math_op_patch.py 23.8 KB
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#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
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#
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#     http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

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import warnings
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import inspect

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from .. import core
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from ..framework import Variable, unique_name, static_only
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from .layer_function_generator import OpProtoHolder
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from paddle.fluid.dygraph.base import in_declarative_mode
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_supported_int_dtype_ = [
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    core.VarDesc.VarType.BOOL,
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    core.VarDesc.VarType.UINT8,
    core.VarDesc.VarType.INT8,
    core.VarDesc.VarType.INT16,
    core.VarDesc.VarType.INT32,
    core.VarDesc.VarType.INT64,
]

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compare_ops = ['__eq__', '__ne__', '__lt__', '__le__', '__gt__', '__ge__']

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EXPRESSION_MAP = {
    "__add__": "A + B",
    "__radd__": "A += B",
    "__sub__": "A - B",
    "__rsub__": "A -= B",
    "__mul__": "A * B",
    "__rmul__": "A *= B",
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    "__div__": "A / B",
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    "__truediv__": "A / B",
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    "__rdiv__": "A /= B",
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    "__rtruediv__": "A /= B",
    "__pow__": "A ** B",
    "__rpow__": "A **= B",
    "__floordiv__": "A //B",
    "__mod__": "A % B",
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    "__matmul__": "A @ B",
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    "__eq__": "A == B",
    "__ne__": "A != B",
    "__lt__": "A < B",
    "__le__": "A <= B",
    "__gt__": "A > B",
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    "__ge__": "A >= B",
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}

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_already_patch_variable = False

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def monkey_patch_variable():
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    def unique_tmp_name():
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        return unique_name.generate("tmp")
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    def safe_get_dtype(var):
        try:
            dtype = var.dtype
        except:
            raise ValueError("Cannot get data type from %s", var.name)
        return dtype

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    def current_block(var):
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        return var.block.program.current_block()
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    def create_new_tmp_var(block, dtype):
        tmp_name = unique_tmp_name()
        return block.create_var(name=tmp_name, dtype=dtype)

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    def create_new_tmp_sparse_var(block, dtype, type):
        tmp_name = unique_tmp_name()
        return block.create_var(name=tmp_name, dtype=dtype, type=type)

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    def create_tensor(block, value, dtype, shape):
        value = float(value)
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        var = create_new_tmp_var(block, dtype)
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        block.append_op(
            type="fill_constant",
            outputs={'Out': [var]},
            attrs={
                'dtype': var.dtype,
                'shape': shape,
                'value': value,
                'force_cpu': False,
            },
            stop_gradient=True,
        )
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        var.stop_gradient = True
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        return var

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    def create_scalar(block, value, dtype):
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        return create_tensor(block, value, dtype, shape=[])
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    def create_tensor_with_batchsize(ref_var, value, dtype):
        assert isinstance(ref_var, Variable)
        value = float(value)
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        block = current_block(ref_var)
        var = create_new_tmp_var(block, dtype)
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        batch_dim = -1
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        out_shape = []
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        for i, d in enumerate(ref_var.shape):
            if d < 0:
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                if batch_dim < 0:
                    batch_dim = i
                    out_shape.append(d)
                else:
                    out_shape.append(1)
            else:
                out_shape.append(d)
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        assert batch_dim != -1
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        block.append_op(
            type='fill_constant_batch_size_like',
            outputs={'Out': [var]},
            inputs={'Input': [ref_var]},
            attrs={
                'shape': out_shape,
                'value': value,
                'input_dim_idx': batch_dim,
                'output_dim_idx': batch_dim,
            },
            stop_gradient=True,
        )
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        var.stop_gradient = True
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        return var

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    @static_only
    def cpu(self):
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        """
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        In dy2static, Variable also needs cpu() and cuda() interface.
        But, the underneath operator has only forward op but not backward one.

        Returns:
            The tensor which has copied to cpu place.

