jit.py 65.1 KB
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# Copyright (c) 2019 PaddlePaddle Authors. All Rights Reserved.
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# Copyright (c) 2021 NVIDIA Corporation. All rights reserved.
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#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

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from __future__ import print_function

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import os
import pickle
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import warnings
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import functools
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from collections import OrderedDict
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import inspect
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import threading
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from typing import Text, Tuple, Any, List
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import six
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import paddle
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from paddle.fluid import core, dygraph
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from paddle.fluid.compiler import BuildStrategy, CompiledProgram, ExecutionStrategy
from paddle.fluid.data_feeder import check_type
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from paddle.fluid.layers.utils import flatten, pack_sequence_as
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from paddle.fluid.dygraph.base import program_desc_tracing_guard, switch_to_static_graph
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from paddle.fluid.dygraph.dygraph_to_static import logging_utils
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from paddle.fluid.dygraph.dygraph_to_static.convert_call_func import ConversionOptions, CONVERSION_OPTIONS
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from paddle.fluid.dygraph.dygraph_to_static.logging_utils import set_code_level, set_verbosity
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from paddle.fluid.dygraph.dygraph_to_static.program_translator import ProgramTranslator, StaticFunction, unwrap_decorators
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from paddle.fluid.dygraph.io import TranslatedLayer, INFER_MODEL_SUFFIX, INFER_PARAMS_SUFFIX, INFER_PARAMS_INFO_SUFFIX, INFER_PROPERTY_SUFFIX
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from paddle.fluid.dygraph.layers import Layer
from paddle.fluid.executor import Executor, scope_guard
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from paddle.fluid.framework import Block, ParamBase, Program, Variable, Parameter, EagerParamBase
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from paddle.fluid.framework import _current_expected_place, _dygraph_guard, _dygraph_tracer
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from paddle.fluid.framework import dygraph_only, _non_static_mode
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from paddle.fluid.wrapped_decorator import wrap_decorator
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__all__ = [
    'TracedLayer', 'declarative', 'dygraph_to_static_func', 'set_code_level',
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    'set_verbosity', 'save', 'load', 'not_to_static'
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]
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def create_program_from_desc(program_desc):
    program = Program()
    program.desc = program_desc
    program.blocks = [Block(program, 0)]
    program._sync_with_cpp()
    return program


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def _extract_vars(inputs, result_list, err_tag='inputs'):
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    if isinstance(inputs, Variable):
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        result_list.append(inputs)
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    elif isinstance(inputs, (list, tuple)):
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        for var in inputs:
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            _extract_vars(var, result_list, err_tag)
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    else:
        raise TypeError(
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            "The type of 'each element of {}' in fluid.dygraph.jit.TracedLayer.trace must be fluid.Variable, but received {}."
            .format(err_tag, type(inputs)))
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def extract_vars(inputs, err_tag='inputs'):
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    result_list = []
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    _extract_vars(inputs, result_list, err_tag)
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    return result_list


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def _dygraph_to_static_func_(dygraph_func):
    """
    Converts imperative dygraph APIs into declarative function APIs. Decorator
    @dygraph_to_static_func only converts imperative dygraph APIs into
    declarative net-building APIs, which means it doesn't return immediate
    digital result as imperative mode. Users should handle Program and Executor
    by themselves.

    Note:
    This decorator is NOT our recommended way to transform imperative function
    to declarative function. We will remove this decorator after we finalize
    cleaning up code.

    Args:
        dygraph_func (callable): callable imperative function.

    Returns:
        Callable: converting imperative dygraph APIs into declarative
        net-building APIs.

    Examples:
        .. code-block:: python

          import paddle.fluid as fluid
          import numpy as np
          from paddle.fluid.dygraph.jit import dygraph_to_static_func

          @dygraph_to_static_func
          def func(x):
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              if paddle.mean(x) < 0:
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                  x_v = x - 1
              else:
                  x_v = x + 1

               return x_v

          x = fluid.layers.fill_constant(shape=[3, 3], value=0, dtype='float64')

          x_v = func(x)
          exe = fluid.Executor(fluid.CPUPlace())
          out = exe.run(fetch_list=[x_v])
          print(out[0])
          # [[1. 1. 1.]
          #  [1. 1. 1.]
          #  [1. 1. 1.]]

    """

    # TODO: remove this decorator after we finalize training API
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    def __impl__(*args, **kwargs):
        program_translator = ProgramTranslator()
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        if _non_static_mode() or not program_translator.enable_to_static:
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            logging_utils.warn(
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                "The decorator 'dygraph_to_static_func' doesn't work in "
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                "dygraph mode or set ProgramTranslator.enable to False. "
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                "We will just return dygraph output.")
            return dygraph_func(*args, **kwargs)
        static_func = program_translator.get_func(dygraph_func)
        return static_func(*args, **kwargs)
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    return __impl__


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dygraph_to_static_func = wrap_decorator(_dygraph_to_static_func_)
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def copy_decorator_attrs(original_func, decorated_obj):
    """
    Copies some necessary attributes from original function into decorated function.

    Args:
        original_func(callable): the original decorated function.
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        decorated_obj(StaticFunction): the target decorated StaticFunction object.
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    """
    decorator_name = "declarative"

    decorated_obj.__name__ = original_func.__name__
    decorated_obj._decorator_name = decorator_name
    decorated_obj.__wrapped__ = original_func
    decorated_obj.__doc__ = original_func.__doc__
    if hasattr(original_func, "__module__"):
        decorated_obj.__module__ = original_func.__module__

    return decorated_obj


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def declarative(function=None,
                input_spec=None,
                build_strategy=None,
                property=False):
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    """
    Converts imperative dygraph APIs into declarative function APIs. Decorator
    @declarative handles the Program and Executor of static mode and returns
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    the result as dygraph Tensor(s). Users could use the returned dygraph
    Tensor(s) to do imperative training, inference, or other operations. If the
    decorated function calls other imperative function, the called one will be
    converted into declarative function as well.
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    Args:
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        function (callable): callable imperative function.
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        input_spec(list[InputSpec]|tuple[InputSpec]): list/tuple of InputSpec to specific the shape/dtype/name
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            information of each input Tensor.
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        build_strategy(BuildStrategy|None): This argument is used to compile the
            converted program with the specified options, such as operators' fusion
            in the computational graph and memory optimization during the execution
            of the computational graph. For more information about build_strategy,
            please refer to :code:`paddle.static.BuildStrategy`. The default is None.
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        property(bool, Optional): whether the fucntion is python property. The default is False.
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    Returns:
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        Tensor(s): containing the numerical result.
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    Examples:
        .. code-block:: python
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            import paddle
            from paddle.jit import to_static

            @to_static
            def func(x):
                if paddle.mean(x) < 0:
                    x_v = x - 1
                else:
                    x_v = x + 1
                return x_v

            x = paddle.ones([1, 2], dtype='float32')
            x_v = func(x)
            print(x_v) # [[2. 2.]]
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    """
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    def decorated(python_func):
        """
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        Decorates a python function into a StaticFunction object.
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        """
        # Step 1. unwrap the function if it is already decorated.
        _, python_func = unwrap_decorators(python_func)
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        # Step 2. copy some attributes from original python function.
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        static_layer = copy_decorator_attrs(original_func=python_func,
                                            decorated_obj=StaticFunction(
                                                function=python_func,
                                                input_spec=input_spec,
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                                                build_strategy=build_strategy,
                                                property=property))
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        return static_layer
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    build_strategy = build_strategy or BuildStrategy()
    if not isinstance(build_strategy, BuildStrategy):
        raise TypeError(
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            "Required type(build_strategy) shall be `paddle.static.BuildStrategy`, but received {}"
            .format(type(build_strategy).__name__))
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    # for usage: `declarative(foo, ...)`
    if function is not None:
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        if isinstance(function, Layer):
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            if isinstance(function.forward, StaticFunction):
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                class_name = function.__class__.__name__
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                logging_utils.warn(
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                    "`{}.forward` has already been decorated somewhere. It will be redecorated to replace previous one."
                    .format(class_name))
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            function.forward = decorated(function.forward)
            return function
        else:
            return decorated(function)
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    # for usage: `@declarative`
    return decorated
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def not_to_static(func=None):
    """
    A Decorator to suppresses the convertion of a function.

