1]`, and the :math:`W_{out}` of the output size must 
          between :math:`W^\prime_{out}` and :math:`W^\prime_{out} + strides[2]`, 
          conv3d_transpose can compute the kernel size automatically.

    Args:
        input(Variable): The input is 5-D Tensor with shape [N, C, D, H, W] or [N, D, H, W, C], the data type 
            of input is float32 or float64.
3628 3629
        num_filters(int): The number of the filter. It is as same as the output
            image channel.
3630
        output_size(int|tuple, optional): The output image size. If output size is a
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            tuple, it must contain three integers, (image_depth, image_height, image_width). This
            parameter only works when filter_size is None. If output_size and filter_size are 
            specified at the same time, They should follow the formula above. Default: None. 
            Output_size and filter_size should not be None at the same time.
3635
        filter_size(int|tuple, optional): The filter size. If filter_size is a tuple,
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            it must contain three integers, (filter_size_depth, filter_size_height,
3637 3638
            filter_size_width). Otherwise, filter_size_depth = filter_size_height = \
            filter_size_width = filter_size. None if use output size to
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            calculate filter_size. Default: None. filter_size and output_size should not be 
            None at the same time.
        padding(int|list|str|tuple, optional): The padding size. The padding argument effectively
             adds `dilation * (kernel - 1)` amount of zero-padding on both sides of input. If `padding` is a string,
3643 3644 3645 3646 3647 3648 3649 3650
             either 'VALID' or 'SAME' supported, which is the padding algorithm. If `padding`
             is a tuple or list, it could be in three forms: `[pad_depth, pad_height, pad_width]` or
            `[pad_depth_front, pad_depth_back, pad_height_top, pad_height_bottom, pad_width_left, pad_width_right]`,
            and when `data_format` is `'NCDHW'`, `padding` can be in the form
            `[[0,0], [0,0], [pad_depth_front, pad_depth_back], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right]]`.
            when `data_format` is `'NDHWC'`, `padding` can be in the form
            `[[0,0], [pad_depth_front, pad_depth_back], [pad_height_top, pad_height_bottom], [pad_width_left, pad_width_right], [0,0]]`.
            Default: padding = 0.
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        stride(int|tuple, optional): The stride size. It means the stride in transposed convolution. 
            If stride is a tuple, it must contain three integers, (stride_depth, stride_height, 
            stride_width). Otherwise, stride_depth = stride_height = stride_width = stride. 
            Default: stride = 1.
        dilation(int|tuple, optional): The dilation size. It means the spacing between the kernel points. 
            If dilation is a tuple, it must contain three integers, (dilation_depth, dilation_height, 
            dilation_width). Otherwise, dilation_depth = dilation_height = dilation_width = dilation. 
            Default: dilation = 1.
3659
        groups(int, optional): The groups number of the Conv3d transpose layer. Inspired by
3660 3661 3662 3663 3664
            grouped convolution in Alex Krizhevsky's Deep CNN paper, in which
            when group=2, the first half of the filters is only connected to the
            first half of the input channels, while the second half of the
            filters is only connected to the second half of the input channels.
            Default: groups=1
3665
        param_attr (ParamAttr, optional): The parameter attribute for learnable parameters/weights
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            of conv3d_transpose. If it is set to None or one attribute of ParamAttr, conv3d_transpose
            will create ParamAttr as param_attr. If the Initializer of the param_attr
            is not set, the parameter is initialized with Xavier. Default: None.
3669
        bias_attr (ParamAttr|bool, optional): The parameter attribute for the bias of conv3d_transpose.
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            If it is set to False, no bias will be added to the output units.
            If it is set to None or one attribute of ParamAttr, conv3d_transpose
            will create ParamAttr as bias_attr. If the Initializer of the bias_attr
            is not set, the bias is initialized zero. Default: None.
3674
        use_cudnn(bool, optional): Use cudnn kernel or not, it is valid only when the cudnn
3675
            library is installed. Default: True
3676
        act (str, optional): Activation type, if it is set to None, activation is not appended.
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            Default: None.
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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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        data_format (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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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    Returns:
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        A Variable holding Tensor representing the conv3d_transpose, whose data 
        type is the same with input and shape is (num_batches, channels, out_d, out_h, 
        out_w) or (num_batches, out_d, out_h, out_w, channels). If act is None, the tensor 
        variable storing the transposed convolution result, and if act is not None, the tensor 
        variable storing transposed convolution and non-linearity activation result.
3692 3693

    Raises:
3694 3695 3696 3697 3698 3699 3700 3701 3702 3703 3704
        ValueError: If the type of `use_cudnn` is not bool.
        ValueError: If `data_format` is not "NCDHW" or "NDHWC".
        ValueError: If `padding` is a string, but not "SAME" or "VALID".
        ValueError: If `padding` is a tuple, but the element corresponding to the input's batch size is not 0 
            or the element corresponding to the input's channel is not 0.
        ValueError: If `output_size` and filter_size are None at the same time.
        ShapeError: If the input is not 5-D Tensor.
        ShapeError: If the input's dimension size and filter's dimension size not equal.
        ShapeError: If the dimension size of input minus the size of `stride` is not 2.
        ShapeError: If the number of input channels is not equal to filter's channels.
        ShapeError: If the size of `output_size` is not equal to that of `stride`.
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    Examples:
       .. code-block:: python

3709
          import paddle.fluid as fluid
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          data = fluid.data(name='data', shape=[None, 3, 12, 32, 32], dtype='float32')
3711
          conv3d_transpose = fluid.layers.conv3d_transpose(input=data, num_filters=2, filter_size=3)
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    """
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    assert param_attr is not False, "param_attr should not be False in conv3d_transpose."
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    if data_format not in ['NCDHW', 'NDHWC']:
        raise ValueError(
            "Param(data_format) of Op(fluid.layers.conv3d_transpose) got wrong value: received "
            + data_format + " but only NCDHW or NDHWC supported.")
3718 3719
    l_type = "conv3d_transpose"
    helper = LayerHelper(l_type, **locals())
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    if not isinstance(input, Variable):
3721
        raise TypeError("Input of conv3d_transpose must be Variable")
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    input_channel = input.shape[1] if data_format == 'NCDHW' else input.shape[
        -1]
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    stride = utils.convert_to_list(stride, 3, 'stride')
    dilation = utils.convert_to_list(dilation, 3, 'dilation')
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    if not isinstance(use_cudnn, bool):
        raise ValueError("use_cudnn should be True or False")

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    def _update_padding(padding, data_format):
        def is_list_or_tuple(ele):
            if isinstance(ele, list) or isinstance(ele, tuple):
                return True
            return False

        if is_list_or_tuple(padding) and len(padding) == 5:
            if is_list_or_tuple(padding[0]) and (data_format == "NCDHW"):
                if not (padding[0] == [0, 0] and padding[1] == [0, 0]):
                    raise ValueError(
                        "Non-zero padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[2:5]
                padding = [ele for a_list in padding for ele in a_list]
3745 3746 3747 3748 3749 3750 3751 3752
            elif is_list_or_tuple(padding[0]) and (data_format == "NDHWC"):
                if not (padding[0] == [0, 0] and padding[4] == [0, 0]):
                    raise ValueError(
                        "Non-zero padding(%s) in the batch or channel dimensions "
                        "is not supported." % str(padding))
                padding = padding[1:4]
                padding = [ele for a_list in padding for ele in a_list]
            padding = utils.convert_to_list(padding, 6, 'padding')
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        elif is_list_or_tuple(padding) and len(padding) == 6:
            padding = utils.convert_to_list(padding, 6, 'padding')
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3757 3758 3759 3760 3761 3762 3763
        else:
            padding = utils.convert_to_list(padding, 3, 'padding')
            padding = [
                padding[0], padding[0], padding[1], padding[1], padding[2],
                padding[2]
            ]
        return padding
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3765 3766 3767 3768 3769 3770 3771 3772 3773 3774 3775 3776 3777
    padding_algorithm = "EXPLICIT"
    if isinstance(padding, str):
        padding = padding.upper()
        if padding not in ["SAME", "VALID"]:
            raise ValueError(
                "Unknown padding: '%s'. It can only be 'SAME' or 'VALID'." %
                str(padding))
        if padding == "VALID":
            padding_algorithm = "VALID"
            padding = [0, 0, 0, 0, 0, 0]
        elif padding == "SAME":
            padding_algorithm = "SAME"
            padding = [0, 0, 0, 0, 0, 0]
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3779
    padding = _update_padding(padding, data_format)
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3781 3782 3783 3784 3785
    if filter_size is None:
        if output_size is None:
            raise ValueError("output_size must be set when filter_size is None")
        if isinstance(output_size, int):
            output_size = [output_size, output_size]
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3787 3788 3789
        d_in = input.shape[2] if data_format == 'NCDHW' else input.shape[1]
        h_in = input.shape[3] if data_format == 'NCDHW' else input.shape[2]
        w_in = input.shape[4] if data_format == 'NCDHW' else input.shape[3]
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3791 3792 3793 3794 3795 3796 3797 3798 3799 3800
        filter_size_d = (output_size[0] - (d_in - 1) * stride[0] + padding[0] +
                         padding[1] - 1) // dilation[0] + 1
        filter_size_h = (output_size[1] - (h_in - 1) * stride[1] + padding[2] +
                         padding[3] - 1) // dilation[1] + 1
        filter_size_w = (output_size[2] - (w_in - 1) * stride[2] + padding[4] +
                         padding[5] - 1) // dilation[2] + 1
        filter_size = [filter_size_d, filter_size_h, filter_size_w]
    else:
        filter_size = utils.convert_to_list(filter_size, 3,
                                            'conv3d_transpose.filter_size')
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3802 3803
    if len(padding) == 6 and utils._is_symmetric_padding(padding, 3):
        padding = [padding[0], padding[2], padding[4]]
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3805 3806 3807 3808
    groups = 1 if groups is None else groups
    filter_shape = [input_channel, num_filters // groups] + filter_size
    img_filter = helper.create_parameter(
        dtype=input.dtype, shape=filter_shape, attr=helper.param_attr)
3809

3810 3811 3812 3813
    if data_format == 'NCDHW':
        data_format = 'NCHW'
    if data_format == 'NDHWC':
        data_format = 'NHWC'
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3815
    pre_bias = helper.create_variable_for_type_inference(dtype=input.dtype)
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    helper.append_op(
3817 3818 3819 3820 3821 3822 3823 3824 3825 3826 3827 3828 3829
        type=l_type,
        inputs={'Input': [input],
                'Filter': [img_filter]},
        outputs={'Output': pre_bias},
        attrs={
            'strides': stride,
            'paddings': padding,
            'padding_algorithm': padding_algorithm,
            'dilations': dilation,
            'groups': groups,
            'use_cudnn': use_cudnn,
            'data_format': data_format
        })
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3831 3832 3833 3834 3835 3836
    if data_format == 'NCHW':
        pre_act = helper.append_bias_op(pre_bias, dim_start=1, dim_end=2)
    else:
        pre_act = helper.append_bias_op(pre_bias, dim_start=4, dim_end=5)
    out = helper.append_activation(pre_act)
    return out
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def reduce_sum(input, dim=None, keep_dim=False, name=None):
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    """
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    Computes the sum of tensor elements over the given dimension.
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    Args:
3844 3845 3846
        input (Variable): The input variable which is a Tensor, the data type is float32,
            float64, int32, int64.
        dim (list|int, optional): The dimensions along which the sum is performed. If
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            :attr:`None`, sum all elements of :attr:`input` and return a
            Tensor variable with a single element, otherwise must be in the
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            range :math:`[-rank(input), rank(input))`. If :math:`dim[i] < 0`,
            the dimension to reduce is :math:`rank + dim[i]`.
3851
        keep_dim (bool, optional): Whether to reserve the reduced dimension in the
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            output Tensor. The result tensor will have one fewer dimension
3853 3854 3855 3856
            than the :attr:`input` unless :attr:`keep_dim` is true, default
            value is False.
        name(str, optional): The default value is None.  Normally there is no need for
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`
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    Returns:
3859 3860
        Variable: Tensor, results of summation operation on the specified dim of input tensor,
        it's data type is the same as input's Tensor.
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3862 3863 3864
    Raises:
        TypeError, if out data type is different with the input data type.
    
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    Examples:
        .. code-block:: python

3868
            import paddle.fluid as fluid
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            # x is a Tensor variable with following elements:
            #    [[0.2, 0.3, 0.5, 0.9]
            #     [0.1, 0.2, 0.6, 0.7]]
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            # Each example is followed by the corresponding output tensor.
3873
            x = fluid.data(name='x', shape=[2, 4], dtype='float32')
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            fluid.layers.reduce_sum(x)  # [3.5]
            fluid.layers.reduce_sum(x, dim=0)  # [0.3, 0.5, 1.1, 1.6]
            fluid.layers.reduce_sum(x, dim=-1)  # [1.9, 1.6]
            fluid.layers.reduce_sum(x, dim=1, keep_dim=True)  # [[1.9], [1.6]]
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3879
            # y is a Tensor variable with shape [2, 2, 2] and elements as below:
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            #      [[[1, 2], [3, 4]],
            #      [[5, 6], [7, 8]]]
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            # Each example is followed by the corresponding output tensor.
3883
            y = fluid.data(name='y', shape=[2, 2, 2], dtype='float32')
3884 3885
            fluid.layers.reduce_sum(y, dim=[1, 2]) # [10, 26]
            fluid.layers.reduce_sum(y, dim=[0, 1]) # [16, 20]
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    """
3888 3889 3890
    if dim is not None and not isinstance(dim, list):
        dim = [dim]
    attrs = {
3891
        'dim': dim if dim != None and dim != [] else [0],
3892
        'keep_dim': keep_dim,
3893
        'reduce_all': True if dim == None or dim == [] else False
3894 3895 3896 3897 3898 3899 3900
    }

    if in_dygraph_mode():
        inputs = {'X': [input]}
        outs = core.ops.reduce_sum(inputs, attrs)
        return outs['Out'][0]

3901 3902
    check_variable_and_dtype(
        input, 'input', ['float32', 'float64', 'int32', 'int64'], 'reduce_sum')
3903
    helper = LayerHelper('reduce_sum', **locals())
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    out = helper.create_variable_for_type_inference(dtype=helper.input_dtype())
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    helper.append_op(
        type='reduce_sum',
        inputs={'X': input},
        outputs={'Out': out},
3909
        attrs=attrs)
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    return out
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def reduce_mean(input, dim=None, keep_dim=False, name=None):
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    """
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    Computes the mean of the input tensor's elements along the given dimension.
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    Args:
3918 3919 3920
        input (Variable): The input variable which is a Tensor, the data type is float32,
            float64, int32, int64.
        dim (list|int, optional): The dimension along which the mean is computed. If
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            `None`, compute the mean over all elements of :attr:`input`
            and return a variable with a single element, otherwise it
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            must be in the range :math:`[-rank(input), rank(input))`. If
3924
            :math:`dim[i] < 0`, the dimension to reduce is
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            :math:`rank(input) + dim[i]`.
3926
        keep_dim (bool, optional): Whether to reserve the reduced dimension in the
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            output Tensor. The result tensor will have one fewer dimension
3928 3929 3930 3931 3932
            than the :attr:`input` unless :attr:`keep_dim` is true, default 
            value is False.
        name(str, optional): The default value is None.  Normally there is no need for
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`
    
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    Returns:
3934 3935 3936 3937 3938 3939
        Variable: Tensor, results of average on the specified dim of input tensor,
        it's data type is the same as input's Tensor.
    
    Raises:
        TypeError, if out data type is different with the input data type.
    
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    Examples:
        .. code-block:: python

3943
            import paddle.fluid as fluid
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            # x is a Tensor variable with following elements:
            #    [[0.2, 0.3, 0.5, 0.9]
            #     [0.1, 0.2, 0.6, 0.7]]
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            # Each example is followed by the corresponding output tensor.
3948
            x = fluid.data(name='x', shape=[2, 4], dtype='float32')
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            fluid.layers.reduce_mean(x)  # [0.4375]
            fluid.layers.reduce_mean(x, dim=0)  # [0.15, 0.25, 0.55, 0.8]
            fluid.layers.reduce_mean(x, dim=-1)  # [0.475, 0.4]
3952
            fluid.layers.reduce_mean(x, dim=1, keep_dim=True)  # [[0.475], [0.4]]
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3954
            # y is a Tensor variable with shape [2, 2, 2] and elements as below:
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            #      [[[1.0, 2.0], [3.0, 4.0]],
            #      [[5.0, 6.0], [7.0, 8.0]]]
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            # Each example is followed by the corresponding output tensor.
3958
            y = fluid.data(name='y', shape=[2, 2, 2], dtype='float32')
3959 3960
            fluid.layers.reduce_mean(y, dim=[1, 2]) # [2.5, 6.5]
            fluid.layers.reduce_mean(y, dim=[0, 1]) # [4.0, 5.0]
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    """
3962 3963 3964 3965

    if dim is not None and not isinstance(dim, list):
        dim = [dim]
    attrs = {
3966
        'dim': dim if dim != None and dim != [] else [0],
3967
        'keep_dim': keep_dim,
3968
        'reduce_all': True if dim == None or dim == [] else False
3969 3970 3971 3972 3973 3974 3975
    }

    if in_dygraph_mode():
        inputs = {'X': [input]}
        outs = core.ops.reduce_mean(inputs, attrs)
        return outs['Out'][0]

3976 3977
    check_variable_and_dtype(
        input, 'input', ['float32', 'float64', 'int32', 'int64'], 'reduce_mean')
3978
    helper = LayerHelper('reduce_mean', **locals())
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    out = helper.create_variable_for_type_inference(dtype=helper.input_dtype())
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    helper.append_op(
        type='reduce_mean',
        inputs={'X': input},
        outputs={'Out': out},
3984
        attrs=attrs)
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    return out
3986 3987


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def reduce_max(input, dim=None, keep_dim=False, name=None):
3989
    """
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    Computes the maximum of tensor elements over the given dimension.
3991 3992

    Args:
3993 3994 3995
        input (Variable): The input variable which is a Tensor, the data type is float32,
            float64, int32, int64.
        dim (list|int, optional): The dimension along which the maximum is computed.
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            If :attr:`None`, compute the maximum over all elements of
            :attr:`input` and return a Tensor variable with a single element,
            otherwise must be in the range :math:`[-rank(input), rank(input))`.
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            If :math:`dim[i] < 0`, the dimension to reduce is :math:`rank + dim[i]`.
4000
        keep_dim (bool, optional): Whether to reserve the reduced dimension in the
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            output Tensor. The result tensor will have one fewer dimension
4002 4003 4004 4005
            than the :attr:`input` unless :attr:`keep_dim` is true, default
            value is False.
        name(str, optional): The default value is None.  Normally there is no need for 
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`
4006 4007

    Returns:
4008 4009
        Variable: Tensor, results of maximum on the specified dim of input tensor,
        it's data type is the same as input's Tensor.
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4011 4012 4013
    Examples:
        .. code-block:: python

4014
            import paddle.fluid as fluid
4015 4016 4017
            # x is a Tensor variable with following elements:
            #    [[0.2, 0.3, 0.5, 0.9]
            #     [0.1, 0.2, 0.6, 0.7]]
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            # Each example is followed by the corresponding output tensor.
4019
            x = fluid.data(name='x', shape=[2, 4], dtype='float32')
4020 4021 4022 4023
            fluid.layers.reduce_max(x)  # [0.9]
            fluid.layers.reduce_max(x, dim=0)  # [0.2, 0.3, 0.6, 0.9]
            fluid.layers.reduce_max(x, dim=-1)  # [0.9, 0.7]
            fluid.layers.reduce_max(x, dim=1, keep_dim=True)  # [[0.9], [0.7]]
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4025
            # y is a Tensor variable with shape [2, 2, 2] and elements as below:
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            #      [[[1.0, 2.0], [3.0, 4.0]],
            #      [[5.0, 6.0], [7.0, 8.0]]]
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            # Each example is followed by the corresponding output tensor.
4029
            y = fluid.data(name='y', shape=[2, 2, 2], dtype='float32')
4030 4031
            fluid.layers.reduce_max(y, dim=[1, 2]) # [4.0, 8.0]
            fluid.layers.reduce_max(y, dim=[0, 1]) # [7.0, 8.0]
4032 4033
    """
    helper = LayerHelper('reduce_max', **locals())
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    out = helper.create_variable_for_type_inference(dtype=helper.input_dtype())
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    if dim is not None and not isinstance(dim, list):
        dim = [dim]
4037 4038 4039 4040 4041
    helper.append_op(
        type='reduce_max',
        inputs={'X': input},
        outputs={'Out': out},
        attrs={
4042
            'dim': dim if dim != None and dim != [] else [0],
4043
            'keep_dim': keep_dim,
4044
            'reduce_all': True if dim == None or dim == [] else False
4045 4046 4047 4048
        })
    return out


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4049
def reduce_min(input, dim=None, keep_dim=False, name=None):
4050
    """
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4051
    Computes the minimum of tensor elements over the given dimension.
4052 4053

    Args:
4054 4055 4056
        input (Variable): The input variable which is a Tensor, the data type is float32,
            float64, int32, int64.
        dim (list|int, optional): The dimensions along which the minimum is computed.
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4057 4058 4059
            If :attr:`None`, compute the minimum over all elements of
            :attr:`input` and return a Tensor variable with a single element,
            otherwise must be in the range :math:`[-rank(input), rank(input))`.
W
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            If :math:`dim[i] < 0`, the dimension to reduce is :math:`rank + dim[i]`.
4061
        keep_dim (bool, optional): Whether to reserve the reduced dimension in the
Y
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4062
            output Tensor. The result tensor will have one fewer dimension
4063 4064 4065 4066
            than the :attr:`input` unless :attr:`keep_dim` is true, default
            value is False.
        name(str, optional): The default value is None.  Normally there is no need for 
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`
4067 4068

    Returns:
4069 4070
        Variable: Tensor, result of minimum on the specified dim of input tensor,
        it's data type is the same as input's Tensor.
Y
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4071

4072 4073 4074
    Examples:
        .. code-block:: python

4075
            import paddle.fluid as fluid
4076 4077 4078
            # x is a Tensor variable with following elements:
            #    [[0.2, 0.3, 0.5, 0.9]
            #     [0.1, 0.2, 0.6, 0.7]]
T
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4079
            # Each example is followed by the corresponding output tensor.
4080
            x = fluid.data(name='x', shape=[2, 4], dtype='float32')
4081 4082 4083 4084
            fluid.layers.reduce_min(x)  # [0.1]
            fluid.layers.reduce_min(x, dim=0)  # [0.1, 0.2, 0.5, 0.7]
            fluid.layers.reduce_min(x, dim=-1)  # [0.2, 0.1]
            fluid.layers.reduce_min(x, dim=1, keep_dim=True)  # [[0.2], [0.1]]
W
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4085

4086
            # y is a Tensor variable with shape [2, 2, 2] and elements as below:
W
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4087 4088
            #      [[[1.0, 2.0], [3.0, 4.0]],
            #      [[5.0, 6.0], [7.0, 8.0]]]
T
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4089
            # Each example is followed by the corresponding output tensor.
4090
            y = fluid.data(name='y', shape=[2, 2, 2], dtype='float32')
4091 4092
            fluid.layers.reduce_min(y, dim=[1, 2]) # [1.0, 5.0]
            fluid.layers.reduce_min(y, dim=[0, 1]) # [1.0, 2.0]
4093 4094
    """
    helper = LayerHelper('reduce_min', **locals())
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    out = helper.create_variable_for_type_inference(dtype=helper.input_dtype())
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4096 4097
    if dim is not None and not isinstance(dim, list):
        dim = [dim]
4098 4099 4100 4101 4102
    helper.append_op(
        type='reduce_min',
        inputs={'X': input},
        outputs={'Out': out},
        attrs={
4103
            'dim': dim if dim != None and dim != [] else [0],
4104
            'keep_dim': keep_dim,
4105
            'reduce_all': True if dim == None or dim == [] else False
4106 4107
        })
    return out
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4108 4109


4110 4111 4112 4113 4114
def reduce_prod(input, dim=None, keep_dim=False, name=None):
    """
    Computes the product of tensor elements over the given dimension.

    Args:
4115 4116 4117
        input (Variable): The input variable which is a Tensor, the data type is float32,
            float64, int32, int64.
        dim (list|int, optional): The dimensions along which the product is performed. If
T
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4118
            :attr:`None`, multiply all elements of :attr:`input` and return a
4119
            Tensor variable with a single element, otherwise must be in the
W
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4120 4121
            range :math:`[-rank(input), rank(input))`. If :math:`dim[i] < 0`,
            the dimension to reduce is :math:`rank + dim[i]`.
4122
        keep_dim (bool, optional): Whether to reserve the reduced dimension in the
4123
            output Tensor. The result tensor will have one fewer dimension
4124 4125 4126 4127
            than the :attr:`input` unless :attr:`keep_dim` is true, default
            value is False.
        name(str, optional): The default value is None.  Normally there is no need for 
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`
4128 4129

    Returns:
4130 4131 4132
        Variable: Tensor, result of product on the specified dim of input tensor,
        it's data type is the same as input's Tensor.
    
4133 4134 4135
    Examples:
        .. code-block:: python

4136
            import paddle.fluid as fluid
4137 4138 4139
            # x is a Tensor variable with following elements:
            #    [[0.2, 0.3, 0.5, 0.9]
            #     [0.1, 0.2, 0.6, 0.7]]
T
tianshuo78520a 已提交
4140
            # Each example is followed by the corresponding output tensor.
4141
            x = fluid.data(name='x', shape=[2, 4], dtype='float32')
4142 4143 4144
            fluid.layers.reduce_prod(x)  # [0.0002268]
            fluid.layers.reduce_prod(x, dim=0)  # [0.02, 0.06, 0.3, 0.63]
            fluid.layers.reduce_prod(x, dim=-1)  # [0.027, 0.0084]
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            fluid.layers.reduce_prod(x, dim=1,
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                                     keep_dim=True)  # [[0.027], [0.0084]]
W
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4147

4148
            # y is a Tensor variable with shape [2, 2, 2] and elements as below:
W
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4149 4150
            #      [[[1.0, 2.0], [3.0, 4.0]],
            #      [[5.0, 6.0], [7.0, 8.0]]]
T
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4151
            # Each example is followed by the corresponding output tensor.
4152
            y = fluid.data(name='y', shape=[2, 2, 2], dtype='float32')
4153 4154
            fluid.layers.reduce_prod(y, dim=[1, 2]) # [24.0, 1680.0]
            fluid.layers.reduce_prod(y, dim=[0, 1]) # [105.0, 384.0]
4155 4156
    """
    helper = LayerHelper('reduce_prod', **locals())
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    out = helper.create_variable_for_type_inference(dtype=helper.input_dtype())
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4158 4159
    if dim is not None and not isinstance(dim, list):
        dim = [dim]
4160 4161 4162 4163 4164
    helper.append_op(
        type='reduce_prod',
        inputs={'X': input},
        outputs={'Out': out},
        attrs={
4165
            'dim': dim if dim != None and dim != [] else [0],
4166
            'keep_dim': keep_dim,
4167
            'reduce_all': True if dim == None or dim == [] else False
4168 4169 4170 4171
        })
    return out


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def reduce_all(input, dim=None, keep_dim=False, name=None):
    """
4174
    This OP computes the ``logical and`` of tensor elements over the given dimension, and output the result.
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4175 4176

    Args:
4177 4178
        input (Variable): The input variable which is a Tensor or LoDTensor, the input data type should be `bool`.
        dim (list|int|optional): The dimension along which the logical and is computed.
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4179 4180 4181
            If :attr:`None`, compute the logical and over all elements of
            :attr:`input` and return a Tensor variable with a single element,
            otherwise must be in the range :math:`[-rank(input), rank(input))`.
4182
            If :math:`dim[i] < 0`, the dimension to reduce is :math:`rank + dim[i]`. The default value is None. 
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4183 4184
        keep_dim (bool): Whether to reserve the reduced dimension in the
            output Tensor. The result tensor will have one fewer dimension
4185
            than the :attr:`input` unless :attr:`keep_dim` is true. The default value is False.
Z
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4186
        name(str|None): A name for this layer(optional). If set None, the layer
4187
                       will be named automatically. The default value is None. 
Z
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4188

4189 4190
    Returns: 
        Variable, the output data type is bool. : The reduced tensor variable with ``logical and`` in given dims.
Z
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4191 4192 4193

    Examples:
        .. code-block:: python
Z
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4194
        
4195
            import paddle.fluid as fluid
4196 4197 4198
            import paddle.fluid.layers as layers
            import numpy as np

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4199 4200 4201
            # x is a bool Tensor variable with following elements:
            #    [[True, False]
            #     [True, True]]
4202 4203 4204 4205 4206 4207
            x = layers.assign(np.array([[1, 0], [1, 1]], dtype='int32'))
            x = layers.cast(x, 'bool')

            out = layers.reduce_all(x)  # False 
            out = layers.reduce_all(x, dim=0)  # [True, False]
            out = layers.reduce_all(x, dim=-1)  # [False, True]
4208 4209
            # keep_dim=False, x.shape=(2,2), out.shape=(2,)

4210
            out = layers.reduce_all(x, dim=1, keep_dim=True)  # [[False], [True]]
4211
            # keep_dim=True, x.shape=(2,2), out.shape=(2,1)
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4212 4213 4214 4215 4216 4217 4218 4219 4220 4221 4222

    """
    helper = LayerHelper('reduce_all', **locals())
    out = helper.create_variable_for_type_inference(dtype=helper.input_dtype())
    if dim is not None and not isinstance(dim, list):
        dim = [dim]
    helper.append_op(
        type='reduce_all',
        inputs={'X': input},
        outputs={'Out': out},
        attrs={
4223
            'dim': dim if dim != None and dim != [] else [0],
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            'keep_dim': keep_dim,
4225
            'reduce_all': True if dim == None or dim == [] else False
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4226 4227 4228 4229 4230 4231
        })
    return out


def reduce_any(input, dim=None, keep_dim=False, name=None):
    """
4232
    This OP computes the ``logical or`` of tensor elements over the given dimension, and output the result.
Z
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4233 4234

    Args:
4235 4236 4237
        input (Variable): The input variable which is a Tensor or LoDTensor, the input data type should be `bool`.
        dim (list|int|optional): The dimension along which the logical and is computed.
            If :attr:`None`, compute the logical and over all elements of
Z
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4238 4239
            :attr:`input` and return a Tensor variable with a single element,
            otherwise must be in the range :math:`[-rank(input), rank(input))`.
4240
            If :math:`dim[i] < 0`, the dimension to reduce is :math:`rank + dim[i]`. The default value is None. 
Z
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4241 4242
        keep_dim (bool): Whether to reserve the reduced dimension in the
            output Tensor. The result tensor will have one fewer dimension
4243
            than the :attr:`input` unless :attr:`keep_dim` is true. The default value is False.
Z
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4244 4245
        name(str|None): A name for this layer(optional). If set None, the layer

4246 4247
    Returns: 
        Variable, the output data type is bool. : The reduced tensor variable with ``logical or`` in given dims.
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4248 4249 4250

    Examples:
        .. code-block:: python
Z
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4251

4252
            import paddle.fluid as fluid
4253 4254 4255
            import paddle.fluid.layers as layers
            import numpy as np

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4256 4257 4258
            # x is a bool Tensor variable with following elements:
            #    [[True, False]
            #     [False, False]]
4259 4260 4261 4262 4263 4264
            x = layers.assign(np.array([[1, 0], [0, 0]], dtype='int32'))
            x = layers.cast(x, 'bool')

            out = layers.reduce_any(x)  # True
            out = layers.reduce_any(x, dim=0)  # [True, False]
            out = layers.reduce_any(x, dim=-1)  # [True, False]
4265 4266
            # keep_dim=False, x.shape=(2,2), out.shape=(2,)

4267
            out = layers.reduce_any(x, dim=1,
Z
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4268
                                     keep_dim=True)  # [[True], [False]]
4269
            # keep_dim=True, x.shape=(2,2), out.shape=(2,1)
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4270 4271 4272 4273 4274 4275 4276 4277 4278 4279 4280

    """
    helper = LayerHelper('reduce_any', **locals())
    out = helper.create_variable_for_type_inference(dtype=helper.input_dtype())
    if dim is not None and not isinstance(dim, list):
        dim = [dim]
    helper.append_op(
        type='reduce_any',
        inputs={'X': input},
        outputs={'Out': out},
        attrs={
4281
            'dim': dim if dim != None and dim != [] else [0],
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4282
            'keep_dim': keep_dim,
4283
            'reduce_all': True if dim == None or dim == [] else False
4284 4285 4286 4287
        })
    return out


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4288
def split(input, num_or_sections, dim=-1, name=None):
G
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4289
    """
4290
    Split the input tensor into multiple sub-Tensors.
G
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4291 4292

    Args:
4293
        input (Variable): The input variable which is an N-D Tensor or LoDTensor, data type being float32, float64, int32 or int64.
4294
        num_or_sections (int|list|tuple): If :attr:`num_or_sections` is an integer,
4295 4296
            then the integer indicates the number of equal sized sub-Tensors
            that the Tensor will be divided into. If :attr:`num_or_sections`
4297 4298 4299 4300 4301
            is a list or tuple, the length of it indicates the number of
            sub-Tensors and the elements in it indicate the sizes of sub-Tensors'
            :attr:`dim` dimension orderly. The length of the list mustn't be larger than the Tensor's size of :attr:`dim` .
        dim (int32|Varible, optional): A scalar with type ``int32`` or a ``Tensor`` with shape [1] and type ``int32``. The dimension along which to split. If :math:`dim < 0`, the
            dimension to split along is :math:`rank(input) + dim`. Default is -1.
4302
        name(str, optional): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name` .
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4303 4304

    Returns:
4305
        list(Variable): The list of segmented Tensor variables.
G
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4306

4307 4308 4309 4310
    Raises:
        TypeError: num_or_sections is not int, list or tuple.
        TypeError: dim is not int or Variable.

4311
    Example:
G
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4312 4313
        .. code-block:: python

4314 4315
            import paddle.fluid as fluid

4316 4317
            # input is a variable which shape is [3, 9, 5]
            input = fluid.data(
4318 4319
                 name="input", shape=[3, 9, 5], dtype="float32")

4320 4321 4322 4323
            x0, x1, x2 = fluid.layers.split(input, num_or_sections=3, dim=1)
            # x0.shape [3, 3, 5]
            # x1.shape [3, 3, 5]
            # x2.shape [3, 3, 5]
4324

4325 4326 4327 4328 4329 4330 4331 4332 4333
            x0, x1, x2 = fluid.layers.split(input, num_or_sections=[2, 3, 4], dim=1)
            # x0.shape [3, 2, 5]
            # x1.shape [3, 3, 5]
            # x2.shape [3, 4, 5]

            x0, x1, x2 = fluid.layers.split(input, num_or_sections=[2, 3, -1], dim=1)
            # x0.shape [3, 2, 5]
            # x1.shape [3, 3, 5]
            # x2.shape [3, 4, 5]
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4334
    """
4335 4336 4337 4338 4339 4340 4341 4342 4343 4344 4345 4346 4347
    if in_dygraph_mode():
        inputs = {'X': [input]}
        attrs = {}
        if isinstance(dim, int):
            dim = (len(input.shape) + dim) if dim < 0 else dim
            attrs['axis'] = dim
        else:
            dim.stop_gradient = True
            inputs['AxisTensor'] = [dim]

        if isinstance(num_or_sections, int):
            num = num_or_sections
            attrs['num'] = num_or_sections
L
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4348
        elif isinstance(num_or_sections, (list, tuple)):
4349
            num = len(num_or_sections)
L
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4350
            if utils._contain_var(num_or_sections):
4351
                raise TypeError(
L
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4352 4353 4354 4355 4356
                    "The type of 'num_or_sections' in split must be int or list[int] or tuple[int] in Dygraph mode, but "
                    "received %s, which contains Variable." %
                    (type(num_or_sections)))
            else:
                attrs['sections'] = list(num_or_sections)
4357 4358 4359 4360 4361
        else:
            raise TypeError(
                "The type of 'num_or_sections' in split must be int or list in Dygraph mode, but "
                "received %s." % (type(num_or_sections)))

L
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4362 4363 4364
        res = core.ops.split(inputs, attrs, {}, {'Out': num})
        return res['Out']

4365 4366 4367 4368 4369 4370 4371 4372 4373
    if not isinstance(num_or_sections, (int, list, tuple)):
        raise TypeError(
            "The type of 'num_or_sections' in split must be int, list or "
            "tuple, but received %s." % (type(num_or_sections)))
    if not isinstance(dim, (int, Variable)):
        raise TypeError(
            "The type of 'dim' in split must be int or Variable, but "
            "received %s." % (type(dim)))

G
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4374 4375
    helper = LayerHelper('split', **locals())
    input_shape = input.shape
4376 4377 4378 4379 4380 4381 4382 4383 4384 4385 4386 4387 4388 4389 4390 4391 4392 4393 4394 4395 4396 4397 4398 4399 4400 4401 4402 4403 4404 4405 4406
    inputs = {'X': input}
    attrs = {'num': num_or_sections if isinstance(num_or_sections, int) else 0}

    def _get_SectionsTensorList(one_list):
        tensor_list = []
        unk_dim_idx = -1
        for idx, dim_size in enumerate(one_list):
            if isinstance(dim_size, Variable):
                dim_size.stop_gradient = True
                tensor_list.append(dim_size)
            else:
                assert (isinstance(dim_size, int))
                if dim_size == -1:
                    assert unk_dim_idx == -1, (
                        "Only one value of 'num_or_section' in split can "
                        "be -1. But received num_or_section[%d] is also -1." %
                        idx)
                    unk_dim_idx = idx
                temp_out = helper.create_variable_for_type_inference('int32')
                fill_constant(
                    [1], 'int32', dim_size, force_cpu=True, out=temp_out)
                tensor_list.append(temp_out)
        return tensor_list

    if isinstance(dim, Variable):
        dim.stop_gradient = True
        inputs['AxisTensor'] = dim
    else:
        dim = (len(input_shape) + dim) if dim < 0 else dim
        attrs['axis'] = dim

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4407 4408
    if isinstance(num_or_sections, int):
        assert num_or_sections > 1, 'num_or_sections must be more than 1.'
4409 4410 4411 4412 4413
        if isinstance(dim, int) and input_shape[dim] > 0:
            assert input_shape[dim] % num_or_sections ==0, \
                "The input's size along the split dimension " \
                "must be evenly divisible by Attr(num_or_sections). " \
                "But %d is not evenly divisible by %d. " % (num_or_sections,input_shape[dim])
G
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4414 4415
        num = num_or_sections
    else:
4416 4417 4418
        if isinstance(dim, int) and input_shape[dim] > 0:
            assert len(num_or_sections) <= input_shape[
                dim], 'len(num_or_sections) must not be more than input.shape[dim].'
G
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4419
        num = len(num_or_sections)
4420 4421 4422
        attrs['sections'] = list(
            map(lambda ele: -1 if isinstance(ele, Variable) else ele,
                num_or_sections))
L
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4423
        if utils._contain_var(num_or_sections):
4424 4425 4426
            inputs['SectionsTensorList'] = _get_SectionsTensorList(
                num_or_sections)

G
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4427
    outs = [
X
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4428
        helper.create_variable_for_type_inference(dtype=helper.input_dtype())
G
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4429 4430 4431
        for i in range(num)
    ]
    helper.append_op(
4432
        type='split', inputs=inputs, outputs={'Out': outs}, attrs=attrs)
G
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4433
    return outs
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4434 4435 4436 4437


def l2_normalize(x, axis, epsilon=1e-12, name=None):
    """
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4438
    This op normalizes `x` along dimension `axis` using an L2
C
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4439 4440
    norm. For a 1-D tensor (`dim` is fixed to 0), this layer computes

4441
    .. math::
4442 4443

        y = \\frac{x}{ \sqrt{\sum {x^2} + epsion }}
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4444 4445 4446 4447 4448

    For `x` with more dimensions, this layer independently normalizes each 1-D
    slice along dimension `axis`.

    Args:
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4449
        x(Variable|list): The input tensor could be N-D tensor, and the input data type could be float32 or float64.
4450
        axis(int): The axis on which to apply normalization. If `axis < 0`, \
4451 4452
            the dimension to normalization is rank(X) + axis. -1 is the
            last dimension.
4453
        epsilon(float): The epsilon value is used to avoid division by zero, \
翟飞跃 已提交
4454
            the default value is 1e-12.
R
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4455 4456
	name(str, optional): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name`
    
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4457
    Returns:
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4458
        Variable: The output has the same shape and data type with `x`.
C
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4459 4460

    Examples:
4461

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4462
        .. code-block:: python
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4463 4464 4465 4466 4467 4468 4469 4470 4471 4472 4473 4474
	    
	    # declarative mode
	    import paddle.fluid as fluid
	    import numpy as np
	    input = fluid.data(name="input", shape=[2,3])
	    output = fluid.layers.l2_normalize(x=input,axis=0)
	    place = fluid.CPUPlace()
	    exe = fluid.Executor(place)
	    exe.run(fluid.default_startup_program())
 
	    input_data = np.random.rand(2,3).astype("float32")
	    print(input_data)
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4475

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4476 4477 4478 4479 4480 4481 4482 4483 4484 4485 4486 4487 4488 4489 4490 4491 4492 4493 4494 4495 4496 4497 4498 4499
	    # [[0.5171216  0.12704141 0.56018186]
	    # [0.93251234 0.5382788  0.81709313]]
	
	    output_data = exe.run(fluid.default_main_program(),
                feed={"input":input_data},
                fetch_list=[output],
                return_numpy=True)
 
	    print(output_data)

	    # [array([[0.48496857, 0.22970329, 0.56545246],
	    # [0.8745316 , 0.9732607 , 0.82478094]], dtype=float32)]

	    # imperative mode
	    import paddle.fluid.dygraph as dg

	    with dg.guard(place) as g:
    		input = dg.to_variable(input_data)
    		output = fluid.layers.l2_normalize(x=input, axis=-1)
    		print(output.numpy())
	    	
		# [[0.66907585 0.16437206 0.7247892 ]
		# [0.6899054  0.3982376  0.6045142 ]]
		
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    """

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    if len(x.shape) == 1:
        axis = 0
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    helper = LayerHelper("l2_normalize", **locals())

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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
    norm = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
4509 4510 4511 4512
        type="norm",
        inputs={"X": x},
        outputs={"Out": out,
                 "Norm": norm},
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4513
        attrs={
4514 4515
            "axis": 1 if axis is None else axis,
            "epsilon": epsilon,
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4516 4517
        })
    return out
4518 4519


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def matmul(x, y, transpose_x=False, transpose_y=False, alpha=1.0, name=None):
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    """
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    Applies matrix multiplication to two tensors.

    Currently, the input tensors' rank can be any, but when the rank of any
    inputs is bigger than 3, this two inputs' rank should be equal.
G
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4526

C
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    The actual behavior depends on the shapes of :math:`x`, :math:`y` and the
4528
    flag values of :attr:`transpose_x`, :attr:`transpose_y`. Specifically:
G
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4530 4531 4532 4533 4534
    - If a transpose flag is specified, the last two dimensions of the tensor
      are transposed. If the tensor is rank-1 of shape :math:`[D]`, then for
      :math:`x` it is treated as :math:`[1, D]` in nontransposed form and as
      :math:`[D, 1]` in transposed form, whereas for :math:`y` it is the
      opposite: It is treated as :math:`[D, 1]` in nontransposed form and as
4535
      :math:`[1, D]` in transposed form.
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4537
    - After transpose, the two tensors are 2-D or n-D and matrix multiplication
4538
      performs in the following way.
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4540
      - If both are 2-D, they are multiplied like conventional matrices.
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      - If either is n-D, it is treated as a stack of matrices residing in the
Y
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        last two dimensions and a batched matrix multiply supporting broadcast
4543
        applies on the two tensors.
G
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    Also note that if the raw tensor :math:`x` or :math:`y` is rank-1 and
    nontransposed, the prepended or appended dimension :math:`1` will be
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    removed after matrix multiplication.
G
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4548 4549 4550

    Args:
        x (Variable): The input variable which is a Tensor or LoDTensor.
4551 4552 4553
        y (Variable): The input variable which is a Tensor or LoDTensor.
        transpose_x (bool): Whether to transpose :math:`x` before multiplication.
        transpose_y (bool): Whether to transpose :math:`y` before multiplication.
S
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        alpha (float): The scale of output. Default 1.0.
4555
        name(str|None): A name for this layer(optional). If set None, the layer
4556
            will be named automatically.
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    Returns:
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        Variable: The product Tensor (or LoDTensor) variable.
G
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4560

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4561 4562 4563
    Examples:
        .. code-block:: python

4564
            # Examples to clarify shapes of the inputs and output
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            # x: [B, ..., M, K], y: [B, ..., K, N]
4566
            # fluid.layers.matmul(x, y)  # out: [B, ..., M, N]
Y
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4568
            # x: [B, M, K], y: [B, K, N]
4569
            # fluid.layers.matmul(x, y)  # out: [B, M, N]
Y
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4571
            # x: [B, M, K], y: [K, N]
4572
            # fluid.layers.matmul(x, y)  # out: [B, M, N]
Y
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4573

4574
            # x: [M, K], y: [K, N]
4575
            # fluid.layers.matmul(x, y)  # out: [M, N]
Y
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4576 4577

            # x: [B, M, K], y: [K]
4578
            # fluid.layers.matmul(x, y)  # out: [B, M]
Y
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4579

4580
            # x: [K], y: [K]
4581
            # fluid.layers.matmul(x, y)  # out: [1]
4582

Y
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4583
            # x: [M], y: [N]
4584 4585
            # fluid.layers.matmul(x, y, True, True)  # out: [M, N]

4586
            import paddle.fluid as fluid
4587 4588 4589
            x = fluid.layers.data(name='x', shape=[2, 3], dtype='float32')
            y = fluid.layers.data(name='y', shape=[3, 2], dtype='float32')
            out = fluid.layers.matmul(x, y, True, True)
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    """
4591 4592 4593 4594 4595 4596 4597 4598 4599 4600
    attrs = {
        'transpose_X': transpose_x,
        'transpose_Y': transpose_y,
        'alpha': float(alpha),
    }

    if in_dygraph_mode():
        inputs = {'X': [x], 'Y': [y]}
        outs = core.ops.matmul(inputs, attrs)
        return outs['Out'][0]
Y
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    def __check_input(x, y):
4603 4604
        var_names = {'x': x, 'y': y}
        for name, val in var_names.items():
4605 4606
            check_variable_and_dtype(
                val, name, ['float16', 'float32', 'float64'], 'matmul')
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        x_shape = list(x.shape)
        y_shape = list(y.shape)
        if len(x_shape) == 1:
            x_shape = [1] + x_shape
        if len(y_shape) == 1:
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            y_shape = y_shape + [1]
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4613 4614 4615 4616 4617 4618 4619

        # check the inner 2 dimensions
        if transpose_x:
            x_shape[-2], x_shape[-1] = x_shape[-1], x_shape[-2]
        if transpose_y:
            y_shape[-2], y_shape[-1] = y_shape[-1], y_shape[-2]
        if x_shape[-1] != y_shape[-2]:
4620 4621 4622 4623 4624
            assert (x_shape[-1] == -1) or (y_shape[-2] == -1),                         \
                "After performing an optional transpose, Input X's width should be "   \
                "equal to Y's width for multiplication "                               \
                "prerequisites. But received X's shape: %s, Y's shape: %s\n" %         \
                (x_shape, y_shape)
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4625

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        if len(y_shape) > 2 and len(x_shape) > 2:
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4627
            for i, dim_x in enumerate(x_shape[:-2]):
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                # don't check neg shape
                if dim_x < 0 or y_shape[i] < 0:
                    continue
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                if dim_x != y_shape[i]:
4632 4633 4634 4635 4636
                    raise ValueError(
                        "When the matrix is larger than 2 dimensions, the higher "
                        "dimensional values of the two matrices need to be equal. "
                        "But received x_shape[%d] != y_shape[%d]. X's shape: %s, "
                        "Y's shape: %s.\n" % (i, i, x_shape, y_shape))
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4637 4638 4639

    __check_input(x, y)

4640
    helper = LayerHelper('matmul', **locals())
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
4643 4644 4645 4646
        type='matmul',
        inputs={'X': x,
                'Y': y},
        outputs={'Out': out},
4647
        attrs=attrs)
4648
    return out
4649 4650


4651
def topk(input, k, name=None):
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4652
    """
4653
    This OP is used to find values and indices of the k largest entries
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    for the last dimension.