        Examples:
            In Static Graph Mode:

            .. code-block:: python
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                import paddle
                paddle.enable_static()

                x = paddle.static.data(name="x", shape=[2,2], dtype='float32')
                y = x.cpu()
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        """
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        block = current_block(self)
        tmp_name = unique_tmp_name()
        output = block.create_var(
            name=tmp_name,
            dtype=self.dtype,
            shape=self.shape,
            type=self.type,
            persistable=False,
            stop_gradient=True,
        )
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        # 0 means cpu place, see paddle/phi/kernels/memcpy_kernel.cc
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        attrs = {'dst_place_type': 0}
        block.append_op(
            type='memcpy',
            inputs={'X': [self]},
            outputs={'Out': [output]},
            attrs=attrs,
        )
        return output
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    @static_only
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    def cuda(self, device_id=None, blocking=True):
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        """
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        In dy2static, Variable also needs cpu() and cuda() interface.
        But, the underneath operator has only forward op but not backward one.

        Args:
            self(Variable): The variable itself.
            device_id(int, optional): The destination GPU device id. Default: None, means current device.
                We add this argument for dy2static translation, please do not use it.
            blocking(bool, optional): Whether blocking or not, Default: True.
                We add this argument for dy2static translation, please do not use it.

        Returns:
            The tensor which has copied to cuda place.

        Examples:
            In Static Graph Mode:

            .. code-block:: python

                import paddle
                paddle.enable_static()

                x = paddle.static.data(name="x", shape=[2,2], dtype='float32')
                y = x.cpu()
                z = y.cuda()
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        """
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        if device_id is not None:
            warnings.warn("device_id is not supported, and it will be ignored.")
        if blocking is not True:
            warnings.warn("blocking is not supported, and it will be ignored.")

        block = current_block(self)
        tmp_name = unique_tmp_name()
        output = block.create_var(
            name=tmp_name,
            dtype=self.dtype,
            shape=self.shape,
            type=self.type,
            persistable=False,
            stop_gradient=True,
        )
        # 1 means cuda place, see paddle/phi/kernels/memcpy_kernel.cc
        attrs = {'dst_place_type': 1}
        block.append_op(
            type='memcpy',
            inputs={'X': [self]},
            outputs={'Out': [output]},
            attrs=attrs,
        )
        return output
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    @static_only
    def place(self):
        """
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        Variable don't have 'place' interface in static graph mode
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        But this interface can greatly facilitate dy2static.
        So we give a warnning here and return None.
        """
        warnings.warn(
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            "Variable do not have 'place' interface for static graph mode, try not to use it. None will be returned."
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        )
        return None

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    def astype(self, dtype):
        """
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        **Notes**:
            **The variable must be a** :ref:`api_fluid_Tensor`

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        Cast a variable to a specified data type.
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        Args:
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            self(Variable): The source variable
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            dtype: The target data type
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        Returns:
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            Variable: Variable with new dtype

        Examples:
            In Static Graph Mode:

            .. code-block:: python
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                import paddle
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                import paddle.fluid as fluid
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                paddle.enable_static()
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                startup_prog = fluid.Program()
                main_prog = fluid.Program()
                with fluid.program_guard(startup_prog, main_prog):
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                    original_variable = paddle.static.data(name = "new_variable", shape=[2,2], dtype='float32')
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                    new_variable = original_variable.astype('int64')
                    print("new var's dtype is: {}".format(new_variable.dtype))

            In Dygraph Mode:

            .. code-block:: python

                import paddle.fluid as fluid
                import numpy as np

                x = np.ones([2, 2], np.float32)
                with fluid.dygraph.guard():
                    original_variable = fluid.dygraph.to_variable(x)
                    print("original var's dtype is: {}, numpy dtype is {}".format(original_variable.dtype, original_variable.numpy().dtype))
                    new_variable = original_variable.astype('int64')
                    print("new var's dtype is: {}, numpy dtype is {}".format(new_variable.dtype, new_variable.numpy().dtype))

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        """
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        block = current_block(self)
        out = create_new_tmp_var(block, dtype)
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        block.append_op(
            type="cast",
            inputs={"X": [self]},
            outputs={"Out": [out]},
            attrs={"in_dtype": self.dtype, "out_dtype": out.dtype},
        )
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        out.stop_gradient = self.stop_gradient
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        return out

