quantization_pass.py 119.4 KB
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#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import collections
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import numpy as np
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try:
    from tqdm import tqdm
except:
    from .utils import tqdm
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from ..... import compat as cpt
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from .... import core
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from ....framework import IrGraph
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from ....framework import IrNode
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from ....framework import Operator
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from .... import unique_name

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from ....framework import Program, program_guard, default_startup_program
from ....data import data
from ....layers import mean
from ....executor import scope_guard
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from ....framework import _get_paddle_place
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from . import utils
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__all__ = [
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    'QuantizationTransformPass',
    'QuantizationFreezePass',
    'ConvertToInt8Pass',
    'TransformForMobilePass',
    'OutScaleForTrainingPass',
    'OutScaleForInferencePass',
    'AddQuantDequantPass',
    'QuantizationTransformPassV2',
    'AddQuantDequantPassV2',
    'ReplaceFakeQuantDequantPass',
    'QuantWeightPass',
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]
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_fake_quant_op_list = [
    'fake_quantize_abs_max', 'fake_quantize_range_abs_max',
    'fake_quantize_moving_average_abs_max', 'fake_channel_wise_quantize_abs_max'
]

_fake_dequant_op_list = [
    'fake_dequantize_max_abs', 'fake_channel_wise_dequantize_max_abs'
]

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_fake_quant_dequant_op_list = [
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    'fake_quantize_dequantize_moving_average_abs_max',
    "fake_channel_wise_quantize_dequantize_abs_max",
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]

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_conv_ops = ['conv2d', 'depthwise_conv2d', 'conv2d_transpose']

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_SCALE_DEFAULT_VALUE = 0.001
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def _init_var_node(var_node, value, scope, place):
    assert isinstance(value,
                      np.ndarray), 'The type of value should be numpy array.'
    assert scope is not None, \
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        'The scope cannot be set None.'
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    assert place is not None, \
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        'The place cannot be set None.'
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    tensor = scope.var(var_node.name()).get_tensor()
    tensor.set(value, place)


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def _is_input_all_not_persistable(graph, op_node):
    '''
    Analyse the real inputs of the op node are all not persistable.
    '''
    is_input_all_not_persistable = True
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    for var_name in utils._get_op_input_var_names(op_node):
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        in_node = graph._find_node_by_name(op_node.inputs, var_name)
        is_input_all_not_persistable = (is_input_all_not_persistable and \
            (not in_node.persistable()))
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    return is_input_all_not_persistable


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def _check_grandchild_op_node(op_node, grandchild_op_name):
    '''
    Check whether the fake_quant node has a grandchild op node named
    grandchild_op_name.
    '''
    for out1_var_node in op_node.outputs:
        for out1_op_node in out1_var_node.outputs:
            for out2_var_node in out1_op_node.outputs:
                for out2_op_node in out2_var_node.outputs:
                    if out2_op_node.name() == grandchild_op_name:
                        return True
    return False


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class QuantizationTransformPass(object):
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    """
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    Quantize the ops that have weights. Add quant and dequant ops for
    the quantized ops's inputs.
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    """
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    def __init__(self,
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                 scope=None,
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                 place=None,
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                 weight_bits=8,
                 activation_bits=8,
                 activation_quantize_type='abs_max',
                 weight_quantize_type='abs_max',
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                 window_size=10000,
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                 moving_rate=0.9,
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                 skip_pattern=['skip_quant'],
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                 quantizable_op_type=['conv2d', 'depthwise_conv2d', 'mul'],
                 weight_quantize_func=None,
                 act_quantize_func=None,
                 weight_preprocess_func=None,
                 act_preprocess_func=None,
                 optimizer_func=None,
                 executor=None):
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        r"""
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        Constructor.
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        Args:
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            scope(fluid.Scope): When activation use 'range_abs_max' as the quantize
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                type, this pass will create some new parameters. The scope is used to
                initialize these new parameters.
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            place(fluid.CPUPlace|fluid.CUDAPlace|str): place is used to initialize new
                parameters described above. If it's string, It can be ``cpu``, and ``gpu:x``,
                where ``x`` is the index of the GPUs. 
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            weight_bits(int): quantization bit number for weights,
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                the bias is not quantized.
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            activation_bits(int): quantization bit number for activation.
            activation_quantize_type(str): quantization type for activation,
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                now support 'abs_max', 'range_abs_max' and 'moving_average_abs_max'.
                If use 'abs_max' mode, the quantization scale will be calculated
                dynamically each step in both training and testing period. If use
                'range_abs_max', a static quantization scale will be calculated
                during training and used in inference.
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            weight_quantize_type(str): quantization type for weights,
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                support 'abs_max' and 'channel_wise_abs_max'. The 'range_abs_max'
                usually is not used for weight, since weights are fixed once the
                model is well trained.
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            window_size(int): the window size for 'range_abs_max' quantization.
            moving_rate(float): the param for 'moving_average_abs_max' quantization.
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            skip_pattern(str or str list): The user-defined quantization skip pattern, which
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                will be presented in the name scope of an op. When the skip pattern is
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                detected in an op's name scope, the corresponding op will not be quantized. 
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            quantizable_op_type(list[str]): List the type of ops that will be quantized. 
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                Default is ["conv2d", "depthwise_conv2d", "mul"]. The quantizable_op_type in
                QuantizationFreezePass and ConvertToInt8Pass must be the same as this.
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            weight_quantize_func(function): Function that defines how to quantize weight.
                Using this can quickly test if user's quantization method works or not.
                In this function, user should both define quantization function and
                dequantization function, that is, the function's input is non-quantized
                weight and function returns dequantized weight. If None, will use
                quantization op defined by 'weight_quantize_type'. Default is None.
            act_quantize_func(function): Function that defines how to quantize activation.
                Using this can quickly test if user's quantization method works or not.
                In this function, user should both define quantization and dequantization
                process, that is, the function's input is non-quantized activation and
                function returns dequantized activation. If None, will use quantization
                op defined by 'activation_quantize_type'. Default is None.
            weight_preprocess_func(function): Function that defines how to preprocess
                weight before quantization. Using this can quickly test if user's preprocess
                method works or not. The function's input is non-quantized weight and
                function returns processed weight to be quantized. If None, the weight will
                be quantized directly. Default is None.
            act_preprocess_func(function): Function that defines how to preprocess
                activation before quantization. Using this can quickly test if user's
                preprocess method works or not. The function's input is non-quantized
                activation and function returns processed activation to be quantized.
                If None, the activation will be quantized directly. Default is None.
            optimizer_func(function): Fuction return a optimizer. When 'is_test' is
                False and user want to use self-defined quantization function and
                preprocess function, this function must be set. Default is None.
            executor(Fluid.Executor): If user want to use self-defined quantization
                function and preprocess function, executor must be set for initialization.
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                Default is None.

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        Examples:
        .. code-block:: python
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            # The original graph will be rewrite.
            import paddle.fluid as fluid
            from paddle.fluid.contrib.slim.quantization \
                import QuantizationTransformPass
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            from paddle.fluid.contrib.slim.graph import IrGraph
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            from paddle.fluid import core

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            graph = IrGraph(core.Graph(program.desc), for_test=False)
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            place = fluid.CPUPlace()
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            transform_pass = QuantizationTransformPass(fluid.global_scope(),
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            place)
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            transform_pass.apply(graph)
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        """
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        self._scope = scope
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        self._place = _get_paddle_place(place)
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        self._weight_bits = weight_bits
        self._activation_bits = activation_bits
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        self._skip_pattern = skip_pattern
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        self._weight_quantize_func = weight_quantize_func
        self._act_quantize_func = act_quantize_func
        self._weight_preprocess_func = weight_preprocess_func
        self._act_preprocess_func = act_preprocess_func
        self._optimizer = optimizer_func
        self._exe = executor
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        quant_type = [
            'abs_max', 'channel_wise_abs_max', 'range_abs_max',
            'moving_average_abs_max'
        ]
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        assert activation_quantize_type != 'channel_wise_abs_max', \
            "The activation quantization type does not support 'channel_wise_abs_max'."
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        if activation_quantize_type not in quant_type:
            raise ValueError(
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                "Unknown activation_quantize_type : '%s'. It can only be "
                "'abs_max' or 'range_abs_max' or 'moving_average_abs_max'." %
                (str(activation_quantize_type)))
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        if weight_quantize_type not in quant_type:
            raise ValueError(
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                "Unknown weight_quantize_type: '%s'. It can only be "
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                "'abs_max' or 'channel_wise_abs_max' or 'range_abs_max' "
                "or 'moving_average_abs_max'." % (str(weight_quantize_type)))
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        self._activation_quantize_type = activation_quantize_type
        self._weight_quantize_type = weight_quantize_type
        self._window_size = window_size
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        self._moving_rate = moving_rate
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        self._quantizable_ops = quantizable_op_type
        for op in self._quantizable_ops:
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            assert op in utils._weight_supported_quantizable_op_type, \
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                op + " is not supported for quantization."
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        self._quantizable_grad_ops = [
            '%s_grad' % (op) for op in self._quantizable_ops
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        ]
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        self._is_test = None
        self._global_step = None
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        self.create_var_map = {}
        self.create_op_map = {}

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    def apply(self, graph):
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        """
        Quantize the graph for training process. According to weight and
        activation quantization type, the graph will be added some fake
        quantize operators and fake dequantize operators.

        Args:
            graph(IrGraph): the applied graph.
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        Returns:
            None
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        """
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        assert isinstance(graph,
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                          IrGraph), 'graph must be the instance of IrGraph.'
        self._is_test = graph.is_test()
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        # marked the variable which has been dequantized.
        dequantized_vars = collections.OrderedDict()
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        persistable_vars = [p.name() for p in graph.all_persistable_nodes()]
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        processed_vars = []
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        def _quant_preprocess(op_node):
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            user_skipped = False
            if isinstance(self._skip_pattern, list):
                user_skipped = op_node.op().has_attr("op_namescope") and \
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                               any(pattern in op_node.op().attr("op_namescope") \
                                   for pattern in self._skip_pattern)
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            elif isinstance(self._skip_pattern, str):
                user_skipped = op_node.op().has_attr("op_namescope") and \
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                               op_node.op().attr("op_namescope").find(
                                   self._skip_pattern) != -1
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            if user_skipped:
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                op_node.op()._set_attr("skip_quant", True)
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                op_node.op()._set_attr("with_quant_attr", True)
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        def _transform_forward(graph, op):
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            op.op()._set_attr("quantization_type", "qat_with_weight")
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            op.op()._set_attr("with_quant_attr", True)
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            inputs = op.inputs
            for var_node in inputs:
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                if var_node.name() not in op.input_arg_names():
                    continue
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                if var_node.name() in dequantized_vars:
                    dequant_var_node = dequantized_vars[var_node.name()]
                else:
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                    name = var_node.name()
                    if name in processed_vars:
                        continue
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                    is_weight = True if var_node.name() in persistable_vars \
                        else False
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                    # if var node is weight and weight_preprocess_func is not None,
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                    # will insert weight preprocess func
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                    # to preorocess weight before quantization
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                    # if var node is activation and act_preprocess_func is not None,
                    # will insert activation preprocess func
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                    # to preorocess activation before quantization
                    if is_weight and self._weight_preprocess_func is not None:
                        var_node = self._insert_func(
                            graph, self._weight_preprocess_func, var_node, op)
                    elif not is_weight and self._act_preprocess_func is not None:
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                        var_node = self._insert_func(graph,
                                                     self._act_preprocess_func,
                                                     var_node, op)
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                    # if var node is weight and weight_quantize_func is not None,
                    # will insert weight quantize func to quantize and dequantize weight
                    # if var node is activation and act_quantize_func is not None,
                    # will insert act quantize func to quantize and dequantize activation
                    if is_weight and self._weight_quantize_func is not None:
                        target_out_node = self._insert_func(
                            graph, self._weight_quantize_func, var_node, op)
                        processed_vars.append(name)
                        continue
                    elif not is_weight and self._act_quantize_func is not None:
                        target_out_node = self._insert_func(
                            graph, self._act_quantize_func, var_node, op)
                        processed_vars.append(name)
                        continue

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                    quant_bits = self._weight_bits if var_node.name() in persistable_vars \
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                        else self._activation_bits
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                    quant_type = self._weight_quantize_type if is_weight \
                        else self._activation_quantize_type
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                    if quant_type == 'channel_wise_abs_max':  # Weight quantization
                        quant_axis = 1 if op.name() in \
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                            utils._channelwise_quant_axis1_ops else 0
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                        quant_var_node, scale_var_node = self._insert_channel_quant_op(
                            graph, var_node, name, quant_bits, quant_axis)
                        dequant_var_node = self._insert_channel_dequant_op(
                            graph, quant_var_node, [scale_var_node],
                            [quant_bits], quant_axis)
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                    else:
                        quant_var_node, scale_var_node = self._insert_quant_op(
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                            graph, var_node, name, quant_bits, quant_type)
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                        dequant_var_node = self._insert_dequant_op(
                            graph, quant_var_node, scale_var_node, quant_bits)
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                    dequantized_vars[name] = dequant_var_node
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                graph.update_input_link(var_node, dequant_var_node, op)
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        def _transform_backward(graph, op):
            for var_node in op.inputs:
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                if var_node.name() not in op.input_arg_names():
                    continue
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                if var_node.name() in dequantized_vars:
                    dequant_var_node = dequantized_vars[var_node.name()]
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                    graph.update_input_link(var_node, dequant_var_node, op)
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        def _has_weight(op):
            has_weight = False
            for var_node in op.inputs:
                if var_node.name() not in op.input_arg_names():
                    continue
                name = var_node.name()
                if var_node.name() in persistable_vars:
                    has_weight = True
            return has_weight

