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op_test.py 73.1 KB
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#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
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#
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#     http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

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from __future__ import print_function

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import os
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import unittest
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import warnings
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import numpy as np
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import random
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import six
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import struct
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import time
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import itertools
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import collections
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from collections import defaultdict
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import paddle
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import paddle.fluid as fluid
import paddle.fluid.core as core
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from paddle.fluid.backward import append_backward
from paddle.fluid.op import Operator
from paddle.fluid.executor import Executor
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from paddle.fluid.framework import Program, OpProtoHolder, Variable
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from paddle.fluid.tests.unittests.testsuite import (
    create_op,
    set_input,
    append_input_output,
    append_loss_ops, )
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from paddle.fluid import unique_name
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from paddle.fluid.tests.unittests.white_list import (
    op_accuracy_white_list,
    check_shape_white_list,
    compile_vs_runtime_white_list,
    no_check_set_white_list,
    op_threshold_white_list,
    no_grad_set_white_list, )
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def check_out_dtype(api_fn, in_specs, expect_dtypes, target_index=0, **configs):
    """
    Determines whether dtype of output tensor is as expected.

    Args:
        api_fn(callable):  paddle api function
        in_specs(list[tuple]): list of shape and dtype information for constructing input tensor of api_fn, such as [(shape, dtype), (shape, dtype)].
        expected_dtype(list[str]): expected dtype of output tensor.
        target_index(int): indicate which one from in_specs to infer the dtype of output.
        config(dict): other arguments of paddle api function

    Example:
        check_out_dtype(fluid.layers.pad_constant_like, [([2,3,2,3], 'float64'), ([1, 3, 1,3], )], ['float32', 'float64', 'int64'], target_index=1, pad_value=0.)

    """
    paddle.enable_static()
    for i, expect_dtype in enumerate(expect_dtypes):
        with paddle.static.program_guard(paddle.static.Program()):
            input_t = []
            for index, spec in enumerate(in_specs):
                if len(spec) == 1:
                    shape = spec[0]
                    dtype = expect_dtype if target_index == index else 'float32'
                elif len(spec) == 2:
                    shape, dtype = spec
                else:
                    raise ValueError(
                        "Value of in_specs[{}] should contains two elements: [shape, dtype]".
                        format(index))
                input_t.append(
                    paddle.static.data(
                        name='data_%s' % index, shape=shape, dtype=dtype))

            out = api_fn(*input_t, **configs)
            out_dtype = fluid.data_feeder.convert_dtype(out.dtype)

            if out_dtype != expect_dtype:
                raise ValueError(
                    "Expected out.dtype is {}, but got {} from {}.".format(
                        expect_dtype, out_dtype, api_fn.__name__))


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def _set_use_system_allocator(value=None):
    USE_SYSTEM_ALLOCATOR_FLAG = "FLAGS_use_system_allocator"
    old_value = core.globals()[USE_SYSTEM_ALLOCATOR_FLAG]
    value = old_value if value is None else value
    core.globals()[USE_SYSTEM_ALLOCATOR_FLAG] = value
    return old_value


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def randomize_probability(batch_size, class_num, dtype='float32'):
    prob = np.random.uniform(
        0.1, 1.0, size=(batch_size, class_num)).astype(dtype)
    prob_sum = prob.sum(axis=1)
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    for i in six.moves.xrange(len(prob)):
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        prob[i] /= prob_sum[i]
    return prob


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def get_numeric_gradient(place,
                         scope,
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                         op,
                         inputs,
                         input_to_check,
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                         output_names,
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                         delta=0.005,
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                         in_place=False):
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    # FIXME: change this method by compile time concepts
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    set_input(scope, op, inputs, place)
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    def product(dim):
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        return six.moves.reduce(lambda a, b: a * b, dim, 1)
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    tensor_to_check = scope.find_var(input_to_check).get_tensor()
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    tensor_size = product(tensor_to_check.shape())
    tensor_to_check_dtype = tensor_to_check._dtype()
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    if tensor_to_check_dtype == core.VarDesc.VarType.FP32:
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        tensor_to_check_dtype = np.float32
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    elif tensor_to_check_dtype == core.VarDesc.VarType.FP64:
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        tensor_to_check_dtype = np.float64
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    elif tensor_to_check_dtype == core.VarDesc.VarType.FP16:
        tensor_to_check_dtype = np.float16
        # set delta as np.float16, will automatic convert to float32, float64
        delta = np.array(delta).astype(np.float16)
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    else:
        raise ValueError("Not supported data type " + str(
            tensor_to_check_dtype))

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    def get_output():
        sum = []
        op.run(scope, place)
        for output_name in output_names:
            sum.append(
                np.array(scope.find_var(output_name).get_tensor()).astype(
                    tensor_to_check_dtype).mean())
        return tensor_to_check_dtype(np.array(sum).sum() / len(output_names))

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    gradient_flat = np.zeros(shape=(tensor_size, ), dtype=tensor_to_check_dtype)

    def __get_elem__(tensor, i):
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        if tensor_to_check_dtype == np.float16:
            numpy_tensor = np.array(tensor).astype(np.float16)
            numpy_tensor = numpy_tensor.flatten()
            return numpy_tensor[i]
        elif tensor_to_check_dtype == np.float32:
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            return tensor._get_float_element(i)
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        elif tensor_to_check_dtype == np.float64:
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            return tensor._get_double_element(i)
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        else:
            raise TypeError("Unsupported test data type %s." %
                            tensor_to_check_dtype)
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    def __set_elem__(tensor, i, e):
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        if tensor_to_check_dtype == np.float16:
            numpy_tensor = np.array(tensor).astype(np.float16)
            shape = numpy_tensor.shape
            numpy_tensor = numpy_tensor.flatten()
            numpy_tensor[i] = e
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            numpy_tensor = numpy_tensor.reshape(shape)
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            tensor.set(numpy_tensor, place)
        elif tensor_to_check_dtype == np.float32:
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            tensor._set_float_element(i, e)
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        elif tensor_to_check_dtype == np.float64:
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            tensor._set_double_element(i, e)
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        else:
            raise TypeError("Unsupported test data type %s." %
                            tensor_to_check_dtype)
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    # we only compute gradient of one element each time.
    # we use a for loop to compute the gradient of every element.
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    for i in six.moves.xrange(tensor_size):
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        if in_place:
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            set_input(scope, op, inputs, place)
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        # get one input element throw it's index i.
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        origin = __get_elem__(tensor_to_check, i)
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        # add delta to it, run op and then get the sum of the result tensor.
        x_pos = origin + delta
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        __set_elem__(tensor_to_check, i, x_pos)
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        y_pos = get_output()

        if in_place:
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            set_input(scope, op, inputs, place)
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        x_neg = origin - delta
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        __set_elem__(tensor_to_check, i, x_neg)
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        y_neg = get_output()

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        __set_elem__(tensor_to_check, i, origin)
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        gradient_flat[i] = (y_pos - y_neg) / delta / 2

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    return gradient_flat.reshape(tensor_to_check.shape())
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def skip_check_grad_ci(reason=None):
    """Decorator to skip check_grad CI.
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       Check_grad is required for Op test cases. However, there are some special
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       cases that do not need to do check_grad. This decorator is used to skip the
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       check_grad of the above cases.
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       Note: the execution of unit test will not be skipped. It just avoids check_grad
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       checking in tearDownClass method by setting a `no_need_check_grad` flag.

