math.py 146.6 KB
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# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
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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
#
#     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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"""
math functions
"""
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from __future__ import print_function
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import numpy as np
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from paddle.common_ops_import import VarDesc
from paddle.common_ops_import import dygraph_only
from paddle.common_ops_import import OpProtoHolder
from paddle.common_ops_import import templatedoc
from paddle.common_ops_import import dygraph_utils

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from paddle.tensor import cast
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from paddle.tensor.attribute import _complex_to_real_dtype
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import paddle
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from paddle.static import Variable
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from ..framework import core
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from ..fluid.framework import _in_legacy_dygraph, in_dygraph_mode, _non_static_mode
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from ..framework import _varbase_creator, convert_np_dtype_to_dtype_
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from ..fluid.layer_helper import LayerHelper
from ..fluid.data_feeder import check_variable_and_dtype, check_type, check_dtype, convert_dtype
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from ..fluid.layers.layer_function_generator import _generate_doc_string_, generate_activation_fn, generate_layer_fn
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from ..fluid.dygraph.inplace_utils import inplace_apis_in_dygraph_only
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# TODO: define math functions
# yapf: disable
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from ..fluid.layers import abs    # noqa: F401
from ..fluid.layers import acos    # noqa: F401
from ..fluid.layers import asin    # noqa: F401
from ..fluid.layers import ceil    # noqa: F401
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from ..fluid.layers import ceil_    # noqa: F401
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from ..fluid.layers import cos    # noqa: F401
from ..fluid.layers import tan    # noqa: F401
from ..fluid.layers import sinh    # noqa: F401
from ..fluid.layers import cosh    # noqa: F401
from ..fluid.layers import exp    # noqa: F401
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from ..fluid.layers import exp_    # noqa: F401
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from ..fluid.layers import expm1    # noqa: F401
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from ..fluid.layers import floor    # noqa: F401
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from ..fluid.layers import floor_    # noqa: F401
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from ..fluid.layers import log    # noqa: F401
from ..fluid.layers import reciprocal    # noqa: F401
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from ..fluid.layers import reciprocal_    # noqa: F401
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from ..fluid.layers import round    # noqa: F401
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from ..fluid.layers import round_    # noqa: F401
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from ..fluid.layers import rsqrt    # noqa: F401
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from ..fluid.layers import rsqrt_    # noqa: F401
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from ..fluid.layers import scale    # noqa: F401
from ..fluid.layers import square    # noqa: F401
from ..fluid.layers import stanh    # noqa: F401
from ..fluid.layers import atan    # noqa: F401
from ..fluid.layers import erf    # noqa: F401
from ..fluid.layers import sqrt    # noqa: F401
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from ..fluid.layers import sqrt_    # noqa: F401
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from ..fluid.layers import sin    # noqa: F401
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from ..fluid.layers import lgamma    # noqa: F401
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from ..fluid.layers import asinh    # noqa: F401
from ..fluid.layers import acosh    # noqa: F401
from ..fluid.layers import atanh    # noqa: F401
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from ..fluid.layers import multiplex    # noqa: F401
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from ..fluid.layers import reduce_prod
from ..fluid.layers import elementwise_sub
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from paddle import _C_ops
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__all__ = []

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_supported_int_dtype_ = [
    VarDesc.VarType.UINT8,
    VarDesc.VarType.INT8,
    VarDesc.VarType.INT16,
    VarDesc.VarType.INT32,
    VarDesc.VarType.INT64,
]

_supported_float_dtype_ = [
    VarDesc.VarType.FP32,
    VarDesc.VarType.FP64,
]

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@inplace_apis_in_dygraph_only
def scale_(x, scale=1.0, bias=0.0, bias_after_scale=True, act=None, name=None):
    """
    Inplace version of ``scale`` API, the output Tensor will be inplaced with input ``x``.
    Please refer to :ref:`api_tensor_scale`.
    """
    _scale = scale.numpy().item(0) if isinstance(scale, Variable) else scale
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    return _C_ops.scale_(x, 'scale',
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                            float(_scale), 'bias',
                            float(bias), 'bias_after_scale', bias_after_scale)


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def pow(x, y, name=None):
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    """
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    Compute the power of tensor elements. The equation is:
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    .. math::
        out = x^{y} 
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    **Note**:
    ``paddle.pow`` supports broadcasting. If you want know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .
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    Args:
        x (Tensor): An N-D Tensor, the data type is float32, float64, int32 or int64.
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        y (float|int|Tensor): If it is an N-D Tensor, its data type should be the same as `x`.
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        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.
    
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    Returns:
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        N-D Tensor. A location into which the result is stored. Its dimension and data type are the same as `x`.
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    Examples:

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        ..  code-block:: python
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            import paddle

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            x = paddle.to_tensor([1, 2, 3], dtype='float32')

            # example 1: y is a float or int
            res = paddle.pow(x, 2)
            print(res)
            # Tensor(shape=[3], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #        [1., 4., 9.])
            res = paddle.pow(x, 2.5)
            print(res)
            # Tensor(shape=[3], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #        [1.         , 5.65685415 , 15.58845711])

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            # example 2: y is a Tensor
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            y = paddle.to_tensor([2], dtype='float32')
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            res = paddle.pow(x, y)
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            print(res)
            # Tensor(shape=[3], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #        [1., 4., 9.])
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    """
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    # in dynamic graph mode
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    if in_dygraph_mode():
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        if isinstance(y, (int, float)):
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            return _C_ops.final_state_pow(x, y)
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        elif isinstance(y, (paddle.Tensor, Variable)):
            return _elementwise_op_in_dygraph(
                x, y, axis=-1, act=None, op_name='elementwise_pow')
        else:
            raise TypeError('y must be scalar or tensor type, but received: %s '% (y.dtype))
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    if _in_legacy_dygraph():
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        if isinstance(y, (int, float)):
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            return _C_ops.pow(x, 'factor', y)
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        elif isinstance(y, (paddle.Tensor, Variable)):
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            return _elementwise_op_in_dygraph(
                x, y, axis=-1, act=None, op_name='elementwise_pow')
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        else:
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            raise TypeError('y must be scalar or tensor type, but received: %s '% (y.dtype))
    # in static graph mode
    if isinstance(y, (int, float)):
        helper = LayerHelper('pow', **locals())
        inputs = {'X': x}
        attrs = {'factor': y}
        out = helper.create_variable_for_type_inference(dtype=x.dtype)
        helper.append_op(
            type='pow', inputs=inputs, outputs={'Out': out}, attrs=attrs)
        return out
    elif isinstance(y, (paddle.Tensor, Variable)):
        # TODO A potential speed improvement is supporting different types in C++ and removing the cast ops here
        helper = LayerHelper('elementwise_pow', **locals())
        out = helper.create_variable_for_type_inference(dtype=x.dtype)
        return _elementwise_op(LayerHelper('elementwise_pow', **locals()))
    else:
        raise TypeError('y must be scalar or tensor type, but received: %s '% (type(y)))
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OP_NAMEMAPPING = {
    'elementwise_max': 'final_state_maximum',
    'elementwise_min': 'final_state_minimum',
    'elementwise_pow': 'final_state_elementwise_pow',
    'elementwise_floordiv': 'final_state_floor_divide',
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    'elementwise_mod': 'final_state_modulo',
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}
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@dygraph_only
def _elementwise_op_in_dygraph(x,
                               y,
                               axis=-1,
                               act=None,
                               use_mkldnn=False,
                               op_name=None):
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    def is_inplace(op_name):
        return  op_name[-1] == "_"

    if in_dygraph_mode():
        op = getattr(_C_ops, OP_NAMEMAPPING[op_name] if not is_inplace(op_name) else op_name)
        out = op(x, y)

    if _in_legacy_dygraph():
        op = getattr(_C_ops, op_name)
        out = op(x, y, 'axis', axis, 'use_mkldnn', use_mkldnn)
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    return dygraph_utils._append_activation_in_dygraph(
        out, act, use_mkldnn=use_mkldnn)

def _elementwise_op(helper):
    op_type = helper.layer_type
    original_op_type = helper.kwargs.get('original_op_type', op_type)
    x = helper.kwargs.get('x', None)
    y = helper.kwargs.get('y', None)

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    out = helper.kwargs.get('out', None)

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    assert x is not None, 'x cannot be None in {}'.format(original_op_type)
    assert y is not None, 'y cannot be None in {}'.format(original_op_type)
    check_variable_and_dtype(
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        x, 'x', ['float16', 'float32', 'float64', 'int32', 'int64', 'bool'],
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        original_op_type)
    check_variable_and_dtype(
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        y, 'y', ['float16', 'float32', 'float64', 'int32', 'int64', 'bool'],
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        original_op_type)

    axis = helper.kwargs.get('axis', -1)
    use_mkldnn = helper.kwargs.get('use_mkldnn', False)
    name = helper.kwargs.get('name', None)
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    if out is None:
        if name is None:
            out = helper.create_variable_for_type_inference(dtype=x.dtype)
        else:
            out = helper.create_variable(name=name, dtype=x.dtype, persistable=False)
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    helper.append_op(
        type=op_type,
        inputs={'X': x,
                'Y': y},
        outputs={'Out': out},
        attrs={'axis': axis,
               'use_mkldnn': use_mkldnn})
    return helper.append_activation(out)


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def add(x, y, name=None):
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    """
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    Examples:
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    ..  code-block:: python

        import paddle
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        x = paddle.to_tensor([2, 3, 4], 'float64')
        y = paddle.to_tensor([1, 5, 2], 'float64')
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        z = paddle.add(x, y)
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        print(z)  # [3., 8., 6. ]
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    """
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    if in_dygraph_mode():
        return _C_ops.final_state_add( x, y)
    else:
        if _in_legacy_dygraph():
            return _C_ops.elementwise_add(x, y)
        else:
            return _elementwise_op(LayerHelper('elementwise_add', **locals()))
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@inplace_apis_in_dygraph_only
def add_(x, y, name=None):
    """
    Inplace version of ``add`` API, the output Tensor will be inplaced with input ``x``.
    Please refer to :ref:`api_tensor_add`.
    """
    op_type = 'elementwise_add_'
    axis = -1

    out_shape = broadcast_shape(x.shape, y.shape)
    if out_shape != x.shape:
        raise ValueError("The shape of broadcast output {} is different from that of inplace tensor {} in the Inplace operation.".format(out_shape, x.shape))

    out = _elementwise_op_in_dygraph(
        x, y, axis=axis, op_name=op_type)
    return out


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def subtract(x, y, name=None):
    """
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    Substract two tensors element-wise. The equation is:
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    .. math::
        out = x - y

    **Note**:
    ``paddle.subtract`` supports broadcasting. If you want know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .

    Args:
        x (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        y (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        N-D Tensor. A location into which the result is stored. If x, y have different shapes and are "broadcastable", the resulting tensor shape is the shape of x and y after broadcasting. If x, y have the same shape,  its shape is the same as x and y.

    Examples:

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

            x = paddle.to_tensor([[1, 2], [7, 8]])
            y = paddle.to_tensor([[5, 6], [3, 4]])
            res = paddle.subtract(x, y)
            print(res)
            #       [[-4, -4],
            #        [4, 4]]

            x = paddle.to_tensor([[[1, 2, 3], [1, 2, 3]]])
            y = paddle.to_tensor([1, 0, 4])
            res = paddle.subtract(x, y)
            print(res)
            #       [[[ 0,  2, -1],
            #         [ 0,  2, -1]]]

            x = paddle.to_tensor([2, np.nan, 5], dtype='float32')
            y = paddle.to_tensor([1, 4, np.nan], dtype='float32')
            res = paddle.subtract(x, y)
            print(res)
            #       [ 1., nan, nan]

            x = paddle.to_tensor([5, np.inf, -np.inf], dtype='float64')
            y = paddle.to_tensor([1, 4, 5], dtype='float64')
            res = paddle.subtract(x, y)
            print(res)
            #       [   4.,  inf., -inf.]

    """
    op_type = 'elementwise_sub'
    axis = -1
    act = None
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    if in_dygraph_mode():
        return _C_ops.final_state_subtract(x, y)
    else:
        if _in_legacy_dygraph():
            return _elementwise_op_in_dygraph(
                x, y, axis=axis, act=act, op_name=op_type)
        else:
            return _elementwise_op(LayerHelper(op_type, **locals()))
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@inplace_apis_in_dygraph_only
def subtract_(x, y, name=None):
    """
    Inplace version of ``subtract`` API, the output Tensor will be inplaced with input ``x``.
    Please refer to :ref:`api_tensor_subtract`.
    """
    axis = -1
    act = None

    out_shape = broadcast_shape(x.shape, y.shape)
    if out_shape != x.shape:
        raise ValueError("The shape of broadcast output {} is different from that of inplace tensor {} in the Inplace operation.".format(out_shape, x.shape))

    out = _elementwise_op_in_dygraph(
        x, y, axis=axis, act=act, op_name='elementwise_sub_')
    return out


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def divide(x, y, name=None):
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    """
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    Divide two tensors element-wise. The equation is:
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    .. math::
        out = x / y
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    **Note**:
    ``paddle.divide`` supports broadcasting. If you want know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .
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    Args:
        x (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        y (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.
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    Returns:
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        N-D Tensor. A location into which the result is stored. If x, y have different shapes and are "broadcastable", the resulting tensor shape is the shape of x and y after broadcasting. If x, y have the same shape,  its shape is the same as x and y.
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    Examples:
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        ..  code-block:: python
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            import paddle
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            x = paddle.to_tensor([2, 3, 4], dtype='float64')
            y = paddle.to_tensor([1, 5, 2], dtype='float64')
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            z = paddle.divide(x, y)
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            print(z)  # [2., 0.6, 2.]
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    """
    op_type = 'elementwise_div'
    axis = -1
    act = None
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    if in_dygraph_mode():
        return _C_ops.final_state_divide( x, y)
    else:
        if _in_legacy_dygraph():
            return _elementwise_op_in_dygraph(
                x, y, axis=axis, act=act, op_name=op_type)
        else:
            return _elementwise_op(LayerHelper(op_type, **locals()))
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def floor_divide(x, y, name=None):
    """
    Floor divide two tensors element-wise. The equation is:
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    .. math::
        out = x // y
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    **Note**:
    ``paddle.floor_divide`` supports broadcasting. If you want know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .
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    Args:
        x (Tensor): the input tensor, it's data type should be int32, int64.
        y (Tensor): the input tensor, it's data type should be int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.
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    Returns:
        N-D Tensor. A location into which the result is stored. It's dimension equals with $x$.
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    Examples:
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        ..  code-block:: python
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            import paddle
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            x = paddle.to_tensor([2, 3, 8, 7])
            y = paddle.to_tensor([1, 5, 3, 3])
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            z = paddle.floor_divide(x, y)
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            print(z)  # [2, 0, 2, 2]
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    """
    op_type = 'elementwise_floordiv'
    axis = -1
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    if paddle.in_dynamic_mode():
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        return _elementwise_op_in_dygraph(
            x, y, axis=axis, op_name=op_type)
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    return _elementwise_op(LayerHelper(op_type, **locals()))
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def remainder(x, y, name=None):
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    r"""
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    Mod two tensors element-wise. The equation is:

    .. math::
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        out = x \% y

    **Note**:
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    ``paddle.remainder`` supports broadcasting. If you want know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .
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    Args:
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        x (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        y (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
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        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
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        N-D Tensor. A location into which the result is stored. If x, y have different shapes and are "broadcastable", the resulting tensor shape is the shape of x and y after broadcasting. If x, y have the same shape,  its shape is the same as x and y.
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    Examples:

        ..  code-block:: python

            import paddle

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            x = paddle.to_tensor([2, 3, 8, 7])
            y = paddle.to_tensor([1, 5, 3, 3])
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            z = paddle.remainder(x, y)
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            print(z)  # [0, 3, 2, 1]
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    """
    op_type = 'elementwise_mod'
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    axis = -1
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    if paddle.in_dynamic_mode():
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        return _elementwise_op_in_dygraph(
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            x, y, axis=axis, op_name=op_type)
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    return _elementwise_op(LayerHelper(op_type, **locals()))


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mod = remainder  # noqa: F841
floor_mod = remainder  # noqa: F841
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def multiply(x, y, name=None):
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    """
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    multiply two tensors element-wise. The equation is:
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    .. math::
        out = x * y
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    **Note**:
    ``paddle.multiply`` supports broadcasting. If you would like to know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .
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    Args:
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        x (Tensor): the input tensor, its data type should be one of float32, float64, int32, int64, bool.
        y (Tensor): the input tensor, its data type should be one of float32, float64, int32, int64, bool.
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        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.
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    Returns:
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        N-D Tensor. A location into which the result is stored. If x, y have different shapes and are "broadcastable", the resulting tensor shape is the shape of x and y after broadcasting. If x, y have the same shape,  its shape is the same as x and y.
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    Examples:

        ..  code-block:: python

            import paddle

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            x = paddle.to_tensor([[1, 2], [3, 4]])
            y = paddle.to_tensor([[5, 6], [7, 8]])
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            res = paddle.multiply(x, y)
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            print(res) # [[5, 12], [21, 32]]
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            x = paddle.to_tensor([[[1, 2, 3], [1, 2, 3]]])
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            y = paddle.to_tensor([2])
            res = paddle.multiply(x, y)
            print(res) # [[[2, 4, 6], [2, 4, 6]]]
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    """
    op_type = 'elementwise_mul'
    act = None
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    axis = -1
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    if in_dygraph_mode():
        return _C_ops.final_state_multiply(x, y)
    else:
        if _in_legacy_dygraph():
            return _elementwise_op_in_dygraph(
                x, y, axis=axis, act=act, op_name=op_type)
        else:
            if x.dtype != y.dtype:
                raise TypeError(
                    'Input tensors must be same type, but received type of x: %s, type of y: %s '
                    % (x.dtype, y.dtype))
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            return _elementwise_op(LayerHelper(op_type, **locals()))
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def maximum(x, y, name=None):
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    """
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    Compare two tensors and returns a new tensor containing the element-wise maxima. The equation is:
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    .. math::
        out = max(x, y)
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    **Note**:
    ``paddle.maximum`` supports broadcasting. If you want know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .