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        if not self._is_test:
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            self._create_global_step(graph)
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        ops = graph.all_op_nodes()
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        # Do the preproccess of quantization, such as skipping some ops
        # for not being quantized.
        for op in ops:
            if op.name() in self._quantizable_ops or \
                    op.name() in self._quantizable_grad_ops:
                _quant_preprocess(op)
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        # Insert mapping table to solve the problem in saving inference model.
        graph.out_node_mapping_table = dict()
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        # The process of _transform_forward and _transform_backward is needed in two for loops.
        # The loop for transforming the forward graph:
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        with tqdm(total=len(ops),
                  bar_format=
                  'Adding quant op with weight:|{bar}| {n_fmt}/{total_fmt}',
                  ncols=80) as t:
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            for op in ops:
                if op.name() in self._quantizable_ops:
                    if not self._is_skip_quant(graph, op) and _has_weight(op):
                        _transform_forward(graph, op)
                t.update()
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        # The loop for renaming the inputs of backward op.
        for op in ops:
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            if op.name() in self._quantizable_grad_ops and _has_weight(op):
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                _transform_backward(graph, op)
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        graph.resolve_hazard()
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        return graph
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    def _create_global_step(self, graph):
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        if self._weight_quantize_type == 'range_abs_max' or \
                self._activation_quantize_type == 'range_abs_max':
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            counter_name = cpt.to_text('@STEP_COUNTER@')
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            for node in graph.all_var_nodes():
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                if node.name() == counter_name:
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                    self._global_step = node
            if self._global_step is None:
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                global_step_in = graph.create_persistable_node(
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                    name=counter_name,
                    var_type=core.VarDesc.VarType.LOD_TENSOR,
                    shape=[1],
                    var_dtype=core.VarDesc.VarType.INT64)
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                _init_var_node(global_step_in, np.zeros([1], dtype='int64'),
                               self._scope, self._place)
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                global_step_out = graph.create_var_node_from_desc(
                    global_step_in.var())
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                # The attribute of `op_role` is needed by ParallelExecutor.
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                increment_op = graph.create_op_node(
                    op_type='increment',
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                    attrs={
                        'step': 1.0,
                        'op_role':
                        core.op_proto_and_checker_maker.OpRole.Forward
                    },
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                    inputs={'X': global_step_in},
                    outputs={'Out': global_step_out})
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                graph.link_to(global_step_in, increment_op)
                graph.link_to(increment_op, global_step_out)
                self._global_step = global_step_out
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    def _insert_quant_op(self, graph, var_node, name, quant_bits, quant_type):
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        """
        Insert fake_quantize_op in the graph.
        """
        if quant_type == 'abs_max':
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            return self._insert_quant_abs_max_op(graph, var_node, name,
                                                 quant_bits)
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        elif quant_type == 'range_abs_max':
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            return self._insert_quant_range_abs_max_op(graph, var_node, name,
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                                                       quant_bits)
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        elif quant_type == 'moving_average_abs_max':
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            return self._insert_quant_moving_average_abs_max_op(
                graph, var_node, name, quant_bits)
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    def _insert_quant_abs_max_op(self, graph, var_node, name, quant_bits):
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        """
        Insert fake_quantize_abs_max op in the graph.
        """
        assert var_node.is_var(), '{} is not a var'.format(var_node.name())

        quant_var_node = graph.create_var_node(
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            name=self._quantized_var_name(name),
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            var_type=var_node.type(),
            shape=var_node.shape(),
            var_dtype=var_node.dtype())
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        scale_var_node = graph.create_persistable_node(
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            name=self._quantized_scale_name(name),
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            var_type=var_node.type(),
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            shape=[1],
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            var_dtype=var_node.dtype())
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        data_type = 'float64' if var_node.dtype(
        ) == core.VarDesc.VarType.FP64 else 'float32'
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        _init_var_node(scale_var_node,
                       np.zeros(scale_var_node.shape(), dtype=data_type),
                       self._scope, self._place)
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        quant_op_node = graph.create_op_node(
            op_type='fake_quantize_abs_max',
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            attrs={
                'bit_length': quant_bits,
                'op_role': core.op_proto_and_checker_maker.OpRole.Forward
            },
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            inputs={'X': var_node},
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            outputs={
                'Out': quant_var_node,
                'OutScale': scale_var_node
            })
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        graph.link_to(var_node, quant_op_node)
        graph.link_to(quant_op_node, quant_var_node)
        graph.link_to(quant_op_node, scale_var_node)
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        return quant_var_node, scale_var_node

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    def _insert_quant_range_abs_max_op(self, graph, var_node, name, quant_bits):
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        """
        Insert fake_quantize_range_abs_max on the graph.
        """
        assert var_node.is_var(), '{} is not a var'.format(var_node.name())

        quant_var_node = graph.create_var_node(
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            name=self._quantized_var_name(name),
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            var_type=var_node.type(),
            shape=var_node.shape(),
            var_dtype=var_node.dtype())
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        scale_in_node = graph.create_persistable_node(
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            name=self._quantized_scale_name(name),
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            var_type=core.VarDesc.VarType.LOD_TENSOR,
            shape=[1],
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            var_dtype=var_node.dtype())
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        data_type = 'float64' if var_node.dtype(
        ) == core.VarDesc.VarType.FP64 else 'float32'
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        _init_var_node(scale_in_node,
                       np.array([_SCALE_DEFAULT_VALUE], dtype=data_type),
                       self._scope, self._place)
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        scale_out_node = graph.create_var_node_from_desc(scale_in_node.var())
        inputs = {'X': var_node, 'InScale': scale_in_node}
        outputs = {'Out': quant_var_node, 'OutScale': scale_out_node}

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        if not self._is_test:
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            # The name of scales_var_node maybe 'scales_0', 'scales_1', etc.
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            scales_node = graph.create_persistable_node(
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                name=unique_name.generate('scales'),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
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                shape=[self._window_size],
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                var_dtype=var_node.dtype())
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            data_type = 'float64' if var_node.dtype(
            ) == core.VarDesc.VarType.FP64 else 'float32'
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            _init_var_node(scales_node,
                           np.zeros([self._window_size], dtype=data_type),
                           self._scope, self._place)
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            inputs['Iter'] = self._global_step
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            outputs['OutScales'] = scales_node
        attrs = {
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            'window_size': self._window_size,
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            'bit_length': quant_bits,
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            'is_test': self._is_test,
            'op_role': core.op_proto_and_checker_maker.OpRole.Forward
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        }
        quant_op_node = graph.create_op_node(
            op_type='fake_quantize_range_abs_max',
            attrs=attrs,
            inputs=inputs,
            outputs=outputs)

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        graph.link_to(var_node, quant_op_node)
        graph.link_to(scale_in_node, quant_op_node)
        graph.link_to(quant_op_node, quant_var_node)
        graph.link_to(quant_op_node, scale_out_node)
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        if not self._is_test:
            graph.link_to(self._global_step, quant_op_node)
            graph.link_to(quant_op_node, scales_node)
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        return quant_var_node, scale_out_node

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    def _insert_quant_moving_average_abs_max_op(self, graph, var_node, name,
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                                                quant_bits):
        """Insert fake_quantize_moving_average_abs_max
        """
        quant_var_node = graph.create_var_node(
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            name=self._quantized_var_name(name),
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            var_type=var_node.type(),
            shape=var_node.shape(),
            var_dtype=var_node.dtype())
        scale_in_node = graph.create_persistable_node(
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            name=self._quantized_scale_name(name),
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            var_type=core.VarDesc.VarType.LOD_TENSOR,
            shape=[1],
            var_dtype=var_node.dtype())
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        data_type = 'float64' if var_node.dtype(
        ) == core.VarDesc.VarType.FP64 else 'float32'
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        _init_var_node(scale_in_node,
                       np.array([_SCALE_DEFAULT_VALUE], dtype=data_type),
                       self._scope, self._place)
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        scale_out_node = graph.create_var_node_from_desc(scale_in_node.var())
        ins = {'X': var_node, 'InScale': scale_in_node}
        outs = {'Out': quant_var_node, 'OutScale': scale_out_node}
        if not self._is_test:
            state_in_node = graph.create_persistable_node(
                name=unique_name.generate('state'),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
                var_dtype=var_node.dtype(),
                shape=[1])
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            data_type = 'float64' if var_node.dtype(
            ) == core.VarDesc.VarType.FP64 else 'float32'
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            _init_var_node(state_in_node, np.ones([1], dtype=data_type),
                           self._scope, self._place)
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            accum_in_node = graph.create_persistable_node(
                name=unique_name.generate('accum'),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
                var_dtype=var_node.dtype(),
                shape=[1])
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            _init_var_node(accum_in_node, np.ones([1], dtype=data_type),
                           self._scope, self._place)
            state_out_node = graph.create_var_node_from_desc(
                state_in_node.var())
            accum_out_node = graph.create_var_node_from_desc(
                accum_in_node.var())
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            ins['InState'] = state_in_node
            ins['InAccum'] = accum_in_node
            outs['OutState'] = state_out_node
            outs['OutAccum'] = accum_out_node

        attrs = {
            'bit_length': quant_bits,
            'moving_rate': self._moving_rate,
            'is_test': self._is_test,
            'op_role': core.op_proto_and_checker_maker.OpRole.Forward
        }

        quant_op_node = graph.create_op_node(
            op_type='fake_quantize_moving_average_abs_max',
            attrs=attrs,
            inputs=ins,
            outputs=outs)

        graph.link_to(var_node, quant_op_node)
        graph.link_to(scale_in_node, quant_op_node)
        graph.link_to(quant_op_node, quant_var_node)
        graph.link_to(quant_op_node, scale_out_node)

        if not self._is_test:
            graph.link_to(state_in_node, quant_op_node)
            graph.link_to(accum_in_node, quant_op_node)
            graph.link_to(quant_op_node, state_out_node)
            graph.link_to(quant_op_node, accum_out_node)

        return quant_var_node, scale_out_node

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    def _insert_channel_quant_op(self, graph, var_node, name, quant_bits,
                                 quant_axis):
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        """
        Insert fake_channel_wise_quantize_abs_max op in the graph.
        """
        assert var_node.is_var(), '{} is not a var'.format(var_node.name())

        quant_var_node = graph.create_var_node(
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            name=self._quantized_var_name(name),
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            var_type=var_node.type(),
            shape=var_node.shape(),
            var_dtype=var_node.dtype())
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        scale_var_node = graph.create_persistable_node(
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            name=self._quantized_scale_name(name),
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            var_type=var_node.type(),
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            shape=[var_node.shape()[quant_axis]],
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            var_dtype=var_node.dtype())
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        data_type = 'float64' if var_node.dtype(
        ) == core.VarDesc.VarType.FP64 else 'float32'
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        _init_var_node(scale_var_node,
                       np.zeros(scale_var_node.shape(), dtype=data_type),
                       self._scope, self._place)
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        quant_op_node = graph.create_op_node(
            op_type='fake_channel_wise_quantize_abs_max',
            attrs={
                'bit_length': quant_bits,
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                'quant_axis': quant_axis,
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                'is_test': self._is_test,
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                'op_role': core.op_proto_and_checker_maker.OpRole.Forward
            },
            inputs={'X': var_node},
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            outputs={
                'Out': quant_var_node,
                'OutScale': scale_var_node
            })
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        graph.link_to(var_node, quant_op_node)
        graph.link_to(quant_op_node, quant_var_node)
        graph.link_to(quant_op_node, scale_var_node)
        return quant_var_node, scale_var_node

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    def _insert_dequant_op(self, graph, var_node, scale_var_node, quant_bits):
        """
        Insert fake_dequantize_op in the graph.
        """
        assert var_node.is_var(), '{} is not a var'.format(var_node.name())

        dequant_var_node = graph.create_var_node(
            name=self._dequantized_var_name(var_node.name()),
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            var_type=var_node.type(),
            shape=var_node.shape(),
            var_dtype=var_node.dtype())
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        max_range = (1 << (quant_bits - 1)) - 1
        dequant_op_node = graph.create_op_node(
            op_type='fake_dequantize_max_abs',
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            attrs={
                'max_range': float(max_range),
                'op_role': core.op_proto_and_checker_maker.OpRole.Forward
            },
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            inputs={
                'X': var_node,
                'Scale': scale_var_node
            },
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            outputs={'Out': dequant_var_node})
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        graph.link_to(var_node, dequant_op_node)
        graph.link_to(scale_var_node, dequant_op_node)
        graph.link_to(dequant_op_node, dequant_var_node)
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        return dequant_var_node

