layers.py 50.2 KB
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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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import collections
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import contextlib
import sys
import numpy as np
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import six
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import re
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import copy
import weakref
import warnings
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from copy import deepcopy
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from . import parallel_helper
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from .. import unique_name
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from paddle.fluid import core
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from .layer_object_helper import LayerObjectHelper
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from .base import program_desc_tracing_guard, param_guard
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from paddle.fluid import framework
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from ..param_attr import ParamAttr
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from paddle.fluid.executor import Executor, global_scope
from paddle.fluid.framework import in_dygraph_mode
from paddle.fluid.framework import _current_expected_place as _get_device
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import paddle.utils.deprecated as deprecated
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__all__ = ['Layer']
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_first_cap_re = re.compile('(.)([A-Z][a-z]+)')
_all_cap_re = re.compile('([a-z])([A-Z])')


def _convert_camel_to_snake(name):
    s1 = _first_cap_re.sub(r'\1_\2', name)
    return _all_cap_re.sub(r'\1_\2', s1).lower()

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def _addindent(string, indent):
    s1 = string.split('\n')
    if len(s1) == 1:
        return string
    s2 = []
    for idx, line in enumerate(s1):
        if idx > 0:
            s2.append(str((indent * ' ') + line))
    return s1[0] + '\n' + '\n'.join(s2)


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class HookRemoveHelper(object):
    """ A HookRemoveHelper that can be used to remove hook. """

    next_hook_id = 0

    def __init__(self, hooks):
        self._hooks_ref = weakref.ref(hooks)
        self._hook_id = HookRemoveHelper.next_hook_id
        HookRemoveHelper.next_hook_id += 1

    def remove(self):
        hooks = self._hooks_ref()
        if hooks is not None and self._hook_id in hooks:
            del hooks[self._hook_id]


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class Layer(core.Layer):
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    """
    Dynamic graph Layer based on OOD, includes the parameters of the layer, the structure of the forward graph and so on.
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    Parameters:
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        name_scope (str, optional): prefix name used by the layer to name parameters.
            If prefix is "my_layer", parameter name in MyLayer
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            can be "my_layer_0.w_n", where "w" is the parameter
            base name and "n" is an unique suffix auto-generated.
            If None, prefix name will be snake cased class name. Default: None.
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        dtype(str, optional): data type of this parameter.
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                If set str, it can be "bool",  "float16", "float32", "float64",
                "int8", "int16", "int32", "int64", "uint8" or "uint16".
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                Default: "float32"
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    Returns:
        None
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    """
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    def __init__(self, name_scope=None, dtype="float32"):
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        self.training = True
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        if name_scope is None:
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            name_scope = _convert_camel_to_snake(self.__class__.__name__)
        self._full_name = unique_name.generate(name_scope)
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        self._helper = LayerObjectHelper(self._full_name)
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        self._built = False
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        self._dtype = dtype
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        self._init_in_dynamic_mode = framework.in_dygraph_mode()
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        self._parameters = collections.OrderedDict()
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        # Buffers the variable (not parameter) created in layer
        self._buffers = collections.OrderedDict()
        self._non_persistable_buffer_names_set = set()
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        self._sub_layers = collections.OrderedDict()
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        self._loaddict_holder = collections.OrderedDict()
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        self._forward_pre_hooks = collections.OrderedDict()
        self._forward_post_hooks = collections.OrderedDict()

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    def train(self):
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        """
        Sets this Layer and all its sublayers to training mode.
        This only effects certain modules like `Dropout` and `BatchNorm`.

        Returns:
            None
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        Example::
            .. code-block:: python

                import paddle

                class MyLayer(paddle.nn.Layer):
                    def __init__(self):
                        super(MyLayer, self).__init__()
                        self._linear = paddle.nn.Linear(1, 1)
                        self._dropout = paddle.nn.Dropout(p=0.5)

                    def forward(self, input):
                        temp = self._linear(input)
                        temp = self._dropout(temp)
                        return temp

                x = paddle.randn([10, 1], 'float32')
                mylayer = MyLayer()
                mylayer.eval()  # set mylayer._dropout to eval mode
                out = mylayer(x)
                mylayer.train()  # set mylayer._dropout to train mode
                out = mylayer(x)

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        """
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        # global setting in dygraph
        # NOTE(chenweihang): nn.Layer also can be used in static mode,
        # but _dygraph_tracer() can not be called in static mode
        if in_dygraph_mode():
            framework._dygraph_tracer().train_mode()
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        # Layer-level setting
        self.training = True
        for layer in self.sublayers():
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            layer.training = True
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    def eval(self):
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        """
        Sets this Layer and all its sublayers to evaluation mode.
        This only effects certain modules like `Dropout` and `BatchNorm`.