    Args:
        x (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        y (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        N-D Tensor. A location into which the result is stored. If x, y have different shapes and are "broadcastable", the resulting tensor shape is the shape of x and y after broadcasting. If x, y have the same shape,  its shape is the same as x and y.

    Examples:

        .. code-block:: python

            import numpy as np
            import paddle

            x = paddle.to_tensor([[1, 2], [7, 8]])
            y = paddle.to_tensor([[3, 4], [5, 6]])
            res = paddle.maximum(x, y)
            print(res)
            #    [[3, 4],
            #     [7, 8]]

            x = paddle.to_tensor([[1, 2, 3], [1, 2, 3]])
            y = paddle.to_tensor([3, 0, 4])
            res = paddle.maximum(x, y)
            print(res)
            #    [[3, 2, 4],
            #     [3, 2, 4]]

            x = paddle.to_tensor([2, 3, 5], dtype='float32')
            y = paddle.to_tensor([1, np.nan, np.nan], dtype='float32')
            res = paddle.maximum(x, y)
            print(res)
            #    [ 2., nan, nan]

            x = paddle.to_tensor([5, 3, np.inf], dtype='float32')
            y = paddle.to_tensor([1, -np.inf, 5], dtype='float32')
            res = paddle.maximum(x, y)
            print(res)
            #    [  5.,   3., inf.]
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    """
    op_type = 'elementwise_max'
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    axis = -1
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    act = None
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    if paddle.in_dynamic_mode():
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        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name=op_type)
    return _elementwise_op(LayerHelper(op_type, **locals()))

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def minimum(x, y, name=None):
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    """
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    Compare two tensors and returns a new tensor containing the element-wise minima. The equation is:
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    .. math::
        out = min(x, y)
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    **Note**:
    ``paddle.minimum`` supports broadcasting. If you want know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .

    Args:
        x (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        y (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        N-D Tensor. A location into which the result is stored. If x, y have different shapes and are "broadcastable", the resulting tensor shape is the shape of x and y after broadcasting. If x, y have the same shape,  its shape is the same as x and y.

    Examples:

        .. code-block:: python

            import numpy as np
            import paddle

            x = paddle.to_tensor([[1, 2], [7, 8]])
            y = paddle.to_tensor([[3, 4], [5, 6]])
            res = paddle.minimum(x, y)
            print(res)
            #       [[1, 2],
            #        [5, 6]]

            x = paddle.to_tensor([[[1, 2, 3], [1, 2, 3]]])
            y = paddle.to_tensor([3, 0, 4])
            res = paddle.minimum(x, y)
            print(res)
            #       [[[1, 0, 3],
            #         [1, 0, 3]]]

            x = paddle.to_tensor([2, 3, 5], dtype='float32')
            y = paddle.to_tensor([1, np.nan, np.nan], dtype='float32')
            res = paddle.minimum(x, y)
            print(res)
            #       [ 1., nan, nan]

            x = paddle.to_tensor([5, 3, np.inf], dtype='float64')
            y = paddle.to_tensor([1, -np.inf, 5], dtype='float64')
            res = paddle.minimum(x, y)
            print(res)
            #       [   1., -inf.,    5.]
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    """
    op_type = 'elementwise_min'
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    axis = -1
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    act = None
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    if paddle.in_dynamic_mode():
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        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name=op_type)
    return _elementwise_op(LayerHelper(op_type, **locals()))
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def fmax(x, y, name=None):
    """
    Compares the elements at the corresponding positions of the two tensors and returns a new tensor containing the maximum value of the element.
    If one of them is a nan value, the other value is directly returned, if both are nan values, then the first nan value is returned.
    The equation is:

    .. math::
        out = fmax(x, y)

    **Note**:
    ``paddle.fmax`` supports broadcasting. If you want know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .

    Args:
        x (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        y (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        N-D Tensor. A location into which the result is stored. If x, y have different shapes and are "broadcastable", the resulting tensor shape is the shape of x and y after broadcasting. If x, y have the same shape,  its shape is the same as x and y.

    Examples:

        .. code-block:: python

            import numpy as np
            import paddle

            x = paddle.to_tensor([[1, 2], [7, 8]])
            y = paddle.to_tensor([[3, 4], [5, 6]])
            res = paddle.fmax(x, y)
            print(res)
            #    [[3, 4],
            #     [7, 8]]

            x = paddle.to_tensor([[1, 2, 3], [1, 2, 3]])
            y = paddle.to_tensor([3, 0, 4])
            res = paddle.fmax(x, y)
            print(res)
            #    [[3, 2, 4],
            #     [3, 2, 4]]

            x = paddle.to_tensor([2, 3, 5], dtype='float32')
            y = paddle.to_tensor([1, np.nan, np.nan], dtype='float32')
            res = paddle.fmax(x, y)
            print(res)
            #    [ 2., 3., 5.]

            x = paddle.to_tensor([5, 3, np.inf], dtype='float32')
            y = paddle.to_tensor([1, -np.inf, 5], dtype='float32')
            res = paddle.fmax(x, y)
            print(res)
            #    [  5.,   3., inf.]
    """
    op_type = 'elementwise_fmax'
    axis = -1
    act = None
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    if in_dygraph_mode():
        return _C_ops.final_state_fmax(x, y, axis)
    if _in_legacy_dygraph():
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        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name=op_type)
    return _elementwise_op(LayerHelper(op_type, **locals()))

def fmin(x, y, name=None):
    """
    Compares the elements at the corresponding positions of the two tensors and returns a new tensor containing the minimum value of the element.
    If one of them is a nan value, the other value is directly returned, if both are nan values, then the first nan value is returned.
    The equation is:

    .. math::
        out = fmin(x, y)

    **Note**:
    ``paddle.fmin`` supports broadcasting. If you want know more about broadcasting, please refer to :ref:`user_guide_broadcasting` .

    Args:
        x (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        y (Tensor): the input tensor, it's data type should be float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        N-D Tensor. A location into which the result is stored. If x, y have different shapes and are "broadcastable", the resulting tensor shape is the shape of x and y after broadcasting. If x, y have the same shape,  its shape is the same as x and y.

    Examples:

        .. code-block:: python

            import numpy as np
            import paddle

            x = paddle.to_tensor([[1, 2], [7, 8]])
            y = paddle.to_tensor([[3, 4], [5, 6]])
            res = paddle.fmin(x, y)
            print(res)
            #       [[1, 2],
            #        [5, 6]]

            x = paddle.to_tensor([[[1, 2, 3], [1, 2, 3]]])
            y = paddle.to_tensor([3, 0, 4])
            res = paddle.fmin(x, y)
            print(res)
            #       [[[1, 0, 3],
            #         [1, 0, 3]]]

            x = paddle.to_tensor([2, 3, 5], dtype='float32')
            y = paddle.to_tensor([1, np.nan, np.nan], dtype='float32')
            res = paddle.fmin(x, y)
            print(res)
            #       [ 1., 3., 5.]

            x = paddle.to_tensor([5, 3, np.inf], dtype='float64')
            y = paddle.to_tensor([1, -np.inf, 5], dtype='float64')
            res = paddle.fmin(x, y)
            print(res)
            #       [   1., -inf.,    5.]
    """
    op_type = 'elementwise_fmin'
    axis = -1
    act = None
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    if in_dygraph_mode():
        return _C_ops.final_state_fmin(x, y, axis)
    if _in_legacy_dygraph():
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        return _elementwise_op_in_dygraph(
            x, y, axis=axis, act=act, op_name=op_type)
    return _elementwise_op(LayerHelper(op_type, **locals()))

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for func in [
        add,
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        multiply
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]:
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    proto_dict = {'add': 'elementwise_add', 'multiply': 'elementwise_mul'}
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    op_proto = OpProtoHolder.instance().get_op_proto(proto_dict[func.__name__])

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    additional_args_lines = [
        "name (string, optional): Name of the output. \
        Default is None. It's used to print debug info for developers. Details: \
        :ref:`api_guide_Name` "
    ]

    func.__doc__ = _generate_doc_string_(
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        op_proto,
        additional_args_lines=additional_args_lines,
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        skip_attrs_set={"x_data_format", "y_data_format", "axis",
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            "use_quantizer", "mkldnn_data_type", "Scale_x", "Scale_y", "Scale_out"
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        }) + """\n""" + str(func.__doc__)
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def sum(x, axis=None, dtype=None, keepdim=False, name=None):
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    """
    Computes the sum of tensor elements over the given dimension.

    Args:
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        x (Tensor): An N-D Tensor, the data type is bool, float16, float32, float64, int32 or int64.
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        axis (int|list|tuple, optional): The dimensions along which the sum is performed. If
            :attr:`None`, sum all elements of :attr:`x` and return a
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            Tensor with a single element, otherwise must be in the
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            range :math:`[-rank(x), rank(x))`. If :math:`axis[i] < 0`,
            the dimension to reduce is :math:`rank + axis[i]`.
        dtype (str, optional): The dtype of output Tensor. The default value is None, the dtype
            of output is the same as input Tensor `x`.
        keepdim (bool, optional): Whether to reserve the reduced dimension in the
            output Tensor. The result Tensor will have one fewer dimension
            than the :attr:`x` unless :attr:`keepdim` is true, default
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            value is False.
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        name (str, optional): The default value is None. Normally there is no need for
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            user to set this property.  For more information, please refer to :ref:`api_guide_Name`

    Returns:
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        Tensor: Results of summation operation on the specified axis of input Tensor `x`,
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        if `x.dtype='bool'`, `x.dtype='int32'`, it's data type is `'int64'`, 
        otherwise it's data type is the same as `x`.
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    Raises:
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        TypeError: The type of :attr:`axis` must be int, list or tuple.
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    Examples:
        .. code-block:: python

            import paddle
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            # x is a Tensor with following elements:
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            #    [[0.2, 0.3, 0.5, 0.9]
            #     [0.1, 0.2, 0.6, 0.7]]
            # Each example is followed by the corresponding output tensor.
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            x = paddle.to_tensor([[0.2, 0.3, 0.5, 0.9],
                                  [0.1, 0.2, 0.6, 0.7]])
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            out1 = paddle.sum(x)  # [3.5]
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            out2 = paddle.sum(x, axis=0)  # [0.3, 0.5, 1.1, 1.6]
            out3 = paddle.sum(x, axis=-1)  # [1.9, 1.6]
            out4 = paddle.sum(x, axis=1, keepdim=True)  # [[1.9], [1.6]]
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            # y is a Tensor with shape [2, 2, 2] and elements as below:
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            #      [[[1, 2], [3, 4]],
            #      [[5, 6], [7, 8]]]
            # Each example is followed by the corresponding output tensor.
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            y = paddle.to_tensor([[[1, 2], [3, 4]], 
                                  [[5, 6], [7, 8]]])
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            out5 = paddle.sum(y, axis=[1, 2]) # [10, 26]
            out6 = paddle.sum(y, axis=[0, 1]) # [16, 20]
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            # x is a Tensor with following elements:
            #    [[True, True, True, True]
            #     [False, False, False, False]]
            # Each example is followed by the corresponding output tensor.
            x = paddle.to_tensor([[True, True, True, True],
                                  [False, False, False, False]])
            out7 = paddle.sum(x)  # [4]
            out8 = paddle.sum(x, axis=0)  # [1, 1, 1, 1]
            out9 = paddle.sum(x, axis=1)  # [4, 0]
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    """
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    if axis is not None and not isinstance(axis, (list, tuple)):
        axis = [axis]

    if not axis:
        reduce_all_flag = True
    else:
        if len(axis) == len(x.shape):
            reduce_all_flag = True
        else:
            reduce_all_flag = False

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    def get_dtype(x, dtype):
        if dtype is not None:
            return (True, dtype)
        src_type = convert_dtype(x.dtype)
        if src_type in ['bool','int32', 'int64']:
            return (True, 'int64')
        return (False, src_type)

    dtype_flag, dtype = get_dtype(x, dtype)
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    if paddle.in_dynamic_mode():
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        axis = axis if axis != None and axis != [] else [0]
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        if dtype_flag:
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            return _C_ops.reduce_sum(x, 'dim', axis, 'keep_dim', keepdim,
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                                       'reduce_all', reduce_all_flag, 'in_dtype',
                                       x.dtype, 'out_dtype',
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                                       convert_np_dtype_to_dtype_(dtype))
        else:
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            return _C_ops.reduce_sum(x, 'dim', axis, 'keep_dim', keepdim,
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                                       'reduce_all', reduce_all_flag)
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    attrs = {
        'dim': axis if axis != None and axis != [] and axis != () else [0],
        'keep_dim': keepdim,
        'reduce_all': reduce_all_flag
    }

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    if dtype_flag:
        attrs.update({
            'in_dtype': x.dtype,
            'out_dtype': convert_np_dtype_to_dtype_(dtype)
        })
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    check_variable_and_dtype(
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        x, 'x', ['bool', 'float16', 'float32', 'float64',
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                'int16', 'int32', 'int64', 'complex64', 'complex128',
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                u'bool', u'float16', u'float32', u'float64',
                u'int32', u'int64', u'complex64', u'complex128'], 'sum')
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    check_type(axis, 'axis', (int, list, tuple, type(None)), 'sum')

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    helper = LayerHelper('sum', **locals())
    if dtype_flag:
        out = helper.create_variable_for_type_inference(
            dtype=convert_np_dtype_to_dtype_(dtype))
    else:
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        out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
        type='reduce_sum',
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        inputs={'X': x},
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        outputs={'Out': out},
        attrs=attrs)
    return out
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def nansum(x, axis=None, dtype=None, keepdim=False, name=None):
    """
    Computes the sum of tensor elements over the given axis, treating Not a Numbers (NaNs) as zero.

    Args:
        x (Tensor): An N-D Tensor, the data type is float32, float64, int32 or int64.
        axis (int|list|tuple, optional): The dimensions along which the nansum is performed. If
            :attr:`None`, nansum all elements of :attr:`x` and return a
            Tensor with a single element, otherwise must be in the
            range :math:`[-rank(x), rank(x))`. If :math:`axis[i] < 0`,
            the dimension to reduce is :math:`rank + axis[i]`.
        dtype (str, optional): The dtype of output Tensor. The default value is None, the dtype
            of output is the same as input Tensor `x`.
        keepdim (bool, optional): Whether to reserve the reduced dimension in the
            output Tensor. The result Tensor will have one fewer dimension
            than the :attr:`x` unless :attr:`keepdim` is true, default
            value is False.
        name (str, optional): The default value is None. Normally there is no need for
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`

    Returns:
        Tensor: Results of summation operation on the specified axis of input Tensor `x`,

    Examples:
        .. code-block:: python

            import paddle
            import numpy as np

            # x is a Tensor with following elements:
            #    [[nan, 0.3, 0.5, 0.9]
            #     [0.1, 0.2, -nan, 0.7]]
            # Each example is followed by the corresponding output tensor.
            x = np.array([[float('nan'), 0.3, 0.5, 0.9],
                            [0.1, 0.2, float('-nan'), 0.7]]).astype(np.float32)
            x = paddle.to_tensor(x)
            out1 = paddle.nansum(x)  # [2.7]
            out2 = paddle.nansum(x, axis=0)  # [0.1, 0.5, 0.5, 1.6]
            out3 = paddle.nansum(x, axis=-1)  # [1.7, 1.0]
            out4 = paddle.nansum(x, axis=1, keepdim=True)  # [[1.7], [1.0]]

            # y is a Tensor with shape [2, 2, 2] and elements as below:
            #      [[[1, nan], [3, 4]],
            #      [[5, 6], [-nan, 8]]]
            # Each example is followed by the corresponding output tensor.
            y = np.array([[[1, float('nan')], [3, 4]], 
                            [[5, 6], [float('-nan'), 8]]])
            y = paddle.to_tensor(y)
            out5 = paddle.nansum(y, axis=[1, 2]) # [8, 19]
            out6 = paddle.nansum(y, axis=[0, 1]) # [9, 18]
    """
    check_variable_and_dtype(
        x, 'x', ['float32', 'float64', 'int32', 'int64'], 'nansum')
    check_type(axis, 'axis', (int, list, tuple, type(None)), 'nansum')

    zero_tensor = paddle.zeros_like(x)
    tmp_tensor = paddle.where(isnan(x), zero_tensor, x)
    return sum(tmp_tensor, axis, dtype, keepdim, name)


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@templatedoc(op_type="sum")
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def add_n(inputs, name=None):
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    """
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    This OP is used to sum one or more Tensor of the input.
    
