model.py 91.9 KB
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# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
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#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import inspect
import os
import pickle
import numpy as np
import warnings
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import time
import socket
import contextlib
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import paddle
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from paddle import fluid
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from paddle.fluid import core
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from paddle.fluid.framework import _non_static_mode
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from paddle.fluid.framework import Variable
from paddle.fluid.framework import _get_paddle_place
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from paddle.fluid.framework import _current_expected_place as _get_device
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from paddle.fluid.executor import global_scope
from paddle.fluid.io import is_belong_to_optimizer
from paddle.fluid.dygraph.base import to_variable
from paddle.fluid.dygraph.parallel import ParallelEnv
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from paddle.fluid.dygraph.io import INFER_MODEL_SUFFIX
from paddle.fluid.dygraph.io import INFER_PARAMS_SUFFIX
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from paddle.fluid.layers.utils import flatten
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from paddle.fluid.layers import collective
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from paddle.io import DataLoader
from paddle.io import Dataset
from paddle.io import DistributedBatchSampler
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from paddle.metric import Metric
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from paddle.static import InputSpec as Input
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import paddle.distributed as dist
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import paddle.distributed.fleet as fleet
from paddle.distributed.fleet.base import role_maker
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from paddle.autograd import no_grad
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from .callbacks import config_callbacks, EarlyStopping
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from .model_summary import summary
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__all__ = []
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_parallel_context_initialized = False


def to_list(value):
    if value is None:
        return value
    if isinstance(value, (list, tuple)):
        return list(value)
    return [value]


def to_numpy(var):
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    assert isinstance(
        var, (Variable, fluid.core.VarBase, fluid.core.eager.Tensor)
    ), "not a variable"
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    if isinstance(var, (fluid.core.VarBase, fluid.core.eager.Tensor)):
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        return var.numpy()
    t = global_scope().find_var(var.name).get_tensor()
    return np.array(t)


def flatten_list(l):
    assert isinstance(l, list), "not a list"
    outl = []
    splits = []
    for sl in l:
        assert isinstance(sl, list), "sub content not a list"
        splits.append(len(sl))
        outl += sl
    return outl, splits


def restore_flatten_list(l, splits):
    outl = []
    for split in splits:
        assert len(l) >= split, "list length invalid"
        sl, l = l[:split], l[split:]
        outl.append(sl)
    return outl


def extract_args(func):
    if hasattr(inspect, 'getfullargspec'):
        return inspect.getfullargspec(func)[0]
    else:
        return inspect.getargspec(func)[0]


def _all_gather(x, nranks, ring_id=0, use_calc_stream=True):
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    return collective._c_allgather(
        x, nranks, ring_id=ring_id, use_calc_stream=use_calc_stream
    )
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def wait_server_ready(endpoints):
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    assert not isinstance(endpoints, str)
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    while True:
        all_ok = True
        not_ready_endpoints = []
        for ep in endpoints:
            ip_port = ep.split(":")
            with contextlib.closing(
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                socket.socket(socket.AF_INET, socket.SOCK_STREAM)
            ) as sock:
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                sock.settimeout(2)
                result = sock.connect_ex((ip_port[0], int(ip_port[1])))
                if result != 0:
                    all_ok = False
                    not_ready_endpoints.append(ep)
        if not all_ok:
            time.sleep(3)
        else:
            break


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def init_communicator(
    program, rank, nranks, wait_port, current_endpoint, endpoints
):
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    if nranks < 2:
        return
    other_endpoints = endpoints[:]
    other_endpoints.remove(current_endpoint)
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    block = program.global_block()
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    if rank == 0 and wait_port:
        wait_server_ready(other_endpoints)
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    if core.is_compiled_with_cuda():
        nccl_id_var = block.create_var(
            name=fluid.unique_name.generate('nccl_id'),
            persistable=True,
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            type=fluid.core.VarDesc.VarType.RAW,
        )

        block.append_op(
            type='c_gen_nccl_id',
            inputs={},
            outputs={'Out': nccl_id_var},
            attrs={
                'rank': rank,
                'endpoint': current_endpoint,
                'other_endpoints': other_endpoints,
            },
        )

        block.append_op(
            type='c_comm_init',
            inputs={'X': nccl_id_var},
            outputs={},
            attrs={
                'nranks': nranks,
                'rank': rank,
                'ring_id': 0,
            },
        )
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    elif core.is_compiled_with_npu():
        hccl_id_var = block.create_var(
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            name=fluid.unique_name.generate('hccl_id'),
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            persistable=True,
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            type=core.VarDesc.VarType.RAW,
        )
        block.append_op(
            type='c_gen_hccl_id',
            inputs={},
            outputs={'Out': hccl_id_var},
            attrs={
                'rank': rank,
                'endpoint': current_endpoint,
                'other_endpoints': other_endpoints,
            },
        )
        block.append_op(
            type='c_comm_init_hccl',
            inputs={'X': hccl_id_var},
            outputs={},
            attrs={
                'rank': rank,
                'ring_id': 0,
                'device_id': int(os.getenv("FLAGS_selected_npus")),
                'rank_ids': nranks,
            },
        )
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def prepare_distributed_context(place=None):
    if place is None:
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        place = (
            fluid.CUDAPlace(ParallelEnv().dev_id)
            if ParallelEnv().nranks > 1
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            else fluid.CUDAPlace(0)
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        )
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    place = _get_paddle_place(place)
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    strategy = fluid.dygraph.parallel.ParallelStrategy()
    strategy.nranks = ParallelEnv().nranks
    strategy.local_rank = ParallelEnv().local_rank
    strategy.trainer_endpoints = ParallelEnv().trainer_endpoints
    strategy.current_endpoint = ParallelEnv().current_endpoint

    if strategy.nranks < 2:
        return

    global _parallel_context_initialized

    if not _parallel_context_initialized and isinstance(place, fluid.CUDAPlace):

        def _init_context():
            communicator_prog = fluid.Program()
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            init_communicator(
                communicator_prog,
                strategy.local_rank,
                strategy.nranks,
                True,
                strategy.current_endpoint,
                strategy.trainer_endpoints,
            )
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            exe = fluid.Executor(place)
            exe.run(communicator_prog)

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        if fluid._non_static_mode():
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            fluid.disable_dygraph()
            _init_context()
            fluid.enable_dygraph(place)

    else:
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        assert "Only support CUDAPlace for now."
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    _parallel_context_initialized = True
    return strategy
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def _update_input_info(inputs):
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    "Get input shape list by given inputs in Model initialization."
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    shapes = None
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    dtypes = None
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    if isinstance(inputs, Input):
        shapes = [list(inputs.shape)]
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        dtypes = [inputs.dtype]
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    elif isinstance(inputs, (list, tuple)):
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        shapes = [list(input.shape) for input in inputs]
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        dtypes = [input.dtype for input in inputs]
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    elif isinstance(inputs, dict):
        shapes = [list(inputs[name].shape) for name in inputs]
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        dtypes = [inputs[name].dtype for name in inputs]
    else:
        return None
    return shapes, dtypes
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class StaticGraphAdapter(object):
    """
    Model traning/inference with a static graph.
    """

    def __init__(self, model):
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        super().__init__()
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        self.model = model
        # with `_build_once` gone, parameters are now created in `__init__`
        # so we need to keep track of the parameters already created
        self._startup_prog = fluid.default_startup_program()
        self._orig_prog = fluid.default_main_program()

        self._label_vars = {}  # label variables
        self._input_vars = {}  # label variables
        self._endpoints = {}
        self._loss_endpoint = None
        self._executor = None
        self._progs = {}
        self._compiled_progs = {}

        self._merge_count = {
            'eval_total': 0,
            'test_total': 0,
            'eval_batch': 0,
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            'test_batch': 0,
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        }

        self._nranks = ParallelEnv().nranks
        self._local_rank = ParallelEnv().local_rank

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        self._amp_level = "O0"
        self._amp_configs = {}
        self._amp_custom_lists = {}
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        self._use_fp16_guard = None
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    @property
    def mode(self):
        return self.model.mode

    @mode.setter
    def mode(self, value):
        self.model.mode = value

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    def train_batch(self, inputs, labels=None, update=True):
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        assert (
            self.model._optimizer
        ), "model not ready, please call `model.prepare()` first"
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        self.mode = 'train'
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        assert (
            update is True
        ), "Does not support `update == False` in static mode by now."
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        return self._run(inputs, labels)

    def eval_batch(self, inputs, labels=None):
        self.mode = 'eval'
        return self._run(inputs, labels)

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    def predict_batch(self, inputs):
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        self.mode = 'test'
        return self._run(inputs, None)

    def parameters(self, *args, **kwargs):
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        return self.model.network.parameters(*args, **kwargs)
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    def save(self, path):
        def _save(state, path):
            if not state:
                return
            state = {
                k: to_numpy(v) if isinstance(v, Variable) else v
                for k, v in state.items()
            }
            with open(path, 'wb') as f:
                pickle.dump(state, f)

        base = os.path.basename(path)
        assert base != "", "path should be of 'dirname/filename' format"
        dir_name = os.path.dirname(path)
        if dir_name and not os.path.exists(dir_name):
            os.makedirs(dir_name)
        param_path = path + ".pdparams"
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        _save(self.model.network.state_dict(), param_path)
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        prog = self._progs.get('train', None)
        if prog is None or self.model._optimizer is None:
            return
        # XXX `optimizer.state_dict()` only work in dygraph mode
        optim_path = path + ".pdopt"
        optim = {
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            p.name: p for p in filter(is_belong_to_optimizer, prog.list_vars())
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        }
        if not optim:
            return

        _save(optim, optim_path)

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    # TODO: support save/load scaler state in static graph
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    def load(self, param_state_pairs, optim_state):
        if self._executor is None:
            executor = fluid.Executor(fluid.CPUPlace())._default_executor
        else:
            executor = self._executor._default_executor

        # restore parameter states
        fluid.core._create_loaded_parameter(
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            [param for param, state in param_state_pairs],
            global_scope(),
            executor,
        )
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        for param, state in param_state_pairs:
            self._set_var(param, state)