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    def _insert_channel_dequant_op(self, graph, var_node, scale_var_nodes,
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                                   quant_bits, quant_axis):
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        """
        Insert fake_channel_wise_dequantize_max_abs in the graph.
        """
        assert var_node.is_var(), '{} is not a var'.format(var_node.name())

        dequant_var_node = graph.create_var_node(
            name=self._dequantized_var_name(var_node.name()),
            var_type=var_node.type(),
            shape=var_node.shape(),
            var_dtype=var_node.dtype())
        dequant_op_node = graph.create_op_node(
            op_type='fake_channel_wise_dequantize_max_abs',
            attrs={
                'quant_bits': quant_bits,
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                'quant_axis': quant_axis,
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                'op_role': core.op_proto_and_checker_maker.OpRole.Forward
            },
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            inputs={
                'X': var_node,
                'Scales': scale_var_nodes
            },
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            outputs={'Out': dequant_var_node})
        graph.link_to(var_node, dequant_op_node)
        for scale_n in scale_var_nodes:
            graph.link_to(scale_n, dequant_op_node)
        graph.link_to(dequant_op_node, dequant_var_node)
        return dequant_var_node

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    def _create_new_node(self, graph, in_node):
        """
        create a node that same with in_node in graph
        Args:
            graph(IrGraph): create node in graph.
            in_node(IrVarNode): create node that same with in_node.
        Returns:
            created new node
        """
        key = ''
        for inp in in_node.inputs:
            key = key + inp.name()
        key = key + in_node.name()
        for inp in in_node.outputs:
            key = key + inp.name()

        if key in self.create_var_map.keys():
            new_node = self.create_var_map[key]
        elif in_node.is_ctrl_var():
            new_node = graph.create_control_dep_var()
            self.create_var_map[key] = new_node
        else:
            new_node = graph.create_var_node_from_desc(in_node.node.var())
            self.create_var_map[key] = new_node
        return new_node

    def _copy_graph(self, graph, source_graph, op_node):
        """
        copy op_node in source_graph to graph. And will run recursively 
        for next ops that link to op_node's outputs.
        Args:
            graph(IrGraph): target graph to copy.
            source_graph(IrGraph): source graph to copy.
            op_node(IrOpNode): op node in source_graph.
        Returns:
            None

        """
        key = ''
        for inp in op_node.inputs:
            key = key + inp.name()
        key = key + op_node.name()
        for inp in op_node.outputs:
            key = key + inp.name()
        has_created = False
        if key in self.create_op_map.keys():
            new_op_node = self.create_op_map[key]
            has_created = True
        else:
            new_op_node = graph.create_op_node_from_desc(op_node.node.op())
            self.create_op_map[key] = new_op_node
        if has_created:
            return
        for in_node in op_node.inputs:
            new_node = self._create_new_node(graph, in_node)
            graph.link_to(new_node, new_op_node)
        for in_node in op_node.outputs:
            new_node = self._create_new_node(graph, in_node)
            graph.link_to(new_op_node, new_node)
        for var_node in op_node.outputs:
            for next_op_node in var_node.outputs:
                self._copy_graph(graph, source_graph, next_op_node)
        return

    def _insert_func(self, graph, func, var_node, op):
        """
        Insert a tmp program that returned by func between var_node and op.

        Args:
            graph(IrGraph): target graph to insert tmp program.
            func(Function): function to define a tmp program
            var_node(IrVarNode): node in target graph.
            op(IrOpNode): op in target graph.
        Returns:
            op's new input that replaces var_node
        """
        tmp_program = Program()
        startup_program = Program()
        with program_guard(tmp_program, startup_program):
            with unique_name.guard(var_node.name() + "_"):
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                in_node = data(var_node.name() + '_tmp_input',
                               shape=var_node.shape(),
                               dtype='float32')
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                out_node = func(in_node)
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                graph.out_node_mapping_table[out_node.name] = var_node.name()
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                # loss shape must be 1 when minimize
                loss = mean(out_node)
                if not graph._for_test:
                    assert self._optimizer, "optimizer_func must be set when graph is test graph"
                    in_node.stop_gradient = False
                    optimizer = self._optimizer()
                    optimizer.minimize(loss)
        with scope_guard(self._scope):
            self._exe.run(startup_program)

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        tmp_graph = IrGraph(core.Graph(tmp_program.desc),
                            for_test=graph._for_test)
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        in_node = tmp_graph._find_node_by_name(tmp_graph.all_var_nodes(),
                                               in_node.name)
        out_node = tmp_graph._find_node_by_name(tmp_graph.all_var_nodes(),
                                                out_node.name)

        in_node_params = []
        in_op_node = []
        # copy tmp graph to graph, after that, we can insert tmp graph's copy to graph.
        for node in tmp_graph.all_var_nodes():
            if node.inputs == [] and node.persistable():
                in_node_params.append(node)
        for node in tmp_graph.all_op_nodes():
            if node.inputs == []:
                in_op_node.append(node)
        for node in in_node.outputs:
            self._copy_graph(graph, tmp_graph, node)
        for node in in_node_params:
            for op_node in node.outputs:
                self._copy_graph(graph, tmp_graph, op_node)
        for node in in_op_node:
            self._copy_graph(graph, tmp_graph, node)

        target_in_node = graph._find_node_by_name(graph.all_var_nodes(),
                                                  in_node.name())
        target_out_node = graph._find_node_by_name(graph.all_var_nodes(),
                                                   out_node.name())
        loss_node = graph._find_node_by_name(graph.all_var_nodes(), loss.name)
        outputs = target_in_node.outputs
        for node in outputs:
            graph.update_input_link(target_in_node, var_node, node)
        graph.update_input_link(var_node, target_out_node, op)

        # update grad
        if not graph._for_test:
            op_out = op.outputs[0]
            op_out_grad = graph._find_node_by_name(graph.all_var_nodes(),
                                                   op_out.name() + "@GRAD")
            # find op's gradient op, such as conv2d_grad
            op_grad = op_out_grad.outputs[0]
            target_out_grad_node = graph._find_node_by_name(
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                graph.all_var_nodes(),
                target_out_node.name() + "@GRAD")
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            in_node_grad = graph._find_node_by_name(
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                graph.all_var_nodes(),
                target_in_node.name() + "@GRAD")
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            in_node_grad_op = in_node_grad.inputs
            # update op_grad's input
            graph.update_input_link(var_node, target_out_node, op_grad)

            op_grad_out = None
            # find var_node's corresponding grad node
            for node in op_grad.outputs:
                if var_node.name() + "@GRAD" in node.name():
                    op_grad_out = node
            # update op_grad's output
            if op_grad_out is not None:
                graph.update_output_link(op_grad_out, target_out_grad_node,
                                         op_grad)
            else:
                graph.link_to(op_grad, target_out_grad_node)

            for node in in_node_grad_op:
                graph.update_input_link(target_in_node, var_node, node)
                if op_grad_out:
                    graph.update_output_link(in_node_grad, op_grad_out, node)
            # remove useless nodes
            mean_grad = target_out_grad_node.inputs[0]
            mean_out_grad = mean_grad.inputs[0]
            fill_constant_node = mean_out_grad.inputs[0]
            graph.safe_remove_nodes(mean_grad)
            graph.safe_remove_nodes(mean_out_grad)
            graph.safe_remove_nodes(fill_constant_node)
            graph.safe_remove_nodes(in_node_grad)

        graph.safe_remove_nodes(loss_node.inputs[0])
        graph.safe_remove_nodes(loss_node)
        graph.safe_remove_nodes(target_in_node)
        return target_out_node

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    def _quantized_var_name(self, var_name):
        """
        Return quantized variable name for the input `var_name`.
        """
        return "%s.quantized" % (var_name)

    def _dequantized_var_name(self, var_name):
        """
        Return dequantized variable name for the input `var_name`.
        """
        return "%s.dequantized" % (var_name)

    def _quantized_scale_name(self, var_name):
        """
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        Return the scale name of quantized variable for the input `var_name`.
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        """
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        return "%s@scale" % (var_name)
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    def _is_skip_quant(self, graph, op_node):
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        """
        Analyse whether the op node skips quantization.
        """
        is_skip = False
        if op_node.op().has_attr("skip_quant") and \
            op_node.op().attr("skip_quant"):
            is_skip = True
        # if the inputs of mul and matmul are not all persistable, use
        # AddQuantDequantPass to quantize them.
        if op_node.name() in ["mul", "matmul"] and \
            _is_input_all_not_persistable(graph, op_node):
            is_skip = True
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        if op_node.op().has_attr("quantization_type") and \
            op_node.op().attr("quantization_type") == "qat_without_weight":
            is_skip = True
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        return is_skip

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class QuantizationFreezePass(object):
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    def __init__(self,
                 scope,
                 place,
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                 bias_correction=False,
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                 weight_bits=8,
                 activation_bits=8,
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                 round_type='round',
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                 weight_quantize_type='abs_max',
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                 quantizable_op_type=None):
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        """
        The freeze pass is used to adjust the quantize operator order, for example:
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            1) `activation -> quant -> dequant -> conv2d` will be frozen into
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            `activation -> quant -> conv2d -> dequant`
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            2) `weight -> quant -> dequant -> conv2d` will be frozen into `weight -> conv2d`,
            and weight will be scaled offline.
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        Args:
            scope(fluid.Scope): scope is used to get the weight tensor values.
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            place(fluid.CPUPlace|fluid.CUDAPlace|str): place is used to restore the weight tensors.
                If it's string, It can be ``cpu``, and ``gpu:x``, where ``x`` is the index of the GPUs.
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            bias_correction(bool): whether use bias correction for post-training quantization.
                 https://arxiv.org/abs/1810.05723.
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            weight_bits(int): quantization bit number for weights.
            activation_bits(int): quantization bit number for activation.
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            round_type(str, optional): The method of converting the quantized weights
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                value float->int. Currently supports ['round', 'adaround'] methods.
                Default is `round`, which is rounding nearest to the integer.
                'adaround' is refer to https://arxiv.org/abs/2004.10568.
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            weight_quantize_type(str): quantization type for weights, support 'abs_max' and 
                'channel_wise_abs_max'. The 'range_abs_max' usually is not used for weight, 
                since weights are fixed once the model is well trained.
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            quantizable_op_type(list[str]): This input param will be removed latter. The pass
                will process all quantized op, so it is not necessary to set the input param.
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        """
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        assert scope is not None, \
            'The scope cannot be set None.'
        assert place is not None, \
            'The place cannot be set None.'
        self._scope = scope
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        self._bias_correction = bias_correction
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        self._place = _get_paddle_place(place)
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        self._weight_bits = weight_bits
        self._activation_bits = activation_bits
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        self._round_type = round_type
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        self._weight_quantize_type = weight_quantize_type
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        self._fake_quant_op_names = _fake_quant_op_list
        self._fake_dequant_op_names = _fake_dequant_op_list
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        self._op_input_rename_map = collections.OrderedDict()
        self._op_output_rename_map = collections.OrderedDict()
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        self._quant_var_scale_map = collections.OrderedDict()
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    def apply(self, graph):
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        """
        Adjust quantize/dequantize operators order for the inference process.

        Args:
            graph(IrGraph): the applied graph.
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        Returns:
            None
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        """
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        # Get input scales in fake quant op and process weights
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        persistable_vars = [p.name() for p in graph.all_persistable_nodes()]
        ops = graph.all_op_nodes()
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        for op_node in ops:
            op_name = op_node.name()
            if op_name in self._fake_quant_op_names:
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                input_arg_name = op_node.input('X')[0]
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                if hasattr(graph, 'out_node_mapping_table'):
                    if input_arg_name in graph.out_node_mapping_table.keys():
                        input_arg_name = graph.out_node_mapping_table[
                            input_arg_name]
1003 1004
                if input_arg_name not in persistable_vars:
                    scale_v = graph._find_node_by_name(
1005 1006
                        op_node.outputs,
                        op_node.output('OutScale')[0])
1007 1008 1009 1010 1011 1012 1013 1014 1015
                    self._quant_var_scale_map[input_arg_name] = scale_v
                else:
                    # Obtain scale from OutScale var node
                    scale_v = self._load_var(op_node.output('OutScale')[0])
                    assert scale_v.ndim in [
                        1, 2
                    ], "the dim of scale_v should be 1 or 2"
                    if scale_v.ndim == 2:
                        scale_v = scale_v[0]
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                    if scale_v.size == 1 and self._weight_quantize_type == 'abs_max':
1017
                        scale_v = scale_v[0]
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                    else:
1019
                        scale_v = scale_v.tolist()
1020
                    self._quant_var_scale_map[input_arg_name] = scale_v
1021
                    # Quantize weight and restore
1022
                    if self._round_type == 'round':
1023
                        param_v = self._load_var(input_arg_name)
1024 1025
                        if any(
                                _check_grandchild_op_node(op_node, op)
1026
                                for op in utils._channelwise_quant_axis1_ops):
1027 1028 1029
                            quant_axis = 1
                        else:
                            quant_axis = 0
1030 1031 1032
                        quantized_param_v = utils.quant_tensor(
                            param_v.copy(), scale_v, quant_axis,
                            self._weight_bits)
1033
                        quantized_param_v = np.round(quantized_param_v)
1034
                        # Weight bias correction
1035
                        if self._bias_correction == True:
1036 1037 1038 1039 1040 1041
                            quantized_param_v = utils.bias_correction_w(
                                param_v,
                                quantized_param_v,
                                scale_v,
                                quant_axis,
                                weight_bits=self._weight_bits)
1042 1043
                            quantized_param_v = np.round(quantized_param_v)
                        self._restore_var(input_arg_name, quantized_param_v)
1044
                    self._remove_fake_quant_and_dequant_op(graph, op_node)
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1046
        # Remove all fake dequant op
1047
        ops = graph.all_op_nodes()
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        for op_node in ops:
            op_name = op_node.name()
            if op_name in self._fake_dequant_op_names:
                self._remove_fake_quant_and_dequant_op(graph, op_node)

