initializer.py 41.3 KB
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#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
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#
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# 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
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#
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#     http://www.apache.org/licenses/LICENSE-2.0
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#
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# 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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from __future__ import print_function

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import math
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from . import framework
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from . import core
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from .framework import _non_static_mode, default_main_program
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import numpy as np
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from .core import VarDesc
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from . import unique_name
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from .data_feeder import check_variable_and_dtype, check_type, check_dtype
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from paddle import _C_ops
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__all__ = [
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    'Constant', 'Uniform', 'Normal', 'TruncatedNormal', 'Xavier', 'Bilinear',
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    'MSRA', 'ConstantInitializer', 'UniformInitializer', 'NormalInitializer',
    'TruncatedNormalInitializer', 'XavierInitializer', 'BilinearInitializer',
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    'MSRAInitializer', 'NumpyArrayInitializer', 'set_global_initializer'
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]
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_global_weight_initializer_ = None
_global_bias_initializer_ = None

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class Initializer(object):
    """Base class for variable initializers

    Defines the common interface of variable initializers.
    They add operations to the init program that are used
    to initialize variables. Users should not use this class
    directly, but need to use one of its implementations.
    """

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    def __init__(self):
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        pass

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    def __call__(self, param, block=None):
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        """Add corresponding initialization operations to the network
        """
        raise NotImplementedError()

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    def _check_block(self, block):
        if block is None:
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            block = default_main_program().global_block()
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        return block

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    def _compute_fans(self, var):
        """Compute the fan_in and the fan_out for layers

        This method computes the fan_in and the fan_out
        for neural network layers, if not specified. It is
        not possible to perfectly estimate fan_in and fan_out.
        This method will estimate it correctly for matrix multiply and
        convolutions.

        Args:
            var: variable for which fan_in and fan_out have to be computed

        Returns:
            tuple of two integers (fan_in, fan_out)
        """
        shape = var.shape
        if not shape or len(shape) == 0:
            fan_in = fan_out = 1
        elif len(shape) == 1:
            fan_in = fan_out = shape[0]
        elif len(shape) == 2:
            # This is the case for simple matrix multiply
            fan_in = shape[0]
            fan_out = shape[1]
        else:
            # Assume this to be a convolutional kernel
            # In PaddlePaddle, the shape of the kernel is like:
            # [num_filters, num_filter_channels, ...] where the remaining
            # dimensions are the filter_size
            receptive_field_size = np.prod(shape[2:])
            fan_in = shape[1] * receptive_field_size
            fan_out = shape[0] * receptive_field_size

        return (fan_in, fan_out)

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class ConstantInitializer(Initializer):
    """Implements the constant initializer
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    Args:
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        value (float32): constant value to initialize the variable 
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    Examples:
        .. code-block:: python

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            import paddle
            import paddle.fluid as fluid
            paddle.enable_static()
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            x = fluid.data(name="data", shape=[8, 32, 32], dtype="float32")
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            fc = fluid.layers.fc(
                input=x,
                size=10,
                param_attr=fluid.initializer.Constant(value=2.0))
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    """

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    def __init__(self, value=0.0, force_cpu=False):
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        assert value is not None
        super(ConstantInitializer, self).__init__()
        self._value = value
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        self._force_cpu = force_cpu
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    def __call__(self, var, block=None):
        """Initialize the input tensor with constant.
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        Args:
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            var(Tensor): Tensor that needs to be initialized.
            block(Block, optional): The block in which initialization ops
                   should be added. Used in static graph only, default None.
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        Returns:
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            The initialization op
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        """
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        block = self._check_block(block)

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        assert (isinstance(var, framework.Variable) or
                isinstance(var, framework.EagerParamBase))
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        assert isinstance(block, framework.Block)
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        if framework._non_static_mode():
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            _C_ops.fill_constant(var, 'value',
                                 float(self._value), 'force_cpu',
                                 self._force_cpu, 'dtype',
                                 int(var.dtype), 'str_value',
                                 str(float(self._value)), 'shape', var.shape)
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            return None
        else:
            # fill constant should set the "str_value" to preserve precision
            op = block.append_op(
                type="fill_constant",
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                outputs={"Out": var},
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                attrs={
                    "shape": var.shape,
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                    "dtype": int(var.dtype),
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                    "value": float(self._value),
                    'str_value': str(float(self._value)),
                    'force_cpu': self._force_cpu
                },
                stop_gradient=True)
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            var.op = op
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            return op
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class UniformInitializer(Initializer):
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    """Implements the random uniform distribution initializer
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    Args:
        low (float): lower boundary of the uniform distribution
        high (float): upper boundary of the uniform distribution
        seed (int): random seed
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        diag_num (int): the number of diagonal elements to initialize.
            If set to 0, diagonal initialization will be not performed.
        diag_step (int): Step size between two diagonal elements,
            which is generally the width of the square matrix.
        diag_val (float): the value of the diagonal element to be initialized,
            default 1.0. It takes effect only if the diag_num is greater than 0.
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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=[None, 1], dtype='float32')
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            fc = fluid.layers.fc(input=x, size=10,
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    		param_attr=fluid.initializer.Uniform(low=-0.5, high=0.5))
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    """