        # restore optimizer states
        # FIXME what if a different optimizer is used?
        if not self.model._optimizer or not optim_state:
            return
        self._load_optimizer(optim_state, executor)

    def _load_optimizer(self, state, executor):
        prog = self._progs.get('train', None)
        optim = list(filter(is_belong_to_optimizer, prog.list_vars()))
        if not optim:
            return

        fluid.core._create_loaded_parameter(optim, global_scope(), executor)

        converted_state = dict(state)
        for var in optim:
            if var.name in ["@LR_DECAY_COUNTER@", "global_step"]:
                # When using learning rate scheduler, dygraph would name the
                # global step var as "global_step" to save, while static-graph
                # would has a state var named as "@LR_DECAY_COUNTER@".
                # NOTE: dygraph saved global_step is 1 larger than that in
                # static-graph, since the time of global_step to increase is
                # different.
                state_val = (
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                    (np.array(converted_state.pop("global_step")) - 1)
                    if "global_step" in converted_state
                    else converted_state.pop("@LR_DECAY_COUNTER@", None)
                )
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                if state_val is not None:
                    converted_state[var.name] = state_val
            elif var.name.startswith("learning_rate_"):
                # When using static learning rate, static-graph would make it
                # a persistable var named 'unique_name.generate("learning_rate")',
                # However, dygraph wouldn't save it.
                if var.name not in state:
                    continue
            else:
                # moment and other accumulators
                if var.name not in converted_state:
                    # try to convert from dygraph name
                    opt_name = self.model._optimizer._name
                    opt_cls_name = self.model._optimizer.__class__.__name__
                    opt_unq_name = None
                    for name in self.model._optimizer._accumulators.keys():
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                        accum_name = (
                            name
                            if opt_name is None
                            else name[len(opt_name) + 1 :]
                        )
                        for (
                            param_name,
                            state_var,
                        ) in self.model._optimizer._accumulators[name].items():
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                            if opt_unq_name is None:
                                # can not infer out the exact unique(opt_name),
                                # thus try to extract rather than generate
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                                for state_key in sorted(
                                    state.keys(),
                                    key=lambda x: len(x),
                                    reverse=True,
                                ):
                                    prefix = (
                                        param_name
                                        + "_"
                                        + (
                                            opt_cls_name
                                            if opt_name is None
                                            else opt_name
                                        )
                                        + "_"
                                    )
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                                    if state_key.startswith(prefix):
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                                        prefix_offset = state_key[
                                            len(prefix) :
                                        ].find("_") + len(prefix)
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                                        opt_unq_name = state_key[
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                                            len(
                                                param_name + "_"
                                            ) : prefix_offset
                                        ]
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                                        # TODO: assert
                                        # assert opt_unq_name is None
                                    # gen(param.name + "_" + gen(opt_name) + "_" + accum_name)
                                    # always end with "_0" since the unique optimizer._name
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                            dy_state_name = (
                                param_name
                                + "_"
                                + opt_unq_name
                                + "_"
                                + accum_name
                                + "_0"
                            )
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                            converted_state[
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                                state_var.name
                            ] = converted_state.pop(dy_state_name)
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            assert (
                var.name in converted_state
            ), "variable [{}] is not in optimizer state file".format(var.name)
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            self._set_var(var, converted_state[var.name])

    def _set_var(self, var, ndarray):
        t = global_scope().find_var(var.name).get_tensor()
        p = t._place()
        if p.is_cpu_place():
            place = fluid.CPUPlace()
        elif p.is_cuda_pinned_place():
            place = fluid.CUDAPinnedPlace()
        else:
            p = fluid.core.Place()
            p.set_place(t._place())
            place = fluid.CUDAPlace(p.gpu_device_id())

        t.set(ndarray, place)

    def _run(self, inputs, labels=None):
        compiled_prog = self._compiled_progs.get(self.mode, None)
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        assert (
            compiled_prog
        ), "Model is not ready, please call `model.prepare()` first"
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        inputs = to_list(inputs)
        if labels is not None:
            labels = to_list(labels)
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        assert len(inputs) == len(self._input_vars[self.mode]), (
            "number of inputs"
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            + " does not match number of arguments of `forward` method"
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        )
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        feed = {}
        input_names = [v.name for v in self._input_vars[self.mode]]
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        input_dtypes = [v.dtype for v in self._input_vars[self.mode]]

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        for idx, n in enumerate(input_names):
            # train and test may take different arguments
            if inputs[idx] is not None:
                feed[n] = inputs[idx]
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            if (
                self._amp_level == 'O2'
                and input_dtypes[idx] == core.VarDesc.VarType.FP16
            ):
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                if isinstance(feed[n], core.LoDTensor):
                    feed[n] = feed[n]._as_type(core.VarDesc.VarType.FP16)
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                elif isinstance(feed[n], np.array):
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                    feed[n] = feed[n].astype('float16')

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        if labels is not None:
            for idx, v in enumerate(self._label_vars[self.mode]):
                feed[v.name] = labels[idx]

        endpoints = self._endpoints[self.mode]
        if self.mode == 'test':
            fetch_list = endpoints['output']
        else:
            metric_list, metric_splits = flatten_list(endpoints['metric'])
            fetch_list = endpoints['loss'] + metric_list
            num_loss = len(endpoints['loss'])

        # if fetch Variable is same as input Variable, do not fetch
        # from program, get it from input directly
        pruned_fetch_list = []
        pruned_fetch_idx_name_map = [""] * len(fetch_list)
        for i, fetch_var in enumerate(fetch_list):
            if fetch_var.name in feed.keys():
                pruned_fetch_idx_name_map[i] = fetch_var.name
            else:
                pruned_fetch_list.append(fetch_var)

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        rets = self._executor.run(
            compiled_prog,
            feed=feed,
            fetch_list=pruned_fetch_list,
            return_numpy=False,
        )
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        # restore pruned fetch_list Variable from feeds
        for i, name in enumerate(pruned_fetch_idx_name_map):
            if len(name) > 0:
                rets.insert(i, feed[name])

        # LoDTensor cannot be fetch as numpy directly
        rets = [np.array(v) for v in rets]
        if self.mode == 'test':
            return rets[:]
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        metric_states = restore_flatten_list(rets[num_loss:], metric_splits)
        metrics = []
        for metric, state in zip(self.model._metrics, metric_states):
            # cut off padding size
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            if (
                self.mode != 'train'
                and self.model._test_dataloader is not None
                and isinstance(self.model._test_dataloader, DataLoader)
                and self._nranks > 1
            ):
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                total_size = len(self.model._test_dataloader.dataset)
                # TODO: fixme if have better way to get batch size
                samples = state[0].shape[0]
                current_count = self._merge_count.get(self.mode + '_total', 0)
                if current_count + samples >= total_size:
                    state = [
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                        s[: int(total_size - current_count), ...] for s in state
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                    ]
                    self._merge_count[self.mode + '_total'] = 0
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                    self._merge_count[self.mode + '_batch'] = int(
                        total_size - current_count
                    )
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                else:
                    self._merge_count[self.mode + '_total'] += samples
                    self._merge_count[self.mode + '_batch'] = samples

            metrics.append(metric.update(*state))
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        if num_loss and len(metrics):
            return rets[:num_loss], metrics
        else:
            return rets[:num_loss] if num_loss else metrics
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    def prepare(self):
        modes = ['train', 'eval', 'test']
        for mode in modes:
            self._make_program(mode)
            self._compile_and_initialize(self._progs[mode], mode)

    def _make_program(self, mode):
        prog = self._progs.get(mode, None)
        if prog is not None:
            return

        prog = self._orig_prog.clone()
        # NOTE: When defining learning rate scheduling in static-graph, ops to
        # increase the global step var and calculate learning rate would be
        # prepended into _orig_prog. test program maked by `_orig_prog.clone`
        # also would include these ops. Thus must prune these ops in test
        # program, otherwise the global step would be changed in test.
        if mode != 'train':
            for op in list(prog.global_block().ops):
                prog.global_block()._remove_op(0)
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        if (
            mode == 'train'
            and self.model._optimizer
            and self.model._optimizer._learning_rate_map
        ):
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            # HACK workaround learning rate map issue
            lr_var = self.model._optimizer._learning_rate_map[self._orig_prog]
            new_lr_var = prog.global_block().vars[lr_var.name]
            self.model._optimizer._learning_rate_map[prog] = new_lr_var

        losses = []
        metrics = []
        with fluid.program_guard(prog, self._startup_prog):
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            inputs = self.model._inputs
            labels = self.model._labels if self.model._labels else []
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            inputs = [k._create_feed_layer() for k in to_list(inputs)]
            labels = [k._create_feed_layer() for k in to_list(labels)]
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            self._label_vars[mode] = labels
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            outputs = to_list(self.model.network.forward(*inputs))
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            if mode != 'test' and self.model._loss:
                losses = self.model._loss(*(outputs + labels))
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            if self._nranks > 1 and mode != 'train':
                outputs = [_all_gather(o, self._nranks) for o in outputs]
                if mode != 'test':
                    labels = [_all_gather(l, self._nranks) for l in labels]

            if mode != 'test':
                for metric in self.model._metrics:
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                    metrics.append(to_list(metric.compute(*(outputs + labels))))
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            if mode == 'train' and self.model._optimizer:
                self._loss_endpoint = fluid.layers.sum(losses)
                if self._nranks > 1:
                    role = role_maker.PaddleCloudRoleMaker(is_collective=True)
                    fleet.init(role)
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                    dist_strategy = fleet.DistributedStrategy()
                    if self._amp_level != 'O0':
                        dist_strategy.amp = True
                        dist_strategy.amp_configs = self._amp_configs.copy()
                        dist_strategy.amp_configs.update(self._amp_custom_lists)
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                        dist_strategy.amp_configs['use_pure_fp16'] = (
                            self._amp_level == 'O2'
                        )
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                    self.model._optimizer = fleet.distributed_optimizer(
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                        self.model._optimizer, strategy=dist_strategy
                    )
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                elif self._amp_level != "O0" and core.is_compiled_with_cuda:
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                    amp_lists = (
                        paddle.static.amp.AutoMixedPrecisionLists(
                            **self._amp_custom_lists
                        )
                        if self._amp_custom_lists
                        else None
                    )
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                    self.model._optimizer = paddle.static.amp.decorate(
                        self.model._optimizer,
                        amp_lists=amp_lists,
                        use_pure_fp16=self._amp_level == "O2",
                        use_fp16_guard=self._use_fp16_guard,
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                        **self._amp_configs
                    )
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                self.model._optimizer.minimize(self._loss_endpoint)

        if mode != 'train':  # clone again to put it in test mode
            prog = prog.clone(for_test=True)

        self._input_vars[mode] = inputs

        self._progs[mode] = prog
        self._endpoints[mode] = {
            "output": outputs,
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            "loss": to_list(losses),
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            "metric": metrics,
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        }

    def _compile_and_initialize(self, prog, mode):
        compiled_prog = self._compiled_progs.get(mode, None)
        if compiled_prog is not None:
            return compiled_prog