       Example:
           @skip_check_grad_ci(reason="For inference, check_grad is not required.")
           class TestInference(OpTest):
    """
    if not isinstance(reason, str):
        raise AssertionError("The reason for skipping check_grad is required.")

    def wrapper(cls):
        cls.no_need_check_grad = True
        return cls

    return wrapper


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def copy_bits_from_float_to_uint16(f):
    return struct.unpack('<I', struct.pack('<f', f))[0] >> 16


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def convert_float_to_uint16(float_list, data_format="NCHW"):
    if data_format == "NHWC":
        float_list = np.transpose(float_list, [0, 3, 1, 2])

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    new_output = []
    for x in np.nditer(float_list):
        new_output.append(np.uint16(copy_bits_from_float_to_uint16(x)))
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    new_output = np.reshape(new_output, float_list.shape).view(np.uint16)
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    if data_format == "NHWC":
        new_output = np.transpose(new_output, [0, 2, 3, 1])
    return new_output
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def convert_uint16_to_float(in_list):
    in_list = np.asarray(in_list)
    out = np.vectorize(
        lambda x: struct.unpack('<f', struct.pack('<I', x << 16))[0],
        otypes=[np.float32])(in_list.flat)
    return np.reshape(out, in_list.shape)
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class OpTest(unittest.TestCase):
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    @classmethod
    def setUpClass(cls):
        '''Fix random seeds to remove randomness from tests'''
        cls._np_rand_state = np.random.get_state()
        cls._py_rand_state = random.getstate()
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        cls.call_once = False
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        cls.dtype = None
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        cls.outputs = {}
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        cls.input_shape_is_large = True
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        np.random.seed(123)
        random.seed(124)

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        if paddle.is_compiled_with_npu():
            cls._use_system_allocator = _set_use_system_allocator(False)
        else:
            cls._use_system_allocator = _set_use_system_allocator(True)
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    @classmethod
    def tearDownClass(cls):
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        """Restore random seeds"""
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        np.random.set_state(cls._np_rand_state)
        random.setstate(cls._py_rand_state)

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        _set_use_system_allocator(cls._use_system_allocator)

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        def is_empty_grad_op(op_type):
            all_op_kernels = core._get_all_register_op_kernels()
            grad_op = op_type + '_grad'
            if grad_op in all_op_kernels.keys():
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                if is_mkldnn_op_test():
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                    grad_op_kernels = all_op_kernels[grad_op]
                    for grad_op_kernel in grad_op_kernels:
                        if 'MKLDNN' in grad_op_kernel:
                            return False
                else:
                    return False
            return True

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        def is_xpu_op_test():
            return hasattr(cls, "use_xpu") and cls.use_xpu == True

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        def is_mkldnn_op_test():
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            return hasattr(cls, "use_mkldnn") and cls.use_mkldnn == True
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        def is_rocm_op_test():
            return core.is_compiled_with_rocm()

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        def is_npu_op_test():
            return hasattr(cls, "use_npu") and cls.use_npu == True

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        if not hasattr(cls, "op_type"):
            raise AssertionError(
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                "This test do not have op_type in class attrs, "
                "please set self.__class__.op_type=the_real_op_type manually.")
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        # case in NO_FP64_CHECK_GRAD_CASES and op in NO_FP64_CHECK_GRAD_OP_LIST should be fixed
        if not hasattr(cls, "no_need_check_grad") \
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            and not is_empty_grad_op(cls.op_type):
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            if cls.dtype is None or \
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                (cls.dtype == np.float16 \
                    and cls.op_type not in op_accuracy_white_list.NO_FP16_CHECK_GRAD_OP_LIST \
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                    and not hasattr(cls, "exist_check_grad")):
                raise AssertionError("This test of %s op needs check_grad." %
                                     cls.op_type)

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            # check for op test with fp64 precision, but not check mkldnn op test for now
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            if cls.dtype in [np.float32, np.float64] \
                and cls.op_type not in op_accuracy_white_list.NO_FP64_CHECK_GRAD_OP_LIST \
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                and not hasattr(cls, 'exist_fp64_check_grad') \
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                and not is_xpu_op_test() \
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                and not is_mkldnn_op_test() \
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                and not is_rocm_op_test() \
                and not is_npu_op_test():
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                raise AssertionError(
                    "This test of %s op needs check_grad with fp64 precision." %
                    cls.op_type)

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            if not cls.input_shape_is_large \
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                and cls.op_type not in check_shape_white_list.NEED_TO_FIX_OP_LIST:
                raise AssertionError(
                    "Input's shape should be large than or equal to 100 for " +
                    cls.op_type + " Op.")
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    def try_call_once(self, data_type):
        if not self.call_once:
            self.call_once = True
            self.dtype = data_type

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    def is_bfloat16_op(self):
        return self.dtype == np.uint16 or (
            hasattr(self, 'mkldnn_data_type') and
            getattr(self, 'mkldnn_data_type') is "bfloat16")

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    def infer_dtype_from_inputs_outputs(self, inputs, outputs):
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        def is_np_data(input):
            return isinstance(input, (np.ndarray, np.generic))

        def infer_dtype(numpy_dict, dtype_set):
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            assert isinstance(
                numpy_dict,
                dict), "self.inputs, self.outputs must be numpy_dict"
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            # the inputs are as follows:
            # case 1: inputs = {'X': x}
            # case 2: inputs = {'X': (x, x_lod)}
            # case 3: inputs = {"X": [("x0", x0), ("x1", x1), ("x2", x2)]}
            # case 4: inputs = {'X': [("x1", (x1, [x1_lod1])), ("x2", (x2, [x2_.lod2]))]}
            # TODO(juncaipeng) infer dtype from inputs maybe obtain wrong type.
            for _, var_value in six.iteritems(numpy_dict):
                if is_np_data(var_value):  # case 1
                    dtype_set.add(var_value.dtype)
                elif isinstance(var_value, (list, tuple)):  # case 2, 3, 4
                    for sub_val_value in var_value:
                        if is_np_data(sub_val_value):  # case 2
                            dtype_set.add(sub_val_value.dtype)
                        elif len(sub_val_value) > 1 and is_np_data(
                                sub_val_value[1]):  # case 3
                            dtype_set.add(sub_val_value[1].dtype)
                        elif len(sub_val_value) > 1 and isinstance(sub_val_value[1], (list, tuple)) \
                            and is_np_data(sub_val_value[1][0]): # case 4
                            dtype_set.add(sub_val_value[1][0].dtype)

        # infer dtype from inputs, and dtype means the precision of the test
        # collect dtype of all inputs
        dtype_set = set()
        infer_dtype(inputs, dtype_set)
        dtype_list = [
            np.dtype(np.float64), np.dtype(np.float32), np.dtype(np.float16),
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            np.dtype(np.int64), np.dtype(np.int32), np.dtype(np.uint16),
            np.dtype(np.int16), np.dtype(np.int8), np.dtype(np.uint8),
            np.dtype(np.bool)
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        ]
        # check the dtype in dtype_list in order, select the first dtype that in dtype_set
        for dtype in dtype_list:
            if dtype in dtype_set:
                self.dtype = dtype
                break
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        # save dtype in class attr
        self.__class__.dtype = self.dtype
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    def feed_var(self, input_vars, place):
        feed_map = {}
        for var_name in input_vars:
            if isinstance(input_vars[var_name], list):
                for name, np_value in self.inputs[var_name]:
                    tensor = core.LoDTensor()
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                    if isinstance(np_value, tuple):
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                        tensor.set(np_value[0], place)
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                        tensor.set_recursive_sequence_lengths(np_value[1])
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                    else:
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                        tensor.set(np_value, place)
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                    feed_map[name] = tensor
            else:
                tensor = core.LoDTensor()
                if isinstance(self.inputs[var_name], tuple):
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                    tensor.set(self.inputs[var_name][0], place)
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                    tensor.set_recursive_sequence_lengths(self.inputs[var_name][
                        1])
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                else:
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                    tensor.set(self.inputs[var_name], place)
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                feed_map[var_name] = tensor
        return feed_map

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    def _append_ops(self, block):
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        self.__class__.op_type = self.op_type  # for ci check, please not delete it for now
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        if (hasattr(self, "use_mkldnn") and self.use_mkldnn == True) or \
            (hasattr(self, "attrs") and "use_mkldnn" in self.attrs and \
                    self.attrs["use_mkldnn"] == True):
            self.__class__.use_mkldnn = True
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        if (hasattr(self, "use_xpu") and self.use_xpu == True) or \
            (hasattr(self, "attrs") and "use_xpu" in self.attrs and \
                    self.attrs["use_xpu"] == True):
            self.__class__.use_xpu = True

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        op_proto = OpProtoHolder.instance().get_op_proto(self.op_type)
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        "infer datatype from inputs and outputs for this test case"
        self.infer_dtype_from_inputs_outputs(self.inputs, self.outputs)
        inputs = append_input_output(block, op_proto, self.inputs, True,
                                     self.dtype)
        outputs = append_input_output(block, op_proto, self.outputs, False,
                                      self.dtype)
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        if hasattr(self, "cache_name_list"):
            for name in self.cache_name_list:
                inputs[name] = block.create_var(
                    name=name,
                    persistable=True,
                    type=core.VarDesc.VarType.RAW,
                    stop_gradient=True)