4656 4657
    If the input is a 1-D Tensor, finds the k largest entries and outputs
    their values and indices.
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    If the input is a Tensor with higher rank, this operator computes the top k
    entries along the last dimension.

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    .. code-block:: text

4664 4665 4666 4667 4668
        Case 1:

          Input:
            input.shape = [3, 4]
            input.data = [[5, 4, 2, 3],
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                     [9, 7, 10, 25],
                     [6, 2, 10, 1]]
            k = 2

4673
          Output:
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            The first output:
4675 4676
            values.shape = [3, 2]
            values.data = [[5, 4],
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                      [10, 25],
                      [6, 10]]

            The second output:
4681 4682
            indices.shape = [3, 2]
            indices.data = [[0, 1],
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                       [2, 3],
                       [0, 2]]

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    Args:
4687 4688 4689 4690
        input(Variable): The input tensor. Support data types: float32, float64.
        k(int | Variable): The number of top elements to look for along the last dimension
                           of input tensor.
        name (str, optional): Please refer to :ref:`api_guide_Name`, Default None.
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4691 4692

    Returns:
4693 4694
        Values (Variable): Input tensor's k largest elements along each last dimensional slice. The dimension is: :math:`input.shape[:-1]+[k]`.
        Indices (Variable): Indices of k largest elements alone the last dimension of input. The dimension is same as values.
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    Raises:
4697
        ValueError: If :math:`k < 1` or :math:`k > last dimension of input`.
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    Examples:
        .. code-block:: python

4702
            import paddle.fluid as fluid
4703
            import paddle.fluid.layers as layers
4704 4705 4706 4707 4708 4709 4710 4711 4712 4713 4714 4715 4716
            # set batch size=None
            input = fluid.data(name="input", shape=[None, 13, 11], dtype='float32')
            top5_values, top5_indices = layers.topk(input, k=5) # top5_values.shape[None, 13, 5], top5_indices.shape=[None, 13, 5]

            # 1D Tensor
            input1 = fluid.data(name="input1", shape=[None, 13], dtype='float32')
            top5_values, top5_indices = layers.topk(input1, k=5) #top5_values.shape=[None, 5], top5_indices.shape=[None, 5]

            # k=Variable
            input2 = fluid.data(name="input2", shape=[None, 13, 11], dtype='float32')
            vk = fluid.data(name="vk", shape=[None, 1], dtype='int32') # save k in vk.data[0]
            vk_values, vk_indices = layers.topk(input2, k=vk) #vk_values.shape=[None, 13, k], vk_indices.shape=[None, 13, k]

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    """
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4718
    inputs = {"X": [input]}
4719
    attrs = {}
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4720
    if isinstance(k, Variable):
4721
        inputs['K'] = [k]
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4722 4723
    else:
        attrs = {'k': k}
4724 4725 4726 4727 4728 4729 4730 4731 4732 4733 4734

    if in_dygraph_mode():
        outs = core.ops.top_k(inputs, attrs)
        outs['Out'][0].stop_gradient = True
        outs['Indices'][0].stop_gradient = True
        return outs['Out'][0], outs['Indices'][0]

    helper = LayerHelper("top_k", **locals())
    values = helper.create_variable_for_type_inference(dtype=input.dtype)
    indices = helper.create_variable_for_type_inference(dtype="int64")

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4735 4736
    helper.append_op(
        type="top_k",
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        inputs=inputs,
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4738 4739
        outputs={"Out": [values],
                 "Indices": [indices]},
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        attrs=attrs)
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4741 4742 4743 4744 4745
    values.stop_gradient = True
    indices.stop_gradient = True
    return values, indices


4746 4747 4748 4749 4750
def ctc_greedy_decoder(input,
                       blank,
                       input_length=None,
                       padding_value=0,
                       name=None):
4751
    """
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4752
    This op is used to decode sequences by greedy policy by the following steps:
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4754
    1. Get the indexes of maximum value for each row in input. a.k.a.
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       numpy.argmax(input, axis=0).
    2. For each sequence in result of step1, merge repeated tokens between two
       blanks and delete all blanks.
4758

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4759 4760 4761 4762
    This op is implemented in two modes: lod and padding, either of them can be used.
    The input can be either LoDTensor or Tensor, corresponding to lod and padding 
    mode respectively.

4763 4764 4765 4766 4767
    A simple example as below:

    .. code-block:: text

        Given:
S
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4768
        (1) for lod mode:
4769 4770 4771 4772 4773 4774 4775 4776 4777 4778 4779

        input.data = [[0.6, 0.1, 0.3, 0.1],
                      [0.3, 0.2, 0.4, 0.1],
                      [0.1, 0.5, 0.1, 0.3],
                      [0.5, 0.1, 0.3, 0.1],

                      [0.5, 0.1, 0.3, 0.1],
                      [0.2, 0.2, 0.2, 0.4],
                      [0.2, 0.2, 0.1, 0.5],
                      [0.5, 0.1, 0.3, 0.1]]

4780
        input.lod = [[4, 4]]
M
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4781

W
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4782
        Computation:
4783

W
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4784 4785 4786 4787 4788 4789
        step1: Apply argmax to first input sequence which is input.data[0:4]. Then we get:
               [[0], [2], [1], [0]]
        step2: merge repeated tokens and remove blank which is 0. Then we get first output sequence:
               [[2], [1]]

        Finally:
4790 4791 4792 4793 4794

        output.data = [[2],
                       [1],
                       [3]]

4795
        output.lod = [[2, 1]]
4796

S
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4797
        (2) for padding mode:
4798 4799 4800 4801 4802 4803 4804 4805 4806 4807 4808 4809 4810 4811 4812 4813 4814 4815 4816 4817 4818 4819 4820 4821 4822 4823

         input.data = [[[0.6, 0.1, 0.3, 0.1],
                        [0.3, 0.2, 0.4, 0.1],
                        [0.1, 0.5, 0.1, 0.3],
                        [0.5, 0.1, 0.3, 0.1]],

                       [[0.5, 0.1, 0.3, 0.1],
                        [0.2, 0.2, 0.2, 0.4],
                        [0.2, 0.2, 0.1, 0.5],
                        [0.5, 0.1, 0.3, 0.1]]]

        input_length.data = [[4], [4]]
        input.shape = [2, 4, 4]

        step1: Apply argmax to first input sequence which is input.data[0:4]. Then we get:
               [[0], [2], [1], [0]], for input.data[4:8] is [[0], [3], [3], [0]], shape is [2,4,1]
        step2: Change the argmax result to use padding mode, then argmax result is 
                [[0, 2, 1, 0], [0, 3, 3, 0]], shape is [2, 4], lod is [], input_length is [[4], [4]]
        step3: Apply ctc_align to padding argmax result, padding_value is 0

        Finally:
        output.data = [[2, 1, 0, 0],
                       [3, 0, 0, 0]]
        output_length.data = [[2], [1]]


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4824
    Parameters:
4825

S
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4826 4827
        input(Variable): the probabilities of variable-length sequences. When in lod mode, 
                         it is a 2-D LoDTensor with LoD information. It's shape is [Lp, num_classes + 1] 
Y
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4828
                         where Lp is the sum of all input sequences' length and
4829 4830
                         num_classes is the true number of classes. When in padding mode,
                         it is a 3-D Tensor with padding, It's shape is [batch_size, N, num_classes + 1].
S
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4831
                         (not including the blank label). The data type can be float32 or float64.
Y
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4832
        blank(int): the blank label index of Connectionist Temporal
S
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4833
                    Classification (CTC) loss, which is in the half-opened
Y
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4834
                    interval [0, num_classes + 1).
S
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4835 4836
        input_length(Variable, optional): 2-D LoDTensor, shape is [batch_size, 1], data type is int64.
                                 It is used for padding mode. In lod mode, input_length is None.
4837
        padding_value(int): padding value.
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4838 4839 4840
        name(str, optional): The default value is None.  
                             Normally there is no need for user to set this property.  
                             For more information, please refer to :ref:`api_guide_Name` 
4841 4842

    Returns:
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4843 4844 4845 4846 4847
        For lod mode, returns the result of CTC greedy decoder, 2-D LoDTensor, shape is [Lp, 1], \
        data type is int64. 'Lp' is the sum of all output sequences' length. If all the sequences \
        in result were empty, the result LoDTensor will be [-1] with  empty \
        LoD [[]].

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4848
        For padding mode, returns a tuple of (output, output_length), which was described as below: 
S
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4849 4850 4851 4852 4853 4854 4855 4856 4857 4858 4859

        output, 2-D Tensor, shape is [batch_size, N], data type is int64.

        output_length, 2-D Tensor, shape is [batch_size, 1], data type is int64. It is the length of \
                           each sequence of output for padding mode.

    Return type:
        For lod mode: Variable

        For padding mode: tuple of two Variables (output, output_length).

4860 4861 4862 4863

    Examples:
        .. code-block:: python

4864
            # for lod mode
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4865
            import paddle.fluid as fluid
S
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4866
            x = fluid.data(name='x', shape=[None, 8], dtype='float32', lod_level=1)
4867
            cost = fluid.layers.ctc_greedy_decoder(input=x, blank=0)
4868 4869

            # for padding mode
S
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4870 4871
            x_pad = fluid.data(name='x_pad', shape=[10, 4, 8], dtype='float32')
            x_pad_len = fluid.data(name='x_pad_len', shape=[10, 1], dtype='int64')
4872 4873 4874
            out, out_len = fluid.layers.ctc_greedy_decoder(input=x_pad, blank=0,
                            input_length=x_pad_len)

W
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4875
    """
4876
    helper = LayerHelper("ctc_greedy_decoder", **locals())
Q
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4877
    _, topk_indices = topk(input, k=1)
4878 4879

    # ctc align op
X
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4880
    ctc_out = helper.create_variable_for_type_inference(dtype="int64")
4881 4882 4883 4884 4885 4886 4887 4888 4889 4890 4891 4892 4893 4894 4895 4896 4897 4898 4899 4900 4901 4902 4903 4904 4905

    if input_length is None:
        helper.append_op(
            type="ctc_align",
            inputs={"Input": [topk_indices]},
            outputs={"Output": [ctc_out]},
            attrs={"merge_repeated": True,
                   "blank": blank})
        return ctc_out
    else:
        ctc_out_len = helper.create_variable_for_type_inference(dtype="int64")
        ctc_input = squeeze(topk_indices, [2])

        helper.append_op(
            type="ctc_align",
            inputs={"Input": [ctc_input],
                    "InputLength": [input_length]},
            outputs={"Output": [ctc_out],
                     "OutputLength": [ctc_out_len]},
            attrs={
                "merge_repeated": True,
                "blank": blank,
                "padding_value": padding_value
            })
        return ctc_out, ctc_out_len
4906 4907


Y
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4908
def transpose(x, perm, name=None):
Y
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4909
    """
4910
    Permute the data dimensions of `input` according to `perm`.
Y
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4911 4912 4913 4914 4915

    The `i`-th dimension  of the returned tensor will correspond to the
    perm[i]-th dimension of `input`.

    Args:
4916
        x (Variable): The input Tensor. It is a N-D Tensor of data types float32, float64, int32.
T
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4917
        perm (list): Permute the input according to the data of perm.
4918
        name (str): The name of this layer. It is optional.
Y
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4919 4920

    Returns:
4921 4922 4923 4924 4925 4926 4927 4928 4929 4930 4931 4932 4933 4934 4935 4936 4937 4938 4939 4940 4941 4942 4943 4944
        Variable: A transposed n-D Tensor, with data type being float32, float64, int32, int64.

    For Example:

        .. code-block:: text

         x = [[[ 1  2  3  4] [ 5  6  7  8] [ 9 10 11 12]]
             [[13 14 15 16] [17 18 19 20] [21 22 23 24]]]
         shape(x) =  [2,3,4]

         # Example 1
         perm0 = [1,0,2]
         y_perm0 = [[[ 1  2  3  4] [13 14 15 16]]
                   [[ 5  6  7  8]  [17 18 19 20]]
                   [[ 9 10 11 12]  [21 22 23 24]]]
         shape(y_perm0) = [3,2,4]

         # Example 2
         perm1 = [2,1,0]
         y_perm1 = [[[ 1 13] [ 5 17] [ 9 21]]
                   [[ 2 14] [ 6 18] [10 22]]
                   [[ 3 15]  [ 7 19]  [11 23]]
                   [[ 4 16]  [ 8 20]  [12 24]]]
         shape(y_perm1) = [4,3,2]
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4945 4946

    Examples:
4947

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        .. code-block:: python

4950
            # use append_batch_size=False to avoid prepending extra
4951
            # batch size in shape
4952
            import paddle.fluid as fluid
4953
            x = fluid.layers.data(name='x', shape=[2, 3, 4],
4954
                            dtype='float32', append_batch_size=False)
4955
            x_transposed = fluid.layers.transpose(x, perm=[1, 0, 2])
4956 4957
            print x_transposed.shape
            #(3L, 2L, 4L)
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4959
    """
4960 4961 4962 4963 4964 4965
    if in_dygraph_mode():
        attrs = {'axis': perm}
        inputs = {'X': [x]}
        outs = core.ops.transpose2(inputs, attrs)
        return outs['Out'][0]

4966 4967 4968
    check_variable_and_dtype(
        x, 'x', ['float16', 'float32', 'float64', 'int32', 'int64'],
        'transpose')
4969
    check_type(perm, 'perm', list, 'transpose')
4970

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    if len(perm) != len(x.shape):
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        raise ValueError(
4973 4974 4975 4976
            "Input(perm) is the permutation of dimensions of Input(x), "
            "its length should be equal to dimensions of Input(x), "
            "but received dimension of Input(x) is %s, "
            "the length of Input(perm) is %s." % (len(x.shape), len(perm)))
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    for idx, dim in enumerate(perm):
        if dim >= len(x.shape):
            raise ValueError(
4980 4981 4982
                "Each element in Input(perm) should be less than Input(x)'s dimension, "
                "but %d-th element in Input(perm) is %d which exceeds Input(x)'s "
                "dimension %d." % (idx, perm[idx], len(x.shape)))
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4983 4984

    helper = LayerHelper('transpose', **locals())
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    out = helper.create_variable_for_type_inference(x.dtype)
    x_shape = helper.create_variable_for_type_inference(x.dtype)
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    helper.append_op(
4988
        type='transpose2',
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        inputs={'X': [x]},
4990 4991
        outputs={'Out': [out],
                 'XShape': [x_shape]},
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        attrs={'axis': perm})
    return out
4994 4995


4996 4997 4998 4999 5000 5001 5002
def im2sequence(input,
                filter_size=1,
                stride=1,
                padding=0,
                input_image_size=None,
                out_stride=1,
                name=None):
5003
    """
5004
    Extracts image patches from the input tensor to form a tensor of shape
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    {input.batch_size * output_height * output_width, filter_size_height *
    filter_size_width * input.channels}. This op use filter to scan images
    and convert these images to sequences. After expanding, the number of time step are
5008 5009
    output_height * output_width for an image, in which output_height and
    output_width are calculated by below equation:
5010 5011 5012

    .. math::

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        output\_height  = 1 + \
            (padding\_up + padding\_down + input\_height  - filter\_size\_height  + stride\_height - 1) / stride\_height \\\\
        output\_width  = 1 + \
            (padding\_left + padding\_right + input\_width  - filter\_size\_width  + stride\_width - 1) / stride\_width
5017

L
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5018
    And the dimension of each time step is filter_size_height * filter_size_width * input.channels.
5019

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    Parameters:
        input (Variable): The input should be a 4-D Tensor in :math:`NCHW` format. The data type is float32.
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        filter_size(int32 | List[int32]): The filter size. If filter_size is a List,
            it must contain two integers, :math:`[filter\_size\_height, filter\_size\_width]` .
            Otherwise, the filter size will be a square :math:`[filter\_size, filter\_size]` . Default is 1.
5026

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        stride(int32 | List[int32]): The stride size. If stride is a List, it must
            contain two integers, :math:`[stride\_height, stride\_width]` . Otherwise, the stride size will be a square :math:`[stride\_size, stride\_size]` . Default is 1.
5029

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        padding(int32 | List[int32]): The padding size. If padding is a List, it can
            contain four integers like :math:`[padding\_up, padding\_left, padding\_down, padding\_right]` to indicate
            paddings of four direction.  Or it can contain two integers :math:`[padding\_height, padding\_width]` which means
            padding_up = padding_down = padding_height and
            padding_left = padding_right = padding_width. Otherwise, a scalar padding means
            padding_up = padding_down = padding_left = padding_right = padding. 
            Default is 0.
5037

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        input_image_size(Variable, optional): the input contains image real size.It's dim
            is :math:`[batchsize, 2]` . It is just for batch inference when not None. Default is None.

        out_stride(int32 | List[int32]): The scaling of image through CNN. It is valid only when input_image_size is not None.
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            If out_stride is List,  it must contain two integers,
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            :math:`[out\_stride\_height, out\_stride\_W]` . Otherwise,
            the out_stride_height = out_stride_width = out_stride. Default is 1.

        name (str, optional): The default value is None.  Normally there is no need for
                    user to set this property.  For more information, please refer to :ref:`api_guide_Name` .
    
    Returns: 
            The output is a 2-D LoDTensor with shape {input.batch\_size * output\_height * output\_width, \ 
            filter\_size\_height * filter\_size\_width * input.channels}. The data type is float32.

    Return Type: Variable
5054 5055 5056 5057 5058 5059 5060 5061 5062 5063 5064 5065 5066 5067 5068 5069 5070 5071 5072 5073 5074 5075 5076 5077 5078 5079 5080

    Examples:

        .. code-block:: text

            Given:

            x = [[[[ 6.  2.  1.]
                   [ 8.  3.  5.]
                   [ 0.  2.  6.]]

                  [[ 2.  4.  4.]
                   [ 6.  3.  0.]
                   [ 6.  4.  7.]]]

                 [[[ 6.  7.  1.]
                   [ 5.  7.  9.]
                   [ 2.  4.  8.]]

                  [[ 1.  2.  1.]
                   [ 1.  3.  5.]
                   [ 9.  0.  8.]]]]

            x.dims = {2, 2, 3, 3}

            And:

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            filter = [2, 2]
            stride = [1, 1]
            padding = [0, 0]
5084 5085 5086 5087 5088 5089 5090 5091 5092 5093 5094 5095

            Then:

            output.data = [[ 6.  2.  8.  3.  2.  4.  6.  3.]
                           [ 2.  1.  3.  5.  4.  4.  3.  0.]
                           [ 8.  3.  0.  2.  6.  3.  6.  4.]
                           [ 3.  5.  2.  6.  3.  0.  4.  7.]
                           [ 6.  7.  5.  7.  1.  2.  1.  3.]
                           [ 7.  1.  7.  9.  2.  1.  3.  5.]
                           [ 5.  7.  2.  4.  1.  3.  9.  0.]
                           [ 7.  9.  4.  8.  3.  5.  0.  8.]]

5096
            output.dims = {8, 8}
5097

5098
            output.lod = [[4, 4]]
5099

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    Examples:
5101 5102 5103

        .. code-block:: python

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            import paddle.fluid as fluid
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            data = fluid.data(name='data', shape=[None, 3, 32, 32],
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                                     dtype='float32')
5107
            output = fluid.layers.im2sequence(
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                input=data, stride=[1, 1], filter_size=[2, 2])

5110 5111

    """
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    assert not in_dygraph_mode(), (
5113
        "sequence layer is not supported in dygraph mode yet.")
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    if isinstance(filter_size, int):
        filter_size = [filter_size, filter_size]
    if isinstance(stride, int):
        stride = [stride, stride]
    if isinstance(padding, int):
        padding = [padding, padding]
    if len(padding) == 2:
        padding.append(padding[0])
        padding.append(padding[1])
5124
    inputs = {"X": input}
5125
    attrs = {"kernels": filter_size, "strides": stride, "paddings": padding}
5126 5127 5128 5129 5130
    if input_image_size:
        if isinstance(out_stride, int):
            out_stride = [out_stride, out_stride]
        inputs["Y"] = input_image_size
        attrs["out_stride"] = out_stride
5131
    helper = LayerHelper('im2sequence', **locals())
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    out = helper.create_variable_for_type_inference(dtype=helper.input_dtype())
5133
    helper.append_op(
5134
        type='im2sequence', inputs=inputs, outputs={'Out': out}, attrs=attrs)
5135
    return out
5136 5137


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@templatedoc()
5139
def row_conv(input, future_context_size, param_attr=None, act=None):
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    """
    ${comment}
5142 5143

    Args:
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        input (${x_type}): ${x_comment}.
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        future_context_size (int): Future context size. Please note, the shape
            of convolution kernel is [future_context_size + 1, D].
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        param_attr (ParamAttr): Attributes of parameters, including
            name, initializer etc.
        act (str): Non-linear activation to be applied to output variable.

    Returns:
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        ${out_comment}.
5153 5154

    Examples:
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        >>>  # for LodTensor inputs
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        >>> import paddle.fluid as fluid
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        >>> x = fluid.data(name='x', shape=[9, 16],
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        >>>                        dtype='float32', lod_level=1)
        >>> out = fluid.layers.row_conv(input=x, future_context_size=2)
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        >>> # for Tensor inputs
        >>> x = fluid.data(name='x', shape=[9, 4, 16], dtype='float32')
        >>> out = fluid.layers.row_conv(input=x, future_context_size=2)
5163 5164 5165 5166 5167 5168
    """
    helper = LayerHelper('row_conv', **locals())
    dtype = helper.input_dtype()
    filter_shape = [future_context_size + 1, input.shape[1]]
    filter_param = helper.create_parameter(
        attr=helper.param_attr, shape=filter_shape, dtype=dtype)
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    out = helper.create_variable_for_type_inference(dtype)
5170 5171 5172 5173 5174
    helper.append_op(
        type='row_conv',
        inputs={'X': [input],
                'Filter': [filter_param]},
        outputs={'Out': [out]})
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    return helper.append_activation(out)
5176 5177


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@templatedoc()
5179 5180
def multiplex(inputs, index):
    """
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5181

5182
    Based on the given index parameter, the OP selects a specific row from each input Tensor to construct the output Tensor.
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5183

5184
    If the input of this OP contains :math:`m` Tensors, where :math:`I_{i}` means the i-th input Tensor, :math:`i` between :math:`[0,m)` .
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5186
    And :math:`O` means the output, where :math:`O[i]` means the i-th row of the output, then the output satisfies that :math:`O[i] = I_{index[i]}[i]` .
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5187

5188
    For Example:
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5189

5190
            .. code-block:: text
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5191

5192
                Given:
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5193

5194 5195 5196 5197
                inputs = [[[0,0,3,4], [0,1,3,4], [0,2,4,4], [0,3,3,4]],
                          [[1,0,3,4], [1,1,7,8], [1,2,4,2], [1,3,3,4]],
                          [[2,0,3,4], [2,1,7,8], [2,2,4,2], [2,3,3,4]],
                          [[3,0,3,4], [3,1,7,8], [3,2,4,2], [3,3,3,4]]]
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5198

5199
                index = [[3],[0],[1],[2]]
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5201 5202 5203 5204
                out = [[3,0,3,4],    # out[0] = inputs[index[0]][0] = inputs[3][0] = [3,0,3,4]
                       [0,1,3,4],    # out[1] = inputs[index[1]][1] = inputs[0][1] = [0,1,3,4]
                       [1,2,4,2],    # out[2] = inputs[index[2]][2] = inputs[1][2] = [1,2,4,2]
                       [2,3,3,4]]    # out[3] = inputs[index[3]][3] = inputs[2][3] = [2,3,3,4]
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5207 5208 5209
    Args:
       inputs (list): The input Tensor list. The list elements are N-D Tensors of data types float32, float64, int32, int64. All input Tensor shapes should be the same and rank must be at least 2.
       index (Variable): Used to select some rows in the input Tensor to construct an index of the output Tensor. It is a 2-D Tensor with data type int32 or int64 and shape [M, 1], where M is the number of input Tensors.
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5211
    Returns:
5212
        Variable(Tensor): Output of multiplex OP, with data type being float32, float64, int32, int64.
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5213 5214

    Examples:
5215

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5216 5217
        .. code-block:: python

5218
            import paddle.fluid as fluid
5219
            import numpy as np
5220

5221 5222 5223 5224
            x1 = fluid.data(name='x1', shape=[None, 2], dtype='float32')
            x2 = fluid.data(name='x2', shape=[None, 2], dtype='float32')
            index = fluid.data(name='index', shape=[None, 1], dtype='int32')
            out = fluid.layers.multiplex(inputs=[x1, x2], index=index)
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5226 5227 5228 5229 5230 5231 5232 5233 5234
            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_startup_program())

            img1 = np.array([[1, 2], [3, 4]]).astype(np.float32)
            img2 = np.array([[5, 6], [7, 8]]).astype(np.float32)
            index = np.array([[1], [0]]).astype(np.int32)

            res = exe.run(fluid.default_main_program(), feed={'x1':img1, 'x2':img2, 'index':index}, fetch_list=[out])
            print(res) # [array([[5., 6.], [3., 4.]], dtype=float32)]
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5236 5237 5238 5239 5240 5241 5242 5243
    """
    helper = LayerHelper('multiplex', **locals())

    if not isinstance(inputs, list) and len(inputs) < 2:
        raise ValueError("inputs should be a list object and contains at least "
                         "2 elements.")

    out = helper.create_variable_for_type_inference(inputs[0].dtype)
5244
    helper.append_op(
5245 5246 5247 5248 5249
        type='multiplex',
        inputs={'X': inputs,
                'Ids': index},
        outputs={'Out': [out]})
    return out
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5250 5251


5252 5253
def smooth_l1(x, y, inside_weight=None, outside_weight=None, sigma=None):
    """
Y
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5254 5255
    This layer computes the smooth L1 loss for Variable :attr:`x` and :attr:`y`.
    It takes the first dimension of :attr:`x` and :attr:`y` as batch size.
Q
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5256
    For each instance, it computes the smooth L1 loss element by element first
T
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5257
    and then sums all the losses. So the shape of output Variable is
5258
    [batch_size, 1].
5259

5260 5261
    Args:
        x (Variable): A tensor with rank at least 2. The input value of smooth
Q
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5262
            L1 loss op with shape [batch_size, dim1, ..., dimN].
5263
            A LoDTensor or Tensor with type float32.
5264
        y (Variable): A tensor with rank at least 2. The target value of smooth
Y
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5265
            L1 loss op with same shape as :attr:`x`.
5266
            A LoDTensor or Tensor with type float32.
5267
        inside_weight (Variable|None):  A tensor with rank at least 2. This
5268 5269
            input is optional and should have same shape with :attr:`x`. If
            provided, the result of (:attr:`x` - :attr:`y`) will be multiplied
Y
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5270
            by this tensor element by element.
5271
            A Tensor with type float32.
5272
        outside_weight (Variable|None): A tensor with rank at least 2. This
5273 5274
            input is optional and should have same shape with :attr:`x`. If
            provided, the out smooth L1 loss will be multiplied by this tensor
Y
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5275
            element by element.
5276
            A Tensor with type float32.
5277
        sigma (float|None): Hyper parameter of smooth L1 loss layer. A float
5278 5279
           scalar with default value 1.0.

5280
    Returns:
5281
        Variable: The output smooth L1 loss with shape [batch_size, 1].  A Tensor with type float32.
5282 5283 5284 5285

    Examples:
        .. code-block:: python

5286
            import paddle.fluid as fluid
5287 5288 5289 5290 5291 5292 5293 5294 5295 5296 5297 5298 5299 5300 5301 5302 5303
            import numpy as np
            data = fluid.data(name="x", shape=[-1, 3], dtype="float32")
            label = fluid.data(name="y", shape=[-1, 3], dtype="float32")
            result = fluid.layers.smooth_l1(data,label)
            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            exe.run(fluid.default_startup_program())
            x = np.random.rand(3,3).astype("float32")
            y = np.random.rand(3,3).astype("float32")
            output= exe.run(feed={"x":x, "y":y},
                             fetch_list=[result])
            print(output)
        
            #[array([[0.08220536],
            #       [0.36652038],
            #      [0.20541131]], dtype=float32)]

5304
    """
5305

5306
    helper = LayerHelper('smooth_l1_loss', **locals())
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5307 5308
    diff = helper.create_variable_for_type_inference(dtype=x.dtype)
    loss = helper.create_variable_for_type_inference(dtype=x.dtype)
5309 5310 5311 5312 5313 5314 5315 5316 5317 5318
    helper.append_op(
        type='smooth_l1_loss',
        inputs={
            'X': x,
            'Y': y,
            'InsideWeight': inside_weight,
            'OutsideWeight': outside_weight
        },
        outputs={'Diff': diff,
                 'Out': loss},
5319
        attrs={'sigma': sigma if sigma is not None else 1.0})
5320
    return loss
5321 5322


5323
def one_hot(input, depth, allow_out_of_range=False):
5324
    """
5325 5326 5327 5328 5329 5330 5331 5332 5333 5334 5335 5336 5337 5338 5339 5340 5341 5342 5343 5344 5345 5346 5347 5348 5349 5350 5351 5352 5353 5354 5355 5356 5357 5358 5359 5360 5361 5362 5363 5364 5365 5366 5367 5368 5369 5370 5371 5372 5373 5374 5375 5376 5377 5378

    **WARING:** This OP requires the last dimension of Tensor shape must be equal to 1.
    This OP will be deprecated in a future release. It is recommended to use fluid. :ref:`api_fluid_one_hot` .

    The operator converts each id in the input to an one-hot vector with a
    :attr:`depth` length. The value in the vector dimension corresponding to the id
    is 1, and the value in the remaining dimension is 0.

    The shape of output Tensor or LoDTensor is generated by adding :attr:`depth` dimension
    behind the last dimension of the input shape.

    .. code-block:: text

        Example 1 (allow_out_of_range=False):

        input:
            X.shape = [4, 1]
            X.data = [[1], [1], [3], [0]]
            depth = 4

        output:
            Out.shape = [4, 4]
            Out.data = [[0., 1., 0., 0.],
                        [0., 1., 0., 0.],
                        [0., 0., 0., 1.],
                        [1., 0., 0., 0.]]

        Example 2 (allow_out_of_range=True):

        input:
            X.shape = [4, 1]
            X.data = [[1], [1], [5], [0]]
            depth = 4
            allow_out_of_range = True

        output:
            Out.shape = [4, 4]
            Out.data = [[0., 1., 0., 0.],
                        [0., 1., 0., 0.], 
                        [0., 0., 0., 0.], # This id is 5, which goes beyond depth, so set it all-zeros data.
                        [1., 0., 0., 0.]]

        Example 3 (allow_out_of_range=False):

        input:
            X.shape = [4, 1]
            X.data = [[1], [1], [5], [0]]
            depth = 4
            allow_out_of_range = False

        output: Throw an exception for Illegal value
            The second dimension in X is 5, which is greater than depth.  
            Allow_out_of_range =False means that does not allow the word id to exceed depth,
            so it throws an exception.
5379 5380

    Args:
5381 5382 5383 5384 5385
        input(Variable): Tensor or LoDTensor with shape :math:`[N_1, N_2, ..., N_k, 1]` ,
            which contains at least one dimension and the last dimension must be 1.
            The data type is int32 or int64.
        depth(scalar): An integer defining the :attr:`depth` of the one hot dimension. If input 
            is word id, depth is generally the dictionary size.
5386
        allow_out_of_range(bool): A bool value indicating whether the input
5387 5388 5389 5390
            indices could be out of range :math:`[0, depth)` . When input indices are
            out of range, exceptions :code:`Illegal value` is raised if :attr:`allow_out_of_range`
            is False, or zero-filling representations is created if it is set True.
            Default: False.
5391 5392

    Returns:
5393
        Variable: The one-hot representations of input. A Tensor or LoDTensor with type float32.
5394 5395

    Examples:
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5396
        .. code-block:: python
5397

5398
            import paddle.fluid as fluid
5399 5400 5401
            # Correspond to the first example above, where label.shape is [4, 1] and one_hot_label.shape is [4, 4].
            label = fluid.data(name="label", shape=[4, 1], dtype="int64")
            one_hot_label = fluid.layers.one_hot(input=label, depth=4)
5402
    """
5403 5404 5405 5406 5407 5408
    if in_dygraph_mode():
        inputs = {'X': [input]}
        attrs = {'depth': depth, 'allow_out_of_range': allow_out_of_range}
        outs = core.ops.one_hot(inputs, attrs)
        outs['Out'][0].stop_gradient = True
        return outs['Out'][0]
5409

5410
    helper = LayerHelper("one_hot", **locals())
X
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5411
    one_hot_out = helper.create_variable_for_type_inference(dtype='float32')
5412

5413 5414
    if not isinstance(depth, Variable):
        # user attribute
5415
        inputs = {'X': input}
Y
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5416
        attrs = {'depth': depth, 'allow_out_of_range': allow_out_of_range}
5417
    else:
5418 5419 5420
        depth.stop_gradient = True
        inputs = {'X': input, 'depth_tensor': depth}
        attrs = {'allow_out_of_range': allow_out_of_range}
5421 5422
    helper.append_op(
        type="one_hot",
5423 5424
        inputs=inputs,
        attrs=attrs,
5425 5426
        outputs={'Out': one_hot_out})
    one_hot_out.stop_gradient = True
5427
    return one_hot_out
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5428 5429


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5430
def autoincreased_step_counter(counter_name=None, begin=1, step=1):
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5431
    """
Y
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5432 5433 5434
    Create an auto-increase variable. which will be automatically increased 
    by 1 in every iteration. By default, the first return of this counter is 1, 
    and the step size is 1.
Y
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5435 5436

    Args:
Y
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5437 5438 5439
        counter_name(str, optional): The counter name. Default '@STEP_COUNTER@'.
        begin(int, optional): The first return value of this counter. Default 1.
        step(int, optional): The step size. Default 1.
Y
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5440

5441
    Returns:
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5442
        Variable: The auto-increased Variable with data type int64.
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5443 5444 5445 5446

    Examples:
        .. code-block:: python

5447
           import paddle.fluid as fluid
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5448
           global_step = fluid.layers.autoincreased_step_counter(
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5449
               counter_name='@LR_DECAY_COUNTER@', begin=0, step=1)
Y
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5450 5451
    """
    helper = LayerHelper('global_step_counter')
Y
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5452 5453
    if counter_name is None:
        counter_name = '@STEP_COUNTER@'
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5454
    counter, is_new_var = helper.create_or_get_global_variable(
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5455 5456 5457 5458 5459
        name=counter_name,
        dtype='int64',
        shape=[1],
        persistable=True,
        belong_to_optimizer=True)
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5460 5461 5462
    if is_new_var:
        helper.set_variable_initializer(
            counter, initializer=Constant(
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5463
                value=begin - 1, force_cpu=True))
W
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5464
        helper.main_program.global_block()._prepend_op(
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5465 5466
            type='increment',
            inputs={'X': [counter]},
Y
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5467
            outputs={'Out': [counter]},
5468
            attrs={'step': float(step)})
Y
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5469 5470 5471
        counter.stop_gradient = True

    return counter
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5472 5473


5474
def reshape(x, shape, actual_shape=None, act=None, inplace=False, name=None):
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5475
    """
5476
    This operator changes the shape of ``x`` without changing its data.
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5477

5478 5479 5480 5481
    The target shape can be given by ``shape`` or ``actual_shape``.
    When ``shape`` and ``actual_shape`` are set at the same time,
    ``actual_shape`` has a higher priority than ``shape``
    but at this time ``shape`` can only be an integer list or tuple, and ``shape`` still should be set correctly to
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    guarantee shape inference in compile-time.
C
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5483

5484
    Some tricks exist when specifying the target shape.
C
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5485

5486 5487 5488 5489
    1. -1 means the value of this dimension is inferred from the total element
    number of x and remaining dimensions. Thus one and only one dimension can
    be set -1.

5490
    2. 0 means the actual dimension value is going to be copied from the
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    corresponding dimension of x. The index of 0s in shape can not exceed
5492
    the dimension of x.
5493 5494

    Here are some examples to explain it.
C
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5495 5496

    1. Given a 3-D tensor x with a shape [2, 4, 6], and the target shape
W
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5497
    is [6, 8], the reshape operator will transform x into a 2-D tensor with
5498
    shape [6, 8] and leaving x's data unchanged.
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5499

5500
    2. Given a 3-D tensor x with a shape [2, 4, 6], and the target shape
5501 5502
    specified is [2, 3, -1, 2], the reshape operator will transform x into a
    4-D tensor with shape [2, 3, 4, 2] and leaving x's data unchanged. In this
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    case, one dimension of the target shape is set to -1, the value of this
    dimension is inferred from the total element number of x and remaining
5505
    dimensions.
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5506

5507
    3. Given a 3-D tensor x with a shape [2, 4, 6], and the target shape
5508 5509 5510 5511
    is [-1, 0, 3, 2], the reshape operator will transform x into a 4-D tensor
    with shape [2, 4, 3, 2] and leaving x's data unchanged. In this case,
    besides -1, 0 means the actual dimension value is going to be copied from
    the corresponding dimension of x.
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5513 5514
    **Note**:
        The parameter ``actual_shape`` will be deprecated in the future and only use ``shape`` instead to represent the target shape.
5515

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    Args:
5517 5518 5519 5520 5521 5522 5523 5524 5525 5526 5527 5528 5529 5530 5531 5532 5533
        x(Variable): A ``Tensor`` or ``LoDTensor`` . The data type is ``float32``, ``float64``, ``int32`` or ``int64``.
        shape(list|tuple|Variable): Define the target shape. At most one dimension of the target shape can be -1.
                        The data type is ``int32`` . If ``shape`` is a list or tuple, the elements of it should be integers or Tensors with shape [1].
                        If ``shape`` is an Variable, it should be an 1-D Tensor .
        actual_shape(variable, optional): An 1-D ``Tensor`` or ``LoDTensor`` . The data type is ``int32`` . If provided, reshape
                                according to this given shape rather than ``shape`` specifying shape.
                                That is to say ``actual_shape`` has a higher priority
                                than ``shape(list|tuple)`` but not ``shape(Variable)``. \
                                This argument ``actual_shape`` will be removed in a future version. \
                                Instructions for updating: ``actual_shape`` will be removed in future versions and replaced by ``shape``.
        act (str, optional): The non-linear activation to be applied to the reshaped input. Default None.
        inplace(bool, optional): If ``inplace`` is True, the input and output of ``layers.reshape``
                       are the same variable. Otherwise, the input and output of
                       ``layers.reshape`` are different variable. Default False. Note that if ``x``
                       is more than one OPs' input, ``inplace`` must be False.
        name(str, optional): The default value is None. Normally there is no need for user to set this property.
                            For more information, please refer to :ref:`api_guide_Name` .
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5534

5535
    Returns:
5536
        Variable: A ``Tensor`` or ``LoDTensor``. The data type is same as ``x``. It is a new tensor variable if ``inplace`` is ``False``, otherwise it is ``x``. If ``act`` is None, return the reshaped tensor variable, otherwise return the activated tensor variable.
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5537

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5538
    Raises:
5539 5540 5541 5542
        TypeError: If actual_shape is neither Variable nor None.
        ValueError: If more than one elements of ``shape`` is -1.
        ValueError: If the element of ``shape`` is 0, the corresponding dimension should be less than or equal to the dimension of ``x``.
        ValueError: If the elements in ``shape`` is negative except -1.
X
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5543

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5544 5545
    Examples:
        .. code-block:: python
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5546

5547
            import paddle.fluid as fluid
5548 5549 5550

            # example 1:
            # attr shape is a list which doesn't contain tensor Variable.
5551 5552
            data_1 = fluid.data(
              name='data_1', shape=[2, 4, 6], dtype='float32')
5553
            reshaped_1 = fluid.layers.reshape(
5554 5555
              x=data_1, shape=[-1, 0, 3, 2], inplace=True)
            # the shape of reshaped_1 is [2,4,3,2].
5556 5557 5558 5559 5560 5561

            # example 2:
            # attr shape is a list which contains tensor Variable.
            data_2 = fluid.layers.fill_constant([2,25], "int32", 3)
            dim = fluid.layers.fill_constant([1], "int32", 5)
            reshaped_2 = fluid.layers.reshape(data_2, shape=[dim, 10])
5562
            # the shape of reshaped_2 is [5,10].
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5563 5564 5565 5566 5567 5568

            # example 3:
            data_3 = fluid.data(
              name="data_3", shape=[2,4,6], dtype='float32')
            reshaped_3 = fluid.layers.reshape(x=data_3, shape=[6,8])
            # the shape of reshaped_3 is [6,8].
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5569
    """
5570
    if in_dygraph_mode():
L
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5571
        #TODO(zhiqiu): enable inplace in dygraph mode.
5572 5573 5574 5575 5576 5577
        if inplace:
            warnings.warn(
                "Inplace on reshape is not allowed and will be discarded in dygraph mode currently."
            )
        attrs = {}
        if isinstance(shape, (list, tuple)):
L
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5578
            if utils._contain_var(shape):
5579 5580 5581 5582 5583 5584 5585 5586 5587 5588 5589
                raise TypeError(
                    "The type of 'shape' in reshape must be list[int] or tuple(int) in Dygraph mode, but "
                    "received %s, which contains Variable." % type(shape))
            attrs['shape'] = shape
        else:
            raise TypeError(
                "The type of 'shape' in reshape must be list[int] or tuple(int) in Dygraph mode, but "
                "received %s." % type(shape))

        inputs = {'X': [x]}
        outs = core.ops.reshape2(inputs, attrs)
5590 5591
        out = outs['Out'][0]
        return dygraph_utils._append_activation_in_dygraph(out, act)
5592

5593 5594
    check_variable_and_dtype(
        x, 'x', ['float16', 'float32', 'float64', 'int32', 'int64'], 'reshape')
5595 5596
    check_type(shape, 'shape', (list, tuple, Variable), 'reshape')
    check_type(actual_shape, 'actual_shape', (Variable, type(None)), 'reshape')
5597

5598
    helper = LayerHelper("reshape2", **locals())
5599 5600 5601 5602 5603 5604 5605 5606 5607 5608 5609 5610 5611 5612 5613 5614 5615 5616 5617 5618 5619 5620 5621 5622

    def get_new_shape_tensor(list_shape):
        new_shape_tensor = []
        for dim in list_shape:
            if isinstance(dim, Variable):
                dim.stop_gradient = True
                new_shape_tensor.append(dim)
            else:
                assert (isinstance(dim, int))
                temp_out = helper.create_variable_for_type_inference('int32')
                fill_constant([1], 'int32', dim, force_cpu=True, out=temp_out)
                new_shape_tensor.append(temp_out)
        return new_shape_tensor

    def get_attr_shape(list_shape):
        unk_dim_idx = -1
        attrs_shape = []
        for dim_idx, dim_size in enumerate(list_shape):
            if isinstance(dim_size, Variable):
                attrs_shape.append(-1)
            else:
                attrs_shape.append(dim_size)
                if dim_size == -1:
                    assert unk_dim_idx == -1, (
5623 5624
                        "Only one dimension value of 'shape' in reshape can "
                        "be -1. But received shape[%d] is also -1." % dim_idx)
5625 5626 5627
                    unk_dim_idx = dim_idx
                elif dim_size == 0:
                    assert dim_idx < len(x.shape), (
5628 5629 5630 5631
                        "The index of 0 in `shape` must be less than "
                        "the input tensor X's dimensions. "
                        "But received shape[%d] = 0, X's dimensions = %d." %
                        (dim_idx, len(x.shape)))
5632 5633
                else:
                    assert dim_size > 0, (
5634
                        "Each dimension value of 'shape' in reshape must not "
T
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5635
                        "be negative except one unknown dimension. "
5636 5637
                        "But received shape[%d] = %s." %
                        (dim_idx, str(dim_size)))
5638 5639
        return attrs_shape

5640 5641 5642 5643 5644 5645 5646 5647 5648
    inputs = {"X": x}
    attrs = {}
    if isinstance(shape, Variable):
        shape.stop_gradient = True
        inputs["Shape"] = shape
    elif isinstance(shape, (list, tuple)):
        assert len(shape) > 0, ("The size of 'shape' in reshape can't be zero, "
                                "but received %s." % len(shape))
        attrs["shape"] = get_attr_shape(shape)
L
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5649
        if utils._contain_var(shape):
5650 5651 5652 5653 5654 5655 5656
            inputs['ShapeTensor'] = get_new_shape_tensor(shape)
        elif isinstance(actual_shape, Variable):
            actual_shape.stop_gradient = True
            inputs["Shape"] = actual_shape

    out = x if inplace else helper.create_variable_for_type_inference(
        dtype=x.dtype)
X
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5657
    x_shape = helper.create_variable_for_type_inference(dtype=x.dtype)
C
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5658
    helper.append_op(
5659
        type="reshape2",
X
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5660
        inputs=inputs,
5661
        attrs=attrs,
5662 5663
        outputs={"Out": out,
                 "XShape": x_shape})
C
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5664

D
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5665
    return helper.append_activation(out)
5666

5667

5668
def squeeze(input, axes, name=None):
Y
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5669
    """
5670 5671 5672
    This OP will squeeze single-dimensional entries of input tensor's shape. If axes is provided, will
    remove the dims by axes, the dims selected by axes should be one. If not provide axes, all dims equal
    to one will be deleted.
M
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5673

H
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5674

5675
    .. code-block:: text 
H
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5676

5677
        Case1:
H
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5678

5679
          Input:
H
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5680 5681
            X.shape = (1, 3, 1, 5)
            axes = [0]
5682
          Output:
H
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5683 5684
            Out.shape = (3, 1, 5)

5685
        Case2:
H
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5686

5687
          Input:
H
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5688 5689
            X.shape = (1, 3, 1, 5)
            axes = []
5690
          Output:
H
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5691
            Out.shape = (3, 5)
M
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5692

5693 5694 5695 5696 5697 5698 5699 5700
        Case3:

          Input:
            X.shape = [1,3,1,5]
            axes = [-2]
          Output:
            Out.shape = [1,3,5]

Y
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5701
    Args:
5702 5703 5704 5705 5706
        input (Variable): The input Tensor. Support data type: float32, float64, int8, int32, int64.
                          axes (list): One integer or List of integers, indicating the dimensions to be squeezed.
                          Axes range is :math:`[-rank(input), rank(input))`.
                          If axes is negative, :math:`axes=axes+rank(input)`.
        name (str, optional): Please refer to :ref:`api_guide_Name`, Default None.
Y
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5707 5708

    Returns:
5709
        Variable: Output squeezed Tensor. Data type is same as input Tensor.
Y
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5710 5711 5712 5713

    Examples:
        .. code-block:: python

5714
            import paddle.fluid as fluid
5715
            import paddle.fluid.layers as layers
5716 5717 5718 5719
            # set batch size=None
            x = fluid.data(name='x', shape=[None, 5, 1, 10])
            y = layers.squeeze(input=x, axes=[2]) # y.shape=[None, 5, 10]