    Args:
        func(callable): The function to decorate.

    Returns:
        callable: A function which won't be converted in Dynamic-to-Static.

    Examples:
        .. code-block:: python

            import paddle

            @paddle.jit.not_to_static
            def func_not_to_static(x):
                res = x - 1
                return res

            @paddle.jit.to_static
            def func(x):
                if paddle.mean(x) < 0:
                    out = func_not_to_static(x)
                else:
                    out = x + 1
                return out

            x = paddle.ones([1, 2], dtype='float32')
            out = func(x)
            print(out) # [[2. 2.]]
    """
    if func is None:
        return not_to_static

    options = ConversionOptions(not_convert=True)
    setattr(func, CONVERSION_OPTIONS, options)
    return func


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class _SaveLoadConfig(object):
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    def __init__(self):
        self._output_spec = None
        self._model_filename = None
        self._params_filename = None
        self._separate_params = False
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        # used for `paddle.load`
        self._keep_name_table = False
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        # NOTE: Users rarely use following configs, so these configs are not open to users,
        # reducing user learning costs, but we retain the configuration capabilities

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        # If True, programs are modified to only support direct inference deployment.
        # Otherwise,more information will be stored for flexible optimization and re-training.
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        # Currently, only True is supported
        self._export_for_deployment = True

        # If True, It will save inference program only, and do not save params of Program
        self._program_only = False
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        self.with_hook = False
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        # if True, multi `StaticFunction` will share params in one file.
        self.combine_params = False

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    @property
    def output_spec(self):
        return self._output_spec

    @output_spec.setter
    def output_spec(self, spec):
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        if spec is None:
            return
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        if not isinstance(spec, list):
            raise TypeError(
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                "The config `output_spec` should be 'list', but received input type is %s."
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                % type(input))
            for var in spec:
                if not isinstance(var, core.VarBase):
                    raise TypeError(
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                        "The element in config `output_spec` list should be 'Variable', but received element's type is %s."
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                        % type(var))
        self._output_spec = spec

    @property
    def model_filename(self):
        return self._model_filename

    @model_filename.setter
    def model_filename(self, filename):
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        if filename is None:
            return
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        if not isinstance(filename, six.string_types):
            raise TypeError(
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                "The config `model_filename` should be str, but received input's type is %s."
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                % type(filename))
        if len(filename) == 0:
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            raise ValueError("The config `model_filename` is empty string.")
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        self._model_filename = filename

    @property
    def params_filename(self):
        return self._params_filename

    @params_filename.setter
    def params_filename(self, filename):
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        if filename is None:
            return
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        if not isinstance(filename, six.string_types):
            raise TypeError(
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                "The config `params_filename` should be str, but received input's type is %s."
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                % type(filename))
        if len(filename) == 0:
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            raise ValueError("The config `params_filename` is empty string.")
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        self._params_filename = filename

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    @property
    def keep_name_table(self):
        return self._keep_name_table

    @keep_name_table.setter
    def keep_name_table(self, value):
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        if value is None:
            return
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        if not isinstance(value, bool):
            raise TypeError(
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                "The config `keep_name_table` should be bool value, but received input's type is %s."
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                % type(value))
        self._keep_name_table = value

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def _parse_save_configs(configs):
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    supported_configs = [
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        'output_spec', "with_hook", "combine_params", "clip_extra",
        "skip_forward"
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    ]
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    # input check
    for key in configs:
        if key not in supported_configs:
            raise ValueError(
                "The additional config (%s) of `paddle.jit.save` is not supported."
                % (key))

    # construct inner config
    inner_config = _SaveLoadConfig()
    inner_config.output_spec = configs.get('output_spec', None)
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    inner_config.with_hook = configs.get('with_hook', False)
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    inner_config.combine_params = configs.get("combine_params", False)
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    inner_config.clip_extra = configs.get("clip_extra", True)
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    inner_config.skip_forward = configs.get("skip_forward", False)
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    return inner_config


def _parse_load_config(configs):
    supported_configs = ['model_filename', 'params_filename']

    # input check
    for key in configs:
        if key not in supported_configs:
            raise ValueError(
                "The additional config (%s) of `paddle.jit.load` is not supported."
                % (key))

    # construct inner config
    inner_config = _SaveLoadConfig()
    inner_config.model_filename = configs.get('model_filename', None)
    inner_config.params_filename = configs.get('params_filename', None)

    return inner_config


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def _get_input_var_names(inputs, input_spec):
    name_none_error = "The %s's name is None. " \
        "When using jit.save, please set InputSepc's name in " \
        "to_static(input_spec=[]) and jit.save(input_spec=[]) " \
        "and make sure they are consistent."
    name_no_exists_error = "The tensor `%s` does not exists. " \
        "Please make sure the name of InputSpec or example Tensor " \
        "in input_spec is the same as the name of InputSpec in " \
        "`to_static` decorated on the Layer.forward method."
    result_list = []
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    input_var_names = [
        var.name for var in flatten(inputs) if isinstance(var, Variable)
    ]
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    if input_spec is None:
        # no prune
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        return input_var_names
    else:
        # fileter out non-tensor type spec infos.
        input_spec = [
            spec for spec in input_spec
            if isinstance(spec, paddle.static.InputSpec)
        ]

    if len(input_spec) == len(input_var_names):
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        # no prune
        result_list = input_var_names
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        # if input spec name not in input_var_names, only raise warning
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        for spec in input_spec:
            if spec.name is None:
                warnings.warn(name_none_error % spec)
            elif spec.name not in input_var_names:
                warnings.warn(name_no_exists_error % spec.name)
            else:
                # do nothing
                pass
    else:
        # prune
        for spec in input_spec:
            if spec.name is None:
                # name is None, the input_spec only can be InputSpec
                raise ValueError(name_none_error % spec)
            elif spec.name not in input_var_names:
                # the input_spec can be `InputSpec` or `VarBase`
                raise ValueError(name_no_exists_error % spec.name)
            else:
                result_list.append(spec.name)

    return result_list


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def _get_output_vars(outputs, output_spec, with_hook=False):
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    name_no_exists_error = "The tensor `%s` does not exists. " \
        "Please make sure the name of example Tensor " \
        "in configs.output_spec is the output tensor of " \
        "Layer.forward method."
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    if output_spec and with_hook:
        raise RuntimeError(
            "Currently not support specify output_spec while founding pre/post hooks in your outermost layer."
        )
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    result_list = []
    output_vars_dict = OrderedDict()
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    for var in flatten(outputs):
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        if isinstance(var, Variable):
            output_vars_dict[var.name] = var
    if output_spec is None:
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        result_list = list(output_vars_dict.values())
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    elif output_spec is not None and len(output_spec) == len(output_vars_dict):
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        result_list = list(output_vars_dict.values())
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        for var in output_spec:
            if var.name not in output_vars_dict:
                warnings.warn(name_no_exists_error % var.name)
    else:
        for var in output_spec:
            if var.name not in output_vars_dict:
                raise ValueError(name_no_exists_error % var.name)
            else:
                result_list.append(output_vars_dict[var.name])
    return result_list