1053
        # Insert post dequant op
1054
        ops = graph.all_op_nodes()
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        for op_node in ops:
1056 1057 1058
            op_node_desc = op_node.op()
            if op_node_desc.has_attr("quantization_type") and \
                op_node_desc.attr("quantization_type") == "qat_with_weight":
1059
                if self._weight_quantize_type == 'channel_wise_abs_max':
1060
                    quant_axis = 1 if op_node.name() in \
1061
                        utils._channelwise_quant_axis1_ops else 0
1062 1063
                    self._insert_post_channel_dequant_op(
                        graph, op_node, quant_axis)
1064 1065
                else:
                    self._insert_post_dequant_op(graph, op_node)
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1067
        # Rename inputs of the followed ops after inserting dequant_op after fc/conv
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        for op_node in ops:
            for var_node in op_node.inputs:
1070 1071 1072
                if var_node.node in self._op_output_rename_map:
                    old_in = var_node
                    new_in = self._op_output_rename_map[var_node.node]
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                    graph.update_input_link(old_in, new_in, op_node)

        # remove the unused var node in the graph
        self._remove_unused_var_nodes(graph)
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        graph.resolve_hazard()
1078
        return graph
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    def _remove_fake_quant_and_dequant_op(self, graph, op_node):
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        k = graph._find_node_by_name(op_node.outputs, op_node.output('Out')[0])
        v = graph._find_node_by_name(op_node.inputs, op_node.input('X')[0])
1083 1084
        if v.node not in self._op_input_rename_map:
            self._op_input_rename_map[k.node] = v
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        else:
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            self._op_input_rename_map[k.node] = self._op_input_rename_map[
                v.node]
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        graph.safe_remove_nodes(op_node)
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    def _insert_post_channel_dequant_op(self, graph, op_node, quant_axis):
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        persistable_vars = [p.name() for p in graph.all_persistable_nodes()]
        for var_node in op_node.inputs:
            name = var_node.name()
1094 1095 1096 1097 1098
            if name not in op_node.input_arg_names():
                continue
            if var_node.node in self._op_input_rename_map:
                old_in = var_node
                new_in = self._op_input_rename_map[var_node.node]
1099 1100 1101
                new_in.clear_outputs()
                graph.update_input_link(old_in, new_in, op_node)
            original_var_name = self._original_var_name(name)
1102
            scale_v = self._quant_var_scale_map[original_var_name]
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            if original_var_name in persistable_vars:
                assert isinstance(
                    scale_v,
                    list), 'The scale of parameter %s is not a list.' % (
                        original_var_name)
                channel_scale = np.array(scale_v)
            else:
                assert isinstance(scale_v, IrNode)
1111
                scale_var_node = self._quant_var_scale_map[original_var_name]
1112

1113
        if len(op_node.output_arg_names()) != 1:
1114 1115 1116
            raise ValueError("Only support one output, but op %s has"
                             " more than one output." % (op_node.name()))

1117
        output_var_node = graph._find_node_by_name(
1118 1119
            op_node.outputs,
            op_node.output_arg_names()[0])
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        weight_scale_node = graph.create_persistable_node(
            name=unique_name.generate('channel_scale'),
            var_type=core.VarDesc.VarType.LOD_TENSOR,
            shape=[channel_scale.shape[0]],
            var_dtype=output_var_node.dtype())
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        data_type = 'float64' if output_var_node.dtype(
        ) == core.VarDesc.VarType.FP64 else 'float32'
1127 1128
        _init_var_node(weight_scale_node, channel_scale.astype(data_type),
                       self._scope, self._place)
1129 1130 1131 1132 1133
        dequant_var_node = graph.create_var_node(
            name=self._dequantized_var_name(output_var_node.name()),
            var_type=output_var_node.type(),
            shape=output_var_node.shape(),
            var_dtype=output_var_node.dtype())
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        x_num_col_dims = 1
        if op_node.name() in ['matmul', 'matmul_v2', 'mul']:
            x_num_col_dims = len(op_node.outputs[0].shape()) - 1
1137 1138
        if op_node.op().has_attr("x_num_col_dims"):
            x_num_col_dims = op_node.op().attr("x_num_col_dims")
1139 1140 1141 1142
        dequant_op_node = graph.create_op_node(
            op_type='fake_channel_wise_dequantize_max_abs',
            attrs={
                'quant_bits': [self._weight_bits, self._activation_bits],
1143
                'quant_axis': quant_axis,
1144 1145
                'op_role': core.op_proto_and_checker_maker.OpRole.Forward,
                'x_num_col_dims': x_num_col_dims
1146 1147 1148 1149 1150 1151 1152 1153 1154 1155
            },
            inputs={
                'X': output_var_node,
                'Scales': [weight_scale_node, scale_var_node]
            },
            outputs={'Out': dequant_var_node})
        graph.link_to(output_var_node, dequant_op_node)
        graph.link_to(scale_var_node, dequant_op_node)
        graph.link_to(weight_scale_node, dequant_op_node)
        graph.link_to(dequant_op_node, dequant_var_node)
1156
        self._op_output_rename_map[output_var_node.node] = dequant_var_node
1157 1158
        return dequant_var_node

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    def _insert_post_dequant_op(self, graph, op_node):
1160
        persistable_vars = [p.name() for p in graph.all_persistable_nodes()]
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        max_range = 1
        param_range = (1 << (self._weight_bits - 1)) - 1
        act_range = (1 << (self._activation_bits - 1)) - 1
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        for var_node in op_node.inputs:
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            name = var_node.name()
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            if name not in op_node.input_arg_names():
                continue
            if var_node.node in self._op_input_rename_map:
                old_in = var_node
                new_in = self._op_input_rename_map[var_node.node]
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                new_in.clear_outputs()
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                graph.update_input_link(old_in, new_in, op_node)
            original_var_name = self._original_var_name(name)
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            scale_v = self._quant_var_scale_map[original_var_name]
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            if original_var_name in persistable_vars:
                assert self._is_float(
                    scale_v), 'The scale of parameter %s is not a float.' % (
                        original_var_name)
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                scale_v = 1e-8 if scale_v == 0.0 else scale_v
1180
                max_range *= param_range / scale_v
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            else:
1182
                max_range *= act_range
1183
                assert isinstance(scale_v, IrNode)
1184
                scale_var_node = self._quant_var_scale_map[original_var_name]
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1186
        if len(op_node.output_arg_names()) != 1:
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            raise ValueError("Only support one output, but op %s has"
                             " more than one output." % (op_node.name()))

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        output_var_node = graph._find_node_by_name(
1191 1192
            op_node.outputs,
            op_node.output_arg_names()[0])
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        dequant_var_node = graph.create_var_node(
            name=self._dequantized_var_name(output_var_node.name()),
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            var_type=output_var_node.type(),
            shape=output_var_node.shape(),
            var_dtype=output_var_node.dtype())
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        dequant_op_node = graph.create_op_node(
            op_type='fake_dequantize_max_abs',
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            attrs={
                'max_range': float(max_range),
                'op_role': core.op_proto_and_checker_maker.OpRole.Forward
            },
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            inputs={
                'X': output_var_node,
                'Scale': scale_var_node
            },
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            outputs={'Out': dequant_var_node})
        graph.link_to(output_var_node, dequant_op_node)
        graph.link_to(scale_var_node, dequant_op_node)
        graph.link_to(dequant_op_node, dequant_var_node)
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        self._op_output_rename_map[output_var_node.node] = dequant_var_node
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        return dequant_var_node

    def _load_var(self, name):
        return np.array(self._scope.find_var(name).get_tensor())

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    def _restore_var(self, name, array):
        tensor = self._scope.find_var(name).get_tensor()
        tensor.set(array, self._place)
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    def _remove_unused_var_nodes(self, graph):
        all_used_vars = set()
1224
        ops = graph.all_op_nodes()
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        for op_node in ops:
            for input_node in op_node.inputs:
                all_used_vars.add(input_node)
            for output_node in op_node.outputs:
                all_used_vars.add(output_node)

1231 1232 1233 1234 1235 1236
        all_used_vars = {n.node for n in all_used_vars}
        all_unused_vars = {
            n
            for n in filter(lambda node: node.node not in all_used_vars,
                            graph.all_var_nodes())
        }
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        graph.safe_remove_nodes(all_unused_vars)

    def _original_var_name(self, var_name):
        """
        Return the original variable name.
        """
        if var_name.endswith('.quantized.dequantized'):
            return var_name[:-len('.quantized.dequantized')]
        if var_name.endswith('.quantized'):
            return var_name[:-len('.quantized')]
        if var_name.endswith('.dequantized'):
            return var_name[:-len('.dequantized')]
1249 1250
        if var_name.endswith('@scale'):
            return var_name[:-len('@scale')]
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        else:
            return var_name

    def _dequantized_var_name(self, var_name):
        """
        Return dequantized variable name for the input `var_name`.
        """
        return "%s.dequantized" % (var_name)

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    def _is_float(self, v):
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        return isinstance(v, float) or isinstance(v, np.float32) \
            or isinstance(v, np.float64)

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class ConvertToInt8Pass(object):
1266

1267
    def __init__(self, scope, place, quantizable_op_type=None):
1268 1269 1270 1271 1272
        """
        Convert the weights into int8_t type.

        Args:
            scope(fluid.Scope): scope is used to get the weight tensor values.
1273 1274 1275
            place(fluid.CPUPlace|fluid.CUDAPlace|str): place is used to restore the
                8bits weight tensors. If it's string, It can be ``cpu``, and ``gpu:x``,
                where ``x`` is the index of the GPUs.
1276 1277
            quantizable_op_type(list[str]): This input param will be removed latter. The pass
                will process all quantized op, so it is not necessary to set the input param.
1278
        """
1279 1280 1281 1282 1283
        assert scope is not None, \
            'The scope cannot be set None.'
        assert place is not None, \
            'The place cannot be set None.'
        self._scope = scope
1284
        self._place = _get_paddle_place(place)
1285 1286

    def apply(self, graph):
1287
        """
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        Convert weights' type of the graph. After that, the data type of the
        graph weights is int8_t.
1290 1291 1292

        Args:
            graph(IrGraph): the applied graph.
1293 1294
        Returns:
            None
1295
        """
1296 1297
        persistable_vars = [p.name() for p in graph.all_persistable_nodes()]
        ops = graph.all_op_nodes()
1298 1299
        input_map = {}
        for op_node in ops:
1300 1301
            if op_node.op().has_attr("quantization_type") and \
                op_node.op().attr("quantization_type") == "qat_with_weight":
1302 1303 1304 1305
                for var_node in op_node.inputs:
                    name = var_node.name()
                    if name in persistable_vars:
                        if name not in input_map:
1306 1307
                            int8_var_node = self._convert_to_int8(
                                graph, var_node)
1308 1309 1310 1311 1312 1313
                            input_map[name] = int8_var_node
                        graph.update_input_link(var_node, input_map[name],
                                                op_node)

        # remove the unused var node in the graph
        self._remove_unused_var_nodes(graph)
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        graph.resolve_hazard()
1315 1316 1317 1318
        return graph

    def _convert_to_int8(self, graph, var_node):
        int8_var_node_name = var_node.name() + ".int8"
1319
        int8_var_node = graph.create_persistable_node(
1320
            name=cpt.to_text(int8_var_node_name),
1321 1322
            var_type=var_node.type(),
            shape=var_node.shape(),
1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337
            var_dtype=core.VarDesc.VarType.INT8)
        array = self._load_var(var_node.name())
        self._scope.var(int8_var_node_name)
        self._store_var(int8_var_node_name, array, np.int8)
        return int8_var_node

    def _load_var(self, name):
        return np.array(self._scope.find_var(name).get_tensor())

    def _store_var(self, name, array, dtype):
        tensor = self._scope.find_var(name).get_tensor()
        tensor.set(array.astype(dtype), self._place)

    def _remove_unused_var_nodes(self, graph):
        all_used_vars = set()
1338
        ops = graph.all_op_nodes()
1339 1340 1341 1342 1343 1344
        for op_node in ops:
            for input_node in op_node.inputs:
                all_used_vars.add(input_node)
            for output_node in op_node.outputs:
                all_used_vars.add(output_node)

1345 1346 1347 1348 1349 1350
        all_used_vars = {n.node for n in all_used_vars}
        all_unused_vars = {
            n
            for n in filter(lambda node: node.node not in all_used_vars,
                            graph.all_var_nodes())
        }
1351 1352 1353 1354
        graph.safe_remove_nodes(all_unused_vars)


class TransformForMobilePass(object):
1355

1356
    def __init__(self):
1357
        """
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        This pass is used to convert the frozen graph for paddle-mobile execution.
1359
        """
1360 1361
        self._fake_quant_op_names = _fake_quant_op_list
        self._fake_dequant_op_names = _fake_dequant_op_list
1362 1363

    def apply(self, graph):
1364 1365 1366 1367 1368 1369 1370
        """
        Because paddle-mobile use `quantize` an `dequantize` as the names of
        quantize operator and dequantize operator, the `apply` function just
        realize this logic.