Y
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5720 5721
    """
    helper = LayerHelper("squeeze", **locals())
5722 5723 5724
    check_variable_and_dtype(input, 'input',
                             ['float32', 'float64', 'int8', 'int32', 'int64'],
                             'squeeze')
5725
    check_type(axes, 'axes', list, 'squeeze')
X
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5726 5727
    out = helper.create_variable_for_type_inference(dtype=input.dtype)
    x_shape = helper.create_variable_for_type_inference(dtype=input.dtype)
Y
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5728
    helper.append_op(
5729
        type="squeeze2",
5730
        inputs={"X": input},
Y
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5731
        attrs={"axes": axes},
5732 5733
        outputs={"Out": out,
                 "XShape": x_shape})
Y
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5734

5735 5736 5737
    return out


5738
def unsqueeze(input, axes, name=None):
Y
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5739
    """
5740
    Insert single-dimensional entries to the shape of a Tensor. Takes one
M
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5741 5742
    required argument axes, a list of dimensions that will be inserted.
    Dimension indices in axes are as seen in the output tensor.
Y
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5743

M
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5744
    For example:
H
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5745 5746 5747

    .. code-block:: text

M
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5748
      Given a tensor such that tensor with shape [3, 4, 5],
Y
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5749
      then Unsqueezed tensor with axes=[0, 4] has shape [1, 3, 4, 5, 1].
M
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5750

Y
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5751
    Args:
5752
        input (Variable): The input Tensor to be unsqueezed. It is a N-D Tensor of data types float32, float64, int32.
5753
        axes (int|list|tuple|Variable): Indicates the dimensions to be inserted. The data type is ``int32`` . If ``axes`` is a list or tuple, the elements of it should be integers or Tensors with shape [1]. If ``axes`` is an Variable, it should be an 1-D Tensor .
5754
        name (str|None): Name for this layer.
Y
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5755 5756

    Returns:
5757
        Variable: Output unsqueezed Tensor, with data type being float32, float64, int32, int64.
Y
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5758 5759 5760 5761

    Examples:
        .. code-block:: python

5762 5763 5764
            import paddle.fluid as fluid
            x = fluid.layers.data(name='x', shape=[5, 10])
            y = fluid.layers.unsqueeze(input=x, axes=[1])
5765

Y
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5766
    """
5767 5768 5769 5770 5771 5772 5773 5774 5775 5776 5777 5778 5779 5780 5781 5782 5783 5784 5785 5786 5787 5788 5789 5790 5791 5792 5793
    if not isinstance(axes, (int, list, tuple, Variable)):
        raise TypeError(
            "The type of 'axes' in unsqueeze must be int, list, tuple or Variable, but "
            "received %s." % (type(axes)))
    helper = LayerHelper("unsqueeze2", **locals())
    inputs = {"X": input}
    attrs = {}

    def _to_Variable_list(one_list):
        Variable_list = []
        for ele in one_list:
            if isinstance(ele, Variable):
                ele.stop_gradient = True
                Variable_list.append(ele)
            else:
                assert (isinstance(ele, int))
                temp_out = helper.create_variable_for_type_inference('int32')
                fill_constant([1], 'int32', ele, force_cpu=True, out=temp_out)
                Variable_list.append(temp_out)
        return Variable_list

    if isinstance(axes, int):
        axes = [axes]
    if isinstance(axes, Variable):
        axes.stop_gradient = True
        inputs["AxesTensor"] = axes
    elif isinstance(axes, (list, tuple)):
L
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5794
        if utils._contain_var(axes):
5795 5796 5797 5798
            inputs["AxesTensorList"] = _to_Variable_list(axes)
        else:
            attrs["axes"] = axes

X
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5799 5800
    out = helper.create_variable_for_type_inference(dtype=input.dtype)
    x_shape = helper.create_variable_for_type_inference(dtype=input.dtype)
Y
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5801
    helper.append_op(
5802
        type="unsqueeze2",
5803 5804
        inputs=inputs,
        attrs=attrs,
5805 5806
        outputs={"Out": out,
                 "XShape": x_shape})
Y
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5807

5808 5809
    return out

5810

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5811
def lod_reset(x, y=None, target_lod=None):
Y
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5812
    """
Y
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5813
    Set LoD of :attr:`x` to a new one specified by :attr:`y` or
5814 5815 5816 5817
    :attr:`target_lod`. When :attr:`y` provided, :attr:`y.lod` would be
    considered as target LoD first, otherwise :attr:`y.data` would be
    considered as target LoD. If :attr:`y` is not provided, target LoD should
    be specified by :attr:`target_lod`. If target LoD is specified by
5818
    :attr:`y.data` or :attr:`target_lod`, only one level LoD is supported.
Y
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5819 5820 5821 5822 5823 5824

    .. code-block:: text

        * Example 1:

            Given a 1-level LoDTensor x:
5825
                x.lod =  [[ 2,           3,                   1 ]]
Y
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5826 5827 5828
                x.data = [[1.0], [2.0], [3.0], [4.0], [5.0], [6.0]]
                x.dims = [6, 1]

5829
            target_lod: [4, 2]
Y
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5830 5831

            then we get a 1-level LoDTensor:
5832
                out.lod =  [[4,                          2]]
Y
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5833 5834 5835 5836 5837 5838
                out.data = [[1.0], [2.0], [3.0], [4.0], [5.0], [6.0]]
                out.dims = [6, 1]

        * Example 2:

            Given a 1-level LoDTensor x:
5839
                x.lod =  [[2,            3,                   1]]
Y
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5840 5841 5842 5843
                x.data = [[1.0], [2.0], [3.0], [4.0], [5.0], [6.0]]
                x.dims = [6, 1]

            y is a Tensor:
5844
                y.data = [[2, 4]]
Y
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5845 5846 5847
                y.dims = [1, 3]

            then we get a 1-level LoDTensor:
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                out.lod =  [[2,            4]]
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                out.data = [[1.0], [2.0], [3.0], [4.0], [5.0], [6.0]]
                out.dims = [6, 1]

        * Example 3:

            Given a 1-level LoDTensor x:
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                x.lod =  [[2,            3,                   1]]
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                x.data = [[1.0], [2.0], [3.0], [4.0], [5.0], [6.0]]
                x.dims = [6, 1]

            y is a 2-level LoDTensor:
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                y.lod =  [[2, 2], [2, 2, 1, 1]]
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                y.data = [[1.1], [2.1], [3.1], [4.1], [5.1], [6.1]]
                y.dims = [6, 1]

            then we get a 2-level LoDTensor:
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                out.lod =  [[2, 2], [2, 2, 1, 1]]
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                out.data = [[1.0], [2.0], [3.0], [4.0], [5.0], [6.0]]
                out.dims = [6, 1]

    Args:
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        x (Variable): Input variable which could be a Tensor or LoDTensor.
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        y (Variable|None): If provided, output's LoD would be derived
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                           from :attr:`y`.
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        target_lod (list|tuple|None): One level LoD which should be considered
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                                      as target LoD when :attr:`y` not provided.
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    Returns:
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        Variable: Output variable with LoD specified by this layer.
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    Raises:
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        ValueError: If :attr:`y` and :attr:`target_lod` are both None.
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            x = fluid.layers.data(name='x', shape=[10])
            y = fluid.layers.data(name='y', shape=[10, 20], lod_level=2)
            out = fluid.layers.lod_reset(x=x, y=y)
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    """
    helper = LayerHelper("lod_reset", **locals())
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    if y is not None:
        helper.append_op(
            type="lod_reset", inputs={'X': x,
                                      'Y': y}, outputs={'Out': out})
    elif target_lod is not None:
        helper.append_op(
            type="lod_reset",
            inputs={'X': x},
            attrs={'target_lod': target_lod},
            outputs={'Out': out})
    else:
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        raise ValueError("y and target_lod should not be both none.")
    return out


def lod_append(x, level):
    """
    Append level to LoD of :attr:`x`.

    .. code-block:: text

        * Example 1:

            given a 1-level LoDTensor x:
                x.lod =  [[ 2,           3,                   1 ]]
                x.data = [[1.0], [2.0], [3.0], [4.0], [5.0], [6.0]]
                x.dims = [6, 1]

            level: [1, 1, 1, 1, 1, 1, 1]

            then we get a 2-level LoDTensor:
                x.lod =  [[ 2, 3, 1 ], [1, 1, 1, 1, 1, 1]]
                x.data = [[1.0], [2.0], [3.0], [4.0], [5.0], [6.0]]
                x.dims = [6, 1]

    Args:
        x (Variable): Input variable which could be a tensor or LoDTensor.
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        level (list|tuple|Variable): The LoD level to be appended into LoD of x.
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    Returns:
        Variable: Output variable with new LoD level.

    Raises:
        ValueError: If :attr:`y` is None or and :attr:`level` is not Iterator.
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    Examples:
        .. code-block:: python

            import paddle.fluid as fluid
            x = fluid.layers.data(name='x', shape=[6, 10], lod_level=1)
            out = fluid.layers.lod_append(x, [1,1,1,1,1,1])
    """
    from collections import Iterable
    if x is None:
        raise ValueError("Input(x) can't be None.")
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    if (not isinstance(level, Iterable)) and (not isinstance(level, Variable)):
        raise ValueError("Input(level) must be list, tuple or Variable.")

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    helper = LayerHelper("lod_append", **locals())
    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    inputs = {'X': x}
    attrs = {'append': True}

    if isinstance(level, Variable):
        inputs['Y'] = level
    else:
        attrs['target_lod'] = level
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    helper.append_op(
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        type="lod_reset", inputs=inputs, attrs=attrs, outputs={'Out': out})
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    return out
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def lrn(input, n=5, k=1.0, alpha=1e-4, beta=0.75, name=None,
        data_format='NCHW'):
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    """
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    This operator implements the Local Response Normalization Layer.
    This layer performs a type of "lateral inhibition" by normalizing over local input regions.
    For more information, please refer to `ImageNet Classification with Deep Convolutional Neural Networks <https://papers.nips.cc/paper/4824-imagenet-classification-with-deep-convolutional-neural-networks.pdf>`_
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    The formula is as follows:

    .. math::

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        Output(i, x, y) = Input(i, x, y) / \\left(k + \\alpha \\sum\\limits^{\\min(C-1, i + n/2)}_{j = \\max(0, i - n/2)}(Input(j, x, y))^2\\right)^{\\beta}
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    In the above equation:

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    - :math:`n` : The number of channels to sum over.
    - :math:`k` : The offset (avoid being divided by 0).
    - :math:`\\alpha` : The scaling parameter.
    - :math:`\\beta` : The exponent parameter.
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    Args:
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        input (Variable): Input feature, 4D-Tensor with the shape of [N,C,H,W] or [N, H, W, C], 
            where N is the batch size, C is the input channel, H is Height, W is weight. The data 
            type is float32. The rank of this tensor must be 4, otherwise it will raise ValueError.
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        n (int, optional): The number of channels to sum over. Default: 5
        k (float, optional): An offset, positive. Default: 1.0
        alpha (float, optional): The scaling parameter, positive. Default:1e-4
        beta (float, optional): The exponent, positive. Default:0.75
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        name (str, optional): The default value is None. Normally there is no need for user to set 
            this property. For more information, please refer to :ref:`api_guide_Name` 
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        data_format (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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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    Returns:
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        Variable: A tensor variable storing the transformation result with the same shape and data type as input.

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    Examples:

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    .. code-block:: python

        import paddle.fluid as fluid
        data = fluid.data(
            name="data", shape=[None, 3, 112, 112], dtype="float32")
        lrn = fluid.layers.lrn(input=data)
        print(lrn.shape)  # [-1, 3, 112, 112]
        print(lrn.dtype)  # float32
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    """
    helper = LayerHelper('lrn', **locals())
    dtype = helper.input_dtype()
    input_shape = input.shape
    dims = len(input_shape)

    if dims != 4:
        raise ValueError(
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            "Input's dimension size of Op(lrn) must be 4, but received %d." %
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            (dims))
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    if data_format not in ['NCHW', 'NHWC']:
        raise ValueError(
            "Attr(data_format) of Op(lrn) got wrong value: received " +
            data_format + " but only NCHW or NHWC supported.")
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    mid_out = helper.create_variable_for_type_inference(
        dtype=dtype, stop_gradient=True)
    lrn_out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type="lrn",
        inputs={"X": input},
        outputs={
            "Out": lrn_out,
            "MidOut": mid_out,
        },
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        attrs={
            "n": n,
            "k": k,
            "alpha": alpha,
            "beta": beta,
            "data_format": data_format
        })
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    return lrn_out
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def pad(x, paddings, pad_value=0., name=None):
    """
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    This op will pad a tensor with a constant value given by :attr:`pad_value`, and the
    padded shape is specified by :attr:`paddings`.
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    Specifically, the number of values padded before the elements of :attr:`x`
    in dimension :attr:`i` is indicated by :attr:`paddings[2*i]`, and the number
    of values padded after the elements of :attr:`x` in dimension :attr:`i` is
    indicated by :attr:`paddings[2*i+1]`.
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    See below for an example.

    .. code-block:: text

        Given:
            x = [[1, 2], [3, 4]]

            paddings = [0, 1, 1, 2]

            pad_value = 0

        Return:

            out = [[0, 1, 2, 0, 0]
                   [0, 3, 4, 0, 0]
                   [0, 0, 0, 0, 0]]

    Args:
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        x (Variable): Tensor, data type is float32.
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        paddings (list): A list of integers. Its elements specify the padded
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                         width before and after each dimension in turn.
                         The length of :attr:`paddings` must be equal to 
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                         :math:`rank(x) \\times 2`.
        pad_value (float): The constant value used to pad.
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        name(str, optional): The default value is None.  
                             Normally there is no need for user to set this property.  
                             For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        The padded tensor, with the same data type and rank as :attr:`x`

    Return Type:
        Variable
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    Examples:
        .. code-block:: python
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            # x is a rank 2 tensor variable with shape [100, 224].
            # out will be a tensor of shape [101, 227] 
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            import paddle.fluid as fluid
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            x = fluid.data(name='data', shape=[100, 224], dtype='float32')
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            out = fluid.layers.pad(
                x=x, paddings=[0, 1, 1, 2], pad_value=0.)
    """
    helper = LayerHelper('pad', input=x, **locals())
    dtype = helper.input_dtype()
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type='pad',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'paddings': paddings,
               'pad_value': float(pad_value)})
    return out
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def pad_constant_like(x, y, pad_value=0., name=None):
    """
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    Pad :attr:`y` with :attr:`pad_value`, the number of values padded to
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    the edges of each axis is specified by the difference of the shape
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    of :attr:`x` and :attr:`y` . ((0, shape_x_0 - shape_y_0), ... (0, shape_x_n - shape_y_n))
    specify padding widths for each axis. The input should be a k-D tensor(k > 0 and k < 7).
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    See below for an example.

    .. code-block:: text

        Given:
            X = [[[[ 0,  1,  2],
                   [ 3,  4,  5]],
                  [[ 6,  7,  8],
                   [ 9, 10, 11]],
                  [[12, 13, 14],
                   [15, 16, 17]]],
                 [[[18, 19, 20],
                   [21, 22, 23]],
                  [[24, 25, 26],
                   [27, 28, 29]],
                  [[30, 31, 32],
                   [33, 34, 35]]]]
            X.shape = (2, 3, 2, 3)

            Y = [[[[35, 36, 37]],
                  [[38, 39, 40]],
                  [[41, 42, 43]]]]
            Y.shape = (1, 3, 1, 3)
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		And
            pad_value = -1,
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        Return:
            Out = [[[[35, 36, 37],
                     [-1, -1, -1]],
                    [[38, 39, 40],
                     [-1, -1, -1]],
                    [[41, 42, 43],
                     [-1, -1, -1]]],
                  [[[-1, -1, -1],
                    [-1, -1, -1]],
                   [[-1, -1, -1],
                    [-1, -1, -1]],
                   [[-1, -1, -1],
                    [-1, -1, -1]]]]
            Out.shape = (2, 3, 2, 3)
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    Args:
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        x (Variable): Tensor, its shape specifies the shape of output.
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        y (Variable): Tensor, its rank is the same with :attr:`x`, and for each dimension :math:`i` , 
                      :math:`y\_shape[i] <= x\_shape[i]` . The data type can be float32 or float64.
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        pad_value (float): The constant value used to pad.
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        name(str, optional): The default value is None.  
                             Normally there is no need for user to set this property.  
                             For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        The padded tensor, with the same shape as :attr:`x` and the same data type as :attr:`y`

    Return Type:
        Variable
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    Examples:
        .. code-block:: python

            # x is a rank 4 tensor variable, x.shape = (2, 3, 2, 3)
            # y is a rank 4 tensor variable, y.shape = (1, 3, 1, 3)
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            import paddle.fluid as fluid
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            x = fluid.data(name='x', shape=[2,3,2,3], dtype='float32')
            y = fluid.data(name='y', shape=[1,3,1,3], dtype='float32')
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            out = fluid.layers.pad_constant_like(x=x, y=y, pad_value=0.)
            # out is a rank 4 tensor variable, and out.shape = [2, 3 ,2 , 3]
    """
    helper = LayerHelper('pad_constant_like', input=x, **locals())
    dtype = helper.input_dtype()
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type='pad_constant_like',
        inputs={'X': x,
                'Y': y},
        outputs={'Out': out},
        attrs={'pad_value': float(pad_value)})
    return out


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def label_smooth(label,
                 prior_dist=None,
                 epsilon=0.1,
                 dtype="float32",
                 name=None):
    """
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    Label smoothing is a mechanism to regularize the classifier layer and is called 
    label-smoothing regularization (LSR). 
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    Label smoothing is proposed to encourage the model to be less confident,
    since optimizing the log-likelihood of the correct label directly may
    cause overfitting and reduce the ability of the model to adapt. Label
    smoothing replaces the ground-truth label :math:`y` with the weighted sum
    of itself and some fixed distribution :math:`\mu`. For class :math:`k`,
    i.e.

    .. math::

        \\tilde{y_k} = (1 - \epsilon) * y_k + \epsilon * \mu_k,

    where :math:`1 - \epsilon` and :math:`\epsilon` are the weights
    respectively, and :math:`\\tilde{y}_k` is the smoothed label. Usually
    uniform distribution is used for :math:`\mu`.

    See more details about label smoothing in https://arxiv.org/abs/1512.00567.

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    Parameters:
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        label(Variable): The input variable containing the label data. The
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                        label data should use one-hot representation. It's 
                        a multidimensional tensor with a shape of 
                        :math:`[N_1, ..., Depth]`, where Depth is class number.
        prior_dist(Variable, optional): The prior distribution to be used to smooth
                        labels. If not provided, an uniform distribution
                        is used. It's a multidimensional tensor with a shape of
                        :math:`[1, class\_num]` . The default value is None.
        epsilon(float, optional): The weight used to mix up the original ground-truth
                        distribution and the fixed distribution. The default value is 
                        0.1.
        dtype(np.dtype|core.VarDesc.VarType|str, optional): The data type can be set
                        as 'float32', 'float64'. The default value is 'float32'.
        name(str, optional): The default value is None. Normally there is no need for user 
                        to set this property. For more information, please refer to 
                        :ref:`api_guide_Name`.
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    Returns:
        Variable: The tensor variable containing the smoothed labels.

    Examples:
        .. code-block:: python
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6253
            import paddle.fluid as fluid
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            import paddle.fluid.layers as layers
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            label = layers.data(name="label", shape=[1], dtype="float32")
            one_hot_label = layers.one_hot(input=label, depth=10)
            smooth_label = layers.label_smooth(
                label=one_hot_label, epsilon=0.1, dtype="float32")
    """
    if epsilon > 1. or epsilon < 0.:
        raise ValueError("The value of epsilon must be between 0 and 1.")
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    if in_dygraph_mode():
        inputs = {"X": [label]}
        if prior_dist:
            inputs["PriorDist"] = [prior_dist]
        attrs = {"epsilon": float(epsilon)}
        outs = core.ops.label_smooth(inputs, attrs)
        return outs['Out'][0]

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    helper = LayerHelper("label_smooth", **locals())
    label.stop_gradient = True
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    smooth_label = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type="label_smooth",
        inputs={"X": label,
                "PriorDist": prior_dist} if prior_dist else {"X": label},
        outputs={"Out": smooth_label},
        attrs={"epsilon": float(epsilon)})
    return smooth_label
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@templatedoc()
def roi_pool(input, rois, pooled_height=1, pooled_width=1, spatial_scale=1.0):
    """
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    This operator implements the roi_pooling layer. 
    Region of interest pooling (also known as RoI pooling) is to perform max pooling on inputs of nonuniform sizes to obtain fixed-size feature maps (e.g. 7*7).
    
    The operator has three steps:
    
        1. Dividing each region proposal into equal-sized sections with the pooled_width and pooled_height;
        2. Finding the largest value in each section;
        3. Copying these max values to the output buffer.
    
    For more information, please refer to https://stackoverflow.com/questions/43430056/what-is-roi-layer-in-fast-rcnn
    
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    Args:
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        input (Variable): Input feature, 4D-Tensor with the shape of [N,C,H,W], where N is the batch size, C is the input channel, H is Height, W is weight. The data type is float32 or float64.
        rois (Variable): ROIs (Regions of Interest) to pool over. 2D-LoDTensor with the shape of [num_rois,4], the lod level is 1. Given as [[x1, y1, x2, y2], ...], (x1, y1) is the top left coordinates, and (x2, y2) is the bottom right coordinates.
        pooled_height (int, optional): The pooled output height, data type is int32. Default: 1
        pooled_width (int, optional): The pooled output height, data type is int32. Default: 1
        spatial_scale (float, optional): Multiplicative spatial scale factor to translate ROI coords from their input scale to the scale used when pooling. Default: 1.0
    
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    Returns:
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        Variable: The pooled feature, 4D-Tensor with the shape of [num_rois, C, pooled_height, pooled_width].
    
    
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    Examples:
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    ..  code-block:: python
    
        import paddle.fluid as fluid
        import numpy as np
    
        DATATYPE='float32'
    
        place = fluid.CPUPlace()
        #place = fluid.CUDAPlace(0)
    
        input_data = np.array([i for i in range(1,17)]).reshape(1,1,4,4).astype(DATATYPE)
        roi_data =fluid.create_lod_tensor(np.array([[1., 1., 2., 2.], [1.5, 1.5, 3., 3.]]).astype(DATATYPE),[[2]], place)
    
        x = fluid.data(name='input', shape=[None,1,4,4], dtype=DATATYPE)
        rois = fluid.data(name='roi', shape=[None,4], dtype=DATATYPE)
    
        pool_out = fluid.layers.roi_pool(
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                input=x,
                rois=rois,
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                pooled_height=1,
                pooled_width=1,
6332
                spatial_scale=1.0)
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        exe = fluid.Executor(place)
        out, = exe.run(feed={'input':input_data ,'roi':roi_data}, fetch_list=[pool_out.name])
        print(out)   #array([[[[11.]]], [[[16.]]]], dtype=float32)
        print(np.array(out).shape)  # (2, 1, 1, 1)
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    """
    helper = LayerHelper('roi_pool', **locals())
    dtype = helper.input_dtype()
    pool_out = helper.create_variable_for_type_inference(dtype)
    argmaxes = helper.create_variable_for_type_inference(dtype='int32')
    helper.append_op(
        type="roi_pool",
        inputs={"X": input,
                "ROIs": rois},
        outputs={"Out": pool_out,
                 "Argmax": argmaxes},
        attrs={
            "pooled_height": pooled_height,
            "pooled_width": pooled_width,
            "spatial_scale": spatial_scale
        })
    return pool_out
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@templatedoc()
def roi_align(input,
              rois,
              pooled_height=1,
              pooled_width=1,
              spatial_scale=1.0,
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              sampling_ratio=-1,
              name=None):
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    """
    ${comment}

    Args:
        input (Variable): ${x_comment}
6370
        rois (Variable): ROIs (Regions of Interest) to pool over.It should be
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            a 2-D LoDTensor of shape (num_rois, 4), the lod level is 1. The 
            data type is float32 or float64. Given as [[x1, y1, x2, y2], ...], 
            (x1, y1) is the top left coordinates, and (x2, y2) is the bottom
            right coordinates. 
        pooled_height (int32, optional): ${pooled_height_comment} Default: 1
        pooled_width (int32, optional): ${pooled_width_comment} Default: 1
        spatial_scale (float32, optional): ${spatial_scale_comment} Default: 1.0
        sampling_ratio(int32, optional): ${sampling_ratio_comment} Default: -1
        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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        Variable:

        Output: ${out_comment}.


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    Examples:
        .. code-block:: python

6392
            import paddle.fluid as fluid
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            x = fluid.data(
                name='data', shape=[None, 256, 32, 32], dtype='float32')
            rois = fluid.data(
                name='rois', shape=[None, 4], dtype='float32')
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            align_out = fluid.layers.roi_align(input=x,
                                               rois=rois,
                                               pooled_height=7,
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                                               pooled_width=7,
                                               spatial_scale=0.5,
                                               sampling_ratio=-1)
    """
    helper = LayerHelper('roi_align', **locals())
    dtype = helper.input_dtype()
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    align_out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type="roi_align",
        inputs={"X": input,
                "ROIs": rois},
        outputs={"Out": align_out},
        attrs={
            "pooled_height": pooled_height,
            "pooled_width": pooled_width,
            "spatial_scale": spatial_scale,
            "sampling_ratio": sampling_ratio
        })
    return align_out


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def dice_loss(input, label, epsilon=0.00001, name=None):
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    """
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    Dice loss for comparing the similarity between the input predictions and the label.
    This implementation is for binary classification, where the input is sigmoid
    predictions of each pixel, usually used for segmentation task. The dice loss can
    be defined as the following equation:
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    .. math::

        dice\_loss &= 1 - \\frac{2 * intersection\_area}{total\_area} \\\\
                  &= \\frac{(total\_area - intersection\_area) - intersection\_area}{total\_area} \\\\
                  &= \\frac{(union\_area - intersection\_area)}{total\_area}


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    Parameters:
        input (Variable): Tensor, rank>=2, shape is :math:`[N_1, N_2, ..., N_D]`, where :math:`N_1` is
                          the batch_size, :math:`N_D` is 1. It is usually the output predictions of sigmoid activation.
                          The data type can be float32 or float64.
        label (Variable): Tensor, the groud truth with the same rank as input, shape is :math:`[N_1, N_2, ..., N_D]`. 
                          where :math:`N_1` is the batch_size, :math:`N_D` is 1. The data type can be float32 or float64.
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        epsilon (float): The epsilon will be added to the numerator and denominator.
                         If both input and label are empty, it makes sure dice is 1.
                         Default: 0.00001
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        name(str, optional): The default value is None.  
                             Normally there is no need for user to set this property.  
                             For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        The dice loss with shape [1], data type is the same as `input` .
    Return Type:
        Varaible
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    Example:
6454 6455
        .. code-block:: python

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            import paddle.fluid as fluid
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            x = fluid.data(name='data', shape = [3, 224, 224, 1], dtype='float32')
            label = fluid.data(name='label', shape=[3, 224, 224, 1], dtype='float32')
            predictions = fluid.layers.sigmoid(x)
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            loss = fluid.layers.dice_loss(input=predictions, label=label)
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    """
    label = one_hot(label, depth=input.shape[-1])
6463
    reduce_dim = list(range(1, len(input.shape)))
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    inse = reduce_sum(input * label, dim=reduce_dim)
    dice_denominator = reduce_sum(
        input, dim=reduce_dim) + reduce_sum(
            label, dim=reduce_dim)
    dice_score = 1 - inse * 2 / (dice_denominator + epsilon)
    return reduce_mean(dice_score)
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6472 6473 6474 6475
def image_resize(input,
                 out_shape=None,
                 scale=None,
                 name=None,
6476
                 resample='BILINEAR',
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                 actual_shape=None,
                 align_corners=True,
6479 6480
                 align_mode=1,
                 data_format='NCHW'):
6481
    """
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    This op resizes a batch of images.
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    The input must be a 4-D Tensor of the shape (num_batches, channels, in_h, in_w) 
    or (num_batches, in_h, in_w, channels), or a 5-D Tensor of the shape 
    (num_batches, channels, in_d, in_h, in_w) or (num_batches, in_d, in_h, in_w, channels), 
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    and the resizing only applies on the three dimensions(depth, height and width).
6488

6489
    **Warning:** the parameter :attr:`actual_shape` will be deprecated in the
6490 6491
    future and only use :attr:`out_shape` instead.

6492
    Supporting resample methods:
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6494
        'BILINEAR' : Bilinear interpolation
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        'TRILINEAR' : Trilinear interpolation

6498
        'NEAREST' : Nearest neighbor interpolation
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6500
    Nearest neighbor interpolation is to perform nearest neighbor interpolation
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    in both the 3rd dimension(in height direction) and the 4th dimension(in width 
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    direction) on input tensor.
            
    Bilinear interpolation is an extension of linear interpolation for 
    interpolating functions of two variables (e.g. H-direction and 
    W-direction in this op) on a rectilinear 2D grid. The key idea is 
    to perform linear interpolation first in one direction, and then 
    again in the other direction.

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    Trilinear interpolation is an extension of linear interpolation for 
    interpolating functions of three variables (e.g. D-direction, 
    H-direction and W-direction in this op) on a rectilinear 3D grid. 
    The linear interpolation is performed on three directions.

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    Align_corners and align_mode are optional parameters,the calculation method 
6516 6517 6518 6519
    of interpolation can be selected by them.

    Example:

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    .. code-block:: text
6521

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        For scale:
6523
          
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            if align_corners = True && out_size > 1 :
6525

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              scale_factor = (in_size-1.0)/(out_size-1.0)
            
            else:
              
              scale_factor = float(in_size/out_size)
            
          
        Nearest neighbor interpolation:
          
          if:
              align_corners = False
6537

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              input : (N,C,H_in,W_in)
              output: (N,C,H_out,W_out) where:
6540

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              H_out = floor (H_{in} * scale_{factor})
              W_out = floor (W_{in} * scale_{factor})
6543

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          else:
              align_corners = True
6546

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              input : (N,C,H_in,W_in)
              output: (N,C,H_out,W_out) where:
6549

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              H_out = round(H_{in} * scale_{factor})
              W_out = round(W_{in} * scale_{factor})
6552

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        Bilinear interpolation:

          if:
              align_corners = False , align_mode = 0
              
              input : (N,C,H_in,W_in)
              output: (N,C,H_out,W_out) where:
              
              H_out = (H_{in}+0.5) * scale_{factor} - 0.5
              W_out = (W_{in}+0.5) * scale_{factor} - 0.5
6563

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          else:
           
              input : (N,C,H_in,W_in)
              output: (N,C,H_out,W_out) where:
6568

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              H_out = H_{in} * scale_{factor}
              W_out = W_{in} * scale_{factor}
6571

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        Trilinear interpolation:

          if:
              align_corners = False , align_mode = 0
              
              input : (N,C,D_in,H_in,W_in)
              output: (N,C,D_out,H_out,W_out) where:
              
              D_out = (D_{in}+0.5) * scale_{factor} - 0.5
              H_out = (H_{in}+0.5) * scale_{factor} - 0.5
              W_out = (W_{in}+0.5) * scale_{factor} - 0.5


          else:
           
              input : (N,C,D_in,H_in,W_in)
              output: (N,C,D_out,H_out,W_out) where:

              D_out = D_{in} * scale_{factor}
              H_out = H_{in} * scale_{factor}
              W_out = W_{in} * scale_{factor}
          
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    For details of nearest neighbor interpolation, please refer to Wikipedia: 
    https://en.wikipedia.org/wiki/Nearest-neighbor_interpolation.

    For details of bilinear interpolation, please refer to Wikipedia: 
    https://en.wikipedia.org/wiki/Bilinear_interpolation.

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    For details of trilinear interpolation, please refer to Wikipedia: 
    https://en.wikipedia.org/wiki/Trilinear_interpolation.

6603 6604


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    Parameters:
6606 6607
        input (Variable): 4-D or 5-D Tensor, its data type is float32, float64, or uint8,
                          its data format is specified by :attr:`data_format`.
6608
        out_shape(list|tuple|Variable|None): Output shape of image resize
6609 6610 6611 6612
             layer, the shape is (out_h, out_w) when input is a 4-D Tensor and is
             (out_d, out_h, out_w) when input is a 5-D Tensor. Default: None. If 
             a list, each element can be an integer or a Tensor Variable of shape: [1].
             If a Tensor Variable, its dimensions size should be a 1.
6613 6614 6615
        scale(float|Variable|None): The multiplier for the input height or width. At
             least one of :attr:`out_shape` or :attr:`scale` must be set.
             And :attr:`out_shape` has a higher priority than :attr:`scale`.
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             Default: None.
6617 6618
        name(str|None): A name for this layer(optional). If set None, the layer
                        will be named automatically.
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        resample(str): The resample method. It supports 'BILINEAR', 'TRILINEAR'
                       and 'NEAREST' currently. Default: 'BILINEAR'
6621 6622 6623
        actual_shape(Variable): An optional input to specify output shape
                                dynamically. If provided, image resize
                                according to this given shape rather than
6624
                                :attr:`out_shape` and :attr:`scale` specifying
6625 6626
                                shape. That is to say actual_shape has the
                                highest priority. It is recommended to use
6627 6628 6629 6630 6631
                                :attr:`out_shape` if you want to specify output 
                                shape dynamically, because :attr:`actual_shape` 
                                will be deprecated. When using actual_shape to 
                                specify output shape, one of :attr:`out_shape` 
                                and :attr:`scale` should also be set, otherwise 
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                                errors would be occurred in graph constructing stage.
6633
                                Default: None
6634 6635 6636 6637
        align_corners(bool) :  An optional bool, If True, the centers of the 4 corner pixels of the 
                               input and output tensors are aligned, preserving the values at the 
                               corner pixels.
                               Default: True
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        align_mode(int)  :  An optional for bilinear interpolation. can be \'0\' 
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                            for src_idx = scale*(dst_indx+0.5)-0.5 , can be \'1\' for 
6640
                            src_idx = scale*dst_index.
6641 6642 6643 6644 6645
        data_format (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string from: `"NCHW"`, `"NHWC"`, `"NCDHW"`,
            `"NDHWC"`. The default is `"NCHW"`. When it is `"NCHW"`, the data is stored in the order of:
            `[batch_size, input_channels, input_height, input_width]`. When it is `"NCHW"`, the data is stored 
            in the order of: `[batch_size, input_channels, input_depth, input_height, input_width]`.
6646 6647

    Returns:
6648 6649
        A 4-D Tensor of the shape (num_batches, channels, out_h, out_w) or (num_batches, out_h, out_w, channels),
        or 5-D Tensor of the shape (num_batches, channels, out_d, out_h, out_w) or (num_batches, out_d, out_h, out_w, channels).
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6651 6652 6653
    Raises:
        TypeError: out_shape should be a list or tuple or Variable.
        TypeError: actual_shape should either be Variable or None.
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        ValueError: The 'resample' of image_resize can only be 'BILINEAR',
                    'TRILINEAR' or 'NEAREST' currently.
        ValueError: 'BILINEAR' and 'NEAREST' only support 4-D tensor.
        ValueError: 'TRILINEAR' only support 5-D tensor.
6658
        ValueError: One of out_shape and scale must not be None.
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        ValueError: out_shape length should be 2 for input 4-D tensor.
        ValueError: out_shape length should be 3 for input 5-D tensor.
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        ValueError: scale should be greater than zero.
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        TypeError: align_corners should be a bool value
6663
        ValueError: align_mode can only be '0' or '1'
6664
        ValueError: data_format can only be 'NCHW', 'NHWC', 'NCDHW' or 'NDHWC'.
6665

6666 6667
    Examples:
        .. code-block:: python
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	    #declarative mode
	    import paddle.fluid as fluid
	    import numpy as np
	    input = fluid.data(name="input", shape=[None,3,6,10])

	    #1
	    output = fluid.layers.image_resize(input=input,out_shape=[12,12])

	    #2
	    #x = np.array([2]).astype("int32")
	    #dim1 = fluid.data(name="dim1", shape=[1], dtype="int32")
	    #fluid.layers.assign(input=x, output=dim1)
	    #output = fluid.layers.image_resize(input=input,out_shape=[12,dim1])

	    #3
	    #x = np.array([3,12]).astype("int32")
	    #shape_tensor = fluid.data(name="shape_tensor", shape=[2], dtype="int32")
	    #fluid.layers.assign(input=x, output=shape_tensor)
	    #output = fluid.layers.image_resize(input=input,out_shape=shape_tensor)

	    #4
	    #x = np.array([0.5]).astype("float32")
	    #scale_tensor = fluid.data(name="scale", shape=[1], dtype="float32")
	    #fluid.layers.assign(x,scale_tensor)
	    #output = fluid.layers.image_resize(input=input,scale=scale_tensor)

	    place = fluid.CPUPlace()
	    exe = fluid.Executor(place)
	    exe.run(fluid.default_startup_program())
 
	    input_data = np.random.rand(2,3,6,10).astype("float32")
6700

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	    output_data = exe.run(fluid.default_main_program(),
                feed={"input":input_data},
                fetch_list=[output],
                return_numpy=True)
 
	    print(output_data[0].shape)
6707

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	    #1
	    # (2, 3, 12, 12)
	    #2
	    # (2, 3, 12, 2)
	    #3
	    # (2, 3, 3, 12)
	    #4
	    # (2, 3, 3, 5)
6716

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	    #imperative mode
	    import paddle.fluid.dygraph as dg
6719

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	    with dg.guard(place) as g:
    		input = dg.to_variable(input_data)
    		output = fluid.layers.image_resize(input=input, out_shape=[12,12])
    		print(output.shape)
6724

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		# [2L, 3L, 12L, 12L]
6726

6727
    """
6728 6729
    resample_methods = {
        'BILINEAR': 'bilinear',
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        'TRILINEAR': 'trilinear',
6731 6732
        'NEAREST': 'nearest',
    }
6733 6734
    if resample not in resample_methods:
        raise ValueError(
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            "The 'resample' of image_resize can only be 'BILINEAR', 'TRILINEAR' "
            "or 'NEAREST' currently.")
6737
    resample_type = resample_methods[resample]
6738

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    if resample in ['BILINEAR', 'NEAREST'] and len(input.shape) != 4:
        raise ValueError("'BILINEAR' and 'NEAREST' only support 4-D tensor.")
    if resample == 'TRILINEAR' and len(input.shape) != 5:
        raise ValueError("'TRILINEAR'only support 5-D tensor.")

6744 6745 6746 6747 6748
    if not isinstance(align_corners, bool):
        raise TypeError("Attr align_corners should be a bool value")
    if align_mode != 0 and align_mode != 1:
        raise ValueError("align_mode can only be 0 or 1")

6749
    if out_shape is None and scale is None:
6750
        raise ValueError("One of out_shape and scale must not be None.")
6751
    helper = LayerHelper('{}_interp'.format(resample_type), **locals())
6752
    dtype = helper.input_dtype()
6753

6754 6755 6756 6757 6758 6759 6760 6761 6762
    if len(input.shape) == 4 and data_format not in ['NCHW', 'NHWC']:
        raise ValueError(
            "Got wrong value for param `data_format`: " + data_format +
            " received but only `NCHW` or `NHWC` supported for 4-D input.")
    elif len(input.shape) == 5 and data_format not in ['NCDHW', 'NDHWC']:
        raise ValueError(
            "Got wrong value for param `data_format`: " + data_format +
            " received but only `NCDHW` or `NDHWC` supported for 5-D input.")

6763 6764 6765
    def _is_list_or_turple_(data):
        return (isinstance(data, list) or isinstance(data, tuple))

6766 6767 6768 6769 6770
    if data_format == 'NCHW' or data_format == 'NCDHW':
        data_layout = 'NCHW'
    if data_format == 'NHWC' or data_format == 'NDHWC':
        data_layout = 'NHWC'

6771
    inputs = {"X": input}
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    attrs = {
6773 6774 6775
        "out_d": -1,
        "out_h": -1,
        "out_w": -1,
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        "interp_method": resample_type,
        "align_corners": align_corners,
6778 6779
        "align_mode": align_mode,
        "data_layout": data_layout
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    }

6782
    if out_shape is not None:
6783
        if isinstance(out_shape, Variable):
6784
            out_shape.stop_gradient = True
6785
            inputs['OutSize'] = out_shape
6786 6787
        else:
            if not (_is_list_or_turple_(out_shape)):
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                raise TypeError(
                    "out_shape should be a list or tuple or Variable.")
6790 6791 6792 6793 6794 6795 6796 6797 6798 6799 6800 6801 6802 6803 6804 6805 6806 6807 6808 6809 6810 6811 6812 6813 6814 6815 6816 6817
            # Validate the shape
            contain_var = False
            for dim_idx, dim_size in enumerate(out_shape):
                if isinstance(dim_size, Variable):
                    contain_var = True
                    continue
                assert dim_size > 0, (
                    "Each dimension size given in out_shape must be greater than 0."
                )

            if contain_var:
                new_size_tensor = []
                size_list = []
                for dim in out_shape:
                    if isinstance(dim, Variable):
                        dim.stop_gradient = True
                        new_size_tensor.append(dim)
                        size_list.append(-1)
                    else:
                        assert (isinstance(dim, int))
                        temp_out = helper.create_variable_for_type_inference(
                            'int32')
                        fill_constant(
                            [1], 'int32', dim, force_cpu=True, out=temp_out)
                        new_size_tensor.append(temp_out)
                        size_list.append(dim)
                inputs['SizeTensor'] = new_size_tensor

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            if len(input.shape) == 4:
                if len(out_shape) != 2:
                    raise ValueError("out_shape length should be 2 for "
                                     "input 4-D tensor.")
6822 6823 6824 6825 6826 6827 6828
                if contain_var:
                    attrs['out_h'] = size_list[0]
                    attrs['out_w'] = size_list[1]
                else:
                    out_shape = list(map(int, out_shape))
                    attrs['out_h'] = out_shape[0]
                    attrs['out_w'] = out_shape[1]
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6829 6830 6831 6832
            if len(input.shape) == 5:
                if len(out_shape) != 3:
                    raise ValueError("out_shape length should be 3 for "
                                     "input 5-D tensor.")
6833 6834 6835 6836 6837 6838 6839 6840 6841
                if contain_var:
                    attrs['out_d'] = size_list[0]
                    attrs['out_h'] = size_list[1]
                    attrs['out_w'] = size_list[2]
                else:
                    out_shape = list(map(int, out_shape))
                    attrs['out_d'] = out_shape[0]
                    attrs['out_h'] = out_shape[1]
                    attrs['out_w'] = out_shape[2]
6842

6843
    else:
6844 6845 6846
        if isinstance(scale, Variable):
            scale.stop_gradient = True
            inputs["Scale"] = scale
6847
        elif isinstance(scale, float) or isinstance(scale, int):
6848
            if scale <= 0:
6849
                raise ValueError("Attr(scale) should be greater than zero.")
6850
            attrs['scale'] = float(scale)
6851 6852 6853
        else:
            raise TypeError(
                "Attr(scale)'s type should be float, int or Variable.")
6854

6855
    if isinstance(actual_shape, Variable):
6856 6857 6858 6859 6860
        warnings.warn(
            "actual_shape will be deprecated, it is recommended to use "
            "out_shape instead of actual_shape to specify output shape dynamically."
        )
        actual_shape.stop_gradient = True
6861 6862 6863 6864
        inputs["OutSize"] = actual_shape
    elif actual_shape is not None:
        raise TypeError("actual_shape should either be Variable or None.")

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    out = helper.create_variable_for_type_inference(dtype)
6866
    helper.append_op(
6867
        type='{}_interp'.format(resample_type),
6868
        inputs=inputs,
6869
        outputs={"Out": out},
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        attrs=attrs)
6871
    return out
F
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6874
@templatedoc(op_type="bilinear_interp")
6875 6876 6877 6878
def resize_bilinear(input,
                    out_shape=None,
                    scale=None,
                    name=None,
6879 6880
                    actual_shape=None,
                    align_corners=True,
6881 6882
                    align_mode=1,
                    data_format='NCHW'):
6883
    """
R
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6884
    This op resizes the input by performing bilinear interpolation based on given
6885
    output shape which specified by actual_shape, out_shape and scale
6886 6887
    in priority order.

6888 6889 6890
    **Warning:** the parameter :attr:`actual_shape` will be deprecated in 
    the future and only use :attr:`out_shape` instead.

6891 6892 6893 6894
    Bilinear interpolation is an extension of linear interpolation for
    interpolating functions of two variables (e.g. H-direction and
    W-direction in this op) on a rectilinear 2D grid. The key idea is
    to perform linear interpolation first in one direction, and then
6895 6896
    again in the other direction.

6897
    For details of bilinear interpolation, please refer to Wikipedia:
6898
    https://en.wikipedia.org/wiki/Bilinear_interpolation
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    Align_corners and align_mode are optional parameters,the calculation 
6901 6902 6903 6904
    method of interpolation can be selected by them.

    Example:

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    .. code-block:: text
6906

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        For scale:
6908
          
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            if align_corners = True && out_size > 1 :
6910

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              scale_factor = (in_size-1.0)/(out_size-1.0)
            
            else:
              
6915
              scale_factor = float(in_size/out_size)
6916

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6917 6918 6919 6920 6921 6922 6923 6924 6925 6926
        Bilinear interpolation:

          if:
              align_corners = False , align_mode = 0
              
              input : (N,C,H_in,W_in)
              output: (N,C,H_out,W_out) where:
              
              H_out = (H_{in}+0.5) * scale_{factor} - 0.5
              W_out = (W_{in}+0.5) * scale_{factor} - 0.5
6927

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          else:
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              input : (N,C,H_in,W_in)
              output: (N,C,H_out,W_out) where:
              H_out = H_{in} * scale_{factor}
              W_out = W_{in} * scale_{factor}
6934

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6935 6936
    Parameters:
        input(Variable): 4-D Tensor(NCHW), its data type is float32, float64, or uint8,
6937
                          its data format is specified by :attr:`data_format`.
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        out_shape(list|tuple|Variable|None): Output shape of resize bilinear
6939
            layer, the shape is (out_h, out_w).Default: None. If a list, each 
6940 6941
            element can be an integer or a Tensor Variable with shape: [1]. If a 
            Tensor Variable, its dimension size should be 1.
6942
        scale(float|Variable|None): The multiplier for the input height or width. At
D
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             least one of :attr:`out_shape` or :attr:`scale` must be set. 
D
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             And :attr:`out_shape` has a higher priority than :attr:`scale`. 
D
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             Default: None.
6946 6947 6948
        actual_shape(Variable): An optional input to specify output shape
                                dynamically. If provided, image resize
                                according to this given shape rather than
6949
                                :attr:`out_shape` and :attr:`scale` specifying
6950 6951
                                shape. That is to say actual_shape has the
                                highest priority. It is recommended to use
6952 6953 6954 6955 6956
                                :attr:`out_shape` if you want to specify output 
                                shape dynamically, because :attr:`actual_shape` 
                                will be deprecated. When using actual_shape to 
                                specify output shape, one of :attr:`out_shape` 
                                and :attr:`scale` should also be set, otherwise 
T
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                                errors would be occurred in graph constructing stage.
6958
                                Default: None
6959 6960
        align_corners(bool): ${align_corners_comment}
        align_mode(bool): ${align_mode_comment}
6961 6962 6963 6964
        data_format (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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	Variable: 4-D tensor(NCHW or NHWC).
    