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        assert (
            self.model._place is not None
        ), "device is not set, please call `model.prepare()` first"
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        place = self.model._place

        # XXX *ALL WEIGHTS* should be initialized upon model construction
        # even if `forward()` may run different code path for different mode
        # therefore startup program only needs to run once
        if self._executor is None:
            self._executor = fluid.Executor(place)
            # XXX incremental initialization
            uninitialized = []
            for var_py in self._startup_prog.list_vars():
                var = fluid.global_scope().find_var(var_py.name)
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                if (
                    not var_py.name.startswith('nccl_id')
                    and var
                    and var.get_tensor()._is_initialized()
                ):
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                    continue

                uninitialized.append(var_py)
            if uninitialized:
                startup_prog = self._startup_prog._prune(uninitialized)
                self._executor.run(startup_prog)

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        if (
            self._amp_level == "O2"
            and mode == 'train'
            and core.is_compiled_with_cuda()
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        ):
            self.model._optimizer.amp_init(place)

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        if self._nranks < 2:
            compiled_prog = fluid.CompiledProgram(prog)
        else:
            compiled_prog = prog

        self._compiled_progs[mode] = compiled_prog


class DynamicGraphAdapter(object):
    def __init__(self, model):
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        super().__init__()
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        self.model = model
        self._nranks = ParallelEnv().nranks
        self._local_rank = ParallelEnv().local_rank
        self._merge_count = {
            'eval_total': 0,
            'test_total': 0,
            'eval_batch': 0,
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            'test_batch': 0,
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        }

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        self._input_info = None
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        self._amp_level = "O0"
        self._amp_configs = {}
        self._amp_custom_lists = {}
        self._use_fp16_guard = True

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        if self._nranks > 1:
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            dist.init_parallel_env()
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            stradegy = fluid.dygraph.parallel.ParallelStrategy()
            stradegy.nranks = ParallelEnv().nranks
            stradegy.local_rank = ParallelEnv().local_rank
            stradegy.trainer_endpoints = ParallelEnv().trainer_endpoints
            stradegy.current_endpoint = ParallelEnv().current_endpoint
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            self.ddp_model = fluid.dygraph.parallel.DataParallel(
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                self.model.network, stradegy
            )
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    @property
    def mode(self):
        return self.model.mode

    @mode.setter
    def mode(self, value):
        self.model.mode = value

    # TODO multi device in dygraph mode not implemented at present time
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    def train_batch(self, inputs, labels=None, update=True):
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        assert (
            self.model._optimizer
        ), "model not ready, please call `model.prepare()` first"
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        self.model.network.train()
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        self.mode = 'train'
        inputs = to_list(inputs)
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        self._input_info = _update_input_info(inputs)
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        labels = labels or []
        labels = [to_variable(l) for l in to_list(labels)]

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        # scaler should be initialized only once
        if self._amp_level != "O0" and self.model._scaler is None:
            self.model._scaler = paddle.amp.GradScaler(**self._amp_configs)

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        with paddle.amp.auto_cast(
            enable=self._amp_level != 'O0',
            **self._amp_custom_lists,
            level=self._amp_level
        ):
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            if self._nranks > 1:
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                outputs = self.ddp_model(*[to_variable(x) for x in inputs])
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            else:
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                outputs = self.model.network(*[to_variable(x) for x in inputs])
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        losses = self.model._loss(*(to_list(outputs) + labels))
        losses = to_list(losses)
        final_loss = fluid.layers.sum(losses)
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        if self._amp_level != "O0":
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            scaled = self.model._scaler.scale(final_loss)
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            scaled.backward()
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            if update:
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                self.model._scaler.minimize(self.model._optimizer, scaled)
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                self.model.network.clear_gradients()
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        else:
            final_loss.backward()
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            if update:
                self.model._optimizer.minimize(final_loss)
                self.model.network.clear_gradients()
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        metrics = []
        for metric in self.model._metrics:
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            metric_outs = metric.compute(*(to_list(outputs) + labels))
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            m = metric.update(*[to_numpy(m) for m in to_list(metric_outs)])
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            metrics.append(m)

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        return (
            ([to_numpy(l) for l in losses], metrics)
            if len(metrics) > 0
            else [to_numpy(l) for l in losses]
        )
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    def eval_batch(self, inputs, labels=None):
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        self.model.network.eval()
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        self.mode = 'eval'
        inputs = to_list(inputs)
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        self._input_info = _update_input_info(inputs)
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        labels = labels or []
        labels = [to_variable(l) for l in to_list(labels)]

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        outputs = self.model.network(*[to_variable(x) for x in inputs])
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        # Transfrom data to expected device
        expected_device = paddle.device.get_device()
        for o in to_list(outputs):
            o._to(device=expected_device)

        for l in labels:
            l._to(device=expected_device)

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        if self.model._loss:
            losses = self.model._loss(*(to_list(outputs) + labels))
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            losses = to_list(losses)

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        if self._nranks > 1:
            outputs = [_all_gather(o, self._nranks) for o in to_list(outputs)]
            labels = [_all_gather(l, self._nranks) for l in labels]
        metrics = []
        for metric in self.model._metrics:
            # cut off padding value.
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            if (
                self.model._test_dataloader is not None
                and self._nranks > 1
                and isinstance(self.model._test_dataloader, DataLoader)
            ):
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                total_size = len(self.model._test_dataloader.dataset)
                samples = outputs[0].shape[0]
                current_count = self._merge_count.get(self.mode + '_total', 0)
                if current_count + samples >= total_size:
                    outputs = [
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                        o[: int(total_size - current_count)] for o in outputs
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                    ]
                    labels = [
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                        l[: int(total_size - current_count)] for l in labels
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                    ]
                    self._merge_count[self.mode + '_total'] = 0
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                    self._merge_count[self.mode + '_batch'] = int(
                        total_size - current_count
                    )
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                else:
                    self._merge_count[self.mode + '_total'] += samples
                    self._merge_count[self.mode + '_batch'] = samples

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            metric_outs = metric.compute(*(to_list(outputs) + labels))
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            m = metric.update(*[to_numpy(m) for m in to_list(metric_outs)])
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            metrics.append(m)

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        if self.model._loss and len(metrics):
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            return [to_numpy(l) for l in losses], metrics
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        elif self.model._loss:
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            return [to_numpy(l) for l in losses]
        else:
            return metrics
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    def predict_batch(self, inputs):
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        self.model.network.eval()
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        self.mode = 'test'
        inputs = [to_variable(x) for x in to_list(inputs)]
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        self._input_info = _update_input_info(inputs)
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        outputs = self.model.network(*inputs)
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        if self._nranks > 1 and isinstance(self.model._place, fluid.CUDAPlace):
            outputs = [_all_gather(o, self._nranks) for o in to_list(outputs)]

        return [to_numpy(o) for o in to_list(outputs)]

    def parameters(self, *args, **kwargs):
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        return self.model.network.parameters(*args, **kwargs)
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    def save(self, path):
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        params = self.model.network.state_dict()
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        fluid.save_dygraph(params, path)
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        if self.model._optimizer is not None:
            if self.model._optimizer.state_dict():
                optim = self.model._optimizer.state_dict()
                fluid.save_dygraph(optim, path)
        if hasattr(self.model, '_scaler') and self.model._scaler is not None:
            if self.model._scaler.state_dict():
                scaler = self.model._scaler.state_dict()
                paddle.save(scaler, path + '.pdscaler')

    def load(self, param_state_pairs, optim_state, scaler_state=None):
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        # restore parameter states
        for param, state in param_state_pairs:
            param.set_value(state)

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        if hasattr(self.model, '_scaler') and self.model._scaler is not None:
            if scaler_state:
                self.model._scaler.load_state_dict(scaler_state)

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        # resotre optimizer states
        if not self.model._optimizer or not optim_state:
            return

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        # If optimizer performs set_state_dict when state vars haven't been created,
        # which would happen when set_state_dict before minimize, the state would be
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        # stored in optimizer._accumulators_holder and loaded lazily.
        # To contrive this when loading from static-graph saved states, extend
        # state dict to include keys named accoring to dygraph naming rules.
        # TODO: if len(self.model._optimizer._accumulators) > 0
        converted_state = dict(optim_state)
        opt_unq_name = self.model._optimizer._name
        if opt_unq_name is None:
            opt_unq_name = ''

        opt_cls_name = self.model._optimizer.__class__.__name__
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        opt_name = opt_unq_name[: opt_unq_name.rfind("_")]  # remove suffix idx
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        param_names = [param.name for param in self.model.network.parameters()]
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        for var_name, state_var in sorted(
            optim_state.items(), key=lambda x: len(x[0]), reverse=True
        ):
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            if var_name in ["@LR_DECAY_COUNTER@", "global_step"]:
                # NOTE: dygraph saved global_step is 1 larger than that in
                # static-graph, since the time of global_step to increase is
                # different.
                if var_name == "@LR_DECAY_COUNTER@":
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                    converted_state["global_step"] = (
                        np.array(converted_state.pop("@LR_DECAY_COUNTER@")) + 1
                    )
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            else:
                # moment and other accumulators
                # extend state dict to include promising dygraph names
                for param_name in param_names:
                    if var_name.startswith(param_name + "_" + opt_name):
                        # when init optimizer with name
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                        accum_name = var_name[
                            len(param_name + "_" + opt_name + "_") :
                        ]
                    elif (
                        var_name.startswith(param_name + "_")
                        and opt_name == opt_cls_name
                    ):
968
                        # when init optimizer without name
969
                        accum_name = var_name[len(param_name + "_") :]
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                    else:
                        continue
                    # remove suffix idx
973
                    accum_name = accum_name[: accum_name.rfind("_")]
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                    # state names always end with "_0" in dygraph because of the
                    # unique optimizer._name
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                    dy_state_name = (
                        param_name
                        + "_"
                        + opt_unq_name
                        + "_"
                        + accum_name
                        + "_0"
                    )
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                    converted_state[dy_state_name] = state_var