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        op = block.append_op(
            type=self.op_type,
            inputs=inputs,
            outputs=outputs,
            attrs=self.attrs if hasattr(self, "attrs") else dict())
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        # infer variable type and infer shape in compile-time
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        op.desc.infer_var_type(block.desc)
        op.desc.infer_shape(block.desc)
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        return op

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    def _get_io_vars(self, block, numpy_inputs):
        inputs = {}
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        for name, value in six.iteritems(numpy_inputs):
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            if isinstance(value, list):
                var_list = [
                    block.var(sub_name) for sub_name, sub_value in value
                ]
                inputs[name] = var_list
            else:
                inputs[name] = block.var(name)
        return inputs

    def _get_inputs(self, block):
        return self._get_io_vars(block, self.inputs)

    def _get_outputs(self, block):
        return self._get_io_vars(block, self.outputs)

    def calc_output(self, place):
        outs, _ = self._calc_output(place)
        return outs

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    def _create_var_from_numpy(self, value):
        if isinstance(value, tuple):
            data = value[0]
            lod = value[1]
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            v = fluid.dygraph.base.to_variable(value=data)
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            v.value().get_tensor().set_recursive_sequence_lengths(lod)
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            return v
        else:
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            return fluid.dygraph.base.to_variable(value)
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    def get_sequence_batch_size_1_input(self, lod=None, shape=None):
        """Get LoD input data whose batch size is 1.
        All sequence related OP unittests should call this function to contain the case of batch size = 1.
        Args:
            lod (list[list of int], optional): Length-based LoD, length of lod[0] should be 1. Default: [[13]].
            shape (list, optional): Shape of input, shape[0] should be equals to lod[0][0]. Default: [13, 23].
        Returns:
            tuple (ndarray, lod) : LoD input data whose batch size is 1.
        """
        if lod is None:
            lod = [[13]]
        if shape is None:
            shape = [13, 23]
        assert len(lod[0]) == 1
        assert lod[0][0] == shape[0]
        x = np.random.uniform(0.1, 1, shape).astype('float32')
        return (x, lod)

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    def lod_has_single_zero(self, lod):
        for i in range(len(lod) - 2):
            if lod[i] != 0 and lod[i + 1] == 0 and lod[i + 2] != 0:
                return True
        return False

    def lod_has_continuous_zero(self, lod):
        for i in range(len(lod) - 3):
            if lod[i] != 0 and lod[i + 1] == 0 and lod[i + 2] == 0 and lod[
                    i + 3] != 0:
                return True
        return False

    def get_sequence_instance_size_0_input(self, lod=None, shape=None):
        """Get LoD input data whose instance size is 0.
        All sequence related OP unittests should call this function to contain the case of instance size is 0.
        Args:
            lod (list[list of int], optional): Length-based LoD, lod[0]'s size must at least eight, lod[0] must at least two zeros at the beginning and at least two zeros at the end, the middle position of lod[0] contains a single zero and multiple zero. Default: [[0, 0, 4, 0, 3, 0, 0, 5, 0, 0]].
            shape (list, optional): Shape of input, shape[0] should be equals to lod[0][0]. Default: [13, 23].
        Returns:
            tuple (ndarray, lod): LoD input data whose instance size is 0.
        """
        if lod is None:
            lod = [[0, 0, 4, 0, 3, 0, 0, 5, 0, 0]]
        if shape is None:
            shape = [12, 10]
        assert len(lod[0]) >= 8
        assert lod[0][0] == 0 and lod[0][1] == 0 and lod[0][-1] == 0 and lod[0][
            -2] == 0
        assert self.lod_has_single_zero(lod[0]) is True
        assert self.lod_has_continuous_zero(lod[0]) is True
        assert sum(lod[0]) == shape[0]

        x = np.random.uniform(0.1, 1, shape).astype('float32')
        return (x, lod)

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    def append_input_output_for_dygraph(self, op_proto, np_list, is_input,
                                        if_return_inputs_grad_dict, block):
        def create_var(np_value, name, is_input, if_return_inputs_grad_dict):
            np_value_temp = np_value
            has_lod = False
            lod_temp = None
            if isinstance(np_value, tuple):
                np_value_temp = np_value[0]
                has_lod = True
                lod_temp = np_value[1]

            if is_input:
                v = self._create_var_from_numpy(np_value_temp)
                if if_return_inputs_grad_dict:
                    v.stop_gradient = False
                if has_lod:
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                    v.value().get_tensor().set_recursive_sequence_lengths(
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                        lod_temp)
            else:
                v = block.create_var(
                    name=name,
                    dtype=np_value_temp.dtype,
                    type=core.VarDesc.VarType.LOD_TENSOR,
                    persistable=False,
                    stop_gradient=False)

            return v

        # prepare variable for input or output
        var_dict = defaultdict(list)
        if if_return_inputs_grad_dict:
            inputs_grad_dict = defaultdict()
        proto_list = op_proto.inputs if is_input else op_proto.outputs
        for var_proto in proto_list:
            name = var_proto.name
            if (name not in np_list) and var_proto.dispensable:
                continue
            if name not in np_list:
                assert var_proto.intermediate, "{} not found".format(name)
                v = block.create_var(
                    dtype='float32', type=core.VarDesc.VarType.LOD_TENSOR)
                var_dict[name].append(v)
                if if_return_inputs_grad_dict:
                    inputs_grad_dict[name] = v
                continue
            if var_proto.duplicable:
                assert isinstance(
                    np_list[name],
                    list), "Duplicable {} should be set as list".format(name)
                var_list = []
                slot_name = name
                for (name, np_value) in np_list[name]:
                    v = create_var(np_value, name, is_input,
                                   if_return_inputs_grad_dict)
                    var_list.append(v)
                    if if_return_inputs_grad_dict:
                        inputs_grad_dict[name] = v
                var_dict[slot_name] = var_list
            else:
                nplist_value_temp = None
                name_temp = None
                if isinstance(np_list[name], list):
                    nplist_value_temp = np_list[name][0]
                    name_temp = name
                else:
                    nplist_value_temp = np_list[name]
                    name_temp = unique_name.generate("%s_out" % (name))
                v = create_var(nplist_value_temp, name_temp, is_input,
                               if_return_inputs_grad_dict)
                var_dict[name].append(v)
                if if_return_inputs_grad_dict:
                    inputs_grad_dict[name] = v

        if if_return_inputs_grad_dict:
            return var_dict, inputs_grad_dict
        else:
            return var_dict

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    def _calc_dygraph_output(self, place, parallel=False, no_check_set=None):
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        self.__class__.op_type = self.op_type  # for ci check, please not delete it for now
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        with fluid.dygraph.base.guard(place=place):
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            block = fluid.default_main_program().global_block()

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            op_proto = OpProtoHolder.instance().get_op_proto(self.op_type)
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            # prepare input variable
            inputs = self.append_input_output_for_dygraph(op_proto, self.inputs,
                                                          True, False, block)
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            # prepare output variable
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            outputs = self.append_input_output_for_dygraph(
                op_proto, self.outputs, False, False, block)

            # prepare attrbutes
            attrs_outputs = {}
            if hasattr(self, "attrs"):
                for attrs_name in self.attrs:
                    if self.attrs[attrs_name] is not None:
                        attrs_outputs[attrs_name] = self.attrs[attrs_name]
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            block.append_op(
                type=self.op_type,
                inputs=inputs,
                outputs=outputs,
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                attrs=attrs_outputs if hasattr(self, "attrs") else None)
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            return outputs
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    def _calc_output(self,
                     place,
                     parallel=False,
                     no_check_set=None,
                     loss=None,
                     enable_inplace=None,
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                     for_inplace_test=None):
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        program = Program()
        block = program.global_block()
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        op = self._append_ops(block)
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        inputs = self._get_inputs(block)
        outputs = self._get_outputs(block)
        feed_map = self.feed_var(inputs, place)