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# NOTE(chenweihang): [ Handling of use cases of API paddle.jit.load ]
# `paddle.jit.load` may be used to load saved results of:
# 1. Expected cases:
#   - paddle.jit.save
#   - paddle.static.save_inference_model
#   - paddle.fluid.io.save_inference_model
# 2. Error cases:
#   - paddle.save: no .pdmodel for prefix
#   - paddle.static.save: no .pdiparams but .pdparams exists
#   - paddle.fluid.io.save_params/save_persistables: no __model__
# TODO(chenweihang): polish error message in above error cases
def _build_load_path_and_config(path, config):
    # NOTE(chenweihang): If both [prefix save format] and [directory save format] exist,
    # raise error, avoid confusing behavior
    prefix_format_path = path + INFER_MODEL_SUFFIX
    prefix_format_exist = os.path.exists(prefix_format_path)
    directory_format_exist = os.path.isdir(path)
    if prefix_format_exist and directory_format_exist:
        raise ValueError(
            "The %s.pdmodel and %s directory exist at the same time, "
            "don't know which one to load, please make sure that the specified target "
            "of ``path`` is unique." % (path, path))
    elif not prefix_format_exist and not directory_format_exist:
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        raise ValueError("The ``path`` (%s) to load model not exists. "
                         "Please make sure that *.pdmodel exists or "
                         "don't using ``skip_forward=True`` to jit.save." %
                         path)
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    else:
        if prefix_format_exist:
            file_prefix = os.path.basename(path)
            model_path = os.path.dirname(path)
            if config.model_filename is not None:
                warnings.warn(
                    "When loading the result saved with the "
                    "specified file prefix, the ``model_filename`` config does "
                    "not take effect.")
            config.model_filename = file_prefix + INFER_MODEL_SUFFIX
            if config.params_filename is not None:
                warnings.warn(
                    "When loading the result saved with the "
                    "specified file prefix, the ``params_filename`` config does "
                    "not take effect.")
            config.params_filename = file_prefix + INFER_PARAMS_SUFFIX
        else:
            # Compatible with the old save_inference_model format
            model_path = path
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    return model_path, config
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_save_pre_hooks_lock = threading.Lock()
_save_pre_hooks = []


class HookRemoveHelper(object):
    """ A HookRemoveHelper that can be used to remove hook. """

    def __init__(self, hook):
        self._hook = hook

    def remove(self):
        _remove_save_pre_hook(self._hook)


def _register_save_pre_hook(hook):
    """
    Register a save pre-hook for `paddle.jit.save`.
    This hook will be executed before `save` function has been invoked.

    hook(layer, input_spec, configs) -> None
    - layer (Layer|function): This argument is corresponding to `layer` in `paddle.jit.save`.
    - input_spec (list or tuple[InputSpec|Tensor|Python built-in variable]): This argument is corresponding to `input_spec` in `paddle.jit.save`.
    - configs (dict): This argument is corresponding to `configs` in `paddle.jit.save`.

    Args:
        hook(function): a function registered as a save pre-hook

    Returns:
        HookRemoveHelper: a HookRemoveHelper object that can be used to remove the added hook by calling `hook_remove_helper.remove()`.

    Examples:
        .. code-block:: python

            import numpy as np
            import paddle

            IMAGE_SIZE = 256
            CLASS_NUM = 10

            class LinearNet(paddle.nn.Layer):
                def __init__(self):
                    super(LinearNet, self).__init__()
                    self._linear = paddle.nn.Linear(IMAGE_SIZE, CLASS_NUM)

                def forward(self, x):
                    return self._linear(x)

            saving_count = 0
            def save_pre_hook(layer, input_spec, configs):
                global saving_count
                saving_count += 1

            remove_handler = paddle.jit.register_save_pre_hook(save_pre_hook)

            layer = LinearNet()
            paddle.jit.save(layer, "/tmp", [paddle.static.InputSpec(shape=[-1, IMAGE_SIZE])])
            # saving_count == 1

            remove_handler.remove()
            paddle.jit.save(layer, "/tmp", [paddle.static.InputSpec(shape=[-1, IMAGE_SIZE])])
            # saving_count == 1
    """
    global _save_pre_hooks_lock
    global _save_pre_hooks
    _save_pre_hooks_lock.acquire()
    if hook not in _save_pre_hooks:
        _save_pre_hooks.append(hook)
    _save_pre_hooks_lock.release()
    return HookRemoveHelper(hook)


def _clear_save_pre_hooks():
    global _save_pre_hooks_lock
    global _save_pre_hooks
    _save_pre_hooks_lock.acquire()
    _save_pre_hooks.clear()
    _save_pre_hooks_lock.release()


def _remove_save_pre_hook(hook):
    global _save_pre_hooks_lock
    global _save_pre_hooks
    _save_pre_hooks_lock.acquire()
    if hook in _save_pre_hooks:
        _save_pre_hooks.remove(hook)
    _save_pre_hooks_lock.release()


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@wrap_decorator
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def _run_save_pre_hooks(func):
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    def wrapper(layer, path, input_spec=None, **configs):
        global _save_pre_hooks
        for hook in _save_pre_hooks:
            hook(layer, input_spec, configs)
        func(layer, path, input_spec, **configs)

    return wrapper


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def _save_property(filename: Text, property_vals: List[Tuple[Any, Text]]):
    """class property serialization.

    Args:
        filename (Text): *.meta
        property_vals (List[Tuple): class property.
    """

    def set_property(meta, key, val):
        if isinstance(val, float):
            meta.set_float(key, val)
        elif isinstance(val, int):
            meta.set_int(key, val)
        elif isinstance(val, str):
            meta.set_string(key, val)
        elif isinstance(val, (tuple, list)):
            if isinstance(val[0], float):
                meta.set_floats(key, val)
            elif isinstance(val[0], int):
                meta.set_ints(key, val)
            elif isinstance(val[0], str):
                meta.set_strings(key, val)
        else:
            raise ValueError(f"Note support val type: {type(val)}")
        return

    with open(filename, 'wb') as f:
        meta = paddle.framework.core.Property()
        for item in property_vals:
            val, key = item[0], item[1]
            set_property(meta, key, val)
        f.write(meta.serialize_to_string())


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@_run_save_pre_hooks
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@switch_to_static_graph
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def save(layer, path, input_spec=None, **configs):
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    """
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    Saves input Layer or function as ``paddle.jit.TranslatedLayer``
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    format model, which can be used for inference or fine-tuning after loading.

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    It will save the translated program and all related persistable
696
    variables of input Layer to given ``path`` .
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    ``path`` is the prefix of saved objects, and the saved translated program file
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    suffix is ``.pdmodel`` , the saved persistable variables file suffix is ``.pdiparams`` ,
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    and here also saved some additional variable description information to a file,
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    its suffix is ``.pdiparams.info``, these additional information is used in fine-tuning.
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    The saved model can be loaded by follow APIs:
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      - ``paddle.jit.load``
      - ``paddle.static.load_inference_model``
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      - Other C++ inference APIs

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    .. note::
        When using ``paddle.jit.save`` to save a function, parameters will not be saved. If you have to 
        save the parameter, please pass the Layer containing function and parameter to ``paddle.jit.save``.