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        if not hasattr(self.model._optimizer, 'set_state_dict'):
            warnings.warn(
988
                "paddle.fluid.optimizer is deprecated in API 2.0, please use paddle.optimizer instead."
989 990 991 992
            )
            self.model._optimizer.set_dict(converted_state)
        else:
            self.model._optimizer.set_state_dict(converted_state)
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    def prepare(self):
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        if (
            self._amp_level == "O2"
            and self.model.mode == 'train'
            and core.is_compiled_with_cuda()
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        ):
            self.model.network, self.model._optimizer = paddle.amp.decorate(
                models=self.model.network,
                optimizers=self.model._optimizer,
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                level='O2',
            )
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        if self._amp_level != "O0":
            self.model._scaler = None

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1009
class Model(object):
1010 1011 1012
    """
    An Model object is network with training and inference features.
    Dynamic graph and static graph are supported at the same time,
1013
    switched by `paddle.enable_static()`. The usage is as follows.
1014
    But note, the switching between dynamic and static should be before
1015
    instantiating a Model. The input description, i.e, paddle.static.InputSpec,
1016
    must be required for static graph.
1017

1018
    When training on GPU, auto mixed precision (AMP O1) and pure float16
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    (AMP O2) training are both supported in static mode and dynamic mode.
1020
    In static graph mode, before training with pure float16 (AMP O2),
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    `multi_precision` could be set to True when creating optimizer, which can
    avoid poor accuracy or slow convergence in a way, and inputs of dtype float
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    should be cast to float16 by users. `paddle.static.amp.fp16_guard` API
    should be also used to limit the range of pure float16 training, otherwise,
    'use_fp16_guard' should be set to False by users. However, limiting the
    range of is not supported during training using AMP.
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1028
    Args:
1029 1030
        network (paddle.nn.Layer): The network is an instance of
            paddle.nn.Layer.
1031
        inputs (InputSpec|list|tuple|dict|None, optional): `inputs`, entry points of network,
1032
            could be a InputSpec instance, or list/tuple of InputSpec instances,
1033
            or dict ({name: InputSpec}), and it couldn't be None in static
1034 1035
            graph. Default: None.
        labels (InputSpec|list|tuple|None, optional): `labels`, entry points of network,
1036
            could be a InputSpec instnace or list/tuple of InputSpec instances,
1037
            or None. For static graph, if labels is required in loss,
1038
            labels must be set. Otherwise, it could be None. Default: None.
1039 1040


1041
    Examples:
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        1. A common example

1044
        .. code-block:: python
1045
          :name: code-example1
1046

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            import paddle
            import paddle.nn as nn
            import paddle.vision.transforms as T
            from paddle.static import InputSpec

            device = paddle.set_device('cpu') # or 'gpu'

            net = nn.Sequential(
                nn.Flatten(1),
                nn.Linear(784, 200),
                nn.Tanh(),
                nn.Linear(200, 10))

            # inputs and labels are not required for dynamic graph.
            input = InputSpec([None, 784], 'float32', 'x')
            label = InputSpec([None, 1], 'int64', 'label')
1063

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            model = paddle.Model(net, input, label)
            optim = paddle.optimizer.SGD(learning_rate=1e-3,
                parameters=model.parameters())

            model.prepare(optim,
1069 1070
                        paddle.nn.CrossEntropyLoss(),
                        paddle.metric.Accuracy())
1071 1072 1073 1074 1075 1076 1077

            transform = T.Compose([
                T.Transpose(),
                T.Normalize([127.5], [127.5])
            ])
            data = paddle.vision.datasets.MNIST(mode='train', transform=transform)
            model.fit(data, epochs=2, batch_size=32, verbose=1)
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        2. An example using mixed precision training.

        .. code-block:: python
1083
          :name: code-example2
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            # required: gpu
            import paddle
            import paddle.nn as nn
            import paddle.vision.transforms as T
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            def run_example_code():
                device = paddle.set_device('gpu')
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                net = nn.Sequential(nn.Flatten(1), nn.Linear(784, 200), nn.Tanh(),
                                    nn.Linear(200, 10))
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                model = paddle.Model(net)
                optim = paddle.optimizer.SGD(learning_rate=1e-3, parameters=model.parameters())
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                amp_configs = {
                    "level": "O1",
                    "custom_white_list": {'conv2d'},
                    "use_dynamic_loss_scaling": True
                }
                model.prepare(optim,
                    paddle.nn.CrossEntropyLoss(),
                    paddle.metric.Accuracy(),
                    amp_configs=amp_configs)
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                transform = T.Compose([T.Transpose(), T.Normalize([127.5], [127.5])])
                data = paddle.vision.datasets.MNIST(mode='train', transform=transform)
                model.fit(data, epochs=2, batch_size=32, verbose=1)

            # mixed precision training is only supported on GPU now.
            if paddle.is_compiled_with_cuda():
                run_example_code()
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1117 1118
    """

1119
    def __init__(self, network, inputs=None, labels=None):
1120
        self.mode = 'train'
1121
        self.network = network
1122 1123
        self._inputs = None
        self._labels = None
1124
        self._loss = None
1125 1126
        self._loss_weights = None
        self._optimizer = None
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        self._input_info = None
1128
        self._is_shape_inferred = False
1129
        self._test_dataloader = None
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        self.stop_training = False
1131

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        if not _non_static_mode():
1133
            if not isinstance(inputs, (list, tuple, dict, Input)):
1134
                raise TypeError(
1135 1136
                    "'inputs' must be list or tuple or dict, and couldn't be None."
                )
1137
        elif inputs:
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            self._input_info = _update_input_info(inputs)
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1140
        self._inputs = self._verify_spec(inputs, is_input=True)
1141
        self._labels = self._verify_spec(labels)
1142

1143
        # init backend
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        if fluid._non_static_mode():
1145 1146 1147 1148
            self._adapter = DynamicGraphAdapter(self)
        else:
            self._adapter = StaticGraphAdapter(self)

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    def train_batch(self, inputs, labels=None, update=True):
1150
        """
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        Run one training step on one batch of data. And using `update` indicates
        whether optimizer update gradients computing by this batch.
1153 1154

        Args:
1155 1156
            inputs (numpy.ndarray|Tensor|list): Batch of input data. It could
                be a numpy array or paddle.Tensor, or a list of arrays or
1157
                tensors (in case the model has multiple inputs).
1158 1159 1160
            labels (numpy.ndarray|Tensor|list, optional): Batch of labels. It could be
                a numpy array or paddle.Tensor, or a list of arrays or tensors
                (in case the model has multiple labels). If has no labels,
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                set None. Default: None.
            update (bool, optional): Whether update parameters after loss.backward() computing.
                Set it to False to accumulate gradients. Default: True.
1164 1165 1166 1167 1168 1169 1170 1171 1172

        Returns:
            A list of scalar training loss if the model has no metrics,
            or a tuple (list of scalar loss, list of metrics) if the model
            set metrics.

        Examples:

            .. code-block:: python
1173

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                import paddle
                import paddle.nn as nn
                from paddle.static import InputSpec

                device = paddle.set_device('cpu') # or 'gpu'

                net = nn.Sequential(
                    nn.Linear(784, 200),
                    nn.Tanh(),
                    nn.Linear(200, 10))

                input = InputSpec([None, 784], 'float32', 'x')
                label = InputSpec([None, 1], 'int64', 'label')
                model = paddle.Model(net, input, label)
                optim = paddle.optimizer.SGD(learning_rate=1e-3,
                    parameters=model.parameters())
                model.prepare(optim, paddle.nn.CrossEntropyLoss())
                data = paddle.rand((4, 784), dtype="float32")
                label = paddle.randint(0, 10, (4, 1), dtype="int64")
                loss = model.train_batch([data], [label])
                print(loss)
                # [array([2.192784], dtype=float32)]
1196
        """
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        loss = self._adapter.train_batch(inputs, labels, update)
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        if fluid._non_static_mode() and self._input_info is None:
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            self._update_inputs()
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        return loss
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    @no_grad()
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    def eval_batch(self, inputs, labels=None):
        """
        Run one evaluating step on a batch of data.

        Args:
1208 1209
            inputs (numpy.ndarray|Tensor|list): Batch of input data. It could
                be a numpy array or paddle.Tensor, or a list of arrays or
1210
                tensors (in case the model has multiple inputs).
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            labels (numpy.ndarray|Tensor|list, optional): Batch of labels. It could be
                a numpy array or paddle.Tensor, or a list of arrays or tensors
                (in case the model has multiple labels). If has no labels,
1214
                set None. Default: None.
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        Returns:
            A list of scalar testing loss if the model has no metrics,
            or a tuple (list of scalar loss, list of metrics) if the model
            set metrics.