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    def __init__(self,
                 low=-1.0,
                 high=1.0,
                 seed=0,
                 diag_num=0,
                 diag_step=0,
                 diag_val=1.0):
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        assert low is not None
        assert high is not None
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        assert high >= low
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        assert seed is not None
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        assert diag_num is not None
        assert diag_step is not None
        assert diag_val is not None
        if diag_num > 0 or diag_step > 0:
            assert (diag_num > 0 and diag_step > 0)
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        super(UniformInitializer, self).__init__()
        self._low = low
        self._high = high
        self._seed = seed
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        self._diag_num = diag_num
        self._diag_step = diag_step
        self._diag_val = diag_val
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    def __call__(self, var, block=None):
        """Initialize the input tensor with Uniform distribution.
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        Args:
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            var(Tensor): Tensor that needs to be initialized.
            block(Block, optional): The block in which initialization ops
                   should be added. Used in static graph only, default None.
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        Returns:
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            The initialization op
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        """
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        block = self._check_block(block)

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        assert isinstance(block, framework.Block)
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        check_variable_and_dtype(var, "Out",
                                 ["uint16", "float16", "float32", "float64"],
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                                 "uniform_random")

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        if self._seed == 0:
            self._seed = block.program.random_seed
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        # to be compatible of fp16 initializers
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        if var.dtype == VarDesc.VarType.FP16:
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            out_dtype = VarDesc.VarType.FP32
            out_var = block.create_var(
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                name=unique_name.generate(".".join(
                    ['uniform_random', var.name, 'tmp'])),
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                shape=var.shape,
                dtype=out_dtype,
                type=VarDesc.VarType.LOD_TENSOR,
                persistable=False)
        else:
            out_dtype = var.dtype
            out_var = var

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        if framework._non_static_mode():
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            out_var = _C_ops.uniform_random(
                'shape', var.shape, 'min', self._low, 'max', self._high, 'seed',
                self._seed, 'dtype', out_dtype, 'diag_num', self._diag_num,
                'diag_step', self._diag_step, 'diag_val', self._diag_val)
            if var.dtype == VarDesc.VarType.FP16:
                var_tmp = _C_ops.cast(out_var, 'in_dtype', out_var.dtype,
                                      'out_dtype', var.dtype)
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                var_tmp._share_underline_tensor_to(var)
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            else:
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                out_var._share_underline_tensor_to(var)
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            return None
        else:
            op = block.append_op(
                type="uniform_random",
                inputs={},
                outputs={"Out": out_var},
                attrs={
                    "shape": var.shape,
                    "dtype": out_dtype,
                    "min": self._low,
                    "max": self._high,
                    "seed": self._seed,
                    "diag_num": self._diag_num,
                    "diag_step": self._diag_step,
                    "diag_val": self._diag_val
                },
                stop_gradient=True)

            if var.dtype == VarDesc.VarType.FP16:
                block.append_op(
                    type="cast",
                    inputs={"X": out_var},
                    outputs={"Out": var},
                    attrs={"in_dtype": out_var.dtype,
                           "out_dtype": var.dtype})
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            var.op = op
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            return op
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class NormalInitializer(Initializer):
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    """Implements the Random Normal(Gaussian) distribution initializer

    Args:
        loc (float): mean of the normal distribution
        scale (float): standard deviation of the normal distribution
        seed (int): random seed

    Examples:
        .. 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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            fc = fluid.layers.fc(input=x, size=10,
                param_attr=fluid.initializer.Normal(loc=0.0, scale=2.0))
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    """

    def __init__(self, loc=0.0, scale=1.0, seed=0):
        assert loc is not None
        assert scale is not None
        assert seed is not None
        super(NormalInitializer, self).__init__()
        self._mean = loc
        self._std_dev = scale
        self._seed = seed

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    def __call__(self, var, block=None):
        """Initialize the input tensor with Normal distribution.
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        Args:
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            var(Tensor): Tensor that needs to be initialized.
            block(Block, optional): The block in which initialization ops
                   should be added. Used in static graph only, default None.
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        Returns:
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            The initialization op
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        """
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        block = self._check_block(block)