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    Args:
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        layer (Layer|function): The Layer or function to be saved.
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        path (str): The path prefix to save model. The format is ``dirname/file_prefix`` or ``file_prefix``.
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        input_spec (list or tuple[InputSpec|Tensor|Python built-in variable], optional): Describes the input of the saved model's forward
            method, which can be described by InputSpec or example Tensor. Moreover, we support to specify non-tensor type argument,
            such as int, float, string, or list/dict of them.If None, all input variables of
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            the original Layer's forward method would be the inputs of the saved model. Default None.
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        **configs (dict, optional): Other save configuration options for compatibility. We do not
            recommend using these configurations, they may be removed in the future. If not necessary,
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            DO NOT use them. Default None.
            The following options are currently supported:
            (1) output_spec (list[Tensor]): Selects the output targets of the saved model.
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            By default, all return variables of original Layer's forward method are kept as the
            output of the saved model. If the provided ``output_spec`` list is not all output variables,
            the saved model will be pruned according to the given ``output_spec`` list.
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    Returns:
        None

    Examples:
        .. code-block:: python

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            # example 1: save layer
735
            import numpy as np
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            import paddle
            import paddle.nn as nn
            import paddle.optimizer as opt
739

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            BATCH_SIZE = 16
            BATCH_NUM = 4
            EPOCH_NUM = 4
743

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            IMAGE_SIZE = 784
            CLASS_NUM = 10

            # define a random dataset
            class RandomDataset(paddle.io.Dataset):
                def __init__(self, num_samples):
                    self.num_samples = num_samples
751

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                def __getitem__(self, idx):
                    image = np.random.random([IMAGE_SIZE]).astype('float32')
                    label = np.random.randint(0, CLASS_NUM - 1, (1, )).astype('int64')
                    return image, label
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                def __len__(self):
                    return self.num_samples
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            class LinearNet(nn.Layer):
                def __init__(self):
762
                    super(LinearNet, self).__init__()
763
                    self._linear = nn.Linear(IMAGE_SIZE, CLASS_NUM)
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                @paddle.jit.to_static
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                def forward(self, x):
                    return self._linear(x)

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            def train(layer, loader, loss_fn, opt):
                for epoch_id in range(EPOCH_NUM):
                    for batch_id, (image, label) in enumerate(loader()):
                        out = layer(image)
                        loss = loss_fn(out, label)
                        loss.backward()
                        opt.step()
                        opt.clear_grad()
                        print("Epoch {} batch {}: loss = {}".format(
                            epoch_id, batch_id, np.mean(loss.numpy())))

            # 1. train & save model.
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            # create network
            layer = LinearNet()
            loss_fn = nn.CrossEntropyLoss()
            adam = opt.Adam(learning_rate=0.001, parameters=layer.parameters())
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            # create data loader
            dataset = RandomDataset(BATCH_NUM * BATCH_SIZE)
            loader = paddle.io.DataLoader(dataset,
                batch_size=BATCH_SIZE,
                shuffle=True,
                drop_last=True,
                num_workers=2)
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            # train
            train(layer, loader, loss_fn, adam)
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            # save
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            path = "example_model/linear"
            paddle.jit.save(layer, path)
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            # example 2: save function
            import paddle
            from paddle.static import InputSpec


            def save_function():
                @paddle.jit.to_static
                def fun(inputs):
                    return paddle.tanh(inputs)

                path = 'test_jit_save_load_function_1/func'
                inps = paddle.rand([3, 6])
                origin = fun(inps)

                paddle.jit.save(fun, path)
                load_func = paddle.jit.load(path)

                load_result = load_func(inps)
                print((load_result - origin).abs().max() < 1e-10)
                
            save_function()
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    """

825
    # 1. input build & check
826
    prog_translator = ProgramTranslator()
827
    if not prog_translator.enable_to_static:
828
        raise RuntimeError(
829
            "The paddle.jit.save doesn't work when setting ProgramTranslator.enable to False."
830
        )
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    if not (isinstance(layer, Layer) or inspect.isfunction(layer)
            or isinstance(layer, StaticFunction)):
834
        raise TypeError(
835
            "The input of paddle.jit.save should be 'Layer' or 'Function', but received input type is %s."
836
            % type(layer))
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    elif inspect.isfunction(layer) or isinstance(layer, StaticFunction):
        warnings.warn(
            'What you save is a function, and `jit.save` will generate the name of the model file according to `path` you specify. When loading these files with `jit.load`, you get a `TranslatedLayer` whose inference result is the same as the inference result of the function you saved.'
        )
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    # NOTE(chenweihang): If the input layer be wrapped by DataParallel,
    # the args and kwargs of forward method will can't be parsed by
844
    # function_spec, so here we save DataParallel._layers instead
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    # DataParallel it self
    # NOTE(chenweihang): using inner_layer, do not change input layer
    if isinstance(layer, paddle.DataParallel):
        inner_layer = layer._layers
    else:
        inner_layer = layer

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    # path check
    file_prefix = os.path.basename(path)
    if file_prefix == "":
        raise ValueError(
            "The input path MUST be format of dirname/file_prefix "
            "[dirname\\file_prefix in Windows system], but received "
            "file_prefix is empty string.")

    dirname = os.path.dirname(path)
    if dirname and not os.path.exists(dirname):
        os.makedirs(dirname)
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    # avoid change user given input_spec
    inner_input_spec = None
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    if input_spec is not None:
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        if isinstance(layer, Layer):
            for attr_func in dir(inner_layer):
                static_func = getattr(inner_layer, attr_func, None)
                if isinstance(static_func,
                              StaticFunction) and 'forward' != attr_func:
                    raise ValueError(
                        "If there are static functions other than 'forward' that need to be saved, the input 'input_spec' should be None, but received the type of 'input_spec' is %s."
                        % type(input_spec))

876
        if not isinstance(input_spec, (list, tuple)):
877 878 879
            raise TypeError(
                "The input input_spec should be 'list', but received input_spec's type is %s."
                % type(input_spec))
880
        inner_input_spec = []
881
        for var in flatten(input_spec):
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            if isinstance(var, paddle.static.InputSpec):
                inner_input_spec.append(var)
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            elif isinstance(var, (core.VarBase, core.eager.Tensor, Variable)):
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                inner_input_spec.append(
                    paddle.static.InputSpec.from_tensor(var))
            else:
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                # NOTE(Aurelius84): Support non-Tensor type in `input_spec`.
                inner_input_spec.append(var)
890

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    # parse configs
    configs = _parse_save_configs(configs)
893
    # whether outermost layer has pre/post hook, if does, we need also save
894
    # these operators in program.
895
    with_hook = configs.with_hook
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    combine_params = configs.combine_params
    if combine_params:
        configs._program_only = True
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    scope = core.Scope()
    extra_var_info = dict()
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    if isinstance(layer, Layer):
        functions = dir(inner_layer)
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        if inner_layer._forward_pre_hooks or inner_layer._forward_post_hooks:
            with_hook = True
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    else:
        # layer is function
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        functions = [
            layer,
        ]
911

912
    combine_vars = {}
913
    property_vals = []  # (value, key)
914
    concrete_program = None
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    for attr_func in functions:
        if isinstance(layer, Layer):
            static_func = getattr(inner_layer, attr_func, None)
            if isinstance(static_func, StaticFunction):
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                if static_func.is_property:
                    # property method to be exported
                    immediate_val = static_func()
                    property_vals.append(
                        (immediate_val,
                         layer.__class__.__name__ + '.' + attr_func))
                    continue

927
                concrete_program = static_func.concrete_program_specify_input_spec(
928
                    inner_input_spec, with_hook=with_hook)
929
            elif 'forward' == attr_func:
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                if configs.skip_forward:
                    # do not jit.save forward function
                    continue