        Args:
            graph(IrGraph): the graph will be transformed.
1371 1372
        Returns:
            None
1373
        """
1374
        ops = graph.all_op_nodes()
1375 1376 1377
        for op_node in ops:
            name = op_node.name()
            if name in self._fake_quant_op_names:
1378
                op_node.set_type('quantize')
1379 1380 1381 1382 1383 1384 1385
                quant_node = graph.create_op_node_from_desc(op_node.op())
                for input_node in op_node.inputs:
                    graph.link_to(input_node, quant_node)
                for output_node in op_node.outputs:
                    graph.link_to(quant_node, output_node)
                graph.safe_remove_nodes(op_node)
            if name in self._fake_dequant_op_names:
1386
                op_node.set_type('dequantize')
1387 1388 1389 1390 1391 1392
                dequant_node = graph.create_op_node_from_desc(op_node.op())
                for input_node in op_node.inputs:
                    graph.link_to(input_node, dequant_node)
                for output_node in op_node.outputs:
                    graph.link_to(dequant_node, output_node)
                graph.safe_remove_nodes(op_node)
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        graph.resolve_hazard()
1394
        return graph
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1397
class OutScaleForTrainingPass(object):
1398

1399 1400 1401 1402 1403 1404 1405
    def __init__(self, scope=None, place=None, moving_rate=0.9):
        """
        This pass is used for calculating output scales of some operators.
        These output scales may be used by tensorRT or some other inference engines.

        Args:
            scope(fluid.Scope): The scope is used to initialize these new parameters.
1406 1407 1408
            place(fluid.CPUPlace|fluid.CUDAPlace|str): The place is used to initialize new parameters.
                If it's string, It can be ``cpu``, and ``gpu:x``, where ``x`` is the
                index of the GPUs.
1409 1410 1411
            moving_rate(float): The decay coefficient of moving average. The default value is 0.9.
        """
        self._scope = scope
1412
        self._place = _get_paddle_place(place)
1413 1414
        self._moving_rate = moving_rate
        self._is_test = None
1415
        self._teller_set = utils._out_scale_op_list
1416 1417 1418 1419 1420 1421 1422 1423 1424

    def apply(self, graph):
        """
        Insert the `moving_average_abs_max_scale` op in order to calculate output scales
        of operators in the teller_set.

        Args:
            graph(IrGraph): the target graph.
        """
1425 1426
        assert isinstance(graph,
                          IrGraph), 'graph must be the instance of IrGraph.'
1427
        self._is_test = graph.is_test()
1428 1429 1430 1431
        target_ops = []
        for op in graph.all_op_nodes():
            if op.name() in self._teller_set:
                target_ops.append(op)
1432 1433 1434
        with tqdm(total=len(target_ops),
                  bar_format='Adding OutScale op:|{bar}| {n_fmt}/{total_fmt}',
                  ncols=80) as t:
1435 1436 1437 1438 1439 1440 1441
            for op in target_ops:
                for output_var_name in utils._get_op_output_var_names(op):
                    in_node = graph._find_node_by_name(op.outputs,
                                                       output_var_name)
                    if in_node.dtype() not in \
                        [core.VarDesc.VarType.FP64, core.VarDesc.VarType.FP32]:
                        continue
1442

1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454
                    try:
                        graph._find_node_by_name(
                            graph.all_var_nodes(),
                            self._scale_name(in_node.name()))
                        continue
                    except:
                        scale_node = graph.create_persistable_node(
                            name=self._scale_name(in_node.name()),
                            var_type=core.VarDesc.VarType.LOD_TENSOR,
                            shape=[1],
                            var_dtype=in_node.dtype())

1455 1456
                    data_type = 'float64' if in_node.dtype() \
                        == core.VarDesc.VarType.FP64 else 'float32'
1457 1458
                    _init_var_node(scale_node, np.ones([1], dtype=data_type),
                                   self._scope, self._place)
1459 1460 1461 1462 1463 1464 1465 1466
                    ins = {'X': in_node}
                    outs = {'OutScale': scale_node}
                    if not self._is_test:
                        state_in_node = graph.create_persistable_node(
                            name=unique_name.generate('scale_state@'),
                            var_type=core.VarDesc.VarType.LOD_TENSOR,
                            var_dtype=in_node.dtype(),
                            shape=[1])
1467 1468 1469
                        _init_var_node(state_in_node,
                                       np.ones([1], dtype=data_type),
                                       self._scope, self._place)
1470 1471 1472 1473 1474
                        accum_in_node = graph.create_persistable_node(
                            name=unique_name.generate('scale_accum@'),
                            var_type=core.VarDesc.VarType.LOD_TENSOR,
                            var_dtype=in_node.dtype(),
                            shape=[1])
1475 1476 1477
                        _init_var_node(accum_in_node,
                                       np.ones([1], dtype=data_type),
                                       self._scope, self._place)
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                        state_out_node = graph.create_var_node_from_desc(
                            state_in_node.var())
                        accum_out_node = graph.create_var_node_from_desc(
                            accum_in_node.var())

                        ins['InState'] = state_in_node
                        ins['InAccum'] = accum_in_node
                        outs['OutState'] = state_out_node
                        outs['OutAccum'] = accum_out_node

                    attrs = {
                        'moving_rate': self._moving_rate,
                        'is_test': self._is_test,
                        'op_role':
                        core.op_proto_and_checker_maker.OpRole.Forward
                    }
                    scale_op_node = graph.create_op_node(
                        op_type='moving_average_abs_max_scale',
                        attrs=attrs,
                        inputs=ins,
                        outputs=outs)
                    graph.link_to(in_node, scale_op_node)
                    graph.link_to(scale_op_node, scale_node)
                    if not self._is_test:
                        graph.link_to(state_in_node, scale_op_node)
                        graph.link_to(accum_in_node, scale_op_node)
                        graph.link_to(scale_op_node, state_out_node)
                        graph.link_to(scale_op_node, accum_out_node)
                t.update()
1507 1508 1509 1510 1511 1512
        return graph

    def _scale_name(self, var_name):
        """
        Return the scale name for the var named `var_name`.
        """
1513
        return "%s@scale" % (var_name)
1514 1515


1516
class OutScaleForInferencePass(object):
1517

1518 1519 1520 1521 1522 1523 1524 1525 1526
    def __init__(self, scope=None):
        """
        This pass is used for setting output scales of some operators.
        These output scales may be used by tensorRT or some other inference engines.

        Args:
            scope(fluid.Scope): The scope is used to initialize these new parameters.
        """
        self._scope = scope
1527
        self._teller_set = utils._out_scale_op_list
1528 1529 1530 1531 1532 1533 1534 1535 1536

    def apply(self, graph):
        """
        Get output scales from the scope and set these scales in op_descs
        of operators in the teller_set.

        Args:
            graph(IrGraph): the target graph.
        """
1537 1538
        assert isinstance(graph,
                          IrGraph), 'graph must be the instance of IrGraph.'
1539 1540 1541
        op_nodes = graph.all_op_nodes()
        for op_node in op_nodes:
            if op_node.name() in self._teller_set:
1542
                var_names = utils._get_op_output_var_names(op_node)
1543
                for var_name in var_names:
1544 1545 1546 1547 1548 1549
                    in_node = graph._find_node_by_name(op_node.outputs,
                                                       var_name)
                    if in_node.dtype() not in \
                        [core.VarDesc.VarType.FP64, core.VarDesc.VarType.FP32]:
                        continue

1550
                    scale_name = self._scale_name(var_name)
1551 1552 1553 1554 1555 1556 1557
                    scale_var = self._scope.find_var(scale_name)
                    assert scale_var is not None, \
                        "Can not find {} variable in the scope".format(scale_name)
                    scale_value = np.array(scale_var.get_tensor())[0]

                    # For compatibility, we save output threshold by two methods.
                    op_node.op()._set_attr("out_threshold", float(scale_value))
1558

1559 1560
                    argname_index = utils._get_output_name_index(
                        op_node, var_name)
1561 1562 1563
                    assert argname_index is not None, \
                        var_name + " is not the output of the op"
                    op_node.op()._set_attr(argname_index[0] + str(argname_index[1]) \
1564
                        + "_threshold", float(scale_value))
1565
                    op_node.op()._set_attr("with_quant_attr", True)
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        graph.resolve_hazard()
        return graph

    def _scale_name(self, var_name):
        """
        Return the scale name for the var named `var_name`.
        """
1573
        return "%s@scale" % (var_name)
1574 1575 1576


class AddQuantDequantPass(object):
1577 1578 1579 1580
    """
    Quantize the ops that do not have weights, and add quant_dequant op for the 
    quantized ops's inputs.
    """
1581

1582 1583 1584
    # To be compatible with PaddleSlim, not remove _activation_type for now
    _activation_type = ["relu", "relu6", "leaky_relu", "tanh", "swish"]

1585 1586 1587 1588 1589
    def __init__(self,
                 scope=None,
                 place=None,
                 moving_rate=0.9,
                 quant_bits=8,
1590
                 skip_pattern=["skip_quant"],
1591
                 quantizable_op_type=["elementwise_add", "pool2d"],
1592
                 is_full_quantized=False):
1593
        """
1594
        Constructor.
1595 1596 1597

        Args:
            scope(fluid.Scope): The scope is used to initialize these new parameters.
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            place(fluid.CPUPlace|fluid.CUDAPlace|str): place is used to initialize new
                parameters described above. If ``place`` is string, it can be It can be ``cpu``
                or ``gpu:x``, where ``x`` is the index of the GPUs.
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            moving_rate(float, optional): the param for 'quant_dequant_moving_average_abs_max' 
                quantization. Default is 0.9.
            quant_bits(int, optional): quantization bit number for activation. Default is 8.
            skip_pattern(str, optional): The user-defined quantization skip pattern, which
                will be presented in the name scope of an op. When the skip pattern is
                detected in an op's name scope, the corresponding op will not be quantized.
                Default is 'skip_quant'.
            quantizable_op_type(list[str], optional): List the type of ops that will be 
1609
                quantized. Default is ["elementwise_add", "pool2d"]. 
1610 1611 1612 1613
            is_full_quantized(bool, optional): If set is_full_quantized as True, apply 
                quantization to all supported quantizable op type. If set is_full_quantized
                as False, only apply quantization to the op type according to the input 
                quantizable_op_type.
1614 1615
        """
        self._scope = scope
1616
        self._place = _get_paddle_place(place)
1617 1618 1619
        self._moving_rate = moving_rate
        self._quant_bits = quant_bits
        self._is_test = None
1620
        self._skip_pattern = skip_pattern
1621 1622

        if is_full_quantized:
1623
            self._quantizable_op_type = utils._act_supported_quantizable_op_type
1624 1625 1626
        else:
            self._quantizable_op_type = quantizable_op_type
            for op_type in quantizable_op_type:
1627
                assert op_type in utils._act_supported_quantizable_op_type, \
1628
                    op_type + " is not supported for quantization."
1629 1630 1631 1632
        self._quantizable_grad_op_type = [
            '%s_grad' % (op) for op in self._quantizable_op_type
        ]

1633 1634
        assert self._scope != None, "scope must not be None."
        assert self._place != None, "place must not be None."
1635 1636 1637

    def apply(self, graph):
        """
1638 1639
        Add quant_dequant before some ops, such as the 'elementwise_add' and
        'pool2d' op.
1640

1641 1642
        Args:
            graph(IrGraph): the target graph.
1643 1644
        Returns:
            None
1645 1646 1647 1648
        """
        assert isinstance(graph,
                          IrGraph), 'graph must be the instance of IrGraph.'
        self._is_test = graph.is_test()
1649 1650
        dequantized_vars_map = collections.OrderedDict()

1651 1652
        # Forward stage, insert quant_dequant op
        all_op_nodes = graph.all_op_nodes()
1653 1654 1655 1656
        with tqdm(total=len(all_op_nodes),
                  bar_format=
                  'Adding quant activation op:|{bar}| {n_fmt}/{total_fmt}',
                  ncols=80) as t:
1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670
            for op_node in all_op_nodes:
                if op_node.name() in self._quantizable_op_type:
                    is_skip = False
                    if isinstance(self._skip_pattern, list):
                        is_skip = op_node.op().has_attr("op_namescope") and \
                                    any(pattern in op_node.op().attr("op_namescope") for pattern in self._skip_pattern)
                    elif isinstance(self._skip_pattern, str):
                        is_skip = op_node.op().has_attr("op_namescope") and \
                                    op_node.op().attr("op_namescope").find(self._skip_pattern) != -1
                    is_quantized = op_node.op().has_attr("quantization_type") and \
                        op_node.op().attr("quantization_type") == "qat_with_weight"
                    if is_skip or is_quantized or \
                        (not _is_input_all_not_persistable(graph, op_node)):
                        continue
1671