        Examples:

            .. code-block:: python
1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247

                import paddle
                import paddle.nn as nn
                from paddle.static import InputSpec

                device = paddle.set_device('cpu') # or 'gpu'

                net = nn.Sequential(
                    nn.Linear(784, 200),
                    nn.Tanh(),
                    nn.Linear(200, 10))

                input = InputSpec([None, 784], 'float32', 'x')
                label = InputSpec([None, 1], 'int64', 'label')
                model = paddle.Model(net, input, label)
                optim = paddle.optimizer.SGD(learning_rate=1e-3,
                    parameters=model.parameters())
                model.prepare(optim,
                            paddle.nn.CrossEntropyLoss(), metrics=paddle.metric.Accuracy())
                data = paddle.rand((4, 784), dtype="float32")
                label = paddle.randint(0, 10, (4, 1), dtype="int64")
                loss, acc = model.eval_batch([data], [label])
                print(loss, acc)
                # [array([2.8825705], dtype=float32)] [0.0]
1248
        """
1249
        loss = self._adapter.eval_batch(inputs, labels)
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        if fluid._non_static_mode() and self._input_info is None:
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            self._update_inputs()
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        return loss
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    @no_grad()
1255
    def predict_batch(self, inputs):
1256
        """
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        Run one predicting step on a batch of data.
1258 1259

        Args:
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            inputs (numpy.ndarray|Tensor|list): Batch of input data. It could
                be a numpy array or paddle.Tensor, or a list of arrays or
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                tensors (in case the model has multiple inputs).
1263 1264 1265 1266 1267 1268 1269 1270

        Returns:
            A list of numpy.ndarray of predictions, that is the outputs
            of Model forward.

        Examples:

            .. code-block:: python
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                import paddle
                import paddle.nn as nn
                from paddle.static import InputSpec

                device = paddle.set_device('cpu') # or 'gpu'
1277

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                input = InputSpec([None, 784], 'float32', 'x')
                label = InputSpec([None, 1], 'int64', 'label')

                net = nn.Sequential(
                    nn.Linear(784, 200),
                    nn.Tanh(),
                    nn.Linear(200, 10),
                    nn.Softmax())

                model = paddle.Model(net, input, label)
                model.prepare()
                data = paddle.rand((1, 784), dtype="float32")
                out = model.predict_batch([data])
                print(out)
                # [array([[0.08189095, 0.16740078, 0.06889386, 0.05085445, 0.10729759,
                #          0.02217775, 0.14518553, 0.1591538 , 0.01808308, 0.17906217]],
                #          dtype=float32)]
1295
        """
1296
        loss = self._adapter.predict_batch(inputs)
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        if fluid._non_static_mode() and self._input_info is None:
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            self._update_inputs()
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        return loss
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    def save(self, path, training=True):
1302 1303
        """
        This function saves parameters, optimizer information or model and
1304 1305
        paramters only for inference to path. It depends on the parameter
        `training`.
1306

1307
        If `training` is set to True, the parameters saved contain all
1308
        the trainable Variable, will save to a file with suffix ".pdparams".
1309 1310 1311 1312
        The optimizer information contains all the variable used by optimizer.
        For Adam optimizer, contains beta1, beta2, momentum etc. All the
        information will save to a file with suffix ".pdopt". (If the optimizer
        have no variable need to save (like SGD), the fill will not generated).
1313
        This function will silently overwrite existing file at the target location.
1314

1315
        If `training` is set to False, only inference model will be saved.
1316 1317

        Args:
1318 1319 1320
            path (str): The file prefix to save model. The format
                is 'dirname/file_prefix' or 'file_prefix'. if empty str.
                A exception will be raised.
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            training (bool, optional): Whether to save for training. If not, save
                for inference only. Default: True.
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        Returns:
            None

        Examples:

            .. code-block:: python
1330

1331
                import paddle
1332
                import paddle.nn as nn
1333
                import paddle.vision.transforms as T
1334
                from paddle.static import InputSpec
1335

1336
                class Mnist(nn.Layer):
1337
                    def __init__(self):
1338
                        super().__init__()
1339
                        self.net = nn.Sequential(
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                            nn.Flatten(1),
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                            nn.Linear(784, 200),
                            nn.Tanh(),
                            nn.Linear(200, 10),
                            nn.Softmax())
1345

1346
                    def forward(self, x):
1347
                        return self.net(x)
1348

1349
                dynamic = True  # False
1350
                # if use static graph, do not set
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                if not dynamic:
                    paddle.enable_static()
1353

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                input = InputSpec([None, 784], 'float32', 'x')
                label = InputSpec([None, 1], 'int64', 'label')
                model = paddle.Model(Mnist(), input, label)
1357
                optim = paddle.optimizer.SGD(learning_rate=1e-3,
1358
                    parameters=model.parameters())
1359
                model.prepare(optim, paddle.nn.CrossEntropyLoss())
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                transform = T.Compose([
                    T.Transpose(),
                    T.Normalize([127.5], [127.5])
                ])
                data = paddle.vision.datasets.MNIST(mode='train', transform=transform)
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                model.fit(data, epochs=1, batch_size=32, verbose=0)
1368 1369
                model.save('checkpoint/test')  # save for training
                model.save('inference_model', False)  # save for inference
1370
        """
1371

1372
        if ParallelEnv().local_rank == 0:
1373 1374 1375 1376
            if not training:
                self._save_inference_model(path)
            else:
                self._adapter.save(path)
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    def load(self, path, skip_mismatch=False, reset_optimizer=False):
        """
        Load from files storing the model states and optimizer states. The file
        for optimizer states is not necessary if no need to restore the optimizer.

        NOTE: parameters are retrieved out from the file storing model states
        accoring to their structured names.

        For fine-tuning or transfer-learning models where some of the layers have
        changed, keep parameters needed to restore have same structured names in
        the pre-trained model and fine-tuning model.

        Args:
            path (str): The prefix of files storing the model states and
                optimizer states. The files would be `path.pdparams` and
                `path.pdopt` separately, and the latter is not necessary
                when no need to restore.
1395
            skip_mismatch (bool, optional): Whether to skip the loading of mismatch
1396 1397
                parameter or raise an error when mismatch happens (not found
                the parameter in file storing model states of or receives a
1398 1399
                mismatch shape). Default: False.
            reset_optimizer (bool, optional): If True, ignore the providing file storing
1400 1401
                optimizer states and initialize optimizer states from scratch.
                Otherwise, restore optimizer states from `path.pdopt` if
1402
                a optimizer has been set to the model. Default: False.
1403 1404 1405 1406 1407 1408 1409

        Returns:
            None

        Examples:

            .. code-block:: python
1410 1411 1412 1413

                import paddle
                import paddle.nn as nn
                from paddle.static import InputSpec
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                device = paddle.set_device('cpu')
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                input = InputSpec([None, 784], 'float32', 'x')
1418

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                model = paddle.Model(nn.Sequential(
                    nn.Linear(784, 200),
                    nn.Tanh(),
                    nn.Linear(200, 10),
                    nn.Softmax()), input)
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                model.save('checkpoint/test')
                model.load('checkpoint/test')
1427 1428 1429 1430 1431 1432
        """

        def _load_state_from_path(path):
            if not os.path.exists(path):
                return
            with open(path, 'rb') as f:
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                return pickle.load(f, encoding='latin1')
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        def _check_match(key, param):
            state = param_state.get(key, None)
            if state is None:
                raise ValueError(
1439 1440
                    "{} is not found in the providing file.".format(key)
                )
1441 1442
            if list(state.shape) != list(param.shape):
                raise ValueError(
1443 1444 1445 1446
                    "{} receives a shape {}, but the expected shape is {}.".format(
                        key, list(state.shape), list(param.shape)
                    )
                )
1447 1448 1449 1450
            return param, state

        def _strip_postfix(path):
            path, ext = os.path.splitext(path)
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            assert ext in [
                '',
                '.pdparams',
                '.pdopt',
                '.pdmodel',
            ], "Unknown postfix {} from weights".format(ext)
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            return path

        path = _strip_postfix(path)
        param_state = _load_state_from_path(path + ".pdparams")
        assert param_state, "Failed to load parameters, please check path."

        matched_param_state = []
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        for key, param in self.network.state_dict().items():
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            try:
                match_res = _check_match(key, param)
            except ValueError as err:
                if skip_mismatch:
                    warnings.warn(
1470 1471
                        ("Skip loading for {}. ".format(key) + str(err))
                    )
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                    # reset optimizer when mismatch happens
                    reset_optimizer = True
                else:
                    raise err
            matched_param_state.append(match_res)

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        optim_state = (
            None if reset_optimizer else _load_state_from_path(path + ".pdopt")
        )
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        # TODO: support save/load scaler state in static graph
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        if _non_static_mode():
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            scaler_state = None
            if hasattr(self, '_scaler') and self._scaler is not None:
                if os.path.exists(path + '.pdscaler'):
                    scaler_state = paddle.load(path + '.pdscaler')

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            return self._adapter.load(
                matched_param_state, optim_state, scaler_state
            )
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        else:
            return self._adapter.load(matched_param_state, optim_state)
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    def parameters(self, *args, **kwargs):
        """
        Returns a list of parameters of the model.

        Returns:
            A list of Parameter in static graph.
            A list of ParamBase in dynamic graph.