934
                # transform in jit.save, if input_spec is incomplete, declarative will throw error
935
                # inner_input_spec is list[InputSpec], it should be packed with same structure
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                # as original input_spec here.
                if inner_input_spec:
                    inner_input_spec = pack_sequence_as(input_spec,
                                                        inner_input_spec)
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                static_forward = declarative(inner_layer.forward,
                                             input_spec=inner_input_spec)
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                concrete_program = static_forward.concrete_program_specify_input_spec(
                    with_hook=with_hook)
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                # the input_spec has been used in declarative, which is equal to
                # @declarative with input_spec and jit.save without input_spec,
                # avoid needless warning
                inner_input_spec = None
            else:
                continue
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        else:
            # When layer is a function
            if isinstance(attr_func, StaticFunction):
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                if attr_func.is_property:
                    # property method to be exported
                    immediate_val = attr_func()
                    property_vals.append((immediate_val, attr_func))
                    continue

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                concrete_program = attr_func.concrete_program_specify_input_spec(
                    inner_input_spec)
            else:
                if inner_input_spec:
                    inner_input_spec = pack_sequence_as(input_spec,
                                                        inner_input_spec)
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                static_function = declarative(attr_func,
                                              input_spec=inner_input_spec)
967 968 969 970
                concrete_program = static_function.concrete_program

                if static_function._class_instance is None:
                    warnings.warn(
971 972
                        '`jit.save` will only save the `Program`, not the parameters. If you have to save the parameters, please make sure that {} is a member function of `paddle.nn.Layer` and the saved parameters are in `state_dict`'
                        .format(layer))
973

974
        # when save multi `StaticFunction`, all `StaticFunction` share params.
975 976
        dygraph_state_dict = None
        if isinstance(inner_layer, Layer):
977
            dygraph_state_dict = inner_layer.to_static_state_dict()
978 979
        elif isinstance(attr_func, StaticFunction):
            if attr_func._class_instance:
980 981
                dygraph_state_dict = attr_func._class_instance.to_static_state_dict(
                )
982 983

        if dygraph_state_dict:
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            # NOTE(chenweihang): we maintain the mapping of variable name to
            # structured name, the buffer variable (non-persistable)
            # saved to inference program may not need by dygraph Layer,
            # we only record the state_dict variable's structured name
            state_names_dict = dict()
989
            state_var_dict = dict()
990
            for structured_name, var in six.iteritems(dygraph_state_dict):
991
                state_names_dict[var.name] = structured_name
992
                state_var_dict[var.name] = var
993

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        # 3. share parameters from Layer to scope & record var info
        with dygraph.guard():
            for param_or_buffer in concrete_program.parameters:
                # share to scope
                if param_or_buffer.type == core.VarDesc.VarType.VOCAB:
                    scr_tensor = param_or_buffer.value().get_map_tensor()
                    tgt_var = scope.var(param_or_buffer.name)
                    tgt_var.set_vocab(scr_tensor)
                else:
                    param_or_buffer_tensor = scope.var(
                        param_or_buffer.name).get_tensor()
                    #src_tensor = param_or_buffer.value().get_tensor()
                    src_tensor = state_var_dict[
                        param_or_buffer.name].value().get_tensor()
                    param_or_buffer_tensor._share_data_with(src_tensor)
                # record var info
                if param_or_buffer.name not in extra_var_info:
                    extra_info_dict = dict()
                    if param_or_buffer.name in state_names_dict:
                        extra_info_dict['structured_name'] = state_names_dict[
                            param_or_buffer.name]
                    extra_info_dict[
                        'stop_gradient'] = param_or_buffer.stop_gradient
                    if isinstance(param_or_buffer, (ParamBase, EagerParamBase)):
                        extra_info_dict['trainable'] = param_or_buffer.trainable
                    extra_var_info[param_or_buffer.name] = extra_info_dict
1020 1021

        # 4. build input & output of save_infernece_model
1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033
        # NOTE(chenweihang): [ Get input variables name ]
        # There are two cases, whether to prune the inputs or not
        # - not prune inputs (recommend):
        #   - the len(input_spec) == len((concrete_program.inputs) - 1
        #   - here can use concrete_program.inputs directly
        # - prune inputs:
        #   - the input_spec length < len((concrete_program.inputs) - 1
        #   - the input_spec's name should be in concrete_program.inputs
        input_var_names = _get_input_var_names(concrete_program.inputs,
                                               inner_input_spec)

        # NOTE(chenweihang): [ Get output variables ]
1034 1035
        # the rule is like [ Get input variables name ]. For output var,
        # we only support VarBase spec, and actually, we only need the
1036
        # var name of output, and we don't recommended to use output_spec
1037 1038
        # print(concrete_program.main_program)
        # print(concrete_program.outputs, configs.output_spec)
1039
        output_vars = _get_output_vars(concrete_program.outputs,
1040
                                       configs.output_spec, with_hook)
1041 1042 1043 1044 1045 1046 1047

        # 5. save inference model
        from paddle.fluid.io import save_inference_model

        # construct new save_inference_model arguments
        model_path = dirname
        # NOTE(chenweihang): because prefix contains model and params filename,
1048
        # so we don't support set model_filename & params_filename
1049
        if 'forward' == attr_func or not isinstance(layer, Layer):
1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065
            model_filename = file_prefix + INFER_MODEL_SUFFIX
            params_filename = file_prefix + INFER_PARAMS_SUFFIX
        else:
            model_filename = file_prefix + '.' + attr_func + INFER_MODEL_SUFFIX
            params_filename = file_prefix + '.' + attr_func + INFER_PARAMS_SUFFIX

        with scope_guard(scope):
            save_inference_model(
                dirname=model_path,
                feeded_var_names=input_var_names,
                target_vars=output_vars,
                executor=Executor(_current_expected_place()),
                main_program=concrete_program.main_program.clone(),
                model_filename=model_filename,
                params_filename=params_filename,
                export_for_deployment=configs._export_for_deployment,
1066
                program_only=configs._program_only,
1067
                clip_extra=configs.clip_extra)
1068

1069 1070 1071 1072 1073 1074
        if combine_params:
            clone_main_program = concrete_program.main_program.clone()
            clone_main_program = clone_main_program._prune_with_input(
                input_var_names, output_vars)
            for block in clone_main_program.blocks:
                combine_vars.update(block.vars)
1075 1076 1077

    # save shared params
    if combine_params:
1078 1079 1080 1081 1082 1083
        # sort vars by name
        combine_vars = sorted(combine_vars.items(), key=lambda item: item[0])
        ordered_vars = []
        for name, var in combine_vars:
            ordered_vars.append(var)

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        params_filename = file_prefix + INFER_PARAMS_SUFFIX
        with scope_guard(scope):
            paddle.static.save_vars(Executor(_current_expected_place()),
                                    dirname=model_path,
                                    vars=list(
                                        filter(paddle.fluid.io.is_persistable,
1090
                                               ordered_vars)),
1091
                                    filename=params_filename)
1092
        # save property
1093 1094 1095
        property_save_path = os.path.join(os.path.normpath(model_path),
                                          file_prefix + INFER_PROPERTY_SUFFIX)
        _save_property(property_save_path, property_vals)
1096

1097 1098 1099 1100 1101 1102 1103
    # NOTE(chenweihang): [ Save extra variable info ]
    # save_inference_model will lose some important variable information, including:
    #   - Variable name and correspondence (when saved variables as one file)
    #   - Variable.stop_gradient information
    #   - Which persistent variable are parameter and which are not
    #   - Parameter.trainable information
    #
1104 1105
    # The lost information cannot be recovered when it is loaded again,
    # so if we want to perform fine-tune after loading, we may need to
1106 1107
    # configure redundant information to proceed.
    #
1108 1109
    # Due to compatibility issues, we cannot change the original storage structure,
    # but we can save these information in `jit.save` without changing the original
1110 1111
    # storage to improve user experience. So we save extra information into
    # file `***.pdiparams.info`
1112 1113 1114