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        assert isinstance(block, framework.Block)
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        check_variable_and_dtype(var, "Out",
                                 ["uint16", "float16", "float32", "float64"],
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                                 "guassian_random")
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        if self._seed == 0:
            self._seed = block.program.random_seed
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        if framework._non_static_mode():
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            out_var = _C_ops.gaussian_random(
                'shape', var.shape, 'dtype', var.dtype, 'mean', self._mean,
                'std', self._std_dev, 'seed', self._seed, 'use_mkldnn', False)
            out_var._share_underline_tensor_to(var)
            return None
        else:
            op = block.append_op(
                type="gaussian_random",
                outputs={"Out": var},
                attrs={
                    "shape": var.shape,
                    "dtype": var.dtype,
                    "mean": self._mean,
                    "std": self._std_dev,
                    "seed": self._seed,
                    "use_mkldnn": False
                },
                stop_gradient=True)

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            var.op = op
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            return op
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class TruncatedNormalInitializer(Initializer):
    """Implements the Random TruncatedNormal(Gaussian) distribution initializer

    Args:
        loc (float): mean of the normal distribution
        scale (float): standard deviation of the normal distribution
        seed (int): random seed

    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            x = fluid.data(name='x', shape=[None, 1], dtype='float32')
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            fc = fluid.layers.fc(input=x, size=10,
                param_attr=fluid.initializer.TruncatedNormal(loc=0.0, scale=2.0))
    """

    def __init__(self, loc=0.0, scale=1.0, seed=0):
        assert loc is not None
        assert scale is not None
        assert seed is not None
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        super(TruncatedNormalInitializer, self).__init__()
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        self._mean = loc
        self._std_dev = scale
        self._seed = seed

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    def __call__(self, var, block=None):
        """Initialize the input tensor with TruncatedNormal distribution.
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        Args:
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            var(Tensor): Tensor that needs to be initialized.
            block(Block, optional): The block in which initialization ops
                   should be added. Used in static graph only, default None.
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        Returns:
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            The initialization op
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        """
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        block = self._check_block(block)

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        assert isinstance(var, framework.Variable)
        assert isinstance(block, framework.Block)
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        if self._seed == 0:
            self._seed = block.program.random_seed
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        # to be compatible of fp16 initalizers
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        if var.dtype in [VarDesc.VarType.FP16, VarDesc.VarType.BF16]:
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            out_dtype = VarDesc.VarType.FP32
            out_var = block.create_var(
                name=unique_name.generate(".".join(
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                    ['truncated_gaussian_random', var.name, 'tmp'])),
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                shape=var.shape,
                dtype=out_dtype,
                type=VarDesc.VarType.LOD_TENSOR,
                persistable=False)
        else:
            out_dtype = var.dtype
            out_var = var

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        if framework._non_static_mode():
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            out_var = _C_ops.truncated_gaussian_random(
                'shape', var.shape, 'dtype', out_dtype, 'mean', self._mean,
                'std', self._std_dev, 'seed', self._seed)
            if var.dtype in [VarDesc.VarType.FP16, VarDesc.VarType.BF16]:
                var_tmp = _C_ops.cast(out_var, 'in_dtype', out_var.dtype,
                                      'out_dtype', var.dtype)
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                var_tmp._share_underline_tensor_to(var)
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            else:
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                out_var._share_underline_tensor_to(var)
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            return None
        else:
            op = block.append_op(
                type="truncated_gaussian_random",
                outputs={"Out": out_var},
                attrs={
                    "shape": var.shape,
                    "dtype": out_dtype,
                    "mean": self._mean,
                    "std": self._std_dev,
                    "seed": self._seed
                },
                stop_gradient=True)
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            if var.dtype in [VarDesc.VarType.FP16, VarDesc.VarType.BF16]:
                block.append_op(
                    type="cast",
                    inputs={"X": out_var},
                    outputs={"Out": var},
                    attrs={"in_dtype": out_var.dtype,
                           "out_dtype": var.dtype})
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            var.op = op
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            return op
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class XavierInitializer(Initializer):
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    r"""
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    This class implements the Xavier weight initializer from the paper
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    `Understanding the difficulty of training deep feedforward neural
    networks <http://proceedings.mlr.press/v9/glorot10a/glorot10a.pdf>`_
    by Xavier Glorot and Yoshua Bengio.
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    This initializer is designed to keep the scale of the gradients
    approximately same in all the layers. In case of Uniform distribution,
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    the range is [-x, x], where

    .. math::

        x = \sqrt{\\frac{6.0}{fan\_in + fan\_out}}

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    In case of Normal distribution, the mean is 0 and the standard deviation
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    is
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    .. math::
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        \sqrt{\\frac{2.0}{fan\_in + fan\_out}}
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    Args:
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        uniform (bool,default True): whether to use uniform ,if False use normal distribution
        fan_in (float,default None): fan_in for Xavier initialization. If None, it is
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                inferred from the variable.
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        fan_out (float,default None): fan_out for Xavier initialization. If None, it is
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                 inferred from the variable.
        seed (int): random seed

    Note:
        It is recommended to set fan_in and fan_out to None for most cases.