    For example:

    .. code-block:: text
    
        Case 1:

            Input:
                input.shape = [2, 3]
                input = [[1, 2, 3],
                         [4, 5, 6]]

            Output:
                output.shape = [2, 3]
                output = [[1, 2, 3],
                          [4, 5, 6]]

        Case 2:
       
            Input:
                First input:
                    input1.shape = [2, 3]
                    Input1 = [[1, 2, 3],
                              [4, 5, 6]]

                The second input:
                    input2.shape = [2, 3]
                    input2 = [[7, 8, 9],
                              [10, 11, 12]]

                Output:
                    output.shape = [2, 3]
                    output = [[8, 10, 12],
                              [14, 16, 18]]
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    Args:
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        inputs (Tensor|list[Tensor]|tuple[Tensor]):  A Tensor or a list/tuple of Tensors. The shape and data type of the list/tuple elements should be consistent.
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            Input can be multi-dimensional Tensor, and data types can be: float32, float64, int32, int64.
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        name(str, optional): The default value is None. Normally there is no need for
            user to set this property. For more information, please refer to :ref:`api_guide_Name`

    Returns:
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        Tensor, the sum of input :math:`inputs` , its shape and data types are consistent with :math:`inputs`.
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    Examples:
        .. code-block:: python

            import paddle

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            input0 = paddle.to_tensor([[1, 2, 3], [4, 5, 6]], dtype='float32')
            input1 = paddle.to_tensor([[7, 8, 9], [10, 11, 12]], dtype='float32')
            output = paddle.add_n([input0, input1])
            # [[8., 10., 12.], 
            #  [14., 16., 18.]]
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    """
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    if paddle.in_dynamic_mode():
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        if isinstance(inputs, Variable):
            inputs = [inputs]
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        return _C_ops.sum(inputs, 'use_mkldnn', False)
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    helper = LayerHelper('add_n', **locals())
    check_type(inputs, 'inputs', (Variable, tuple, list), 'add_n')
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    if isinstance(inputs, list) or isinstance(inputs, tuple):
        if len(inputs) > 0:
            for input in inputs:
                check_variable_and_dtype(input, "inputs", \
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                   ['float32', 'float64', 'int32', 'int64'], 'add_n')
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    else:
        check_variable_and_dtype(inputs, "inputs", \
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                ['float32', 'float64', 'int32', 'int64'], 'add_n')
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    out = helper.create_variable_for_type_inference(
        dtype=helper.input_dtype('inputs'))
    helper.append_op(
        type='sum',
        inputs={'X': inputs},
        outputs={'Out': out},
        attrs={'use_mkldnn': False})

    return out


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def trunc(input, name=None):
    '''
    This API is used to returns a new tensor with the truncated integer values of input.
    
    Args:
        input (Tensor): The input tensor, it's data type should be int32, int64, float32, float64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.
    
    Returns:
        Tensor: The output Tensor of trunc.
    
    Examples:
        .. code-block:: python

            import paddle

            input = paddle.rand([2,2],'float32')
            print(input)
            # Tensor(shape=[2, 2], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #         [[0.02331470, 0.42374918],
            #         [0.79647720, 0.74970269]])

            output = paddle.trunc(input)
            print(output)
            # Tensor(shape=[2, 2], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #         [[0., 0.],
            #         [0., 0.]]))
    '''
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    if in_dygraph_mode():
        return  _C_ops.final_state_trunc(input)
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    else:
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        if _in_legacy_dygraph():
            return _C_ops.trunc(input)
        else:
            inputs = {"X": input}
            attrs = {}
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            helper = LayerHelper("trunc", **locals())
            check_variable_and_dtype(input, 'X', ['int32', 'int64', 'float32', 'float64'], 'trunc')
            out = helper.create_variable_for_type_inference(dtype=input.dtype)
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            helper.append_op(
                type="trunc", inputs=inputs, attrs=attrs, outputs={"Out": out})
            return out
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def mm(input, mat2, name=None):
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    """
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    Applies matrix multiplication to two tensors.

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


    Also note that if the raw tensor :math:`x` or :math:`mat2` is rank-1 and
    nontransposed, the prepended or appended dimension :math:`1` will be
    removed after matrix multiplication.

    Args:
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        input (Tensor): The input tensor which is a Tensor.
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        mat2 (Tensor): The input tensor which is a Tensor.
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        name(str, optional): The default value is None. Normally there is no need for
            user to set this property. For more information, please refer to :ref:`api_guide_Name`

    Returns:
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        Tensor: The product Tensor.
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    ::

        * example 1:

        input: [B, ..., M, K], mat2: [B, ..., K, N]
        out: [B, ..., M, N]

        * example 2:

        input: [B, M, K], mat2: [B, K, N]
        out: [B, M, N]

        * example 3:

        input: [B, M, K], mat2: [K, N]
        out: [B, M, N]

        * example 4:

        input: [M, K], mat2: [K, N]
        out: [M, N]

        * example 5:

        input: [B, M, K], mat2: [K]
        out: [B, M]

        * example 6:

        input: [K], mat2: [K]
        out: [1]

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    Examples:
        .. code-block:: python

            import paddle
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            input = paddle.arange(1, 7).reshape((3, 2)).astype('float32')
            mat2 = paddle.arange(1, 9).reshape((2, 4)).astype('float32')
            out = paddle.mm(input, mat2)
            print(out)
            #        [[11., 14., 17., 20.],
            #         [23., 30., 37., 44.],
            #         [35., 46., 57., 68.]])

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    """
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    if paddle.in_dynamic_mode():
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        return _C_ops.matmul_v2(input, mat2)
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    def __check_input(x, y):
        var_names = {'x': x, 'y': y}
        for name, val in var_names.items():
            check_variable_and_dtype(val, name,
                                     ['float16', 'float32', 'float64'], 'mm')
        x_shape = list(x.shape)
        y_shape = list(y.shape)
        if len(x_shape) == 1:
            x_shape = [1] + x_shape
        if len(y_shape) == 1:
            y_shape = y_shape + [1]

        # check the inner 2 dimensions
        if x_shape[-1] != y_shape[-2]:
            if not ((x_shape[-1] == -1) or (y_shape[-2] == -1)):
                raise ValueError(
                    "After performing an optional transpose, Input X's width should be "
                    "equal to Y's width for multiplication "
                    "prerequisites. But received X's shape: %s, Y's shape: %s\n"
                    % (x_shape, y_shape))

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

    __check_input(input, mat2)

    helper = LayerHelper('mm', **locals())
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    out = helper.create_variable_for_type_inference(dtype=input.dtype)
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    helper.append_op(
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        type='matmul_v2', inputs={'X': input,
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                               'Y': mat2}, outputs={'Out': out})
    return out
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def addmm(input, x, y, beta=1.0, alpha=1.0, name=None):
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    """
    **addmm**

    This operator is used to perform matrix multiplication for input $x$ and $y$.
    $input$ is added to the final result.
    The equation is:

    ..  math::
        Out = alpha * x * y + beta * input

    $Input$, $x$ and $y$ can carry the LoD (Level of Details) information, or not. But the output only shares the LoD information with input $input$.

    Args:
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        input (Tensor): The input Tensor to be added to the final result.
        x (Tensor): The first input Tensor for matrix multiplication.
        y (Tensor): The second input Tensor for matrix multiplication.
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        beta (float): Coefficient of $input$.
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        alpha (float): Coefficient of $x*y$.
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        name (str, optional): Name of the output. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`. Default is None.

    Returns:
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        Tensor: The output Tensor of addmm op.
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    Examples:
        ..  code-block:: python
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            import paddle

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            x = paddle.ones([2,2])
            y = paddle.ones([2,2])
            input = paddle.ones([2,2])
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            out = paddle.addmm( input=input, x=x, y=y, beta=0.5, alpha=5.0 )
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            print(out)
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            # [[10.5 10.5]
            # [10.5 10.5]]
    """
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    input_shape = input.shape
    x_shape = x.shape
    y_shape = y.shape
    if not len(input_shape) == len(x_shape) == len(y_shape) == 2:
        raise ValueError("The dimention of input, x, y should be 2 but receive input's shape: {}, x's shape: {}, y's shape: {}".format(input_shape, x_shape, y_shape))
    if input_shape[0] != x_shape[0]:
        if input_shape[0] != 1:
            raise ValueError( "When x's dimension[0] is not equal with input's dimension[0], input's dimension[0] must be 1 but got {}".format(input_shape[0]))
        if input_shape[1] != y_shape[1] and input_shape[1] != 1:
            raise ValueError( "When y's dimension[1] is not equal with input's dimension[1], input's dimension[1] must be 1 but got {}".format(input_shape[1]))
    if input_shape[1] != y_shape[1]:
        if input_shape[1] != 1:
            raise ValueError( "When y's dimension[1] is not equal with input's dimension[1], input's dimension[1] must be 1 but got {}".format(input_shape[1]))
        if input_shape[0] != x_shape[0] and input_shape[0] != 1:
            raise ValueError( "When x's dimension[0] is not equal with input's dimension[0], input's dimension[0] must be 1 but got {}".format(input_shape[0]))
    if x_shape[1] != y_shape[0]:
        raise ValueError("The input Variable x's width must be equal with Variable y' height. But received x's shape = {}, y's shape = {}.".format(x_shape, y_shape))



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    if in_dygraph_mode():
        return _C_ops.final_state_addmm( input, x, y, alpha, beta)
    else:
        if _in_legacy_dygraph():
            out = _C_ops.addmm(input, x, y, "Alpha", alpha, "Beta", beta)
            return out
        else:
            inputs = {'Input': input, "X": x, "Y": y}
            attrs = {'Alpha': alpha, 'Beta': beta}
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            helper = LayerHelper("addmm", **locals())
            check_variable_and_dtype(input, 'Input', ['float32', 'float64'], 'addmm')
            check_variable_and_dtype(x, 'X', ['float32', 'float64'], 'addmm')
            check_variable_and_dtype(y, 'Y', ['float32', 'float64'], 'addmm')
            out = helper.create_variable_for_type_inference(dtype=x.dtype)
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            helper.append_op(
                type="addmm", inputs=inputs, attrs=attrs, outputs={"Out": out})
            return out
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def renorm(x, p, axis, max_norm):
    """
    **renorm**

    This operator is used to calculate the p-norm along the axis,
    suppose the input-shape on axis dimension has the value of T, then
    the tensor is split into T parts, the p-norm should be calculated for each
    part, if the p-norm for part i is larger than max-norm, then each element 
    in part i should be re-normalized at the same scale so that part-i' p-norm equals
    max-norm exactly, otherwise part-i stays unchanged.

    Args:
        x (Tensor): The input Tensor
        p (float): The power of the norm operation.
        axis (int): the dimension to slice the tensor.
        max-norm (float): the maximal norm limit.

    Returns:
        Tensor: the renorm Tensor.

    Examples:
        ..  code-block:: python
            
            import paddle
            input = [[[2.0,2,-2],[3,0.3,3]],[[2,-8,2],[3.1,3.7,3]]]
            x = paddle.to_tensor(input,dtype='float32')
            y = paddle.renorm(x, 1.0, 2, 2.05)
            print(y)        
    #        [[[ 0.40594056,  0.29285714, -0.41000000],
    #          [ 0.60891086,  0.04392857,  0.61500001]],
    #         [[ 0.40594056, -1.17142856,  0.41000000],
    #          [ 0.62920785,  0.54178572,  0.61500001]]])
    
    """
    input_shape = x.shape
    check_variable_and_dtype(x, 'x', ['float32', 'float64'], 'renorm')
    if not axis < len(input_shape):
        raise ValueError("the axis:{} should be less then the shape's size {}:{}".format(axis,len(input_shape),input_shape))
    if not axis >=0:
        if not axis >= -1 * len(input_shape):
            raise ValueError("the axis:{} should not be less than -1 * length of input_shape:{}".format(axis,-1 * len(input_shape)))
        axis = axis + len(input_shape)
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    if paddle.in_dynamic_mode():
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        out = _C_ops.renorm(x, 'p',p, 'axis',axis, 'max_norm', max_norm)
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        return out

    inputs = {'X': x}
    attrs = {'p': p, 'axis': axis, 'max_norm':max_norm}

    helper = LayerHelper("renorm", **locals())
    out = helper.create_variable_for_type_inference(dtype=x.dtype)

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

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def inner(x, y, name=None):
    """

    Inner product of two input Tensor.
    
    Ordinary inner product for 1-D Tensors, in higher dimensions a sum product over the last axes.

    Args:
        x (Tensor): An N-D Tensor or a Scalar Tensor. If its not a scalar Tensor, its last dimensions must match y's.
        y (Tensor): An N-D Tensor or a Scalar Tensor. If its not a scalar Tensor, its last dimensions must match x's.
        name(str, optional): The default value is None. Normally there is no need for
            user to set this property. For more information, please refer to :ref:`api_guide_Name`

    Returns:
        Tensor: The inner-product Tensor, the output shape is x.shape[:-1] + y.shape[:-1].

    Examples:
        .. code-block:: python

            import paddle
            x = paddle.arange(1, 7).reshape((2, 3)).astype('float32')
            y = paddle.arange(1, 10).reshape((3, 3)).astype('float32')
            out = paddle.inner(x, y)
            print(out)
            #        ([[14, 32, 50],
            #         [32, 77, 122]])


    """
    if x.size == 1 or y.size == 1:
        return multiply(x, y)
    else:
        xshape = x.shape
        yshape = y.shape
        dstshape = list(xshape[:-1])+list(yshape[:-1])
        if len(dstshape)==0:
            dstshape = [1]
        nx = x.reshape((-1, xshape[-1]))
        ny = y.reshape((-1, yshape[-1]))

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        if paddle.in_dynamic_mode():
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            return _C_ops.matmul_v2(nx, ny.T).reshape(dstshape)

        def __check_input(x, y):
            var_names = {'x': x, 'y': y}
            for name, val in var_names.items():
                check_variable_and_dtype(val, name,
                                        ['float16', 'float32', 'float64'], 'inner')
            x_shape = list(xshape)
            y_shape = list(yshape)

            # check the inner 2 dimensions
            if x_shape[-1] != y_shape[-1]:
                if not ((x_shape[-1] == -1) or (y_shape[-1] == -1)):
                    raise ValueError(
                        "After performing an optional transpose, Input X's last dim should be "
                        "equal to Y's last dim for multiplication "
                        "prerequisites. But received X's shape: %s, Y's shape: %s\n"
                        % (x_shape, y_shape))

        __check_input(nx, ny)

        helper = LayerHelper('inner', **locals())
        out = helper.create_variable_for_type_inference(dtype=nx.dtype)
        helper.append_op(
            type='matmul_v2', inputs={'X': nx,
                                'Y': ny.T}, outputs={'Out': out})
        return out.reshape(dstshape)


def outer(x, y, name=None):
    """

    Outer product of two Tensors.

    Input is flattened if not already 1-dimensional.

    Args:
        x (Tensor): An N-D Tensor or a Scalar Tensor. 
        y (Tensor): An N-D Tensor or a Scalar Tensor. 
        name(str, optional): The default value is None. Normally there is no need for
            user to set this property. For more information, please refer to :ref:`api_guide_Name`

    Returns:
        Tensor: The outer-product Tensor.

    Examples:
        .. code-block:: python

            import paddle
            x = paddle.arange(1, 4).astype('float32')
            y = paddle.arange(1, 6).astype('float32')
            out = paddle.outer(x, y)
            print(out)
            #        ([[1, 2, 3, 4, 5],
            #         [2, 4, 6, 8, 10],
            #         [3, 6, 9, 12, 15]])


    """
    nx = x.reshape((-1, 1))
    ny = y.reshape((1, -1))

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    if paddle.in_dynamic_mode():
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        return _C_ops.matmul_v2(nx, ny)

    def __check_input(x, y):
        var_names = {'x': x, 'y': y}
        for name, val in var_names.items():
            check_variable_and_dtype(val, name,
                                     ['float16', 'float32', 'float64'], 'inner')

    __check_input(nx, ny)

    helper = LayerHelper('outer', **locals())
    out = helper.create_variable_for_type_inference(dtype=nx.dtype)
    helper.append_op(
        type='matmul_v2', inputs={'X': nx,
                               'Y': ny}, outputs={'Out': out})
    return out


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def logsumexp(x, axis=None, keepdim=False, name=None):
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    r"""
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    This OP calculates the log of the sum of exponentials of ``x`` along ``axis`` .
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    .. math::
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       logsumexp(x) = \\log\\sum exp(x)
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    Args:
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        x (Tensor): The input Tensor with data type float32 or float64, which 
            have no more than 4 dimensions.
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        axis (int|list|tuple, optional): The axis along which to perform
            logsumexp calculations. ``axis`` should be int, list(int) or
            tuple(int). If ``axis`` is a list/tuple of dimension(s), logsumexp
            is calculated along all element(s) of ``axis`` . ``axis`` or
            element(s) of ``axis`` should be in range [-D, D), where D is the
            dimensions of ``x`` . If ``axis`` or element(s) of ``axis`` is
            less than 0, it works the same way as :math:`axis + D` . If
            ``axis`` is None, logsumexp is calculated along all elements of
            ``x``. Default is None.
        keepdim (bool, optional): Whether to reserve the reduced dimension(s)
            in the output Tensor. If ``keep_dim`` is True, the dimensions of
            the output Tensor is the same as ``x`` except in the reduced
            dimensions(it is of size 1 in this case). Otherwise, the shape of
            the output Tensor is squeezed in ``axis`` . Default is False.
        name (str, optional): Name for the operation (optional, default is None).
            For more information, please refer to :ref:`api_guide_Name`.
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    Returns:
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        Tensor, results of logsumexp along ``axis`` of ``x``, with the same data
        type as ``x``.
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    Examples:
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    .. code-block:: python
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        import paddle

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        x = paddle.to_tensor([[-1.5, 0., 2.], [3., 1.2, -2.4]])
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        out1 = paddle.logsumexp(x) # [3.4691226]
        out2 = paddle.logsumexp(x, 1) # [2.15317821, 3.15684602]
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    """
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    if isinstance(axis, int):
        axis = [axis]
    reduce_all = True if axis is None \
        or len(axis)==0 \
        or len(axis) == len(x.shape) else False
    if axis is None or len(axis) == 0:
        axis = [0]
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    if in_dygraph_mode():
        if reduce_all:
            axis = range(len(x.shape))
        return _C_ops.final_state_logsumexp(x, axis, keepdim, reduce_all)
    if _in_legacy_dygraph():
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        return _C_ops.logsumexp(x, 'axis', axis, 'keepdim', keepdim, 'reduce_all', reduce_all)
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    check_variable_and_dtype(x, 'x',
                             ['float32', 'float64'],
                             'logsumexp')
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    helper = LayerHelper('logsumexp', **locals())
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    attrs = {'axis': axis, 'keepdim': keepdim, 'reduce_all':reduce_all}
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    out = helper.create_variable_for_type_inference(x.dtype)
    helper.append_op(
        type='logsumexp', inputs={'X': x}, outputs={'Out': out}, attrs=attrs)
    return out
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def inverse(x, name=None):
    """
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    Takes the inverse of the square matrix. A square matrix is a matrix with
    the same number of rows and columns. The input can be a square matrix
    (2-D Tensor) or batches of square matrices.