        Returns:
            None
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        Example::
            .. code-block:: python

                import paddle

                class MyLayer(paddle.nn.Layer):
                    def __init__(self):
                        super(MyLayer, self).__init__()
                        self._linear = paddle.nn.Linear(1, 1)
                        self._dropout = paddle.nn.Dropout(p=0.5)

                    def forward(self, input):
                        temp = self._linear(input)
                        temp = self._dropout(temp)
                        return temp

                x = paddle.randn([10, 1], 'float32')
                mylayer = MyLayer()
                mylayer.eval()  # set mylayer._dropout to eval mode
                out = mylayer(x)
                print(out)

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        """
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        # global setting in dygraph
        # NOTE(chenweihang): nn.Layer also can be used in static mode,
        # but _dygraph_tracer() can not be called in static mode
        if in_dygraph_mode():
            framework._dygraph_tracer().eval_mode()
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        # Layer-level setting
        self.training = False
        for layer in self.sublayers():
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            layer.training = False
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    def apply(self, fn):
        """
        Applies ``fn`` recursively to every sublayer (as returned by ``.sublayers()``)
        as well as self. Typical use includes initializing the parameters of a model.

        Parameters:
            fn (function): a function to be applied to each sublayer

        Returns:
            Layer: self

        Example::
            .. code-block:: python

              import paddle
              import paddle.nn as nn
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              net = nn.Sequential(nn.Linear(2, 2), nn.Linear(2, 2))

              def init_weights(layer):
                  if type(layer) == nn.Linear:
                      print('before init weight:', layer.weight.numpy())
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                      new_weight = paddle.full(shape=layer.weight.shape, dtype=layer.weight.dtype, fill_value=0.9)
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                      layer.weight.set_value(new_weight)
                      print('after init weight:', layer.weight.numpy())

              net.apply(init_weights)

              print(net.state_dict())
        """
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        for layer in self.children():
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            layer.apply(fn)

        fn(self)

        return self

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    def full_name(self):
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        """Full name for this layer, composed by name_scope + "/" + MyLayer.__class__.__name__
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        Returns:
            str: full name of this layer.
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        Example::
            .. code-block:: python

                import paddle

                class LinearNet(paddle.nn.Layer):
                    def __init__(self):
                        super(LinearNet, self).__init__(name_scope = "demo_linear_net")
                        self._linear = paddle.nn.Linear(1, 1)

                    def forward(self, x):
                        return self._linear(x)

                linear_net = LinearNet()
                print(linear_net.full_name())   # demo_linear_net_0

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        """
        return self._full_name

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    def register_forward_post_hook(self, hook):
        """Register a forward post-hook for Layer. The hook will be called after `forward` function has been computed.

        It should have the following form, `input` and `output` of the `hook` is `input` and `output` of the `Layer` respectively.
        User can use forward post-hook to change the output of the Layer or perform information statistics tasks on the Layer.
 
        hook(Layer, input, output) -> None or modified output

        Parameters:
            hook(function): a function registered as a forward post-hook

        Returns:
            HookRemoveHelper: a HookRemoveHelper object that can be used to remove the added hook by calling `hook_remove_helper.remove()` .

        Examples:
            .. code-block:: python

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                import paddle
                import numpy as np

                # the forward_post_hook change the output of the layer: output = output * 2
                def forward_post_hook(layer, input, output):
                    # user can use layer, input and output for information statistis tasks
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                    # change the output
                    return output * 2
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                linear = paddle.nn.Linear(13, 5)
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                # register the hook
                forward_post_hook_handle = linear.register_forward_post_hook(forward_post_hook)
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                value1 = np.arange(26).reshape(2, 13).astype("float32")
                in1 = paddle.to_tensor(value1)
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                out0 = linear(in1)
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                # remove the hook
                forward_post_hook_handle.remove()

                out1 = linear(in1)

                # hook change the linear's output to output * 2, so out0 is equal to out1 * 2.
                assert (out0.numpy() == (out1.numpy()) * 2).any()
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        """
        hook_remove_helper = HookRemoveHelper(self._forward_post_hooks)
        self._forward_post_hooks[hook_remove_helper._hook_id] = hook
        return hook_remove_helper

    def register_forward_pre_hook(self, hook):
        """Register a forward pre-hook for Layer. The hook will be called before `forward` function has been computed.
        
        It should have the following form, `input` of the `hook` is `input` of the `Layer`,
        hook can either return a tuple or a single modified value in the hook. We will wrap the value into a tuple if 
        a single value is returned(unless that value is already a tuple).
        User can use forward pre-hook to change the input of the Layer or perform information statistics tasks on the Layer.

        hook(Layer, input) -> None or modified input

        Parameters:
            hook(function): a function registered as a forward pre-hook

        Returns:
            HookRemoveHelper: a HookRemoveHelper object that can be used to remove the added hook by calling `hook_remove_helper.remove()` .

        Examples:
            .. code-block:: python

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                import paddle
                import numpy as np
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                # the forward_post_hook change the input of the layer: input = input * 2
                def forward_pre_hook(layer, input):
                    # user can use layer and input for information statistis tasks
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                    # change the input
                    input_return = (input[0] * 2)
                    return input_return
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                linear = paddle.nn.Linear(13, 5)
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                # register the hook
                forward_pre_hook_handle = linear.register_forward_pre_hook(forward_pre_hook)
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                value0 = np.arange(26).reshape(2, 13).astype("float32")
                in0 = paddle.to_tensor(value0)
                out0 = linear(in0)
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                # remove the hook
                forward_pre_hook_handle.remove()
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                value1 = value0 * 2
                in1 = paddle.to_tensor(value1)
                out1 = linear(in1)
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                # hook change the linear's input to input * 2, so out0 is equal to out1.
                assert (out0.numpy() == out1.numpy()).any()
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        """
        hook_remove_helper = HookRemoveHelper(self._forward_pre_hooks)
        self._forward_pre_hooks[hook_remove_helper._hook_id] = hook
        return hook_remove_helper

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    def create_parameter(self,
                         shape,
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                         attr=None,
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                         dtype=None,
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                         is_bias=False,
                         default_initializer=None):
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        """Create parameters for this layer.
        