    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            queries = fluid.data(name='x', shape=[None,1], dtype='float32')
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            fc = fluid.layers.fc(
                input=queries, size=10,
                param_attr=fluid.initializer.Xavier(uniform=False))

    """

    def __init__(self, uniform=True, fan_in=None, fan_out=None, seed=0):
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        assert uniform is not None
        assert seed is not None
        super(XavierInitializer, self).__init__()
        self._uniform = uniform
        self._fan_in = fan_in
        self._fan_out = fan_out
        self._seed = seed

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    def __call__(self, var, block=None):
        """Initialize the input tensor with Xavier initialization.
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        Args:
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            var(Tensor): Tensor that needs to be initialized.
            block(Block, optional): The block in which initialization ops
                   should be added. Used in static graph only, default None.
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        Returns:
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            The initialization op
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        """
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        block = self._check_block(block)

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        assert isinstance(block, framework.Block)
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        check_variable_and_dtype(var, "Out",
                                 ["uint16", "float16", "float32", "float64"],
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                                 "xavier_init")

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        f_in, f_out = self._compute_fans(var)

        # If fan_in and fan_out are passed, use them
        fan_in = f_in if self._fan_in is None else self._fan_in
        fan_out = f_out if self._fan_out is None else self._fan_out

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        if self._seed == 0:
            self._seed = block.program.random_seed

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        # to be compatible of fp16 initalizers
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        if var.dtype == VarDesc.VarType.FP16 or (
                var.dtype == VarDesc.VarType.BF16 and not self._uniform):
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            out_dtype = VarDesc.VarType.FP32
            out_var = block.create_var(
                name=unique_name.generate(".".join(
                    ['xavier_init', var.name, 'tmp'])),
                shape=var.shape,
                dtype=out_dtype,
                type=VarDesc.VarType.LOD_TENSOR,
                persistable=False)
        else:
            out_dtype = var.dtype
            out_var = var

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        if framework._non_static_mode():
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            if self._uniform:
                limit = np.sqrt(6.0 / float(fan_in + fan_out))
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                out_var = _C_ops.uniform_random('shape', out_var.shape, 'min',
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                                                -limit, 'max', limit, 'seed',
                                                self._seed, 'dtype', out_dtype)
            else:
                std = np.sqrt(2.0 / float(fan_in + fan_out))
                out_var = _C_ops.gaussian_random(
                    'shape', out_var.shape, 'dtype', out_dtype, 'mean', 0.0,
                    'std', std, 'seed', self._seed)

            if var.dtype == VarDesc.VarType.FP16 or (
                    var.dtype == VarDesc.VarType.BF16 and not self._uniform):
                var_tmp = _C_ops.cast(out_var, 'in_dtype', out_var.dtype,
                                      'out_dtype', var.dtype)
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                var_tmp._share_underline_tensor_to(var)
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            else:
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                out_var._share_underline_tensor_to(var)
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            return None
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        else:
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            if self._uniform:
                limit = np.sqrt(6.0 / float(fan_in + fan_out))
                op = block.append_op(
                    type="uniform_random",
                    inputs={},
                    outputs={"Out": out_var},
                    attrs={
                        "shape": out_var.shape,
                        "dtype": out_dtype,
                        "min": -limit,
                        "max": limit,
                        "seed": self._seed
                    },
                    stop_gradient=True)
            else:
                std = np.sqrt(2.0 / float(fan_in + fan_out))
                op = block.append_op(
                    type="gaussian_random",
                    outputs={"Out": out_var},
                    attrs={
                        "shape": out_var.shape,
                        "dtype": out_dtype,
                        "mean": 0.0,
                        "std": std,
                        "seed": self._seed
                    },
                    stop_gradient=True)

            if var.dtype == VarDesc.VarType.FP16 or (
                    var.dtype == VarDesc.VarType.BF16 and not self._uniform):
                block.append_op(
                    type="cast",
                    inputs={"X": out_var},
                    outputs={"Out": var},
                    attrs={"in_dtype": out_var.dtype,
                           "out_dtype": var.dtype})
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            var.op = op
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            return op
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class MSRAInitializer(Initializer):
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    r"""Implements the MSRA initializer a.k.a. Kaiming Initializer
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    This class implements the weight initialization from the paper
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    `Delving Deep into Rectifiers: Surpassing Human-Level Performance on
    ImageNet Classification <https://arxiv.org/abs/1502.01852>`_
    by Kaiming He, Xiangyu Zhang, Shaoqing Ren and Jian Sun. This is a
    robust initialization method that particularly considers the rectifier
    nonlinearities. In case of Uniform distribution, the range is [-x, x], where