    # "layer" can only be Layer or function or StaticFunction.
    contain_parameter = False
1115 1116 1117
    if concrete_program is not None:
        for var in concrete_program.main_program.list_vars():
            contain_parameter |= isinstance(var, Parameter)
1118 1119

    if (isinstance(layer, Layer) or contain_parameter) and extra_var_info:
1120 1121 1122 1123
        with scope_guard(scope):
            extra_var_info_path = path + INFER_PARAMS_INFO_SUFFIX
            with open(extra_var_info_path, 'wb') as f:
                pickle.dump(extra_var_info, f, protocol=2)
1124 1125 1126


@dygraph_only
1127
def load(path, **configs):
1128 1129 1130
    """
    :api_attr: imperative

1131 1132
    Load model saved by ``paddle.jit.save`` or ``paddle.static.save_inference_model`` or
    paddle 1.x API ``paddle.fluid.io.save_inference_model`` as ``paddle.jit.TranslatedLayer``,
1133
    then performing inference or fine-tune training.
1134 1135

    .. note::
1136
        If you load model saved by ``paddle.static.save_inference_model`` ,
1137 1138
        there will be the following limitations when using it in fine-tuning:
        1. Imperative mode do not support LoDTensor. All original model's feed targets or parametars that depend on LoD are temporarily unavailable.
1139
        2. All saved model's feed targets need to be passed into TranslatedLayer's forward function.
1140 1141 1142 1143
        3. The variable's ``stop_gradient`` information is lost and can not be recovered.
        4. The parameter's ``trainable`` information is lost and can not be recovered.

    Args:
1144
        path (str): The path prefix to load model. The format is ``dirname/file_prefix`` or ``file_prefix`` .
1145 1146
        **configs (dict, optional): Other load configuration options for compatibility. We do not
            recommend using these configurations, they may be removed in the future. If not necessary,
1147 1148
            DO NOT use them. Default None.
            The following options are currently supported:
1149 1150 1151 1152
            (1) model_filename (str): The inference model file name of the paddle 1.x
            ``save_inference_model`` save format. Default file name is :code:`__model__` .
            (2) params_filename (str): The persistable variables file name of the paddle 1.x
            ``save_inference_model`` save format. No default file name, save variables separately
1153 1154
            by default.

1155 1156 1157 1158 1159

    Returns:
        TranslatedLayer: A Layer object can run saved translated model.

    Examples:
1160
        1. Load model saved by ``paddle.jit.save`` then performing inference and fine-tune training.
1161 1162 1163 1164

        .. code-block:: python

            import numpy as np
1165 1166 1167
            import paddle
            import paddle.nn as nn
            import paddle.optimizer as opt
1168

1169 1170 1171
            BATCH_SIZE = 16
            BATCH_NUM = 4
            EPOCH_NUM = 4
1172

1173 1174
            IMAGE_SIZE = 784
            CLASS_NUM = 10
1175

1176 1177 1178 1179
            # define a random dataset
            class RandomDataset(paddle.io.Dataset):
                def __init__(self, num_samples):
                    self.num_samples = num_samples
1180

1181 1182 1183 1184
                def __getitem__(self, idx):
                    image = np.random.random([IMAGE_SIZE]).astype('float32')
                    label = np.random.randint(0, CLASS_NUM - 1, (1, )).astype('int64')
                    return image, label
1185

1186 1187 1188 1189 1190
                def __len__(self):
                    return self.num_samples

            class LinearNet(nn.Layer):
                def __init__(self):
1191
                    super(LinearNet, self).__init__()
1192
                    self._linear = nn.Linear(IMAGE_SIZE, CLASS_NUM)
1193

1194
                @paddle.jit.to_static
1195 1196 1197
                def forward(self, x):
                    return self._linear(x)

1198 1199 1200 1201 1202 1203 1204 1205 1206 1207 1208
            def train(layer, loader, loss_fn, opt):
                for epoch_id in range(EPOCH_NUM):
                    for batch_id, (image, label) in enumerate(loader()):
                        out = layer(image)
                        loss = loss_fn(out, label)
                        loss.backward()
                        opt.step()
                        opt.clear_grad()
                        print("Epoch {} batch {}: loss = {}".format(
                            epoch_id, batch_id, np.mean(loss.numpy())))

1209
            # 1. train & save model.
1210

1211
            # create network
1212 1213 1214 1215
            layer = LinearNet()
            loss_fn = nn.CrossEntropyLoss()
            adam = opt.Adam(learning_rate=0.001, parameters=layer.parameters())

1216
            # create data loader
1217 1218 1219 1220 1221 1222
            dataset = RandomDataset(BATCH_NUM * BATCH_SIZE)
            loader = paddle.io.DataLoader(dataset,
                batch_size=BATCH_SIZE,
                shuffle=True,
                drop_last=True,
                num_workers=2)
1223

1224 1225
            # train
            train(layer, loader, loss_fn, adam)
1226

1227
            # save
1228 1229
            path = "example_model/linear"
            paddle.jit.save(layer, path)
1230

1231
            # 2. load model
1232

1233
            # load
1234
            loaded_layer = paddle.jit.load(path)
1235 1236

            # inference
1237 1238 1239
            loaded_layer.eval()
            x = paddle.randn([1, IMAGE_SIZE], 'float32')
            pred = loaded_layer(x)
1240 1241

            # fine-tune
1242 1243 1244
            loaded_layer.train()
            adam = opt.Adam(learning_rate=0.001, parameters=loaded_layer.parameters())
            train(loaded_layer, loader, loss_fn, adam)
1245 1246


1247
        2. Load model saved by ``paddle.fluid.io.save_inference_model`` then performing and fine-tune training.
1248 1249 1250 1251

        .. code-block:: python

            import numpy as np
1252
            import paddle
1253
            import paddle.static as static
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            import paddle.nn as nn
            import paddle.optimizer as opt
1256
            import paddle.nn.functional as F
1257

1258 1259 1260
            BATCH_SIZE = 16
            BATCH_NUM = 4
            EPOCH_NUM = 4
1261

1262 1263 1264 1265 1266 1267 1268
            IMAGE_SIZE = 784
            CLASS_NUM = 10

            # define a random dataset
            class RandomDataset(paddle.io.Dataset):
                def __init__(self, num_samples):
                    self.num_samples = num_samples
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1270 1271 1272 1273
                def __getitem__(self, idx):
                    image = np.random.random([IMAGE_SIZE]).astype('float32')
                    label = np.random.randint(0, CLASS_NUM - 1, (1, )).astype('int64')
                    return image, label
1274

1275 1276
                def __len__(self):
                    return self.num_samples
1277

1278 1279
            paddle.enable_static()

1280 1281
            image = static.data(name='image', shape=[None, 784], dtype='float32')
            label = static.data(name='label', shape=[None, 1], dtype='int64')
1282
            pred = static.nn.fc(x=image, size=10, activation='softmax')
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            loss = F.cross_entropy(input=pred, label=label)
            avg_loss = paddle.mean(loss)
1285

1286
            optimizer = paddle.optimizer.SGD(learning_rate=0.001)
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            optimizer.minimize(avg_loss)