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        if for_inplace_test:
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            # Some variables' tensors hold no buffer (tensor's _holder is NULL), like XShape in reshape2 op,
            # and the shapes of those variables contain 0 (eg. Xshape.shape = [0, 2, 5]).
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            # Set persistable for those variables in order to get them from global_scope for inplace grad test directly other than feed them,
            # since feed op calls check_memory_size() which fails when tensor's holder_ is NULL.
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            for out_name in op.output_arg_names:
                var = block.var(out_name)
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                if 0 in var.shape:
                    var.persistable = True
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        original_program = program
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        if parallel:
            use_cuda = False
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            if isinstance(place, fluid.CUDAPlace):
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                use_cuda = True
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            compiled_prog = fluid.CompiledProgram(program).with_data_parallel(
                loss_name=loss.name if loss else None, places=place)
            program = compiled_prog
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        fetch_list = getattr(self, "fetch_list", [])
        # if the fetch_list is customized by user, we use it directly.
        # if not, fill the fetch_list by the user configured outputs in test.
        if len(fetch_list) == 0:
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            for var_name, var in six.iteritems(outputs):
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                if no_check_set is not None and var_name in no_check_set:
                    continue
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                if isinstance(var, list):
                    for v in var:
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                        fetch_list.append(v.name)
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                else:
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                    fetch_list.append(var.name)
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        # if the fetch_list still empty, fill the fetch_list by the operator output.
        if len(fetch_list) == 0:
            for out_name, out_dup in Operator.get_op_outputs(self.op_type):
                fetch_list.append(str(out_name))
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        if enable_inplace is not None:
            build_strategy = fluid.BuildStrategy()
            build_strategy.enable_inplace = enable_inplace

            compiled_prog = fluid.CompiledProgram(program).with_data_parallel(
                build_strategy=build_strategy, places=place)
            program = compiled_prog

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        executor = Executor(place)
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        outs = executor.run(program,
                            feed=feed_map,
                            fetch_list=fetch_list,
                            return_numpy=False)
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        self.op = op
        self.program = original_program
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        if for_inplace_test:
            return outs, fetch_list, feed_map, original_program, op.desc
        else:
            return outs, fetch_list
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    def _compare_expect_and_actual_outputs(self,
                                           place,
                                           fetch_list,
                                           expect_outs,
                                           actual_outs,
                                           inplace_atol=None):
        """Compare expect outs and actual outs of an tested op.

        Args:
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            place (CPUPlace | CUDAPlace): The place where the op runs.
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            fetch_list (list): The outputs of tested op.
            expect_outs (list): The expect outs of tested op.
            actual_outs (list): The actual outs of tested op.
            inplace_atol (float): The tolerable error, only set when tested op doesn't ensure computational consistency, like group_norm op.

        Returns:
            None.
        """
        # compare expect_outs and actual_outs
        for i, name in enumerate(fetch_list):
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            # Note(zhiqiu): inplace_atol should be only set when op doesn't ensure
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            # computational consistency.
            # When inplace_atol is not None, the inplace check uses numpy.allclose
            # to check inplace result instead of numpy.array_equal.
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            expect_out = np.array(expect_outs[i])
            actual_out = np.array(actual_outs[i])
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            if inplace_atol is not None:
                self.assertTrue(
                    np.allclose(
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                        expect_out, actual_out, atol=inplace_atol),
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                    "Output (" + name + ") has diff at " + str(place) +
                    " when using and not using inplace" + "\nExpect " +
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                    str(expect_out) + "\n" + "But Got" + str(actual_out) +
                    " in class " + self.__class__.__name__)
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            else:
                self.assertTrue(
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                    np.array_equal(expect_out, actual_out),
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                    "Output (" + name + ") has diff at " + str(place) +
                    " when using and not using inplace" + "\nExpect " +
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                    str(expect_out) + "\n" + "But Got" + str(actual_out) +
                    " in class " + self.__class__.__name__ + '\n')
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    def _construct_grad_program_from_forward(self, fwd_program, grad_op_desc,
                                             op_grad_to_var):
        """Generate grad_program which contains the grad_op.

        Args:
            fwd_program (tuple): The program that contains grad_op_desc's corresponding forward op.
            grad_op_desc (OpDesc): The OpDesc of grad op.
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            op_grad_to_var (dict): The relation of variables in grad op and its forward op.
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        Returns:
            grad_program (program): The program which contains the grad_op.
        """
        grad_program = Program()
        grad_block = grad_program.global_block()
        new_op_desc = grad_block.desc.append_op()
        new_op_desc.copy_from(grad_op_desc)
        grad_program._sync_with_cpp()

        # Create grad vars based on fwd vars (shape and dtype)
        for arg in grad_op_desc.input_arg_names(
        ) + grad_op_desc.output_arg_names():
            fwd_var_name = op_grad_to_var.get(arg, None)
            if fwd_var_name is None:
                fwd_var_name = arg
            fwd_var = fwd_program.global_block().vars.get(fwd_var_name)
            assert fwd_var is not None, "{} cannot be found".format(
                fwd_var_name)
            grad_var = grad_block.create_var(
                name=arg,
                dtype=fwd_var.dtype,
                shape=fwd_var.shape,
                type=fwd_var.type,
                persistable=False)

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            # Some variables' tensors hold no buffer (tensor's _holder is NULL), like XShape in reshape2 op,
            # and the shapes of those variables contain 0 (eg. Xshape.shape = [0, 2, 5]).
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            # Set persistable for those variables in order to get them from global_scope for inplace grad test directly other than feed them,
            # since feed op calls check_memory_size() which fails when tensor's holder_ is NULL.
            if 0 in grad_var.shape:
                grad_var.persistable = True
        grad_program._sync_with_cpp()
        return grad_program

    def _construct_grad_feed_map_from_forward(self, place, fwd_res,
                                              grad_op_desc, op_grad_to_var):
        """Generate grad_feed_map for grad_program.

        since we don`t really check gradient accuracy, but check the consistency when using and not using inplace,
        we use fwd outs (also inputs sometimes) to construct grad inputs.

        Args:
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            place (CPUPlace | CUDAPlace): The place where the op runs.
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            fwd_res (tuple): The outputs of its forward op, in the same form as returns of _calc_outputs() when for_inplace_test is True.
                i.e., tuple(fwd_outs, fwd_fetch_list, fwd_feed_map, fwd_program, fwd_op_desc)
            grad_op_desc (OpDesc): The OpDesc of grad op.
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            op_grad_to_var (dict): The relation of variables in grad op and its fwd_op.
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        Returns:
            grad_feed_map (dict): The feed_map of grad_op.
        """
        fwd_outs, fwd_fetch_list, fwd_feed_map, fwd_program, fwd_op_desc = fwd_res
        p = core.Place()
        p.set_place(place)
        grad_feed_map = {}
        for arg in grad_op_desc.input_arg_names():
            if arg in fwd_feed_map.keys():
                grad_feed_map[arg] = fwd_feed_map[arg]._copy(p)
            else:
                fwd_var_name = op_grad_to_var.get(arg, None)
                if fwd_var_name is None:
                    fwd_var_name = arg

                for i, out_name in enumerate(fwd_fetch_list):
                    if out_name == fwd_var_name:
                        # don't feed variables whose tensors hold no buffer (shape contains 0 like shape = [0,2,5] and holder_ is NULL), like XShape in reshape2 op.
                        # get them from global_scope directly since we have set them persistable in fwd execution
                        if 0 in fwd_program.global_block().var(out_name).shape:
                            continue
                        else:
                            grad_feed_map[arg] = fwd_outs[i]._copy(p)
        return grad_feed_map

    def _get_need_run_ops(self, op_desc, fwd_op_desc=None):
        """Postorder traversal of the 'grad' tree to get all ops that need to run during inplace test.
        An op needs to run druing inplace check if,
        (1) it has infer_inplace,
        (2) it has infer_inplace in its grad descendants. (since we need its outputs as to construct its grad's inputs)
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        Args:
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            op_desc (OpDesc): The op_desc of current op.
            fwd_op_desc (OpDesc): The op_desc of current op's forward op, None if current op has no forward op.
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                Eg. relu's fwd_op is None, relu_grad's fwd_op is relu, relu_grad_grad's fwd_op is relu_grad, etc.
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        Returns:
            need_run_ops (list[(op_desc, fwd_op_desc)]): The ops that need to run during inplace test.
        """
        need_run_ops = []
        visited_ops = []

        def _dfs_grad_op(op_desc, fwd_op_desc=None):
            visited_ops.append(op_desc.type())
            has_infer_inplace = fluid.core.has_infer_inplace(op_desc.type())
            has_grad_op_maker = fluid.core.has_grad_op_maker(op_desc.type())
            has_infer_inplace_in_grad_descendants = False
            if not has_grad_op_maker:
                has_infer_inplace_in_descendants = False
            else:
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                # get grad_op_desc
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                grad_op_desc_list, op_grad_to_var = core.get_grad_op_desc(
                    op_desc, set(), [])
                if not grad_op_desc_list:
                    has_infer_inplace_in_grad_descendants = False
                else:
                    for i, grad_op_desc in enumerate(grad_op_desc_list):
                        if grad_op_desc.type(
                        ) not in visited_ops and _dfs_grad_op(
                                grad_op_desc, fwd_op_desc=op_desc):
                            has_infer_inplace_in_grad_descendants = True
            if has_infer_inplace or has_infer_inplace_in_grad_descendants:
                need_run_ops.append((op_desc, fwd_op_desc))
                return True
            else:
                return False