    .. math::

        x = \sqrt{\\frac{6.0}{fan\_in}}

    In case of Normal distribution, the mean is 0 and the standard deviation
    is

    .. math::

        \sqrt{\\frac{2.0}{fan\_in}}

    Args:
        uniform (bool): whether to use uniform or normal distribution
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        fan_in (float32|None): fan_in for MSRAInitializer. If None, it is\
        inferred from the variable. default is None.
        seed (int32): random seed
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    Note:
        It is recommended to set fan_in to None for most cases.

    Examples:
        .. code-block:: python
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            import paddle
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            import paddle.fluid as fluid
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            paddle.enable_static()
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            x = fluid.data(name="data", shape=[8, 32, 32], dtype="float32")
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            fc = fluid.layers.fc(input=x, size=10,
                param_attr=fluid.initializer.MSRA(uniform=False))
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    """

    def __init__(self, uniform=True, fan_in=None, seed=0):
        """Constructor for MSRAInitializer
        """
        assert uniform is not None
        assert seed is not None
        super(MSRAInitializer, self).__init__()
        self._uniform = uniform
        self._fan_in = fan_in
        self._seed = seed

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    def __call__(self, var, block=None):
        """Initialize the input tensor with MSRA initialization.
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        Args:
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            var(Tensor): Tensor that needs to be initialized.
            block(Block, optional): The block in which initialization ops
                   should be added. Used in static graph only, default None.
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        Returns:
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            The initialization op
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        """
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        block = self._check_block(block)

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        assert isinstance(var, framework.Variable)
        assert isinstance(block, framework.Block)
        f_in, f_out = self._compute_fans(var)

        # If fan_in is passed, use it
        fan_in = f_in if self._fan_in is None else self._fan_in

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        if self._seed == 0:
            self._seed = block.program.random_seed

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        # to be compatible of fp16 initalizers
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        if var.dtype == VarDesc.VarType.FP16 or (
                var.dtype == VarDesc.VarType.BF16 and not self._uniform):
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            out_dtype = VarDesc.VarType.FP32
            out_var = block.create_var(
                name=unique_name.generate(".".join(
                    ['masra_init', var.name, 'tmp'])),
                shape=var.shape,
                dtype=out_dtype,
                type=VarDesc.VarType.LOD_TENSOR,
                persistable=False)
        else:
            out_dtype = var.dtype
            out_var = var

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        if framework._non_static_mode():
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            if self._uniform:
                limit = np.sqrt(6.0 / float(fan_in))
                out_var = _C_ops.uniform_random('shape', out_var.shape, 'min',
                                                -limit, 'max', limit, 'seed',
                                                self._seed, 'dtype',
                                                int(out_dtype))
            else:
                std = np.sqrt(2.0 / float(fan_in))
                out_var = _C_ops.gaussian_random(
                    'shape', out_var.shape, 'dtype',
                    int(out_dtype), 'mean', 0.0, 'std', std, 'seed', self._seed)

            if var.dtype == VarDesc.VarType.FP16 or (
                    var.dtype == VarDesc.VarType.BF16 and not self._uniform):
                var_tmp = _C_ops.cast(out_var, 'in_dtype', out_var.dtype,
                                      'out_dtype', var.dtype)
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                var_tmp._share_underline_tensor_to(var)
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            else:
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                out_var._share_underline_tensor_to(var)
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            return None
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        else:
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            if self._uniform:
                limit = np.sqrt(6.0 / float(fan_in))
                op = block.append_op(
                    type="uniform_random",
                    inputs={},
                    outputs={"Out": out_var},
                    attrs={
                        "shape": out_var.shape,
                        "dtype": int(out_dtype),
                        "min": -limit,
                        "max": limit,
                        "seed": self._seed
                    },
                    stop_gradient=True)

            else:
                std = np.sqrt(2.0 / float(fan_in))
                op = block.append_op(
                    type="gaussian_random",
                    outputs={"Out": out_var},
                    attrs={
                        "shape": out_var.shape,
                        "dtype": int(out_dtype),
                        "mean": 0.0,
                        "std": std,
                        "seed": self._seed
                    },
                    stop_gradient=True)