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    @static_only
    def append(self, var):
        """
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        **Notes**:
           **The type variable must be LoD Tensor Array.
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        """
        if not isinstance(var, Variable):
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            if in_declarative_mode():
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                """in dy2static mode, x may be tensorable values such as int, float, np.array"""
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                from paddle.tensor.creation import to_tensor
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                var = to_tensor(var)
            else:
                raise TypeError(
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                    "Required input var should be Variable, but received {}".format(
                        type(var)
                    )
                )
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        if self.type != core.VarDesc.VarType.LOD_TENSOR_ARRAY:
            raise TypeError(
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                "Only Variable with VarType.LOD_TENSOR_ARRAY support `append` method, but received type: {}".format(
                    self.type
                )
            )
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        from paddle.tensor.array import array_length, array_write
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        array_write(x=var, i=array_length(self), array=self)

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    @static_only
    def _item(self):
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        """
        In order to be compatible with the item interface introduced by the dynamic graph, it does nothing but returns self.
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        It will check that the shape must be a 1-D tensor
        """
        if len(self.shape) > 1:
            raise TypeError(
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                "Required input var should be 1-D Variable, but received {}".format(
                    self.shape
                )
            )
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        return self

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    @static_only
    def pop(self, *args):
        """
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        The type variable must be LoD Tensor Array.
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        When self is LoDTensorArray, calling pop is similar to Python's pop on list.
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        This interface is used to simplify dygraph to static graph operations.

        Args:
            self(Variable): The source variable, which must be LOD_TENSOR_ARRAY
            *args: optional, a int means index.
        Returns:
            Variable: self[index]
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        """
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        from paddle.jit.dy2static.convert_operators import (
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            _run_paddle_pop,
        )

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        if self.type != core.VarDesc.VarType.LOD_TENSOR_ARRAY:
            raise TypeError(
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                "Only Variable with VarType.LOD_TENSOR_ARRAY support `append` method, but received type: {}".format(
                    self.type
                )
            )
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        return _run_paddle_pop(self, *args)

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    def _scalar_op_(var, scale, bias):
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        block = current_block(var)
        out = create_new_tmp_var(block, var.dtype)
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        block.append_op(
            type="scale",
            inputs={"X": [var]},
            outputs={"Out": [out]},
            attrs={"scale": scale, "bias": bias},
        )
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        return out

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    def _neg_(var):
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        return _scalar_op_(var, -1.0, 0.0)
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    @property
    def _ndim_(self):
        """
        Returns the dimension of current Variable

        Returns:
            the dimension

        Examples:
            .. code-block:: python

                import paddle

                paddle.enable_static()

                # create a static Variable
                x = paddle.static.data(name='x', shape=[3, 2, 1])
                # print the dimension of the Variable
                print(x.ndim)
        """
        return len(self.shape)

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    def ndimension(self):
        """
        Returns the dimension of current Variable

        Returns:
            the dimension

        Examples:
            .. code-block:: python

                import paddle

                paddle.enable_static()

                # create a static Variable
                x = paddle.static.data(name='x', shape=[3, 2, 1])
                # print the dimension of the Variable
                print(x.ndimension)
        """
        return len(self.shape)

    def dim(self):
        """
        Returns the dimension of current Variable

        Returns:
            the dimension

        Examples:
            .. code-block:: python

                import paddle

                paddle.enable_static()

                # create a static Variable
                x = paddle.static.data(name='x', shape=[3, 2, 1])
                # print the dimension of the Variable
                print(x.dim)
        """
        return len(self.shape)

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    def _scalar_add_(var, value):
        return _scalar_op_(var, 1.0, value)
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    def _scalar_sub_(var, value):
        return _scalar_op_(var, 1.0, -value)
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    def _scalar_rsub_(var, value):
        return _scalar_op_(var, -1.0, value)
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    def _scalar_mul_(var, value):
        return _scalar_op_(var, value, 0.0)
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    def _scalar_div_(var, value):
        return _scalar_op_(var, 1.0 / value, 0.0)