        _dfs_grad_op(op_desc, fwd_op_desc=fwd_op_desc)
        return need_run_ops

    def _check_forward_inplace(self,
                               place,
                               no_check_set=None,
                               inplace_atol=None):
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        """Check the inplace correctness of given op (self.op_type).
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        Run the op twice with same inputs, one enable inplace and another disable, compare their outputs.
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        Args:
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            place (CPUPlace | CUDAPlace): The place where the op runs.
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            no_check_set (list): The names of outputs that needn't check, like XShape of reshape op.
            inplace_atol (float): The tolerable error, only set when op doesn't ensure computational consistency, like group_norm op.

        Returns:
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            expect_res (tuple(outs, fetch_list, feed_map, program, op_desc)): The results of given op.
                We return this to construct grad_program and grad_feed_map for grad inplace check.
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        """
        # _calc_output() returns in the form tuple(outs, fetch_list, feed_map, program, op_desc) when for_inplace_test=True.
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        expect_res = self._calc_output(
            place,
            no_check_set=no_check_set,
            enable_inplace=False,
            for_inplace_test=True)
        actual_res = self._calc_output(
            place,
            no_check_set=no_check_set,
            enable_inplace=True,
            for_inplace_test=True)
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        # compare expect_outs and actual_outs
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        self._compare_expect_and_actual_outputs(
            place,
            expect_res[1],
            expect_res[0],
            actual_res[0],
            inplace_atol=inplace_atol)
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        return expect_res

    def _calc_grad_output(self,
                          place,
                          fwd_res,
                          grad_op_desc,
                          enable_inplace=None):
        """Calculate grad_output for given grad_op_desc.

        since we don`t really check gradient accuracy, but check the consistency when using and not using inplace,
        we use fwd outs (also inputs sometimes) to construct grad inputs.

        Args:
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            place (CPUPlace | CUDAPlace): The place where the op runs.
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            fwd_res (tuple): The outputs of its forward op, in the same form as returns of _calc_outputs() when for_inplace_test is True.
                i.e., tuple(fwd_outs, fwd_fetch_list, fwd_feed_map, fwd_program, fwd_op_desc).
            grad_op_desc (OpDesc): The OpDesc of grad op.
            enable_inplace (bool): Enable inplace or not.

        Returns:
            res (tuple(outs, fetch_list, feed_map, program, op_desc)): The results of given grad_op_desc.
        """
        fwd_outs, fwd_fetch_list, fwd_feed_map, fwd_program, fwd_op_desc = fwd_res
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        grad_op_desc_list, op_grad_to_var = core.get_grad_op_desc(fwd_op_desc,
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                                                                  set(), [])
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        grad_program = self._construct_grad_program_from_forward(
            fwd_program, grad_op_desc, op_grad_to_var)
        grad_feed_map = self._construct_grad_feed_map_from_forward(
            place, fwd_res, grad_op_desc, op_grad_to_var)
        grad_fetch_list = grad_op_desc.output_arg_names()
        exe = Executor(place)
        program = grad_program
        if enable_inplace is not None:
            build_strategy = fluid.BuildStrategy()
            build_strategy.enable_inplace = enable_inplace
            compiled_program = fluid.CompiledProgram(
                grad_program).with_data_parallel(
                    loss_name="", build_strategy=build_strategy, places=place)
            program = compiled_program
        outs = exe.run(program,
                       feed=grad_feed_map,
                       fetch_list=grad_fetch_list,
                       return_numpy=False)
        return outs, grad_fetch_list, grad_feed_map, grad_program, grad_op_desc

    def _check_grad_inplace(self,
                            place,
                            fwd_res,
                            grad_op_desc,
                            inplace_atol=None):
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        """Check the inplace correctness of given grad_op_desc.
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        Run the grad op twice with same inputs, one enable inplace and another disable, compare their outputs.
        It works like _check_forward_inplace, but the way to construct program and feed_map differs.
        So we define a new function for grad, grad_grad, etc.

        Args:
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            place (CPUPlace | CUDAPlace): The place where the op runs.
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            fwd_res (tuple): The outputs of its forward op, in the same form as returns of _calc_outputs() when for_inplace_test is True.
                i.e., tuple(fwd_outs, fwd_fetch_list, fwd_feed_map, fwd_program, fwd_op_desc).
            grad_op_desc (OpDesc): The OpDesc of grad op.
            inplace_atol (float): The tolerable error, only set when op doesn't ensure computational consistency, like group_norm op.

        Returns:
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            expect_res (tuple(outs, fetch_list, feed_map, program, op_desc)): The results of given op.
                We return this to construct grad_program and grad_feed_map for grad inplace check.
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        """
        expect_res = self._calc_grad_output(
            place, fwd_res, grad_op_desc, enable_inplace=False)
        actual_res = self._calc_grad_output(
            place, fwd_res, grad_op_desc, enable_inplace=True)
        self._compare_expect_and_actual_outputs(
            place,
            expect_res[1],
            expect_res[0],
            actual_res[0],
            inplace_atol=inplace_atol)
        return expect_res
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    def check_inplace_output_with_place(self,
                                        place,
                                        no_check_set=None,
                                        inplace_atol=None):
        """Chech the inplace correctness of given op, its grad op, its grad_grad op, etc.

        (1) Get all ops need to run. (see conditions in _get_need_run_ops())
        (2) Run op in need_run_ops, and do inplace check if it has infer_inplace.

        Args:
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            place (CPUPlace | CUDAPlace): The place where the op runs.
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            no_check_set (list): The names of outputs that needn't check, like XShape of reshape op.
            inplace_atol (float): The tolerable error, only set when op doesn't ensure computational consistency, like group_norm op.

        Returns:
            None
        """
        has_infer_inplace = fluid.core.has_infer_inplace(self.op_type)
        has_grad_op_maker = fluid.core.has_grad_op_maker(self.op_type)

        fwd_res = self._calc_output(
            place, no_check_set=no_check_set, for_inplace_test=True)
        op_desc = fwd_res[4]
        need_run_ops = self._get_need_run_ops(op_desc)

        res = {}
1027 1028
        if hasattr(self, 'attrs') and bool(self.attrs.get('use_xpu', False)):
            return
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        for op_desc, father_op_desc in reversed(need_run_ops):
            # The first one is the forward op
            has_infer_inplace = fluid.core.has_infer_inplace(op_desc.type())
            if op_desc.type() == self.op_type:
                if has_infer_inplace:
                    res[op_desc] = self._check_forward_inplace(
                        place,
                        no_check_set=no_check_set,
                        inplace_atol=inplace_atol)
                else:
                    res[op_desc] = self._calc_output(
                        place, no_check_set=no_check_set, for_inplace_test=True)
            else:
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                # TODO(zhiqiu): enhance inplace_grad test for ops (sum and activation) using mkldnn
                # skip op that use_mkldnn currently
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                flags_use_mkldnn = fluid.core.globals()["FLAGS_use_mkldnn"]
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                attrs_use_mkldnn = hasattr(
                    self,
                    'attrs') and bool(self.attrs.get('use_mkldnn', False))
                if flags_use_mkldnn or attrs_use_mkldnn:
                    warnings.warn(
                        "check inplace_grad for ops using mkldnn is not supported"
                    )
                    continue
                if has_infer_inplace:
                    fwd_res = res[father_op_desc]
                    res[op_desc] = self._check_grad_inplace(
                        place, fwd_res, op_desc, inplace_atol=inplace_atol)
1057
                else:
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                    res[op_desc] = self._calc_grad_output(place, fwd_res,
                                                          op_desc)
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    def check_output_with_place(self,
                                place,
1063
                                atol=0,
1064
                                no_check_set=None,
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                                equal_nan=False,
1066
                                check_dygraph=True,
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                                inplace_atol=None):
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        self.infer_dtype_from_inputs_outputs(self.inputs, self.outputs)
        if self.dtype == np.float64 and \
            self.op_type not in op_threshold_white_list.NEED_FIX_FP64_CHECK_OUTPUT_THRESHOLD_OP_LIST:
            atol = 0