1672 1673 1674 1675 1676 1677
                    op_node.op()._set_attr("quantization_type",
                                           "qat_without_weight")
                    op_node.op()._set_attr("activation_bits", self._quant_bits)
                    op_node.op()._set_attr("with_quant_attr", True)
                    arg_names = utils._get_op_input_var_names(op_node)
                    for arg_name in arg_names:
1678 1679
                        in_node = graph._find_node_by_name(
                            op_node.inputs, arg_name)
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                        if arg_name in dequantized_vars_map:
                            quant_var_node = dequantized_vars_map[arg_name]
                        else:
                            quant_var_node, _ = \
                                self._inser_quant_dequant_moving_average_abs_max_op(
                                graph, in_node, self._quant_bits)
                            dequantized_vars_map[arg_name] = quant_var_node
                        graph.update_input_link(in_node, quant_var_node,
                                                op_node)
            t.update()
1690

1691 1692
        # Backward stage, update input link
        for op_node in all_op_nodes:
1693
            if op_node.name() in self._quantizable_grad_op_type:
1694 1695
                for input_name in op_node.input_arg_names():
                    if input_name in dequantized_vars_map:
1696 1697
                        in_node = graph._find_node_by_name(
                            op_node.inputs, input_name)
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                        dequant_var_node = dequantized_vars_map[input_name]
                        graph.update_input_link(in_node, dequant_var_node,
                                                op_node)

1702 1703 1704 1705 1706 1707 1708
        graph.resolve_hazard()
        return graph

    def _inser_quant_dequant_moving_average_abs_max_op(self, graph, var_node,
                                                       quant_bits):
        """Insert fake_quantize_dequantize_moving_average_abs_max op.
        """
1709 1710 1711 1712 1713
        quant_var_node = graph.create_var_node(name="{}.quant_dequant".format(
            var_node.name()),
                                               var_type=var_node.type(),
                                               shape=var_node.shape(),
                                               var_dtype=var_node.dtype())
1714
        scale_in_node = graph.create_persistable_node(
1715
            name="{}.quant_dequant@scale".format(var_node.name()),
1716 1717 1718 1719 1720
            var_type=core.VarDesc.VarType.LOD_TENSOR,
            shape=[1],
            var_dtype=var_node.dtype())
        data_type = 'float64' if var_node.dtype(
        ) == core.VarDesc.VarType.FP64 else 'float32'
1721 1722 1723
        _init_var_node(scale_in_node,
                       np.array([_SCALE_DEFAULT_VALUE], dtype=data_type),
                       self._scope, self._place)
1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735

        scale_out_node = graph.create_var_node_from_desc(scale_in_node.var())
        ins = {'X': var_node, 'InScale': scale_in_node}
        outs = {'Out': quant_var_node, 'OutScale': scale_out_node}
        if not self._is_test:
            state_in_node = graph.create_persistable_node(
                name=unique_name.generate('quant_dequant.state'),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
                var_dtype=var_node.dtype(),
                shape=[1])
            data_type = 'float64' if var_node.dtype(
            ) == core.VarDesc.VarType.FP64 else 'float32'
1736 1737
            _init_var_node(state_in_node, np.ones([1], dtype=data_type),
                           self._scope, self._place)
1738 1739 1740 1741 1742
            accum_in_node = graph.create_persistable_node(
                name=unique_name.generate('quant_dequant.accum'),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
                var_dtype=var_node.dtype(),
                shape=[1])
1743 1744 1745 1746 1747 1748
            _init_var_node(accum_in_node, np.ones([1], dtype=data_type),
                           self._scope, self._place)
            state_out_node = graph.create_var_node_from_desc(
                state_in_node.var())
            accum_out_node = graph.create_var_node_from_desc(
                accum_in_node.var())
1749 1750 1751 1752 1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 1764 1765 1766 1767 1768 1769 1770 1771 1772 1773 1774 1775 1776 1777 1778 1779

            ins['InState'] = state_in_node
            ins['InAccum'] = accum_in_node
            outs['OutState'] = state_out_node
            outs['OutAccum'] = accum_out_node

        attrs = {
            'bit_length': quant_bits,
            'moving_rate': self._moving_rate,
            'is_test': self._is_test,
            'op_role': core.op_proto_and_checker_maker.OpRole.Forward
        }

        quant_op_node = graph.create_op_node(
            op_type='fake_quantize_dequantize_moving_average_abs_max',
            attrs=attrs,
            inputs=ins,
            outputs=outs)

        graph.link_to(var_node, quant_op_node)
        graph.link_to(scale_in_node, quant_op_node)
        graph.link_to(quant_op_node, quant_var_node)
        graph.link_to(quant_op_node, scale_out_node)

        if not self._is_test:
            graph.link_to(state_in_node, quant_op_node)
            graph.link_to(accum_in_node, quant_op_node)
            graph.link_to(quant_op_node, state_out_node)
            graph.link_to(quant_op_node, accum_out_node)

        return quant_var_node, scale_out_node
1780 1781 1782 1783 1784 1785 1786 1787 1788 1789 1790 1791 1792 1793 1794


class InsertQuantizeLinear(object):
    """
    Insert quantize_linear and dequantize_linear op before ops.

    Args:
        place(paddle.CPUPlace|paddle.CUDAPlace|str): place is used to restore the weight tensors.
            If it's string, It can be ``cpu``, and ``gpu:x``, where ``x`` is the index of the GPUs.
        scope(paddle.Scope): scope is used to get the weight tensor values.
        quant_bits(int, optional): quantization bit number for weight. Default is 8.
        quant_axis(int, optional): quantization dimension of channels. When it is greater than or
            equal to 0, it will quantization with per channel, else quantization with per layer.
            Default is -1.
        channel_wise(bool, optional): Whether quantization with per channel or not. Default is False.
1795
        moving_rate(float): the rate for 'moving average' method.
1796 1797 1798 1799 1800 1801 1802 1803 1804
        is_test(bool, optional): Whether quantization with training or not. Default is True.
    """

    def __init__(self,
                 place,
                 scope,
                 quant_bits=8,
                 quant_axis=-1,
                 channel_wise=False,
1805
                 moving_rate=0.9,
1806 1807 1808 1809 1810 1811 1812
                 is_test=True):
        self._place = place
        self._scope = scope
        self.quant_bits = quant_bits
        self.quant_axis = quant_axis
        self.channel_wise = channel_wise
        self._is_test = is_test
1813
        self._moving_rate = moving_rate
1814

1815
    def insert_quant_op(self, graph, var_node, var_name=None):
1816
        assert var_node.is_var(), '{} is not a var'.format(var_node.name())
1817 1818 1819 1820 1821 1822
        var_name = var_node.name() if not var_name else var_name
        quant_var_node = graph.create_var_node(
            name=self._quantized_var_name(var_name),
            var_type=var_node.type(),
            shape=var_node.shape(),
            var_dtype=var_node.dtype())
1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833
        data_type = 'float64' if var_node.dtype(
        ) == core.VarDesc.VarType.FP64 else 'float32'
        if self.channel_wise:
            scale_var_shape = var_node.shape()[self.quant_axis]
            scale_var_type = core.VarDesc.VarType.LOD_TENSOR
            init_scale_value = np.zeros(scale_var_shape, dtype=data_type)
        else:
            scale_var_shape = 1
            scale_var_type = var_node.type()
            init_scale_value = np.array([_SCALE_DEFAULT_VALUE], dtype=data_type)
        scale_var_node = graph.create_persistable_node(
1834
            name=self._quantized_scale_name(var_name),
1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847
            var_type=scale_var_type,
            shape=[scale_var_shape],
            var_dtype=var_node.dtype())
        _init_var_node(scale_var_node, init_scale_value, self._scope,
                       self._place)

        zero_point_node = None
        if zero_point_node is None:
            zero_point_node = graph.create_persistable_node(
                name=self._zero_point_name(quant_var_node.name()),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
                shape=scale_var_node.shape(),
                var_dtype=core.VarDesc.VarType.INT32)
1848 1849 1850
            _init_var_node(zero_point_node,
                           np.zeros(scale_var_node.shape(), dtype="int32"),
                           self._scope, self._place)
1851 1852 1853 1854 1855 1856

        inputs = {"X": var_node, "Scale": scale_var_node}
        if zero_point_node is not None:
            inputs["ZeroPoint"] = zero_point_node

        attrs = {"quant_axis": self.quant_axis, "bit_length": self.quant_bits}
1857
        attrs["op_role"] = core.op_proto_and_checker_maker.OpRole.Forward
1858 1859
        outputs = {"Y": quant_var_node}
        if not self._is_test:
1860 1861
            scale_out_node = graph.create_var_node_from_desc(
                scale_var_node.var())
1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882
            state_in_node = graph.create_persistable_node(
                name=unique_name.generate('state'),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
                var_dtype=var_node.dtype(),
                shape=[1])
            data_type = 'float64' if var_node.dtype(
            ) == core.VarDesc.VarType.FP64 else 'float32'
            _init_var_node(state_in_node, np.ones([1], dtype=data_type),
                           self._scope, self._place)
            accum_in_node = graph.create_persistable_node(
                name=unique_name.generate('accum'),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
                var_dtype=var_node.dtype(),
                shape=[1])
            _init_var_node(accum_in_node, np.ones([1], dtype=data_type),
                           self._scope, self._place)
            state_out_node = graph.create_var_node_from_desc(
                state_in_node.var())
            accum_out_node = graph.create_var_node_from_desc(
                accum_in_node.var())

1883
            outputs["OutScale"] = scale_out_node
1884 1885 1886 1887 1888 1889
            inputs['InState'] = state_in_node
            inputs['InAccum'] = accum_in_node
            outputs['OutState'] = state_out_node
            outputs['OutAccum'] = accum_out_node
            attrs["is_test"] = self._is_test
            attrs['moving_rate'] = self._moving_rate
1890

1891 1892 1893 1894
        quant_op_node = graph.create_op_node(op_type="quantize_linear",
                                             attrs=attrs,
                                             inputs=inputs,
                                             outputs=outputs)
1895 1896 1897 1898 1899 1900 1901

        graph.link_to(var_node, quant_op_node)
        graph.link_to(scale_var_node, quant_op_node)
        if zero_point_node is not None:
            graph.link_to(zero_point_node, quant_op_node)
        graph.link_to(quant_op_node, quant_var_node)
        if not self._is_test:
1902 1903 1904 1905
            graph.link_to(state_in_node, quant_op_node)
            graph.link_to(accum_in_node, quant_op_node)
            graph.link_to(quant_op_node, state_out_node)
            graph.link_to(quant_op_node, accum_out_node)
1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920 1921 1922 1923 1924
            graph.link_to(quant_op_node, scale_out_node)
        return quant_var_node, scale_var_node

    def insert_dequant_op(self, graph, var_node, scale_var_node):
        assert var_node.is_var(), '{} is not a var'.format(var_node.name())

        dequant_var_node = graph.create_var_node(
            name=self._dequantized_var_name(var_node.name()),
            var_type=var_node.type(),
            shape=var_node.shape(),
            var_dtype=var_node.dtype())

        zero_point_node = None
        if zero_point_node is None:
            zero_point_node = graph.create_persistable_node(
                name=self._zero_point_name(dequant_var_node.name()),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
                shape=scale_var_node.shape(),
                var_dtype=core.VarDesc.VarType.INT32)
1925 1926 1927
            _init_var_node(zero_point_node,
                           np.zeros(scale_var_node.shape(), dtype="int32"),
                           self._scope, self._place)
1928 1929 1930 1931 1932 1933

        inputs = {"X": var_node, "Scale": scale_var_node}
        if zero_point_node is not None:
            inputs["ZeroPoint"] = zero_point_node

        attrs = {"quant_axis": self.quant_axis, "bit_length": self.quant_bits}
1934
        attrs["op_role"] = core.op_proto_and_checker_maker.OpRole.Forward
1935

1936 1937 1938 1939
        quant_op_node = graph.create_op_node(op_type="dequantize_linear",
                                             attrs=attrs,
                                             inputs=inputs,
                                             outputs={"Y": dequant_var_node})
1940 1941 1942 1943 1944 1945 1946 1947 1948 1949 1950 1951 1952 1953 1954 1955 1956 1957 1958 1959 1960 1961 1962 1963

        graph.link_to(var_node, quant_op_node)
        graph.link_to(scale_var_node, quant_op_node)
        if zero_point_node is not None:
            graph.link_to(zero_point_node, quant_op_node)
        graph.link_to(quant_op_node, dequant_var_node)
        return dequant_var_node

    def _quantized_var_name(self, var_name):
        """
        Return quantized variable name for the input `var_name`.
        """
        return "%s.quantized" % (var_name)

    def _dequantized_var_name(self, var_name):
        """
        Return dequantized variable name for the input `var_name`.
        """
        return "%s.dequantized" % (var_name)

    def _quantized_scale_name(self, var_name):
        """
        Return the scale name of quantized variable for the input `var_name`.
        """
1964
        return "%s@scale" % (var_name)
1965 1966 1967 1968 1969 1970 1971 1972

    def _zero_point_name(self, var_name):
        """
        Return the scale name for the var named `var_name`.
        """
        return "%s@zero_point" % (var_name)