    Args:
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        x (Tensor): The input tensor. The last two
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            dimensions should be equal. When the number of dimensions is
            greater than 2, it is treated as batches of square matrix. The data
            type can be float32 and float64.
        name (str, optional): The default value is None. Normally there is no need for
            user to set this property. For more information,
            please refer to :ref:`api_guide_Name`

    Returns:
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        Tensor: A Tensor holds the inverse of x. The shape and data type
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                        is the same as x.
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    Examples:
        .. code-block:: python

            import paddle
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            mat = paddle.to_tensor([[2, 0], [0, 2]], dtype='float32')
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            inv = paddle.inverse(mat)
            print(inv) # [[0.5, 0], [0, 0.5]]
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    """
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    if paddle.in_dynamic_mode():
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        return _C_ops.inverse(x)
1616

1617 1618
    def _check_input(x):
        check_variable_and_dtype(x, 'x',
1619
                                 ['float32', 'float64'], 'inverse')
1620
        if len(x.shape) < 2:
1621 1622 1623
            raise ValueError(
                "The input of inverse is expected to be a Tensor whose number "
                "of dimensions is no less than 2. But reviced: %d, "
1624 1625
                "x's shape: %s." % (len(x.shape), x.shape))
    _check_input(x)
1626
    helper = LayerHelper('inverse', **locals())
1627
    out = helper.create_variable_for_type_inference(dtype=x.dtype)
1628
    helper.append_op(
1629
        type='inverse', inputs={'Input': [x] }, outputs={'Output': [out]})
1630 1631
    return out

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def _get_reduce_all_value(axis):
    """
    Internal function for max, min, amax and amin. 
    It computes the attribute reduce_all value based on axis.
    """
    if axis is not None and not isinstance(axis, list):
        if isinstance(axis, tuple):
            axis = list(axis)
        elif isinstance(axis, int):
            axis= [axis]
        else:
            raise TypeError(
                "The type of axis must be int, list or tuple, but received {}".format(type(axis)))

    reduce_all = True if axis == None or axis == [] else False
    axis = axis if axis != None and axis != [] else [0]
    return reduce_all, axis
1649

1650
def max(x, axis=None, keepdim=False, name=None):
1651
    """
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1653
    Computes the maximum of tensor elements over the given axis.
1654

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    Note:
        The difference between max and amax is: If there are multiple maximum elements,
        amax evenly distributes gradient between these equal values, 
        while max propagates gradient to all of them.


1661
    Args:
1662
        x(Tensor): A tensor, the data type is float32, float64, int32, int64.
1663
        axis(int|list|tuple, optional): The axis along which the maximum is computed.
1664
            If :attr:`None`, compute the maximum over all elements of
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            `x` and return a Tensor with a single element,
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            otherwise must be in the range :math:`[-x.ndim(x), x.ndim(x))`.
            If :math:`axis[i] < 0`, the axis to reduce is :math:`x.ndim + axis[i]`.
        keepdim(bool, optional): Whether to reserve the reduced dimension in the
1669
            output Tensor. The result tensor will have one fewer dimension
1670
            than the `x` unless :attr:`keepdim` is true, default
1671
            value is False.
1672
        name(str, optional): The default value is None.  Normally there is no need for
1673 1674 1675
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`

    Returns:
1676
        Tensor, results of maximum on the specified axis of input tensor,
1677
        it's data type is the same as `x`.
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    Examples:
        .. code-block:: python
1681

1682
            import paddle
1683

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            # data_x is a Tensor with shape [2, 4]
1685
            # the axis is a int element
1686
            x = paddle.to_tensor([[0.2, 0.3, 0.5, 0.9],
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                                  [0.1, 0.2, 0.6, 0.7]], 
                                 dtype='float64', stop_gradient=False)
1689
            result1 = paddle.max(x)
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            result1.backward()
            print(result1, x.grad) 
            #[0.9], [[0., 0., 0., 1.], [0., 0., 0., 0.]]

            x.clear_grad()
1695
            result2 = paddle.max(x, axis=0)
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            result2.backward()
            print(result2, x.grad) 
            #[0.2, 0.3, 0.6, 0.9], [[1., 1., 0., 1.], [0., 0., 1., 0.]]

            x.clear_grad()
1701
            result3 = paddle.max(x, axis=-1)
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            result3.backward()
            print(result3, x.grad) 
            #[0.9, 0.7], [[0., 0., 0., 1.], [0., 0., 0., 1.]]

            x.clear_grad()
1707
            result4 = paddle.max(x, axis=1, keepdim=True)
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            result4.backward()
            print(result4, x.grad) 
            #[[0.9], [0.7]], [[0., 0., 0., 1.], [0., 0., 0., 1.]]
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            # data_y is a Tensor with shape [2, 2, 2]
1713
            # the axis is list 
1714
            y = paddle.to_tensor([[[1.0, 2.0], [3.0, 4.0]],
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                                  [[5.0, 6.0], [7.0, 8.0]]],
                                 dtype='float64', stop_gradient=False)
1717
            result5 = paddle.max(y, axis=[1, 2])
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            result5.backward()
            print(result5, y.grad) 
            #[4., 8.], [[[0., 0.], [0., 1.]], [[0., 0.], [0., 1.]]]

            y.clear_grad()
1723
            result6 = paddle.max(y, axis=[0, 1])
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            result6.backward()
            print(result6, y.grad) 
            #[7., 8.], [[[0., 0.], [0., 0.]], [[0., 0.], [1., 1.]]]
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    """

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    reduce_all, axis = _get_reduce_all_value(axis)
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    if in_dygraph_mode():
        if reduce_all:
            axis = range(len(x.shape))
        return _C_ops.final_state_max(x, axis, keepdim)
    if _in_legacy_dygraph():
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        return _C_ops.reduce_max(x, 'dim', axis, 'keep_dim', keepdim,
1736
                                   'reduce_all', reduce_all)
1737

1738
    helper = LayerHelper('max', **locals())
1739
    check_variable_and_dtype(
1740
        x, 'x', ['float32', 'float64', 'int32', 'int64'], 'max')
1741

1742
    out = helper.create_variable_for_type_inference(
1743
            dtype=x.dtype)
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    helper.append_op(
        type='reduce_max',
1746
        inputs={'X': x},
1747 1748
        outputs={'Out': out},
        attrs={
1749 1750
            'dim': axis,
            'keep_dim': keepdim,
1751 1752 1753 1754
            'reduce_all': reduce_all
        })
    return out

1755
def min(x, axis=None, keepdim=False, name=None):
1756
    """
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    Computes the minimum of tensor elements over the given axis
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    Note:
        The difference between min and amin is: If there are multiple minimum elements,
        amin evenly distributes gradient between these equal values, 
        while min propagates gradient to all of them.

1765
    Args:
1766
        x(Tensor): A tensor, the data type is float32, float64, int32, int64.
1767
        axis(int|list|tuple, optional): The axis along which the minimum is computed.
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            If :attr:`None`, compute the minimum over all elements of
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            `x` and return a Tensor with a single element,
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            otherwise must be in the range :math:`[-x.ndim, x.ndim)`.
            If :math:`axis[i] < 0`, the axis to reduce is :math:`x.ndim + axis[i]`.
        keepdim(bool, optional): Whether to reserve the reduced dimension in the
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            output Tensor. The result tensor will have one fewer dimension
1774
            than the `x` unless :attr:`keepdim` is true, default
1775
            value is False.
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        name(str, optional): The default value is None.  Normally there is no need for 
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            user to set this property.  For more information, please refer to :ref:`api_guide_Name`
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1779
    Returns:
1780
        Tensor, results of minimum on the specified axis of input tensor,
1781
        it's data type is the same as input's Tensor.
1782

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    Examples:
        .. code-block:: python

1786
            import paddle
1787

1788
            # data_x is a Tensor with shape [2, 4]
1789
            # the axis is a int element
1790
            x = paddle.to_tensor([[0.2, 0.3, 0.5, 0.9],
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                                  [0.1, 0.2, 0.6, 0.7]], 
                                 dtype='float64', stop_gradient=False)
1793
            result1 = paddle.min(x)
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            result1.backward()
            print(result1, x.grad) 
            #[0.1], [[0., 0., 0., 0.], [1., 0., 0., 0.]]

            x.clear_grad()
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            result2 = paddle.min(x, axis=0)
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            result2.backward()
            print(result2, x.grad) 
            #[0.1, 0.2, 0.5, 0.7], [[0., 0., 1., 0.], [1., 1., 0., 1.]]

            x.clear_grad()
1805
            result3 = paddle.min(x, axis=-1)
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            result3.backward()
            print(result3, x.grad) 
            #[0.2, 0.1], [[1., 0., 0., 0.], [1., 0., 0., 0.]]

            x.clear_grad()
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            result4 = paddle.min(x, axis=1, keepdim=True)
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            result4.backward()
            print(result4, x.grad) 
            #[[0.2], [0.1]], [[1., 0., 0., 0.], [1., 0., 0., 0.]]
1815

1816
            # data_y is a Tensor with shape [2, 2, 2]
1817
            # the axis is list 
1818
            y = paddle.to_tensor([[[1.0, 2.0], [3.0, 4.0]],
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                                  [[5.0, 6.0], [7.0, 8.0]]],
                                 dtype='float64', stop_gradient=False)
1821
            result5 = paddle.min(y, axis=[1, 2])
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            result5.backward()
            print(result5, y.grad) 
            #[1., 5.], [[[1., 0.], [0., 0.]], [[1., 0.], [0., 0.]]]

            y.clear_grad()
1827
            result6 = paddle.min(y, axis=[0, 1])
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            result6.backward()
            print(result6, y.grad) 
            #[1., 2.], [[[1., 1.], [0., 0.]], [[0., 0.], [0., 0.]]]
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    """
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    reduce_all, axis = _get_reduce_all_value(axis)
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    if in_dygraph_mode():
        if reduce_all:
            axis = range(len(x.shape))
        return _C_ops.final_state_min(x, axis, keepdim)

    if _in_legacy_dygraph():
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        return _C_ops.reduce_min(x, 'dim', axis, 'keep_dim', keepdim,
1841
                                   'reduce_all', reduce_all)
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    helper = LayerHelper('min', **locals())
    check_variable_and_dtype(
        x, 'x', ['float32', 'float64', 'int32', 'int64'], 'min')

    out = helper.create_variable_for_type_inference(
1848
            dtype=x.dtype)
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    helper.append_op(
        type='reduce_min',
1851
        inputs={'X': x},
1852 1853
        outputs={'Out': out},
        attrs={
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            'dim': axis,
            'keep_dim': keepdim,
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            'reduce_all': reduce_all
        })
    return out

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def amax(x, axis=None, keepdim=False, name=None):
    """
    Computes the maximum of tensor elements over the given axis.

    Note:
        The difference between max and amax is: If there are multiple maximum elements,
        amax evenly distributes gradient between these equal values, 
        while max propagates gradient to all of them.

    Args:
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        x(Tensor): A tensor, the data type is float32, float64, int32, int64,
            the dimension is no more than 4.
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        axis(int|list|tuple, optional): The axis along which the maximum is computed.
            If :attr:`None`, compute the maximum over all elements of
            `x` and return a Tensor with a single element,
            otherwise must be in the range :math:`[-x.ndim(x), x.ndim(x))`.
            If :math:`axis[i] < 0`, the axis to reduce is :math:`x.ndim + axis[i]`.
        keepdim(bool, optional): Whether to reserve the reduced dimension in the
            output Tensor. The result tensor will have one fewer dimension
            than the `x` unless :attr:`keepdim` is true, default
            value is False.
        name(str, optional): The default value is None.  Normally there is no need for
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`

    Returns:
        Tensor, results of maximum on the specified axis of input tensor,
        it's data type is the same as `x`.

    Examples:
        .. code-block:: python

            import paddle
            # data_x is a Tensor with shape [2, 4] with multiple maximum elements
            # the axis is a int element

            x = paddle.to_tensor([[0.1, 0.9, 0.9, 0.9],
                                  [0.9, 0.9, 0.6, 0.7]], 
                                 dtype='float64', stop_gradient=False)
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            # There are 5 maximum elements: 
            # 1) amax evenly distributes gradient between these equal values, 
            #    thus the corresponding gradients are 1/5=0.2;
            # 2) while max propagates gradient to all of them, 
            #    thus the corresponding gradient are 1.
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            result1 = paddle.amax(x)
            result1.backward()
            print(result1, x.grad) 
            #[0.9], [[0., 0.2, 0.2, 0.2], [0.2, 0.2, 0., 0.]]

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            x.clear_grad()
            result1_max = paddle.max(x)
            result1_max.backward()
            print(result1_max, x.grad) 
            #[0.9], [[0., 1.0, 1.0, 1.0], [1.0, 1.0, 0., 0.]]

            ###############################

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            x.clear_grad()
            result2 = paddle.amax(x, axis=0)
            result2.backward()
            print(result2, x.grad) 
            #[0.9, 0.9, 0.9, 0.9], [[0., 0.5, 1., 1.], [1., 0.5, 0., 0.]]

            x.clear_grad()
            result3 = paddle.amax(x, axis=-1)
            result3.backward()
            print(result3, x.grad) 
            #[0.9, 0.9], [[0., 0.3333, 0.3333, 0.3333], [0.5, 0.5, 0., 0.]]

            x.clear_grad()
            result4 = paddle.amax(x, axis=1, keepdim=True)
            result4.backward()
            print(result4, x.grad) 
            #[[0.9], [0.9]], [[0., 0.3333, 0.3333, 0.3333.], [0.5, 0.5, 0., 0.]]

            # data_y is a Tensor with shape [2, 2, 2]
            # the axis is list 
            y = paddle.to_tensor([[[0.1, 0.9], [0.9, 0.9]],
                                  [[0.9, 0.9], [0.6, 0.7]]],
                                 dtype='float64', stop_gradient=False)
            result5 = paddle.amax(y, axis=[1, 2])
            result5.backward()
            print(result5, y.grad) 
            #[0.9., 0.9], [[[0., 0.3333], [0.3333, 0.3333]], [[0.5, 0.5], [0., 1.]]]

            y.clear_grad()
            result6 = paddle.amax(y, axis=[0, 1])
            result6.backward()
            print(result6, y.grad) 
            #[0.9., 0.9], [[[0., 0.3333], [0.5, 0.3333]], [[0.5, 0.3333], [1., 1.]]]
    """

    reduce_all, axis = _get_reduce_all_value(axis)
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    if paddle.in_dynamic_mode():
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        return _C_ops.reduce_amax(x, 'dim', axis, 'keep_dim', keepdim, 'reduce_all', reduce_all)

    helper = LayerHelper('amax', **locals())
    check_variable_and_dtype(
        x, 'x', ['float32', 'float64', 'int32', 'int64'], 'amax')

    out = helper.create_variable_for_type_inference(
            dtype=x.dtype)
    helper.append_op(
        type='reduce_amax',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={
            'dim': axis,
            'keep_dim': keepdim,
            'reduce_all': reduce_all
        })
    return out

def amin(x, axis=None, keepdim=False, name=None):
    """

    Computes the minimum of tensor elements over the given axis

    Note:
        The difference between min and amin is: If there are multiple minimum elements,
        amin evenly distributes gradient between these equal values, 
        while min propagates gradient to all of them.

    Args:
1983 1984
        x(Tensor): A tensor, the data type is float32, float64, int32, int64, 
            the dimension is no more than 4.
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        axis(int|list|tuple, optional): The axis along which the minimum is computed.
            If :attr:`None`, compute the minimum over all elements of
            `x` and return a Tensor with a single element,
            otherwise must be in the range :math:`[-x.ndim, x.ndim)`.
            If :math:`axis[i] < 0`, the axis to reduce is :math:`x.ndim + axis[i]`.
        keepdim(bool, optional): Whether to reserve the reduced dimension in the
            output Tensor. The result tensor will have one fewer dimension
            than the `x` unless :attr:`keepdim` is true, default
            value is False.
        name(str, optional): The default value is None.  Normally there is no need for 
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`

    Returns:
        Tensor, results of minimum on the specified axis of input tensor,
        it's data type is the same as input's Tensor.