        Parameters:
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            shape(list): Shape of the parameter.
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            attr(ParamAttr, optional): Parameter attribute of weight. Please refer to :ref:`api_paddle_ParamAttr`. Default: None.
            dtype(str, optional): Data type of this parameter.
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                If set str, it can be "bool",  "float16", "float32", "float64",
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                "int8", "int16", "int32", "int64", "uint8" or "uint16". Default: "float32".
            is_bias(bool, optional): if this is a bias parameter. Default: False.
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            default_initializer(Initializer, optional): the default initializer for this parameter.
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                If set None, default initializer will be set to paddle.nn.initializer.Xavier and paddle.nn.initializer.Constant
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                for non-bias and bias parameter, respectively. Default: None.
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        Returns:
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            :Tensor, created parameter.

        Examples:
            .. code-block:: python

                import paddle

                class MyLayer(paddle.nn.Layer):
                    def __init__(self):
                        super(MyLayer, self).__init__()
                        self._linear = paddle.nn.Linear(1, 1)
                        w_tmp = self.create_parameter([1,1])
                        self.add_parameter("w_tmp", w_tmp)

                    def forward(self, input):
                        return self._linear(input)

                mylayer = MyLayer()
                for name, param in mylayer.named_parameters():
                    print(name, param)      # will print w_tmp,_linear.weight,_linear.bias

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        """
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        temp_attr = copy.deepcopy(attr)
        if isinstance(temp_attr, six.string_types) and temp_attr == "":
            temp_attr = None
        return self._helper.create_parameter(temp_attr, shape, dtype, is_bias,
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                                             default_initializer)

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    @deprecated(
        since="2.0.0",
        update_to="paddle.nn.Layer.create_tensor",
        reason="New api in create_tensor, easier to use.")
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    def create_variable(self, name=None, persistable=None, dtype=None):
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        """

        Create Tensor for this layer.
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        Parameters:
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            name(str, optional): name of the tensor. Please refer to :ref:`api_guide_Name` . Default: None

            persistable(bool, optional): if set this tensor persistable. Default: False

            dtype(str, optional): data type of this parameter. If set str, it can be "bool", "float16", "float32", "float64","int8", "int16", "int32", "int64", "uint8" or "uint16". If set None, it will be "float32". Default: None

        Returns:
            Tensor, created Tensor.

        Examples:
            .. code-block:: python

                import paddle

                class MyLinear(paddle.nn.Layer):
                    def __init__(self,
                                in_features,
                                out_features):
                        super(MyLinear, self).__init__()
                        self.linear = paddle.nn.Linear( 10, 10)
                            
                        self.back_var = self.create_variable(name = "linear_tmp_0", dtype=self._dtype)
                    
                    def forward(self, input):
                        out = self.linear(input)
                        paddle.assign( out, self.back_var)
                        
                        return out

        """
        if name is not None:
            var_name = ".".join([self._full_name, name])
        else:
            var_name = unique_name.generate(".".join(
                [self._full_name, "_generated_var"]))

        return self._helper.main_program.current_block().create_var(
            name=var_name,
            persistable=persistable,
            dtype=dtype,
            type=core.VarDesc.VarType.LOD_TENSOR)

    # TODO: Add more parameter list when we need them
    def create_tensor(self, name=None, persistable=None, dtype=None):
        """

        Create Tensor for this layer.

        Parameters:
            name(str, optional): name of the tensor. Please refer to :ref:`api_guide_Name` . Default: None
            persistable(bool, optional): if set this tensor persistable. Default: False
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            dtype(str, optional): data type of this parameter.
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                If set str, it can be "bool",  "float16", "float32", "float64",
                "int8", "int16", "int32", "int64", "uint8" or "uint16".
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                If set None, it will be "float32". Default: None
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        Returns:
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            Tensor, created Tensor.
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        Examples:
            .. code-block:: python

                import paddle

                class MyLinear(paddle.nn.Layer):
                    def __init__(self,
                                in_features,
                                out_features):
                        super(MyLinear, self).__init__()
                        self.linear = paddle.nn.Linear( 10, 10)
                            
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                        self.back_var = self.create_tensor(name = "linear_tmp_0", dtype=self._dtype)
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                    def forward(self, input):
                        out = self.linear(input)
                        paddle.assign( out, self.back_var)
                        
                        return out

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        """
        if name is not None:
            var_name = ".".join([self._full_name, name])
        else:
            var_name = unique_name.generate(".".join(
                [self._full_name, "_generated_var"]))

        return self._helper.main_program.current_block().create_var(
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            name=var_name,
            persistable=persistable,
            dtype=dtype,
            type=core.VarDesc.VarType.LOD_TENSOR)
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    def parameters(self, include_sublayers=True):
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        """Returns a list of all Parameters from current layer and its sub-layers.
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        Parameters:
            include_sublayers(bool, optional): Whether include the parameters of sublayers. If True, also include the parameters from sublayers. Default: True
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        Returns:
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            list of Tensor : a list of Parameters.