6970 6971
    Examples:
        .. code-block:: python
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	    #declarative mode
	    import paddle.fluid as fluid
	    import numpy as np
	    input = fluid.data(name="input", shape=[None,3,6,10])

	    #1
	    output = fluid.layers.resize_bilinear(input=input,out_shape=[12,12])

	    #2
	    #x = np.array([2]).astype("int32")
	    #dim1 = fluid.data(name="dim1", shape=[1], dtype="int32")
	    #fluid.layers.assign(input=x, output=dim1)
	    #output = fluid.layers.resize_bilinear(input=input,out_shape=[12,dim1])

	    #3
	    #x = np.array([3,12]).astype("int32")
	    #shape_tensor = fluid.data(name="shape_tensor", shape=[2], dtype="int32")
	    #fluid.layers.assign(input=x, output=shape_tensor)
	    #output = fluid.layers.resize_bilinear(input=input,out_shape=shape_tensor)

	    #4
	    #x = np.array([0.5]).astype("float32")
	    #scale_tensor = fluid.data(name="scale", shape=[1], dtype="float32")
	    #fluid.layers.assign(x,scale_tensor)
	    #output = fluid.layers.resize_bilinear(input=input,scale=scale_tensor)

	    place = fluid.CPUPlace()
	    exe = fluid.Executor(place)
	    exe.run(fluid.default_startup_program())
 
	    input_data = np.random.rand(2,3,6,10).astype("float32")
7004

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7005 7006 7007 7008 7009 7010
	    output_data = exe.run(fluid.default_main_program(),
                feed={"input":input_data},
                fetch_list=[output],
                return_numpy=True)
 
	    print(output_data[0].shape)
7011

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7012 7013 7014 7015 7016 7017 7018 7019
	    #1
	    # (2, 3, 12, 12)
	    #2
	    # (2, 3, 12, 2)
	    #3
	    # (2, 3, 3, 12)
	    #4
	    # (2, 3, 3, 5)
7020

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7021 7022
	    #imperative mode
	    import paddle.fluid.dygraph as dg
7023

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7024 7025 7026 7027
	    with dg.guard(place) as g:
    		input = dg.to_variable(input_data)
    		output = fluid.layers.resize_bilinear(input=input, out_shape=[12,12])
    		print(output.shape)
7028

R
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7029
		# [2L, 3L, 12L, 12L]
7030

7031 7032
    """

7033
    return image_resize(input, out_shape, scale, name, 'BILINEAR', actual_shape,
7034
                        align_corners, align_mode, data_format)
7035 7036


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@templatedoc(op_type="trilinear_interp")
def resize_trilinear(input,
                     out_shape=None,
                     scale=None,
                     name=None,
                     actual_shape=None,
                     align_corners=True,
7044 7045
                     align_mode=1,
                     data_format='NCDHW'):
K
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7046
    """
R
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7047
    This op resizes the input by performing trilinear interpolation based on given
K
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7048 7049 7050
    output shape which specified by actual_shape, out_shape and scale
    in priority order.

7051 7052 7053
    **Warning:** the parameter :attr:`actual_shape` will be deprecated 
    in the future and only use :attr:`out_shape` instead.

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7054 7055 7056 7057 7058 7059 7060 7061
    Trilinear interpolation is an extension of linear interpolation for 
    interpolating functions of three variables (e.g. D-direction, 
    H-direction and W-direction in this op) on a rectilinear 3D grid. 
    The linear interpolation is performed on three directions.

    For details of trilinear interpolation, please refer to Wikipedia:
    https://en.wikipedia.org/wiki/Trilinear_interpolation

T
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7062
    Align_corners and align_mode are optional parameters,the calculation 
K
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    method of interpolation can be selected by them.

    Example:

    .. code-block:: text

        For scale:
          
            if align_corners = True && out_size > 1 :

              scale_factor = (in_size-1.0)/(out_size-1.0)
            
            else:
              
              scale_factor = float(in_size/out_size)     

        Bilinear interpolation:

          if:
7082

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7083 7084 7085 7086 7087 7088 7089 7090 7091 7092 7093 7094 7095 7096 7097 7098 7099 7100
              align_corners = False , align_mode = 0
              
              input : (N,C,D_in,H_in,W_in)
              output: (N,C,D_out,H_out,W_out) where:
              
              D_out = (D_{in}+0.5) * scale_{factor} - 0.5
              H_out = (H_{in}+0.5) * scale_{factor} - 0.5
              W_out = (W_{in}+0.5) * scale_{factor} - 0.5

          else:

              input : (N,C,D_in,H_in,W_in)
              output: (N,C,D_out,H_out,W_out) where:

              D_out = D_{in} * scale_{factor}
              H_out = H_{in} * scale_{factor}
              W_out = W_{in} * scale_{factor}

R
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7101
    Parameters:
7102 7103
        input(${x_type}): 5-D Tensor, its data type is float32, float64, or uint8,
                          its data format is specified by :attr:`data_format`.
R
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7104
        out_shape(list|tuple|Variable|None): The output shape of resized tensor, the shape is (out_d, out_h, out_w). Default: None. Every element should be an integer or a Tensor Variable with shape: [1] if it is a list. If it is a Tensor Variable, its dimension size should be 1.
7105
        scale(float|Variable|None): The multiplier for the input depth, height or width.
K
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7106 7107 7108
             At least one of :attr:`out_shape` or :attr:`scale` must be set. 
             And :attr:`out_shape` has a higher priority than :attr:`scale`. 
             Default: None.
R
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7109
        name(str, optional): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name`
K
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7110 7111 7112 7113 7114 7115
        actual_shape(Variable): An optional input to specify output shape
                                dynamically. If provided, image resize
                                according to this given shape rather than
                                :attr:`out_shape` and :attr:`scale` specifying
                                shape. That is to say actual_shape has the
                                highest priority. It is recommended to use
7116 7117 7118 7119 7120
                                :attr:`out_shape` if you want to specify output 
                                shape dynamically, because :attr:`actual_shape` 
                                will be deprecated. When using actual_shape to 
                                specify output shape, one of :attr:`out_shape` 
                                and :attr:`scale` should also be set, otherwise 
T
tianshuo78520a 已提交
7121
                                errors would be occurred in graph constructing stage.
K
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7122 7123 7124
                                Default: None
        align_corners(bool): ${align_corners_comment}
        align_mode(bool): ${align_mode_comment}
7125 7126 7127 7128
        data_format (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. 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]`.
K
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7129 7130

    Returns:
R
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7131
        Variable: A 5-D Tensor(NCDHW or NDHWC) 
K
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7132 7133 7134

    Examples:
        .. code-block:: python
R
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7135 7136 7137 7138 7139 7140 7141 7142 7143 7144 7145 7146 7147 7148 7149 7150 7151 7152 7153 7154 7155 7156 7157 7158 7159 7160 7161 7162 7163 7164 7165 7166
	
	    #declarative mode
	    import paddle.fluid as fluid
	    import numpy as np
	    input = fluid.data(name="input", shape=[None,3,6,8,10])

	    #1
	    output = fluid.layers.resize_trilinear(input=input,out_shape=[12,12,12])

	    #2
	    #x = np.array([2]).astype("int32")
	    #dim1 = fluid.data(name="dim1", shape=[1], dtype="int32")
	    #fluid.layers.assign(input=x, output=dim1)
	    #output = fluid.layers.resize_trilinear(input=input,out_shape=[12,dim1,4])

	    #3
	    #x = np.array([3,12,12]).astype("int32")
	    #shape_tensor = fluid.data(name="shape_tensor", shape=[3], dtype="int32")
	    #fluid.layers.assign(input=x, output=shape_tensor)
	    #output = fluid.layers.resize_trilinear(input=input,out_shape=shape_tensor)

	    #4
	    #x = np.array([0.5]).astype("float32")
	    #scale_tensor = fluid.data(name="scale", shape=[1], dtype="float32")
	    #fluid.layers.assign(x,scale_tensor)
	    #output = fluid.layers.resize_trilinear(input=input,scale=scale_tensor)

	    place = fluid.CPUPlace()
	    exe = fluid.Executor(place)
	    exe.run(fluid.default_startup_program())
 
	    input_data = np.random.rand(2,3,6,8,10).astype("float32")
K
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7167

R
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7168 7169 7170 7171 7172 7173 7174 7175 7176 7177 7178 7179 7180 7181 7182 7183 7184 7185
	    output_data = exe.run(fluid.default_main_program(),
                feed={"input":input_data},
                fetch_list=[output],
                return_numpy=True)
 
	    print(output_data[0].shape)

	    #1
	    # (2, 3, 12, 12, 12)
	    #2
	    # (2, 3, 12, 2, 4)
	    #3
	    # (2, 3, 3, 12, 12)
	    #4
	    # (2, 3, 3, 4, 5)

	    #imperative mode
	    import paddle.fluid.dygraph as dg
7186

R
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7187 7188 7189 7190
	    with dg.guard(place) as g:
    		input = dg.to_variable(input_data)
    		output = fluid.layers.resize_trilinear(input=input, out_shape=[12,12,12])
    		print(output.shape)
7191

R
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7192
		# [2L, 3L, 12L, 12L, 12L]
7193 7194 7195



K
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7196 7197 7198
    """

    return image_resize(input, out_shape, scale, name, 'TRILINEAR',
7199
                        actual_shape, align_corners, align_mode, data_format)
K
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7200 7201


7202
@templatedoc(op_type="nearest_interp")
7203 7204 7205 7206
def resize_nearest(input,
                   out_shape=None,
                   scale=None,
                   name=None,
7207
                   actual_shape=None,
7208 7209
                   align_corners=True,
                   data_format='NCHW'):
7210
    """
R
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7211
    This op resizes the input by performing nearest neighbor interpolation in both the
7212 7213
    height direction and the width direction based on given output shape 
    which is specified by actual_shape, out_shape and scale in priority order.
7214

7215 7216 7217
    **Warning:** the parameter :attr:`actual_shape` will be deprecated in the 
    future and only use :attr:`out_shape` instead.

7218 7219
    Example:

T
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7220 7221 7222 7223 7224 7225 7226 7227 7228 7229 7230 7231
    .. code-block:: text

        For scale:
          
            if align_corners = True && out_size > 1 :
              scale_factor = (in_size-1.0)/(out_size-1.0)
            
            else:
              
              scale_factor = float(in_size/out_size)
          
        Nearest neighbor interpolation:
7232
          
T
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7233 7234
          if:
              align_corners = False
7235

T
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7236 7237
              input : (N,C,H_in,W_in)
              output: (N,C,H_out,W_out) where:
7238

T
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7239 7240
              H_out = floor(H_{in} * scale_{factor})
              W_out = floor(W_{in} * scale_{factor})
7241

T
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7242 7243
          else:
              align_corners = True
7244

T
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7245 7246
              input : (N,C,H_in,W_in)
              output: (N,C,H_out,W_out) where:
7247

T
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7248 7249
              H_out = round(H_{in} * scale_{factor})
              W_out = round(W_{in} * scale_{factor})
7250 7251


7252
    For details of nearest neighbor interpolation, please refer to Wikipedia:
7253
    https://en.wikipedia.org/wiki/Nearest-neighbor_interpolation
Y
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7254

R
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7255
    Parameters:
7256 7257
        input(${x_type}): 4-D Tensor, its data type is float32, float64, or uint8,
                          its data format is specified by :attr:`data_format`.
R
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7258
        out_shape(list|tuple|Variable|None): The output shape of resized tensor, the shape is (out_h, out_w). Default: None. Every element should be an integer or a tensor Variable with shape: [1] if it is a list. If it is a tensor Variable, its dimension size should be 1.
7259
        scale(float|Variable|None): The multiplier for the input height or width. At
D
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7260
             least one of :attr:`out_shape` or :attr:`scale` must be set. 
D
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7261
             And :attr:`out_shape` has a higher priority than :attr:`scale`. 
R
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7262 7263 7264
             Default: None. 
        name(str, optional): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name`
	actual_shape(Variable): An optional input to specify output shape
7265 7266
                                dynamically. If provided, image resize
                                according to this given shape rather than
7267
                                :attr:`out_shape` and :attr:`scale` specifying
7268 7269
                                shape. That is to say actual_shape has the
                                highest priority. It is recommended to use
7270 7271 7272 7273 7274
                                :attr:`out_shape` if you want to specify output 
                                shape dynamically, because :attr:`actual_shape` 
                                will be deprecated. When using actual_shape to 
                                specify output shape, one of :attr:`out_shape` 
                                and :attr:`scale` should also be set, otherwise 
T
tianshuo78520a 已提交
7275
                                errors would be occurred in graph constructing stage.
7276
                                Default: None
7277
        align_corners(bool): ${align_corners_comment}
7278 7279 7280 7281
        data_format (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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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    Returns:
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	Variable: 4-D tensor(NCHW or NHWC).
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    Examples:
        .. code-block:: python
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	    #declarative mode
	    import paddle.fluid as fluid
	    import numpy as np
	    input = fluid.data(name="input", shape=[None,3,6,10])

	    #1
	    output = fluid.layers.resize_nearest(input=input,out_shape=[12,12])

	    #2
	    #x = np.array([2]).astype("int32")
	    #dim1 = fluid.data(name="dim1", shape=[1], dtype="int32")
	    #fluid.layers.assign(input=x, output=dim1)
	    #output = fluid.layers.resize_nearest(input=input,out_shape=[12,dim1])

	    #3
	    #x = np.array([3,12]).astype("int32")
	    #shape_tensor = fluid.data(name="shape_tensor", shape=[2], dtype="int32")
	    #fluid.layers.assign(input=x, output=shape_tensor)
	    #output = fluid.layers.resize_nearest(input=input,out_shape=shape_tensor)

	    #4
	    #x = np.array([0.5]).astype("float32")
	    #scale_tensor = fluid.data(name="scale", shape=[1], dtype="float32")
	    #fluid.layers.assign(x,scale_tensor)
	    #output = fluid.layers.resize_nearest(input=input,scale=scale_tensor)

	    place = fluid.CPUPlace()
	    exe = fluid.Executor(place)
	    exe.run(fluid.default_startup_program())
 
	    input_data = np.random.rand(2,3,6,10).astype("float32")
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	    output_data = exe.run(fluid.default_main_program(),
                feed={"input":input_data},
                fetch_list=[output],
                return_numpy=True)
 
	    print(output_data[0].shape)

	    #1
	    # (2, 3, 12, 12)
	    #2
	    # (2, 3, 12, 2)
	    #3
	    # (2, 3, 3, 12)
	    #4
	    # (2, 3, 3, 5)
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	    #imperative mode
	    import paddle.fluid.dygraph as dg
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	    with dg.guard(place) as g:
    		input = dg.to_variable(input_data)
    		output = fluid.layers.resize_nearest(input=input, out_shape=[12,12])
    		print(output.shape)

		# [2L, 3L, 12L, 12L]
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    """

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    return image_resize(
        input,
        out_shape,
        scale,
        name,
        'NEAREST',
        actual_shape,
        align_corners,
        align_mode=1,
        data_format=data_format)
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def image_resize_short(input, out_short_len, resample='BILINEAR'):
    """
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    This op resizes a batch of images. The short edge of input images will be
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    resized to the given 'out_short_len'. The long edge of input images
    will be resized proportionately to make images' length-width ratio
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    constant.

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    Parameters:
        input (Variable): 4-D tensor(NCHW), The input tensor of image resize layer.
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        out_short_len(int): The length of output images' short edge.
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        resample (str): resample method, default: BILINEAR.
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    Returns:
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        Variable: 4-D tensor(NCHW).
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            input = fluid.data(name="input", shape=[None,3,6,9], dtype="float32")
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            out = fluid.layers.image_resize_short(input, out_short_len=3)
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    """
    in_shape = input.shape
    if len(in_shape) != 4:
        raise ValueError(
            "The rank of input must be 4 (num_batches, channels, in_h, in_w).")
    hw = in_shape[2:4]
    short_idx = hw.index(min(hw))
    long_idx = 1 - short_idx
    out_shape = list(hw)
    out_shape[short_idx] = out_short_len
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    out_shape[long_idx] = int(
        float(out_shape[long_idx]) * (float(out_short_len) / float(hw[
            short_idx])) + 0.5)
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    return image_resize(input=input, out_shape=out_shape, resample=resample)


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def gather(input, index, overwrite=True):
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    """
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    **Gather Layer**

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    Output is obtained by gathering entries of the outer-most dimension
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    of X indexed by `index` and concatenate them together.

    .. math::

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        Out = X[Index]
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    .. code-block:: text


                Given:

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                X = [[1, 2],
                     [3, 4],
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                     [5, 6]]

                Index = [1, 2]

                Then:

                Out = [[3, 4],
                       [5, 6]]

    Args:
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        input (Variable): The source input tensor with rank>=1. Supported data type is 
            int32, int64, float32, float64 and uint8 (only for CPU), 
            float16 (only for GPU).
        index (Variable): The index input tensor with rank=1. Data type is int32 or int64.
        overwrite (bool, optional): The mode that updating the grad when has same index.
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            If True, use the overwrite mode to update the grad of the same index,
	    if False, use the accumulate mode to update the grad of the same index. 
	    Default value is True.
	    

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    Returns:
        output (Variable): The output is a tensor with the same rank as input.

    Examples:
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        .. code-block:: python

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            import paddle.fluid as fluid
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            x = fluid.data(name='x', shape=[-1, 5], dtype='float32')
            index = fluid.data(name='index', shape=[-1, 1], dtype='int32')
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            output = fluid.layers.gather(x, index)
    """
    helper = LayerHelper('gather', **locals())
    dtype = helper.input_dtype()
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type="gather",
        inputs={"X": input,
                "Index": index},
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        outputs={"Out": out},
        attrs={'overwrite': overwrite})
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    return out


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def gather_nd(input, index, name=None):
    """
    **Gather Nd Layer**

    This function is actually a high-dimensional extension of :code:`gather` 
    and supports for simultaneous indexing by multiple axes. :attr:`index` is a 
    K-dimensional integer tensor, which is regarded as a (K-1)-dimensional 
    tensor of :attr:`index` into :attr:`input`, where each element defines 
    a slice of params:

    .. math::

        output[(i_0, ..., i_{K-2})] = input[index[(i_0, ..., i_{K-2})]]

    Obviously, :code:`index.shape[-1] <= input.rank` . And, the output tensor has
    shape :code:`index.shape[:-1] + input.shape[index.shape[-1]:]` .

    .. code-block:: text

            Given:
                input = [[[ 0,  1,  2,  3],
                          [ 4,  5,  6,  7],
                          [ 8,  9, 10, 11]],
                         [[12, 13, 14, 15],
                          [16, 17, 18, 19],
                          [20, 21, 22, 23]]]
                input.shape = (2, 3, 4)

            * Case 1:
                index = [[1]]
                
                gather_nd(input, index)  
                         = [input[1, :, :]] 
                         = [[12, 13, 14, 15],
                            [16, 17, 18, 19],
                            [20, 21, 22, 23]]

            * Case 2:
                index = [[0,2]]

                gather_nd(input, index)
                         = [input[0, 2, :]]
                         = [8, 9, 10, 11]

            * Case 3:
                index = [[1, 2, 3]]

                gather_nd(input, index)
                         = [input[1, 2, 3]]
                         = [23]

    Args:
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        input (Variable): The source input. Its dtype should be int32, int64, float32, float64.
        index (Variable): The index input with rank > 1, index.shape[-1] <= input.rank.
                          Its dtype should be int32, int64.
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        name (str|None): A name for this layer(optional). If set None, the
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                         layer will be named automatically.
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    Returns:
        output (Variable): A tensor with the shape index.shape[:-1] + input.shape[index.shape[-1]:]

    Examples:

        .. code-block:: python

            import paddle.fluid as fluid
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            x = fluid.data(name='x', shape=[3, 4, 5], dtype='float32')
            index = fluid.data(name='index', shape=[2, 2], dtype='int32')
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            output = fluid.layers.gather_nd(x, index)

    """
    helper = LayerHelper('gather_nd', **locals())
    dtype = helper.input_dtype()
    if name is None:
        output = helper.create_variable_for_type_inference(dtype)
    else:
        output = helper.create_variable(
            name=name, dtype=dtype, persistable=False)
    helper.append_op(
        type="gather_nd",
        inputs={"X": input,
                "Index": index},
        outputs={"Out": output})
    return output


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def scatter(input, index, updates, name=None, overwrite=True):
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    """
    **Scatter Layer**

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    Output is obtained by updating the input on selected indices based on updates.
7555

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    .. code-block:: python
        import numpy as np
                
        #input:
        input = np.array([[1, 1], [2, 2], [3, 3]])
        index = np.array([2, 1, 0, 1])
        # shape of updates should be the same as input
        # shape of updates with dim > 1 should be the same as input
        updates = np.array([[1, 1], [2, 2], [3, 3], [4, 4]])
        overwrite = False

        # calculation:
        if not overwrite:
            for i in range(len(index)):
                input[index[i]] = np.zeros((2))

        for i in range(len(index)):
            if (overwrite):
                input[index[i]] = updates[i]
            else:
                input[index[i]] += updates[i]
        # output:
        out = np.array([[3, 3], [6, 6], [1, 1]])
        out.shape # [3, 2]
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    Args:
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        input (Variable): The input N-D Tensor with rank>=1. Data type can be float32.
        index (Variable): The index 1-D Tensor. Data type can be int32, int64. The length of index cannot exceed updates's length, and the value in index cannot exceed input's length.
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        updates (Variable): update input with updates parameter based on index. shape should be the same as input, and dim value with dim > 1 should be the same as input.
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        name(str, optional): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name` .
        overwrite (bool): The mode that updating the output when there are same indices.
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            If True, use the overwrite mode to update the output of the same index,
	    if False, use the accumulate mode to update the output of the same index. 
7589
	    Default value is True.
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    Returns:
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        Variable(Tensor|LoDTensor): The output is a Tensor with the same shape as input.
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    Examples:

        .. code-block:: python

7598
            import numpy as np
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            import paddle.fluid as fluid

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            input = fluid.layers.data(name='data', shape=[3, 2], dtype='float32', append_batch_size=False)
            index = fluid.layers.data(name='index', shape=[4], dtype='int64', append_batch_size=False)
            updates = fluid.layers.data(name='update', shape=[4, 2], dtype='float32', append_batch_size=False)
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            output = fluid.layers.scatter(input, index, updates, overwrite=False)

            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_startup_program())

            in_data = np.array([[1, 1], [2, 2], [3, 3]]).astype(np.float32)
            index_data = np.array([2, 1, 0, 1]).astype(np.int64)
            update_data = np.array([[1, 1], [2, 2], [3, 3], [4, 4]]).astype(np.float32)

            res = exe.run(fluid.default_main_program(), feed={'data':in_data, "index":index_data, "update":update_data}, fetch_list=[output])
            print(res)
            # [array([[3., 3.],
            #   [6., 6.],
            #   [1., 1.]], dtype=float32)]
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    """
    helper = LayerHelper('scatter', **locals())
    dtype = helper.input_dtype()
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type="scatter",
        inputs={"X": input,
                "Ids": index,
                "Updates": updates},
7628
        attrs={'overwrite': overwrite},
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        outputs={"Out": out})
    return out


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def scatter_nd_add(ref, index, updates, name=None):
    """
    **Scatter_nd_add Layer**

    Output is obtained by applying sparse addition to a single value
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    or slice in a Variable. 

    :attr:`ref` is a Tensor with rank :math:`R` 
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    and :attr:`index` is a Tensor with rank :math:`K` . Thus, :attr:`index` 
    has shape :math:`[i_0, i_1, ..., i_{K-2}, Q]` where :math:`Q \leq R` . :attr:`updates` 
    is a Tensor with rank :math:`K - 1 + R - Q` and its
    shape is :math:`index.shape[:-1] + ref.shape[index.shape[-1]:]` .
7645

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    According to the :math:`[i_0, i_1, ..., i_{K-2}]` of :attr:`index` ,
    add the corresponding :attr:`updates` slice to the :attr:`ref` slice
    which is obtained by the last one dimension of :attr:`index` .

    .. code-block:: text
        
        Given:

        * Case 1:
            ref = [0, 1, 2, 3, 4, 5]
            index = [[1], [2], [3], [1]]
            updates = [9, 10, 11, 12]

          we get:
             
            output = [0, 22, 12, 14, 4, 5]

        * Case 2:
            ref = [[65, 17], [-14, -25]]
            index = [[], []]
            updates = [[[-1, -2], [1, 2]],
                       [[3, 4], [-3, -4]]]
            ref.shape = (2, 2)
            index.shape = (2, 0)
            updates.shape = (2, 2, 2)

          we get:
             
            output = [[67, 19], [-16, -27]]

    Args:
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        ref (Variable): The ref input. Its dtype should be float32, float64.
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        index (Variable): The index input with rank > 1 and index.shape[-1] <= ref.rank.
                          Its dtype should be int32 or int64 as it is used as indexes.
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        updates (Variable): The updated value of scatter_nd_add op, and it must have the same dtype
                            as ref. It must have the shape index.shape[:-1] + ref.shape[index.shape[-1]:].
        name (str|None): The output variable name. If set None, the layer will be named automatically.
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    Returns:
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        output (Variable): The output is a tensor with the same shape and dtype as ref.
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    Examples:

        .. code-block:: python

            import paddle.fluid as fluid

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            ref = fluid.data(name='ref', shape=[3, 5, 9, 10], dtype='float32')
            index = fluid.data(name='index', shape=[3, 2], dtype='int32')
            updates = fluid.data(name='update', shape=[3, 9, 10], dtype='float32')
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            output = fluid.layers.scatter_nd_add(ref, index, updates)
    """
    if ref.dtype != updates.dtype:
        raise ValueError("ref and updates must have same data type.")

    helper = LayerHelper('scatter_nd_add', **locals())
7703
    dtype = helper.input_dtype(input_param_name='ref')
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    if name is None:
        output = helper.create_variable_for_type_inference(dtype)
    else:
        output = helper.create_variable(
            name=name, dtype=dtype, persistable=False)
    helper.append_op(
        type="scatter_nd_add",
        inputs={"X": ref,
                "Index": index,
                "Updates": updates},
        outputs={"Out": output})
    return output


def scatter_nd(index, updates, shape, name=None):
    """
    **Scatter_nd Layer**

    Output is obtained by scattering the :attr:`updates` in a new tensor according 
    to :attr:`index` . This op is similar to :code:`scatter_nd_add`, except the 
    tensor of :attr:`shape` is zero-initialized. Correspondingly, :code:`scatter_nd(index, updates, shape)` 
    is equal to :code:`scatter_nd_add(fluid.layers.zeros(shape, updates.dtype), index, updates)` . 
    If :attr:`index` has repeated elements, then the corresponding updates are accumulated. 
    Because of the numerical approximation issues, the different order of repeated elements 
    in :attr:`index` may cause different results. The specific calculation method can be 
    seen :code:`scatter_nd_add` . This op is the inverse of the :code:`gather_nd` op.

    Args:
        index (Variable): The index input with rank > 1 and index.shape[-1] <= len(shape).
                          Its dtype should be int32 or int64 as it is used as indexes.
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        updates (Variable): The updated value of scatter_nd op. Its dtype should be float32, float64.
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                            It must have the shape index.shape[:-1] + shape[index.shape[-1]:]
        shape(tuple|list): Shape of output tensor.
7737
        name (str|None): The output variable name. If set None, the layer will be named automatically.
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    Returns:
        output (Variable): The output is a tensor with the same type as :attr:`updates` .

    Examples:

        .. code-block:: python

            import paddle.fluid as fluid

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            index = fluid.data(name='index', shape=[3, 2], dtype='int64')
            updates = fluid.data(name='update', shape=[3, 9, 10], dtype='float32')
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            shape = [3, 5, 9, 10]

            output = fluid.layers.scatter_nd(index, updates, shape)
    """
    return scatter_nd_add(zeros(shape, updates.dtype), index, updates, name)


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@templatedoc()
def random_crop(x, shape, seed=None):
    """
    ${comment}

    Args:
        x(${x_type}): ${x_comment}
        shape(${shape_type}): ${shape_comment}
        seed(int|${seed_type}|None): ${seed_comment} By default, the seed will
            get from `random.randint(-65536, 65535)`.

    Returns:
        ${out_comment}
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    Examples:
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        .. code-block:: python

            import paddle.fluid as fluid
            img = fluid.data("img", [None, 3, 256, 256])
            # cropped_img is [-1, 3, 224, 224]
            cropped_img = fluid.layers.random_crop(img, shape=[3, 224, 224])

            # cropped_img2 shape: [-1, 2, 224, 224]
            # cropped_img2 = fluid.layers.random_crop(img, shape=[2, 224, 224])

            # cropped_img3 shape: [-1, 3, 128, 224]
            # cropped_img3 = fluid.layers.random_crop(img, shape=[128, 224])

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    """
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    helper = LayerHelper("random_crop", **locals())
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    dtype = x.dtype
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    out = helper.create_variable_for_type_inference(dtype)
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    if seed is None:
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        seed = np.random.randint(-65536, 65536)
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    op_attrs = {"shape": shape}
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    if isinstance(seed, int):
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        op_attrs["startup_seed"] = seed
        seed = helper.create_variable(
            name=unique_name.generate("random_crop_seed"),
            dtype="int64",
            persistable=True)
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    elif not isinstance(seed, Variable):
        raise ValueError("'seed' must be a Variable or an int.")
    helper.append_op(
        type="random_crop",
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        inputs={"X": x,
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                "Seed": seed},
        outputs={"Out": out,
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                 "SeedOut": seed},
        attrs=op_attrs)
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    return out
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def log(x, name=None):
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    """
    Calculates the natural log of the given input tensor, element-wise.

    .. math::

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        Out = \\ln(x)
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    Args:
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        x (Variable): Input LoDTensor or Tensor. Must be one of the following types: float32, float64.
        name (str|None): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`
    
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    Returns:
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        Variable: The natural log of the input LoDTensor or Tensor computed element-wise.
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
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            import numpy as np

            # Graph Organizing
            x = fluid.layers.data(name="x", shape=[1], dtype="float32")
            res = fluid.layers.log(x)

            # Create an executor using CPU as an example
            exe = fluid.Executor(fluid.CPUPlace())

            # Execute
            x_i = np.array([[1], [2]]).astype(np.float32)
            res_val, = exe.run(fluid.default_main_program(), feed={'x':x_i}, fetch_list=[res])
            print(res_val) # [[0.], [0.6931472]]
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    """
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    inputs = {'X': [x]}
    if in_dygraph_mode():
        outs = core.ops.log(inputs)
        return outs['Out'][0]

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    helper = LayerHelper('log', **locals())
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    dtype = helper.input_dtype(input_param_name='x')
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(type="log", inputs={"X": x}, outputs={"Out": out})
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    return out


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@templatedoc()
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def relu(x, name=None):
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    """
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    ${comment}
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    Args:
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        x(Variable): ${x_comment}
        name(str, optional): The default value is None. Normally there is no
            need for user to set this property. For more information, please
            refer to :ref:`api_guide_Name`.
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    Returns:
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        Variable: ${out_comment}
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
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            import numpy as np
            in1 = np.array([[-1,0],[1,2.6]])
            with fluid.dygraph.guard():
                x1 = fluid.dygraph.to_variable(in1)
                out1 = fluid.layers.relu(x1)
                print(out1.numpy())
                # [[0.  0. ]
                #  [1.  2.6]]
"""
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    inputs = {'X': [x]}
    if in_dygraph_mode():
        outs = core.ops.relu(inputs)
        return outs['Out'][0]

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    helper = LayerHelper('relu', **locals())
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    dtype = helper.input_dtype(input_param_name='x')
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type="relu", inputs={"X": helper.input('x')}, outputs={"Out": out})
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    return out
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def selu(x, scale=None, alpha=None, name=None):
    """
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    Selu Operator.

    The equation is:
    
    .. math::
        selu= \\lambda*
        \\begin{cases}
            x                      &\\quad \\text{ if } x>0 \n
            \\alpha * e^x - \\alpha  &\\quad \\text{ if } x<=0
        \\end{cases}
    

    The input `X` can carry the LoD (Level of Details) information,
    or not. And the output shares the LoD information with input `X`.
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    Args:
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        x (Variable): The input N-D Tensor.
        scale(float, optional): lambda in selu activation function,
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            the default value is 1.0507009873554804934193349852946.
            For more information about this value, please refer
            to: https://arxiv.org/abs/1706.02515.
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        alpha(float, optional): alpha in selu activation function,
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            the default value is 1.6732632423543772848170429916717.
            For more information about this value, please refer
            to: https://arxiv.org/abs/1706.02515.
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        name(str, optional): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name` .

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    Returns:
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        Variable(Tensor|LoDTensor): The output Tensor or LoDTensor with the same shape and LoD information as input.
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    Examples:

        .. code-block:: python
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            import paddle.fluid as fluid
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            import numpy as np

            inputs = fluid.layers.data(name="x", shape=[2, 2], dtype="float32")
            output = fluid.layers.selu(inputs)

            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_startup_program())

            img = np.array([[0, 1],[2, 3]]).astype(np.float32)

            res = exe.run(fluid.default_main_program(), feed={'x':img}, fetch_list=[output])
            print(res) # [array([[0.      , 1.050701],[2.101402, 3.152103]], dtype=float32)]
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    """
    helper = LayerHelper('selu', **locals())
    dtype = helper.input_dtype(input_param_name='x')
    out = helper.create_variable_for_type_inference(dtype)
    attrs = {}
    if scale is not None:
        attrs["scale"] = scale
    if alpha is not None:
        attrs["alpha"] = alpha

    helper.append_op(
        type="selu", inputs={"X": x}, outputs={"Out": out}, attrs=attrs)
    return out


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def mean_iou(input, label, num_classes):
    """
    Mean Intersection-Over-Union is a common evaluation metric for
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    semantic image segmentation, which first computes the IOU for each
    semantic class and then computes the average over classes.
    IOU is defined as follows:

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    .. math::
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        IOU = \\frac{true\_positive}{(true\_positive + false\_positive + false\_negative)}.
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    The predictions are accumulated in a confusion matrix and mean-IOU
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    is then calculated from it.


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    Parameters:
        input (Variable): A n-D Tensor of prediction results for semantic labels with type int32 or int64.
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        label (Variable): A Tensor of ground truth labels with type int32 or int64.
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                           Its shape should be the same as input.
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        num_classes (int32): The possible number of labels.

    Returns: 
	Three Variables.

        - mean_iou(Variable) : A 1-D Tensor representing the mean intersection-over-union with shape [1]. \
			    Data type is float32.
        - out_wrong(Variable) : A 1-D Tensor with shape [num_classes]. Data type is int32. \
			     The wrong numbers of each class.
        - out_correct(Variable): A 1-D  Tensor with shape [num_classes]. Data type is int32. The correct numbers of each class.
 
   
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    Examples:

        .. code-block:: python
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            import paddle.fluid as fluid
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            iou_shape = [None, 32, 32]
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            num_classes = 5
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            predict = fluid.data(name='predict', shape=iou_shape, dtype='int64')
            label = fluid.data(name='label', shape=iou_shape, dtype='int64')
            mean_iou, out_wrong, out_correct = fluid.layers.mean_iou(predict, label,
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                                                          num_classes)
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    """
    helper = LayerHelper('mean_iou', **locals())
    dtype = helper.input_dtype()
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    out_mean_iou = helper.create_variable_for_type_inference(dtype='float32')
    out_wrong = helper.create_variable_for_type_inference(dtype='int32')
    out_correct = helper.create_variable_for_type_inference(dtype='int32')
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    helper.append_op(
        type="mean_iou",
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        inputs={"Predictions": input,
                "Labels": label},
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        outputs={
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            "OutMeanIou": out_mean_iou,
            "OutWrong": out_wrong,
            "OutCorrect": out_correct
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        },
        attrs={"num_classes": num_classes})
    return out_mean_iou, out_wrong, out_correct
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def crop(x, shape=None, offsets=None, name=None):
    """
    Crop input into output, as specified by offsets and shape.

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    **Warning:** THIS OP IS DEPRECATED. It will be removed in the future version.
    Instructions for updating: Use :ref:`api_fluid_layers_crop_tensor` instead.
8030

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    .. code-block:: text

        * Case 1:
            Given
                X = [[0, 1, 2, 0, 0]
                     [0, 3, 4, 0, 0]
                     [0, 0, 0, 0, 0]],
            and
                shape = [2, 2],
                offsets = [0, 1],
            output is:
                Out = [[1, 2],
                       [3, 4]].
        * Case 2:
            Given
                X = [[0, 1, 2, 5, 0]
                     [0, 3, 4, 6, 0]
                     [0, 0, 0, 0, 0]],
            and shape is tensor
                shape = [[0, 0, 0]
                         [0, 0, 0]]
            and
                offsets = [0, 1],

            output is:
                Out = [[1, 2, 5],
                       [3, 4, 6]].

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    Parameters:
        x (Variable): Tensor, data type can be float32 or float64.
        shape (Variable|list/tuple of integers): The output shape is specified
            by `shape`, which can be a Tensor or a list/tuple of integers.
            If it is a Tensor, it's rank must be the same as `x` , only 
            it's shape will be used, and the value of it will be ignored. This way
8065
            is suitable for the case that the output shape may be changed each
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            iteration. If it is a list/tuple of integers, it's length must be the same
8067
            as the rank of `x`
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        offsets (Variable|list/tuple of integers|None): Specifies the cropping
            offsets at each dimension. It can be a Tensor or a list/tuple
            of integers. If it is a Tensor, it's rank must be the same as `x`.
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            This way is suitable for the case that the offsets may be changed
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            each iteration. If it is a list/tuple of integers, it's length must be the
            same as the rank of `x`. If None, the offsets are 0 at each dimension.
        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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        The cropped Tensor, which has the same rank and data type with `x`

    Return Type:
        Variable
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    Raises:
        ValueError: If shape is not a list, tuple or Variable.

    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
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            x = fluid.data(name="x", shape=[3, 3, 5], dtype="float32")
            y = fluid.data(name="y", shape=[2, 2, 3], dtype="float32")
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            crop = fluid.layers.crop(x, shape=y)

            # or
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            z = fluid.data(name="z", shape=[3, 3, 5], dtype="float32")
            crop = fluid.layers.crop(z, shape=[2, 2, 3])
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    """
    helper = LayerHelper('crop', **locals())

    if not (isinstance(shape, list) or isinstance(shape, tuple) or \
8104
            isinstance(shape, Variable)):
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        raise ValueError("The shape should be a list, tuple or Variable.")

    if offsets is None:
        offsets = [0] * len(x.shape)

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    out = helper.create_variable_for_type_inference(x.dtype)
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    ipts = {'X': x}
    attrs = {}
    if isinstance(shape, Variable):
        ipts['Y'] = shape
    else:
        attrs['shape'] = shape
    if isinstance(offsets, Variable):
        ipts['Offsets'] = offsets
    else:
        attrs['offsets'] = offsets

    helper.append_op(
        type='crop',
        inputs=ipts,
        outputs={'Out': out},
        attrs=None if len(attrs) == 0 else attrs)
    return out
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def crop_tensor(x, shape=None, offsets=None, name=None):
    """
    Crop input into output, as specified by offsets and shape.

    .. code-block:: text

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        * Case 1 (input is a 2-D Tensor):
            Input:
8138
                X.shape = [3, 5]
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                X.data = [[0, 1, 2, 0, 0],
                          [0, 3, 4, 0, 0],
                          [0, 0, 0, 0, 0]]
            Parameters:
                shape = [2, 2]
                offsets = [0, 1]
            Output:
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                Out.shape = [2, 2]
                Out.data = [[1, 2],
                            [3, 4]]
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        * Case 2 (input is a 3-D Tensor):
            Input:
                X.shape = [2, 3, 4]
                X.data =  [[[0, 1, 2, 3],
                            [0, 5, 6, 7],
                            [0, 0, 0, 0]],
                           [[0, 3, 4, 5],
                            [0, 6, 7, 8],
                            [0, 0, 0, 0]]]
            Parameters:
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                shape = [2, 2, -1]
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                offsets = [0, 0, 1]
            Output:
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                Out.shape = [2, 2, 3]
                Out.data  = [[[1, 2, 3],
                              [5, 6, 7]],
                             [[3, 4, 5],
                              [6, 7, 8]]]
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    Parameters:
8169
        x (Variable): 1-D to 6-D Tensor, the data type is float32, float64, int32 or int64.
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        shape (list|tuple|Variable): The output shape is specified
            by `shape`. Its data type is int32. If a list/tuple, it's length must be
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            the same as the dimension size of `x`. If a Variable, it should be a 1-D Tensor.
8173
            When it is a list, each element can be an integer or a Tensor of shape: [1].
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            If Variable contained, it is suitable for the case that the shape may
            be changed each iteration.
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        offsets (list|tuple|Variable, optional): Specifies the cropping
            offsets at each dimension. Its data type is int32. If a list/tuple, it's length
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            must be the same as the dimension size of `x`. If a Variable, it should be a 1-D
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            Tensor. When it is a list, each element can be an integer or a Tensor of shape: [1].
            If Variable contained, it is suitable for the case that the offsets may be changed
            each iteration. Default: None, the offsets are 0 at each dimension.
        name(str, optional): The default value is None. Normally there is no need for user to set
            this property. For more information, please refer to :ref:`api_guide_Name` .
8184 8185

    Returns:
8186
        Variable: The cropped Tensor has same data type with `x`.
8187 8188

    Raises:
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        TypeError: If the data type of `x` is not in: float32, float64, int32, int64.
        TypeError: If `shape` is not a list, tuple or Variable.
        TypeError: If the data type of `shape` is not int32.
        TypeError: If `offsets` is not None and not a list, tuple or Variable.
        TypeError: If the data type of `offsets` is not int32.
        ValueError: If the element in `offsets` is less than zero.
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    Examples:

        .. code-block:: python

            import paddle.fluid as fluid
8201
            x = fluid.data(name="x", shape=[None, 3, 5], dtype="float32")
8202 8203
            # x.shape = [-1, 3, 5], where -1 indicates batch size, and it will get the exact value in runtime.

8204 8205
            # shape is a 1-D Tensor
            crop_shape = fluid.data(name="crop_shape", shape=[3], dtype="int32")
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            crop0 = fluid.layers.crop_tensor(x, shape=crop_shape)
            # crop0.shape = [-1, -1, -1], it means crop0.shape[0] = x.shape[0] in runtime.

            # or shape is a list in which each element is a constant
8210
            crop1 = fluid.layers.crop_tensor(x, shape=[-1, -1, 3], offsets=[0, 1, 0])
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            # crop1.shape = [-1, 2, 3]

8213 8214 8215 8216 8217
            # or shape is a list in which each element is a constant or Variable
            y = fluid.data(name="y", shape=[3, 8, 8], dtype="float32")
            dim1 = fluid.data(name="dim1", shape=[1], dtype="int32")
            crop2 = fluid.layers.crop_tensor(y, shape=[3, dim1, 4])
            # crop2.shape = [3, -1, 4]
8218

8219 8220
            # offsets is a 1-D Tensor
            crop_offsets = fluid.data(name="crop_offsets", shape=[3], dtype="int32")
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            crop3 = fluid.layers.crop_tensor(x, shape=[-1, 2, 3], offsets=crop_offsets)
            # crop3.shape = [-1, 2, 3]

8224 8225
            # offsets is a list in which each element is a constant or Variable
            offsets_var =  fluid.data(name="dim1", shape=[1], dtype="int32")
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            crop4 = fluid.layers.crop_tensor(x, shape=[-1, 2, 3], offsets=[0, 1, offsets_var])
            # crop4.shape = [-1, 2, 3]

    """
    helper = LayerHelper('crop_tensor', **locals())
8231 8232
    check_variable_and_dtype(x, 'x', ['float32', 'float64', 'int32', 'int64'],
                             'crop_tensor')
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    check_type(shape, 'shape', (list, tuple, Variable), 'crop_tensor')
    check_type(offsets, 'offsets', (list, tuple, Variable, type(None)),
               'crop_tensor')
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    if offsets is None:
        offsets = [0] * len(x.shape)

    out = helper.create_variable_for_type_inference(x.dtype)
    ipts = {'X': x}
    attrs = {}

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    def _attr_shape_check(shape_val):
        if not isinstance(shape_val, int):
            raise TypeError(
                "Attr(shape)'s dtype of Op(crop_tensor) should be int32, but received: %s."
                % type(shape_val))
        if shape_val == 0:
            raise ValueError(
                "Attr(shape) of Op(crop_tensor) should not be zero, but received: %s."
                % str(shape_val))
        if shape_val < -1:
            raise ValueError(
                "When the element in Attr(shape) of Op(crop_tensor) is negative, only -1 is supported, but received: %s."
                % str(shape_val))

    def _attr_offsets_check(offset_val):
        if not isinstance(offset_val, int):
            raise TypeError(
                "Attr(offsets)'s dtype of Op(crop_tensor) should be int32, but received: %s."
                % type(offset_val))
        if offset_val < 0:
            raise ValueError(
                "Attr(offsets) of Op(crop_tensor) should be greater or equal to zero, but received: %s."
                % str(offset_val))

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    if isinstance(offsets, Variable):
        offsets.stop_gradient = True
        ipts['Offsets'] = offsets
8271
        attrs['offsets'] = [-1] * len(x.shape)
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    elif utils._contain_var(offsets):
8273
        new_offsets_tensor = []
8274
        offsets_attr = []
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        for dim in offsets:
            if isinstance(dim, Variable):
                dim.stop_gradient = True
                new_offsets_tensor.append(dim)
8279
                offsets_attr.append(-1)
8280
            else:
8281
                _attr_offsets_check(dim)
8282 8283 8284
                temp_out = helper.create_variable_for_type_inference('int32')
                fill_constant([1], 'int32', dim, force_cpu=True, out=temp_out)
                new_offsets_tensor.append(temp_out)
8285
                offsets_attr.append(dim)
8286
        ipts['OffsetsTensor'] = new_offsets_tensor
8287
        attrs['offsets'] = offsets_attr
8288
    else:
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        for offset in offsets:
            _attr_offsets_check(offset)
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        attrs['offsets'] = offsets

    if isinstance(shape, Variable):
        shape.stop_gradient = True
        ipts['Shape'] = shape
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    elif utils._contain_var(shape):
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        new_shape_tensor = []
        shape_attr = []
8299
        for dim_size in shape:
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            if isinstance(dim_size, Variable):
                dim_size.stop_gradient = True
                new_shape_tensor.append(dim_size)
8303
                shape_attr.append(0)
8304
            else:
8305
                _attr_shape_check(dim_size)
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                temp_out = helper.create_variable_for_type_inference('int32')
                fill_constant(
                    [1], 'int32', dim_size, force_cpu=True, out=temp_out)
                new_shape_tensor.append(temp_out)
                shape_attr.append(dim_size)
        ipts['ShapeTensor'] = new_shape_tensor
        attrs['shape'] = shape_attr
    else:
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        for dim_size in shape:
            _attr_shape_check(dim_size)
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        attrs['shape'] = shape

    helper.append_op(
        type='crop_tensor',
        inputs=ipts,
        outputs={'Out': out},
        attrs=None if len(attrs) == 0 else attrs)
    return out


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def affine_grid(theta, out_shape, name=None):
    """
    It generates a grid of (x,y) coordinates using the parameters of
    the affine transformation that correspond to a set of points where
    the input feature map should be sampled to produce the transformed
    output feature map.

    Args:
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        theta (Variable) - A Tensor with shape [N, 2, 3]. It contains a batch of affine transform parameters.
                           The data type can be float32 or float64.
        out_shape (Variable | list | tuple): The shape of target output with format [batch_size, channel, height, width].
                                             ``out_shape`` can be a Tensor or a list or tuple. The data
                                             type must be int32.
        name(str|None): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name`.
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    Returns:
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        Variable: A Tensor with shape [batch_size, H, W, 2] while 'H' and 'W' are the height and width of feature map in affine transformation. The data type is the same as `theta`. 
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    Raises:
        ValueError: If the type of arguments is not supported.