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            place = paddle.CPUPlace()
            exe = static.Executor(place)
            exe.run(static.default_startup_program())
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1293 1294 1295 1296 1297
            # create data loader
            dataset = RandomDataset(BATCH_NUM * BATCH_SIZE)
            loader = paddle.io.DataLoader(dataset,
                feed_list=[image, label],
                places=place,
1298
                batch_size=BATCH_SIZE,
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                shuffle=True,
                drop_last=True,
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                return_list=False,
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                num_workers=2)
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            # 1. train and save inference model
            for data in loader():
                exe.run(
1307
                    static.default_main_program(),
1308
                    feed=data,
1309 1310 1311
                    fetch_list=[avg_loss])

            model_path = "fc.example.model"
1312
            paddle.fluid.io.save_inference_model(
1313 1314 1315
                model_path, ["image"], [pred], exe)

            # 2. load model
1316 1317

            # enable dygraph mode
1318 1319 1320 1321
            paddle.disable_static(place)

            # load
            fc = paddle.jit.load(model_path)
1322

1323 1324 1325
            # inference
            fc.eval()
            x = paddle.randn([1, IMAGE_SIZE], 'float32')
1326 1327
            pred = fc(x)

1328
            # fine-tune
1329
            fc.train()
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            loss_fn = nn.CrossEntropyLoss()
            adam = opt.Adam(learning_rate=0.001, parameters=fc.parameters())
            loader = paddle.io.DataLoader(dataset,
                places=place,
                batch_size=BATCH_SIZE,
                shuffle=True,
                drop_last=True,
                num_workers=2)
            for epoch_id in range(EPOCH_NUM):
                for batch_id, (image, label) in enumerate(loader()):
                    out = fc(image)
                    loss = loss_fn(out, label)
                    loss.backward()
                    adam.step()
                    adam.clear_grad()
                    print("Epoch {} batch {}: loss = {}".format(
                        epoch_id, batch_id, np.mean(loss.numpy())))
1347
    """
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    # 1. construct correct config
    config = _parse_load_config(configs)
    model_path, config = _build_load_path_and_config(path, config)

1352
    return TranslatedLayer._construct(model_path, config)
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1355
@dygraph_only
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def _trace(layer,
           inputs,
           feed_prefix='feed_',
           fetch_prefix='fetch_',
           tmp_prefix='t_'):
1361
    assert isinstance(layer, Layer)
1362 1363 1364 1365 1366 1367 1368 1369 1370

    if not isinstance(inputs, (list, tuple)):
        inputs = [inputs]

    tracer = _dygraph_tracer()._get_program_desc_tracer()

    var_list = extract_vars(inputs)

    with program_desc_tracing_guard(True):
1371
        original_outputs = layer(*inputs)
1372 1373 1374 1375
        if not isinstance(original_outputs, (list, tuple)):
            outputs = [original_outputs]
        else:
            outputs = original_outputs
1376
        out_vars = extract_vars(outputs, err_tag='outputs')
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1378
        program_desc, feed_names, fetch_names, parameters = tracer.create_program_desc(
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            var_list, feed_prefix, out_vars, fetch_prefix, tmp_prefix)
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        tracer.reset()

    with _dygraph_guard(None):
        program = create_program_from_desc(program_desc)

1385
    return original_outputs, program, feed_names, fetch_names, parameters
1386 1387 1388 1389


class TracedLayer(object):
    """
1390
    :api_attr: imperative
1391

1392 1393 1394 1395 1396
    TracedLayer is used to convert a forward dygraph model to a static
    graph model. This is mainly used to save the dygraph model for online
    inference using C++. Besides, users can also do inference in Python
    using the converted static graph model, which usually has better
    performance than the original dygraph model.
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    TracedLayer would run the static graph model using :code:`Executor`
    and :code:`CompiledProgram` . The static graph model would share
    parameters with the dygraph model.
1401 1402

    All TracedLayer objects should not be created by constructor and should
1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413
    be created by static method :code:`TracedLayer.trace(layer, inputs)` .

    The TracedLayer can only be used to convert the data-independent dygraph
    model into the static graph model, which means the dygraph model should
    be independent with the tensor data and shape.
    """

    def __init__(self, program, parameters, feed_names, fetch_names):
        self._program = program
        self._feed_names = feed_names
        self._fetch_names = fetch_names
1414
        self._params = parameters
1415 1416 1417 1418 1419

        self._place = _current_expected_place()

        self._scope = core.Scope()
        for p in parameters:
1420
            src_tensor = p.value().get_tensor()
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            dst_tensor = self._scope.var(p.name).get_tensor()
            dst_tensor._share_data_with(src_tensor)

        self._exe = Executor(self._place)
        self._compiled_program = None
        self._build_strategy = None
        self._exec_strategy = None

    @property
    def program(self):
        return self._program

    def _switch(self, is_test=True):
        for block_id in range(self._program.num_blocks):
            block = self._program.block(block_id)
            for op in block.ops:
                if op.has_attr("is_test"):
                    op._set_attr("is_test", is_test)

    @staticmethod
    @dygraph_only
    def trace(layer, inputs):
        """
1444
        This method is the only allowed method to create TracedLayer object.
1445 1446 1447 1448
        It would call the :code:`layer(*inputs)` method to run the dygraph
        model and convert it into a static graph model.

        Args:
1449
            layer (paddle.nn.Layer): the layer object to be traced.
1450 1451
            inputs (list(Tensor)|tuple(Tensor)|Tensor): the input tensors of
                the layer object.
1452 1453

        Returns:
1454
            tuple: A tuple of 2 items, whose the first item is the output of
1455 1456
                :code:`layer(*inputs)` , and the second item is the created
                TracedLayer object.
1457

1458
        Examples:
1459 1460
            .. code-block:: python:

1461
                import paddle
1462

1463
                class ExampleLayer(paddle.nn.Layer):
1464 1465
                    def __init__(self):
                        super(ExampleLayer, self).__init__()
1466
                        self._fc = paddle.nn.Linear(3, 10)
1467 1468 1469 1470

                    def forward(self, input):
                        return self._fc(input)

1471

1472 1473 1474 1475 1476 1477
                layer = ExampleLayer()
                in_var = paddle.uniform(shape=[2, 3], dtype='float32')
                out_dygraph, static_layer = paddle.jit.TracedLayer.trace(layer, inputs=[in_var])

                # run the static graph model using Executor inside
                out_static_graph = static_layer([in_var])
1478

1479 1480
                print(len(out_static_graph)) # 1
                print(out_static_graph[0].shape) # (2, 10)
1481

1482 1483
                # save the static graph model for inference
                static_layer.save_inference_model(dirname='./saved_infer_model')
1484

1485
        """
1486 1487 1488 1489
        assert isinstance(
            layer, Layer
        ), "The type of 'layer' in fluid.dygraph.jit.TracedLayer.trace must be fluid.dygraph.Layer, but received {}.".format(
            type(layer))
1490 1491
        outs, prog, feed, fetch, parameters = _trace(layer, inputs)
        traced = TracedLayer(prog, parameters, feed, fetch)
1492 1493 1494 1495 1496 1497 1498
        return outs, traced

    def set_strategy(self, build_strategy=None, exec_strategy=None):
        """
        Set the strategies when running static graph model.

        Args:
1499
            build_strategy (BuildStrategy, optional): build strategy of
1500 1501 1502 1503 1504 1505 1506 1507 1508 1509
                :code:`CompiledProgram` inside TracedLayer. Default None.
            exec_strategy (ExecutionStrategy, optional): execution strategy of
                :code:`CompiledProgram` inside TracedLayer. Default None.