        Examples:
            .. code-block:: python

            import paddle

            linear = paddle.nn.Linear(1,1)
            print(linear.parameters())  # print linear_0.w_0 and linear_0.b_0

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        """
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        ret = [
            param
            for _, param in self.named_parameters(
                include_sublayers=include_sublayers)
        ]
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        return ret
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    def children(self):
        """Returns an iterator over immediate children layers.

        Yields:
            Layer: a child layer

        Examples:
            .. code-block:: python

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                import paddle
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                linear1 = paddle.nn.Linear(10, 3)
                linear2 = paddle.nn.Linear(3, 10, bias_attr=False)
                model = paddle.nn.Sequential(linear1, linear2)

                layer_list = list(model.children())
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                print(layer_list)   # [<paddle.nn.layer.common.Linear object at 0x7f7b8113f830>, <paddle.nn.layer.common.Linear object at 0x7f7b8113f950>]
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        """
        for _, layer in self.named_children():
            yield layer

    def named_children(self):
        """Returns an iterator over immediate children layers, yielding both
        the name of the layer as well as the layer itself.

        Yields:
            (string, Layer): Tuple containing a name and child layer

        Examples:
            .. code-block:: python

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                import paddle
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                linear1 = paddle.nn.Linear(10, 3)
                linear2 = paddle.nn.Linear(3, 10, bias_attr=False)
                model = paddle.nn.Sequential(linear1, linear2)
                for prefix, layer in model.named_children():
                    print(prefix, layer)
                    # ('0', <paddle.nn.layer.common.Linear object at 0x7fb61ed85830>)
                    # ('1', <paddle.nn.layer.common.Linear object at 0x7fb61ed85950>)
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        """
        memo = set()
        for name, layer in self._sub_layers.items():
            if layer is not None and layer not in memo:
                memo.add(layer)
                yield name, layer

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    def sublayers(self, include_sublayers=True):
        """Returns a list of sub layers.

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        Parameters:
            include_sublayers(bool, optional): Whether return the sublayers of sublayers. If True, also include the sublayers of sublayers. Default: True
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        Returns:
            list of Layer : a list of sub layers.
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        Examples:
            .. code-block:: python

                import paddle

                class MyLayer(paddle.nn.Layer):
                    def __init__(self):
                        super(MyLayer, self).__init__()
                        self._linear = paddle.nn.Linear(1, 1)
                        self._dropout = paddle.nn.Dropout(p=0.5)

                    def forward(self, input):
                        temp = self._linear(input)
                        temp = self._dropout(temp)
                        return temp

                mylayer = MyLayer()
                print(mylayer.sublayers())  # [<paddle.nn.layer.common.Linear object at 0x7f44b58977d0>, <paddle.nn.layer.common.Dropout object at 0x7f44b58978f0>]

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        """
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        ret = [
            layer
            for _, layer in self.named_sublayers(
                include_sublayers=include_sublayers)
        ]
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        return ret

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    def named_parameters(self, prefix='', include_sublayers=True):
        """
        Returns an iterator over all parameters in the Layer, yielding tuple of name and parameter.

        Parameters:
            prefix(str, optional): Prefix to prepend to all parameter names. Default: ''.
            include_sublayers(bool, optional): Whether include the parameters of sublayers.
                If True, also include the named parameters from sublayers. Default: True.

        Yields:
            (string, Parameter): Tuple of name and Parameter

        Examples:
            .. code-block:: python

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                import paddle
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                fc1 = paddle.nn.Linear(10, 3)
                fc2 = paddle.nn.Linear(3, 10, bias_attr=False)
                model = paddle.nn.Sequential(fc1, fc2)
                for name, param in model.named_parameters():
                    print(name, param)
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        """
        params_set = set()
        named_sublayers = self.named_sublayers(
            prefix=prefix,
            include_sublayers=include_sublayers,
            include_self=True)
        for layer_prefix, sublayer in named_sublayers:
            params = sublayer._parameters.items()
            for key, param in params:
                if param is None or param in params_set:
                    continue
                params_set.add(param)
                name = layer_prefix + ('.' if layer_prefix else '') + key
                yield name, param

    def named_sublayers(self,
                        prefix='',
                        include_sublayers=True,
                        include_self=False,
                        layers_set=None):
        """
        Returns an iterator over all sublayers in the Layer, yielding tuple of name and sublayer.
        The duplicate sublayer will only be yielded once.

        Parameters:
            prefix(str, optional): Prefix to prepend to all parameter names. Default: ''.
            include_sublayers(bool, optional): Whether include the sublayers. Default: True.
            include_self(bool, optional): Whether include the Layer itself. Default: False.
            layers_set(set, optioanl): The set to record duplicate sublayers. Default: None.