    Examples:
        .. code-block:: python

            import paddle
            # data_x is a Tensor with shape [2, 4] with multiple minimum elements
            # the axis is a int element

            x = paddle.to_tensor([[0.2, 0.1, 0.1, 0.1],
                                  [0.1, 0.1, 0.6, 0.7]], 
                                 dtype='float64', stop_gradient=False)
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            # There are 5 minimum elements: 
            # 1) amin evenly distributes gradient between these equal values, 
            #    thus the corresponding gradients are 1/5=0.2;
            # 2) while min propagates gradient to all of them, 
            #    thus the corresponding gradient are 1.
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            result1 = paddle.amin(x)
            result1.backward()
            print(result1, x.grad) 
            #[0.1], [[0., 0.2, 0.2, 0.2], [0.2, 0.2, 0., 0.]]

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            x.clear_grad()
            result1_min = paddle.min(x)
            result1_min.backward()
            print(result1_min, x.grad) 
            #[0.1], [[0., 1.0, 1.0, 1.0], [1.0, 1.0, 0., 0.]]

            ###############################

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            x.clear_grad()
            result2 = paddle.amin(x, axis=0)
            result2.backward()
            print(result2, x.grad) 
            #[0.1, 0.1, 0.1, 0.1], [[0., 0.5, 1., 1.], [1., 0.5, 0., 0.]]

            x.clear_grad()
            result3 = paddle.amin(x, axis=-1)
            result3.backward()
            print(result3, x.grad) 
            #[0.1, 0.1], [[0., 0.3333, 0.3333, 0.3333], [0.5, 0.5, 0., 0.]]

            x.clear_grad()
            result4 = paddle.amin(x, axis=1, keepdim=True)
            result4.backward()
            print(result4, x.grad) 
            #[[0.1], [0.1]], [[0., 0.3333, 0.3333, 0.3333.], [0.5, 0.5, 0., 0.]]

            # data_y is a Tensor with shape [2, 2, 2]
            # the axis is list 
            y = paddle.to_tensor([[[0.2, 0.1], [0.1, 0.1]],
                                  [[0.1, 0.1], [0.6, 0.7]]],
                                 dtype='float64', stop_gradient=False)
            result5 = paddle.amin(y, axis=[1, 2])
            result5.backward()
            print(result5, y.grad) 
            #[0.1., 0.1], [[[0., 0.3333], [0.3333, 0.3333]], [[0.5, 0.5], [0., 1.]]]

            y.clear_grad()
            result6 = paddle.amin(y, axis=[0, 1])
            result6.backward()
            print(result6, y.grad) 
            #[0.1., 0.1], [[[0., 0.3333], [0.5, 0.3333]], [[0.5, 0.3333], [1., 1.]]]
    """

    reduce_all, axis = _get_reduce_all_value(axis)
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    if paddle.in_dynamic_mode():
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        return _C_ops.reduce_amin(x, 'dim', axis, 'keep_dim', keepdim, 'reduce_all', reduce_all)

    helper = LayerHelper('amin', **locals())
    check_variable_and_dtype(
        x, 'x', ['float32', 'float64', 'int32', 'int64'], 'amin')

    out = helper.create_variable_for_type_inference(
            dtype=x.dtype)
    helper.append_op(
        type='reduce_amin',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={
            'dim': axis,
            'keep_dim': keepdim,
            'reduce_all': reduce_all
        })
    return out

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def log1p(x, name=None):
2086
    r"""
2087
    Calculates the natural log of the given input tensor, element-wise.
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    .. math::
        Out = \\ln(x+1)
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    Args:
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        x (Tensor): Input Tensor. Must be one of the following types: float32, float64.
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        name(str, optional): The default value is None.  Normally there is no need for 
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`
    Returns:
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        Tensor, the natural log of the input Tensor computed element-wise.
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    Examples:
        .. code-block:: python
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            import paddle
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            data = paddle.to_tensor([[0], [1]], dtype='float32')
            res = paddle.log1p(data)
            # [[0.], [0.6931472]]
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    """

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    if in_dygraph_mode():
        return _C_ops.final_state_log1p(x)
    if _in_legacy_dygraph():
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        return _C_ops.log1p(x)
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    check_variable_and_dtype(x, 'x', ['float32', 'float64'], "log1p")
    inputs = {'X': [x]}
    helper = LayerHelper('log1p', **locals())
    dtype = helper.input_dtype(input_param_name='x')
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    out = helper.create_variable_for_type_inference(dtype)
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    helper.append_op(type="log1p", inputs={"X": x}, outputs={"Out": out})
    return out
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def log2(x, name=None):
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    r"""
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    Calculates the log to the base 2 of the given input tensor, element-wise.

    .. math::

        Out = \\log_2x

    Args:
        x (Tensor): Input tensor must be one of the following types: float32, float64.
        name (str|None): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`


    Returns:
        Tensor: The log to the base 2 of the input Tensor computed element-wise.

    Examples:

        .. code-block:: python
        
            import paddle

            # example 1: x is a float
            x_i = paddle.to_tensor([[1.0], [2.0]])
            res = paddle.log2(x_i) # [[0.], [1.0]]

            # example 2: x is float32
            x_i = paddle.full(shape=[1], fill_value=2, dtype='float32')
            paddle.to_tensor(x_i)
            res = paddle.log2(x_i)
            print(res) # [1.0]

            # example 3: x is float64
            x_i = paddle.full(shape=[1], fill_value=2, dtype='float64')
            paddle.to_tensor(x_i)
            res = paddle.log2(x_i)
            print(res) # [1.0]
    """
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    if in_dygraph_mode():
        return _C_ops.final_state_log2(x)
    if _in_legacy_dygraph():
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        return _C_ops.log2(x)
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    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64'], "log2")
    inputs = {'X': [x]}
    helper = LayerHelper('log2', **locals())
    dtype = helper.input_dtype(input_param_name='x')
    out = helper.create_variable_for_type_inference(dtype)
    helper.append_op(type="log2", inputs={"X": x}, outputs={"Out": out})
    return out
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def log10(x, name=None):
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    r"""
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    Calculates the log to the base 10 of the given input tensor, element-wise.

    .. math::

        Out = \\log_10_x

    Args:
        x (Tensor): Input tensor must be one of the following types: float32, float64.
        name (str|None): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`


    Returns:
        Tensor: The log to the base 10 of the input Tensor computed element-wise.

    Examples:

        .. code-block:: python
        
            import paddle

            # example 1: x is a float
            x_i = paddle.to_tensor([[1.0], [10.0]])
            res = paddle.log10(x_i) # [[0.], [1.0]]

            # example 2: x is float32
            x_i = paddle.full(shape=[1], fill_value=10, dtype='float32')
            paddle.to_tensor(x_i)
            res = paddle.log10(x_i)
            print(res) # [1.0]

            # example 3: x is float64
            x_i = paddle.full(shape=[1], fill_value=10, dtype='float64')
            paddle.to_tensor(x_i)
            res = paddle.log10(x_i)
            print(res) # [1.0]
    """
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    if in_dygraph_mode():
        return _C_ops.final_state_log10(x)
    if _in_legacy_dygraph():
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        return _C_ops.log10(x)
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    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64'], "log10")
    inputs = {'X': [x]}
    helper = LayerHelper('log10', **locals())
    dtype = helper.input_dtype(input_param_name='x')
    out = helper.create_variable_for_type_inference(dtype)
    helper.append_op(type="log10", inputs={"X": x}, outputs={"Out": out})
    return out


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def clip(x, min=None, max=None, name=None):
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    """
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    This operator clip all elements in input into the range [ min, max ] and return
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    a resulting tensor as the following equation:

    .. math::

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        Out = MIN(MAX(x, min), max)
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    Args:
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        x (Tensor): An N-D Tensor with data type float32, float64, int32 or int64.
        min (float|int|Tensor): The lower bound with type ``float`` , ``int`` or a ``Tensor``
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            with shape [1] and type ``int32``, ``float32``, ``float64``.
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        max (float|int|Tensor): The upper bound with type ``float``, ``int`` or a ``Tensor``
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            with shape [1] and type ``int32``, ``float32``, ``float64``.
        name (str, optional): The default value is None. Normally there is no
            need for user to set this property. For more information, please
            refer to :ref:`api_guide_Name`.

    Returns:
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        Tensor: A Tensor with the same data type and data shape as input.
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    Examples:
        .. code-block:: python

            import paddle
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            x1 = paddle.to_tensor([[1.2, 3.5], [4.5, 6.4]], 'float32')
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            out1 = paddle.clip(x1, min=3.5, max=5.0)
            out2 = paddle.clip(x1, min=2.5)
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            print(out1)
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            # [[3.5, 3.5]
            # [4.5, 5.0]]
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            print(out2)
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            # [[2.5, 3.5]
            # [[4.5, 6.4]
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    """

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    x_dtype = str(x.dtype)
    if x_dtype == 'paddle.int32':
        min_ = np.iinfo(np.int32).min
        max_ = np.iinfo(np.int32).max - 2**7
    elif x_dtype == 'paddle.int64':
        min_ = np.iinfo(np.int64).min
        max_ = np.iinfo(np.int64).max - 2**39
    else:
        min_ = float(np.finfo(np.float32).min)
        max_ = float(np.finfo(np.float32).max)
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    if paddle.in_dynamic_mode():
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        if isinstance(min, Variable):
            min = min.numpy().item(0)
        if isinstance(max, Variable):
            max = max.numpy().item(0)
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        min = min_ if min is None else min
        max = max_ if max is None else max
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        return _C_ops.clip(x, "min", min, "max", max)
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    if min is not None:
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        check_type(min, 'min', (float, int, Variable), 'clip')
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        if isinstance(min, Variable):
            check_dtype(min.dtype, 'min', ['float32', 'float64', 'int32'],
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                        'clip', '(When the type of min in clip is Variable.)')
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    if max is not None:
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        check_type(max, 'max', (float, int, Variable), 'clip')
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        if isinstance(max, Variable):
            check_dtype(max.dtype, 'max', ['float32', 'float64', 'int32'],
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                        'clip', '(When the type of max in clip is Variable.)')
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    check_variable_and_dtype(x, 'x', ['float32', 'float64', 'int32', 'int64'], 'clip')
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    inputs = {'X': x}
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    attrs = {'min': min_, 'max': max_}
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    if isinstance(min, Variable):
        min.stop_gradient = True
        inputs['Min'] = min
    elif min is not None:
        attrs['min'] = min

    if isinstance(max, Variable):
        max.stop_gradient = True
        inputs['Max'] = max
    elif max is not None:
        attrs['max'] = max

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    helper = LayerHelper('clip', **locals())
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    output = helper.create_variable_for_type_inference(
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        dtype=helper.input_dtype('x'))
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    helper.append_op(
        type='clip', inputs=inputs, outputs={'Out': [output]}, attrs=attrs)

    return output
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@inplace_apis_in_dygraph_only
def clip_(x, min=None, max=None, name=None):
    """
    Inplace version of ``clip`` API, the output Tensor will be inplaced with input ``x``.
    Please refer to :ref:`api_tensor_clip`.
    """
    fmin = float(np.finfo(np.float32).min)
    fmax = float(np.finfo(np.float32).max)
    if isinstance(min, Variable):
        min = min.numpy().item(0)
    if isinstance(max, Variable):
        max = max.numpy().item(0)
    min = fmin if min is None else min
    max = fmax if max is None else max
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    return _C_ops.clip_(x, "min", min, "max", max)
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def trace(x, offset=0, axis1=0, axis2=1, name=None):
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    """
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    **trace**
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    This OP computes the sum along diagonals of the input tensor x.
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    If ``x`` is 2D, returns the sum of diagonal.
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    If ``x`` has larger dimensions, then returns an tensor of diagonals sum, diagonals be taken from
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    the 2D planes specified by axis1 and axis2. By default, the 2D planes formed by the first and second axes
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    of the input tensor x.
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    The argument ``offset`` determines where diagonals are taken from input tensor x:
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    - If offset = 0, it is the main diagonal.
    - If offset > 0, it is above the main diagonal.
    - If offset < 0, it is below the main diagonal.
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    - Note that if offset is out of input's shape indicated by axis1 and axis2, 0 will be returned.
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    Args:
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        x(Tensor): The input tensor x. Must be at least 2-dimensional. The input data type should be float32, float64, int32, int64.
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        offset(int, optional): Which diagonals in input tensor x will be taken. Default: 0 (main diagonals).
        axis1(int, optional): The first axis with respect to take diagonal. Default: 0.
        axis2(int, optional): The second axis with respect to take diagonal. Default: 1.
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        name (str, optional): Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`. Default: None.

    Returns:
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        Tensor: the output data type is the same as input data type.
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    Examples:
        .. code-block:: python

            import paddle
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            case1 = paddle.randn([2, 3])
            case2 = paddle.randn([3, 10, 10])
            case3 = paddle.randn([3, 10, 5, 10])
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            data1 = paddle.trace(case1) # data1.shape = [1]
            data2 = paddle.trace(case2, offset=1, axis1=1, axis2=2) # data2.shape = [3]
            data3 = paddle.trace(case3, offset=-3, axis1=1, axis2=-1) # data2.shape = [3, 5]
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    """
    def __check_input(input, offset, dim1, dim2):
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        check_dtype(x.dtype, 'Input',
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                    ['int32', 'int64', 'float16', 'float32', 'float64'],
                    'trace')

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        input_shape = list(x.shape)
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        assert len(input_shape) >= 2,                     \
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                "The x must be at least 2-dimensional, "   \
                "But received Input x's dimensional: %s.\n" %  \
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                len(input_shape)

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        axis1_ = axis1 if axis1 >= 0 else len(input_shape) + axis1
        axis2_ = axis2 if axis2 >= 0 else len(input_shape) + axis2
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        assert ((0 <= axis1_) and (axis1_ < len(input_shape))),     \
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            "The argument axis1 is out of range (expected to be in range of [%d, %d], but got %d).\n"  \
            % (-(len(input_shape)), len(input_shape) - 1, axis1)
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        assert ((0 <= axis2_) and (axis2_ < len(input_shape))),   \
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            "The argument axis2 is out of range (expected to be in range of [%d, %d], but got %d).\n"   \
            % (-(len(input_shape)), len(input_shape) - 1, axis2)
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        assert  axis1_ != axis2_,   \
               "axis1 and axis2 cannot be the same axis." \
                "But received axis1 = %d, axis2 = %d\n"%(axis1, axis2)
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    __check_input(input, offset, axis1, axis2)
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    if in_dygraph_mode():
        return _C_ops.final_state_trace( x, offset, axis1, axis2 )

    if _in_legacy_dygraph():
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        return _C_ops.trace(x, 'offset', offset, 'axis1', axis1, 'axis2', axis2)

    inputs = {'Input': [x]}
    attrs = {'offset': offset, 'axis1': axis1, 'axis2': axis2}
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    helper = LayerHelper('trace', **locals())

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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(
        type='trace',
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        inputs={'Input': [x]},
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        attrs={'offset': offset,
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               'axis1': axis1,
               'axis2': axis2},
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        outputs={'Out': [out]})
    return out

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def diagonal(x, offset=0, axis1=0, axis2=1, name=None):
    """
    This OP computes the diagonals of the input tensor x.

    If ``x`` is 2D, returns the diagonal.
    If ``x`` has larger dimensions, diagonals be taken from the 2D planes specified by axis1 and axis2. 
    By default, the 2D planes formed by the first and second axis of the input tensor x.

    The argument ``offset`` determines where diagonals are taken from input tensor x:

    - If offset = 0, it is the main diagonal.
    - If offset > 0, it is above the main diagonal.
    - If offset < 0, it is below the main diagonal.
    
    Args:
        x(Tensor): The input tensor x. Must be at least 2-dimensional. The input data type should be bool, int32, int64, float16, float32, float64.
        offset(int, optional): Which diagonals in input tensor x will be taken. Default: 0 (main diagonals).
        axis1(int, optional): The first axis with respect to take diagonal. Default: 0.
        axis2(int, optional): The second axis with respect to take diagonal. Default: 1.
        name (str, optional): Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`. Default: None.

    Returns:
        Tensor: a partial view of input tensor in specify two dimensions, the output data type is the same as input data type.