        Returns:
            None

        Examples:
            .. code-block:: python:

1510
                import paddle
1511

1512
                class ExampleLayer(paddle.nn.Layer):
1513 1514
                    def __init__(self):
                        super(ExampleLayer, self).__init__()
1515
                        self._fc = paddle.nn.Linear(3, 10)
1516 1517 1518 1519

                    def forward(self, input):
                        return self._fc(input)

1520 1521 1522 1523
                layer = ExampleLayer()
                in_var = paddle.uniform(shape=[2, 3], dtype='float32')

                out_dygraph, static_layer = paddle.jit.TracedLayer.trace(layer, inputs=[in_var])
1524

1525 1526
                build_strategy = paddle.static.BuildStrategy()
                build_strategy.enable_inplace = True
1527

1528 1529
                exec_strategy = paddle.static.ExecutionStrategy()
                exec_strategy.num_threads = 2
1530

1531 1532
                static_layer.set_strategy(build_strategy=build_strategy, exec_strategy=exec_strategy)
                out_static_graph = static_layer([in_var])
1533 1534 1535

        """
        assert self._compiled_program is None, "Cannot set strategy after run"
1536 1537 1538 1539 1540 1541 1542 1543
        assert isinstance(
            build_strategy, (type(None), BuildStrategy)
        ), "The type of 'build_strategy' in fluid.dygraph.jit.TracedLayer.set_strategy must be fluid.BuildStrategy, but received {}.".format(
            type(build_strategy))
        assert isinstance(
            exec_strategy, (type(None), ExecutionStrategy)
        ), "The type of 'exec_strategy' in fluid.dygraph.jit.TracedLayer.set_strategy must be fluid.ExecutionStrategy, but received {}.".format(
            type(exec_strategy))
1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559
        self._build_strategy = build_strategy
        self._exec_strategy = exec_strategy

    @switch_to_static_graph
    def _compile(self):
        self._compiled_program = CompiledProgram(
            self._program).with_data_parallel(
                build_strategy=self._build_strategy,
                exec_strategy=self._exec_strategy,
                places=self._place)

    def _build_feed(self, inputs):
        assert isinstance(inputs, (list, tuple)), \
            "Inputs should be a list or tuple of variables"
        assert len(inputs) == len(self._feed_names)
        feed_dict = {}
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        if _non_static_mode():
1561
            for x, name in zip(inputs, self._feed_names):
1562
                feed_dict[name] = x.value().get_tensor()
1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 1575 1576 1577 1578 1579 1580 1581 1582
        else:
            for x, name in zip(inputs, self._feed_names):
                feed_dict[name] = x

        return feed_dict

    @switch_to_static_graph
    def _run(self, feed):
        return self._exe.run(self._compiled_program,
                             feed=feed,
                             fetch_list=self._fetch_names)

    def __call__(self, inputs):
        with scope_guard(self._scope):
            if self._compiled_program is None:
                self._compile()

            return self._run(self._build_feed(inputs))

    @switch_to_static_graph
1583
    def save_inference_model(self, path, feed=None, fetch=None, **kwargs):
1584
        """
1585 1586
        Save the TracedLayer to a model for inference. The saved
        inference model can be loaded by C++ inference APIs.
1587

1588 1589 1590
        ``path`` is the prefix of saved objects, and the saved translated program file
        suffix is ``.pdmodel`` , the saved persistable variables file suffix is ``.pdiparams`` .

1591
        Args:
1592
            path(str): The path prefix to save model. The format is ``dirname/file_prefix`` or ``file_prefix``.
1593
            feed (list[int], optional): the input variable indices of the saved
1594
                inference model. If None, all input variables of the
1595 1596 1597 1598 1599 1600
                TracedLayer object would be the inputs of the saved inference
                model. Default None.
            fetch (list[int], optional): the output variable indices of the
                saved inference model. If None, all output variables of the
                TracedLayer object would be the outputs of the saved inference
                model. Default None.
1601
            kwargs: Supported keys including 'clip_extra'.set to True if you want to clip extra information for every operator.
1602 1603

        Returns:
1604
            None
1605 1606 1607 1608 1609

        Examples:
            .. code-block:: python:

                import numpy as np
1610
                import paddle
1611

1612
                class ExampleLayer(paddle.nn.Layer):
1613 1614
                    def __init__(self):
                        super(ExampleLayer, self).__init__()
1615
                        self._fc = paddle.nn.Linear(3, 10)
1616 1617 1618 1619

                    def forward(self, input):
                        return self._fc(input)

1620 1621
                save_dirname = './saved_infer_model'
                in_np = np.random.random([2, 3]).astype('float32')
1622 1623
                in_var = paddle.to_tensor(in_np)
                layer = ExampleLayer()
1624

1625 1626
                out_dygraph, static_layer = paddle.jit.TracedLayer.trace(layer, inputs=[in_var])
                static_layer.save_inference_model(save_dirname, feed=[0], fetch=[0])
1627

1628 1629 1630 1631
                paddle.enable_static()
                place = paddle.CPUPlace()
                exe = paddle.static.Executor(place)
                program, feed_vars, fetch_vars = paddle.static.load_inference_model(save_dirname,
1632
                                                    exe)
1633 1634 1635

                fetch, = exe.run(program, feed={feed_vars[0]: in_np}, fetch_list=fetch_vars)
                print(fetch.shape) # (2, 10)
1636
        """
1637
        check_type(path, "path", str,
1638 1639 1640 1641 1642
                   "fluid.dygraph.jit.TracedLayer.save_inference_model")
        check_type(feed, "feed", (type(None), list),
                   "fluid.dygraph.jit.TracedLayer.save_inference_model")
        if isinstance(feed, list):
            for f in feed:
1643 1644 1645
                check_type(
                    f, "each element of feed", int,
                    "fluid.dygraph.jit.TracedLayer.save_inference_model")
1646 1647 1648 1649
        check_type(fetch, "fetch", (type(None), list),
                   "fluid.dygraph.jit.TracedLayer.save_inference_model")
        if isinstance(fetch, list):
            for f in fetch:
1650 1651 1652
                check_type(
                    f, "each element of fetch", int,
                    "fluid.dygraph.jit.TracedLayer.save_inference_model")
1653
        clip_extra = kwargs.get('clip_extra', True)
1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665
        # path check
        file_prefix = os.path.basename(path)
        if file_prefix == "":
            raise ValueError(
                "The input path MUST be format of dirname/file_prefix "
                "[dirname\\file_prefix in Windows system], but received "
                "file_prefix is empty string.")

        dirname = os.path.dirname(path)
        if dirname and not os.path.exists(dirname):
            os.makedirs(dirname)

1666
        from paddle.fluid.io import save_inference_model
1667 1668 1669 1670 1671

        def get_feed_fetch(all_vars, partial_vars):
            if partial_vars is None:
                return all_vars

1672
            return [all_vars[idx] for idx in partial_vars]
1673 1674 1675 1676 1677 1678 1679 1680 1681 1682

        with scope_guard(self._scope):
            feeded_var_names = get_feed_fetch(self._feed_names, feed)
            target_var_names = get_feed_fetch(self._fetch_names, fetch)
            target_vars = []
            for name in target_var_names:
                target_var = self._program.global_block().vars.get(name, None)
                assert target_var is not None, "{} cannot be found".format(name)
                target_vars.append(target_var)

1683 1684 1685
            model_filename = file_prefix + INFER_MODEL_SUFFIX
            params_filename = file_prefix + INFER_PARAMS_SUFFIX

1686 1687 1688 1689 1690 1691 1692 1693
            save_inference_model(dirname=dirname,
                                 feeded_var_names=feeded_var_names,
                                 target_vars=target_vars,
                                 executor=self._exe,
                                 main_program=self._program.clone(),
                                 model_filename=model_filename,
                                 params_filename=params_filename,
                                 clip_extra=clip_extra)