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        if self.is_bfloat16_op():
            check_dygraph = False
            if hasattr(self, 'force_fp32_output') and getattr(
                    self, 'force_fp32_output'):
                atol = 1e-2
            else:
                atol = 2

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        if no_check_set is not None:
            if self.op_type not in no_check_set_white_list.no_check_set_white_list:
                raise AssertionError(
                    "no_check_set of op %s must be set to None." % self.op_type)
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        if check_dygraph:
            dygraph_outs = self._calc_dygraph_output(
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                place, no_check_set=no_check_set)
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        outs, fetch_list = self._calc_output(place, no_check_set=no_check_set)
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        for out_name, out_dup in Operator.get_op_outputs(self.op_type):
1091 1092
            if out_name not in self.outputs:
                continue
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            if no_check_set is not None and out_name in no_check_set:
                continue
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1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107
            def find_imperative_actual(target_name, dygraph_outs, place):
                with fluid.dygraph.base.guard(place=place):
                    for name in dygraph_outs:
                        if name == target_name:
                            return dygraph_outs[name][0]
                        var_list = dygraph_outs[name]
                        for i, var in enumerate(var_list):
                            if var.name == target_name:
                                return dygraph_outs[name][i]
                    self.assertTrue(False, "Found failed {} {}".format(
                        dygraph_outs.keys(), target_name))

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            def find_actual(target_name, fetch_list):
                found = [
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                    i for i, var_name in enumerate(fetch_list)
                    if var_name == target_name
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                ]
                self.assertTrue(
                    len(found) == 1, "Found {} {}".format(
                        len(found), target_name))
                return found[0]

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            if out_dup:
                sub_out = self.outputs[out_name]
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                if not isinstance(sub_out, list):
                    raise AssertionError("sub_out type %s is not list",
                                         type(sub_out))
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                for item in sub_out:
                    sub_out_name, expect = item[0], item[1]
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                    if check_dygraph:
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                        imperative_actual = find_imperative_actual(
                            sub_out_name, dygraph_outs, place)
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                        imperative_actual_t = np.array(imperative_actual.value()
                                                       .get_tensor())
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                    idx = find_actual(sub_out_name, fetch_list)
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                    actual = outs[idx]
                    actual_t = np.array(actual)
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                    expect_t = expect[0] \
                        if isinstance(expect, tuple) else expect
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                    self.assertTrue(
                        np.allclose(
1137
                            actual_t, expect_t, atol=atol, equal_nan=equal_nan),
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                        "Output (" + sub_out_name + ") has diff at " +
                        str(place))
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                    if check_dygraph:
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                        self.assertTrue(
                            np.allclose(
                                imperative_actual_t,
                                expect_t,
                                atol=atol,
                                equal_nan=equal_nan),
                            "Output (" + sub_out_name + ") has diff at " +
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                            str(place) + " in dygraph mode")
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                    if isinstance(expect, tuple):
                        self.assertListEqual(
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                            actual.recursive_sequence_lengths(), expect[1],
                            "Output (" + sub_out_name +
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                            ") has different lod at " + str(place))
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                        if check_dygraph:
                            self.assertListEqual(
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                                imperative_actual.value().get_tensor()
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                                .recursive_sequence_lengths(), expect[1],
                                "Output (" + out_name +
                                ") has different lod at " + str(place) +
                                " in dygraph mode")
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            else:
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                if check_dygraph:
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                    imperative_actual = find_imperative_actual(
                        out_name, dygraph_outs, place)
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                    imperative_actual_t = np.array(imperative_actual.value()
                                                   .get_tensor())
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                idx = find_actual(out_name, fetch_list)
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                actual = outs[idx]
                actual_t = np.array(actual)
1170

1171
                expect = self.outputs[out_name]
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                expect_t = expect[0] if isinstance(expect, tuple) else expect
1173 1174 1175 1176 1177

                if actual_t.dtype == np.uint16 and expect_t.dtype == np.float32:
                    actual_t = convert_uint16_to_float(actual_t)
                    atol = 0.03

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                self.assertTrue(
                    np.allclose(
1180
                        actual_t, expect_t, atol=atol, equal_nan=equal_nan),
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                    "Output (" + out_name + ") has diff at " + str(place) +
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                    "\nExpect " + str(expect_t) + "\n" + "But Got" +
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                    str(actual_t) + " in class " + self.__class__.__name__)
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                if check_dygraph:
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                    if six.moves.reduce(
                            lambda x, y: x * y, imperative_actual_t.shape,
                            1) == 0 and six.moves.reduce(
                                lambda x, y: x * y, expect_t.shape, 1) == 0:
                        pass
                    else:
                        self.assertTrue(
                            np.allclose(
                                imperative_actual_t,
                                expect_t,
                                atol=atol,
                                equal_nan=equal_nan),
                            "Output (" + out_name + ") has diff at " +
                            str(place) + "\nExpect " + str(expect_t) + "\n" +
                            "But Got" + str(imperative_actual_t) + " in class "
                            + self.__class__.__name__)
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                if isinstance(expect, tuple):
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                    self.assertListEqual(actual.recursive_sequence_lengths(),
                                         expect[1], "Output (" + out_name +
1204
                                         ") has different lod at " + str(place))
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                    if check_dygraph:
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                        self.assertListEqual(
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                            imperative_actual.value().get_tensor()
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                            .recursive_sequence_lengths(), expect[1],
                            "Output (" + out_name + ") has different lod at " +
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                            str(place) + " in dygraph mode")
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        # Note(zhiqiu): inplace_atol should be only set when op doesn't ensure
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        # computational consistency.
        # For example, group_norm uses AtomicAdd on CUDAPlace, which do not ensure
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        # computation order when multiple threads write the same address. So the
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        # result of group_norm is non-deterministic when datatype is float.
        # When inplace_atol is not None, the inplace check uses numpy.allclose
        # to check inplace result instead of numpy.array_equal.
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        if inplace_atol is not None:
            warnings.warn(
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                "inplace_atol should only be set when op doesn't ensure computational consistency, please check it!"
            )
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        # Check inplace for given op, its grad op, its grad_grad op, etc.
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        # No effect on original OpTest
1225
        # Currently not support ParallelExecutor on XPUPlace.
1226 1227
        if not paddle.is_compiled_with_xpu(
        ) and not paddle.is_compiled_with_npu():
1228 1229
            self.check_inplace_output_with_place(
                place, no_check_set=no_check_set, inplace_atol=inplace_atol)
1230

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        if check_dygraph:
            return outs, dygraph_outs, fetch_list
        else:
            return outs, fetch_list

    def check_compile_vs_runtime(self, fetch_list, fetch_outs):
        def find_fetch_index(target_name, fetch_list):
            found = [
                i for i, var_name in enumerate(fetch_list)
                if var_name == target_name
            ]
            if len(found) == 0:
                return -1
            else:
                self.assertTrue(
                    len(found) == 1,
                    "Found {} {}".format(len(found), target_name))
                return found[0]

        for name in self.op.desc.output_names():
            var_names = self.op.desc.output(name)
            for var_name in var_names:
                i = find_fetch_index(var_name, fetch_list)
                if i == -1:
                    # The output is dispensiable or intermediate.
                    break
                out = fetch_outs[i]
                if isinstance(out, core.LoDTensor):
                    lod_level_runtime = len(out.lod())
                else:
                    if isinstance(out, core.LoDTensorArray):
                        warnings.warn(
                            "The check of LoDTensorArray's lod_level is not implemented now!"
                        )
                    lod_level_runtime = 0

                var = self.program.global_block().var(var_name)
                if var.type == core.VarDesc.VarType.LOD_TENSOR:
                    lod_level_compile = var.lod_level
                else:
                    lod_level_compile = 0
                self.assertEqual(
                    lod_level_compile, lod_level_runtime,
                    "The lod_level of Output (" + name +
                    ") is different between compile-time and runtime (" +
                    str(lod_level_compile) + " vs " + str(lod_level_runtime) +
                    ")")