            if var.dtype == VarDesc.VarType.FP16 or (
                    var.dtype == VarDesc.VarType.BF16 and not self._uniform):
                block.append_op(
                    type="cast",
                    inputs={"X": out_var},
                    outputs={"Out": var},
                    attrs={"in_dtype": out_var.dtype,
                           "out_dtype": var.dtype})
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            var.op = op
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            return op
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class BilinearInitializer(Initializer):
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    """
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    This initializer can be used in transposed convolution operator to
    act as upsampling. Users can upsample a feature map with shape of
    (B, C, H, W) by any integer factor. The usage is:
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    Examples:

        .. code-block:: python

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            import math
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            import paddle
            import paddle.nn as nn
            from paddle.regularizer import L2Decay

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            factor = 2
            C = 2
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            B = 8
            H = W = 32
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            w_attr = paddle.ParamAttr(learning_rate=0.,
                                      regularizer=L2Decay(0.),
                                      initializer=nn.initializer.Bilinear())
            data = paddle.rand([B, 3, H, W], dtype='float32')
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            conv_up = nn.Conv2DTranspose(3,
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                                         out_channels=C,
                                         kernel_size=2 * factor - factor % 2,
                                         padding=int(
                                             math.ceil((factor - 1) / 2.)),
                                         stride=factor,
                                         weight_attr=w_attr,
                                         bias_attr=False)
            x = conv_up(data)

    Where, `out_channels=C` and `groups=C` means this is channel-wise transposed
    convolution. The filter shape will be (C, 1, K, K) where K is `kernel_size`,
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    This initializer will set a (K, K) interpolation kernel for every channel
    of the filter identically. The resulting shape of the output feature map
    will be (B, C, factor * H, factor * W). Note that the learning rate and the
    weight decay are set to 0 in order to keep coefficient values of bilinear
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    interpolation unchanged during training.

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    """

    def __init__(self):
        """Constructor for BilinearInitializer.
        """
        super(BilinearInitializer, self).__init__()

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    def __call__(self, var, block=None):
        """Initialize the input tensor with Bilinear initialization.
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        Args:
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            var(Tensor): Tensor that needs to be initialized.
            block(Block, optional): The block in which initialization ops
                   should be added. Used in static graph only, default None.
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        Returns:
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            The initialization op
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        """
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        block = self._check_block(block)

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        if not isinstance(var, framework.Variable):
            raise ValueError("var must be framework.Variable.")

        if not isinstance(block, framework.Block):
            raise ValueError("block must be framework.Block.")

        shape = var.shape
        if len(shape) != 4:
            raise ValueError("the length of shape must be 4.")
        if shape[2] != shape[3]:
            raise ValueError("shape[2] must be equal to shape[3].")

        weight = np.zeros(np.prod(var.shape), dtype='float32')
        size = shape[3]
        # factor
        f = np.ceil(size / 2.)
        # center
        c = (2 * f - 1 - f % 2) / (2. * f)
        for i in range(np.prod(shape)):
            x = i % size
            y = (i / size) % size
            weight[i] = (1 - abs(x / f - c)) * (1 - abs(y / f - c))
        weight = np.reshape(weight, shape)

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        # to be compatible of fp16 initalizers
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        if var.dtype in [
                VarDesc.VarType.FP16, VarDesc.VarType.BF16, VarDesc.VarType.FP64
        ]:
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            out_dtype = VarDesc.VarType.FP32
            out_var = block.create_var(
                name=unique_name.generate(".".join(
                    ['bilinear_init', var.name, 'tmp'])),
                shape=var.shape,
                dtype=out_dtype,
                type=VarDesc.VarType.LOD_TENSOR,
                persistable=False)
        else:
            out_dtype = var.dtype
            out_var = var

        if out_dtype == VarDesc.VarType.FP32:
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            value_name = "fp32_values"
            values = [float(v) for v in weight.flat]
        else:
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            raise TypeError("Unsupported dtype %s", var.dtype)