1973
class QuantizationTransformPassV2(QuantizationTransformPass):
1974 1975
    """
    Quantize the ops that have weights. Add quant and dequant ops for
1976
    the quantized ops's inputs. It is used in the new format of quantization.
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    """

    def __init__(self,
                 scope=None,
                 place=None,
                 weight_bits=8,
                 activation_bits=8,
                 activation_quantize_type='abs_max',
                 weight_quantize_type='abs_max',
                 window_size=10000,
                 moving_rate=0.9,
                 skip_pattern=['skip_quant'],
                 quantizable_op_type=['conv2d', 'depthwise_conv2d', 'mul'],
                 weight_quantize_func=None,
                 act_quantize_func=None,
                 weight_preprocess_func=None,
                 act_preprocess_func=None,
                 optimizer_func=None,
                 executor=None):
        r"""
        Args:
            scope(paddle.Scope): When activation use 'range_abs_max' as the quantize
                type, this pass will create some new parameters. The scope is used to
                initialize these new parameters.
            place(paddle.CPUPlace|paddle.CUDAPlace|str): place is used to initialize new
                parameters described above. If it's string, It can be ``cpu``, and ``gpu:x``,
                where ``x`` is the index of the GPUs. 
            weight_bits(int): quantization bit number for weights,
                the bias is not quantized.
            activation_bits(int): quantization bit number for activation.
            activation_quantize_type(str): quantization type for activation,
                now support 'abs_max', 'range_abs_max' and 'moving_average_abs_max'.
                If use 'abs_max' mode, the quantization scale will be calculated
                dynamically each step in both training and testing period. If use
                'range_abs_max', a static quantization scale will be calculated
                during training and used in inference.
            weight_quantize_type(str): quantization type for weights,
                support 'abs_max' and 'channel_wise_abs_max'. The 'range_abs_max'
                usually is not used for weight, since weights are fixed once the
                model is well trained.
            window_size(int): the window size for 'range_abs_max' quantization.
            moving_rate(float): the param for 'moving_average_abs_max' quantization.
            skip_pattern(str or str list): The user-defined quantization skip pattern, which
                will be presented in the name scope of an op. When the skip pattern is
                detected in an op's name scope, the corresponding op will not be quantized. 
            quantizable_op_type(list[str]): List the type of ops that will be quantized. 
                Default is ["conv2d", "depthwise_conv2d", "mul"]. The quantizable_op_type in
                QuantizationFreezePass and ConvertToInt8Pass must be the same as this.
            weight_quantize_func(function): Function that defines how to quantize weight.
                Using this can quickly test if user's quantization method works or not.
                In this function, user should both define quantization function and
                dequantization function, that is, the function's input is non-quantized
                weight and function returns dequantized weight. If None, will use
                quantization op defined by 'weight_quantize_type'. Default is None.
            act_quantize_func(function): Function that defines how to quantize activation.
                Using this can quickly test if user's quantization method works or not.
                In this function, user should both define quantization and dequantization
                process, that is, the function's input is non-quantized activation and
                function returns dequantized activation. If None, will use quantization
                op defined by 'activation_quantize_type'. Default is None.
            weight_preprocess_func(function): Function that defines how to preprocess
                weight before quantization. Using this can quickly test if user's preprocess
                method works or not. The function's input is non-quantized weight and
                function returns processed weight to be quantized. If None, the weight will
                be quantized directly. Default is None.
            act_preprocess_func(function): Function that defines how to preprocess
                activation before quantization. Using this can quickly test if user's
                preprocess method works or not. The function's input is non-quantized
                activation and function returns processed activation to be quantized.
                If None, the activation will be quantized directly. Default is None.
            optimizer_func(function): Fuction return a optimizer. When 'is_test' is
                False and user want to use self-defined quantization function and
                preprocess function, this function must be set. Default is None.
            executor(paddle.Executor): If user want to use self-defined quantization
                function and preprocess function, executor must be set for initialization.
                Default is None.

        Examples:
        .. code-block:: python
            # The original graph will be rewrite.
            import paddle
            from paddle.fluid.contrib.slim.quantization \
                import QuantizationTransformPassV2
            from paddle.fluid.contrib.slim.graph import IrGraph
            from paddle.fluid import core

            graph = IrGraph(core.Graph(program.desc), for_test=False)
            place = paddle.CPUPlace()
            scope = paddle.static.global_scope()
            transform_pass = QuantizationTransformPassV2(scope, place)
            transform_pass.apply(graph)
        """
        self._scope = scope
        self._place = _get_paddle_place(place)
        self._weight_bits = weight_bits
        self._activation_bits = activation_bits
        self._skip_pattern = skip_pattern
        self._weight_quantize_func = weight_quantize_func
        self._act_quantize_func = act_quantize_func
        self._weight_preprocess_func = weight_preprocess_func
        self._act_preprocess_func = act_preprocess_func
        self._optimizer = optimizer_func
        self._exe = executor
        quant_type = [
            'abs_max', 'channel_wise_abs_max', 'range_abs_max',
            'moving_average_abs_max'
        ]
        assert activation_quantize_type != 'channel_wise_abs_max', \
            "The activation quantization type does not support 'channel_wise_abs_max'."
        if activation_quantize_type not in quant_type:
            raise ValueError(
                "Unknown activation_quantize_type : '%s'. It can only be "
                "'abs_max' or 'range_abs_max' or 'moving_average_abs_max'." %
                (str(activation_quantize_type)))
        if weight_quantize_type not in quant_type:
            raise ValueError(
                "Unknown weight_quantize_type: '%s'. It can only be "
                "'abs_max' or 'channel_wise_abs_max' or 'range_abs_max' "
                "or 'moving_average_abs_max'." % (str(weight_quantize_type)))

        self._activation_quantize_type = activation_quantize_type
        self._weight_quantize_type = weight_quantize_type
        self._window_size = window_size
        self._moving_rate = moving_rate

        self._quantizable_ops = quantizable_op_type
        for op in self._quantizable_ops:
            assert op in utils._weight_supported_quantizable_op_type, \
                op + " is not supported for quantization."
        self._quantizable_grad_ops = [
            '%s_grad' % (op) for op in self._quantizable_ops
        ]
        self._is_test = None
        self._global_step = None

        self.create_var_map = {}
        self.create_op_map = {}

        # marked the variable which has been dequantized.
        self.dequantized_vars = collections.OrderedDict()
        self.persistable_vars = []
        self.processed_vars = []

    def _quant_preprocess(self, op_node):
        user_skipped = False
        if isinstance(self._skip_pattern, list):
            user_skipped = op_node.op().has_attr("op_namescope") and \
                            any(pattern in op_node.op().attr("op_namescope") \
                                for pattern in self._skip_pattern)
        elif isinstance(self._skip_pattern, str):
            user_skipped = op_node.op().has_attr("op_namescope") and \
                            op_node.op().attr("op_namescope").find(
                                self._skip_pattern) != -1

        if user_skipped:
            op_node.op()._set_attr("skip_quant", True)
            op_node.op()._set_attr("with_quant_attr", True)

    def _transform_forward(self, graph, op):
        op.op()._set_attr("quantization_type", "qat_with_weight")
        inputs = op.inputs
        for var_node in inputs:
            if var_node.name() not in op.input_arg_names():
                continue
            if var_node.name() in self.dequantized_vars:
                dequant_var_node = self.dequantized_vars[var_node.name()]
            else:
                name = var_node.name()
                if name in self.processed_vars:
                    continue
                is_weight = True if var_node.name() in self.persistable_vars \
                    else False

                # if var node is weight and weight_preprocess_func is not None,
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                # will insert weight preprocess func
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                # to preorocess weight before quantization
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                # if var node is activation and act_preprocess_func is not None,
                # will insert activation preprocess func
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                # to preorocess activation before quantization
                if is_weight and self._weight_preprocess_func is not None:
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                    var_node = self._insert_func(graph,
                                                 self._weight_preprocess_func,
                                                 var_node, op)
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                elif not is_weight and self._act_preprocess_func is not None:
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                    var_node = self._insert_func(graph,
                                                 self._act_preprocess_func,
                                                 var_node, op)
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                # if var node is weight and weight_quantize_func is not None,
                # will insert weight quantize func to quantize and dequantize weight
                # if var node is activation and act_quantize_func is not None,
                # will insert act quantize func to quantize and dequantize activation
                if is_weight and self._weight_quantize_func is not None:
                    target_out_node = self._insert_func(
                        graph, self._weight_quantize_func, var_node, op)
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                    self.processed_vars.append(name)
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                    continue
                elif not is_weight and self._act_quantize_func is not None:
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                    target_out_node = self._insert_func(graph,
                                                        self._act_quantize_func,
                                                        var_node, op)
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                    self.processed_vars.append(name)
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                    continue

                quant_bits = self._weight_bits if var_node.name() in self.persistable_vars \
                    else self._activation_bits
                quant_type = self._weight_quantize_type if is_weight \
                    else self._activation_quantize_type
                quant_axis = -1
                channel_wise = False
                if quant_type == 'channel_wise_abs_max':  # Weight quantization
                    channel_wise = True
                    quant_axis = 1 if op.name() in \
                        utils._channelwise_quant_axis1_ops else 0
                insert_quant_pass = InsertQuantizeLinear(
                    self._place,
                    self._scope,
                    quant_bits=quant_bits,
                    quant_axis=quant_axis,
                    channel_wise=channel_wise,
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                    moving_rate=self._moving_rate,
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                    is_test=self._is_test)
                quant_var_node, scale_var_node = insert_quant_pass.insert_quant_op(
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                    graph, var_node, var_name=name)
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                dequant_var_node = insert_quant_pass.insert_dequant_op(
                    graph, quant_var_node, scale_var_node)

                self.dequantized_vars[name] = dequant_var_node
            graph.update_input_link(var_node, dequant_var_node, op)

    def _transform_backward(self, graph, op):
        for var_node in op.inputs:
            if var_node.name() not in op.input_arg_names():
                continue
            if var_node.name() in self.dequantized_vars:
                dequant_var_node = self.dequantized_vars[var_node.name()]
                graph.update_input_link(var_node, dequant_var_node, op)

    def _has_weight(self, op):
        has_weight = False
        for var_node in op.inputs:
            if var_node.name() not in op.input_arg_names():
                continue
            name = var_node.name()
            if var_node.name() in self.persistable_vars:
                has_weight = True
        return has_weight

    def apply(self, graph):
        """
        Quantize the graph for training process. According to weight and
        activation quantization type, the graph will be added some fake
        quantize operators and fake dequantize operators.

        Args:
            graph(IrGraph): the applied graph.
        Returns:
            None
        """
        assert isinstance(graph,
                          IrGraph), 'graph must be the instance of IrGraph.'
        self._is_test = graph.is_test()

        self.persistable_vars = [
            p.name() for p in graph.all_persistable_nodes()
        ]

        ops = graph.all_op_nodes()
        # Do the preproccess of quantization, such as skipping some ops
        # for not being quantized.
        for op in ops:
            if op.name() in self._quantizable_ops or \
                    op.name() in self._quantizable_grad_ops:
                self._quant_preprocess(op)
        # Insert mapping table to solve the problem in saving inference model.
        graph.out_node_mapping_table = dict()
        # The process of _transform_forward and _transform_backward is needed in two for loops.
        # The loop for transforming the forward graph:
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        with tqdm(total=len(ops),
                  bar_format=
                  'Adding quant op with weight:|{bar}| {n_fmt}/{total_fmt}',
                  ncols=80) as t:
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            for op in ops:
                if op.name() in self._quantizable_ops:
                    if not self._is_skip_quant(graph,
                                               op) and self._has_weight(op):
                        self._transform_forward(graph, op)
                t.update()
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        # The loop for renaming the inputs of backward op.
        for op in ops:
            if op.name() in self._quantizable_grad_ops and self._has_weight(op):
                self._transform_backward(graph, op)
        return graph


class AddQuantDequantPassV2(object):
    """
    Quantize the ops that do not have weights, and add quant_linear and dequant_linear
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    op for the quantized ops's inputs. It is used in the new format of quantization.
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    """

    # To be compatible with PaddleSlim, not remove _activation_type for now
    _activation_type = ["relu", "relu6", "leaky_relu", "tanh", "swish"]

    def __init__(self,
                 scope=None,
                 place=None,
                 moving_rate=0.9,
                 quant_bits=8,
                 skip_pattern=["skip_quant"],
                 quantizable_op_type=["elementwise_add", "pool2d"],
                 is_full_quantized=False):
        """
        Args:
            scope(paddle.Scope): The scope is used to initialize these new parameters.
            place(paddle.CPUPlace|paddle.CUDAPlace|str): place is used to initialize new
                parameters described above. If ``place`` is string, it can be It can be ``cpu``
                or ``gpu:x``, where ``x`` is the index of the GPUs.
            moving_rate(float, optional): the param for 'quant_dequant_moving_average_abs_max' 
                quantization. Default is 0.9.
            quant_bits(int, optional): quantization bit number for activation. Default is 8.
            skip_pattern(str, optional): The user-defined quantization skip pattern, which
                will be presented in the name scope of an op. When the skip pattern is
                detected in an op's name scope, the corresponding op will not be quantized.
                Default is 'skip_quant'.
            quantizable_op_type(list[str], optional): List the type of ops that will be 
                quantized. Default is ["elementwise_add", "pool2d"]. 
            is_full_quantized(bool, optional): If set is_full_quantized as True, apply 
                quantization to all supported quantizable op type. If set is_full_quantized
                as False, only apply quantization to the op type according to the input 
                quantizable_op_type.
        