    Examples:
        .. code-block:: python

            import paddle

            x = paddle.rand([2,2,3],'float32')
            print(x)
            # Tensor(shape=[2, 2, 3], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #        [[[0.45661032, 0.03751532, 0.90191704],
            #          [0.43760979, 0.86177313, 0.65221709]],

            #         [[0.17020577, 0.00259554, 0.28954273],
            #          [0.51795638, 0.27325270, 0.18117726]]])

            out1 = paddle.diagonal(x)
            print(out1)
            #Tensor(shape=[3, 2], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #       [[0.45661032, 0.51795638],
            #        [0.03751532, 0.27325270],
            #        [0.90191704, 0.18117726]])

            out2 = paddle.diagonal(x, offset=0, axis1=2, axis2=1)
            print(out2)
            #Tensor(shape=[2, 2], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #       [[0.45661032, 0.86177313],
            #        [0.17020577, 0.27325270]])

            out3 = paddle.diagonal(x, offset=1, axis1=0, axis2=1)
            print(out3)
            #Tensor(shape=[3, 1], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #       [[0.43760979],
            #        [0.86177313],
            #        [0.65221709]])

            out4 = paddle.diagonal(x, offset=0, axis1=1, axis2=2)
            print(out4)
            #Tensor(shape=[2, 2], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #       [[0.45661032, 0.86177313],
            #        [0.17020577, 0.27325270]])
            
    """
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    if in_dygraph_mode():
        return _C_ops.final_state_diagonal(x, offset, axis1, axis2)
    else:
        if _in_legacy_dygraph():
            return _C_ops.diagonal(x, 'offset', offset, 'axis1', axis1, 'axis2', axis2)
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    def __check_input(input, offset, dim1, dim2):
        check_dtype(x.dtype, 'Input',
                    ['bool', 'int32', 'int64', 'float16', 'float32', 'float64'],
                    'diagonal')

        input_shape = list(x.shape)
        assert len(input_shape) >= 2,                     \
                "The x must be at least 2-dimensional, "   \
                "But received Input x's dimensional: %s.\n" %  \
                len(input_shape)

        axis1_ = axis1 if axis1 >= 0 else len(input_shape) + axis1
        axis2_ = axis2 if axis2 >= 0 else len(input_shape) + axis2

        assert axis1_ < len(input_shape),     \
            "The argument axis1 is out of range (expected to be in range of [%d, %d], but got %d).\n"  \
            % (-(len(input_shape)), len(input_shape) - 1, axis1)

        assert axis2_ < len(input_shape),   \
            "The argument axis2 is out of range (expected to be in range of [%d, %d], but got %d).\n"   \
            % (-(len(input_shape)), len(input_shape) - 1, axis2)

        assert  axis1_ != axis2_,   \
               "axis1 and axis2 cannot be the same axis." \
                "But received axis1 = %d, axis2 = %d\n"%(axis1, axis2)

    __check_input(input, offset, axis1, axis2)
    helper = LayerHelper('diagonal', **locals())
    out = helper.create_variable_for_type_inference(dtype=x.dtype)

    helper.append_op(
        type='diagonal',
        inputs={'Input': [x]},
        attrs={'offset': offset,
               'axis1': axis1,
               'axis2': axis2},
               outputs={'Out': [out]})
    return out


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@templatedoc(op_type="kron")
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def kron(x, y, name=None):
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    """

${comment}
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    Args:
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        x (Tensor): the fist operand of kron op, data type: float16, float32,
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            float64, int32 or int64.
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        y (Tensor): the second operand of kron op, data type: float16,
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            float32, float64, int32 or int64. Its data type should be the same
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            with x.
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        name(str, optional): The default value is None.  Normally there is no
            need for user to set this property.  For more information, please
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            refer to :ref:`api_guide_Name`.

    Returns:
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        Tensor: The output of kron op, data type: float16, float32, float64, int32 or int64. Its data is the same with x.
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    Examples:
        .. code-block:: python
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            import paddle
            x = paddle.to_tensor([[1, 2], [3, 4]], dtype='int64')
            y = paddle.to_tensor([[1, 2, 3], [4, 5, 6], [7, 8, 9]], dtype='int64')
            out = paddle.kron(x, y)
            print(out)
            #        [[1, 2, 3, 2, 4, 6],
            #         [ 4,  5,  6,  8, 10, 12],
            #         [ 7,  8,  9, 14, 16, 18],
            #         [ 3,  6,  9,  4,  8, 12],
            #         [12, 15, 18, 16, 20, 24],
            #         [21, 24, 27, 28, 32, 36]])
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    """
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    if paddle.in_dynamic_mode():
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        return _C_ops.kron(x, y)
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    helper = LayerHelper('kron', **locals())
    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64', 'int32', 'int64'], 'kron')
    check_variable_and_dtype(y, 'y', ['float16', 'float32', 'float64', 'int32', 'int64'], 'kron')

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    out = helper.create_variable_for_type_inference(dtype=x.dtype)
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    helper.append_op(type="kron", inputs={"X": x, "Y": y}, outputs={"Out": out})
    return out
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def cumsum(x, axis=None, dtype=None, name=None):
    """
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    The cumulative sum of the elements along a given axis. 
    
    **Note**:
    The first element of the result is the same of the first element of the input. 
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    Args:
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        x (Tensor): The input tensor needed to be cumsumed.
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        axis (int, optional): The dimension to accumulate along. -1 means the last dimension. The default (None) is to compute the cumsum over the flattened array.
        dtype (str, optional): The data type of the output tensor, can be float32, float64, int32, int64. If specified, the input tensor is casted to dtype before the operation is performed. This is useful for preventing data type overflows. The default value is None. 
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
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        Tensor, the result of cumsum operator. 
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    Examples:
        .. code-block:: python
            
            import paddle
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            data = paddle.arange(12)
            data = paddle.reshape(data, (3, 4))
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            y = paddle.cumsum(data)
            # [ 0  1  3  6 10 15 21 28 36 45 55 66]

            y = paddle.cumsum(data, axis=0)
            # [[ 0  1  2  3]
            #  [ 4  6  8 10]
            #  [12 15 18 21]]
            
            y = paddle.cumsum(data, axis=-1)
            # [[ 0  1  3  6]
            #  [ 4  9 15 22]
            #  [ 8 17 27 38]]

            y = paddle.cumsum(data, dtype='float64')
            print(y.dtype)
            # VarType.FP64
    """
    if axis is None:
        flatten = True
    else:
        flatten = False
    if dtype is not None and x.dtype != convert_np_dtype_to_dtype_(dtype):
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        x = cast(x, dtype)
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    if in_dygraph_mode():
        return _C_ops.final_state_cumsum(x, axis, flatten, False, False)
    if _in_legacy_dygraph():
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        if axis is None:
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            return _C_ops.cumsum(x, 'flatten', flatten)
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        else:
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            return _C_ops.cumsum(x, 'axis', axis, 'flatten', flatten)
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    check_type(x, 'x', (Variable), 'cumsum')
    locals_var = locals().copy()
    kwargs = dict()
    for name, val in locals_var.items():
        if val is not None:
            kwargs[name] = val
    _cum_sum_ = generate_layer_fn('cumsum')
    return _cum_sum_(**kwargs)
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def cumprod(x, dim=None, dtype=None, name=None):
    """
    Compute the cumulative product of the input tensor x along a given dimension dim.

    **Note**:
    The first element of the result is the same as the first element of the input.

    Args:
        x (Tensor): the input tensor need to be cumproded.
        dim (int): the dimension along which the input tensor will be accumulated. It need to be in the range of [-x.rank, x.rank), where x.rank means the dimensions of the input tensor x and -1 means the last dimension.
        dtype (str, optional): The data type of the output tensor, can be float32, float64, int32, int64, complex64, complex128. If specified, the input tensor is casted to dtype before the operation is performed. This is useful for preventing data type overflows. The default value is None.
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        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.
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    Returns:
        Tensor, the result of cumprod operator.

    Examples:
        .. code-block:: python

            import paddle

            data = paddle.arange(12)
            data = paddle.reshape(data, (3, 4))
            # [[ 0  1  2  3 ]
            #  [ 4  5  6  7 ]
            #  [ 8  9  10 11]]

            y = paddle.cumprod(data, dim=0)
            # [[ 0  1   2   3]
            #  [ 0  5  12  21]
            #  [ 0 45 120 231]]

            y = paddle.cumprod(data, dim=-1)
            # [[ 0   0   0    0]
            #  [ 4  20 120  840]
            #  [ 8  72 720 7920]]

            y = paddle.cumprod(data, dim=1, dtype='float64')
            # [[ 0.   0.   0.    0.]
            #  [ 4.  20. 120.  840.]
            #  [ 8.  72. 720. 7920.]]

            print(y.dtype)
            # paddle.float64

    """

    if dtype is not None and x.dtype != convert_np_dtype_to_dtype_(dtype):
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        x = cast(x, dtype)
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    if in_dygraph_mode():
        return _C_ops.final_state_cumprod(x, dim)
    if _in_legacy_dygraph():
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        return _C_ops.cumprod(x, 'dim', dim)

    check_variable_and_dtype(x, "x", ['complex64', 'complex128', 'float32', 'float64', 'int32', 'int64'], 'cumprod')
    check_type(dim, 'dim', int, 'cumprod')

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

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def isfinite(x, name=None):
    """

    Return whether every element of input tensor is finite number or not.

    Args:
        x (Tensor): The input tensor, it's data type should be float16, float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        `Tensor`, the bool result which shows every element of `x` whether it is finite number or not.

    Examples:
        .. code-block:: python

            import paddle
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            x = paddle.to_tensor([float('-inf'), -2, 3.6, float('inf'), 0, float('-nan'), float('nan')])
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            out = paddle.tensor.isfinite(x)
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            print(out)  # [False  True  True False  True False False]
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    """
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    if in_dygraph_mode():
        return _C_ops.final_state_isfinite( x )
    if _in_legacy_dygraph():
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        return _C_ops.isfinite_v2(x)
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    helper = LayerHelper("isfinite_v2", **locals())
    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64', 'int32', 'int64'], 'isfinite')
    out = helper.create_variable_for_type_inference('bool')
    helper.append_op(type="isfinite_v2", inputs={"X": x}, outputs={"Out": out})
    return out

def isinf(x, name=None):
    """

    Return whether every element of input tensor is `+/-INF` or not.

    Args:
        x (Tensor): The input tensor, it's data type should be float16, float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        `Tensor`, the bool result which shows every element of `x` whether it is `+/-INF` or not.

    Examples:
        .. code-block:: python

            import paddle
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            x = paddle.to_tensor([float('-inf'), -2, 3.6, float('inf'), 0, float('-nan'), float('nan')])
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            out = paddle.tensor.isinf(x)
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            print(out)  # [ True False False  True False False False]
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    """
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    if in_dygraph_mode():
        return _C_ops.final_state_isinf( x )
    if _in_legacy_dygraph():
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        return _C_ops.isinf_v2(x)
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    helper = LayerHelper("isinf_v2", **locals())
    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64', 'int32', 'int64'], 'isinf')
    out = helper.create_variable_for_type_inference(dtype='bool')
    helper.append_op(type="isinf_v2", inputs={"X": x}, outputs={"Out": out})
    return out

def isnan(x, name=None):
    """

    Return whether every element of input tensor is `NaN` or not.

    Args:
        x (Tensor): The input tensor, it's data type should be float16, float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        `Tensor`, the bool result which shows every element of `x` whether it is `NaN` or not.

    Examples:
        .. code-block:: python

            import paddle
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            x = paddle.to_tensor([float('-inf'), -2, 3.6, float('inf'), 0, float('-nan'), float('nan')])
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            out = paddle.tensor.isnan(x)
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            print(out)  # [False False False False False  True  True]
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    """
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    if in_dygraph_mode():
        return _C_ops.final_state_isnan( x )

    if _in_legacy_dygraph():
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        return _C_ops.isnan_v2(x)
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    helper = LayerHelper("isnan_v2", **locals())
    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64', 'int32', 'int64'], 'isnan')
    out = helper.create_variable_for_type_inference(dtype='bool')
    helper.append_op(type="isnan_v2", inputs={"X": x}, outputs={"Out": out})
    return out


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def prod(x, axis=None, keepdim=False, dtype=None, name=None):
    """
    Compute the product of tensor elements over the given axis.

    Args:
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        x(Tensor): The input tensor, its data type should be float32, float64, int32, int64.
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        axis(int|list|tuple, optional): The axis along which the product is computed. If :attr:`None`, 
            multiply all elements of `x` and return a Tensor with a single element, 
            otherwise must be in the range :math:`[-x.ndim, x.ndim)`. If :math:`axis[i]<0`, 
            the axis to reduce is :math:`x.ndim + axis[i]`. Default is None.
        dtype(str|np.dtype, optional): The desired date type of returned tensor, can be float32, float64, 
            int32, int64. If specified, the input tensor is casted to dtype before operator performed. 
            This is very useful for avoiding data type overflows. The default value is None, the dtype 
            of output is the same as input Tensor `x`.
        keepdim(bool, optional): Whether to reserve the reduced dimension in the output Tensor. The result 
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            tensor will have one fewer dimension than the input unless `keepdim` is true. Default is False.
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        name(string, optional): The default value is None. Normally there is no need for user to set this property.
            For more information, please refer to :ref:`api_guide_Name` .

    Returns:
        Tensor, result of product on the specified dim of input tensor.

    Raises:
        ValueError: The :attr:`dtype` must be float32, float64, int32 or int64.
        TypeError: The type of :attr:`axis` must be int, list or tuple.
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    Examples:
        .. code-block:: python

            import paddle

            # the axis is a int element
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            x = paddle.to_tensor([[0.2, 0.3, 0.5, 0.9],
                                  [0.1, 0.2, 0.6, 0.7]])
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            out1 = paddle.prod(x)
            # [0.0002268]

            out2 = paddle.prod(x, -1)
            # [0.027  0.0084]

            out3 = paddle.prod(x, 0)
            # [0.02 0.06 0.3  0.63]

            out4 = paddle.prod(x, 0, keepdim=True)
            # [[0.02 0.06 0.3  0.63]]

            out5 = paddle.prod(x, 0, dtype='int64')
            # [0 0 0 0]

            # the axis is list
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            y = paddle.to_tensor([[[1.0, 2.0], [3.0, 4.0]],
                                  [[5.0, 6.0], [7.0, 8.0]]])
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            out6 = paddle.prod(y, [0, 1])
            # [105. 384.]

            out7 = paddle.prod(y, (1, 2))
            # [  24. 1680.]

    """
    if dtype is not None:
        check_dtype(dtype, 'dtype', ['float32', 'float64', 'int32', 'int64'], 'prod')
        if x.dtype != convert_np_dtype_to_dtype_(dtype):
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            x = cast(x, dtype)
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    return reduce_prod(input=x, dim=axis, keep_dim=keepdim, name=name)
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def sign(x, name=None):
    """
    This OP returns sign of every element in `x`: 1 for positive, -1 for negative and 0 for zero.

    Args:
        x(Tensor): The input tensor. The data type can be float16, float32 or float64.
        name (str, optional): The default value is None. Normally there is no need for user to
            set this property. For more information, please refer to :ref:`api_guide_Name`

    Returns:
        Tensor: The output sign tensor with identical shape and data type to the input :attr:`x`.

    Examples:
        .. code-block:: python

          import paddle

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          x = paddle.to_tensor([3.0, 0.0, -2.0, 1.7], dtype='float32')
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          out = paddle.sign(x=x)
          print(out)  # [1.0, 0.0, -1.0, 1.0]
    """
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    if in_dygraph_mode():
        return _C_ops.final_state_sign(x)

    if _in_legacy_dygraph():
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        return _C_ops.sign(x)
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    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64'], 'sign')
    helper = LayerHelper("sign", **locals())
    out = helper.create_variable_for_type_inference(dtype=x.dtype)

    helper.append_op(type='sign', inputs={'X': [x]}, outputs={'Out': [out]})

    return out


def tanh(x, name=None):
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    r"""
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    Tanh Activation Operator.

    .. math::
        out = \\frac{e^{x} - e^{-x}}{e^{x} + e^{-x}}

    Args:
        x (Tensor): Input of Tanh operator, an N-D Tensor, with data type float32, float64 or float16.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        Output of Tanh operator, a Tensor with same data type and shape as input.

    Examples:

        .. code-block:: python

            import paddle

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            x = paddle.to_tensor([-0.4, -0.2, 0.1, 0.3])
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            out = paddle.tanh(x)
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            print(out)
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            # [-0.37994896 -0.19737532  0.09966799  0.29131261]
    """
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    if in_dygraph_mode():
        return _C_ops.final_state_tanh( x )

    if _in_legacy_dygraph():
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        return _C_ops.tanh(x)
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    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64'], 'tanh')
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    check_type(x, 'x', (Variable), 'tanh')
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    helper = LayerHelper('tanh', **locals())
    out = helper.create_variable_for_type_inference(x.dtype)
    helper.append_op(type='tanh', inputs={'X': x}, outputs={'Out': out})
    return out
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@inplace_apis_in_dygraph_only
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def tanh_(x, name=None):
    r"""
    Inplace version of ``tanh`` API, the output Tensor will be inplaced with input ``x``.
    Please refer to :ref:`api_tensor_tanh`.
    """
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    return _C_ops.tanh_(x)
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def increment(x, value=1.0, name=None):
    """
    The OP is usually used for control flow to increment the data of :attr:`x` by an amount :attr:`value`.
    Notice that the number of elements in :attr:`x` must be equal to 1.

    Args:
        x (Tensor): A tensor that must always contain only one element, its data type supports float32, float64, int32 and int64.
        value(float, optional): The amount to increment the data of :attr:`x`. Default: 1.0.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        Tensor, the elementwise-incremented tensor with the same shape and data type as :attr:`x`.

    Examples:
        .. code-block:: python

            import paddle

            data = paddle.zeros(shape=[1], dtype='float32')
            counter = paddle.increment(data)
            # [1.]