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        if np.prod(shape) > 1024 * 1024:
            raise ValueError("The size of input is too big. ")
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        if framework._non_static_mode():
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            _C_ops.assign_value(out_var, 'shape',
                                list(shape), 'dtype', out_dtype, value_name,
                                values)
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            if var.dtype in [
                    VarDesc.VarType.FP16, VarDesc.VarType.BF16,
                    VarDesc.VarType.FP64
            ]:
                var_tmp = _C_ops.cast(out_var, 'in_dtype', out_var.dtype,
                                      'out_dtype', var.dtype)
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                var_tmp._share_underline_tensor_to(var)
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            else:
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                out_var._share_underline_tensor_to(var)
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            return None
        else:
            op = block.append_op(
                type='assign_value',
                outputs={'Out': [out_var]},
                attrs={
                    'dtype': out_dtype,
                    'shape': list(shape),
                    value_name: values
                })

            if var.dtype in [
                    VarDesc.VarType.FP16, VarDesc.VarType.BF16,
                    VarDesc.VarType.FP64
            ]:
                block.append_op(
                    type="cast",
                    inputs={"X": out_var},
                    outputs={"Out": var},
                    attrs={"in_dtype": out_var.dtype,
                           "out_dtype": var.dtype})

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            var.op = op
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            return op
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class NumpyArrayInitializer(Initializer):
    """Init an parameter with an numpy array
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    This op initialize the variable by numpy array.
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    Args:
        value (numpy): numpy array to initialize the variable

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    Returns:
        A Tensor variable initialized by numpy.

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    Examples:
        .. code-block:: python

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            import paddle.fluid as fluid
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            import numpy
            x = fluid.data(name="x", shape=[2, 1], dtype='float32')
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            fc = fluid.layers.fc(input=x, size=10,
                param_attr=fluid.initializer.NumpyArrayInitializer(numpy.array([1,2])))
    """

    def __init__(self, value):
        import numpy
        assert isinstance(value, numpy.ndarray)
        super(NumpyArrayInitializer, self).__init__()
        self._value = value

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    def __call__(self, var, block=None):
        """Initialize the input tensor with Numpy array.
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        Args:
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            var(Tensor): Tensor that needs to be initialized.
            block(Block, optional): The block in which initialization ops
                   should be added. Used in static graph only, default None.
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        Returns:
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            The initialization op
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        """
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        block = self._check_block(block)

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        assert isinstance(var, framework.Variable)
        assert isinstance(block, framework.Block)
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        # to be compatible of fp16 initalizers
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        if var.dtype in [VarDesc.VarType.FP16, VarDesc.VarType.BF16]:
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            out_dtype = VarDesc.VarType.FP32
            np_value = self._value.astype("float32")
            out_var = block.create_var(
                name=unique_name.generate(".".join(
                    ['numpy_array_init', var.name, 'tmp'])),
                shape=var.shape,
                dtype=out_dtype,
                type=VarDesc.VarType.LOD_TENSOR,
                persistable=False)
        else:
            out_var = var
            out_dtype = var.dtype
            np_value = self._value

        if out_dtype == VarDesc.VarType.FP32:
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            value_name = "fp32_values"
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            values = [float(v) for v in np_value.flat]
        elif out_dtype == VarDesc.VarType.INT32:
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            value_name = "int32_values"
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            values = [int(v) for v in np_value.flat]
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        else:
            raise ValueError("Unsupported dtype %s", self._value.dtype)
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        if self._value.size > 1024 * 1024 * 1024:
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            raise ValueError("The size of input is too big. Please consider "
                             "saving it to file and 'load_op' to load it")
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        if framework._non_static_mode():
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            _C_ops.assign_value(out_var, 'shape',
                                list(self._value.shape), 'dtype', out_dtype,
                                value_name, values)
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            if var.dtype in [VarDesc.VarType.FP16, VarDesc.VarType.BF16]:
                var_tmp = _C_ops.cast(out_var, 'in_dtype', out_var.dtype,
                                      'out_dtype', var.dtype)
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                var_tmp._share_underline_tensor_to(var)
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            else:
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                out_var._share_underline_tensor_to(var)
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            return None
        else:
            op = block.append_op(
                type='assign_value',
                outputs={'Out': out_var},
                attrs={
                    'dtype': out_dtype,
                    'shape': list(self._value.shape),
                    value_name: values
                },
                stop_gradient=True)

            if var.dtype in [VarDesc.VarType.FP16, VarDesc.VarType.BF16]:
                block.append_op(
                    type="cast",
                    inputs={"X": out_var},
                    outputs={"Out": var},
                    attrs={"in_dtype": out_var.dtype,
                           "out_dtype": var.dtype})

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            var.op = op
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            return op
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def set_global_initializer(weight_init, bias_init=None):
    """
    This API is used to set up global model parameter initializer in framework.

    After this API is invoked, the global initializer will takes effect in subsequent code.

    The model parameters include ``weight`` and ``bias`` . In the framework, they correspond 
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    to ``paddle.ParamAttr`` , which is inherited from ``paddle.Tensor`` , and is a persistable Variable.
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    This API only takes effect for model parameters, not for variables created through apis such as 
    :ref:`api_fluid_layers_create_global_var` , :ref:`api_fluid_layers_create_tensor`.
    