        Examples:

            .. code-block:: python
1506

1507 1508 1509
                import paddle
                import paddle.nn as nn
                from paddle.static import InputSpec
1510

1511
                input = InputSpec([None, 784], 'float32', 'x')
1512

1513 1514 1515 1516
                model = paddle.Model(nn.Sequential(
                    nn.Linear(784, 200),
                    nn.Tanh(),
                    nn.Linear(200, 10)), input)
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1518
                params = model.parameters()
1519 1520 1521
        """
        return self._adapter.parameters()

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    def _prepare_amp(self, amp_configs):
        def _check_pure_fp16_configs():
            # pure float16 training has some restricts now
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            if self._adapter._amp_level == "O2" and self._optimizer._grad_clip:
                # clip by value is not supported
1527 1528 1529 1530
                assert isinstance(
                    self._optimizer._grad_clip,
                    (paddle.nn.ClipGradByGlobalNorm, paddle.nn.ClipGradByNorm),
                ), "Only GradientClipByNorm and GradientClipByGlobalNorm are supported in amp training with level=O2 currently."
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        self._adapter._amp_custom_lists = {}
        self._adapter._amp_configs = {}

        # check and get level of mixed precision training
        if not amp_configs:
            self._adapter._amp_level = 'O0'
            return
        elif isinstance(amp_configs, str):
            if amp_configs not in ('O0', 'O1', 'O2'):
                raise ValueError(
1542 1543
                    "The level of amp_configs should be 'O0', 'O1' or 'O2'."
                )
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            self._adapter._amp_level = amp_configs
            _check_pure_fp16_configs()
            return
        else:
            if 'level' not in amp_configs:
                self._adapter._amp_level = 'O1'
            elif amp_configs['level'] not in ('O0', 'O1', 'O2'):
                raise ValueError(
1552 1553
                    "amp_configs['level'] should be 'O0', 'O1' or 'O2'."
                )
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            else:
                self._adapter._amp_level = amp_configs['level']
        amp_config_key_set = set(amp_configs.keys()) - {'level'}
        if not amp_config_key_set or self._adapter._amp_level == 'O0':
            return

        if 'use_pure_fp16' in amp_configs:
            raise ValueError(
1562
                "'use_pure_fp16' is an invalid parameter, the level of mixed precision training only depends on 'O1' or 'O2'."
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            )

        _check_pure_fp16_configs()

        # construct amp_custom_lists
        if self._adapter._amp_level != 'O0' and amp_config_key_set:
            for param_name in [
1570 1571 1572
                'custom_white_list',
                'custom_black_list',
                'custom_black_varnames',
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            ]:
                if param_name in amp_config_key_set:
                    self._adapter._amp_custom_lists[param_name] = amp_configs[
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                        param_name
                    ]
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                    amp_config_key_set -= {param_name}

        def _check_amp_configs(amp_config_key_set):
            accepted_param_set = {
                'init_loss_scaling',
                'incr_ratio',
                'decr_ratio',
                'incr_every_n_steps',
                'decr_every_n_nan_or_inf',
                'use_dynamic_loss_scaling',
                'use_fp16_guard',
            }
            if amp_config_key_set - accepted_param_set:
                raise ValueError(
1592 1593 1594 1595
                    "Except for 'level', the keys of 'amp_configs' must be accepted by mixed precision APIs, but {} could not be recognized.".format(
                        tuple(amp_config_key_set - accepted_param_set)
                    )
                )
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            if 'use_fp16_guard' in amp_config_key_set:
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                if _non_static_mode():
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                    raise ValueError(
1600 1601
                        "'use_fp16_guard' is supported in static mode only."
                    )
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                self._adapter._use_fp16_guard = amp_configs['use_fp16_guard']
                amp_config_key_set.remove('use_fp16_guard')

            return amp_config_key_set

        amp_configs_set = _check_amp_configs(amp_config_key_set)
        for key in amp_configs_set:
            self._adapter._amp_configs[key] = amp_configs[key]

1611 1612 1613
    def prepare(
        self, optimizer=None, loss=None, metrics=None, amp_configs=None
    ):
1614 1615 1616 1617
        """
        Configures the model before runing.

        Args:
1618
            optimizer (Optimizer|None, optional): Optimizer must be set in training
1619
                and should be a Optimizer instance. It can be None in eval
1620 1621
                and test mode. Default: None.
            loss (Loss|Callable|None, optional): Loss function can
1622
                be a `paddle.nn.Layer` instance or any callable function
1623
                taken the predicted values and ground truth values as input.
1624 1625 1626 1627
                It can be None when there is no loss. Default: None.
            metrics (Metric|list[Metric]|None, optional): If metrics is set, all
                metrics will be calculated and output in train/eval mode. Default: None.
            amp_configs (str|dict|None, optional): AMP configurations. If AMP or pure
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                float16 training is used, the key 'level' of 'amp_configs'
                should be set to 'O1' or 'O2' respectively. Otherwise, the
                value of 'level' defaults to 'O0', which means float32
1631 1632
                training. In addition to 'level', parameters consistent with
                mixed precision API could also be passed in. The supported
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                keys are: 'init_loss_scaling', 'incr_ratio', 'decr_ratio',
                'incr_every_n_steps', 'decr_every_n_nan_or_inf',
                'use_dynamic_loss_scaling', 'custom_white_list',
                'custom_black_list', and 'custom_black_varnames'or
1637 1638 1639 1640 1641 1642
                'use_fp16_guard' is only supported in static mode. Mixed
                precision API documentations  :ref:`api_paddle_amp_auto_cast`
                and  :ref:`api_paddle_amp_GradScaler` could be referenced
                for details. For convenience, 'amp_configs' could be set to
                'O1' or 'O2' if no more parameters are needed. 'amp_configs'
                could be None in float32 training. Default: None.
1643

1644 1645 1646
        Returns:
            None
        """
1647 1648
        self._place = _get_device()
        if isinstance(self._place, fluid.CUDAPlace):
1649 1650
            global _parallel_context_initialized
            if ParallelEnv().nranks > 1 and not _parallel_context_initialized:
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                if fluid._non_static_mode():
1652
                    main_prog_seed = fluid.default_main_program().random_seed
1653 1654 1655
                    startup_prog_seed = (
                        fluid.default_startup_program().random_seed
                    )
1656
                    fluid.disable_dygraph()
1657
                    paddle.disable_static(self._place)
1658 1659 1660
                    # enable_dygraph would create and switch to a new program,
                    # thus also copy seed to the new program
                    fluid.default_main_program().random_seed = main_prog_seed
1661 1662 1663
                    fluid.default_startup_program().random_seed = (
                        startup_prog_seed
                    )
1664 1665 1666 1667 1668
                else:
                    prepare_distributed_context(self._place)
                _parallel_context_initialized = True

        self._optimizer = optimizer
1669 1670
        if loss is not None:
            if not isinstance(loss, paddle.nn.Layer) and not callable(loss):
1671 1672 1673
                raise TypeError(
                    "'loss' must be sub classes of `paddle.nn.Layer` or any callable function."
                )
1674
        self._loss = loss
1675 1676 1677

        metrics = metrics or []
        for metric in to_list(metrics):
1678 1679 1680
            assert isinstance(
                metric, Metric
            ), "{} is not sub class of Metric".format(metric.__class__.__name__)
1681
        self._metrics = to_list(metrics)
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        self._prepare_amp(amp_configs)
1683

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        self._adapter.prepare()
1685

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    def fit(
        self,
        train_data=None,
        eval_data=None,
        batch_size=1,
        epochs=1,
        eval_freq=1,
        log_freq=10,
        save_dir=None,
        save_freq=1,
        verbose=2,
        drop_last=False,
        shuffle=True,
        num_workers=0,
        callbacks=None,
        accumulate_grad_batches=1,
        num_iters=None,
    ):
1704 1705 1706 1707 1708
        """
        Trains the model for a fixed number of epochs. If `eval_data` is set,
        evaluation will be done at the end of each epoch.

        Args:
1709 1710
            train_data (Dataset|DataLoader, optional): An iterable data loader is used for
                train. An instance of paddle paddle.io.Dataset or
1711
                paddle.io.Dataloader is recomended. Default: None.
1712
            eval_data (Dataset|DataLoader, optional): An iterable data loader is used for
1713 1714
                evaluation at the end of epoch. If None, will not do evaluation.
                An instance of paddle.io.Dataset or paddle.io.Dataloader
1715
                is recomended. Default: None.
1716
            batch_size (int, optional): The batch size of train_data and eval_data. When
1717 1718 1719 1720
                train_data and eval_data are both the instance of Dataloader, this
                parameter will be ignored. Default: 1.
            epochs (int, optional): The number of epochs to train the model. Default: 1.
            eval_freq (int, optional): The frequency, in number of epochs, an evalutation
1721
                is performed. Default: 1.
1722
            log_freq (int, optional): The frequency, in number of steps, the training logs
1723
                are printed. Default: 10.
1724
            save_dir(str|None, optional): The directory to save checkpoint during training.
1725
                If None, will not save checkpoint. Default: None.
1726
            save_freq (int, optional): The frequency, in number of epochs, to save
1727
                checkpoint. Default: 1.
1728
            verbose (int, optional): The verbosity mode, should be 0, 1, or 2. 0 = silent,
1729
                1 = progress bar, 2 = one line per epoch. Default: 2.
1730
            drop_last (bool, optional): Whether drop the last incomplete batch of
1731 1732 1733
                train_data when dataset size is not divisible by the batch size.
                When train_data is an instance of Dataloader, this parameter
                will be ignored. Default: False.
1734
            shuffle (bool, optional): Whther to shuffle train_data. When train_data is
1735 1736
                an instance of Dataloader, this parameter will be ignored.
                Default: True.
1737
            num_workers (int, optional): The number of subprocess to load data, 0 for no
1738 1739 1740
                subprocess used and loading data in main process.
                When train_data and eval_data are both the instance of
                Dataloader, this parameter will be ignored. Default: 0.
1741 1742 1743
            callbacks (Callback|None, optional): A list of `Callback` instances to apply
                during training. If None, :ref:`api_paddle_callbacks_ProgBarLogger` and
                :ref:`api_paddle_callbacks_ModelCheckpoint` are automatically inserted. Default: None.
1744
            accumulate_grad_batches (int, optional): The number of batches to accumulate gradident
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                during training process before optimizer updates. It can mimic large batch
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                size. Default: 1.
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            num_iters (int|None, optional): The number of iterations to evaluate the model.
                If None, evaluate on whole input dataset, otherwise, evaluate `num_iters` times.
                Default: None.

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        Returns:
            None

        Examples:
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            1. An example use Dataset and set batch size, shuffle in fit.
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               How to make a batch is done internally.