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    def _binary_creator_(
        method_name, op_type, reverse=False, scalar_method=None
    ):
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        def __impl__(self, other_var):
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            # 1. scalar exists cases
            # we need combine the tensor.dtype and scalar.dtype, cast correct object
            if isinstance(other_var, float):
                # in all cases(+, -, *, /, **, //, %), we need cast tensor.dtype to float
                if self.dtype in _supported_int_dtype_:
                    self = astype(self, 'float32')
                # here use `scale` replace `elementwise` to get better performance
                # but only +, -, *, / can use this method
                if scalar_method is not None:
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                    return scalar_method(self, other_var)
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            elif isinstance(other_var, int):
                # in all cases(+, -, *, /, **, //, %), we can cast it to float
                # because the output tensor.dtype depend on the type of input tensor
                other_var = float(other_var)
                # division is a special case
                # NOTE(chenweihang): because we cast tensor to float32 instead float64,
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                # the division result can only guarantee the numerical accuracy of 6 digits
                # after the decimal point. The result of numpy calculation is of float64 type,
                # so the calculation result here and the calculation result of numpy are
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                # different after 6 decimal point. If necessary, we can also use float64 here.
                # torch's behavior here is consistent with ours
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                if (
                    op_type == 'elementwise_div'
                    and self.dtype in _supported_int_dtype_
                ):
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                    self = astype(self, 'float32')
                # here use `scale` replace `elementwise` to get better performance
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                # but only +, -, *, / can use this method
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                if scalar_method is not None:
                    return scalar_method(self, other_var)
            else:
                # do nothing
                pass
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            # 2. create variable for scalar
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            lhs_dtype = safe_get_dtype(self)
            if not isinstance(other_var, Variable):
                if reverse:
                    for elem in self.shape:
                        if elem < 0:
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                            other_var = create_tensor_with_batchsize(
                                self, other_var, lhs_dtype
                            )
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                            break
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                    else:
                        # when break is not triggered, enter the else branch
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                        other_var = create_tensor(
                            current_block(self),
                            other_var,
                            dtype=lhs_dtype,
                            shape=self.shape,
                        )
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                else:
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                    # add fill_op to current_block
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                    other_var = create_scalar(
                        current_block(self), value=other_var, dtype=lhs_dtype
                    )
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            # 3. unify right var type to left var
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            rhs_dtype = safe_get_dtype(other_var)
            if lhs_dtype != rhs_dtype:
                other_var = astype(other_var, lhs_dtype)
            if reverse:
                tmp = self
                self = other_var
                other_var = tmp

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            if (
                op_type == "divide" or op_type == "elementwise_div"
            ) and self.dtype in _supported_int_dtype_:
                self = astype(self, 'float32')
                other_var = astype(other_var, 'float32')

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            # NOTE(zhiqiu): the output of compare operator should be bool.
            if method_name in compare_ops:
                out = create_new_tmp_var(current_block(self), dtype="bool")
            else:
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                out = create_new_tmp_var(
                    current_block(self), dtype=safe_get_dtype(self)
                )
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            axis = -1
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            if other_var.ndim > 0 and other_var.shape[0] == -1:
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                stack = inspect.stack()[1]
                file_name = stack[1]
                line_num = stack[2]
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                warnings.warn(
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                    "%s:%s\nThe behavior of expression %s has been unified with %s(X, Y, axis=-1) from Paddle 2.0. "
                    "If your code works well in the older versions but crashes in this version, try to use "
                    "%s(X, Y, axis=0) instead of %s. This transitional warning will be dropped in the future."
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                    % (
                        file_name,
                        line_num,
                        EXPRESSION_MAP[method_name],
                        op_type,
                        op_type,
                        EXPRESSION_MAP[method_name],
                    ),
                    category=DeprecationWarning,
                )
            current_block(self).append_op(
                type=op_type,
                inputs={'X': [self], 'Y': [other_var]},
                outputs={'Out': out},
                attrs={'axis': axis},
            )
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            return out

        comment = OpProtoHolder.instance().get_op_proto(op_type).comment

        __impl__.__doc__ = """
        {0}
        Args:
            self(Variable): left hand variable
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            other_var(Variable|float|int): right hand variable
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        Returns:
            Variable
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        """.format(
            comment
        )
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        __impl__.__name__ = method_name
        return __impl__