    """
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    if in_dygraph_mode():
        return _C_ops.final_state_increment( x, value)

    if _in_legacy_dygraph():
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        return _C_ops.increment(x, 'step', value)
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    check_variable_and_dtype(x, 'x', ['float32', 'float64', 'int32', 'int64'],
                             'increment')
    helper = LayerHelper("increment", **locals())
    helper.append_op(
        type='increment',
        inputs={'X': [x]},
        outputs={'Out': [x]},
        attrs={'step': float(value)})
    return x
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def all(x, axis=None, keepdim=False, name=None):
    """
    Computes the the ``logical and`` of tensor elements over the given dimension.

    Args:
        x (Tensor): An N-D Tensor, the input data type should be `bool`.
        axis (int|list|tuple, optional): The dimensions along which the ``logical and`` is compute. If
            :attr:`None`, and all elements of :attr:`x` and return a
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            Tensor with a single element, otherwise must be in the
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            range :math:`[-rank(x), rank(x))`. If :math:`axis[i] < 0`,
            the dimension to reduce is :math:`rank + axis[i]`.
        keepdim (bool, optional): Whether to reserve the reduced dimension in the
            output Tensor. The result Tensor will have one fewer dimension
            than the :attr:`x` unless :attr:`keepdim` is true, default
            value is False.
        name (str, optional): The default value is None. Normally there is no need for
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`

    Returns:
        Tensor: Results the ``logical and`` on the specified axis of input Tensor `x`,  it's data type is bool.

    Raises:
        ValueError: If the data type of `x` is not bool.
        TypeError: The type of :attr:`axis` must be int, list or tuple.

    Examples:
        .. code-block:: python

            import paddle
            import numpy as np
            
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            # x is a bool Tensor with following elements:
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            #    [[True, False]
            #     [True, True]]
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            x = paddle.assign(np.array([[1, 0], [1, 1]], dtype='int32'))
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            print(x)
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            x = paddle.cast(x, 'bool')
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            # out1 should be [False]
            out1 = paddle.all(x)  # [False]
            print(out1)
            
            # out2 should be [True, False]
            out2 = paddle.all(x, axis=0)  # [True, False]
            print(out2)
            
            # keep_dim=False, out3 should be [False, True], out.shape should be (2,)
            out3 = paddle.all(x, axis=-1)  # [False, True]
            print(out3)
            
            # keep_dim=True, out4 should be [[False], [True]], out.shape should be (2,1)
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            out4 = paddle.all(x, axis=1, keepdim=True)
            out4 = paddle.cast(out4, 'int32')  # [[False], [True]]
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            print(out4)
            
    """
    if axis is not None and not isinstance(axis, (list, tuple)):
        axis = [axis]

    if not axis:
        reduce_all_flag = True
    else:
        if len(axis) == len(x.shape):
            reduce_all_flag = True
        else:
            reduce_all_flag = False

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    if in_dygraph_mode():
        if reduce_all_flag:
            axis = range(len(x.shape))
        return _C_ops.final_state_all(x, axis, keepdim)

    if _in_legacy_dygraph():
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        axis = axis if axis != None and axis != [] else [0]
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        return _C_ops.reduce_all(x, 'dim', axis, 'keep_dim', keepdim,
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                                       'reduce_all', reduce_all_flag)

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    attrs = {
        'dim': axis if axis != None and axis != [] and axis != () else [0],
        'keep_dim': keepdim,
        'reduce_all': reduce_all_flag
    }
    check_variable_and_dtype(x, 'x', ['bool'], 'all')


    check_type(axis, 'axis', (int, list, tuple, type(None)), 'all')

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


def any(x, axis=None, keepdim=False, name=None):
    """
    Computes the the ``logical or`` of tensor elements over the given dimension.

    Args:
        x (Tensor): An N-D Tensor, the input data type should be `bool`.
        axis (int|list|tuple, optional): The dimensions along which the ``logical or`` is compute. If
            :attr:`None`, and all elements of :attr:`x` and return a
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            Tensor with a single element, otherwise must be in the
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            range :math:`[-rank(x), rank(x))`. If :math:`axis[i] < 0`,
            the dimension to reduce is :math:`rank + axis[i]`.
        keepdim (bool, optional): Whether to reserve the reduced dimension in the
            output Tensor. The result Tensor will have one fewer dimension
            than the :attr:`x` unless :attr:`keepdim` is true, default
            value is False.
        name (str, optional): The default value is None. Normally there is no need for
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`

    Returns:
        Tensor: Results the ``logical or`` on the specified axis of input Tensor `x`,  it's data type is bool.

    Raises:
        ValueError: If the data type of `x` is not bool.
        TypeError: The type of :attr:`axis` must be int, list or tuple.

    Examples:
        .. code-block:: python

            import paddle
            import numpy as np
            
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            # x is a bool Tensor with following elements:
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            #    [[True, False]
            #     [False, False]]
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            x = paddle.assign(np.array([[1, 0], [1, 1]], dtype='int32'))
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            print(x)
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            x = paddle.cast(x, 'bool')
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            # out1 should be [True]
            out1 = paddle.any(x)  # [True]
            print(out1)
            
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            # out2 should be [True, True]
            out2 = paddle.any(x, axis=0)  # [True, True]
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            print(out2)
            
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            # keep_dim=False, out3 should be [True, True], out.shape should be (2,)
            out3 = paddle.any(x, axis=-1)  # [True, True]
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            print(out3)
            
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            # keep_dim=True, result should be [[True], [True]], out.shape should be (2,1)
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            out4 = paddle.any(x, axis=1, keepdim=True)
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            out4 = paddle.cast(out4, 'int32')  # [[True], [True]]
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            print(out4)
            
    """
    if axis is not None and not isinstance(axis, (list, tuple)):
        axis = [axis]

    if not axis:
        reduce_all_flag = True
    else:
        if len(axis) == len(x.shape):
            reduce_all_flag = True
        else:
            reduce_all_flag = False

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    if in_dygraph_mode():
        if reduce_all_flag:
            axis = range(len(x.shape))
        return _C_ops.final_state_any(x, axis, keepdim)

    if _in_legacy_dygraph():
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        axis = axis if axis != None and axis != [] else [0]
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        return _C_ops.reduce_any(x, 'dim', axis, 'keep_dim', keepdim,
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                                       'reduce_all', reduce_all_flag)

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    attrs = {
        'dim': axis if axis != None and axis != [] and axis != () else [0],
        'keep_dim': keepdim,
        'reduce_all': reduce_all_flag
    }

    check_variable_and_dtype(x, 'x', ['bool'], 'any')


    check_type(axis, 'axis', (int, list, tuple, type(None)), 'any')

    helper = LayerHelper('any', **locals())
    out = helper.create_variable_for_type_inference(dtype=x.dtype)
    helper.append_op(
        type='reduce_any',
        inputs={'X': x},
        outputs={'Out': out},
        attrs=attrs)
    return out
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def broadcast_shape(x_shape, y_shape):
    """
    The function returns the shape of doing operation with broadcasting on tensors of x_shape and y_shape, please refer to :ref:`user_guide_broadcasting` for more details.

    Args:
        x_shape (list[int]|tuple[int]): A shape of tensor.
        y_shape (list[int]|tuple[int]): A shape of tensor.
        

    Returns:
        list[int], the result shape.

    Examples:
        .. code-block:: python

            import paddle

            shape = paddle.broadcast_shape([2, 1, 3], [1, 3, 1])
            # [2, 3, 3]
            
            # shape = paddle.broadcast_shape([2, 1, 3], [3, 3, 1])
            # ValueError (terminated with error message).

    """

    return core.broadcast_shape(x_shape, y_shape)
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def conj(x, name=None):
    r"""
    This function computes the conjugate of the Tensor elementwisely.

    Args:
        x (Tensor): The input tensor which hold the complex numbers. 
            Optional data types are: complex64, complex128, float32, float64, int32 or int64.
        name (str, optional): The default value is None. Normally there is no need for
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`

    Returns:
        out (Tensor): The conjugate of input. The shape and data type is the same with input.
            If the elements of tensor is real type such as float32, float64, int32 or int64, the out is the same with input.

    Examples:
        .. code-block:: python

          import paddle
          data=paddle.to_tensor([[1+1j, 2+2j, 3+3j], [4+4j, 5+5j, 6+6j]])
          #Tensor(shape=[2, 3], dtype=complex64, place=CUDAPlace(0), stop_gradient=True,
          #       [[(1+1j), (2+2j), (3+3j)],
          #        [(4+4j), (5+5j), (6+6j)]])

          conj_data=paddle.conj(data)
          #Tensor(shape=[2, 3], dtype=complex64, place=CUDAPlace(0), stop_gradient=True,
          #       [[(1-1j), (2-2j), (3-3j)],
          #        [(4-4j), (5-5j), (6-6j)]])

    """
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    if paddle.in_dynamic_mode():
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        return _C_ops.conj(x)
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    check_variable_and_dtype(x, "x", ['complex64', 'complex128', 'float32', 'float64', 'int32', 'int64'], 'conj')

    helper = LayerHelper('conj', **locals())
    out = helper.create_variable_for_type_inference(
            dtype=helper.input_dtype())

    helper.append_op(type='conj', inputs={'X': x}, outputs={'Out': [out]})
    return out
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def digamma(x, name=None):
    r"""
    Calculates the digamma of the given input tensor, element-wise.

    .. math::
        Out = \Psi(x) = \frac{ \Gamma^{'}(x) }{ \Gamma(x) }

    Args:
        x (Tensor): Input Tensor. Must be one of the following types: float32, float64.
        name(str, optional): The default value is None.  Normally there is no need for 
            user to set this property.  For more information, please refer to :ref:`api_guide_Name`
    Returns:
        Tensor, the digamma of the input Tensor, the shape and data type is the same with input.

    Examples:
        .. code-block:: python

            import paddle

            data = paddle.to_tensor([[1, 1.5], [0, -2.2]], dtype='float32')
            res = paddle.digamma(data)
            print(res)
            # Tensor(shape=[2, 2], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #       [[-0.57721591,  0.03648996],
            #        [ nan       ,  5.32286835]])
    """

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    if in_dygraph_mode():
        return _C_ops.final_state_digamma(x)
    else:
        if _in_legacy_dygraph():
            return _C_ops.digamma(x)
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    check_variable_and_dtype(x, 'x', ['float32', 'float64'], 'digamma')
    helper = LayerHelper('digamma', **locals())
    out = helper.create_variable_for_type_inference(x.dtype)
    helper.append_op(type='digamma', inputs={'X': x}, outputs={'Out': out})
    return out

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def neg(x, name=None):
    """
    This function computes the negative of the Tensor elementwisely.

    Args:
        x (Tensor): Input of neg operator, an N-D Tensor, with data type float32, float64, int8, int16, int32, or int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        out (Tensor): The negative of input Tensor. The shape and data type are the same with input Tensor.

    Examples:
        .. code-block:: python

            import paddle

            x = paddle.to_tensor([-0.4, -0.2, 0.1, 0.3])
            out = paddle.neg(x)
            print(out)
            # [0.4 0.2 -0.1 -0.3]
    """

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    return scale(x, scale=-1.0, bias=0.0, bias_after_scale=True, act=None, name=name)
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def atan2(x, y, name=None):
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    r"""
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    Element-wise arctangent of x/y with consideration of the quadrant.
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    Equation:
        .. math::

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            atan2(x,y)=\left\{\begin{matrix}
            & tan^{-1}(\frac{x}{y}) & y > 0 \\
            & tan^{-1}(\frac{x}{y}) + \pi & x>=0, y < 0 \\
            & tan^{-1}(\frac{x}{y}) - \pi & x<0, y < 0 \\
            & +\frac{\pi}{2} & x>0, y = 0 \\
            & -\frac{\pi}{2} & x<0, y = 0 \\
            &\text{undefined} & x=0, y = 0
            \end{matrix}\right.
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    Args:
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        x (Tensor): An N-D Tensor, the data type is int32, int64, float16, float32, float64.
        y (Tensor): An N-D Tensor, must have the same type as `x`.
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        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        out (Tensor): An N-D Tensor, the shape and data type is the same with input (The output data type is float64 when the input data type is int).

    Examples:
        .. code-block:: python

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            import paddle
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            x = paddle.to_tensor([-1, +1, +1, -1]).astype('float32')
            #Tensor(shape=[4], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #       [-1,  1,  1, -1])
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            y = paddle.to_tensor([-1, -1, +1, +1]).astype('float32')
            #Tensor(shape=[4], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #       [-1,  -1,  1, 1])
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            out = paddle.atan2(x, y)
            #Tensor(shape=[4], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #       [-2.35619450,  2.35619450,  0.78539819, -0.78539819])
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    """

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    if in_dygraph_mode():
        return _C_ops.final_state_atan2( x, y)
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    else:
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        if _in_legacy_dygraph():
            return _C_ops.atan2(x, y)
        else:
            check_variable_and_dtype(x, 'x', ['int32', 'int64', 'float16', 'float32', 'float64'], 'atan2')
            check_variable_and_dtype(y, 'y', ['int32', 'int64', 'float16', 'float32', 'float64'], 'atan2')
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            helper = LayerHelper('atan2', **locals())
            inputs = {'X1' : x, 'X2' : y}
            out = helper.create_variable_for_type_inference(dtype=x.dtype)
            helper.append_op(
                    type='atan2', inputs=inputs, outputs={'Out': out})
            return out
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def logit(x, eps=None, name=None):
    r"""
    This function generates a new tensor with the logit of the elements of input x. x is clamped to [eps, 1-eps] when eps is not zero. When eps is zero and x < 0 or x > 1, the function will yields NaN.

    .. math::
 
        logit(x) = ln(\frac{x}{1 - x})

    where

    .. math::

        x_i=
            \left\{\begin{array}{rcl}
                x_i & &\text{if } eps == Default \\
                eps & &\text{if } x_i < eps \\
                x_i & &\text{if } eps <= x_i <= 1-eps \\
                1-eps & &\text{if } x_i > 1-eps
            \end{array}\right.

    Args:
        x (Tensor): The input Tensor with data type float32, float64.
        eps (float, optional):  the epsilon for input clamp bound. Default is None.
        name (str, optional): Name for the operation (optional, default is None).
            For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        out(Tensor): A Tensor with the same data type and shape as ``x`` .

    Examples:
        .. code-block:: python

            import paddle

            x = paddle.to_tensor([0.2635, 0.0106, 0.2780, 0.2097, 0.8095])
            out1 = paddle.logit(x)
            print(out1)
            # [-1.0277, -4.5365, -0.9544, -1.3269,  1.4468]  

    """

    if eps == None:
        eps = 0.0
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    if paddle.in_dynamic_mode():
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        return _C_ops.logit(x, 'eps', eps)

    check_variable_and_dtype(x, 'x', ['float16', 'float32', 'float64'], 'logit')
    helper = LayerHelper("logit", **locals())
    out = helper.create_variable_for_type_inference(x.dtype)
    helper.append_op(
        type='logit',
        inputs={'X': x},
        outputs={'Out': out},
        attrs={'eps': eps})
    return out

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def lerp(x, y, weight, name=None):
    r"""
    Does a linear interpolation between x and y based on weight.

    Equation:
        .. math::

            lerp(x, y, weight) = x + weight * (y - x).

    Args:
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        x (Tensor): An N-D Tensor with starting points, the data type is float32, float64.
        y (Tensor): An N-D Tensor with ending points, the data type is float32, float64.
        weight (float|Tensor): The weight for the interpolation formula. When weight is Tensor, the data type is float32, float64.
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        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        out (Tensor): An N-D Tensor, the shape and data type is the same with input.

    Example:
        .. code-block:: python

            import paddle
            
            x = paddle.arange(1., 5., dtype='float32')
            y = paddle.empty([4], dtype='float32')
            y.fill_(10.)
            out = paddle.lerp(start, end, 0.5)
            # out: [5.5., 6., 6.5, 7.]

    """
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    if in_dygraph_mode():
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        check_type(weight, 'weight', (float, paddle.Tensor, Variable), 'lerp')
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        if isinstance(weight, float):
            weight = paddle.to_tensor(weight, dtype=x.dtype)

        return _C_ops.final_state_lerp( x, y, weight)
    if _in_legacy_dygraph():
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        if isinstance(weight, float):
            weight = paddle.to_tensor(weight, dtype=x.dtype)
        return _C_ops.lerp(x, y, weight)

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    if isinstance(weight, float):
        weight = paddle.full(shape=[1], fill_value=weight, dtype=x.dtype)

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    check_variable_and_dtype(x, 'x', ['float32', 'float64'], 'lerp')
    check_variable_and_dtype(y, 'y', ['float32', 'float64'], 'lerp')
    check_variable_and_dtype(weight, 'weight', ['float32', 'float64'], 'lerp')

    helper = LayerHelper('lerp', **locals())
    inputs = {'X': x, 'Y': y, 'Weight': weight}
    out = helper.create_variable_for_type_inference(dtype=x.dtype)
    helper.append_op(type='lerp', inputs=inputs, outputs={'Out': out})
    return out

@inplace_apis_in_dygraph_only
def lerp_(x, y, weight, name=None):
    r"""
    Inplace version of ``lerp`` API, the output Tensor will be inplaced with input ``x``.
    Please refer to :ref:`api_tensor_lerp`.
    """
    out_shape = broadcast_shape(x.shape, y.shape)
    check_type(weight, 'weight', (float, paddle.Tensor, Variable), 'lerp')
    if isinstance(weight, float):
        weight = paddle.to_tensor([weight], dtype=x.dtype)
    elif isinstance(weight, (paddle.Tensor, Variable)):
        out_shape = broadcast_shape(out_shape, weight.shape)
    if out_shape != x.shape:
        raise ValueError("The shape of broadcast output {} is different from that of inplace tensor {} in the Inplace operation.".format(out_shape, x.shape))
    return _C_ops.lerp_(x, y, weight)

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def erfinv(x, name=None):
    r"""
    The inverse error function of x, .