        Yields:
            (string, Layer): Tuple of name and Layer

        Examples:
            .. code-block:: python

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                import paddle
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                fc1 = paddle.nn.Linear(10, 3)
                fc2 = paddle.nn.Linear(3, 10, bias_attr=False)
                model = paddle.nn.Sequential(fc1, fc2)
                for prefix, layer in model.named_sublayers():
                    print(prefix, layer)
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        """
        if layers_set is None:
            layers_set = set()
        if include_self and self not in layers_set:
            layers_set.add(self)
            yield prefix, self
        if include_sublayers:
            for key, layer in self._sub_layers.items():
                if layer is None:
                    continue
                layer_prefix = prefix + ('.' if prefix else '') + key
                for p, l in layer.named_sublayers(
                        prefix=layer_prefix,
                        include_sublayers=include_sublayers,
                        include_self=True,
                        layers_set=layers_set):
                    yield p, l

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    def register_buffer(self, name, tensor, persistable=True):
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        """
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        Registers a tensor as buffer into the layer.
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        `buffer` is a non-trainable tensor and will not be updated by optimizer,
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        but is necessary for evaluation and inference. For example, the mean and variance in BatchNorm layers.
        The registered buffer is persistable by default, and will be saved into
        `state_dict` alongside parameters. If set persistable=False, it registers
        a non-persistable buffer, so that it will not be a part of `state_dict` .

        Buffers can be accessed as attributes using given names.

        Parameters:
            name (string): name of the buffer. The buffer can be accessed
                from this layer using the given name
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            tensor (Tensor): the tensor to be registered as buffer.
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            persistable (bool): whether the buffer is part of this layer's
                state_dict.

        Returns:
            None
        
        Examples:
            .. code-block:: python

                import numpy as np
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                import paddle
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                linear = paddle.nn.Linear(10, 3)
                value = np.array([0]).astype("float32")
                buffer = paddle.to_tensor(value)
                linear.register_buffer("buf_name", buffer, persistable=True)

                # get the buffer by attribute.
                print(linear.buf_name)
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        """

        if '_buffers' not in self.__dict__:
            raise ValueError(
                "super(YourLayer, self).__init__() should be called first")
        elif not isinstance(name, six.string_types):
            raise TypeError(
                "The name of buffer should be a string, but received {}.".
                format(type(name).__name__))
        elif '.' in name:
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            raise KeyError(
                "The name of buffer can not contain `.`, "
                "because when you access the newly added buffer in the "
                "form of `self.**.**`, it will cause AttributeError.")
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        elif name == '':
            raise KeyError("The name of buffer can not be empty.")
        elif hasattr(self, name) and name not in self._buffers:
            raise KeyError("attribute '{}' already exists.".format(name))
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        elif tensor is not None and not type(tensor) == core.VarBase:
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            raise TypeError(
                "The registered buffer should be a core.VarBase, but received {}.".
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                format(type(tensor).__name__))
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        else:
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            self._buffers[name] = tensor
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            if persistable:
                self._non_persistable_buffer_names_set.discard(name)
            else:
                self._non_persistable_buffer_names_set.add(name)

    def buffers(self, include_sublayers=True):
        """
        Returns a list of all buffers from current layer and its sub-layers.

        Parameters:
            include_sublayers(bool, optional): Whether include the buffers of sublayers. If True, also include the buffers from sublayers. Default: True

        Returns:
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            list of Tensor : a list of buffers.

        Examples:
            .. code-block:: python

                import numpy as np
                import paddle

                linear = paddle.nn.Linear(10, 3)
                value = np.array([0]).astype("float32")
                buffer = paddle.to_tensor(value)
                linear.register_buffer("buf_name", buffer, persistable=True)

                print(linear.buffers())     # == print([linear.buf_name])

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        """
        ret = [
            buffer
            for _, buffer in self.named_buffers(
                include_sublayers=include_sublayers)
        ]
        return ret

    def named_buffers(self, prefix='', include_sublayers=True):
        """
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        Returns an iterator over all buffers in the Layer, yielding tuple of name and Tensor.
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        Parameters:
            prefix(str, optional): Prefix to prepend to all buffer names. Default: ''.
            include_sublayers(bool, optional): Whether include the buffers of sublayers.
                If True, also include the named buffers from sublayers. Default: True.

        Yields:
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            (string, Tensor): Tuple of name and tensor
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        Examples:
            .. code-block:: python

                import numpy as np
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                import paddle
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                fc1 = paddle.nn.Linear(10, 3)
                buffer1 = paddle.to_tensor(np.array([0]).astype("float32"))
                # register a tensor as buffer by specific `persistable`
                fc1.register_buffer("buf_name_1", buffer1, persistable=True)
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                fc2 = paddle.nn.Linear(3, 10)
                buffer2 = paddle.to_tensor(np.array([1]).astype("float32"))
                # register a buffer by assigning an attribute with Tensor.
                # The `persistable` can only be False by this way.
                fc2.buf_name_2 = buffer2
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                model = paddle.nn.Sequential(fc1, fc2)
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                # get all named buffers
                for name, buffer in model.named_buffers():
                    print(name, buffer)
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        """
        buffers_set = set()
        named_sublayers = self.named_sublayers(
            prefix=prefix,
            include_sublayers=include_sublayers,
            include_self=True)
        for layer_prefix, sublayer in named_sublayers:
            buffers = sublayer._buffers.items()
            for key, buffer in buffers:
                if buffer is None or buffer in buffers_set:
                    continue
                buffers_set.add(buffer)
                name = layer_prefix + ('.' if layer_prefix else '') + key
                yield name, buffer

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    def clear_gradients(self):
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        """
        Clear the gradients of all parameters for this layer.
        