    Examples:

        .. code-block:: python
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            import paddle.fluid as fluid
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            import numpy as np
            place = fluid.CPUPlace()
            theta = fluid.data(name="x", shape=[None, 2, 3], dtype="float32")
            out_shape = fluid.data(name="y", shape=[4], dtype="int32")
            grid_0 = fluid.layers.affine_grid(theta, out_shape)
            grid_1 = fluid.layers.affine_grid(theta, [5, 3, 28, 28])
            batch_size=2
            exe = fluid.Executor(place)
            exe.run(fluid.default_startup_program())
            output= exe.run(feed={"x": np.random.rand(batch_size,2,3).astype("float32"),
                                  "y": np.array([5, 3, 28, 28]).astype("int32")},
                                  fetch_list=[grid_0.name, grid_1.name])
            print(output[0])
            print(output[1])
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    """
    helper = LayerHelper('affine_grid')

    if not (isinstance(out_shape, list) or isinstance(out_shape, tuple) or \
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            isinstance(out_shape, Variable)):
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        raise ValueError("The out_shape should be a list, tuple or Variable.")

    if not isinstance(theta, Variable):
        raise ValueError("The theta should be a Variable.")

    out = helper.create_variable_for_type_inference(theta.dtype)
    ipts = {'Theta': theta}
    attrs = {}
    if isinstance(out_shape, Variable):
        ipts['OutputShape'] = out_shape
    else:
        attrs['output_shape'] = out_shape

    helper.append_op(
        type='affine_grid',
        inputs=ipts,
        outputs={'Output': out},
        attrs=None if len(attrs) == 0 else attrs)
    return out


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def pad2d(input,
          paddings=[0, 0, 0, 0],
          mode='constant',
          pad_value=0.0,
          data_format="NCHW",
          name=None):
    """
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    Pad 2-d images according to 'paddings' and 'mode'.
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    If mode is 'reflect', paddings[0] and paddings[1] must be no greater
    than height-1. And the width dimension has the same condition.

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    Parameters:
        input (Variable): The input image with [N, C, H, W] format or [N, H, W, C] format, which is a 4-D Tensor with data type float32.
        paddings (Variable | List[int32]): The padding size. If padding is a List, it must
            contain four integers, (padding_top, padding_bottom, padding_left, padding_right).
            Otherwise, it is a 1-D Tensor with shape [4]. Data type is int32.
            Default is [0, 0, 0, 0].
        mode (str): Three modes: 'constant' (default), 'reflect', 'edge' .
        	When in 'constant' mode, this op uses a constant value to pad the input tensor.
        	When in 'reflect' mode, uses reflection of the input boundaries to pad the input tensor.
        	When in 'edge' mode, uses input boundaries to pad the input tensor.
        	Default is 'constant'
        pad_value (float32): The value to fill the padded areas in 'constant' mode . Default is 0.0
        data_format (str): An string from: "NHWC", "NCHW". Specify the data format of
                           the input data.
                           Default is  "NCHW"
        name (str, optional) : The default value is None.  Normally there is no need for
                    user to set this property.  For more information, please refer to :ref:`api_guide_Name` .

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    Returns: a 4-D Tensor padded according to paddings and mode and data type is same as input.
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    Return Type: Variable


    Examples:
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        .. code-block:: text
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	      Given that X is a channel of image from input:
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	      X = [[1, 2, 3],
		   [4, 5, 6]]
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	      Case 0:
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		paddings = [0, 1, 2, 3],
		mode = 'constant'
		pad_value = 0
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		Out = [[0, 0, 1, 2, 3, 0, 0, 0]
		       [0, 0, 4, 5, 6, 0, 0, 0]
		       [0, 0, 0, 0, 0, 0, 0, 0]]
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	      Case 1:
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		paddings = [0, 1, 2, 1],
		mode = 'reflect'
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		Out = [[3, 2, 1, 2, 3, 2]
		       [6, 5, 4, 5, 6, 5]
		       [3, 2, 1, 2, 3, 2]]
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	      Case 2:
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		paddings = [0, 1, 2, 1],
		mode = 'edge'
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		Out = [[1, 1, 1, 2, 3, 3]
		       [4, 4, 4, 5, 6, 6]
		       [4, 4, 4, 5, 6, 6]]
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    Code Examples:
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        .. code-block:: python

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          import paddle.fluid as fluid
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          data = fluid.data(name='data', shape=[None, 3, 32, 32],
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                                   dtype='float32')
          result = fluid.layers.pad2d(input=data, paddings=[1, 2, 3, 4],
                                      mode='reflect')
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    """
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    attrs = {'mode': mode, 'pad_value': pad_value, 'data_format': data_format}
    inputs = {'X': [input]}
    if isinstance(paddings, Variable):
        inputs['Paddings'] = [paddings]
        attrs['paddings'] = []
    else:
        attrs['paddings'] = paddings

    if in_dygraph_mode():
        outs = core.ops.pad2d(inputs, attrs)
        return outs['Out'][0]
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    helper = LayerHelper('pad2d', **locals())
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    assert mode in ['reflect', 'edge', 'constant'
                    ], "mode should be one of constant, reflect, edge."

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    dtype = helper.input_dtype(input_param_name='input')
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
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        type='pad2d', inputs=inputs, outputs={"Out": out}, attrs=attrs)
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    return out


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@templatedoc()
def elu(x, alpha=1.0, name=None):
    """
    ${comment}
    Args:
        x(${x_type}): ${x_comment}
        alpha(${alpha_type}|1.0): ${alpha_comment}
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        name(str|None): The default value is None. Normally there is no need for user to set this property. 
                        For more information, please refer to :ref:`api_guide_Name`.
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    Returns:
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        ${out_type}: ${out_comment}
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
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            import numpy as np
         
            input_elu = np.array([[-1,6],[1,15.6]])
            with fluid.dygraph.guard():
                x = fluid.dygraph.to_variable(input_elu)
                y = fluid.layers.elu(x, alpha=0.2)
                print(y.numpy())
                # [[-0.12642411  6.        ]
                # [ 1.          15.6       ]]
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    """
    helper = LayerHelper('elu', **locals())
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    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64'], 'elu')
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
        type='elu',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'alpha': alpha})
    return out


@templatedoc()
def relu6(x, threshold=6.0, name=None):
    """
    ${comment}
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    Args:
        x(${x_type}): ${x_comment}
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        threshold(float, optional): ${threshold_comment}
        name(str, optional): The default value is None. Normally there is no
            need for user to set this property. For more information, please
            refer to :ref:`api_guide_Name`.
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    Returns:
        output(${out_type}): ${out_comment}
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
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            import numpy as np
            in1 = np.array([[-1,0],[2.5,7.8]])
            with fluid.dygraph.guard():
                x1 = fluid.dygraph.to_variable(in1)
                out1 = fluid.layers.relu6(x=x1, threshold=6.0)
                print(out1.numpy())
                # [[0.  0. ]
                #  [2.5 6. ]]
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    """
    helper = LayerHelper('relu6', **locals())
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
        type='relu6',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'threshold': threshold})
    return out


@templatedoc()
def pow(x, factor=1.0, name=None):
    """
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    This is Pow Activation Operator.

    :math:`out = x^{factor}`

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    Args:
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        x(Variable): A ``Tensor`` or ``LoDTensor`` . The data type is ``float32`` or ``float64``.
        factor(float32|Variable, optional): A scalar with type ``float32`` or a ``Tensor`` with shape [1] and type ``float32``.  The exponential factor of Pow. Default 1.0.
        name(str, optional): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name` .
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    Returns:
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        Variable: A ``Tensor`` or ``LoDTensor``. The data type is same as ``x``.
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
8594

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            x = fluid.data(name="x", shape=[32,32], dtype="float32")
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            # example 1: argument factor is float
            y_1 = fluid.layers.pow(x, factor=2.0)
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            # y_1 is x^{2.0}
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            # example 2: argument factor is Variable
            factor_tensor = fluid.layers.fill_constant([1], "float32", 3.0)
            y_2 = fluid.layers.pow(x, factor=factor_tensor)
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            # y_2 is x^{3.0}
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    """
    helper = LayerHelper('pow', **locals())
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    inputs = {'X': x}
    attrs = {}
    if isinstance(factor, Variable):
        factor.stop_gradient = True
        inputs['FactorTensor'] = factor
    else:
        attrs['factor'] = factor

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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
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        type='pow', inputs=inputs, outputs={'Out': out}, attrs=attrs)
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    return out


@templatedoc()
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def stanh(x, scale_a=0.67, scale_b=1.7159, name=None):
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    """
    ${comment}
    Args:
        x(${x_type}): ${x_comment}
        scale_a(${scale_a_type}|2.0 / 3.0): ${scale_a_comment}
        scale_b(${scale_b_type}|1.7159): ${scale_b_comment}
        name(str|None): A name for this layer(optional). If set None, the layer
                        will be named automatically.

    Returns:
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        output(${out_type}): ${out_comment}. 
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
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            import numpy as np
            data = fluid.data(name="input", shape=[-1, 3])
            result = fluid.layers.stanh(data,scale_a=0.67, scale_b=1.72)
            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            exe.run(fluid.default_startup_program())
            x = np.random.random(size=(3, 3)).astype('float32')
            output= exe.run(feed={"input": x},
                         fetch_list=[result])
            print(output)

            #[array([[0.626466  , 0.89842904, 0.7501062 ],
            #       [0.25147712, 0.7484996 , 0.22902708],
            #       [0.62705994, 0.23110689, 0.56902856]], dtype=float32)]

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    """
    helper = LayerHelper('stanh', **locals())
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
        type='stanh',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'scale_a': scale_a,
               'scale_b': scale_b})
    return out


@templatedoc()
def hard_sigmoid(x, slope=0.2, offset=0.5, name=None):
    """
    ${comment}
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    Parameters:
        x (${x_type}): ${x_comment}
        slope (float, optional): ${slope_comment}
        offset (float, optional): ${offset_comment}
        name (str, optional): The default value is None. Normally there is no
            need for user to set this property. For more information, please
            refer to :ref:`api_guide_Name`
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    Returns:
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        ${out_type}: ${out_comment}
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
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            data = fluid.layers.fill_constant(shape=[3, 2], value=0.5, dtype='float32') # [[0.5, 0.5], [0.5, 0.5], [0.5, 0.5]]
            result = fluid.layers.hard_sigmoid(data) # [[0.6, 0.6], [0.6, 0.6], [0.6, 0.6]]
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    """
    helper = LayerHelper('hard_sigmoid', **locals())
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
        type='hard_sigmoid',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'slope': slope,
               'offset': offset})
    return out


@templatedoc()
def swish(x, beta=1.0, name=None):
    """
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    Elementwise swish activation function. See `Searching for Activation Functions <https://arxiv.org/abs/1710.05941>`_ for more details.
    
    Equation:

    .. math::
        out = \\frac{x}{1 + e^{- beta * x}}
    
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    Args:
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        x(Variable): Tensor or LoDTensor, dtype: float32 or float64, the input of swish activation.
        
        beta(float): Constant beta of swish operator, default 1.0.
        
        name(str, optional): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`.
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    Returns:
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        Variable: Output of the swish activation, Tensor or LoDTensor, with the same dtype and shape with the input x.
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    Examples:

        .. code-block:: python
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            # declarative mode
            import numpy as np
            from paddle import fluid
            
            x = fluid.data(name="x", shape=(-1, 3), dtype="float32")
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            y = fluid.layers.swish(x, beta=2.0)
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            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            start = fluid.default_startup_program()
            main = fluid.default_main_program()
            
            data = np.random.randn(2, 3).astype("float32")
            exe.run(start)
            y_np, = exe.run(main, feed={"x": data}, fetch_list=[y])
            
            data
            # array([[-1.1239197 ,  1.3391294 ,  0.03921051],
            #        [ 1.1970421 ,  0.02440812,  1.2055548 ]], dtype=float32)
            y_np
            # array([[-0.2756806 ,  1.0610548 ,  0.01998957],
            #        [ 0.9193261 ,  0.01235299,  0.9276883 ]], dtype=float32)


        .. code-block:: python

            # imperative mode
            import numpy as np
            from paddle import fluid
            import paddle.fluid.dygraph as dg
            
            data = np.random.randn(2, 3).astype("float32")
            place = fluid.CPUPlace()
            with dg.guard(place) as g:
                x = dg.to_variable(data)
                y = fluid.layers.swish(x)
                y_np = y.numpy()
            data
            # array([[-0.0816701 ,  1.1603649 , -0.88325626],
            #        [ 0.7522361 ,  1.0978601 ,  0.12987892]], dtype=float32)
            y_np
            # array([[-0.03916847,  0.8835007 , -0.25835553],
            #        [ 0.51126915,  0.82324016,  0.06915068]], dtype=float32)
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    """
    helper = LayerHelper('swish', **locals())
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
        type='swish',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'slope': beta})
    return out


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def prelu(x, mode, param_attr=None, name=None):
    """
    Equation:

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    .. math::
        y = \max(0, x) + \\alpha * \min(0, x)
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    There are three modes for the activation:

    .. code-block:: text

        all: All elements share same alpha.
        channel: Elements in same channel share same alpha.
        element: All elements do not share alpha. Each element has its own alpha.

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    Args:
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        x (Variable): The input Tensor or LoDTensor with data type float32.
        mode (str): The mode for weight sharing. 
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        param_attr(ParamAttr|None): The parameter attribute for the learnable
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          weight (alpha), it can be create by ParamAttr. None by default.
          For detailed information, please refer to :ref:`api_fluid_ParamAttr`.
        name(str|None): 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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        Variable:

        output(Variable): The tensor or LoDTensor with the same shape as input.
        The data type is float32.
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
            from paddle.fluid.param_attr import ParamAttr
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            x = fluid.data(name="x", shape=[None,5,10,10], dtype="float32")
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            mode = 'channel'
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            output = fluid.layers.prelu(
                     x,mode,param_attr=ParamAttr(name='alpha'))

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    """
    helper = LayerHelper('prelu', **locals())
    if mode not in ['all', 'channel', 'element']:
        raise ValueError('mode should be one of all, channel, element.')
    alpha_shape = [1]
    if mode == 'channel':
        alpha_shape = [1, x.shape[1], 1, 1]
    elif mode == 'element':
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        alpha_shape = [1, x.shape[1], x.shape[2], x.shape[3]]
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    dtype = helper.input_dtype(input_param_name='x')
    alpha = helper.create_parameter(
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        attr=helper.param_attr,
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        shape=alpha_shape,
        dtype='float32',
        is_bias=False,
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        default_initializer=Constant(0.25))
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type="prelu",
        inputs={"X": x,
                'Alpha': alpha},
        attrs={"mode": mode},
        outputs={"Out": out})
    return out


8848 8849 8850 8851 8852 8853 8854 8855
@templatedoc()
def brelu(x, t_min=0.0, t_max=24.0, name=None):
    """
    ${comment}
    Args:
        x(${x_type}): ${x_comment}
        t_min(${t_min_type}|0.0): ${t_min_comment}
        t_max(${t_max_type}|24.0): ${t_max_comment}
8856 8857
        name(str|None): The default value is None. Normally there is no need for user to set this property. 
                        For more information, please refer to :ref:`api_guide_Name`.
8858
    Returns:
8859
        ${out_type}: ${out_comment}
8860 8861 8862

    Examples:

8863
    .. code-block:: python
8864

8865
            import paddle.fluid as fluid
8866 8867 8868 8869 8870 8871 8872 8873 8874
            import numpy as np
            
            input_brelu = np.array([[-1,6],[1,15.6]])
            with fluid.dygraph.guard():
                x = fluid.dygraph.to_variable(input_brelu)
                y = fluid.layers.brelu(x, t_min=1.0, t_max=10.0)
                print(y.numpy())
                #[[ 1.  6.]
                #[ 1. 10.]] 
8875 8876
    """
    helper = LayerHelper('brelu', **locals())
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
        type='brelu',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'t_min': t_min,
               't_max': t_max})
    return out


@templatedoc()
def leaky_relu(x, alpha=0.02, name=None):
    """
    ${comment}
    Args:
        x(${x_type}): ${x_comment}
        alpha(${alpha_type}|0.02): ${alpha_comment}
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        name(str|None): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`

8896
    Returns:
8897
        output(${out_type}): ${out_comment}
8898 8899 8900 8901 8902

    Examples:

        .. code-block:: python

8903
            import paddle.fluid as fluid
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            import numpy as np

            # Graph Organizing
            x = fluid.layers.data(name="x", shape=[2], dtype="float32")
            res = fluid.layers.leaky_relu(x, alpha=0.1)

            # Create an executor using CPU as an example
            exe = fluid.Executor(fluid.CPUPlace())

            # Execute
            x_i = np.array([[-1, 2], [3, -4]]).astype(np.float32)
            res_val, = exe.run(fluid.default_main_program(), feed={'x':x_i}, fetch_list=[res])
            print(res_val) # [[-0.1, 2], [3, -0.4]]
8917
    """
8918 8919 8920 8921 8922 8923
    inputs = {'X': [x]}
    attrs = {'alpha': alpha}
    if in_dygraph_mode():
        outs = core.ops.leaky_relu(inputs, attrs)
        return outs['Out'][0]

8924
    helper = LayerHelper('leaky_relu', **locals())
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
8926
    helper.append_op(
8927
        type='leaky_relu', inputs=inputs, outputs={'Out': out}, attrs=attrs)
8928 8929 8930 8931 8932
    return out


def soft_relu(x, threshold=40.0, name=None):
    """
8933 8934 8935 8936
    SoftRelu Activation Operator.

    $out = \ln(1 + \exp(\max(\min(x, threshold), -threshold)))$

8937
    Args:
8938 8939 8940 8941
        x(Variable): Input of soft_relu operator. Data type can be float32, float64.
        threshold(float, optional): The threshold value of soft_relu, default value being 40.0.
        name(str, optional): The default value is None.  Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name` .

8942
    Returns:
8943
        Variable(Tensor|LoDTensor)): Output of soft_relu operator, shape and LoD same as input.
8944 8945 8946

    Examples:

8947 8948 8949
        .. code-block:: python 
 
            import paddle.fluid as fluid
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            import numpy as np

            inputs = fluid.layers.data(name="x", shape=[2, 2], dtype="float32")
            output = fluid.layers.soft_relu(inputs, threshold=20.0)

            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_startup_program())

            img = np.array([[0, 1],[2, 3]]).astype(np.float32)

            res = exe.run(fluid.default_main_program(), feed={'x':img}, fetch_list=[output])
            print(res) # [array([[0.6931472, 1.3132616], [2.126928 , 3.0485873]], dtype=float32)]
8962 8963
    """
    helper = LayerHelper('soft_relu', **locals())
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
        type='soft_relu',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'threshold': threshold})
    return out


8973 8974
def flatten(x, axis=1, name=None):
    """
8975 8976 8977
    **Flatten op**

    Flatten the input tensor into a 2D matrix.
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    For Example:
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    .. code-block:: text
8982

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        Case 1:

          Given
            X.shape = (3, 100, 100, 4)

          and
            axis = 2

          We get:
            Out.shape = (3 * 100, 4 * 100)

        Case 2:

          Given
            X.shape = (3, 100, 100, 4)

          and
            axis = 0

          We get:
            Out.shape = (1, 3 * 100 * 100 * 4)
9004 9005

    Args:
9006 9007
        x (Variable): A tensor of rank >= axis. A tensor with type float32,
                      float64, int8, int32, int64.
9008 9009
        axis (int): Indicate up to which input dimensions (exclusive) should
                    be flattened to the outer dimension of the output.
9010
                    The value for axis must be in the range [0, R], where R
9011 9012 9013
                    is the rank of the input tensor. Default: 1.
        name(str, Optional): For details, please refer to :ref:`api_guide_Name`.
                        Generally, no setting is required. Default: None.
9014 9015

    Returns:
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        Variable: A 2D tensor with the contents of the input tensor, with input \
                  dimensions up to axis flattened to the outer dimension of \
                  the output and remaining input dimensions flattened into the \
9019
                  inner dimension of the output. A Tensor with type same as input x.
9020 9021 9022

    Raises:
        ValueError: If x is not a variable.
9023
        ValueError: If axis is not in range [0, rank(x)].
9024 9025 9026 9027 9028

    Examples:

        .. code-block:: python

9029
            import paddle.fluid as fluid
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            x = fluid.data(name="x", shape=[4, 4, 3], dtype="float32")
9031
            # x shape is [4, 4, 3]
9032
            out = fluid.layers.flatten(x=x, axis=2)
9033
            # out shape is [16, 3]
9034 9035 9036 9037 9038 9039 9040 9041 9042
    """
    helper = LayerHelper('flatten', **locals())

    if not (isinstance(x, Variable)):
        raise ValueError("The input x should be a Variable")

    if not (isinstance(axis, int)) or axis > len(x.shape) or axis < 0:
        raise ValueError("The axis should be a int, and in range [0, rank(x)]")

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    out = helper.create_variable_for_type_inference(x.dtype)
    x_shape = helper.create_variable_for_type_inference(x.dtype)
9045
    helper.append_op(
9046
        type='flatten2',
9047
        inputs={"X": x},
9048 9049
        outputs={'Out': out,
                 'XShape': x_shape},
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        attrs={"axis": axis})
    return out
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def stack(x, axis=0):
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    """
9056

9057
    This OP stacks all the inputs :code:`x` along axis.
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    .. code-block:: text

        Case 1:
9062

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          Input:
9064
            x[0].shape = [1, 2]
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            x[0].data = [ [1.0 , 2.0 ] ]
9066
            x[1].shape = [1, 2]
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            x[1].data = [ [3.0 , 4.0 ] ]
9068
            x[2].shape = [1, 2]
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            x[2].data = [ [5.0 , 6.0 ] ]

          Attrs:
            axis = 0

          Output:
9075
            Out.dims = [3, 1, 2]
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            Out.data =[ [ [1.0, 2.0] ],
                        [ [3.0, 4.0] ],
                        [ [5.0, 6.0] ] ]
9079

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        Case 2:
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          Input:
            x[0].shape = [1, 2]
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            x[0].data = [ [1.0 , 2.0 ] ]
9087
            x[1].shape = [1, 2]
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            x[1].data = [ [3.0 , 4.0 ] ]
9089
            x[2].shape = [1, 2]
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            x[2].data = [ [5.0 , 6.0 ] ]
9091

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          Attrs:
            axis = 1 or axis = -2

          Output:
9097
            Out.shape = [1, 3, 2]
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            Out.data =[ [ [1.0, 2.0]
                          [3.0, 4.0]
                          [5.0, 6.0] ] ]
9101

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    Args:
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        x (Variable|list(Variable)): Input :code:`x` can be a single Tensor, a :code:`list` of Tensors.
                                     If :code:`x` is a :code:`list`, the shapes of all these Tensors
                                     must be the same. Supposing input is N dims
                                     Tensors :math:`[d_0, d_1, ..., d_{n-1}]`, the output is N+1 dims
                                     Tensor :math:`[d_0, d_1, d_{axis-1}, len(x), d_{axis}, ..., d_{n-1}]`.
                                     Support data types: float32, float64, int32, int64.
        axis (int, optional): The axis along which all inputs are stacked. ``axis`` range is :math:`[-(R+1), R+1)`.
                              R is the first tensor of inputs. If ``axis`` < 0, :math:`axis=axis+rank(x[0])+1`.
                              The default value of axis is 0.
9113

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    Returns:
9115
        Variable: The stacked Tensor, has same data type with input Tensors. Output dim is :math:`rank(x[0])+1`.
9116

9117 9118 9119
    Examples:
        .. code-block:: python

9120
            import paddle.fluid as fluid
9121
            import paddle.fluid.layers as layers
9122 9123 9124 9125 9126 9127 9128 9129 9130 9131
            # set batch size=None
            x1 = fluid.data(name='x1', shape=[None, 1, 2], dtype='int32')
            x2 = fluid.data(name='x2', shape=[None, 1, 2], dtype='int32')
            # stack Tensor list
            data = layers.stack([x1,x2]) # stack according to axis 0, data.shape=[2, None, 1, 2]

            data = layers.stack([x1,x2], axis=1) # stack according to axis 1, data.shape=[None, 2, 1, 2]

            # stack single Tensor
            data = layers.stack(x1)  # stack according to axis 0, data.shape=[1, None, 1, 2]
9132

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    """

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    helper = LayerHelper('stack', **locals())
    axis = 0 if axis is None else axis

    if not isinstance(x, list) and not isinstance(x, tuple):
        x = [x]
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    out = helper.create_variable_for_type_inference(x[0].dtype)
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    if not in_dygraph_mode() and \
            x[0].desc.type() == core.VarDesc.VarType.LOD_TENSOR_ARRAY:
        assert len(x) == 1, "If the elements of 'x' in stack are Variable(LoDTensorArray), " \
                            "number of the elements must be 1, but received %s." % len(x)
        out_index = helper.create_variable_for_type_inference(dtype="int32")
        helper.append_op(
            type='tensor_array_to_tensor',
            inputs={'X': x[0]},
            outputs={'Out': [out],
                     'OutIndex': [out_index]},
            attrs={'axis': axis,
                   'use_stack': True})
    else:
        helper.append_op(
            type='stack',
            inputs={'X': x},
            outputs={'Y': out},
            attrs={'axis': axis})
9159

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    return out
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@templatedoc(op_type="filter_by_instag")
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def filter_by_instag(ins, ins_tag, filter_tag, is_lod, out_val_if_empty=0):
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    """
    **Filter By Instag Layer**
   
    This function filter a batch of ins by instag, 
    There are multiple ins, and every ins belongs to some tags. 
    We can specify some tags we want. So the ins which belongs to that tags
    remains in the output, and others removed.
 
    For example, one batch has 4 ins. Every ins has its tag list. 
     
       | Ins   |   Ins_Tag |
       |:-----:|:------:|
       |  0    |   0, 1 |
       |  1    |   1, 3 |
       |  2    |   0, 3 |
       |  3    |   2, 6 |

    And Lod is [1,1,1,1]

    And the filter tags [1]

    From the definition above, ins which has tag 1 can pass the filter
    So Ins 0 and Ins 1 can pass and be seen in the output,
    Ins 2 and 3 cannot pass because they do not has tag 1.

    Actually, if is_lod is false, it is normal tensor that equals to 
    lod_tensor with all 1, similar to the example above.

    Args:
        ins (Variable): Input Variable (LoDTensor), usually it is 2D tensor
                        And first dimension can have lod info or not.
        ins_tag (Variable): Input Variable (LoDTensor), usually it is 1D list
                        And split them by lod info
        filter_tag (Variable): Input Variable (1D Tensor/List), usually it is 
                        list that holds the tags.
        is_lod (Bool): Boolean value to indicate ins is lod tensor or not.
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        out_val_if_empty(Int64): If the output after filter is empty, this value
                        will be set to Output tensor.
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    Returns:
        Variable: filtered ins (LoDTensor) and loss weight (Tensor)

    Examples:
        .. code-block:: python

          import paddle.fluid.layers as layers
          ins = layers.data(name='Ins', shape=[-1,32], lod_level=0, dtype='float64')
          ins_tag = layers.data(name='Ins_tag', shape=[-1,16], lod_level=0, dtype='int64')
          filter_tag = layers.data(name='Filter_tag', shape=[-1,16], dtype='int64')
          out, loss_weight = layers.filter_by_instag(ins,  ins_tag,  filter_tag, True)
        		
    """
    helper = LayerHelper('filter_by_instag', **locals())

    out = helper.create_variable_for_type_inference(dtype=ins.dtype)
    loss_weight = helper.create_variable_for_type_inference(dtype=np.float64)
    mmap = helper.create_variable_for_type_inference(dtype=ins_tag.dtype)
    helper.append_op(
        type='filter_by_instag',
        inputs={'Ins': ins,
                'Ins_tag': ins_tag,
                'Filter_tag': filter_tag},
        outputs={'Out': out,
                 'LossWeight': loss_weight,
                 'IndexMap': mmap},
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        attrs={'is_lod': is_lod,
               'out_val_if_empty': out_val_if_empty})
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    return [out, loss_weight]


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def unstack(x, axis=0, num=None):
    """
    **UnStack Layer**

9240
    This layer unstacks input Tensor :code:`x` into several Tensors along :code:`axis`.
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    If :code:`axis` < 0, it would be replaced with :code:`axis+rank(x)`.
    If :code:`num` is None, it would be inferred from :code:`x.shape[axis]`,
    and if :code:`x.shape[axis]` <= 0 or is unknown, :code:`ValueError` is
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    raised.
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    Args:
9248
        x (Variable): Input Tensor. It is a N-D Tensors of data types float32, float64, int32, int64.
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        axis (int): The axis along which the input is unstacked.
        num (int|None): The number of output variables.
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    Returns:
9253 9254 9255 9256
        list(Variable): The unstacked Tensors list. The list elements are N-D Tensors of data types float32, float64, int32, int64.

    Raises:
        ValueError: If x.shape[axis] <= 0 or axis is not in range [-D, D).
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    Examples:
        .. code-block:: python

            import paddle.fluid as fluid
9262 9263
            x = fluid.layers.data(name='x', shape=[2, 3, 5], dtype='float32')  # create a tensor with shape=[2, 3, 5]
            y = fluid.layers.unstack(x, axis=1)  # unstack with second axis, which results 3 tensors with shape=[2, 5]
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9265
    """
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    helper = LayerHelper('unstack', **locals())
    if num is None:
        if axis is None or x.shape[axis] <= 0:
            raise ValueError('unknown unstack number')
        else:
            num = x.shape[axis]

    outs = []
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    for _ in range(num):
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        outs.append(helper.create_variable_for_type_inference(x.dtype))
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    helper.append_op(
        type='unstack',
        inputs={'X': [x]},
        outputs={'Y': outs},
        attrs={'axis': axis,
               'num': num})
    return outs
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def expand(x, expand_times, name=None):
9287 9288 9289 9290
    """
    This operation tiles ``x`` multiple times according to the parameter ``expand_times``.
    The times number for each dimension of ``x`` is set by the parameter ``expand_times``.
    The rank of ``x`` should be less than or equal to 6. Please note that size of ``expand_times`` must be the same
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    with X's rank. Following is a using case:


    .. code-block:: text

        Input(X) is a 3-D tensor with shape [2, 3, 1]:
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                [
                   [[1], [2], [3]],
                   [[4], [5], [6]]
                ]
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        Attr(expand_times):  [1, 2, 2]
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        Output(Out) is a 3-D tensor with shape [2, 6, 2]:
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                [
                    [[1, 1], [2, 2], [3, 3], [1, 1], [2, 2], [3, 3]],
                    [[4, 4], [5, 5], [6, 6], [4, 4], [5, 5], [6, 6]]
                ]
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    Args:
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        x (Variable): A ``Tensor`` or ``LoDTensor`` with dimension in [1, 6]. The data type is ``bool``, ``float32``, ``float64`` or ``int32`` .
        expand_times (list|tuple|Variable): The data type is ``int32`` . If ``expand_times`` is a list or tuple, the elements of
                it should be integers or Tensors with shape [1]. If ``expand_times`` is an Variable, it should be an 1-D Tensor.
                Expand times number for each dimension of ``x`` .
        name (str, optional): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name` .
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    Returns:
9320
        Variable: A ``Tensor`` or ``LoDTensor``. The data type is same as ``x``. After expanding, size of each dimension of output is equal to the size of the corresponding dimension of ``x`` multiplying the corresponding value given by ``expand_times`` .
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9322 9323 9324
    Raises:
        TypeError: The type of ``expand_times`` must be list, tuple or Variable.
        ValueError: The elements of ``expand_times`` cannot be negative.
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    Examples:
        .. code-block:: python
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            import paddle.fluid as fluid
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            # example 1:
            data_1 = fluid.layers.fill_constant(shape=[2, 3, 1], dtype='int32', value=0)
            expanded_1 = fluid.layers.expand(data_1, expand_times=[1, 2, 2])
9334
            # the shape of expanded_1 is [2, 6, 2].
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            # example 2:
            data_2 = fluid.layers.fill_constant(shape=[12, 14], dtype="int32", value=3)
            expand_times = fluid.layers.fill_constant(shape=[2], dtype="int32", value=4)
            expanded_2 = fluid.layers.expand(data_2, expand_times=expand_times)
9340
            # the shape of expanded_2 is [48, 56].
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    """
9342 9343 9344 9345 9346
    inputs = {"X": [x]}
    attrs = {}

    if in_dygraph_mode():
        if isinstance(expand_times, (list, tuple)):
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            if utils._contain_var(expand_times):
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                raise TypeError(
                    "The type of 'expand_times' in expand must be list[int] or tuple(int) in Dygraph mode, but "
                    "received %s, which contains Variable." % type(shape))
            attrs['expand_times'] = expand_times
        else:
            raise TypeError(
                "The type of 'expand_times' in expand must be list[int] or tuple(int) in Dygraph mode, but "
                "received %s." % type(shape))

        outs = core.ops.expand(inputs, attrs)
        return outs['Out'][0]

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    check_variable_and_dtype(
        x, 'x', ['bool', 'float32', 'float64', 'int32', 'int64'], 'expand')
9362
    check_type(expand_times, 'expand_times', (list, tuple, Variable), 'expand')
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    if convert_dtype(x.dtype) == 'bool' and x.stop_gradient == True:
        raise ValueError(
            "expand op bool date type must set the stop_gradient to be False")
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    helper = LayerHelper('expand', input=x, **locals())
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    def get_attr_expand_times(list_expand_times):
        attrs_expand_times = []
        for idx, times in enumerate(list_expand_times):
            if isinstance(times, Variable):
                attrs_expand_times.append(-1)
            else:
                attrs_expand_times.append(times)
                assert times > 0, (
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                    "Each element given in expand_times must not be negative.")
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        return attrs_expand_times

    def get_new_expand_times_tensor(list_expand_times):
        new_expand_times_tensor = []
        for ele in list_expand_times:
            if isinstance(ele, Variable):
                ele.stop_gradient = True
                new_expand_times_tensor.append(ele)
            else:
                assert (isinstance(ele, int))
                temp_out = helper.create_variable_for_type_inference('int32')
                fill_constant([1], 'int32', ele, force_cpu=True, out=temp_out)
                new_expand_times_tensor.append(temp_out)
        return new_expand_times_tensor
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    if isinstance(expand_times, Variable):
        expand_times.stop_gradient = True
        inputs['ExpandTimes'] = expand_times
    elif isinstance(expand_times, (list, tuple)):
        attrs['expand_times'] = get_attr_expand_times(expand_times)
        if utils._contain_var(expand_times):
            inputs['expand_times_tensor'] = get_new_expand_times_tensor(
                expand_times)
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    dtype = helper.input_dtype(input_param_name='x')
    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
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        type='expand', inputs=inputs, outputs={'Out': out}, attrs=attrs)
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    return out
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def expand_as(x, target_tensor, name=None):
    """
    expand_as operator tiles to the input by given expand tensor. You should set expand tensor
    for each dimension by providing tensor 'target_tensor'. The rank of X
    should be in [1, 6]. Please note that size of 'target_tensor' must be the same
    with X's rank. Following is a using case:


    .. code-block:: text

        Input(X) is a 3-D tensor with shape [2, 3, 1]:

                [
                   [[1], [2], [3]],
                   [[4], [5], [6]]
                ]

        target_tensor's shape:  [2, 6, 2] 

        Output(Out) is a 3-D tensor with shape [2, 6, 2]:

                [
                    [[1, 1], [2, 2], [3, 3], [1, 1], [2, 2], [3, 3]],
                    [[4, 4], [5, 5], [6, 6], [4, 4], [5, 5], [6, 6]]
                ]
                

    Args:
        x (Variable): A Tensor with dtype float64, float32, int32.
        A tensor with rank in [1, 6].
        target_tensor (Variable): A Tensor with dtype float64, float32, int32.
        target_tensor for expanding to Input(X). Only use target_tensor'shape.

    Returns:
        Variable: A Tensor with dtype float64, float32, int32. 
        After expanding, size of each dimension of Output(Out) is equal to the size 
        of the corresponding dimension of target_tensor multiplying the corresponding
        value given by target_tensor.


    Examples:
        .. code-block:: python
          
        import paddle.fluid as fluid
        import numpy as np

        data = fluid.layers.data(name="data", shape=[-1,10], dtype='float64')
        target_tensor = fluid.layers.data(
          name="target_tensor", shape=[-1,20], dtype='float64')
        result = fluid.layers.expand_as(x=data, target_tensor=target_tensor) 
        use_cuda = False
        place = fluid.CUDAPlace(0) if use_cuda else fluid.CPUPlace()
        exe = fluid.Executor(place)
        exe.run(fluid.default_startup_program())
        x = np.random.rand(3,10)
        y = np.random.rand(3,20)
        output= exe.run(feed={"data":x,"target_tensor":y},fetch_list=[result.name])
        print(output[0].shape)
        #(3,20)

    """

    helper = LayerHelper('expand_as', input=x, **locals())
    dtype = helper.input_dtype(input_param_name='x')
    out = helper.create_variable_for_type_inference(dtype)
    inputs = {'X': x, 'target_tensor': target_tensor}
    helper.append_op(type='expand_as', inputs=inputs, outputs={'Out': out})
    return out


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from paddle.fluid.framework import convert_np_dtype_to_dtype_


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@templatedoc()
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def uniform_random_batch_size_like(input,
                                   shape,
                                   dtype='float32',
                                   input_dim_idx=0,
                                   output_dim_idx=0,
                                   min=-1.0,
                                   max=1.0,
                                   seed=0):
    """
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    This OP initializes a variable with random values sampled from a
    uniform distribution in the range [min, max). The input_dim_idx used to get the input dimension value which will be used to resize the output dimension.

    .. code-block:: text

        *Case 1:
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            Given:
                input =[[0.946741  , 0.1357001 , 0.38086128]]    # input.shape=[1,3]
                shape=[2,4]

            result.shape[output_dim_idx] = input.shape[input_dim_idx],
            output_dim_idx = 0, 
            input_dim_idx = 0,
            result.shape[0] = input.shape[0], 
            then:
                result=[[ 0.3443427 , -0.23056602,  0.3477049 ,  0.06139076]]    # result.shape=[1,4]
            
       *Case 2:
           
           Given:
               input =[[0.946741  , 0.1357001 , 0.38086128]]     # input.shape=[1,3]
               shape=[2,4]
               input_dim_idx=1
               output_dim_idx=1
         
           result.shape[output_dim_idx] = input.shape[input_dim_idx],
           output_dim_idx = 1, 
           input_dim_idx = 1,
           result.shape[1] = input.shape[1], 
           then:
               result=[[-0.23133647, -0.84195036,  0.21441269],
                       [-0.08774924,  0.25605237, -0.09403259]]    # result.shape=[2,3]
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    Args:
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        input (Variable): A Tensor. Supported data types: float32, float64.
        shape (tuple|list): A python list or python tuple. The shape of the output Tensor, the data type is int.
        input_dim_idx (int, optional): An index used to get the input dimension value which will be used to resize the output dimension. Default  0. 
        output_dim_idx (int, optional): An index used to indicate the specific dimension that will be replaced by corresponding input dimension value. Default 0.
        min (float, optional): The lower bound on the range of random values to generate, the min is included in the range. Default -1.0.
        max (float, optional): The upper bound on the range of random values to generate, the max is excluded in the range. Default 1.0.
        seed (int, optional):  Random seed used for generating samples. 0 means use a seed generated by the system.Note that if seed is not 0, this operator will always generate the same random numbers every time.
        dtype(np.dtype|core.VarDesc.VarType|str, optional): The data type of output Tensor. Supported data types: float32, float64. Default float32.
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    Returns:
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        Variable: A Tensor of the specified shape filled with uniform_random values. The shape of the Tensor is determined by the shape parameter and the specified dimension of the input Tensor.
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    Examples:
        .. code-block:: python

9540
            import paddle.fluid as fluid
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            # example 1: 
            input = fluid.data(name="input", shape=[1, 3], dtype='float32')
            out_1 = fluid.layers.uniform_random_batch_size_like(input, [2, 4]) # out_1.shape=[1, 4]
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9546 9547 9548 9549
            # example 2: 
            out_2 = fluid.layers.uniform_random_batch_size_like(input, [2, 4], input_dim_idx=1, output_dim_idx=1) # out_2.shape=[2, 3]

            
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    """

    helper = LayerHelper('uniform_random_batch_size_like', **locals())
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    out = helper.create_variable_for_type_inference(dtype)
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    c_dtype = convert_np_dtype_to_dtype_(dtype)
    helper.append_op(
        type='uniform_random_batch_size_like',
        inputs={'Input': input},
        outputs={'Out': out},
        attrs={
            'shape': shape,
            'input_dim_idx': input_dim_idx,
            'output_dim_idx': output_dim_idx,
            'min': min,
            'max': max,
            'seed': seed,
            'dtype': c_dtype
        })

    return out
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@templatedoc()
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def gaussian_random(shape, mean=0.0, std=1.0, seed=0, dtype='float32'):
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    """
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    Generate a random tensor whose data is drawn from a Gaussian distribution.
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    Args:
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        shape (Tuple[int] | List[int]): Shape of the generated random tensor.
        
        mean (float): Mean of the random tensor, defaults to 0.0.
            
        std (float): Standard deviation of the random tensor, defaults to 1.0.
        
        seed (int): ${seed_comment}
        
        dtype(np.dtype | core.VarDesc.VarType | str): Output data type, float32 or float64.
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    Returns:
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        Variable: Random tensor whose data is drawn from a Gaussian distribution, dtype: flaot32 or float64 as specified.
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9591
    Examples:
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       .. code-block:: python
       
           # declarative mode 
           import numpy as np
           from paddle import fluid
   
           x = fluid.layers.gaussian_random((2, 3), std=2., seed=10)
   
           place = fluid.CPUPlace()
           exe = fluid.Executor(place)
           start = fluid.default_startup_program()
           main = fluid.default_main_program()
   
           exe.run(start)
           x_np, = exe.run(main, feed={}, fetch_list=[x])
9607

9608 9609 9610 9611 9612 9613 9614 9615 9616 9617 9618 9619 9620 9621 9622 9623 9624 9625
           x_np
           # array([[2.3060477, 2.676496 , 3.9911983],
           #        [0.9990833, 2.8675377, 2.2279181]], dtype=float32)

       .. code-block:: python

           # imperative mode
           import numpy as np
           from paddle import fluid
           import paddle.fluid.dygraph as dg
    
           place = fluid.CPUPlace()
           with dg.guard(place) as g:
               x = fluid.layers.gaussian_random((2, 4), mean=2., dtype="float32", seed=10)
               x_np = x.numpy()       
           x_np
           # array([[2.3060477 , 2.676496  , 3.9911983 , 0.9990833 ],
           #        [2.8675377 , 2.2279181 , 0.79029655, 2.8447366 ]], dtype=float32)
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    """

    helper = LayerHelper('gaussian_random', **locals())
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    out = helper.create_variable_for_type_inference(dtype)
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    c_dtype = convert_np_dtype_to_dtype_(dtype)
    helper.append_op(
        type='gaussian_random',
        outputs={'Out': out},
        attrs={
            'shape': shape,
            'mean': mean,
            'std': std,
            'seed': seed,
            'dtype': c_dtype,
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            'use_mkldnn': False
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        })

    return out


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@templatedoc()
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def sampling_id(x, min=0.0, max=1.0, seed=0, dtype='float32'):
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    """
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    This op is used for sampling id from multinomial distribution from the input, sampling one id for one sample.
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    Parameters:
        x (Variable): 2-D tensor, [batch_size, input_feature_dimensions]
        min (Float): minimum , default 0.0.
        max (Float): maximum, default 1.0.
        seed (Float): Random seed, default 0. if seed is not 0, will generate same number every time. 
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        dtype(np.dtype|core.VarDesc.VarType|str): The type of output data : float32, float_16, int etc
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    Returns:
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        Variable: sampling tensor.
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    Examples:
        .. code-block:: python

9664
            import paddle.fluid as fluid
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            x = fluid.data(
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                name="X",
                shape=[13, 11],
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                dtype='float32')
9669

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            out = fluid.layers.sampling_id(x)
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    """

    helper = LayerHelper('sampling_id', **locals())
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(
        type='sampling_id',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'min': min,
               'max': max,
               'seed': seed})

    return out


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@templatedoc()
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def gaussian_random_batch_size_like(input,
                                    shape,
                                    input_dim_idx=0,
                                    output_dim_idx=0,
                                    mean=0.0,
                                    std=1.0,
                                    seed=0,
                                    dtype='float32'):
    """
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    ${comment}
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    Args:
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        input (Variable): ${input_comment}
        shape (tuple|list): ${shape_comment}
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        input_dim_idx (int): ${input_dim_idx_comment}
        output_dim_idx (int): ${output_dim_idx_comment}
        mean (float): ${mean_comment}
        std (float): ${std_comment}
        seed (int): ${seed_comment}
        dtype(np.dtype|core.VarDesc.VarType|str): The type of output data, float32 or float_64.
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    Returns:
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        out (Variable): ${out_comment}
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    Examples:
        .. code-block:: python

9714
            import paddle.fluid as fluid
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            input = fluid.data(name="input", shape=[13, 11], dtype='float32')
9716

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            out = fluid.layers.gaussian_random_batch_size_like(
9718
                input, shape=[-1, 11], mean=1.0, std=2.0)
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    """

    helper = LayerHelper('gaussian_random_batch_size_like', **locals())
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    out = helper.create_variable_for_type_inference(dtype)
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    c_dtype = convert_np_dtype_to_dtype_(dtype)
    helper.append_op(
        type='gaussian_random_batch_size_like',
        inputs={'Input': input},
        outputs={'Out': out},
        attrs={
            'shape': shape,
            'input_dim_idx': input_dim_idx,
            'output_dim_idx': output_dim_idx,
            'mean': mean,
            'std': std,
            'seed': seed,
            'dtype': c_dtype
        })

    return out


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@templatedoc()
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def sum(x):
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    """
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    ${comment}
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    Case 1:
    ::
        Input:
            Input. Shape = [2, 3]
            Input = [[1, 2, 3],
                     [4, 5, 6]]

        Output:
            The output. Shape = [2, 3]
            Output = [[1, 2, 3],
                      [4, 5, 6]]

    Case 2:
    ::
        Input:
            First input:
            Input1. Shape = [2, 3]
            Input1 = [[1, 2, 3],
                      [4, 5, 6]]

        The second input:
            Input2. Shape = [2, 3]
            Input2 = [[7, 8, 9],
                      [10, 11, 12]]

        Output:
            The output. Shape = [2, 3]
            Output = [[8, 10, 12],
                      [14, 16, 18]]
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    Args:
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        x (Variable|list(Variable)): ${x_comment}
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    Returns:
9780
        Variable: ${out_comment}
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    Examples:
        .. code-block:: python

9785
            import paddle.fluid as fluid
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            input0 = fluid.layers.fill_constant(shape=[2, 3], dtype='int64', value=5)
            input1 = fluid.layers.fill_constant(shape=[2, 3], dtype='int64', value=3)
            sum = fluid.layers.sum([input0, input1])

            # You can print out 'sum' via executor.
            out = fluid.layers.Print(sum, message="the sum of input0 and input1: ")
            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_main_program())

            # The printed result is:
            # 1570701754	the sum of input0 and input1: 	The place is:CPUPlace
            # Tensor[sum_0.tmp_0]
            #    shape: [2,3,]
            #    dtype: l
            #    data: 8,8,8,8,8,8,

            # the sum of input0 and input1 is 2-D Tensor with shape [2,3].
            # dtype is the corresponding C++ data type, which may vary in different environments.
            # Eg: if the data type of tensor is int64, then the corresponding C++ data type is int64_t, 
            #       so the dtype value is typeid(int64_t).Name(), which is 'x' on MacOS, 'l' on Linux, 
            #       and '__int64' on Windows. They both represent 64-bit integer variables.
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    """

    helper = LayerHelper('sum', **locals())
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    out = helper.create_variable_for_type_inference(
        dtype=helper.input_dtype('x'))
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    helper.append_op(
        type='sum',
        inputs={'X': x},
        outputs={'Out': out},
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        attrs={'use_mkldnn': False})
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    return out


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@templatedoc()
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def slice(input, axes, starts, ends):
    """
9825
    This operator produces a slice of ``input`` along multiple axes. Similar to numpy:
9826
    https://docs.scipy.org/doc/numpy/reference/arrays.indexing.html
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    Slice uses ``axes``, ``starts`` and ``ends`` attributes to specify the start and
    end dimension for each axis in the list of axes and Slice uses this information
    to slice the input data tensor. If a negative value is passed to
    ``starts`` or ``ends`` such as :math:`-i`,  it represents the reverse position of the
    axis :math:`i-1` (here 0 is the initial position).
    If the value passed to ``starts`` or ``ends`` is greater than n
    (the number of elements in this dimension), it represents n.
9834
    For slicing to the end of a dimension with unknown size, it is recommended
9835
    to pass in INT_MAX. The size of ``axes`` must be equal to ``starts`` and ``ends``.
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    Following examples will explain how slice works:

    .. code-block:: text
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        Case1:
            Given:
                data = [ [1, 2, 3, 4], [5, 6, 7, 8], ]
                axes = [0, 1]
                starts = [1, 0]
                ends = [2, 3]
            Then:
                result = [ [5, 6, 7], ]
9848

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        Case2:
            Given:
                data = [ [1, 2, 3, 4], [5, 6, 7, 8], ]
                axes = [0, 1]
                starts = [0, 1]
9854
                ends = [-1, 1000]       # -1 denotes the reverse 0th position of dimension 0.
9855
            Then:
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                result = [ [2, 3, 4], ] # result = data[0:1, 1:4]
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    Args:
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        input (Variable): A ``Tensor`` or ``LoDTensor`` . The data type is ``float16``, ``float32``, ``float64``, ``int32`` or ``int64``.
        axes (list|tuple): The data type is ``int32`` . Axes that `starts` and `ends` apply to.
                            It's optional. If it is not provides, it will be treated as :math:`[0,1,...,len(starts)-1]`.
        starts (list|tuple|Variable): The data type is ``int32`` . If ``starts`` is a list or tuple, the elements of
                it should be integers or Tensors with shape [1]. If ``starts`` is an Variable, it should be an 1-D Tensor.
                It represents starting indices of corresponding axis in ``axes``.
        ends (list|tuple|Variable): The data type is ``int32`` . If ``ends`` is a list or tuple, the elements of
                it should be integers or Tensors with shape [1]. If ``ends`` is an Variable, it should be an 1-D Tensor .
                It represents ending indices of corresponding axis in ``axes``.
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    Returns:
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        Variable:  A ``Tensor`` or ``LoDTensor``. The data type is same as ``input``.