            .. code-block:: python
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              :name: code-example1
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                import paddle
                import paddle.vision.transforms as T
                from paddle.vision.datasets import MNIST
                from paddle.static import InputSpec

                dynamic = True
                if not dynamic:
                    paddle.enable_static()

                transform = T.Compose([
                    T.Transpose(),
                    T.Normalize([127.5], [127.5])
                ])
                train_dataset = MNIST(mode='train', transform=transform)
                val_dataset = MNIST(mode='test', transform=transform)

                input = InputSpec([None, 1, 28, 28], 'float32', 'image')
                label = InputSpec([None, 1], 'int64', 'label')

                model = paddle.Model(
                    paddle.vision.models.LeNet(),
                    input, label)
                optim = paddle.optimizer.Adam(
                    learning_rate=0.001, parameters=model.parameters())
                model.prepare(
                    optim,
                    paddle.nn.CrossEntropyLoss(),
                    paddle.metric.Accuracy(topk=(1, 2)))
                model.fit(train_dataset,
                            val_dataset,
                            epochs=2,
                            batch_size=64,
                            save_dir='mnist_checkpoint')
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            2. An example use DataLoader, batch size and shuffle is set in
               DataLoader.

            .. code-block:: python
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              :name: code-example2
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                import paddle
                import paddle.vision.transforms as T
                from paddle.vision.datasets import MNIST
                from paddle.static import InputSpec
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                dynamic = True
                if not dynamic:
                    paddle.enable_static()
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                transform = T.Compose([
                        T.Transpose(),
                        T.Normalize([127.5], [127.5])
                    ])
                train_dataset = MNIST(mode='train', transform=transform)
                train_loader = paddle.io.DataLoader(train_dataset,
                    batch_size=64)
                val_dataset = MNIST(mode='test', transform=transform)
                val_loader = paddle.io.DataLoader(val_dataset,
                    batch_size=64)

                input = InputSpec([None, 1, 28, 28], 'float32', 'image')
                label = InputSpec([None, 1], 'int64', 'label')
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                model = paddle.Model(
                    paddle.vision.models.LeNet(), input, label)
                optim = paddle.optimizer.Adam(
                    learning_rate=0.001, parameters=model.parameters())
                model.prepare(
                    optim,
                    paddle.nn.CrossEntropyLoss(),
                    paddle.metric.Accuracy(topk=(1, 2)))
                model.fit(train_loader,
                            val_loader,
                            epochs=2,
                            save_dir='mnist_checkpoint')
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        """
1837
        assert train_data is not None, "train_data must be given!"
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        if isinstance(train_data, Dataset):
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            train_sampler = DistributedBatchSampler(
                train_data,
                batch_size=batch_size,
                shuffle=shuffle,
                drop_last=drop_last,
            )
            train_loader = DataLoader(
                train_data,
                batch_sampler=train_sampler,
                places=self._place,
                num_workers=num_workers,
                return_list=True,
            )
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        else:
            train_loader = train_data

        if eval_data is not None and isinstance(eval_data, Dataset):
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            eval_sampler = DistributedBatchSampler(
                eval_data, batch_size=batch_size
            )
            eval_loader = DataLoader(
                eval_data,
                batch_sampler=eval_sampler,
                places=self._place,
                num_workers=num_workers,
                return_list=True,
            )
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        elif eval_data is not None:
            eval_loader = eval_data
        else:
            eval_loader = None

        do_eval = eval_loader is not None
        self._test_dataloader = eval_loader
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        self._accumulate = accumulate_grad_batches
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        steps = self._len_data_loader(train_loader)
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        self.num_iters = num_iters
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        if (
            num_iters is not None
            and isinstance(num_iters, int)
            and isinstance(steps, int)
        ):
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            assert num_iters > 0, "num_iters must be greater than 0!"
            epochs = (num_iters // steps) + 1
            steps = min(num_iters, steps)
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        cbks = config_callbacks(
            callbacks,
            model=self,
            epochs=epochs,
            steps=steps,
            log_freq=log_freq,
            save_freq=save_freq,
            save_dir=save_dir,
            verbose=verbose,
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            metrics=self._metrics_name(),
        )
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        if any(isinstance(k, EarlyStopping) for k in cbks) and not do_eval:
            warnings.warn("EarlyStopping needs validation data.")

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        cbks.on_begin('train')
        for epoch in range(epochs):
            cbks.on_epoch_begin(epoch)
            logs = self._run_one_epoch(train_loader, cbks, 'train')
            cbks.on_epoch_end(epoch, logs)

            if do_eval and epoch % eval_freq == 0:

                eval_steps = self._len_data_loader(eval_loader)
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                cbks.on_begin(
                    'eval',
                    {'steps': eval_steps, 'metrics': self._metrics_name()},
                )
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                eval_logs = self._run_one_epoch(eval_loader, cbks, 'eval')

                cbks.on_end('eval', eval_logs)
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            if self.stop_training:
                break
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        cbks.on_end('train', logs)
        self._test_dataloader = None
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    def evaluate(
        self,
        eval_data,
        batch_size=1,
        log_freq=10,
        verbose=2,
        num_workers=0,
        callbacks=None,
        num_iters=None,
    ):
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        """
        Evaluate the loss and metrics of the model on input dataset.

        Args:
            eval_data (Dataset|DataLoader): An iterable data loader is used for
1940
                evaluation. An instance of paddle.io.Dataset or
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                paddle.io.Dataloader is recomended.
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            batch_size (int, optional): The batch size of train_data and eval_data.
                When eval_data is the instance of Dataloader, this argument will be
                ignored. Default: 1.
            log_freq (int, optional): The frequency, in number of steps, the eval logs
1946
                are printed. Default: 10.
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            verbose (int, optional): The verbosity mode, should be 0, 1, or 2. 0 = silent,
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                1 = progress bar, 2 = one line per epoch. Default: 2.
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            num_workers (int, optional): The number of subprocess to load data,
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                0 for no subprocess used and loading data in main process. When
                train_data and eval_data are both the instance of Dataloader,
                this parameter will be ignored. Default: 0.
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            callbacks (Callback|None, optional): A list of `Callback` instances to apply
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                during training. If None, `ProgBarLogger` and `ModelCheckpoint`
                are automatically inserted. Default: None.
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            num_iters (int|None, optional): The number of iterations to evaluate the model.
                If None, evaluate on whole input dataset, otherwise, evaluate `num_iters` times.
                Default: None.
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        Returns:
            dict: Result of metric. The key is the names of Metric,
                value is a scalar or numpy.array.

        Examples:
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          .. code-block:: python
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                import paddle
                import paddle.vision.transforms as T
                from paddle.static import InputSpec
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                # declarative mode
                transform = T.Compose([
                        T.Transpose(),
                        T.Normalize([127.5], [127.5])
                    ])
                val_dataset = paddle.vision.datasets.MNIST(mode='test', transform=transform)
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                input = InputSpec([-1, 1, 28, 28], 'float32', 'image')
                label = InputSpec([None, 1], 'int64', 'label')
                model = paddle.Model(paddle.vision.models.LeNet(), input, label)
                model.prepare(metrics=paddle.metric.Accuracy())
                result = model.evaluate(val_dataset, batch_size=64)
                print(result)
                # {'acc': 0.0699}
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        """

        if eval_data is not None and isinstance(eval_data, Dataset):
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            eval_sampler = DistributedBatchSampler(
                eval_data, batch_size=batch_size
            )
            eval_loader = DataLoader(
                eval_data,
                batch_sampler=eval_sampler,
                places=self._place,
                num_workers=num_workers,
                return_list=True,
            )
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        else:
            eval_loader = eval_data

        self._test_dataloader = eval_loader

        cbks = config_callbacks(
            callbacks,
            model=self,
            log_freq=log_freq,
            verbose=verbose,
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            metrics=self._metrics_name(),
        )
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        eval_steps = self._len_data_loader(eval_loader)
2012
        self.num_iters = num_iters
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        if (
            num_iters is not None
            and isinstance(num_iters, int)
            and isinstance(eval_steps, int)
        ):
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            assert num_iters > 0, "num_iters must be greater than 0!"
            eval_steps = min(num_iters, eval_steps)
            self.num_iters = eval_steps
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        cbks.on_begin(
            'eval', {'steps': eval_steps, 'metrics': self._metrics_name()}
        )
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        logs = self._run_one_epoch(eval_loader, cbks, 'eval')

        cbks.on_end('eval', logs)

        self._test_dataloader = None

        eval_result = {}
        for k in self._metrics_name():
            eval_result[k] = logs[k]

        return eval_result

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    def predict(
        self,
        test_data,
        batch_size=1,
        num_workers=0,
        stack_outputs=False,
        verbose=1,
        callbacks=None,
    ):
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        """
        Compute the output predictions on testing data.

        Args:
            test_data (Dataset|DataLoader): An iterable data loader is used for
                predict. An instance of paddle.io.Dataset or paddle.io.Dataloader
                is recomended.
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            batch_size (int, optional): The batch size of test_data. When test_data is the
                instance of Dataloader, this argument will be ignored. Default: 1.
2055
            num_workers (int, optional): The number of subprocess to load data, 0 for no subprocess
2056 2057 2058 2059
                used and loading data in main process. When test_data is the instance of Dataloader,
                this argument will be ignored. Default: 0.
            stack_outputs (bool, optional): Whether stack output field like a batch, as for an output
                field of a sample is in shape [X, Y], test_data contains N samples, predict
2060
                output field will be in shape [N, X, Y] if stack_output is True, and will
2061
                be a length N list in shape [[X, Y], [X, Y], ..., [X, Y]] if stack_outputs
2062 2063
                is False. stack_outputs as False is used for LoDTensor output situation,
                it is recommended set as True if outputs contains no LoDTensor. Default: False.
2064
            verbose (int, optional): The verbosity mode, should be 0, 1, or 2. 0 = silent,
2065
                1 = progress bar, 2 = one line per batch. Default: 1.
2066
            callbacks(Callback, optional): A Callback instance, Default: None.
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        Returns:
            list: output of models.