        Returns:
            None
        
        Examples:
            .. code-block:: python

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                import paddle
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                import numpy as np

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                value = np.arange(26).reshape(2, 13).astype("float32")
                a = paddle.to_tensor(value)
                linear = paddle.nn.Linear(13, 5)
                adam = paddle.optimizer.Adam(learning_rate=0.01,
                                            parameters=linear.parameters())
                out = linear(a)
                out.backward()
                adam.step()
                linear.clear_gradients()
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        """
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        for p in self.parameters():
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            if p.trainable:
                p.clear_gradient()
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    def _build_once(self, *args, **kwargs):
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        pass

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    def __call__(self, *inputs, **kwargs):
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        with param_guard(self._parameters), param_guard(self._buffers):
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            for forward_pre_hook in self._forward_pre_hooks.values():
                hook_result = forward_pre_hook(self, inputs)
                if hook_result is not None:
                    if not isinstance(hook_result, tuple):
                        hook_result = (hook_result, )
                    inputs = hook_result

            if not self._built:
                with program_desc_tracing_guard(False):
                    self._build_once(*inputs, **kwargs)
                    if parallel_helper._is_data_parallel_mode():
                        parallel_helper._broadcast_parameters(
                            self._parameters.values())
                self._built = True

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            outputs = self.forward(*inputs, **kwargs)
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            for forward_post_hook in self._forward_post_hooks.values():
                hook_result = forward_post_hook(self, inputs, outputs)
                if hook_result is not None:
                    outputs = hook_result
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            return outputs
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    def forward(self, *inputs, **kwargs):
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        """
        Defines the computation performed at every call.
        Should be overridden by all subclasses.

        Parameters:
            *inputs(tuple): unpacked tuple arguments
            **kwargs(dict): unpacked dict arguments
        """
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        raise NotImplementedError
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    def backward(self, *inputs):
        raise ValueError("Layer shouldn't implement backward")

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    def add_sublayer(self, name, sublayer):
        """Adds a sub Layer instance.

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        Added sublayer can be accessed by self.name
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        Parameters:
            name(str): name of this sublayer.
            sublayer(Layer): an instance of Layer.
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        Returns:
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            Layer: the sublayer passed in.
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        Examples:
            .. code-block:: python

                import paddle

                class MySequential(paddle.nn.Layer):
                    def __init__(self, *layers):
                        super(MySequential, self).__init__()
                        if len(layers) > 0 and isinstance(layers[0], tuple):
                            for name, layer in layers:
                                self.add_sublayer(name, layer)
                        else:
                            for idx, layer in enumerate(layers):
                                self.add_sublayer(str(idx), layer)

                    def forward(self, input):
                        for layer in self._sub_layers.values():
                            input = layer(input)
                        return input

                fc1 = paddle.nn.Linear(10, 3)
                fc2 = paddle.nn.Linear(3, 10, bias_attr=False)
                model = MySequential(fc1, fc2)
                for prefix, layer in model.named_sublayers():
                    print(prefix, layer)
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        """
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        assert (isinstance(sublayer, core.Layer) or sublayer == None)
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        self._sub_layers[name] = sublayer
        return sublayer

    def add_parameter(self, name, parameter):
        """Adds a Parameter instance.

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        Added parameter can be accessed by self.name
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        Parameters:
            name(str): name of this sublayer.
            parameter(Parameter): an instance of Parameter.
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        Returns:
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            Parameter: the parameter passed in.
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        Examples:
            .. code-block:: python

                import paddle

                class MyLayer(paddle.nn.Layer):
                    def __init__(self):
                        super(MyLayer, self).__init__()
                        self._linear = paddle.nn.Linear(1, 1)
                        w_tmp = self.create_parameter([1,1])
                        self.add_parameter("w_tmp", w_tmp)

                    def forward(self, input):
                        return self._linear(input)

                mylayer = MyLayer()
                for name, param in mylayer.named_parameters():
                    print(name, param)      # will print w_tmp,_linear.weight,_linear.bias

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        """
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        if '_parameters' not in self.__dict__:
            raise RuntimeError(
                "super(YourLayer, self).__init__() should be called firstly.")
        elif not isinstance(name, six.string_types):
            raise TypeError(
                "The name of parameter should be a string, but received {}.".
                format(type(name).__name__))
        elif '.' in name:
            raise KeyError(
                "The name of parameter can not contain `.`, "
                "because when you access the newly added parameter in the "
                "form of `self.**.**`, it will cause AttributeError.")
        elif name == '':
            raise KeyError("The name of parameter can not be empty.")
        elif hasattr(self, name) and name not in self._parameters:
            raise KeyError("The parameter '{}' already exists.".format(name))
        elif parameter is not None and not isinstance(parameter,
                                                      framework.Parameter):
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            raise TypeError(
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                "The parameter to be added should be a Parameter, but received {}.".
                format(type(parameter).__name__))
        else:
            if parameter is None:
                self._parameters[name] = None
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            if len(self._loaddict_holder) > 0:
                assert parameter.name in self._loaddict_holder, "Parameter not found, Can't not find [ {} ] in state_dict".format(
                    parameter.name)
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                parameter.set_value(self._loaddict_holder[parameter.name])
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            self._parameters[name] = parameter
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        return parameter