    Raises:
        TypeError: The type of ``starts`` must be list, tuple or Variable.
        TypeError: The type of ``ends`` must be list, tuple or Variable.
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    Examples:
        .. code-block:: python

9878
            import paddle.fluid as fluid
9879

9880 9881
            input = fluid.data(
                name="input", shape=[4, 5, 6], dtype='float32')
9882

9883 9884 9885 9886 9887 9888
            # example 1:
            # attr starts is a list which doesn't contain tensor Variable.
            axes = [0, 1, 2]
            starts = [-3, 0, 2]
            ends = [3, 2, 4]
            sliced_1 = fluid.layers.slice(input, axes=axes, starts=starts, ends=ends)
9889
            # sliced_1 is input[0:3, 0:2, 2:4].
9890 9891 9892 9893 9894

            # example 2:
            # attr starts is a list which contain tensor Variable.
            minus_3 = fluid.layers.fill_constant([1], "int32", -3)
            sliced_2 = fluid.layers.slice(input, axes=axes, starts=[minus_3, 0, 2], ends=ends)
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            # sliced_2 is input[0:3, 0:2, 2:4].
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    """
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    if in_dygraph_mode():
        infer_flags = list(1 for i in range(len(axes)))
        inputs = {'Input': [input]}

        if isinstance(starts, (list, tuple)):
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            if utils._contain_var(starts):
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                raise TypeError(
                    "The type of 'starts' in slice must be list[int] or tuple(int) in Dygraph mode, but "
                    "received %s, which contains Variable." % type(shape))
        else:
            raise TypeError(
                "The type of 'starts' in slice must be list[int] or tuple(int) in Dygraph mode, but "
                "received %s." % type(shape))

        if isinstance(ends, (list, tuple)):
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            if utils._contain_var(ends):
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                raise TypeError(
                    "The type of 'ends' in slice must be list[int] or tuple(int) in Dygraph mode, but "
                    "received %s, which contains Variable." % type(shape))
        else:
            raise TypeError(
                "The type of 'ends' in slice must be list[int] or tuple(int) in Dygraph mode, but "
                "received %s." % type(shape))

        attrs = {
            'axes': axes,
            'starts': starts,
            'ends': ends,
            'infer_flags': infer_flags
        }
        outs = core.ops.slice(inputs, attrs)
        return outs['Out'][0]

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    if not isinstance(starts, (list, tuple, Variable)):
        raise ValueError(
            "Input starts must be an Variable, python list or tuple.")
    if not isinstance(ends, (list, tuple, Variable)):
        raise ValueError(
            "Input ends must be an Variable, python list or tuple.")

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    helper = LayerHelper('slice', **locals())
9938 9939 9940 9941 9942 9943 9944 9945 9946 9947 9948 9949 9950 9951 9952 9953 9954 9955

    def get_new_list_tensor(old_list):
        new_list_tensor = []
        for dim in old_list:
            if isinstance(dim, Variable):
                dim.stop_gradient = True
                new_list_tensor.append(dim)
            else:
                assert (isinstance(dim, int))
                temp_out = helper.create_variable_for_type_inference('int32')
                fill_constant([1], 'int32', dim, force_cpu=True, out=temp_out)
                new_list_tensor.append(temp_out)
        return new_list_tensor

    inputs = {'Input': input}
    attrs = {'axes': axes}
    infer_flags = list(1 for i in range(len(axes)))

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    # starts
    if isinstance(starts, Variable):
        starts.stop_gradient = True
        inputs['StartsTensor'] = starts
        infer_flags = list(-1 for i in range(len(axes)))
    elif isinstance(starts, (list, tuple)):
        attrs['starts'] = []
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        if utils._contain_var(starts):
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            inputs['StartsTensorList'] = get_new_list_tensor(starts)
            for i, dim in enumerate(starts):
                if isinstance(dim, Variable):
                    attrs['starts'].append(-1)
                    infer_flags[i] = -1
                else:
                    attrs['starts'].append(dim)
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        else:
            attrs['starts'] = starts
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    # ends
    if isinstance(ends, Variable):
        ends.stop_gradient = True
        inputs['EndsTensor'] = ends
        infer_flags = list(-1 for i in range(len(axes)))
    elif isinstance(ends, (list, tuple)):
        attrs['ends'] = []
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        if utils._contain_var(ends):
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            inputs['EndsTensorList'] = get_new_list_tensor(ends)
            for i, dim in enumerate(ends):
                if isinstance(dim, Variable):
                    attrs['ends'].append(-1)
                    infer_flags[i] = -1
                else:
                    attrs['ends'].append(dim)
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        else:
            attrs['ends'] = ends

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    # infer_flags
    attrs['infer_flags'] = infer_flags
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    out = helper.create_variable_for_type_inference(
        dtype=helper.input_dtype('input'))
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    helper.append_op(
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        type='slice', inputs=inputs, attrs=attrs, outputs={'Out': out})
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    return out


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@templatedoc()
def strided_slice(input, axes, starts, ends, strides):
    """
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    This operator produces a slice of ``input`` along multiple axes. Similar to numpy:
    https://docs.scipy.org/doc/numpy/reference/arrays.indexing.html
    Slice uses ``axes``, ``starts`` and ``ends`` attributes to specify the start and
    end dimension for each axis in the list of axes and Slice uses this information
    to slice the input data tensor. If a negative value is passed to
    ``starts`` or ``ends`` such as :math:`-i`,  it represents the reverse position of the
    axis :math:`i-1` th(here 0 is the initial position). The ``strides`` represents steps of
    slicing and if the ``strides`` is negative, slice operation is in the opposite direction.
    If the value passed to ``starts`` or ``ends`` is greater than n
    (the number of elements in this dimension), it represents n.
    For slicing to the end of a dimension with unknown size, it is recommended
    to pass in INT_MAX. The size of ``axes`` must be equal to ``starts`` , ``ends`` and ``strides``.
    Following examples will explain how strided_slice works:
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    .. code-block:: text

        Case1:
            Given:
                data = [ [1, 2, 3, 4], [5, 6, 7, 8], ]
                axes = [0, 1]
                starts = [1, 0]
                ends = [2, 3]
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                strides = [1, 1]
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            Then:
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                result = [ [5, 6, 7], ]
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        Case2:
            Given:
                data = [ [1, 2, 3, 4], [5, 6, 7, 8], ]
                axes = [0, 1]
10035
                starts = [0, 1]
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                ends = [2, 0]
                strides = [1, -1]
            Then:
                result = [ [8, 7, 6], ]
        
        Case3:
            Given:
                data = [ [1, 2, 3, 4], [5, 6, 7, 8], ]
                axes = [0, 1]
10045
                starts = [0, 1]
10046 10047
                ends = [-1, 1000]
                strides = [1, 3]
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            Then:
10049 10050
                result = [ [2], ]
    Args:
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        input (Variable): An N-D ``Tensor`` or ``LoDTensor`` . The data type is ``float32``, ``float64``, ``int32`` or ``int64``.
        axes (list|tuple): The data type is ``int32`` . Axes that `starts` and `ends` apply to.
                            It's optional. If it is not provides, it will be treated as :math:`[0,1,...,len(starts)-1]`.
        starts (list|tuple|Variable): The data type is ``int32`` . If ``starts`` is a list or tuple, the elements of
                it should be integers or Tensors with shape [1]. If ``starts`` is an Variable, it should be an 1-D Tensor.
                It represents starting indices of corresponding axis in ``axes``.
        ends (list|tuple|Variable): The data type is ``int32`` . If ``ends`` is a list or tuple, the elements of
                it should be integers or Tensors with shape [1]. If ``ends`` is an Variable, it should be an 1-D Tensor .
                It represents ending indices of corresponding axis in ``axes``.
        strides (list|tuple|Variable): The data type is ``int32`` . If ``strides`` is a list or tuple, the elements of
                it should be integers or Tensors with shape [1]. If ``strides`` is an Variable, it should be an 1-D Tensor .
                It represents slice step of corresponding axis in ``axes``.
10063 10064

    Returns:
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        Variable:  A ``Tensor`` or ``LoDTensor`` with the same dimension as ``input``. The data type is same as ``input``.

    Raises:
        TypeError: The type of ``starts`` must be list, tuple or Variable.
        TypeError: The type of ``ends`` must be list, tuple or Variable.
        TypeError: The type of ``strides`` must be list, tuple or Variable.
10071

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    Examples:
        .. code-block:: python

            import paddle.fluid as fluid

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            input = fluid.data(
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                name="input", shape=[3, 4, 5, 6], dtype='float32')

10080 10081 10082 10083 10084
            # example 1:
            # attr starts is a list which doesn't contain tensor Variable.
            axes = [0, 1, 2]
            starts = [-3, 0, 2]
            ends = [3, 2, 4]
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            strides_1 = [1, 1, 1]
            strides_2 = [1, 1, 2]
            sliced_1 = fluid.layers.strided_slice(input, axes=axes, starts=starts, ends=ends, strides=strides_1)
            # sliced_1 is input[:, 0:3:1, 0:2:1, 2:4:1].

10090 10091 10092 10093

            # example 2:
            # attr starts is a list which contain tensor Variable.
            minus_3 = fluid.layers.fill_constant([1], "int32", -3)
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            sliced_2 = fluid.layers.strided_slice(input, axes=axes, starts=[minus_3, 0, 2], ends=ends, strides=strides_2)
            # sliced_2 is input[:, 0:3:1, 0:2:1, 2:4:2].
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    """
10097 10098 10099 10100 10101 10102 10103 10104 10105 10106
    if not isinstance(starts, (list, tuple, Variable)):
        raise ValueError(
            "Input starts must be an Variable, python list or tuple.")
    if not isinstance(ends, (list, tuple, Variable)):
        raise ValueError(
            "Input ends must be an Variable, python list or tuple.")
    if not isinstance(strides, (list, tuple, Variable)):
        raise ValueError(
            "Input strides must be an Variable, python list or tuple.")

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    helper = LayerHelper('strided_slice', **locals())

10109 10110 10111 10112 10113 10114 10115 10116 10117 10118 10119 10120 10121 10122 10123 10124 10125 10126 10127 10128
    def get_new_list_tensor(old_list):
        new_list_tensor = []
        for dim in old_list:
            if isinstance(dim, Variable):
                dim.stop_gradient = True
                new_list_tensor.append(dim)
            else:
                assert (isinstance(dim, int))
                temp_out = helper.create_variable_for_type_inference('int32')
                fill_constant([1], 'int32', dim, force_cpu=True, out=temp_out)
                new_list_tensor.append(temp_out)
        return new_list_tensor

    inputs = {'Input': input}
    attrs = {'axes': axes}
    infer_flags = list(1 for i in range(len(axes)))

    if in_dygraph_mode():
        inputs = {'Input': input}
        attrs = {
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            'axes': axes,
            'starts': starts,
            'ends': ends,
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            'strides': strides,
            'infer_flags': infer_flags
        }
    else:
        # starts
        if isinstance(starts, Variable):
            starts.stop_gradient = True
            inputs['StartsTensor'] = starts
        elif isinstance(starts, (list, tuple)):
            attrs['starts'] = []
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            if utils._contain_var(starts):
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                inputs['StartsTensorList'] = get_new_list_tensor(starts)
                for i, dim in enumerate(starts):
                    if isinstance(dim, Variable):
                        attrs['starts'].append(-1)
                        infer_flags[i] = -1
                    else:
                        attrs['starts'].append(dim)
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            else:
                attrs['starts'] = starts
10152 10153 10154 10155 10156 10157 10158

        # ends
        if isinstance(ends, Variable):
            ends.stop_gradient = True
            inputs['EndsTensor'] = ends
        elif isinstance(ends, (list, tuple)):
            attrs['ends'] = []
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            if utils._contain_var(ends):
10160 10161 10162 10163 10164 10165 10166
                inputs['EndsTensorList'] = get_new_list_tensor(ends)
                for i, dim in enumerate(ends):
                    if isinstance(dim, Variable):
                        attrs['ends'].append(-1)
                        infer_flags[i] = -1
                    else:
                        attrs['ends'].append(dim)
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            else:
                attrs['ends'] = ends

10170 10171 10172 10173 10174 10175
        # strides
        if isinstance(strides, Variable):
            strides.stop_gradient = True
            inputs['StridesTensor'] = strides
        elif isinstance(strides, (list, tuple)):
            attrs['strides'] = []
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            if utils._contain_var(strides):
10177 10178 10179 10180 10181 10182 10183
                inputs['StridesTensorList'] = get_new_list_tensor(strides)
                for i, dim in enumerate(strides):
                    if isinstance(dim, Variable):
                        attrs['strides'].append(-1)
                        infer_flags[i] = -1
                    else:
                        attrs['strides'].append(dim)
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            else:
                attrs['strides'] = strides
10186 10187 10188 10189 10190
        attrs['infer_flags'] = infer_flags
    out = helper.create_variable_for_type_inference(
        dtype=helper.input_dtype('input'))
    helper.append_op(
        type='strided_slice', inputs=inputs, attrs=attrs, outputs={'Out': out})
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    return out


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def shape(input):
    """
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    **Shape Layer**

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    Get the shape of the input.
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    Args:
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        input (Variable): The input N-D Tensor. Datatype can be float32, float64, int32, int64.
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    Returns:
10205
        Variable (Tensor): The shape of the input variable.
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10207 10208 10209
    Examples:
        .. code-block:: python

10210
            import paddle.fluid as fluid
10211
            import numpy as np
10212

10213 10214 10215 10216 10217 10218 10219 10220 10221 10222
            inputs = fluid.layers.data(name="x", shape=[3, 100, 100], dtype="float32")
            output = fluid.layers.shape(inputs)

            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_startup_program())

            img = np.ones((3, 100, 100)).astype(np.float32)

            res = exe.run(fluid.default_main_program(), feed={'x':img}, fetch_list=[output])
            print(res) # [array([  3, 100, 100], dtype=int32)]
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    """

    helper = LayerHelper('shape', **locals())
10226
    out = helper.create_variable_for_type_inference(dtype='int32')
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    helper.append_op(
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        type='shape', inputs={'Input': input}, outputs={'Out': out})
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    return out
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def rank(input):
    """
10235
    The OP returns the number of dimensions for a tensor, which is a 0-D int32 Tensor.
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    Args:
10238
        input (Variable): The input N-D tensor with shape of :math:`[N_1, N_2, ..., N_k]`, the data type is arbitrary.
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    Returns:
10241
        Variable, the output data type is int32.: The 0-D tensor with the dimensions of the input variable.
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    Examples:
        .. code-block:: python

10246 10247
            import paddle.fluid as fluid

10248 10249
            input = fluid.data(name="input", shape=[3, 100, 100], dtype="float32")
            rank = fluid.layers.rank(input) # rank=(3,)
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    """

    ndims = len(input.shape)
    out = assign(np.array(ndims, 'int32'))

    return out


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def size(input):
    """
    **Size Layer**

    Returns the number of elements for a tensor, which is a int64 Tensor with shape [1].

    Args:
        input (Variable): The input variable.

    Returns:
        Variable: The number of elements for the input variable.

    Examples:
        .. code-block:: python

            import paddle.fluid.layers as layers

            input = layers.data(
                name="input", shape=[3, 100], dtype="float32", append_batch_size=False)
            rank = layers.size(input) # 300
    """

    helper = LayerHelper('size', **locals())
    out = helper.create_variable_for_type_inference(dtype='int64')
    helper.append_op(type='size', inputs={'Input': input}, outputs={'Out': out})

    return out


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def _elementwise_op(helper):
    op_type = helper.layer_type
    x = helper.kwargs.get('x', None)
    y = helper.kwargs.get('y', None)
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    assert x is not None, 'x cannot be None in {}'.format(op_type)
    assert y is not None, 'y cannot be None in {}'.format(op_type)
10294 10295 10296 10297
    check_variable_and_dtype(
        x, 'x', ['float16', 'float32', 'float64', 'int32', 'int64'], op_type)
    check_variable_and_dtype(
        y, 'y', ['float16', 'float32', 'float64', 'int32', 'int64'], op_type)
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    axis = helper.kwargs.get('axis', -1)
    use_mkldnn = helper.kwargs.get('use_mkldnn', False)
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    name = helper.kwargs.get('name', None)
    if name is None:
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        out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    else:
        out = helper.create_variable(
            name=name, dtype=x.dtype, persistable=False)
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    helper.append_op(
        type=op_type,
        inputs={'X': x,
                'Y': y},
        outputs={'Out': out},
        attrs={'axis': axis,
               'use_mkldnn': use_mkldnn})
    return helper.append_activation(out)


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def scale(x, scale=1.0, bias=0.0, bias_after_scale=True, act=None, name=None):
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    """
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    Scale operator.

    Putting scale and bias to the input Tensor as following:

    ``bias_after_scale`` is True:

    .. math::
                            Out=scale*X+bias

    ``bias_after_scale`` is False:

    .. math::
                            Out=scale*(X+bias)
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    Args:
10335
        x(Variable): Input N-D Tensor of scale operator. Data type can be float32, float64, int8, int16, int32, int64, uint8.
10336
        scale(float|Variable): The scale factor of the input, it should be a float number or a Variable with shape [1] and data type as float32.
10337 10338 10339 10340
        bias(float): The bias to be put on the input.
        bias_after_scale(bool): Apply bias addition after or before scaling. It is useful for numeric stability in some circumstances.
        act(str, optional): Activation applied to the output such as tanh, softmax, sigmoid, relu.
        name(str, optional): The default value is None. Normally there is no need for user to set this property.  For more information, please refer to :ref:`api_guide_Name` 
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    Returns:
10343
        Variable(Tensor|LoDTensor): Output tensor of scale operator, with shape and data type same as input.
10344 10345 10346 10347 10348

    Examples:
        .. code-block:: python

            import paddle.fluid as fluid
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            import numpy as np

            inputs = fluid.layers.data(name="x", shape=[2, 3], dtype='float32')
            output = fluid.layers.scale(inputs, scale = 2.0, bias = 1.0)

            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_startup_program())

            img = np.array([[1, 2, 3], [4, 5, 6]]).astype(np.float32)
10358

10359 10360
            res = exe.run(fluid.default_main_program(), feed={'x':img}, fetch_list=[output])
            print(res) # [array([[ 3.,  5.,  7.], [ 9., 11., 13.]], dtype=float32)]
10361 10362 10363 10364 10365 10366 10367 10368

        .. code-block:: python

            # scale with parameter scale as Variable
            import paddle.fluid as fluid
            import numpy as np

            inputs = fluid.layers.data(name="x", shape=[2, 3], dtype='float32')
10369
            scale = fluid.layers.data(name="scale", shape=[1], dtype='float32',
10370 10371 10372 10373 10374 10375 10376 10377 10378 10379 10380 10381
                                      append_batch_size=False)
            output = fluid.layers.scale(inputs, scale = scale, bias = 1.0)

            exe = fluid.Executor(fluid.CPUPlace())
            exe.run(fluid.default_startup_program())

            img = np.array([[1, 2, 3], [4, 5, 6]]).astype(np.float32)
            scale_np = np.array([2.]).astype(np.float32)

            res = exe.run(fluid.default_main_program(), feed={'x':img, 'scale':scale_np}, fetch_list=[output])
            print(res) # [array([[ 3.,  5.,  7.], [ 9., 11., 13.]], dtype=float32)]

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    """
10383
    inputs = {'X': [x]}
10384 10385 10386 10387 10388
    attrs = {
        'bias': float(bias),
        'bias_after_scale': bias_after_scale,
    }
    if isinstance(scale, Variable):
10389
        inputs['ScaleTensor'] = [scale]
10390 10391 10392
    else:
        attrs['scale'] = float(scale)

10393 10394 10395 10396 10397 10398 10399 10400 10401 10402 10403
    if in_dygraph_mode():
        outs = core.ops.scale(inputs, attrs)
        return dygraph_utils._append_activation_in_dygraph(outs['Out'][0])

    helper = LayerHelper('scale', **locals())
    if name is None:
        out = helper.create_variable_for_type_inference(dtype=x.dtype)
    else:
        out = helper.create_variable(
            name=name, dtype=x.dtype, persistable=False)

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10404
    helper.append_op(
10405
        type='scale', inputs=inputs, outputs={'Out': out}, attrs=attrs)
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10406
    return helper.append_activation(out)
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10407 10408


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def elementwise_add(x, y, axis=-1, act=None, name=None):
10410 10411 10412 10413 10414 10415 10416 10417 10418 10419
    """
Examples:

    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
10420 10421
                "x": np.array([2, 3, 4]).astype('float32'),
                "y": np.array([1, 5, 2]).astype('float32')
10422 10423
            }

10424 10425
        x = fluid.data(name="x", shape=[3], dtype='float32')
        y = fluid.data(name="y", shape=[3], dtype='float32')
10426
        z = fluid.layers.elementwise_add(x, y)
10427
        # z = x + y
10428 10429 10430 10431 10432 10433

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

10434
        print(z_value) # [3., 8., 6.]
10435 10436 10437 10438 10439 10440 10441 10442 10443 10444 10445 10446 10447


    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.ones((2, 3, 4, 5)).astype('float32'),
                "y": np.zeros((3, 4)).astype('float32')
            }

10448 10449
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[3,4], dtype='float32')
10450
        z = fluid.layers.elementwise_add(x, y, axis=1)
10451
        # z = x + y
10452 10453 10454 10455 10456 10457 10458 10459 10460 10461 10462 10463 10464 10465 10466 10467 10468 10469 10470 10471 10472

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)

        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value) # z.shape=[2,3,4,5]


    ..  code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.random.randint(1, 5, size=[2, 3, 4, 5]).astype('float32'),
                "y": np.random.randint(1, 5, size=[5]).astype('float32')
            }
        
10473 10474
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[5], dtype='float32')
10475
        z = fluid.layers.elementwise_add(x, y, axis=3)
10476
        # z = x + y
10477 10478 10479 10480 10481 10482 10483 10484 10485

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)

        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])
        print(z_value) # z.shape=[2,3,4,5]

    """
10486 10487 10488 10489
    if in_dygraph_mode():
        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name='elementwise_add')

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    return _elementwise_op(LayerHelper('elementwise_add', **locals()))


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def elementwise_div(x, y, axis=-1, act=None, name=None):
10494 10495 10496 10497 10498 10499 10500 10501 10502 10503
    """
Examples:

    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
10504 10505
                "x": np.array([2, 3, 4]).astype('float32'),
                "y": np.array([1, 5, 2]).astype('float32')
10506 10507
            }

10508 10509
        x = fluid.data(name="x", shape=[3], dtype='float32')
        y = fluid.data(name="y", shape=[3], dtype='float32')
10510
        z = fluid.layers.elementwise_div(x, y)
10511
        # z = x / y
10512 10513 10514 10515 10516 10517

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

10518
        print(z_value) # [2., 0.6, 2.]
10519 10520 10521 10522 10523 10524 10525 10526 10527 10528 10529 10530 10531


    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.ones((2, 3, 4, 5)).astype('float32'),
                "y": np.zeros((3, 4)).astype('float32')
            }

10532 10533
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[3,4], dtype='float32')
10534
        z = fluid.layers.elementwise_div(x, y, axis=1)
10535
        # z = x / y
10536 10537 10538 10539 10540 10541 10542 10543 10544 10545 10546 10547 10548 10549 10550 10551 10552 10553 10554 10555 10556

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)

        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value) # z.shape=[2,3,4,5]


    ..  code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.random.randint(1, 5, size=[2, 3, 4, 5]).astype('float32'),
                "y": np.random.randint(1, 5, size=[5]).astype('float32')
            }
        
10557 10558
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[5], dtype='float32')
10559
        z = fluid.layers.elementwise_div(x, y, axis=3)
10560
        # z = x / y
10561 10562 10563 10564 10565 10566 10567 10568 10569

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])
        print(z_value) # z.shape=[2,3,4,5]

    """
10570 10571 10572 10573
    if in_dygraph_mode():
        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name='elementwise_div')

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10574 10575 10576
    return _elementwise_op(LayerHelper('elementwise_div', **locals()))


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def elementwise_sub(x, y, axis=-1, act=None, name=None):
10578 10579 10580 10581 10582 10583 10584 10585 10586 10587
    """
Examples:

    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
10588 10589
                "x": np.array([2, 3, 4]).astype('float32'),
                "y": np.array([1, 5, 2]).astype('float32')
10590 10591
            }

10592 10593
        x = fluid.data(name="x", shape=[3], dtype='float32')
        y = fluid.data(name="y", shape=[3], dtype='float32')
10594
        z = fluid.layers.elementwise_sub(x, y)
10595
        # z = x - y
10596 10597 10598 10599 10600 10601

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

10602
        print(z_value) # [1., -2., 2.]
10603 10604 10605 10606 10607 10608 10609 10610 10611 10612 10613 10614 10615


    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.ones((2, 3, 4, 5)).astype('float32'),
                "y": np.zeros((3, 4)).astype('float32')
            }

10616 10617
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[3,4], dtype='float32')
10618
        z = fluid.layers.elementwise_sub(x, y, axis=1)
10619
        # z = x - y
10620 10621 10622 10623 10624 10625 10626 10627 10628 10629 10630 10631 10632 10633 10634 10635 10636 10637 10638 10639 10640

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)

        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value) # z.shape=[2,3,4,5]


    ..  code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.random.randint(1, 5, size=[2, 3, 4, 5]).astype('float32'),
                "y": np.random.randint(1, 5, size=[5]).astype('float32')
            }
        
10641 10642
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[5], dtype='float32')
10643
        z = fluid.layers.elementwise_sub(x, y, axis=3)
10644
        # z = x - y
10645 10646 10647 10648 10649 10650 10651 10652 10653

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])
        print(z_value) # z.shape=[2,3,4,5]

    """
10654 10655 10656 10657
    if in_dygraph_mode():
        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name='elementwise_sub')

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    return _elementwise_op(LayerHelper('elementwise_sub', **locals()))


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10661
def elementwise_mul(x, y, axis=-1, act=None, name=None):
10662 10663 10664 10665 10666 10667 10668 10669 10670 10671
    """
Examples:

    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
10672 10673
                "x": np.array([2, 3, 4]).astype('float32'),
                "y": np.array([1, 5, 2]).astype('float32')
10674 10675
            }

10676 10677
        x = fluid.data(name="x", shape=[3], dtype='float32')
        y = fluid.data(name="y", shape=[3], dtype='float32')
10678
        z = fluid.layers.elementwise_mul(x, y)
10679
        # z = x * y
10680 10681 10682 10683 10684 10685

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

10686
        print(z_value) # [2., 15., 8.]
10687 10688 10689 10690 10691 10692 10693 10694 10695 10696 10697 10698 10699


    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.ones((2, 3, 4, 5)).astype('float32'),
                "y": np.zeros((3, 4)).astype('float32')
            }

10700 10701
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[3,4], dtype='float32')
10702
        z = fluid.layers.elementwise_mul(x, y, axis=1)
10703
        # z = x * y
10704 10705 10706 10707 10708 10709 10710 10711 10712 10713 10714 10715 10716 10717 10718 10719 10720 10721 10722 10723 10724

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)

        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value) # z.shape=[2,3,4,5]


    ..  code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.random.randint(1, 5, size=[2, 3, 4, 5]).astype('float32'),
                "y": np.random.randint(1, 5, size=[5]).astype('float32')
            }
        
10725 10726
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[5], dtype='float32')
10727
        z = fluid.layers.elementwise_mul(x, y, axis=3)
10728
        # z = x * y
10729 10730 10731 10732 10733 10734 10735 10736 10737

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])
        print(z_value) # z.shape=[2,3,4,5]
 
    """
10738 10739 10740 10741
    if in_dygraph_mode():
        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name='elementwise_mul')

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10742 10743 10744
    return _elementwise_op(LayerHelper('elementwise_mul', **locals()))


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10745
def elementwise_max(x, y, axis=-1, act=None, name=None):
10746 10747 10748 10749 10750 10751 10752 10753 10754 10755
    """
Examples:

    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
10756 10757
                "x": np.array([2, 3, 4]).astype('float32'),
                "y": np.array([1, 5, 2]).astype('float32')
10758 10759
            }

10760 10761
        x = fluid.data(name="x", shape=[3], dtype='float32')
        y = fluid.data(name="y", shape=[3], dtype='float32')
10762 10763 10764 10765 10766 10767 10768 10769 10770 10771 10772 10773 10774 10775 10776 10777 10778 10779 10780 10781 10782
        z = fluid.layers.elementwise_max(x, y)

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value) #[2, 5, 4]


    .. code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.ones((2, 3, 4, 5)).astype('float32'),
                "y": np.zeros((3, 4)).astype('float32')
            }

10783 10784
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[3,4], dtype='float32')
10785 10786 10787 10788 10789 10790 10791 10792 10793 10794 10795
        z = fluid.layers.elementwise_max(x, y, axis=1)

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)

        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value)#[[[[1., 1., 1., 1., 1.] .... [1., 1., 1., 1., 1.]]]]

    """
10796 10797 10798 10799
    if in_dygraph_mode():
        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name='elementwise_max')

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10800 10801 10802
    return _elementwise_op(LayerHelper('elementwise_max', **locals()))


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10803
def elementwise_min(x, y, axis=-1, act=None, name=None):
10804 10805 10806 10807 10808 10809 10810 10811 10812 10813
    """
Examples:

    ..  code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
10814 10815
                "x": np.array([2, 3, 4]).astype('float32'),
                "y": np.array([1, 5, 2]).astype('float32')
10816 10817
            }

10818 10819
        x = fluid.data(name="x", shape=[3], dtype='float32')
        y = fluid.data(name="y", shape=[3], dtype='float32')
10820
        z = fluid.layers.elementwise_min(x, y)
10821 10822 10823 10824 10825 10826 10827 10828 10829 10830 10831 10832 10833 10834 10835 10836 10837 10838 10839

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value) #[1, 3, 2]

    ..  code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.ones((2, 3, 4, 5)).astype('float32'),
                "y": np.zeros((3, 4)).astype('float32')
            }

10840 10841
        x = fluid.data(name="x", shape=[2,3,4,5], dtype='float32')
        y = fluid.data(name="y", shape=[3,4], dtype='float32')
10842
        z = fluid.layers.elementwise_min(x, y, axis=1)
10843 10844 10845 10846 10847 10848 10849 10850 10851

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)

        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value)#[[[[0., 0., 0., 0., 0.] .... [0., 0., 0., 0., 0.]]]]
    """
10852 10853 10854
    if in_dygraph_mode():
        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name='elementwise_min')
10855

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10856 10857 10858
    return _elementwise_op(LayerHelper('elementwise_min', **locals()))


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10859
def elementwise_pow(x, y, axis=-1, act=None, name=None):
10860 10861 10862 10863 10864 10865 10866 10867 10868 10869
    """
Examples:

    ..  code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
10870 10871
                "x": np.array([2, 3, 4]).astype('float32'),
                "y": np.array([1, 5, 2]).astype('float32')
10872 10873
            }

10874 10875
        x = fluid.data(name="x", shape=[3], dtype='float32')
        y = fluid.data(name="y", shape=[3], dtype='float32')
10876 10877 10878 10879 10880 10881 10882 10883 10884
        z = fluid.layers.elementwise_pow(x, y)

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value) #[2, 243, 16]
    """
10885 10886 10887
    if in_dygraph_mode():
        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name='elementwise_pow')
S
sneaxiy 已提交
10888 10889 10890
    return _elementwise_op(LayerHelper('elementwise_pow', **locals()))


10891
def elementwise_mod(x, y, axis=-1, act=None, name=None):
10892 10893 10894 10895 10896 10897 10898 10899 10900 10901 10902 10903 10904 10905 10906 10907 10908 10909 10910 10911 10912 10913 10914 10915 10916
    """
Examples:

    ..  code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.array([10, 15, 8]).astype('int32'),
                "y": np.array([3, 6, 5]).astype('int32')
            }

        x = fluid.data(name="x", shape=[3], dtype='int32')
        y = fluid.data(name="y", shape=[3], dtype='int32')
        z = fluid.layers.elementwise_mod(x, y)

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value) #[1, 3, 3]
    """
10917 10918 10919 10920
    if in_dygraph_mode():
        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name='elementwise_mod')

10921 10922 10923 10924
    return _elementwise_op(LayerHelper('elementwise_mod', **locals()))


def elementwise_floordiv(x, y, axis=-1, act=None, name=None):
10925 10926 10927 10928 10929 10930 10931 10932 10933 10934 10935 10936 10937 10938 10939 10940 10941 10942 10943 10944 10945 10946 10947 10948 10949
    """
Examples:

    ..  code-block:: python

        import paddle.fluid as fluid
        import numpy as np

        def gen_data():
            return {
                "x": np.array([10, 15, 8]).astype('int32'),
                "y": np.array([3, 7, 5]).astype('int32')
            }

        x = fluid.data(name="x", shape=[3], dtype='int32')
        y = fluid.data(name="y", shape=[3], dtype='int32')
        z = fluid.layers.elementwise_floordiv(x, y)

        place = fluid.CPUPlace()
        exe = fluid.Executor(place)
        z_value = exe.run(feed=gen_data(),
                            fetch_list=[z.name])

        print(z_value) #[3, 2, 1]
    """
10950 10951 10952 10953
    if in_dygraph_mode():
        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name='elementwise_floordiv')

10954 10955 10956
    return _elementwise_op(LayerHelper('elementwise_floordiv', **locals()))


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10957
for func in [
10958 10959 10960 10961
        elementwise_add,
        elementwise_div,
        elementwise_sub,
        elementwise_mul,
10962 10963
        elementwise_max,
        elementwise_pow,
10964
        elementwise_min,
10965 10966
        elementwise_mod,
        elementwise_floordiv,
10967 10968 10969 10970 10971 10972 10973 10974 10975 10976 10977 10978 10979 10980 10981 10982 10983
]:
    op_proto = OpProtoHolder.instance().get_op_proto(func.__name__)
    func.__doc__ = _generate_doc_string_(
        op_proto,
        additional_args_lines=[
            "axis (int32, optional): If X.dimension != Y.dimension, \
            Y.dimension must be a subsequence of x.dimension. \
            And axis is the start dimension index for broadcasting Y onto X. ",
            "act (string, optional): Activation applied to the output. \
            Default is None. Details: :ref:`api_guide_activations_en` ",
            "name (string, optional): Name of the output. \
            Default is None. It's used to print debug info for developers. Details: \
            :ref:`api_guide_Name` "
        ],
        skip_attrs_set={"x_data_format", "y_data_format", "axis"
                        }) + """\n""" + str(func.__doc__)

10984
for func in []:
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    op_proto = OpProtoHolder.instance().get_op_proto(func.__name__)
    func.__doc__ = _generate_doc_string_(
        op_proto,
        additional_args_lines=[
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            "act (basestring|None): Activation applied to the output.",
            "name (basestring|None): Name of the output."
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        ])
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    func.__doc__ = func.__doc__ + """

Examples:
  .. code-block:: python
    
    import paddle.fluid as fluid
    # example 1: shape(x) = (2, 3, 4, 5), shape(y) = (2, 3, 4, 5)
    x0 = fluid.layers.data(name="x0", shape=[2, 3, 4, 5], dtype='float32')
    y0 = fluid.layers.data(name="y0", shape=[2, 3, 4, 5], dtype='float32')
    z0 = fluid.layers.%s(x0, y0)

    # example 2: shape(X) = (2, 3, 4, 5), shape(Y) = (5)
    x1 = fluid.layers.data(name="x1", shape=[2, 3, 4, 5], dtype='float32')
    y1 = fluid.layers.data(name="y1", shape=[5], dtype='float32')
    z1 = fluid.layers.%s(x1, y1)

    # example 3: shape(X) = (2, 3, 4, 5), shape(Y) = (4, 5), with axis=-1(default) or axis=2
    x2 = fluid.layers.data(name="x2", shape=[2, 3, 4, 5], dtype='float32')
    y2 = fluid.layers.data(name="y2", shape=[4, 5], dtype='float32')
    z2 = fluid.layers.%s(x2, y2, axis=2)

    # example 4: shape(X) = (2, 3, 4, 5), shape(Y) = (3, 4), with axis=1
    x3 = fluid.layers.data(name="x3", shape=[2, 3, 4, 5], dtype='float32')
    y3 = fluid.layers.data(name="y3", shape=[3, 4], dtype='float32')
    z3 = fluid.layers.%s(x3, y3, axis=1)

    # example 5: shape(X) = (2, 3, 4, 5), shape(Y) = (2), with axis=0
    x4 = fluid.layers.data(name="x4", shape=[2, 3, 4, 5], dtype='float32')
    y4 = fluid.layers.data(name="y4", shape=[2], dtype='float32')
    z4 = fluid.layers.%s(x4, y4, axis=0)

    # example 6: shape(X) = (2, 3, 4, 5), shape(Y) = (2, 1), with axis=0
    x5 = fluid.layers.data(name="x5", shape=[2, 3, 4, 5], dtype='float32')
    y5 = fluid.layers.data(name="y5", shape=[2], dtype='float32')
    z5 = fluid.layers.%s(x5, y5, axis=0)
    """ % (func.__name__, func.__name__, func.__name__, func.__name__,
           func.__name__, func.__name__)
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11031
def _logical_op(op_name, x, y, out=None, name=None, binary_op=True):
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    helper = LayerHelper(op_name, **locals())

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    if binary_op:
        assert x.dtype == y.dtype
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    if out is None:
        if name is None:
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            out = helper.create_variable_for_type_inference(dtype=x.dtype)
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        else:
            out = helper.create_variable(
                name=name, dtype=x.dtype, persistable=False)

    if binary_op:
        helper.append_op(
            type=op_name, inputs={"X": x,
                                  "Y": y}, outputs={"Out": out})
    else:
        helper.append_op(type=op_name, inputs={"X": x}, outputs={"Out": out})

    return out


@templatedoc()
11055
def logical_and(x, y, out=None, name=None):
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    """
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    logical_and Operator

    It operates element-wise on X and Y, and returns the Out. X, Y and Out are N-dim boolean LoDTensor or Tensor.
    Each element of Out is calculated by
    
    .. math::

        Out = X \land Y
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    Args:
        x(${x_type}): ${x_comment}
        y(${y_type}): ${y_comment}
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        out(LoDTensor or Tensor): The LoDTensor or Tensor that specifies the output of the operator, which can be any Variable that has been created in the program. The default value is None, and a new Variable will be created to save the output.
        name(str|None): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        ${out_type}: ${out_comment}
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    Examples:
        .. code-block:: python

11078
            import paddle.fluid as fluid
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            import numpy as np

            # Graph organizing
            x = fluid.layers.data(name='x', shape=[2], dtype='bool')
            y = fluid.layers.data(name='y', shape=[2], dtype='bool')
            res = fluid.layers.logical_and(x=x, y=y)
            # The comment lists another available method.
            # res = fluid.layers.fill_constant(shape=[2], dtype='bool', value=0)
            # fluid.layers.logical_and(x=x, y=y, out=res)

            # Create an executor using CPU as an example
            exe = fluid.Executor(fluid.CPUPlace())

            # Execute
            x_i = np.array([[1, 0], [0, 1]]).astype(np.bool)
            y_i = np.array([[1, 1], [0, 0]]).astype(np.bool)
            res_val, = exe.run(fluid.default_main_program(), feed={'x':x_i, 'y':y_i}, fetch_list=[res])
            print(res_val) # [[True, False], [False, False]]
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    """

    return _logical_op(
        op_name="logical_and", x=x, y=y, name=name, out=out, binary_op=True)


@templatedoc()
11104
def logical_or(x, y, out=None, name=None):
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    """
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    logical_or Operator

    It operates element-wise on X and Y, and returns the Out. X, Y and Out are N-dim boolean LoDTensor or Tensor.
    Each element of Out is calculated by
    
    .. math::

        Out = X \lor Y
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    Args:
        x(${x_type}): ${x_comment}
        y(${y_type}): ${y_comment}
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        out(LoDTensor or Tensor): The LoDTensor or Tensor that specifies the output of the operator, which can be any Variable that has been created in the program. The default value is None, and a new Variable will be created to save the output.
        name(str|None): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        ${out_type}: ${out_comment}
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    Examples:
        .. code-block:: python

11127
            import paddle.fluid as fluid
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            import numpy as np

            # Graph organizing
            x = fluid.layers.data(name='x', shape=[2], dtype='bool')
            y = fluid.layers.data(name='y', shape=[2], dtype='bool')
            res = fluid.layers.logical_or(x=x, y=y)
            # The comment lists another available method.
            # res = fluid.layers.fill_constant(shape=[2], dtype='bool', value=0)
            # fluid.layers.logical_or(x=x, y=y, out=res)

            # Create an executor using CPU as an example
            exe = fluid.Executor(fluid.CPUPlace())

            # Execute
            x_i = np.array([[1, 0], [0, 1]]).astype(np.bool)
            y_i = np.array([[1, 1], [0, 0]]).astype(np.bool)
            res_val, = exe.run(fluid.default_main_program(), feed={'x':x_i, 'y':y_i}, fetch_list=[res])
            print(res_val) # [[True, True], [False, True]]
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    """

    return _logical_op(
        op_name="logical_or", x=x, y=y, name=name, out=out, binary_op=True)


@templatedoc()
11153
def logical_xor(x, y, out=None, name=None):
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    """
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    logical_xor Operator

    It operates element-wise on X and Y, and returns the Out. X, Y and Out are N-dim boolean LoDTensor or Tensor.
    Each element of Out is calculated by
    
    .. math::

        Out = (X \lor Y) \land \lnot (X \land Y)
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    Args:
        x(${x_type}): ${x_comment}
        y(${y_type}): ${y_comment}
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        out(LoDTensor or Tensor): The LoDTensor or Tensor that specifies the output of the operator, which can be any Variable that has been created in the program. The default value is None, and a new Variable will be created to save the output.
        name(str|None): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        ${out_type}: ${out_comment}
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    Examples:
        .. code-block:: python

11176
            import paddle.fluid as fluid
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            import numpy as np

            # Graph organizing
            x = fluid.layers.data(name='x', shape=[2], dtype='bool')
            y = fluid.layers.data(name='y', shape=[2], dtype='bool')
            res = fluid.layers.logical_xor(x=x, y=y)
            # The comment lists another available method.
            # res = fluid.layers.fill_constant(shape=[2], dtype='bool', value=0)
            # fluid.layers.logical_xor(x=x, y=y, out=res)

            # Create an executor using CPU as an example
            exe = fluid.Executor(fluid.CPUPlace())

            # Execute
            x_i = np.array([[1, 0], [0, 1]]).astype(np.bool)
            y_i = np.array([[1, 1], [0, 0]]).astype(np.bool)
            res_val, = exe.run(fluid.default_main_program(), feed={'x':x_i, 'y':y_i}, fetch_list=[res])
            print(res_val) # [[False, True], [False, True]]
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    """

    return _logical_op(
        op_name="logical_xor", x=x, y=y, name=name, out=out, binary_op=True)


@templatedoc()
11202
def logical_not(x, out=None, name=None):
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    """
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    logical_not Operator

    It operates element-wise on X, and returns the Out. X and Out are N-dim boolean LoDTensor or Tensor.
    Each element of Out is calculated by
    
    .. math::

        Out = \lnot X
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    Args:
        x(${x_type}): ${x_comment}
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        out(LoDTensor/Tensor): The LoDTensor/Tensor that specifies the output of the operator, which can be any Variable that has been created in the program. The default value is None, and a new Variable will be created to save the output.
        name(str|None): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        ${out_type}: ${out_comment}
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    Examples:
        .. code-block:: python

11224
            import paddle.fluid as fluid
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            import numpy as np

            # Graph organizing
            x = fluid.layers.data(name='x', shape=[2], dtype='bool')
            res = fluid.layers.logical_not(x)
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            # The comment lists another avaliable method.
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            # res = fluid.layers.fill_constant(shape=[2], dtype='bool', value=0)
            # fluid.layers.logical_not(x, out=res)

            # Create an executor using CPU as an example
            exe = fluid.Executor(fluid.CPUPlace())

            # Execute
            x_i = np.array([[1, 0]]).astype(np.bool)
            res_val, = exe.run(fluid.default_main_program(), feed={'x':x_i}, fetch_list=[res])
            print(res_val) # [[False, True]]
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    """

    return _logical_op(
        op_name="logical_not", x=x, y=None, name=name, out=out, binary_op=False)
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@templatedoc()
def clip(x, min, max, name=None):
    """
    ${comment}

    Args:
        x(${x_type}): ${x_comment}
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        min(float): ${min_comment}
        max(float): ${max_comment}
        name(str, optional): The default value is None.  
                             Normally there is no need for user to set this property.  
                             For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        ${out_comment}

    Return Type:
        ${out_type}
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            input = fluid.data(
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                name='data', shape=[1], dtype='float32')
            reward = fluid.layers.clip(x=input, min=-1.0, max=1.0)
11273 11274 11275 11276 11277
    """

    helper = LayerHelper("clip", **locals())

    if name is None:
11278 11279
        name = unique_name.generate_with_ignorable_key(".".join(
            [helper.name, 'tmp']))
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    out = helper.create_variable(
        type=x.type, name=name, dtype=x.dtype, persistable=False)
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    helper.append_op(
        type="clip",
        inputs={"X": x},
        attrs={"min": min,
               "max": max},
        outputs={"Out": out})

    return out


@templatedoc()
def clip_by_norm(x, max_norm, name=None):
    """
    ${comment}

    Args:
        x(${x_type}): ${x_comment}
        max_norm(${max_norm_type}): ${max_norm_comment}
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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. 
11305 11306

    Returns:
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        Variable:

11309
        out(${out_type}): ${out_comment}
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11312 11313 11314
    Examples:
        .. code-block:: python

11315
            import paddle.fluid as fluid
11316 11317
            input = fluid.data(
                name='data', shape=[None, 1], dtype='float32')
11318
            reward = fluid.layers.clip_by_norm(x=input, max_norm=1.0)
11319 11320 11321 11322 11323
    """

    helper = LayerHelper("clip_by_norm", **locals())

    if name is None:
11324 11325
        name = unique_name.generate_with_ignorable_key(".".join(
            [helper.name, 'tmp']))
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    out = helper.create_variable(
        type=x.type, name=name, dtype=x.dtype, persistable=False)
11329 11330 11331 11332 11333 11334 11335 11336

    helper.append_op(
        type="clip_by_norm",
        inputs={"X": x},
        attrs={"max_norm": max_norm},
        outputs={"Out": out})

    return out
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@templatedoc()
def mean(x, name=None):
    """
    ${comment}

    Args:
        x(${x_type}): ${x_comment}
        name(basestring|None): Name of the output.