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    def values(var):
        block = current_block(var)
        out = create_new_tmp_var(block, var.dtype)
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        block.append_op(
            type="sparse_values",
            inputs={"x": [var]},
            outputs={"out": [out]},
            attrs={},
        )
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        return out

    def indices(var):
        block = current_block(var)
        out = create_new_tmp_var(block, var.dtype)
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        block.append_op(
            type="sparse_indices",
            inputs={"x": [var]},
            outputs={"out": [out]},
            attrs={},
        )
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        return out

    def to_dense(var):
        block = current_block(var)
        out = create_new_tmp_var(block, var.dtype)
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        block.append_op(
            type="sparse_to_dense",
            inputs={"x": [var]},
            outputs={"out": [out]},
            attrs={},
        )
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        return out

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    variable_methods = [
        #   b=-a
        ('__neg__', _neg_),
        ('astype', astype),
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        ('cpu', cpu),
        ('cuda', cuda),
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        ('place', place),
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        ('append', append),
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        ('item', _item),
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        ('pop', pop),
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        ('dim', dim),
        ('ndimension', ndimension),
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        ('ndim', _ndim_),
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        (
            '__add__',
            _binary_creator_('__add__', 'elementwise_add', False, _scalar_add_),
        ),
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        #  a+b == b+a. Do not need to reverse explicitly
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        (
            '__radd__',
            _binary_creator_(
                '__radd__', 'elementwise_add', False, _scalar_add_
            ),
        ),
        (
            '__sub__',
            _binary_creator_('__sub__', 'elementwise_sub', False, _scalar_sub_),
        ),
        (
            '__rsub__',
            _binary_creator_(
                '__rsub__', 'elementwise_sub', True, _scalar_rsub_
            ),
        ),
        (
            '__mul__',
            _binary_creator_('__mul__', 'elementwise_mul', False, _scalar_mul_),
        ),
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        #  a*b == b*a. Do not need to reverse explicitly
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        (
            '__rmul__',
            _binary_creator_(
                '__rmul__', 'elementwise_mul', False, _scalar_mul_
            ),
        ),
        (
            '__div__',
            _binary_creator_('__div__', 'elementwise_div', False, _scalar_div_),
        ),
        (
            '__truediv__',
            _binary_creator_(
                '__truediv__', 'elementwise_div', False, _scalar_div_
            ),
        ),
        (
            '__rdiv__',
            _binary_creator_('__rdiv__', 'elementwise_div', True, None),
        ),
        (
            '__rtruediv__',
            _binary_creator_('__rtruediv__', 'elementwise_div', True, None),
        ),
        (
            '__pow__',
            _binary_creator_('__pow__', 'elementwise_pow', False, None),
        ),
        (
            '__rpow__',
            _binary_creator_('__rpow__', 'elementwise_pow', True, None),
        ),
        (
            '__floordiv__',
            _binary_creator_(
                '__floordiv__', 'elementwise_floordiv', False, None
            ),
        ),
        (
            '__mod__',
            _binary_creator_('__mod__', 'elementwise_mod', False, None),
        ),
        (
            '__matmul__',
            _binary_creator_('__matmul__', "matmul_v2", False, None),
        ),
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        #  for logical compare
        ('__eq__', _binary_creator_('__eq__', 'equal', False, None)),
        ('__ne__', _binary_creator_('__ne__', 'not_equal', False, None)),
        ('__lt__', _binary_creator_('__lt__', 'less_than', False, None)),
        ('__le__', _binary_creator_('__le__', 'less_equal', False, None)),
        ('__gt__', _binary_creator_('__gt__', 'greater_than', False, None)),
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        ('__ge__', _binary_creator_('__ge__', 'greater_equal', False, None)),
        ('values', values),
        ('indices', indices),
        ('to_dense', to_dense),
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    ]

    global _already_patch_variable
    if not _already_patch_variable:
        for method in variable_methods:
            method_name = method[0]
            method_impl = method[1]
            setattr(Variable, method_name, method_impl)
    else:
        import paddle.tensor
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        for method_name in paddle.tensor.tensor_method_func:
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            if hasattr(Variable, method_name):
                continue
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            method_impl = getattr(paddle.tensor, method_name, None)
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            if method_impl:
                setattr(Variable, method_name, method_impl)
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        for magic_method, origin_method in paddle.tensor.magic_method_func:
            impl = getattr(paddle.tensor, origin_method, None)
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            if impl:
                setattr(Variable, magic_method, impl)
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    _already_patch_variable = True