        Examples:
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          .. code-block:: python
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                import numpy as np
                import paddle
                from paddle.static import InputSpec
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2079 2080
                class MnistDataset(paddle.vision.datasets.MNIST):
                    def __init__(self, mode, return_label=True):
2081
                        super().__init__(mode=mode)
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                        self.return_label = return_label

                    def __getitem__(self, idx):
                        img = np.reshape(self.images[idx], [1, 28, 28])
                        if self.return_label:
                            return img, np.array(self.labels[idx]).astype('int64')
                        return img,

                    def __len__(self):
                        return len(self.images)

                test_dataset = MnistDataset(mode='test', return_label=False)

                # imperative mode
                input = InputSpec([-1, 1, 28, 28], 'float32', 'image')
                model = paddle.Model(paddle.vision.models.LeNet(), input)
                model.prepare()
                result = model.predict(test_dataset, batch_size=64)
                print(len(result[0]), result[0][0].shape)
                # 157 (64, 10)

                # declarative mode
                device = paddle.set_device('cpu')
                paddle.enable_static()
                input = InputSpec([-1, 1, 28, 28], 'float32', 'image')
                model = paddle.Model(paddle.vision.models.LeNet(), input)
                model.prepare()

                result = model.predict(test_dataset, batch_size=64)
                print(len(result[0]), result[0][0].shape)
                # 157 (64, 10)
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        """

        if test_data is not None and isinstance(test_data, Dataset):
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            test_sampler = DistributedBatchSampler(
                test_data, batch_size=batch_size
            )
            test_loader = DataLoader(
                test_data,
                batch_sampler=test_sampler,
                places=self._place,
                num_workers=num_workers,
                return_list=True,
            )
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        else:
            test_loader = test_data

        self._test_dataloader = test_loader

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        cbks = config_callbacks(callbacks, model=self, verbose=verbose)
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        test_steps = self._len_data_loader(test_loader)
        logs = {'steps': test_steps}

2136
        cbks.on_begin('predict', logs)
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        outputs = []

2140
        logs, outputs = self._run_one_epoch(test_loader, cbks, 'predict')
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        outputs = list(zip(*outputs))

        # NOTE: for lod tensor output, we should not stack outputs
        # for stacking may lose its detail info
        if stack_outputs:
            outputs = [np.vstack(outs) for outs in outputs]

        self._test_dataloader = None

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        cbks.on_end('predict', logs)
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        return outputs

2154
    def _save_inference_model(self, path):
2155
        """
2156
        Save inference model can be used in static or dynamic mode.
2157 2158

        Args:
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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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        Returns:
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            None
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        """

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        if fluid._non_static_mode():
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            with fluid.framework._dygraph_guard(None):
                layer = self.network
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                if self._input_info is None:  # No provided or inferred
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                    raise RuntimeError(
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                        "Saving inference model needs 'inputs' or running before saving. Please specify 'inputs' in Model initialization or input training data and perform a training for shape derivation."
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                    )
                if self._is_shape_inferred:
                    warnings.warn(
                        "'inputs' was not specified when Model initialization, so the input shape to be saved will be the shape derived from the user's actual inputs. The input shape to be saved is %s. For saving correct input shapes, please provide 'inputs' for Model initialization."
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                        % self._input_info[0]
                    )
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                paddle.jit.save(layer, path, input_spec=self._inputs)
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        else:
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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 "
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                    "file_prefix is empty string."
                )
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            dirname = os.path.dirname(path)
            if dirname and not os.path.exists(dirname):
                os.makedirs(dirname)

            model_path = dirname
            model_filename = file_prefix + INFER_MODEL_SUFFIX
            params_filename = file_prefix + INFER_PARAMS_SUFFIX

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            prog = self._adapter._progs.get('test', None)
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            assert (
                prog
            ), "Model is not ready, please call `model.prepare()` first"
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            infer_prog = prog.clone(for_test=True)

            input_names = [v.name for v in self._adapter._input_vars['test']]
            endpoints = self._adapter._endpoints['test']['output']

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            fluid.io.save_inference_model(
                model_path,
                input_names,
                endpoints,
                self._adapter._executor,
                main_program=infer_prog,
                model_filename=model_filename,
                params_filename=params_filename,
            )
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    def _run_one_epoch(
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        self,
        data_loader,
        callbacks,
        mode,
        logs={},
    ):
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        outputs = []
        for step, data in enumerate(data_loader):
            # data might come from different types of data_loader and have
            # different format, as following:
            # 1. DataLoader in static graph:
            #    [[input1, input2, ..., label1, lable2, ...]]
            # 2. DataLoader in dygraph
            #    [input1, input2, ..., label1, lable2, ...]
            # 3. custumed iterator yield concated inputs and labels:
            #   [input1, input2, ..., label1, lable2, ...]
2235
            # 4. custumed iterator yield separated inputs and labels:
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            #   ([input1, input2, ...], [label1, lable2, ...])
            # To handle all of these, flatten (nested) list to list.
            data = flatten(data)
            # LoDTensor.shape is callable, where LoDTensor comes from
            # DataLoader in static graph
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            batch_size = (
                data[0].shape()[0]
                if callable(data[0].shape)
                else data[0].shape[0]
            )
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            callbacks.on_batch_begin(mode, step, logs)

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            if mode != 'predict':
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                _inputs = [data[: len(self._inputs)], data[len(self._inputs) :]]
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                if mode == 'train':
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                    _inputs.append(
                        (step + 1) % self._accumulate == 0
                        or step + 1 == len(data_loader)
                    )
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                outs = getattr(self, mode + '_batch')(*_inputs)
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                if self._metrics and self._loss:
2261
                    metrics = [[l[0] for l in outs[0]]]
2262
                elif self._loss:
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                    metrics = [[l[0] for l in outs]]
                else:
                    metrics = []
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                # metrics
                for metric in self._metrics:
                    res = metric.accumulate()
                    metrics.extend(to_list(res))

                assert len(self._metrics_name()) == len(metrics)
                for k, v in zip(self._metrics_name(), metrics):
                    logs[k] = v
            else:
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                if self._inputs is not None:
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                    outs = self.predict_batch(data[: len(self._inputs)])
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                else:
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                    outs = self.predict_batch(data)
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                outputs.append(outs)

            logs['step'] = step
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            if (
                mode == 'train'
                or self._adapter._merge_count.get(mode + '_batch', 0) <= 0
            ):
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                logs['batch_size'] = batch_size * ParallelEnv().nranks
            else:
                logs['batch_size'] = self._adapter._merge_count[mode + '_batch']

            callbacks.on_batch_end(mode, step, logs)
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            if hasattr(self, 'num_iters') and self.num_iters is not None:
                self.num_iters -= 1
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                if self.num_iters <= 0:
                    self.stop_training = True
                    del self.num_iters
2298
                    break
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        self._reset_metrics()

2301
        if mode == 'predict':
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            return logs, outputs
        return logs

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    def summary(self, input_size=None, dtype=None):
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        """Prints a string summary of the network.

        Args:
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            input_size (tuple|InputSpec|list[tuple|InputSpec], optional): size of input tensor.
                    if not set, input_size will get from ``self._inputs`` if network only have
                    one input, input_size can be tuple or InputSpec. if model have multiple
                    input, input_size must be a list which contain every input's shape.
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                    Default: None.
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            dtype (str, optional): if dtype is None, 'float32' will be used, Default: None.
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        Returns:
            Dict: a summary of the network including total params and total trainable params.

        Examples:
            .. code-block:: python
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                import paddle
                from paddle.static import InputSpec

                input = InputSpec([None, 1, 28, 28], 'float32', 'image')
                label = InputSpec([None, 1], 'int64', 'label')
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                model = paddle.Model(paddle.vision.models.LeNet(),
                    input, label)
                optim = paddle.optimizer.Adam(
                    learning_rate=0.001, parameters=model.parameters())
                model.prepare(
                    optim,
                    paddle.nn.CrossEntropyLoss())

                params_info = model.summary()
                print(params_info)
                # {'total_params': 61610, 'trainable_params': 61610}
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        """
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        assert (
            input_size is not None or self._inputs is not None
        ), "'input_size' or 'self._input' must be set"
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        if input_size is not None:
            _input_size = input_size
        else:
            _input_size = self._inputs
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        return summary(self.network, _input_size, dtypes=dtype)
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    def _verify_spec(self, specs, shapes=None, dtypes=None, is_input=False):
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        out_specs = []

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        if specs is None:
            # Note(Aurelius84): If not specific specs of `Input`, using argument names of `forward` function
            # to generate `Input`. But how can we know the actual shape of each input tensor?

            if is_input:
                arg_names = extract_args(self.network.forward)[1:]
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                # While Saving inference model in dygraph, and providing inputs only in running.
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                if (
                    shapes is not None
                    and dtypes is not None
                    and fluid._non_static_mode()
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                ):
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                    out_specs = [
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                        Input(name=n, dtype=dtypes[i], shape=shapes[i])
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                        for i, n in enumerate(arg_names)
                    ]
                else:
                    out_specs = [Input(name=n, shape=[None]) for n in arg_names]
            else:
                out_specs = to_list(specs)
        elif isinstance(specs, dict):
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            assert is_input is False
            out_specs = [
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                specs[n]
                for n in extract_args(self.network.forward)
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                if n != 'self'
            ]
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        else:
            out_specs = to_list(specs)
        # Note: checks each element has specificed `name`.
        if out_specs is not None:
            for i, spec in enumerate(out_specs):
                assert isinstance(spec, Input)
                if spec.name is None:
                    raise ValueError(
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                        "Requires Input[{}].name != None, but receive `None` with {}.".format(
                            i, spec
                        )
                    )
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        return out_specs

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    def _reset_metrics(self):
        for metric in self._metrics:
            metric.reset()

    def _metrics_name(self):
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        metrics_name = ['loss'] if self._loss else []
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        for m in self._metrics:
            metrics_name.extend(to_list(m.name()))
        return metrics_name

    def _len_data_loader(self, data_loader):
        try:
            steps = len(data_loader)
        except Exception:
            steps = None
        return steps
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    def _update_inputs(self):
        "Update self._inputs according to given inputs."
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        self._input_info = self._adapter._input_info
        if self._input_info is not None and len(self._input_info) == 2:
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            self._inputs = self._verify_spec(
                None, self._input_info[0], self._input_info[1], True
            )
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            self._is_shape_inferred = True