    Returns:
        out(${out_type}): ${out_comment}
11350 11351 11352 11353

    Examples:
        .. code-block:: python

11354
            import paddle.fluid as fluid
11355 11356 11357
            input = fluid.layers.data(
                name='data', shape=[2, 3], dtype='float32')
            mean = fluid.layers.mean(input)
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    """
11359 11360 11361 11362
    if in_dygraph_mode():
        inputs = {"X": [x]}
        outs = core.ops.mean(inputs)
        return outs['Out'][0]
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    helper = LayerHelper("mean", **locals())
11365
    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64'], 'mean')
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    if name is None:
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        out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    else:
        out = helper.create_variable(
            name=name, dtype=x.dtype, persistable=False)

    helper.append_op(
        type="mean", inputs={"X": x}, attrs={}, outputs={"Out": out})

    return out


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@templatedoc()
def merge_selected_rows(x, name=None):
    """
    ${comment}

    Args:
        x(${x_type}): ${x_comment}
        name(basestring|None): Name of the output.

    Returns:
        out(${out_type}): ${out_comment}
11389 11390 11391 11392

    Examples:
        .. code-block:: python

11393
            import paddle.fluid as fluid
11394 11395 11396 11397 11398
            b = fluid.default_main_program().global_block()
            var = b.create_var(
                name="X", dtype="float32", persistable=True,
                type=fluid.core.VarDesc.VarType.SELECTED_ROWS)
            y = fluid.layers.merge_selected_rows(var)
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    """

    helper = LayerHelper("merge_selected_rows", **locals())
    out = helper.create_variable_for_type_inference(dtype=x.dtype)
    helper.append_op(
        type="merge_selected_rows",
        inputs={"X": x},
        attrs={},
        outputs={"Out": out})
    return out


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def mul(x, y, x_num_col_dims=1, y_num_col_dims=1, name=None):
    """
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    Mul Operator.
    This operator is used to perform matrix multiplication for input $x$ and $y$.
    The equation is:

    ..  math::
        Out = x * y

    Both the input $x$ and $y$ can carry the LoD (Level of Details) information, or not. But the output only shares the LoD information with input $x$.
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    Args:
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        x (Variable): The first input Tensor/LoDTensor of mul_op.
        y (Variable): The second input Tensor/LoDTensor of mul_op.
        x_num_col_dims (int, optional): The mul_op can take tensors with more than two dimensions as its inputs. If the input $x$ is a tensor with more than two dimensions, $x$ will be flattened into a two-dimensional matrix first. The flattening rule is: the first `num_col_dims` will be flattened to form the first dimension of the final matrix (the height of the matrix), and the rest `rank(x) - num_col_dims` dimensions are flattened to form the second dimension of the final matrix (the width of the matrix). As a result, height of the flattened matrix is equal to the product of $x$'s first `x_num_col_dims` dimensions' sizes, and width of the flattened matrix is equal to the product of $x$'s last `rank(x) - num_col_dims` dimensions' size. For example, suppose $x$ is a 6-dimensional tensor with the shape [2, 3, 4, 5, 6], and `x_num_col_dims` = 3. Thus, the flattened matrix will have a shape [2 x 3 x 4, 5 x 6] = [24, 30]. Default is 1. 
        y_num_col_dims (int, optional): The mul_op can take tensors with more than two dimensions as its inputs. If the input $y$ is a tensor with more than two dimensions, $y$ will be flattened into a two-dimensional matrix first. The attribute `y_num_col_dims` determines how $y$ is flattened. See comments of `x_num_col_dims` for more details. Default is 1. 
        name (str, optional): Name of the output. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`. Default is None. 
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    Returns:
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        Variable(Tensor/LoDTensor): The output Tensor/LoDTensor of mul op.
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    Examples:
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        ..  code-block:: python
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            import paddle.fluid as fluid
            dataX = fluid.layers.data(name="dataX", append_batch_size = False, shape=[2, 5], dtype="float32")
            dataY = fluid.layers.data(name="dataY", append_batch_size = False, shape=[5, 3], dtype="float32")
            output = fluid.layers.mul(dataX, dataY,
                                      x_num_col_dims = 1,
                                      y_num_col_dims = 1)
            

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    """
11444 11445 11446 11447 11448
    inputs = {"X": [x], "Y": [y]}
    attrs = {"x_num_col_dims": x_num_col_dims, "y_num_col_dims": y_num_col_dims}
    if in_dygraph_mode():
        outs = core.ops.mul(inputs, attrs)
        return outs['Out'][0]
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    helper = LayerHelper("mul", **locals())
11451 11452
    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64'], 'mul')
    check_variable_and_dtype(y, 'y', ['float16', 'float32', 'float64'], 'mul')
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    if name is None:
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        out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    else:
        out = helper.create_variable(
            name=name, dtype=x.dtype, persistable=False)

    helper.append_op(
11460 11461
        type="mul", inputs={"X": x,
                            "Y": y}, attrs=attrs, outputs={"Out": out})
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11462 11463 11464 11465
    return out


@templatedoc()
11466
def maxout(x, groups, name=None, axis=1):
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11467 11468 11469 11470 11471
    """
    ${comment}

    Args:
        x(${x_type}): ${x_comment}
11472 11473
        groups(int): ${groups_comment}
        axis(int, optional): ${axis_comment}
W
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11474 11475 11476
        name(str, optional): For detailed information, please refer 
            to :ref:`api_guide_Name`. Usually name is no need to set and 
            None by default.
X
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11477 11478

    Returns:
11479
        Variable: ${out_comment}
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11480

11481 11482
    Raises:
        ValueError: If `axis` is not 1, -1 or 3.
11483
        ValueError: If the number of input channels can not be divisible by `groups`.
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11484

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11485 11486 11487
    Examples:
        .. code-block:: python

11488
            import paddle.fluid as fluid
11489
            input = fluid.data(
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                name='data', 
11491
                shape=[None, 256, 32, 32], 
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                dtype='float32')
            out = fluid.layers.maxout(input, groups=2)
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    """
    helper = LayerHelper("maxout", **locals())
11496 11497 11498 11499 11500 11501
    if axis not in [1, -1, 3]:
        raise ValueError(
            "Attr(axis) should be 1 when data format is NCHW, -1 or 3 when data format is NHWC. Received "
            "Attr(axis): %s." % str(axis))
    if axis == -1:
        axis = 3
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11502 11503

    if name is None:
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11504
        out = helper.create_variable_for_type_inference(dtype=x.dtype)
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11505 11506 11507 11508 11509 11510 11511
    else:
        out = helper.create_variable(
            name=name, dtype=x.dtype, persistable=False)

    helper.append_op(
        type="maxout",
        inputs={"X": x},
11512 11513
        attrs={"groups": groups,
               "axis": axis},
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11514 11515
        outputs={"Out": out})
    return out
11516 11517


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def space_to_depth(x, blocksize, name=None):
J
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11519
    """
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11520
    Gives a blocksize to space_to_depth the input LoDtensor with Layout: [batch, channel, height, width]
11521

11522 11523 11524
    This op rearranges blocks of spatial data, into depth. More specifically, this op outputs a copy of \
        theinput LoDtensor where values from the height and width dimensions are moved to the channel \
        dimension.
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    The attr blocksize indicates the input block size.
11526

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    space_to_depth will reorganize the elements of input with shape[batch, channel, height, width] \
11528 11529
        according to blocksize to construct output with shape \
        [batch, channel * blocksize * blocksize, height/blocksize, width/blocksize]:
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11530

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11531 11532 11533 11534 11535
    - Non-overlapping blocks of size block_size x block size are rearranged into depth at each location.
    - The Y, X coordinates within each block of the input become the high order component of the output channel index
    - channel should be divisible by square of blocksize
    - height, width should be divsible by blocksize

11536 11537 11538 11539 11540 11541 11542 11543 11544 11545 11546 11547 11548 11549 11550 11551 11552
    This OP is useful for resizing the activations between convolutions \
        (but keeping all data)

    .. code-block:: text

        Given the input x with the shape [1, 1, 4, 4]:
        x.data = [[[[1,   2,  5,  6],
                    [3,   4,  7,  8],
                    [9,  10, 13, 14],
                    [11, 12, 15, 16]]]]
        blocksize = 2

        then get the output with the shape [1, 4, 2, 2]:
        out.data = [[[[1,   2],  [3,  4]],
                     [[5,   6],  [7,  8]],
                     [[9,  10], [11, 12]],
                     [[13, 14], [15, 16]]]]
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11553

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11554
    Args:
11555 11556 11557 11558 11559 11560
        x (Variable): The input, which should be 4 dims Tensor or LodTensor, with the shape \
            [batch, channel, height, width]
        blocksize (int): The blocksize to select the element on each feature map should be > 2
        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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11562 11563 11564 11565
    Returns: The output, which should be 4 dims Tensor or LodTensor, with the shape \
            [batch, channel * blocksize * blocksize, height/blocksize, width/blocksize]

    Return Type: Variable
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    Raises:
11568
        TypeError: blocksize type must be int64.
J
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11569 11570 11571

    Examples:
        .. code-block:: python
11572
    
11573 11574
            import paddle.fluid as fluid
            import numpy as np
J
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11575

11576 11577
            data = fluid.data(
                name='data', shape=[1, 4, 2, 2], dtype='float32')
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11578
            space_to_depthed = fluid.layers.space_to_depth(
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                x=data, blocksize=2)
11580

11581
            exe = fluid.Executor(fluid.CPUPlace())
11582
            data_np = np.arange(0,16).reshape((1,4,2,2)).astype('float32')
11583 11584 11585 11586 11587 11588 11589

            print(data_np)
            #array([[[[ 0.,  1.], [ 2.,  3.]],
            #        [[ 4.,  5.], [ 6.,  7.]],
            #        [[ 8.,  9.], [10., 11.]],
            #        [[12., 13.], [14., 15.]]]], dtype=float32)

11590
            out_main = exe.run(fluid.default_main_program(),
11591 11592 11593 11594 11595 11596 11597 11598
                        feed={'data': data_np},
                        fetch_list=[space_to_depthed])

            print(out_main)
            #[array([[[[ 0.]], [[ 4.]], [[ 1.]], [[ 5.]],
            #         [[ 8.]], [[12.]], [[ 9.]], [[13.]],
            #         [[ 2.]], [[ 6.]], [[ 3.]], [[ 7.]],
            #         [[10.]], [[14.]], [[11.]], [[15.]]]], dtype=float32)]
11599

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11600 11601
    """

J
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11602
    helper = LayerHelper("space_to_depth", **locals())
J
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11603

J
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11604 11605
    if not (isinstance(blocksize, int)):
        raise ValueError("blocksize must be a python Int")
J
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11606 11607

    if name is None:
J
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11608 11609
        out = helper.create_variable_for_type_inference(
            dtype=x.dtype)  #fix create
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11610 11611 11612 11613 11614
    else:
        out = helper.create_variable(
            name=name, dtype=x.dtype, persistable=False)

    helper.append_op(
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        type="space_to_depth",
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11616
        inputs={"X": x},
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11617
        attrs={"blocksize": blocksize},
J
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11618
        outputs={"Out": out})
J
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11619 11620
    return out

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11621

11622 11623 11624 11625 11626 11627
def affine_channel(x,
                   scale=None,
                   bias=None,
                   data_layout='NCHW',
                   name=None,
                   act=None):
11628 11629 11630 11631 11632
    """
    Applies a separate affine transformation to each channel of the input.
    Useful for replacing spatial batch norm with its equivalent fixed
    transformation. The input also can be 2D tensor and applies a affine
    transformation in second dimension.
11633

11634 11635 11636
    Args:
        x (Variable): Feature map input can be a 4D tensor with order NCHW
            or NHWC. It also can be a 2D tensor and the affine transformation
L
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            is applied in the second dimension.The data type is float32 or float64.
11638 11639
        scale (Variable): 1D input of shape (C), the c-th element is the scale
            factor of the affine transformation for the c-th channel of
L
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11640
            the input.The data type is float32 or float64.
11641 11642
        bias (Variable): 1D input of shape (C), the c-th element is the bias
            of the affine transformation for the c-th channel of the input.
L
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11643
            The data type is float32 or float64.
11644 11645 11646 11647 11648
        data_layout (str, optional): Specify the data format of the input, and the data format of the output 
            will be consistent with that of the input. An optional string 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]`. If input is 2D Tensor, you can ignore 
            data_layout.
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        name (str, default None): The name of this layer. For more information,
            please refer to :ref:`api_guide_Name` .
11651
        act (str, default None): Activation to be applied to the output of this layer.
11652 11653

    Returns:
L
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11654
        Variable: A tensor which has the same shape, data layout and data type with x.
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11655 11656 11657

    Examples:
        .. code-block:: python
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11658 11659

            import numpy as np
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11660
            import paddle.fluid as fluid
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11661 11662 11663 11664 11665 11666 11667 11668 11669 11670

            use_gpu = False
            place = fluid.CUDAPlace(0) if use_gpu else fluid.CPUPlace()
            exe = fluid.Executor(place)

            data = fluid.data(name='data', shape=[None, 1, 2, 2], dtype='float32')
            input_scale = fluid.layers.create_parameter(shape=[1], dtype="float32",
                                    default_initializer=fluid.initializer.Constant(2.0))
            input_bias = fluid.layers.create_parameter(shape=[1],dtype="float32",
                                    default_initializer=fluid.initializer.Constant(0.5))
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11671
            out = fluid.layers.affine_channel(data,scale=input_scale,
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                                    bias=input_bias)

            exe.run(fluid.default_startup_program())
            test_program = fluid.default_main_program().clone(for_test=True)

            [out_array] = exe.run(test_program,
                                  fetch_list=out,
                                  feed={'data': np.ones([1,1,2,2]).astype('float32')})
            # out_array is [[[[2.5, 2.5],
            #                [2.5, 2.5]]]] with shape: [1, 1, 2, 2]
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11682

11683 11684 11685 11686
    """
    helper = LayerHelper("affine_channel", **locals())

    if name is None:
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11687
        out = helper.create_variable_for_type_inference(dtype=x.dtype)
11688 11689 11690 11691 11692 11693 11694 11695 11696 11697 11698
    else:
        out = helper.create_variable(
            name=name, dtype=x.dtype, persistable=False)

    helper.append_op(
        type="affine_channel",
        inputs={"X": x,
                'Scale': scale,
                'Bias': bias},
        attrs={"data_layout": data_layout},
        outputs={"Out": out})
11699
    return helper.append_activation(out)
11700 11701


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11702
def similarity_focus(input, axis, indexes, name=None):
11703
    """
B
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11704
    SimilarityFocus Operator
B
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11705 11706

    Generate a similarity focus mask with the same shape of input using the following method:
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11707

11708 11709 11710
    1. Extract the 3-D tensor(here the first dimension is BatchSize) corresponding
       to the axis according to the indexes. For example, if axis=1 and indexes=[a],
       it will get the matrix T=X[:, a, :, :]. In this case, if the shape of input X
B
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11711
       is (BatchSize, A, B, C), the shape of tensor T is (BatchSize, B, C).
11712 11713 11714 11715 11716 11717 11718
    2. For each index, find the largest numbers in the tensor T, so that the same
       row and same column has at most one number(what it means is that if the
       largest number has been found in the i-th row and the j-th column, then
       the numbers in the i-th row or j-th column will be skipped. And then the
       next largest number will be selected from the remaining numbers. Obviously
       there will be min(B, C) numbers), and mark the corresponding position of the
       3-D similarity focus mask as 1, otherwise as 0. Do elementwise-or for
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11719
       each index.
B
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11720 11721 11722 11723
    3. Broadcast the 3-D similarity focus mask to the same shape of input X.

    Refer to `Similarity Focus Layer <http://www.aclweb.org/anthology/N16-1108>`_

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    .. code-block:: text

        * Example :

            Given a 4-D tensor x with the shape (BatchSize, C, A, B), where C is
            the number of channels and the shape of feature map is (A, B):
                x.shape = (2, 3, 2, 2)
                x.data = [[[[0.8, 0.1],
                            [0.4, 0.5]],

                           [[0.9, 0.7],
                            [0.9, 0.9]],

                           [[0.8, 0.9],
                            [0.1, 0.2]]],


                          [[[0.2, 0.5],
                            [0.3, 0.4]],

                           [[0.9, 0.7],
                            [0.8, 0.4]],

                           [[0.0, 0.2],
                            [0.4, 0.7]]]]

            Given axis: 1 (the axis of the channel)
            Given indexes: [0]

            then we get a 4-D tensor out with the same shape of input x:
                out.shape = (2, 3, 2, 2)
                out.data = [[[[1.0, 0.0],
                              [0.0, 1.0]],

                             [[1.0, 0.0],
                              [0.0, 1.0]],

                             [[1.0, 0.0],
                              [0.0, 1.0]]],

                            [[[0.0, 1.0],
                              [1.0, 0.0]],

                             [[0.0, 1.0],
                              [1.0, 0.0]],

                             [[0.0, 1.0],
                              [1.0, 0.0]]]]

B
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11773
    Args:
11774
        input(Variable): The input tensor variable(default float). It should
Y
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11775 11776
            be a 4-D tensor with shape [BatchSize, A, B, C]. Data type is 
            float32 or float64.
B
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11777
        axis(int): Indicating the dimension to be selected. It can only be
B
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11778
            1, 2 or 3.
B
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11779
        indexes(list): Indicating the indexes of the selected dimension.
B
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11780 11781

    Returns:
H
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11782 11783
        Variable: A tensor variable with the same shape and same type \
                  as the input.
11784

B
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11785 11786
    Examples:
        .. code-block:: python
H
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11787

11788
            import paddle.fluid as fluid
Y
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11789
            data = fluid.data(
Y
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11790 11791
                name='data', shape=[-1, 3, 2, 2], dtype='float32')
            fluid.layers.similarity_focus(input=data, axis=1, indexes=[0])
B
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11792 11793 11794 11795 11796 11797 11798 11799 11800 11801 11802 11803
    """
    helper = LayerHelper('similarity_focus', **locals())
    # check attrs
    if isinstance(axis, int) is False:
        raise TypeError("axis must be int type.")
    if isinstance(indexes, list) is False:
        raise TypeError("indexes must be list type.")
    if axis != 1 and axis != 2 and axis != 3:
        raise ValueError("axis must be 1, 2 or 3.")
    if len(indexes) == 0:
        raise ValueError("indexes can not be empty.")

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11804 11805 11806 11807 11808
    if name is None:
        out = helper.create_variable_for_type_inference(dtype=input.dtype)
    else:
        out = helper.create_variable(
            name=name, dtype=input.dtype, persistable=False)
B
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11809 11810 11811 11812 11813 11814 11815
    helper.append_op(
        type='similarity_focus',
        inputs={'X': input},
        outputs={'Out': out},
        attrs={"axis": axis,
               "indexes": indexes})
    return out
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11816 11817


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11818 11819
def hash(input, hash_size, num_hash=1, name=None):
    """
Z
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11820
    This OP hash the input to an integer less than the hash_size.
M
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11821 11822
    The hash algorithm we used was xxHash - Extremely fast hash algorithm
    (https://github.com/Cyan4973/xxHash/tree/v0.6.5)
M
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11823 11824

    Args:
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11825 11826 11827 11828 11829 11830
        input(Variable): A **Two-Dimensional** LoDTensor with type int32, int64.
             **Only support LoDTensor**.
        num_hash(int, optional): The times of hash, default is 1.
        name(str, optional): The default value is None. Normally there is no
            need for user to set this property. For more information, please
            refer to :ref:`api_guide_Name`.
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11831 11832

    Returns:
Z
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11833
       Variable: A LoDTensor with the same data type as input.
M
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11834 11835

    Examples:
Z
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11836
        .. code-block:: python
H
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11837

11838
            import paddle.fluid as fluid
Z
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11839
            import numpy as np
11840

Z
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11841
            place = fluid.core.CPUPlace()
11842

Z
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11843 11844
            x = fluid.data(name="x", shape=[1], dtype="int32", lod_level=1)
            res = fluid.layers.hash(name="res",input=x, hash_size=1000, num_hash=4)
11845

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11846 11847 11848 11849 11850 11851 11852 11853 11854 11855 11856 11857 11858 11859 11860 11861 11862
            exe = fluid.Executor(place)
            exe.run(fluid.default_startup_program())
            in1 = np.array([[1,2],[3,4]]).astype("int32")
            print(in1)
            x_i = fluid.core.LoDTensor()
            x_i.set(in1,place)
            x_i.set_recursive_sequence_lengths([[0,2]])
            res = exe.run(fluid.default_main_program(), feed={'x':x_i}, fetch_list=[res], return_numpy=False)
            print(np.array(res[0]))
            # [[[722]
            #   [407]
            #   [337]
            #   [395]]
            #  [[603]
            #   [590]
            #   [386]
            #   [901]]]
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11863 11864
    """
    helper = LayerHelper('hash', **locals())
M
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11865 11866
    out = helper.create_variable_for_type_inference(
        helper.input_dtype(), stop_gradient=True)
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11867 11868 11869 11870 11871 11872 11873
    helper.append_op(
        type='hash',
        inputs={'X': input},
        outputs={'Out': out},
        attrs={'num_hash': num_hash,
               'mod_by': hash_size})
    return out
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11874 11875


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11876
@templatedoc()
11877 11878
def grid_sampler(x, grid, name=None):
    """
11879
    This operation samples input X by using bilinear interpolation based on
T
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11880
    flow field grid, which is usually generated by :code:`affine_grid` . The grid of
K
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11881 11882
    shape [N, H, W, 2] is the concatenation of (x, y) coordinates
    with shape [N, H, W] each, where x is indexing the 4th dimension
T
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11883 11884
    (in width dimension) of input data x and y is indexing the 3rd
    dimension (in height dimension), finally results is the bilinear
K
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11885 11886
    interpolation value of 4 nearest corner points. The output tensor 
    shape will be [N, C, H, W].
11887

H
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11888
    .. code-block:: text
11889

H
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11890 11891
        Step 1:
        Get (x, y) grid coordinates and scale to [0, H-1/W-1].
11892

K
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11893 11894 11895 11896
        .. code-block:: text

            grid_x = 0.5 * (grid[:, :, :, 0] + 1) * (W - 1)
            grid_y = 0.5 * (grid[:, :, :, 1] + 1) * (H - 1)
11897

H
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11898 11899 11900
        Step 2:
        Indices input data X with grid (x, y) in each [H, W] area, and bilinear
        interpolate point value by 4 nearest points.
11901

H
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11902 11903 11904 11905 11906 11907 11908 11909 11910
          wn ------- y_n ------- en
          |           |           |
          |          d_n          |
          |           |           |
         x_w --d_w-- grid--d_e-- x_e
          |           |           |
          |          d_s          |
          |           |           |
          ws ------- y_s ------- wn
11911

H
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11912 11913 11914 11915
        x_w = floor(x)              // west side x coord
        x_e = x_w + 1               // east side x coord
        y_n = floor(y)              // north side y coord
        y_s = y_s + 1               // south side y coord
11916

H
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11917 11918 11919 11920
        d_w = grid_x - x_w          // distance to west side
        d_e = x_e - grid_x          // distance to east side
        d_n = grid_y - y_n          // distance to north side
        d_s = y_s - grid_y          // distance to south side
11921

H
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11922 11923 11924 11925
        wn = X[:, :, y_n, x_w]      // north-west point value
        en = X[:, :, y_n, x_e]      // north-east point value
        ws = X[:, :, y_s, x_w]      // south-east point value
        es = X[:, :, y_s, x_w]      // north-east point value
11926

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        output = wn * d_e * d_s + en * d_w * d_s
               + ws * d_e * d_n + es * d_w * d_n
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    Args:
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        x(Variable): The input tensor, which is a 4-D tensor with shape
                     [N, C, H, W], N is the batch size, C is the channel
                     number, H and W is the feature height and width.
                     The data type is float32 or float64.
        grid(Variable): Input grid tensor of shape [N, H, W, 2]. The
                        data type is float32 or float64.
        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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        Variable: Output of shape [N, C, H, W] data samples input X
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                  using bilnear interpolation based on input grid.
                  The data type is same as input tensor.
11945

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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid

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            # use with affine_grid
            x = fluid.data(name='x', shape=[None, 10, 32, 32], dtype='float32')
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            theta = fluid.layers.data(name='theta', shape=[2, 3], dtype='float32')
            grid = fluid.layers.affine_grid(theta=theta, out_shape=[3, 10, 32, 32])
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            out = fluid.layers.grid_sampler(x=x, grid=grid)
11957

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    """
    helper = LayerHelper("grid_sampler", **locals())

    if not isinstance(x, Variable):
        return ValueError("The x should be a Variable")

    if not isinstance(grid, Variable):
        return ValueError("The grid should be a Variable")

11967
    out = helper.create_variable_for_type_inference(x.dtype)
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    ipts = {'X': x, 'Grid': grid}

11970
    helper.append_op(type='grid_sampler', inputs=ipts, outputs={'Output': out})
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    return out


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def log_loss(input, label, epsilon=1e-4, name=None):
    """
    **Negative Log Loss Layer**

    This layer accepts input predictions and target label and returns the
    negative log loss.

    .. math::

        Out = -label * \\log{(input + \\epsilon)}
              - (1 - label) * \\log{(1 - input + \\epsilon)}

    Args:
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        input (Variable|list):  A 2-D tensor with shape [N x 1], where N is the
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                                batch size. This input is a probability computed
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                                by the previous operator. Data type float32.
        label (Variable|list):  The ground truth which is a 2-D tensor with
                                shape [N x 1], where N is the batch size. 
                                Data type float32.
        epsilon (float, optional): A small number for numerical stability. Default 1e-4.
        name(str|None): 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:
        Variable: A 2-D tensor with shape [N x 1], the negative log loss.

    Examples:
        .. code-block:: python

12003
          import paddle.fluid as fluid
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          label = fluid.data(name='label', shape=[None, 1], dtype='float32')
          prob = fluid.data(name='prob', shape=[None, 1], dtype='float32')
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          cost = fluid.layers.log_loss(input=prob, label=label)
    """
    helper = LayerHelper('log_loss', **locals())

    if name is None:
        loss = helper.create_variable_for_type_inference(dtype=input.dtype)
    else:
        loss = helper.create_variable(
            name=name, dtype=input.dtype, persistable=False)

    helper.append_op(
        type='log_loss',
        inputs={'Predicted': [input],
                'Labels': [label]},
        outputs={'Loss': [loss]},
        attrs={'epsilon': epsilon})
    return loss


def add_position_encoding(input, alpha, beta, name=None):
    """
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    This operator performs weighted sum of input feature at each position
    (position in the sequence) and the corresponding position encoding.
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    For more details of position encoding, please refer to `Attention Is All You 
    Need <http://arxiv.org/pdf/1706.03762.pdf>`_ .
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    The formula is as follows:
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    .. math::
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        PE(pos, 2i) &= \\sin{(pos / 10000^{2i / P})}   \\\\
        PE(pos, 2i + 1) &= \\cos{(pos / 10000^{2i / P})}  \\\\
        Out(:, pos, i) &= \\alpha * input(:, pos, i) + \\beta * PE(pos, i)
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    Where:
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      - :math:`PE(pos, 2i)` : the value at even index `2i` for encoding of position `pos`.
      - :math:`PE(pos, 2i + 1)` : the value at odd index `2i+1` for encoding of position `pos`

    Args:
        input(Variable): A Tensor or LoDTensor (lod level is 1). If it is a
            Tensor, the shape should be `[N, M, P]`, where `N` stands for
            batch size, `M` for sequence length, `P` for the size of feature
            dimension. If it is a LoDTensor, the shape should be `[N, P]`,
            where `N` stands for the total sequence lengths in this mini-batch,
            `P` for the size of feature. The data type should be float32 or float64.
        alpha(float): Indicate the weight coefficient for `input` when performing
            weighted sum.
        beta(float): Indicate the weight coefficient for position encoding when
            performing weighted sum.
        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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        Variable: A Tensor or LoDTensor. It has the same shape, data type and lod as `input`.
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    Examples:
        .. code-block:: python

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          import paddle.fluid as fluid

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          tensor = fluid.data(
12068
              name='tensor',
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              shape=[None, 64, 512],
              dtype='float32')
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          position_tensor = fluid.layers.add_position_encoding(
              input=tensor, alpha=1.0, beta=1.0)
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    """
    helper = LayerHelper('add_position_encoding', **locals())
    dtype = helper.input_dtype()

    if name is None:
        out = helper.create_variable_for_type_inference(dtype=dtype)
    else:
        out = helper.create_variable(name=name, dtype=dtype, persistable=False)

    helper.append_op(
        type="add_position_encoding",
        inputs={"X": input},
        outputs={"Out": out},
        attrs={"alpha": alpha,
               "beta": beta})
    return out
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def bilinear_tensor_product(x,
                            y,
                            size,
                            act=None,
                            name=None,
                            param_attr=None,
                            bias_attr=None):
    """
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    **Bilinear Tensor Product Layer**
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    This layer performs bilinear tensor product on two inputs.
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    For example:

    .. math::
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       out_{i} = x * W_{i} * {y^\mathrm{T}}, i=0,1,...,size-1
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    In this formula:
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      - :math:`x`: the first input contains M elements, shape is [batch_size, M].
      - :math:`y`: the second input contains N elements, shape is [batch_size, N].
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      - :math:`W_{i}`: the i-th learned weight, shape is [M, N].
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      - :math:`out_{i}`: the i-th element of out, shape is [batch_size, size].
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      - :math:`y^\mathrm{T}`: the transpose of :math:`y_{2}`.

    Args:
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        x (Variable): 2-D input tensor with shape [batch_size, M]. Data type 
            is float32 or float64.
        y (Variable): 2-D input tensor with shape [batch_size, N]. Data type 
            should be same as **x**.
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        size (int): The dimension of this layer.
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        act (str|None): Activation to be applied to the output of this layer. Default None.
        name(str|None): For detailed information, please refer to 
            :ref:`api_guide_Name` . Usually name is no need to set and None by default.
        param_attr (ParamAttr|None): To specify the weight parameter attribute. 
            Default: None, which means the default weight parameter property is 
            used. See usage for details in :ref:`api_fluid_ParamAttr` .
        bias_attr (ParamAttr|None): To specify the bias parameter attribute. 
            Default: None, which means the default bias parameter property is 
            used. See usage for details in :ref:`api_fluid_ParamAttr` .
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    Returns:
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        Variable: A 2-D Tensor of shape [batch_size, size]. Data type is the same as input **x**.
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    Examples:
        .. code-block:: python

12136
          import paddle.fluid as fluid
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          layer1 = fluid.data("t1", shape=[-1, 5], dtype="float32")
          layer2 = fluid.data("t2", shape=[-1, 4], dtype="float32")
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          tensor = fluid.layers.bilinear_tensor_product(x=layer1, y=layer2, size=1000)
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    """
    helper = LayerHelper('bilinear_tensor_product', **locals())
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    dtype = helper.input_dtype('x')
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    param_shape = [size, x.shape[1], y.shape[1]]

    w = helper.create_parameter(
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        attr=helper.param_attr, shape=param_shape, dtype=dtype, is_bias=False)
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    if name is None:
        out = helper.create_variable_for_type_inference(dtype=dtype)
    else:
        out = helper.create_variable(name=name, dtype=dtype, persistable=False)

    inputs = {"X": x, "Y": y, "Weight": w}
    if helper.bias_attr:
        bias_size = [1, size]
        bias = helper.create_parameter(
            attr=helper.bias_attr, shape=bias_size, dtype=dtype, is_bias=True)
        inputs["Bias"] = bias
    helper.append_op(
        type="bilinear_tensor_product", inputs=inputs, outputs={"Out": out})

    # add activation
    return helper.append_activation(out)
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@templatedoc()
def get_tensor_from_selected_rows(x, name=None):
    """
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    This operator gets tensor data from input with SelectedRows type, and outputs a LoDTensor.

    .. code-block:: text

        input x is SelectedRows:
           x.rows = [0, 5, 5, 4, 19]
           x.height = 20
           x.value = [[1, 1] [2, 2] [2, 2] [3, 3] [6, 6]]

        Ouput is LoDTensor:
           out.shape = [5, 2]
           out.data = [[1, 1],
                       [2, 2],
                       [2, 2],
                       [3, 3],
                       [6, 6]]
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    Args:
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        x(SelectedRows): Input with SelectedRows type. The data type is float32, float64, int32 or int64.
        name(str, optional): The default value is None.  Normally there is no need for user to set this property.
            For more information, please refer to :ref:`api_guide_Name` .
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    Returns:
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        Variable: LoDTensor transformed from SelectedRows. The data type is same with input.
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    Examples:
        .. code-block:: python
	    
            import paddle.fluid as fluid
            b = fluid.default_main_program().global_block()
            input = b.create_var(name="X", dtype="float32", persistable=True, type=fluid.core.VarDesc.VarType.SELECTED_ROWS)
            out = fluid.layers.get_tensor_from_selected_rows(input)
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    """

    helper = LayerHelper('get_tensor_from_selected_rows', **locals())
    out = helper.create_variable_for_type_inference(dtype=x.dtype)
    helper.append_op(
        type='get_tensor_from_selected_rows',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={})
    return out
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def shuffle_channel(x, group, name=None):
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    """
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    This operator shuffles the channels of input x.
    It divide the input channels in each group into :attr:`group` subgroups,
    and obtain a new order by selecting element from every subgroup one by one.

    Please refer to the paper
    https://arxiv.org/pdf/1707.01083.pdf
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    .. code-block:: text
12224

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        Given a 4-D tensor input with the shape (N, C, H, W):
            input.shape = (1, 4, 2, 2)
            input.data =[[[[0.1, 0.2],
                           [0.2, 0.3]],

                          [[0.3, 0.4],
                           [0.4, 0.5]],

                          [[0.5, 0.6],
                           [0.6, 0.7]],

                          [[0.7, 0.8],
                           [0.8, 0.9]]]]
            Given group: 2
            then we get a 4-D tensor out whth the same shape of input:
            out.shape = (1, 4, 2, 2)
            out.data = [[[[0.1, 0.2],
                          [0.2, 0.3]],
                          
                         [[0.5, 0.6],
                          [0.6, 0.7]],
                          
                         [[0.3, 0.4],
                          [0.4, 0.5]],
                          
                         [[0.7, 0.8],
                          [0.8, 0.9]]]]
                        
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    Args: 
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        x(Variable): The input tensor variable. It should be a 4-D tensor with shape [N, C, H, W]
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        group(int): Indicating the counts of subgroups, It should divide the number of channels.
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    Returns:
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        out(Variable): the channels shuffling result is a tensor variable with the 
        same shape and same type as the input.
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    Raises:
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        ValueError: If group is not an int type variable.
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    Examples:
        .. code-block:: python
12266

12267
            import paddle.fluid as fluid
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            input = fluid.data(name='input', shape=[None,4,2,2], dtype='float32')
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            out = fluid.layers.shuffle_channel(x=input, group=2)
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    """
    helper = LayerHelper("shuffle_channel", **locals())

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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    if not isinstance(group, int):
        raise TypeError("group must be int type")

    helper.append_op(
        type="shuffle_channel",
        inputs={"X": x},
        outputs={"Out": out},
        attrs={"group": group})
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    return out
S
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12286
@templatedoc()
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def temporal_shift(x, seg_num, shift_ratio=0.25, name=None):
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    """
    **Temporal Shift Operator**
    
    ${comment}
                        
    Args: 
        x(Variable): ${x_comment}
        seg_num(int): ${seg_num_comment}
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        shift_ratio(float): ${shift_ratio_comment}
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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.
12300 12301 12302

    Returns:
        out(Variable): The temporal shifting result is a tensor variable with the 
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        same shape and same data type as the input.
12304 12305 12306 12307 12308 12309 12310

    Raises:
        TypeError: seg_num must be int type.

    Examples:
        .. code-block:: python

12311
            import paddle.fluid as fluid
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            input = fluid.data(name='input', shape=[None,4,2,2], dtype='float32')
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            out = fluid.layers.temporal_shift(x=input, seg_num=2, shift_ratio=0.2)
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    """
    helper = LayerHelper("temporal_shift", **locals())

    out = helper.create_variable_for_type_inference(dtype=x.dtype)

    if not isinstance(seg_num, int):
        raise TypeError("seg_num must be int type.")

    helper.append_op(
        type="temporal_shift",
        inputs={"X": x},
        outputs={"Out": out},
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        attrs={"seg_num": seg_num,
               "shift_ratio": shift_ratio})
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    return out


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class PyFuncRegistry(object):
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    _register_funcs = []

    def __init__(self, func):
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        if func is None or not callable(func):
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            raise TypeError('func must be a Python function')

        self._func = func
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        # find named args using reflection
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        args = inspect.getargspec(self._func)
        if len(args[0]) == 0 and args[1] is None and args[2] is None:
            # Function with no inputs
            self._named_args = None
        else:
            self._named_args = args[0]
        self._id = core._append_python_callable_object_and_return_id(self)
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        '''
        Why record self here?

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        1. For debug usage. Users can call
           :code:`py_func.registered_func(idx)` method
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           to find the registered function corresponding
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           to :code:`idx`.
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        2. For increasing reference count of self.
           It seems that to release Python object
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           whose reference count is 1 would cause
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           segmentation fault error in C++ side.
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           May be lack of Python GC in C++ side?
        '''
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        PyFuncRegistry._register_funcs.append(self)
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    @classmethod
    def registered_func(cls, idx):
        return cls._register_funcs[idx]._func

    @classmethod
    def registered_func_num(cls):
        return len(cls._register_funcs)

    @property
    def id(self):
        return self._id

    def __call__(self, *args):
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        if self._named_args is None:
            func_ret = self._func()
        else:
            kwargs = dict()
            idx = 0
            for arg in self._named_args:
                kwargs[arg] = args[idx]
                idx += 1
            func_ret = self._func(*args[idx:], **kwargs)
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        if not isinstance(func_ret, (list, tuple)):
            func_ret = (func_ret, )
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        ret = []
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        for each_ret in func_ret:
            if each_ret is None or isinstance(each_ret, core.LoDTensor):
                ret.append(each_ret)
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                continue

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            if not isinstance(each_ret, np.ndarray):
                each_ret = np.array(each_ret)
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            tensor = core.LoDTensor()
            tensor.set(each_ret, core.CPUPlace())
            ret.append(tensor)
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        return tuple(ret)
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@templatedoc()
def py_func(func, x, out, backward_func=None, skip_vars_in_backward_input=None):
    """
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    This OP is used to register customized Python OP to Paddle Fluid. The design 
    principe of py_func is that LodTensor and numpy array can be converted to each
    other easily. So you can use Python and numpy API to register a python OP.

    The forward  function of the registered OP is ``func`` and the backward function 
    of that is  ``backward_func``. Paddle will call ``func`` at forward runtime and 
    call ``backward_func`` at backward runtime(if ``backward_func`` is not  None). 
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    ``x`` is the input of ``func``, whose type must be LoDTensor; ``out`` is 
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    the output of ``func``, whose type can be either LoDTensor or numpy array.
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    The input of the backward function ``backward_func`` is ``x``, ``out`` and 
    the gradient of ``out``. If some variables of ``out`` have no gradient, the 
    relevant input variable of ``backward_func`` is None. If some variables of 
    ``x`` do not have a gradient, the user should return None in ``backward_func``.

    The data type and shape of ``out`` should also be set correctly before this 
    API is called, and the data type and shape of the gradient of ``out`` and 
    ``x`` will be inferred automatically.

    This API can also be used to debug the neural network by setting the ``func``
    as a function that only print variables.

    Args:
        func (callable): The forward function of the registered OP. When the network
            is running, the forward output ``out`` will be calculated according to this 
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            function and the forward input ``x``. In ``func`` , it's suggested that we 
            actively convert LoDTensor into a numpy array, so that we can use Python and
            numpy API arbitrarily. If not, some operations of numpy may not be compatible.
        x (Variable|tuple(Variale)|list[Variale]): The input of the forward function ``func``. 
            It can be Variable|tuple(Variale)|list[Variale], where Variable is LoDTensor or 
            Tenosor. In addition, Multiple Variable should be passed in the form of tuple(Variale)
            or list[Variale].
        out (Variable|tuple(Variale)|list[Variale]): The output of the forward function ``func``, 
            it can be Variable|tuple(Variale)|list[Variale], where Variable can be either LoDTensor
            or numpy array. Since Paddle cannot automatically infer the shape and type of ``out``, 
            you must create ``out`` in advance.
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        backward_func (callable, optional): The backward function of the registered OP. 
            Its default value is None, which means there is no reverse calculation. If 
            it is not None, ``backward_func`` is called to calculate the gradient of 
            ``x`` when the network is at backward runtime.
        skip_vars_in_backward_input (Variable, optional): It's used to limit the input 
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            variable list of ``backward_func``, and it can be Variable|tuple(Variale)|list[Variale]. 
            It must belong to either ``x`` or ``out``. The default  value is None, which means 
            that no variables need to be removed from ``x`` and ``out``. If it is not None, 
            these variables will not be the input of ``backward_func``. This parameter is only 
            useful when ``backward_func`` is not None.
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    Returns: 
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        Variable|tuple(Variale)|list[Variale]: The output ``out`` of the forward function ``func``.
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    Examples:
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        .. code-block:: python
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            # example 1:
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            import paddle.fluid as fluid
            import six

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            # Creates a forward function, LodTensor can be input directly without
            # being converted into numpy array.
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            def tanh(x):
                return np.tanh(x)

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            # Skip x in backward function and return the gradient of x
            # LodTensor must be actively converted to numpy array, otherwise, 
            # operations such as +/- can't be used.
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            def tanh_grad(y, dy):
                return np.array(dy) * (1 - np.square(np.array(y)))
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            # Creates a forward function for debugging running networks(print value)
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            def debug_func(x):
                print(x)
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            def create_tmp_var(name, dtype, shape):
                return fluid.default_main_program().current_block().create_var(
                    name=name, dtype=dtype, shape=shape)
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            def simple_net(img, label):
                hidden = img
                for idx in six.moves.range(4):
                    hidden = fluid.layers.fc(hidden, size=200)
                    new_hidden = create_tmp_var(name='hidden_{}'.format(idx),
                        dtype=hidden.dtype, shape=hidden.shape)

                    # User-defined forward and backward 
                    hidden = fluid.layers.py_func(func=tanh, x=hidden,
                        out=new_hidden, backward_func=tanh_grad,
                        skip_vars_in_backward_input=hidden)

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                    # User-defined debug functions that print out the input LodTensor
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                    fluid.layers.py_func(func=debug_func, x=hidden, out=None)

                prediction = fluid.layers.fc(hidden, size=10, act='softmax')
                loss = fluid.layers.cross_entropy(input=prediction, label=label)
                return fluid.layers.mean(loss)
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            # example 2: 
            # This example shows how to turn LoDTensor into numpy array and 
            # use numpy API to register an Python OP
            import paddle.fluid as fluid
            import numpy as np

            def element_wise_add(x, y): 
                # LodTensor must be actively converted to numpy array, otherwise, 
                # numpy.shape can't be used.
                x = np.array(x)    
                y = np.array(y)

                if x.shape != y.shape:
                    raise AssertionError("the shape of inputs must be the same!")

                result = np.zeros(x.shape, dtype='int32')
                for i in range(len(x)):
                    for j in range(len(x[0])):
                        result[i][j] = x[i][j] + y[i][j]

                return result

            def create_tmp_var(name, dtype, shape):
                return fluid.default_main_program().current_block().create_var(
                            name=name, dtype=dtype, shape=shape)

            def py_func_demo():
                start_program = fluid.default_startup_program()
                main_program = fluid.default_main_program()

                # Input of the forward function
                x = fluid.data(name='x', shape=[2,3], dtype='int32')
                y = fluid.data(name='y', shape=[2,3], dtype='int32')
                
                # Output of the forward function, name/dtype/shape must be specified
                output = create_tmp_var('output','int32', [3,1])

                # Multiple Variable should be passed in the form of tuple(Variale) or list[Variale]
                fluid.layers.py_func(func=element_wise_add, x=[x,y], out=output)

                exe=fluid.Executor(fluid.CPUPlace())
                exe.run(start_program)

                # Feed numpy array to main_program
                input1 = np.random.randint(1, 10, size=[2,3], dtype='int32')
                input2 = np.random.randint(1, 10, size=[2,3], dtype='int32')
                out = exe.run(main_program, 
                            feed={'x':input1, 'y':input2},
                            fetch_list=[output.name])
                print("{0} + {1} = {2}".format(input1, input2, out))

            py_func_demo()

            # Reference output:
            # [[5, 9, 9]   + [[7, 8, 4]  =  [array([[12, 17, 13]
            #  [7, 5, 2]]     [1, 3, 3]]            [8, 8, 5]], dtype=int32)]
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    """
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    helper = LayerHelper('py_func', **locals())
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    if x is None:
        x = []
    elif isinstance(x, Variable):
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        x = [x]
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    elif isinstance(x, tuple):
        x = list(x)
    elif not isinstance(x, (list, tuple, Variable)):
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        raise TypeError('Input must be Variable/list(Variable)/tuple(Variable)')
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    if out is None:
        out_list = []
    elif isinstance(out, Variable):
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        out_list = [out]
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    elif isinstance(out, tuple):
        out_list = list(out)
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    elif isinstance(out, list):
        out_list = out
    else:
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        raise TypeError(
            'Output must be Variable/list(Variable)/tuple(Variable)')
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    fwd_func_id = PyFuncRegistry(func).id
    bwd_func_id = PyFuncRegistry(
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        backward_func).id if backward_func is not None else -1
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    for each_out in out_list:
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        if len(each_out.shape) == 0:
            raise ValueError(
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                'Output shapes of py_func op should be provided by users manually'
            )
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    backward_skip_vars = set()
    if backward_func is not None and skip_vars_in_backward_input is not None:
        if isinstance(skip_vars_in_backward_input, Variable):
            skip_vars_in_backward_input = [skip_vars_in_backward_input]

        fwd_in_out = [v.name for v in x]
        fwd_in_out.extend([v.name for v in out_list])
        fwd_in_out = set(fwd_in_out)
        backward_skip_vars = set()
        for v in skip_vars_in_backward_input:
            if not v.name in fwd_in_out:
                raise ValueError(
                    'Variable {} is not found in forward inputs and outputs'
                    .format(v.name))
            backward_skip_vars.add(v.name)
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    helper.append_op(
        type='py_func',
        inputs={'X': x},
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        outputs={'Out': out_list},
        attrs={
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            'forward_callable_id': fwd_func_id,
            'backward_callable_id': bwd_func_id,
            'backward_skip_vars': list(backward_skip_vars)
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        })
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    return out
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# For debug usage
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py_func.registered_func = PyFuncRegistry.registered_func
py_func.registered_func_num = PyFuncRegistry.registered_func_num


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@templatedoc()
def psroi_pool(input,
               rois,
               output_channels,
               spatial_scale,
               pooled_height,
               pooled_width,
               name=None):
    """
    ${comment}

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    Parameters:
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        input (Variable): ${x_comment}
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        rois (Variable): LoDTensor, ROIs (Regions of Interest) to pool over.It should be
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                         a 2-D LoDTensor of shape (num_rois, 4), the lod level
                         is 1. Given as [[x1, y1, x2, y2], ...], (x1, y1) is
                         the top left coordinates, and (x2, y2) is the bottom
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                         right coordinates. The data type is the same as `input`
        output_channels (int): ${output_channels_comment}
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        spatial_scale (float): ${spatial_scale_comment} Default: 1.0
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        pooled_height (int): ${pooled_height_comment} Default: 1
        pooled_width (int): ${pooled_width_comment} Default: 1
        name(str, optional): The default value is None.  
                             Normally there is no need for user to set this property.  
                             For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        ${out_comment}.