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    def _get_places(self):
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        if self.dtype == np.float16:
            if core.is_compiled_with_cuda() and core.op_support_gpu(
                    self.op_type):
                place = core.CUDAPlace(0)
                if core.is_float16_supported(place):
                    return [place]
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                else:
                    return []
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            else:
                return []
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        places = [fluid.CPUPlace()]
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        cpu_only = self._cpu_only if hasattr(self, '_cpu_only') else False
        if core.is_compiled_with_cuda() and core.op_support_gpu(self.op_type)\
           and not cpu_only:
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            places.append(core.CUDAPlace(0))
1295 1296
        return places

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    def check_output(self,
                     atol=1e-5,
                     no_check_set=None,
                     equal_nan=False,
1301
                     check_dygraph=True,
1302
                     inplace_atol=None):
1303
        self.__class__.op_type = self.op_type
1304 1305 1306 1307
        if (hasattr(self, "use_mkldnn") and self.use_mkldnn == True) or \
            (hasattr(self, "attrs") and "use_mkldnn" in self.attrs and \
                    self.attrs["use_mkldnn"] == True):
            self.__class__.use_mkldnn = True
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        if (hasattr(self, "use_xpu") and self.use_xpu == True) or \
            (hasattr(self, "attrs") and "use_xpu" in self.attrs and \
                    self.attrs["use_xpu"] == True):
            self.__class__.use_xpu = True

1314
        places = self._get_places()
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        for place in places:
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            res = self.check_output_with_place(place, atol, no_check_set,
                                               equal_nan, check_dygraph)
            if check_dygraph:
                outs, dygraph_outs, fetch_list = res
            else:
                outs, fetch_list = res
1322
            if self.op_type not in compile_vs_runtime_white_list.COMPILE_RUN_OP_WHITE_LIST:
1323
                self.check_compile_vs_runtime(fetch_list, outs)
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1325
    def check_output_customized(self, checker):
1326
        places = self._get_places()
1327 1328 1329
        for place in places:
            outs = self.calc_output(place)
            outs = [np.array(out) for out in outs]
1330
            outs.sort(key=len)
1331 1332
            checker(outs)

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    def _assert_is_close(self, numeric_grads, analytic_grads, names,
                         max_relative_error, msg_prefix):
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        for a, b, name in six.moves.zip(numeric_grads, analytic_grads, names):
1336 1337 1338 1339 1340 1341
            # It asserts np.abs(a - b) / np.abs(a) < max_relative_error, in which
            # max_relative_error is 1e-7. According to the value of np.abs(a), we
            # change np.abs(a) to achieve dynamic threshold. For example, if
            # the value of np.abs(a) is between 1e-10 and 1e-8, we set np.abs(a)*=1e4.
            # Therefore, it asserts np.abs(a - b) / (np.abs(a)*1e4) < max_relative_error,
            # which is the same as np.abs(a - b) / np.abs(a) < max_relative_error*1e4.
1342
            abs_a = np.abs(a)
1343 1344 1345 1346 1347 1348 1349
            if self.dtype == np.float64 and \
                self.op_type not in op_threshold_white_list.NEED_FIX_FP64_CHECK_GRAD_THRESHOLD_OP_LIST:
                abs_a[abs_a < 1e-10] = 1e-3
                abs_a[np.logical_and(abs_a > 1e-10, abs_a <= 1e-8)] *= 1e4
                abs_a[np.logical_and(abs_a > 1e-8, abs_a <= 1e-6)] *= 1e2
            else:
                abs_a[abs_a < 1e-3] = 1
1350 1351 1352 1353 1354 1355

            diff_mat = np.abs(a - b) / abs_a
            max_diff = np.max(diff_mat)

            def err_msg():
                offset = np.argmax(diff_mat > max_relative_error)
1356 1357 1358
                return ("Operator %s error, %s variable %s (shape: %s, dtype: %s) max gradient diff %e over limit %e, "
                    "the first error element is %d, expected %e, but got %e.") \
                    % (self.op_type, msg_prefix, name, str(a.shape), self.dtype, max_diff, max_relative_error,
1359
                    offset, a.flatten()[offset], b.flatten()[offset])
1360 1361 1362

            self.assertLessEqual(max_diff, max_relative_error, err_msg())

1363 1364 1365 1366 1367 1368 1369
    def _check_grad_helper(self):
        self.infer_dtype_from_inputs_outputs(self.inputs, self.outputs)
        self.__class__.op_type = self.op_type
        self.__class__.exist_check_grad = True
        if self.dtype == np.float64:
            self.__class__.exist_fp64_check_grad = True

1370 1371
    def check_grad(self,
                   inputs_to_check,
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                   output_names,
1373
                   no_grad_set=None,
1374
                   numeric_grad_delta=0.005,
1375
                   in_place=False,
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                   max_relative_error=0.005,
1377
                   user_defined_grads=None,
1378
                   user_defined_grad_outputs=None,
1379
                   check_dygraph=True):
1380
        self._check_grad_helper()
1381
        places = self._get_places()
1382
        for place in places:
1383 1384 1385 1386
            self.check_grad_with_place(
                place, inputs_to_check, output_names, no_grad_set,
                numeric_grad_delta, in_place, max_relative_error,
                user_defined_grads, user_defined_grad_outputs, check_dygraph)
1387 1388 1389 1390 1391 1392 1393 1394 1395

    def check_grad_with_place(self,
                              place,
                              inputs_to_check,
                              output_names,
                              no_grad_set=None,
                              numeric_grad_delta=0.005,
                              in_place=False,
                              max_relative_error=0.005,
1396
                              user_defined_grads=None,
1397
                              user_defined_grad_outputs=None,
1398
                              check_dygraph=True):
1399
        self.scope = core.Scope()
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        op_inputs = self.inputs if hasattr(self, "inputs") else dict()
1401
        op_outputs = self.outputs if hasattr(self, "outputs") else dict()
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        op_attrs = self.attrs if hasattr(self, "attrs") else dict()
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1404
        self._check_grad_helper()
1405 1406 1407 1408
        if self.dtype == np.float64 and \
            self.op_type not in op_threshold_white_list.NEED_FIX_FP64_CHECK_GRAD_THRESHOLD_OP_LIST:
            numeric_grad_delta = 1e-5
            max_relative_error = 1e-7
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        cache_list = None
        if hasattr(self, "cache_name_list"):
            cache_list = self.cache_name_list
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        # oneDNN numeric gradient should use CPU kernel
        use_onednn = False
        if "use_mkldnn" in op_attrs and op_attrs["use_mkldnn"] == True:
            op_attrs["use_mkldnn"] = False
            use_onednn = True

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        self.op = create_op(
            self.scope,
            self.op_type,
            op_inputs,
            op_outputs,
            op_attrs,
            cache_list=cache_list)
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        if use_onednn:
            op_attrs["use_mkldnn"] = True

1431 1432
        if no_grad_set is None:
            no_grad_set = set()
1433 1434
        else:
            if (self.op_type not in no_grad_set_white_list.NEED_TO_FIX_OP_LIST
1435 1436 1437
                ) and (
                    self.op_type not in no_grad_set_white_list.NOT_CHECK_OP_LIST
                ) and (not self.is_bfloat16_op()):
1438 1439
                raise AssertionError("no_grad_set must be None, op_type is " +
                                     self.op_type + " Op.")
1440

1441 1442 1443 1444 1445 1446 1447 1448
        for input_to_check in inputs_to_check:
            set_input(self.scope, self.op, self.inputs, place)
            tensor_to_check = self.scope.find_var(input_to_check).get_tensor()
            tensor_size = six.moves.reduce(lambda a, b: a * b,
                                           tensor_to_check.shape(), 1)
            if tensor_size < 100:
                self.__class__.input_shape_is_large = False

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        if not type(output_names) is list:
            output_names = [output_names]

1452 1453 1454 1455 1456 1457 1458 1459 1460
        # FIXME: Replace numeric_place with place to calculate numeric_grads.
        # NOTE(liym27): There is an unknown error when call op.run() on NPUPlace, which
        # needs to be fixed.
        if hasattr(self.__class__,
                   "use_npu") and self.__class__.use_npu == True:
            numeric_place = paddle.CPUPlace()
        else:
            numeric_place = place