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    def __getstate__(self):
        return self.__dict__

    def __setstate__(self, state):
        self.__dict__.update(state)

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    def __getattr__(self, name):
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        if '_parameters' in self.__dict__:
            _parameters = self.__dict__['_parameters']
            if name in self._parameters:
                return self._parameters[name]
        if '_sub_layers' in self.__dict__:
            _sub_layers = self.__dict__['_sub_layers']
            if name in self._sub_layers:
                return self._sub_layers[name]
        if '_buffers' in self.__dict__:
            _buffers = self.__dict__['_buffers']
            if name in _buffers:
                return _buffers[name]
        return object.__getattribute__(self, name)
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    def __setattr__(self, name, value):
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        def _remove_if_exist(*dicts):
            for d in dicts:
                if name in d:
                    del d[name]

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        if isinstance(getattr(type(self), name, None), property):
            object.__setattr__(self, name, value)
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        params = self.__dict__.get('_parameters', None)
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        if isinstance(value, framework.Parameter):
            if params is None:
                raise ValueError(
                    "super(YourLayer, self).__init__() should be called first")
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            if len(self._loaddict_holder) > 0:
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                assert value.name in self._loaddict_holder, "Parameter not found, Can't not find [ {} ] in state_dict".format(
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                    value.name)

                value.set_value(self._loaddict_holder[value.name])

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            _remove_if_exist(self.__dict__, self._buffers, self._sub_layers)
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            params[name] = value
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        elif params is not None and name in params:
            if value is not None:
                raise TypeError(
                    "assignment to parameter '{}' should be of type Parameter or None, but got '{}'"
                    .format(name, type(value).__name__))
            params[name] = None
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        else:
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            layers = self.__dict__.get('_sub_layers', None)
            if isinstance(value, core.Layer):
                if layers is None:
                    raise ValueError(
                        "super(YourLayer, self).__init__() should be called first"
                    )

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                _remove_if_exist(self.__dict__, self._parameters, self._buffers)
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                layers[name] = value
            elif layers is not None and name in layers:
                if value is not None:
                    raise TypeError(
                        "assignment to sublayer '{}' should be of type Layer or None, but got '{}'"
                        .format(name, type(value).__name__))
                layers[name] = None
            else:
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                _buffers = self.__dict__.get('_buffers', None)
                if type(value) == core.VarBase:
                    if _buffers is None:
                        raise ValueError(
                            "super(YourLayer, self).__init__() should be called first"
                        )
                    _remove_if_exist(self.__dict__, self._parameters,
                                     self._sub_layers)
                    # Set persistable=False by default. Only `register_buffer` can
                    # add a persistable buffer.
                    if name not in self._buffers:
                        self._non_persistable_buffer_names_set.add(name)
                    _buffers[name] = value
                elif _buffers is not None and name in _buffers:
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                    # Note(Aurelius84): In Dy2stat, the value of the Buffer may be modified in 
                    # decorated function, such as `self.buffer = new_tensor`. So we update its
                    # value via `assign`.
                    if type(value) == framework.Variable:
                        from paddle import assign
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                        # Note(zhhsplendid): the condition below happens in PaddleGan model,
                        # but should all non-Variable _buffers[name] be re-assign? We
                        # should consider it in the future. I current wrote this as
                        # conservative code.
                        if _buffers[name] is None or type(_buffers[
                                name]) == core.VarBase:
                            _buffers[name] = assign(value)
                        else:
                            assign(value, _buffers[name])
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                    elif value is not None:
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                        raise TypeError(
                            "assignment to buffers '{}' should be of type core.VarBase or None, but got '{}'"
                            .format(name, type(value).__name__))
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                    else:
                        # Assigning None will remove the buffer, but if re-assign a new varBase to it,
                        # it will be remarked as a buffer with same `persistable` attribute.
                        _buffers[name] = None
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                else:
                    object.__setattr__(self, name, value)
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    def __delattr__(self, name):
        if name in self._parameters:
            del self._parameters[name]
        elif name in self._sub_layers:
            del self._sub_layers[name]
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        elif name in self._buffers:
            del self._buffers[name]
            self._non_persistable_buffer_names_set.discard(name)
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        else:
            object.__delattr__(self, name)

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    def __dir__(self):
        """
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        Return a list. Get all parameters, buffers(non-parameter tensors), sublayers, method and attr of Layer.
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        Examples:
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            .. code-block:: python
                import paddle
                import numpy as np
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                class Mylayer(paddle.nn.Layer):
                    def __init__(self):
                        super(Mylayer, self).__init__()
                        self.linear1 = paddle.nn.Linear(10, 10)
                        self.linear2 = paddle.nn.Linear(5, 5)
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                        self.conv2d = paddle.nn.Conv2D(3, 2, 3)
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                        self.embedding = paddle.nn.Embedding(128, 16)
                        self.h_0 = paddle.to_tensor(np.zeros([10, 10]).astype('float32'))
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                mylayer = Mylayer()
                print(dir(mylayer))
                # only parts are shown, because of list have too much content
                # ['__call__', '__class__',  ... , 'conv2d', 'embedding', 'h_0', 'linear1', 'linear2', ... , 'sublayers', 'train']
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        """
        method = dir(self.__class__)
        attrs = list(self.__dict__.keys())
        parameters = list(self._parameters.keys())
        sublayers = list(self._sub_layers.keys())
        buffers = list(self._buffers.keys())