    If the initializer is also set up by ``param_attr`` or ``bias_attr`` when creating a network layer,
    the global initializer setting here will not take effect because it has a lower priority.

    If you want to cancel the global initializer in framework, please set global initializer to ``None`` .

    Args:
        weight_init (Initializer): set the global initializer for ``weight`` of model parameters.
        bias_init (Initializer, optional): set the global initializer for ``bias`` of model parameters. 
            Default: None.

    Returns:
        None

    Examples:
        .. code-block:: python

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            import paddle
            import paddle.nn as nn

            nn.initializer.set_global_initializer(nn.initializer.Uniform(), nn.initializer.Constant())
            x_var = paddle.uniform((2, 4, 8, 8), dtype='float32', min=-1., max=1.)
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            # The weight of conv1 is initialized by Uniform
            # The bias of conv1 is initialized by Constant
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            conv1 = nn.Conv2D(4, 6, (3, 3))
            y_var1 = conv1(x_var)
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            # If set param_attr/bias_attr too, global initializer will not take effect
            # The weight of conv2 is initialized by Xavier
            # The bias of conv2 is initialized by Normal
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            conv2 = nn.Conv2D(4, 6, (3, 3), 
                weight_attr=nn.initializer.XavierUniform(),
                bias_attr=nn.initializer.Normal())
            y_var2 = conv2(x_var)
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            # Cancel the global initializer in framework, it will takes effect in subsequent code
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            nn.initializer.set_global_initializer(None)
1069
    """
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    check_type(weight_init, 'weight_init', (Initializer, type(None)),
               'set_global_initializer')
    global _global_weight_initializer_
    _global_weight_initializer_ = weight_init

    check_type(bias_init, 'bias_init', (Initializer, type(None)),
               'set_global_initializer')
    global _global_bias_initializer_
    _global_bias_initializer_ = bias_init


def _global_weight_initializer():
    """
    Return the global weight initializer, The user doesn't need to use it.
    """
    return _global_weight_initializer_


def _global_bias_initializer():
    """
    Return the global weight initializer, The user doesn't need to use it.
    """
    return _global_bias_initializer_


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def calculate_gain(nonlinearity, param=None):
    """
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    Get the recommended ``gain`` value of some nonlinearity function. ``gain`` value can be used in some 
    ``paddle.nn.initializer`` api to adjust the initialization value.
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    Args:
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        nonlinearity(str): name of nonlinearity activation function. If it is a linear function, such as: 
            `linear/conv1d/conv2d/conv3d/conv1d_transpose/conv2d_transpose/conv3d_transpose` , 1.0 will be returned.
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        param(bool|int|float, optional): optional parameter for somme nonlinearity function. Now, it only applies to 
1105
            'leaky_relu'. Default: None, it will be calculated as 0.01 in the formula.
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    Returns:
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        A float value, which is the recommended gain for this nonlinearity function.
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    Examples:
        .. code-block:: python

            import paddle
            gain = paddle.nn.initializer.calculate_gain('tanh') # 5.0 / 3
            gain = paddle.nn.initializer.calculate_gain('leaky_relu', param=1.0) # 1.0 = math.sqrt(2.0 / (1+param^2))

    """
    if param is None:
        param = 0.01
    else:
        assert isinstance(param, (bool, int, float))
        param = float(param)
    recommended_gain = {
        'sigmoid': 1,
        'linear': 1,
        'conv1d': 1,
        'conv2d': 1,
        'conv3d': 1,
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        'conv1d_transpose': 1,
        'conv2d_transpose': 1,
        'conv3d_transpose': 1,
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        'tanh': 5.0 / 3,
        'relu': math.sqrt(2.0),
        'leaky_relu': math.sqrt(2.0 / (1 + param**2)),
        'selu': 3.0 / 4
    }
    if nonlinearity in recommended_gain.keys():
        return recommended_gain[nonlinearity]
    else:
        raise ValueError("nonlinearity function {} is not suppported now.".
                         format(nonlinearity))


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# We short the class name, since users will use the initializer with the package
# name. The sample code:
#
# import paddle.fluid as fluid
#
# hidden = fluid.layers.fc(...,
#                          param_attr=ParamAttr(fluid.initializer.Xavier()))
#
# It is no need to add an `Initializer` as the class suffix
Constant = ConstantInitializer
Uniform = UniformInitializer
Normal = NormalInitializer
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TruncatedNormal = TruncatedNormalInitializer
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Xavier = XavierInitializer
MSRA = MSRAInitializer
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Bilinear = BilinearInitializer