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        numeric_grads = user_defined_grads or [
1462
            get_numeric_gradient(
1463
                numeric_place,
1464 1465 1466 1467
                self.scope,
                self.op,
                self.inputs,
                input_to_check,
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                output_names,
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                delta=numeric_grad_delta,
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                in_place=in_place) for input_to_check in inputs_to_check
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        ]
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        analytic_grads = self._get_gradient(inputs_to_check, place,
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                                            output_names, no_grad_set,
                                            user_defined_grad_outputs)
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        # comparison of bf16 results will happen as fp32
        # loop over list of grads and convert bf16 to fp32
        fp32_grads = []
        for grad in analytic_grads:
            if grad.dtype == np.uint16:
                grad = convert_uint16_to_float(grad)
                max_relative_error = 0.03
            fp32_grads.append(grad)
        analytic_grads = fp32_grads

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        self._assert_is_close(numeric_grads, analytic_grads, inputs_to_check,
                              max_relative_error,
                              "Gradient Check On %s" % str(place))
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        if check_dygraph:
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            dygraph_grad = self._get_dygraph_grad(
                inputs_to_check, place, output_names, user_defined_grad_outputs,
                no_grad_set)
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            self._assert_is_close(numeric_grads, dygraph_grad, inputs_to_check,
                                  max_relative_error,
                                  "Gradient Check On %s" % str(place))

    def _find_var_in_dygraph(self, output_vars, name):
        if name in output_vars:
            return output_vars[name]
        else:
            for output_vars_index in output_vars:
                for output_vars_selected in output_vars[output_vars_index]:
                    if output_vars_selected.name == name:
                        return output_vars_selected

    def _get_dygraph_grad(self,
                          inputs_to_check,
                          place,
                          output_names,
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                          user_defined_grad_outputs=None,
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                          no_grad_set=None):
        with fluid.dygraph.base.guard(place=place):
            block = fluid.default_main_program().global_block()

            op_proto = OpProtoHolder.instance().get_op_proto(self.op_type)

            # prepare input variable
            inputs, inputs_grad_dict = self.append_input_output_for_dygraph(
                op_proto, self.inputs, True, True, block)

            # prepare output variable
            outputs = self.append_input_output_for_dygraph(
                op_proto, self.outputs, False, False, block)

            # prepare attrbutes
            attrs_outputs = {}
            if hasattr(self, "attrs"):
                for attrs_name in self.attrs:
                    if self.attrs[attrs_name] is not None:
                        attrs_outputs[attrs_name] = self.attrs[attrs_name]
            block.append_op(
                type=self.op_type,
                inputs=inputs,
                outputs=outputs,
                attrs=attrs_outputs if hasattr(self, "attrs") else None)

            outputs_valid = {}
            for output_name in output_names:
                outputs_valid[output_name] = self._find_var_in_dygraph(
                    outputs, output_name)

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            if user_defined_grad_outputs is None:
                if len(outputs_valid) == 1:
                    loss = block.create_var(
                        dtype=self.dtype,
                        type=core.VarDesc.VarType.LOD_TENSOR,
                        persistable=False,
                        stop_gradient=False,
                        shape=[1])
                    for outputs_valid_key in outputs_valid:
                        block.append_op(
                            type="mean",
                            inputs={"X": outputs_valid[outputs_valid_key]},
                            outputs={"Out": [loss]},
                            attrs=None)
                else:
                    avg_sum = []
                    for cur_loss in outputs_valid:
                        cur_avg_loss = block.create_var(
                            dtype=self.dtype,
                            type=core.VarDesc.VarType.LOD_TENSOR,
                            persistable=False,
                            stop_gradient=False)
                        block.append_op(
                            type="mean",
                            inputs={"X": outputs_valid[cur_loss]},
                            outputs={"Out": [cur_avg_loss]},
                            attrs=None)
                        avg_sum.append(cur_avg_loss)
                    loss_sum = block.create_var(
                        dtype=self.dtype,
                        type=core.VarDesc.VarType.LOD_TENSOR,
                        persistable=False,
                        stop_gradient=False,
                        shape=[1])
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                    block.append_op(
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                        type='sum',
                        inputs={"X": avg_sum},
                        outputs={"Out": loss_sum},
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                        attrs=None)
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                    loss = block.create_var(
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                        dtype=self.dtype,
                        type=core.VarDesc.VarType.LOD_TENSOR,
                        persistable=False,
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                        stop_gradient=False,
                        shape=[1])
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                    block.append_op(
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                        type='scale',
                        inputs={"X": loss_sum},
                        outputs={"Out": loss},
                        attrs={'scale': 1.0 / float(len(avg_sum))})
                loss.backward()
                fetch_list_grad = []
                for inputs_to_check_name in inputs_to_check:
                    a = inputs_grad_dict[inputs_to_check_name].gradient()
                    fetch_list_grad.append(a)
                return fetch_list_grad
            else:
                # user_defined_grad_outputs here are numpy arrays
                if not isinstance(user_defined_grad_outputs, list):
                    user_defined_grad_outputs = [user_defined_grad_outputs]
                grad_outputs = []
                for grad_out_value in user_defined_grad_outputs:
                    grad_outputs.append(paddle.to_tensor(grad_out_value))
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                # delete the inputs which no need to calculate grad
                for no_grad_val in no_grad_set:
                    del (inputs[no_grad_val])

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                grad_inputs = paddle.grad(
                    outputs=fluid.layers.utils.flatten(outputs),
                    inputs=fluid.layers.utils.flatten(inputs),
                    grad_outputs=grad_outputs)
                return [grad.numpy() for grad in grad_inputs]
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    @staticmethod
    def _numpy_to_lod_tensor(np_value, lod, place):
        tensor = core.LoDTensor()
        tensor.set(np_value, place)
        if lod is not None:
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            tensor.set_recursive_sequence_lengths(lod)
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        return tensor

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    @staticmethod
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    def np_dtype_to_fluid_dtype(input):
        return input
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    @staticmethod
    def fluid_dtype_to_np_dtype(self, dtype):
        return dtype

    @staticmethod
    def np_value_to_fluid_value(input):
        return input

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    def _get_gradient(self,
                      input_to_check,
                      place,
                      output_names,
                      no_grad_set,
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                      user_defined_grad_outputs=None,
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                      parallel=False):
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        prog = Program()
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        scope = core.Scope()
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        block = prog.global_block()
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        self._append_ops(block)
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        inputs = self._get_inputs(block)
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        outputs = self._get_outputs(block)
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        feed_dict = self.feed_var(inputs, place)
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        if user_defined_grad_outputs is None:
            loss = append_loss_ops(block, output_names)
            param_grad_list = append_backward(
                loss=loss,
                parameter_list=input_to_check,
                no_grad_set=no_grad_set)
            fetch_list = [g for p, g in param_grad_list]
        else:
            assert parallel is False, "unsupported parallel mode when giving custom grad outputs."
            # user_defined_grad_outputs here are numpy arrays
            if not isinstance(user_defined_grad_outputs, list):
                user_defined_grad_outputs = [user_defined_grad_outputs]
            grad_outputs = []
            for grad_out_value in user_defined_grad_outputs:
                # `presistable` is used to avoid executor create new var in local scope
                var = block.create_var(
                    shape=grad_out_value.shape,
                    dtype=grad_out_value.dtype,
                    persistable=True)
                true_var = scope.var(var.name)
                tensor = true_var.get_tensor()
                tensor.set(grad_out_value, place)
                grad_outputs.append(var)
            targets = [
                outputs[name] for name in outputs if name in output_names
            ]
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            inputs = [inputs[name] for name in input_to_check if name in inputs]
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            grad_inputs = paddle.static.gradients(targets, inputs, grad_outputs,
                                                  no_grad_set)
            fetch_list = grad_inputs

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        if parallel:
            use_cuda = False
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            if isinstance(place, fluid.CUDAPlace):
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                use_cuda = True
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            compiled_prog = fluid.CompiledProgram(prog).with_data_parallel(
                loss_name=loss.name, places=place)
            prog = compiled_prog
        executor = fluid.Executor(place)
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        return list(
            map(np.array,
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                executor.run(prog,
                             feed_dict,
                             fetch_list,
                             scope=scope,
                             return_numpy=False)))