        keys = method + attrs + parameters + sublayers + buffers

        return keys

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    def extra_repr(self):
        """
        Extra representation of this layer, you can have custom implementation
        of your own layer.
        """
        return ''

    def __repr__(self):
        extra_lines = []
        extra_repr = self.extra_repr()
        extra_lines = extra_repr.split('\n')
        sublayer_lines = []
        for name, layer in self._sub_layers.items():
            sublayer_str = repr(layer)
            sublayer_str = _addindent(sublayer_str, 2)
            sublayer_lines.append('(' + name + '): ' + sublayer_str)

        final_str = self.__class__.__name__ + '('
        if extra_lines:
            if len(extra_lines) > 1:
                final_str += '\n  ' + '\n  '.join(extra_lines) + '\n'
            elif len(extra_lines) == 1:
                final_str += extra_lines[0]
        if sublayer_lines:
            final_str += '\n  ' + '\n  '.join(sublayer_lines) + '\n'

        final_str += ')'
        return final_str

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    def state_dict(self,
                   destination=None,
                   include_sublayers=True,
                   structured_name_prefix=""):
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        '''
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        Get all parameters and persistable buffers of current layer and its sub-layers. And set them into a dict
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        Parameters:
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            destination(dict, optional) : If provide, all the parameters and persistable buffers will be set to this dict . Default: None
            include_sublayers(bool, optional) : If true, also include the parameters and persistable buffers from sublayers. Default: True
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        Retruns:
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            dict: a dict contains all the parameters and persistable buffers.
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        Examples:
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            .. code-block:: python

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                import paddle
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                emb = paddle.nn.Embedding(10, 10)

                state_dict = emb.state_dict()
                paddle.save( state_dict, "paddle_dy.pdparams")
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        '''

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        if destination is None:
            destination = collections.OrderedDict()
        for name, data in self._parameters.items():
            if data is not None:
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                destination[structured_name_prefix + name] = data
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        for name, buffer in self._buffers.items():
            if buffer is not None and name not in self._non_persistable_buffer_names_set:
                destination[structured_name_prefix + name] = buffer
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        if include_sublayers:
            for layer_name, layer_item in self._sub_layers.items():
                if layer_item is not None:
                    destination_temp = destination.copy()
                    destination_temp.update(
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                        layer_item.state_dict(
                            destination_temp, include_sublayers,
                            structured_name_prefix + layer_name + "."))
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                    destination = destination_temp
        return destination

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    @framework.deprecate_stat_dict
    def set_state_dict(self,
                       state_dict,
                       include_sublayers=True,
                       use_structured_name=True):
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        '''
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        Set parameters and persistable buffers from state_dict. All the parameters and buffers will be reset by the tensor in the state_dict
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        Parameters:
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            state_dict(dict) : Dict contains all the parameters and persistable buffers.
            include_sublayers(bool, optional) : If true, also include the parameters and peresistable buffers from sublayers. Default: True
            use_structured_name(bool, optional) : If true, use structured name as key, otherwise, use parameter or buffer name as key. 
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                                                  Default: True
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        Returns:
            None

        Examples:
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            .. code-block:: python

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                import paddle
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                emb = paddle.nn.Embedding(10, 10)
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                state_dict = emb.state_dict()
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                paddle.save(state_dict, "paddle_dy.pdparams")
                para_state_dict = paddle.load("paddle_dy.pdparams")
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                emb.set_state_dict(para_state_dict)
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        '''

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        def _check_match(key, param):
            state = state_dict.get(key, None)
            if state is None:
                raise ValueError("{} is not found in the provided dict.".format(
                    key))
            if list(state.shape) != list(param.shape):
                raise ValueError(
                    "{} receives a shape {}, but the expected shape is {}.".
                    format(key, list(state.shape), list(param.shape)))
            return param, state

        matched_param_state = []
        for key, param in self.state_dict().items():
            key_name = key if use_structured_name else param.name
            try:
                match_res = _check_match(key_name, param)
                matched_param_state.append(match_res)
            except ValueError as err:
                warnings.warn(("Skip loading for {}. ".format(key) + str(err)))

        if in_dygraph_mode():
            for param, state in matched_param_state:
                param.set_value(state)
        else:
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            def _set_var(var, ndarray):
                t = global_scope().find_var(var.name).get_tensor()
                p = t._place()
                if p.is_cpu_place():
                    place = core.CPUPlace()
                elif p.is_cuda_pinned_place():
                    place = core.CUDAPinnedPlace()
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                elif p.is_xpu_place():
                    p = core.Place()
                    p.set_place(t._place())
                    place = core.XPUPlace(p.xpu_device_id())
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                else:
                    p = core.Place()
                    p.set_place(t._place())
                    place = core.CUDAPlace(p.gpu_device_id())
                t.set(ndarray, place)

            executor = Executor(_get_device())._default_executor
            # restore parameter states
            core._create_loaded_parameter(
                [param for param, state in matched_param_state],
                global_scope(), executor)
            for param, state in matched_param_state:
                _set_var(param, state)

    # [aliases] Compatible with old method names
    set_dict = set_state_dict
    load_dict = set_state_dict