    Return Type:
        Variable
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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            x = fluid.data(name='x', shape=[100, 490, 28, 28], dtype='float32')
            rois = fluid.data(name='rois', shape=[None, 4], lod_level=1, dtype='float32')
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            pool_out = fluid.layers.psroi_pool(x, rois, 10, 1.0, 7, 7)
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    """
    helper = LayerHelper('psroi_pool', **locals())
    # check attrs
    if not isinstance(output_channels, int):
        raise TypeError("output_channels must be int type")
    if not isinstance(spatial_scale, float):
        raise TypeError("spatial_scale must be float type")
    if not isinstance(pooled_height, int):
        raise TypeError("pooled_height must be int type")
    if not isinstance(pooled_width, int):
        raise TypeError("pooled_width must be int type")
    dtype = helper.input_dtype()
    out = helper.create_variable_for_type_inference(dtype)
    helper.append_op(
        type='psroi_pool',
        inputs={'X': input,
                'ROIs': rois},
        outputs={'Out': out},
        attrs={
            'output_channels': output_channels,
            'spatial_scale': spatial_scale,
            'pooled_height': pooled_height,
            'pooled_width': pooled_width
        })
    return out
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@templatedoc()
def prroi_pool(input,
               rois,
               spatial_scale=1.0,
               pooled_height=1,
               pooled_width=1,
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               batch_roi_nums=None,
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               name=None):
    """
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    The precise roi pooling implementation for paddle. Reference: https://arxiv.org/pdf/1807.11590.pdf
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    Args:
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        input (Variable):The input of precise roi pooliing.The shape of input tensor is
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                        [N,C,H,W]. Where N is batch size,C is number of input channels,H
                        is height of the feature, and W is the width of the feature.
        rois (Variable): ROIs (Regions of Interest) to pool over.It should be
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                        a 2-D LoDTensor or Tensor of shape (num_rois, 4), the lod level
                        is 1 when it is LoDTensor. The LoD include the rois's batch index
                        information. If rois is Tensor, its batch index information should
                        be provided by batch_index.
                        Given as [[x1, y1, x2, y2], ...], (x1, y1) is
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                        the top left coordinates, and (x2, y2) is the bottom
                        right coordinates.
        spatial_scale (float): Ratio of input feature map height (or width) to raw image height (or width).
                             Equals the reciprocal of total stride in convolutional layers, Default: 1.0.
        pooled_height (integer): The pooled output height. Default: 1.
        pooled_width (integer): The pooled output width. Default: 1.
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        batch_roi_nums (Variable): The number of roi for each image in batch. It 
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                         should be 1-D Tensor, with shape [N] and dtype int64, 
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                         where N is the batch size. Default: None. Be note: The lod of input should be
                         empty when batch_roi_nums has values;
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        name (str, default None): The name of this operation.

    Returns:
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        Variable(Tensor):The shape of the returned Tensor is (N, C, pooled_height, pooled_width), with value type float32,float16. N, C denote batch_size and channels of input respectively.
12726 12727 12728 12729

    Examples:
        .. code-block:: python

12730
            ## prroi_pool without batch_roi_num
12731
            import paddle.fluid as fluid
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            x = fluid.data(name='x', shape=[None, 490, 28, 28], dtype='float32')
            rois = fluid.data(name='rois', shape=[None, 4], lod_level=1, dtype='float32')
12734
            pool_out = fluid.layers.prroi_pool(x, rois, 1.0, 7, 7)
12735 12736 12737 12738 12739 12740 12741 12742 12743
            
            ## prroi_pool with batch_roi_num
            batchsize=4
            x2 = fluid.data(name='x2', shape=[batchsize, 490, 28, 28], dtype='float32')
            rois2 = fluid.data(name='rois2', shape=[batchsize, 4], dtype='float32')
            batch_rois_num = fluid.data(name='rois_nums', shape=[batchsize], dtype='int64')
            pool_out2 = fluid.layers.prroi_pool(x2, rois2, 1.0, 7, 7, batch_roi_nums=batch_rois_num)


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    """
    helper = LayerHelper('prroi_pool', **locals())
    # check attrs
    if not isinstance(spatial_scale, float):
        raise TypeError("spatial_scale must be float type")
    if not isinstance(pooled_height, int):
        raise TypeError("pooled_height must be int type")
    if not isinstance(pooled_width, int):
        raise TypeError("pooled_width must be int type")
    dtype = helper.input_dtype()
    out = helper.create_variable_for_type_inference(dtype)
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    inputs_op = {'X': input, 'ROIs': rois}
    if batch_roi_nums is not None:
        inputs_op['BatchRoINums'] = batch_roi_nums
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    helper.append_op(
        type='prroi_pool',
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        inputs=inputs_op,
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        outputs={'Out': out},
        attrs={
            'spatial_scale': spatial_scale,
            'pooled_height': pooled_height,
            'pooled_width': pooled_width
        })
    return out
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def pixel_shuffle(x, upscale_factor):
    """

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    This op rearranges elements in a tensor of shape [N, C, H, W]
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    to a tensor of shape [N, C/r**2, H*r, W*r].
    This is useful for implementing efficient sub-pixel convolution
    with a stride of 1/r.
    Please refer to the paper: `Real-Time Single Image and Video Super-Resolution 
    Using an Efficient Sub-Pixel Convolutional Neural Network <https://arxiv.org/abs/1609.05158v2>`_ .
    by Shi et. al (2016) for more details.

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    Parameters:
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        x(Variable): 4-D tensor, the data type should be float32 or float64.
        upscale_factor(int): factor to increase spatial resolution.
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    Returns:
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        Out(Variable): Reshaped tensor according to the new dimension.
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    Raises:
        ValueError: If the square of upscale_factor cannot divide the channels of input.

    Examples:
        .. code-block:: python

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	    # declarative mode
	    import paddle.fluid as fluid
	    import numpy as np
	    input = fluid.data(name="input", shape=[2,9,4,4])
	    output = fluid.layers.pixel_shuffle(x=input, upscale_factor=3)
	    place = fluid.CPUPlace()
	    exe = fluid.Executor(place)
	    exe.run(fluid.default_startup_program())
 
	    input_data = np.random.rand(2,9,4,4).astype("float32")
	    output_data = exe.run(fluid.default_main_program(),
                feed={"input":input_data},
                fetch_list=[output],
                return_numpy=True)
 
 	    # print(output.shape)
	    # (2L, 1L, 12L, 12L)
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    """

    helper = LayerHelper("pixel_shuffle", **locals())

    out = helper.create_variable_for_type_inference(dtype=x.dtype)

    if not isinstance(upscale_factor, int):
        raise TypeError("upscale factor must be int type")

    helper.append_op(
        type="pixel_shuffle",
        inputs={"X": x},
        outputs={"Out": out},
        attrs={"upscale_factor": upscale_factor})
    return out


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def fsp_matrix(x, y):
    """

    **FSP matrix op**

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    This op is used to calculate the flow of solution procedure (FSP) matrix of two 4-D Tensor feature maps.
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    Given feature map x with shape [x_channel, h, w] and feature map y with shape
    [y_channel, h, w], we can get the fsp matrix of x and y in two steps:

    1. reshape x into matrix with shape [x_channel, h * w] and reshape and
       transpose y into matrix with shape [h * w, y_channel].
    2. multiply x and y to get fsp matrix with shape [x_channel, y_channel].

    The output is a batch of fsp matrices.

    Args:

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        x (Variable): A 4-D Tensor feature map with shape [batch_size, x_channel, height, width].
                      A Tensor with type float32, float64.
        y (Variable): A 4-D Tensor feature map with shape [batch_size, y_channel, height, width].
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                      The y_channel can be different with the x_channel of Input(X)
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                      while the other dimensions must be the same with Input(X)'s. A Tensor with
                      type float32, float64.
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    Returns:

        fsp matrix (Variable): The output of FSP op with shape [batch_size, x_channel, y_channel].
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        The x_channel is the channel of x and the y_channel is the channel of y. A Tensor with
        type float32, float64.
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    Examples:

        .. code-block:: python

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            import paddle.fluid as fluid
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            data = fluid.data(name='data', shape=[None, 3, 32, 32])
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            feature_map_0 = fluid.layers.conv2d(data, num_filters=2,
                                                filter_size=3)
            feature_map_1 = fluid.layers.conv2d(feature_map_0, num_filters=2,
                                                filter_size=1)
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            loss = fluid.layers.fsp_matrix(feature_map_0, feature_map_1)

    """
    helper = LayerHelper('fsp_matrix', **locals())
    out = helper.create_variable_for_type_inference(dtype=helper.input_dtype(
        input_param_name='x'))
    helper.append_op(type='fsp', inputs={'X': x, 'Y': y}, outputs={'Out': out})
    return out
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def continuous_value_model(input, cvm, use_cvm=True):
    """
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    **continuous_value_model layers**
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    Now, this OP is used in CTR project to remove or dispose show and click value in :attr:`input`.
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    :attr:`input` is an embedding vector including show and click value, whose shape is :math:`[N, D]` (N is batch size. D is `2 + embedding dim` ).
    Show and click at first two dims of embedding vector D.
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    If :attr:`use_cvm` is True, it will calculate :math:`log(show)` and :math:`log(click)` , and output shape is :math:`[N, D]` .
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    If :attr:`use_cvm` is False, it will remove show and click from :attr:`input` , and output shape is :math:`[N, D - 2]` .
    :attr:`cvm` is show_click info, whose shape is :math:`[N, 2]` .
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    Args:
        input (Variable): The input variable. A 2-D LoDTensor with shape :math:`[N, D]` , where N is the batch size, D is `2 + the embedding dim` . `lod level = 1` .
        A Tensor with type float32, float64.
        cvm (Variable): Show and click variable. A 2-D Tensor with shape :math:`[N, 2]` , where N is the batch size, 2 is show and click.
        A Tensor with type float32, float64.
        use_cvm  (bool):  Use show_click or not. if use, the output dim is the same as input.
                          if not use, the output dim is `input dim - 2` (remove show and click)
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    Returns:
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        Variable: A 2-D LodTensor with shape :math:`[N, M]` . if :attr:`use_cvm` = True, M is equal to input dim D. if False, M is equal to `D - 2`. \
        A Tensor with same type as input.
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    Examples:
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        .. code-block:: python
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          import paddle.fluid as fluid
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          input = fluid.data(name="input", shape=[64, 1], dtype="int64")
          label = fluid.data(name="label", shape=[64, 1], dtype="int64")
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          embed = fluid.layers.embedding(
                            input=input,
                            size=[100, 11],
                            dtype='float32')
          ones = fluid.layers.fill_constant_batch_size_like(input=label, shape=[-1, 1], dtype="int64", value=1)
          show_clk = fluid.layers.cast(fluid.layers.concat([ones, label], axis=1), dtype='float32')
          show_clk.stop_gradient = True
          input_with_cvm = fluid.layers.continuous_value_model(embed, show_clk, True)
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    """
    helper = LayerHelper('cvm', **locals())
    out = helper.create_variable(dtype=input.dtype)
    helper.append_op(
        type='cvm',
        inputs={'X': [input],
                'CVM': [cvm]},
        outputs={'Y': [out]},
        attrs={"use_cvm": use_cvm})
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    return out
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def where(condition):
    """
    Return an int64 tensor with rank 2, specifying the coordinate of true element in `condition`.

    Args:
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        condition(Variable): A bool tensor with rank at least 1, the data type is bool.
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    Returns:
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        Variable, the output data type is int64. : The tensor variable storing a 2-D tensor, which involves all coordinate. 
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    Examples:
        .. code-block:: python

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             import paddle.fluid as fluid
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             import paddle.fluid.layers as layers
             import numpy as np

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             # condition is a tensor [True, False, True]
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             condition = layers.assign(np.array([1, 0, 1], dtype='int32'))
             condition = layers.cast(condition, 'bool')
             out = layers.where(condition) # [[0], [2]]
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             # condition is a tensor [[True, False], [False, True]]
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             condition = layers.assign(np.array([[1, 0], [0, 1]], dtype='int32'))
             condition = layers.cast(condition, 'bool')
             out = layers.where(condition) # [[0, 0], [1, 1]]
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             # condition is a tensor [False, False, False]
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             condition = layers.assign(np.array([0, 0, 0], dtype='int32'))
             condition = layers.cast(condition, 'bool')
             out = layers.where(condition) # [[]]

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    """
    helper = LayerHelper("where", **locals())

    out = helper.create_variable_for_type_inference(
        dtype=core.VarDesc.VarType.INT64)

    helper.append_op(
        type='where', inputs={'Condition': condition}, outputs={'Out': [out]})
    return out
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def sign(x):
    """
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    This OP returns sign of every element in `x`: 1 for positive, -1 for negative and 0 for zero.
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    Args:
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        x(Variable|numpy.ndarray): The input variable could be N-D tensor or N-D numpy array, \
            the input data type is float32 or float64.
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    Returns:
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        Variable, the output data type is the same as input data type. : The output sign tensor with identical shape to input :attr:`x`.
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    Examples:
        .. code-block:: python

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          import paddle.fluid as fluid
          import numpy as np

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          # [1.0, 0.0, -1.0]
          data = fluid.layers.sign(np.array([3.0, 0.0, -2.0], dtype='float32')) 
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    """

    helper = LayerHelper("sign", **locals())
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    check_type(x, 'x', (Variable, np.ndarray), 'sign')
    if isinstance(x, np.ndarray):
        x = assign(x)
    check_dtype(x.dtype, 'x', ['float16', 'float32', 'float64'], 'sign')
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    out = helper.create_variable_for_type_inference(dtype=x.dtype)

    helper.append_op(type='sign', inputs={'X': [x]}, outputs={'Out': [out]})

    return out
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def unique(x, dtype='int32'):
    """
    **unique** 

    Return a unique tensor for `x` and an index tensor pointing to this unique tensor.

    Args:
        x(Variable): A 1-D input tensor.
        dtype(np.dtype|core.VarDesc.VarType|str): The type of index tensor: int32, int64.

    Returns:
        tuple: (out, index). `out` is the unique tensor for `x`, with identical dtype to `x`, and \
            `index` is an index tensor pointing to `out`, by which user can recover the original `x` tensor.

    Examples:
        .. code-block:: python

             import numpy as np
             import paddle.fluid as fluid
             x = fluid.assign(np.array([2, 3, 3, 1, 5, 3], dtype='int32'))
             out, index = fluid.layers.unique(x) # out is [2, 3, 1, 5]; index is [0, 1, 1, 2, 3, 1]
    """

    helper = LayerHelper("unique", **locals())

    out = helper.create_variable_for_type_inference(dtype=x.dtype)

    index = helper.create_variable_for_type_inference(dtype)

    helper.append_op(
        type='unique',
        inputs={'X': x},
        attrs={'dtype': convert_np_dtype_to_dtype_(dtype)},
        outputs={'Out': [out],
                 'Index': [index]})

    return out, index


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def unique_with_counts(x, dtype='int32'):
    """
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    This OP return a unique tensor for `x` , and count tensor that the count of unique result in raw input, \
13052
    and an index tensor pointing to this unique tensor. 
13053

13054
    **NOTICE**: This op support the variable type of Tensor only.
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    Args:
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        x(Variable): A 1-D input tensor with input shape of :math:`[N]` , the input data type is float32, float64, int32, int64.
        dtype(np.dtype|core.VarDesc.VarType|str): The type of count and index tensor, it could be int32, int64. Defalut value is int32.
13059

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    Returns: 
        tuple, the variable type in tuple is Tensor, the output :attr:`out` data type is the same as input :attr:`x`, \
        and data type of output :attr:`index` and :attr:`count` will be int32 or int64.: The :attr:`out` is unique tensor for input :attr:`x`,\
        the data shape is :math:`[K]`, the `K` may be different to the `N` in shape of :attr:`x`. :attr:`index` is an index tensor pointing\
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        to :attr:`out`, the data shape is :math:`[N]` , the data shape is the same as input :attr:`x`. :attr:`count` is count of unique element in\
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        the :attr:`x`, the data shape is :math:`[K]`, the data shape is the same as output :attr:`out`.
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    Examples:
        .. code-block:: python

             import numpy as np
             import paddle.fluid as fluid
             x = fluid.layers.assign(np.array([2, 3, 3, 1, 5, 3], dtype='int32'))
             out, index, count = fluid.layers.unique_with_counts(x) # out is [2, 3, 1, 5]; index is [0, 1, 1, 2, 3, 1]
                                                        # count is [1, 3, 1, 1]
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            # x.shape=(6,) out.shape=(4,), index.shape=(6,), count.shape=(4,)
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    """
    if not (dtype == 'int32' or dtype == 'int64'):
        raise TypeError(
            "Op unique_with_counts, index dtype must be int32 or int64")

    if x is None or len(x.shape) != 1:
        raise ValueError(
            "Op unique_with_counts, x must not be null and size of dim must be 1"
        )

    helper = LayerHelper("unique_with_counts", **locals())

    out = helper.create_variable_for_type_inference(dtype=x.dtype)

    index = helper.create_variable_for_type_inference(dtype)

    count = helper.create_variable_for_type_inference(dtype)

    helper.append_op(
        type='unique_with_counts',
        inputs={'X': x},
        attrs={'dtype': convert_np_dtype_to_dtype_(dtype)},
        outputs={'Out': [out],
                 'Index': [index],
                 'Count': [count]})

    return out, index, count


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def deformable_conv(input,
                    offset,
                    mask,
                    num_filters,
                    filter_size,
                    stride=1,
                    padding=0,
                    dilation=1,
                    groups=None,
                    deformable_groups=None,
                    im2col_step=None,
                    param_attr=None,
                    bias_attr=None,
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                    modulated=True,
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                    name=None):
    """
13121
    **Deformable Convolution op**
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    Compute 2-D deformable convolution on 4-D input.
    Given input image x, output feature map y, the deformable convolution operation can be expressed as follow:
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    Deformable Convolution v2: 
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    .. math::

        y(p) = \sum_{k=1}^{K}{w_k * x(p + p_k + \Delta p_k) * \Delta m_k}
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    Deformable Convolution v1:
13134
    
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    .. math::

        y(p) = \sum_{k=1}^{K}{w_k * x(p + p_k + \Delta p_k)}
    
    Where :math:`\Delta p_k` and :math:`\Delta m_k` are the learnable offset and modulation scalar for the k-th location, 
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    Which :math:`\Delta m_k` is one in deformable convolution v1. Please refer to `Deformable ConvNets v2: More Deformable, Better Results
13141
    <https://arxiv.org/abs/1811.11168v2>`_ and `Deformable Convolutional Networks <https://arxiv.org/abs/1703.06211>`_.
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    Example:
        - Input:

          Input shape: :math:`(N, C_{in}, H_{in}, W_{in})`

          Filter shape: :math:`(C_{out}, C_{in}, H_f, W_f)`

          Offset shape: :math:`(N, 2 * deformable\_groups * H_f * H_w, H_{in}, W_{in})`

          Mask shape: :math:`(N, deformable\_groups * H_f * H_w, H_{in}, W_{in})`

        - Output:

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

        Where

        .. math::

            H_{out}&= \\frac{(H_{in} + 2 * paddings[0] - (dilations[0] * (H_f - 1) + 1))}{strides[0]} + 1 \\\\
            W_{out}&= \\frac{(W_{in} + 2 * paddings[1] - (dilations[1] * (W_f - 1) + 1))}{strides[1]} + 1

    Args:
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        input (Variable): The input image with [N, C, H, W] format. A Tensor with type
            float32, float64.
13168
        offset (Variable): The input coordinate offset of deformable convolution layer.
13169
            A Tensor with type float32, float64.
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        Mask (Variable, Optional): The input mask of deformable convolution layer.
            A Tensor with type float32, float64. It should be None when you use
            deformable convolution v1.
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        num_filters(int): The number of filter. It is as same as the output
            image channel.
13175
        filter_size (int|tuple): The filter size. If filter_size is a tuple,
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            it must contain two integers, (filter_size_H, filter_size_W).
            Otherwise, the filter will be a square.
        stride (int|tuple): The stride size. If stride is a tuple, it must
            contain two integers, (stride_H, stride_W). Otherwise, the
            stride_H = stride_W = stride. Default: stride = 1.
        padding (int|tuple): The padding size. If padding is a tuple, it must
            contain two integers, (padding_H, padding_W). Otherwise, the
            padding_H = padding_W = padding. Default: padding = 0.
        dilation (int|tuple): The dilation size. If dilation is a tuple, it must
            contain two integers, (dilation_H, dilation_W). Otherwise, the
            dilation_H = dilation_W = dilation. Default: dilation = 1.
        groups (int): The groups number of the deformable conv layer. According to
            grouped convolution in Alex Krizhevsky's Deep CNN paper: when group=2,
            the first half of the filters is only connected to the first half
            of the input channels, while the second half of the filters is only
            connected to the second half of the input channels. Default: groups=1.
        deformable_groups (int): The number of deformable group partitions.
            Default: deformable_groups = 1.
        im2col_step (int): Maximum number of images per im2col computation; 
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            The total batch size should be devisable by this value or smaller
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            than this value; if you face out of memory problem, you can try
            to use a smaller value here.
            Default: im2col_step = 64.
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        param_attr (ParamAttr, Optional): The parameter attribute for learnable parameters/weights
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            of deformable conv. If it is set to None or one attribute of ParamAttr,
            deformable conv will create ParamAttr as param_attr.
            If the Initializer of the param_attr is not set, the parameter is
            initialized with :math:`Normal(0.0, std)`, and the 
            :math:`std` is :math:`(\\frac{2.0 }{filter\_elem\_num})^{0.5}`. Default: None.
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        bias_attr (ParamAttr|bool, Optional): The parameter attribute for the bias of
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            deformable conv layer. If it is set to False, no bias will be added
            to the output units. If it is set to None or one attribute of ParamAttr, conv2d
            will create ParamAttr as bias_attr. If the Initializer of the bias_attr
            is not set, the bias is initialized zero. Default: None.
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        modulated (bool): Make sure which version should be used between v1 and v2, where v2 is \
            used while True. Default: True.
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        name(str, Optional): For details, please refer to :ref:`api_guide_Name`.
                        Generally, no setting is required. Default: None.
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    Returns:
        Variable: The tensor variable storing the deformable convolution \
13216
                  result. A Tensor with type float32, float64.
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    Raises:
        ValueError: If the shapes of input, filter_size, stride, padding and
                    groups mismatch.
    Examples:
        .. code-block:: python

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          #deformable conv v2:
         
13225
          import paddle.fluid as fluid
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          C_in, H_in, W_in = 3, 32, 32
          filter_size, deformable_groups = 3, 1
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          data = fluid.data(name='data', shape=[None, C_in, H_in, W_in], dtype='float32')
          offset = fluid.data(name='offset', shape=[None, 2*deformable_groups*filter_size**2, H_in, W_in], dtype='float32')
          mask = fluid.data(name='mask', shape=[None, deformable_groups*filter_size**2, H_in, W_in], dtype='float32')
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          out = fluid.layers.deformable_conv(input=data, offset=offset, mask=mask,
13232
                                             num_filters=2, filter_size=filter_size, padding=1, modulated=True)
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          #deformable conv v1:

          import paddle.fluid as fluid
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          C_in, H_in, W_in = 3, 32, 32
          filter_size, deformable_groups = 3, 1
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          data = fluid.data(name='data', shape=[None, C_in, H_in, W_in], dtype='float32')
          offset = fluid.data(name='offset', shape=[None, 2*deformable_groups*filter_size**2, H_in, W_in], dtype='float32')
13241
          out = fluid.layers.deformable_conv(input=data, offset=offset, mask=None,
13242
                                             num_filters=2, filter_size=filter_size, padding=1, modulated=False)
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    """

    num_channels = input.shape[1]
    assert param_attr is not False, "param_attr should not be False here."

    helper = LayerHelper('deformable_conv', **locals())
    dtype = helper.input_dtype()

    if not isinstance(input, Variable):
        raise TypeError("Input of deformable_conv must be Variable")
    if not isinstance(offset, Variable):
        raise TypeError("Input Offset of deformable_conv must be Variable")

    if groups is None:
        num_filter_channels = num_channels
    else:
        if num_channels % groups != 0:
            raise ValueError("num_channels must be divisible by groups.")
        num_filter_channels = num_channels // groups

    filter_size = utils.convert_to_list(filter_size, 2, 'filter_size')
    stride = utils.convert_to_list(stride, 2, 'stride')
    padding = utils.convert_to_list(padding, 2, 'padding')
    dilation = utils.convert_to_list(dilation, 2, 'dilation')

    input_shape = input.shape
    filter_shape = [num_filters, int(num_filter_channels)] + filter_size

    def _get_default_param_initializer():
        filter_elem_num = filter_size[0] * filter_size[1] * num_channels
        std = (2.0 / filter_elem_num)**0.5
        return Normal(0.0, std, 0)

    filter_param = helper.create_parameter(
        attr=helper.param_attr,
        shape=filter_shape,
        dtype=dtype,
        default_initializer=_get_default_param_initializer())

    pre_bias = helper.create_variable_for_type_inference(dtype)

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    if modulated:
        helper.append_op(
            type='deformable_conv',
            inputs={
                'Input': input,
                'Filter': filter_param,
                'Offset': offset,
                'Mask': mask,
            },
            outputs={"Output": pre_bias},
            attrs={
                'strides': stride,
                'paddings': padding,
                'dilations': dilation,
                'groups': groups,
                'deformable_groups': deformable_groups,
                'im2col_step': im2col_step,
            })

    else:
        helper.append_op(
            type='deformable_conv_v1',
            inputs={
                'Input': input,
                'Filter': filter_param,
                'Offset': offset,
            },
            outputs={"Output": pre_bias},
            attrs={
                'strides': stride,
                'paddings': padding,
                'dilations': dilation,
                'groups': groups,
                'deformable_groups': deformable_groups,
                'im2col_step': im2col_step,
            })
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    output = helper.append_bias_op(pre_bias, dim_start=1, dim_end=2)
    return output
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def unfold(x, kernel_sizes, strides=1, paddings=0, dilations=1, name=None):
    """

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    This op returns a col buffer of sliding local blocks of input x, also known
13329
    as im2col for batched 2D image tensors. For each block under the convolution filter,
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    all element will be rearranged as a column. While the convolution filter sliding over
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    the input feature map, a series of such columns will be formed.

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    For each input :math:`x` with shape [N, C, H, W], the output shape [N, Cout, Lout]
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    can be calculated as following.

    .. math::

        dkernel[0] &= dilations[0] \\times (kernel\_sizes[0] - 1) + 1

        dkernel[1] &= dilations[1] \\times (kernel\_sizes[1] - 1) + 1

        hout &= \\frac{H + paddings[0] + paddings[2] - dkernel[0]}{strides[0]} + 1

        wout &= \\frac{W + paddings[1] + paddings[3] - dkernel[1]}{strides[1]} + 1

        Cout &= C \\times kernel\_sizes[0] \\times kernel\_sizes[1]

        Lout &= hout \\times wout


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    Parameters:
        x(Varaible):              4-D Tensor, input tensor of format [N, C, H, W], 
                                  data type can be float32 or float64
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        kernel_sizes(int|list):   The size of convolution kernel, should be [k_h, k_w]
                                  or an integer k treated as [k, k].
        strides(int|list):        The strides, should be [stride_h, stride_w]
                                  or an integer stride treated as [sride, stride].
                                  For default, strides will be [1, 1].
        paddings(int|list):       The paddings of each dimension, should be
                                  [padding_top, padding_left, padding_bottom, padding_right]
                                  or [padding_h, padding_w] or an integer padding.
                                  If [padding_h, padding_w] was given, it will expanded to
                                  [padding_h, padding_w, padding_h, padding_w]. If an integer
                                  padding was given, [padding, padding, padding, padding] will
                                  be used. For default, paddings will be [0, 0, 0, 0]
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        dilations(int|list):      the dilations of convolution kernel, should be
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                                  [dilation_h, dilation_w], or an integer dilation treated as
13368
                                  [dilation, dilation]. For default, it will be [1, 1].
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        name(str, optional): The default value is None.  
                             Normally there is no need for user to set this property.  
                             For more information, please refer to :ref:`api_guide_Name`
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    Returns:
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        The tensor variable corresponding to the sliding local blocks. 
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        The output shape is [N, Cout, Lout] as decriabled above. 
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        Cout is the  total number of values within each block, 
        and Lout is the total number of such blocks. 
        The data type of output is the same as the input :math:`x`

    Return Type:
        Variable
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    Examples:

        .. code-block:: python

            import paddle.fluid as fluid
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            x = fluid.data(name = 'data', shape = [100, 3, 224, 224], dtype = 'float32')
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            y = fluid.layers.unfold(x, [3, 3], 1, 1, 1)
    """

    helper = LayerHelper("unfold", **locals())

    assert len(x.shape) == 4, \
            "input should be the format of [N, C, H, W]"

    if isinstance(kernel_sizes, int):
        kernel_sizes = [kernel_sizes, kernel_sizes]
    else:
        assert isinstance(kernel_sizes, list) and (len(kernel_sizes) == 2), \
            "kernel_sizes should either be an integer or a list of two integers"

    if isinstance(strides, int):
        strides = [strides, strides]
    else:
        assert isinstance(strides, list) and (len(strides) == 2), \
            "strides should either be an integer or a list of two integers"

    if isinstance(dilations, int):
        dilations = [dilations, dilations]
    else:
        assert isinstance(dilations, list) and (len(dilations) == 2), \
            "dilations should either be an integer or a list of two integers"

    if isinstance(paddings, int):
        paddings = [paddings] * 4
    elif isinstance(paddings, list):
        if len(paddings) == 2:
            paddings = paddings * 2
        elif len(paddings) == 4:
            pass
        else:
            raise ValueError(
                "paddings should either be an integer or a list of 2 or 4 integers"
            )
    else:
        raise ValueError(
            "Unexpected type of paddings, it should be either an integer or a list"
            "of 2 or 4 integers")

    out = helper.create_variable_for_type_inference(dtype=x.dtype)
    helper.append_op(
        type="unfold",
        inputs={"X": x},
        outputs={"Y": out},
        attrs={
            "kernel_sizes": kernel_sizes,
            "strides": strides,
            "paddings": paddings,
            "dilations": dilations
        })
    return out
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def deformable_roi_pooling(input,
                           rois,
                           trans,
                           no_trans=False,
                           spatial_scale=1.0,
                           group_size=[1, 1],
                           pooled_height=1,
                           pooled_width=1,
                           part_size=None,
                           sample_per_part=1,
                           trans_std=0.1,
                           position_sensitive=False,
                           name=None):
    """
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    Deformable ROI Pooling Layer
  
    Performs deformable region-of-interest pooling on inputs. As described
    in `Deformable Convolutional Networks <https://arxiv.org/abs/1703.06211>`_, it will get offset for each bin after 
    roi pooling so that pooling at correct region. Batch_size will change to the number of region bounding boxes after deformable_roi_pooling.
  
    The operation has three steps:
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    1. Dividing each region proposal into equal-sized sections with the pooled_width and pooled_height.
  
    2. Add offset to pixel in ROI to get new location and the new value which are computed directly through
       bilinear interpolation with four nearest pixel.
     
    3. Sample several points in each bin to get average values as output.
  
  
    Args:
        input (Variable):The input of deformable roi pooling and it is tensor which value type is float32. The shape of input is
                         [N, C, H, W]. Where N is batch size, C is number of input channels,
                         H is height of the feature, and W is the width of the feature.
        rois (Variable): ROIs (Regions of Interest) with type float32 to pool over. It should be
                         a 2-D LoDTensor of shape (num_rois, 4), and the lod level
                         is 1. Given as [[x1, y1, x2, y2], ...], (x1, y1) is
                         the top left coordinates, and (x2, y2) is the bottom
                         right coordinates, which value type is float32.
        trans (Variable): Offset of features on ROIs while pooling which value type is float32. The format is [N, C, H, W], where 
                          N is number of ROIs, C is number of channels, which indicate the offset distance 
                          in the x and y directions, H is pooled height, and W is pooled width. 
        no_trans (bool): Whether to add offset to get new value or not while roi pooling, which value with type bool is True or False.
                         If value is True, no offset will be added in operation. Default: False.
        spatial_scale (float): Ratio of input feature map height (or width) to raw image height (or width), which value type is float32.
                         Equals the reciprocal of total stride in convolutional layers, Default: 1.0.
        group_size (list|tuple): The number of groups which input channels are divided and the input is list or tuple, which value type is int32. (eg.number of input channels 
                          is k1 * k2 * (C + 1), which k1 and k2 are group width and height and C+1 is number of output
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                          channels.) eg.(4, 6), which 4 is height of group and 6 is width of group. Default: [1, 1].
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        pooled_height (int): The pooled output height which value type is int32. Default: 1.
        pooled_width (int): The pooled output width which value type is int32. Default: 1.
        part_size (list|tuple): The height and width of offset which values in list or tuple is int32, eg.(4, 6), which height is 4 and width is 6, and values always equal to pooled_height \
                         and pooled_width. Default: if None, default value is [pooled_height, pooled_width].
        sample_per_part (int): The number of samples in each bin which value type is int32. If value is bigger, it will consume more performance. Default: 1.
        trans_std (float): Coefficient of offset which value type is float32. It controls weight of offset. Default: 0.1.
        position_sensitive (bool): Whether to choose deformable psroi pooling mode or not, and value type is bool(True or False). If value is False, input dimension equals to output dimension. \
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                                   If value is True, input dimension should be output dimension * pooled_height * pooled_width. Default: False.
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        name (str|None): Name of layer. Default: None.
    Returns:
        Variable: Output of deformable roi pooling is that, if position sensitive is False, input dimension equals to output dimension. If position sensitive is True,\
                  input dimension should be the result of output dimension divided by pooled height and pooled width.
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    Examples:
      .. code-block:: python

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        # position_sensitive=True
        import paddle.fluid as fluid
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        input = fluid.data(name="input",
                           shape=[2, 192, 64, 64], 
                           dtype='float32')                   
        rois = fluid.data(name="rois",
                          shape=[-1, 4],
                          dtype='float32', 
                          lod_level=1)
        trans = fluid.data(name="trans",
                           shape=[2, 384, 64, 64], 
                           dtype='float32') 
        x = fluid.layers.deformable_roi_pooling(input=input, 
                                                rois=rois, 
                                                trans=trans, 
                                                no_trans=False,
                                                spatial_scale=1.0, 
                                                group_size=(1, 1),
                                                pooled_height=8,
                                                pooled_width=8,
                                                part_size=(8, 8),
                                                sample_per_part=4, 
                                                trans_std=0.1,
                                                position_sensitive=True)
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        # position_sensitive=False
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        import paddle.fluid as fluid
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        input = fluid.data(name="input",
                           shape=[2, 192, 64, 64], 
                           dtype='float32')                   
        rois = fluid.data(name="rois",
                          shape=[-1, 4],
                          dtype='float32', 
                          lod_level=1)
        trans = fluid.data(name="trans",
                           shape=[2, 384, 64, 64], 
                           dtype='float32') 
        x = fluid.layers.deformable_roi_pooling(input=input, 
                                                rois=rois, 
                                                trans=trans, 
                                                no_trans=False,
                                                spatial_scale=1.0, 
                                                group_size=(1, 1),
                                                pooled_height=8,
                                                pooled_width=8,
                                                part_size=(8, 8),
                                                sample_per_part=4, 
                                                trans_std=0.1,
                                                position_sensitive=False)
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    """

    input_channels = input.shape[1]
    if position_sensitive == False:
        output_channels = input_channels
    else:
        output_channels = input_channels / pooled_height / pooled_width

    if part_size is None:
        part_height = pooled_height
        part_width = pooled_width
        part_size = [part_height, part_width]
    part_size = utils.convert_to_list(part_size, 2, 'part_size')
    group_size = utils.convert_to_list(group_size, 2, 'group_size')
    helper = LayerHelper('deformable_psroi_pooling', **locals())
    dtype = helper.input_dtype()
    output = helper.create_variable_for_type_inference(dtype)
    top_count = helper.create_variable_for_type_inference(dtype='int32')
    helper.append_op(
        type="deformable_psroi_pooling",
        inputs={"Input": input,
                "ROIs": rois,
                "Trans": trans},
        outputs={"Output": output,
                 "TopCount": top_count},
        attrs={
            "no_trans": no_trans,
            "spatial_scale": spatial_scale,
            "output_dim": output_channels,
            "group_size": group_size,
            "pooled_height": pooled_height,
            "pooled_width": pooled_width,
            "part_size": part_size,
            "sample_per_part": sample_per_part,
            "trans_std": trans_std
        })
    return output
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def shard_index(input, index_num, nshards, shard_id, ignore_value=-1):
    """
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    This operator recomputes the `input` indices according to the offset of the
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    shard. The length of the indices is evenly divided into N shards, and if
    the `shard_id` matches the shard with the input index inside, the index is
    recomputed on the basis of the shard offset, elsewise it is set to
    `ignore_value`. The detail is as follows:
    :: 
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        shard_size = (index_num + nshards - 1) // nshards
        y = x % shard_size if x // shard_size == shard_id else ignore_value
13610

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    NOTE: If the length of indices cannot be evely divided by the shard number,
    the size of the last shard will be less than the calculated `shard_size`
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    Examples:
13615
    ::
13616
    
13617
        Input:
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          X.shape = [4, 1]
          X.data = [[1], [6], [12], [19]]
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          index_num = 20
          nshards = 2
          ignore_value = -1
13623
        
13624
        if shard_id == 0, we get:
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          Out.shape = [4, 1]
          Out.data = [[1], [6], [-1], [-1]]
        
13628
        if shard_id == 1, we get:
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          Out.shape = [4, 1]
          Out.data = [[-1], [-1], [2], [9]]
    
    Args:
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        - **input** (Variable): Input indices, last dimension must be 1.
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        - **index_num** (scalar): An integer defining the range of the index.
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        - **nshards** (scalar): The number of shards
        - **shard_id** (scalar): The index of the current shard
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        - **ignore_value** (scalar): An integer value out of sharded index range
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    Returns:
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        Variable: The sharded index of input.
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    Examples:
        .. code-block:: python

            import paddle.fluid as fluid
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            batch_size = 32
            label = fluid.data(name="label", shape=[batch_size, 1], dtype="int64")
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            shard_label = fluid.layers.shard_index(input=label,
                                                   index_num=20,
                                                   nshards=2,
                                                   shard_id=0)
    """
    op_type = 'shard_index'
    helper = LayerHelper(op_type, **locals())
    if shard_id < 0 or shard_id >= nshards:
        raise ValueError('The shard_id(%d) should be in [0, %d)' %
                         (shard_id, nshards))

    out = helper.create_variable_for_type_inference(dtype=input.dtype)
    helper.append_op(
        type=op_type,
        inputs={'X': [input]},
        outputs={'Out': out},
        attrs={
            'index_num': index_num,
            'nshards': nshards,
            'shard_id': shard_id,
            'ignore_value': ignore_value
        },
        stop_gradient=True)
    return out
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@templatedoc()
def hard_swish(x, threshold=6.0, scale=6.0, offset=3.0, name=None):
    """
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    This operator implements the hard_swish activation function.
    Hard_swish is proposed in MobileNetV3, and performs better in computational stability and efficiency compared to swish function.
    For more details please refer to: https://arxiv.org/pdf/1905.02244.pdf
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    The formula is as follows:
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13683
    .. math::
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        out = \\frac{x * (min(max(0, x+offset), threshold))}{scale}
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    In the above equation:

    ``threshold`` and ``scale`` should be positive, ``offset`` can be positive or negative. It is recommended to use default parameters.

    Args:
        x (Variable): Input feature, multi-dimensional Tensor. The data type should be float32 or float64.
        threshold (float, optional): The threshold in Relu function. Default: 6.0
        scale (float, optional): The scale factor. Default: 6.0
        offset (float, optional): The offset factor. Default: 3.0
        name (str, optional): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name` 
        
    Returns:
        Variable: The output tensor with the same shape and data type as input.
    
    
    Examples:
    
    .. code-block:: python
    
        import paddle.fluid as fluid
        import numpy as np
    
        DATATYPE='float32'
    
        x_data = np.array([i for i in range(1,5)]).reshape([1,1,4]).astype(DATATYPE)
    
        x = fluid.data(name="x", shape=[None,1,4], dtype=DATATYPE)
        y = fluid.layers.hard_swish(x)
    
        place = fluid.CPUPlace()
        #place = fluid.CUDAPlace(0)
        exe = fluid.Executor(place)
        out, = exe.run(feed={'x':x_data}, fetch_list=[y.name])
        print(out)  # [[0.66666667, 1.66666667,3., 4.]]
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    """
    helper = LayerHelper('hard_swish', **locals())
    out = helper.create_variable_for_type_inference(dtype=x.dtype)
    helper.append_op(
        type='hard_swish',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'threshold': threshold,
               'scale': scale,
               'offset': offset})
    return out
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def gather_tree(ids, parents):
    """
    To be used after beam search. After beam search, we get selected ids at
    each time step and the corresponding parents in the search tree. Both ids
    and parents have the layout :attr:`[max_time, batch_size, beam_size]`. Then
    :attr:`gather_tree` is used to backtrace from the last time step and
    generate the full sequences by collecting selected ids.

    Here is an example:

    .. code-block:: text

            Given:
                ids = [[[2 2]
                        [6 1]]
                       [[3 9]
                        [6 1]]
                       [[0 1]
                        [9 0]]]
                parents = [[[0 0]
                            [1 1]]
                           [[1 0]
                            [1 0]]
                           [[0 0]
                            [0 1]]]

            Then:                
                gather_tree(ids, parents)  
                         = [[[2 2]
                             [1 6]]
                            [[3 3]
                             [6 1]]
                            [[0 1]
                             [9 0]]]

    Args:
        ids(Variable): A Tensor with shape :attr:`[length, batch_size, beam_size]`
            and data type :attr:`int32` or :attr:`int64`. It contains the selected
            ids of all time steps.
        parents(Variable): A Tensor with the same shape and data type as :attr:`ids`,
            It contains the parents corresponding to selected ids when searching
            among beams.

    Returns:
        Variable: A Tensor with the same shape and data type as :attr:`ids`. \
            It contains the full sequences. The sequences are collected from \
            :attr:`ids` by backtracing according to :attr:`parents`.

    Examples:
        .. code-block:: python

            import paddle.fluid as fluid

            ids = fluid.layers.data(name='ids',
                                    shape=[5, 2, 2],
                                    dtype='int64',
                                    append_batch_size=False)
            parents = fluid.layers.data(name='parents',
                                        shape=[5, 2, 2],
                                        dtype='int64',
                                        append_batch_size=False)
            final_sequences = fluid.layers.gather_tree(ids, parents)
    """
    helper = LayerHelper('gather_tree', **locals())
    out = helper.create_variable_for_type_inference(dtype=ids.dtype)

    helper.append_op(
        type="gather_tree",
        inputs={"Ids": ids,
                "Parents": parents},
        outputs={"Out": out})

    return out


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@templatedoc()
def uniform_random(shape, dtype='float32', min=-1.0, max=1.0, seed=0):
    """
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    This OP initializes a variable with random values sampled from a
    uniform distribution in the range [min, max).
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    Examples:
    ::
    
        Input:
          shape = [1, 2]
        
        Output:
          result=[[0.8505902, 0.8397286]]

    Args:
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        shape (list|tuple|Variable): The shape of the output Tensor,  if the shape is a list or tuple, 
                                     its elements can be an integer
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                                     or a Tensor with the shape [1], and the type of the Tensor must be int32 or int64. 
                                     If the shape is a Variable, it is a 1-D Tensor, and the type of the Tensor must be int32 or int64.
13829
        dtype(np.dtype|core.VarDesc.VarType|str, optional): The type of the output Tensor. Supported data types: float32, float64.
13830
                                                  Default: float32.
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        min (float, optional): The lower bound on the range of random values to generate, the min is included in the range. Default -1.0.
        max (float, optional): The upper bound on the range of random values to generate, the max is excluded in the range. Default 1.0.
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        seed (int, optional): Random seed used for generating samples. 0 means use a
            seed generated by the system. Note that if seed is not 0, this
            operator will always generate the same random numbers every time.
            Default 0.

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    Returns: 
        Variable: A Tensor of the specified shape filled with uniform_random values.
13840

13841
    Raises:
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        TypeError: The shape type should be list or tuple or variable.
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    Examples:
        .. code-block:: python

            import paddle.fluid as fluid

            # example 1:
            # attr shape is a list which doesn't contain tensor Variable.
            result_1 = fluid.layers.uniform_random(shape=[3, 4])

            # example 2:
            # attr shape is a list which contains tensor Variable.
            dim_1 = fluid.layers.fill_constant([1],"int64",3)
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            dim_2 = fluid.layers.fill_constant([1],"int32",5)
            result_2 = fluid.layers.uniform_random(shape=[dim_1, dim_2])
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            # example 3:
13860
            # attr shape is a Variable, the data type must be int64 or int32.
13861
            var_shape = fluid.data(name='var_shape', shape=[2], dtype="int64")
13862
            result_3 = fluid.layers.uniform_random(var_shape)
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            var_shape_int32 = fluid.data(name='var_shape_int32', shape=[2], dtype="int32")
            result_4 = fluid.layers.uniform_random(var_shape_int32)
             

13867 13868

    """
13869
    check_type(shape, 'shape', (list, tuple, Variable), 'uniform_random')
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    if not isinstance(dtype, core.VarDesc.VarType):
        dtype = convert_np_dtype_to_dtype_(dtype)
13872
    check_dtype(dtype, 'dtype', ['float32', 'float64'], 'uniform_random')
13873

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    def get_new_shape_tensor(list_shape):
        new_shape_tensor = []
        for dim in list_shape:
            if isinstance(dim, Variable):
                dim.stop_gradient = True
                new_shape_tensor.append(dim)
            else:
                assert (isinstance(dim, int))
                temp_out = helper.create_variable_for_type_inference('int64')
                fill_constant([1], 'int64', dim, force_cpu=True, out=temp_out)
                new_shape_tensor.append(temp_out)
        return new_shape_tensor

    def get_attr_shape(list_shape):
        unk_dim_idx = -1
        attrs_shape = []
        for dim_idx, dim_size in enumerate(list_shape):
            if isinstance(dim_size, Variable):
                attrs_shape.append(-1)
            else:
                attrs_shape.append(dim_size)
                assert dim_size > 0, (
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                    "Each dimension size given in shape must not be negative "
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                    "except one unknown dimension.")
        return attrs_shape

    helper = LayerHelper("uniform_random", **locals())
    inputs = dict()
13902
    attrs = {'seed': seed, 'min': min, 'max': max}
13903
    if in_dygraph_mode():
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        attrs['shape'] = shape
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    else:
        if isinstance(shape, Variable):
            shape.stop_gradient = True
            inputs["ShapeTensor"] = shape
        elif isinstance(shape, (list, tuple)):
            assert len(shape) > 0, (
                "The size of argument(shape) can't be zero.")
            attrs["shape"] = get_attr_shape(shape)
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            if utils._contain_var(shape):
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                inputs['ShapeTensorList'] = get_new_shape_tensor(shape)

    out = helper.create_variable_for_type_inference(dtype)
    helper.append_op(
        type="uniform_random", inputs=inputs, attrs=attrs,
        outputs={"Out": out})

    return helper.append_activation(out)