        Examples:
        .. code-block:: python
            # The original graph will be rewrite.
            import paddle
            from paddle.fluid.contrib.slim.quantization \
                import AddQuantDequantPassV2
            from paddle.fluid.contrib.slim.graph import IrGraph
            from paddle.fluid import core

            graph = IrGraph(core.Graph(program.desc), for_test=False)
            place = paddle.CPUPlace()
            scope = paddle.static.global_scope()
            add_quant_dequant_pass = AddQuantDequantPassV2(scope, place)
            add_quant_dequant_pass.apply(graph)
        """
        self._scope = scope
        self._place = _get_paddle_place(place)
        self._moving_rate = moving_rate
        self._quant_bits = quant_bits
        self._is_test = None
        self._skip_pattern = skip_pattern

        if is_full_quantized:
            self._quantizable_op_type = utils._act_supported_quantizable_op_type
        else:
            self._quantizable_op_type = quantizable_op_type
            for op_type in quantizable_op_type:
                assert op_type in utils._act_supported_quantizable_op_type, \
                    op_type + " is not supported for quantization."
        self._quantizable_grad_op_type = [
            '%s_grad' % (op) for op in self._quantizable_op_type
        ]

        assert self._scope != None, "scope must not be None."
        assert self._place != None, "place must not be None."
        self.persistable_vars = []

    def apply(self, graph):
        """
        Add quant_dequant before some ops, such as the 'elementwise_add' and
        'pool2d' op.

        Args:
            graph(IrGraph): the target graph.
        Returns:
            None
        """
        assert isinstance(graph,
                          IrGraph), 'graph must be the instance of IrGraph.'
        self._is_test = graph.is_test()
        dequantized_vars_map = collections.OrderedDict()

        self.persistable_vars = [
            p.name() for p in graph.all_persistable_nodes()
        ]

        # Forward stage, insert quant_dequant op
        all_op_nodes = graph.all_op_nodes()
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        with tqdm(total=len(all_op_nodes),
                  bar_format=
                  'Adding quant activation op:|{bar}| {n_fmt}/{total_fmt}',
                  ncols=80) as t:
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            for op_node in all_op_nodes:
                if op_node.name() in self._quantizable_op_type:
                    is_skip = False
                    if isinstance(self._skip_pattern, list):
                        is_skip = op_node.op().has_attr("op_namescope") and \
                                    any(pattern in op_node.op().attr("op_namescope") for pattern in self._skip_pattern)
                    elif isinstance(self._skip_pattern, str):
                        is_skip = op_node.op().has_attr("op_namescope") and \
                                    op_node.op().attr("op_namescope").find(self._skip_pattern) != -1
                    is_quantized = op_node.op().has_attr("quantization_type") and \
                        op_node.op().attr("quantization_type") == "qat_with_weight"
                    if is_skip or is_quantized:
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                        continue
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                    op_node.op()._set_attr("quantization_type",
                                           "qat_without_weight")
                    arg_names = utils._get_op_input_var_names(op_node)
                    for arg_name in arg_names:
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                        in_node = graph._find_node_by_name(
                            op_node.inputs, arg_name)
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                        if in_node.persistable():
                            continue
                        if arg_name in dequantized_vars_map:
                            dequant_var_node = dequantized_vars_map[arg_name]
                        else:
                            insert_quant_pass = InsertQuantizeLinear(
                                self._place,
                                self._scope,
                                quant_bits=self._quant_bits,
                                quant_axis=-1,
                                channel_wise=False,
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                                moving_rate=self._moving_rate,
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                                is_test=self._is_test)
                            quant_var_node, scale_var_node = insert_quant_pass.insert_quant_op(
                                graph, in_node)
                            dequant_var_node = insert_quant_pass.insert_dequant_op(
                                graph, quant_var_node, scale_var_node)
                            dequantized_vars_map[arg_name] = dequant_var_node
                        graph.update_input_link(in_node, dequant_var_node,
                                                op_node)
                t.update()
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        # Backward stage, update input link
        for op_node in all_op_nodes:
            if op_node.name() in self._quantizable_grad_op_type:
                for input_name in op_node.input_arg_names():
                    if input_name in dequantized_vars_map:
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                        in_node = graph._find_node_by_name(
                            op_node.inputs, input_name)
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                        dequant_var_node = dequantized_vars_map[input_name]
                        graph.update_input_link(in_node, dequant_var_node,
                                                op_node)

        return graph


class ReplaceFakeQuantDequantPass(object):
    """
    replace quant-dequant ops with quantize_linear and dequantize_linear ops.
    """

    def __init__(self, scope, place):
        r"""
        Args:
            scope(paddle.Scope): The scope is used to initialize these new parameters.
            place(paddle.CPUPlace|paddle.CUDAPlace|str): place is used to initialize new
                parameters described above. If ``place`` is string, it can be It can be ``cpu``
                or ``gpu:x``, where ``x`` is the index of the GPUs.
        
        Examples:
        .. code-block:: python
            # The original graph will be rewrite.
            import paddle
            from paddle.fluid.contrib.slim.quantization \
                import ReplaceFakeQuantDequantPass
            from paddle.fluid.contrib.slim.graph import IrGraph
            from paddle.fluid import core

            graph = IrGraph(core.Graph(program.desc), for_test=False)
            place = paddle.CPUPlace()
            scope = paddle.static.global_scope()
            replace_pass = ReplaceFakeQuantDequantPass(scope, place)
            replace_pass.apply(graph)
        """
        self._place = _get_paddle_place(place)
        self._scope = scope
        assert self._scope != None, "scope must not be None."
        assert self._place != None, "place must not be None."

    def apply(self, graph):
        assert isinstance(graph,
                          IrGraph), 'graph must be the instance of IrGraph.'
        fake_quant_dequant_ops = []

        for op in graph.all_op_nodes():
            if op.name() in _fake_quant_dequant_op_list:
                fake_quant_dequant_ops.append(op)

        for _op in fake_quant_dequant_ops:
            self._replace_op(graph, _op)
            graph.safe_remove_nodes(_op)

        graph.resolve_hazard()
        return graph

    def _replace_op(self, graph, op):
        x_node = graph._find_node_by_name(op.inputs, op.input("X")[0])
        out_node = graph._find_node_by_name(op.outputs, op.output("Out")[0])
        scale_node = graph._find_node_by_name(op.outputs,
                                              op.output("OutScale")[0])

        quant_axis = op.op().attr("quant_axis") if op.op().has_attr(
            "quant_axis") else -1
        bit_length = op.op().attr("bit_length") if op.op().has_attr(
            "bit_length") else 8

        zero_point_node = None
        quanted_node = x_node
        if zero_point_node is None:
            zero_point_node = graph.create_persistable_node(
                name=self._zero_point_name(quanted_node.name()),
                var_type=core.VarDesc.VarType.LOD_TENSOR,
                shape=scale_node.shape(),
                var_dtype=core.VarDesc.VarType.INT32)
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            _init_var_node(zero_point_node,
                           np.zeros(scale_node.shape(), dtype="int32"),
                           self._scope, self._place)

        quant_var_node = graph.create_var_node(name=self._quantized_var_name(
            x_node.name()),
                                               var_type=x_node.type(),
                                               shape=x_node.shape(),
                                               var_dtype=x_node.dtype())
        quant_op_node = graph.create_op_node(op_type="quantize_linear",
                                             attrs={
                                                 "quant_axis": quant_axis,
                                                 "bit_length": bit_length
                                             },
                                             inputs={
                                                 "X": x_node,
                                                 "Scale": scale_node,
                                                 "ZeroPoint": zero_point_node
                                             },
                                             outputs={"Y": quant_var_node})
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        graph.link_to(x_node, quant_op_node)
        graph.link_to(scale_node, quant_op_node)
        if zero_point_node is not None:
            graph.link_to(zero_point_node, quant_op_node)
        graph.link_to(quant_op_node, quant_var_node)
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        dequant_op_node = graph.create_op_node(op_type="dequantize_linear",
                                               attrs={
                                                   "quant_axis": quant_axis,
                                                   "bit_length": bit_length
                                               },
                                               inputs={
                                                   "X": quant_var_node,
                                                   "Scale": scale_node,
                                                   "ZeroPoint": zero_point_node
                                               },
                                               outputs={"Y": out_node})
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        graph.link_to(quant_var_node, dequant_op_node)
        graph.link_to(scale_node, dequant_op_node)
        if zero_point_node is not None:
            graph.link_to(zero_point_node, dequant_op_node)
        graph.link_to(dequant_op_node, out_node)

    def _quantized_var_name(self, var_name):
        """
        Return quantized variable name for the input `var_name`.
        """
        return "%s.quantized" % (var_name)

    def _zero_point_name(self, var_name):
        """
        Return the scale name for the var named `var_name`.
        """
        return "%s@zero_point" % (var_name)


class QuantWeightPass(object):
    """
    quant weights and remove weights input quantize_linear node. for example:
    `weight -> quant -> dequant -> conv2d` will be frozen into `weight -> dequant -> conv2d`,
    and weight will be scaled offline.

    Args:
        scope(paddle.Scope): scope is used to get the weight tensor values.
        place(paddle.CPUPlace|paddle.CUDAPlace|str): place is used to restore the weight tensors.
            If it's string, It can be ``cpu``, and ``gpu:x``, where ``x`` is the index of the GPUs.
        bias_correction(bool): whether use bias correction for post-training quantization.
             https://arxiv.org/abs/1810.05723.
        quant_bits(int, optional): quantization bit number for weight. Default is 8.
        save_int_weight(bool, optional): Whether the type saving the weight is int. Default is True.
    
    Examples:
        .. code-block:: python
            # The original graph will be rewrite.
            import paddle
            from paddle.fluid.contrib.slim.quantization \
                import QuantWeightPass
            from paddle.fluid.contrib.slim.graph import IrGraph
            from paddle.fluid import core

            graph = IrGraph(core.Graph(program.desc), for_test=False)
            place = paddle.CPUPlace()
            scope = paddle.static.global_scope()
            quant_weight_pass = QuantWeightPass(scope, place)
            quant_weight_pass.apply(graph)
    """

    def __init__(self,
                 scope,
                 place,
                 bias_correction=False,
                 quant_bits=8,
                 save_int_weight=True):
        self._place = _get_paddle_place(place)
        self._scope = scope
        self._bias_correction = bias_correction
        self._quant_bits = quant_bits
        self._save_int_weight = save_int_weight
        assert self._scope != None, "scope must not be None."
        assert self._place != None, "place must not be None."

    def apply(self, graph):
        assert isinstance(graph,
                          IrGraph), 'graph must be the instance of IrGraph.'
        fake_quant_ops_for_weight = []

        fake_quant_ops = [
            op for op in graph.all_op_nodes() if op.name() == "quantize_linear"
        ]
        for _op in fake_quant_ops:
            x_node = graph._find_node_by_name(_op.inputs, _op.input("X")[0])
            if x_node.persistable():
                scale_node = graph._find_node_by_name(_op.inputs,
                                                      _op.input("Scale")[0])
                zero_point_node = graph._find_node_by_name(
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                    _op.inputs,
                    _op.input("ZeroPoint")[0])
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                out_node = graph._find_node_by_name(_op.outputs,
                                                    _op.output("Y")[0])

                scale_v = self._load_var(scale_node.name())
                assert scale_v.ndim in [1, 2
                                        ], "the dim of scale_v should be 1 or 2"
                if scale_v.ndim == 2:
                    scale_v = scale_v[0]
                if scale_v.size == 1 and _op.name() == 'abs_max':
                    scale_v = scale_v[0]
                else:
                    scale_v = scale_v.tolist()
                param_v = self._load_var(x_node.name())
                quant_axis = _op.op().attr("quant_axis")
                bits_length = _op.op().attr("bit_length")
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                quantized_param_v = utils.quant_tensor(param_v.copy(),
                                                       scale_v,
                                                       quant_axis,
                                                       bits_length,
                                                       onnx_format=True)
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                if self._bias_correction == True:
                    quantized_param_v = utils.bias_correction_w(
                        param_v,
                        quantized_param_v,
                        scale_v,
                        quant_axis,
                        weight_bits=bits_length)
                if self._save_int_weight:
                    # cast weight type to int
                    if self._quant_bits == 8:
                        save_weight_dtype = np.int8
                    quantized_param_v = quantized_param_v.astype(
                        save_weight_dtype)
                self._restore_var(x_node.name(), quantized_param_v)

                for next_op_node in out_node.outputs:
                    graph.update_input_link(out_node, x_node, next_op_node)
                graph.safe_remove_nodes(out_node)
        self._remove_unused_var_nodes(graph)

    def _remove_unused_var_nodes(self, graph):
        all_used_vars = set()
        ops = graph.all_op_nodes()
        for op_node in ops:
            for input_node in op_node.inputs:
                all_used_vars.add(input_node)
            for output_node in op_node.outputs:
                all_used_vars.add(output_node)

        all_used_vars = {n.node for n in all_used_vars}
        all_unused_vars = {
            n
            for n in filter(lambda node: node.node not in all_used_vars,
                            graph.all_var_nodes())
        }
        graph.safe_remove_nodes(all_unused_vars)

    def _load_var(self, name):
        return np.array(self._scope.find_var(name).get_tensor())

    def _restore_var(self, name, array):
        tensor = self._scope.find_var(name).get_tensor()
        tensor.set(array, self._place)