    Equation:
        .. math::

            erfinv(erf(x)) = x.

    Args:
        x (Tensor): An N-D Tensor, the data type is float32, float64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        out (Tensor): An N-D Tensor, the shape and data type is the same with input.

    Example:
        .. code-block:: python

            import paddle
            
            x = paddle.to_tensor([0, 0.5, -1.], dtype="float32")
            out = paddle.erfinv(x)
            # out: [0, 0.4769, -inf]

    """
    check_variable_and_dtype(x, 'x', ['float32', 'float64'], 'erfinv')

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    if paddle.in_dynamic_mode():
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        return _C_ops.erfinv(x)

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

@inplace_apis_in_dygraph_only
def erfinv_(x, name=None):
    r"""
    Inplace version of ``erfinv`` API, the output Tensor will be inplaced with input ``x``.
    Please refer to :ref:`api_tensor_erfinv`.
    """
    check_type(x, 'x', (paddle.Tensor, Variable), 'erfinv')
    return _C_ops.erfinv_(x)

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def rad2deg(x, name=None):
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    r"""
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    Convert each of the elements of input x from angles in radians to degrees.
    
    Equation:
        .. math::

            rad2deg(x)=180/ \pi * x

    Args:
        x (Tensor): An N-D Tensor, the data type is float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        out (Tensor): An N-D Tensor, the shape and data type is the same with input (The output data type is float32 when the input data type is int).

    Examples:
        .. code-block:: python

            import paddle
            import numpy as np
            
            x1 = paddle.to_tensor([3.142, -3.142, 6.283, -6.283, 1.570, -1.570])
            result1 = paddle.rad2deg(x1)
            print(result1)
            # Tensor(shape=[6], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #         [180.02334595, -180.02334595,  359.98937988, -359.98937988,
            #           9.95437622 , -89.95437622])

            x2 = paddle.to_tensor(np.pi/2)
            result2 = paddle.rad2deg(x2)
            print(result2)
            # Tensor(shape=[1], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #         [90.])
                     
            x3 = paddle.to_tensor(1)
            result3 = paddle.rad2deg(x3)
            print(result3)
            # Tensor(shape=[1], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #         [57.29578018])
    """
    rad2deg_scale = 180 / np.pi
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    if paddle.in_dynamic_mode():
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        if convert_dtype(x.dtype) in ['int32', 'int64']:
            x = cast(x, dtype="float32")
        return _C_ops.scale(x, 'scale', rad2deg_scale)
    else:
        check_variable_and_dtype(x, 'x', ['int32', 'int64', 'float32', 'float64'], 'rad2deg')
        helper = LayerHelper('rad2deg', **locals())
        out_cast = x
        if convert_dtype(x.dtype) in ['int32', 'int64']:
            out_cast = helper.create_variable_for_type_inference(dtype=paddle.float32)
            helper.append_op(
                    type='cast', inputs={'X':x}, outputs={'Out': out_cast}, attrs={'in_dtype': x.dtype,'out_dtype': paddle.float32})
        out = helper.create_variable_for_type_inference(dtype=out_cast.dtype)
        helper.append_op(
            type='scale', inputs={'X':out_cast}, outputs={'Out': out}, attrs={'scale': rad2deg_scale})
        return out

def deg2rad(x, name=None):
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    r"""
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    Convert each of the elements of input x from degrees to angles in radians.
    
    Equation:
        .. math::

            deg2rad(x)=\pi * x / 180

    Args:
        x (Tensor): An N-D Tensor, the data type is float32, float64, int32, int64.
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        out (Tensor): An N-D Tensor, the shape and data type is the same with input (The output data type is float32 when the input data type is int).

    Examples:
        .. code-block:: python

            import paddle
            import numpy as np
            
            x1 = paddle.to_tensor([180.0, -180.0, 360.0, -360.0, 90.0, -90.0])
            result1 = paddle.deg2rad(x1)
            print(result1)
            # Tensor(shape=[6], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #         [3.14159274, -3.14159274,  6.28318548, -6.28318548,  1.57079637,
            #           -1.57079637])

            x2 = paddle.to_tensor(180)
            result2 = paddle.deg2rad(x2)
            print(result2)
            # Tensor(shape=[1], dtype=float32, place=CUDAPlace(0), stop_gradient=True,
            #         [3.14159274])
    """
    deg2rad_scale = np.pi / 180.0
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    if paddle.in_dynamic_mode():
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        if convert_dtype(x.dtype) in ['int32', 'int64']:
            x = cast(x, dtype="float32")
        return _C_ops.scale(x, 'scale', deg2rad_scale)
    else:
        check_variable_and_dtype(x, 'x', ['int32', 'int64', 'float32', 'float64'], 'deg2rad')
        helper = LayerHelper('deg2rad', **locals())
        out_cast = x
        if convert_dtype(x.dtype) in ['int32', 'int64']:
            out_cast = helper.create_variable_for_type_inference(dtype=paddle.float32)
            helper.append_op(
                    type='cast', inputs={'X':x}, outputs={'Out': out_cast}, attrs={'in_dtype': x.dtype,'out_dtype': paddle.float32})
        out = helper.create_variable_for_type_inference(dtype=out_cast.dtype)
        helper.append_op(
            type='scale', inputs={'X':out_cast}, outputs={'Out': out}, attrs={'scale': deg2rad_scale})
        return out
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def gcd(x, y, name=None):
    """
    Computes the element-wise greatest common divisor (GCD) of input |x| and |y|.
    Both x and y must have integer types.
    
    Note:
        gcd(0,0)=0, gcd(0, y)=|y|

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        If x.shape != y.shape, they must be broadcastable to a common shape (which becomes the shape of the output).

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    Args:
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        x (Tensor): An N-D Tensor, the data type is int32,int64. 
        y (Tensor): An N-D Tensor, the data type is int32,int64. 
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        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        out (Tensor): An N-D Tensor, the data type is the same with input.

    Examples:
        .. code-block:: python

            import paddle
            
            x1 = paddle.to_tensor(12)
            x2 = paddle.to_tensor(20)
            paddle.gcd(x1, x2)
            # Tensor(shape=[1], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [4])

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            x3 = paddle.arange(6)
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            paddle.gcd(x3, x2)
            # Tensor(shape=[6], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [20, 1 , 2 , 1 , 4 , 5])

            x4 = paddle.to_tensor(0)
            paddle.gcd(x4, x2)
            # Tensor(shape=[1], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [20])

            paddle.gcd(x4, x4)
            # Tensor(shape=[1], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [0])
            
            x5 = paddle.to_tensor(-20)
            paddle.gcd(x1, x5)
            # Tensor(shape=[1], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [4])
    """
    shape = paddle.broadcast_shape(x.shape, y.shape)
    x = paddle.broadcast_to(x, shape)
    y = paddle.broadcast_to(y, shape)
    x = paddle.abs(x)
    y = paddle.abs(y)

    def _gcd_cond_fn(x, y):
        return paddle.any(y != 0)

    def _gcd_body_fn(x, y):
        # paddle.mod will raise an error when any element of y is 0. To avoid
        # that, we change those zeros to ones. Their values don't matter because
        # they won't be used.
        y_not_equal_0 = (y != 0)
        y_safe = paddle.where(y_not_equal_0, y, paddle.ones(y.shape, y.dtype))
        x, y = (paddle.where(y_not_equal_0, y, x),
                  paddle.where(y_not_equal_0, paddle.mod(x, y_safe),paddle.zeros(y.shape, y.dtype)))
        return (paddle.where(x < y, y, x), paddle.where(x < y, x, y))

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    if paddle.in_dynamic_mode():
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        while _gcd_cond_fn(x, y):
            x, y = _gcd_body_fn(x, y)

        return x
    else:
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        check_variable_and_dtype(x, 'x', ['int32', 'int64'], 'gcd')
        check_variable_and_dtype(y, 'y', ['int32', 'int64'], 'gcd')
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        out, _ = paddle.static.nn.while_loop(_gcd_cond_fn, _gcd_body_fn, [x, y])
        return out

def lcm(x, y, name=None):
    """
    Computes the element-wise least common multiple (LCM) of input |x| and |y|.
    Both x and y must have integer types.
    
    Note:
        lcm(0,0)=0, lcm(0, y)=0

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        If x.shape != y.shape, they must be broadcastable to a common shape (which becomes the shape of the output).

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    Args:
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        x (Tensor): An N-D Tensor, the data type is int32,int64. 
        y (Tensor): An N-D Tensor, the data type is int32,int64. 
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        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
        out (Tensor): An N-D Tensor, the data type is the same with input.

    Examples:
        .. code-block:: python

            import paddle
            
            x1 = paddle.to_tensor(12)
            x2 = paddle.to_tensor(20)
            paddle.lcm(x1, x2)
            # Tensor(shape=[1], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [60])

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            x3 = paddle.arange(6)
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            paddle.lcm(x3, x2)
            # Tensor(shape=[6], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [0, 20, 20, 60, 20, 20])

            x4 = paddle.to_tensor(0)
            paddle.lcm(x4, x2)
            # Tensor(shape=[1], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [0])

            paddle.lcm(x4, x4)
            # Tensor(shape=[1], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [0])
            
            x5 = paddle.to_tensor(-20)
            paddle.lcm(x1, x5)
            # Tensor(shape=[1], dtype=int64, place=CUDAPlace(0), stop_gradient=True,
            #        [60])
    """
    d = paddle.gcd(x, y)
    # paddle.mod will raise an error when any element of y is 0. To avoid
    # that, we change those zeros to ones. Their values don't matter because
    # they won't be used.
    d_equal_0 = paddle.equal(d, 0)
    d_safe = paddle.where(d_equal_0, paddle.ones(d.shape, d.dtype), d)
    out = paddle.where(d_equal_0, paddle.zeros(d.shape, d.dtype), paddle.abs(x * y) // d_safe)
    return out

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def diff(x, n=1, axis=-1, prepend=None, append=None, name=None):
    r"""
    Computes the n-th forward difference along the given axis.
    The first-order differences is computed by using the following formula: 

    .. math::

        out[i] = x[i+1] - x[i]
    
    Higher-order differences are computed by using paddle.diff() recursively. 
    Only n=1 is currently supported.

    Args:
        x(Tensor): The input tensor to compute the forward difference on
        n(int, optional): The number of times to recursively compute the difference. 
                          Only support n=1. Default:1
        axis(int, optional): The axis to compute the difference along. Default:-1
        prepend(Tensor, optional): The tensor to prepend to input along axis before computing the difference.
                                   It's dimensions must be equivalent to that of x, 
                                   and its shapes must match x's shape except on axis.
        append(Tensor, optional): The tensor to append to input along axis before computing the difference, 
                                   It's dimensions must be equivalent to that of x, 
                                   and its shapes must match x's shape except on axis.
        name(str|None): A name for this layer(optional). If set None, 
                        the layer will be named automatically.
    
    Returns:
        Tensor: The output tensor with same dtype with x.

    Examples:
        .. code-block:: python

            import paddle
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            x = paddle.to_tensor([1, 4, 5, 2])
            out = paddle.diff(x)
            print(out)
            # out:
            # [3, 1, -3]

            y = paddle.to_tensor([7, 9])
            out = paddle.diff(x, append=y)
            print(out)
            # out: 
            # [3, 1, -3, 5, 2]

            z = paddle.to_tensor([[1, 2, 3], [4, 5, 6]])
            out = paddle.diff(z, axis=0)
            print(out)
            # out:
            # [[3, 3, 3]]
            out = paddle.diff(z, axis=1)
            print(out)
            # out:
            # [[1, 1], [1, 1]]
    """

    if axis < 0:
        axis = axis + len(x.shape)
    if axis > len(x.shape):
        axis = len(x.shape)
    if axis < 0:
        axis = 0
    dtype = x.dtype
    axes = [axis]
    infer_flags = list(1 for i in range(len(axes)))
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    if paddle.in_dynamic_mode():
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        has_pend = False
        input_list = []
        if prepend is not None and append is not None:
            input_list = [prepend, x, append]
            has_pend = True
        elif prepend is not None:
            input_list = [prepend, x]
            has_pend = True
        elif append is not None:
            input_list = [x, append]
            has_pend = True
        if has_pend:
            new_input = _C_ops.concat(input_list, 'axis', axis)
        else:
            new_input = x

        attrs_1 = ()
        attrs_2 = ()

        dim_len = new_input.shape[axis]

        starts_1 = [0]
        attrs_1 += ('starts', starts_1)
        ends_1 = [dim_len - 1]
        attrs_1 += ('ends', ends_1)
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        input_front = _C_ops.slice(new_input, None, None, None, None, 'axes', axes, \
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            'infer_flags', infer_flags, *attrs_1)
        starts_2 = [1]
        attrs_2 += ('starts', starts_2)
        ends_2 = [dim_len]
        attrs_2 += ('ends', ends_2)
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        input_back = _C_ops.slice(new_input, None, None, None, None, 'axes', axes, \
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            'infer_flags', infer_flags, *attrs_2)

        if x.dtype == paddle.bool:
            op = getattr(_C_ops, "logical_xor")
            out = op(input_back, input_front)
        else:
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            out = elementwise_sub(input_back, input_front, axis=axis)
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        return out
    else:
        check_variable_and_dtype(x, 'x', ['float32', 'float64', 'bool', 'int32', 'int64'], 'diff')
        check_type(axis, 'axis', (int), 'diff')
        helper = LayerHelper('diff', **locals())
        has_pend = False
        input_list = []
        if prepend is not None and append is not None:
            input_list = [prepend, x, append]
            has_pend = True
        elif prepend is not None:
            input_list = [prepend, x]
            has_pend = True
        elif append is not None:
            input_list = [x, append]
            has_pend = True

        if has_pend:
            new_input = helper.create_variable_for_type_inference(dtype)
            helper.append_op(
                type='concat', inputs={'X': input_list}, outputs={'Out': [new_input]}, attrs={'axis': axis}
            )
        else:
            new_input = x

        dim_len = new_input.shape[axis]
        attrs_1 = {'axes': axes}
        starts_1 = [0]
        ends_1 = [dim_len - 1]
        attrs_1['starts'] = starts_1
        attrs_1['ends'] = ends_1
        input_front = helper.create_variable_for_type_inference(dtype)
        helper.append_op(
            type='slice', inputs={'Input': new_input}, attrs=attrs_1, outputs={'Out': input_front}
        )
        attrs_2 = {'axes': axes}
        starts_2 = [1]
        ends_2 = [dim_len]
        attrs_2['starts'] = starts_2
        attrs_2['ends'] = ends_2
        input_back = helper.create_variable_for_type_inference(dtype)
        helper.append_op(
            type='slice', inputs={'Input': new_input}, attrs=attrs_2, outputs={'Out': input_back}
        )

        if dtype == paddle.bool:
            out = helper.create_variable_for_type_inference(dtype)
            helper.append_op(
                type='logical_xor', inputs={"X": input_back, "Y": input_front}, outputs={"Out": out}
            )
        else:
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            out = elementwise_sub(input_back, input_front, axis=axis)
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        return out
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def angle(x, name=None):
    r"""
    Element-wise angle of complex numbers. For non-negative real numbers, the angle is 0 while 
    for negative real numbers, the angle is :math:`\pi`.

    Equation:
        .. math::

            angle(x)=arctan2(x.imag, x.real)

    Args:
        x (Tensor): An N-D Tensor, the data type is complex64, complex128, or float32, float64 .
        name (str, optional): Name for the operation (optional, default is None). For more information, please refer to :ref:`api_guide_Name`.

    Returns:
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        Tensor: An N-D Tensor of real data type with the same precision as that of x's data type.
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    Examples:
        .. code-block:: python

            import paddle

            x = paddle.to_tensor([-2, -1, 0, 1]).unsqueeze(-1).astype('float32')
            y = paddle.to_tensor([-2, -1, 0, 1]).astype('float32')
            z = x + 1j * y
            print(z.numpy())
            # [[-2.-2.j -2.-1.j -2.+0.j -2.+1.j]
            #  [-1.-2.j -1.-1.j -1.+0.j -1.+1.j]
            #  [ 0.-2.j  0.-1.j  0.+0.j  0.+1.j]
            #  [ 1.-2.j  1.-1.j  1.+0.j  1.+1.j]]

            theta = paddle.angle(z)
            print(theta.numpy())
            # [[-2.3561945 -2.6779451  3.1415927  2.6779451]
            #  [-2.0344439 -2.3561945  3.1415927  2.3561945]
            #  [-1.5707964 -1.5707964  0.         1.5707964]
            #  [-1.1071488 -0.7853982  0.         0.7853982]]
    """

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    if paddle.in_dynamic_mode():
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        return _C_ops.angle(x)

    check_variable_and_dtype(x, 'x',
        ['float32', 'float64', 'complex64', 'complex128'], 'angle')
    op_type = "angle"
    helper = LayerHelper(op_type, **locals())
    inputs = {"X": x}
    out = helper.create_variable_for_type_inference(
        dtype=_complex_to_real_dtype(x.dtype))
    outputs = {"Out": out}
    helper.append_op(type=op_type, inputs=inputs, outputs=outputs)
    return out